XercesInitializer::XercesInitializer() (DianaXmlDAESO.cpp:59) ExampleESO::ExampleESO() (Example.cpp:38) ==>PetriMetaSensSolver() <==PetriMetaSensSolver() ==>Initialize() <==Initialize() Diana::MemoryReportingInterface::MemoryReportingInterface() (DianaReporting.cpp:101) ==>Solve() PetriMetaSens bStartSimulation == TRUE bCalculateConsistentIC == TRUE ==>RecalculateIC() Rebuilding Parjac structure <==RecalculateIC() Enter main loop T = 0.000000 Tnext = 0.005000 Time: 0.00000e+00 states: [ 0.00000e+00 0.00000e+00] derivs: [ 0.00000e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.005000 pESO->GetIndependentVar(): 0.005000 ==>IsSwitchingOccur() prevPhis[ 0]=5.000000, nextPhis[ 0]=5.005044 prevPhis[ 1]=1.000000, nextPhis[ 1]=0.994956 <==IsSwitchingOccur() T = 0.005000 Tnext = 0.010000 Time: 5.00000e-03 states: [ 1.46716e-05 5.00000e-03] derivs: [ 5.49964e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.010000 pESO->GetIndependentVar(): 0.010000 ==>IsSwitchingOccur() prevPhis[ 0]=5.005044, nextPhis[ 0]=5.010163 prevPhis[ 1]=0.994956, nextPhis[ 1]=0.989837 <==IsSwitchingOccur() T = 0.010000 Tnext = 0.015000 Time: 1.00000e-02 states: [ 5.43432e-05 1.00000e-02] derivs: [ 1.04996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.015000 pESO->GetIndependentVar(): 0.015000 ==>IsSwitchingOccur() prevPhis[ 0]=5.010163, nextPhis[ 0]=5.015357 prevPhis[ 1]=0.989837, nextPhis[ 1]=0.984643 <==IsSwitchingOccur() T = 0.015000 Tnext = 0.020000 Time: 1.50000e-02 states: [ 1.19015e-04 1.50000e-02] derivs: [ 1.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.020000 pESO->GetIndependentVar(): 0.020000 ==>IsSwitchingOccur() prevPhis[ 0]=5.015357, nextPhis[ 0]=5.020626 prevPhis[ 1]=0.984643, nextPhis[ 1]=0.979374 <==IsSwitchingOccur() T = 0.020000 Tnext = 0.025000 Time: 2.00000e-02 states: [ 2.08686e-04 2.00000e-02] derivs: [ 2.04996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.025000 pESO->GetIndependentVar(): 0.025000 ==>IsSwitchingOccur() prevPhis[ 0]=5.020626, nextPhis[ 0]=5.025970 prevPhis[ 1]=0.979374, nextPhis[ 1]=0.974030 <==IsSwitchingOccur() T = 0.025000 Tnext = 0.030000 Time: 2.50000e-02 states: [ 3.23358e-04 2.50000e-02] derivs: [ 2.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.030000 pESO->GetIndependentVar(): 0.030000 ==>IsSwitchingOccur() prevPhis[ 0]=5.025970, nextPhis[ 0]=5.031389 prevPhis[ 1]=0.974030, nextPhis[ 1]=0.968611 <==IsSwitchingOccur() T = 0.030000 Tnext = 0.035000 Time: 3.00000e-02 states: [ 4.63029e-04 3.00000e-02] derivs: [ 3.04996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.035000 pESO->GetIndependentVar(): 0.035000 ==>IsSwitchingOccur() prevPhis[ 0]=5.031389, nextPhis[ 0]=5.036883 prevPhis[ 1]=0.968611, nextPhis[ 1]=0.963117 <==IsSwitchingOccur() T = 0.035000 Tnext = 0.040000 Time: 3.50000e-02 states: [ 6.27701e-04 3.50000e-02] derivs: [ 3.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.040000 pESO->GetIndependentVar(): 0.040000 ==>IsSwitchingOccur() prevPhis[ 0]=5.036883, nextPhis[ 0]=5.042452 prevPhis[ 1]=0.963117, nextPhis[ 1]=0.957548 <==IsSwitchingOccur() T = 0.040000 Tnext = 0.045000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.045000 pESO->GetIndependentVar(): 0.045000 ==>IsSwitchingOccur() prevPhis[ 0]=5.042452, nextPhis[ 0]=5.048096 prevPhis[ 1]=0.957548, nextPhis[ 1]=0.951904 <==IsSwitchingOccur() T = 0.045000 Tnext = 0.050000 Time: 4.50000e-02 states: [ 1.03204e-03 4.50000e-02] derivs: [ 4.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.050000 pESO->GetIndependentVar(): 0.050000 ==>IsSwitchingOccur() prevPhis[ 0]=5.048096, nextPhis[ 0]=5.053815 prevPhis[ 1]=0.951904, nextPhis[ 1]=0.946185 <==IsSwitchingOccur() T = 0.050000 Tnext = 0.055000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.055000 pESO->GetIndependentVar(): 0.055000 ==>IsSwitchingOccur() prevPhis[ 0]=5.053815, nextPhis[ 0]=5.059609 prevPhis[ 1]=0.946185, nextPhis[ 1]=0.940391 <==IsSwitchingOccur() T = 0.055000 Tnext = 0.060000 Time: 5.50000e-02 states: [ 1.53639e-03 5.50000e-02] derivs: [ 5.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.060000 pESO->GetIndependentVar(): 0.060000 ==>IsSwitchingOccur() prevPhis[ 0]=5.059609, nextPhis[ 0]=5.065478 prevPhis[ 1]=0.940391, nextPhis[ 1]=0.934522 <==IsSwitchingOccur() T = 0.060000 Tnext = 0.065000 Time: 6.00000e-02 states: [ 1.82606e-03 6.00000e-02] derivs: [ 6.04996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.065000 pESO->GetIndependentVar(): 0.065000 ==>IsSwitchingOccur() prevPhis[ 0]=5.065478, nextPhis[ 0]=5.071422 prevPhis[ 1]=0.934522, nextPhis[ 1]=0.928578 <==IsSwitchingOccur() T = 0.065000 Tnext = 0.070000 Time: 6.50000e-02 states: [ 2.14073e-03 6.50000e-02] derivs: [ 6.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.070000 pESO->GetIndependentVar(): 0.070000 ==>IsSwitchingOccur() prevPhis[ 0]=5.071422, nextPhis[ 0]=5.077441 prevPhis[ 1]=0.928578, nextPhis[ 1]=0.922559 <==IsSwitchingOccur() T = 0.070000 Tnext = 0.075000 Time: 7.00000e-02 states: [ 2.48040e-03 7.00000e-02] derivs: [ 7.04996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.075000 pESO->GetIndependentVar(): 0.075000 ==>IsSwitchingOccur() prevPhis[ 0]=5.077441, nextPhis[ 0]=5.083535 prevPhis[ 1]=0.922559, nextPhis[ 1]=0.916465 <==IsSwitchingOccur() T = 0.075000 Tnext = 0.080000 Time: 7.50000e-02 states: [ 2.84507e-03 7.50000e-02] derivs: [ 7.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.080000 pESO->GetIndependentVar(): 0.080000 ==>IsSwitchingOccur() prevPhis[ 0]=5.083535, nextPhis[ 0]=5.089704 prevPhis[ 1]=0.916465, nextPhis[ 1]=0.910296 <==IsSwitchingOccur() T = 0.080000 Tnext = 0.085000 Time: 8.00000e-02 states: [ 3.23475e-03 8.00000e-02] derivs: [ 8.04996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.085000 pESO->GetIndependentVar(): 0.085000 ==>IsSwitchingOccur() prevPhis[ 0]=5.089704, nextPhis[ 0]=5.095948 prevPhis[ 1]=0.910296, nextPhis[ 1]=0.904052 <==IsSwitchingOccur() T = 0.085000 Tnext = 0.090000 Time: 8.50000e-02 states: [ 3.64942e-03 8.50000e-02] derivs: [ 8.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.090000 pESO->GetIndependentVar(): 0.090000 ==>IsSwitchingOccur() prevPhis[ 0]=5.095948, nextPhis[ 0]=5.102267 prevPhis[ 1]=0.904052, nextPhis[ 1]=0.897733 <==IsSwitchingOccur() T = 0.090000 Tnext = 0.095000 Time: 9.00000e-02 states: [ 4.08909e-03 9.00000e-02] derivs: [ 9.04996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.095000 pESO->GetIndependentVar(): 0.095000 ==>IsSwitchingOccur() prevPhis[ 0]=5.102267, nextPhis[ 0]=5.108661 prevPhis[ 1]=0.897733, nextPhis[ 1]=0.891339 <==IsSwitchingOccur() T = 0.095000 Tnext = 0.100000 Time: 9.50000e-02 states: [ 4.55376e-03 9.50000e-02] derivs: [ 9.54996e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.100000 pESO->GetIndependentVar(): 0.100000 ==>IsSwitchingOccur() prevPhis[ 0]=5.108661, nextPhis[ 0]=5.115130 prevPhis[ 1]=0.891339, nextPhis[ 1]=0.884870 <==IsSwitchingOccur() T = 0.100000 Tnext = 0.105000 Time: 1.00000e-01 states: [ 5.04343e-03 1.00000e-01] derivs: [ 1.00500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.105000 pESO->GetIndependentVar(): 0.105000 ==>IsSwitchingOccur() prevPhis[ 0]=5.115130, nextPhis[ 0]=5.121674 prevPhis[ 1]=0.884870, nextPhis[ 1]=0.878326 <==IsSwitchingOccur() T = 0.105000 Tnext = 0.110000 Time: 1.05000e-01 states: [ 5.55810e-03 1.05000e-01] derivs: [ 1.05500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.110000 pESO->GetIndependentVar(): 0.110000 ==>IsSwitchingOccur() prevPhis[ 0]=5.121674, nextPhis[ 0]=5.128293 prevPhis[ 1]=0.878326, nextPhis[ 1]=0.871707 <==IsSwitchingOccur() T = 0.110000 Tnext = 0.115000 Time: 1.10000e-01 states: [ 6.09778e-03 1.10000e-01] derivs: [ 1.10500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.115000 pESO->GetIndependentVar(): 0.115000 ==>IsSwitchingOccur() prevPhis[ 0]=5.128293, nextPhis[ 0]=5.134987 prevPhis[ 1]=0.871707, nextPhis[ 1]=0.865013 <==IsSwitchingOccur() T = 0.115000 Tnext = 0.120000 Time: 1.15000e-01 states: [ 6.66245e-03 1.15000e-01] derivs: [ 1.15500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.120000 pESO->GetIndependentVar(): 0.120000 ==>IsSwitchingOccur() prevPhis[ 0]=5.134987, nextPhis[ 0]=5.141756 prevPhis[ 1]=0.865013, nextPhis[ 1]=0.858244 <==IsSwitchingOccur() T = 0.120000 Tnext = 0.125000 Time: 1.20000e-01 states: [ 7.25212e-03 1.20000e-01] derivs: [ 1.20500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.125000 pESO->GetIndependentVar(): 0.125000 ==>IsSwitchingOccur() prevPhis[ 0]=5.141756, nextPhis[ 0]=5.148600 prevPhis[ 1]=0.858244, nextPhis[ 1]=0.851400 <==IsSwitchingOccur() T = 0.125000 Tnext = 0.130000 Time: 1.25000e-01 states: [ 7.86679e-03 1.25000e-01] derivs: [ 1.25500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.130000 pESO->GetIndependentVar(): 0.130000 ==>IsSwitchingOccur() prevPhis[ 0]=5.148600, nextPhis[ 0]=5.155519 prevPhis[ 1]=0.851400, nextPhis[ 1]=0.844481 <==IsSwitchingOccur() T = 0.130000 Tnext = 0.135000 Time: 1.30000e-01 states: [ 8.50646e-03 1.30000e-01] derivs: [ 1.30500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.135000 pESO->GetIndependentVar(): 0.135000 ==>IsSwitchingOccur() prevPhis[ 0]=5.155519, nextPhis[ 0]=5.162513 prevPhis[ 1]=0.844481, nextPhis[ 1]=0.837487 <==IsSwitchingOccur() T = 0.135000 Tnext = 0.140000 Time: 1.35000e-01 states: [ 9.17113e-03 1.35000e-01] derivs: [ 1.35500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.140000 pESO->GetIndependentVar(): 0.140000 ==>IsSwitchingOccur() prevPhis[ 0]=5.162513, nextPhis[ 0]=5.169582 prevPhis[ 1]=0.837487, nextPhis[ 1]=0.830418 <==IsSwitchingOccur() T = 0.140000 Tnext = 0.145000 Time: 1.40000e-01 states: [ 9.86080e-03 1.40000e-01] derivs: [ 1.40500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.145000 pESO->GetIndependentVar(): 0.145000 ==>IsSwitchingOccur() prevPhis[ 0]=5.169582, nextPhis[ 0]=5.176726 prevPhis[ 1]=0.830418, nextPhis[ 1]=0.823274 <==IsSwitchingOccur() T = 0.145000 Tnext = 0.150000 Time: 1.45000e-01 states: [ 1.05755e-02 1.45000e-01] derivs: [ 1.45500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.150000 pESO->GetIndependentVar(): 0.150000 ==>IsSwitchingOccur() prevPhis[ 0]=5.176726, nextPhis[ 0]=5.183945 prevPhis[ 1]=0.823274, nextPhis[ 1]=0.816055 <==IsSwitchingOccur() T = 0.150000 Tnext = 0.155000 Time: 1.50000e-01 states: [ 1.13151e-02 1.50000e-01] derivs: [ 1.50500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.155000 pESO->GetIndependentVar(): 0.155000 ==>IsSwitchingOccur() prevPhis[ 0]=5.183945, nextPhis[ 0]=5.191239 prevPhis[ 1]=0.816055, nextPhis[ 1]=0.808761 <==IsSwitchingOccur() T = 0.155000 Tnext = 0.160000 Time: 1.55000e-01 states: [ 1.20798e-02 1.55000e-01] derivs: [ 1.55500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.160000 pESO->GetIndependentVar(): 0.160000 ==>IsSwitchingOccur() prevPhis[ 0]=5.191239, nextPhis[ 0]=5.198608 prevPhis[ 1]=0.808761, nextPhis[ 1]=0.801392 <==IsSwitchingOccur() T = 0.160000 Tnext = 0.165000 Time: 1.60000e-01 states: [ 1.28695e-02 1.60000e-01] derivs: [ 1.60500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.165000 pESO->GetIndependentVar(): 0.165000 ==>IsSwitchingOccur() prevPhis[ 0]=5.198608, nextPhis[ 0]=5.206052 prevPhis[ 1]=0.801392, nextPhis[ 1]=0.793948 <==IsSwitchingOccur() T = 0.165000 Tnext = 0.170000 Time: 1.65000e-01 states: [ 1.36842e-02 1.65000e-01] derivs: [ 1.65500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.170000 pESO->GetIndependentVar(): 0.170000 ==>IsSwitchingOccur() prevPhis[ 0]=5.206052, nextPhis[ 0]=5.213572 prevPhis[ 1]=0.793948, nextPhis[ 1]=0.786428 <==IsSwitchingOccur() T = 0.170000 Tnext = 0.175000 Time: 1.70000e-01 states: [ 1.45238e-02 1.70000e-01] derivs: [ 1.70500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.175000 pESO->GetIndependentVar(): 0.175000 ==>IsSwitchingOccur() prevPhis[ 0]=5.213572, nextPhis[ 0]=5.221166 prevPhis[ 1]=0.786428, nextPhis[ 1]=0.778834 <==IsSwitchingOccur() T = 0.175000 Tnext = 0.180000 Time: 1.75000e-01 states: [ 1.53885e-02 1.75000e-01] derivs: [ 1.75500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.180000 pESO->GetIndependentVar(): 0.180000 ==>IsSwitchingOccur() prevPhis[ 0]=5.221166, nextPhis[ 0]=5.228835 prevPhis[ 1]=0.778834, nextPhis[ 1]=0.771165 <==IsSwitchingOccur() T = 0.180000 Tnext = 0.185000 Time: 1.80000e-01 states: [ 1.62782e-02 1.80000e-01] derivs: [ 1.80500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.185000 pESO->GetIndependentVar(): 0.185000 ==>IsSwitchingOccur() prevPhis[ 0]=5.228835, nextPhis[ 0]=5.236579 prevPhis[ 1]=0.771165, nextPhis[ 1]=0.763421 <==IsSwitchingOccur() T = 0.185000 Tnext = 0.190000 Time: 1.85000e-01 states: [ 1.71928e-02 1.85000e-01] derivs: [ 1.85500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.190000 pESO->GetIndependentVar(): 0.190000 ==>IsSwitchingOccur() prevPhis[ 0]=5.236579, nextPhis[ 0]=5.244398 prevPhis[ 1]=0.763421, nextPhis[ 1]=0.755602 <==IsSwitchingOccur() T = 0.190000 Tnext = 0.195000 Time: 1.90000e-01 states: [ 1.81325e-02 1.90000e-01] derivs: [ 1.90500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.195000 pESO->GetIndependentVar(): 0.195000 ==>IsSwitchingOccur() prevPhis[ 0]=5.244398, nextPhis[ 0]=5.252292 prevPhis[ 1]=0.755602, nextPhis[ 1]=0.747708 <==IsSwitchingOccur() T = 0.195000 Tnext = 0.200000 Time: 1.95000e-01 states: [ 1.90972e-02 1.95000e-01] derivs: [ 1.95500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.200000 pESO->GetIndependentVar(): 0.200000 ==>IsSwitchingOccur() prevPhis[ 0]=5.252292, nextPhis[ 0]=5.260261 prevPhis[ 1]=0.747708, nextPhis[ 1]=0.739739 <==IsSwitchingOccur() T = 0.200000 Tnext = 0.205000 Time: 2.00000e-01 states: [ 2.00869e-02 2.00000e-01] derivs: [ 2.00500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.205000 pESO->GetIndependentVar(): 0.205000 ==>IsSwitchingOccur() prevPhis[ 0]=5.260261, nextPhis[ 0]=5.268305 prevPhis[ 1]=0.739739, nextPhis[ 1]=0.731695 <==IsSwitchingOccur() T = 0.205000 Tnext = 0.210000 Time: 2.05000e-01 states: [ 2.11015e-02 2.05000e-01] derivs: [ 2.05500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.210000 pESO->GetIndependentVar(): 0.210000 ==>IsSwitchingOccur() prevPhis[ 0]=5.268305, nextPhis[ 0]=5.276424 prevPhis[ 1]=0.731695, nextPhis[ 1]=0.723576 <==IsSwitchingOccur() T = 0.210000 Tnext = 0.215000 Time: 2.10000e-01 states: [ 2.21412e-02 2.10000e-01] derivs: [ 2.10500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.215000 pESO->GetIndependentVar(): 0.215000 ==>IsSwitchingOccur() prevPhis[ 0]=5.276424, nextPhis[ 0]=5.284618 prevPhis[ 1]=0.723576, nextPhis[ 1]=0.715382 <==IsSwitchingOccur() T = 0.215000 Tnext = 0.220000 Time: 2.15000e-01 states: [ 2.32059e-02 2.15000e-01] derivs: [ 2.15500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.220000 pESO->GetIndependentVar(): 0.220000 ==>IsSwitchingOccur() prevPhis[ 0]=5.284618, nextPhis[ 0]=5.292887 prevPhis[ 1]=0.715382, nextPhis[ 1]=0.707113 <==IsSwitchingOccur() T = 0.220000 Tnext = 0.225000 Time: 2.20000e-01 states: [ 2.42956e-02 2.20000e-01] derivs: [ 2.20500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.225000 pESO->GetIndependentVar(): 0.225000 ==>IsSwitchingOccur() prevPhis[ 0]=5.292887, nextPhis[ 0]=5.301231 prevPhis[ 1]=0.707113, nextPhis[ 1]=0.698769 <==IsSwitchingOccur() T = 0.225000 Tnext = 0.230000 Time: 2.25000e-01 states: [ 2.54102e-02 2.25000e-01] derivs: [ 2.25500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.230000 pESO->GetIndependentVar(): 0.230000 ==>IsSwitchingOccur() prevPhis[ 0]=5.301231, nextPhis[ 0]=5.309650 prevPhis[ 1]=0.698769, nextPhis[ 1]=0.690350 <==IsSwitchingOccur() T = 0.230000 Tnext = 0.235000 Time: 2.30000e-01 states: [ 2.65499e-02 2.30000e-01] derivs: [ 2.30500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.235000 pESO->GetIndependentVar(): 0.235000 ==>IsSwitchingOccur() prevPhis[ 0]=5.309650, nextPhis[ 0]=5.318144 prevPhis[ 1]=0.690350, nextPhis[ 1]=0.681856 <==IsSwitchingOccur() T = 0.235000 Tnext = 0.240000 Time: 2.35000e-01 states: [ 2.77146e-02 2.35000e-01] derivs: [ 2.35500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.240000 pESO->GetIndependentVar(): 0.240000 ==>IsSwitchingOccur() prevPhis[ 0]=5.318144, nextPhis[ 0]=5.326713 prevPhis[ 1]=0.681856, nextPhis[ 1]=0.673287 <==IsSwitchingOccur() T = 0.240000 Tnext = 0.245000 Time: 2.40000e-01 states: [ 2.89042e-02 2.40000e-01] derivs: [ 2.40500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.245000 pESO->GetIndependentVar(): 0.245000 ==>IsSwitchingOccur() prevPhis[ 0]=5.326713, nextPhis[ 0]=5.335357 prevPhis[ 1]=0.673287, nextPhis[ 1]=0.664643 <==IsSwitchingOccur() T = 0.245000 Tnext = 0.250000 Time: 2.45000e-01 states: [ 3.01189e-02 2.45000e-01] derivs: [ 2.45500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.250000 pESO->GetIndependentVar(): 0.250000 ==>IsSwitchingOccur() prevPhis[ 0]=5.335357, nextPhis[ 0]=5.344076 prevPhis[ 1]=0.664643, nextPhis[ 1]=0.655924 <==IsSwitchingOccur() T = 0.250000 Tnext = 0.255000 Time: 2.50000e-01 states: [ 3.13586e-02 2.50000e-01] derivs: [ 2.50500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.255000 pESO->GetIndependentVar(): 0.255000 ==>IsSwitchingOccur() prevPhis[ 0]=5.344076, nextPhis[ 0]=5.352870 prevPhis[ 1]=0.655924, nextPhis[ 1]=0.647130 <==IsSwitchingOccur() T = 0.255000 Tnext = 0.260000 Time: 2.55000e-01 states: [ 3.26233e-02 2.55000e-01] derivs: [ 2.55500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.260000 pESO->GetIndependentVar(): 0.260000 ==>IsSwitchingOccur() prevPhis[ 0]=5.352870, nextPhis[ 0]=5.361739 prevPhis[ 1]=0.647130, nextPhis[ 1]=0.638261 <==IsSwitchingOccur() T = 0.260000 Tnext = 0.265000 Time: 2.60000e-01 states: [ 3.39129e-02 2.60000e-01] derivs: [ 2.60500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.265000 pESO->GetIndependentVar(): 0.265000 ==>IsSwitchingOccur() prevPhis[ 0]=5.361739, nextPhis[ 0]=5.370683 prevPhis[ 1]=0.638261, nextPhis[ 1]=0.629317 <==IsSwitchingOccur() T = 0.265000 Tnext = 0.270000 Time: 2.65000e-01 states: [ 3.52276e-02 2.65000e-01] derivs: [ 2.65500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.270000 pESO->GetIndependentVar(): 0.270000 ==>IsSwitchingOccur() prevPhis[ 0]=5.370683, nextPhis[ 0]=5.379702 prevPhis[ 1]=0.629317, nextPhis[ 1]=0.620298 <==IsSwitchingOccur() T = 0.270000 Tnext = 0.275000 Time: 2.70000e-01 states: [ 3.65673e-02 2.70000e-01] derivs: [ 2.70500e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.275000 pESO->GetIndependentVar(): 0.275000 ==>IsSwitchingOccur() prevPhis[ 0]=5.379702, nextPhis[ 0]=5.388796 prevPhis[ 1]=0.620298, nextPhis[ 1]=0.611204 <==IsSwitchingOccur() T = 0.275000 Tnext = 0.280000 Time: 2.75000e-01 states: [ 3.79318e-02 2.75000e-01] derivs: [ 2.75349e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.280000 pESO->GetIndependentVar(): 0.280000 ==>IsSwitchingOccur() prevPhis[ 0]=5.388796, nextPhis[ 0]=5.397964 prevPhis[ 1]=0.611204, nextPhis[ 1]=0.602036 <==IsSwitchingOccur() T = 0.280000 Tnext = 0.285000 Time: 2.80000e-01 states: [ 3.93214e-02 2.80000e-01] derivs: [ 2.80235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.285000 pESO->GetIndependentVar(): 0.285000 ==>IsSwitchingOccur() prevPhis[ 0]=5.397964, nextPhis[ 0]=5.407208 prevPhis[ 1]=0.602036, nextPhis[ 1]=0.592792 <==IsSwitchingOccur() T = 0.285000 Tnext = 0.290000 Time: 2.85000e-01 states: [ 4.07360e-02 2.85000e-01] derivs: [ 2.85235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.290000 pESO->GetIndependentVar(): 0.290000 ==>IsSwitchingOccur() prevPhis[ 0]=5.407208, nextPhis[ 0]=5.416527 prevPhis[ 1]=0.592792, nextPhis[ 1]=0.583473 <==IsSwitchingOccur() T = 0.290000 Tnext = 0.295000 Time: 2.90000e-01 states: [ 4.21756e-02 2.90000e-01] derivs: [ 2.90235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.295000 pESO->GetIndependentVar(): 0.295000 ==>IsSwitchingOccur() prevPhis[ 0]=5.416527, nextPhis[ 0]=5.425921 prevPhis[ 1]=0.583473, nextPhis[ 1]=0.574079 <==IsSwitchingOccur() T = 0.295000 Tnext = 0.300000 Time: 2.95000e-01 states: [ 4.36402e-02 2.95000e-01] derivs: [ 2.95235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.300000 pESO->GetIndependentVar(): 0.300000 ==>IsSwitchingOccur() prevPhis[ 0]=5.425921, nextPhis[ 0]=5.435389 prevPhis[ 1]=0.574079, nextPhis[ 1]=0.564611 <==IsSwitchingOccur() T = 0.300000 Tnext = 0.305000 Time: 3.00000e-01 states: [ 4.51298e-02 3.00000e-01] derivs: [ 3.00235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.305000 pESO->GetIndependentVar(): 0.305000 ==>IsSwitchingOccur() prevPhis[ 0]=5.435389, nextPhis[ 0]=5.444933 prevPhis[ 1]=0.564611, nextPhis[ 1]=0.555067 <==IsSwitchingOccur() T = 0.305000 Tnext = 0.310000 Time: 3.05000e-01 states: [ 4.66444e-02 3.05000e-01] derivs: [ 3.05235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.310000 pESO->GetIndependentVar(): 0.310000 ==>IsSwitchingOccur() prevPhis[ 0]=5.444933, nextPhis[ 0]=5.454552 prevPhis[ 1]=0.555067, nextPhis[ 1]=0.545448 <==IsSwitchingOccur() T = 0.310000 Tnext = 0.315000 Time: 3.10000e-01 states: [ 4.81840e-02 3.10000e-01] derivs: [ 3.10235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.315000 pESO->GetIndependentVar(): 0.315000 ==>IsSwitchingOccur() prevPhis[ 0]=5.454552, nextPhis[ 0]=5.464246 prevPhis[ 1]=0.545448, nextPhis[ 1]=0.535754 <==IsSwitchingOccur() T = 0.315000 Tnext = 0.320000 Time: 3.15000e-01 states: [ 4.97486e-02 3.15000e-01] derivs: [ 3.15235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.320000 pESO->GetIndependentVar(): 0.320000 ==>IsSwitchingOccur() prevPhis[ 0]=5.464246, nextPhis[ 0]=5.474015 prevPhis[ 1]=0.535754, nextPhis[ 1]=0.525985 <==IsSwitchingOccur() T = 0.320000 Tnext = 0.325000 Time: 3.20000e-01 states: [ 5.13382e-02 3.20000e-01] derivs: [ 3.20235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.325000 pESO->GetIndependentVar(): 0.325000 ==>IsSwitchingOccur() prevPhis[ 0]=5.474015, nextPhis[ 0]=5.483858 prevPhis[ 1]=0.525985, nextPhis[ 1]=0.516142 <==IsSwitchingOccur() T = 0.325000 Tnext = 0.330000 Time: 3.25000e-01 states: [ 5.29528e-02 3.25000e-01] derivs: [ 3.25235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.330000 pESO->GetIndependentVar(): 0.330000 ==>IsSwitchingOccur() prevPhis[ 0]=5.483858, nextPhis[ 0]=5.493777 prevPhis[ 1]=0.516142, nextPhis[ 1]=0.506223 <==IsSwitchingOccur() T = 0.330000 Tnext = 0.335000 Time: 3.30000e-01 states: [ 5.45924e-02 3.30000e-01] derivs: [ 3.30235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.335000 pESO->GetIndependentVar(): 0.335000 ==>IsSwitchingOccur() prevPhis[ 0]=5.493777, nextPhis[ 0]=5.503771 prevPhis[ 1]=0.506223, nextPhis[ 1]=0.496229 <==IsSwitchingOccur() T = 0.335000 Tnext = 0.340000 Time: 3.35000e-01 states: [ 5.62570e-02 3.35000e-01] derivs: [ 3.35235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.340000 pESO->GetIndependentVar(): 0.340000 ==>IsSwitchingOccur() prevPhis[ 0]=5.503771, nextPhis[ 0]=5.513840 prevPhis[ 1]=0.496229, nextPhis[ 1]=0.486160 <==IsSwitchingOccur() T = 0.340000 Tnext = 0.345000 Time: 3.40000e-01 states: [ 5.79465e-02 3.40000e-01] derivs: [ 3.40235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.345000 pESO->GetIndependentVar(): 0.345000 ==>IsSwitchingOccur() prevPhis[ 0]=5.513840, nextPhis[ 0]=5.523983 prevPhis[ 1]=0.486160, nextPhis[ 1]=0.476017 <==IsSwitchingOccur() T = 0.345000 Tnext = 0.350000 Time: 3.45000e-01 states: [ 5.96611e-02 3.45000e-01] derivs: [ 3.45235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.350000 pESO->GetIndependentVar(): 0.350000 ==>IsSwitchingOccur() prevPhis[ 0]=5.523983, nextPhis[ 0]=5.534202 prevPhis[ 1]=0.476017, nextPhis[ 1]=0.465798 <==IsSwitchingOccur() T = 0.350000 Tnext = 0.355000 Time: 3.50000e-01 states: [ 6.14007e-02 3.50000e-01] derivs: [ 3.50235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.355000 pESO->GetIndependentVar(): 0.355000 ==>IsSwitchingOccur() prevPhis[ 0]=5.534202, nextPhis[ 0]=5.544496 prevPhis[ 1]=0.465798, nextPhis[ 1]=0.455504 <==IsSwitchingOccur() T = 0.355000 Tnext = 0.360000 Time: 3.55000e-01 states: [ 6.31653e-02 3.55000e-01] derivs: [ 3.55235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.360000 pESO->GetIndependentVar(): 0.360000 ==>IsSwitchingOccur() prevPhis[ 0]=5.544496, nextPhis[ 0]=5.554865 prevPhis[ 1]=0.455504, nextPhis[ 1]=0.445135 <==IsSwitchingOccur() T = 0.360000 Tnext = 0.365000 Time: 3.60000e-01 states: [ 6.49549e-02 3.60000e-01] derivs: [ 3.60235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.365000 pESO->GetIndependentVar(): 0.365000 ==>IsSwitchingOccur() prevPhis[ 0]=5.554865, nextPhis[ 0]=5.565309 prevPhis[ 1]=0.445135, nextPhis[ 1]=0.434691 <==IsSwitchingOccur() T = 0.365000 Tnext = 0.370000 Time: 3.65000e-01 states: [ 6.67695e-02 3.65000e-01] derivs: [ 3.65235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.370000 pESO->GetIndependentVar(): 0.370000 ==>IsSwitchingOccur() prevPhis[ 0]=5.565309, nextPhis[ 0]=5.575827 prevPhis[ 1]=0.434691, nextPhis[ 1]=0.424173 <==IsSwitchingOccur() T = 0.370000 Tnext = 0.375000 Time: 3.70000e-01 states: [ 6.86091e-02 3.70000e-01] derivs: [ 3.70235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.375000 pESO->GetIndependentVar(): 0.375000 ==>IsSwitchingOccur() prevPhis[ 0]=5.575827, nextPhis[ 0]=5.586421 prevPhis[ 1]=0.424173, nextPhis[ 1]=0.413579 <==IsSwitchingOccur() T = 0.375000 Tnext = 0.380000 Time: 3.75000e-01 states: [ 7.04737e-02 3.75000e-01] derivs: [ 3.75235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.380000 pESO->GetIndependentVar(): 0.380000 ==>IsSwitchingOccur() prevPhis[ 0]=5.586421, nextPhis[ 0]=5.597090 prevPhis[ 1]=0.413579, nextPhis[ 1]=0.402910 <==IsSwitchingOccur() T = 0.380000 Tnext = 0.385000 Time: 3.80000e-01 states: [ 7.23633e-02 3.80000e-01] derivs: [ 3.80235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.385000 pESO->GetIndependentVar(): 0.385000 ==>IsSwitchingOccur() prevPhis[ 0]=5.597090, nextPhis[ 0]=5.607834 prevPhis[ 1]=0.402910, nextPhis[ 1]=0.392166 <==IsSwitchingOccur() T = 0.385000 Tnext = 0.390000 Time: 3.85000e-01 states: [ 7.42779e-02 3.85000e-01] derivs: [ 3.85235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.390000 pESO->GetIndependentVar(): 0.390000 ==>IsSwitchingOccur() prevPhis[ 0]=5.607834, nextPhis[ 0]=5.618652 prevPhis[ 1]=0.392166, nextPhis[ 1]=0.381348 <==IsSwitchingOccur() T = 0.390000 Tnext = 0.395000 Time: 3.90000e-01 states: [ 7.62175e-02 3.90000e-01] derivs: [ 3.90235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.395000 pESO->GetIndependentVar(): 0.395000 ==>IsSwitchingOccur() prevPhis[ 0]=5.618652, nextPhis[ 0]=5.629546 prevPhis[ 1]=0.381348, nextPhis[ 1]=0.370454 <==IsSwitchingOccur() T = 0.395000 Tnext = 0.400000 Time: 3.95000e-01 states: [ 7.81821e-02 3.95000e-01] derivs: [ 3.95235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.400000 pESO->GetIndependentVar(): 0.400000 ==>IsSwitchingOccur() prevPhis[ 0]=5.629546, nextPhis[ 0]=5.640515 prevPhis[ 1]=0.370454, nextPhis[ 1]=0.359485 <==IsSwitchingOccur() T = 0.400000 Tnext = 0.405000 Time: 4.00000e-01 states: [ 8.01717e-02 4.00000e-01] derivs: [ 4.00235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.405000 pESO->GetIndependentVar(): 0.405000 ==>IsSwitchingOccur() prevPhis[ 0]=5.640515, nextPhis[ 0]=5.651559 prevPhis[ 1]=0.359485, nextPhis[ 1]=0.348441 <==IsSwitchingOccur() T = 0.405000 Tnext = 0.410000 Time: 4.05000e-01 states: [ 8.21862e-02 4.05000e-01] derivs: [ 4.05235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.410000 pESO->GetIndependentVar(): 0.410000 ==>IsSwitchingOccur() prevPhis[ 0]=5.651559, nextPhis[ 0]=5.662678 prevPhis[ 1]=0.348441, nextPhis[ 1]=0.337322 <==IsSwitchingOccur() T = 0.410000 Tnext = 0.415000 Time: 4.10000e-01 states: [ 8.42258e-02 4.10000e-01] derivs: [ 4.10235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.415000 pESO->GetIndependentVar(): 0.415000 ==>IsSwitchingOccur() prevPhis[ 0]=5.662678, nextPhis[ 0]=5.673871 prevPhis[ 1]=0.337322, nextPhis[ 1]=0.326129 <==IsSwitchingOccur() T = 0.415000 Tnext = 0.420000 Time: 4.15000e-01 states: [ 8.62904e-02 4.15000e-01] derivs: [ 4.15235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.420000 pESO->GetIndependentVar(): 0.420000 ==>IsSwitchingOccur() prevPhis[ 0]=5.673871, nextPhis[ 0]=5.685140 prevPhis[ 1]=0.326129, nextPhis[ 1]=0.314860 <==IsSwitchingOccur() T = 0.420000 Tnext = 0.425000 Time: 4.20000e-01 states: [ 8.83800e-02 4.20000e-01] derivs: [ 4.20235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.425000 pESO->GetIndependentVar(): 0.425000 ==>IsSwitchingOccur() prevPhis[ 0]=5.685140, nextPhis[ 0]=5.696484 prevPhis[ 1]=0.314860, nextPhis[ 1]=0.303516 <==IsSwitchingOccur() T = 0.425000 Tnext = 0.430000 Time: 4.25000e-01 states: [ 9.04946e-02 4.25000e-01] derivs: [ 4.25235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.430000 pESO->GetIndependentVar(): 0.430000 ==>IsSwitchingOccur() prevPhis[ 0]=5.696484, nextPhis[ 0]=5.707903 prevPhis[ 1]=0.303516, nextPhis[ 1]=0.292097 <==IsSwitchingOccur() T = 0.430000 Tnext = 0.435000 Time: 4.30000e-01 states: [ 9.26342e-02 4.30000e-01] derivs: [ 4.30235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.435000 pESO->GetIndependentVar(): 0.435000 ==>IsSwitchingOccur() prevPhis[ 0]=5.707903, nextPhis[ 0]=5.719396 prevPhis[ 1]=0.292097, nextPhis[ 1]=0.280604 <==IsSwitchingOccur() T = 0.435000 Tnext = 0.440000 Time: 4.35000e-01 states: [ 9.47988e-02 4.35000e-01] derivs: [ 4.35235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.440000 pESO->GetIndependentVar(): 0.440000 ==>IsSwitchingOccur() prevPhis[ 0]=5.719396, nextPhis[ 0]=5.730965 prevPhis[ 1]=0.280604, nextPhis[ 1]=0.269035 <==IsSwitchingOccur() T = 0.440000 Tnext = 0.445000 Time: 4.40000e-01 states: [ 9.69884e-02 4.40000e-01] derivs: [ 4.40235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.445000 pESO->GetIndependentVar(): 0.445000 ==>IsSwitchingOccur() prevPhis[ 0]=5.730965, nextPhis[ 0]=5.742609 prevPhis[ 1]=0.269035, nextPhis[ 1]=0.257391 <==IsSwitchingOccur() T = 0.445000 Tnext = 0.450000 Time: 4.45000e-01 states: [ 9.92030e-02 4.45000e-01] derivs: [ 4.45235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.450000 pESO->GetIndependentVar(): 0.450000 ==>IsSwitchingOccur() prevPhis[ 0]=5.742609, nextPhis[ 0]=5.754328 prevPhis[ 1]=0.257391, nextPhis[ 1]=0.245672 <==IsSwitchingOccur() T = 0.450000 Tnext = 0.455000 Time: 4.50000e-01 states: [ 1.01443e-01 4.50000e-01] derivs: [ 4.50235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.455000 pESO->GetIndependentVar(): 0.455000 ==>IsSwitchingOccur() prevPhis[ 0]=5.754328, nextPhis[ 0]=5.766122 prevPhis[ 1]=0.245672, nextPhis[ 1]=0.233878 <==IsSwitchingOccur() T = 0.455000 Tnext = 0.460000 Time: 4.55000e-01 states: [ 1.03707e-01 4.55000e-01] derivs: [ 4.55235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.460000 pESO->GetIndependentVar(): 0.460000 ==>IsSwitchingOccur() prevPhis[ 0]=5.766122, nextPhis[ 0]=5.777990 prevPhis[ 1]=0.233878, nextPhis[ 1]=0.222010 <==IsSwitchingOccur() T = 0.460000 Tnext = 0.465000 Time: 4.60000e-01 states: [ 1.05997e-01 4.60000e-01] derivs: [ 4.60235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.465000 pESO->GetIndependentVar(): 0.465000 ==>IsSwitchingOccur() prevPhis[ 0]=5.777990, nextPhis[ 0]=5.789934 prevPhis[ 1]=0.222010, nextPhis[ 1]=0.210066 <==IsSwitchingOccur() T = 0.465000 Tnext = 0.470000 Time: 4.65000e-01 states: [ 1.08311e-01 4.65000e-01] derivs: [ 4.65235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.470000 pESO->GetIndependentVar(): 0.470000 ==>IsSwitchingOccur() prevPhis[ 0]=5.789934, nextPhis[ 0]=5.801953 prevPhis[ 1]=0.210066, nextPhis[ 1]=0.198047 <==IsSwitchingOccur() T = 0.470000 Tnext = 0.475000 Time: 4.70000e-01 states: [ 1.10651e-01 4.70000e-01] derivs: [ 4.70235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.475000 pESO->GetIndependentVar(): 0.475000 ==>IsSwitchingOccur() prevPhis[ 0]=5.801953, nextPhis[ 0]=5.814047 prevPhis[ 1]=0.198047, nextPhis[ 1]=0.185953 <==IsSwitchingOccur() T = 0.475000 Tnext = 0.480000 Time: 4.75000e-01 states: [ 1.13016e-01 4.75000e-01] derivs: [ 4.75235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.480000 pESO->GetIndependentVar(): 0.480000 ==>IsSwitchingOccur() prevPhis[ 0]=5.814047, nextPhis[ 0]=5.826215 prevPhis[ 1]=0.185953, nextPhis[ 1]=0.173785 <==IsSwitchingOccur() T = 0.480000 Tnext = 0.485000 Time: 4.80000e-01 states: [ 1.15405e-01 4.80000e-01] derivs: [ 4.80235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.485000 pESO->GetIndependentVar(): 0.485000 ==>IsSwitchingOccur() prevPhis[ 0]=5.826215, nextPhis[ 0]=5.838459 prevPhis[ 1]=0.173785, nextPhis[ 1]=0.161541 <==IsSwitchingOccur() T = 0.485000 Tnext = 0.490000 Time: 4.85000e-01 states: [ 1.17820e-01 4.85000e-01] derivs: [ 4.85235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.490000 pESO->GetIndependentVar(): 0.490000 ==>IsSwitchingOccur() prevPhis[ 0]=5.838459, nextPhis[ 0]=5.850778 prevPhis[ 1]=0.161541, nextPhis[ 1]=0.149222 <==IsSwitchingOccur() T = 0.490000 Tnext = 0.495000 Time: 4.90000e-01 states: [ 1.20259e-01 4.90000e-01] derivs: [ 4.90235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.495000 pESO->GetIndependentVar(): 0.495000 ==>IsSwitchingOccur() prevPhis[ 0]=5.850778, nextPhis[ 0]=5.863172 prevPhis[ 1]=0.149222, nextPhis[ 1]=0.136828 <==IsSwitchingOccur() T = 0.495000 Tnext = 0.500000 Time: 4.95000e-01 states: [ 1.22724e-01 4.95000e-01] derivs: [ 4.95235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.500000 pESO->GetIndependentVar(): 0.500000 ==>IsSwitchingOccur() prevPhis[ 0]=5.863172, nextPhis[ 0]=5.875641 prevPhis[ 1]=0.136828, nextPhis[ 1]=0.124359 <==IsSwitchingOccur() T = 0.500000 Tnext = 0.505000 Time: 5.00000e-01 states: [ 1.25214e-01 5.00000e-01] derivs: [ 5.00235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.505000 pESO->GetIndependentVar(): 0.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.875641, nextPhis[ 0]=5.888184 prevPhis[ 1]=0.124359, nextPhis[ 1]=0.111816 <==IsSwitchingOccur() T = 0.505000 Tnext = 0.510000 Time: 5.05000e-01 states: [ 1.27728e-01 5.05000e-01] derivs: [ 5.05235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.510000 pESO->GetIndependentVar(): 0.510000 ==>IsSwitchingOccur() prevPhis[ 0]=5.888184, nextPhis[ 0]=5.900803 prevPhis[ 1]=0.111816, nextPhis[ 1]=0.099197 <==IsSwitchingOccur() T = 0.510000 Tnext = 0.515000 Time: 5.10000e-01 states: [ 1.30268e-01 5.10000e-01] derivs: [ 5.10235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.515000 pESO->GetIndependentVar(): 0.515000 ==>IsSwitchingOccur() prevPhis[ 0]=5.900803, nextPhis[ 0]=5.913497 prevPhis[ 1]=0.099197, nextPhis[ 1]=0.086503 <==IsSwitchingOccur() T = 0.515000 Tnext = 0.520000 Time: 5.15000e-01 states: [ 1.32832e-01 5.15000e-01] derivs: [ 5.15235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.520000 pESO->GetIndependentVar(): 0.520000 ==>IsSwitchingOccur() prevPhis[ 0]=5.913497, nextPhis[ 0]=5.926266 prevPhis[ 1]=0.086503, nextPhis[ 1]=0.073734 <==IsSwitchingOccur() T = 0.520000 Tnext = 0.525000 Time: 5.20000e-01 states: [ 1.35422e-01 5.20000e-01] derivs: [ 5.20235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.525000 pESO->GetIndependentVar(): 0.525000 ==>IsSwitchingOccur() prevPhis[ 0]=5.926266, nextPhis[ 0]=5.939109 prevPhis[ 1]=0.073734, nextPhis[ 1]=0.060891 <==IsSwitchingOccur() T = 0.525000 Tnext = 0.530000 Time: 5.25000e-01 states: [ 1.38036e-01 5.25000e-01] derivs: [ 5.25235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.530000 pESO->GetIndependentVar(): 0.530000 ==>IsSwitchingOccur() prevPhis[ 0]=5.939109, nextPhis[ 0]=5.952028 prevPhis[ 1]=0.060891, nextPhis[ 1]=0.047972 <==IsSwitchingOccur() T = 0.530000 Tnext = 0.535000 Time: 5.30000e-01 states: [ 1.40676e-01 5.30000e-01] derivs: [ 5.30235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.535000 pESO->GetIndependentVar(): 0.535000 ==>IsSwitchingOccur() prevPhis[ 0]=5.952028, nextPhis[ 0]=5.965022 prevPhis[ 1]=0.047972, nextPhis[ 1]=0.034978 <==IsSwitchingOccur() T = 0.535000 Tnext = 0.540000 Time: 5.35000e-01 states: [ 1.43341e-01 5.35000e-01] derivs: [ 5.35235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.540000 pESO->GetIndependentVar(): 0.540000 ==>IsSwitchingOccur() prevPhis[ 0]=5.965022, nextPhis[ 0]=5.978091 prevPhis[ 1]=0.034978, nextPhis[ 1]=0.021909 <==IsSwitchingOccur() T = 0.540000 Tnext = 0.545000 Time: 5.40000e-01 states: [ 1.46030e-01 5.40000e-01] derivs: [ 5.40235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.545000 pESO->GetIndependentVar(): 0.545000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978091, nextPhis[ 0]=5.991235 prevPhis[ 1]=0.021909, nextPhis[ 1]=0.008765 <==IsSwitchingOccur() T = 0.545000 Tnext = 0.550000 Time: 5.45000e-01 states: [ 1.48745e-01 5.45000e-01] derivs: [ 5.45235e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.550000 pESO->GetIndependentVar(): 0.550000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991235, nextPhis[ 0]=6.004453 prevPhis[ 1]=0.008765, nextPhis[ 1]=-0.004453 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.550000 Phiest = -0.004453 Phiest < 0.0 it = 1 Test = 0.547500 Phiest = -0.011091 Phiest < 0.0 it = 2 Test = 0.546250 Phiest = -0.007769 Phiest < 0.0 it = 3 Test = 0.545625 Phiest = -0.006110 Phiest < 0.0 it = 4 Test = 0.545313 Phiest = -0.005282 Phiest < 0.0 it = 5 Test = 0.545156 Phiest = -0.004867 Phiest < 0.0 it = 6 Test = 0.545078 Phiest = -0.004660 Phiest < 0.0 it = 7 Test = 0.545039 Phiest = -0.004557 Switch time for phi[1] is 0.545039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.148766, 0.545039, 0.000000, 0.000000, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=1.000000 b=-2.635197 dts/dp=[0.379478, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [0.148766, 0.545039, 0.000000, 0.000000, ] AllSensVars (befor 2-nd IC recalculation):[0.148766, 0.545039, 0.000010, 0.758957, ] AllSensDers (befor 2-nd IC recalculation):[0.545039, -1.000000, -0.000000, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[0.148766, 0.545039, 0.000010, 0.758957, ] AllSensDers (after 2-nd IC recalculation):[0.545039, -1.000000, 0.758957, -0.000000, ] <==RecalculateSensIC() T = 0.545000 Tnext = 0.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.550000 pESO->GetIndependentVar(): 0.550000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991337, nextPhis[ 0]=5.994469 prevPhis[ 1]=0.008663, nextPhis[ 1]=0.005531 <==IsSwitchingOccur() T = 0.550000 Tnext = 0.555000 Time: 5.50000e-01 states: [ 1.51477e-01 5.40039e-01] derivs: [ 5.39804e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.555000 pESO->GetIndependentVar(): 0.555000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994469, nextPhis[ 0]=5.997526 prevPhis[ 1]=0.005531, nextPhis[ 1]=0.002474 <==IsSwitchingOccur() T = 0.555000 Tnext = 0.560000 Time: 5.55000e-01 states: [ 1.54162e-01 5.35039e-01] derivs: [ 5.34804e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997526, nextPhis[ 0]=6.000508 prevPhis[ 1]=0.002474, nextPhis[ 1]=-0.000508 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000508 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.001971 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001242 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.000876 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000692 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000600 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000554 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000531 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154183, 0.535000, 0.007629, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.218156 b=-0.604921 dts/dp=[0.360635, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997550, nextPhis[ 0]=6.000531 prevPhis[ 1]=0.002450, nextPhis[ 1]=-0.000531 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000531 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.001993 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001265 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.000899 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000715 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000623 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000577 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000554 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154204, 0.534961, 0.007659, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.218067 b=-0.604803 dts/dp=[0.360558, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997573, nextPhis[ 0]=6.000554 prevPhis[ 1]=0.002427, nextPhis[ 1]=-0.000554 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000554 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002016 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001288 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.000922 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000738 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000646 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000600 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000577 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154225, 0.534922, 0.007689, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217978 b=-0.604686 dts/dp=[0.360481, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997597, nextPhis[ 0]=6.000577 prevPhis[ 1]=0.002403, nextPhis[ 1]=-0.000577 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000577 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002039 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001311 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.000945 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000761 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000669 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000623 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000600 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154246, 0.534883, 0.007718, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217889 b=-0.604569 dts/dp=[0.360403, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997621, nextPhis[ 0]=6.000600 prevPhis[ 1]=0.002379, nextPhis[ 1]=-0.000600 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000600 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002062 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001334 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.000968 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000784 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000692 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000646 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000623 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154267, 0.534844, 0.007748, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217800 b=-0.604452 dts/dp=[0.360326, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997644, nextPhis[ 0]=6.000623 prevPhis[ 1]=0.002356, nextPhis[ 1]=-0.000623 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000623 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002084 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001357 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.000991 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000807 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000715 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000669 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000646 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154288, 0.534805, 0.007777, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217711 b=-0.604335 dts/dp=[0.360249, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997668, nextPhis[ 0]=6.000646 prevPhis[ 1]=0.002332, nextPhis[ 1]=-0.000646 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000646 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002107 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001379 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001014 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000830 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000738 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000692 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000669 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154309, 0.534766, 0.007807, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217622 b=-0.604217 dts/dp=[0.360172, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997691, nextPhis[ 0]=6.000669 prevPhis[ 1]=0.002309, nextPhis[ 1]=-0.000669 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000669 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002130 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001402 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001037 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000853 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000761 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000715 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000692 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154329, 0.534727, 0.007837, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217533 b=-0.604100 dts/dp=[0.360094, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997715, nextPhis[ 0]=6.000692 prevPhis[ 1]=0.002285, nextPhis[ 1]=-0.000692 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000692 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002152 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001425 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001060 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000876 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000784 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000738 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000715 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154350, 0.534688, 0.007866, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217444 b=-0.603983 dts/dp=[0.360017, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997739, nextPhis[ 0]=6.000715 prevPhis[ 1]=0.002261, nextPhis[ 1]=-0.000715 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000715 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002175 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001448 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001082 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000899 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000807 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000761 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000738 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154371, 0.534648, 0.007896, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217355 b=-0.603866 dts/dp=[0.359939, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997762, nextPhis[ 0]=6.000738 prevPhis[ 1]=0.002238, nextPhis[ 1]=-0.000738 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000738 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002198 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001471 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001105 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000922 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000830 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000784 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000761 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154392, 0.534609, 0.007926, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217266 b=-0.603749 dts/dp=[0.359862, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997786, nextPhis[ 0]=6.000761 prevPhis[ 1]=0.002214, nextPhis[ 1]=-0.000761 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000761 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002221 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001494 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001128 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000945 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000853 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000807 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000784 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154413, 0.534570, 0.007955, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217177 b=-0.603632 dts/dp=[0.359784, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997809, nextPhis[ 0]=6.000784 prevPhis[ 1]=0.002191, nextPhis[ 1]=-0.000784 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000784 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002243 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001517 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001151 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000968 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000876 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000830 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000807 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154434, 0.534531, 0.007985, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.217088 b=-0.603514 dts/dp=[0.359707, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997833, nextPhis[ 0]=6.000807 prevPhis[ 1]=0.002167, nextPhis[ 1]=-0.000807 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000807 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002266 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001539 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001174 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.000991 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000899 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000853 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000830 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154455, 0.534492, 0.008015, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216999 b=-0.603397 dts/dp=[0.359629, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997857, nextPhis[ 0]=6.000830 prevPhis[ 1]=0.002143, nextPhis[ 1]=-0.000830 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000830 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002289 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001562 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001197 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001014 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000922 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000876 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000853 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154476, 0.534453, 0.008044, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216910 b=-0.603280 dts/dp=[0.359552, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997880, nextPhis[ 0]=6.000853 prevPhis[ 1]=0.002120, nextPhis[ 1]=-0.000853 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000853 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002311 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001585 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001220 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001037 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000945 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000899 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000876 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154497, 0.534414, 0.008074, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216821 b=-0.603163 dts/dp=[0.359474, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997904, nextPhis[ 0]=6.000876 prevPhis[ 1]=0.002096, nextPhis[ 1]=-0.000876 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000876 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002334 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001608 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001243 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001060 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000968 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000922 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000899 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154517, 0.534375, 0.008104, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216733 b=-0.603046 dts/dp=[0.359397, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997927, nextPhis[ 0]=6.000899 prevPhis[ 1]=0.002073, nextPhis[ 1]=-0.000899 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000899 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002357 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001631 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001266 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001083 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.000991 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000945 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000922 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154538, 0.534336, 0.008133, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216644 b=-0.602928 dts/dp=[0.359319, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997951, nextPhis[ 0]=6.000922 prevPhis[ 1]=0.002049, nextPhis[ 1]=-0.000922 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000922 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002379 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001654 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001289 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001106 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001014 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000968 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000945 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154559, 0.534297, 0.008163, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216555 b=-0.602811 dts/dp=[0.359241, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997974, nextPhis[ 0]=6.000945 prevPhis[ 1]=0.002026, nextPhis[ 1]=-0.000945 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000945 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002402 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001676 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001312 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001129 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001037 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.000991 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000968 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154580, 0.534258, 0.008193, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216466 b=-0.602694 dts/dp=[0.359164, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997998, nextPhis[ 0]=6.000968 prevPhis[ 1]=0.002002, nextPhis[ 1]=-0.000968 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000968 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002425 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001699 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001334 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001151 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001060 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001014 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.000991 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154601, 0.534219, 0.008222, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216377 b=-0.602577 dts/dp=[0.359086, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998021, nextPhis[ 0]=6.000991 prevPhis[ 1]=0.001979, nextPhis[ 1]=-0.000991 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.000991 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002447 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001722 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001357 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001174 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001083 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001037 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001014 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154622, 0.534180, 0.008252, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216288 b=-0.602460 dts/dp=[0.359008, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998045, nextPhis[ 0]=6.001014 prevPhis[ 1]=0.001955, nextPhis[ 1]=-0.001014 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001014 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002470 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001745 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001380 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001197 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001106 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001060 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001037 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154643, 0.534141, 0.008281, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216199 b=-0.602342 dts/dp=[0.358930, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998069, nextPhis[ 0]=6.001037 prevPhis[ 1]=0.001931, nextPhis[ 1]=-0.001037 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001037 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002493 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001768 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001403 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001220 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001129 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001083 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001060 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154663, 0.534102, 0.008311, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216110 b=-0.602225 dts/dp=[0.358852, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998092, nextPhis[ 0]=6.001060 prevPhis[ 1]=0.001908, nextPhis[ 1]=-0.001060 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001060 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002515 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001790 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001426 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001243 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001151 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001106 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001083 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154684, 0.534063, 0.008341, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.216021 b=-0.602108 dts/dp=[0.358774, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998116, nextPhis[ 0]=6.001083 prevPhis[ 1]=0.001884, nextPhis[ 1]=-0.001083 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001083 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002538 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001813 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001449 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001266 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001174 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001129 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001106 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154705, 0.534023, 0.008370, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215932 b=-0.601991 dts/dp=[0.358697, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998139, nextPhis[ 0]=6.001106 prevPhis[ 1]=0.001861, nextPhis[ 1]=-0.001106 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001106 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002561 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001836 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001472 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001289 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001197 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001152 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001129 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154726, 0.533984, 0.008400, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215843 b=-0.601874 dts/dp=[0.358619, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998163, nextPhis[ 0]=6.001129 prevPhis[ 1]=0.001837, nextPhis[ 1]=-0.001129 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001129 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002583 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001859 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001495 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001312 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001220 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001174 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001152 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154747, 0.533945, 0.008430, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215754 b=-0.601757 dts/dp=[0.358541, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998186, nextPhis[ 0]=6.001152 prevPhis[ 1]=0.001814, nextPhis[ 1]=-0.001152 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001152 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002606 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001882 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001517 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001335 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001243 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001197 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001174 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154768, 0.533906, 0.008459, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215665 b=-0.601639 dts/dp=[0.358463, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998210, nextPhis[ 0]=6.001174 prevPhis[ 1]=0.001790, nextPhis[ 1]=-0.001174 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001174 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002629 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001904 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001540 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001358 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001266 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001220 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001197 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154789, 0.533867, 0.008489, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215576 b=-0.601522 dts/dp=[0.358385, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998233, nextPhis[ 0]=6.001197 prevPhis[ 1]=0.001767, nextPhis[ 1]=-0.001197 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001197 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002651 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001927 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001563 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001380 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001289 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001243 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001220 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154809, 0.533828, 0.008519, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215487 b=-0.601405 dts/dp=[0.358307, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998257, nextPhis[ 0]=6.001220 prevPhis[ 1]=0.001743, nextPhis[ 1]=-0.001220 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001220 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002674 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001950 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001586 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001403 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001312 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001266 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001243 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154830, 0.533789, 0.008548, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215398 b=-0.601288 dts/dp=[0.358228, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998280, nextPhis[ 0]=6.001243 prevPhis[ 1]=0.001720, nextPhis[ 1]=-0.001243 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001243 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002696 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001973 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001609 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001426 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001335 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001289 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001266 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154851, 0.533750, 0.008578, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215309 b=-0.601171 dts/dp=[0.358150, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998304, nextPhis[ 0]=6.001266 prevPhis[ 1]=0.001696, nextPhis[ 1]=-0.001266 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001266 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002719 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.001995 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001632 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001449 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001358 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001312 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001289 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154872, 0.533711, 0.008608, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215221 b=-0.601053 dts/dp=[0.358072, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998327, nextPhis[ 0]=6.001289 prevPhis[ 1]=0.001673, nextPhis[ 1]=-0.001289 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001289 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002742 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002018 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001654 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001472 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001380 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001335 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001312 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154893, 0.533672, 0.008637, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215132 b=-0.600936 dts/dp=[0.357994, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998351, nextPhis[ 0]=6.001312 prevPhis[ 1]=0.001649, nextPhis[ 1]=-0.001312 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001312 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002764 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002041 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001677 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001495 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001403 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001358 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001335 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154914, 0.533633, 0.008667, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.215043 b=-0.600819 dts/dp=[0.357916, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998374, nextPhis[ 0]=6.001335 prevPhis[ 1]=0.001626, nextPhis[ 1]=-0.001335 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001335 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002787 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002064 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001700 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001518 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001426 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001380 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001358 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154935, 0.533594, 0.008697, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214954 b=-0.600702 dts/dp=[0.357838, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998397, nextPhis[ 0]=6.001358 prevPhis[ 1]=0.001603, nextPhis[ 1]=-0.001358 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001358 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002809 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002086 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001723 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001540 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001449 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001403 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001380 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154955, 0.533555, 0.008726, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214865 b=-0.600585 dts/dp=[0.357759, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998421, nextPhis[ 0]=6.001380 prevPhis[ 1]=0.001579, nextPhis[ 1]=-0.001380 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001380 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002832 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002109 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001746 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001563 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001472 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001426 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001403 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154976, 0.533516, 0.008756, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214776 b=-0.600467 dts/dp=[0.357681, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998444, nextPhis[ 0]=6.001403 prevPhis[ 1]=0.001556, nextPhis[ 1]=-0.001403 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001403 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002855 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002132 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001768 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001586 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001495 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001449 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001426 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.154997, 0.533477, 0.008785, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214687 b=-0.600350 dts/dp=[0.357603, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998468, nextPhis[ 0]=6.001426 prevPhis[ 1]=0.001532, nextPhis[ 1]=-0.001426 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001426 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002877 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002155 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001791 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001609 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001518 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001472 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001449 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155018, 0.533438, 0.008815, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214598 b=-0.600233 dts/dp=[0.357524, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998491, nextPhis[ 0]=6.001449 prevPhis[ 1]=0.001509, nextPhis[ 1]=-0.001449 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001449 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002900 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002177 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001814 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001632 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001541 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001495 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001472 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155039, 0.533398, 0.008845, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214509 b=-0.600116 dts/dp=[0.357446, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998515, nextPhis[ 0]=6.001472 prevPhis[ 1]=0.001485, nextPhis[ 1]=-0.001472 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001472 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002922 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002200 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001837 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001655 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001563 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001518 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001495 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155060, 0.533359, 0.008874, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214420 b=-0.599999 dts/dp=[0.357368, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998538, nextPhis[ 0]=6.001495 prevPhis[ 1]=0.001462, nextPhis[ 1]=-0.001495 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001495 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002945 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002223 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001860 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001677 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001586 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001541 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001518 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155080, 0.533320, 0.008904, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214331 b=-0.599882 dts/dp=[0.357289, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998562, nextPhis[ 0]=6.001518 prevPhis[ 1]=0.001438, nextPhis[ 1]=-0.001518 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001518 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002967 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002245 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001882 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001700 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001609 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001563 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001541 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155101, 0.533281, 0.008934, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214242 b=-0.599764 dts/dp=[0.357211, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998585, nextPhis[ 0]=6.001541 prevPhis[ 1]=0.001415, nextPhis[ 1]=-0.001541 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001541 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.002990 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002268 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001905 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001723 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001632 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001586 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001563 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155122, 0.533242, 0.008963, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214153 b=-0.599647 dts/dp=[0.357132, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998609, nextPhis[ 0]=6.001563 prevPhis[ 1]=0.001391, nextPhis[ 1]=-0.001563 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001563 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003013 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002291 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001928 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001746 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001655 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001609 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001586 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155143, 0.533203, 0.008993, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.214064 b=-0.599530 dts/dp=[0.357054, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998632, nextPhis[ 0]=6.001586 prevPhis[ 1]=0.001368, nextPhis[ 1]=-0.001586 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001586 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003035 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002313 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001951 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001769 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001677 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001632 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001609 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155164, 0.533164, 0.009023, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213975 b=-0.599413 dts/dp=[0.356975, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998655, nextPhis[ 0]=6.001609 prevPhis[ 1]=0.001345, nextPhis[ 1]=-0.001609 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001609 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003058 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002336 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001973 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001791 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001700 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001655 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001632 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155185, 0.533125, 0.009052, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213886 b=-0.599296 dts/dp=[0.356896, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998679, nextPhis[ 0]=6.001632 prevPhis[ 1]=0.001321, nextPhis[ 1]=-0.001632 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001632 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003080 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002359 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.001996 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001814 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001723 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001678 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001655 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155205, 0.533086, 0.009082, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213797 b=-0.599178 dts/dp=[0.356818, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998702, nextPhis[ 0]=6.001655 prevPhis[ 1]=0.001298, nextPhis[ 1]=-0.001655 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001655 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003103 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002382 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002019 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001837 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001746 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001700 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001678 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155226, 0.533047, 0.009112, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213709 b=-0.599061 dts/dp=[0.356739, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998726, nextPhis[ 0]=6.001678 prevPhis[ 1]=0.001274, nextPhis[ 1]=-0.001678 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001678 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003125 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002404 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002042 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001860 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001769 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001723 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001700 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155247, 0.533008, 0.009141, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213620 b=-0.598944 dts/dp=[0.356660, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998749, nextPhis[ 0]=6.001700 prevPhis[ 1]=0.001251, nextPhis[ 1]=-0.001700 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001700 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003148 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002427 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002064 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001883 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001792 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001746 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001723 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155268, 0.532969, 0.009171, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213531 b=-0.598827 dts/dp=[0.356582, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998772, nextPhis[ 0]=6.001723 prevPhis[ 1]=0.001228, nextPhis[ 1]=-0.001723 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001723 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003170 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002450 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002087 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001905 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001814 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001769 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001746 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155289, 0.532930, 0.009201, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213442 b=-0.598710 dts/dp=[0.356503, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998796, nextPhis[ 0]=6.001746 prevPhis[ 1]=0.001204, nextPhis[ 1]=-0.001746 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001746 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003193 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002472 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002110 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001928 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001837 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001792 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001769 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155310, 0.532891, 0.009230, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213353 b=-0.598592 dts/dp=[0.356424, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998819, nextPhis[ 0]=6.001769 prevPhis[ 1]=0.001181, nextPhis[ 1]=-0.001769 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001769 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003215 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002495 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002133 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001951 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001860 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001814 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001792 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155330, 0.532852, 0.009260, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213264 b=-0.598475 dts/dp=[0.356345, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998843, nextPhis[ 0]=6.001792 prevPhis[ 1]=0.001157, nextPhis[ 1]=-0.001792 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001792 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003238 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002518 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002155 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001974 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001883 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001837 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001814 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155351, 0.532813, 0.009289, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213175 b=-0.598358 dts/dp=[0.356266, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998866, nextPhis[ 0]=6.001814 prevPhis[ 1]=0.001134, nextPhis[ 1]=-0.001814 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001814 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003260 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002540 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002178 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.001996 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001905 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001860 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001837 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155372, 0.532773, 0.009319, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.213086 b=-0.598241 dts/dp=[0.356188, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998889, nextPhis[ 0]=6.001837 prevPhis[ 1]=0.001111, nextPhis[ 1]=-0.001837 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001837 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003283 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002563 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002201 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002019 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001928 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001883 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001860 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155393, 0.532734, 0.009349, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212997 b=-0.598124 dts/dp=[0.356109, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998913, nextPhis[ 0]=6.001860 prevPhis[ 1]=0.001087, nextPhis[ 1]=-0.001860 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001860 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003305 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002585 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002224 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002042 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001951 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001905 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001883 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155414, 0.532695, 0.009378, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212908 b=-0.598007 dts/dp=[0.356030, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998936, nextPhis[ 0]=6.001883 prevPhis[ 1]=0.001064, nextPhis[ 1]=-0.001883 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001883 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003328 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002608 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002246 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002065 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001974 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001928 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001905 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155434, 0.532656, 0.009408, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212819 b=-0.597889 dts/dp=[0.355951, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998959, nextPhis[ 0]=6.001905 prevPhis[ 1]=0.001041, nextPhis[ 1]=-0.001905 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001905 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003350 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002631 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002269 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002087 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.001996 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001951 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001928 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155455, 0.532617, 0.009438, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212730 b=-0.597772 dts/dp=[0.355872, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998983, nextPhis[ 0]=6.001928 prevPhis[ 1]=0.001017, nextPhis[ 1]=-0.001928 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001928 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003373 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002653 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002292 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002110 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002019 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001974 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001951 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155476, 0.532578, 0.009467, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212641 b=-0.597655 dts/dp=[0.355793, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999006, nextPhis[ 0]=6.001951 prevPhis[ 1]=0.000994, nextPhis[ 1]=-0.001951 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001951 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003395 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002676 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002314 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002133 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002042 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.001996 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001974 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155497, 0.532539, 0.009497, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212552 b=-0.597538 dts/dp=[0.355714, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999029, nextPhis[ 0]=6.001974 prevPhis[ 1]=0.000971, nextPhis[ 1]=-0.001974 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001974 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003418 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002699 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002337 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002156 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002065 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002019 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.001996 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155518, 0.532500, 0.009527, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212463 b=-0.597421 dts/dp=[0.355635, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999053, nextPhis[ 0]=6.001996 prevPhis[ 1]=0.000947, nextPhis[ 1]=-0.001996 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.001996 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003440 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002721 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002360 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002178 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002087 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002042 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002019 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155538, 0.532461, 0.009556, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212374 b=-0.597303 dts/dp=[0.355555, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999076, nextPhis[ 0]=6.002019 prevPhis[ 1]=0.000924, nextPhis[ 1]=-0.002019 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002019 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003463 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002744 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002382 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002201 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002110 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002065 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002042 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155559, 0.532422, 0.009586, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212286 b=-0.597186 dts/dp=[0.355476, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999099, nextPhis[ 0]=6.002042 prevPhis[ 1]=0.000901, nextPhis[ 1]=-0.002042 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002042 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003485 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002766 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002405 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002224 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002133 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002087 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002065 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155580, 0.532383, 0.009616, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212197 b=-0.597069 dts/dp=[0.355397, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999123, nextPhis[ 0]=6.002065 prevPhis[ 1]=0.000877, nextPhis[ 1]=-0.002065 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002065 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003508 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002789 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002428 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002246 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002156 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002110 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002087 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155601, 0.532344, 0.009645, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212108 b=-0.596952 dts/dp=[0.355318, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999146, nextPhis[ 0]=6.002087 prevPhis[ 1]=0.000854, nextPhis[ 1]=-0.002087 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002087 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003530 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002812 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002450 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002269 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002178 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002133 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002110 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155622, 0.532305, 0.009675, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.212019 b=-0.596835 dts/dp=[0.355239, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999169, nextPhis[ 0]=6.002110 prevPhis[ 1]=0.000831, nextPhis[ 1]=-0.002110 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002110 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003552 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002834 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002473 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002292 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002201 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002156 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002133 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155642, 0.532266, 0.009705, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211930 b=-0.596717 dts/dp=[0.355159, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999193, nextPhis[ 0]=6.002133 prevPhis[ 1]=0.000807, nextPhis[ 1]=-0.002133 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002133 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003575 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002857 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002496 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002315 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002224 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002178 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002156 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155663, 0.532227, 0.009734, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211841 b=-0.596600 dts/dp=[0.355080, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999216, nextPhis[ 0]=6.002156 prevPhis[ 1]=0.000784, nextPhis[ 1]=-0.002156 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002156 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003597 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002879 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002518 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002337 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002246 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002201 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002178 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155684, 0.532188, 0.009764, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211752 b=-0.596483 dts/dp=[0.355001, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999239, nextPhis[ 0]=6.002178 prevPhis[ 1]=0.000761, nextPhis[ 1]=-0.002178 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002178 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003620 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002902 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002541 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002360 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002269 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002224 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002201 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155705, 0.532148, 0.009793, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211663 b=-0.596366 dts/dp=[0.354921, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999263, nextPhis[ 0]=6.002201 prevPhis[ 1]=0.000737, nextPhis[ 1]=-0.002201 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002201 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003642 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002924 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002564 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002383 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002292 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002246 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002224 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155726, 0.532109, 0.009823, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211574 b=-0.596249 dts/dp=[0.354842, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999286, nextPhis[ 0]=6.002224 prevPhis[ 1]=0.000714, nextPhis[ 1]=-0.002224 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002224 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003665 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002947 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002586 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002405 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002315 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002269 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002246 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155746, 0.532070, 0.009853, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211485 b=-0.596132 dts/dp=[0.354762, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999309, nextPhis[ 0]=6.002246 prevPhis[ 1]=0.000691, nextPhis[ 1]=-0.002246 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002246 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003687 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002970 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002609 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002428 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002337 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002292 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002269 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155767, 0.532031, 0.009882, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211396 b=-0.596014 dts/dp=[0.354683, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999333, nextPhis[ 0]=6.002269 prevPhis[ 1]=0.000667, nextPhis[ 1]=-0.002269 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002269 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003709 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.002992 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002632 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002451 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002360 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002315 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002292 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155788, 0.531992, 0.009912, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211307 b=-0.595897 dts/dp=[0.354603, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999356, nextPhis[ 0]=6.002292 prevPhis[ 1]=0.000644, nextPhis[ 1]=-0.002292 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002292 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003732 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003015 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002654 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002473 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002383 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002337 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002315 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155809, 0.531953, 0.009942, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211218 b=-0.595780 dts/dp=[0.354524, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999379, nextPhis[ 0]=6.002315 prevPhis[ 1]=0.000621, nextPhis[ 1]=-0.002315 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002315 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003754 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003037 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002677 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002496 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002405 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002360 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002337 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155829, 0.531914, 0.009971, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211129 b=-0.595663 dts/dp=[0.354444, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999402, nextPhis[ 0]=6.002337 prevPhis[ 1]=0.000598, nextPhis[ 1]=-0.002337 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002337 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003777 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003060 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002699 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002519 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002428 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002383 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002360 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155850, 0.531875, 0.010001, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.211040 b=-0.595546 dts/dp=[0.354365, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999426, nextPhis[ 0]=6.002360 prevPhis[ 1]=0.000574, nextPhis[ 1]=-0.002360 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002360 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003799 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003082 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002722 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002541 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002451 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002405 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002383 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155871, 0.531836, 0.010031, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210951 b=-0.595428 dts/dp=[0.354285, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999449, nextPhis[ 0]=6.002383 prevPhis[ 1]=0.000551, nextPhis[ 1]=-0.002383 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002383 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003821 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003105 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002745 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002564 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002473 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002428 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002405 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155892, 0.531797, 0.010060, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210862 b=-0.595311 dts/dp=[0.354205, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999472, nextPhis[ 0]=6.002405 prevPhis[ 1]=0.000528, nextPhis[ 1]=-0.002405 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002405 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003844 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003127 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002767 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002586 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002496 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002451 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002428 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155913, 0.531758, 0.010090, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210774 b=-0.595194 dts/dp=[0.354126, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999495, nextPhis[ 0]=6.002428 prevPhis[ 1]=0.000505, nextPhis[ 1]=-0.002428 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002428 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003866 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003150 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002790 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002609 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002519 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002473 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002451 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155933, 0.531719, 0.010120, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210685 b=-0.595077 dts/dp=[0.354046, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999519, nextPhis[ 0]=6.002451 prevPhis[ 1]=0.000481, nextPhis[ 1]=-0.002451 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002451 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003888 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003172 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002812 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002632 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002541 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002496 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002473 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155954, 0.531680, 0.010149, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210596 b=-0.594960 dts/dp=[0.353966, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999542, nextPhis[ 0]=6.002473 prevPhis[ 1]=0.000458, nextPhis[ 1]=-0.002473 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002473 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003911 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003195 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002835 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002654 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002564 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002519 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002496 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155975, 0.531641, 0.010179, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210507 b=-0.594842 dts/dp=[0.353886, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999565, nextPhis[ 0]=6.002496 prevPhis[ 1]=0.000435, nextPhis[ 1]=-0.002496 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002496 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003933 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003217 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002858 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002677 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002587 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002541 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002519 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.155996, 0.531602, 0.010209, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210418 b=-0.594725 dts/dp=[0.353807, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999588, nextPhis[ 0]=6.002519 prevPhis[ 1]=0.000412, nextPhis[ 1]=-0.002519 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002519 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003956 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003240 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002880 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002700 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002609 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002564 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002541 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156016, 0.531563, 0.010238, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210329 b=-0.594608 dts/dp=[0.353727, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999612, nextPhis[ 0]=6.002541 prevPhis[ 1]=0.000388, nextPhis[ 1]=-0.002541 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002541 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.003978 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003262 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002903 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002722 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002632 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002587 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002564 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156037, 0.531523, 0.010268, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210240 b=-0.594491 dts/dp=[0.353647, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999635, nextPhis[ 0]=6.002564 prevPhis[ 1]=0.000365, nextPhis[ 1]=-0.002564 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002564 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004000 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003285 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002925 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002745 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002654 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002609 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002587 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156058, 0.531484, 0.010297, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210151 b=-0.594374 dts/dp=[0.353567, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999658, nextPhis[ 0]=6.002587 prevPhis[ 1]=0.000342, nextPhis[ 1]=-0.002587 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002587 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004023 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003307 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002948 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002767 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002677 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002632 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002609 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156079, 0.531445, 0.010327, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.210062 b=-0.594257 dts/dp=[0.353487, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999681, nextPhis[ 0]=6.002609 prevPhis[ 1]=0.000319, nextPhis[ 1]=-0.002609 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002609 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004045 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003330 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002970 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002790 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002700 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002654 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002632 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156099, 0.531406, 0.010357, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209973 b=-0.594139 dts/dp=[0.353407, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999704, nextPhis[ 0]=6.002632 prevPhis[ 1]=0.000296, nextPhis[ 1]=-0.002632 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002632 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004067 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003352 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.002993 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002813 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002722 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002677 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002654 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156120, 0.531367, 0.010386, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209884 b=-0.594022 dts/dp=[0.353327, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999728, nextPhis[ 0]=6.002654 prevPhis[ 1]=0.000272, nextPhis[ 1]=-0.002654 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002654 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004090 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003375 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003015 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002835 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002745 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002700 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002677 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156141, 0.531328, 0.010416, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209795 b=-0.593905 dts/dp=[0.353247, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999751, nextPhis[ 0]=6.002677 prevPhis[ 1]=0.000249, nextPhis[ 1]=-0.002677 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002677 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004112 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003397 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003038 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002858 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002767 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002722 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002700 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156162, 0.531289, 0.010446, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209706 b=-0.593788 dts/dp=[0.353167, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999774, nextPhis[ 0]=6.002700 prevPhis[ 1]=0.000226, nextPhis[ 1]=-0.002700 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002700 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004134 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003420 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003061 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002880 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002790 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002745 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002722 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156182, 0.531250, 0.010475, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209617 b=-0.593671 dts/dp=[0.353087, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999797, nextPhis[ 0]=6.002722 prevPhis[ 1]=0.000203, nextPhis[ 1]=-0.002722 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002722 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004157 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003442 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003083 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002903 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002813 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002767 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002745 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156203, 0.531211, 0.010505, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209528 b=-0.593553 dts/dp=[0.353007, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999820, nextPhis[ 0]=6.002745 prevPhis[ 1]=0.000180, nextPhis[ 1]=-0.002745 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002745 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004179 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003465 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003106 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002925 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002835 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002790 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002767 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156224, 0.531172, 0.010535, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209439 b=-0.593436 dts/dp=[0.352927, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999844, nextPhis[ 0]=6.002767 prevPhis[ 1]=0.000156, nextPhis[ 1]=-0.002767 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002767 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004201 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003487 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003128 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002948 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002858 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002813 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002790 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156245, 0.531133, 0.010564, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209350 b=-0.593319 dts/dp=[0.352846, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999867, nextPhis[ 0]=6.002790 prevPhis[ 1]=0.000133, nextPhis[ 1]=-0.002790 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002790 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004223 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003510 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003151 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002971 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002880 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002835 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002813 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156265, 0.531094, 0.010594, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209262 b=-0.593202 dts/dp=[0.352766, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999890, nextPhis[ 0]=6.002813 prevPhis[ 1]=0.000110, nextPhis[ 1]=-0.002813 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002813 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004246 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003532 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003173 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.002993 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002903 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002858 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002835 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156286, 0.531055, 0.010624, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209173 b=-0.593085 dts/dp=[0.352686, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999913, nextPhis[ 0]=6.002835 prevPhis[ 1]=0.000087, nextPhis[ 1]=-0.002835 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002835 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004268 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003554 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003196 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.003016 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002926 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002880 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002858 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156307, 0.531016, 0.010653, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.209084 b=-0.592967 dts/dp=[0.352606, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999936, nextPhis[ 0]=6.002858 prevPhis[ 1]=0.000064, nextPhis[ 1]=-0.002858 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002858 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004290 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003577 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003218 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.003038 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002948 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002903 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002880 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156328, 0.530977, 0.010683, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.208995 b=-0.592850 dts/dp=[0.352525, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999960, nextPhis[ 0]=6.002880 prevPhis[ 1]=0.000040, nextPhis[ 1]=-0.002880 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002880 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004313 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003599 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003241 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.003061 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002971 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002926 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002903 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156348, 0.530938, 0.010713, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.208906 b=-0.592733 dts/dp=[0.352445, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999983, nextPhis[ 0]=6.002903 prevPhis[ 1]=0.000017, nextPhis[ 1]=-0.002903 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 0.560000 Phiest = -0.002903 Phiest < 0.0 it = 1 Test = 0.557500 Phiest = -0.004335 Phiest < 0.0 it = 2 Test = 0.556250 Phiest = -0.003622 Phiest < 0.0 it = 3 Test = 0.555625 Phiest = -0.003263 Phiest < 0.0 it = 4 Test = 0.555313 Phiest = -0.003083 Phiest < 0.0 it = 5 Test = 0.555156 Phiest = -0.002993 Phiest < 0.0 it = 6 Test = 0.555078 Phiest = -0.002948 Phiest < 0.0 it = 7 Test = 0.555039 Phiest = -0.002926 Switch time for phi[1] is 0.555039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[0.156369, 0.530898, 0.010742, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=0.208817 b=-0.592616 dts/dp=[0.352365, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 0.555000 Tnext = 0.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.560000 pESO->GetIndependentVar(): 0.560000 ==>IsSwitchingOccur() prevPhis[ 0]=6.000006, nextPhis[ 0]=6.002926 prevPhis[ 1]=-0.000006, nextPhis[ 1]=-0.002926 <==IsSwitchingOccur() T = 0.560000 Tnext = 0.565000 Time: 5.60000e-01 states: [ 1.59009e-01 5.25898e-01] derivs: [ 5.25664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.565000 pESO->GetIndependentVar(): 0.565000 ==>IsSwitchingOccur() prevPhis[ 0]=6.002926, nextPhis[ 0]=6.005770 prevPhis[ 1]=-0.002926, nextPhis[ 1]=-0.005770 <==IsSwitchingOccur() T = 0.565000 Tnext = 0.570000 Time: 5.65000e-01 states: [ 1.61624e-01 5.20898e-01] derivs: [ 5.20664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.570000 pESO->GetIndependentVar(): 0.570000 ==>IsSwitchingOccur() prevPhis[ 0]=6.005770, nextPhis[ 0]=6.008540 prevPhis[ 1]=-0.005770, nextPhis[ 1]=-0.008540 <==IsSwitchingOccur() T = 0.570000 Tnext = 0.575000 Time: 5.70000e-01 states: [ 1.64214e-01 5.15898e-01] derivs: [ 5.15664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.575000 pESO->GetIndependentVar(): 0.575000 ==>IsSwitchingOccur() prevPhis[ 0]=6.008540, nextPhis[ 0]=6.011235 prevPhis[ 1]=-0.008540, nextPhis[ 1]=-0.011235 <==IsSwitchingOccur() T = 0.575000 Tnext = 0.580000 Time: 5.75000e-01 states: [ 1.66779e-01 5.10898e-01] derivs: [ 5.10664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.580000 pESO->GetIndependentVar(): 0.580000 ==>IsSwitchingOccur() prevPhis[ 0]=6.011235, nextPhis[ 0]=6.013854 prevPhis[ 1]=-0.011235, nextPhis[ 1]=-0.013854 <==IsSwitchingOccur() T = 0.580000 Tnext = 0.585000 Time: 5.80000e-01 states: [ 1.69319e-01 5.05898e-01] derivs: [ 5.05664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.585000 pESO->GetIndependentVar(): 0.585000 ==>IsSwitchingOccur() prevPhis[ 0]=6.013854, nextPhis[ 0]=6.016399 prevPhis[ 1]=-0.013854, nextPhis[ 1]=-0.016399 <==IsSwitchingOccur() T = 0.585000 Tnext = 0.590000 Time: 5.85000e-01 states: [ 1.71834e-01 5.00898e-01] derivs: [ 5.00664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.590000 pESO->GetIndependentVar(): 0.590000 ==>IsSwitchingOccur() prevPhis[ 0]=6.016399, nextPhis[ 0]=6.018869 prevPhis[ 1]=-0.016399, nextPhis[ 1]=-0.018869 <==IsSwitchingOccur() T = 0.590000 Tnext = 0.595000 Time: 5.90000e-01 states: [ 1.74323e-01 4.95898e-01] derivs: [ 4.95664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.595000 pESO->GetIndependentVar(): 0.595000 ==>IsSwitchingOccur() prevPhis[ 0]=6.018869, nextPhis[ 0]=6.021263 prevPhis[ 1]=-0.018869, nextPhis[ 1]=-0.021263 <==IsSwitchingOccur() T = 0.595000 Tnext = 0.600000 Time: 5.95000e-01 states: [ 1.76788e-01 4.90898e-01] derivs: [ 4.90664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.600000 pESO->GetIndependentVar(): 0.600000 ==>IsSwitchingOccur() prevPhis[ 0]=6.021263, nextPhis[ 0]=6.023583 prevPhis[ 1]=-0.021263, nextPhis[ 1]=-0.023583 <==IsSwitchingOccur() T = 0.600000 Tnext = 0.605000 Time: 6.00000e-01 states: [ 1.79228e-01 4.85898e-01] derivs: [ 4.85664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.605000 pESO->GetIndependentVar(): 0.605000 ==>IsSwitchingOccur() prevPhis[ 0]=6.023583, nextPhis[ 0]=6.025828 prevPhis[ 1]=-0.023583, nextPhis[ 1]=-0.025828 <==IsSwitchingOccur() T = 0.605000 Tnext = 0.610000 Time: 6.05000e-01 states: [ 1.81643e-01 4.80898e-01] derivs: [ 4.80664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.610000 pESO->GetIndependentVar(): 0.610000 ==>IsSwitchingOccur() prevPhis[ 0]=6.025828, nextPhis[ 0]=6.027998 prevPhis[ 1]=-0.025828, nextPhis[ 1]=-0.027998 <==IsSwitchingOccur() T = 0.610000 Tnext = 0.615000 Time: 6.10000e-01 states: [ 1.84033e-01 4.75898e-01] derivs: [ 4.75664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.615000 pESO->GetIndependentVar(): 0.615000 ==>IsSwitchingOccur() prevPhis[ 0]=6.027998, nextPhis[ 0]=6.030092 prevPhis[ 1]=-0.027998, nextPhis[ 1]=-0.030092 <==IsSwitchingOccur() T = 0.615000 Tnext = 0.620000 Time: 6.15000e-01 states: [ 1.86398e-01 4.70898e-01] derivs: [ 4.70664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.620000 pESO->GetIndependentVar(): 0.620000 ==>IsSwitchingOccur() prevPhis[ 0]=6.030092, nextPhis[ 0]=6.032112 prevPhis[ 1]=-0.030092, nextPhis[ 1]=-0.032112 <==IsSwitchingOccur() T = 0.620000 Tnext = 0.625000 Time: 6.20000e-01 states: [ 1.88738e-01 4.65898e-01] derivs: [ 4.65664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.625000 pESO->GetIndependentVar(): 0.625000 ==>IsSwitchingOccur() prevPhis[ 0]=6.032112, nextPhis[ 0]=6.034057 prevPhis[ 1]=-0.032112, nextPhis[ 1]=-0.034057 <==IsSwitchingOccur() T = 0.625000 Tnext = 0.630000 Time: 6.25000e-01 states: [ 1.91053e-01 4.60898e-01] derivs: [ 4.60664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.630000 pESO->GetIndependentVar(): 0.630000 ==>IsSwitchingOccur() prevPhis[ 0]=6.034057, nextPhis[ 0]=6.035926 prevPhis[ 1]=-0.034057, nextPhis[ 1]=-0.035926 <==IsSwitchingOccur() T = 0.630000 Tnext = 0.635000 Time: 6.30000e-01 states: [ 1.93343e-01 4.55898e-01] derivs: [ 4.55664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.635000 pESO->GetIndependentVar(): 0.635000 ==>IsSwitchingOccur() prevPhis[ 0]=6.035926, nextPhis[ 0]=6.037721 prevPhis[ 1]=-0.035926, nextPhis[ 1]=-0.037721 <==IsSwitchingOccur() T = 0.635000 Tnext = 0.640000 Time: 6.35000e-01 states: [ 1.95608e-01 4.50898e-01] derivs: [ 4.50664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.640000 pESO->GetIndependentVar(): 0.640000 ==>IsSwitchingOccur() prevPhis[ 0]=6.037721, nextPhis[ 0]=6.039441 prevPhis[ 1]=-0.037721, nextPhis[ 1]=-0.039441 <==IsSwitchingOccur() T = 0.640000 Tnext = 0.645000 Time: 6.40000e-01 states: [ 1.97847e-01 4.45898e-01] derivs: [ 4.45664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.645000 pESO->GetIndependentVar(): 0.645000 ==>IsSwitchingOccur() prevPhis[ 0]=6.039441, nextPhis[ 0]=6.041085 prevPhis[ 1]=-0.039441, nextPhis[ 1]=-0.041085 <==IsSwitchingOccur() T = 0.645000 Tnext = 0.650000 Time: 6.45000e-01 states: [ 2.00062e-01 4.40898e-01] derivs: [ 4.40664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.650000 pESO->GetIndependentVar(): 0.650000 ==>IsSwitchingOccur() prevPhis[ 0]=6.041085, nextPhis[ 0]=6.042655 prevPhis[ 1]=-0.041085, nextPhis[ 1]=-0.042655 <==IsSwitchingOccur() T = 0.650000 Tnext = 0.655000 Time: 6.50000e-01 states: [ 2.02252e-01 4.35898e-01] derivs: [ 4.35664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.655000 pESO->GetIndependentVar(): 0.655000 ==>IsSwitchingOccur() prevPhis[ 0]=6.042655, nextPhis[ 0]=6.044150 prevPhis[ 1]=-0.042655, nextPhis[ 1]=-0.044150 <==IsSwitchingOccur() T = 0.655000 Tnext = 0.660000 Time: 6.55000e-01 states: [ 2.04417e-01 4.30898e-01] derivs: [ 4.30664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.660000 pESO->GetIndependentVar(): 0.660000 ==>IsSwitchingOccur() prevPhis[ 0]=6.044150, nextPhis[ 0]=6.045570 prevPhis[ 1]=-0.044150, nextPhis[ 1]=-0.045570 <==IsSwitchingOccur() T = 0.660000 Tnext = 0.665000 Time: 6.60000e-01 states: [ 2.06557e-01 4.25898e-01] derivs: [ 4.25664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.665000 pESO->GetIndependentVar(): 0.665000 ==>IsSwitchingOccur() prevPhis[ 0]=6.045570, nextPhis[ 0]=6.046914 prevPhis[ 1]=-0.045570, nextPhis[ 1]=-0.046914 <==IsSwitchingOccur() T = 0.665000 Tnext = 0.670000 Time: 6.65000e-01 states: [ 2.08672e-01 4.20898e-01] derivs: [ 4.20664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.670000 pESO->GetIndependentVar(): 0.670000 ==>IsSwitchingOccur() prevPhis[ 0]=6.046914, nextPhis[ 0]=6.048184 prevPhis[ 1]=-0.046914, nextPhis[ 1]=-0.048184 <==IsSwitchingOccur() T = 0.670000 Tnext = 0.675000 Time: 6.70000e-01 states: [ 2.10762e-01 4.15898e-01] derivs: [ 4.15664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.675000 pESO->GetIndependentVar(): 0.675000 ==>IsSwitchingOccur() prevPhis[ 0]=6.048184, nextPhis[ 0]=6.049379 prevPhis[ 1]=-0.048184, nextPhis[ 1]=-0.049379 <==IsSwitchingOccur() T = 0.675000 Tnext = 0.680000 Time: 6.75000e-01 states: [ 2.12827e-01 4.10898e-01] derivs: [ 4.10664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.680000 pESO->GetIndependentVar(): 0.680000 ==>IsSwitchingOccur() prevPhis[ 0]=6.049379, nextPhis[ 0]=6.050498 prevPhis[ 1]=-0.049379, nextPhis[ 1]=-0.050498 <==IsSwitchingOccur() T = 0.680000 Tnext = 0.685000 Time: 6.80000e-01 states: [ 2.14867e-01 4.05898e-01] derivs: [ 4.05664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.685000 pESO->GetIndependentVar(): 0.685000 ==>IsSwitchingOccur() prevPhis[ 0]=6.050498, nextPhis[ 0]=6.051543 prevPhis[ 1]=-0.050498, nextPhis[ 1]=-0.051543 <==IsSwitchingOccur() T = 0.685000 Tnext = 0.690000 Time: 6.85000e-01 states: [ 2.16882e-01 4.00898e-01] derivs: [ 4.00664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.690000 pESO->GetIndependentVar(): 0.690000 ==>IsSwitchingOccur() prevPhis[ 0]=6.051543, nextPhis[ 0]=6.052513 prevPhis[ 1]=-0.051543, nextPhis[ 1]=-0.052513 <==IsSwitchingOccur() T = 0.690000 Tnext = 0.695000 Time: 6.90000e-01 states: [ 2.18871e-01 3.95898e-01] derivs: [ 3.95664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.695000 pESO->GetIndependentVar(): 0.695000 ==>IsSwitchingOccur() prevPhis[ 0]=6.052513, nextPhis[ 0]=6.053407 prevPhis[ 1]=-0.052513, nextPhis[ 1]=-0.053407 <==IsSwitchingOccur() T = 0.695000 Tnext = 0.700000 Time: 6.95000e-01 states: [ 2.20836e-01 3.90898e-01] derivs: [ 3.90664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.700000 pESO->GetIndependentVar(): 0.700000 ==>IsSwitchingOccur() prevPhis[ 0]=6.053407, nextPhis[ 0]=6.054227 prevPhis[ 1]=-0.053407, nextPhis[ 1]=-0.054227 <==IsSwitchingOccur() T = 0.700000 Tnext = 0.705000 Time: 7.00000e-01 states: [ 2.22776e-01 3.85898e-01] derivs: [ 3.85664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.705000 pESO->GetIndependentVar(): 0.705000 ==>IsSwitchingOccur() prevPhis[ 0]=6.054227, nextPhis[ 0]=6.054972 prevPhis[ 1]=-0.054227, nextPhis[ 1]=-0.054972 <==IsSwitchingOccur() T = 0.705000 Tnext = 0.710000 Time: 7.05000e-01 states: [ 2.24691e-01 3.80898e-01] derivs: [ 3.80664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.710000 pESO->GetIndependentVar(): 0.710000 ==>IsSwitchingOccur() prevPhis[ 0]=6.054972, nextPhis[ 0]=6.055642 prevPhis[ 1]=-0.054972, nextPhis[ 1]=-0.055642 <==IsSwitchingOccur() T = 0.710000 Tnext = 0.715000 Time: 7.10000e-01 states: [ 2.26581e-01 3.75898e-01] derivs: [ 3.75664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.715000 pESO->GetIndependentVar(): 0.715000 ==>IsSwitchingOccur() prevPhis[ 0]=6.055642, nextPhis[ 0]=6.056236 prevPhis[ 1]=-0.055642, nextPhis[ 1]=-0.056236 <==IsSwitchingOccur() T = 0.715000 Tnext = 0.720000 Time: 7.15000e-01 states: [ 2.28446e-01 3.70898e-01] derivs: [ 3.70664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.720000 pESO->GetIndependentVar(): 0.720000 ==>IsSwitchingOccur() prevPhis[ 0]=6.056236, nextPhis[ 0]=6.056756 prevPhis[ 1]=-0.056236, nextPhis[ 1]=-0.056756 <==IsSwitchingOccur() T = 0.720000 Tnext = 0.725000 Time: 7.20000e-01 states: [ 2.30286e-01 3.65898e-01] derivs: [ 3.65664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.725000 pESO->GetIndependentVar(): 0.725000 ==>IsSwitchingOccur() prevPhis[ 0]=6.056756, nextPhis[ 0]=6.057201 prevPhis[ 1]=-0.056756, nextPhis[ 1]=-0.057201 <==IsSwitchingOccur() T = 0.725000 Tnext = 0.730000 Time: 7.25000e-01 states: [ 2.32101e-01 3.60898e-01] derivs: [ 3.60664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.730000 pESO->GetIndependentVar(): 0.730000 ==>IsSwitchingOccur() prevPhis[ 0]=6.057201, nextPhis[ 0]=6.057570 prevPhis[ 1]=-0.057201, nextPhis[ 1]=-0.057570 <==IsSwitchingOccur() T = 0.730000 Tnext = 0.735000 Time: 7.30000e-01 states: [ 2.33891e-01 3.55898e-01] derivs: [ 3.55664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.735000 pESO->GetIndependentVar(): 0.735000 ==>IsSwitchingOccur() prevPhis[ 0]=6.057570, nextPhis[ 0]=6.057865 prevPhis[ 1]=-0.057570, nextPhis[ 1]=-0.057865 <==IsSwitchingOccur() T = 0.735000 Tnext = 0.740000 Time: 7.35000e-01 states: [ 2.35656e-01 3.50898e-01] derivs: [ 3.50664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.740000 pESO->GetIndependentVar(): 0.740000 ==>IsSwitchingOccur() prevPhis[ 0]=6.057865, nextPhis[ 0]=6.058085 prevPhis[ 1]=-0.057865, nextPhis[ 1]=-0.058085 <==IsSwitchingOccur() T = 0.740000 Tnext = 0.745000 Time: 7.40000e-01 states: [ 2.37395e-01 3.45898e-01] derivs: [ 3.45664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.745000 pESO->GetIndependentVar(): 0.745000 ==>IsSwitchingOccur() prevPhis[ 0]=6.058085, nextPhis[ 0]=6.058229 prevPhis[ 1]=-0.058085, nextPhis[ 1]=-0.058229 <==IsSwitchingOccur() T = 0.745000 Tnext = 0.750000 Time: 7.45000e-01 states: [ 2.39110e-01 3.40898e-01] derivs: [ 3.40664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.750000 pESO->GetIndependentVar(): 0.750000 ==>IsSwitchingOccur() prevPhis[ 0]=6.058229, nextPhis[ 0]=6.058299 prevPhis[ 1]=-0.058229, nextPhis[ 1]=-0.058299 <==IsSwitchingOccur() T = 0.750000 Tnext = 0.755000 Time: 7.50000e-01 states: [ 2.40800e-01 3.35898e-01] derivs: [ 3.35664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.755000 pESO->GetIndependentVar(): 0.755000 ==>IsSwitchingOccur() prevPhis[ 0]=6.058299, nextPhis[ 0]=6.058294 prevPhis[ 1]=-0.058299, nextPhis[ 1]=-0.058294 <==IsSwitchingOccur() T = 0.755000 Tnext = 0.760000 Time: 7.55000e-01 states: [ 2.42465e-01 3.30898e-01] derivs: [ 3.30664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.760000 pESO->GetIndependentVar(): 0.760000 ==>IsSwitchingOccur() prevPhis[ 0]=6.058294, nextPhis[ 0]=6.058213 prevPhis[ 1]=-0.058294, nextPhis[ 1]=-0.058213 <==IsSwitchingOccur() T = 0.760000 Tnext = 0.765000 Time: 7.60000e-01 states: [ 2.44105e-01 3.25898e-01] derivs: [ 3.25664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.765000 pESO->GetIndependentVar(): 0.765000 ==>IsSwitchingOccur() prevPhis[ 0]=6.058213, nextPhis[ 0]=6.058058 prevPhis[ 1]=-0.058213, nextPhis[ 1]=-0.058058 <==IsSwitchingOccur() T = 0.765000 Tnext = 0.770000 Time: 7.65000e-01 states: [ 2.45720e-01 3.20898e-01] derivs: [ 3.20664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.770000 pESO->GetIndependentVar(): 0.770000 ==>IsSwitchingOccur() prevPhis[ 0]=6.058058, nextPhis[ 0]=6.057828 prevPhis[ 1]=-0.058058, nextPhis[ 1]=-0.057828 <==IsSwitchingOccur() T = 0.770000 Tnext = 0.775000 Time: 7.70000e-01 states: [ 2.47310e-01 3.15898e-01] derivs: [ 3.15664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.775000 pESO->GetIndependentVar(): 0.775000 ==>IsSwitchingOccur() prevPhis[ 0]=6.057828, nextPhis[ 0]=6.057523 prevPhis[ 1]=-0.057828, nextPhis[ 1]=-0.057523 <==IsSwitchingOccur() T = 0.775000 Tnext = 0.780000 Time: 7.75000e-01 states: [ 2.48875e-01 3.10898e-01] derivs: [ 3.10664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.780000 pESO->GetIndependentVar(): 0.780000 ==>IsSwitchingOccur() prevPhis[ 0]=6.057523, nextPhis[ 0]=6.057142 prevPhis[ 1]=-0.057523, nextPhis[ 1]=-0.057142 <==IsSwitchingOccur() T = 0.780000 Tnext = 0.785000 Time: 7.80000e-01 states: [ 2.50415e-01 3.05898e-01] derivs: [ 3.05664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.785000 pESO->GetIndependentVar(): 0.785000 ==>IsSwitchingOccur() prevPhis[ 0]=6.057142, nextPhis[ 0]=6.056687 prevPhis[ 1]=-0.057142, nextPhis[ 1]=-0.056687 <==IsSwitchingOccur() T = 0.785000 Tnext = 0.790000 Time: 7.85000e-01 states: [ 2.51930e-01 3.00898e-01] derivs: [ 3.00664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.790000 pESO->GetIndependentVar(): 0.790000 ==>IsSwitchingOccur() prevPhis[ 0]=6.056687, nextPhis[ 0]=6.056157 prevPhis[ 1]=-0.056687, nextPhis[ 1]=-0.056157 <==IsSwitchingOccur() T = 0.790000 Tnext = 0.795000 Time: 7.90000e-01 states: [ 2.53419e-01 2.95898e-01] derivs: [ 2.95664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.795000 pESO->GetIndependentVar(): 0.795000 ==>IsSwitchingOccur() prevPhis[ 0]=6.056157, nextPhis[ 0]=6.055551 prevPhis[ 1]=-0.056157, nextPhis[ 1]=-0.055551 <==IsSwitchingOccur() T = 0.795000 Tnext = 0.800000 Time: 7.95000e-01 states: [ 2.54884e-01 2.90898e-01] derivs: [ 2.90664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.800000 pESO->GetIndependentVar(): 0.800000 ==>IsSwitchingOccur() prevPhis[ 0]=6.055551, nextPhis[ 0]=6.054871 prevPhis[ 1]=-0.055551, nextPhis[ 1]=-0.054871 <==IsSwitchingOccur() T = 0.800000 Tnext = 0.805000 Time: 8.00000e-01 states: [ 2.56324e-01 2.85898e-01] derivs: [ 2.85664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.805000 pESO->GetIndependentVar(): 0.805000 ==>IsSwitchingOccur() prevPhis[ 0]=6.054871, nextPhis[ 0]=6.054116 prevPhis[ 1]=-0.054871, nextPhis[ 1]=-0.054116 <==IsSwitchingOccur() T = 0.805000 Tnext = 0.810000 Time: 8.05000e-01 states: [ 2.57739e-01 2.80898e-01] derivs: [ 2.80664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.810000 pESO->GetIndependentVar(): 0.810000 ==>IsSwitchingOccur() prevPhis[ 0]=6.054116, nextPhis[ 0]=6.053285 prevPhis[ 1]=-0.054116, nextPhis[ 1]=-0.053285 <==IsSwitchingOccur() T = 0.810000 Tnext = 0.815000 Time: 8.10000e-01 states: [ 2.59129e-01 2.75898e-01] derivs: [ 2.75664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.815000 pESO->GetIndependentVar(): 0.815000 ==>IsSwitchingOccur() prevPhis[ 0]=6.053285, nextPhis[ 0]=6.052380 prevPhis[ 1]=-0.053285, nextPhis[ 1]=-0.052380 <==IsSwitchingOccur() T = 0.815000 Tnext = 0.820000 Time: 8.15000e-01 states: [ 2.60494e-01 2.70898e-01] derivs: [ 2.70664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.820000 pESO->GetIndependentVar(): 0.820000 ==>IsSwitchingOccur() prevPhis[ 0]=6.052380, nextPhis[ 0]=6.051400 prevPhis[ 1]=-0.052380, nextPhis[ 1]=-0.051400 <==IsSwitchingOccur() T = 0.820000 Tnext = 0.825000 Time: 8.20000e-01 states: [ 2.61834e-01 2.65898e-01] derivs: [ 2.65664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.825000 pESO->GetIndependentVar(): 0.825000 ==>IsSwitchingOccur() prevPhis[ 0]=6.051400, nextPhis[ 0]=6.050345 prevPhis[ 1]=-0.051400, nextPhis[ 1]=-0.050345 <==IsSwitchingOccur() T = 0.825000 Tnext = 0.830000 Time: 8.25000e-01 states: [ 2.63149e-01 2.60898e-01] derivs: [ 2.60664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.830000 pESO->GetIndependentVar(): 0.830000 ==>IsSwitchingOccur() prevPhis[ 0]=6.050345, nextPhis[ 0]=6.049214 prevPhis[ 1]=-0.050345, nextPhis[ 1]=-0.049214 <==IsSwitchingOccur() T = 0.830000 Tnext = 0.835000 Time: 8.30000e-01 states: [ 2.64439e-01 2.55898e-01] derivs: [ 2.55664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.835000 pESO->GetIndependentVar(): 0.835000 ==>IsSwitchingOccur() prevPhis[ 0]=6.049214, nextPhis[ 0]=6.048009 prevPhis[ 1]=-0.049214, nextPhis[ 1]=-0.048009 <==IsSwitchingOccur() T = 0.835000 Tnext = 0.840000 Time: 8.35000e-01 states: [ 2.65704e-01 2.50898e-01] derivs: [ 2.50664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.840000 pESO->GetIndependentVar(): 0.840000 ==>IsSwitchingOccur() prevPhis[ 0]=6.048009, nextPhis[ 0]=6.046729 prevPhis[ 1]=-0.048009, nextPhis[ 1]=-0.046729 <==IsSwitchingOccur() T = 0.840000 Tnext = 0.845000 Time: 8.40000e-01 states: [ 2.66943e-01 2.45898e-01] derivs: [ 2.45664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.845000 pESO->GetIndependentVar(): 0.845000 ==>IsSwitchingOccur() prevPhis[ 0]=6.046729, nextPhis[ 0]=6.045373 prevPhis[ 1]=-0.046729, nextPhis[ 1]=-0.045373 <==IsSwitchingOccur() T = 0.845000 Tnext = 0.850000 Time: 8.45000e-01 states: [ 2.68158e-01 2.40898e-01] derivs: [ 2.40664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.850000 pESO->GetIndependentVar(): 0.850000 ==>IsSwitchingOccur() prevPhis[ 0]=6.045373, nextPhis[ 0]=6.043943 prevPhis[ 1]=-0.045373, nextPhis[ 1]=-0.043943 <==IsSwitchingOccur() T = 0.850000 Tnext = 0.855000 Time: 8.50000e-01 states: [ 2.69348e-01 2.35898e-01] derivs: [ 2.35664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.855000 pESO->GetIndependentVar(): 0.855000 ==>IsSwitchingOccur() prevPhis[ 0]=6.043943, nextPhis[ 0]=6.042438 prevPhis[ 1]=-0.043943, nextPhis[ 1]=-0.042438 <==IsSwitchingOccur() T = 0.855000 Tnext = 0.860000 Time: 8.55000e-01 states: [ 2.70513e-01 2.30898e-01] derivs: [ 2.30664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.860000 pESO->GetIndependentVar(): 0.860000 ==>IsSwitchingOccur() prevPhis[ 0]=6.042438, nextPhis[ 0]=6.040857 prevPhis[ 1]=-0.042438, nextPhis[ 1]=-0.040857 <==IsSwitchingOccur() T = 0.860000 Tnext = 0.865000 Time: 8.60000e-01 states: [ 2.71653e-01 2.25898e-01] derivs: [ 2.25664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.865000 pESO->GetIndependentVar(): 0.865000 ==>IsSwitchingOccur() prevPhis[ 0]=6.040857, nextPhis[ 0]=6.039202 prevPhis[ 1]=-0.040857, nextPhis[ 1]=-0.039202 <==IsSwitchingOccur() T = 0.865000 Tnext = 0.870000 Time: 8.65000e-01 states: [ 2.72768e-01 2.20898e-01] derivs: [ 2.20664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.870000 pESO->GetIndependentVar(): 0.870000 ==>IsSwitchingOccur() prevPhis[ 0]=6.039202, nextPhis[ 0]=6.037472 prevPhis[ 1]=-0.039202, nextPhis[ 1]=-0.037472 <==IsSwitchingOccur() T = 0.870000 Tnext = 0.875000 Time: 8.70000e-01 states: [ 2.73858e-01 2.15898e-01] derivs: [ 2.15664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.875000 pESO->GetIndependentVar(): 0.875000 ==>IsSwitchingOccur() prevPhis[ 0]=6.037472, nextPhis[ 0]=6.035667 prevPhis[ 1]=-0.037472, nextPhis[ 1]=-0.035667 <==IsSwitchingOccur() T = 0.875000 Tnext = 0.880000 Time: 8.75000e-01 states: [ 2.74923e-01 2.10898e-01] derivs: [ 2.10664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.880000 pESO->GetIndependentVar(): 0.880000 ==>IsSwitchingOccur() prevPhis[ 0]=6.035667, nextPhis[ 0]=6.033786 prevPhis[ 1]=-0.035667, nextPhis[ 1]=-0.033786 <==IsSwitchingOccur() T = 0.880000 Tnext = 0.885000 Time: 8.80000e-01 states: [ 2.75963e-01 2.05898e-01] derivs: [ 2.05664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.885000 pESO->GetIndependentVar(): 0.885000 ==>IsSwitchingOccur() prevPhis[ 0]=6.033786, nextPhis[ 0]=6.031831 prevPhis[ 1]=-0.033786, nextPhis[ 1]=-0.031831 <==IsSwitchingOccur() T = 0.885000 Tnext = 0.890000 Time: 8.85000e-01 states: [ 2.76978e-01 2.00898e-01] derivs: [ 2.00664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.890000 pESO->GetIndependentVar(): 0.890000 ==>IsSwitchingOccur() prevPhis[ 0]=6.031831, nextPhis[ 0]=6.029801 prevPhis[ 1]=-0.031831, nextPhis[ 1]=-0.029801 <==IsSwitchingOccur() T = 0.890000 Tnext = 0.895000 Time: 8.90000e-01 states: [ 2.77967e-01 1.95898e-01] derivs: [ 1.95664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.895000 pESO->GetIndependentVar(): 0.895000 ==>IsSwitchingOccur() prevPhis[ 0]=6.029801, nextPhis[ 0]=6.027695 prevPhis[ 1]=-0.029801, nextPhis[ 1]=-0.027695 <==IsSwitchingOccur() T = 0.895000 Tnext = 0.900000 Time: 8.95000e-01 states: [ 2.78932e-01 1.90898e-01] derivs: [ 1.90664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.900000 pESO->GetIndependentVar(): 0.900000 ==>IsSwitchingOccur() prevPhis[ 0]=6.027695, nextPhis[ 0]=6.025515 prevPhis[ 1]=-0.027695, nextPhis[ 1]=-0.025515 <==IsSwitchingOccur() T = 0.900000 Tnext = 0.905000 Time: 9.00000e-01 states: [ 2.79872e-01 1.85898e-01] derivs: [ 1.85664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.905000 pESO->GetIndependentVar(): 0.905000 ==>IsSwitchingOccur() prevPhis[ 0]=6.025515, nextPhis[ 0]=6.023260 prevPhis[ 1]=-0.025515, nextPhis[ 1]=-0.023260 <==IsSwitchingOccur() T = 0.905000 Tnext = 0.910000 Time: 9.05000e-01 states: [ 2.80787e-01 1.80898e-01] derivs: [ 1.80664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.910000 pESO->GetIndependentVar(): 0.910000 ==>IsSwitchingOccur() prevPhis[ 0]=6.023260, nextPhis[ 0]=6.020929 prevPhis[ 1]=-0.023260, nextPhis[ 1]=-0.020929 <==IsSwitchingOccur() T = 0.910000 Tnext = 0.915000 Time: 9.10000e-01 states: [ 2.81677e-01 1.75898e-01] derivs: [ 1.75664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.915000 pESO->GetIndependentVar(): 0.915000 ==>IsSwitchingOccur() prevPhis[ 0]=6.020929, nextPhis[ 0]=6.018524 prevPhis[ 1]=-0.020929, nextPhis[ 1]=-0.018524 <==IsSwitchingOccur() T = 0.915000 Tnext = 0.920000 Time: 9.15000e-01 states: [ 2.82542e-01 1.70898e-01] derivs: [ 1.70664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.920000 pESO->GetIndependentVar(): 0.920000 ==>IsSwitchingOccur() prevPhis[ 0]=6.018524, nextPhis[ 0]=6.016044 prevPhis[ 1]=-0.018524, nextPhis[ 1]=-0.016044 <==IsSwitchingOccur() T = 0.920000 Tnext = 0.925000 Time: 9.20000e-01 states: [ 2.83382e-01 1.65898e-01] derivs: [ 1.65664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.925000 pESO->GetIndependentVar(): 0.925000 ==>IsSwitchingOccur() prevPhis[ 0]=6.016044, nextPhis[ 0]=6.013489 prevPhis[ 1]=-0.016044, nextPhis[ 1]=-0.013489 <==IsSwitchingOccur() T = 0.925000 Tnext = 0.930000 Time: 9.25000e-01 states: [ 2.84197e-01 1.60898e-01] derivs: [ 1.60664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.930000 pESO->GetIndependentVar(): 0.930000 ==>IsSwitchingOccur() prevPhis[ 0]=6.013489, nextPhis[ 0]=6.010858 prevPhis[ 1]=-0.013489, nextPhis[ 1]=-0.010858 <==IsSwitchingOccur() T = 0.930000 Tnext = 0.935000 Time: 9.30000e-01 states: [ 2.84987e-01 1.55898e-01] derivs: [ 1.55664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.935000 pESO->GetIndependentVar(): 0.935000 ==>IsSwitchingOccur() prevPhis[ 0]=6.010858, nextPhis[ 0]=6.008153 prevPhis[ 1]=-0.010858, nextPhis[ 1]=-0.008153 <==IsSwitchingOccur() T = 0.935000 Tnext = 0.940000 Time: 9.35000e-01 states: [ 2.85752e-01 1.50898e-01] derivs: [ 1.50664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.940000 pESO->GetIndependentVar(): 0.940000 ==>IsSwitchingOccur() prevPhis[ 0]=6.008153, nextPhis[ 0]=6.005373 prevPhis[ 1]=-0.008153, nextPhis[ 1]=-0.005373 <==IsSwitchingOccur() T = 0.940000 Tnext = 0.945000 Time: 9.40000e-01 states: [ 2.86491e-01 1.45898e-01] derivs: [ 1.45664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.945000 pESO->GetIndependentVar(): 0.945000 ==>IsSwitchingOccur() prevPhis[ 0]=6.005373, nextPhis[ 0]=6.002517 prevPhis[ 1]=-0.005373, nextPhis[ 1]=-0.002517 <==IsSwitchingOccur() T = 0.945000 Tnext = 0.950000 Time: 9.45000e-01 states: [ 2.87206e-01 1.40898e-01] derivs: [ 1.40664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.950000 pESO->GetIndependentVar(): 0.950000 ==>IsSwitchingOccur() prevPhis[ 0]=6.002517, nextPhis[ 0]=5.999587 prevPhis[ 1]=-0.002517, nextPhis[ 1]=0.000413 <==IsSwitchingOccur() T = 0.950000 Tnext = 0.955000 Time: 9.50000e-01 states: [ 2.87896e-01 1.35898e-01] derivs: [ 1.35664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.955000 pESO->GetIndependentVar(): 0.955000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999587, nextPhis[ 0]=5.996582 prevPhis[ 1]=0.000413, nextPhis[ 1]=0.003418 <==IsSwitchingOccur() T = 0.955000 Tnext = 0.960000 Time: 9.55000e-01 states: [ 2.88561e-01 1.30898e-01] derivs: [ 1.30664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.960000 pESO->GetIndependentVar(): 0.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996582, nextPhis[ 0]=5.993501 prevPhis[ 1]=0.003418, nextPhis[ 1]=0.006499 <==IsSwitchingOccur() T = 0.960000 Tnext = 0.965000 Time: 9.60000e-01 states: [ 2.89201e-01 1.25898e-01] derivs: [ 1.25664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.965000 pESO->GetIndependentVar(): 0.965000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993501, nextPhis[ 0]=5.990346 prevPhis[ 1]=0.006499, nextPhis[ 1]=0.009654 <==IsSwitchingOccur() T = 0.965000 Tnext = 0.970000 Time: 9.65000e-01 states: [ 2.89816e-01 1.20898e-01] derivs: [ 1.20664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.970000 pESO->GetIndependentVar(): 0.970000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990346, nextPhis[ 0]=5.987116 prevPhis[ 1]=0.009654, nextPhis[ 1]=0.012884 <==IsSwitchingOccur() T = 0.970000 Tnext = 0.975000 Time: 9.70000e-01 states: [ 2.90406e-01 1.15898e-01] derivs: [ 1.15664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.975000 pESO->GetIndependentVar(): 0.975000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987116, nextPhis[ 0]=5.983811 prevPhis[ 1]=0.012884, nextPhis[ 1]=0.016189 <==IsSwitchingOccur() T = 0.975000 Tnext = 0.980000 Time: 9.75000e-01 states: [ 2.90971e-01 1.10898e-01] derivs: [ 1.10664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.980000 pESO->GetIndependentVar(): 0.980000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983811, nextPhis[ 0]=5.980430 prevPhis[ 1]=0.016189, nextPhis[ 1]=0.019570 <==IsSwitchingOccur() T = 0.980000 Tnext = 0.985000 Time: 9.80000e-01 states: [ 2.91511e-01 1.05898e-01] derivs: [ 1.05664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.985000 pESO->GetIndependentVar(): 0.985000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980430, nextPhis[ 0]=5.976975 prevPhis[ 1]=0.019570, nextPhis[ 1]=0.023025 <==IsSwitchingOccur() T = 0.985000 Tnext = 0.990000 Time: 9.85000e-01 states: [ 2.92026e-01 1.00898e-01] derivs: [ 1.00664e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.990000 pESO->GetIndependentVar(): 0.990000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976975, nextPhis[ 0]=5.973445 prevPhis[ 1]=0.023025, nextPhis[ 1]=0.026555 <==IsSwitchingOccur() T = 0.990000 Tnext = 0.995000 Time: 9.90000e-01 states: [ 2.92515e-01 9.58984e-02] derivs: [ 9.56637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 0.995000 pESO->GetIndependentVar(): 0.995000 ==>IsSwitchingOccur() prevPhis[ 0]=5.973445, nextPhis[ 0]=5.969839 prevPhis[ 1]=0.026555, nextPhis[ 1]=0.030161 <==IsSwitchingOccur() T = 0.995000 Tnext = 1.000000 Time: 9.95000e-01 states: [ 2.92980e-01 9.08984e-02] derivs: [ 9.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.000000 pESO->GetIndependentVar(): 1.000000 ==>IsSwitchingOccur() prevPhis[ 0]=5.969839, nextPhis[ 0]=5.966159 prevPhis[ 1]=0.030161, nextPhis[ 1]=0.033841 <==IsSwitchingOccur() T = 1.000000 Tnext = 1.005000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.005000 pESO->GetIndependentVar(): 1.005000 ==>IsSwitchingOccur() prevPhis[ 0]=5.966159, nextPhis[ 0]=5.962404 prevPhis[ 1]=0.033841, nextPhis[ 1]=0.037596 <==IsSwitchingOccur() T = 1.005000 Tnext = 1.010000 Time: 1.00500e+00 states: [ 2.93835e-01 8.08984e-02] derivs: [ 8.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.010000 pESO->GetIndependentVar(): 1.010000 ==>IsSwitchingOccur() prevPhis[ 0]=5.962404, nextPhis[ 0]=5.958573 prevPhis[ 1]=0.037596, nextPhis[ 1]=0.041427 <==IsSwitchingOccur() T = 1.010000 Tnext = 1.015000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.015000 pESO->GetIndependentVar(): 1.015000 ==>IsSwitchingOccur() prevPhis[ 0]=5.958573, nextPhis[ 0]=5.954668 prevPhis[ 1]=0.041427, nextPhis[ 1]=0.045332 <==IsSwitchingOccur() T = 1.015000 Tnext = 1.020000 Time: 1.01500e+00 states: [ 2.94590e-01 7.08984e-02] derivs: [ 7.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.020000 pESO->GetIndependentVar(): 1.020000 ==>IsSwitchingOccur() prevPhis[ 0]=5.954668, nextPhis[ 0]=5.950688 prevPhis[ 1]=0.045332, nextPhis[ 1]=0.049312 <==IsSwitchingOccur() T = 1.020000 Tnext = 1.025000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.025000 pESO->GetIndependentVar(): 1.025000 ==>IsSwitchingOccur() prevPhis[ 0]=5.950688, nextPhis[ 0]=5.946633 prevPhis[ 1]=0.049312, nextPhis[ 1]=0.053367 <==IsSwitchingOccur() T = 1.025000 Tnext = 1.030000 Time: 1.02500e+00 states: [ 2.95245e-01 6.08984e-02] derivs: [ 6.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.030000 pESO->GetIndependentVar(): 1.030000 ==>IsSwitchingOccur() prevPhis[ 0]=5.946633, nextPhis[ 0]=5.942502 prevPhis[ 1]=0.053367, nextPhis[ 1]=0.057498 <==IsSwitchingOccur() T = 1.030000 Tnext = 1.035000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.035000 pESO->GetIndependentVar(): 1.035000 ==>IsSwitchingOccur() prevPhis[ 0]=5.942502, nextPhis[ 0]=5.938297 prevPhis[ 1]=0.057498, nextPhis[ 1]=0.061703 <==IsSwitchingOccur() T = 1.035000 Tnext = 1.040000 Time: 1.03500e+00 states: [ 2.95800e-01 5.08984e-02] derivs: [ 5.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.040000 pESO->GetIndependentVar(): 1.040000 ==>IsSwitchingOccur() prevPhis[ 0]=5.938297, nextPhis[ 0]=5.934017 prevPhis[ 1]=0.061703, nextPhis[ 1]=0.065983 <==IsSwitchingOccur() T = 1.040000 Tnext = 1.045000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.045000 pESO->GetIndependentVar(): 1.045000 ==>IsSwitchingOccur() prevPhis[ 0]=5.934017, nextPhis[ 0]=5.929661 prevPhis[ 1]=0.065983, nextPhis[ 1]=0.070339 <==IsSwitchingOccur() T = 1.045000 Tnext = 1.050000 Time: 1.04500e+00 states: [ 2.96254e-01 4.08984e-02] derivs: [ 4.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.050000 pESO->GetIndependentVar(): 1.050000 ==>IsSwitchingOccur() prevPhis[ 0]=5.929661, nextPhis[ 0]=5.925231 prevPhis[ 1]=0.070339, nextPhis[ 1]=0.074769 <==IsSwitchingOccur() T = 1.050000 Tnext = 1.055000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.055000 pESO->GetIndependentVar(): 1.055000 ==>IsSwitchingOccur() prevPhis[ 0]=5.925231, nextPhis[ 0]=5.920726 prevPhis[ 1]=0.074769, nextPhis[ 1]=0.079274 <==IsSwitchingOccur() T = 1.055000 Tnext = 1.060000 Time: 1.05500e+00 states: [ 2.96609e-01 3.08984e-02] derivs: [ 3.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.060000 pESO->GetIndependentVar(): 1.060000 ==>IsSwitchingOccur() prevPhis[ 0]=5.920726, nextPhis[ 0]=5.916145 prevPhis[ 1]=0.079274, nextPhis[ 1]=0.083855 <==IsSwitchingOccur() T = 1.060000 Tnext = 1.065000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.065000 pESO->GetIndependentVar(): 1.065000 ==>IsSwitchingOccur() prevPhis[ 0]=5.916145, nextPhis[ 0]=5.911490 prevPhis[ 1]=0.083855, nextPhis[ 1]=0.088510 <==IsSwitchingOccur() T = 1.065000 Tnext = 1.070000 Time: 1.06500e+00 states: [ 2.96864e-01 2.08984e-02] derivs: [ 2.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.070000 pESO->GetIndependentVar(): 1.070000 ==>IsSwitchingOccur() prevPhis[ 0]=5.911490, nextPhis[ 0]=5.906760 prevPhis[ 1]=0.088510, nextPhis[ 1]=0.093240 <==IsSwitchingOccur() T = 1.070000 Tnext = 1.075000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.075000 pESO->GetIndependentVar(): 1.075000 ==>IsSwitchingOccur() prevPhis[ 0]=5.906760, nextPhis[ 0]=5.901955 prevPhis[ 1]=0.093240, nextPhis[ 1]=0.098045 <==IsSwitchingOccur() T = 1.075000 Tnext = 1.080000 Time: 1.07500e+00 states: [ 2.97019e-01 1.08984e-02] derivs: [ 1.06637e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.080000 pESO->GetIndependentVar(): 1.080000 ==>IsSwitchingOccur() prevPhis[ 0]=5.901955, nextPhis[ 0]=5.897074 prevPhis[ 1]=0.098045, nextPhis[ 1]=0.102926 <==IsSwitchingOccur() T = 1.080000 Tnext = 1.085000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.085000 pESO->GetIndependentVar(): 1.085000 ==>IsSwitchingOccur() prevPhis[ 0]=5.897074, nextPhis[ 0]=5.892119 prevPhis[ 1]=0.102926, nextPhis[ 1]=0.107881 <==IsSwitchingOccur() T = 1.085000 Tnext = 1.090000 Time: 1.08500e+00 states: [ 2.97074e-01 8.98423e-04] derivs: [ 6.63655e-04 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.090000 pESO->GetIndependentVar(): 1.090000 ==>IsSwitchingOccur() prevPhis[ 0]=5.892119, nextPhis[ 0]=5.887089 prevPhis[ 1]=0.107881, nextPhis[ 1]=0.112911 <==IsSwitchingOccur() T = 1.090000 Tnext = 1.095000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.095000 pESO->GetIndependentVar(): 1.095000 ==>IsSwitchingOccur() prevPhis[ 0]=5.887089, nextPhis[ 0]=5.881983 prevPhis[ 1]=0.112911, nextPhis[ 1]=0.118017 <==IsSwitchingOccur() T = 1.095000 Tnext = 1.100000 Time: 1.09500e+00 states: [ 2.97028e-01 -9.10158e-03] derivs: [ -9.33635e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.100000 pESO->GetIndependentVar(): 1.100000 ==>IsSwitchingOccur() prevPhis[ 0]=5.881983, nextPhis[ 0]=5.876803 prevPhis[ 1]=0.118017, nextPhis[ 1]=0.123197 <==IsSwitchingOccur() T = 1.100000 Tnext = 1.105000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.105000 pESO->GetIndependentVar(): 1.105000 ==>IsSwitchingOccur() prevPhis[ 0]=5.876803, nextPhis[ 0]=5.871548 prevPhis[ 1]=0.123197, nextPhis[ 1]=0.128452 <==IsSwitchingOccur() T = 1.105000 Tnext = 1.110000 Time: 1.10500e+00 states: [ 2.96883e-01 -1.91016e-02] derivs: [ -1.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.110000 pESO->GetIndependentVar(): 1.110000 ==>IsSwitchingOccur() prevPhis[ 0]=5.871548, nextPhis[ 0]=5.866217 prevPhis[ 1]=0.128452, nextPhis[ 1]=0.133783 <==IsSwitchingOccur() T = 1.110000 Tnext = 1.115000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.115000 pESO->GetIndependentVar(): 1.115000 ==>IsSwitchingOccur() prevPhis[ 0]=5.866217, nextPhis[ 0]=5.860812 prevPhis[ 1]=0.133783, nextPhis[ 1]=0.139188 <==IsSwitchingOccur() T = 1.115000 Tnext = 1.120000 Time: 1.11500e+00 states: [ 2.96638e-01 -2.91016e-02] derivs: [ -2.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.120000 pESO->GetIndependentVar(): 1.120000 ==>IsSwitchingOccur() prevPhis[ 0]=5.860812, nextPhis[ 0]=5.855332 prevPhis[ 1]=0.139188, nextPhis[ 1]=0.144668 <==IsSwitchingOccur() T = 1.120000 Tnext = 1.125000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.125000 pESO->GetIndependentVar(): 1.125000 ==>IsSwitchingOccur() prevPhis[ 0]=5.855332, nextPhis[ 0]=5.849777 prevPhis[ 1]=0.144668, nextPhis[ 1]=0.150223 <==IsSwitchingOccur() T = 1.125000 Tnext = 1.130000 Time: 1.12500e+00 states: [ 2.96293e-01 -3.91016e-02] derivs: [ -3.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.130000 pESO->GetIndependentVar(): 1.130000 ==>IsSwitchingOccur() prevPhis[ 0]=5.849777, nextPhis[ 0]=5.844146 prevPhis[ 1]=0.150223, nextPhis[ 1]=0.155854 <==IsSwitchingOccur() T = 1.130000 Tnext = 1.135000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.135000 pESO->GetIndependentVar(): 1.135000 ==>IsSwitchingOccur() prevPhis[ 0]=5.844146, nextPhis[ 0]=5.838441 prevPhis[ 1]=0.155854, nextPhis[ 1]=0.161559 <==IsSwitchingOccur() T = 1.135000 Tnext = 1.140000 Time: 1.13500e+00 states: [ 2.95848e-01 -4.91016e-02] derivs: [ -4.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.140000 pESO->GetIndependentVar(): 1.140000 ==>IsSwitchingOccur() prevPhis[ 0]=5.838441, nextPhis[ 0]=5.832661 prevPhis[ 1]=0.161559, nextPhis[ 1]=0.167339 <==IsSwitchingOccur() T = 1.140000 Tnext = 1.145000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.145000 pESO->GetIndependentVar(): 1.145000 ==>IsSwitchingOccur() prevPhis[ 0]=5.832661, nextPhis[ 0]=5.826805 prevPhis[ 1]=0.167339, nextPhis[ 1]=0.173195 <==IsSwitchingOccur() T = 1.145000 Tnext = 1.150000 Time: 1.14500e+00 states: [ 2.95302e-01 -5.91016e-02] derivs: [ -5.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.150000 pESO->GetIndependentVar(): 1.150000 ==>IsSwitchingOccur() prevPhis[ 0]=5.826805, nextPhis[ 0]=5.820875 prevPhis[ 1]=0.173195, nextPhis[ 1]=0.179125 <==IsSwitchingOccur() T = 1.150000 Tnext = 1.155000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.155000 pESO->GetIndependentVar(): 1.155000 ==>IsSwitchingOccur() prevPhis[ 0]=5.820875, nextPhis[ 0]=5.814870 prevPhis[ 1]=0.179125, nextPhis[ 1]=0.185130 <==IsSwitchingOccur() T = 1.155000 Tnext = 1.160000 Time: 1.15500e+00 states: [ 2.94657e-01 -6.91016e-02] derivs: [ -6.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.160000 pESO->GetIndependentVar(): 1.160000 ==>IsSwitchingOccur() prevPhis[ 0]=5.814870, nextPhis[ 0]=5.808789 prevPhis[ 1]=0.185130, nextPhis[ 1]=0.191211 <==IsSwitchingOccur() T = 1.160000 Tnext = 1.165000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.165000 pESO->GetIndependentVar(): 1.165000 ==>IsSwitchingOccur() prevPhis[ 0]=5.808789, nextPhis[ 0]=5.802634 prevPhis[ 1]=0.191211, nextPhis[ 1]=0.197366 <==IsSwitchingOccur() T = 1.165000 Tnext = 1.170000 Time: 1.16500e+00 states: [ 2.93912e-01 -7.91016e-02] derivs: [ -7.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.170000 pESO->GetIndependentVar(): 1.170000 ==>IsSwitchingOccur() prevPhis[ 0]=5.802634, nextPhis[ 0]=5.796404 prevPhis[ 1]=0.197366, nextPhis[ 1]=0.203596 <==IsSwitchingOccur() T = 1.170000 Tnext = 1.175000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.175000 pESO->GetIndependentVar(): 1.175000 ==>IsSwitchingOccur() prevPhis[ 0]=5.796404, nextPhis[ 0]=5.790099 prevPhis[ 1]=0.203596, nextPhis[ 1]=0.209901 <==IsSwitchingOccur() T = 1.175000 Tnext = 1.180000 Time: 1.17500e+00 states: [ 2.93067e-01 -8.91016e-02] derivs: [ -8.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.180000 pESO->GetIndependentVar(): 1.180000 ==>IsSwitchingOccur() prevPhis[ 0]=5.790099, nextPhis[ 0]=5.783718 prevPhis[ 1]=0.209901, nextPhis[ 1]=0.216282 <==IsSwitchingOccur() T = 1.180000 Tnext = 1.185000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.185000 pESO->GetIndependentVar(): 1.185000 ==>IsSwitchingOccur() prevPhis[ 0]=5.783718, nextPhis[ 0]=5.777263 prevPhis[ 1]=0.216282, nextPhis[ 1]=0.222737 <==IsSwitchingOccur() T = 1.185000 Tnext = 1.190000 Time: 1.18500e+00 states: [ 2.92122e-01 -9.91016e-02] derivs: [ -9.93363e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.190000 pESO->GetIndependentVar(): 1.190000 ==>IsSwitchingOccur() prevPhis[ 0]=5.777263, nextPhis[ 0]=5.770733 prevPhis[ 1]=0.222737, nextPhis[ 1]=0.229267 <==IsSwitchingOccur() T = 1.190000 Tnext = 1.195000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.195000 pESO->GetIndependentVar(): 1.195000 ==>IsSwitchingOccur() prevPhis[ 0]=5.770733, nextPhis[ 0]=5.764127 prevPhis[ 1]=0.229267, nextPhis[ 1]=0.235873 <==IsSwitchingOccur() T = 1.195000 Tnext = 1.200000 Time: 1.19500e+00 states: [ 2.91076e-01 -1.09102e-01] derivs: [ -1.09336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.200000 pESO->GetIndependentVar(): 1.200000 ==>IsSwitchingOccur() prevPhis[ 0]=5.764127, nextPhis[ 0]=5.757447 prevPhis[ 1]=0.235873, nextPhis[ 1]=0.242553 <==IsSwitchingOccur() T = 1.200000 Tnext = 1.205000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.205000 pESO->GetIndependentVar(): 1.205000 ==>IsSwitchingOccur() prevPhis[ 0]=5.757447, nextPhis[ 0]=5.750692 prevPhis[ 1]=0.242553, nextPhis[ 1]=0.249308 <==IsSwitchingOccur() T = 1.205000 Tnext = 1.210000 Time: 1.20500e+00 states: [ 2.89931e-01 -1.19102e-01] derivs: [ -1.19336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.210000 pESO->GetIndependentVar(): 1.210000 ==>IsSwitchingOccur() prevPhis[ 0]=5.750692, nextPhis[ 0]=5.743861 prevPhis[ 1]=0.249308, nextPhis[ 1]=0.256139 <==IsSwitchingOccur() T = 1.210000 Tnext = 1.215000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.215000 pESO->GetIndependentVar(): 1.215000 ==>IsSwitchingOccur() prevPhis[ 0]=5.743861, nextPhis[ 0]=5.736956 prevPhis[ 1]=0.256139, nextPhis[ 1]=0.263044 <==IsSwitchingOccur() T = 1.215000 Tnext = 1.220000 Time: 1.21500e+00 states: [ 2.88686e-01 -1.29102e-01] derivs: [ -1.29336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.220000 pESO->GetIndependentVar(): 1.220000 ==>IsSwitchingOccur() prevPhis[ 0]=5.736956, nextPhis[ 0]=5.729976 prevPhis[ 1]=0.263044, nextPhis[ 1]=0.270024 <==IsSwitchingOccur() T = 1.220000 Tnext = 1.225000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.225000 pESO->GetIndependentVar(): 1.225000 ==>IsSwitchingOccur() prevPhis[ 0]=5.729976, nextPhis[ 0]=5.722921 prevPhis[ 1]=0.270024, nextPhis[ 1]=0.277079 <==IsSwitchingOccur() T = 1.225000 Tnext = 1.230000 Time: 1.22500e+00 states: [ 2.87341e-01 -1.39102e-01] derivs: [ -1.39336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.230000 pESO->GetIndependentVar(): 1.230000 ==>IsSwitchingOccur() prevPhis[ 0]=5.722921, nextPhis[ 0]=5.715790 prevPhis[ 1]=0.277079, nextPhis[ 1]=0.284210 <==IsSwitchingOccur() T = 1.230000 Tnext = 1.235000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.235000 pESO->GetIndependentVar(): 1.235000 ==>IsSwitchingOccur() prevPhis[ 0]=5.715790, nextPhis[ 0]=5.708585 prevPhis[ 1]=0.284210, nextPhis[ 1]=0.291415 <==IsSwitchingOccur() T = 1.235000 Tnext = 1.240000 Time: 1.23500e+00 states: [ 2.85896e-01 -1.49102e-01] derivs: [ -1.49336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.240000 pESO->GetIndependentVar(): 1.240000 ==>IsSwitchingOccur() prevPhis[ 0]=5.708585, nextPhis[ 0]=5.701305 prevPhis[ 1]=0.291415, nextPhis[ 1]=0.298695 <==IsSwitchingOccur() T = 1.240000 Tnext = 1.245000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.245000 pESO->GetIndependentVar(): 1.245000 ==>IsSwitchingOccur() prevPhis[ 0]=5.701305, nextPhis[ 0]=5.693949 prevPhis[ 1]=0.298695, nextPhis[ 1]=0.306051 <==IsSwitchingOccur() T = 1.245000 Tnext = 1.250000 Time: 1.24500e+00 states: [ 2.84350e-01 -1.59102e-01] derivs: [ -1.59336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.250000 pESO->GetIndependentVar(): 1.250000 ==>IsSwitchingOccur() prevPhis[ 0]=5.693949, nextPhis[ 0]=5.686519 prevPhis[ 1]=0.306051, nextPhis[ 1]=0.313481 <==IsSwitchingOccur() T = 1.250000 Tnext = 1.255000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.255000 pESO->GetIndependentVar(): 1.255000 ==>IsSwitchingOccur() prevPhis[ 0]=5.686519, nextPhis[ 0]=5.679014 prevPhis[ 1]=0.313481, nextPhis[ 1]=0.320986 <==IsSwitchingOccur() T = 1.255000 Tnext = 1.260000 Time: 1.25500e+00 states: [ 2.82705e-01 -1.69102e-01] derivs: [ -1.69336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.260000 pESO->GetIndependentVar(): 1.260000 ==>IsSwitchingOccur() prevPhis[ 0]=5.679014, nextPhis[ 0]=5.671433 prevPhis[ 1]=0.320986, nextPhis[ 1]=0.328567 <==IsSwitchingOccur() T = 1.260000 Tnext = 1.265000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.265000 pESO->GetIndependentVar(): 1.265000 ==>IsSwitchingOccur() prevPhis[ 0]=5.671433, nextPhis[ 0]=5.663778 prevPhis[ 1]=0.328567, nextPhis[ 1]=0.336222 <==IsSwitchingOccur() T = 1.265000 Tnext = 1.270000 Time: 1.26500e+00 states: [ 2.80960e-01 -1.79102e-01] derivs: [ -1.79336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.270000 pESO->GetIndependentVar(): 1.270000 ==>IsSwitchingOccur() prevPhis[ 0]=5.663778, nextPhis[ 0]=5.656048 prevPhis[ 1]=0.336222, nextPhis[ 1]=0.343952 <==IsSwitchingOccur() T = 1.270000 Tnext = 1.275000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.275000 pESO->GetIndependentVar(): 1.275000 ==>IsSwitchingOccur() prevPhis[ 0]=5.656048, nextPhis[ 0]=5.648243 prevPhis[ 1]=0.343952, nextPhis[ 1]=0.351757 <==IsSwitchingOccur() T = 1.275000 Tnext = 1.280000 Time: 1.27500e+00 states: [ 2.79115e-01 -1.89102e-01] derivs: [ -1.89336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.280000 pESO->GetIndependentVar(): 1.280000 ==>IsSwitchingOccur() prevPhis[ 0]=5.648243, nextPhis[ 0]=5.640362 prevPhis[ 1]=0.351757, nextPhis[ 1]=0.359638 <==IsSwitchingOccur() T = 1.280000 Tnext = 1.285000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.285000 pESO->GetIndependentVar(): 1.285000 ==>IsSwitchingOccur() prevPhis[ 0]=5.640362, nextPhis[ 0]=5.632407 prevPhis[ 1]=0.359638, nextPhis[ 1]=0.367593 <==IsSwitchingOccur() T = 1.285000 Tnext = 1.290000 Time: 1.28500e+00 states: [ 2.77170e-01 -1.99102e-01] derivs: [ -1.99336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.290000 pESO->GetIndependentVar(): 1.290000 ==>IsSwitchingOccur() prevPhis[ 0]=5.632407, nextPhis[ 0]=5.624377 prevPhis[ 1]=0.367593, nextPhis[ 1]=0.375623 <==IsSwitchingOccur() T = 1.290000 Tnext = 1.295000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.295000 pESO->GetIndependentVar(): 1.295000 ==>IsSwitchingOccur() prevPhis[ 0]=5.624377, nextPhis[ 0]=5.616271 prevPhis[ 1]=0.375623, nextPhis[ 1]=0.383729 <==IsSwitchingOccur() T = 1.295000 Tnext = 1.300000 Time: 1.29500e+00 states: [ 2.75124e-01 -2.09102e-01] derivs: [ -2.09336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.300000 pESO->GetIndependentVar(): 1.300000 ==>IsSwitchingOccur() prevPhis[ 0]=5.616271, nextPhis[ 0]=5.608091 prevPhis[ 1]=0.383729, nextPhis[ 1]=0.391909 <==IsSwitchingOccur() T = 1.300000 Tnext = 1.305000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.305000 pESO->GetIndependentVar(): 1.305000 ==>IsSwitchingOccur() prevPhis[ 0]=5.608091, nextPhis[ 0]=5.599836 prevPhis[ 1]=0.391909, nextPhis[ 1]=0.400164 <==IsSwitchingOccur() T = 1.305000 Tnext = 1.310000 Time: 1.30500e+00 states: [ 2.72979e-01 -2.19102e-01] derivs: [ -2.19336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.310000 pESO->GetIndependentVar(): 1.310000 ==>IsSwitchingOccur() prevPhis[ 0]=5.599836, nextPhis[ 0]=5.591505 prevPhis[ 1]=0.400164, nextPhis[ 1]=0.408495 <==IsSwitchingOccur() T = 1.310000 Tnext = 1.315000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.315000 pESO->GetIndependentVar(): 1.315000 ==>IsSwitchingOccur() prevPhis[ 0]=5.591505, nextPhis[ 0]=5.583100 prevPhis[ 1]=0.408495, nextPhis[ 1]=0.416900 <==IsSwitchingOccur() T = 1.315000 Tnext = 1.320000 Time: 1.31500e+00 states: [ 2.70734e-01 -2.29102e-01] derivs: [ -2.29336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.320000 pESO->GetIndependentVar(): 1.320000 ==>IsSwitchingOccur() prevPhis[ 0]=5.583100, nextPhis[ 0]=5.574620 prevPhis[ 1]=0.416900, nextPhis[ 1]=0.425380 <==IsSwitchingOccur() T = 1.320000 Tnext = 1.325000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.325000 pESO->GetIndependentVar(): 1.325000 ==>IsSwitchingOccur() prevPhis[ 0]=5.574620, nextPhis[ 0]=5.566065 prevPhis[ 1]=0.425380, nextPhis[ 1]=0.433935 <==IsSwitchingOccur() T = 1.325000 Tnext = 1.330000 Time: 1.32500e+00 states: [ 2.68389e-01 -2.39102e-01] derivs: [ -2.39336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.330000 pESO->GetIndependentVar(): 1.330000 ==>IsSwitchingOccur() prevPhis[ 0]=5.566065, nextPhis[ 0]=5.557434 prevPhis[ 1]=0.433935, nextPhis[ 1]=0.442566 <==IsSwitchingOccur() T = 1.330000 Tnext = 1.335000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.335000 pESO->GetIndependentVar(): 1.335000 ==>IsSwitchingOccur() prevPhis[ 0]=5.557434, nextPhis[ 0]=5.548729 prevPhis[ 1]=0.442566, nextPhis[ 1]=0.451271 <==IsSwitchingOccur() T = 1.335000 Tnext = 1.340000 Time: 1.33500e+00 states: [ 2.65943e-01 -2.49102e-01] derivs: [ -2.49336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.340000 pESO->GetIndependentVar(): 1.340000 ==>IsSwitchingOccur() prevPhis[ 0]=5.548729, nextPhis[ 0]=5.539949 prevPhis[ 1]=0.451271, nextPhis[ 1]=0.460051 <==IsSwitchingOccur() T = 1.340000 Tnext = 1.345000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.345000 pESO->GetIndependentVar(): 1.345000 ==>IsSwitchingOccur() prevPhis[ 0]=5.539949, nextPhis[ 0]=5.531093 prevPhis[ 1]=0.460051, nextPhis[ 1]=0.468907 <==IsSwitchingOccur() T = 1.345000 Tnext = 1.350000 Time: 1.34500e+00 states: [ 2.63398e-01 -2.59102e-01] derivs: [ -2.59336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.350000 pESO->GetIndependentVar(): 1.350000 ==>IsSwitchingOccur() prevPhis[ 0]=5.531093, nextPhis[ 0]=5.522163 prevPhis[ 1]=0.468907, nextPhis[ 1]=0.477837 <==IsSwitchingOccur() T = 1.350000 Tnext = 1.355000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.355000 pESO->GetIndependentVar(): 1.355000 ==>IsSwitchingOccur() prevPhis[ 0]=5.522163, nextPhis[ 0]=5.513158 prevPhis[ 1]=0.477837, nextPhis[ 1]=0.486842 <==IsSwitchingOccur() T = 1.355000 Tnext = 1.360000 Time: 1.35500e+00 states: [ 2.60753e-01 -2.69102e-01] derivs: [ -2.69336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.360000 pESO->GetIndependentVar(): 1.360000 ==>IsSwitchingOccur() prevPhis[ 0]=5.513158, nextPhis[ 0]=5.504077 prevPhis[ 1]=0.486842, nextPhis[ 1]=0.495923 <==IsSwitchingOccur() T = 1.360000 Tnext = 1.365000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.365000 pESO->GetIndependentVar(): 1.365000 ==>IsSwitchingOccur() prevPhis[ 0]=5.504077, nextPhis[ 0]=5.494922 prevPhis[ 1]=0.495923, nextPhis[ 1]=0.505078 <==IsSwitchingOccur() T = 1.365000 Tnext = 1.370000 Time: 1.36500e+00 states: [ 2.58008e-01 -2.79102e-01] derivs: [ -2.79336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.370000 pESO->GetIndependentVar(): 1.370000 ==>IsSwitchingOccur() prevPhis[ 0]=5.494922, nextPhis[ 0]=5.485692 prevPhis[ 1]=0.505078, nextPhis[ 1]=0.514308 <==IsSwitchingOccur() T = 1.370000 Tnext = 1.375000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.375000 pESO->GetIndependentVar(): 1.375000 ==>IsSwitchingOccur() prevPhis[ 0]=5.485692, nextPhis[ 0]=5.476387 prevPhis[ 1]=0.514308, nextPhis[ 1]=0.523613 <==IsSwitchingOccur() T = 1.375000 Tnext = 1.380000 Time: 1.37500e+00 states: [ 2.55163e-01 -2.89102e-01] derivs: [ -2.89336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.380000 pESO->GetIndependentVar(): 1.380000 ==>IsSwitchingOccur() prevPhis[ 0]=5.476387, nextPhis[ 0]=5.467006 prevPhis[ 1]=0.523613, nextPhis[ 1]=0.532994 <==IsSwitchingOccur() T = 1.380000 Tnext = 1.385000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.385000 pESO->GetIndependentVar(): 1.385000 ==>IsSwitchingOccur() prevPhis[ 0]=5.467006, nextPhis[ 0]=5.457551 prevPhis[ 1]=0.532994, nextPhis[ 1]=0.542449 <==IsSwitchingOccur() T = 1.385000 Tnext = 1.390000 Time: 1.38500e+00 states: [ 2.52217e-01 -2.99102e-01] derivs: [ -2.99336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.390000 pESO->GetIndependentVar(): 1.390000 ==>IsSwitchingOccur() prevPhis[ 0]=5.457551, nextPhis[ 0]=5.448021 prevPhis[ 1]=0.542449, nextPhis[ 1]=0.551979 <==IsSwitchingOccur() T = 1.390000 Tnext = 1.395000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.395000 pESO->GetIndependentVar(): 1.395000 ==>IsSwitchingOccur() prevPhis[ 0]=5.448021, nextPhis[ 0]=5.438415 prevPhis[ 1]=0.551979, nextPhis[ 1]=0.561585 <==IsSwitchingOccur() T = 1.395000 Tnext = 1.400000 Time: 1.39500e+00 states: [ 2.49172e-01 -3.09102e-01] derivs: [ -3.09336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.400000 pESO->GetIndependentVar(): 1.400000 ==>IsSwitchingOccur() prevPhis[ 0]=5.438415, nextPhis[ 0]=5.428735 prevPhis[ 1]=0.561585, nextPhis[ 1]=0.571265 <==IsSwitchingOccur() T = 1.400000 Tnext = 1.405000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.405000 pESO->GetIndependentVar(): 1.405000 ==>IsSwitchingOccur() prevPhis[ 0]=5.428735, nextPhis[ 0]=5.418980 prevPhis[ 1]=0.571265, nextPhis[ 1]=0.581020 <==IsSwitchingOccur() T = 1.405000 Tnext = 1.410000 Time: 1.40500e+00 states: [ 2.46027e-01 -3.19102e-01] derivs: [ -3.19336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.410000 pESO->GetIndependentVar(): 1.410000 ==>IsSwitchingOccur() prevPhis[ 0]=5.418980, nextPhis[ 0]=5.409149 prevPhis[ 1]=0.581020, nextPhis[ 1]=0.590851 <==IsSwitchingOccur() T = 1.410000 Tnext = 1.415000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.415000 pESO->GetIndependentVar(): 1.415000 ==>IsSwitchingOccur() prevPhis[ 0]=5.409149, nextPhis[ 0]=5.399244 prevPhis[ 1]=0.590851, nextPhis[ 1]=0.600756 <==IsSwitchingOccur() T = 1.415000 Tnext = 1.420000 Time: 1.41500e+00 states: [ 2.42782e-01 -3.29102e-01] derivs: [ -3.29336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.420000 pESO->GetIndependentVar(): 1.420000 ==>IsSwitchingOccur() prevPhis[ 0]=5.399244, nextPhis[ 0]=5.389264 prevPhis[ 1]=0.600756, nextPhis[ 1]=0.610736 <==IsSwitchingOccur() T = 1.420000 Tnext = 1.425000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.425000 pESO->GetIndependentVar(): 1.425000 ==>IsSwitchingOccur() prevPhis[ 0]=5.389264, nextPhis[ 0]=5.379208 prevPhis[ 1]=0.610736, nextPhis[ 1]=0.620792 <==IsSwitchingOccur() T = 1.425000 Tnext = 1.430000 Time: 1.42500e+00 states: [ 2.39437e-01 -3.39102e-01] derivs: [ -3.39336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.430000 pESO->GetIndependentVar(): 1.430000 ==>IsSwitchingOccur() prevPhis[ 0]=5.379208, nextPhis[ 0]=5.369078 prevPhis[ 1]=0.620792, nextPhis[ 1]=0.630922 <==IsSwitchingOccur() T = 1.430000 Tnext = 1.435000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.435000 pESO->GetIndependentVar(): 1.435000 ==>IsSwitchingOccur() prevPhis[ 0]=5.369078, nextPhis[ 0]=5.358873 prevPhis[ 1]=0.630922, nextPhis[ 1]=0.641127 <==IsSwitchingOccur() T = 1.435000 Tnext = 1.440000 Time: 1.43500e+00 states: [ 2.35991e-01 -3.49102e-01] derivs: [ -3.49336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.440000 pESO->GetIndependentVar(): 1.440000 ==>IsSwitchingOccur() prevPhis[ 0]=5.358873, nextPhis[ 0]=5.348593 prevPhis[ 1]=0.641127, nextPhis[ 1]=0.651407 <==IsSwitchingOccur() T = 1.440000 Tnext = 1.445000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.445000 pESO->GetIndependentVar(): 1.445000 ==>IsSwitchingOccur() prevPhis[ 0]=5.348593, nextPhis[ 0]=5.338237 prevPhis[ 1]=0.651407, nextPhis[ 1]=0.661763 <==IsSwitchingOccur() T = 1.445000 Tnext = 1.450000 Time: 1.44500e+00 states: [ 2.32446e-01 -3.59102e-01] derivs: [ -3.59336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.450000 pESO->GetIndependentVar(): 1.450000 ==>IsSwitchingOccur() prevPhis[ 0]=5.338237, nextPhis[ 0]=5.327807 prevPhis[ 1]=0.661763, nextPhis[ 1]=0.672193 <==IsSwitchingOccur() T = 1.450000 Tnext = 1.455000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.455000 pESO->GetIndependentVar(): 1.455000 ==>IsSwitchingOccur() prevPhis[ 0]=5.327807, nextPhis[ 0]=5.317302 prevPhis[ 1]=0.672193, nextPhis[ 1]=0.682698 <==IsSwitchingOccur() T = 1.455000 Tnext = 1.460000 Time: 1.45500e+00 states: [ 2.28801e-01 -3.69102e-01] derivs: [ -3.69336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.460000 pESO->GetIndependentVar(): 1.460000 ==>IsSwitchingOccur() prevPhis[ 0]=5.317302, nextPhis[ 0]=5.306721 prevPhis[ 1]=0.682698, nextPhis[ 1]=0.693279 <==IsSwitchingOccur() T = 1.460000 Tnext = 1.465000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.465000 pESO->GetIndependentVar(): 1.465000 ==>IsSwitchingOccur() prevPhis[ 0]=5.306721, nextPhis[ 0]=5.296066 prevPhis[ 1]=0.693279, nextPhis[ 1]=0.703934 <==IsSwitchingOccur() T = 1.465000 Tnext = 1.470000 Time: 1.46500e+00 states: [ 2.25056e-01 -3.79102e-01] derivs: [ -3.79336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.470000 pESO->GetIndependentVar(): 1.470000 ==>IsSwitchingOccur() prevPhis[ 0]=5.296066, nextPhis[ 0]=5.285336 prevPhis[ 1]=0.703934, nextPhis[ 1]=0.714664 <==IsSwitchingOccur() T = 1.470000 Tnext = 1.475000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.475000 pESO->GetIndependentVar(): 1.475000 ==>IsSwitchingOccur() prevPhis[ 0]=5.285336, nextPhis[ 0]=5.274530 prevPhis[ 1]=0.714664, nextPhis[ 1]=0.725470 <==IsSwitchingOccur() T = 1.475000 Tnext = 1.480000 Time: 1.47500e+00 states: [ 2.21211e-01 -3.89102e-01] derivs: [ -3.89336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.480000 pESO->GetIndependentVar(): 1.480000 ==>IsSwitchingOccur() prevPhis[ 0]=5.274530, nextPhis[ 0]=5.263650 prevPhis[ 1]=0.725470, nextPhis[ 1]=0.736350 <==IsSwitchingOccur() T = 1.480000 Tnext = 1.485000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.485000 pESO->GetIndependentVar(): 1.485000 ==>IsSwitchingOccur() prevPhis[ 0]=5.263650, nextPhis[ 0]=5.252695 prevPhis[ 1]=0.736350, nextPhis[ 1]=0.747305 <==IsSwitchingOccur() T = 1.485000 Tnext = 1.490000 Time: 1.48500e+00 states: [ 2.17265e-01 -3.99102e-01] derivs: [ -3.99336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.490000 pESO->GetIndependentVar(): 1.490000 ==>IsSwitchingOccur() prevPhis[ 0]=5.252695, nextPhis[ 0]=5.241665 prevPhis[ 1]=0.747305, nextPhis[ 1]=0.758335 <==IsSwitchingOccur() T = 1.490000 Tnext = 1.495000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.495000 pESO->GetIndependentVar(): 1.495000 ==>IsSwitchingOccur() prevPhis[ 0]=5.241665, nextPhis[ 0]=5.230559 prevPhis[ 1]=0.758335, nextPhis[ 1]=0.769441 <==IsSwitchingOccur() T = 1.495000 Tnext = 1.500000 Time: 1.49500e+00 states: [ 2.13220e-01 -4.09102e-01] derivs: [ -4.09336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.500000 pESO->GetIndependentVar(): 1.500000 ==>IsSwitchingOccur() prevPhis[ 0]=5.230559, nextPhis[ 0]=5.219379 prevPhis[ 1]=0.769441, nextPhis[ 1]=0.780621 <==IsSwitchingOccur() T = 1.500000 Tnext = 1.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.505000 pESO->GetIndependentVar(): 1.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.219379, nextPhis[ 0]=5.208124 prevPhis[ 1]=0.780621, nextPhis[ 1]=0.791876 <==IsSwitchingOccur() T = 1.505000 Tnext = 1.510000 Time: 1.50500e+00 states: [ 2.09075e-01 -4.19102e-01] derivs: [ -4.19336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.510000 pESO->GetIndependentVar(): 1.510000 ==>IsSwitchingOccur() prevPhis[ 0]=5.208124, nextPhis[ 0]=5.196793 prevPhis[ 1]=0.791876, nextPhis[ 1]=0.803207 <==IsSwitchingOccur() T = 1.510000 Tnext = 1.515000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.515000 pESO->GetIndependentVar(): 1.515000 ==>IsSwitchingOccur() prevPhis[ 0]=5.196793, nextPhis[ 0]=5.185388 prevPhis[ 1]=0.803207, nextPhis[ 1]=0.814612 <==IsSwitchingOccur() T = 1.515000 Tnext = 1.520000 Time: 1.51500e+00 states: [ 2.04830e-01 -4.29102e-01] derivs: [ -4.29336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.520000 pESO->GetIndependentVar(): 1.520000 ==>IsSwitchingOccur() prevPhis[ 0]=5.185388, nextPhis[ 0]=5.173908 prevPhis[ 1]=0.814612, nextPhis[ 1]=0.826092 <==IsSwitchingOccur() T = 1.520000 Tnext = 1.525000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.525000 pESO->GetIndependentVar(): 1.525000 ==>IsSwitchingOccur() prevPhis[ 0]=5.173908, nextPhis[ 0]=5.162352 prevPhis[ 1]=0.826092, nextPhis[ 1]=0.837648 <==IsSwitchingOccur() T = 1.525000 Tnext = 1.530000 Time: 1.52500e+00 states: [ 2.00485e-01 -4.39102e-01] derivs: [ -4.39336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.530000 pESO->GetIndependentVar(): 1.530000 ==>IsSwitchingOccur() prevPhis[ 0]=5.162352, nextPhis[ 0]=5.150722 prevPhis[ 1]=0.837648, nextPhis[ 1]=0.849278 <==IsSwitchingOccur() T = 1.530000 Tnext = 1.535000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.535000 pESO->GetIndependentVar(): 1.535000 ==>IsSwitchingOccur() prevPhis[ 0]=5.150722, nextPhis[ 0]=5.139017 prevPhis[ 1]=0.849278, nextPhis[ 1]=0.860983 <==IsSwitchingOccur() T = 1.535000 Tnext = 1.540000 Time: 1.53500e+00 states: [ 1.96039e-01 -4.49102e-01] derivs: [ -4.49336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.540000 pESO->GetIndependentVar(): 1.540000 ==>IsSwitchingOccur() prevPhis[ 0]=5.139017, nextPhis[ 0]=5.127237 prevPhis[ 1]=0.860983, nextPhis[ 1]=0.872763 <==IsSwitchingOccur() T = 1.540000 Tnext = 1.545000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.545000 pESO->GetIndependentVar(): 1.545000 ==>IsSwitchingOccur() prevPhis[ 0]=5.127237, nextPhis[ 0]=5.115381 prevPhis[ 1]=0.872763, nextPhis[ 1]=0.884619 <==IsSwitchingOccur() T = 1.545000 Tnext = 1.550000 Time: 1.54500e+00 states: [ 1.91494e-01 -4.59102e-01] derivs: [ -4.59336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.550000 pESO->GetIndependentVar(): 1.550000 ==>IsSwitchingOccur() prevPhis[ 0]=5.115381, nextPhis[ 0]=5.103451 prevPhis[ 1]=0.884619, nextPhis[ 1]=0.896549 <==IsSwitchingOccur() T = 1.550000 Tnext = 1.555000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.555000 pESO->GetIndependentVar(): 1.555000 ==>IsSwitchingOccur() prevPhis[ 0]=5.103451, nextPhis[ 0]=5.091446 prevPhis[ 1]=0.896549, nextPhis[ 1]=0.908554 <==IsSwitchingOccur() T = 1.555000 Tnext = 1.560000 Time: 1.55500e+00 states: [ 1.86849e-01 -4.69102e-01] derivs: [ -4.69336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.560000 pESO->GetIndependentVar(): 1.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.091446, nextPhis[ 0]=5.079365 prevPhis[ 1]=0.908554, nextPhis[ 1]=0.920635 <==IsSwitchingOccur() T = 1.560000 Tnext = 1.565000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.565000 pESO->GetIndependentVar(): 1.565000 ==>IsSwitchingOccur() prevPhis[ 0]=5.079365, nextPhis[ 0]=5.067210 prevPhis[ 1]=0.920635, nextPhis[ 1]=0.932790 <==IsSwitchingOccur() T = 1.565000 Tnext = 1.570000 Time: 1.56500e+00 states: [ 1.82104e-01 -4.79102e-01] derivs: [ -4.79336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.570000 pESO->GetIndependentVar(): 1.570000 ==>IsSwitchingOccur() prevPhis[ 0]=5.067210, nextPhis[ 0]=5.054980 prevPhis[ 1]=0.932790, nextPhis[ 1]=0.945020 <==IsSwitchingOccur() T = 1.570000 Tnext = 1.575000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.575000 pESO->GetIndependentVar(): 1.575000 ==>IsSwitchingOccur() prevPhis[ 0]=5.054980, nextPhis[ 0]=5.042674 prevPhis[ 1]=0.945020, nextPhis[ 1]=0.957326 <==IsSwitchingOccur() T = 1.575000 Tnext = 1.580000 Time: 1.57500e+00 states: [ 1.77259e-01 -4.89102e-01] derivs: [ -4.89336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.580000 pESO->GetIndependentVar(): 1.580000 ==>IsSwitchingOccur() prevPhis[ 0]=5.042674, nextPhis[ 0]=5.030294 prevPhis[ 1]=0.957326, nextPhis[ 1]=0.969706 <==IsSwitchingOccur() T = 1.580000 Tnext = 1.585000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.585000 pESO->GetIndependentVar(): 1.585000 ==>IsSwitchingOccur() prevPhis[ 0]=5.030294, nextPhis[ 0]=5.017839 prevPhis[ 1]=0.969706, nextPhis[ 1]=0.982161 <==IsSwitchingOccur() T = 1.585000 Tnext = 1.590000 Time: 1.58500e+00 states: [ 1.72313e-01 -4.99102e-01] derivs: [ -4.99336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.590000 pESO->GetIndependentVar(): 1.590000 ==>IsSwitchingOccur() prevPhis[ 0]=5.017839, nextPhis[ 0]=5.005309 prevPhis[ 1]=0.982161, nextPhis[ 1]=0.994691 <==IsSwitchingOccur() T = 1.590000 Tnext = 1.595000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.595000 pESO->GetIndependentVar(): 1.595000 ==>IsSwitchingOccur() prevPhis[ 0]=5.005309, nextPhis[ 0]=4.992703 prevPhis[ 1]=0.994691, nextPhis[ 1]=1.007297 <==IsSwitchingOccur() T = 1.595000 Tnext = 1.600000 Time: 1.59500e+00 states: [ 1.67268e-01 -5.09102e-01] derivs: [ -5.09336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.600000 pESO->GetIndependentVar(): 1.600000 ==>IsSwitchingOccur() prevPhis[ 0]=4.992703, nextPhis[ 0]=4.980023 prevPhis[ 1]=1.007297, nextPhis[ 1]=1.019977 <==IsSwitchingOccur() T = 1.600000 Tnext = 1.605000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.605000 pESO->GetIndependentVar(): 1.605000 ==>IsSwitchingOccur() prevPhis[ 0]=4.980023, nextPhis[ 0]=4.967268 prevPhis[ 1]=1.019977, nextPhis[ 1]=1.032732 <==IsSwitchingOccur() T = 1.605000 Tnext = 1.610000 Time: 1.60500e+00 states: [ 1.62123e-01 -5.19102e-01] derivs: [ -5.19336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.610000 pESO->GetIndependentVar(): 1.610000 ==>IsSwitchingOccur() prevPhis[ 0]=4.967268, nextPhis[ 0]=4.954437 prevPhis[ 1]=1.032732, nextPhis[ 1]=1.045563 <==IsSwitchingOccur() T = 1.610000 Tnext = 1.615000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.615000 pESO->GetIndependentVar(): 1.615000 ==>IsSwitchingOccur() prevPhis[ 0]=4.954437, nextPhis[ 0]=4.941532 prevPhis[ 1]=1.045563, nextPhis[ 1]=1.058468 <==IsSwitchingOccur() T = 1.615000 Tnext = 1.620000 Time: 1.61500e+00 states: [ 1.56878e-01 -5.29102e-01] derivs: [ -5.29336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.620000 pESO->GetIndependentVar(): 1.620000 ==>IsSwitchingOccur() prevPhis[ 0]=4.941532, nextPhis[ 0]=4.928552 prevPhis[ 1]=1.058468, nextPhis[ 1]=1.071448 <==IsSwitchingOccur() T = 1.620000 Tnext = 1.625000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.625000 pESO->GetIndependentVar(): 1.625000 ==>IsSwitchingOccur() prevPhis[ 0]=4.928552, nextPhis[ 0]=4.915496 prevPhis[ 1]=1.071448, nextPhis[ 1]=1.084504 <==IsSwitchingOccur() T = 1.625000 Tnext = 1.630000 Time: 1.62500e+00 states: [ 1.51533e-01 -5.39102e-01] derivs: [ -5.39336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.630000 pESO->GetIndependentVar(): 1.630000 ==>IsSwitchingOccur() prevPhis[ 0]=4.915496, nextPhis[ 0]=4.902366 prevPhis[ 1]=1.084504, nextPhis[ 1]=1.097634 <==IsSwitchingOccur() T = 1.630000 Tnext = 1.635000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.635000 pESO->GetIndependentVar(): 1.635000 ==>IsSwitchingOccur() prevPhis[ 0]=4.902366, nextPhis[ 0]=4.889161 prevPhis[ 1]=1.097634, nextPhis[ 1]=1.110839 <==IsSwitchingOccur() T = 1.635000 Tnext = 1.640000 Time: 1.63500e+00 states: [ 1.46087e-01 -5.49102e-01] derivs: [ -5.49336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.640000 pESO->GetIndependentVar(): 1.640000 ==>IsSwitchingOccur() prevPhis[ 0]=4.889161, nextPhis[ 0]=4.875881 prevPhis[ 1]=1.110839, nextPhis[ 1]=1.124119 <==IsSwitchingOccur() T = 1.640000 Tnext = 1.645000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.645000 pESO->GetIndependentVar(): 1.645000 ==>IsSwitchingOccur() prevPhis[ 0]=4.875881, nextPhis[ 0]=4.862525 prevPhis[ 1]=1.124119, nextPhis[ 1]=1.137475 <==IsSwitchingOccur() T = 1.645000 Tnext = 1.650000 Time: 1.64500e+00 states: [ 1.40542e-01 -5.59102e-01] derivs: [ -5.59336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.650000 pESO->GetIndependentVar(): 1.650000 ==>IsSwitchingOccur() prevPhis[ 0]=4.862525, nextPhis[ 0]=4.849095 prevPhis[ 1]=1.137475, nextPhis[ 1]=1.150905 <==IsSwitchingOccur() T = 1.650000 Tnext = 1.655000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.655000 pESO->GetIndependentVar(): 1.655000 ==>IsSwitchingOccur() prevPhis[ 0]=4.849095, nextPhis[ 0]=4.835590 prevPhis[ 1]=1.150905, nextPhis[ 1]=1.164410 <==IsSwitchingOccur() T = 1.655000 Tnext = 1.660000 Time: 1.65500e+00 states: [ 1.34897e-01 -5.69102e-01] derivs: [ -5.69336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.660000 pESO->GetIndependentVar(): 1.660000 ==>IsSwitchingOccur() prevPhis[ 0]=4.835590, nextPhis[ 0]=4.822009 prevPhis[ 1]=1.164410, nextPhis[ 1]=1.177991 <==IsSwitchingOccur() T = 1.660000 Tnext = 1.665000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.665000 pESO->GetIndependentVar(): 1.665000 ==>IsSwitchingOccur() prevPhis[ 0]=4.822009, nextPhis[ 0]=4.808354 prevPhis[ 1]=1.177991, nextPhis[ 1]=1.191646 <==IsSwitchingOccur() T = 1.665000 Tnext = 1.670000 Time: 1.66500e+00 states: [ 1.29152e-01 -5.79102e-01] derivs: [ -5.79336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.670000 pESO->GetIndependentVar(): 1.670000 ==>IsSwitchingOccur() prevPhis[ 0]=4.808354, nextPhis[ 0]=4.794624 prevPhis[ 1]=1.191646, nextPhis[ 1]=1.205376 <==IsSwitchingOccur() T = 1.670000 Tnext = 1.675000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.675000 pESO->GetIndependentVar(): 1.675000 ==>IsSwitchingOccur() prevPhis[ 0]=4.794624, nextPhis[ 0]=4.780818 prevPhis[ 1]=1.205376, nextPhis[ 1]=1.219182 <==IsSwitchingOccur() T = 1.675000 Tnext = 1.680000 Time: 1.67500e+00 states: [ 1.23307e-01 -5.89102e-01] derivs: [ -5.89336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.680000 pESO->GetIndependentVar(): 1.680000 ==>IsSwitchingOccur() prevPhis[ 0]=4.780818, nextPhis[ 0]=4.766938 prevPhis[ 1]=1.219182, nextPhis[ 1]=1.233062 <==IsSwitchingOccur() T = 1.680000 Tnext = 1.685000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.685000 pESO->GetIndependentVar(): 1.685000 ==>IsSwitchingOccur() prevPhis[ 0]=4.766938, nextPhis[ 0]=4.752983 prevPhis[ 1]=1.233062, nextPhis[ 1]=1.247017 <==IsSwitchingOccur() T = 1.685000 Tnext = 1.690000 Time: 1.68500e+00 states: [ 1.17361e-01 -5.99102e-01] derivs: [ -5.99336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.690000 pESO->GetIndependentVar(): 1.690000 ==>IsSwitchingOccur() prevPhis[ 0]=4.752983, nextPhis[ 0]=4.738953 prevPhis[ 1]=1.247017, nextPhis[ 1]=1.261047 <==IsSwitchingOccur() T = 1.690000 Tnext = 1.695000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.695000 pESO->GetIndependentVar(): 1.695000 ==>IsSwitchingOccur() prevPhis[ 0]=4.738953, nextPhis[ 0]=4.724847 prevPhis[ 1]=1.261047, nextPhis[ 1]=1.275153 <==IsSwitchingOccur() T = 1.695000 Tnext = 1.700000 Time: 1.69500e+00 states: [ 1.11316e-01 -6.09102e-01] derivs: [ -6.09336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.700000 pESO->GetIndependentVar(): 1.700000 ==>IsSwitchingOccur() prevPhis[ 0]=4.724847, nextPhis[ 0]=4.710667 prevPhis[ 1]=1.275153, nextPhis[ 1]=1.289333 <==IsSwitchingOccur() T = 1.700000 Tnext = 1.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.705000 pESO->GetIndependentVar(): 1.705000 ==>IsSwitchingOccur() prevPhis[ 0]=4.710667, nextPhis[ 0]=4.696412 prevPhis[ 1]=1.289333, nextPhis[ 1]=1.303588 <==IsSwitchingOccur() T = 1.705000 Tnext = 1.710000 Time: 1.70500e+00 states: [ 1.05171e-01 -6.19102e-01] derivs: [ -6.19336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.710000 pESO->GetIndependentVar(): 1.710000 ==>IsSwitchingOccur() prevPhis[ 0]=4.696412, nextPhis[ 0]=4.682081 prevPhis[ 1]=1.303588, nextPhis[ 1]=1.317919 <==IsSwitchingOccur() T = 1.710000 Tnext = 1.715000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.715000 pESO->GetIndependentVar(): 1.715000 ==>IsSwitchingOccur() prevPhis[ 0]=4.682081, nextPhis[ 0]=4.667676 prevPhis[ 1]=1.317919, nextPhis[ 1]=1.332324 <==IsSwitchingOccur() T = 1.715000 Tnext = 1.720000 Time: 1.71500e+00 states: [ 9.89259e-02 -6.29102e-01] derivs: [ -6.29336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.720000 pESO->GetIndependentVar(): 1.720000 ==>IsSwitchingOccur() prevPhis[ 0]=4.667676, nextPhis[ 0]=4.653196 prevPhis[ 1]=1.332324, nextPhis[ 1]=1.346804 <==IsSwitchingOccur() T = 1.720000 Tnext = 1.725000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.725000 pESO->GetIndependentVar(): 1.725000 ==>IsSwitchingOccur() prevPhis[ 0]=4.653196, nextPhis[ 0]=4.638640 prevPhis[ 1]=1.346804, nextPhis[ 1]=1.361360 <==IsSwitchingOccur() T = 1.725000 Tnext = 1.730000 Time: 1.72500e+00 states: [ 9.25807e-02 -6.39102e-01] derivs: [ -6.39336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.730000 pESO->GetIndependentVar(): 1.730000 ==>IsSwitchingOccur() prevPhis[ 0]=4.638640, nextPhis[ 0]=4.624010 prevPhis[ 1]=1.361360, nextPhis[ 1]=1.375990 <==IsSwitchingOccur() T = 1.730000 Tnext = 1.735000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.735000 pESO->GetIndependentVar(): 1.735000 ==>IsSwitchingOccur() prevPhis[ 0]=4.624010, nextPhis[ 0]=4.609305 prevPhis[ 1]=1.375990, nextPhis[ 1]=1.390695 <==IsSwitchingOccur() T = 1.735000 Tnext = 1.740000 Time: 1.73500e+00 states: [ 8.61355e-02 -6.49102e-01] derivs: [ -6.49336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.740000 pESO->GetIndependentVar(): 1.740000 ==>IsSwitchingOccur() prevPhis[ 0]=4.609305, nextPhis[ 0]=4.594525 prevPhis[ 1]=1.390695, nextPhis[ 1]=1.405475 <==IsSwitchingOccur() T = 1.740000 Tnext = 1.745000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.745000 pESO->GetIndependentVar(): 1.745000 ==>IsSwitchingOccur() prevPhis[ 0]=4.594525, nextPhis[ 0]=4.579669 prevPhis[ 1]=1.405475, nextPhis[ 1]=1.420331 <==IsSwitchingOccur() T = 1.745000 Tnext = 1.750000 Time: 1.74500e+00 states: [ 7.95903e-02 -6.59102e-01] derivs: [ -6.59336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.750000 pESO->GetIndependentVar(): 1.750000 ==>IsSwitchingOccur() prevPhis[ 0]=4.579669, nextPhis[ 0]=4.564739 prevPhis[ 1]=1.420331, nextPhis[ 1]=1.435261 <==IsSwitchingOccur() T = 1.750000 Tnext = 1.755000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.755000 pESO->GetIndependentVar(): 1.755000 ==>IsSwitchingOccur() prevPhis[ 0]=4.564739, nextPhis[ 0]=4.549734 prevPhis[ 1]=1.435261, nextPhis[ 1]=1.450266 <==IsSwitchingOccur() T = 1.755000 Tnext = 1.760000 Time: 1.75500e+00 states: [ 7.29451e-02 -6.69102e-01] derivs: [ -6.69336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.760000 pESO->GetIndependentVar(): 1.760000 ==>IsSwitchingOccur() prevPhis[ 0]=4.549734, nextPhis[ 0]=4.534653 prevPhis[ 1]=1.450266, nextPhis[ 1]=1.465347 <==IsSwitchingOccur() T = 1.760000 Tnext = 1.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.765000 pESO->GetIndependentVar(): 1.765000 ==>IsSwitchingOccur() prevPhis[ 0]=4.534653, nextPhis[ 0]=4.519498 prevPhis[ 1]=1.465347, nextPhis[ 1]=1.480502 <==IsSwitchingOccur() T = 1.765000 Tnext = 1.770000 Time: 1.76500e+00 states: [ 6.61999e-02 -6.79102e-01] derivs: [ -6.79336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.770000 pESO->GetIndependentVar(): 1.770000 ==>IsSwitchingOccur() prevPhis[ 0]=4.519498, nextPhis[ 0]=4.504268 prevPhis[ 1]=1.480502, nextPhis[ 1]=1.495732 <==IsSwitchingOccur() T = 1.770000 Tnext = 1.775000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.775000 pESO->GetIndependentVar(): 1.775000 ==>IsSwitchingOccur() prevPhis[ 0]=4.504268, nextPhis[ 0]=4.488962 prevPhis[ 1]=1.495732, nextPhis[ 1]=1.511038 <==IsSwitchingOccur() T = 1.775000 Tnext = 1.780000 Time: 1.77500e+00 states: [ 5.93547e-02 -6.89102e-01] derivs: [ -6.89336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.780000 pESO->GetIndependentVar(): 1.780000 ==>IsSwitchingOccur() prevPhis[ 0]=4.488962, nextPhis[ 0]=4.473582 prevPhis[ 1]=1.511038, nextPhis[ 1]=1.526418 <==IsSwitchingOccur() T = 1.780000 Tnext = 1.785000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.785000 pESO->GetIndependentVar(): 1.785000 ==>IsSwitchingOccur() prevPhis[ 0]=4.473582, nextPhis[ 0]=4.458127 prevPhis[ 1]=1.526418, nextPhis[ 1]=1.541873 <==IsSwitchingOccur() T = 1.785000 Tnext = 1.790000 Time: 1.78500e+00 states: [ 5.24095e-02 -6.99102e-01] derivs: [ -6.99336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.790000 pESO->GetIndependentVar(): 1.790000 ==>IsSwitchingOccur() prevPhis[ 0]=4.458127, nextPhis[ 0]=4.442597 prevPhis[ 1]=1.541873, nextPhis[ 1]=1.557403 <==IsSwitchingOccur() T = 1.790000 Tnext = 1.795000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.795000 pESO->GetIndependentVar(): 1.795000 ==>IsSwitchingOccur() prevPhis[ 0]=4.442597, nextPhis[ 0]=4.426991 prevPhis[ 1]=1.557403, nextPhis[ 1]=1.573009 <==IsSwitchingOccur() T = 1.795000 Tnext = 1.800000 Time: 1.79500e+00 states: [ 4.53643e-02 -7.09102e-01] derivs: [ -7.09336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.800000 pESO->GetIndependentVar(): 1.800000 ==>IsSwitchingOccur() prevPhis[ 0]=4.426991, nextPhis[ 0]=4.411311 prevPhis[ 1]=1.573009, nextPhis[ 1]=1.588689 <==IsSwitchingOccur() T = 1.800000 Tnext = 1.805000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.805000 pESO->GetIndependentVar(): 1.805000 ==>IsSwitchingOccur() prevPhis[ 0]=4.411311, nextPhis[ 0]=4.395556 prevPhis[ 1]=1.588689, nextPhis[ 1]=1.604444 <==IsSwitchingOccur() T = 1.805000 Tnext = 1.810000 Time: 1.80500e+00 states: [ 3.82191e-02 -7.19102e-01] derivs: [ -7.19336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.810000 pESO->GetIndependentVar(): 1.810000 ==>IsSwitchingOccur() prevPhis[ 0]=4.395556, nextPhis[ 0]=4.379725 prevPhis[ 1]=1.604444, nextPhis[ 1]=1.620275 <==IsSwitchingOccur() T = 1.810000 Tnext = 1.815000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.815000 pESO->GetIndependentVar(): 1.815000 ==>IsSwitchingOccur() prevPhis[ 0]=4.379725, nextPhis[ 0]=4.363820 prevPhis[ 1]=1.620275, nextPhis[ 1]=1.636180 <==IsSwitchingOccur() T = 1.815000 Tnext = 1.820000 Time: 1.81500e+00 states: [ 3.09738e-02 -7.29102e-01] derivs: [ -7.29601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.820000 pESO->GetIndependentVar(): 1.820000 ==>IsSwitchingOccur() prevPhis[ 0]=4.363820, nextPhis[ 0]=4.347839 prevPhis[ 1]=1.636180, nextPhis[ 1]=1.652161 <==IsSwitchingOccur() T = 1.820000 Tnext = 1.825000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.825000 pESO->GetIndependentVar(): 1.825000 ==>IsSwitchingOccur() prevPhis[ 0]=4.347839, nextPhis[ 0]=4.331784 prevPhis[ 1]=1.652161, nextPhis[ 1]=1.668216 <==IsSwitchingOccur() T = 1.825000 Tnext = 1.830000 Time: 1.82500e+00 states: [ 2.36284e-02 -7.39102e-01] derivs: [ -7.39601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.830000 pESO->GetIndependentVar(): 1.830000 ==>IsSwitchingOccur() prevPhis[ 0]=4.331784, nextPhis[ 0]=4.315653 prevPhis[ 1]=1.668216, nextPhis[ 1]=1.684347 <==IsSwitchingOccur() T = 1.830000 Tnext = 1.835000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.835000 pESO->GetIndependentVar(): 1.835000 ==>IsSwitchingOccur() prevPhis[ 0]=4.315653, nextPhis[ 0]=4.299448 prevPhis[ 1]=1.684347, nextPhis[ 1]=1.700552 <==IsSwitchingOccur() T = 1.835000 Tnext = 1.840000 Time: 1.83500e+00 states: [ 1.61831e-02 -7.49102e-01] derivs: [ -7.49601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.840000 pESO->GetIndependentVar(): 1.840000 ==>IsSwitchingOccur() prevPhis[ 0]=4.299448, nextPhis[ 0]=4.283167 prevPhis[ 1]=1.700552, nextPhis[ 1]=1.716833 <==IsSwitchingOccur() T = 1.840000 Tnext = 1.845000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.845000 pESO->GetIndependentVar(): 1.845000 ==>IsSwitchingOccur() prevPhis[ 0]=4.283167, nextPhis[ 0]=4.266812 prevPhis[ 1]=1.716833, nextPhis[ 1]=1.733188 <==IsSwitchingOccur() T = 1.845000 Tnext = 1.850000 Time: 1.84500e+00 states: [ 8.63771e-03 -7.59102e-01] derivs: [ -7.59601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.850000 pESO->GetIndependentVar(): 1.850000 ==>IsSwitchingOccur() prevPhis[ 0]=4.266812, nextPhis[ 0]=4.250381 prevPhis[ 1]=1.733188, nextPhis[ 1]=1.749619 <==IsSwitchingOccur() T = 1.850000 Tnext = 1.855000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.855000 pESO->GetIndependentVar(): 1.855000 ==>IsSwitchingOccur() prevPhis[ 0]=4.250381, nextPhis[ 0]=4.233875 prevPhis[ 1]=1.749619, nextPhis[ 1]=1.766125 <==IsSwitchingOccur() T = 1.855000 Tnext = 1.860000 Time: 1.85500e+00 states: [ 9.92348e-04 -7.69102e-01] derivs: [ -7.69601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.860000 pESO->GetIndependentVar(): 1.860000 ==>IsSwitchingOccur() prevPhis[ 0]=4.233875, nextPhis[ 0]=4.217295 prevPhis[ 1]=1.766125, nextPhis[ 1]=1.782705 <==IsSwitchingOccur() T = 1.860000 Tnext = 1.865000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.865000 pESO->GetIndependentVar(): 1.865000 ==>IsSwitchingOccur() prevPhis[ 0]=4.217295, nextPhis[ 0]=4.200639 prevPhis[ 1]=1.782705, nextPhis[ 1]=1.799361 <==IsSwitchingOccur() T = 1.865000 Tnext = 1.870000 Time: 1.86500e+00 states: [ -6.75301e-03 -7.79102e-01] derivs: [ -7.79601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.870000 pESO->GetIndependentVar(): 1.870000 ==>IsSwitchingOccur() prevPhis[ 0]=4.200639, nextPhis[ 0]=4.183909 prevPhis[ 1]=1.799361, nextPhis[ 1]=1.816091 <==IsSwitchingOccur() T = 1.870000 Tnext = 1.875000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.875000 pESO->GetIndependentVar(): 1.875000 ==>IsSwitchingOccur() prevPhis[ 0]=4.183909, nextPhis[ 0]=4.167103 prevPhis[ 1]=1.816091, nextPhis[ 1]=1.832897 <==IsSwitchingOccur() T = 1.875000 Tnext = 1.880000 Time: 1.87500e+00 states: [ -1.45984e-02 -7.89102e-01] derivs: [ -7.89601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.880000 pESO->GetIndependentVar(): 1.880000 ==>IsSwitchingOccur() prevPhis[ 0]=4.167103, nextPhis[ 0]=4.150223 prevPhis[ 1]=1.832897, nextPhis[ 1]=1.849777 <==IsSwitchingOccur() T = 1.880000 Tnext = 1.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.885000 pESO->GetIndependentVar(): 1.885000 ==>IsSwitchingOccur() prevPhis[ 0]=4.150223, nextPhis[ 0]=4.133267 prevPhis[ 1]=1.849777, nextPhis[ 1]=1.866733 <==IsSwitchingOccur() T = 1.885000 Tnext = 1.890000 Time: 1.88500e+00 states: [ -2.25437e-02 -7.99102e-01] derivs: [ -7.99601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.890000 pESO->GetIndependentVar(): 1.890000 ==>IsSwitchingOccur() prevPhis[ 0]=4.133267, nextPhis[ 0]=4.116237 prevPhis[ 1]=1.866733, nextPhis[ 1]=1.883763 <==IsSwitchingOccur() T = 1.890000 Tnext = 1.895000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.895000 pESO->GetIndependentVar(): 1.895000 ==>IsSwitchingOccur() prevPhis[ 0]=4.116237, nextPhis[ 0]=4.099131 prevPhis[ 1]=1.883763, nextPhis[ 1]=1.900869 <==IsSwitchingOccur() T = 1.895000 Tnext = 1.900000 Time: 1.89500e+00 states: [ -3.05891e-02 -8.09102e-01] derivs: [ -8.09601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.900000 pESO->GetIndependentVar(): 1.900000 ==>IsSwitchingOccur() prevPhis[ 0]=4.099131, nextPhis[ 0]=4.081951 prevPhis[ 1]=1.900869, nextPhis[ 1]=1.918049 <==IsSwitchingOccur() T = 1.900000 Tnext = 1.905000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.905000 pESO->GetIndependentVar(): 1.905000 ==>IsSwitchingOccur() prevPhis[ 0]=4.081951, nextPhis[ 0]=4.064695 prevPhis[ 1]=1.918049, nextPhis[ 1]=1.935305 <==IsSwitchingOccur() T = 1.905000 Tnext = 1.910000 Time: 1.90500e+00 states: [ -3.87344e-02 -8.19102e-01] derivs: [ -8.19601e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.910000 pESO->GetIndependentVar(): 1.910000 ==>IsSwitchingOccur() prevPhis[ 0]=4.064695, nextPhis[ 0]=4.047365 prevPhis[ 1]=1.935305, nextPhis[ 1]=1.952635 <==IsSwitchingOccur() T = 1.910000 Tnext = 1.915000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.915000 pESO->GetIndependentVar(): 1.915000 ==>IsSwitchingOccur() prevPhis[ 0]=4.047365, nextPhis[ 0]=4.029959 prevPhis[ 1]=1.952635, nextPhis[ 1]=1.970041 <==IsSwitchingOccur() T = 1.915000 Tnext = 1.920000 Time: 1.91500e+00 states: [ -4.69796e-02 -8.29102e-01] derivs: [ -8.29336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.920000 pESO->GetIndependentVar(): 1.920000 ==>IsSwitchingOccur() prevPhis[ 0]=4.029959, nextPhis[ 0]=4.012479 prevPhis[ 1]=1.970041, nextPhis[ 1]=1.987521 <==IsSwitchingOccur() T = 1.920000 Tnext = 1.925000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.925000 pESO->GetIndependentVar(): 1.925000 ==>IsSwitchingOccur() prevPhis[ 0]=4.012479, nextPhis[ 0]=3.994924 prevPhis[ 1]=1.987521, nextPhis[ 1]=2.005076 <==IsSwitchingOccur() T = 1.925000 Tnext = 1.930000 Time: 1.92500e+00 states: [ -5.53249e-02 -8.39102e-01] derivs: [ -8.39336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.930000 pESO->GetIndependentVar(): 1.930000 ==>IsSwitchingOccur() prevPhis[ 0]=3.994924, nextPhis[ 0]=3.977294 prevPhis[ 1]=2.005076, nextPhis[ 1]=2.022706 <==IsSwitchingOccur() T = 1.930000 Tnext = 1.935000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.935000 pESO->GetIndependentVar(): 1.935000 ==>IsSwitchingOccur() prevPhis[ 0]=3.977294, nextPhis[ 0]=3.959588 prevPhis[ 1]=2.022706, nextPhis[ 1]=2.040412 <==IsSwitchingOccur() T = 1.935000 Tnext = 1.940000 Time: 1.93500e+00 states: [ -6.37701e-02 -8.49102e-01] derivs: [ -8.49336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.940000 pESO->GetIndependentVar(): 1.940000 ==>IsSwitchingOccur() prevPhis[ 0]=3.959588, nextPhis[ 0]=3.941808 prevPhis[ 1]=2.040412, nextPhis[ 1]=2.058192 <==IsSwitchingOccur() T = 1.940000 Tnext = 1.945000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.945000 pESO->GetIndependentVar(): 1.945000 ==>IsSwitchingOccur() prevPhis[ 0]=3.941808, nextPhis[ 0]=3.923953 prevPhis[ 1]=2.058192, nextPhis[ 1]=2.076047 <==IsSwitchingOccur() T = 1.945000 Tnext = 1.950000 Time: 1.94500e+00 states: [ -7.23153e-02 -8.59102e-01] derivs: [ -8.59336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.950000 pESO->GetIndependentVar(): 1.950000 ==>IsSwitchingOccur() prevPhis[ 0]=3.923953, nextPhis[ 0]=3.906022 prevPhis[ 1]=2.076047, nextPhis[ 1]=2.093978 <==IsSwitchingOccur() T = 1.950000 Tnext = 1.955000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.955000 pESO->GetIndependentVar(): 1.955000 ==>IsSwitchingOccur() prevPhis[ 0]=3.906022, nextPhis[ 0]=3.888017 prevPhis[ 1]=2.093978, nextPhis[ 1]=2.111983 <==IsSwitchingOccur() T = 1.955000 Tnext = 1.960000 Time: 1.95500e+00 states: [ -8.09605e-02 -8.69102e-01] derivs: [ -8.69336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.960000 pESO->GetIndependentVar(): 1.960000 ==>IsSwitchingOccur() prevPhis[ 0]=3.888017, nextPhis[ 0]=3.869937 prevPhis[ 1]=2.111983, nextPhis[ 1]=2.130063 <==IsSwitchingOccur() T = 1.960000 Tnext = 1.965000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.965000 pESO->GetIndependentVar(): 1.965000 ==>IsSwitchingOccur() prevPhis[ 0]=3.869937, nextPhis[ 0]=3.851781 prevPhis[ 1]=2.130063, nextPhis[ 1]=2.148219 <==IsSwitchingOccur() T = 1.965000 Tnext = 1.970000 Time: 1.96500e+00 states: [ -8.97057e-02 -8.79102e-01] derivs: [ -8.79336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.970000 pESO->GetIndependentVar(): 1.970000 ==>IsSwitchingOccur() prevPhis[ 0]=3.851781, nextPhis[ 0]=3.833551 prevPhis[ 1]=2.148219, nextPhis[ 1]=2.166449 <==IsSwitchingOccur() T = 1.970000 Tnext = 1.975000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.975000 pESO->GetIndependentVar(): 1.975000 ==>IsSwitchingOccur() prevPhis[ 0]=3.833551, nextPhis[ 0]=3.815246 prevPhis[ 1]=2.166449, nextPhis[ 1]=2.184754 <==IsSwitchingOccur() T = 1.975000 Tnext = 1.980000 Time: 1.97500e+00 states: [ -9.85509e-02 -8.89102e-01] derivs: [ -8.89336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.980000 pESO->GetIndependentVar(): 1.980000 ==>IsSwitchingOccur() prevPhis[ 0]=3.815246, nextPhis[ 0]=3.796866 prevPhis[ 1]=2.184754, nextPhis[ 1]=2.203134 <==IsSwitchingOccur() T = 1.980000 Tnext = 1.985000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.985000 pESO->GetIndependentVar(): 1.985000 ==>IsSwitchingOccur() prevPhis[ 0]=3.796866, nextPhis[ 0]=3.778410 prevPhis[ 1]=2.203134, nextPhis[ 1]=2.221590 <==IsSwitchingOccur() T = 1.985000 Tnext = 1.990000 Time: 1.98500e+00 states: [ -1.07496e-01 -8.99102e-01] derivs: [ -8.99336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.990000 pESO->GetIndependentVar(): 1.990000 ==>IsSwitchingOccur() prevPhis[ 0]=3.778410, nextPhis[ 0]=3.759880 prevPhis[ 1]=2.221590, nextPhis[ 1]=2.240120 <==IsSwitchingOccur() T = 1.990000 Tnext = 1.995000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 1.995000 pESO->GetIndependentVar(): 1.995000 ==>IsSwitchingOccur() prevPhis[ 0]=3.759880, nextPhis[ 0]=3.741275 prevPhis[ 1]=2.240120, nextPhis[ 1]=2.258725 <==IsSwitchingOccur() T = 1.995000 Tnext = 2.000000 Time: 1.99500e+00 states: [ -1.16541e-01 -9.09102e-01] derivs: [ -9.09336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.000000 pESO->GetIndependentVar(): 2.000000 ==>IsSwitchingOccur() prevPhis[ 0]=3.741275, nextPhis[ 0]=3.722594 prevPhis[ 1]=2.258725, nextPhis[ 1]=2.277406 <==IsSwitchingOccur() T = 2.000000 Tnext = 2.005000 Time: 2.00000e+00 states: [ -1.21101e-01 -9.14102e-01] derivs: [ -9.14336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.005000 pESO->GetIndependentVar(): 2.005000 ==>IsSwitchingOccur() prevPhis[ 0]=3.722594, nextPhis[ 0]=3.703839 prevPhis[ 1]=2.277406, nextPhis[ 1]=2.296161 <==IsSwitchingOccur() T = 2.005000 Tnext = 2.010000 Time: 2.00500e+00 states: [ -1.25686e-01 -9.19102e-01] derivs: [ -9.19336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.010000 pESO->GetIndependentVar(): 2.010000 ==>IsSwitchingOccur() prevPhis[ 0]=3.703839, nextPhis[ 0]=3.685009 prevPhis[ 1]=2.296161, nextPhis[ 1]=2.314991 <==IsSwitchingOccur() T = 2.010000 Tnext = 2.015000 Time: 2.01000e+00 states: [ -1.30297e-01 -9.24102e-01] derivs: [ -9.24336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.015000 pESO->GetIndependentVar(): 2.015000 ==>IsSwitchingOccur() prevPhis[ 0]=3.685009, nextPhis[ 0]=3.666103 prevPhis[ 1]=2.314991, nextPhis[ 1]=2.333897 <==IsSwitchingOccur() T = 2.015000 Tnext = 2.020000 Time: 2.01500e+00 states: [ -1.34932e-01 -9.29102e-01] derivs: [ -9.29336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.020000 pESO->GetIndependentVar(): 2.020000 ==>IsSwitchingOccur() prevPhis[ 0]=3.666103, nextPhis[ 0]=3.647123 prevPhis[ 1]=2.333897, nextPhis[ 1]=2.352877 <==IsSwitchingOccur() T = 2.020000 Tnext = 2.025000 Time: 2.02000e+00 states: [ -1.39592e-01 -9.34102e-01] derivs: [ -9.34336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.025000 pESO->GetIndependentVar(): 2.025000 ==>IsSwitchingOccur() prevPhis[ 0]=3.647123, nextPhis[ 0]=3.628068 prevPhis[ 1]=2.352877, nextPhis[ 1]=2.371932 <==IsSwitchingOccur() T = 2.025000 Tnext = 2.030000 Time: 2.02500e+00 states: [ -1.44277e-01 -9.39102e-01] derivs: [ -9.39336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.030000 pESO->GetIndependentVar(): 2.030000 ==>IsSwitchingOccur() prevPhis[ 0]=3.628068, nextPhis[ 0]=3.608938 prevPhis[ 1]=2.371932, nextPhis[ 1]=2.391062 <==IsSwitchingOccur() T = 2.030000 Tnext = 2.035000 Time: 2.03000e+00 states: [ -1.48987e-01 -9.44102e-01] derivs: [ -9.44336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.035000 pESO->GetIndependentVar(): 2.035000 ==>IsSwitchingOccur() prevPhis[ 0]=3.608938, nextPhis[ 0]=3.589732 prevPhis[ 1]=2.391062, nextPhis[ 1]=2.410268 <==IsSwitchingOccur() T = 2.035000 Tnext = 2.040000 Time: 2.03500e+00 states: [ -1.53722e-01 -9.49102e-01] derivs: [ -9.49336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.040000 pESO->GetIndependentVar(): 2.040000 ==>IsSwitchingOccur() prevPhis[ 0]=3.589732, nextPhis[ 0]=3.570452 prevPhis[ 1]=2.410268, nextPhis[ 1]=2.429548 <==IsSwitchingOccur() T = 2.040000 Tnext = 2.045000 Time: 2.04000e+00 states: [ -1.58482e-01 -9.54102e-01] derivs: [ -9.54336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.045000 pESO->GetIndependentVar(): 2.045000 ==>IsSwitchingOccur() prevPhis[ 0]=3.570452, nextPhis[ 0]=3.551097 prevPhis[ 1]=2.429548, nextPhis[ 1]=2.448903 <==IsSwitchingOccur() T = 2.045000 Tnext = 2.050000 Time: 2.04500e+00 states: [ -1.63267e-01 -9.59102e-01] derivs: [ -9.59336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.050000 pESO->GetIndependentVar(): 2.050000 ==>IsSwitchingOccur() prevPhis[ 0]=3.551097, nextPhis[ 0]=3.531666 prevPhis[ 1]=2.448903, nextPhis[ 1]=2.468334 <==IsSwitchingOccur() T = 2.050000 Tnext = 2.055000 Time: 2.05000e+00 states: [ -1.68077e-01 -9.64102e-01] derivs: [ -9.64336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.055000 pESO->GetIndependentVar(): 2.055000 ==>IsSwitchingOccur() prevPhis[ 0]=3.531666, nextPhis[ 0]=3.512161 prevPhis[ 1]=2.468334, nextPhis[ 1]=2.487839 <==IsSwitchingOccur() T = 2.055000 Tnext = 2.060000 Time: 2.05500e+00 states: [ -1.72912e-01 -9.69102e-01] derivs: [ -9.69336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.060000 pESO->GetIndependentVar(): 2.060000 ==>IsSwitchingOccur() prevPhis[ 0]=3.512161, nextPhis[ 0]=3.492581 prevPhis[ 1]=2.487839, nextPhis[ 1]=2.507419 <==IsSwitchingOccur() T = 2.060000 Tnext = 2.065000 Time: 2.06000e+00 states: [ -1.77773e-01 -9.74102e-01] derivs: [ -9.74336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.065000 pESO->GetIndependentVar(): 2.065000 ==>IsSwitchingOccur() prevPhis[ 0]=3.492581, nextPhis[ 0]=3.472925 prevPhis[ 1]=2.507419, nextPhis[ 1]=2.527075 <==IsSwitchingOccur() T = 2.065000 Tnext = 2.070000 Time: 2.06500e+00 states: [ -1.82658e-01 -9.79102e-01] derivs: [ -9.79336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.070000 pESO->GetIndependentVar(): 2.070000 ==>IsSwitchingOccur() prevPhis[ 0]=3.472925, nextPhis[ 0]=3.453195 prevPhis[ 1]=2.527075, nextPhis[ 1]=2.546805 <==IsSwitchingOccur() T = 2.070000 Tnext = 2.075000 Time: 2.07000e+00 states: [ -1.87568e-01 -9.84102e-01] derivs: [ -9.84336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.075000 pESO->GetIndependentVar(): 2.075000 ==>IsSwitchingOccur() prevPhis[ 0]=3.453195, nextPhis[ 0]=3.433390 prevPhis[ 1]=2.546805, nextPhis[ 1]=2.566610 <==IsSwitchingOccur() T = 2.075000 Tnext = 2.080000 Time: 2.07500e+00 states: [ -1.92503e-01 -9.89102e-01] derivs: [ -9.89336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.080000 pESO->GetIndependentVar(): 2.080000 ==>IsSwitchingOccur() prevPhis[ 0]=3.433390, nextPhis[ 0]=3.413509 prevPhis[ 1]=2.566610, nextPhis[ 1]=2.586491 <==IsSwitchingOccur() T = 2.080000 Tnext = 2.085000 Time: 2.08000e+00 states: [ -1.97463e-01 -9.94102e-01] derivs: [ -9.94336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.085000 pESO->GetIndependentVar(): 2.085000 ==>IsSwitchingOccur() prevPhis[ 0]=3.413509, nextPhis[ 0]=3.393554 prevPhis[ 1]=2.586491, nextPhis[ 1]=2.606446 <==IsSwitchingOccur() T = 2.085000 Tnext = 2.090000 Time: 2.08500e+00 states: [ -2.02448e-01 -9.99102e-01] derivs: [ -9.99336e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.090000 pESO->GetIndependentVar(): 2.090000 ==>IsSwitchingOccur() prevPhis[ 0]=3.393554, nextPhis[ 0]=3.373524 prevPhis[ 1]=2.606446, nextPhis[ 1]=2.626476 <==IsSwitchingOccur() T = 2.090000 Tnext = 2.095000 Time: 2.09000e+00 states: [ -2.07458e-01 -1.00410e+00] derivs: [ -1.00434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.095000 pESO->GetIndependentVar(): 2.095000 ==>IsSwitchingOccur() prevPhis[ 0]=3.373524, nextPhis[ 0]=3.353419 prevPhis[ 1]=2.626476, nextPhis[ 1]=2.646581 <==IsSwitchingOccur() T = 2.095000 Tnext = 2.100000 Time: 2.09500e+00 states: [ -2.12493e-01 -1.00910e+00] derivs: [ -1.00934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.100000 pESO->GetIndependentVar(): 2.100000 ==>IsSwitchingOccur() prevPhis[ 0]=3.353419, nextPhis[ 0]=3.333238 prevPhis[ 1]=2.646581, nextPhis[ 1]=2.666762 <==IsSwitchingOccur() T = 2.100000 Tnext = 2.105000 Time: 2.10000e+00 states: [ -2.17553e-01 -1.01410e+00] derivs: [ -1.01434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.105000 pESO->GetIndependentVar(): 2.105000 ==>IsSwitchingOccur() prevPhis[ 0]=3.333238, nextPhis[ 0]=3.312983 prevPhis[ 1]=2.666762, nextPhis[ 1]=2.687017 <==IsSwitchingOccur() T = 2.105000 Tnext = 2.110000 Time: 2.10500e+00 states: [ -2.22638e-01 -1.01910e+00] derivs: [ -1.01934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.110000 pESO->GetIndependentVar(): 2.110000 ==>IsSwitchingOccur() prevPhis[ 0]=3.312983, nextPhis[ 0]=3.292653 prevPhis[ 1]=2.687017, nextPhis[ 1]=2.707347 <==IsSwitchingOccur() T = 2.110000 Tnext = 2.115000 Time: 2.11000e+00 states: [ -2.27749e-01 -1.02410e+00] derivs: [ -1.02434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.115000 pESO->GetIndependentVar(): 2.115000 ==>IsSwitchingOccur() prevPhis[ 0]=3.292653, nextPhis[ 0]=3.272247 prevPhis[ 1]=2.707347, nextPhis[ 1]=2.727753 <==IsSwitchingOccur() T = 2.115000 Tnext = 2.120000 Time: 2.11500e+00 states: [ -2.32884e-01 -1.02910e+00] derivs: [ -1.02934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.120000 pESO->GetIndependentVar(): 2.120000 ==>IsSwitchingOccur() prevPhis[ 0]=3.272247, nextPhis[ 0]=3.251767 prevPhis[ 1]=2.727753, nextPhis[ 1]=2.748233 <==IsSwitchingOccur() T = 2.120000 Tnext = 2.125000 Time: 2.12000e+00 states: [ -2.38044e-01 -1.03410e+00] derivs: [ -1.03434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.125000 pESO->GetIndependentVar(): 2.125000 ==>IsSwitchingOccur() prevPhis[ 0]=3.251767, nextPhis[ 0]=3.231212 prevPhis[ 1]=2.748233, nextPhis[ 1]=2.768788 <==IsSwitchingOccur() T = 2.125000 Tnext = 2.130000 Time: 2.12500e+00 states: [ -2.43229e-01 -1.03910e+00] derivs: [ -1.03934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.130000 pESO->GetIndependentVar(): 2.130000 ==>IsSwitchingOccur() prevPhis[ 0]=3.231212, nextPhis[ 0]=3.210581 prevPhis[ 1]=2.768788, nextPhis[ 1]=2.789419 <==IsSwitchingOccur() T = 2.130000 Tnext = 2.135000 Time: 2.13000e+00 states: [ -2.48439e-01 -1.04410e+00] derivs: [ -1.04434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.135000 pESO->GetIndependentVar(): 2.135000 ==>IsSwitchingOccur() prevPhis[ 0]=3.210581, nextPhis[ 0]=3.189876 prevPhis[ 1]=2.789419, nextPhis[ 1]=2.810124 <==IsSwitchingOccur() T = 2.135000 Tnext = 2.140000 Time: 2.13500e+00 states: [ -2.53674e-01 -1.04910e+00] derivs: [ -1.04934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.140000 pESO->GetIndependentVar(): 2.140000 ==>IsSwitchingOccur() prevPhis[ 0]=3.189876, nextPhis[ 0]=3.169096 prevPhis[ 1]=2.810124, nextPhis[ 1]=2.830904 <==IsSwitchingOccur() T = 2.140000 Tnext = 2.145000 Time: 2.14000e+00 states: [ -2.58934e-01 -1.05410e+00] derivs: [ -1.05434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.145000 pESO->GetIndependentVar(): 2.145000 ==>IsSwitchingOccur() prevPhis[ 0]=3.169096, nextPhis[ 0]=3.148241 prevPhis[ 1]=2.830904, nextPhis[ 1]=2.851759 <==IsSwitchingOccur() T = 2.145000 Tnext = 2.150000 Time: 2.14500e+00 states: [ -2.64219e-01 -1.05910e+00] derivs: [ -1.05934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.150000 pESO->GetIndependentVar(): 2.150000 ==>IsSwitchingOccur() prevPhis[ 0]=3.148241, nextPhis[ 0]=3.127310 prevPhis[ 1]=2.851759, nextPhis[ 1]=2.872690 <==IsSwitchingOccur() T = 2.150000 Tnext = 2.155000 Time: 2.15000e+00 states: [ -2.69529e-01 -1.06410e+00] derivs: [ -1.06434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.155000 pESO->GetIndependentVar(): 2.155000 ==>IsSwitchingOccur() prevPhis[ 0]=3.127310, nextPhis[ 0]=3.106305 prevPhis[ 1]=2.872690, nextPhis[ 1]=2.893695 <==IsSwitchingOccur() T = 2.155000 Tnext = 2.160000 Time: 2.15500e+00 states: [ -2.74864e-01 -1.06910e+00] derivs: [ -1.06934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.160000 pESO->GetIndependentVar(): 2.160000 ==>IsSwitchingOccur() prevPhis[ 0]=3.106305, nextPhis[ 0]=3.085225 prevPhis[ 1]=2.893695, nextPhis[ 1]=2.914775 <==IsSwitchingOccur() T = 2.160000 Tnext = 2.165000 Time: 2.16000e+00 states: [ -2.80225e-01 -1.07410e+00] derivs: [ -1.07434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.165000 pESO->GetIndependentVar(): 2.165000 ==>IsSwitchingOccur() prevPhis[ 0]=3.085225, nextPhis[ 0]=3.064069 prevPhis[ 1]=2.914775, nextPhis[ 1]=2.935931 <==IsSwitchingOccur() T = 2.165000 Tnext = 2.170000 Time: 2.16500e+00 states: [ -2.85610e-01 -1.07910e+00] derivs: [ -1.07934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.170000 pESO->GetIndependentVar(): 2.170000 ==>IsSwitchingOccur() prevPhis[ 0]=3.064069, nextPhis[ 0]=3.042839 prevPhis[ 1]=2.935931, nextPhis[ 1]=2.957161 <==IsSwitchingOccur() T = 2.170000 Tnext = 2.175000 Time: 2.17000e+00 states: [ -2.91020e-01 -1.08410e+00] derivs: [ -1.08434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.175000 pESO->GetIndependentVar(): 2.175000 ==>IsSwitchingOccur() prevPhis[ 0]=3.042839, nextPhis[ 0]=3.021534 prevPhis[ 1]=2.957161, nextPhis[ 1]=2.978466 <==IsSwitchingOccur() T = 2.175000 Tnext = 2.180000 Time: 2.17500e+00 states: [ -2.96455e-01 -1.08910e+00] derivs: [ -1.08934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.180000 pESO->GetIndependentVar(): 2.180000 ==>IsSwitchingOccur() prevPhis[ 0]=3.021534, nextPhis[ 0]=3.000153 prevPhis[ 1]=2.978466, nextPhis[ 1]=2.999847 <==IsSwitchingOccur() T = 2.180000 Tnext = 2.185000 Time: 2.18000e+00 states: [ -3.01915e-01 -1.09410e+00] derivs: [ -1.09434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.185000 pESO->GetIndependentVar(): 2.185000 ==>IsSwitchingOccur() prevPhis[ 0]=3.000153, nextPhis[ 0]=2.978698 prevPhis[ 1]=2.999847, nextPhis[ 1]=3.021302 <==IsSwitchingOccur() T = 2.185000 Tnext = 2.190000 Time: 2.18500e+00 states: [ -3.07400e-01 -1.09910e+00] derivs: [ -1.09934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.190000 pESO->GetIndependentVar(): 2.190000 ==>IsSwitchingOccur() prevPhis[ 0]=2.978698, nextPhis[ 0]=2.957168 prevPhis[ 1]=3.021302, nextPhis[ 1]=3.042832 <==IsSwitchingOccur() T = 2.190000 Tnext = 2.195000 Time: 2.19000e+00 states: [ -3.12910e-01 -1.10410e+00] derivs: [ -1.10434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.195000 pESO->GetIndependentVar(): 2.195000 ==>IsSwitchingOccur() prevPhis[ 0]=2.957168, nextPhis[ 0]=2.935563 prevPhis[ 1]=3.042832, nextPhis[ 1]=3.064437 <==IsSwitchingOccur() T = 2.195000 Tnext = 2.200000 Time: 2.19500e+00 states: [ -3.18445e-01 -1.10910e+00] derivs: [ -1.10934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.200000 pESO->GetIndependentVar(): 2.200000 ==>IsSwitchingOccur() prevPhis[ 0]=2.935563, nextPhis[ 0]=2.913882 prevPhis[ 1]=3.064437, nextPhis[ 1]=3.086118 <==IsSwitchingOccur() T = 2.200000 Tnext = 2.205000 Time: 2.20000e+00 states: [ -3.24005e-01 -1.11410e+00] derivs: [ -1.11434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.205000 pESO->GetIndependentVar(): 2.205000 ==>IsSwitchingOccur() prevPhis[ 0]=2.913882, nextPhis[ 0]=2.892127 prevPhis[ 1]=3.086118, nextPhis[ 1]=3.107873 <==IsSwitchingOccur() T = 2.205000 Tnext = 2.210000 Time: 2.20500e+00 states: [ -3.29590e-01 -1.11910e+00] derivs: [ -1.11934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.210000 pESO->GetIndependentVar(): 2.210000 ==>IsSwitchingOccur() prevPhis[ 0]=2.892127, nextPhis[ 0]=2.870297 prevPhis[ 1]=3.107873, nextPhis[ 1]=3.129703 <==IsSwitchingOccur() T = 2.210000 Tnext = 2.215000 Time: 2.21000e+00 states: [ -3.35201e-01 -1.12410e+00] derivs: [ -1.12434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.215000 pESO->GetIndependentVar(): 2.215000 ==>IsSwitchingOccur() prevPhis[ 0]=2.870297, nextPhis[ 0]=2.848391 prevPhis[ 1]=3.129703, nextPhis[ 1]=3.151609 <==IsSwitchingOccur() T = 2.215000 Tnext = 2.220000 Time: 2.21500e+00 states: [ -3.40836e-01 -1.12910e+00] derivs: [ -1.12934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.220000 pESO->GetIndependentVar(): 2.220000 ==>IsSwitchingOccur() prevPhis[ 0]=2.848391, nextPhis[ 0]=2.826411 prevPhis[ 1]=3.151609, nextPhis[ 1]=3.173589 <==IsSwitchingOccur() T = 2.220000 Tnext = 2.225000 Time: 2.22000e+00 states: [ -3.46496e-01 -1.13410e+00] derivs: [ -1.13434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.225000 pESO->GetIndependentVar(): 2.225000 ==>IsSwitchingOccur() prevPhis[ 0]=2.826411, nextPhis[ 0]=2.804356 prevPhis[ 1]=3.173589, nextPhis[ 1]=3.195644 <==IsSwitchingOccur() T = 2.225000 Tnext = 2.230000 Time: 2.22500e+00 states: [ -3.52181e-01 -1.13910e+00] derivs: [ -1.13934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.230000 pESO->GetIndependentVar(): 2.230000 ==>IsSwitchingOccur() prevPhis[ 0]=2.804356, nextPhis[ 0]=2.782225 prevPhis[ 1]=3.195644, nextPhis[ 1]=3.217775 <==IsSwitchingOccur() T = 2.230000 Tnext = 2.235000 Time: 2.23000e+00 states: [ -3.57891e-01 -1.14410e+00] derivs: [ -1.14434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.235000 pESO->GetIndependentVar(): 2.235000 ==>IsSwitchingOccur() prevPhis[ 0]=2.782225, nextPhis[ 0]=2.760020 prevPhis[ 1]=3.217775, nextPhis[ 1]=3.239980 <==IsSwitchingOccur() T = 2.235000 Tnext = 2.240000 Time: 2.23500e+00 states: [ -3.63626e-01 -1.14910e+00] derivs: [ -1.14934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.240000 pESO->GetIndependentVar(): 2.240000 ==>IsSwitchingOccur() prevPhis[ 0]=2.760020, nextPhis[ 0]=2.737740 prevPhis[ 1]=3.239980, nextPhis[ 1]=3.262260 <==IsSwitchingOccur() T = 2.240000 Tnext = 2.245000 Time: 2.24000e+00 states: [ -3.69386e-01 -1.15410e+00] derivs: [ -1.15434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.245000 pESO->GetIndependentVar(): 2.245000 ==>IsSwitchingOccur() prevPhis[ 0]=2.737740, nextPhis[ 0]=2.715385 prevPhis[ 1]=3.262260, nextPhis[ 1]=3.284615 <==IsSwitchingOccur() T = 2.245000 Tnext = 2.250000 Time: 2.24500e+00 states: [ -3.75171e-01 -1.15910e+00] derivs: [ -1.15934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.250000 pESO->GetIndependentVar(): 2.250000 ==>IsSwitchingOccur() prevPhis[ 0]=2.715385, nextPhis[ 0]=2.692954 prevPhis[ 1]=3.284615, nextPhis[ 1]=3.307046 <==IsSwitchingOccur() T = 2.250000 Tnext = 2.255000 Time: 2.25000e+00 states: [ -3.80981e-01 -1.16410e+00] derivs: [ -1.16434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.255000 pESO->GetIndependentVar(): 2.255000 ==>IsSwitchingOccur() prevPhis[ 0]=2.692954, nextPhis[ 0]=2.670449 prevPhis[ 1]=3.307046, nextPhis[ 1]=3.329551 <==IsSwitchingOccur() T = 2.255000 Tnext = 2.260000 Time: 2.25500e+00 states: [ -3.86816e-01 -1.16910e+00] derivs: [ -1.16934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.260000 pESO->GetIndependentVar(): 2.260000 ==>IsSwitchingOccur() prevPhis[ 0]=2.670449, nextPhis[ 0]=2.647869 prevPhis[ 1]=3.329551, nextPhis[ 1]=3.352131 <==IsSwitchingOccur() T = 2.260000 Tnext = 2.265000 Time: 2.26000e+00 states: [ -3.92677e-01 -1.17410e+00] derivs: [ -1.17434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.265000 pESO->GetIndependentVar(): 2.265000 ==>IsSwitchingOccur() prevPhis[ 0]=2.647869, nextPhis[ 0]=2.625213 prevPhis[ 1]=3.352131, nextPhis[ 1]=3.374787 <==IsSwitchingOccur() T = 2.265000 Tnext = 2.270000 Time: 2.26500e+00 states: [ -3.98562e-01 -1.17910e+00] derivs: [ -1.17934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.270000 pESO->GetIndependentVar(): 2.270000 ==>IsSwitchingOccur() prevPhis[ 0]=2.625213, nextPhis[ 0]=2.602483 prevPhis[ 1]=3.374787, nextPhis[ 1]=3.397517 <==IsSwitchingOccur() T = 2.270000 Tnext = 2.275000 Time: 2.27000e+00 states: [ -4.04472e-01 -1.18410e+00] derivs: [ -1.18434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.275000 pESO->GetIndependentVar(): 2.275000 ==>IsSwitchingOccur() prevPhis[ 0]=2.602483, nextPhis[ 0]=2.579678 prevPhis[ 1]=3.397517, nextPhis[ 1]=3.420322 <==IsSwitchingOccur() T = 2.275000 Tnext = 2.280000 Time: 2.27500e+00 states: [ -4.10407e-01 -1.18910e+00] derivs: [ -1.18934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.280000 pESO->GetIndependentVar(): 2.280000 ==>IsSwitchingOccur() prevPhis[ 0]=2.579678, nextPhis[ 0]=2.556797 prevPhis[ 1]=3.420322, nextPhis[ 1]=3.443203 <==IsSwitchingOccur() T = 2.280000 Tnext = 2.285000 Time: 2.28000e+00 states: [ -4.16367e-01 -1.19410e+00] derivs: [ -1.19434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.285000 pESO->GetIndependentVar(): 2.285000 ==>IsSwitchingOccur() prevPhis[ 0]=2.556797, nextPhis[ 0]=2.533842 prevPhis[ 1]=3.443203, nextPhis[ 1]=3.466158 <==IsSwitchingOccur() T = 2.285000 Tnext = 2.290000 Time: 2.28500e+00 states: [ -4.22352e-01 -1.19910e+00] derivs: [ -1.19934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.290000 pESO->GetIndependentVar(): 2.290000 ==>IsSwitchingOccur() prevPhis[ 0]=2.533842, nextPhis[ 0]=2.510812 prevPhis[ 1]=3.466158, nextPhis[ 1]=3.489188 <==IsSwitchingOccur() T = 2.290000 Tnext = 2.295000 Time: 2.29000e+00 states: [ -4.28362e-01 -1.20410e+00] derivs: [ -1.20434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.295000 pESO->GetIndependentVar(): 2.295000 ==>IsSwitchingOccur() prevPhis[ 0]=2.510812, nextPhis[ 0]=2.487707 prevPhis[ 1]=3.489188, nextPhis[ 1]=3.512293 <==IsSwitchingOccur() T = 2.295000 Tnext = 2.300000 Time: 2.29500e+00 states: [ -4.34397e-01 -1.20910e+00] derivs: [ -1.20934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.300000 pESO->GetIndependentVar(): 2.300000 ==>IsSwitchingOccur() prevPhis[ 0]=2.487707, nextPhis[ 0]=2.464526 prevPhis[ 1]=3.512293, nextPhis[ 1]=3.535474 <==IsSwitchingOccur() T = 2.300000 Tnext = 2.305000 Time: 2.30000e+00 states: [ -4.40457e-01 -1.21410e+00] derivs: [ -1.21434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.305000 pESO->GetIndependentVar(): 2.305000 ==>IsSwitchingOccur() prevPhis[ 0]=2.464526, nextPhis[ 0]=2.441271 prevPhis[ 1]=3.535474, nextPhis[ 1]=3.558729 <==IsSwitchingOccur() T = 2.305000 Tnext = 2.310000 Time: 2.30500e+00 states: [ -4.46542e-01 -1.21910e+00] derivs: [ -1.21934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.310000 pESO->GetIndependentVar(): 2.310000 ==>IsSwitchingOccur() prevPhis[ 0]=2.441271, nextPhis[ 0]=2.417941 prevPhis[ 1]=3.558729, nextPhis[ 1]=3.582059 <==IsSwitchingOccur() T = 2.310000 Tnext = 2.315000 Time: 2.31000e+00 states: [ -4.52653e-01 -1.22410e+00] derivs: [ -1.22434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.315000 pESO->GetIndependentVar(): 2.315000 ==>IsSwitchingOccur() prevPhis[ 0]=2.417941, nextPhis[ 0]=2.394535 prevPhis[ 1]=3.582059, nextPhis[ 1]=3.605465 <==IsSwitchingOccur() T = 2.315000 Tnext = 2.320000 Time: 2.31500e+00 states: [ -4.58788e-01 -1.22910e+00] derivs: [ -1.22934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.320000 pESO->GetIndependentVar(): 2.320000 ==>IsSwitchingOccur() prevPhis[ 0]=2.394535, nextPhis[ 0]=2.371055 prevPhis[ 1]=3.605465, nextPhis[ 1]=3.628945 <==IsSwitchingOccur() T = 2.320000 Tnext = 2.325000 Time: 2.32000e+00 states: [ -4.64948e-01 -1.23410e+00] derivs: [ -1.23434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.325000 pESO->GetIndependentVar(): 2.325000 ==>IsSwitchingOccur() prevPhis[ 0]=2.371055, nextPhis[ 0]=2.347500 prevPhis[ 1]=3.628945, nextPhis[ 1]=3.652500 <==IsSwitchingOccur() T = 2.325000 Tnext = 2.330000 Time: 2.32500e+00 states: [ -4.71133e-01 -1.23910e+00] derivs: [ -1.23934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.330000 pESO->GetIndependentVar(): 2.330000 ==>IsSwitchingOccur() prevPhis[ 0]=2.347500, nextPhis[ 0]=2.323869 prevPhis[ 1]=3.652500, nextPhis[ 1]=3.676131 <==IsSwitchingOccur() T = 2.330000 Tnext = 2.335000 Time: 2.33000e+00 states: [ -4.77343e-01 -1.24410e+00] derivs: [ -1.24434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.335000 pESO->GetIndependentVar(): 2.335000 ==>IsSwitchingOccur() prevPhis[ 0]=2.323869, nextPhis[ 0]=2.300164 prevPhis[ 1]=3.676131, nextPhis[ 1]=3.699836 <==IsSwitchingOccur() T = 2.335000 Tnext = 2.340000 Time: 2.33500e+00 states: [ -4.83578e-01 -1.24910e+00] derivs: [ -1.24934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.340000 pESO->GetIndependentVar(): 2.340000 ==>IsSwitchingOccur() prevPhis[ 0]=2.300164, nextPhis[ 0]=2.276384 prevPhis[ 1]=3.699836, nextPhis[ 1]=3.723616 <==IsSwitchingOccur() T = 2.340000 Tnext = 2.345000 Time: 2.34000e+00 states: [ -4.89838e-01 -1.25410e+00] derivs: [ -1.25434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.345000 pESO->GetIndependentVar(): 2.345000 ==>IsSwitchingOccur() prevPhis[ 0]=2.276384, nextPhis[ 0]=2.252529 prevPhis[ 1]=3.723616, nextPhis[ 1]=3.747471 <==IsSwitchingOccur() T = 2.345000 Tnext = 2.350000 Time: 2.34500e+00 states: [ -4.96123e-01 -1.25910e+00] derivs: [ -1.25934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.350000 pESO->GetIndependentVar(): 2.350000 ==>IsSwitchingOccur() prevPhis[ 0]=2.252529, nextPhis[ 0]=2.228598 prevPhis[ 1]=3.747471, nextPhis[ 1]=3.771402 <==IsSwitchingOccur() T = 2.350000 Tnext = 2.355000 Time: 2.35000e+00 states: [ -5.02433e-01 -1.26410e+00] derivs: [ -1.26434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.355000 pESO->GetIndependentVar(): 2.355000 ==>IsSwitchingOccur() prevPhis[ 0]=2.228598, nextPhis[ 0]=2.204593 prevPhis[ 1]=3.771402, nextPhis[ 1]=3.795407 <==IsSwitchingOccur() T = 2.355000 Tnext = 2.360000 Time: 2.35500e+00 states: [ -5.08768e-01 -1.26910e+00] derivs: [ -1.26934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.360000 pESO->GetIndependentVar(): 2.360000 ==>IsSwitchingOccur() prevPhis[ 0]=2.204593, nextPhis[ 0]=2.180513 prevPhis[ 1]=3.795407, nextPhis[ 1]=3.819487 <==IsSwitchingOccur() T = 2.360000 Tnext = 2.365000 Time: 2.36000e+00 states: [ -5.15129e-01 -1.27410e+00] derivs: [ -1.27434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.365000 pESO->GetIndependentVar(): 2.365000 ==>IsSwitchingOccur() prevPhis[ 0]=2.180513, nextPhis[ 0]=2.156357 prevPhis[ 1]=3.819487, nextPhis[ 1]=3.843643 <==IsSwitchingOccur() T = 2.365000 Tnext = 2.370000 Time: 2.36500e+00 states: [ -5.21514e-01 -1.27910e+00] derivs: [ -1.27934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.370000 pESO->GetIndependentVar(): 2.370000 ==>IsSwitchingOccur() prevPhis[ 0]=2.156357, nextPhis[ 0]=2.132127 prevPhis[ 1]=3.843643, nextPhis[ 1]=3.867873 <==IsSwitchingOccur() T = 2.370000 Tnext = 2.375000 Time: 2.37000e+00 states: [ -5.27924e-01 -1.28410e+00] derivs: [ -1.28434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.375000 pESO->GetIndependentVar(): 2.375000 ==>IsSwitchingOccur() prevPhis[ 0]=2.132127, nextPhis[ 0]=2.107822 prevPhis[ 1]=3.867873, nextPhis[ 1]=3.892178 <==IsSwitchingOccur() T = 2.375000 Tnext = 2.380000 Time: 2.37500e+00 states: [ -5.34359e-01 -1.28910e+00] derivs: [ -1.28934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.380000 pESO->GetIndependentVar(): 2.380000 ==>IsSwitchingOccur() prevPhis[ 0]=2.107822, nextPhis[ 0]=2.083441 prevPhis[ 1]=3.892178, nextPhis[ 1]=3.916559 <==IsSwitchingOccur() T = 2.380000 Tnext = 2.385000 Time: 2.38000e+00 states: [ -5.40819e-01 -1.29410e+00] derivs: [ -1.29434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.385000 pESO->GetIndependentVar(): 2.385000 ==>IsSwitchingOccur() prevPhis[ 0]=2.083441, nextPhis[ 0]=2.058986 prevPhis[ 1]=3.916559, nextPhis[ 1]=3.941014 <==IsSwitchingOccur() T = 2.385000 Tnext = 2.390000 Time: 2.38500e+00 states: [ -5.47304e-01 -1.29910e+00] derivs: [ -1.29934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.390000 pESO->GetIndependentVar(): 2.390000 ==>IsSwitchingOccur() prevPhis[ 0]=2.058986, nextPhis[ 0]=2.034456 prevPhis[ 1]=3.941014, nextPhis[ 1]=3.965544 <==IsSwitchingOccur() T = 2.390000 Tnext = 2.395000 Time: 2.39000e+00 states: [ -5.53814e-01 -1.30410e+00] derivs: [ -1.30434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.395000 pESO->GetIndependentVar(): 2.395000 ==>IsSwitchingOccur() prevPhis[ 0]=2.034456, nextPhis[ 0]=2.009850 prevPhis[ 1]=3.965544, nextPhis[ 1]=3.990150 <==IsSwitchingOccur() T = 2.395000 Tnext = 2.400000 Time: 2.39500e+00 states: [ -5.60349e-01 -1.30910e+00] derivs: [ -1.30934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.400000 pESO->GetIndependentVar(): 2.400000 ==>IsSwitchingOccur() prevPhis[ 0]=2.009850, nextPhis[ 0]=1.985170 prevPhis[ 1]=3.990150, nextPhis[ 1]=4.014830 <==IsSwitchingOccur() T = 2.400000 Tnext = 2.405000 Time: 2.40000e+00 states: [ -5.66909e-01 -1.31410e+00] derivs: [ -1.31434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.405000 pESO->GetIndependentVar(): 2.405000 ==>IsSwitchingOccur() prevPhis[ 0]=1.985170, nextPhis[ 0]=1.960415 prevPhis[ 1]=4.014830, nextPhis[ 1]=4.039585 <==IsSwitchingOccur() T = 2.405000 Tnext = 2.410000 Time: 2.40500e+00 states: [ -5.73495e-01 -1.31910e+00] derivs: [ -1.31934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.410000 pESO->GetIndependentVar(): 2.410000 ==>IsSwitchingOccur() prevPhis[ 0]=1.960415, nextPhis[ 0]=1.935585 prevPhis[ 1]=4.039585, nextPhis[ 1]=4.064415 <==IsSwitchingOccur() T = 2.410000 Tnext = 2.415000 Time: 2.41000e+00 states: [ -5.80105e-01 -1.32410e+00] derivs: [ -1.32434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.415000 pESO->GetIndependentVar(): 2.415000 ==>IsSwitchingOccur() prevPhis[ 0]=1.935585, nextPhis[ 0]=1.910679 prevPhis[ 1]=4.064415, nextPhis[ 1]=4.089321 <==IsSwitchingOccur() T = 2.415000 Tnext = 2.420000 Time: 2.41500e+00 states: [ -5.86740e-01 -1.32910e+00] derivs: [ -1.32934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.420000 pESO->GetIndependentVar(): 2.420000 ==>IsSwitchingOccur() prevPhis[ 0]=1.910679, nextPhis[ 0]=1.885699 prevPhis[ 1]=4.089321, nextPhis[ 1]=4.114301 <==IsSwitchingOccur() T = 2.420000 Tnext = 2.425000 Time: 2.42000e+00 states: [ -5.93400e-01 -1.33410e+00] derivs: [ -1.33434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.425000 pESO->GetIndependentVar(): 2.425000 ==>IsSwitchingOccur() prevPhis[ 0]=1.885699, nextPhis[ 0]=1.860644 prevPhis[ 1]=4.114301, nextPhis[ 1]=4.139356 <==IsSwitchingOccur() T = 2.425000 Tnext = 2.430000 Time: 2.42500e+00 states: [ -6.00085e-01 -1.33910e+00] derivs: [ -1.33934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.430000 pESO->GetIndependentVar(): 2.430000 ==>IsSwitchingOccur() prevPhis[ 0]=1.860644, nextPhis[ 0]=1.835513 prevPhis[ 1]=4.139356, nextPhis[ 1]=4.164487 <==IsSwitchingOccur() T = 2.430000 Tnext = 2.435000 Time: 2.43000e+00 states: [ -6.06795e-01 -1.34410e+00] derivs: [ -1.34434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.435000 pESO->GetIndependentVar(): 2.435000 ==>IsSwitchingOccur() prevPhis[ 0]=1.835513, nextPhis[ 0]=1.810308 prevPhis[ 1]=4.164487, nextPhis[ 1]=4.189692 <==IsSwitchingOccur() T = 2.435000 Tnext = 2.440000 Time: 2.43500e+00 states: [ -6.13530e-01 -1.34910e+00] derivs: [ -1.34934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.440000 pESO->GetIndependentVar(): 2.440000 ==>IsSwitchingOccur() prevPhis[ 0]=1.810308, nextPhis[ 0]=1.785028 prevPhis[ 1]=4.189692, nextPhis[ 1]=4.214972 <==IsSwitchingOccur() T = 2.440000 Tnext = 2.445000 Time: 2.44000e+00 states: [ -6.20290e-01 -1.35410e+00] derivs: [ -1.35434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.445000 pESO->GetIndependentVar(): 2.445000 ==>IsSwitchingOccur() prevPhis[ 0]=1.785028, nextPhis[ 0]=1.759672 prevPhis[ 1]=4.214972, nextPhis[ 1]=4.240328 <==IsSwitchingOccur() T = 2.445000 Tnext = 2.450000 Time: 2.44500e+00 states: [ -6.27075e-01 -1.35910e+00] derivs: [ -1.35934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.450000 pESO->GetIndependentVar(): 2.450000 ==>IsSwitchingOccur() prevPhis[ 0]=1.759672, nextPhis[ 0]=1.734242 prevPhis[ 1]=4.240328, nextPhis[ 1]=4.265758 <==IsSwitchingOccur() T = 2.450000 Tnext = 2.455000 Time: 2.45000e+00 states: [ -6.33885e-01 -1.36410e+00] derivs: [ -1.36434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.455000 pESO->GetIndependentVar(): 2.455000 ==>IsSwitchingOccur() prevPhis[ 0]=1.734242, nextPhis[ 0]=1.708737 prevPhis[ 1]=4.265758, nextPhis[ 1]=4.291263 <==IsSwitchingOccur() T = 2.455000 Tnext = 2.460000 Time: 2.45500e+00 states: [ -6.40721e-01 -1.36910e+00] derivs: [ -1.36934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.460000 pESO->GetIndependentVar(): 2.460000 ==>IsSwitchingOccur() prevPhis[ 0]=1.708737, nextPhis[ 0]=1.683157 prevPhis[ 1]=4.291263, nextPhis[ 1]=4.316843 <==IsSwitchingOccur() T = 2.460000 Tnext = 2.465000 Time: 2.46000e+00 states: [ -6.47581e-01 -1.37410e+00] derivs: [ -1.37434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.465000 pESO->GetIndependentVar(): 2.465000 ==>IsSwitchingOccur() prevPhis[ 0]=1.683157, nextPhis[ 0]=1.657501 prevPhis[ 1]=4.316843, nextPhis[ 1]=4.342499 <==IsSwitchingOccur() T = 2.465000 Tnext = 2.470000 Time: 2.46500e+00 states: [ -6.54466e-01 -1.37910e+00] derivs: [ -1.37934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.470000 pESO->GetIndependentVar(): 2.470000 ==>IsSwitchingOccur() prevPhis[ 0]=1.657501, nextPhis[ 0]=1.631771 prevPhis[ 1]=4.342499, nextPhis[ 1]=4.368229 <==IsSwitchingOccur() T = 2.470000 Tnext = 2.475000 Time: 2.47000e+00 states: [ -6.61376e-01 -1.38410e+00] derivs: [ -1.38434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.475000 pESO->GetIndependentVar(): 2.475000 ==>IsSwitchingOccur() prevPhis[ 0]=1.631771, nextPhis[ 0]=1.605966 prevPhis[ 1]=4.368229, nextPhis[ 1]=4.394034 <==IsSwitchingOccur() T = 2.475000 Tnext = 2.480000 Time: 2.47500e+00 states: [ -6.68311e-01 -1.38910e+00] derivs: [ -1.38934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.480000 pESO->GetIndependentVar(): 2.480000 ==>IsSwitchingOccur() prevPhis[ 0]=1.605966, nextPhis[ 0]=1.580085 prevPhis[ 1]=4.394034, nextPhis[ 1]=4.419915 <==IsSwitchingOccur() T = 2.480000 Tnext = 2.485000 Time: 2.48000e+00 states: [ -6.75271e-01 -1.39410e+00] derivs: [ -1.39434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.485000 pESO->GetIndependentVar(): 2.485000 ==>IsSwitchingOccur() prevPhis[ 0]=1.580085, nextPhis[ 0]=1.554130 prevPhis[ 1]=4.419915, nextPhis[ 1]=4.445870 <==IsSwitchingOccur() T = 2.485000 Tnext = 2.490000 Time: 2.48500e+00 states: [ -6.82256e-01 -1.39910e+00] derivs: [ -1.39934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.490000 pESO->GetIndependentVar(): 2.490000 ==>IsSwitchingOccur() prevPhis[ 0]=1.554130, nextPhis[ 0]=1.528100 prevPhis[ 1]=4.445870, nextPhis[ 1]=4.471900 <==IsSwitchingOccur() T = 2.490000 Tnext = 2.495000 Time: 2.49000e+00 states: [ -6.89266e-01 -1.40410e+00] derivs: [ -1.40434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.495000 pESO->GetIndependentVar(): 2.495000 ==>IsSwitchingOccur() prevPhis[ 0]=1.528100, nextPhis[ 0]=1.501994 prevPhis[ 1]=4.471900, nextPhis[ 1]=4.498006 <==IsSwitchingOccur() T = 2.495000 Tnext = 2.500000 Time: 2.49500e+00 states: [ -6.96301e-01 -1.40910e+00] derivs: [ -1.40934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.500000 pESO->GetIndependentVar(): 2.500000 ==>IsSwitchingOccur() prevPhis[ 0]=1.501994, nextPhis[ 0]=1.475814 prevPhis[ 1]=4.498006, nextPhis[ 1]=4.524186 <==IsSwitchingOccur() T = 2.500000 Tnext = 2.505000 Time: 2.50000e+00 states: [ -7.03361e-01 -1.41410e+00] derivs: [ -1.41434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.505000 pESO->GetIndependentVar(): 2.505000 ==>IsSwitchingOccur() prevPhis[ 0]=1.475814, nextPhis[ 0]=1.449559 prevPhis[ 1]=4.524186, nextPhis[ 1]=4.550441 <==IsSwitchingOccur() T = 2.505000 Tnext = 2.510000 Time: 2.50500e+00 states: [ -7.10447e-01 -1.41910e+00] derivs: [ -1.41934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.510000 pESO->GetIndependentVar(): 2.510000 ==>IsSwitchingOccur() prevPhis[ 0]=1.449559, nextPhis[ 0]=1.423229 prevPhis[ 1]=4.550441, nextPhis[ 1]=4.576771 <==IsSwitchingOccur() T = 2.510000 Tnext = 2.515000 Time: 2.51000e+00 states: [ -7.17557e-01 -1.42410e+00] derivs: [ -1.42434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.515000 pESO->GetIndependentVar(): 2.515000 ==>IsSwitchingOccur() prevPhis[ 0]=1.423229, nextPhis[ 0]=1.396823 prevPhis[ 1]=4.576771, nextPhis[ 1]=4.603177 <==IsSwitchingOccur() T = 2.515000 Tnext = 2.520000 Time: 2.51500e+00 states: [ -7.24692e-01 -1.42910e+00] derivs: [ -1.42934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.520000 pESO->GetIndependentVar(): 2.520000 ==>IsSwitchingOccur() prevPhis[ 0]=1.396823, nextPhis[ 0]=1.370343 prevPhis[ 1]=4.603177, nextPhis[ 1]=4.629657 <==IsSwitchingOccur() T = 2.520000 Tnext = 2.525000 Time: 2.52000e+00 states: [ -7.31852e-01 -1.43410e+00] derivs: [ -1.43434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.525000 pESO->GetIndependentVar(): 2.525000 ==>IsSwitchingOccur() prevPhis[ 0]=1.370343, nextPhis[ 0]=1.343788 prevPhis[ 1]=4.629657, nextPhis[ 1]=4.656212 <==IsSwitchingOccur() T = 2.525000 Tnext = 2.530000 Time: 2.52500e+00 states: [ -7.39037e-01 -1.43910e+00] derivs: [ -1.43934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.530000 pESO->GetIndependentVar(): 2.530000 ==>IsSwitchingOccur() prevPhis[ 0]=1.343788, nextPhis[ 0]=1.317157 prevPhis[ 1]=4.656212, nextPhis[ 1]=4.682843 <==IsSwitchingOccur() T = 2.530000 Tnext = 2.535000 Time: 2.53000e+00 states: [ -7.46247e-01 -1.44410e+00] derivs: [ -1.44434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.535000 pESO->GetIndependentVar(): 2.535000 ==>IsSwitchingOccur() prevPhis[ 0]=1.317157, nextPhis[ 0]=1.290452 prevPhis[ 1]=4.682843, nextPhis[ 1]=4.709548 <==IsSwitchingOccur() T = 2.535000 Tnext = 2.540000 Time: 2.53500e+00 states: [ -7.53482e-01 -1.44910e+00] derivs: [ -1.44934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.540000 pESO->GetIndependentVar(): 2.540000 ==>IsSwitchingOccur() prevPhis[ 0]=1.290452, nextPhis[ 0]=1.263672 prevPhis[ 1]=4.709548, nextPhis[ 1]=4.736328 <==IsSwitchingOccur() T = 2.540000 Tnext = 2.545000 Time: 2.54000e+00 states: [ -7.60742e-01 -1.45410e+00] derivs: [ -1.45434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.545000 pESO->GetIndependentVar(): 2.545000 ==>IsSwitchingOccur() prevPhis[ 0]=1.263672, nextPhis[ 0]=1.236816 prevPhis[ 1]=4.736328, nextPhis[ 1]=4.763184 <==IsSwitchingOccur() T = 2.545000 Tnext = 2.550000 Time: 2.54500e+00 states: [ -7.68027e-01 -1.45910e+00] derivs: [ -1.45934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.550000 pESO->GetIndependentVar(): 2.550000 ==>IsSwitchingOccur() prevPhis[ 0]=1.236816, nextPhis[ 0]=1.209886 prevPhis[ 1]=4.763184, nextPhis[ 1]=4.790114 <==IsSwitchingOccur() T = 2.550000 Tnext = 2.555000 Time: 2.55000e+00 states: [ -7.75337e-01 -1.46410e+00] derivs: [ -1.46434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.555000 pESO->GetIndependentVar(): 2.555000 ==>IsSwitchingOccur() prevPhis[ 0]=1.209886, nextPhis[ 0]=1.182881 prevPhis[ 1]=4.790114, nextPhis[ 1]=4.817119 <==IsSwitchingOccur() T = 2.555000 Tnext = 2.560000 Time: 2.55500e+00 states: [ -7.82673e-01 -1.46910e+00] derivs: [ -1.46934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.560000 pESO->GetIndependentVar(): 2.560000 ==>IsSwitchingOccur() prevPhis[ 0]=1.182881, nextPhis[ 0]=1.155801 prevPhis[ 1]=4.817119, nextPhis[ 1]=4.844199 <==IsSwitchingOccur() T = 2.560000 Tnext = 2.565000 Time: 2.56000e+00 states: [ -7.90033e-01 -1.47410e+00] derivs: [ -1.47434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.565000 pESO->GetIndependentVar(): 2.565000 ==>IsSwitchingOccur() prevPhis[ 0]=1.155801, nextPhis[ 0]=1.128645 prevPhis[ 1]=4.844199, nextPhis[ 1]=4.871355 <==IsSwitchingOccur() T = 2.565000 Tnext = 2.570000 Time: 2.56500e+00 states: [ -7.97418e-01 -1.47910e+00] derivs: [ -1.47934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.570000 pESO->GetIndependentVar(): 2.570000 ==>IsSwitchingOccur() prevPhis[ 0]=1.128645, nextPhis[ 0]=1.101415 prevPhis[ 1]=4.871355, nextPhis[ 1]=4.898585 <==IsSwitchingOccur() T = 2.570000 Tnext = 2.575000 Time: 2.57000e+00 states: [ -8.04828e-01 -1.48410e+00] derivs: [ -1.48434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.575000 pESO->GetIndependentVar(): 2.575000 ==>IsSwitchingOccur() prevPhis[ 0]=1.101415, nextPhis[ 0]=1.074110 prevPhis[ 1]=4.898585, nextPhis[ 1]=4.925890 <==IsSwitchingOccur() T = 2.575000 Tnext = 2.580000 Time: 2.57500e+00 states: [ -8.12263e-01 -1.48910e+00] derivs: [ -1.48934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.580000 pESO->GetIndependentVar(): 2.580000 ==>IsSwitchingOccur() prevPhis[ 0]=1.074110, nextPhis[ 0]=1.046729 prevPhis[ 1]=4.925890, nextPhis[ 1]=4.953271 <==IsSwitchingOccur() T = 2.580000 Tnext = 2.585000 Time: 2.58000e+00 states: [ -8.19723e-01 -1.49410e+00] derivs: [ -1.49434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.585000 pESO->GetIndependentVar(): 2.585000 ==>IsSwitchingOccur() prevPhis[ 0]=1.046729, nextPhis[ 0]=1.019274 prevPhis[ 1]=4.953271, nextPhis[ 1]=4.980726 <==IsSwitchingOccur() T = 2.585000 Tnext = 2.590000 Time: 2.58500e+00 states: [ -8.27208e-01 -1.49910e+00] derivs: [ -1.49934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.590000 pESO->GetIndependentVar(): 2.590000 ==>IsSwitchingOccur() prevPhis[ 0]=1.019274, nextPhis[ 0]=0.991744 prevPhis[ 1]=4.980726, nextPhis[ 1]=5.008256 <==IsSwitchingOccur() T = 2.590000 Tnext = 2.595000 Time: 2.59000e+00 states: [ -8.34718e-01 -1.50410e+00] derivs: [ -1.50434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.595000 pESO->GetIndependentVar(): 2.595000 ==>IsSwitchingOccur() prevPhis[ 0]=0.991744, nextPhis[ 0]=0.964138 prevPhis[ 1]=5.008256, nextPhis[ 1]=5.035862 <==IsSwitchingOccur() T = 2.595000 Tnext = 2.600000 Time: 2.59500e+00 states: [ -8.42253e-01 -1.50910e+00] derivs: [ -1.50934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.600000 pESO->GetIndependentVar(): 2.600000 ==>IsSwitchingOccur() prevPhis[ 0]=0.964138, nextPhis[ 0]=0.936458 prevPhis[ 1]=5.035862, nextPhis[ 1]=5.063542 <==IsSwitchingOccur() T = 2.600000 Tnext = 2.605000 Time: 2.60000e+00 states: [ -8.49813e-01 -1.51410e+00] derivs: [ -1.51434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.605000 pESO->GetIndependentVar(): 2.605000 ==>IsSwitchingOccur() prevPhis[ 0]=0.936458, nextPhis[ 0]=0.908703 prevPhis[ 1]=5.063542, nextPhis[ 1]=5.091297 <==IsSwitchingOccur() T = 2.605000 Tnext = 2.610000 Time: 2.60500e+00 states: [ -8.57399e-01 -1.51910e+00] derivs: [ -1.51934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.610000 pESO->GetIndependentVar(): 2.610000 ==>IsSwitchingOccur() prevPhis[ 0]=0.908703, nextPhis[ 0]=0.880873 prevPhis[ 1]=5.091297, nextPhis[ 1]=5.119127 <==IsSwitchingOccur() T = 2.610000 Tnext = 2.615000 Time: 2.61000e+00 states: [ -8.65009e-01 -1.52410e+00] derivs: [ -1.52434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.615000 pESO->GetIndependentVar(): 2.615000 ==>IsSwitchingOccur() prevPhis[ 0]=0.880873, nextPhis[ 0]=0.852967 prevPhis[ 1]=5.119127, nextPhis[ 1]=5.147033 <==IsSwitchingOccur() T = 2.615000 Tnext = 2.620000 Time: 2.61500e+00 states: [ -8.72644e-01 -1.52910e+00] derivs: [ -1.52934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.620000 pESO->GetIndependentVar(): 2.620000 ==>IsSwitchingOccur() prevPhis[ 0]=0.852967, nextPhis[ 0]=0.824987 prevPhis[ 1]=5.147033, nextPhis[ 1]=5.175013 <==IsSwitchingOccur() T = 2.620000 Tnext = 2.625000 Time: 2.62000e+00 states: [ -8.80304e-01 -1.53410e+00] derivs: [ -1.53434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.625000 pESO->GetIndependentVar(): 2.625000 ==>IsSwitchingOccur() prevPhis[ 0]=0.824987, nextPhis[ 0]=0.796932 prevPhis[ 1]=5.175013, nextPhis[ 1]=5.203068 <==IsSwitchingOccur() T = 2.625000 Tnext = 2.630000 Time: 2.62500e+00 states: [ -8.87989e-01 -1.53910e+00] derivs: [ -1.53934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.630000 pESO->GetIndependentVar(): 2.630000 ==>IsSwitchingOccur() prevPhis[ 0]=0.796932, nextPhis[ 0]=0.768801 prevPhis[ 1]=5.203068, nextPhis[ 1]=5.231199 <==IsSwitchingOccur() T = 2.630000 Tnext = 2.635000 Time: 2.63000e+00 states: [ -8.95699e-01 -1.54410e+00] derivs: [ -1.54434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.635000 pESO->GetIndependentVar(): 2.635000 ==>IsSwitchingOccur() prevPhis[ 0]=0.768801, nextPhis[ 0]=0.740596 prevPhis[ 1]=5.231199, nextPhis[ 1]=5.259404 <==IsSwitchingOccur() T = 2.635000 Tnext = 2.640000 Time: 2.63500e+00 states: [ -9.03434e-01 -1.54910e+00] derivs: [ -1.54934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.640000 pESO->GetIndependentVar(): 2.640000 ==>IsSwitchingOccur() prevPhis[ 0]=0.740596, nextPhis[ 0]=0.712316 prevPhis[ 1]=5.259404, nextPhis[ 1]=5.287684 <==IsSwitchingOccur() T = 2.640000 Tnext = 2.645000 Time: 2.64000e+00 states: [ -9.11194e-01 -1.55410e+00] derivs: [ -1.55434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.645000 pESO->GetIndependentVar(): 2.645000 ==>IsSwitchingOccur() prevPhis[ 0]=0.712316, nextPhis[ 0]=0.683960 prevPhis[ 1]=5.287684, nextPhis[ 1]=5.316040 <==IsSwitchingOccur() T = 2.645000 Tnext = 2.650000 Time: 2.64500e+00 states: [ -9.18979e-01 -1.55910e+00] derivs: [ -1.55934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.650000 pESO->GetIndependentVar(): 2.650000 ==>IsSwitchingOccur() prevPhis[ 0]=0.683960, nextPhis[ 0]=0.655530 prevPhis[ 1]=5.316040, nextPhis[ 1]=5.344470 <==IsSwitchingOccur() T = 2.650000 Tnext = 2.655000 Time: 2.65000e+00 states: [ -9.26789e-01 -1.56410e+00] derivs: [ -1.56434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.655000 pESO->GetIndependentVar(): 2.655000 ==>IsSwitchingOccur() prevPhis[ 0]=0.655530, nextPhis[ 0]=0.627025 prevPhis[ 1]=5.344470, nextPhis[ 1]=5.372975 <==IsSwitchingOccur() T = 2.655000 Tnext = 2.660000 Time: 2.65500e+00 states: [ -9.34625e-01 -1.56910e+00] derivs: [ -1.56934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.660000 pESO->GetIndependentVar(): 2.660000 ==>IsSwitchingOccur() prevPhis[ 0]=0.627025, nextPhis[ 0]=0.598444 prevPhis[ 1]=5.372975, nextPhis[ 1]=5.401556 <==IsSwitchingOccur() T = 2.660000 Tnext = 2.665000 Time: 2.66000e+00 states: [ -9.42485e-01 -1.57410e+00] derivs: [ -1.57434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.665000 pESO->GetIndependentVar(): 2.665000 ==>IsSwitchingOccur() prevPhis[ 0]=0.598444, nextPhis[ 0]=0.569789 prevPhis[ 1]=5.401556, nextPhis[ 1]=5.430211 <==IsSwitchingOccur() T = 2.665000 Tnext = 2.670000 Time: 2.66500e+00 states: [ -9.50370e-01 -1.57910e+00] derivs: [ -1.57934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.670000 pESO->GetIndependentVar(): 2.670000 ==>IsSwitchingOccur() prevPhis[ 0]=0.569789, nextPhis[ 0]=0.541059 prevPhis[ 1]=5.430211, nextPhis[ 1]=5.458941 <==IsSwitchingOccur() T = 2.670000 Tnext = 2.675000 Time: 2.67000e+00 states: [ -9.58280e-01 -1.58410e+00] derivs: [ -1.58434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.675000 pESO->GetIndependentVar(): 2.675000 ==>IsSwitchingOccur() prevPhis[ 0]=0.541059, nextPhis[ 0]=0.512254 prevPhis[ 1]=5.458941, nextPhis[ 1]=5.487746 <==IsSwitchingOccur() T = 2.675000 Tnext = 2.680000 Time: 2.67500e+00 states: [ -9.66215e-01 -1.58910e+00] derivs: [ -1.58934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.680000 pESO->GetIndependentVar(): 2.680000 ==>IsSwitchingOccur() prevPhis[ 0]=0.512254, nextPhis[ 0]=0.483373 prevPhis[ 1]=5.487746, nextPhis[ 1]=5.516627 <==IsSwitchingOccur() T = 2.680000 Tnext = 2.685000 Time: 2.68000e+00 states: [ -9.74175e-01 -1.59410e+00] derivs: [ -1.59434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.685000 pESO->GetIndependentVar(): 2.685000 ==>IsSwitchingOccur() prevPhis[ 0]=0.483373, nextPhis[ 0]=0.454418 prevPhis[ 1]=5.516627, nextPhis[ 1]=5.545582 <==IsSwitchingOccur() T = 2.685000 Tnext = 2.690000 Time: 2.68500e+00 states: [ -9.82160e-01 -1.59910e+00] derivs: [ -1.59934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.690000 pESO->GetIndependentVar(): 2.690000 ==>IsSwitchingOccur() prevPhis[ 0]=0.454418, nextPhis[ 0]=0.425388 prevPhis[ 1]=5.545582, nextPhis[ 1]=5.574612 <==IsSwitchingOccur() T = 2.690000 Tnext = 2.695000 Time: 2.69000e+00 states: [ -9.90170e-01 -1.60410e+00] derivs: [ -1.60434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.695000 pESO->GetIndependentVar(): 2.695000 ==>IsSwitchingOccur() prevPhis[ 0]=0.425388, nextPhis[ 0]=0.396282 prevPhis[ 1]=5.574612, nextPhis[ 1]=5.603718 <==IsSwitchingOccur() T = 2.695000 Tnext = 2.700000 Time: 2.69500e+00 states: [ -9.98205e-01 -1.60910e+00] derivs: [ -1.60934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.700000 pESO->GetIndependentVar(): 2.700000 ==>IsSwitchingOccur() prevPhis[ 0]=0.396282, nextPhis[ 0]=0.367102 prevPhis[ 1]=5.603718, nextPhis[ 1]=5.632898 <==IsSwitchingOccur() T = 2.700000 Tnext = 2.705000 Time: 2.70000e+00 states: [ -1.00627e+00 -1.61410e+00] derivs: [ -1.61434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.705000 pESO->GetIndependentVar(): 2.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.367102, nextPhis[ 0]=0.337847 prevPhis[ 1]=5.632898, nextPhis[ 1]=5.662153 <==IsSwitchingOccur() T = 2.705000 Tnext = 2.710000 Time: 2.70500e+00 states: [ -1.01435e+00 -1.61910e+00] derivs: [ -1.61934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.710000 pESO->GetIndependentVar(): 2.710000 ==>IsSwitchingOccur() prevPhis[ 0]=0.337847, nextPhis[ 0]=0.308516 prevPhis[ 1]=5.662153, nextPhis[ 1]=5.691484 <==IsSwitchingOccur() T = 2.710000 Tnext = 2.715000 Time: 2.71000e+00 states: [ -1.02246e+00 -1.62410e+00] derivs: [ -1.62434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.715000 pESO->GetIndependentVar(): 2.715000 ==>IsSwitchingOccur() prevPhis[ 0]=0.308516, nextPhis[ 0]=0.279111 prevPhis[ 1]=5.691484, nextPhis[ 1]=5.720889 <==IsSwitchingOccur() T = 2.715000 Tnext = 2.720000 Time: 2.71500e+00 states: [ -1.03060e+00 -1.62910e+00] derivs: [ -1.62934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.720000 pESO->GetIndependentVar(): 2.720000 ==>IsSwitchingOccur() prevPhis[ 0]=0.279111, nextPhis[ 0]=0.249631 prevPhis[ 1]=5.720889, nextPhis[ 1]=5.750369 <==IsSwitchingOccur() T = 2.720000 Tnext = 2.725000 Time: 2.72000e+00 states: [ -1.03876e+00 -1.63410e+00] derivs: [ -1.63434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.725000 pESO->GetIndependentVar(): 2.725000 ==>IsSwitchingOccur() prevPhis[ 0]=0.249631, nextPhis[ 0]=0.220076 prevPhis[ 1]=5.750369, nextPhis[ 1]=5.779924 <==IsSwitchingOccur() T = 2.725000 Tnext = 2.730000 Time: 2.72500e+00 states: [ -1.04694e+00 -1.63910e+00] derivs: [ -1.63934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.730000 pESO->GetIndependentVar(): 2.730000 ==>IsSwitchingOccur() prevPhis[ 0]=0.220076, nextPhis[ 0]=0.190445 prevPhis[ 1]=5.779924, nextPhis[ 1]=5.809555 <==IsSwitchingOccur() T = 2.730000 Tnext = 2.735000 Time: 2.73000e+00 states: [ -1.05515e+00 -1.64410e+00] derivs: [ -1.64434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.735000 pESO->GetIndependentVar(): 2.735000 ==>IsSwitchingOccur() prevPhis[ 0]=0.190445, nextPhis[ 0]=0.160740 prevPhis[ 1]=5.809555, nextPhis[ 1]=5.839260 <==IsSwitchingOccur() T = 2.735000 Tnext = 2.740000 Time: 2.73500e+00 states: [ -1.06339e+00 -1.64910e+00] derivs: [ -1.64934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.740000 pESO->GetIndependentVar(): 2.740000 ==>IsSwitchingOccur() prevPhis[ 0]=0.160740, nextPhis[ 0]=0.130960 prevPhis[ 1]=5.839260, nextPhis[ 1]=5.869040 <==IsSwitchingOccur() T = 2.740000 Tnext = 2.745000 Time: 2.74000e+00 states: [ -1.07165e+00 -1.65410e+00] derivs: [ -1.65434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.745000 pESO->GetIndependentVar(): 2.745000 ==>IsSwitchingOccur() prevPhis[ 0]=0.130960, nextPhis[ 0]=0.101104 prevPhis[ 1]=5.869040, nextPhis[ 1]=5.898896 <==IsSwitchingOccur() T = 2.745000 Tnext = 2.750000 Time: 2.74500e+00 states: [ -1.07993e+00 -1.65910e+00] derivs: [ -1.65934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.750000 pESO->GetIndependentVar(): 2.750000 ==>IsSwitchingOccur() prevPhis[ 0]=0.101104, nextPhis[ 0]=0.071174 prevPhis[ 1]=5.898896, nextPhis[ 1]=5.928826 <==IsSwitchingOccur() T = 2.750000 Tnext = 2.755000 Time: 2.75000e+00 states: [ -1.08824e+00 -1.66410e+00] derivs: [ -1.66434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.755000 pESO->GetIndependentVar(): 2.755000 ==>IsSwitchingOccur() prevPhis[ 0]=0.071174, nextPhis[ 0]=0.041169 prevPhis[ 1]=5.928826, nextPhis[ 1]=5.958831 <==IsSwitchingOccur() T = 2.755000 Tnext = 2.760000 Time: 2.75500e+00 states: [ -1.09658e+00 -1.66910e+00] derivs: [ -1.66934e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.760000 pESO->GetIndependentVar(): 2.760000 ==>IsSwitchingOccur() prevPhis[ 0]=0.041169, nextPhis[ 0]=0.011088 prevPhis[ 1]=5.958831, nextPhis[ 1]=5.988912 <==IsSwitchingOccur() T = 2.760000 Tnext = 2.765000 Time: 2.76000e+00 states: [ -1.10494e+00 -1.67410e+00] derivs: [ -1.67434e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.011088, nextPhis[ 0]=-0.019067 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.019067 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.034173 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.026617 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.022841 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.020954 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.020010 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.019539 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.019303 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105002, -1.674141, 1.684271, 0.758957, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=5.811770 b=-6.022501 dts/dp=[0.965009, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [-1.105002, -1.674141, 1.684271, 0.758957, ] AllSensVars (befor 2-nd IC recalculation):[-1.105002, -1.674141, 1.684246, -1.171062, ] AllSensDers (befor 2-nd IC recalculation):[-1.674141, 1.000000, 0.758957, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[-1.105002, -1.674141, 1.684246, -1.171062, ] AllSensDers (after 2-nd IC recalculation):[-1.674141, 1.000000, -1.171062, -0.000000, ] <==RecalculateSensIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010853, nextPhis[ 0]=-0.009215 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.009215 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.019221 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.014221 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.011719 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.010467 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.009841 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.009528 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.009372 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105067, -1.674102, 1.684200, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.881538 b=-4.022225 dts/dp=[0.965022, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010696, nextPhis[ 0]=-0.009372 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.009372 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.019377 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.014377 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.011875 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.010624 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.009998 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.009685 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.009528 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105133, -1.674063, 1.684154, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.881401 b=-4.022108 dts/dp=[0.965016, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010539, nextPhis[ 0]=-0.009528 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.009528 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.019534 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.014534 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.012032 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.010780 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.010154 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.009841 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.009685 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105198, -1.674023, 1.684108, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.881263 b=-4.021991 dts/dp=[0.965010, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010382, nextPhis[ 0]=-0.009685 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.009685 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.019690 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.014690 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.012188 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.010937 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.010311 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.009998 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.009841 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105264, -1.673984, 1.684063, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.881126 b=-4.021874 dts/dp=[0.965004, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010225, nextPhis[ 0]=-0.009841 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.009841 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.019846 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.014846 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.012345 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.011093 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.010467 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.010154 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.009998 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105329, -1.673945, 1.684017, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.880989 b=-4.021757 dts/dp=[0.964998, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010068, nextPhis[ 0]=-0.009998 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.009998 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.020002 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.015003 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.012501 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.011250 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.010624 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.010311 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.010154 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105394, -1.673906, 1.683971, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.880852 b=-4.021639 dts/dp=[0.964992, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009911, nextPhis[ 0]=-0.010154 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.010154 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.020159 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.015159 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.012658 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.011406 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.010780 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.010467 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.010311 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105460, -1.673867, 1.683926, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.880714 b=-4.021522 dts/dp=[0.964986, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009753, nextPhis[ 0]=-0.010311 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.010311 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.020315 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.015316 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.012814 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.011563 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.010937 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.010624 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.010467 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105525, -1.673828, 1.683880, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.880577 b=-4.021405 dts/dp=[0.964980, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009596, nextPhis[ 0]=-0.010467 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.010467 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.020471 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.015472 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.012971 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.011719 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.011093 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.010780 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.010624 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105591, -1.673789, 1.683834, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.880440 b=-4.021288 dts/dp=[0.964974, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009439, nextPhis[ 0]=-0.010624 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.010624 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.020627 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.015628 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.013127 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.011876 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.011250 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.010937 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.010780 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105656, -1.673750, 1.683788, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.880303 b=-4.021171 dts/dp=[0.964968, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009282, nextPhis[ 0]=-0.010780 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.010780 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.020783 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.015785 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.013283 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.012032 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.011406 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.011093 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.010937 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105721, -1.673711, 1.683743, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.880165 b=-4.021054 dts/dp=[0.964962, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009125, nextPhis[ 0]=-0.010937 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.010937 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.020940 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.015941 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.013440 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.012189 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.011563 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.011250 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.011093 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105787, -1.673672, 1.683697, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.880028 b=-4.020936 dts/dp=[0.964956, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008968, nextPhis[ 0]=-0.011093 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.011093 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.021096 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.016097 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.013596 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.012345 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.011719 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.011406 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.011250 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105852, -1.673633, 1.683651, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.879891 b=-4.020819 dts/dp=[0.964950, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008811, nextPhis[ 0]=-0.011250 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.011250 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.021252 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.016254 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.013753 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.012501 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.011876 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.011563 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.011406 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105917, -1.673594, 1.683605, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.879754 b=-4.020702 dts/dp=[0.964944, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008654, nextPhis[ 0]=-0.011406 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.011406 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.021408 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.016410 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.013909 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.012658 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.012032 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.011719 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.011563 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.105983, -1.673555, 1.683560, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.879617 b=-4.020585 dts/dp=[0.964938, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008497, nextPhis[ 0]=-0.011563 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.011563 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.021564 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.016566 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.014065 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.012814 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.012189 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.011876 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.011719 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106048, -1.673516, 1.683514, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.879479 b=-4.020468 dts/dp=[0.964932, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008340, nextPhis[ 0]=-0.011719 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.011719 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.021720 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.016723 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.014222 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.012971 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.012345 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.012032 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.011876 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106114, -1.673477, 1.683468, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.879342 b=-4.020350 dts/dp=[0.964926, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008183, nextPhis[ 0]=-0.011876 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.011876 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.021877 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.016879 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.014378 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.013127 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.012501 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.012189 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.012032 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106179, -1.673438, 1.683422, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.879205 b=-4.020233 dts/dp=[0.964920, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008026, nextPhis[ 0]=-0.012032 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.012032 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.022033 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.017035 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.014535 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.013284 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.012658 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.012345 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.012189 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106244, -1.673398, 1.683377, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.879068 b=-4.020116 dts/dp=[0.964914, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007869, nextPhis[ 0]=-0.012189 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.012189 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.022189 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.017192 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.014691 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.013440 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.012814 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.012501 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.012345 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106310, -1.673359, 1.683331, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.878930 b=-4.019999 dts/dp=[0.964908, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007712, nextPhis[ 0]=-0.012345 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.012345 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.022345 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.017348 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.014847 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.013596 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.012971 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.012658 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.012501 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106375, -1.673320, 1.683285, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.878793 b=-4.019882 dts/dp=[0.964902, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007555, nextPhis[ 0]=-0.012501 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.012501 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.022501 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.017504 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.015004 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.013753 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.013127 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.012814 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.012658 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106440, -1.673281, 1.683239, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.878656 b=-4.019764 dts/dp=[0.964896, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007398, nextPhis[ 0]=-0.012658 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.012658 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.022657 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.017660 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.015160 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.013909 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.013284 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.012971 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.012814 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106506, -1.673242, 1.683194, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.878519 b=-4.019647 dts/dp=[0.964890, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007241, nextPhis[ 0]=-0.012814 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.012814 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.022814 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.017817 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.015316 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.014066 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.013440 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.013127 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.012971 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106571, -1.673203, 1.683148, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.878381 b=-4.019530 dts/dp=[0.964884, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007083, nextPhis[ 0]=-0.012971 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.012971 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.022970 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.017973 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.015473 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.014222 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.013596 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.013284 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.013127 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106636, -1.673164, 1.683102, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.878244 b=-4.019413 dts/dp=[0.964878, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006926, nextPhis[ 0]=-0.013127 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.013127 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.023126 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.018129 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.015629 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.014378 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.013753 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.013440 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.013284 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106702, -1.673125, 1.683056, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.878107 b=-4.019296 dts/dp=[0.964872, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006769, nextPhis[ 0]=-0.013284 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.013284 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.023282 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.018286 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.015785 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.014535 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.013909 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.013596 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.013440 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106767, -1.673086, 1.683011, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.877970 b=-4.019179 dts/dp=[0.964866, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006612, nextPhis[ 0]=-0.013440 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.013440 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.023438 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.018442 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.015942 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.014691 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.014066 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.013753 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.013596 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106833, -1.673047, 1.682965, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.877832 b=-4.019061 dts/dp=[0.964860, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006455, nextPhis[ 0]=-0.013596 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.013596 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.023594 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.018598 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.016098 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.014848 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.014222 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.013909 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.013753 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106898, -1.673008, 1.682919, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.877695 b=-4.018944 dts/dp=[0.964854, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006298, nextPhis[ 0]=-0.013753 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.013753 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.023750 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.018754 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.016255 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.015004 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.014378 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.014066 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.013909 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.106963, -1.672969, 1.682873, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.877558 b=-4.018827 dts/dp=[0.964848, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006141, nextPhis[ 0]=-0.013909 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.013909 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.023906 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.018911 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.016411 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.015160 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.014535 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.014222 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.014066 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107029, -1.672930, 1.682828, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.877421 b=-4.018710 dts/dp=[0.964842, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005984, nextPhis[ 0]=-0.014066 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.014066 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.024063 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.019067 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.016567 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.015317 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.014691 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.014378 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.014222 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107094, -1.672891, 1.682782, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.877284 b=-4.018593 dts/dp=[0.964836, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005828, nextPhis[ 0]=-0.014222 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.014222 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.024219 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.019223 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.016723 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.015473 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.014848 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.014535 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.014378 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107159, -1.672852, 1.682736, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.877146 b=-4.018475 dts/dp=[0.964830, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005671, nextPhis[ 0]=-0.014378 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.014378 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.024375 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.019379 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.016880 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.015629 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.015004 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.014691 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.014535 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107225, -1.672813, 1.682690, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.877009 b=-4.018358 dts/dp=[0.964824, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005514, nextPhis[ 0]=-0.014535 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.014535 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.024531 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.019536 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.017036 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.015786 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.015160 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.014848 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.014691 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107290, -1.672773, 1.682645, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.876872 b=-4.018241 dts/dp=[0.964818, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005357, nextPhis[ 0]=-0.014691 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.014691 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.024687 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.019692 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.017192 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.015942 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.015317 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.015004 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.014848 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107355, -1.672734, 1.682599, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.876735 b=-4.018124 dts/dp=[0.964812, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005200, nextPhis[ 0]=-0.014848 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.014848 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.024843 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.019848 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.017349 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.016098 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.015473 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.015160 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.015004 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107421, -1.672695, 1.682553, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.876597 b=-4.018007 dts/dp=[0.964806, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005043, nextPhis[ 0]=-0.015004 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.015004 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.024999 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.020004 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.017505 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.016255 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.015629 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.015317 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.015160 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107486, -1.672656, 1.682507, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.876460 b=-4.017889 dts/dp=[0.964800, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004886, nextPhis[ 0]=-0.015160 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.015160 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.025155 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.020161 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.017661 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.016411 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.015786 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.015473 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.015317 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107551, -1.672617, 1.682462, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.876323 b=-4.017772 dts/dp=[0.964794, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004729, nextPhis[ 0]=-0.015317 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.015317 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.025311 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.020317 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.017818 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.016567 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.015942 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.015629 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.015473 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107617, -1.672578, 1.682416, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.876186 b=-4.017655 dts/dp=[0.964788, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004572, nextPhis[ 0]=-0.015473 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.015473 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.025467 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.020473 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.017974 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.016724 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.016098 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.015786 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.015629 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107682, -1.672539, 1.682370, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.876048 b=-4.017538 dts/dp=[0.964782, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004415, nextPhis[ 0]=-0.015629 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.015629 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.025623 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.020629 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.018130 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.016880 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.016255 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.015942 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.015786 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107747, -1.672500, 1.682324, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.875911 b=-4.017421 dts/dp=[0.964776, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004258, nextPhis[ 0]=-0.015786 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.015786 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.025779 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.020785 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.018286 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.017036 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.016411 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.016098 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.015942 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107813, -1.672461, 1.682279, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.875774 b=-4.017304 dts/dp=[0.964770, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004101, nextPhis[ 0]=-0.015942 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.015942 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.025935 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.020942 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.018443 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.017193 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.016567 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.016255 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.016098 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107878, -1.672422, 1.682233, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.875637 b=-4.017186 dts/dp=[0.964764, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003944, nextPhis[ 0]=-0.016098 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.016098 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.026092 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.021098 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.018599 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.017349 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.016724 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.016411 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.016255 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.107943, -1.672383, 1.682187, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.875499 b=-4.017069 dts/dp=[0.964758, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003787, nextPhis[ 0]=-0.016255 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.016255 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.026248 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.021254 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.018755 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.017505 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.016880 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.016567 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.016411 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108009, -1.672344, 1.682141, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.875362 b=-4.016952 dts/dp=[0.964752, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003630, nextPhis[ 0]=-0.016411 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.016411 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.026404 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.021410 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.018912 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.017662 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.017036 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.016724 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.016567 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108074, -1.672305, 1.682096, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.875225 b=-4.016835 dts/dp=[0.964746, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003473, nextPhis[ 0]=-0.016567 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.016567 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.026560 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.021566 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.019068 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.017818 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.017193 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.016880 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.016724 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108139, -1.672266, 1.682050, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.875088 b=-4.016718 dts/dp=[0.964740, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003316, nextPhis[ 0]=-0.016724 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.016724 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.026716 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.021723 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.019224 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.017974 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.017349 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.017036 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.016880 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108205, -1.672227, 1.682004, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.874951 b=-4.016600 dts/dp=[0.964734, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003160, nextPhis[ 0]=-0.016880 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.016880 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.026872 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.021879 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.019380 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.018130 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.017505 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.017193 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.017036 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108270, -1.672188, 1.681958, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.874813 b=-4.016483 dts/dp=[0.964728, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003003, nextPhis[ 0]=-0.017036 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.017036 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.027028 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.022035 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.019537 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.018287 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.017662 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.017349 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.017193 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108335, -1.672148, 1.681913, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.874676 b=-4.016366 dts/dp=[0.964722, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002846, nextPhis[ 0]=-0.017193 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.017193 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.027184 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.022191 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.019693 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.018443 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.017818 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.017505 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.017349 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108401, -1.672109, 1.681867, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.874539 b=-4.016249 dts/dp=[0.964716, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002689, nextPhis[ 0]=-0.017349 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.017349 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.027340 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.022347 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.019849 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.018599 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.017974 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.017662 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.017505 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108466, -1.672070, 1.681821, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.874402 b=-4.016132 dts/dp=[0.964710, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002532, nextPhis[ 0]=-0.017505 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.017505 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.027496 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.022503 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.020005 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.018755 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.018130 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.017818 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.017662 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108531, -1.672031, 1.681776, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.874264 b=-4.016014 dts/dp=[0.964704, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002375, nextPhis[ 0]=-0.017662 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.017662 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.027652 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.022660 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.020161 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.018912 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.018287 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.017974 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.017818 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108597, -1.671992, 1.681730, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.874127 b=-4.015897 dts/dp=[0.964698, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002218, nextPhis[ 0]=-0.017818 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.017818 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.027808 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.022816 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.020318 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.019068 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.018443 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.018130 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.017974 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108662, -1.671953, 1.681684, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.873990 b=-4.015780 dts/dp=[0.964692, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002061, nextPhis[ 0]=-0.017974 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.017974 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.027964 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.022972 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.020474 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.019224 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.018599 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.018287 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.018130 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108727, -1.671914, 1.681638, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.873853 b=-4.015663 dts/dp=[0.964686, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001904, nextPhis[ 0]=-0.018130 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.018130 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.028120 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.023128 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.020630 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.019380 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.018756 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.018443 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.018287 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108792, -1.671875, 1.681593, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.873715 b=-4.015546 dts/dp=[0.964680, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001748, nextPhis[ 0]=-0.018287 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.018287 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.028276 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.023284 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.020786 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.019537 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.018912 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.018599 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.018443 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108858, -1.671836, 1.681547, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.873578 b=-4.015429 dts/dp=[0.964674, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001591, nextPhis[ 0]=-0.018443 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.018443 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.028432 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.023440 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.020942 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.019693 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.019068 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.018756 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.018599 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108923, -1.671797, 1.681501, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.873441 b=-4.015311 dts/dp=[0.964668, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001434, nextPhis[ 0]=-0.018599 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.018599 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.028588 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.023596 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.021099 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.019849 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.019224 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.018912 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.018756 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.108988, -1.671758, 1.681455, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.873304 b=-4.015194 dts/dp=[0.964662, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001277, nextPhis[ 0]=-0.018756 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.018756 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.028744 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.023752 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.021255 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.020005 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.019381 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.019068 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.018912 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109054, -1.671719, 1.681410, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.873166 b=-4.015077 dts/dp=[0.964656, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001120, nextPhis[ 0]=-0.018912 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.018912 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.028900 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.023909 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.021411 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.020162 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.019537 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.019224 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.019068 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109119, -1.671680, 1.681364, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.873029 b=-4.014960 dts/dp=[0.964650, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000963, nextPhis[ 0]=-0.019068 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.019068 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.029056 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.024065 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.021567 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.020318 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.019693 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.019381 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.019224 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109184, -1.671641, 1.681318, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.872892 b=-4.014843 dts/dp=[0.964644, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000807, nextPhis[ 0]=-0.019224 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.019224 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.029212 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.024221 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.021723 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.020474 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.019849 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.019537 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.019381 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109250, -1.671602, 1.681272, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.872755 b=-4.014725 dts/dp=[0.964638, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000650, nextPhis[ 0]=-0.019381 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.019381 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.029367 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.024377 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.021880 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.020630 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.020005 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.019693 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.019537 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109315, -1.671563, 1.681227, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.872618 b=-4.014608 dts/dp=[0.964632, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000493, nextPhis[ 0]=-0.019537 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.019537 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.029523 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.024533 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.022036 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.020786 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.020162 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.019849 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.019693 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109380, -1.671523, 1.681181, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.872480 b=-4.014491 dts/dp=[0.964625, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000336, nextPhis[ 0]=-0.019693 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.019693 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.029679 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.024689 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.022192 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.020943 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.020318 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.020005 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.019849 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109445, -1.671484, 1.681135, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.872343 b=-4.014374 dts/dp=[0.964619, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000179, nextPhis[ 0]=-0.019849 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.019849 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.029835 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.024845 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.022348 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.021099 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.020474 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.020162 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.020005 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109511, -1.671445, 1.681089, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.872206 b=-4.014257 dts/dp=[0.964613, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000022, nextPhis[ 0]=-0.020005 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 2.765000 Phiest = -0.020005 Phiest < 0.0 it = 1 Test = 2.762500 Phiest = -0.029991 Phiest < 0.0 it = 2 Test = 2.761250 Phiest = -0.025001 Phiest < 0.0 it = 3 Test = 2.760625 Phiest = -0.022504 Phiest < 0.0 it = 4 Test = 2.760312 Phiest = -0.021255 Phiest < 0.0 it = 5 Test = 2.760156 Phiest = -0.020630 Phiest < 0.0 it = 6 Test = 2.760078 Phiest = -0.020318 Phiest < 0.0 it = 7 Test = 2.760039 Phiest = -0.020162 Switch time for phi[0] is 2.760039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-1.109576, -1.671406, 1.681044, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=3.872069 b=-4.014139 dts/dp=[0.964607, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 2.760000 Tnext = 2.765000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.765000 pESO->GetIndependentVar(): 2.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.000134, nextPhis[ 0]=-0.020162 prevPhis[ 1]=6.000134, nextPhis[ 1]=6.020162 <==IsSwitchingOccur() T = 2.765000 Tnext = 2.770000 Time: 2.76500e+00 states: [ -1.11792e+00 -1.66641e+00] derivs: [ -1.66617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.770000 pESO->GetIndependentVar(): 2.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.020162, nextPhis[ 0]=-0.040114 prevPhis[ 1]=6.020162, nextPhis[ 1]=6.040114 <==IsSwitchingOccur() T = 2.770000 Tnext = 2.775000 Time: 2.77000e+00 states: [ -1.12624e+00 -1.66141e+00] derivs: [ -1.66117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.775000 pESO->GetIndependentVar(): 2.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.040114, nextPhis[ 0]=-0.059991 prevPhis[ 1]=6.040114, nextPhis[ 1]=6.059991 <==IsSwitchingOccur() T = 2.775000 Tnext = 2.780000 Time: 2.77500e+00 states: [ -1.13453e+00 -1.65641e+00] derivs: [ -1.65617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.780000 pESO->GetIndependentVar(): 2.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.059991, nextPhis[ 0]=-0.079794 prevPhis[ 1]=6.059991, nextPhis[ 1]=6.079794 <==IsSwitchingOccur() T = 2.780000 Tnext = 2.785000 Time: 2.78000e+00 states: [ -1.14280e+00 -1.65141e+00] derivs: [ -1.65117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.785000 pESO->GetIndependentVar(): 2.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.079794, nextPhis[ 0]=-0.099521 prevPhis[ 1]=6.079794, nextPhis[ 1]=6.099521 <==IsSwitchingOccur() T = 2.785000 Tnext = 2.790000 Time: 2.78500e+00 states: [ -1.15104e+00 -1.64641e+00] derivs: [ -1.64617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.790000 pESO->GetIndependentVar(): 2.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.099521, nextPhis[ 0]=-0.119173 prevPhis[ 1]=6.099521, nextPhis[ 1]=6.119173 <==IsSwitchingOccur() T = 2.790000 Tnext = 2.795000 Time: 2.79000e+00 states: [ -1.15926e+00 -1.64141e+00] derivs: [ -1.64117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.795000 pESO->GetIndependentVar(): 2.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.119173, nextPhis[ 0]=-0.138751 prevPhis[ 1]=6.119173, nextPhis[ 1]=6.138751 <==IsSwitchingOccur() T = 2.795000 Tnext = 2.800000 Time: 2.79500e+00 states: [ -1.16745e+00 -1.63641e+00] derivs: [ -1.63617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.800000 pESO->GetIndependentVar(): 2.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.138751, nextPhis[ 0]=-0.158253 prevPhis[ 1]=6.138751, nextPhis[ 1]=6.158253 <==IsSwitchingOccur() T = 2.800000 Tnext = 2.805000 Time: 2.80000e+00 states: [ -1.17562e+00 -1.63141e+00] derivs: [ -1.63117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.805000 pESO->GetIndependentVar(): 2.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.158253, nextPhis[ 0]=-0.177680 prevPhis[ 1]=6.158253, nextPhis[ 1]=6.177680 <==IsSwitchingOccur() T = 2.805000 Tnext = 2.810000 Time: 2.80500e+00 states: [ -1.18376e+00 -1.62641e+00] derivs: [ -1.62617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.810000 pESO->GetIndependentVar(): 2.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.177680, nextPhis[ 0]=-0.197033 prevPhis[ 1]=6.177680, nextPhis[ 1]=6.197033 <==IsSwitchingOccur() T = 2.810000 Tnext = 2.815000 Time: 2.81000e+00 states: [ -1.19188e+00 -1.62141e+00] derivs: [ -1.62117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.815000 pESO->GetIndependentVar(): 2.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.197033, nextPhis[ 0]=-0.216310 prevPhis[ 1]=6.197033, nextPhis[ 1]=6.216310 <==IsSwitchingOccur() T = 2.815000 Tnext = 2.820000 Time: 2.81500e+00 states: [ -1.19997e+00 -1.61641e+00] derivs: [ -1.61617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.820000 pESO->GetIndependentVar(): 2.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.216310, nextPhis[ 0]=-0.235512 prevPhis[ 1]=6.216310, nextPhis[ 1]=6.235512 <==IsSwitchingOccur() T = 2.820000 Tnext = 2.825000 Time: 2.82000e+00 states: [ -1.20804e+00 -1.61141e+00] derivs: [ -1.61117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.825000 pESO->GetIndependentVar(): 2.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.235512, nextPhis[ 0]=-0.254640 prevPhis[ 1]=6.235512, nextPhis[ 1]=6.254640 <==IsSwitchingOccur() T = 2.825000 Tnext = 2.830000 Time: 2.82500e+00 states: [ -1.21608e+00 -1.60641e+00] derivs: [ -1.60617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.830000 pESO->GetIndependentVar(): 2.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.254640, nextPhis[ 0]=-0.273692 prevPhis[ 1]=6.254640, nextPhis[ 1]=6.273692 <==IsSwitchingOccur() T = 2.830000 Tnext = 2.835000 Time: 2.83000e+00 states: [ -1.22410e+00 -1.60141e+00] derivs: [ -1.60117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.835000 pESO->GetIndependentVar(): 2.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.273692, nextPhis[ 0]=-0.292669 prevPhis[ 1]=6.273692, nextPhis[ 1]=6.292669 <==IsSwitchingOccur() T = 2.835000 Tnext = 2.840000 Time: 2.83500e+00 states: [ -1.23209e+00 -1.59641e+00] derivs: [ -1.59617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.840000 pESO->GetIndependentVar(): 2.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.292669, nextPhis[ 0]=-0.311571 prevPhis[ 1]=6.292669, nextPhis[ 1]=6.311571 <==IsSwitchingOccur() T = 2.840000 Tnext = 2.845000 Time: 2.84000e+00 states: [ -1.24006e+00 -1.59141e+00] derivs: [ -1.59117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.845000 pESO->GetIndependentVar(): 2.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.311571, nextPhis[ 0]=-0.330399 prevPhis[ 1]=6.311571, nextPhis[ 1]=6.330399 <==IsSwitchingOccur() T = 2.845000 Tnext = 2.850000 Time: 2.84500e+00 states: [ -1.24800e+00 -1.58641e+00] derivs: [ -1.58617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.850000 pESO->GetIndependentVar(): 2.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.330399, nextPhis[ 0]=-0.349151 prevPhis[ 1]=6.330399, nextPhis[ 1]=6.349151 <==IsSwitchingOccur() T = 2.850000 Tnext = 2.855000 Time: 2.85000e+00 states: [ -1.25591e+00 -1.58141e+00] derivs: [ -1.58117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.855000 pESO->GetIndependentVar(): 2.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.349151, nextPhis[ 0]=-0.367828 prevPhis[ 1]=6.349151, nextPhis[ 1]=6.367828 <==IsSwitchingOccur() T = 2.855000 Tnext = 2.860000 Time: 2.85500e+00 states: [ -1.26381e+00 -1.57641e+00] derivs: [ -1.57617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.860000 pESO->GetIndependentVar(): 2.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.367828, nextPhis[ 0]=-0.386431 prevPhis[ 1]=6.367828, nextPhis[ 1]=6.386431 <==IsSwitchingOccur() T = 2.860000 Tnext = 2.865000 Time: 2.86000e+00 states: [ -1.27167e+00 -1.57141e+00] derivs: [ -1.57117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.865000 pESO->GetIndependentVar(): 2.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.386431, nextPhis[ 0]=-0.404958 prevPhis[ 1]=6.386431, nextPhis[ 1]=6.404958 <==IsSwitchingOccur() T = 2.865000 Tnext = 2.870000 Time: 2.86500e+00 states: [ -1.27952e+00 -1.56641e+00] derivs: [ -1.56617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.870000 pESO->GetIndependentVar(): 2.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.404958, nextPhis[ 0]=-0.423410 prevPhis[ 1]=6.404958, nextPhis[ 1]=6.423410 <==IsSwitchingOccur() T = 2.870000 Tnext = 2.875000 Time: 2.87000e+00 states: [ -1.28733e+00 -1.56141e+00] derivs: [ -1.56117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.875000 pESO->GetIndependentVar(): 2.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.423410, nextPhis[ 0]=-0.441788 prevPhis[ 1]=6.423410, nextPhis[ 1]=6.441788 <==IsSwitchingOccur() T = 2.875000 Tnext = 2.880000 Time: 2.87500e+00 states: [ -1.29513e+00 -1.55641e+00] derivs: [ -1.55617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.880000 pESO->GetIndependentVar(): 2.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.441788, nextPhis[ 0]=-0.460090 prevPhis[ 1]=6.441788, nextPhis[ 1]=6.460090 <==IsSwitchingOccur() T = 2.880000 Tnext = 2.885000 Time: 2.88000e+00 states: [ -1.30289e+00 -1.55141e+00] derivs: [ -1.55117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.885000 pESO->GetIndependentVar(): 2.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.460090, nextPhis[ 0]=-0.478317 prevPhis[ 1]=6.460090, nextPhis[ 1]=6.478317 <==IsSwitchingOccur() T = 2.885000 Tnext = 2.890000 Time: 2.88500e+00 states: [ -1.31064e+00 -1.54641e+00] derivs: [ -1.54617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.890000 pESO->GetIndependentVar(): 2.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.478317, nextPhis[ 0]=-0.496470 prevPhis[ 1]=6.478317, nextPhis[ 1]=6.496470 <==IsSwitchingOccur() T = 2.890000 Tnext = 2.895000 Time: 2.89000e+00 states: [ -1.31835e+00 -1.54141e+00] derivs: [ -1.54117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.895000 pESO->GetIndependentVar(): 2.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.496470, nextPhis[ 0]=-0.514547 prevPhis[ 1]=6.496470, nextPhis[ 1]=6.514547 <==IsSwitchingOccur() T = 2.895000 Tnext = 2.900000 Time: 2.89500e+00 states: [ -1.32605e+00 -1.53641e+00] derivs: [ -1.53617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.900000 pESO->GetIndependentVar(): 2.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.514547, nextPhis[ 0]=-0.532549 prevPhis[ 1]=6.514547, nextPhis[ 1]=6.532549 <==IsSwitchingOccur() T = 2.900000 Tnext = 2.905000 Time: 2.90000e+00 states: [ -1.33371e+00 -1.53141e+00] derivs: [ -1.53117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.905000 pESO->GetIndependentVar(): 2.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.532549, nextPhis[ 0]=-0.550477 prevPhis[ 1]=6.532549, nextPhis[ 1]=6.550477 <==IsSwitchingOccur() T = 2.905000 Tnext = 2.910000 Time: 2.90500e+00 states: [ -1.34136e+00 -1.52641e+00] derivs: [ -1.52617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.910000 pESO->GetIndependentVar(): 2.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.550477, nextPhis[ 0]=-0.568329 prevPhis[ 1]=6.550477, nextPhis[ 1]=6.568329 <==IsSwitchingOccur() T = 2.910000 Tnext = 2.915000 Time: 2.91000e+00 states: [ -1.34897e+00 -1.52141e+00] derivs: [ -1.52117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.915000 pESO->GetIndependentVar(): 2.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.568329, nextPhis[ 0]=-0.586106 prevPhis[ 1]=6.568329, nextPhis[ 1]=6.586106 <==IsSwitchingOccur() T = 2.915000 Tnext = 2.920000 Time: 2.91500e+00 states: [ -1.35657e+00 -1.51641e+00] derivs: [ -1.51617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.920000 pESO->GetIndependentVar(): 2.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.586106, nextPhis[ 0]=-0.603809 prevPhis[ 1]=6.586106, nextPhis[ 1]=6.603809 <==IsSwitchingOccur() T = 2.920000 Tnext = 2.925000 Time: 2.92000e+00 states: [ -1.36413e+00 -1.51141e+00] derivs: [ -1.51117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.925000 pESO->GetIndependentVar(): 2.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.603809, nextPhis[ 0]=-0.621436 prevPhis[ 1]=6.603809, nextPhis[ 1]=6.621436 <==IsSwitchingOccur() T = 2.925000 Tnext = 2.930000 Time: 2.92500e+00 states: [ -1.37168e+00 -1.50641e+00] derivs: [ -1.50617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.930000 pESO->GetIndependentVar(): 2.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.621436, nextPhis[ 0]=-0.638988 prevPhis[ 1]=6.621436, nextPhis[ 1]=6.638988 <==IsSwitchingOccur() T = 2.930000 Tnext = 2.935000 Time: 2.93000e+00 states: [ -1.37919e+00 -1.50141e+00] derivs: [ -1.50117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.935000 pESO->GetIndependentVar(): 2.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.638988, nextPhis[ 0]=-0.656466 prevPhis[ 1]=6.638988, nextPhis[ 1]=6.656466 <==IsSwitchingOccur() T = 2.935000 Tnext = 2.940000 Time: 2.93500e+00 states: [ -1.38669e+00 -1.49641e+00] derivs: [ -1.49617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.940000 pESO->GetIndependentVar(): 2.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.656466, nextPhis[ 0]=-0.673868 prevPhis[ 1]=6.656466, nextPhis[ 1]=6.673868 <==IsSwitchingOccur() T = 2.940000 Tnext = 2.945000 Time: 2.94000e+00 states: [ -1.39415e+00 -1.49141e+00] derivs: [ -1.49117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.945000 pESO->GetIndependentVar(): 2.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.673868, nextPhis[ 0]=-0.691195 prevPhis[ 1]=6.673868, nextPhis[ 1]=6.691195 <==IsSwitchingOccur() T = 2.945000 Tnext = 2.950000 Time: 2.94500e+00 states: [ -1.40160e+00 -1.48641e+00] derivs: [ -1.48617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.950000 pESO->GetIndependentVar(): 2.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.691195, nextPhis[ 0]=-0.708447 prevPhis[ 1]=6.691195, nextPhis[ 1]=6.708447 <==IsSwitchingOccur() T = 2.950000 Tnext = 2.955000 Time: 2.95000e+00 states: [ -1.40901e+00 -1.48141e+00] derivs: [ -1.48117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.955000 pESO->GetIndependentVar(): 2.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.708447, nextPhis[ 0]=-0.725625 prevPhis[ 1]=6.708447, nextPhis[ 1]=6.725625 <==IsSwitchingOccur() T = 2.955000 Tnext = 2.960000 Time: 2.95500e+00 states: [ -1.41641e+00 -1.47641e+00] derivs: [ -1.47617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.960000 pESO->GetIndependentVar(): 2.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.725625, nextPhis[ 0]=-0.742727 prevPhis[ 1]=6.725625, nextPhis[ 1]=6.742727 <==IsSwitchingOccur() T = 2.960000 Tnext = 2.965000 Time: 2.96000e+00 states: [ -1.42377e+00 -1.47141e+00] derivs: [ -1.47117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.965000 pESO->GetIndependentVar(): 2.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.742727, nextPhis[ 0]=-0.759754 prevPhis[ 1]=6.742727, nextPhis[ 1]=6.759754 <==IsSwitchingOccur() T = 2.965000 Tnext = 2.970000 Time: 2.96500e+00 states: [ -1.43112e+00 -1.46641e+00] derivs: [ -1.46617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.970000 pESO->GetIndependentVar(): 2.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.759754, nextPhis[ 0]=-0.776707 prevPhis[ 1]=6.759754, nextPhis[ 1]=6.776707 <==IsSwitchingOccur() T = 2.970000 Tnext = 2.975000 Time: 2.97000e+00 states: [ -1.43843e+00 -1.46141e+00] derivs: [ -1.46117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.975000 pESO->GetIndependentVar(): 2.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.776707, nextPhis[ 0]=-0.793584 prevPhis[ 1]=6.776707, nextPhis[ 1]=6.793584 <==IsSwitchingOccur() T = 2.975000 Tnext = 2.980000 Time: 2.97500e+00 states: [ -1.44573e+00 -1.45641e+00] derivs: [ -1.45617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.980000 pESO->GetIndependentVar(): 2.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.793584, nextPhis[ 0]=-0.810386 prevPhis[ 1]=6.793584, nextPhis[ 1]=6.810386 <==IsSwitchingOccur() T = 2.980000 Tnext = 2.985000 Time: 2.98000e+00 states: [ -1.45299e+00 -1.45141e+00] derivs: [ -1.45117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.985000 pESO->GetIndependentVar(): 2.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.810386, nextPhis[ 0]=-0.827114 prevPhis[ 1]=6.810386, nextPhis[ 1]=6.827114 <==IsSwitchingOccur() T = 2.985000 Tnext = 2.990000 Time: 2.98500e+00 states: [ -1.46024e+00 -1.44641e+00] derivs: [ -1.44617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.990000 pESO->GetIndependentVar(): 2.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.827114, nextPhis[ 0]=-0.843766 prevPhis[ 1]=6.827114, nextPhis[ 1]=6.843766 <==IsSwitchingOccur() T = 2.990000 Tnext = 2.995000 Time: 2.99000e+00 states: [ -1.46745e+00 -1.44141e+00] derivs: [ -1.44117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 2.995000 pESO->GetIndependentVar(): 2.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.843766, nextPhis[ 0]=-0.860343 prevPhis[ 1]=6.843766, nextPhis[ 1]=6.860343 <==IsSwitchingOccur() T = 2.995000 Tnext = 3.000000 Time: 2.99500e+00 states: [ -1.47465e+00 -1.43641e+00] derivs: [ -1.43617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.000000 pESO->GetIndependentVar(): 3.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.860343, nextPhis[ 0]=-0.876846 prevPhis[ 1]=6.860343, nextPhis[ 1]=6.876846 <==IsSwitchingOccur() T = 3.000000 Tnext = 3.005000 Time: 3.00000e+00 states: [ -1.48181e+00 -1.43141e+00] derivs: [ -1.43117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.005000 pESO->GetIndependentVar(): 3.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.876846, nextPhis[ 0]=-0.893273 prevPhis[ 1]=6.876846, nextPhis[ 1]=6.893273 <==IsSwitchingOccur() T = 3.005000 Tnext = 3.010000 Time: 3.00500e+00 states: [ -1.48896e+00 -1.42641e+00] derivs: [ -1.42617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.010000 pESO->GetIndependentVar(): 3.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.893273, nextPhis[ 0]=-0.909625 prevPhis[ 1]=6.893273, nextPhis[ 1]=6.909625 <==IsSwitchingOccur() T = 3.010000 Tnext = 3.015000 Time: 3.01000e+00 states: [ -1.49607e+00 -1.42141e+00] derivs: [ -1.42117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.015000 pESO->GetIndependentVar(): 3.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.909625, nextPhis[ 0]=-0.925903 prevPhis[ 1]=6.909625, nextPhis[ 1]=6.925903 <==IsSwitchingOccur() T = 3.015000 Tnext = 3.020000 Time: 3.01500e+00 states: [ -1.50317e+00 -1.41641e+00] derivs: [ -1.41617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.020000 pESO->GetIndependentVar(): 3.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.925903, nextPhis[ 0]=-0.942105 prevPhis[ 1]=6.925903, nextPhis[ 1]=6.942105 <==IsSwitchingOccur() T = 3.020000 Tnext = 3.025000 Time: 3.02000e+00 states: [ -1.51023e+00 -1.41141e+00] derivs: [ -1.41117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.025000 pESO->GetIndependentVar(): 3.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.942105, nextPhis[ 0]=-0.958232 prevPhis[ 1]=6.942105, nextPhis[ 1]=6.958232 <==IsSwitchingOccur() T = 3.025000 Tnext = 3.030000 Time: 3.02500e+00 states: [ -1.51728e+00 -1.40641e+00] derivs: [ -1.40617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.030000 pESO->GetIndependentVar(): 3.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.958232, nextPhis[ 0]=-0.974285 prevPhis[ 1]=6.958232, nextPhis[ 1]=6.974285 <==IsSwitchingOccur() T = 3.030000 Tnext = 3.035000 Time: 3.03000e+00 states: [ -1.52429e+00 -1.40141e+00] derivs: [ -1.40117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.035000 pESO->GetIndependentVar(): 3.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.974285, nextPhis[ 0]=-0.990262 prevPhis[ 1]=6.974285, nextPhis[ 1]=6.990262 <==IsSwitchingOccur() T = 3.035000 Tnext = 3.040000 Time: 3.03500e+00 states: [ -1.53129e+00 -1.39641e+00] derivs: [ -1.39617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.040000 pESO->GetIndependentVar(): 3.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.990262, nextPhis[ 0]=-1.006164 prevPhis[ 1]=6.990262, nextPhis[ 1]=7.006164 <==IsSwitchingOccur() T = 3.040000 Tnext = 3.045000 Time: 3.04000e+00 states: [ -1.53825e+00 -1.39141e+00] derivs: [ -1.39117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.045000 pESO->GetIndependentVar(): 3.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.006164, nextPhis[ 0]=-1.021991 prevPhis[ 1]=7.006164, nextPhis[ 1]=7.021991 <==IsSwitchingOccur() T = 3.045000 Tnext = 3.050000 Time: 3.04500e+00 states: [ -1.54520e+00 -1.38641e+00] derivs: [ -1.38617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.050000 pESO->GetIndependentVar(): 3.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.021991, nextPhis[ 0]=-1.037744 prevPhis[ 1]=7.021991, nextPhis[ 1]=7.037744 <==IsSwitchingOccur() T = 3.050000 Tnext = 3.055000 Time: 3.05000e+00 states: [ -1.55211e+00 -1.38141e+00] derivs: [ -1.38117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.055000 pESO->GetIndependentVar(): 3.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.037744, nextPhis[ 0]=-1.053421 prevPhis[ 1]=7.037744, nextPhis[ 1]=7.053421 <==IsSwitchingOccur() T = 3.055000 Tnext = 3.060000 Time: 3.05500e+00 states: [ -1.55900e+00 -1.37641e+00] derivs: [ -1.37617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.060000 pESO->GetIndependentVar(): 3.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.053421, nextPhis[ 0]=-1.069023 prevPhis[ 1]=7.053421, nextPhis[ 1]=7.069023 <==IsSwitchingOccur() T = 3.060000 Tnext = 3.065000 Time: 3.06000e+00 states: [ -1.56587e+00 -1.37141e+00] derivs: [ -1.37117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.065000 pESO->GetIndependentVar(): 3.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.069023, nextPhis[ 0]=-1.084551 prevPhis[ 1]=7.069023, nextPhis[ 1]=7.084551 <==IsSwitchingOccur() T = 3.065000 Tnext = 3.070000 Time: 3.06500e+00 states: [ -1.57271e+00 -1.36641e+00] derivs: [ -1.36617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.070000 pESO->GetIndependentVar(): 3.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.084551, nextPhis[ 0]=-1.100003 prevPhis[ 1]=7.084551, nextPhis[ 1]=7.100003 <==IsSwitchingOccur() T = 3.070000 Tnext = 3.075000 Time: 3.07000e+00 states: [ -1.57953e+00 -1.36141e+00] derivs: [ -1.36117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.075000 pESO->GetIndependentVar(): 3.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.100003, nextPhis[ 0]=-1.115380 prevPhis[ 1]=7.100003, nextPhis[ 1]=7.115380 <==IsSwitchingOccur() T = 3.075000 Tnext = 3.080000 Time: 3.07500e+00 states: [ -1.58632e+00 -1.35641e+00] derivs: [ -1.35617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.080000 pESO->GetIndependentVar(): 3.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.115380, nextPhis[ 0]=-1.130683 prevPhis[ 1]=7.115380, nextPhis[ 1]=7.130683 <==IsSwitchingOccur() T = 3.080000 Tnext = 3.085000 Time: 3.08000e+00 states: [ -1.59309e+00 -1.35141e+00] derivs: [ -1.35117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.085000 pESO->GetIndependentVar(): 3.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.130683, nextPhis[ 0]=-1.145910 prevPhis[ 1]=7.130683, nextPhis[ 1]=7.145910 <==IsSwitchingOccur() T = 3.085000 Tnext = 3.090000 Time: 3.08500e+00 states: [ -1.59983e+00 -1.34641e+00] derivs: [ -1.34617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.090000 pESO->GetIndependentVar(): 3.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.145910, nextPhis[ 0]=-1.161062 prevPhis[ 1]=7.145910, nextPhis[ 1]=7.161062 <==IsSwitchingOccur() T = 3.090000 Tnext = 3.095000 Time: 3.09000e+00 states: [ -1.60655e+00 -1.34141e+00] derivs: [ -1.34117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.095000 pESO->GetIndependentVar(): 3.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.161062, nextPhis[ 0]=-1.176140 prevPhis[ 1]=7.161062, nextPhis[ 1]=7.176140 <==IsSwitchingOccur() T = 3.095000 Tnext = 3.100000 Time: 3.09500e+00 states: [ -1.61324e+00 -1.33641e+00] derivs: [ -1.33617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.100000 pESO->GetIndependentVar(): 3.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.176140, nextPhis[ 0]=-1.191142 prevPhis[ 1]=7.176140, nextPhis[ 1]=7.191142 <==IsSwitchingOccur() T = 3.100000 Tnext = 3.105000 Time: 3.10000e+00 states: [ -1.61991e+00 -1.33141e+00] derivs: [ -1.33117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.105000 pESO->GetIndependentVar(): 3.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.191142, nextPhis[ 0]=-1.206069 prevPhis[ 1]=7.191142, nextPhis[ 1]=7.206069 <==IsSwitchingOccur() T = 3.105000 Tnext = 3.110000 Time: 3.10500e+00 states: [ -1.62655e+00 -1.32641e+00] derivs: [ -1.32617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.110000 pESO->GetIndependentVar(): 3.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.206069, nextPhis[ 0]=-1.220922 prevPhis[ 1]=7.206069, nextPhis[ 1]=7.220922 <==IsSwitchingOccur() T = 3.110000 Tnext = 3.115000 Time: 3.11000e+00 states: [ -1.63317e+00 -1.32141e+00] derivs: [ -1.32117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.115000 pESO->GetIndependentVar(): 3.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.220922, nextPhis[ 0]=-1.235699 prevPhis[ 1]=7.220922, nextPhis[ 1]=7.235699 <==IsSwitchingOccur() T = 3.115000 Tnext = 3.120000 Time: 3.11500e+00 states: [ -1.63976e+00 -1.31641e+00] derivs: [ -1.31617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.120000 pESO->GetIndependentVar(): 3.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.235699, nextPhis[ 0]=-1.250401 prevPhis[ 1]=7.235699, nextPhis[ 1]=7.250401 <==IsSwitchingOccur() T = 3.120000 Tnext = 3.125000 Time: 3.12000e+00 states: [ -1.64633e+00 -1.31141e+00] derivs: [ -1.31117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.125000 pESO->GetIndependentVar(): 3.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.250401, nextPhis[ 0]=-1.265029 prevPhis[ 1]=7.250401, nextPhis[ 1]=7.265029 <==IsSwitchingOccur() T = 3.125000 Tnext = 3.130000 Time: 3.12500e+00 states: [ -1.65287e+00 -1.30641e+00] derivs: [ -1.30617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.130000 pESO->GetIndependentVar(): 3.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.265029, nextPhis[ 0]=-1.279581 prevPhis[ 1]=7.265029, nextPhis[ 1]=7.279581 <==IsSwitchingOccur() T = 3.130000 Tnext = 3.135000 Time: 3.13000e+00 states: [ -1.65939e+00 -1.30141e+00] derivs: [ -1.30117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.135000 pESO->GetIndependentVar(): 3.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.279581, nextPhis[ 0]=-1.294058 prevPhis[ 1]=7.279581, nextPhis[ 1]=7.294058 <==IsSwitchingOccur() T = 3.135000 Tnext = 3.140000 Time: 3.13500e+00 states: [ -1.66588e+00 -1.29641e+00] derivs: [ -1.29617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.140000 pESO->GetIndependentVar(): 3.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.294058, nextPhis[ 0]=-1.308461 prevPhis[ 1]=7.294058, nextPhis[ 1]=7.308461 <==IsSwitchingOccur() T = 3.140000 Tnext = 3.145000 Time: 3.14000e+00 states: [ -1.67235e+00 -1.29141e+00] derivs: [ -1.29117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.145000 pESO->GetIndependentVar(): 3.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.308461, nextPhis[ 0]=-1.322788 prevPhis[ 1]=7.308461, nextPhis[ 1]=7.322788 <==IsSwitchingOccur() T = 3.145000 Tnext = 3.150000 Time: 3.14500e+00 states: [ -1.67879e+00 -1.28641e+00] derivs: [ -1.28617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.150000 pESO->GetIndependentVar(): 3.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.322788, nextPhis[ 0]=-1.337040 prevPhis[ 1]=7.322788, nextPhis[ 1]=7.337040 <==IsSwitchingOccur() T = 3.150000 Tnext = 3.155000 Time: 3.15000e+00 states: [ -1.68521e+00 -1.28141e+00] derivs: [ -1.28117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.155000 pESO->GetIndependentVar(): 3.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.337040, nextPhis[ 0]=-1.351217 prevPhis[ 1]=7.337040, nextPhis[ 1]=7.351217 <==IsSwitchingOccur() T = 3.155000 Tnext = 3.160000 Time: 3.15500e+00 states: [ -1.69160e+00 -1.27641e+00] derivs: [ -1.27617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.160000 pESO->GetIndependentVar(): 3.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.351217, nextPhis[ 0]=-1.365320 prevPhis[ 1]=7.351217, nextPhis[ 1]=7.365320 <==IsSwitchingOccur() T = 3.160000 Tnext = 3.165000 Time: 3.16000e+00 states: [ -1.69797e+00 -1.27141e+00] derivs: [ -1.27117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.165000 pESO->GetIndependentVar(): 3.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.365320, nextPhis[ 0]=-1.379347 prevPhis[ 1]=7.365320, nextPhis[ 1]=7.379347 <==IsSwitchingOccur() T = 3.165000 Tnext = 3.170000 Time: 3.16500e+00 states: [ -1.70431e+00 -1.26641e+00] derivs: [ -1.26617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.170000 pESO->GetIndependentVar(): 3.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.379347, nextPhis[ 0]=-1.393299 prevPhis[ 1]=7.379347, nextPhis[ 1]=7.393299 <==IsSwitchingOccur() T = 3.170000 Tnext = 3.175000 Time: 3.17000e+00 states: [ -1.71063e+00 -1.26141e+00] derivs: [ -1.26117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.175000 pESO->GetIndependentVar(): 3.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.393299, nextPhis[ 0]=-1.407177 prevPhis[ 1]=7.393299, nextPhis[ 1]=7.407177 <==IsSwitchingOccur() T = 3.175000 Tnext = 3.180000 Time: 3.17500e+00 states: [ -1.71692e+00 -1.25641e+00] derivs: [ -1.25617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.180000 pESO->GetIndependentVar(): 3.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.407177, nextPhis[ 0]=-1.420979 prevPhis[ 1]=7.407177, nextPhis[ 1]=7.420979 <==IsSwitchingOccur() T = 3.180000 Tnext = 3.185000 Time: 3.18000e+00 states: [ -1.72319e+00 -1.25141e+00] derivs: [ -1.25117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.185000 pESO->GetIndependentVar(): 3.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.420979, nextPhis[ 0]=-1.434706 prevPhis[ 1]=7.420979, nextPhis[ 1]=7.434706 <==IsSwitchingOccur() T = 3.185000 Tnext = 3.190000 Time: 3.18500e+00 states: [ -1.72943e+00 -1.24641e+00] derivs: [ -1.24617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.190000 pESO->GetIndependentVar(): 3.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.434706, nextPhis[ 0]=-1.448359 prevPhis[ 1]=7.434706, nextPhis[ 1]=7.448359 <==IsSwitchingOccur() T = 3.190000 Tnext = 3.195000 Time: 3.19000e+00 states: [ -1.73565e+00 -1.24141e+00] derivs: [ -1.24117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.195000 pESO->GetIndependentVar(): 3.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.448359, nextPhis[ 0]=-1.461936 prevPhis[ 1]=7.448359, nextPhis[ 1]=7.461936 <==IsSwitchingOccur() T = 3.195000 Tnext = 3.200000 Time: 3.19500e+00 states: [ -1.74184e+00 -1.23641e+00] derivs: [ -1.23617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.200000 pESO->GetIndependentVar(): 3.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.461936, nextPhis[ 0]=-1.475438 prevPhis[ 1]=7.461936, nextPhis[ 1]=7.475438 <==IsSwitchingOccur() T = 3.200000 Tnext = 3.205000 Time: 3.20000e+00 states: [ -1.74801e+00 -1.23141e+00] derivs: [ -1.23117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.205000 pESO->GetIndependentVar(): 3.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.475438, nextPhis[ 0]=-1.488866 prevPhis[ 1]=7.475438, nextPhis[ 1]=7.488866 <==IsSwitchingOccur() T = 3.205000 Tnext = 3.210000 Time: 3.20500e+00 states: [ -1.75415e+00 -1.22641e+00] derivs: [ -1.22617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.210000 pESO->GetIndependentVar(): 3.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.488866, nextPhis[ 0]=-1.502218 prevPhis[ 1]=7.488866, nextPhis[ 1]=7.502218 <==IsSwitchingOccur() T = 3.210000 Tnext = 3.215000 Time: 3.21000e+00 states: [ -1.76027e+00 -1.22141e+00] derivs: [ -1.22117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.215000 pESO->GetIndependentVar(): 3.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.502218, nextPhis[ 0]=-1.515495 prevPhis[ 1]=7.502218, nextPhis[ 1]=7.515495 <==IsSwitchingOccur() T = 3.215000 Tnext = 3.220000 Time: 3.21500e+00 states: [ -1.76636e+00 -1.21641e+00] derivs: [ -1.21617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.220000 pESO->GetIndependentVar(): 3.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.515495, nextPhis[ 0]=-1.528698 prevPhis[ 1]=7.515495, nextPhis[ 1]=7.528698 <==IsSwitchingOccur() T = 3.220000 Tnext = 3.225000 Time: 3.22000e+00 states: [ -1.77243e+00 -1.21141e+00] derivs: [ -1.21117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.225000 pESO->GetIndependentVar(): 3.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.528698, nextPhis[ 0]=-1.541825 prevPhis[ 1]=7.528698, nextPhis[ 1]=7.541825 <==IsSwitchingOccur() T = 3.225000 Tnext = 3.230000 Time: 3.22500e+00 states: [ -1.77847e+00 -1.20641e+00] derivs: [ -1.20617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.230000 pESO->GetIndependentVar(): 3.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.541825, nextPhis[ 0]=-1.554877 prevPhis[ 1]=7.541825, nextPhis[ 1]=7.554877 <==IsSwitchingOccur() T = 3.230000 Tnext = 3.235000 Time: 3.23000e+00 states: [ -1.78449e+00 -1.20141e+00] derivs: [ -1.20117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.235000 pESO->GetIndependentVar(): 3.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.554877, nextPhis[ 0]=-1.567855 prevPhis[ 1]=7.554877, nextPhis[ 1]=7.567855 <==IsSwitchingOccur() T = 3.235000 Tnext = 3.240000 Time: 3.23500e+00 states: [ -1.79048e+00 -1.19641e+00] derivs: [ -1.19617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.240000 pESO->GetIndependentVar(): 3.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.567855, nextPhis[ 0]=-1.580757 prevPhis[ 1]=7.567855, nextPhis[ 1]=7.580757 <==IsSwitchingOccur() T = 3.240000 Tnext = 3.245000 Time: 3.24000e+00 states: [ -1.79645e+00 -1.19141e+00] derivs: [ -1.19117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.245000 pESO->GetIndependentVar(): 3.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.580757, nextPhis[ 0]=-1.593584 prevPhis[ 1]=7.580757, nextPhis[ 1]=7.593584 <==IsSwitchingOccur() T = 3.245000 Tnext = 3.250000 Time: 3.24500e+00 states: [ -1.80239e+00 -1.18641e+00] derivs: [ -1.18617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.250000 pESO->GetIndependentVar(): 3.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.593584, nextPhis[ 0]=-1.606337 prevPhis[ 1]=7.593584, nextPhis[ 1]=7.606337 <==IsSwitchingOccur() T = 3.250000 Tnext = 3.255000 Time: 3.25000e+00 states: [ -1.80831e+00 -1.18141e+00] derivs: [ -1.18117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.255000 pESO->GetIndependentVar(): 3.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.606337, nextPhis[ 0]=-1.619014 prevPhis[ 1]=7.606337, nextPhis[ 1]=7.619014 <==IsSwitchingOccur() T = 3.255000 Tnext = 3.260000 Time: 3.25500e+00 states: [ -1.81420e+00 -1.17641e+00] derivs: [ -1.17617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.260000 pESO->GetIndependentVar(): 3.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.619014, nextPhis[ 0]=-1.631616 prevPhis[ 1]=7.619014, nextPhis[ 1]=7.631616 <==IsSwitchingOccur() T = 3.260000 Tnext = 3.265000 Time: 3.26000e+00 states: [ -1.82007e+00 -1.17141e+00] derivs: [ -1.17117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.265000 pESO->GetIndependentVar(): 3.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.631616, nextPhis[ 0]=-1.644143 prevPhis[ 1]=7.631616, nextPhis[ 1]=7.644143 <==IsSwitchingOccur() T = 3.265000 Tnext = 3.270000 Time: 3.26500e+00 states: [ -1.82591e+00 -1.16641e+00] derivs: [ -1.16617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.270000 pESO->GetIndependentVar(): 3.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.644143, nextPhis[ 0]=-1.656596 prevPhis[ 1]=7.644143, nextPhis[ 1]=7.656596 <==IsSwitchingOccur() T = 3.270000 Tnext = 3.275000 Time: 3.27000e+00 states: [ -1.83173e+00 -1.16141e+00] derivs: [ -1.16117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.275000 pESO->GetIndependentVar(): 3.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.656596, nextPhis[ 0]=-1.668973 prevPhis[ 1]=7.656596, nextPhis[ 1]=7.668973 <==IsSwitchingOccur() T = 3.275000 Tnext = 3.280000 Time: 3.27500e+00 states: [ -1.83752e+00 -1.15641e+00] derivs: [ -1.15617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.280000 pESO->GetIndependentVar(): 3.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.668973, nextPhis[ 0]=-1.681275 prevPhis[ 1]=7.668973, nextPhis[ 1]=7.681275 <==IsSwitchingOccur() T = 3.280000 Tnext = 3.285000 Time: 3.28000e+00 states: [ -1.84329e+00 -1.15141e+00] derivs: [ -1.15117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.285000 pESO->GetIndependentVar(): 3.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.681275, nextPhis[ 0]=-1.693503 prevPhis[ 1]=7.681275, nextPhis[ 1]=7.693503 <==IsSwitchingOccur() T = 3.285000 Tnext = 3.290000 Time: 3.28500e+00 states: [ -1.84903e+00 -1.14641e+00] derivs: [ -1.14617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.290000 pESO->GetIndependentVar(): 3.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.693503, nextPhis[ 0]=-1.705655 prevPhis[ 1]=7.693503, nextPhis[ 1]=7.705655 <==IsSwitchingOccur() T = 3.290000 Tnext = 3.295000 Time: 3.29000e+00 states: [ -1.85475e+00 -1.14141e+00] derivs: [ -1.14117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.295000 pESO->GetIndependentVar(): 3.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.705655, nextPhis[ 0]=-1.717732 prevPhis[ 1]=7.705655, nextPhis[ 1]=7.717732 <==IsSwitchingOccur() T = 3.295000 Tnext = 3.300000 Time: 3.29500e+00 states: [ -1.86044e+00 -1.13641e+00] derivs: [ -1.13617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.300000 pESO->GetIndependentVar(): 3.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.717732, nextPhis[ 0]=-1.729735 prevPhis[ 1]=7.717732, nextPhis[ 1]=7.729735 <==IsSwitchingOccur() T = 3.300000 Tnext = 3.305000 Time: 3.30000e+00 states: [ -1.86611e+00 -1.13141e+00] derivs: [ -1.13117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.305000 pESO->GetIndependentVar(): 3.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.729735, nextPhis[ 0]=-1.741662 prevPhis[ 1]=7.729735, nextPhis[ 1]=7.741662 <==IsSwitchingOccur() T = 3.305000 Tnext = 3.310000 Time: 3.30500e+00 states: [ -1.87175e+00 -1.12641e+00] derivs: [ -1.12617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.310000 pESO->GetIndependentVar(): 3.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.741662, nextPhis[ 0]=-1.753514 prevPhis[ 1]=7.741662, nextPhis[ 1]=7.753514 <==IsSwitchingOccur() T = 3.310000 Tnext = 3.315000 Time: 3.31000e+00 states: [ -1.87737e+00 -1.12141e+00] derivs: [ -1.12117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.315000 pESO->GetIndependentVar(): 3.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.753514, nextPhis[ 0]=-1.765292 prevPhis[ 1]=7.753514, nextPhis[ 1]=7.765292 <==IsSwitchingOccur() T = 3.315000 Tnext = 3.320000 Time: 3.31500e+00 states: [ -1.88296e+00 -1.11641e+00] derivs: [ -1.11617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.320000 pESO->GetIndependentVar(): 3.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.765292, nextPhis[ 0]=-1.776994 prevPhis[ 1]=7.765292, nextPhis[ 1]=7.776994 <==IsSwitchingOccur() T = 3.320000 Tnext = 3.325000 Time: 3.32000e+00 states: [ -1.88853e+00 -1.11141e+00] derivs: [ -1.11117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.325000 pESO->GetIndependentVar(): 3.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.776994, nextPhis[ 0]=-1.788621 prevPhis[ 1]=7.776994, nextPhis[ 1]=7.788621 <==IsSwitchingOccur() T = 3.325000 Tnext = 3.330000 Time: 3.32500e+00 states: [ -1.89407e+00 -1.10641e+00] derivs: [ -1.10617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.330000 pESO->GetIndependentVar(): 3.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.788621, nextPhis[ 0]=-1.800174 prevPhis[ 1]=7.788621, nextPhis[ 1]=7.800174 <==IsSwitchingOccur() T = 3.330000 Tnext = 3.335000 Time: 3.33000e+00 states: [ -1.89959e+00 -1.10141e+00] derivs: [ -1.10117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.335000 pESO->GetIndependentVar(): 3.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.800174, nextPhis[ 0]=-1.811651 prevPhis[ 1]=7.800174, nextPhis[ 1]=7.811651 <==IsSwitchingOccur() T = 3.335000 Tnext = 3.340000 Time: 3.33500e+00 states: [ -1.90508e+00 -1.09641e+00] derivs: [ -1.09617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.340000 pESO->GetIndependentVar(): 3.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.811651, nextPhis[ 0]=-1.823053 prevPhis[ 1]=7.811651, nextPhis[ 1]=7.823053 <==IsSwitchingOccur() T = 3.340000 Tnext = 3.345000 Time: 3.34000e+00 states: [ -1.91055e+00 -1.09141e+00] derivs: [ -1.09117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.345000 pESO->GetIndependentVar(): 3.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.823053, nextPhis[ 0]=-1.834381 prevPhis[ 1]=7.823053, nextPhis[ 1]=7.834381 <==IsSwitchingOccur() T = 3.345000 Tnext = 3.350000 Time: 3.34500e+00 states: [ -1.91599e+00 -1.08641e+00] derivs: [ -1.08617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.350000 pESO->GetIndependentVar(): 3.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.834381, nextPhis[ 0]=-1.845633 prevPhis[ 1]=7.834381, nextPhis[ 1]=7.845633 <==IsSwitchingOccur() T = 3.350000 Tnext = 3.355000 Time: 3.35000e+00 states: [ -1.92141e+00 -1.08141e+00] derivs: [ -1.08117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.355000 pESO->GetIndependentVar(): 3.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.845633, nextPhis[ 0]=-1.856810 prevPhis[ 1]=7.845633, nextPhis[ 1]=7.856810 <==IsSwitchingOccur() T = 3.355000 Tnext = 3.360000 Time: 3.35500e+00 states: [ -1.92680e+00 -1.07641e+00] derivs: [ -1.07617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.360000 pESO->GetIndependentVar(): 3.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.856810, nextPhis[ 0]=-1.867913 prevPhis[ 1]=7.856810, nextPhis[ 1]=7.867913 <==IsSwitchingOccur() T = 3.360000 Tnext = 3.365000 Time: 3.36000e+00 states: [ -1.93217e+00 -1.07141e+00] derivs: [ -1.07117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.365000 pESO->GetIndependentVar(): 3.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.867913, nextPhis[ 0]=-1.878940 prevPhis[ 1]=7.867913, nextPhis[ 1]=7.878940 <==IsSwitchingOccur() T = 3.365000 Tnext = 3.370000 Time: 3.36500e+00 states: [ -1.93751e+00 -1.06641e+00] derivs: [ -1.06617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.370000 pESO->GetIndependentVar(): 3.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.878940, nextPhis[ 0]=-1.889892 prevPhis[ 1]=7.878940, nextPhis[ 1]=7.889892 <==IsSwitchingOccur() T = 3.370000 Tnext = 3.375000 Time: 3.37000e+00 states: [ -1.94283e+00 -1.06141e+00] derivs: [ -1.06117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.375000 pESO->GetIndependentVar(): 3.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.889892, nextPhis[ 0]=-1.900769 prevPhis[ 1]=7.889892, nextPhis[ 1]=7.900769 <==IsSwitchingOccur() T = 3.375000 Tnext = 3.380000 Time: 3.37500e+00 states: [ -1.94812e+00 -1.05641e+00] derivs: [ -1.05617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.380000 pESO->GetIndependentVar(): 3.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.900769, nextPhis[ 0]=-1.911572 prevPhis[ 1]=7.900769, nextPhis[ 1]=7.911572 <==IsSwitchingOccur() T = 3.380000 Tnext = 3.385000 Time: 3.38000e+00 states: [ -1.95339e+00 -1.05141e+00] derivs: [ -1.05117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.385000 pESO->GetIndependentVar(): 3.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.911572, nextPhis[ 0]=-1.922299 prevPhis[ 1]=7.911572, nextPhis[ 1]=7.922299 <==IsSwitchingOccur() T = 3.385000 Tnext = 3.390000 Time: 3.38500e+00 states: [ -1.95863e+00 -1.04641e+00] derivs: [ -1.04617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.390000 pESO->GetIndependentVar(): 3.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.922299, nextPhis[ 0]=-1.932951 prevPhis[ 1]=7.922299, nextPhis[ 1]=7.932951 <==IsSwitchingOccur() T = 3.390000 Tnext = 3.395000 Time: 3.39000e+00 states: [ -1.96385e+00 -1.04141e+00] derivs: [ -1.04117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.395000 pESO->GetIndependentVar(): 3.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.932951, nextPhis[ 0]=-1.943529 prevPhis[ 1]=7.932951, nextPhis[ 1]=7.943529 <==IsSwitchingOccur() T = 3.395000 Tnext = 3.400000 Time: 3.39500e+00 states: [ -1.96904e+00 -1.03641e+00] derivs: [ -1.03617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.400000 pESO->GetIndependentVar(): 3.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.943529, nextPhis[ 0]=-1.954031 prevPhis[ 1]=7.943529, nextPhis[ 1]=7.954031 <==IsSwitchingOccur() T = 3.400000 Tnext = 3.405000 Time: 3.40000e+00 states: [ -1.97421e+00 -1.03141e+00] derivs: [ -1.03117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.405000 pESO->GetIndependentVar(): 3.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.954031, nextPhis[ 0]=-1.964458 prevPhis[ 1]=7.954031, nextPhis[ 1]=7.964458 <==IsSwitchingOccur() T = 3.405000 Tnext = 3.410000 Time: 3.40500e+00 states: [ -1.97935e+00 -1.02641e+00] derivs: [ -1.02617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.410000 pESO->GetIndependentVar(): 3.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.964458, nextPhis[ 0]=-1.974811 prevPhis[ 1]=7.964458, nextPhis[ 1]=7.974811 <==IsSwitchingOccur() T = 3.410000 Tnext = 3.415000 Time: 3.41000e+00 states: [ -1.98447e+00 -1.02141e+00] derivs: [ -1.02117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.415000 pESO->GetIndependentVar(): 3.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.974811, nextPhis[ 0]=-1.985088 prevPhis[ 1]=7.974811, nextPhis[ 1]=7.985088 <==IsSwitchingOccur() T = 3.415000 Tnext = 3.420000 Time: 3.41500e+00 states: [ -1.98956e+00 -1.01641e+00] derivs: [ -1.01617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.420000 pESO->GetIndependentVar(): 3.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.985088, nextPhis[ 0]=-1.995290 prevPhis[ 1]=7.985088, nextPhis[ 1]=7.995290 <==IsSwitchingOccur() T = 3.420000 Tnext = 3.425000 Time: 3.42000e+00 states: [ -1.99463e+00 -1.01141e+00] derivs: [ -1.01117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.425000 pESO->GetIndependentVar(): 3.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.995290, nextPhis[ 0]=-2.005418 prevPhis[ 1]=7.995290, nextPhis[ 1]=8.005418 <==IsSwitchingOccur() T = 3.425000 Tnext = 3.430000 Time: 3.42500e+00 states: [ -1.99967e+00 -1.00641e+00] derivs: [ -1.00617e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.430000 pESO->GetIndependentVar(): 3.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.005418, nextPhis[ 0]=-2.015470 prevPhis[ 1]=8.005418, nextPhis[ 1]=8.015470 <==IsSwitchingOccur() T = 3.430000 Tnext = 3.435000 Time: 3.43000e+00 states: [ -2.00469e+00 -1.00141e+00] derivs: [ -1.00117e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.435000 pESO->GetIndependentVar(): 3.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.015470, nextPhis[ 0]=-2.025447 prevPhis[ 1]=8.015470, nextPhis[ 1]=8.025447 <==IsSwitchingOccur() T = 3.435000 Tnext = 3.440000 Time: 3.43500e+00 states: [ -2.00968e+00 -9.96406e-01] derivs: [ -9.96172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.440000 pESO->GetIndependentVar(): 3.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.025447, nextPhis[ 0]=-2.035350 prevPhis[ 1]=8.025447, nextPhis[ 1]=8.035350 <==IsSwitchingOccur() T = 3.440000 Tnext = 3.445000 Time: 3.44000e+00 states: [ -2.01465e+00 -9.91406e-01] derivs: [ -9.91172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.445000 pESO->GetIndependentVar(): 3.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.035350, nextPhis[ 0]=-2.045177 prevPhis[ 1]=8.035350, nextPhis[ 1]=8.045177 <==IsSwitchingOccur() T = 3.445000 Tnext = 3.450000 Time: 3.44500e+00 states: [ -2.01959e+00 -9.86406e-01] derivs: [ -9.86172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.450000 pESO->GetIndependentVar(): 3.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.045177, nextPhis[ 0]=-2.054929 prevPhis[ 1]=8.045177, nextPhis[ 1]=8.054929 <==IsSwitchingOccur() T = 3.450000 Tnext = 3.455000 Time: 3.45000e+00 states: [ -2.02451e+00 -9.81406e-01] derivs: [ -9.81172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.455000 pESO->GetIndependentVar(): 3.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.054929, nextPhis[ 0]=-2.064607 prevPhis[ 1]=8.054929, nextPhis[ 1]=8.064607 <==IsSwitchingOccur() T = 3.455000 Tnext = 3.460000 Time: 3.45500e+00 states: [ -2.02940e+00 -9.76406e-01] derivs: [ -9.76172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.460000 pESO->GetIndependentVar(): 3.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.064607, nextPhis[ 0]=-2.074209 prevPhis[ 1]=8.064607, nextPhis[ 1]=8.074209 <==IsSwitchingOccur() T = 3.460000 Tnext = 3.465000 Time: 3.46000e+00 states: [ -2.03427e+00 -9.71406e-01] derivs: [ -9.71172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.465000 pESO->GetIndependentVar(): 3.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.074209, nextPhis[ 0]=-2.083736 prevPhis[ 1]=8.074209, nextPhis[ 1]=8.083736 <==IsSwitchingOccur() T = 3.465000 Tnext = 3.470000 Time: 3.46500e+00 states: [ -2.03911e+00 -9.66406e-01] derivs: [ -9.66172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.470000 pESO->GetIndependentVar(): 3.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.083736, nextPhis[ 0]=-2.093189 prevPhis[ 1]=8.083736, nextPhis[ 1]=8.093189 <==IsSwitchingOccur() T = 3.470000 Tnext = 3.475000 Time: 3.47000e+00 states: [ -2.04393e+00 -9.61406e-01] derivs: [ -9.61172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.475000 pESO->GetIndependentVar(): 3.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.093189, nextPhis[ 0]=-2.102566 prevPhis[ 1]=8.093189, nextPhis[ 1]=8.102566 <==IsSwitchingOccur() T = 3.475000 Tnext = 3.480000 Time: 3.47500e+00 states: [ -2.04872e+00 -9.56406e-01] derivs: [ -9.56172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.480000 pESO->GetIndependentVar(): 3.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.102566, nextPhis[ 0]=-2.111868 prevPhis[ 1]=8.102566, nextPhis[ 1]=8.111868 <==IsSwitchingOccur() T = 3.480000 Tnext = 3.485000 Time: 3.48000e+00 states: [ -2.05349e+00 -9.51406e-01] derivs: [ -9.51172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.485000 pESO->GetIndependentVar(): 3.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.111868, nextPhis[ 0]=-2.121095 prevPhis[ 1]=8.111868, nextPhis[ 1]=8.121095 <==IsSwitchingOccur() T = 3.485000 Tnext = 3.490000 Time: 3.48500e+00 states: [ -2.05823e+00 -9.46406e-01] derivs: [ -9.46172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.490000 pESO->GetIndependentVar(): 3.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.121095, nextPhis[ 0]=-2.130248 prevPhis[ 1]=8.121095, nextPhis[ 1]=8.130248 <==IsSwitchingOccur() T = 3.490000 Tnext = 3.495000 Time: 3.49000e+00 states: [ -2.06295e+00 -9.41406e-01] derivs: [ -9.41172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.495000 pESO->GetIndependentVar(): 3.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.130248, nextPhis[ 0]=-2.139325 prevPhis[ 1]=8.130248, nextPhis[ 1]=8.139325 <==IsSwitchingOccur() T = 3.495000 Tnext = 3.500000 Time: 3.49500e+00 states: [ -2.06764e+00 -9.36406e-01] derivs: [ -9.36172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.500000 pESO->GetIndependentVar(): 3.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.139325, nextPhis[ 0]=-2.148327 prevPhis[ 1]=8.139325, nextPhis[ 1]=8.148327 <==IsSwitchingOccur() T = 3.500000 Tnext = 3.505000 Time: 3.50000e+00 states: [ -2.07231e+00 -9.31406e-01] derivs: [ -9.31172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.505000 pESO->GetIndependentVar(): 3.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.148327, nextPhis[ 0]=-2.157255 prevPhis[ 1]=8.148327, nextPhis[ 1]=8.157255 <==IsSwitchingOccur() T = 3.505000 Tnext = 3.510000 Time: 3.50500e+00 states: [ -2.07695e+00 -9.26406e-01] derivs: [ -9.26172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.510000 pESO->GetIndependentVar(): 3.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.157255, nextPhis[ 0]=-2.166107 prevPhis[ 1]=8.157255, nextPhis[ 1]=8.166107 <==IsSwitchingOccur() T = 3.510000 Tnext = 3.515000 Time: 3.51000e+00 states: [ -2.08157e+00 -9.21406e-01] derivs: [ -9.21172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.515000 pESO->GetIndependentVar(): 3.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.166107, nextPhis[ 0]=-2.174884 prevPhis[ 1]=8.166107, nextPhis[ 1]=8.174884 <==IsSwitchingOccur() T = 3.515000 Tnext = 3.520000 Time: 3.51500e+00 states: [ -2.08616e+00 -9.16406e-01] derivs: [ -9.16172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.520000 pESO->GetIndependentVar(): 3.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.174884, nextPhis[ 0]=-2.183587 prevPhis[ 1]=8.174884, nextPhis[ 1]=8.183587 <==IsSwitchingOccur() T = 3.520000 Tnext = 3.525000 Time: 3.52000e+00 states: [ -2.09073e+00 -9.11406e-01] derivs: [ -9.11172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.525000 pESO->GetIndependentVar(): 3.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.183587, nextPhis[ 0]=-2.192214 prevPhis[ 1]=8.183587, nextPhis[ 1]=8.192214 <==IsSwitchingOccur() T = 3.525000 Tnext = 3.530000 Time: 3.52500e+00 states: [ -2.09527e+00 -9.06406e-01] derivs: [ -9.06172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.530000 pESO->GetIndependentVar(): 3.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.192214, nextPhis[ 0]=-2.200766 prevPhis[ 1]=8.192214, nextPhis[ 1]=8.200766 <==IsSwitchingOccur() T = 3.530000 Tnext = 3.535000 Time: 3.53000e+00 states: [ -2.09979e+00 -9.01406e-01] derivs: [ -9.01172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.535000 pESO->GetIndependentVar(): 3.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.200766, nextPhis[ 0]=-2.209244 prevPhis[ 1]=8.200766, nextPhis[ 1]=8.209244 <==IsSwitchingOccur() T = 3.535000 Tnext = 3.540000 Time: 3.53500e+00 states: [ -2.10428e+00 -8.96406e-01] derivs: [ -8.96172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.540000 pESO->GetIndependentVar(): 3.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.209244, nextPhis[ 0]=-2.217646 prevPhis[ 1]=8.209244, nextPhis[ 1]=8.217646 <==IsSwitchingOccur() T = 3.540000 Tnext = 3.545000 Time: 3.54000e+00 states: [ -2.10875e+00 -8.91406e-01] derivs: [ -8.91172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.545000 pESO->GetIndependentVar(): 3.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.217646, nextPhis[ 0]=-2.225973 prevPhis[ 1]=8.217646, nextPhis[ 1]=8.225973 <==IsSwitchingOccur() T = 3.545000 Tnext = 3.550000 Time: 3.54500e+00 states: [ -2.11319e+00 -8.86406e-01] derivs: [ -8.86172e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.550000 pESO->GetIndependentVar(): 3.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.225973, nextPhis[ 0]=-2.234222 prevPhis[ 1]=8.225973, nextPhis[ 1]=8.234222 <==IsSwitchingOccur() T = 3.550000 Tnext = 3.555000 Time: 3.55000e+00 states: [ -2.11761e+00 -8.81406e-01] derivs: [ -8.81163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.555000 pESO->GetIndependentVar(): 3.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.234222, nextPhis[ 0]=-2.242395 prevPhis[ 1]=8.234222, nextPhis[ 1]=8.242395 <==IsSwitchingOccur() T = 3.555000 Tnext = 3.560000 Time: 3.55500e+00 states: [ -2.12200e+00 -8.76406e-01] derivs: [ -8.76163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.560000 pESO->GetIndependentVar(): 3.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.242395, nextPhis[ 0]=-2.250493 prevPhis[ 1]=8.242395, nextPhis[ 1]=8.250493 <==IsSwitchingOccur() T = 3.560000 Tnext = 3.565000 Time: 3.56000e+00 states: [ -2.12636e+00 -8.71406e-01] derivs: [ -8.71163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.565000 pESO->GetIndependentVar(): 3.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.250493, nextPhis[ 0]=-2.258516 prevPhis[ 1]=8.250493, nextPhis[ 1]=8.258516 <==IsSwitchingOccur() T = 3.565000 Tnext = 3.570000 Time: 3.56500e+00 states: [ -2.13070e+00 -8.66406e-01] derivs: [ -8.66163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.570000 pESO->GetIndependentVar(): 3.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.258516, nextPhis[ 0]=-2.266464 prevPhis[ 1]=8.258516, nextPhis[ 1]=8.266464 <==IsSwitchingOccur() T = 3.570000 Tnext = 3.575000 Time: 3.57000e+00 states: [ -2.13502e+00 -8.61406e-01] derivs: [ -8.61163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.575000 pESO->GetIndependentVar(): 3.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.266464, nextPhis[ 0]=-2.274338 prevPhis[ 1]=8.266464, nextPhis[ 1]=8.274338 <==IsSwitchingOccur() T = 3.575000 Tnext = 3.580000 Time: 3.57500e+00 states: [ -2.13931e+00 -8.56406e-01] derivs: [ -8.56163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.580000 pESO->GetIndependentVar(): 3.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.274338, nextPhis[ 0]=-2.282136 prevPhis[ 1]=8.274338, nextPhis[ 1]=8.282136 <==IsSwitchingOccur() T = 3.580000 Tnext = 3.585000 Time: 3.58000e+00 states: [ -2.14358e+00 -8.51406e-01] derivs: [ -8.51163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.585000 pESO->GetIndependentVar(): 3.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.282136, nextPhis[ 0]=-2.289859 prevPhis[ 1]=8.282136, nextPhis[ 1]=8.289859 <==IsSwitchingOccur() T = 3.585000 Tnext = 3.590000 Time: 3.58500e+00 states: [ -2.14782e+00 -8.46406e-01] derivs: [ -8.46163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.590000 pESO->GetIndependentVar(): 3.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.289859, nextPhis[ 0]=-2.297507 prevPhis[ 1]=8.289859, nextPhis[ 1]=8.297507 <==IsSwitchingOccur() T = 3.590000 Tnext = 3.595000 Time: 3.59000e+00 states: [ -2.15203e+00 -8.41406e-01] derivs: [ -8.41163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.595000 pESO->GetIndependentVar(): 3.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.297507, nextPhis[ 0]=-2.305081 prevPhis[ 1]=8.297507, nextPhis[ 1]=8.305081 <==IsSwitchingOccur() T = 3.595000 Tnext = 3.600000 Time: 3.59500e+00 states: [ -2.15622e+00 -8.36406e-01] derivs: [ -8.36163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.600000 pESO->GetIndependentVar(): 3.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.305081, nextPhis[ 0]=-2.312579 prevPhis[ 1]=8.305081, nextPhis[ 1]=8.312579 <==IsSwitchingOccur() T = 3.600000 Tnext = 3.605000 Time: 3.60000e+00 states: [ -2.16039e+00 -8.31406e-01] derivs: [ -8.31163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.605000 pESO->GetIndependentVar(): 3.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.312579, nextPhis[ 0]=-2.320002 prevPhis[ 1]=8.312579, nextPhis[ 1]=8.320002 <==IsSwitchingOccur() T = 3.605000 Tnext = 3.610000 Time: 3.60500e+00 states: [ -2.16453e+00 -8.26406e-01] derivs: [ -8.26163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.610000 pESO->GetIndependentVar(): 3.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.320002, nextPhis[ 0]=-2.327350 prevPhis[ 1]=8.320002, nextPhis[ 1]=8.327350 <==IsSwitchingOccur() T = 3.610000 Tnext = 3.615000 Time: 3.61000e+00 states: [ -2.16865e+00 -8.21406e-01] derivs: [ -8.21163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.615000 pESO->GetIndependentVar(): 3.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.327350, nextPhis[ 0]=-2.334624 prevPhis[ 1]=8.327350, nextPhis[ 1]=8.334624 <==IsSwitchingOccur() T = 3.615000 Tnext = 3.620000 Time: 3.61500e+00 states: [ -2.17274e+00 -8.16406e-01] derivs: [ -8.16163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.620000 pESO->GetIndependentVar(): 3.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.334624, nextPhis[ 0]=-2.341822 prevPhis[ 1]=8.334624, nextPhis[ 1]=8.341822 <==IsSwitchingOccur() T = 3.620000 Tnext = 3.625000 Time: 3.62000e+00 states: [ -2.17681e+00 -8.11406e-01] derivs: [ -8.11163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.625000 pESO->GetIndependentVar(): 3.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.341822, nextPhis[ 0]=-2.348945 prevPhis[ 1]=8.341822, nextPhis[ 1]=8.348945 <==IsSwitchingOccur() T = 3.625000 Tnext = 3.630000 Time: 3.62500e+00 states: [ -2.18085e+00 -8.06406e-01] derivs: [ -8.06163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.630000 pESO->GetIndependentVar(): 3.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.348945, nextPhis[ 0]=-2.355993 prevPhis[ 1]=8.348945, nextPhis[ 1]=8.355993 <==IsSwitchingOccur() T = 3.630000 Tnext = 3.635000 Time: 3.63000e+00 states: [ -2.18486e+00 -8.01406e-01] derivs: [ -8.01163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.635000 pESO->GetIndependentVar(): 3.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.355993, nextPhis[ 0]=-2.362967 prevPhis[ 1]=8.355993, nextPhis[ 1]=8.362967 <==IsSwitchingOccur() T = 3.635000 Tnext = 3.640000 Time: 3.63500e+00 states: [ -2.18885e+00 -7.96406e-01] derivs: [ -7.96163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.640000 pESO->GetIndependentVar(): 3.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.362967, nextPhis[ 0]=-2.369865 prevPhis[ 1]=8.362967, nextPhis[ 1]=8.369865 <==IsSwitchingOccur() T = 3.640000 Tnext = 3.645000 Time: 3.64000e+00 states: [ -2.19282e+00 -7.91406e-01] derivs: [ -7.91163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.645000 pESO->GetIndependentVar(): 3.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.369865, nextPhis[ 0]=-2.376688 prevPhis[ 1]=8.369865, nextPhis[ 1]=8.376688 <==IsSwitchingOccur() T = 3.645000 Tnext = 3.650000 Time: 3.64500e+00 states: [ -2.19676e+00 -7.86406e-01] derivs: [ -7.86163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.650000 pESO->GetIndependentVar(): 3.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.376688, nextPhis[ 0]=-2.383436 prevPhis[ 1]=8.376688, nextPhis[ 1]=8.383436 <==IsSwitchingOccur() T = 3.650000 Tnext = 3.655000 Time: 3.65000e+00 states: [ -2.20068e+00 -7.81406e-01] derivs: [ -7.81163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.655000 pESO->GetIndependentVar(): 3.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.383436, nextPhis[ 0]=-2.390109 prevPhis[ 1]=8.383436, nextPhis[ 1]=8.390109 <==IsSwitchingOccur() T = 3.655000 Tnext = 3.660000 Time: 3.65500e+00 states: [ -2.20457e+00 -7.76406e-01] derivs: [ -7.76163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.660000 pESO->GetIndependentVar(): 3.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.390109, nextPhis[ 0]=-2.396708 prevPhis[ 1]=8.390109, nextPhis[ 1]=8.396708 <==IsSwitchingOccur() T = 3.660000 Tnext = 3.665000 Time: 3.66000e+00 states: [ -2.20843e+00 -7.71406e-01] derivs: [ -7.71163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.665000 pESO->GetIndependentVar(): 3.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.396708, nextPhis[ 0]=-2.403231 prevPhis[ 1]=8.396708, nextPhis[ 1]=8.403231 <==IsSwitchingOccur() T = 3.665000 Tnext = 3.670000 Time: 3.66500e+00 states: [ -2.21227e+00 -7.66406e-01] derivs: [ -7.66163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.670000 pESO->GetIndependentVar(): 3.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.403231, nextPhis[ 0]=-2.409679 prevPhis[ 1]=8.403231, nextPhis[ 1]=8.409679 <==IsSwitchingOccur() T = 3.670000 Tnext = 3.675000 Time: 3.67000e+00 states: [ -2.21609e+00 -7.61406e-01] derivs: [ -7.61163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.675000 pESO->GetIndependentVar(): 3.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.409679, nextPhis[ 0]=-2.416052 prevPhis[ 1]=8.409679, nextPhis[ 1]=8.416052 <==IsSwitchingOccur() T = 3.675000 Tnext = 3.680000 Time: 3.67500e+00 states: [ -2.21988e+00 -7.56406e-01] derivs: [ -7.56163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.680000 pESO->GetIndependentVar(): 3.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.416052, nextPhis[ 0]=-2.422351 prevPhis[ 1]=8.416052, nextPhis[ 1]=8.422351 <==IsSwitchingOccur() T = 3.680000 Tnext = 3.685000 Time: 3.68000e+00 states: [ -2.22365e+00 -7.51406e-01] derivs: [ -7.51163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.685000 pESO->GetIndependentVar(): 3.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.422351, nextPhis[ 0]=-2.428574 prevPhis[ 1]=8.422351, nextPhis[ 1]=8.428574 <==IsSwitchingOccur() T = 3.685000 Tnext = 3.690000 Time: 3.68500e+00 states: [ -2.22739e+00 -7.46406e-01] derivs: [ -7.46163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.690000 pESO->GetIndependentVar(): 3.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.428574, nextPhis[ 0]=-2.434722 prevPhis[ 1]=8.428574, nextPhis[ 1]=8.434722 <==IsSwitchingOccur() T = 3.690000 Tnext = 3.695000 Time: 3.69000e+00 states: [ -2.23111e+00 -7.41406e-01] derivs: [ -7.41163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.695000 pESO->GetIndependentVar(): 3.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.434722, nextPhis[ 0]=-2.440795 prevPhis[ 1]=8.434722, nextPhis[ 1]=8.440795 <==IsSwitchingOccur() T = 3.695000 Tnext = 3.700000 Time: 3.69500e+00 states: [ -2.23480e+00 -7.36406e-01] derivs: [ -7.36163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.700000 pESO->GetIndependentVar(): 3.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.440795, nextPhis[ 0]=-2.446794 prevPhis[ 1]=8.440795, nextPhis[ 1]=8.446794 <==IsSwitchingOccur() T = 3.700000 Tnext = 3.705000 Time: 3.70000e+00 states: [ -2.23846e+00 -7.31406e-01] derivs: [ -7.31163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.705000 pESO->GetIndependentVar(): 3.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.446794, nextPhis[ 0]=-2.452717 prevPhis[ 1]=8.446794, nextPhis[ 1]=8.452717 <==IsSwitchingOccur() T = 3.705000 Tnext = 3.710000 Time: 3.70500e+00 states: [ -2.24210e+00 -7.26406e-01] derivs: [ -7.26163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.710000 pESO->GetIndependentVar(): 3.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.452717, nextPhis[ 0]=-2.458565 prevPhis[ 1]=8.452717, nextPhis[ 1]=8.458565 <==IsSwitchingOccur() T = 3.710000 Tnext = 3.715000 Time: 3.71000e+00 states: [ -2.24572e+00 -7.21406e-01] derivs: [ -7.21163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.715000 pESO->GetIndependentVar(): 3.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.458565, nextPhis[ 0]=-2.464338 prevPhis[ 1]=8.458565, nextPhis[ 1]=8.464338 <==IsSwitchingOccur() T = 3.715000 Tnext = 3.720000 Time: 3.71500e+00 states: [ -2.24931e+00 -7.16406e-01] derivs: [ -7.16163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.720000 pESO->GetIndependentVar(): 3.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.464338, nextPhis[ 0]=-2.470037 prevPhis[ 1]=8.464338, nextPhis[ 1]=8.470037 <==IsSwitchingOccur() T = 3.720000 Tnext = 3.725000 Time: 3.72000e+00 states: [ -2.25288e+00 -7.11406e-01] derivs: [ -7.11163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.725000 pESO->GetIndependentVar(): 3.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.470037, nextPhis[ 0]=-2.475660 prevPhis[ 1]=8.470037, nextPhis[ 1]=8.475660 <==IsSwitchingOccur() T = 3.725000 Tnext = 3.730000 Time: 3.72500e+00 states: [ -2.25642e+00 -7.06406e-01] derivs: [ -7.06163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.730000 pESO->GetIndependentVar(): 3.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.475660, nextPhis[ 0]=-2.481208 prevPhis[ 1]=8.475660, nextPhis[ 1]=8.481208 <==IsSwitchingOccur() T = 3.730000 Tnext = 3.735000 Time: 3.73000e+00 states: [ -2.25993e+00 -7.01406e-01] derivs: [ -7.01163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.735000 pESO->GetIndependentVar(): 3.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.481208, nextPhis[ 0]=-2.486681 prevPhis[ 1]=8.481208, nextPhis[ 1]=8.486681 <==IsSwitchingOccur() T = 3.735000 Tnext = 3.740000 Time: 3.73500e+00 states: [ -2.26343e+00 -6.96406e-01] derivs: [ -6.96163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.740000 pESO->GetIndependentVar(): 3.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.486681, nextPhis[ 0]=-2.492080 prevPhis[ 1]=8.486681, nextPhis[ 1]=8.492080 <==IsSwitchingOccur() T = 3.740000 Tnext = 3.745000 Time: 3.74000e+00 states: [ -2.26689e+00 -6.91406e-01] derivs: [ -6.91163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.745000 pESO->GetIndependentVar(): 3.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.492080, nextPhis[ 0]=-2.497403 prevPhis[ 1]=8.492080, nextPhis[ 1]=8.497403 <==IsSwitchingOccur() T = 3.745000 Tnext = 3.750000 Time: 3.74500e+00 states: [ -2.27033e+00 -6.86406e-01] derivs: [ -6.86163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.750000 pESO->GetIndependentVar(): 3.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.497403, nextPhis[ 0]=-2.502651 prevPhis[ 1]=8.497403, nextPhis[ 1]=8.502651 <==IsSwitchingOccur() T = 3.750000 Tnext = 3.755000 Time: 3.75000e+00 states: [ -2.27375e+00 -6.81406e-01] derivs: [ -6.81163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.755000 pESO->GetIndependentVar(): 3.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.502651, nextPhis[ 0]=-2.507824 prevPhis[ 1]=8.502651, nextPhis[ 1]=8.507824 <==IsSwitchingOccur() T = 3.755000 Tnext = 3.760000 Time: 3.75500e+00 states: [ -2.27714e+00 -6.76406e-01] derivs: [ -6.76163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.760000 pESO->GetIndependentVar(): 3.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.507824, nextPhis[ 0]=-2.512922 prevPhis[ 1]=8.507824, nextPhis[ 1]=8.512922 <==IsSwitchingOccur() T = 3.760000 Tnext = 3.765000 Time: 3.76000e+00 states: [ -2.28051e+00 -6.71406e-01] derivs: [ -6.71163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.765000 pESO->GetIndependentVar(): 3.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.512922, nextPhis[ 0]=-2.517946 prevPhis[ 1]=8.512922, nextPhis[ 1]=8.517946 <==IsSwitchingOccur() T = 3.765000 Tnext = 3.770000 Time: 3.76500e+00 states: [ -2.28385e+00 -6.66406e-01] derivs: [ -6.66163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.770000 pESO->GetIndependentVar(): 3.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.517946, nextPhis[ 0]=-2.522894 prevPhis[ 1]=8.517946, nextPhis[ 1]=8.522894 <==IsSwitchingOccur() T = 3.770000 Tnext = 3.775000 Time: 3.77000e+00 states: [ -2.28716e+00 -6.61406e-01] derivs: [ -6.61163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.775000 pESO->GetIndependentVar(): 3.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.522894, nextPhis[ 0]=-2.527767 prevPhis[ 1]=8.522894, nextPhis[ 1]=8.527767 <==IsSwitchingOccur() T = 3.775000 Tnext = 3.780000 Time: 3.77500e+00 states: [ -2.29045e+00 -6.56406e-01] derivs: [ -6.56163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.780000 pESO->GetIndependentVar(): 3.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.527767, nextPhis[ 0]=-2.532565 prevPhis[ 1]=8.527767, nextPhis[ 1]=8.532565 <==IsSwitchingOccur() T = 3.780000 Tnext = 3.785000 Time: 3.78000e+00 states: [ -2.29372e+00 -6.51406e-01] derivs: [ -6.51163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.785000 pESO->GetIndependentVar(): 3.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.532565, nextPhis[ 0]=-2.537289 prevPhis[ 1]=8.532565, nextPhis[ 1]=8.537289 <==IsSwitchingOccur() T = 3.785000 Tnext = 3.790000 Time: 3.78500e+00 states: [ -2.29696e+00 -6.46406e-01] derivs: [ -6.46163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.790000 pESO->GetIndependentVar(): 3.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.537289, nextPhis[ 0]=-2.541937 prevPhis[ 1]=8.537289, nextPhis[ 1]=8.541937 <==IsSwitchingOccur() T = 3.790000 Tnext = 3.795000 Time: 3.79000e+00 states: [ -2.30018e+00 -6.41406e-01] derivs: [ -6.41163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.795000 pESO->GetIndependentVar(): 3.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.541937, nextPhis[ 0]=-2.546510 prevPhis[ 1]=8.541937, nextPhis[ 1]=8.546510 <==IsSwitchingOccur() T = 3.795000 Tnext = 3.800000 Time: 3.79500e+00 states: [ -2.30337e+00 -6.36406e-01] derivs: [ -6.36163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.800000 pESO->GetIndependentVar(): 3.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.546510, nextPhis[ 0]=-2.551008 prevPhis[ 1]=8.546510, nextPhis[ 1]=8.551008 <==IsSwitchingOccur() T = 3.800000 Tnext = 3.805000 Time: 3.80000e+00 states: [ -2.30653e+00 -6.31406e-01] derivs: [ -6.31163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.805000 pESO->GetIndependentVar(): 3.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.551008, nextPhis[ 0]=-2.555432 prevPhis[ 1]=8.551008, nextPhis[ 1]=8.555432 <==IsSwitchingOccur() T = 3.805000 Tnext = 3.810000 Time: 3.80500e+00 states: [ -2.30968e+00 -6.26406e-01] derivs: [ -6.26163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.810000 pESO->GetIndependentVar(): 3.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.555432, nextPhis[ 0]=-2.559780 prevPhis[ 1]=8.555432, nextPhis[ 1]=8.559780 <==IsSwitchingOccur() T = 3.810000 Tnext = 3.815000 Time: 3.81000e+00 states: [ -2.31279e+00 -6.21406e-01] derivs: [ -6.21163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.815000 pESO->GetIndependentVar(): 3.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.559780, nextPhis[ 0]=-2.564053 prevPhis[ 1]=8.559780, nextPhis[ 1]=8.564053 <==IsSwitchingOccur() T = 3.815000 Tnext = 3.820000 Time: 3.81500e+00 states: [ -2.31588e+00 -6.16406e-01] derivs: [ -6.16163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.820000 pESO->GetIndependentVar(): 3.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.564053, nextPhis[ 0]=-2.568251 prevPhis[ 1]=8.564053, nextPhis[ 1]=8.568251 <==IsSwitchingOccur() T = 3.820000 Tnext = 3.825000 Time: 3.82000e+00 states: [ -2.31895e+00 -6.11406e-01] derivs: [ -6.11163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.825000 pESO->GetIndependentVar(): 3.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.568251, nextPhis[ 0]=-2.572375 prevPhis[ 1]=8.568251, nextPhis[ 1]=8.572375 <==IsSwitchingOccur() T = 3.825000 Tnext = 3.830000 Time: 3.82500e+00 states: [ -2.32199e+00 -6.06406e-01] derivs: [ -6.06163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.830000 pESO->GetIndependentVar(): 3.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.572375, nextPhis[ 0]=-2.576423 prevPhis[ 1]=8.572375, nextPhis[ 1]=8.576423 <==IsSwitchingOccur() T = 3.830000 Tnext = 3.835000 Time: 3.83000e+00 states: [ -2.32501e+00 -6.01406e-01] derivs: [ -6.01163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.835000 pESO->GetIndependentVar(): 3.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.576423, nextPhis[ 0]=-2.580396 prevPhis[ 1]=8.576423, nextPhis[ 1]=8.580396 <==IsSwitchingOccur() T = 3.835000 Tnext = 3.840000 Time: 3.83500e+00 states: [ -2.32800e+00 -5.96406e-01] derivs: [ -5.96163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.840000 pESO->GetIndependentVar(): 3.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.580396, nextPhis[ 0]=-2.584294 prevPhis[ 1]=8.580396, nextPhis[ 1]=8.584294 <==IsSwitchingOccur() T = 3.840000 Tnext = 3.845000 Time: 3.84000e+00 states: [ -2.33096e+00 -5.91406e-01] derivs: [ -5.91163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.845000 pESO->GetIndependentVar(): 3.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.584294, nextPhis[ 0]=-2.588118 prevPhis[ 1]=8.584294, nextPhis[ 1]=8.588118 <==IsSwitchingOccur() T = 3.845000 Tnext = 3.850000 Time: 3.84500e+00 states: [ -2.33390e+00 -5.86406e-01] derivs: [ -5.86163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.850000 pESO->GetIndependentVar(): 3.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.588118, nextPhis[ 0]=-2.591866 prevPhis[ 1]=8.588118, nextPhis[ 1]=8.591866 <==IsSwitchingOccur() T = 3.850000 Tnext = 3.855000 Time: 3.85000e+00 states: [ -2.33682e+00 -5.81406e-01] derivs: [ -5.81163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.855000 pESO->GetIndependentVar(): 3.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.591866, nextPhis[ 0]=-2.595539 prevPhis[ 1]=8.591866, nextPhis[ 1]=8.595539 <==IsSwitchingOccur() T = 3.855000 Tnext = 3.860000 Time: 3.85500e+00 states: [ -2.33971e+00 -5.76406e-01] derivs: [ -5.76163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.860000 pESO->GetIndependentVar(): 3.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.595539, nextPhis[ 0]=-2.599137 prevPhis[ 1]=8.595539, nextPhis[ 1]=8.599137 <==IsSwitchingOccur() T = 3.860000 Tnext = 3.865000 Time: 3.86000e+00 states: [ -2.34258e+00 -5.71406e-01] derivs: [ -5.71163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.865000 pESO->GetIndependentVar(): 3.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.599137, nextPhis[ 0]=-2.602660 prevPhis[ 1]=8.599137, nextPhis[ 1]=8.602660 <==IsSwitchingOccur() T = 3.865000 Tnext = 3.870000 Time: 3.86500e+00 states: [ -2.34542e+00 -5.66406e-01] derivs: [ -5.66163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.870000 pESO->GetIndependentVar(): 3.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.602660, nextPhis[ 0]=-2.606109 prevPhis[ 1]=8.602660, nextPhis[ 1]=8.606109 <==IsSwitchingOccur() T = 3.870000 Tnext = 3.875000 Time: 3.87000e+00 states: [ -2.34823e+00 -5.61406e-01] derivs: [ -5.61163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.875000 pESO->GetIndependentVar(): 3.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.606109, nextPhis[ 0]=-2.609482 prevPhis[ 1]=8.606109, nextPhis[ 1]=8.609482 <==IsSwitchingOccur() T = 3.875000 Tnext = 3.880000 Time: 3.87500e+00 states: [ -2.35103e+00 -5.56406e-01] derivs: [ -5.56163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.880000 pESO->GetIndependentVar(): 3.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.609482, nextPhis[ 0]=-2.612780 prevPhis[ 1]=8.609482, nextPhis[ 1]=8.612780 <==IsSwitchingOccur() T = 3.880000 Tnext = 3.885000 Time: 3.88000e+00 states: [ -2.35379e+00 -5.51406e-01] derivs: [ -5.51163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.885000 pESO->GetIndependentVar(): 3.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.612780, nextPhis[ 0]=-2.616003 prevPhis[ 1]=8.612780, nextPhis[ 1]=8.616003 <==IsSwitchingOccur() T = 3.885000 Tnext = 3.890000 Time: 3.88500e+00 states: [ -2.35653e+00 -5.46406e-01] derivs: [ -5.46163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.890000 pESO->GetIndependentVar(): 3.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.616003, nextPhis[ 0]=-2.619152 prevPhis[ 1]=8.616003, nextPhis[ 1]=8.619152 <==IsSwitchingOccur() T = 3.890000 Tnext = 3.895000 Time: 3.89000e+00 states: [ -2.35925e+00 -5.41406e-01] derivs: [ -5.41163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.895000 pESO->GetIndependentVar(): 3.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.619152, nextPhis[ 0]=-2.622225 prevPhis[ 1]=8.619152, nextPhis[ 1]=8.622225 <==IsSwitchingOccur() T = 3.895000 Tnext = 3.900000 Time: 3.89500e+00 states: [ -2.36194e+00 -5.36406e-01] derivs: [ -5.36163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.900000 pESO->GetIndependentVar(): 3.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.622225, nextPhis[ 0]=-2.625223 prevPhis[ 1]=8.622225, nextPhis[ 1]=8.625223 <==IsSwitchingOccur() T = 3.900000 Tnext = 3.905000 Time: 3.90000e+00 states: [ -2.36461e+00 -5.31406e-01] derivs: [ -5.31163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.905000 pESO->GetIndependentVar(): 3.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.625223, nextPhis[ 0]=-2.628146 prevPhis[ 1]=8.625223, nextPhis[ 1]=8.628146 <==IsSwitchingOccur() T = 3.905000 Tnext = 3.910000 Time: 3.90500e+00 states: [ -2.36725e+00 -5.26406e-01] derivs: [ -5.26163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.910000 pESO->GetIndependentVar(): 3.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.628146, nextPhis[ 0]=-2.630995 prevPhis[ 1]=8.628146, nextPhis[ 1]=8.630995 <==IsSwitchingOccur() T = 3.910000 Tnext = 3.915000 Time: 3.91000e+00 states: [ -2.36986e+00 -5.21406e-01] derivs: [ -5.21163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.915000 pESO->GetIndependentVar(): 3.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.630995, nextPhis[ 0]=-2.633768 prevPhis[ 1]=8.630995, nextPhis[ 1]=8.633768 <==IsSwitchingOccur() T = 3.915000 Tnext = 3.920000 Time: 3.91500e+00 states: [ -2.37245e+00 -5.16406e-01] derivs: [ -5.16163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.920000 pESO->GetIndependentVar(): 3.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.633768, nextPhis[ 0]=-2.636466 prevPhis[ 1]=8.633768, nextPhis[ 1]=8.636466 <==IsSwitchingOccur() T = 3.920000 Tnext = 3.925000 Time: 3.92000e+00 states: [ -2.37502e+00 -5.11406e-01] derivs: [ -5.11163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.925000 pESO->GetIndependentVar(): 3.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.636466, nextPhis[ 0]=-2.639089 prevPhis[ 1]=8.636466, nextPhis[ 1]=8.639089 <==IsSwitchingOccur() T = 3.925000 Tnext = 3.930000 Time: 3.92500e+00 states: [ -2.37756e+00 -5.06406e-01] derivs: [ -5.06163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.930000 pESO->GetIndependentVar(): 3.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.639089, nextPhis[ 0]=-2.641638 prevPhis[ 1]=8.639089, nextPhis[ 1]=8.641638 <==IsSwitchingOccur() T = 3.930000 Tnext = 3.935000 Time: 3.93000e+00 states: [ -2.38008e+00 -5.01406e-01] derivs: [ -5.01163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.935000 pESO->GetIndependentVar(): 3.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.641638, nextPhis[ 0]=-2.644111 prevPhis[ 1]=8.641638, nextPhis[ 1]=8.644111 <==IsSwitchingOccur() T = 3.935000 Tnext = 3.940000 Time: 3.93500e+00 states: [ -2.38257e+00 -4.96406e-01] derivs: [ -4.96163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.940000 pESO->GetIndependentVar(): 3.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.644111, nextPhis[ 0]=-2.646509 prevPhis[ 1]=8.644111, nextPhis[ 1]=8.646509 <==IsSwitchingOccur() T = 3.940000 Tnext = 3.945000 Time: 3.94000e+00 states: [ -2.38503e+00 -4.91406e-01] derivs: [ -4.91163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.945000 pESO->GetIndependentVar(): 3.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.646509, nextPhis[ 0]=-2.648832 prevPhis[ 1]=8.646509, nextPhis[ 1]=8.648832 <==IsSwitchingOccur() T = 3.945000 Tnext = 3.950000 Time: 3.94500e+00 states: [ -2.38748e+00 -4.86406e-01] derivs: [ -4.86163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.950000 pESO->GetIndependentVar(): 3.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.648832, nextPhis[ 0]=-2.651080 prevPhis[ 1]=8.648832, nextPhis[ 1]=8.651080 <==IsSwitchingOccur() T = 3.950000 Tnext = 3.955000 Time: 3.95000e+00 states: [ -2.38989e+00 -4.81406e-01] derivs: [ -4.81163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.955000 pESO->GetIndependentVar(): 3.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.651080, nextPhis[ 0]=-2.653254 prevPhis[ 1]=8.651080, nextPhis[ 1]=8.653254 <==IsSwitchingOccur() T = 3.955000 Tnext = 3.960000 Time: 3.95500e+00 states: [ -2.39228e+00 -4.76406e-01] derivs: [ -4.76163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.960000 pESO->GetIndependentVar(): 3.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.653254, nextPhis[ 0]=-2.655352 prevPhis[ 1]=8.653254, nextPhis[ 1]=8.655352 <==IsSwitchingOccur() T = 3.960000 Tnext = 3.965000 Time: 3.96000e+00 states: [ -2.39465e+00 -4.71406e-01] derivs: [ -4.71163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.965000 pESO->GetIndependentVar(): 3.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.655352, nextPhis[ 0]=-2.657375 prevPhis[ 1]=8.655352, nextPhis[ 1]=8.657375 <==IsSwitchingOccur() T = 3.965000 Tnext = 3.970000 Time: 3.96500e+00 states: [ -2.39699e+00 -4.66406e-01] derivs: [ -4.66163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.970000 pESO->GetIndependentVar(): 3.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.657375, nextPhis[ 0]=-2.659323 prevPhis[ 1]=8.657375, nextPhis[ 1]=8.659323 <==IsSwitchingOccur() T = 3.970000 Tnext = 3.975000 Time: 3.97000e+00 states: [ -2.39931e+00 -4.61406e-01] derivs: [ -4.61163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.975000 pESO->GetIndependentVar(): 3.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.659323, nextPhis[ 0]=-2.661197 prevPhis[ 1]=8.659323, nextPhis[ 1]=8.661197 <==IsSwitchingOccur() T = 3.975000 Tnext = 3.980000 Time: 3.97500e+00 states: [ -2.40160e+00 -4.56406e-01] derivs: [ -4.56163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.980000 pESO->GetIndependentVar(): 3.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.661197, nextPhis[ 0]=-2.662995 prevPhis[ 1]=8.661197, nextPhis[ 1]=8.662995 <==IsSwitchingOccur() T = 3.980000 Tnext = 3.985000 Time: 3.98000e+00 states: [ -2.40386e+00 -4.51406e-01] derivs: [ -4.51163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.985000 pESO->GetIndependentVar(): 3.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.662995, nextPhis[ 0]=-2.664718 prevPhis[ 1]=8.662995, nextPhis[ 1]=8.664718 <==IsSwitchingOccur() T = 3.985000 Tnext = 3.990000 Time: 3.98500e+00 states: [ -2.40610e+00 -4.46406e-01] derivs: [ -4.46163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.990000 pESO->GetIndependentVar(): 3.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.664718, nextPhis[ 0]=-2.666366 prevPhis[ 1]=8.664718, nextPhis[ 1]=8.666366 <==IsSwitchingOccur() T = 3.990000 Tnext = 3.995000 Time: 3.99000e+00 states: [ -2.40832e+00 -4.41406e-01] derivs: [ -4.41163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 3.995000 pESO->GetIndependentVar(): 3.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.666366, nextPhis[ 0]=-2.667940 prevPhis[ 1]=8.666366, nextPhis[ 1]=8.667940 <==IsSwitchingOccur() T = 3.995000 Tnext = 4.000000 Time: 3.99500e+00 states: [ -2.41051e+00 -4.36406e-01] derivs: [ -4.36163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.000000 pESO->GetIndependentVar(): 4.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.667940, nextPhis[ 0]=-2.669438 prevPhis[ 1]=8.667940, nextPhis[ 1]=8.669438 <==IsSwitchingOccur() T = 4.000000 Tnext = 4.005000 Time: 4.00000e+00 states: [ -2.41268e+00 -4.31406e-01] derivs: [ -4.31163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.005000 pESO->GetIndependentVar(): 4.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.669438, nextPhis[ 0]=-2.670861 prevPhis[ 1]=8.669438, nextPhis[ 1]=8.670861 <==IsSwitchingOccur() T = 4.005000 Tnext = 4.010000 Time: 4.00500e+00 states: [ -2.41482e+00 -4.26406e-01] derivs: [ -4.26163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.010000 pESO->GetIndependentVar(): 4.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.670861, nextPhis[ 0]=-2.672209 prevPhis[ 1]=8.670861, nextPhis[ 1]=8.672209 <==IsSwitchingOccur() T = 4.010000 Tnext = 4.015000 Time: 4.01000e+00 states: [ -2.41693e+00 -4.21406e-01] derivs: [ -4.21163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.015000 pESO->GetIndependentVar(): 4.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.672209, nextPhis[ 0]=-2.673483 prevPhis[ 1]=8.672209, nextPhis[ 1]=8.673483 <==IsSwitchingOccur() T = 4.015000 Tnext = 4.020000 Time: 4.01500e+00 states: [ -2.41903e+00 -4.16406e-01] derivs: [ -4.16163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.020000 pESO->GetIndependentVar(): 4.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.673483, nextPhis[ 0]=-2.674681 prevPhis[ 1]=8.673483, nextPhis[ 1]=8.674681 <==IsSwitchingOccur() T = 4.020000 Tnext = 4.025000 Time: 4.02000e+00 states: [ -2.42109e+00 -4.11406e-01] derivs: [ -4.11163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.025000 pESO->GetIndependentVar(): 4.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.674681, nextPhis[ 0]=-2.675804 prevPhis[ 1]=8.674681, nextPhis[ 1]=8.675804 <==IsSwitchingOccur() T = 4.025000 Tnext = 4.030000 Time: 4.02500e+00 states: [ -2.42313e+00 -4.06406e-01] derivs: [ -4.06163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.030000 pESO->GetIndependentVar(): 4.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.675804, nextPhis[ 0]=-2.676852 prevPhis[ 1]=8.675804, nextPhis[ 1]=8.676852 <==IsSwitchingOccur() T = 4.030000 Tnext = 4.035000 Time: 4.03000e+00 states: [ -2.42515e+00 -4.01406e-01] derivs: [ -4.01163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.035000 pESO->GetIndependentVar(): 4.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.676852, nextPhis[ 0]=-2.677826 prevPhis[ 1]=8.676852, nextPhis[ 1]=8.677826 <==IsSwitchingOccur() T = 4.035000 Tnext = 4.040000 Time: 4.03500e+00 states: [ -2.42714e+00 -3.96406e-01] derivs: [ -3.96163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.040000 pESO->GetIndependentVar(): 4.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.677826, nextPhis[ 0]=-2.678724 prevPhis[ 1]=8.677826, nextPhis[ 1]=8.678724 <==IsSwitchingOccur() T = 4.040000 Tnext = 4.045000 Time: 4.04000e+00 states: [ -2.42911e+00 -3.91406e-01] derivs: [ -3.91163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.045000 pESO->GetIndependentVar(): 4.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.678724, nextPhis[ 0]=-2.679547 prevPhis[ 1]=8.678724, nextPhis[ 1]=8.679547 <==IsSwitchingOccur() T = 4.045000 Tnext = 4.050000 Time: 4.04500e+00 states: [ -2.43105e+00 -3.86406e-01] derivs: [ -3.86163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.050000 pESO->GetIndependentVar(): 4.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.679547, nextPhis[ 0]=-2.680295 prevPhis[ 1]=8.679547, nextPhis[ 1]=8.680295 <==IsSwitchingOccur() T = 4.050000 Tnext = 4.055000 Time: 4.05000e+00 states: [ -2.43296e+00 -3.81406e-01] derivs: [ -3.81163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.055000 pESO->GetIndependentVar(): 4.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.680295, nextPhis[ 0]=-2.680968 prevPhis[ 1]=8.680295, nextPhis[ 1]=8.680968 <==IsSwitchingOccur() T = 4.055000 Tnext = 4.060000 Time: 4.05500e+00 states: [ -2.43485e+00 -3.76406e-01] derivs: [ -3.76163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.060000 pESO->GetIndependentVar(): 4.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.680968, nextPhis[ 0]=-2.681567 prevPhis[ 1]=8.680968, nextPhis[ 1]=8.681567 <==IsSwitchingOccur() T = 4.060000 Tnext = 4.065000 Time: 4.06000e+00 states: [ -2.43672e+00 -3.71406e-01] derivs: [ -3.71163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.065000 pESO->GetIndependentVar(): 4.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.681567, nextPhis[ 0]=-2.682090 prevPhis[ 1]=8.681567, nextPhis[ 1]=8.682090 <==IsSwitchingOccur() T = 4.065000 Tnext = 4.070000 Time: 4.06500e+00 states: [ -2.43856e+00 -3.66406e-01] derivs: [ -3.66163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.070000 pESO->GetIndependentVar(): 4.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.682090, nextPhis[ 0]=-2.682538 prevPhis[ 1]=8.682090, nextPhis[ 1]=8.682538 <==IsSwitchingOccur() T = 4.070000 Tnext = 4.075000 Time: 4.07000e+00 states: [ -2.44038e+00 -3.61406e-01] derivs: [ -3.61163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.075000 pESO->GetIndependentVar(): 4.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.682538, nextPhis[ 0]=-2.682911 prevPhis[ 1]=8.682538, nextPhis[ 1]=8.682911 <==IsSwitchingOccur() T = 4.075000 Tnext = 4.080000 Time: 4.07500e+00 states: [ -2.44217e+00 -3.56406e-01] derivs: [ -3.56163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.080000 pESO->GetIndependentVar(): 4.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.682911, nextPhis[ 0]=-2.683210 prevPhis[ 1]=8.682911, nextPhis[ 1]=8.683210 <==IsSwitchingOccur() T = 4.080000 Tnext = 4.085000 Time: 4.08000e+00 states: [ -2.44393e+00 -3.51406e-01] derivs: [ -3.51163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.085000 pESO->GetIndependentVar(): 4.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.683210, nextPhis[ 0]=-2.683433 prevPhis[ 1]=8.683210, nextPhis[ 1]=8.683433 <==IsSwitchingOccur() T = 4.085000 Tnext = 4.090000 Time: 4.08500e+00 states: [ -2.44568e+00 -3.46406e-01] derivs: [ -3.46163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.090000 pESO->GetIndependentVar(): 4.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.683433, nextPhis[ 0]=-2.683581 prevPhis[ 1]=8.683433, nextPhis[ 1]=8.683581 <==IsSwitchingOccur() T = 4.090000 Tnext = 4.095000 Time: 4.09000e+00 states: [ -2.44739e+00 -3.41406e-01] derivs: [ -3.41163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.095000 pESO->GetIndependentVar(): 4.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.683581, nextPhis[ 0]=-2.683654 prevPhis[ 1]=8.683581, nextPhis[ 1]=8.683654 <==IsSwitchingOccur() T = 4.095000 Tnext = 4.100000 Time: 4.09500e+00 states: [ -2.44908e+00 -3.36406e-01] derivs: [ -3.36163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.100000 pESO->GetIndependentVar(): 4.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.683654, nextPhis[ 0]=-2.683653 prevPhis[ 1]=8.683654, nextPhis[ 1]=8.683653 <==IsSwitchingOccur() T = 4.100000 Tnext = 4.105000 Time: 4.10000e+00 states: [ -2.45075e+00 -3.31406e-01] derivs: [ -3.31163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.105000 pESO->GetIndependentVar(): 4.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.683653, nextPhis[ 0]=-2.683576 prevPhis[ 1]=8.683653, nextPhis[ 1]=8.683576 <==IsSwitchingOccur() T = 4.105000 Tnext = 4.110000 Time: 4.10500e+00 states: [ -2.45239e+00 -3.26406e-01] derivs: [ -3.26163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.110000 pESO->GetIndependentVar(): 4.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.683576, nextPhis[ 0]=-2.683424 prevPhis[ 1]=8.683576, nextPhis[ 1]=8.683424 <==IsSwitchingOccur() T = 4.110000 Tnext = 4.115000 Time: 4.11000e+00 states: [ -2.45401e+00 -3.21406e-01] derivs: [ -3.21163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.115000 pESO->GetIndependentVar(): 4.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.683424, nextPhis[ 0]=-2.683197 prevPhis[ 1]=8.683424, nextPhis[ 1]=8.683197 <==IsSwitchingOccur() T = 4.115000 Tnext = 4.120000 Time: 4.11500e+00 states: [ -2.45560e+00 -3.16406e-01] derivs: [ -3.16163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.120000 pESO->GetIndependentVar(): 4.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.683197, nextPhis[ 0]=-2.682896 prevPhis[ 1]=8.683197, nextPhis[ 1]=8.682896 <==IsSwitchingOccur() T = 4.120000 Tnext = 4.125000 Time: 4.12000e+00 states: [ -2.45716e+00 -3.11406e-01] derivs: [ -3.11163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.125000 pESO->GetIndependentVar(): 4.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.682896, nextPhis[ 0]=-2.682519 prevPhis[ 1]=8.682896, nextPhis[ 1]=8.682519 <==IsSwitchingOccur() T = 4.125000 Tnext = 4.130000 Time: 4.12500e+00 states: [ -2.45870e+00 -3.06406e-01] derivs: [ -3.06163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.130000 pESO->GetIndependentVar(): 4.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.682519, nextPhis[ 0]=-2.682067 prevPhis[ 1]=8.682519, nextPhis[ 1]=8.682067 <==IsSwitchingOccur() T = 4.130000 Tnext = 4.135000 Time: 4.13000e+00 states: [ -2.46022e+00 -3.01406e-01] derivs: [ -3.01163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.135000 pESO->GetIndependentVar(): 4.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.682067, nextPhis[ 0]=-2.681540 prevPhis[ 1]=8.682067, nextPhis[ 1]=8.681540 <==IsSwitchingOccur() T = 4.135000 Tnext = 4.140000 Time: 4.13500e+00 states: [ -2.46171e+00 -2.96406e-01] derivs: [ -2.96163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.140000 pESO->GetIndependentVar(): 4.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.681540, nextPhis[ 0]=-2.680939 prevPhis[ 1]=8.681540, nextPhis[ 1]=8.680939 <==IsSwitchingOccur() T = 4.140000 Tnext = 4.145000 Time: 4.14000e+00 states: [ -2.46318e+00 -2.91406e-01] derivs: [ -2.91163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.145000 pESO->GetIndependentVar(): 4.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.680939, nextPhis[ 0]=-2.680262 prevPhis[ 1]=8.680939, nextPhis[ 1]=8.680262 <==IsSwitchingOccur() T = 4.145000 Tnext = 4.150000 Time: 4.14500e+00 states: [ -2.46462e+00 -2.86406e-01] derivs: [ -2.86163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.150000 pESO->GetIndependentVar(): 4.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.680262, nextPhis[ 0]=-2.679510 prevPhis[ 1]=8.680262, nextPhis[ 1]=8.679510 <==IsSwitchingOccur() T = 4.150000 Tnext = 4.155000 Time: 4.15000e+00 states: [ -2.46603e+00 -2.81406e-01] derivs: [ -2.81163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.155000 pESO->GetIndependentVar(): 4.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.679510, nextPhis[ 0]=-2.678683 prevPhis[ 1]=8.679510, nextPhis[ 1]=8.678683 <==IsSwitchingOccur() T = 4.155000 Tnext = 4.160000 Time: 4.15500e+00 states: [ -2.46743e+00 -2.76406e-01] derivs: [ -2.76163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.160000 pESO->GetIndependentVar(): 4.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.678683, nextPhis[ 0]=-2.677781 prevPhis[ 1]=8.678683, nextPhis[ 1]=8.677781 <==IsSwitchingOccur() T = 4.160000 Tnext = 4.165000 Time: 4.16000e+00 states: [ -2.46879e+00 -2.71406e-01] derivs: [ -2.71163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.165000 pESO->GetIndependentVar(): 4.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.677781, nextPhis[ 0]=-2.676805 prevPhis[ 1]=8.677781, nextPhis[ 1]=8.676805 <==IsSwitchingOccur() T = 4.165000 Tnext = 4.170000 Time: 4.16500e+00 states: [ -2.47013e+00 -2.66406e-01] derivs: [ -2.66163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.170000 pESO->GetIndependentVar(): 4.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.676805, nextPhis[ 0]=-2.675753 prevPhis[ 1]=8.676805, nextPhis[ 1]=8.675753 <==IsSwitchingOccur() T = 4.170000 Tnext = 4.175000 Time: 4.17000e+00 states: [ -2.47145e+00 -2.61406e-01] derivs: [ -2.61163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.175000 pESO->GetIndependentVar(): 4.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.675753, nextPhis[ 0]=-2.674626 prevPhis[ 1]=8.675753, nextPhis[ 1]=8.674626 <==IsSwitchingOccur() T = 4.175000 Tnext = 4.180000 Time: 4.17500e+00 states: [ -2.47274e+00 -2.56406e-01] derivs: [ -2.56163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.180000 pESO->GetIndependentVar(): 4.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.674626, nextPhis[ 0]=-2.673424 prevPhis[ 1]=8.674626, nextPhis[ 1]=8.673424 <==IsSwitchingOccur() T = 4.180000 Tnext = 4.185000 Time: 4.18000e+00 states: [ -2.47401e+00 -2.51406e-01] derivs: [ -2.51163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.185000 pESO->GetIndependentVar(): 4.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.673424, nextPhis[ 0]=-2.672148 prevPhis[ 1]=8.673424, nextPhis[ 1]=8.672148 <==IsSwitchingOccur() T = 4.185000 Tnext = 4.190000 Time: 4.18500e+00 states: [ -2.47525e+00 -2.46406e-01] derivs: [ -2.46163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.190000 pESO->GetIndependentVar(): 4.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.672148, nextPhis[ 0]=-2.670796 prevPhis[ 1]=8.672148, nextPhis[ 1]=8.670796 <==IsSwitchingOccur() T = 4.190000 Tnext = 4.195000 Time: 4.19000e+00 states: [ -2.47646e+00 -2.41406e-01] derivs: [ -2.41163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.195000 pESO->GetIndependentVar(): 4.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.670796, nextPhis[ 0]=-2.669369 prevPhis[ 1]=8.670796, nextPhis[ 1]=8.669369 <==IsSwitchingOccur() T = 4.195000 Tnext = 4.200000 Time: 4.19500e+00 states: [ -2.47765e+00 -2.36406e-01] derivs: [ -2.36163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.200000 pESO->GetIndependentVar(): 4.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.669369, nextPhis[ 0]=-2.667867 prevPhis[ 1]=8.669369, nextPhis[ 1]=8.667867 <==IsSwitchingOccur() T = 4.200000 Tnext = 4.205000 Time: 4.20000e+00 states: [ -2.47882e+00 -2.31406e-01] derivs: [ -2.31163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.205000 pESO->GetIndependentVar(): 4.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.667867, nextPhis[ 0]=-2.666291 prevPhis[ 1]=8.667867, nextPhis[ 1]=8.666291 <==IsSwitchingOccur() T = 4.205000 Tnext = 4.210000 Time: 4.20500e+00 states: [ -2.47996e+00 -2.26406e-01] derivs: [ -2.26163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.210000 pESO->GetIndependentVar(): 4.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.666291, nextPhis[ 0]=-2.664639 prevPhis[ 1]=8.666291, nextPhis[ 1]=8.664639 <==IsSwitchingOccur() T = 4.210000 Tnext = 4.215000 Time: 4.21000e+00 states: [ -2.48108e+00 -2.21406e-01] derivs: [ -2.21163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.215000 pESO->GetIndependentVar(): 4.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.664639, nextPhis[ 0]=-2.662912 prevPhis[ 1]=8.664639, nextPhis[ 1]=8.662912 <==IsSwitchingOccur() T = 4.215000 Tnext = 4.220000 Time: 4.21500e+00 states: [ -2.48217e+00 -2.16406e-01] derivs: [ -2.16163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.220000 pESO->GetIndependentVar(): 4.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.662912, nextPhis[ 0]=-2.661110 prevPhis[ 1]=8.662912, nextPhis[ 1]=8.661110 <==IsSwitchingOccur() T = 4.220000 Tnext = 4.225000 Time: 4.22000e+00 states: [ -2.48323e+00 -2.11406e-01] derivs: [ -2.11163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.225000 pESO->GetIndependentVar(): 4.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.661110, nextPhis[ 0]=-2.659234 prevPhis[ 1]=8.661110, nextPhis[ 1]=8.659234 <==IsSwitchingOccur() T = 4.225000 Tnext = 4.230000 Time: 4.22500e+00 states: [ -2.48428e+00 -2.06406e-01] derivs: [ -2.06163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.230000 pESO->GetIndependentVar(): 4.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.659234, nextPhis[ 0]=-2.657282 prevPhis[ 1]=8.659234, nextPhis[ 1]=8.657282 <==IsSwitchingOccur() T = 4.230000 Tnext = 4.235000 Time: 4.23000e+00 states: [ -2.48529e+00 -2.01406e-01] derivs: [ -2.01163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.235000 pESO->GetIndependentVar(): 4.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.657282, nextPhis[ 0]=-2.655255 prevPhis[ 1]=8.657282, nextPhis[ 1]=8.655255 <==IsSwitchingOccur() T = 4.235000 Tnext = 4.240000 Time: 4.23500e+00 states: [ -2.48628e+00 -1.96406e-01] derivs: [ -1.96163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.240000 pESO->GetIndependentVar(): 4.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.655255, nextPhis[ 0]=-2.653153 prevPhis[ 1]=8.655255, nextPhis[ 1]=8.653153 <==IsSwitchingOccur() T = 4.240000 Tnext = 4.245000 Time: 4.24000e+00 states: [ -2.48725e+00 -1.91406e-01] derivs: [ -1.91163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.245000 pESO->GetIndependentVar(): 4.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.653153, nextPhis[ 0]=-2.650976 prevPhis[ 1]=8.653153, nextPhis[ 1]=8.650976 <==IsSwitchingOccur() T = 4.245000 Tnext = 4.250000 Time: 4.24500e+00 states: [ -2.48819e+00 -1.86406e-01] derivs: [ -1.86163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.250000 pESO->GetIndependentVar(): 4.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.650976, nextPhis[ 0]=-2.648725 prevPhis[ 1]=8.650976, nextPhis[ 1]=8.648725 <==IsSwitchingOccur() T = 4.250000 Tnext = 4.255000 Time: 4.25000e+00 states: [ -2.48911e+00 -1.81406e-01] derivs: [ -1.81163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.255000 pESO->GetIndependentVar(): 4.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.648725, nextPhis[ 0]=-2.646398 prevPhis[ 1]=8.648725, nextPhis[ 1]=8.646398 <==IsSwitchingOccur() T = 4.255000 Tnext = 4.260000 Time: 4.25500e+00 states: [ -2.49000e+00 -1.76406e-01] derivs: [ -1.76163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.260000 pESO->GetIndependentVar(): 4.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.646398, nextPhis[ 0]=-2.643996 prevPhis[ 1]=8.646398, nextPhis[ 1]=8.643996 <==IsSwitchingOccur() T = 4.260000 Tnext = 4.265000 Time: 4.26000e+00 states: [ -2.49086e+00 -1.71406e-01] derivs: [ -1.71163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.265000 pESO->GetIndependentVar(): 4.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.643996, nextPhis[ 0]=-2.641519 prevPhis[ 1]=8.643996, nextPhis[ 1]=8.641519 <==IsSwitchingOccur() T = 4.265000 Tnext = 4.270000 Time: 4.26500e+00 states: [ -2.49170e+00 -1.66406e-01] derivs: [ -1.66163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.270000 pESO->GetIndependentVar(): 4.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.641519, nextPhis[ 0]=-2.638968 prevPhis[ 1]=8.641519, nextPhis[ 1]=8.638968 <==IsSwitchingOccur() T = 4.270000 Tnext = 4.275000 Time: 4.27000e+00 states: [ -2.49252e+00 -1.61406e-01] derivs: [ -1.61163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.275000 pESO->GetIndependentVar(): 4.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.638968, nextPhis[ 0]=-2.636341 prevPhis[ 1]=8.638968, nextPhis[ 1]=8.636341 <==IsSwitchingOccur() T = 4.275000 Tnext = 4.280000 Time: 4.27500e+00 states: [ -2.49331e+00 -1.56406e-01] derivs: [ -1.56163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.280000 pESO->GetIndependentVar(): 4.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.636341, nextPhis[ 0]=-2.633639 prevPhis[ 1]=8.636341, nextPhis[ 1]=8.633639 <==IsSwitchingOccur() T = 4.280000 Tnext = 4.285000 Time: 4.28000e+00 states: [ -2.49408e+00 -1.51406e-01] derivs: [ -1.51163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.285000 pESO->GetIndependentVar(): 4.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.633639, nextPhis[ 0]=-2.630862 prevPhis[ 1]=8.633639, nextPhis[ 1]=8.630862 <==IsSwitchingOccur() T = 4.285000 Tnext = 4.290000 Time: 4.28500e+00 states: [ -2.49482e+00 -1.46406e-01] derivs: [ -1.46163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.290000 pESO->GetIndependentVar(): 4.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.630862, nextPhis[ 0]=-2.628011 prevPhis[ 1]=8.630862, nextPhis[ 1]=8.628011 <==IsSwitchingOccur() T = 4.290000 Tnext = 4.295000 Time: 4.29000e+00 states: [ -2.49553e+00 -1.41406e-01] derivs: [ -1.41163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.295000 pESO->GetIndependentVar(): 4.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.628011, nextPhis[ 0]=-2.625084 prevPhis[ 1]=8.628011, nextPhis[ 1]=8.625084 <==IsSwitchingOccur() T = 4.295000 Tnext = 4.300000 Time: 4.29500e+00 states: [ -2.49623e+00 -1.36406e-01] derivs: [ -1.36163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.300000 pESO->GetIndependentVar(): 4.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.625084, nextPhis[ 0]=-2.622082 prevPhis[ 1]=8.625084, nextPhis[ 1]=8.622082 <==IsSwitchingOccur() T = 4.300000 Tnext = 4.305000 Time: 4.30000e+00 states: [ -2.49689e+00 -1.31406e-01] derivs: [ -1.31163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.305000 pESO->GetIndependentVar(): 4.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.622082, nextPhis[ 0]=-2.619005 prevPhis[ 1]=8.622082, nextPhis[ 1]=8.619005 <==IsSwitchingOccur() T = 4.305000 Tnext = 4.310000 Time: 4.30500e+00 states: [ -2.49753e+00 -1.26406e-01] derivs: [ -1.26163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.310000 pESO->GetIndependentVar(): 4.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.619005, nextPhis[ 0]=-2.615854 prevPhis[ 1]=8.619005, nextPhis[ 1]=8.615854 <==IsSwitchingOccur() T = 4.310000 Tnext = 4.315000 Time: 4.31000e+00 states: [ -2.49815e+00 -1.21406e-01] derivs: [ -1.21163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.315000 pESO->GetIndependentVar(): 4.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.615854, nextPhis[ 0]=-2.612627 prevPhis[ 1]=8.615854, nextPhis[ 1]=8.612627 <==IsSwitchingOccur() T = 4.315000 Tnext = 4.320000 Time: 4.31500e+00 states: [ -2.49874e+00 -1.16406e-01] derivs: [ -1.16163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.320000 pESO->GetIndependentVar(): 4.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.612627, nextPhis[ 0]=-2.609325 prevPhis[ 1]=8.612627, nextPhis[ 1]=8.609325 <==IsSwitchingOccur() T = 4.320000 Tnext = 4.325000 Time: 4.32000e+00 states: [ -2.49931e+00 -1.11406e-01] derivs: [ -1.11163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.325000 pESO->GetIndependentVar(): 4.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.609325, nextPhis[ 0]=-2.605948 prevPhis[ 1]=8.609325, nextPhis[ 1]=8.605948 <==IsSwitchingOccur() T = 4.325000 Tnext = 4.330000 Time: 4.32500e+00 states: [ -2.49985e+00 -1.06406e-01] derivs: [ -1.06163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.330000 pESO->GetIndependentVar(): 4.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.605948, nextPhis[ 0]=-2.602497 prevPhis[ 1]=8.605948, nextPhis[ 1]=8.602497 <==IsSwitchingOccur() T = 4.330000 Tnext = 4.335000 Time: 4.33000e+00 states: [ -2.50036e+00 -1.01406e-01] derivs: [ -1.01163e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.335000 pESO->GetIndependentVar(): 4.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.602497, nextPhis[ 0]=-2.598970 prevPhis[ 1]=8.602497, nextPhis[ 1]=8.598970 <==IsSwitchingOccur() T = 4.335000 Tnext = 4.340000 Time: 4.33500e+00 states: [ -2.50085e+00 -9.64063e-02] derivs: [ -9.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.340000 pESO->GetIndependentVar(): 4.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.598970, nextPhis[ 0]=-2.595368 prevPhis[ 1]=8.598970, nextPhis[ 1]=8.595368 <==IsSwitchingOccur() T = 4.340000 Tnext = 4.345000 Time: 4.34000e+00 states: [ -2.50132e+00 -9.14063e-02] derivs: [ -9.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.345000 pESO->GetIndependentVar(): 4.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.595368, nextPhis[ 0]=-2.591691 prevPhis[ 1]=8.595368, nextPhis[ 1]=8.591691 <==IsSwitchingOccur() T = 4.345000 Tnext = 4.350000 Time: 4.34500e+00 states: [ -2.50176e+00 -8.64063e-02] derivs: [ -8.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.350000 pESO->GetIndependentVar(): 4.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.591691, nextPhis[ 0]=-2.587939 prevPhis[ 1]=8.591691, nextPhis[ 1]=8.587939 <==IsSwitchingOccur() T = 4.350000 Tnext = 4.355000 Time: 4.35000e+00 states: [ -2.50218e+00 -8.14063e-02] derivs: [ -8.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.355000 pESO->GetIndependentVar(): 4.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.587939, nextPhis[ 0]=-2.584113 prevPhis[ 1]=8.587939, nextPhis[ 1]=8.584113 <==IsSwitchingOccur() T = 4.355000 Tnext = 4.360000 Time: 4.35500e+00 states: [ -2.50257e+00 -7.64063e-02] derivs: [ -7.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.360000 pESO->GetIndependentVar(): 4.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.584113, nextPhis[ 0]=-2.580211 prevPhis[ 1]=8.584113, nextPhis[ 1]=8.580211 <==IsSwitchingOccur() T = 4.360000 Tnext = 4.365000 Time: 4.36000e+00 states: [ -2.50293e+00 -7.14063e-02] derivs: [ -7.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.365000 pESO->GetIndependentVar(): 4.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.580211, nextPhis[ 0]=-2.576234 prevPhis[ 1]=8.580211, nextPhis[ 1]=8.576234 <==IsSwitchingOccur() T = 4.365000 Tnext = 4.370000 Time: 4.36500e+00 states: [ -2.50328e+00 -6.64063e-02] derivs: [ -6.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.370000 pESO->GetIndependentVar(): 4.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.576234, nextPhis[ 0]=-2.572182 prevPhis[ 1]=8.576234, nextPhis[ 1]=8.572182 <==IsSwitchingOccur() T = 4.370000 Tnext = 4.375000 Time: 4.37000e+00 states: [ -2.50359e+00 -6.14063e-02] derivs: [ -6.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.375000 pESO->GetIndependentVar(): 4.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.572182, nextPhis[ 0]=-2.568056 prevPhis[ 1]=8.572182, nextPhis[ 1]=8.568056 <==IsSwitchingOccur() T = 4.375000 Tnext = 4.380000 Time: 4.37500e+00 states: [ -2.50388e+00 -5.64063e-02] derivs: [ -5.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.380000 pESO->GetIndependentVar(): 4.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.568056, nextPhis[ 0]=-2.563854 prevPhis[ 1]=8.568056, nextPhis[ 1]=8.563854 <==IsSwitchingOccur() T = 4.380000 Tnext = 4.385000 Time: 4.38000e+00 states: [ -2.50415e+00 -5.14063e-02] derivs: [ -5.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.385000 pESO->GetIndependentVar(): 4.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.563854, nextPhis[ 0]=-2.559577 prevPhis[ 1]=8.563854, nextPhis[ 1]=8.559577 <==IsSwitchingOccur() T = 4.385000 Tnext = 4.390000 Time: 4.38500e+00 states: [ -2.50439e+00 -4.64063e-02] derivs: [ -4.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.390000 pESO->GetIndependentVar(): 4.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.559577, nextPhis[ 0]=-2.555225 prevPhis[ 1]=8.559577, nextPhis[ 1]=8.555225 <==IsSwitchingOccur() T = 4.390000 Tnext = 4.395000 Time: 4.39000e+00 states: [ -2.50461e+00 -4.14063e-02] derivs: [ -4.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.395000 pESO->GetIndependentVar(): 4.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.555225, nextPhis[ 0]=-2.550799 prevPhis[ 1]=8.555225, nextPhis[ 1]=8.550799 <==IsSwitchingOccur() T = 4.395000 Tnext = 4.400000 Time: 4.39500e+00 states: [ -2.50480e+00 -3.64063e-02] derivs: [ -3.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.400000 pESO->GetIndependentVar(): 4.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.550799, nextPhis[ 0]=-2.546297 prevPhis[ 1]=8.550799, nextPhis[ 1]=8.546297 <==IsSwitchingOccur() T = 4.400000 Tnext = 4.405000 Time: 4.40000e+00 states: [ -2.50496e+00 -3.14063e-02] derivs: [ -3.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.405000 pESO->GetIndependentVar(): 4.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.546297, nextPhis[ 0]=-2.541720 prevPhis[ 1]=8.546297, nextPhis[ 1]=8.541720 <==IsSwitchingOccur() T = 4.405000 Tnext = 4.410000 Time: 4.40500e+00 states: [ -2.50510e+00 -2.64063e-02] derivs: [ -2.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.410000 pESO->GetIndependentVar(): 4.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.541720, nextPhis[ 0]=-2.537068 prevPhis[ 1]=8.541720, nextPhis[ 1]=8.537068 <==IsSwitchingOccur() T = 4.410000 Tnext = 4.415000 Time: 4.41000e+00 states: [ -2.50522e+00 -2.14063e-02] derivs: [ -2.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.415000 pESO->GetIndependentVar(): 4.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.537068, nextPhis[ 0]=-2.532342 prevPhis[ 1]=8.537068, nextPhis[ 1]=8.532342 <==IsSwitchingOccur() T = 4.415000 Tnext = 4.420000 Time: 4.41500e+00 states: [ -2.50531e+00 -1.64063e-02] derivs: [ -1.61634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.420000 pESO->GetIndependentVar(): 4.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.532342, nextPhis[ 0]=-2.527540 prevPhis[ 1]=8.532342, nextPhis[ 1]=8.527540 <==IsSwitchingOccur() T = 4.420000 Tnext = 4.425000 Time: 4.42000e+00 states: [ -2.50538e+00 -1.14063e-02] derivs: [ -1.11634e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.425000 pESO->GetIndependentVar(): 4.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.527540, nextPhis[ 0]=-2.522663 prevPhis[ 1]=8.527540, nextPhis[ 1]=8.522663 <==IsSwitchingOccur() T = 4.425000 Tnext = 4.430000 Time: 4.42500e+00 states: [ -2.50542e+00 -6.40626e-03] derivs: [ -6.16338e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.430000 pESO->GetIndependentVar(): 4.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.522663, nextPhis[ 0]=-2.517711 prevPhis[ 1]=8.522663, nextPhis[ 1]=8.517711 <==IsSwitchingOccur() T = 4.430000 Tnext = 4.435000 Time: 4.43000e+00 states: [ -2.50543e+00 -1.40626e-03] derivs: [ -1.16338e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.435000 pESO->GetIndependentVar(): 4.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.517711, nextPhis[ 0]=-2.512684 prevPhis[ 1]=8.517711, nextPhis[ 1]=8.512684 <==IsSwitchingOccur() T = 4.435000 Tnext = 4.440000 Time: 4.43500e+00 states: [ -2.50543e+00 3.59374e-03] derivs: [ 3.83662e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.440000 pESO->GetIndependentVar(): 4.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.512684, nextPhis[ 0]=-2.507583 prevPhis[ 1]=8.512684, nextPhis[ 1]=8.507583 <==IsSwitchingOccur() T = 4.440000 Tnext = 4.445000 Time: 4.44000e+00 states: [ -2.50539e+00 8.59375e-03] derivs: [ 8.83662e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.445000 pESO->GetIndependentVar(): 4.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.507583, nextPhis[ 0]=-2.502406 prevPhis[ 1]=8.507583, nextPhis[ 1]=8.502406 <==IsSwitchingOccur() T = 4.445000 Tnext = 4.450000 Time: 4.44500e+00 states: [ -2.50533e+00 1.35937e-02] derivs: [ 1.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.450000 pESO->GetIndependentVar(): 4.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.502406, nextPhis[ 0]=-2.497154 prevPhis[ 1]=8.502406, nextPhis[ 1]=8.497154 <==IsSwitchingOccur() T = 4.450000 Tnext = 4.455000 Time: 4.45000e+00 states: [ -2.50525e+00 1.85937e-02] derivs: [ 1.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.455000 pESO->GetIndependentVar(): 4.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.497154, nextPhis[ 0]=-2.491827 prevPhis[ 1]=8.497154, nextPhis[ 1]=8.491827 <==IsSwitchingOccur() T = 4.455000 Tnext = 4.460000 Time: 4.45500e+00 states: [ -2.50514e+00 2.35937e-02] derivs: [ 2.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.460000 pESO->GetIndependentVar(): 4.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.491827, nextPhis[ 0]=-2.486426 prevPhis[ 1]=8.491827, nextPhis[ 1]=8.486426 <==IsSwitchingOccur() T = 4.460000 Tnext = 4.465000 Time: 4.46000e+00 states: [ -2.50501e+00 2.85937e-02] derivs: [ 2.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.465000 pESO->GetIndependentVar(): 4.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.486426, nextPhis[ 0]=-2.480949 prevPhis[ 1]=8.486426, nextPhis[ 1]=8.480949 <==IsSwitchingOccur() T = 4.465000 Tnext = 4.470000 Time: 4.46500e+00 states: [ -2.50485e+00 3.35937e-02] derivs: [ 3.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.470000 pESO->GetIndependentVar(): 4.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.480949, nextPhis[ 0]=-2.475397 prevPhis[ 1]=8.480949, nextPhis[ 1]=8.475397 <==IsSwitchingOccur() T = 4.470000 Tnext = 4.475000 Time: 4.47000e+00 states: [ -2.50466e+00 3.85937e-02] derivs: [ 3.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.475000 pESO->GetIndependentVar(): 4.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.475397, nextPhis[ 0]=-2.469770 prevPhis[ 1]=8.475397, nextPhis[ 1]=8.469770 <==IsSwitchingOccur() T = 4.475000 Tnext = 4.480000 Time: 4.47500e+00 states: [ -2.50445e+00 4.35937e-02] derivs: [ 4.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.480000 pESO->GetIndependentVar(): 4.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.469770, nextPhis[ 0]=-2.464069 prevPhis[ 1]=8.469770, nextPhis[ 1]=8.464069 <==IsSwitchingOccur() T = 4.480000 Tnext = 4.485000 Time: 4.48000e+00 states: [ -2.50422e+00 4.85937e-02] derivs: [ 4.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.485000 pESO->GetIndependentVar(): 4.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.464069, nextPhis[ 0]=-2.458292 prevPhis[ 1]=8.464069, nextPhis[ 1]=8.458292 <==IsSwitchingOccur() T = 4.485000 Tnext = 4.490000 Time: 4.48500e+00 states: [ -2.50396e+00 5.35937e-02] derivs: [ 5.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.490000 pESO->GetIndependentVar(): 4.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.458292, nextPhis[ 0]=-2.452440 prevPhis[ 1]=8.458292, nextPhis[ 1]=8.452440 <==IsSwitchingOccur() T = 4.490000 Tnext = 4.495000 Time: 4.49000e+00 states: [ -2.50368e+00 5.85937e-02] derivs: [ 5.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.495000 pESO->GetIndependentVar(): 4.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.452440, nextPhis[ 0]=-2.446513 prevPhis[ 1]=8.452440, nextPhis[ 1]=8.446513 <==IsSwitchingOccur() T = 4.495000 Tnext = 4.500000 Time: 4.49500e+00 states: [ -2.50337e+00 6.35937e-02] derivs: [ 6.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.500000 pESO->GetIndependentVar(): 4.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.446513, nextPhis[ 0]=-2.440512 prevPhis[ 1]=8.446513, nextPhis[ 1]=8.440512 <==IsSwitchingOccur() T = 4.500000 Tnext = 4.505000 Time: 4.50000e+00 states: [ -2.50304e+00 6.85937e-02] derivs: [ 6.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.505000 pESO->GetIndependentVar(): 4.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.440512, nextPhis[ 0]=-2.434435 prevPhis[ 1]=8.440512, nextPhis[ 1]=8.434435 <==IsSwitchingOccur() T = 4.505000 Tnext = 4.510000 Time: 4.50500e+00 states: [ -2.50268e+00 7.35937e-02] derivs: [ 7.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.510000 pESO->GetIndependentVar(): 4.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.434435, nextPhis[ 0]=-2.428283 prevPhis[ 1]=8.434435, nextPhis[ 1]=8.428283 <==IsSwitchingOccur() T = 4.510000 Tnext = 4.515000 Time: 4.51000e+00 states: [ -2.50229e+00 7.85937e-02] derivs: [ 7.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.515000 pESO->GetIndependentVar(): 4.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.428283, nextPhis[ 0]=-2.422056 prevPhis[ 1]=8.428283, nextPhis[ 1]=8.422056 <==IsSwitchingOccur() T = 4.515000 Tnext = 4.520000 Time: 4.51500e+00 states: [ -2.50188e+00 8.35937e-02] derivs: [ 8.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.520000 pESO->GetIndependentVar(): 4.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.422056, nextPhis[ 0]=-2.415755 prevPhis[ 1]=8.422056, nextPhis[ 1]=8.415755 <==IsSwitchingOccur() T = 4.520000 Tnext = 4.525000 Time: 4.52000e+00 states: [ -2.50145e+00 8.85937e-02] derivs: [ 8.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.525000 pESO->GetIndependentVar(): 4.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.415755, nextPhis[ 0]=-2.409378 prevPhis[ 1]=8.415755, nextPhis[ 1]=8.409378 <==IsSwitchingOccur() T = 4.525000 Tnext = 4.530000 Time: 4.52500e+00 states: [ -2.50099e+00 9.35937e-02] derivs: [ 9.38366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.530000 pESO->GetIndependentVar(): 4.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.409378, nextPhis[ 0]=-2.402926 prevPhis[ 1]=8.409378, nextPhis[ 1]=8.402926 <==IsSwitchingOccur() T = 4.530000 Tnext = 4.535000 Time: 4.53000e+00 states: [ -2.50051e+00 9.85937e-02] derivs: [ 9.88366e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.535000 pESO->GetIndependentVar(): 4.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.402926, nextPhis[ 0]=-2.396399 prevPhis[ 1]=8.402926, nextPhis[ 1]=8.396399 <==IsSwitchingOccur() T = 4.535000 Tnext = 4.540000 Time: 4.53500e+00 states: [ -2.50000e+00 1.03594e-01] derivs: [ 1.03837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.540000 pESO->GetIndependentVar(): 4.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.396399, nextPhis[ 0]=-2.389797 prevPhis[ 1]=8.396399, nextPhis[ 1]=8.389797 <==IsSwitchingOccur() T = 4.540000 Tnext = 4.545000 Time: 4.54000e+00 states: [ -2.49946e+00 1.08594e-01] derivs: [ 1.08837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.545000 pESO->GetIndependentVar(): 4.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.389797, nextPhis[ 0]=-2.383121 prevPhis[ 1]=8.389797, nextPhis[ 1]=8.383121 <==IsSwitchingOccur() T = 4.545000 Tnext = 4.550000 Time: 4.54500e+00 states: [ -2.49890e+00 1.13594e-01] derivs: [ 1.13837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.550000 pESO->GetIndependentVar(): 4.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.383121, nextPhis[ 0]=-2.376369 prevPhis[ 1]=8.383121, nextPhis[ 1]=8.376369 <==IsSwitchingOccur() T = 4.550000 Tnext = 4.555000 Time: 4.55000e+00 states: [ -2.49832e+00 1.18594e-01] derivs: [ 1.18837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.555000 pESO->GetIndependentVar(): 4.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.376369, nextPhis[ 0]=-2.369542 prevPhis[ 1]=8.376369, nextPhis[ 1]=8.369542 <==IsSwitchingOccur() T = 4.555000 Tnext = 4.560000 Time: 4.55500e+00 states: [ -2.49771e+00 1.23594e-01] derivs: [ 1.23837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.560000 pESO->GetIndependentVar(): 4.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.369542, nextPhis[ 0]=-2.362640 prevPhis[ 1]=8.369542, nextPhis[ 1]=8.362640 <==IsSwitchingOccur() T = 4.560000 Tnext = 4.565000 Time: 4.56000e+00 states: [ -2.49708e+00 1.28594e-01] derivs: [ 1.28837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.565000 pESO->GetIndependentVar(): 4.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.362640, nextPhis[ 0]=-2.355664 prevPhis[ 1]=8.362640, nextPhis[ 1]=8.355664 <==IsSwitchingOccur() T = 4.565000 Tnext = 4.570000 Time: 4.56500e+00 states: [ -2.49642e+00 1.33594e-01] derivs: [ 1.33837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.570000 pESO->GetIndependentVar(): 4.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.355664, nextPhis[ 0]=-2.348612 prevPhis[ 1]=8.355664, nextPhis[ 1]=8.348612 <==IsSwitchingOccur() T = 4.570000 Tnext = 4.575000 Time: 4.57000e+00 states: [ -2.49574e+00 1.38594e-01] derivs: [ 1.38837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.575000 pESO->GetIndependentVar(): 4.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.348612, nextPhis[ 0]=-2.341485 prevPhis[ 1]=8.348612, nextPhis[ 1]=8.341485 <==IsSwitchingOccur() T = 4.575000 Tnext = 4.580000 Time: 4.57500e+00 states: [ -2.49503e+00 1.43594e-01] derivs: [ 1.43837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.580000 pESO->GetIndependentVar(): 4.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.341485, nextPhis[ 0]=-2.334283 prevPhis[ 1]=8.341485, nextPhis[ 1]=8.334283 <==IsSwitchingOccur() T = 4.580000 Tnext = 4.585000 Time: 4.58000e+00 states: [ -2.49429e+00 1.48594e-01] derivs: [ 1.48837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.585000 pESO->GetIndependentVar(): 4.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.334283, nextPhis[ 0]=-2.327007 prevPhis[ 1]=8.334283, nextPhis[ 1]=8.327007 <==IsSwitchingOccur() T = 4.585000 Tnext = 4.590000 Time: 4.58500e+00 states: [ -2.49353e+00 1.53594e-01] derivs: [ 1.53837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.590000 pESO->GetIndependentVar(): 4.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.327007, nextPhis[ 0]=-2.319655 prevPhis[ 1]=8.327007, nextPhis[ 1]=8.319655 <==IsSwitchingOccur() T = 4.590000 Tnext = 4.595000 Time: 4.59000e+00 states: [ -2.49275e+00 1.58594e-01] derivs: [ 1.58837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.595000 pESO->GetIndependentVar(): 4.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.319655, nextPhis[ 0]=-2.312228 prevPhis[ 1]=8.319655, nextPhis[ 1]=8.312228 <==IsSwitchingOccur() T = 4.595000 Tnext = 4.600000 Time: 4.59500e+00 states: [ -2.49194e+00 1.63594e-01] derivs: [ 1.63837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.600000 pESO->GetIndependentVar(): 4.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.312228, nextPhis[ 0]=-2.304726 prevPhis[ 1]=8.312228, nextPhis[ 1]=8.304726 <==IsSwitchingOccur() T = 4.600000 Tnext = 4.605000 Time: 4.60000e+00 states: [ -2.49111e+00 1.68594e-01] derivs: [ 1.68837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.605000 pESO->GetIndependentVar(): 4.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.304726, nextPhis[ 0]=-2.297150 prevPhis[ 1]=8.304726, nextPhis[ 1]=8.297150 <==IsSwitchingOccur() T = 4.605000 Tnext = 4.610000 Time: 4.60500e+00 states: [ -2.49025e+00 1.73594e-01] derivs: [ 1.73837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.610000 pESO->GetIndependentVar(): 4.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.297150, nextPhis[ 0]=-2.289498 prevPhis[ 1]=8.297150, nextPhis[ 1]=8.289498 <==IsSwitchingOccur() T = 4.610000 Tnext = 4.615000 Time: 4.61000e+00 states: [ -2.48936e+00 1.78594e-01] derivs: [ 1.78837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.615000 pESO->GetIndependentVar(): 4.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.289498, nextPhis[ 0]=-2.281771 prevPhis[ 1]=8.289498, nextPhis[ 1]=8.281771 <==IsSwitchingOccur() T = 4.615000 Tnext = 4.620000 Time: 4.61500e+00 states: [ -2.48845e+00 1.83594e-01] derivs: [ 1.83837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.620000 pESO->GetIndependentVar(): 4.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.281771, nextPhis[ 0]=-2.273969 prevPhis[ 1]=8.281771, nextPhis[ 1]=8.273969 <==IsSwitchingOccur() T = 4.620000 Tnext = 4.625000 Time: 4.62000e+00 states: [ -2.48752e+00 1.88594e-01] derivs: [ 1.88837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.625000 pESO->GetIndependentVar(): 4.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.273969, nextPhis[ 0]=-2.266092 prevPhis[ 1]=8.273969, nextPhis[ 1]=8.266092 <==IsSwitchingOccur() T = 4.625000 Tnext = 4.630000 Time: 4.62500e+00 states: [ -2.48656e+00 1.93594e-01] derivs: [ 1.93837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.630000 pESO->GetIndependentVar(): 4.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.266092, nextPhis[ 0]=-2.258141 prevPhis[ 1]=8.266092, nextPhis[ 1]=8.258141 <==IsSwitchingOccur() T = 4.630000 Tnext = 4.635000 Time: 4.63000e+00 states: [ -2.48558e+00 1.98594e-01] derivs: [ 1.98837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.635000 pESO->GetIndependentVar(): 4.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.258141, nextPhis[ 0]=-2.250114 prevPhis[ 1]=8.258141, nextPhis[ 1]=8.250114 <==IsSwitchingOccur() T = 4.635000 Tnext = 4.640000 Time: 4.63500e+00 states: [ -2.48457e+00 2.03594e-01] derivs: [ 2.03837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.640000 pESO->GetIndependentVar(): 4.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.250114, nextPhis[ 0]=-2.242012 prevPhis[ 1]=8.250114, nextPhis[ 1]=8.242012 <==IsSwitchingOccur() T = 4.640000 Tnext = 4.645000 Time: 4.64000e+00 states: [ -2.48354e+00 2.08594e-01] derivs: [ 2.08837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.645000 pESO->GetIndependentVar(): 4.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.242012, nextPhis[ 0]=-2.233835 prevPhis[ 1]=8.242012, nextPhis[ 1]=8.233835 <==IsSwitchingOccur() T = 4.645000 Tnext = 4.650000 Time: 4.64500e+00 states: [ -2.48248e+00 2.13594e-01] derivs: [ 2.13837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.650000 pESO->GetIndependentVar(): 4.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.233835, nextPhis[ 0]=-2.225584 prevPhis[ 1]=8.233835, nextPhis[ 1]=8.225584 <==IsSwitchingOccur() T = 4.650000 Tnext = 4.655000 Time: 4.65000e+00 states: [ -2.48139e+00 2.18594e-01] derivs: [ 2.18837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.655000 pESO->GetIndependentVar(): 4.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.225584, nextPhis[ 0]=-2.217257 prevPhis[ 1]=8.225584, nextPhis[ 1]=8.217257 <==IsSwitchingOccur() T = 4.655000 Tnext = 4.660000 Time: 4.65500e+00 states: [ -2.48028e+00 2.23594e-01] derivs: [ 2.23837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.660000 pESO->GetIndependentVar(): 4.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.217257, nextPhis[ 0]=-2.208855 prevPhis[ 1]=8.217257, nextPhis[ 1]=8.208855 <==IsSwitchingOccur() T = 4.660000 Tnext = 4.665000 Time: 4.66000e+00 states: [ -2.47915e+00 2.28594e-01] derivs: [ 2.28837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.665000 pESO->GetIndependentVar(): 4.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.208855, nextPhis[ 0]=-2.200378 prevPhis[ 1]=8.208855, nextPhis[ 1]=8.200378 <==IsSwitchingOccur() T = 4.665000 Tnext = 4.670000 Time: 4.66500e+00 states: [ -2.47799e+00 2.33594e-01] derivs: [ 2.33837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.670000 pESO->GetIndependentVar(): 4.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.200378, nextPhis[ 0]=-2.191827 prevPhis[ 1]=8.200378, nextPhis[ 1]=8.191827 <==IsSwitchingOccur() T = 4.670000 Tnext = 4.675000 Time: 4.67000e+00 states: [ -2.47681e+00 2.38594e-01] derivs: [ 2.38837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.675000 pESO->GetIndependentVar(): 4.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.191827, nextPhis[ 0]=-2.183200 prevPhis[ 1]=8.191827, nextPhis[ 1]=8.183200 <==IsSwitchingOccur() T = 4.675000 Tnext = 4.680000 Time: 4.67500e+00 states: [ -2.47560e+00 2.43594e-01] derivs: [ 2.43837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.680000 pESO->GetIndependentVar(): 4.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.183200, nextPhis[ 0]=-2.174498 prevPhis[ 1]=8.183200, nextPhis[ 1]=8.174498 <==IsSwitchingOccur() T = 4.680000 Tnext = 4.685000 Time: 4.68000e+00 states: [ -2.47436e+00 2.48594e-01] derivs: [ 2.48837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.685000 pESO->GetIndependentVar(): 4.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.174498, nextPhis[ 0]=-2.165721 prevPhis[ 1]=8.174498, nextPhis[ 1]=8.165721 <==IsSwitchingOccur() T = 4.685000 Tnext = 4.690000 Time: 4.68500e+00 states: [ -2.47311e+00 2.53594e-01] derivs: [ 2.53837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.690000 pESO->GetIndependentVar(): 4.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.165721, nextPhis[ 0]=-2.156870 prevPhis[ 1]=8.165721, nextPhis[ 1]=8.156870 <==IsSwitchingOccur() T = 4.690000 Tnext = 4.695000 Time: 4.69000e+00 states: [ -2.47182e+00 2.58594e-01] derivs: [ 2.58837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.695000 pESO->GetIndependentVar(): 4.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.156870, nextPhis[ 0]=-2.147943 prevPhis[ 1]=8.156870, nextPhis[ 1]=8.147943 <==IsSwitchingOccur() T = 4.695000 Tnext = 4.700000 Time: 4.69500e+00 states: [ -2.47051e+00 2.63594e-01] derivs: [ 2.63837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.700000 pESO->GetIndependentVar(): 4.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.147943, nextPhis[ 0]=-2.138941 prevPhis[ 1]=8.147943, nextPhis[ 1]=8.138941 <==IsSwitchingOccur() T = 4.700000 Tnext = 4.705000 Time: 4.70000e+00 states: [ -2.46918e+00 2.68594e-01] derivs: [ 2.68837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.705000 pESO->GetIndependentVar(): 4.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.138941, nextPhis[ 0]=-2.129864 prevPhis[ 1]=8.138941, nextPhis[ 1]=8.129864 <==IsSwitchingOccur() T = 4.705000 Tnext = 4.710000 Time: 4.70500e+00 states: [ -2.46782e+00 2.73594e-01] derivs: [ 2.73837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.710000 pESO->GetIndependentVar(): 4.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.129864, nextPhis[ 0]=-2.120713 prevPhis[ 1]=8.129864, nextPhis[ 1]=8.120713 <==IsSwitchingOccur() T = 4.710000 Tnext = 4.715000 Time: 4.71000e+00 states: [ -2.46644e+00 2.78594e-01] derivs: [ 2.78837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.715000 pESO->GetIndependentVar(): 4.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.120713, nextPhis[ 0]=-2.111486 prevPhis[ 1]=8.120713, nextPhis[ 1]=8.111486 <==IsSwitchingOccur() T = 4.715000 Tnext = 4.720000 Time: 4.71500e+00 states: [ -2.46503e+00 2.83594e-01] derivs: [ 2.83837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.720000 pESO->GetIndependentVar(): 4.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.111486, nextPhis[ 0]=-2.102184 prevPhis[ 1]=8.111486, nextPhis[ 1]=8.102184 <==IsSwitchingOccur() T = 4.720000 Tnext = 4.725000 Time: 4.72000e+00 states: [ -2.46359e+00 2.88594e-01] derivs: [ 2.88837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.725000 pESO->GetIndependentVar(): 4.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.102184, nextPhis[ 0]=-2.092807 prevPhis[ 1]=8.102184, nextPhis[ 1]=8.092807 <==IsSwitchingOccur() T = 4.725000 Tnext = 4.730000 Time: 4.72500e+00 states: [ -2.46213e+00 2.93594e-01] derivs: [ 2.93837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.730000 pESO->GetIndependentVar(): 4.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.092807, nextPhis[ 0]=-2.083355 prevPhis[ 1]=8.092807, nextPhis[ 1]=8.083355 <==IsSwitchingOccur() T = 4.730000 Tnext = 4.735000 Time: 4.73000e+00 states: [ -2.46065e+00 2.98594e-01] derivs: [ 2.98837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.735000 pESO->GetIndependentVar(): 4.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.083355, nextPhis[ 0]=-2.073829 prevPhis[ 1]=8.083355, nextPhis[ 1]=8.073829 <==IsSwitchingOccur() T = 4.735000 Tnext = 4.740000 Time: 4.73500e+00 states: [ -2.45914e+00 3.03594e-01] derivs: [ 3.03837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.740000 pESO->GetIndependentVar(): 4.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.073829, nextPhis[ 0]=-2.064227 prevPhis[ 1]=8.073829, nextPhis[ 1]=8.064227 <==IsSwitchingOccur() T = 4.740000 Tnext = 4.745000 Time: 4.74000e+00 states: [ -2.45761e+00 3.08594e-01] derivs: [ 3.08837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.745000 pESO->GetIndependentVar(): 4.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.064227, nextPhis[ 0]=-2.054550 prevPhis[ 1]=8.064227, nextPhis[ 1]=8.054550 <==IsSwitchingOccur() T = 4.745000 Tnext = 4.750000 Time: 4.74500e+00 states: [ -2.45605e+00 3.13594e-01] derivs: [ 3.13837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.750000 pESO->GetIndependentVar(): 4.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.054550, nextPhis[ 0]=-2.044798 prevPhis[ 1]=8.054550, nextPhis[ 1]=8.044798 <==IsSwitchingOccur() T = 4.750000 Tnext = 4.755000 Time: 4.75000e+00 states: [ -2.45446e+00 3.18594e-01] derivs: [ 3.18837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.755000 pESO->GetIndependentVar(): 4.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.044798, nextPhis[ 0]=-2.034972 prevPhis[ 1]=8.044798, nextPhis[ 1]=8.034972 <==IsSwitchingOccur() T = 4.755000 Tnext = 4.760000 Time: 4.75500e+00 states: [ -2.45286e+00 3.23594e-01] derivs: [ 3.23837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.760000 pESO->GetIndependentVar(): 4.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.034972, nextPhis[ 0]=-2.025070 prevPhis[ 1]=8.034972, nextPhis[ 1]=8.025070 <==IsSwitchingOccur() T = 4.760000 Tnext = 4.765000 Time: 4.76000e+00 states: [ -2.45122e+00 3.28594e-01] derivs: [ 3.28837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.765000 pESO->GetIndependentVar(): 4.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.025070, nextPhis[ 0]=-2.015093 prevPhis[ 1]=8.025070, nextPhis[ 1]=8.015093 <==IsSwitchingOccur() T = 4.765000 Tnext = 4.770000 Time: 4.76500e+00 states: [ -2.44956e+00 3.33594e-01] derivs: [ 3.33837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.770000 pESO->GetIndependentVar(): 4.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.015093, nextPhis[ 0]=-2.005041 prevPhis[ 1]=8.015093, nextPhis[ 1]=8.005041 <==IsSwitchingOccur() T = 4.770000 Tnext = 4.775000 Time: 4.77000e+00 states: [ -2.44788e+00 3.38594e-01] derivs: [ 3.38837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.775000 pESO->GetIndependentVar(): 4.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.005041, nextPhis[ 0]=-1.994915 prevPhis[ 1]=8.005041, nextPhis[ 1]=7.994915 <==IsSwitchingOccur() T = 4.775000 Tnext = 4.780000 Time: 4.77500e+00 states: [ -2.44617e+00 3.43594e-01] derivs: [ 3.43837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.780000 pESO->GetIndependentVar(): 4.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.994915, nextPhis[ 0]=-1.984713 prevPhis[ 1]=7.994915, nextPhis[ 1]=7.984713 <==IsSwitchingOccur() T = 4.780000 Tnext = 4.785000 Time: 4.78000e+00 states: [ -2.44444e+00 3.48594e-01] derivs: [ 3.48837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.785000 pESO->GetIndependentVar(): 4.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.984713, nextPhis[ 0]=-1.974436 prevPhis[ 1]=7.984713, nextPhis[ 1]=7.974436 <==IsSwitchingOccur() T = 4.785000 Tnext = 4.790000 Time: 4.78500e+00 states: [ -2.44268e+00 3.53594e-01] derivs: [ 3.53837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.790000 pESO->GetIndependentVar(): 4.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.974436, nextPhis[ 0]=-1.964084 prevPhis[ 1]=7.974436, nextPhis[ 1]=7.964084 <==IsSwitchingOccur() T = 4.790000 Tnext = 4.795000 Time: 4.79000e+00 states: [ -2.44089e+00 3.58594e-01] derivs: [ 3.58837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.795000 pESO->GetIndependentVar(): 4.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.964084, nextPhis[ 0]=-1.953658 prevPhis[ 1]=7.964084, nextPhis[ 1]=7.953658 <==IsSwitchingOccur() T = 4.795000 Tnext = 4.800000 Time: 4.79500e+00 states: [ -2.43908e+00 3.63594e-01] derivs: [ 3.63837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.800000 pESO->GetIndependentVar(): 4.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.953658, nextPhis[ 0]=-1.943156 prevPhis[ 1]=7.953658, nextPhis[ 1]=7.943156 <==IsSwitchingOccur() T = 4.800000 Tnext = 4.805000 Time: 4.80000e+00 states: [ -2.43725e+00 3.68594e-01] derivs: [ 3.68837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.805000 pESO->GetIndependentVar(): 4.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.943156, nextPhis[ 0]=-1.932579 prevPhis[ 1]=7.943156, nextPhis[ 1]=7.932579 <==IsSwitchingOccur() T = 4.805000 Tnext = 4.810000 Time: 4.80500e+00 states: [ -2.43539e+00 3.73594e-01] derivs: [ 3.73837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.810000 pESO->GetIndependentVar(): 4.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.932579, nextPhis[ 0]=-1.921927 prevPhis[ 1]=7.932579, nextPhis[ 1]=7.921927 <==IsSwitchingOccur() T = 4.810000 Tnext = 4.815000 Time: 4.81000e+00 states: [ -2.43351e+00 3.78594e-01] derivs: [ 3.78837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.815000 pESO->GetIndependentVar(): 4.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.921927, nextPhis[ 0]=-1.911200 prevPhis[ 1]=7.921927, nextPhis[ 1]=7.911200 <==IsSwitchingOccur() T = 4.815000 Tnext = 4.820000 Time: 4.81500e+00 states: [ -2.43160e+00 3.83594e-01] derivs: [ 3.83837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.820000 pESO->GetIndependentVar(): 4.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.911200, nextPhis[ 0]=-1.900399 prevPhis[ 1]=7.911200, nextPhis[ 1]=7.900399 <==IsSwitchingOccur() T = 4.820000 Tnext = 4.825000 Time: 4.82000e+00 states: [ -2.42966e+00 3.88594e-01] derivs: [ 3.88837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.825000 pESO->GetIndependentVar(): 4.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.900399, nextPhis[ 0]=-1.889522 prevPhis[ 1]=7.900399, nextPhis[ 1]=7.889522 <==IsSwitchingOccur() T = 4.825000 Tnext = 4.830000 Time: 4.82500e+00 states: [ -2.42771e+00 3.93594e-01] derivs: [ 3.93837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.830000 pESO->GetIndependentVar(): 4.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.889522, nextPhis[ 0]=-1.878570 prevPhis[ 1]=7.889522, nextPhis[ 1]=7.878570 <==IsSwitchingOccur() T = 4.830000 Tnext = 4.835000 Time: 4.83000e+00 states: [ -2.42572e+00 3.98594e-01] derivs: [ 3.98837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.835000 pESO->GetIndependentVar(): 4.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.878570, nextPhis[ 0]=-1.867543 prevPhis[ 1]=7.878570, nextPhis[ 1]=7.867543 <==IsSwitchingOccur() T = 4.835000 Tnext = 4.840000 Time: 4.83500e+00 states: [ -2.42371e+00 4.03594e-01] derivs: [ 4.03837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.840000 pESO->GetIndependentVar(): 4.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.867543, nextPhis[ 0]=-1.856442 prevPhis[ 1]=7.867543, nextPhis[ 1]=7.856442 <==IsSwitchingOccur() T = 4.840000 Tnext = 4.845000 Time: 4.84000e+00 states: [ -2.42168e+00 4.08594e-01] derivs: [ 4.08837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.845000 pESO->GetIndependentVar(): 4.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.856442, nextPhis[ 0]=-1.845265 prevPhis[ 1]=7.856442, nextPhis[ 1]=7.845265 <==IsSwitchingOccur() T = 4.845000 Tnext = 4.850000 Time: 4.84500e+00 states: [ -2.41962e+00 4.13594e-01] derivs: [ 4.13837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.850000 pESO->GetIndependentVar(): 4.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.845265, nextPhis[ 0]=-1.834013 prevPhis[ 1]=7.845265, nextPhis[ 1]=7.834013 <==IsSwitchingOccur() T = 4.850000 Tnext = 4.855000 Time: 4.85000e+00 states: [ -2.41754e+00 4.18594e-01] derivs: [ 4.18837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.855000 pESO->GetIndependentVar(): 4.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.834013, nextPhis[ 0]=-1.822686 prevPhis[ 1]=7.834013, nextPhis[ 1]=7.822686 <==IsSwitchingOccur() T = 4.855000 Tnext = 4.860000 Time: 4.85500e+00 states: [ -2.41543e+00 4.23594e-01] derivs: [ 4.23837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.860000 pESO->GetIndependentVar(): 4.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.822686, nextPhis[ 0]=-1.811285 prevPhis[ 1]=7.822686, nextPhis[ 1]=7.811285 <==IsSwitchingOccur() T = 4.860000 Tnext = 4.865000 Time: 4.86000e+00 states: [ -2.41329e+00 4.28594e-01] derivs: [ 4.28837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.865000 pESO->GetIndependentVar(): 4.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.811285, nextPhis[ 0]=-1.799808 prevPhis[ 1]=7.811285, nextPhis[ 1]=7.799808 <==IsSwitchingOccur() T = 4.865000 Tnext = 4.870000 Time: 4.86500e+00 states: [ -2.41113e+00 4.33594e-01] derivs: [ 4.33837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.870000 pESO->GetIndependentVar(): 4.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.799808, nextPhis[ 0]=-1.788256 prevPhis[ 1]=7.799808, nextPhis[ 1]=7.788256 <==IsSwitchingOccur() T = 4.870000 Tnext = 4.875000 Time: 4.87000e+00 states: [ -2.40895e+00 4.38594e-01] derivs: [ 4.38837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.875000 pESO->GetIndependentVar(): 4.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.788256, nextPhis[ 0]=-1.776629 prevPhis[ 1]=7.788256, nextPhis[ 1]=7.776629 <==IsSwitchingOccur() T = 4.875000 Tnext = 4.880000 Time: 4.87500e+00 states: [ -2.40674e+00 4.43594e-01] derivs: [ 4.43837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.880000 pESO->GetIndependentVar(): 4.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.776629, nextPhis[ 0]=-1.764928 prevPhis[ 1]=7.776629, nextPhis[ 1]=7.764928 <==IsSwitchingOccur() T = 4.880000 Tnext = 4.885000 Time: 4.88000e+00 states: [ -2.40451e+00 4.48594e-01] derivs: [ 4.48837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.885000 pESO->GetIndependentVar(): 4.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.764928, nextPhis[ 0]=-1.753151 prevPhis[ 1]=7.764928, nextPhis[ 1]=7.753151 <==IsSwitchingOccur() T = 4.885000 Tnext = 4.890000 Time: 4.88500e+00 states: [ -2.40225e+00 4.53594e-01] derivs: [ 4.53837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.890000 pESO->GetIndependentVar(): 4.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.753151, nextPhis[ 0]=-1.741299 prevPhis[ 1]=7.753151, nextPhis[ 1]=7.741299 <==IsSwitchingOccur() T = 4.890000 Tnext = 4.895000 Time: 4.89000e+00 states: [ -2.39996e+00 4.58594e-01] derivs: [ 4.58837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.895000 pESO->GetIndependentVar(): 4.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.741299, nextPhis[ 0]=-1.729372 prevPhis[ 1]=7.741299, nextPhis[ 1]=7.729372 <==IsSwitchingOccur() T = 4.895000 Tnext = 4.900000 Time: 4.89500e+00 states: [ -2.39766e+00 4.63594e-01] derivs: [ 4.63837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.900000 pESO->GetIndependentVar(): 4.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.729372, nextPhis[ 0]=-1.717370 prevPhis[ 1]=7.729372, nextPhis[ 1]=7.717370 <==IsSwitchingOccur() T = 4.900000 Tnext = 4.905000 Time: 4.90000e+00 states: [ -2.39532e+00 4.68594e-01] derivs: [ 4.68837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.905000 pESO->GetIndependentVar(): 4.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.717370, nextPhis[ 0]=-1.705294 prevPhis[ 1]=7.717370, nextPhis[ 1]=7.705294 <==IsSwitchingOccur() T = 4.905000 Tnext = 4.910000 Time: 4.90500e+00 states: [ -2.39296e+00 4.73594e-01] derivs: [ 4.73837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.910000 pESO->GetIndependentVar(): 4.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.705294, nextPhis[ 0]=-1.693142 prevPhis[ 1]=7.705294, nextPhis[ 1]=7.693142 <==IsSwitchingOccur() T = 4.910000 Tnext = 4.915000 Time: 4.91000e+00 states: [ -2.39058e+00 4.78594e-01] derivs: [ 4.78837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.915000 pESO->GetIndependentVar(): 4.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.693142, nextPhis[ 0]=-1.680915 prevPhis[ 1]=7.693142, nextPhis[ 1]=7.680915 <==IsSwitchingOccur() T = 4.915000 Tnext = 4.920000 Time: 4.91500e+00 states: [ -2.38817e+00 4.83594e-01] derivs: [ 4.83837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.920000 pESO->GetIndependentVar(): 4.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.680915, nextPhis[ 0]=-1.668613 prevPhis[ 1]=7.680915, nextPhis[ 1]=7.668613 <==IsSwitchingOccur() T = 4.920000 Tnext = 4.925000 Time: 4.92000e+00 states: [ -2.38574e+00 4.88594e-01] derivs: [ 4.88837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.925000 pESO->GetIndependentVar(): 4.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.668613, nextPhis[ 0]=-1.656237 prevPhis[ 1]=7.668613, nextPhis[ 1]=7.656237 <==IsSwitchingOccur() T = 4.925000 Tnext = 4.930000 Time: 4.92500e+00 states: [ -2.38328e+00 4.93594e-01] derivs: [ 4.93837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.930000 pESO->GetIndependentVar(): 4.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.656237, nextPhis[ 0]=-1.643785 prevPhis[ 1]=7.656237, nextPhis[ 1]=7.643785 <==IsSwitchingOccur() T = 4.930000 Tnext = 4.935000 Time: 4.93000e+00 states: [ -2.38079e+00 4.98594e-01] derivs: [ 4.98837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.935000 pESO->GetIndependentVar(): 4.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.643785, nextPhis[ 0]=-1.631258 prevPhis[ 1]=7.643785, nextPhis[ 1]=7.631258 <==IsSwitchingOccur() T = 4.935000 Tnext = 4.940000 Time: 4.93500e+00 states: [ -2.37828e+00 5.03594e-01] derivs: [ 5.03837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.940000 pESO->GetIndependentVar(): 4.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.631258, nextPhis[ 0]=-1.618656 prevPhis[ 1]=7.631258, nextPhis[ 1]=7.618656 <==IsSwitchingOccur() T = 4.940000 Tnext = 4.945000 Time: 4.94000e+00 states: [ -2.37575e+00 5.08594e-01] derivs: [ 5.08837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.945000 pESO->GetIndependentVar(): 4.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.618656, nextPhis[ 0]=-1.605980 prevPhis[ 1]=7.618656, nextPhis[ 1]=7.605980 <==IsSwitchingOccur() T = 4.945000 Tnext = 4.950000 Time: 4.94500e+00 states: [ -2.37319e+00 5.13594e-01] derivs: [ 5.13837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.950000 pESO->GetIndependentVar(): 4.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.605980, nextPhis[ 0]=-1.593228 prevPhis[ 1]=7.605980, nextPhis[ 1]=7.593228 <==IsSwitchingOccur() T = 4.950000 Tnext = 4.955000 Time: 4.95000e+00 states: [ -2.37061e+00 5.18594e-01] derivs: [ 5.18837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.955000 pESO->GetIndependentVar(): 4.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.593228, nextPhis[ 0]=-1.580401 prevPhis[ 1]=7.593228, nextPhis[ 1]=7.580401 <==IsSwitchingOccur() T = 4.955000 Tnext = 4.960000 Time: 4.95500e+00 states: [ -2.36800e+00 5.23594e-01] derivs: [ 5.23837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.960000 pESO->GetIndependentVar(): 4.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.580401, nextPhis[ 0]=-1.567499 prevPhis[ 1]=7.580401, nextPhis[ 1]=7.567499 <==IsSwitchingOccur() T = 4.960000 Tnext = 4.965000 Time: 4.96000e+00 states: [ -2.36536e+00 5.28594e-01] derivs: [ 5.28837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.965000 pESO->GetIndependentVar(): 4.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.567499, nextPhis[ 0]=-1.554523 prevPhis[ 1]=7.567499, nextPhis[ 1]=7.554523 <==IsSwitchingOccur() T = 4.965000 Tnext = 4.970000 Time: 4.96500e+00 states: [ -2.36271e+00 5.33594e-01] derivs: [ 5.33837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.970000 pESO->GetIndependentVar(): 4.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.554523, nextPhis[ 0]=-1.541471 prevPhis[ 1]=7.554523, nextPhis[ 1]=7.541471 <==IsSwitchingOccur() T = 4.970000 Tnext = 4.975000 Time: 4.97000e+00 states: [ -2.36002e+00 5.38594e-01] derivs: [ 5.38837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.975000 pESO->GetIndependentVar(): 4.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.541471, nextPhis[ 0]=-1.528344 prevPhis[ 1]=7.541471, nextPhis[ 1]=7.528344 <==IsSwitchingOccur() T = 4.975000 Tnext = 4.980000 Time: 4.97500e+00 states: [ -2.35731e+00 5.43594e-01] derivs: [ 5.43837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.980000 pESO->GetIndependentVar(): 4.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.528344, nextPhis[ 0]=-1.515142 prevPhis[ 1]=7.528344, nextPhis[ 1]=7.515142 <==IsSwitchingOccur() T = 4.980000 Tnext = 4.985000 Time: 4.98000e+00 states: [ -2.35458e+00 5.48594e-01] derivs: [ 5.48837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.985000 pESO->GetIndependentVar(): 4.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.515142, nextPhis[ 0]=-1.501866 prevPhis[ 1]=7.515142, nextPhis[ 1]=7.501866 <==IsSwitchingOccur() T = 4.985000 Tnext = 4.990000 Time: 4.98500e+00 states: [ -2.35182e+00 5.53594e-01] derivs: [ 5.53837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.990000 pESO->GetIndependentVar(): 4.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.501866, nextPhis[ 0]=-1.488514 prevPhis[ 1]=7.501866, nextPhis[ 1]=7.488514 <==IsSwitchingOccur() T = 4.990000 Tnext = 4.995000 Time: 4.99000e+00 states: [ -2.34904e+00 5.58594e-01] derivs: [ 5.58837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 4.995000 pESO->GetIndependentVar(): 4.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.488514, nextPhis[ 0]=-1.475087 prevPhis[ 1]=7.488514, nextPhis[ 1]=7.475087 <==IsSwitchingOccur() T = 4.995000 Tnext = 5.000000 Time: 4.99500e+00 states: [ -2.34623e+00 5.63594e-01] derivs: [ 5.63837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.000000 pESO->GetIndependentVar(): 5.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.475087, nextPhis[ 0]=-1.461585 prevPhis[ 1]=7.475087, nextPhis[ 1]=7.461585 <==IsSwitchingOccur() T = 5.000000 Tnext = 5.005000 Time: 5.00000e+00 states: [ -2.34339e+00 5.68594e-01] derivs: [ 5.68837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.005000 pESO->GetIndependentVar(): 5.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.461585, nextPhis[ 0]=-1.448008 prevPhis[ 1]=7.461585, nextPhis[ 1]=7.448008 <==IsSwitchingOccur() T = 5.005000 Tnext = 5.010000 Time: 5.00500e+00 states: [ -2.34053e+00 5.73594e-01] derivs: [ 5.73837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.010000 pESO->GetIndependentVar(): 5.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.448008, nextPhis[ 0]=-1.434357 prevPhis[ 1]=7.448008, nextPhis[ 1]=7.434357 <==IsSwitchingOccur() T = 5.010000 Tnext = 5.015000 Time: 5.01000e+00 states: [ -2.33765e+00 5.78594e-01] derivs: [ 5.78837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.015000 pESO->GetIndependentVar(): 5.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.434357, nextPhis[ 0]=-1.420630 prevPhis[ 1]=7.434357, nextPhis[ 1]=7.420630 <==IsSwitchingOccur() T = 5.015000 Tnext = 5.020000 Time: 5.01500e+00 states: [ -2.33474e+00 5.83594e-01] derivs: [ 5.83837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.020000 pESO->GetIndependentVar(): 5.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.420630, nextPhis[ 0]=-1.406828 prevPhis[ 1]=7.420630, nextPhis[ 1]=7.406828 <==IsSwitchingOccur() T = 5.020000 Tnext = 5.025000 Time: 5.02000e+00 states: [ -2.33181e+00 5.88594e-01] derivs: [ 5.88837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.025000 pESO->GetIndependentVar(): 5.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.406828, nextPhis[ 0]=-1.392951 prevPhis[ 1]=7.406828, nextPhis[ 1]=7.392951 <==IsSwitchingOccur() T = 5.025000 Tnext = 5.030000 Time: 5.02500e+00 states: [ -2.32885e+00 5.93594e-01] derivs: [ 5.93837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.030000 pESO->GetIndependentVar(): 5.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.392951, nextPhis[ 0]=-1.379000 prevPhis[ 1]=7.392951, nextPhis[ 1]=7.379000 <==IsSwitchingOccur() T = 5.030000 Tnext = 5.035000 Time: 5.03000e+00 states: [ -2.32586e+00 5.98594e-01] derivs: [ 5.98837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.035000 pESO->GetIndependentVar(): 5.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.379000, nextPhis[ 0]=-1.364973 prevPhis[ 1]=7.379000, nextPhis[ 1]=7.364973 <==IsSwitchingOccur() T = 5.035000 Tnext = 5.040000 Time: 5.03500e+00 states: [ -2.32286e+00 6.03594e-01] derivs: [ 6.03837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.040000 pESO->GetIndependentVar(): 5.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.364973, nextPhis[ 0]=-1.350871 prevPhis[ 1]=7.364973, nextPhis[ 1]=7.350871 <==IsSwitchingOccur() T = 5.040000 Tnext = 5.045000 Time: 5.04000e+00 states: [ -2.31982e+00 6.08594e-01] derivs: [ 6.08837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.045000 pESO->GetIndependentVar(): 5.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.350871, nextPhis[ 0]=-1.336694 prevPhis[ 1]=7.350871, nextPhis[ 1]=7.336694 <==IsSwitchingOccur() T = 5.045000 Tnext = 5.050000 Time: 5.04500e+00 states: [ -2.31676e+00 6.13594e-01] derivs: [ 6.13837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.050000 pESO->GetIndependentVar(): 5.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.336694, nextPhis[ 0]=-1.322443 prevPhis[ 1]=7.336694, nextPhis[ 1]=7.322443 <==IsSwitchingOccur() T = 5.050000 Tnext = 5.055000 Time: 5.05000e+00 states: [ -2.31368e+00 6.18594e-01] derivs: [ 6.18837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.055000 pESO->GetIndependentVar(): 5.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.322443, nextPhis[ 0]=-1.308116 prevPhis[ 1]=7.322443, nextPhis[ 1]=7.308116 <==IsSwitchingOccur() T = 5.055000 Tnext = 5.060000 Time: 5.05500e+00 states: [ -2.31057e+00 6.23594e-01] derivs: [ 6.23837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.060000 pESO->GetIndependentVar(): 5.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.308116, nextPhis[ 0]=-1.293714 prevPhis[ 1]=7.308116, nextPhis[ 1]=7.293714 <==IsSwitchingOccur() T = 5.060000 Tnext = 5.065000 Time: 5.06000e+00 states: [ -2.30744e+00 6.28594e-01] derivs: [ 6.28837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.065000 pESO->GetIndependentVar(): 5.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.293714, nextPhis[ 0]=-1.279237 prevPhis[ 1]=7.293714, nextPhis[ 1]=7.279237 <==IsSwitchingOccur() T = 5.065000 Tnext = 5.070000 Time: 5.06500e+00 states: [ -2.30428e+00 6.33594e-01] derivs: [ 6.33837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.070000 pESO->GetIndependentVar(): 5.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.279237, nextPhis[ 0]=-1.264686 prevPhis[ 1]=7.279237, nextPhis[ 1]=7.264686 <==IsSwitchingOccur() T = 5.070000 Tnext = 5.075000 Time: 5.07000e+00 states: [ -2.30109e+00 6.38594e-01] derivs: [ 6.38837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.075000 pESO->GetIndependentVar(): 5.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.264686, nextPhis[ 0]=-1.250059 prevPhis[ 1]=7.264686, nextPhis[ 1]=7.250059 <==IsSwitchingOccur() T = 5.075000 Tnext = 5.080000 Time: 5.07500e+00 states: [ -2.29788e+00 6.43594e-01] derivs: [ 6.43837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.080000 pESO->GetIndependentVar(): 5.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.250059, nextPhis[ 0]=-1.235357 prevPhis[ 1]=7.250059, nextPhis[ 1]=7.235357 <==IsSwitchingOccur() T = 5.080000 Tnext = 5.085000 Time: 5.08000e+00 states: [ -2.29465e+00 6.48594e-01] derivs: [ 6.48837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.085000 pESO->GetIndependentVar(): 5.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.235357, nextPhis[ 0]=-1.220580 prevPhis[ 1]=7.235357, nextPhis[ 1]=7.220580 <==IsSwitchingOccur() T = 5.085000 Tnext = 5.090000 Time: 5.08500e+00 states: [ -2.29139e+00 6.53594e-01] derivs: [ 6.53837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.090000 pESO->GetIndependentVar(): 5.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.220580, nextPhis[ 0]=-1.205728 prevPhis[ 1]=7.220580, nextPhis[ 1]=7.205728 <==IsSwitchingOccur() T = 5.090000 Tnext = 5.095000 Time: 5.09000e+00 states: [ -2.28811e+00 6.58594e-01] derivs: [ 6.58837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.095000 pESO->GetIndependentVar(): 5.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.205728, nextPhis[ 0]=-1.190802 prevPhis[ 1]=7.205728, nextPhis[ 1]=7.190802 <==IsSwitchingOccur() T = 5.095000 Tnext = 5.100000 Time: 5.09500e+00 states: [ -2.28480e+00 6.63594e-01] derivs: [ 6.63837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.100000 pESO->GetIndependentVar(): 5.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.190802, nextPhis[ 0]=-1.175800 prevPhis[ 1]=7.190802, nextPhis[ 1]=7.175800 <==IsSwitchingOccur() T = 5.100000 Tnext = 5.105000 Time: 5.10000e+00 states: [ -2.28146e+00 6.68594e-01] derivs: [ 6.68837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.105000 pESO->GetIndependentVar(): 5.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.175800, nextPhis[ 0]=-1.160723 prevPhis[ 1]=7.175800, nextPhis[ 1]=7.160723 <==IsSwitchingOccur() T = 5.105000 Tnext = 5.110000 Time: 5.10500e+00 states: [ -2.27811e+00 6.73594e-01] derivs: [ 6.73837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.110000 pESO->GetIndependentVar(): 5.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.160723, nextPhis[ 0]=-1.145571 prevPhis[ 1]=7.160723, nextPhis[ 1]=7.145571 <==IsSwitchingOccur() T = 5.110000 Tnext = 5.115000 Time: 5.11000e+00 states: [ -2.27472e+00 6.78594e-01] derivs: [ 6.78837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.115000 pESO->GetIndependentVar(): 5.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.145571, nextPhis[ 0]=-1.130345 prevPhis[ 1]=7.145571, nextPhis[ 1]=7.130345 <==IsSwitchingOccur() T = 5.115000 Tnext = 5.120000 Time: 5.11500e+00 states: [ -2.27131e+00 6.83594e-01] derivs: [ 6.83837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.120000 pESO->GetIndependentVar(): 5.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.130345, nextPhis[ 0]=-1.115043 prevPhis[ 1]=7.130345, nextPhis[ 1]=7.115043 <==IsSwitchingOccur() T = 5.120000 Tnext = 5.125000 Time: 5.12000e+00 states: [ -2.26788e+00 6.88594e-01] derivs: [ 6.88837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.125000 pESO->GetIndependentVar(): 5.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.115043, nextPhis[ 0]=-1.099666 prevPhis[ 1]=7.115043, nextPhis[ 1]=7.099666 <==IsSwitchingOccur() T = 5.125000 Tnext = 5.130000 Time: 5.12500e+00 states: [ -2.26442e+00 6.93594e-01] derivs: [ 6.93837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.130000 pESO->GetIndependentVar(): 5.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.099666, nextPhis[ 0]=-1.084214 prevPhis[ 1]=7.099666, nextPhis[ 1]=7.084214 <==IsSwitchingOccur() T = 5.130000 Tnext = 5.135000 Time: 5.13000e+00 states: [ -2.26094e+00 6.98594e-01] derivs: [ 6.98837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.135000 pESO->GetIndependentVar(): 5.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.084214, nextPhis[ 0]=-1.068688 prevPhis[ 1]=7.084214, nextPhis[ 1]=7.068688 <==IsSwitchingOccur() T = 5.135000 Tnext = 5.140000 Time: 5.13500e+00 states: [ -2.25743e+00 7.03594e-01] derivs: [ 7.03837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.140000 pESO->GetIndependentVar(): 5.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.068688, nextPhis[ 0]=-1.053086 prevPhis[ 1]=7.068688, nextPhis[ 1]=7.053086 <==IsSwitchingOccur() T = 5.140000 Tnext = 5.145000 Time: 5.14000e+00 states: [ -2.25389e+00 7.08594e-01] derivs: [ 7.08837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.145000 pESO->GetIndependentVar(): 5.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.053086, nextPhis[ 0]=-1.037409 prevPhis[ 1]=7.053086, nextPhis[ 1]=7.037409 <==IsSwitchingOccur() T = 5.145000 Tnext = 5.150000 Time: 5.14500e+00 states: [ -2.25033e+00 7.13594e-01] derivs: [ 7.13837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.150000 pESO->GetIndependentVar(): 5.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.037409, nextPhis[ 0]=-1.021657 prevPhis[ 1]=7.037409, nextPhis[ 1]=7.021657 <==IsSwitchingOccur() T = 5.150000 Tnext = 5.155000 Time: 5.15000e+00 states: [ -2.24675e+00 7.18594e-01] derivs: [ 7.18837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.155000 pESO->GetIndependentVar(): 5.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.021657, nextPhis[ 0]=-1.005831 prevPhis[ 1]=7.021657, nextPhis[ 1]=7.005831 <==IsSwitchingOccur() T = 5.155000 Tnext = 5.160000 Time: 5.15500e+00 states: [ -2.24314e+00 7.23594e-01] derivs: [ 7.23837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.160000 pESO->GetIndependentVar(): 5.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.005831, nextPhis[ 0]=-0.989929 prevPhis[ 1]=7.005831, nextPhis[ 1]=6.989929 <==IsSwitchingOccur() T = 5.160000 Tnext = 5.165000 Time: 5.16000e+00 states: [ -2.23951e+00 7.28594e-01] derivs: [ 7.28837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.165000 pESO->GetIndependentVar(): 5.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.989929, nextPhis[ 0]=-0.973952 prevPhis[ 1]=6.989929, nextPhis[ 1]=6.973952 <==IsSwitchingOccur() T = 5.165000 Tnext = 5.170000 Time: 5.16500e+00 states: [ -2.23585e+00 7.33594e-01] derivs: [ 7.33837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.170000 pESO->GetIndependentVar(): 5.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.973952, nextPhis[ 0]=-0.957900 prevPhis[ 1]=6.973952, nextPhis[ 1]=6.957900 <==IsSwitchingOccur() T = 5.170000 Tnext = 5.175000 Time: 5.17000e+00 states: [ -2.23216e+00 7.38594e-01] derivs: [ 7.38837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.175000 pESO->GetIndependentVar(): 5.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.957900, nextPhis[ 0]=-0.941773 prevPhis[ 1]=6.957900, nextPhis[ 1]=6.941773 <==IsSwitchingOccur() T = 5.175000 Tnext = 5.180000 Time: 5.17500e+00 states: [ -2.22846e+00 7.43594e-01] derivs: [ 7.43837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.180000 pESO->GetIndependentVar(): 5.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.941773, nextPhis[ 0]=-0.925572 prevPhis[ 1]=6.941773, nextPhis[ 1]=6.925572 <==IsSwitchingOccur() T = 5.180000 Tnext = 5.185000 Time: 5.18000e+00 states: [ -2.22472e+00 7.48594e-01] derivs: [ 7.48837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.185000 pESO->GetIndependentVar(): 5.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.925572, nextPhis[ 0]=-0.909295 prevPhis[ 1]=6.925572, nextPhis[ 1]=6.909295 <==IsSwitchingOccur() T = 5.185000 Tnext = 5.190000 Time: 5.18500e+00 states: [ -2.22096e+00 7.53594e-01] derivs: [ 7.53837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.190000 pESO->GetIndependentVar(): 5.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.909295, nextPhis[ 0]=-0.892943 prevPhis[ 1]=6.909295, nextPhis[ 1]=6.892943 <==IsSwitchingOccur() T = 5.190000 Tnext = 5.195000 Time: 5.19000e+00 states: [ -2.21718e+00 7.58594e-01] derivs: [ 7.58837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.195000 pESO->GetIndependentVar(): 5.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.892943, nextPhis[ 0]=-0.876516 prevPhis[ 1]=6.892943, nextPhis[ 1]=6.876516 <==IsSwitchingOccur() T = 5.195000 Tnext = 5.200000 Time: 5.19500e+00 states: [ -2.21337e+00 7.63594e-01] derivs: [ 7.63837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.200000 pESO->GetIndependentVar(): 5.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.876516, nextPhis[ 0]=-0.860015 prevPhis[ 1]=6.876516, nextPhis[ 1]=6.860015 <==IsSwitchingOccur() T = 5.200000 Tnext = 5.205000 Time: 5.20000e+00 states: [ -2.20954e+00 7.68594e-01] derivs: [ 7.68837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.205000 pESO->GetIndependentVar(): 5.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.860015, nextPhis[ 0]=-0.843438 prevPhis[ 1]=6.860015, nextPhis[ 1]=6.843438 <==IsSwitchingOccur() T = 5.205000 Tnext = 5.210000 Time: 5.20500e+00 states: [ -2.20568e+00 7.73594e-01] derivs: [ 7.73837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.210000 pESO->GetIndependentVar(): 5.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.843438, nextPhis[ 0]=-0.826786 prevPhis[ 1]=6.843438, nextPhis[ 1]=6.826786 <==IsSwitchingOccur() T = 5.210000 Tnext = 5.215000 Time: 5.21000e+00 states: [ -2.20179e+00 7.78594e-01] derivs: [ 7.78837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.215000 pESO->GetIndependentVar(): 5.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.826786, nextPhis[ 0]=-0.810059 prevPhis[ 1]=6.826786, nextPhis[ 1]=6.810059 <==IsSwitchingOccur() T = 5.215000 Tnext = 5.220000 Time: 5.21500e+00 states: [ -2.19788e+00 7.83594e-01] derivs: [ 7.83837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.220000 pESO->GetIndependentVar(): 5.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.810059, nextPhis[ 0]=-0.793258 prevPhis[ 1]=6.810059, nextPhis[ 1]=6.793258 <==IsSwitchingOccur() T = 5.220000 Tnext = 5.225000 Time: 5.22000e+00 states: [ -2.19395e+00 7.88594e-01] derivs: [ 7.88837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.225000 pESO->GetIndependentVar(): 5.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.793258, nextPhis[ 0]=-0.776381 prevPhis[ 1]=6.793258, nextPhis[ 1]=6.776381 <==IsSwitchingOccur() T = 5.225000 Tnext = 5.230000 Time: 5.22500e+00 states: [ -2.18999e+00 7.93594e-01] derivs: [ 7.93837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.230000 pESO->GetIndependentVar(): 5.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.776381, nextPhis[ 0]=-0.759429 prevPhis[ 1]=6.776381, nextPhis[ 1]=6.759429 <==IsSwitchingOccur() T = 5.230000 Tnext = 5.235000 Time: 5.23000e+00 states: [ -2.18601e+00 7.98594e-01] derivs: [ 7.98837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.235000 pESO->GetIndependentVar(): 5.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.759429, nextPhis[ 0]=-0.742402 prevPhis[ 1]=6.759429, nextPhis[ 1]=6.742402 <==IsSwitchingOccur() T = 5.235000 Tnext = 5.240000 Time: 5.23500e+00 states: [ -2.18200e+00 8.03594e-01] derivs: [ 8.03837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.240000 pESO->GetIndependentVar(): 5.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.742402, nextPhis[ 0]=-0.725301 prevPhis[ 1]=6.742402, nextPhis[ 1]=6.725301 <==IsSwitchingOccur() T = 5.240000 Tnext = 5.245000 Time: 5.24000e+00 states: [ -2.17796e+00 8.08594e-01] derivs: [ 8.08837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.245000 pESO->GetIndependentVar(): 5.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.725301, nextPhis[ 0]=-0.708124 prevPhis[ 1]=6.725301, nextPhis[ 1]=6.708124 <==IsSwitchingOccur() T = 5.245000 Tnext = 5.250000 Time: 5.24500e+00 states: [ -2.17391e+00 8.13594e-01] derivs: [ 8.13837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.250000 pESO->GetIndependentVar(): 5.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.708124, nextPhis[ 0]=-0.690872 prevPhis[ 1]=6.708124, nextPhis[ 1]=6.690872 <==IsSwitchingOccur() T = 5.250000 Tnext = 5.255000 Time: 5.25000e+00 states: [ -2.16982e+00 8.18594e-01] derivs: [ 8.18837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.255000 pESO->GetIndependentVar(): 5.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.690872, nextPhis[ 0]=-0.673545 prevPhis[ 1]=6.690872, nextPhis[ 1]=6.673545 <==IsSwitchingOccur() T = 5.255000 Tnext = 5.260000 Time: 5.25500e+00 states: [ -2.16571e+00 8.23594e-01] derivs: [ 8.23837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.260000 pESO->GetIndependentVar(): 5.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.673545, nextPhis[ 0]=-0.656144 prevPhis[ 1]=6.673545, nextPhis[ 1]=6.656144 <==IsSwitchingOccur() T = 5.260000 Tnext = 5.265000 Time: 5.26000e+00 states: [ -2.16158e+00 8.28594e-01] derivs: [ 8.28837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.265000 pESO->GetIndependentVar(): 5.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.656144, nextPhis[ 0]=-0.638667 prevPhis[ 1]=6.656144, nextPhis[ 1]=6.638667 <==IsSwitchingOccur() T = 5.265000 Tnext = 5.270000 Time: 5.26500e+00 states: [ -2.15742e+00 8.33594e-01] derivs: [ 8.33837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.270000 pESO->GetIndependentVar(): 5.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.638667, nextPhis[ 0]=-0.621115 prevPhis[ 1]=6.638667, nextPhis[ 1]=6.621115 <==IsSwitchingOccur() T = 5.270000 Tnext = 5.275000 Time: 5.27000e+00 states: [ -2.15324e+00 8.38594e-01] derivs: [ 8.38837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.275000 pESO->GetIndependentVar(): 5.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.621115, nextPhis[ 0]=-0.603488 prevPhis[ 1]=6.621115, nextPhis[ 1]=6.603488 <==IsSwitchingOccur() T = 5.275000 Tnext = 5.280000 Time: 5.27500e+00 states: [ -2.14903e+00 8.43594e-01] derivs: [ 8.43837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.280000 pESO->GetIndependentVar(): 5.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.603488, nextPhis[ 0]=-0.585786 prevPhis[ 1]=6.603488, nextPhis[ 1]=6.585786 <==IsSwitchingOccur() T = 5.280000 Tnext = 5.285000 Time: 5.28000e+00 states: [ -2.14479e+00 8.48594e-01] derivs: [ 8.48837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.285000 pESO->GetIndependentVar(): 5.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.585786, nextPhis[ 0]=-0.568010 prevPhis[ 1]=6.585786, nextPhis[ 1]=6.568010 <==IsSwitchingOccur() T = 5.285000 Tnext = 5.290000 Time: 5.28500e+00 states: [ -2.14053e+00 8.53594e-01] derivs: [ 8.53837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.290000 pESO->GetIndependentVar(): 5.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.568010, nextPhis[ 0]=-0.550158 prevPhis[ 1]=6.568010, nextPhis[ 1]=6.550158 <==IsSwitchingOccur() T = 5.290000 Tnext = 5.295000 Time: 5.29000e+00 states: [ -2.13625e+00 8.58594e-01] derivs: [ 8.58837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.295000 pESO->GetIndependentVar(): 5.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.550158, nextPhis[ 0]=-0.532231 prevPhis[ 1]=6.550158, nextPhis[ 1]=6.532231 <==IsSwitchingOccur() T = 5.295000 Tnext = 5.300000 Time: 5.29500e+00 states: [ -2.13194e+00 8.63594e-01] derivs: [ 8.63837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.300000 pESO->GetIndependentVar(): 5.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.532231, nextPhis[ 0]=-0.514229 prevPhis[ 1]=6.532231, nextPhis[ 1]=6.514229 <==IsSwitchingOccur() T = 5.300000 Tnext = 5.305000 Time: 5.30000e+00 states: [ -2.12761e+00 8.68594e-01] derivs: [ 8.68837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.305000 pESO->GetIndependentVar(): 5.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.514229, nextPhis[ 0]=-0.496153 prevPhis[ 1]=6.514229, nextPhis[ 1]=6.496153 <==IsSwitchingOccur() T = 5.305000 Tnext = 5.310000 Time: 5.30500e+00 states: [ -2.12325e+00 8.73594e-01] derivs: [ 8.73837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.310000 pESO->GetIndependentVar(): 5.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.496153, nextPhis[ 0]=-0.478001 prevPhis[ 1]=6.496153, nextPhis[ 1]=6.478001 <==IsSwitchingOccur() T = 5.310000 Tnext = 5.315000 Time: 5.31000e+00 states: [ -2.11886e+00 8.78594e-01] derivs: [ 8.78837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.315000 pESO->GetIndependentVar(): 5.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.478001, nextPhis[ 0]=-0.459774 prevPhis[ 1]=6.478001, nextPhis[ 1]=6.459774 <==IsSwitchingOccur() T = 5.315000 Tnext = 5.320000 Time: 5.31500e+00 states: [ -2.11446e+00 8.83594e-01] derivs: [ 8.83837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.320000 pESO->GetIndependentVar(): 5.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.459774, nextPhis[ 0]=-0.441472 prevPhis[ 1]=6.459774, nextPhis[ 1]=6.441472 <==IsSwitchingOccur() T = 5.320000 Tnext = 5.325000 Time: 5.32000e+00 states: [ -2.11002e+00 8.88594e-01] derivs: [ 8.88837e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.325000 pESO->GetIndependentVar(): 5.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.441472, nextPhis[ 0]=-0.423100 prevPhis[ 1]=6.441472, nextPhis[ 1]=6.423100 <==IsSwitchingOccur() T = 5.325000 Tnext = 5.330000 Time: 5.32500e+00 states: [ -2.10556e+00 8.93594e-01] derivs: [ 8.93829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.330000 pESO->GetIndependentVar(): 5.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.423100, nextPhis[ 0]=-0.404652 prevPhis[ 1]=6.423100, nextPhis[ 1]=6.404652 <==IsSwitchingOccur() T = 5.330000 Tnext = 5.335000 Time: 5.33000e+00 states: [ -2.10108e+00 8.98594e-01] derivs: [ 8.98829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.335000 pESO->GetIndependentVar(): 5.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.404652, nextPhis[ 0]=-0.386129 prevPhis[ 1]=6.404652, nextPhis[ 1]=6.386129 <==IsSwitchingOccur() T = 5.335000 Tnext = 5.340000 Time: 5.33500e+00 states: [ -2.09657e+00 9.03594e-01] derivs: [ 9.03829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.340000 pESO->GetIndependentVar(): 5.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.386129, nextPhis[ 0]=-0.367532 prevPhis[ 1]=6.386129, nextPhis[ 1]=6.367532 <==IsSwitchingOccur() T = 5.340000 Tnext = 5.345000 Time: 5.34000e+00 states: [ -2.09204e+00 9.08594e-01] derivs: [ 9.08829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.345000 pESO->GetIndependentVar(): 5.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.367532, nextPhis[ 0]=-0.348859 prevPhis[ 1]=6.367532, nextPhis[ 1]=6.348859 <==IsSwitchingOccur() T = 5.345000 Tnext = 5.350000 Time: 5.34500e+00 states: [ -2.08748e+00 9.13594e-01] derivs: [ 9.13829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.350000 pESO->GetIndependentVar(): 5.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.348859, nextPhis[ 0]=-0.330111 prevPhis[ 1]=6.348859, nextPhis[ 1]=6.330111 <==IsSwitchingOccur() T = 5.350000 Tnext = 5.355000 Time: 5.35000e+00 states: [ -2.08290e+00 9.18594e-01] derivs: [ 9.18829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.355000 pESO->GetIndependentVar(): 5.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.330111, nextPhis[ 0]=-0.311289 prevPhis[ 1]=6.330111, nextPhis[ 1]=6.311289 <==IsSwitchingOccur() T = 5.355000 Tnext = 5.360000 Time: 5.35500e+00 states: [ -2.07829e+00 9.23594e-01] derivs: [ 9.23829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.360000 pESO->GetIndependentVar(): 5.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.311289, nextPhis[ 0]=-0.292391 prevPhis[ 1]=6.311289, nextPhis[ 1]=6.292391 <==IsSwitchingOccur() T = 5.360000 Tnext = 5.365000 Time: 5.36000e+00 states: [ -2.07366e+00 9.28594e-01] derivs: [ 9.28829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.365000 pESO->GetIndependentVar(): 5.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.292391, nextPhis[ 0]=-0.273418 prevPhis[ 1]=6.292391, nextPhis[ 1]=6.273418 <==IsSwitchingOccur() T = 5.365000 Tnext = 5.370000 Time: 5.36500e+00 states: [ -2.06900e+00 9.33594e-01] derivs: [ 9.33829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.370000 pESO->GetIndependentVar(): 5.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.273418, nextPhis[ 0]=-0.254370 prevPhis[ 1]=6.273418, nextPhis[ 1]=6.254370 <==IsSwitchingOccur() T = 5.370000 Tnext = 5.375000 Time: 5.37000e+00 states: [ -2.06432e+00 9.38594e-01] derivs: [ 9.38829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.375000 pESO->GetIndependentVar(): 5.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.254370, nextPhis[ 0]=-0.235248 prevPhis[ 1]=6.254370, nextPhis[ 1]=6.235248 <==IsSwitchingOccur() T = 5.375000 Tnext = 5.380000 Time: 5.37500e+00 states: [ -2.05961e+00 9.43594e-01] derivs: [ 9.43829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.380000 pESO->GetIndependentVar(): 5.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.235248, nextPhis[ 0]=-0.216050 prevPhis[ 1]=6.235248, nextPhis[ 1]=6.216050 <==IsSwitchingOccur() T = 5.380000 Tnext = 5.385000 Time: 5.38000e+00 states: [ -2.05488e+00 9.48594e-01] derivs: [ 9.48829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.385000 pESO->GetIndependentVar(): 5.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.216050, nextPhis[ 0]=-0.196777 prevPhis[ 1]=6.216050, nextPhis[ 1]=6.196777 <==IsSwitchingOccur() T = 5.385000 Tnext = 5.390000 Time: 5.38500e+00 states: [ -2.05012e+00 9.53594e-01] derivs: [ 9.53829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.390000 pESO->GetIndependentVar(): 5.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.196777, nextPhis[ 0]=-0.177430 prevPhis[ 1]=6.196777, nextPhis[ 1]=6.177430 <==IsSwitchingOccur() T = 5.390000 Tnext = 5.395000 Time: 5.39000e+00 states: [ -2.04534e+00 9.58594e-01] derivs: [ 9.58829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.395000 pESO->GetIndependentVar(): 5.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.177430, nextPhis[ 0]=-0.158007 prevPhis[ 1]=6.177430, nextPhis[ 1]=6.158007 <==IsSwitchingOccur() T = 5.395000 Tnext = 5.400000 Time: 5.39500e+00 states: [ -2.04053e+00 9.63594e-01] derivs: [ 9.63829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.400000 pESO->GetIndependentVar(): 5.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.158007, nextPhis[ 0]=-0.138509 prevPhis[ 1]=6.158007, nextPhis[ 1]=6.138509 <==IsSwitchingOccur() T = 5.400000 Tnext = 5.405000 Time: 5.40000e+00 states: [ -2.03570e+00 9.68594e-01] derivs: [ 9.68829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.405000 pESO->GetIndependentVar(): 5.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.138509, nextPhis[ 0]=-0.118937 prevPhis[ 1]=6.138509, nextPhis[ 1]=6.118937 <==IsSwitchingOccur() T = 5.405000 Tnext = 5.410000 Time: 5.40500e+00 states: [ -2.03084e+00 9.73594e-01] derivs: [ 9.73829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.410000 pESO->GetIndependentVar(): 5.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.118937, nextPhis[ 0]=-0.099289 prevPhis[ 1]=6.118937, nextPhis[ 1]=6.099289 <==IsSwitchingOccur() T = 5.410000 Tnext = 5.415000 Time: 5.41000e+00 states: [ -2.02596e+00 9.78594e-01] derivs: [ 9.78829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.415000 pESO->GetIndependentVar(): 5.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.099289, nextPhis[ 0]=-0.079566 prevPhis[ 1]=6.099289, nextPhis[ 1]=6.079566 <==IsSwitchingOccur() T = 5.415000 Tnext = 5.420000 Time: 5.41500e+00 states: [ -2.02105e+00 9.83594e-01] derivs: [ 9.83829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.420000 pESO->GetIndependentVar(): 5.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.079566, nextPhis[ 0]=-0.059769 prevPhis[ 1]=6.079566, nextPhis[ 1]=6.059769 <==IsSwitchingOccur() T = 5.420000 Tnext = 5.425000 Time: 5.42000e+00 states: [ -2.01612e+00 9.88594e-01] derivs: [ 9.88829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.425000 pESO->GetIndependentVar(): 5.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.059769, nextPhis[ 0]=-0.039896 prevPhis[ 1]=6.059769, nextPhis[ 1]=6.039896 <==IsSwitchingOccur() T = 5.425000 Tnext = 5.430000 Time: 5.42500e+00 states: [ -2.01116e+00 9.93594e-01] derivs: [ 9.93829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.430000 pESO->GetIndependentVar(): 5.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.039896, nextPhis[ 0]=-0.019948 prevPhis[ 1]=6.039896, nextPhis[ 1]=6.019948 <==IsSwitchingOccur() T = 5.430000 Tnext = 5.435000 Time: 5.43000e+00 states: [ -2.00618e+00 9.98594e-01] derivs: [ 9.98829e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.435000 pESO->GetIndependentVar(): 5.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.019948, nextPhis[ 0]=0.000074 prevPhis[ 1]=6.019948, nextPhis[ 1]=5.999926 <==IsSwitchingOccur() T = 5.435000 Tnext = 5.440000 Time: 5.43500e+00 states: [ -2.00117e+00 1.00359e+00] derivs: [ 1.00383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.440000 pESO->GetIndependentVar(): 5.440000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000074, nextPhis[ 0]=0.020172 prevPhis[ 1]=5.999926, nextPhis[ 1]=5.979828 <==IsSwitchingOccur() T = 5.440000 Tnext = 5.445000 Time: 5.44000e+00 states: [ -1.99614e+00 1.00859e+00] derivs: [ 1.00883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.445000 pESO->GetIndependentVar(): 5.445000 ==>IsSwitchingOccur() prevPhis[ 0]=0.020172, nextPhis[ 0]=0.040345 prevPhis[ 1]=5.979828, nextPhis[ 1]=5.959655 <==IsSwitchingOccur() T = 5.445000 Tnext = 5.450000 Time: 5.44500e+00 states: [ -1.99108e+00 1.01359e+00] derivs: [ 1.01383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.450000 pESO->GetIndependentVar(): 5.450000 ==>IsSwitchingOccur() prevPhis[ 0]=0.040345, nextPhis[ 0]=0.060592 prevPhis[ 1]=5.959655, nextPhis[ 1]=5.939408 <==IsSwitchingOccur() T = 5.450000 Tnext = 5.455000 Time: 5.45000e+00 states: [ -1.98600e+00 1.01859e+00] derivs: [ 1.01883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.455000 pESO->GetIndependentVar(): 5.455000 ==>IsSwitchingOccur() prevPhis[ 0]=0.060592, nextPhis[ 0]=0.080915 prevPhis[ 1]=5.939408, nextPhis[ 1]=5.919085 <==IsSwitchingOccur() T = 5.455000 Tnext = 5.460000 Time: 5.45500e+00 states: [ -1.98089e+00 1.02359e+00] derivs: [ 1.02383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.460000 pESO->GetIndependentVar(): 5.460000 ==>IsSwitchingOccur() prevPhis[ 0]=0.080915, nextPhis[ 0]=0.101313 prevPhis[ 1]=5.919085, nextPhis[ 1]=5.898687 <==IsSwitchingOccur() T = 5.460000 Tnext = 5.465000 Time: 5.46000e+00 states: [ -1.97576e+00 1.02859e+00] derivs: [ 1.02883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.465000 pESO->GetIndependentVar(): 5.465000 ==>IsSwitchingOccur() prevPhis[ 0]=0.101313, nextPhis[ 0]=0.121786 prevPhis[ 1]=5.898687, nextPhis[ 1]=5.878214 <==IsSwitchingOccur() T = 5.465000 Tnext = 5.470000 Time: 5.46500e+00 states: [ -1.97060e+00 1.03359e+00] derivs: [ 1.03383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.470000 pESO->GetIndependentVar(): 5.470000 ==>IsSwitchingOccur() prevPhis[ 0]=0.121786, nextPhis[ 0]=0.142333 prevPhis[ 1]=5.878214, nextPhis[ 1]=5.857667 <==IsSwitchingOccur() T = 5.470000 Tnext = 5.475000 Time: 5.47000e+00 states: [ -1.96542e+00 1.03859e+00] derivs: [ 1.03883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.475000 pESO->GetIndependentVar(): 5.475000 ==>IsSwitchingOccur() prevPhis[ 0]=0.142333, nextPhis[ 0]=0.162956 prevPhis[ 1]=5.857667, nextPhis[ 1]=5.837044 <==IsSwitchingOccur() T = 5.475000 Tnext = 5.480000 Time: 5.47500e+00 states: [ -1.96021e+00 1.04359e+00] derivs: [ 1.04383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.480000 pESO->GetIndependentVar(): 5.480000 ==>IsSwitchingOccur() prevPhis[ 0]=0.162956, nextPhis[ 0]=0.183654 prevPhis[ 1]=5.837044, nextPhis[ 1]=5.816346 <==IsSwitchingOccur() T = 5.480000 Tnext = 5.485000 Time: 5.48000e+00 states: [ -1.95498e+00 1.04859e+00] derivs: [ 1.04883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.485000 pESO->GetIndependentVar(): 5.485000 ==>IsSwitchingOccur() prevPhis[ 0]=0.183654, nextPhis[ 0]=0.204426 prevPhis[ 1]=5.816346, nextPhis[ 1]=5.795574 <==IsSwitchingOccur() T = 5.485000 Tnext = 5.490000 Time: 5.48500e+00 states: [ -1.94972e+00 1.05359e+00] derivs: [ 1.05383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.490000 pESO->GetIndependentVar(): 5.490000 ==>IsSwitchingOccur() prevPhis[ 0]=0.204426, nextPhis[ 0]=0.225274 prevPhis[ 1]=5.795574, nextPhis[ 1]=5.774726 <==IsSwitchingOccur() T = 5.490000 Tnext = 5.495000 Time: 5.49000e+00 states: [ -1.94444e+00 1.05859e+00] derivs: [ 1.05883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.495000 pESO->GetIndependentVar(): 5.495000 ==>IsSwitchingOccur() prevPhis[ 0]=0.225274, nextPhis[ 0]=0.246197 prevPhis[ 1]=5.774726, nextPhis[ 1]=5.753803 <==IsSwitchingOccur() T = 5.495000 Tnext = 5.500000 Time: 5.49500e+00 states: [ -1.93913e+00 1.06359e+00] derivs: [ 1.06383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.500000 pESO->GetIndependentVar(): 5.500000 ==>IsSwitchingOccur() prevPhis[ 0]=0.246197, nextPhis[ 0]=0.267194 prevPhis[ 1]=5.753803, nextPhis[ 1]=5.732806 <==IsSwitchingOccur() T = 5.500000 Tnext = 5.505000 Time: 5.50000e+00 states: [ -1.93380e+00 1.06859e+00] derivs: [ 1.06883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.505000 pESO->GetIndependentVar(): 5.505000 ==>IsSwitchingOccur() prevPhis[ 0]=0.267194, nextPhis[ 0]=0.288267 prevPhis[ 1]=5.732806, nextPhis[ 1]=5.711733 <==IsSwitchingOccur() T = 5.505000 Tnext = 5.510000 Time: 5.50500e+00 states: [ -1.92844e+00 1.07359e+00] derivs: [ 1.07383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.510000 pESO->GetIndependentVar(): 5.510000 ==>IsSwitchingOccur() prevPhis[ 0]=0.288267, nextPhis[ 0]=0.309415 prevPhis[ 1]=5.711733, nextPhis[ 1]=5.690585 <==IsSwitchingOccur() T = 5.510000 Tnext = 5.515000 Time: 5.51000e+00 states: [ -1.92306e+00 1.07859e+00] derivs: [ 1.07883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.515000 pESO->GetIndependentVar(): 5.515000 ==>IsSwitchingOccur() prevPhis[ 0]=0.309415, nextPhis[ 0]=0.330637 prevPhis[ 1]=5.690585, nextPhis[ 1]=5.669363 <==IsSwitchingOccur() T = 5.515000 Tnext = 5.520000 Time: 5.51500e+00 states: [ -1.91765e+00 1.08359e+00] derivs: [ 1.08383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.520000 pESO->GetIndependentVar(): 5.520000 ==>IsSwitchingOccur() prevPhis[ 0]=0.330637, nextPhis[ 0]=0.351935 prevPhis[ 1]=5.669363, nextPhis[ 1]=5.648065 <==IsSwitchingOccur() T = 5.520000 Tnext = 5.525000 Time: 5.52000e+00 states: [ -1.91222e+00 1.08859e+00] derivs: [ 1.08883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.525000 pESO->GetIndependentVar(): 5.525000 ==>IsSwitchingOccur() prevPhis[ 0]=0.351935, nextPhis[ 0]=0.373308 prevPhis[ 1]=5.648065, nextPhis[ 1]=5.626692 <==IsSwitchingOccur() T = 5.525000 Tnext = 5.530000 Time: 5.52500e+00 states: [ -1.90676e+00 1.09359e+00] derivs: [ 1.09383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.530000 pESO->GetIndependentVar(): 5.530000 ==>IsSwitchingOccur() prevPhis[ 0]=0.373308, nextPhis[ 0]=0.394755 prevPhis[ 1]=5.626692, nextPhis[ 1]=5.605245 <==IsSwitchingOccur() T = 5.530000 Tnext = 5.535000 Time: 5.53000e+00 states: [ -1.90128e+00 1.09859e+00] derivs: [ 1.09883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.535000 pESO->GetIndependentVar(): 5.535000 ==>IsSwitchingOccur() prevPhis[ 0]=0.394755, nextPhis[ 0]=0.416278 prevPhis[ 1]=5.605245, nextPhis[ 1]=5.583722 <==IsSwitchingOccur() T = 5.535000 Tnext = 5.540000 Time: 5.53500e+00 states: [ -1.89577e+00 1.10359e+00] derivs: [ 1.10383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.540000 pESO->GetIndependentVar(): 5.540000 ==>IsSwitchingOccur() prevPhis[ 0]=0.416278, nextPhis[ 0]=0.437876 prevPhis[ 1]=5.583722, nextPhis[ 1]=5.562124 <==IsSwitchingOccur() T = 5.540000 Tnext = 5.545000 Time: 5.54000e+00 states: [ -1.89024e+00 1.10859e+00] derivs: [ 1.10883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.545000 pESO->GetIndependentVar(): 5.545000 ==>IsSwitchingOccur() prevPhis[ 0]=0.437876, nextPhis[ 0]=0.459548 prevPhis[ 1]=5.562124, nextPhis[ 1]=5.540452 <==IsSwitchingOccur() T = 5.545000 Tnext = 5.550000 Time: 5.54500e+00 states: [ -1.88468e+00 1.11359e+00] derivs: [ 1.11383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.550000 pESO->GetIndependentVar(): 5.550000 ==>IsSwitchingOccur() prevPhis[ 0]=0.459548, nextPhis[ 0]=0.481296 prevPhis[ 1]=5.540452, nextPhis[ 1]=5.518704 <==IsSwitchingOccur() T = 5.550000 Tnext = 5.555000 Time: 5.55000e+00 states: [ -1.87910e+00 1.11859e+00] derivs: [ 1.11883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.555000 pESO->GetIndependentVar(): 5.555000 ==>IsSwitchingOccur() prevPhis[ 0]=0.481296, nextPhis[ 0]=0.503119 prevPhis[ 1]=5.518704, nextPhis[ 1]=5.496881 <==IsSwitchingOccur() T = 5.555000 Tnext = 5.560000 Time: 5.55500e+00 states: [ -1.87349e+00 1.12359e+00] derivs: [ 1.12383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.560000 pESO->GetIndependentVar(): 5.560000 ==>IsSwitchingOccur() prevPhis[ 0]=0.503119, nextPhis[ 0]=0.525017 prevPhis[ 1]=5.496881, nextPhis[ 1]=5.474983 <==IsSwitchingOccur() T = 5.560000 Tnext = 5.565000 Time: 5.56000e+00 states: [ -1.86786e+00 1.12859e+00] derivs: [ 1.12883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.565000 pESO->GetIndependentVar(): 5.565000 ==>IsSwitchingOccur() prevPhis[ 0]=0.525017, nextPhis[ 0]=0.546989 prevPhis[ 1]=5.474983, nextPhis[ 1]=5.453011 <==IsSwitchingOccur() T = 5.565000 Tnext = 5.570000 Time: 5.56500e+00 states: [ -1.86220e+00 1.13359e+00] derivs: [ 1.13383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.570000 pESO->GetIndependentVar(): 5.570000 ==>IsSwitchingOccur() prevPhis[ 0]=0.546989, nextPhis[ 0]=0.569037 prevPhis[ 1]=5.453011, nextPhis[ 1]=5.430963 <==IsSwitchingOccur() T = 5.570000 Tnext = 5.575000 Time: 5.57000e+00 states: [ -1.85652e+00 1.13859e+00] derivs: [ 1.13883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.575000 pESO->GetIndependentVar(): 5.575000 ==>IsSwitchingOccur() prevPhis[ 0]=0.569037, nextPhis[ 0]=0.591160 prevPhis[ 1]=5.430963, nextPhis[ 1]=5.408840 <==IsSwitchingOccur() T = 5.575000 Tnext = 5.580000 Time: 5.57500e+00 states: [ -1.85081e+00 1.14359e+00] derivs: [ 1.14383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.580000 pESO->GetIndependentVar(): 5.580000 ==>IsSwitchingOccur() prevPhis[ 0]=0.591160, nextPhis[ 0]=0.613357 prevPhis[ 1]=5.408840, nextPhis[ 1]=5.386643 <==IsSwitchingOccur() T = 5.580000 Tnext = 5.585000 Time: 5.58000e+00 states: [ -1.84508e+00 1.14859e+00] derivs: [ 1.14883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.585000 pESO->GetIndependentVar(): 5.585000 ==>IsSwitchingOccur() prevPhis[ 0]=0.613357, nextPhis[ 0]=0.635630 prevPhis[ 1]=5.386643, nextPhis[ 1]=5.364370 <==IsSwitchingOccur() T = 5.585000 Tnext = 5.590000 Time: 5.58500e+00 states: [ -1.83932e+00 1.15359e+00] derivs: [ 1.15383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.590000 pESO->GetIndependentVar(): 5.590000 ==>IsSwitchingOccur() prevPhis[ 0]=0.635630, nextPhis[ 0]=0.657978 prevPhis[ 1]=5.364370, nextPhis[ 1]=5.342022 <==IsSwitchingOccur() T = 5.590000 Tnext = 5.595000 Time: 5.59000e+00 states: [ -1.83354e+00 1.15859e+00] derivs: [ 1.15883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.595000 pESO->GetIndependentVar(): 5.595000 ==>IsSwitchingOccur() prevPhis[ 0]=0.657978, nextPhis[ 0]=0.680400 prevPhis[ 1]=5.342022, nextPhis[ 1]=5.319600 <==IsSwitchingOccur() T = 5.595000 Tnext = 5.600000 Time: 5.59500e+00 states: [ -1.82773e+00 1.16359e+00] derivs: [ 1.16383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.600000 pESO->GetIndependentVar(): 5.600000 ==>IsSwitchingOccur() prevPhis[ 0]=0.680400, nextPhis[ 0]=0.702898 prevPhis[ 1]=5.319600, nextPhis[ 1]=5.297102 <==IsSwitchingOccur() T = 5.600000 Tnext = 5.605000 Time: 5.60000e+00 states: [ -1.82190e+00 1.16859e+00] derivs: [ 1.16883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.605000 pESO->GetIndependentVar(): 5.605000 ==>IsSwitchingOccur() prevPhis[ 0]=0.702898, nextPhis[ 0]=0.725471 prevPhis[ 1]=5.297102, nextPhis[ 1]=5.274529 <==IsSwitchingOccur() T = 5.605000 Tnext = 5.610000 Time: 5.60500e+00 states: [ -1.81604e+00 1.17359e+00] derivs: [ 1.17383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.610000 pESO->GetIndependentVar(): 5.610000 ==>IsSwitchingOccur() prevPhis[ 0]=0.725471, nextPhis[ 0]=0.748118 prevPhis[ 1]=5.274529, nextPhis[ 1]=5.251882 <==IsSwitchingOccur() T = 5.610000 Tnext = 5.615000 Time: 5.61000e+00 states: [ -1.81016e+00 1.17859e+00] derivs: [ 1.17883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.615000 pESO->GetIndependentVar(): 5.615000 ==>IsSwitchingOccur() prevPhis[ 0]=0.748118, nextPhis[ 0]=0.770841 prevPhis[ 1]=5.251882, nextPhis[ 1]=5.229159 <==IsSwitchingOccur() T = 5.615000 Tnext = 5.620000 Time: 5.61500e+00 states: [ -1.80425e+00 1.18359e+00] derivs: [ 1.18383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.620000 pESO->GetIndependentVar(): 5.620000 ==>IsSwitchingOccur() prevPhis[ 0]=0.770841, nextPhis[ 0]=0.793639 prevPhis[ 1]=5.229159, nextPhis[ 1]=5.206361 <==IsSwitchingOccur() T = 5.620000 Tnext = 5.625000 Time: 5.62000e+00 states: [ -1.79832e+00 1.18859e+00] derivs: [ 1.18883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.625000 pESO->GetIndependentVar(): 5.625000 ==>IsSwitchingOccur() prevPhis[ 0]=0.793639, nextPhis[ 0]=0.816511 prevPhis[ 1]=5.206361, nextPhis[ 1]=5.183489 <==IsSwitchingOccur() T = 5.625000 Tnext = 5.630000 Time: 5.62500e+00 states: [ -1.79236e+00 1.19359e+00] derivs: [ 1.19383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.630000 pESO->GetIndependentVar(): 5.630000 ==>IsSwitchingOccur() prevPhis[ 0]=0.816511, nextPhis[ 0]=0.839459 prevPhis[ 1]=5.183489, nextPhis[ 1]=5.160541 <==IsSwitchingOccur() T = 5.630000 Tnext = 5.635000 Time: 5.63000e+00 states: [ -1.78638e+00 1.19859e+00] derivs: [ 1.19883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.635000 pESO->GetIndependentVar(): 5.635000 ==>IsSwitchingOccur() prevPhis[ 0]=0.839459, nextPhis[ 0]=0.862482 prevPhis[ 1]=5.160541, nextPhis[ 1]=5.137518 <==IsSwitchingOccur() T = 5.635000 Tnext = 5.640000 Time: 5.63500e+00 states: [ -1.78037e+00 1.20359e+00] derivs: [ 1.20383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.640000 pESO->GetIndependentVar(): 5.640000 ==>IsSwitchingOccur() prevPhis[ 0]=0.862482, nextPhis[ 0]=0.885579 prevPhis[ 1]=5.137518, nextPhis[ 1]=5.114421 <==IsSwitchingOccur() T = 5.640000 Tnext = 5.645000 Time: 5.64000e+00 states: [ -1.77434e+00 1.20859e+00] derivs: [ 1.20883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.645000 pESO->GetIndependentVar(): 5.645000 ==>IsSwitchingOccur() prevPhis[ 0]=0.885579, nextPhis[ 0]=0.908752 prevPhis[ 1]=5.114421, nextPhis[ 1]=5.091248 <==IsSwitchingOccur() T = 5.645000 Tnext = 5.650000 Time: 5.64500e+00 states: [ -1.76828e+00 1.21359e+00] derivs: [ 1.21383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.650000 pESO->GetIndependentVar(): 5.650000 ==>IsSwitchingOccur() prevPhis[ 0]=0.908752, nextPhis[ 0]=0.932000 prevPhis[ 1]=5.091248, nextPhis[ 1]=5.068000 <==IsSwitchingOccur() T = 5.650000 Tnext = 5.655000 Time: 5.65000e+00 states: [ -1.76220e+00 1.21859e+00] derivs: [ 1.21883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.655000 pESO->GetIndependentVar(): 5.655000 ==>IsSwitchingOccur() prevPhis[ 0]=0.932000, nextPhis[ 0]=0.955323 prevPhis[ 1]=5.068000, nextPhis[ 1]=5.044677 <==IsSwitchingOccur() T = 5.655000 Tnext = 5.660000 Time: 5.65500e+00 states: [ -1.75609e+00 1.22359e+00] derivs: [ 1.22383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.660000 pESO->GetIndependentVar(): 5.660000 ==>IsSwitchingOccur() prevPhis[ 0]=0.955323, nextPhis[ 0]=0.978720 prevPhis[ 1]=5.044677, nextPhis[ 1]=5.021280 <==IsSwitchingOccur() T = 5.660000 Tnext = 5.665000 Time: 5.66000e+00 states: [ -1.74996e+00 1.22859e+00] derivs: [ 1.22883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.665000 pESO->GetIndependentVar(): 5.665000 ==>IsSwitchingOccur() prevPhis[ 0]=0.978720, nextPhis[ 0]=1.002193 prevPhis[ 1]=5.021280, nextPhis[ 1]=4.997807 <==IsSwitchingOccur() T = 5.665000 Tnext = 5.670000 Time: 5.66500e+00 states: [ -1.74380e+00 1.23359e+00] derivs: [ 1.23383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.670000 pESO->GetIndependentVar(): 5.670000 ==>IsSwitchingOccur() prevPhis[ 0]=1.002193, nextPhis[ 0]=1.025741 prevPhis[ 1]=4.997807, nextPhis[ 1]=4.974259 <==IsSwitchingOccur() T = 5.670000 Tnext = 5.675000 Time: 5.67000e+00 states: [ -1.73762e+00 1.23859e+00] derivs: [ 1.23883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.675000 pESO->GetIndependentVar(): 5.675000 ==>IsSwitchingOccur() prevPhis[ 0]=1.025741, nextPhis[ 0]=1.049363 prevPhis[ 1]=4.974259, nextPhis[ 1]=4.950637 <==IsSwitchingOccur() T = 5.675000 Tnext = 5.680000 Time: 5.67500e+00 states: [ -1.73141e+00 1.24359e+00] derivs: [ 1.24383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.680000 pESO->GetIndependentVar(): 5.680000 ==>IsSwitchingOccur() prevPhis[ 0]=1.049363, nextPhis[ 0]=1.073061 prevPhis[ 1]=4.950637, nextPhis[ 1]=4.926939 <==IsSwitchingOccur() T = 5.680000 Tnext = 5.685000 Time: 5.68000e+00 states: [ -1.72518e+00 1.24859e+00] derivs: [ 1.24883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.685000 pESO->GetIndependentVar(): 5.685000 ==>IsSwitchingOccur() prevPhis[ 0]=1.073061, nextPhis[ 0]=1.096834 prevPhis[ 1]=4.926939, nextPhis[ 1]=4.903166 <==IsSwitchingOccur() T = 5.685000 Tnext = 5.690000 Time: 5.68500e+00 states: [ -1.71892e+00 1.25359e+00] derivs: [ 1.25383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.690000 pESO->GetIndependentVar(): 5.690000 ==>IsSwitchingOccur() prevPhis[ 0]=1.096834, nextPhis[ 0]=1.120681 prevPhis[ 1]=4.903166, nextPhis[ 1]=4.879319 <==IsSwitchingOccur() T = 5.690000 Tnext = 5.695000 Time: 5.69000e+00 states: [ -1.71264e+00 1.25859e+00] derivs: [ 1.25883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.695000 pESO->GetIndependentVar(): 5.695000 ==>IsSwitchingOccur() prevPhis[ 0]=1.120681, nextPhis[ 0]=1.144604 prevPhis[ 1]=4.879319, nextPhis[ 1]=4.855396 <==IsSwitchingOccur() T = 5.695000 Tnext = 5.700000 Time: 5.69500e+00 states: [ -1.70633e+00 1.26359e+00] derivs: [ 1.26383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.700000 pESO->GetIndependentVar(): 5.700000 ==>IsSwitchingOccur() prevPhis[ 0]=1.144604, nextPhis[ 0]=1.168602 prevPhis[ 1]=4.855396, nextPhis[ 1]=4.831398 <==IsSwitchingOccur() T = 5.700000 Tnext = 5.705000 Time: 5.70000e+00 states: [ -1.70000e+00 1.26859e+00] derivs: [ 1.26883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.705000 pESO->GetIndependentVar(): 5.705000 ==>IsSwitchingOccur() prevPhis[ 0]=1.168602, nextPhis[ 0]=1.192674 prevPhis[ 1]=4.831398, nextPhis[ 1]=4.807326 <==IsSwitchingOccur() T = 5.705000 Tnext = 5.710000 Time: 5.70500e+00 states: [ -1.69364e+00 1.27359e+00] derivs: [ 1.27383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.710000 pESO->GetIndependentVar(): 5.710000 ==>IsSwitchingOccur() prevPhis[ 0]=1.192674, nextPhis[ 0]=1.216822 prevPhis[ 1]=4.807326, nextPhis[ 1]=4.783178 <==IsSwitchingOccur() T = 5.710000 Tnext = 5.715000 Time: 5.71000e+00 states: [ -1.68726e+00 1.27859e+00] derivs: [ 1.27883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.715000 pESO->GetIndependentVar(): 5.715000 ==>IsSwitchingOccur() prevPhis[ 0]=1.216822, nextPhis[ 0]=1.241045 prevPhis[ 1]=4.783178, nextPhis[ 1]=4.758955 <==IsSwitchingOccur() T = 5.715000 Tnext = 5.720000 Time: 5.71500e+00 states: [ -1.68085e+00 1.28359e+00] derivs: [ 1.28383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.720000 pESO->GetIndependentVar(): 5.720000 ==>IsSwitchingOccur() prevPhis[ 0]=1.241045, nextPhis[ 0]=1.265342 prevPhis[ 1]=4.758955, nextPhis[ 1]=4.734658 <==IsSwitchingOccur() T = 5.720000 Tnext = 5.725000 Time: 5.72000e+00 states: [ -1.67442e+00 1.28859e+00] derivs: [ 1.28883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.725000 pESO->GetIndependentVar(): 5.725000 ==>IsSwitchingOccur() prevPhis[ 0]=1.265342, nextPhis[ 0]=1.289715 prevPhis[ 1]=4.734658, nextPhis[ 1]=4.710285 <==IsSwitchingOccur() T = 5.725000 Tnext = 5.730000 Time: 5.72500e+00 states: [ -1.66796e+00 1.29359e+00] derivs: [ 1.29383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.730000 pESO->GetIndependentVar(): 5.730000 ==>IsSwitchingOccur() prevPhis[ 0]=1.289715, nextPhis[ 0]=1.314163 prevPhis[ 1]=4.710285, nextPhis[ 1]=4.685837 <==IsSwitchingOccur() T = 5.730000 Tnext = 5.735000 Time: 5.73000e+00 states: [ -1.66148e+00 1.29859e+00] derivs: [ 1.29883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.735000 pESO->GetIndependentVar(): 5.735000 ==>IsSwitchingOccur() prevPhis[ 0]=1.314163, nextPhis[ 0]=1.338685 prevPhis[ 1]=4.685837, nextPhis[ 1]=4.661315 <==IsSwitchingOccur() T = 5.735000 Tnext = 5.740000 Time: 5.73500e+00 states: [ -1.65497e+00 1.30359e+00] derivs: [ 1.30383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.740000 pESO->GetIndependentVar(): 5.740000 ==>IsSwitchingOccur() prevPhis[ 0]=1.338685, nextPhis[ 0]=1.363283 prevPhis[ 1]=4.661315, nextPhis[ 1]=4.636717 <==IsSwitchingOccur() T = 5.740000 Tnext = 5.745000 Time: 5.74000e+00 states: [ -1.64844e+00 1.30859e+00] derivs: [ 1.30883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.745000 pESO->GetIndependentVar(): 5.745000 ==>IsSwitchingOccur() prevPhis[ 0]=1.363283, nextPhis[ 0]=1.387956 prevPhis[ 1]=4.636717, nextPhis[ 1]=4.612044 <==IsSwitchingOccur() T = 5.745000 Tnext = 5.750000 Time: 5.74500e+00 states: [ -1.64188e+00 1.31359e+00] derivs: [ 1.31383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.750000 pESO->GetIndependentVar(): 5.750000 ==>IsSwitchingOccur() prevPhis[ 0]=1.387956, nextPhis[ 0]=1.412704 prevPhis[ 1]=4.612044, nextPhis[ 1]=4.587296 <==IsSwitchingOccur() T = 5.750000 Tnext = 5.755000 Time: 5.75000e+00 states: [ -1.63530e+00 1.31859e+00] derivs: [ 1.31883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.755000 pESO->GetIndependentVar(): 5.755000 ==>IsSwitchingOccur() prevPhis[ 0]=1.412704, nextPhis[ 0]=1.437526 prevPhis[ 1]=4.587296, nextPhis[ 1]=4.562474 <==IsSwitchingOccur() T = 5.755000 Tnext = 5.760000 Time: 5.75500e+00 states: [ -1.62869e+00 1.32359e+00] derivs: [ 1.32383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.760000 pESO->GetIndependentVar(): 5.760000 ==>IsSwitchingOccur() prevPhis[ 0]=1.437526, nextPhis[ 0]=1.462424 prevPhis[ 1]=4.562474, nextPhis[ 1]=4.537576 <==IsSwitchingOccur() T = 5.760000 Tnext = 5.765000 Time: 5.76000e+00 states: [ -1.62206e+00 1.32859e+00] derivs: [ 1.32883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.765000 pESO->GetIndependentVar(): 5.765000 ==>IsSwitchingOccur() prevPhis[ 0]=1.462424, nextPhis[ 0]=1.487397 prevPhis[ 1]=4.537576, nextPhis[ 1]=4.512603 <==IsSwitchingOccur() T = 5.765000 Tnext = 5.770000 Time: 5.76500e+00 states: [ -1.61540e+00 1.33359e+00] derivs: [ 1.33383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.770000 pESO->GetIndependentVar(): 5.770000 ==>IsSwitchingOccur() prevPhis[ 0]=1.487397, nextPhis[ 0]=1.512444 prevPhis[ 1]=4.512603, nextPhis[ 1]=4.487556 <==IsSwitchingOccur() T = 5.770000 Tnext = 5.775000 Time: 5.77000e+00 states: [ -1.60872e+00 1.33859e+00] derivs: [ 1.33883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.775000 pESO->GetIndependentVar(): 5.775000 ==>IsSwitchingOccur() prevPhis[ 0]=1.512444, nextPhis[ 0]=1.537567 prevPhis[ 1]=4.487556, nextPhis[ 1]=4.462433 <==IsSwitchingOccur() T = 5.775000 Tnext = 5.780000 Time: 5.77500e+00 states: [ -1.60201e+00 1.34359e+00] derivs: [ 1.34383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.780000 pESO->GetIndependentVar(): 5.780000 ==>IsSwitchingOccur() prevPhis[ 0]=1.537567, nextPhis[ 0]=1.562765 prevPhis[ 1]=4.462433, nextPhis[ 1]=4.437235 <==IsSwitchingOccur() T = 5.780000 Tnext = 5.785000 Time: 5.78000e+00 states: [ -1.59528e+00 1.34859e+00] derivs: [ 1.34883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.785000 pESO->GetIndependentVar(): 5.785000 ==>IsSwitchingOccur() prevPhis[ 0]=1.562765, nextPhis[ 0]=1.588037 prevPhis[ 1]=4.437235, nextPhis[ 1]=4.411963 <==IsSwitchingOccur() T = 5.785000 Tnext = 5.790000 Time: 5.78500e+00 states: [ -1.58852e+00 1.35359e+00] derivs: [ 1.35383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.790000 pESO->GetIndependentVar(): 5.790000 ==>IsSwitchingOccur() prevPhis[ 0]=1.588037, nextPhis[ 0]=1.613385 prevPhis[ 1]=4.411963, nextPhis[ 1]=4.386615 <==IsSwitchingOccur() T = 5.790000 Tnext = 5.795000 Time: 5.79000e+00 states: [ -1.58174e+00 1.35859e+00] derivs: [ 1.35883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.795000 pESO->GetIndependentVar(): 5.795000 ==>IsSwitchingOccur() prevPhis[ 0]=1.613385, nextPhis[ 0]=1.638808 prevPhis[ 1]=4.386615, nextPhis[ 1]=4.361192 <==IsSwitchingOccur() T = 5.795000 Tnext = 5.800000 Time: 5.79500e+00 states: [ -1.57493e+00 1.36359e+00] derivs: [ 1.36383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.800000 pESO->GetIndependentVar(): 5.800000 ==>IsSwitchingOccur() prevPhis[ 0]=1.638808, nextPhis[ 0]=1.664305 prevPhis[ 1]=4.361192, nextPhis[ 1]=4.335695 <==IsSwitchingOccur() T = 5.800000 Tnext = 5.805000 Time: 5.80000e+00 states: [ -1.56810e+00 1.36859e+00] derivs: [ 1.36883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.805000 pESO->GetIndependentVar(): 5.805000 ==>IsSwitchingOccur() prevPhis[ 0]=1.664305, nextPhis[ 0]=1.689878 prevPhis[ 1]=4.335695, nextPhis[ 1]=4.310122 <==IsSwitchingOccur() T = 5.805000 Tnext = 5.810000 Time: 5.80500e+00 states: [ -1.56124e+00 1.37359e+00] derivs: [ 1.37383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.810000 pESO->GetIndependentVar(): 5.810000 ==>IsSwitchingOccur() prevPhis[ 0]=1.689878, nextPhis[ 0]=1.715526 prevPhis[ 1]=4.310122, nextPhis[ 1]=4.284474 <==IsSwitchingOccur() T = 5.810000 Tnext = 5.815000 Time: 5.81000e+00 states: [ -1.55436e+00 1.37859e+00] derivs: [ 1.37883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.815000 pESO->GetIndependentVar(): 5.815000 ==>IsSwitchingOccur() prevPhis[ 0]=1.715526, nextPhis[ 0]=1.741248 prevPhis[ 1]=4.284474, nextPhis[ 1]=4.258752 <==IsSwitchingOccur() T = 5.815000 Tnext = 5.820000 Time: 5.81500e+00 states: [ -1.54745e+00 1.38359e+00] derivs: [ 1.38383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.820000 pESO->GetIndependentVar(): 5.820000 ==>IsSwitchingOccur() prevPhis[ 0]=1.741248, nextPhis[ 0]=1.767046 prevPhis[ 1]=4.258752, nextPhis[ 1]=4.232954 <==IsSwitchingOccur() T = 5.820000 Tnext = 5.825000 Time: 5.82000e+00 states: [ -1.54052e+00 1.38859e+00] derivs: [ 1.38883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.825000 pESO->GetIndependentVar(): 5.825000 ==>IsSwitchingOccur() prevPhis[ 0]=1.767046, nextPhis[ 0]=1.792919 prevPhis[ 1]=4.232954, nextPhis[ 1]=4.207081 <==IsSwitchingOccur() T = 5.825000 Tnext = 5.830000 Time: 5.82500e+00 states: [ -1.53356e+00 1.39359e+00] derivs: [ 1.39383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.830000 pESO->GetIndependentVar(): 5.830000 ==>IsSwitchingOccur() prevPhis[ 0]=1.792919, nextPhis[ 0]=1.818866 prevPhis[ 1]=4.207081, nextPhis[ 1]=4.181134 <==IsSwitchingOccur() T = 5.830000 Tnext = 5.835000 Time: 5.83000e+00 states: [ -1.52658e+00 1.39859e+00] derivs: [ 1.39883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.835000 pESO->GetIndependentVar(): 5.835000 ==>IsSwitchingOccur() prevPhis[ 0]=1.818866, nextPhis[ 0]=1.844889 prevPhis[ 1]=4.181134, nextPhis[ 1]=4.155111 <==IsSwitchingOccur() T = 5.835000 Tnext = 5.840000 Time: 5.83500e+00 states: [ -1.51957e+00 1.40359e+00] derivs: [ 1.40383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.840000 pESO->GetIndependentVar(): 5.840000 ==>IsSwitchingOccur() prevPhis[ 0]=1.844889, nextPhis[ 0]=1.870987 prevPhis[ 1]=4.155111, nextPhis[ 1]=4.129013 <==IsSwitchingOccur() T = 5.840000 Tnext = 5.845000 Time: 5.84000e+00 states: [ -1.51254e+00 1.40859e+00] derivs: [ 1.40883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.845000 pESO->GetIndependentVar(): 5.845000 ==>IsSwitchingOccur() prevPhis[ 0]=1.870987, nextPhis[ 0]=1.897160 prevPhis[ 1]=4.129013, nextPhis[ 1]=4.102840 <==IsSwitchingOccur() T = 5.845000 Tnext = 5.850000 Time: 5.84500e+00 states: [ -1.50548e+00 1.41359e+00] derivs: [ 1.41383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.850000 pESO->GetIndependentVar(): 5.850000 ==>IsSwitchingOccur() prevPhis[ 0]=1.897160, nextPhis[ 0]=1.923407 prevPhis[ 1]=4.102840, nextPhis[ 1]=4.076593 <==IsSwitchingOccur() T = 5.850000 Tnext = 5.855000 Time: 5.85000e+00 states: [ -1.49840e+00 1.41859e+00] derivs: [ 1.41883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.855000 pESO->GetIndependentVar(): 5.855000 ==>IsSwitchingOccur() prevPhis[ 0]=1.923407, nextPhis[ 0]=1.949730 prevPhis[ 1]=4.076593, nextPhis[ 1]=4.050270 <==IsSwitchingOccur() T = 5.855000 Tnext = 5.860000 Time: 5.85500e+00 states: [ -1.49129e+00 1.42359e+00] derivs: [ 1.42383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.860000 pESO->GetIndependentVar(): 5.860000 ==>IsSwitchingOccur() prevPhis[ 0]=1.949730, nextPhis[ 0]=1.976128 prevPhis[ 1]=4.050270, nextPhis[ 1]=4.023872 <==IsSwitchingOccur() T = 5.860000 Tnext = 5.865000 Time: 5.86000e+00 states: [ -1.48416e+00 1.42859e+00] derivs: [ 1.42883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.865000 pESO->GetIndependentVar(): 5.865000 ==>IsSwitchingOccur() prevPhis[ 0]=1.976128, nextPhis[ 0]=2.002600 prevPhis[ 1]=4.023872, nextPhis[ 1]=3.997400 <==IsSwitchingOccur() T = 5.865000 Tnext = 5.870000 Time: 5.86500e+00 states: [ -1.47700e+00 1.43359e+00] derivs: [ 1.43383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.870000 pESO->GetIndependentVar(): 5.870000 ==>IsSwitchingOccur() prevPhis[ 0]=2.002600, nextPhis[ 0]=2.029148 prevPhis[ 1]=3.997400, nextPhis[ 1]=3.970852 <==IsSwitchingOccur() T = 5.870000 Tnext = 5.875000 Time: 5.87000e+00 states: [ -1.46982e+00 1.43859e+00] derivs: [ 1.43883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.875000 pESO->GetIndependentVar(): 5.875000 ==>IsSwitchingOccur() prevPhis[ 0]=2.029148, nextPhis[ 0]=2.055771 prevPhis[ 1]=3.970852, nextPhis[ 1]=3.944229 <==IsSwitchingOccur() T = 5.875000 Tnext = 5.880000 Time: 5.87500e+00 states: [ -1.46261e+00 1.44359e+00] derivs: [ 1.44383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.880000 pESO->GetIndependentVar(): 5.880000 ==>IsSwitchingOccur() prevPhis[ 0]=2.055771, nextPhis[ 0]=2.082468 prevPhis[ 1]=3.944229, nextPhis[ 1]=3.917532 <==IsSwitchingOccur() T = 5.880000 Tnext = 5.885000 Time: 5.88000e+00 states: [ -1.45538e+00 1.44859e+00] derivs: [ 1.44883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.885000 pESO->GetIndependentVar(): 5.885000 ==>IsSwitchingOccur() prevPhis[ 0]=2.082468, nextPhis[ 0]=2.109241 prevPhis[ 1]=3.917532, nextPhis[ 1]=3.890759 <==IsSwitchingOccur() T = 5.885000 Tnext = 5.890000 Time: 5.88500e+00 states: [ -1.44812e+00 1.45359e+00] derivs: [ 1.45383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.890000 pESO->GetIndependentVar(): 5.890000 ==>IsSwitchingOccur() prevPhis[ 0]=2.109241, nextPhis[ 0]=2.136089 prevPhis[ 1]=3.890759, nextPhis[ 1]=3.863911 <==IsSwitchingOccur() T = 5.890000 Tnext = 5.895000 Time: 5.89000e+00 states: [ -1.44084e+00 1.45859e+00] derivs: [ 1.45883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.895000 pESO->GetIndependentVar(): 5.895000 ==>IsSwitchingOccur() prevPhis[ 0]=2.136089, nextPhis[ 0]=2.163011 prevPhis[ 1]=3.863911, nextPhis[ 1]=3.836989 <==IsSwitchingOccur() T = 5.895000 Tnext = 5.900000 Time: 5.89500e+00 states: [ -1.43353e+00 1.46359e+00] derivs: [ 1.46383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.900000 pESO->GetIndependentVar(): 5.900000 ==>IsSwitchingOccur() prevPhis[ 0]=2.163011, nextPhis[ 0]=2.190009 prevPhis[ 1]=3.836989, nextPhis[ 1]=3.809991 <==IsSwitchingOccur() T = 5.900000 Tnext = 5.905000 Time: 5.90000e+00 states: [ -1.42619e+00 1.46859e+00] derivs: [ 1.46883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.905000 pESO->GetIndependentVar(): 5.905000 ==>IsSwitchingOccur() prevPhis[ 0]=2.190009, nextPhis[ 0]=2.217082 prevPhis[ 1]=3.809991, nextPhis[ 1]=3.782918 <==IsSwitchingOccur() T = 5.905000 Tnext = 5.910000 Time: 5.90500e+00 states: [ -1.41884e+00 1.47359e+00] derivs: [ 1.47383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.910000 pESO->GetIndependentVar(): 5.910000 ==>IsSwitchingOccur() prevPhis[ 0]=2.217082, nextPhis[ 0]=2.244229 prevPhis[ 1]=3.782918, nextPhis[ 1]=3.755771 <==IsSwitchingOccur() T = 5.910000 Tnext = 5.915000 Time: 5.91000e+00 states: [ -1.41145e+00 1.47859e+00] derivs: [ 1.47883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.915000 pESO->GetIndependentVar(): 5.915000 ==>IsSwitchingOccur() prevPhis[ 0]=2.244229, nextPhis[ 0]=2.271452 prevPhis[ 1]=3.755771, nextPhis[ 1]=3.728548 <==IsSwitchingOccur() T = 5.915000 Tnext = 5.920000 Time: 5.91500e+00 states: [ -1.40405e+00 1.48359e+00] derivs: [ 1.48383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.920000 pESO->GetIndependentVar(): 5.920000 ==>IsSwitchingOccur() prevPhis[ 0]=2.271452, nextPhis[ 0]=2.298750 prevPhis[ 1]=3.728548, nextPhis[ 1]=3.701250 <==IsSwitchingOccur() T = 5.920000 Tnext = 5.925000 Time: 5.92000e+00 states: [ -1.39661e+00 1.48859e+00] derivs: [ 1.48883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.925000 pESO->GetIndependentVar(): 5.925000 ==>IsSwitchingOccur() prevPhis[ 0]=2.298750, nextPhis[ 0]=2.326122 prevPhis[ 1]=3.701250, nextPhis[ 1]=3.673878 <==IsSwitchingOccur() T = 5.925000 Tnext = 5.930000 Time: 5.92500e+00 states: [ -1.38916e+00 1.49359e+00] derivs: [ 1.49383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.930000 pESO->GetIndependentVar(): 5.930000 ==>IsSwitchingOccur() prevPhis[ 0]=2.326122, nextPhis[ 0]=2.353570 prevPhis[ 1]=3.673878, nextPhis[ 1]=3.646430 <==IsSwitchingOccur() T = 5.930000 Tnext = 5.935000 Time: 5.93000e+00 states: [ -1.38167e+00 1.49859e+00] derivs: [ 1.49883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.935000 pESO->GetIndependentVar(): 5.935000 ==>IsSwitchingOccur() prevPhis[ 0]=2.353570, nextPhis[ 0]=2.381093 prevPhis[ 1]=3.646430, nextPhis[ 1]=3.618907 <==IsSwitchingOccur() T = 5.935000 Tnext = 5.940000 Time: 5.93500e+00 states: [ -1.37417e+00 1.50359e+00] derivs: [ 1.50383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.940000 pESO->GetIndependentVar(): 5.940000 ==>IsSwitchingOccur() prevPhis[ 0]=2.381093, nextPhis[ 0]=2.408691 prevPhis[ 1]=3.618907, nextPhis[ 1]=3.591309 <==IsSwitchingOccur() T = 5.940000 Tnext = 5.945000 Time: 5.94000e+00 states: [ -1.36663e+00 1.50859e+00] derivs: [ 1.50883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.945000 pESO->GetIndependentVar(): 5.945000 ==>IsSwitchingOccur() prevPhis[ 0]=2.408691, nextPhis[ 0]=2.436363 prevPhis[ 1]=3.591309, nextPhis[ 1]=3.563637 <==IsSwitchingOccur() T = 5.945000 Tnext = 5.950000 Time: 5.94500e+00 states: [ -1.35908e+00 1.51359e+00] derivs: [ 1.51383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.950000 pESO->GetIndependentVar(): 5.950000 ==>IsSwitchingOccur() prevPhis[ 0]=2.436363, nextPhis[ 0]=2.464111 prevPhis[ 1]=3.563637, nextPhis[ 1]=3.535889 <==IsSwitchingOccur() T = 5.950000 Tnext = 5.955000 Time: 5.95000e+00 states: [ -1.35149e+00 1.51859e+00] derivs: [ 1.51883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.955000 pESO->GetIndependentVar(): 5.955000 ==>IsSwitchingOccur() prevPhis[ 0]=2.464111, nextPhis[ 0]=2.491934 prevPhis[ 1]=3.535889, nextPhis[ 1]=3.508066 <==IsSwitchingOccur() T = 5.955000 Tnext = 5.960000 Time: 5.95500e+00 states: [ -1.34389e+00 1.52359e+00] derivs: [ 1.52383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.960000 pESO->GetIndependentVar(): 5.960000 ==>IsSwitchingOccur() prevPhis[ 0]=2.491934, nextPhis[ 0]=2.519831 prevPhis[ 1]=3.508066, nextPhis[ 1]=3.480169 <==IsSwitchingOccur() T = 5.960000 Tnext = 5.965000 Time: 5.96000e+00 states: [ -1.33625e+00 1.52859e+00] derivs: [ 1.52883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.965000 pESO->GetIndependentVar(): 5.965000 ==>IsSwitchingOccur() prevPhis[ 0]=2.519831, nextPhis[ 0]=2.547804 prevPhis[ 1]=3.480169, nextPhis[ 1]=3.452196 <==IsSwitchingOccur() T = 5.965000 Tnext = 5.970000 Time: 5.96500e+00 states: [ -1.32860e+00 1.53359e+00] derivs: [ 1.53383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.970000 pESO->GetIndependentVar(): 5.970000 ==>IsSwitchingOccur() prevPhis[ 0]=2.547804, nextPhis[ 0]=2.575852 prevPhis[ 1]=3.452196, nextPhis[ 1]=3.424148 <==IsSwitchingOccur() T = 5.970000 Tnext = 5.975000 Time: 5.97000e+00 states: [ -1.32091e+00 1.53859e+00] derivs: [ 1.53883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.975000 pESO->GetIndependentVar(): 5.975000 ==>IsSwitchingOccur() prevPhis[ 0]=2.575852, nextPhis[ 0]=2.603974 prevPhis[ 1]=3.424148, nextPhis[ 1]=3.396026 <==IsSwitchingOccur() T = 5.975000 Tnext = 5.980000 Time: 5.97500e+00 states: [ -1.31321e+00 1.54359e+00] derivs: [ 1.54383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.980000 pESO->GetIndependentVar(): 5.980000 ==>IsSwitchingOccur() prevPhis[ 0]=2.603974, nextPhis[ 0]=2.632172 prevPhis[ 1]=3.396026, nextPhis[ 1]=3.367828 <==IsSwitchingOccur() T = 5.980000 Tnext = 5.985000 Time: 5.98000e+00 states: [ -1.30547e+00 1.54859e+00] derivs: [ 1.54883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.985000 pESO->GetIndependentVar(): 5.985000 ==>IsSwitchingOccur() prevPhis[ 0]=2.632172, nextPhis[ 0]=2.660445 prevPhis[ 1]=3.367828, nextPhis[ 1]=3.339555 <==IsSwitchingOccur() T = 5.985000 Tnext = 5.990000 Time: 5.98500e+00 states: [ -1.29772e+00 1.55359e+00] derivs: [ 1.55383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.990000 pESO->GetIndependentVar(): 5.990000 ==>IsSwitchingOccur() prevPhis[ 0]=2.660445, nextPhis[ 0]=2.688792 prevPhis[ 1]=3.339555, nextPhis[ 1]=3.311208 <==IsSwitchingOccur() T = 5.990000 Tnext = 5.995000 Time: 5.99000e+00 states: [ -1.28993e+00 1.55859e+00] derivs: [ 1.55883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 5.995000 pESO->GetIndependentVar(): 5.995000 ==>IsSwitchingOccur() prevPhis[ 0]=2.688792, nextPhis[ 0]=2.717215 prevPhis[ 1]=3.311208, nextPhis[ 1]=3.282785 <==IsSwitchingOccur() T = 5.995000 Tnext = 6.000000 Time: 5.99500e+00 states: [ -1.28213e+00 1.56359e+00] derivs: [ 1.56383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.000000 pESO->GetIndependentVar(): 6.000000 ==>IsSwitchingOccur() prevPhis[ 0]=2.717215, nextPhis[ 0]=2.745713 prevPhis[ 1]=3.282785, nextPhis[ 1]=3.254287 <==IsSwitchingOccur() T = 6.000000 Tnext = 6.005000 Time: 6.00000e+00 states: [ -1.27429e+00 1.56859e+00] derivs: [ 1.56883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.005000 pESO->GetIndependentVar(): 6.005000 ==>IsSwitchingOccur() prevPhis[ 0]=2.745713, nextPhis[ 0]=2.774285 prevPhis[ 1]=3.254287, nextPhis[ 1]=3.225715 <==IsSwitchingOccur() T = 6.005000 Tnext = 6.010000 Time: 6.00500e+00 states: [ -1.26644e+00 1.57359e+00] derivs: [ 1.57383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.010000 pESO->GetIndependentVar(): 6.010000 ==>IsSwitchingOccur() prevPhis[ 0]=2.774285, nextPhis[ 0]=2.802933 prevPhis[ 1]=3.225715, nextPhis[ 1]=3.197067 <==IsSwitchingOccur() T = 6.010000 Tnext = 6.015000 Time: 6.01000e+00 states: [ -1.25855e+00 1.57859e+00] derivs: [ 1.57883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.015000 pESO->GetIndependentVar(): 6.015000 ==>IsSwitchingOccur() prevPhis[ 0]=2.802933, nextPhis[ 0]=2.831656 prevPhis[ 1]=3.197067, nextPhis[ 1]=3.168344 <==IsSwitchingOccur() T = 6.015000 Tnext = 6.020000 Time: 6.01500e+00 states: [ -1.25065e+00 1.58359e+00] derivs: [ 1.58383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.020000 pESO->GetIndependentVar(): 6.020000 ==>IsSwitchingOccur() prevPhis[ 0]=2.831656, nextPhis[ 0]=2.860453 prevPhis[ 1]=3.168344, nextPhis[ 1]=3.139547 <==IsSwitchingOccur() T = 6.020000 Tnext = 6.025000 Time: 6.02000e+00 states: [ -1.24271e+00 1.58859e+00] derivs: [ 1.58883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.025000 pESO->GetIndependentVar(): 6.025000 ==>IsSwitchingOccur() prevPhis[ 0]=2.860453, nextPhis[ 0]=2.889326 prevPhis[ 1]=3.139547, nextPhis[ 1]=3.110674 <==IsSwitchingOccur() T = 6.025000 Tnext = 6.030000 Time: 6.02500e+00 states: [ -1.23476e+00 1.59359e+00] derivs: [ 1.59383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.030000 pESO->GetIndependentVar(): 6.030000 ==>IsSwitchingOccur() prevPhis[ 0]=2.889326, nextPhis[ 0]=2.918274 prevPhis[ 1]=3.110674, nextPhis[ 1]=3.081726 <==IsSwitchingOccur() T = 6.030000 Tnext = 6.035000 Time: 6.03000e+00 states: [ -1.22677e+00 1.59859e+00] derivs: [ 1.59883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.035000 pESO->GetIndependentVar(): 6.035000 ==>IsSwitchingOccur() prevPhis[ 0]=2.918274, nextPhis[ 0]=2.947297 prevPhis[ 1]=3.081726, nextPhis[ 1]=3.052703 <==IsSwitchingOccur() T = 6.035000 Tnext = 6.040000 Time: 6.03500e+00 states: [ -1.21877e+00 1.60359e+00] derivs: [ 1.60383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.040000 pESO->GetIndependentVar(): 6.040000 ==>IsSwitchingOccur() prevPhis[ 0]=2.947297, nextPhis[ 0]=2.976394 prevPhis[ 1]=3.052703, nextPhis[ 1]=3.023606 <==IsSwitchingOccur() T = 6.040000 Tnext = 6.045000 Time: 6.04000e+00 states: [ -1.21073e+00 1.60859e+00] derivs: [ 1.60883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.045000 pESO->GetIndependentVar(): 6.045000 ==>IsSwitchingOccur() prevPhis[ 0]=2.976394, nextPhis[ 0]=3.005567 prevPhis[ 1]=3.023606, nextPhis[ 1]=2.994433 <==IsSwitchingOccur() T = 6.045000 Tnext = 6.050000 Time: 6.04500e+00 states: [ -1.20268e+00 1.61359e+00] derivs: [ 1.61383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.050000 pESO->GetIndependentVar(): 6.050000 ==>IsSwitchingOccur() prevPhis[ 0]=3.005567, nextPhis[ 0]=3.034815 prevPhis[ 1]=2.994433, nextPhis[ 1]=2.965185 <==IsSwitchingOccur() T = 6.050000 Tnext = 6.055000 Time: 6.05000e+00 states: [ -1.19459e+00 1.61859e+00] derivs: [ 1.61883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.055000 pESO->GetIndependentVar(): 6.055000 ==>IsSwitchingOccur() prevPhis[ 0]=3.034815, nextPhis[ 0]=3.064137 prevPhis[ 1]=2.965185, nextPhis[ 1]=2.935863 <==IsSwitchingOccur() T = 6.055000 Tnext = 6.060000 Time: 6.05500e+00 states: [ -1.18649e+00 1.62359e+00] derivs: [ 1.62383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.060000 pESO->GetIndependentVar(): 6.060000 ==>IsSwitchingOccur() prevPhis[ 0]=3.064137, nextPhis[ 0]=3.093535 prevPhis[ 1]=2.935863, nextPhis[ 1]=2.906465 <==IsSwitchingOccur() T = 6.060000 Tnext = 6.065000 Time: 6.06000e+00 states: [ -1.17835e+00 1.62859e+00] derivs: [ 1.62883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.065000 pESO->GetIndependentVar(): 6.065000 ==>IsSwitchingOccur() prevPhis[ 0]=3.093535, nextPhis[ 0]=3.123008 prevPhis[ 1]=2.906465, nextPhis[ 1]=2.876992 <==IsSwitchingOccur() T = 6.065000 Tnext = 6.070000 Time: 6.06500e+00 states: [ -1.17020e+00 1.63359e+00] derivs: [ 1.63383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.070000 pESO->GetIndependentVar(): 6.070000 ==>IsSwitchingOccur() prevPhis[ 0]=3.123008, nextPhis[ 0]=3.152555 prevPhis[ 1]=2.876992, nextPhis[ 1]=2.847445 <==IsSwitchingOccur() T = 6.070000 Tnext = 6.075000 Time: 6.07000e+00 states: [ -1.16201e+00 1.63859e+00] derivs: [ 1.63883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.075000 pESO->GetIndependentVar(): 6.075000 ==>IsSwitchingOccur() prevPhis[ 0]=3.152555, nextPhis[ 0]=3.182178 prevPhis[ 1]=2.847445, nextPhis[ 1]=2.817822 <==IsSwitchingOccur() T = 6.075000 Tnext = 6.080000 Time: 6.07500e+00 states: [ -1.15381e+00 1.64359e+00] derivs: [ 1.64383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.080000 pESO->GetIndependentVar(): 6.080000 ==>IsSwitchingOccur() prevPhis[ 0]=3.182178, nextPhis[ 0]=3.211876 prevPhis[ 1]=2.817822, nextPhis[ 1]=2.788124 <==IsSwitchingOccur() T = 6.080000 Tnext = 6.085000 Time: 6.08000e+00 states: [ -1.14557e+00 1.64859e+00] derivs: [ 1.64883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.085000 pESO->GetIndependentVar(): 6.085000 ==>IsSwitchingOccur() prevPhis[ 0]=3.211876, nextPhis[ 0]=3.241648 prevPhis[ 1]=2.788124, nextPhis[ 1]=2.758352 <==IsSwitchingOccur() T = 6.085000 Tnext = 6.090000 Time: 6.08500e+00 states: [ -1.13732e+00 1.65359e+00] derivs: [ 1.65383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.090000 pESO->GetIndependentVar(): 6.090000 ==>IsSwitchingOccur() prevPhis[ 0]=3.241648, nextPhis[ 0]=3.271496 prevPhis[ 1]=2.758352, nextPhis[ 1]=2.728504 <==IsSwitchingOccur() T = 6.090000 Tnext = 6.095000 Time: 6.09000e+00 states: [ -1.12903e+00 1.65859e+00] derivs: [ 1.65883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.095000 pESO->GetIndependentVar(): 6.095000 ==>IsSwitchingOccur() prevPhis[ 0]=3.271496, nextPhis[ 0]=3.301419 prevPhis[ 1]=2.728504, nextPhis[ 1]=2.698581 <==IsSwitchingOccur() T = 6.095000 Tnext = 6.100000 Time: 6.09500e+00 states: [ -1.12073e+00 1.66359e+00] derivs: [ 1.66383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.100000 pESO->GetIndependentVar(): 6.100000 ==>IsSwitchingOccur() prevPhis[ 0]=3.301419, nextPhis[ 0]=3.331416 prevPhis[ 1]=2.698581, nextPhis[ 1]=2.668584 <==IsSwitchingOccur() T = 6.100000 Tnext = 6.105000 Time: 6.10000e+00 states: [ -1.11239e+00 1.66859e+00] derivs: [ 1.66883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.105000 pESO->GetIndependentVar(): 6.105000 ==>IsSwitchingOccur() prevPhis[ 0]=3.331416, nextPhis[ 0]=3.361489 prevPhis[ 1]=2.668584, nextPhis[ 1]=2.638511 <==IsSwitchingOccur() T = 6.105000 Tnext = 6.110000 Time: 6.10500e+00 states: [ -1.10403e+00 1.67359e+00] derivs: [ 1.67383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.110000 pESO->GetIndependentVar(): 6.110000 ==>IsSwitchingOccur() prevPhis[ 0]=3.361489, nextPhis[ 0]=3.391637 prevPhis[ 1]=2.638511, nextPhis[ 1]=2.608363 <==IsSwitchingOccur() T = 6.110000 Tnext = 6.115000 Time: 6.11000e+00 states: [ -1.09565e+00 1.67859e+00] derivs: [ 1.67883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.115000 pESO->GetIndependentVar(): 6.115000 ==>IsSwitchingOccur() prevPhis[ 0]=3.391637, nextPhis[ 0]=3.421859 prevPhis[ 1]=2.608363, nextPhis[ 1]=2.578141 <==IsSwitchingOccur() T = 6.115000 Tnext = 6.120000 Time: 6.11500e+00 states: [ -1.08724e+00 1.68359e+00] derivs: [ 1.68383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.120000 pESO->GetIndependentVar(): 6.120000 ==>IsSwitchingOccur() prevPhis[ 0]=3.421859, nextPhis[ 0]=3.452157 prevPhis[ 1]=2.578141, nextPhis[ 1]=2.547843 <==IsSwitchingOccur() T = 6.120000 Tnext = 6.125000 Time: 6.12000e+00 states: [ -1.07881e+00 1.68859e+00] derivs: [ 1.68883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.125000 pESO->GetIndependentVar(): 6.125000 ==>IsSwitchingOccur() prevPhis[ 0]=3.452157, nextPhis[ 0]=3.482530 prevPhis[ 1]=2.547843, nextPhis[ 1]=2.517470 <==IsSwitchingOccur() T = 6.125000 Tnext = 6.130000 Time: 6.12500e+00 states: [ -1.07035e+00 1.69359e+00] derivs: [ 1.69383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.130000 pESO->GetIndependentVar(): 6.130000 ==>IsSwitchingOccur() prevPhis[ 0]=3.482530, nextPhis[ 0]=3.512978 prevPhis[ 1]=2.517470, nextPhis[ 1]=2.487022 <==IsSwitchingOccur() T = 6.130000 Tnext = 6.135000 Time: 6.13000e+00 states: [ -1.06187e+00 1.69859e+00] derivs: [ 1.69883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.135000 pESO->GetIndependentVar(): 6.135000 ==>IsSwitchingOccur() prevPhis[ 0]=3.512978, nextPhis[ 0]=3.543500 prevPhis[ 1]=2.487022, nextPhis[ 1]=2.456500 <==IsSwitchingOccur() T = 6.135000 Tnext = 6.140000 Time: 6.13500e+00 states: [ -1.05336e+00 1.70359e+00] derivs: [ 1.70383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.140000 pESO->GetIndependentVar(): 6.140000 ==>IsSwitchingOccur() prevPhis[ 0]=3.543500, nextPhis[ 0]=3.574098 prevPhis[ 1]=2.456500, nextPhis[ 1]=2.425902 <==IsSwitchingOccur() T = 6.140000 Tnext = 6.145000 Time: 6.14000e+00 states: [ -1.04483e+00 1.70859e+00] derivs: [ 1.70883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.145000 pESO->GetIndependentVar(): 6.145000 ==>IsSwitchingOccur() prevPhis[ 0]=3.574098, nextPhis[ 0]=3.604771 prevPhis[ 1]=2.425902, nextPhis[ 1]=2.395229 <==IsSwitchingOccur() T = 6.145000 Tnext = 6.150000 Time: 6.14500e+00 states: [ -1.03627e+00 1.71359e+00] derivs: [ 1.71383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.150000 pESO->GetIndependentVar(): 6.150000 ==>IsSwitchingOccur() prevPhis[ 0]=3.604771, nextPhis[ 0]=3.635518 prevPhis[ 1]=2.395229, nextPhis[ 1]=2.364482 <==IsSwitchingOccur() T = 6.150000 Tnext = 6.155000 Time: 6.15000e+00 states: [ -1.02769e+00 1.71859e+00] derivs: [ 1.71883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.155000 pESO->GetIndependentVar(): 6.155000 ==>IsSwitchingOccur() prevPhis[ 0]=3.635518, nextPhis[ 0]=3.666341 prevPhis[ 1]=2.364482, nextPhis[ 1]=2.333659 <==IsSwitchingOccur() T = 6.155000 Tnext = 6.160000 Time: 6.15500e+00 states: [ -1.01908e+00 1.72359e+00] derivs: [ 1.72383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.160000 pESO->GetIndependentVar(): 6.160000 ==>IsSwitchingOccur() prevPhis[ 0]=3.666341, nextPhis[ 0]=3.697239 prevPhis[ 1]=2.333659, nextPhis[ 1]=2.302761 <==IsSwitchingOccur() T = 6.160000 Tnext = 6.165000 Time: 6.16000e+00 states: [ -1.01045e+00 1.72859e+00] derivs: [ 1.72883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.165000 pESO->GetIndependentVar(): 6.165000 ==>IsSwitchingOccur() prevPhis[ 0]=3.697239, nextPhis[ 0]=3.728211 prevPhis[ 1]=2.302761, nextPhis[ 1]=2.271789 <==IsSwitchingOccur() T = 6.165000 Tnext = 6.170000 Time: 6.16500e+00 states: [ -1.00179e+00 1.73359e+00] derivs: [ 1.73383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.170000 pESO->GetIndependentVar(): 6.170000 ==>IsSwitchingOccur() prevPhis[ 0]=3.728211, nextPhis[ 0]=3.759259 prevPhis[ 1]=2.271789, nextPhis[ 1]=2.240741 <==IsSwitchingOccur() T = 6.170000 Tnext = 6.175000 Time: 6.17000e+00 states: [ -9.93112e-01 1.73859e+00] derivs: [ 1.73883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.175000 pESO->GetIndependentVar(): 6.175000 ==>IsSwitchingOccur() prevPhis[ 0]=3.759259, nextPhis[ 0]=3.790382 prevPhis[ 1]=2.240741, nextPhis[ 1]=2.209618 <==IsSwitchingOccur() T = 6.175000 Tnext = 6.180000 Time: 6.17500e+00 states: [ -9.84404e-01 1.74359e+00] derivs: [ 1.74383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.180000 pESO->GetIndependentVar(): 6.180000 ==>IsSwitchingOccur() prevPhis[ 0]=3.790382, nextPhis[ 0]=3.821579 prevPhis[ 1]=2.209618, nextPhis[ 1]=2.178421 <==IsSwitchingOccur() T = 6.180000 Tnext = 6.185000 Time: 6.18000e+00 states: [ -9.75671e-01 1.74859e+00] derivs: [ 1.74883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.185000 pESO->GetIndependentVar(): 6.185000 ==>IsSwitchingOccur() prevPhis[ 0]=3.821579, nextPhis[ 0]=3.852852 prevPhis[ 1]=2.178421, nextPhis[ 1]=2.147148 <==IsSwitchingOccur() T = 6.185000 Tnext = 6.190000 Time: 6.18500e+00 states: [ -9.66914e-01 1.75359e+00] derivs: [ 1.75383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.190000 pESO->GetIndependentVar(): 6.190000 ==>IsSwitchingOccur() prevPhis[ 0]=3.852852, nextPhis[ 0]=3.884200 prevPhis[ 1]=2.147148, nextPhis[ 1]=2.115800 <==IsSwitchingOccur() T = 6.190000 Tnext = 6.195000 Time: 6.19000e+00 states: [ -9.58131e-01 1.75859e+00] derivs: [ 1.75883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.195000 pESO->GetIndependentVar(): 6.195000 ==>IsSwitchingOccur() prevPhis[ 0]=3.884200, nextPhis[ 0]=3.915622 prevPhis[ 1]=2.115800, nextPhis[ 1]=2.084378 <==IsSwitchingOccur() T = 6.195000 Tnext = 6.200000 Time: 6.19500e+00 states: [ -9.49324e-01 1.76359e+00] derivs: [ 1.76383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.200000 pESO->GetIndependentVar(): 6.200000 ==>IsSwitchingOccur() prevPhis[ 0]=3.915622, nextPhis[ 0]=3.947120 prevPhis[ 1]=2.084378, nextPhis[ 1]=2.052880 <==IsSwitchingOccur() T = 6.200000 Tnext = 6.205000 Time: 6.20000e+00 states: [ -9.40491e-01 1.76859e+00] derivs: [ 1.76883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.205000 pESO->GetIndependentVar(): 6.205000 ==>IsSwitchingOccur() prevPhis[ 0]=3.947120, nextPhis[ 0]=3.978693 prevPhis[ 1]=2.052880, nextPhis[ 1]=2.021307 <==IsSwitchingOccur() T = 6.205000 Tnext = 6.210000 Time: 6.20500e+00 states: [ -9.31634e-01 1.77359e+00] derivs: [ 1.77383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.210000 pESO->GetIndependentVar(): 6.210000 ==>IsSwitchingOccur() prevPhis[ 0]=3.978693, nextPhis[ 0]=4.010340 prevPhis[ 1]=2.021307, nextPhis[ 1]=1.989660 <==IsSwitchingOccur() T = 6.210000 Tnext = 6.215000 Time: 6.21000e+00 states: [ -9.22751e-01 1.77859e+00] derivs: [ 1.77883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.215000 pESO->GetIndependentVar(): 6.215000 ==>IsSwitchingOccur() prevPhis[ 0]=4.010340, nextPhis[ 0]=4.042063 prevPhis[ 1]=1.989660, nextPhis[ 1]=1.957937 <==IsSwitchingOccur() T = 6.215000 Tnext = 6.220000 Time: 6.21500e+00 states: [ -9.13844e-01 1.78359e+00] derivs: [ 1.78383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.220000 pESO->GetIndependentVar(): 6.220000 ==>IsSwitchingOccur() prevPhis[ 0]=4.042063, nextPhis[ 0]=4.073861 prevPhis[ 1]=1.957937, nextPhis[ 1]=1.926139 <==IsSwitchingOccur() T = 6.220000 Tnext = 6.225000 Time: 6.22000e+00 states: [ -9.04911e-01 1.78859e+00] derivs: [ 1.78883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.225000 pESO->GetIndependentVar(): 6.225000 ==>IsSwitchingOccur() prevPhis[ 0]=4.073861, nextPhis[ 0]=4.105734 prevPhis[ 1]=1.926139, nextPhis[ 1]=1.894266 <==IsSwitchingOccur() T = 6.225000 Tnext = 6.230000 Time: 6.22500e+00 states: [ -8.95953e-01 1.79359e+00] derivs: [ 1.79383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.230000 pESO->GetIndependentVar(): 6.230000 ==>IsSwitchingOccur() prevPhis[ 0]=4.105734, nextPhis[ 0]=4.137681 prevPhis[ 1]=1.894266, nextPhis[ 1]=1.862319 <==IsSwitchingOccur() T = 6.230000 Tnext = 6.235000 Time: 6.23000e+00 states: [ -8.86971e-01 1.79859e+00] derivs: [ 1.79883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.235000 pESO->GetIndependentVar(): 6.235000 ==>IsSwitchingOccur() prevPhis[ 0]=4.137681, nextPhis[ 0]=4.169704 prevPhis[ 1]=1.862319, nextPhis[ 1]=1.830296 <==IsSwitchingOccur() T = 6.235000 Tnext = 6.240000 Time: 6.23500e+00 states: [ -8.77963e-01 1.80359e+00] derivs: [ 1.80383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.240000 pESO->GetIndependentVar(): 6.240000 ==>IsSwitchingOccur() prevPhis[ 0]=4.169704, nextPhis[ 0]=4.201802 prevPhis[ 1]=1.830296, nextPhis[ 1]=1.798198 <==IsSwitchingOccur() T = 6.240000 Tnext = 6.245000 Time: 6.24000e+00 states: [ -8.68931e-01 1.80859e+00] derivs: [ 1.80883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.245000 pESO->GetIndependentVar(): 6.245000 ==>IsSwitchingOccur() prevPhis[ 0]=4.201802, nextPhis[ 0]=4.233974 prevPhis[ 1]=1.798198, nextPhis[ 1]=1.766026 <==IsSwitchingOccur() T = 6.245000 Tnext = 6.250000 Time: 6.24500e+00 states: [ -8.59873e-01 1.81359e+00] derivs: [ 1.81383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.250000 pESO->GetIndependentVar(): 6.250000 ==>IsSwitchingOccur() prevPhis[ 0]=4.233974, nextPhis[ 0]=4.266222 prevPhis[ 1]=1.766026, nextPhis[ 1]=1.733778 <==IsSwitchingOccur() T = 6.250000 Tnext = 6.255000 Time: 6.25000e+00 states: [ -8.50791e-01 1.81859e+00] derivs: [ 1.81883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.255000 pESO->GetIndependentVar(): 6.255000 ==>IsSwitchingOccur() prevPhis[ 0]=4.266222, nextPhis[ 0]=4.298545 prevPhis[ 1]=1.733778, nextPhis[ 1]=1.701455 <==IsSwitchingOccur() T = 6.255000 Tnext = 6.260000 Time: 6.25500e+00 states: [ -8.41683e-01 1.82359e+00] derivs: [ 1.82383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.260000 pESO->GetIndependentVar(): 6.260000 ==>IsSwitchingOccur() prevPhis[ 0]=4.298545, nextPhis[ 0]=4.330942 prevPhis[ 1]=1.701455, nextPhis[ 1]=1.669058 <==IsSwitchingOccur() T = 6.260000 Tnext = 6.265000 Time: 6.26000e+00 states: [ -8.32550e-01 1.82859e+00] derivs: [ 1.82883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.265000 pESO->GetIndependentVar(): 6.265000 ==>IsSwitchingOccur() prevPhis[ 0]=4.330942, nextPhis[ 0]=4.363415 prevPhis[ 1]=1.669058, nextPhis[ 1]=1.636585 <==IsSwitchingOccur() T = 6.265000 Tnext = 6.270000 Time: 6.26500e+00 states: [ -8.23393e-01 1.83359e+00] derivs: [ 1.83383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.270000 pESO->GetIndependentVar(): 6.270000 ==>IsSwitchingOccur() prevPhis[ 0]=4.363415, nextPhis[ 0]=4.395963 prevPhis[ 1]=1.636585, nextPhis[ 1]=1.604037 <==IsSwitchingOccur() T = 6.270000 Tnext = 6.275000 Time: 6.27000e+00 states: [ -8.14210e-01 1.83859e+00] derivs: [ 1.83883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.275000 pESO->GetIndependentVar(): 6.275000 ==>IsSwitchingOccur() prevPhis[ 0]=4.395963, nextPhis[ 0]=4.428585 prevPhis[ 1]=1.604037, nextPhis[ 1]=1.571415 <==IsSwitchingOccur() T = 6.275000 Tnext = 6.280000 Time: 6.27500e+00 states: [ -8.05003e-01 1.84359e+00] derivs: [ 1.84383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.280000 pESO->GetIndependentVar(): 6.280000 ==>IsSwitchingOccur() prevPhis[ 0]=4.428585, nextPhis[ 0]=4.461283 prevPhis[ 1]=1.571415, nextPhis[ 1]=1.538717 <==IsSwitchingOccur() T = 6.280000 Tnext = 6.285000 Time: 6.28000e+00 states: [ -7.95770e-01 1.84859e+00] derivs: [ 1.84883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.285000 pESO->GetIndependentVar(): 6.285000 ==>IsSwitchingOccur() prevPhis[ 0]=4.461283, nextPhis[ 0]=4.494056 prevPhis[ 1]=1.538717, nextPhis[ 1]=1.505944 <==IsSwitchingOccur() T = 6.285000 Tnext = 6.290000 Time: 6.28500e+00 states: [ -7.86513e-01 1.85359e+00] derivs: [ 1.85383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.290000 pESO->GetIndependentVar(): 6.290000 ==>IsSwitchingOccur() prevPhis[ 0]=4.494056, nextPhis[ 0]=4.526903 prevPhis[ 1]=1.505944, nextPhis[ 1]=1.473097 <==IsSwitchingOccur() T = 6.290000 Tnext = 6.295000 Time: 6.29000e+00 states: [ -7.77230e-01 1.85859e+00] derivs: [ 1.85883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.295000 pESO->GetIndependentVar(): 6.295000 ==>IsSwitchingOccur() prevPhis[ 0]=4.526903, nextPhis[ 0]=4.559826 prevPhis[ 1]=1.473097, nextPhis[ 1]=1.440174 <==IsSwitchingOccur() T = 6.295000 Tnext = 6.300000 Time: 6.29500e+00 states: [ -7.67923e-01 1.86359e+00] derivs: [ 1.86383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.300000 pESO->GetIndependentVar(): 6.300000 ==>IsSwitchingOccur() prevPhis[ 0]=4.559826, nextPhis[ 0]=4.592824 prevPhis[ 1]=1.440174, nextPhis[ 1]=1.407176 <==IsSwitchingOccur() T = 6.300000 Tnext = 6.305000 Time: 6.30000e+00 states: [ -7.58590e-01 1.86859e+00] derivs: [ 1.86883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.305000 pESO->GetIndependentVar(): 6.305000 ==>IsSwitchingOccur() prevPhis[ 0]=4.592824, nextPhis[ 0]=4.625897 prevPhis[ 1]=1.407176, nextPhis[ 1]=1.374103 <==IsSwitchingOccur() T = 6.305000 Tnext = 6.310000 Time: 6.30500e+00 states: [ -7.49232e-01 1.87359e+00] derivs: [ 1.87383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.310000 pESO->GetIndependentVar(): 6.310000 ==>IsSwitchingOccur() prevPhis[ 0]=4.625897, nextPhis[ 0]=4.659044 prevPhis[ 1]=1.374103, nextPhis[ 1]=1.340956 <==IsSwitchingOccur() T = 6.310000 Tnext = 6.315000 Time: 6.31000e+00 states: [ -7.39850e-01 1.87859e+00] derivs: [ 1.87883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.315000 pESO->GetIndependentVar(): 6.315000 ==>IsSwitchingOccur() prevPhis[ 0]=4.659044, nextPhis[ 0]=4.692267 prevPhis[ 1]=1.340956, nextPhis[ 1]=1.307733 <==IsSwitchingOccur() T = 6.315000 Tnext = 6.320000 Time: 6.31500e+00 states: [ -7.30442e-01 1.88359e+00] derivs: [ 1.88383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.320000 pESO->GetIndependentVar(): 6.320000 ==>IsSwitchingOccur() prevPhis[ 0]=4.692267, nextPhis[ 0]=4.725565 prevPhis[ 1]=1.307733, nextPhis[ 1]=1.274435 <==IsSwitchingOccur() T = 6.320000 Tnext = 6.325000 Time: 6.32000e+00 states: [ -7.21010e-01 1.88859e+00] derivs: [ 1.88883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.325000 pESO->GetIndependentVar(): 6.325000 ==>IsSwitchingOccur() prevPhis[ 0]=4.725565, nextPhis[ 0]=4.758937 prevPhis[ 1]=1.274435, nextPhis[ 1]=1.241063 <==IsSwitchingOccur() T = 6.325000 Tnext = 6.330000 Time: 6.32500e+00 states: [ -7.11552e-01 1.89359e+00] derivs: [ 1.89383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.330000 pESO->GetIndependentVar(): 6.330000 ==>IsSwitchingOccur() prevPhis[ 0]=4.758937, nextPhis[ 0]=4.792385 prevPhis[ 1]=1.241063, nextPhis[ 1]=1.207615 <==IsSwitchingOccur() T = 6.330000 Tnext = 6.335000 Time: 6.33000e+00 states: [ -7.02070e-01 1.89859e+00] derivs: [ 1.89883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.335000 pESO->GetIndependentVar(): 6.335000 ==>IsSwitchingOccur() prevPhis[ 0]=4.792385, nextPhis[ 0]=4.825908 prevPhis[ 1]=1.207615, nextPhis[ 1]=1.174092 <==IsSwitchingOccur() T = 6.335000 Tnext = 6.340000 Time: 6.33500e+00 states: [ -6.92562e-01 1.90359e+00] derivs: [ 1.90383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.340000 pESO->GetIndependentVar(): 6.340000 ==>IsSwitchingOccur() prevPhis[ 0]=4.825908, nextPhis[ 0]=4.859505 prevPhis[ 1]=1.174092, nextPhis[ 1]=1.140495 <==IsSwitchingOccur() T = 6.340000 Tnext = 6.345000 Time: 6.34000e+00 states: [ -6.83029e-01 1.90859e+00] derivs: [ 1.90883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.345000 pESO->GetIndependentVar(): 6.345000 ==>IsSwitchingOccur() prevPhis[ 0]=4.859505, nextPhis[ 0]=4.893178 prevPhis[ 1]=1.140495, nextPhis[ 1]=1.106822 <==IsSwitchingOccur() T = 6.345000 Tnext = 6.350000 Time: 6.34500e+00 states: [ -6.73472e-01 1.91359e+00] derivs: [ 1.91383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.350000 pESO->GetIndependentVar(): 6.350000 ==>IsSwitchingOccur() prevPhis[ 0]=4.893178, nextPhis[ 0]=4.926926 prevPhis[ 1]=1.106822, nextPhis[ 1]=1.073074 <==IsSwitchingOccur() T = 6.350000 Tnext = 6.355000 Time: 6.35000e+00 states: [ -6.63889e-01 1.91859e+00] derivs: [ 1.91883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.355000 pESO->GetIndependentVar(): 6.355000 ==>IsSwitchingOccur() prevPhis[ 0]=4.926926, nextPhis[ 0]=4.960748 prevPhis[ 1]=1.073074, nextPhis[ 1]=1.039252 <==IsSwitchingOccur() T = 6.355000 Tnext = 6.360000 Time: 6.35500e+00 states: [ -6.54282e-01 1.92359e+00] derivs: [ 1.92383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.360000 pESO->GetIndependentVar(): 6.360000 ==>IsSwitchingOccur() prevPhis[ 0]=4.960748, nextPhis[ 0]=4.994646 prevPhis[ 1]=1.039252, nextPhis[ 1]=1.005354 <==IsSwitchingOccur() T = 6.360000 Tnext = 6.365000 Time: 6.36000e+00 states: [ -6.44649e-01 1.92859e+00] derivs: [ 1.92883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.365000 pESO->GetIndependentVar(): 6.365000 ==>IsSwitchingOccur() prevPhis[ 0]=4.994646, nextPhis[ 0]=5.028619 prevPhis[ 1]=1.005354, nextPhis[ 1]=0.971381 <==IsSwitchingOccur() T = 6.365000 Tnext = 6.370000 Time: 6.36500e+00 states: [ -6.34992e-01 1.93359e+00] derivs: [ 1.93383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.370000 pESO->GetIndependentVar(): 6.370000 ==>IsSwitchingOccur() prevPhis[ 0]=5.028619, nextPhis[ 0]=5.062666 prevPhis[ 1]=0.971381, nextPhis[ 1]=0.937334 <==IsSwitchingOccur() T = 6.370000 Tnext = 6.375000 Time: 6.37000e+00 states: [ -6.25309e-01 1.93859e+00] derivs: [ 1.93883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.375000 pESO->GetIndependentVar(): 6.375000 ==>IsSwitchingOccur() prevPhis[ 0]=5.062666, nextPhis[ 0]=5.096789 prevPhis[ 1]=0.937334, nextPhis[ 1]=0.903211 <==IsSwitchingOccur() T = 6.375000 Tnext = 6.380000 Time: 6.37500e+00 states: [ -6.15602e-01 1.94359e+00] derivs: [ 1.94383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.380000 pESO->GetIndependentVar(): 6.380000 ==>IsSwitchingOccur() prevPhis[ 0]=5.096789, nextPhis[ 0]=5.130987 prevPhis[ 1]=0.903211, nextPhis[ 1]=0.869013 <==IsSwitchingOccur() T = 6.380000 Tnext = 6.385000 Time: 6.38000e+00 states: [ -6.05869e-01 1.94859e+00] derivs: [ 1.94883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.385000 pESO->GetIndependentVar(): 6.385000 ==>IsSwitchingOccur() prevPhis[ 0]=5.130987, nextPhis[ 0]=5.165259 prevPhis[ 1]=0.869013, nextPhis[ 1]=0.834741 <==IsSwitchingOccur() T = 6.385000 Tnext = 6.390000 Time: 6.38500e+00 states: [ -5.96111e-01 1.95359e+00] derivs: [ 1.95383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.390000 pESO->GetIndependentVar(): 6.390000 ==>IsSwitchingOccur() prevPhis[ 0]=5.165259, nextPhis[ 0]=5.199607 prevPhis[ 1]=0.834741, nextPhis[ 1]=0.800393 <==IsSwitchingOccur() T = 6.390000 Tnext = 6.395000 Time: 6.39000e+00 states: [ -5.86329e-01 1.95859e+00] derivs: [ 1.95883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.395000 pESO->GetIndependentVar(): 6.395000 ==>IsSwitchingOccur() prevPhis[ 0]=5.199607, nextPhis[ 0]=5.234030 prevPhis[ 1]=0.800393, nextPhis[ 1]=0.765970 <==IsSwitchingOccur() T = 6.395000 Tnext = 6.400000 Time: 6.39500e+00 states: [ -5.76521e-01 1.96359e+00] derivs: [ 1.96383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.400000 pESO->GetIndependentVar(): 6.400000 ==>IsSwitchingOccur() prevPhis[ 0]=5.234030, nextPhis[ 0]=5.268528 prevPhis[ 1]=0.765970, nextPhis[ 1]=0.731472 <==IsSwitchingOccur() T = 6.400000 Tnext = 6.405000 Time: 6.40000e+00 states: [ -5.66689e-01 1.96859e+00] derivs: [ 1.96883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.405000 pESO->GetIndependentVar(): 6.405000 ==>IsSwitchingOccur() prevPhis[ 0]=5.268528, nextPhis[ 0]=5.303100 prevPhis[ 1]=0.731472, nextPhis[ 1]=0.696900 <==IsSwitchingOccur() T = 6.405000 Tnext = 6.410000 Time: 6.40500e+00 states: [ -5.56831e-01 1.97359e+00] derivs: [ 1.97383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.410000 pESO->GetIndependentVar(): 6.410000 ==>IsSwitchingOccur() prevPhis[ 0]=5.303100, nextPhis[ 0]=5.337748 prevPhis[ 1]=0.696900, nextPhis[ 1]=0.662252 <==IsSwitchingOccur() T = 6.410000 Tnext = 6.415000 Time: 6.41000e+00 states: [ -5.46949e-01 1.97859e+00] derivs: [ 1.97883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.415000 pESO->GetIndependentVar(): 6.415000 ==>IsSwitchingOccur() prevPhis[ 0]=5.337748, nextPhis[ 0]=5.372471 prevPhis[ 1]=0.662252, nextPhis[ 1]=0.627529 <==IsSwitchingOccur() T = 6.415000 Tnext = 6.420000 Time: 6.41500e+00 states: [ -5.37041e-01 1.98359e+00] derivs: [ 1.98383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.420000 pESO->GetIndependentVar(): 6.420000 ==>IsSwitchingOccur() prevPhis[ 0]=5.372471, nextPhis[ 0]=5.407268 prevPhis[ 1]=0.627529, nextPhis[ 1]=0.592732 <==IsSwitchingOccur() T = 6.420000 Tnext = 6.425000 Time: 6.42000e+00 states: [ -5.27109e-01 1.98859e+00] derivs: [ 1.98883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.425000 pESO->GetIndependentVar(): 6.425000 ==>IsSwitchingOccur() prevPhis[ 0]=5.407268, nextPhis[ 0]=5.442141 prevPhis[ 1]=0.592732, nextPhis[ 1]=0.557859 <==IsSwitchingOccur() T = 6.425000 Tnext = 6.430000 Time: 6.42500e+00 states: [ -5.17151e-01 1.99359e+00] derivs: [ 1.99383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.430000 pESO->GetIndependentVar(): 6.430000 ==>IsSwitchingOccur() prevPhis[ 0]=5.442141, nextPhis[ 0]=5.477089 prevPhis[ 1]=0.557859, nextPhis[ 1]=0.522911 <==IsSwitchingOccur() T = 6.430000 Tnext = 6.435000 Time: 6.43000e+00 states: [ -5.07168e-01 1.99859e+00] derivs: [ 1.99883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.435000 pESO->GetIndependentVar(): 6.435000 ==>IsSwitchingOccur() prevPhis[ 0]=5.477089, nextPhis[ 0]=5.512111 prevPhis[ 1]=0.522911, nextPhis[ 1]=0.487889 <==IsSwitchingOccur() T = 6.435000 Tnext = 6.440000 Time: 6.43500e+00 states: [ -4.97161e-01 2.00359e+00] derivs: [ 2.00383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.440000 pESO->GetIndependentVar(): 6.440000 ==>IsSwitchingOccur() prevPhis[ 0]=5.512111, nextPhis[ 0]=5.547209 prevPhis[ 1]=0.487889, nextPhis[ 1]=0.452791 <==IsSwitchingOccur() T = 6.440000 Tnext = 6.445000 Time: 6.44000e+00 states: [ -4.87128e-01 2.00859e+00] derivs: [ 2.00883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.445000 pESO->GetIndependentVar(): 6.445000 ==>IsSwitchingOccur() prevPhis[ 0]=5.547209, nextPhis[ 0]=5.582382 prevPhis[ 1]=0.452791, nextPhis[ 1]=0.417618 <==IsSwitchingOccur() T = 6.445000 Tnext = 6.450000 Time: 6.44500e+00 states: [ -4.77071e-01 2.01359e+00] derivs: [ 2.01383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.450000 pESO->GetIndependentVar(): 6.450000 ==>IsSwitchingOccur() prevPhis[ 0]=5.582382, nextPhis[ 0]=5.617629 prevPhis[ 1]=0.417618, nextPhis[ 1]=0.382371 <==IsSwitchingOccur() T = 6.450000 Tnext = 6.455000 Time: 6.45000e+00 states: [ -4.66988e-01 2.01859e+00] derivs: [ 2.01883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.455000 pESO->GetIndependentVar(): 6.455000 ==>IsSwitchingOccur() prevPhis[ 0]=5.617629, nextPhis[ 0]=5.652952 prevPhis[ 1]=0.382371, nextPhis[ 1]=0.347048 <==IsSwitchingOccur() T = 6.455000 Tnext = 6.460000 Time: 6.45500e+00 states: [ -4.56881e-01 2.02359e+00] derivs: [ 2.02383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.460000 pESO->GetIndependentVar(): 6.460000 ==>IsSwitchingOccur() prevPhis[ 0]=5.652952, nextPhis[ 0]=5.688350 prevPhis[ 1]=0.347048, nextPhis[ 1]=0.311650 <==IsSwitchingOccur() T = 6.460000 Tnext = 6.465000 Time: 6.46000e+00 states: [ -4.46748e-01 2.02859e+00] derivs: [ 2.02883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.465000 pESO->GetIndependentVar(): 6.465000 ==>IsSwitchingOccur() prevPhis[ 0]=5.688350, nextPhis[ 0]=5.723822 prevPhis[ 1]=0.311650, nextPhis[ 1]=0.276178 <==IsSwitchingOccur() T = 6.465000 Tnext = 6.470000 Time: 6.46500e+00 states: [ -4.36590e-01 2.03359e+00] derivs: [ 2.03383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.470000 pESO->GetIndependentVar(): 6.470000 ==>IsSwitchingOccur() prevPhis[ 0]=5.723822, nextPhis[ 0]=5.759370 prevPhis[ 1]=0.276178, nextPhis[ 1]=0.240630 <==IsSwitchingOccur() T = 6.470000 Tnext = 6.475000 Time: 6.47000e+00 states: [ -4.26408e-01 2.03859e+00] derivs: [ 2.03883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.475000 pESO->GetIndependentVar(): 6.475000 ==>IsSwitchingOccur() prevPhis[ 0]=5.759370, nextPhis[ 0]=5.794993 prevPhis[ 1]=0.240630, nextPhis[ 1]=0.205007 <==IsSwitchingOccur() T = 6.475000 Tnext = 6.480000 Time: 6.47500e+00 states: [ -4.16200e-01 2.04359e+00] derivs: [ 2.04383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.480000 pESO->GetIndependentVar(): 6.480000 ==>IsSwitchingOccur() prevPhis[ 0]=5.794993, nextPhis[ 0]=5.830690 prevPhis[ 1]=0.205007, nextPhis[ 1]=0.169310 <==IsSwitchingOccur() T = 6.480000 Tnext = 6.485000 Time: 6.48000e+00 states: [ -4.05968e-01 2.04859e+00] derivs: [ 2.04883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.485000 pESO->GetIndependentVar(): 6.485000 ==>IsSwitchingOccur() prevPhis[ 0]=5.830690, nextPhis[ 0]=5.866463 prevPhis[ 1]=0.169310, nextPhis[ 1]=0.133537 <==IsSwitchingOccur() T = 6.485000 Tnext = 6.490000 Time: 6.48500e+00 states: [ -3.95710e-01 2.05359e+00] derivs: [ 2.05383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.490000 pESO->GetIndependentVar(): 6.490000 ==>IsSwitchingOccur() prevPhis[ 0]=5.866463, nextPhis[ 0]=5.902311 prevPhis[ 1]=0.133537, nextPhis[ 1]=0.097689 <==IsSwitchingOccur() T = 6.490000 Tnext = 6.495000 Time: 6.49000e+00 states: [ -3.85428e-01 2.05859e+00] derivs: [ 2.05883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.495000 pESO->GetIndependentVar(): 6.495000 ==>IsSwitchingOccur() prevPhis[ 0]=5.902311, nextPhis[ 0]=5.938234 prevPhis[ 1]=0.097689, nextPhis[ 1]=0.061766 <==IsSwitchingOccur() T = 6.495000 Tnext = 6.500000 Time: 6.49500e+00 states: [ -3.75120e-01 2.06359e+00] derivs: [ 2.06383e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.500000 pESO->GetIndependentVar(): 6.500000 ==>IsSwitchingOccur() prevPhis[ 0]=5.938234, nextPhis[ 0]=5.974231 prevPhis[ 1]=0.061766, nextPhis[ 1]=0.025769 <==IsSwitchingOccur() T = 6.500000 Tnext = 6.505000 Time: 6.50000e+00 states: [ -3.64788e-01 2.06859e+00] derivs: [ 2.06883e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974231, nextPhis[ 0]=6.010304 prevPhis[ 1]=0.025769, nextPhis[ 1]=-0.010304 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.010304 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.028368 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.019333 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.014818 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.012561 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.011432 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.010868 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.010586 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364707, 2.068633, -2.698775, -1.171062, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=10.267386 b=-7.205978 dts/dp=[1.424843, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [-0.364707, 2.068633, -2.698775, -1.171062, ] AllSensVars (befor 2-nd IC recalculation):[-0.364707, 2.068633, -2.698737, 1.678624, ] AllSensDers (befor 2-nd IC recalculation):[2.068633, -1.000000, -1.171062, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[-0.364707, 2.068633, -2.698737, 1.678624, ] AllSensDers (after 2-nd IC recalculation):[2.068633, -1.000000, 1.678624, -0.000000, ] <==RecalculateSensIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974513, nextPhis[ 0]=6.000498 prevPhis[ 1]=0.025487, nextPhis[ 1]=-0.000498 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.000498 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.013463 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.006984 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.003742 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.002120 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.001309 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.000904 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.000701 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364626, 2.068594, -2.698671, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.417391 b=-5.205702 dts/dp=[1.424859, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974716, nextPhis[ 0]=6.000701 prevPhis[ 1]=0.025284, nextPhis[ 1]=-0.000701 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.000701 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.013666 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.007186 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.003945 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.002323 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.001512 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.001107 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.000904 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364545, 2.068555, -2.698606, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.417194 b=-5.205585 dts/dp=[1.424853, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974919, nextPhis[ 0]=6.000904 prevPhis[ 1]=0.025081, nextPhis[ 1]=-0.000904 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.000904 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.013868 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.007389 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.004147 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.002526 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.001715 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.001309 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.001107 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364464, 2.068516, -2.698540, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.416997 b=-5.205468 dts/dp=[1.424847, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975123, nextPhis[ 0]=6.001107 prevPhis[ 1]=0.024877, nextPhis[ 1]=-0.001107 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.001107 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.014070 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.007591 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.004350 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.002729 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.001918 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.001512 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.001309 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364384, 2.068477, -2.698475, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.416800 b=-5.205350 dts/dp=[1.424842, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975326, nextPhis[ 0]=6.001309 prevPhis[ 1]=0.024674, nextPhis[ 1]=-0.001309 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.001309 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.014273 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.007794 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.004553 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.002931 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.002120 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.001715 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.001512 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364303, 2.068438, -2.698409, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.416604 b=-5.205233 dts/dp=[1.424836, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975529, nextPhis[ 0]=6.001512 prevPhis[ 1]=0.024471, nextPhis[ 1]=-0.001512 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.001512 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.014475 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.007997 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.004755 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.003134 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.002323 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.001918 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.001715 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364222, 2.068398, -2.698343, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.416407 b=-5.205116 dts/dp=[1.424830, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975733, nextPhis[ 0]=6.001715 prevPhis[ 1]=0.024267, nextPhis[ 1]=-0.001715 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.001715 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.014678 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.008199 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.004958 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.003337 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.002526 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.002120 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.001918 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364141, 2.068359, -2.698278, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.416210 b=-5.204999 dts/dp=[1.424825, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975936, nextPhis[ 0]=6.001918 prevPhis[ 1]=0.024064, nextPhis[ 1]=-0.001918 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.001918 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.014880 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.008402 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.005161 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.003539 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.002729 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.002323 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.002120 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.364060, 2.068320, -2.698212, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.416014 b=-5.204882 dts/dp=[1.424819, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976139, nextPhis[ 0]=6.002120 prevPhis[ 1]=0.023861, nextPhis[ 1]=-0.002120 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.002120 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.015083 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.008604 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.005363 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.003742 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.002931 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.002526 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.002323 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363980, 2.068281, -2.698147, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.415817 b=-5.204764 dts/dp=[1.424813, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976343, nextPhis[ 0]=6.002323 prevPhis[ 1]=0.023657, nextPhis[ 1]=-0.002323 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.002323 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.015285 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.008807 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.005566 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.003945 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.003134 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.002729 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.002526 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363899, 2.068242, -2.698081, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.415620 b=-5.204647 dts/dp=[1.424807, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976546, nextPhis[ 0]=6.002526 prevPhis[ 1]=0.023454, nextPhis[ 1]=-0.002526 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.002526 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.015488 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.009010 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.005769 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.004147 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.003337 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.002931 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.002729 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363818, 2.068203, -2.698016, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.415423 b=-5.204530 dts/dp=[1.424802, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976749, nextPhis[ 0]=6.002729 prevPhis[ 1]=0.023251, nextPhis[ 1]=-0.002729 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.002729 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.015690 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.009212 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.005971 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.004350 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.003539 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.003134 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.002931 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363737, 2.068164, -2.697950, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.415227 b=-5.204413 dts/dp=[1.424796, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976953, nextPhis[ 0]=6.002931 prevPhis[ 1]=0.023047, nextPhis[ 1]=-0.002931 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.002931 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.015892 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.009415 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.006174 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.004553 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.003742 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.003337 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.003134 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363656, 2.068125, -2.697884, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.415030 b=-5.204296 dts/dp=[1.424790, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977156, nextPhis[ 0]=6.003134 prevPhis[ 1]=0.022844, nextPhis[ 1]=-0.003134 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.003134 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.016095 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.009617 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.006377 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.004755 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.003945 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.003539 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.003337 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363576, 2.068086, -2.697819, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.414833 b=-5.204179 dts/dp=[1.424785, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977359, nextPhis[ 0]=6.003337 prevPhis[ 1]=0.022641, nextPhis[ 1]=-0.003337 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.003337 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.016297 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.009820 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.006579 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.004958 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.004148 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.003742 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.003539 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363495, 2.068047, -2.697753, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.414637 b=-5.204061 dts/dp=[1.424779, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977563, nextPhis[ 0]=6.003539 prevPhis[ 1]=0.022437, nextPhis[ 1]=-0.003539 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.003539 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.016500 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.010022 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.006782 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.005161 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.004350 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.003945 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.003742 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363414, 2.068008, -2.697688, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.414440 b=-5.203944 dts/dp=[1.424773, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977766, nextPhis[ 0]=6.003742 prevPhis[ 1]=0.022234, nextPhis[ 1]=-0.003742 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.003742 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.016702 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.010225 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.006984 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.005363 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.004553 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.004148 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.003945 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363333, 2.067969, -2.697622, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.414243 b=-5.203827 dts/dp=[1.424767, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977969, nextPhis[ 0]=6.003945 prevPhis[ 1]=0.022031, nextPhis[ 1]=-0.003945 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.003945 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.016905 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.010428 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.007187 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.005566 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.004756 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.004350 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.004148 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363252, 2.067930, -2.697557, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.414046 b=-5.203710 dts/dp=[1.424762, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978172, nextPhis[ 0]=6.004148 prevPhis[ 1]=0.021828, nextPhis[ 1]=-0.004148 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.004148 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.017107 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.010630 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.007390 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.005769 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.004958 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.004553 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.004350 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363172, 2.067891, -2.697491, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.413850 b=-5.203593 dts/dp=[1.424756, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978376, nextPhis[ 0]=6.004350 prevPhis[ 1]=0.021624, nextPhis[ 1]=-0.004350 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.004350 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.017309 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.010833 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.007592 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.005971 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.005161 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.004756 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.004553 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363091, 2.067852, -2.697425, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.413653 b=-5.203475 dts/dp=[1.424750, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978579, nextPhis[ 0]=6.004553 prevPhis[ 1]=0.021421, nextPhis[ 1]=-0.004553 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.004553 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.017512 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.011035 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.007795 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.006174 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.005364 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.004958 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.004756 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.363010, 2.067813, -2.697360, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.413456 b=-5.203358 dts/dp=[1.424745, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978782, nextPhis[ 0]=6.004756 prevPhis[ 1]=0.021218, nextPhis[ 1]=-0.004756 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.004756 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.017714 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.011238 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.007997 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.006377 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.005566 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.005161 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.004958 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362929, 2.067773, -2.697294, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.413260 b=-5.203241 dts/dp=[1.424739, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978985, nextPhis[ 0]=6.004958 prevPhis[ 1]=0.021015, nextPhis[ 1]=-0.004958 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.004958 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.017916 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.011440 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.008200 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.006579 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.005769 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.005364 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.005161 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362849, 2.067734, -2.697229, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.413063 b=-5.203124 dts/dp=[1.424733, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979189, nextPhis[ 0]=6.005161 prevPhis[ 1]=0.020811, nextPhis[ 1]=-0.005161 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.005161 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.018119 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.011643 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.008403 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.006782 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.005972 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.005566 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.005364 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362768, 2.067695, -2.697163, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.412866 b=-5.203007 dts/dp=[1.424727, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979392, nextPhis[ 0]=6.005364 prevPhis[ 1]=0.020608, nextPhis[ 1]=-0.005364 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.005364 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.018321 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.011845 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.008605 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.006985 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.006174 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.005769 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.005566 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362687, 2.067656, -2.697098, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.412669 b=-5.202889 dts/dp=[1.424722, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979595, nextPhis[ 0]=6.005566 prevPhis[ 1]=0.020405, nextPhis[ 1]=-0.005566 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.005566 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.018524 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.012048 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.008808 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.007187 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.006377 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.005972 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.005769 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362606, 2.067617, -2.697032, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.412473 b=-5.202772 dts/dp=[1.424716, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979798, nextPhis[ 0]=6.005769 prevPhis[ 1]=0.020202, nextPhis[ 1]=-0.005769 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.005769 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.018726 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.012250 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.009010 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.007390 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.006579 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.006174 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.005972 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362526, 2.067578, -2.696966, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.412276 b=-5.202655 dts/dp=[1.424710, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980002, nextPhis[ 0]=6.005972 prevPhis[ 1]=0.019998, nextPhis[ 1]=-0.005972 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.005972 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.018928 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.012453 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.009213 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.007592 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.006782 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.006377 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.006174 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362445, 2.067539, -2.696901, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.412079 b=-5.202538 dts/dp=[1.424705, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980205, nextPhis[ 0]=6.006174 prevPhis[ 1]=0.019795, nextPhis[ 1]=-0.006174 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.006174 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.019131 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.012655 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.009416 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.007795 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.006985 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.006579 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.006377 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362364, 2.067500, -2.696835, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.411883 b=-5.202421 dts/dp=[1.424699, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980408, nextPhis[ 0]=6.006377 prevPhis[ 1]=0.019592, nextPhis[ 1]=-0.006377 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.006377 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.019333 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.012858 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.009618 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.007998 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.007187 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.006782 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.006579 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362283, 2.067461, -2.696770, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.411686 b=-5.202304 dts/dp=[1.424693, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980611, nextPhis[ 0]=6.006579 prevPhis[ 1]=0.019389, nextPhis[ 1]=-0.006579 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.006579 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.019535 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.013060 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.009821 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.008200 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.007390 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.006985 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.006782 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362202, 2.067422, -2.696704, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.411489 b=-5.202186 dts/dp=[1.424687, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980815, nextPhis[ 0]=6.006782 prevPhis[ 1]=0.019185, nextPhis[ 1]=-0.006782 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.006782 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.019738 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.013263 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.010023 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.008403 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.007593 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.007187 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.006985 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362122, 2.067383, -2.696639, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.411292 b=-5.202069 dts/dp=[1.424682, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981018, nextPhis[ 0]=6.006985 prevPhis[ 1]=0.018982, nextPhis[ 1]=-0.006985 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.006985 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.019940 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.013465 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.010226 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.008605 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.007795 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.007390 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.007187 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.362041, 2.067344, -2.696573, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.411096 b=-5.201952 dts/dp=[1.424676, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981221, nextPhis[ 0]=6.007187 prevPhis[ 1]=0.018779, nextPhis[ 1]=-0.007187 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.007187 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.020142 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.013668 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.010428 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.008808 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.007998 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.007593 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.007390 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361960, 2.067305, -2.696507, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.410899 b=-5.201835 dts/dp=[1.424670, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981424, nextPhis[ 0]=6.007390 prevPhis[ 1]=0.018576, nextPhis[ 1]=-0.007390 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.007390 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.020345 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.013870 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.010631 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.009011 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.008200 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.007795 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.007593 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361879, 2.067266, -2.696442, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.410702 b=-5.201718 dts/dp=[1.424664, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981627, nextPhis[ 0]=6.007593 prevPhis[ 1]=0.018373, nextPhis[ 1]=-0.007593 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.007593 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.020547 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.014073 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.010833 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.009213 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.008403 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.007998 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.007795 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361799, 2.067227, -2.696376, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.410506 b=-5.201600 dts/dp=[1.424659, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981831, nextPhis[ 0]=6.007795 prevPhis[ 1]=0.018169, nextPhis[ 1]=-0.007795 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.007795 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.020749 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.014275 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.011036 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.009416 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.008606 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.008200 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.007998 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361718, 2.067188, -2.696311, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.410309 b=-5.201483 dts/dp=[1.424653, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982034, nextPhis[ 0]=6.007998 prevPhis[ 1]=0.017966, nextPhis[ 1]=-0.007998 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.007998 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.020952 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.014477 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.011238 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.009618 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.008808 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.008403 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.008200 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361637, 2.067148, -2.696245, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.410112 b=-5.201366 dts/dp=[1.424647, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982237, nextPhis[ 0]=6.008200 prevPhis[ 1]=0.017763, nextPhis[ 1]=-0.008200 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.008200 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.021154 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.014680 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.011441 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.009821 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.009011 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.008606 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.008403 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361556, 2.067109, -2.696180, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.409915 b=-5.201249 dts/dp=[1.424642, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982440, nextPhis[ 0]=6.008403 prevPhis[ 1]=0.017560, nextPhis[ 1]=-0.008403 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.008403 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.021356 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.014882 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.011644 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.010023 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.009213 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.008808 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.008606 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361476, 2.067070, -2.696114, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.409719 b=-5.201132 dts/dp=[1.424636, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982643, nextPhis[ 0]=6.008606 prevPhis[ 1]=0.017357, nextPhis[ 1]=-0.008606 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.008606 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.021558 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.015085 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.011846 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.010226 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.009416 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.009011 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.008808 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361395, 2.067031, -2.696048, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.409522 b=-5.201014 dts/dp=[1.424630, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982846, nextPhis[ 0]=6.008808 prevPhis[ 1]=0.017154, nextPhis[ 1]=-0.008808 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.008808 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.021761 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.015287 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.012049 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.010429 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.009618 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.009213 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.009011 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361314, 2.066992, -2.695983, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.409325 b=-5.200897 dts/dp=[1.424624, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983050, nextPhis[ 0]=6.009011 prevPhis[ 1]=0.016950, nextPhis[ 1]=-0.009011 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.009011 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.021963 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.015490 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.012251 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.010631 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.009821 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.009416 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.009213 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361233, 2.066953, -2.695917, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.409129 b=-5.200780 dts/dp=[1.424619, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983253, nextPhis[ 0]=6.009213 prevPhis[ 1]=0.016747, nextPhis[ 1]=-0.009213 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.009213 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.022165 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.015692 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.012454 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.010834 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.010023 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.009618 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.009416 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361153, 2.066914, -2.695852, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.408932 b=-5.200663 dts/dp=[1.424613, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983456, nextPhis[ 0]=6.009416 prevPhis[ 1]=0.016544, nextPhis[ 1]=-0.009416 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.009416 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.022368 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.015895 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.012656 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.011036 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.010226 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.009821 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.009618 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.361072, 2.066875, -2.695786, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.408735 b=-5.200546 dts/dp=[1.424607, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983659, nextPhis[ 0]=6.009618 prevPhis[ 1]=0.016341, nextPhis[ 1]=-0.009618 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.009618 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.022570 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.016097 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.012859 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.011239 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.010429 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.010024 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.009821 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360991, 2.066836, -2.695721, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.408538 b=-5.200429 dts/dp=[1.424602, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983862, nextPhis[ 0]=6.009821 prevPhis[ 1]=0.016138, nextPhis[ 1]=-0.009821 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.009821 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.022772 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.016299 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.013061 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.011441 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.010631 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.010226 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.010024 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360911, 2.066797, -2.695655, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.408342 b=-5.200311 dts/dp=[1.424596, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984065, nextPhis[ 0]=6.010024 prevPhis[ 1]=0.015935, nextPhis[ 1]=-0.010024 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.010024 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.022974 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.016502 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.013264 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.011644 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.010834 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.010429 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.010226 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360830, 2.066758, -2.695589, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.408145 b=-5.200194 dts/dp=[1.424590, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984268, nextPhis[ 0]=6.010226 prevPhis[ 1]=0.015732, nextPhis[ 1]=-0.010226 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.010226 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.023177 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.016704 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.013466 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.011846 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.011036 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.010631 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.010429 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360749, 2.066719, -2.695524, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.407948 b=-5.200077 dts/dp=[1.424584, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984472, nextPhis[ 0]=6.010429 prevPhis[ 1]=0.015528, nextPhis[ 1]=-0.010429 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.010429 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.023379 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.016907 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.013668 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.012049 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.011239 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.010834 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.010631 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360668, 2.066680, -2.695458, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.407752 b=-5.199960 dts/dp=[1.424579, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984675, nextPhis[ 0]=6.010631 prevPhis[ 1]=0.015325, nextPhis[ 1]=-0.010631 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.010631 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.023581 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.017109 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.013871 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.012251 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.011441 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.011036 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.010834 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360588, 2.066641, -2.695393, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.407555 b=-5.199843 dts/dp=[1.424573, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984878, nextPhis[ 0]=6.010834 prevPhis[ 1]=0.015122, nextPhis[ 1]=-0.010834 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.010834 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.023783 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.017311 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.014073 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.012454 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.011644 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.011239 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.011036 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360507, 2.066602, -2.695327, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.407358 b=-5.199725 dts/dp=[1.424567, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985081, nextPhis[ 0]=6.011036 prevPhis[ 1]=0.014919, nextPhis[ 1]=-0.011036 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.011036 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.023986 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.017514 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.014276 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.012656 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.011846 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.011441 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.011239 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360426, 2.066563, -2.695262, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.407161 b=-5.199608 dts/dp=[1.424561, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985284, nextPhis[ 0]=6.011239 prevPhis[ 1]=0.014716, nextPhis[ 1]=-0.011239 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.011239 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.024188 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.017716 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.014478 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.012859 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.012049 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.011644 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.011441 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360345, 2.066523, -2.695196, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.406965 b=-5.199491 dts/dp=[1.424556, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985487, nextPhis[ 0]=6.011441 prevPhis[ 1]=0.014513, nextPhis[ 1]=-0.011441 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.011441 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.024390 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.017919 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.014681 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.013061 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.012251 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.011846 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.011644 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360265, 2.066484, -2.695130, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.406768 b=-5.199374 dts/dp=[1.424550, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985690, nextPhis[ 0]=6.011644 prevPhis[ 1]=0.014310, nextPhis[ 1]=-0.011644 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.011644 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.024592 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.018121 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.014883 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.013264 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.012454 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.012049 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.011846 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360184, 2.066445, -2.695065, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.406571 b=-5.199257 dts/dp=[1.424544, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985893, nextPhis[ 0]=6.011846 prevPhis[ 1]=0.014107, nextPhis[ 1]=-0.011846 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.011846 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.024795 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.018323 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.015086 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.013466 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.012656 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.012251 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.012049 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360103, 2.066406, -2.694999, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.406375 b=-5.199139 dts/dp=[1.424539, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986097, nextPhis[ 0]=6.012049 prevPhis[ 1]=0.013903, nextPhis[ 1]=-0.012049 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.012049 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.024997 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.018526 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.015288 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.013669 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.012859 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.012454 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.012251 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.360023, 2.066367, -2.694934, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.406178 b=-5.199022 dts/dp=[1.424533, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986300, nextPhis[ 0]=6.012251 prevPhis[ 1]=0.013700, nextPhis[ 1]=-0.012251 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.012251 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.025199 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.018728 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.015491 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.013871 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.013061 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.012656 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.012454 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359942, 2.066328, -2.694868, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.405981 b=-5.198905 dts/dp=[1.424527, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986503, nextPhis[ 0]=6.012454 prevPhis[ 1]=0.013497, nextPhis[ 1]=-0.012454 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.012454 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.025401 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.018930 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.015693 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.014074 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.013264 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.012859 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.012656 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359861, 2.066289, -2.694803, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.405784 b=-5.198788 dts/dp=[1.424521, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986706, nextPhis[ 0]=6.012656 prevPhis[ 1]=0.013294, nextPhis[ 1]=-0.012656 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.012656 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.025603 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.019133 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.015895 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.014276 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.013466 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.013061 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.012859 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359780, 2.066250, -2.694737, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.405588 b=-5.198671 dts/dp=[1.424516, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986909, nextPhis[ 0]=6.012859 prevPhis[ 1]=0.013091, nextPhis[ 1]=-0.012859 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.012859 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.025806 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.019335 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.016098 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.014479 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.013669 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.013264 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.013061 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359700, 2.066211, -2.694671, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.405391 b=-5.198554 dts/dp=[1.424510, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987112, nextPhis[ 0]=6.013061 prevPhis[ 1]=0.012888, nextPhis[ 1]=-0.013061 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.013061 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.026008 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.019537 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.016300 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.014681 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.013871 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.013466 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.013264 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359619, 2.066172, -2.694606, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.405194 b=-5.198436 dts/dp=[1.424504, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987315, nextPhis[ 0]=6.013264 prevPhis[ 1]=0.012685, nextPhis[ 1]=-0.013264 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.013264 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.026210 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.019740 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.016503 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.014883 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.014074 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.013669 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.013466 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359538, 2.066133, -2.694540, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.404998 b=-5.198319 dts/dp=[1.424498, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987518, nextPhis[ 0]=6.013466 prevPhis[ 1]=0.012482, nextPhis[ 1]=-0.013466 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.013466 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.026412 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.019942 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.016705 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.015086 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.014276 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.013871 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.013669 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359458, 2.066094, -2.694475, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.404801 b=-5.198202 dts/dp=[1.424493, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987721, nextPhis[ 0]=6.013669 prevPhis[ 1]=0.012279, nextPhis[ 1]=-0.013669 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.013669 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.026614 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.020144 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.016907 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.015288 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.014479 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.014074 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.013871 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359377, 2.066055, -2.694409, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.404604 b=-5.198085 dts/dp=[1.424487, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987924, nextPhis[ 0]=6.013871 prevPhis[ 1]=0.012076, nextPhis[ 1]=-0.013871 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.013871 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.026817 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.020347 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.017110 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.015491 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.014681 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.014276 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.014074 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359296, 2.066016, -2.694344, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.404407 b=-5.197968 dts/dp=[1.424481, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988127, nextPhis[ 0]=6.014074 prevPhis[ 1]=0.011873, nextPhis[ 1]=-0.014074 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.014074 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.027019 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.020549 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.017312 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.015693 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.014883 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.014479 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.014276 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359215, 2.065977, -2.694278, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.404211 b=-5.197850 dts/dp=[1.424476, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988330, nextPhis[ 0]=6.014276 prevPhis[ 1]=0.011670, nextPhis[ 1]=-0.014276 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.014276 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.027221 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.020751 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.017515 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.015896 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.015086 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.014681 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.014479 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359135, 2.065938, -2.694212, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.404014 b=-5.197733 dts/dp=[1.424470, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988533, nextPhis[ 0]=6.014479 prevPhis[ 1]=0.011467, nextPhis[ 1]=-0.014479 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.014479 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.027423 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.020954 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.017717 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.016098 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.015288 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.014883 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.014681 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.359054, 2.065898, -2.694147, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.403817 b=-5.197616 dts/dp=[1.424464, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988736, nextPhis[ 0]=6.014681 prevPhis[ 1]=0.011264, nextPhis[ 1]=-0.014681 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.014681 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.027625 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.021156 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.017919 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.016300 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.015491 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.015086 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.014883 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358973, 2.065859, -2.694081, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.403621 b=-5.197499 dts/dp=[1.424458, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988939, nextPhis[ 0]=6.014883 prevPhis[ 1]=0.011061, nextPhis[ 1]=-0.014883 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.014883 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.027827 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.021358 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.018122 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.016503 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.015693 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.015288 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.015086 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358893, 2.065820, -2.694016, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.403424 b=-5.197382 dts/dp=[1.424453, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989142, nextPhis[ 0]=6.015086 prevPhis[ 1]=0.010858, nextPhis[ 1]=-0.015086 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.015086 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.028029 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.021561 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.018324 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.016705 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.015896 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.015491 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.015288 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358812, 2.065781, -2.693950, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.403227 b=-5.197264 dts/dp=[1.424447, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989345, nextPhis[ 0]=6.015288 prevPhis[ 1]=0.010655, nextPhis[ 1]=-0.015288 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.015288 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.028232 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.021763 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.018526 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.016908 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.016098 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.015693 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.015491 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358731, 2.065742, -2.693885, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.403030 b=-5.197147 dts/dp=[1.424441, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989548, nextPhis[ 0]=6.015491 prevPhis[ 1]=0.010452, nextPhis[ 1]=-0.015491 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.015491 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.028434 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.021965 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.018729 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.017110 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.016300 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.015896 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.015693 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358651, 2.065703, -2.693819, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.402834 b=-5.197030 dts/dp=[1.424435, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989751, nextPhis[ 0]=6.015693 prevPhis[ 1]=0.010249, nextPhis[ 1]=-0.015693 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.015693 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.028636 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.022167 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.018931 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.017312 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.016503 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.016098 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.015896 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358570, 2.065664, -2.693753, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.402637 b=-5.196913 dts/dp=[1.424430, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989954, nextPhis[ 0]=6.015896 prevPhis[ 1]=0.010046, nextPhis[ 1]=-0.015896 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.015896 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.028838 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.022370 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.019134 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.017515 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.016705 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.016300 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.016098 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358489, 2.065625, -2.693688, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.402440 b=-5.196796 dts/dp=[1.424424, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990157, nextPhis[ 0]=6.016098 prevPhis[ 1]=0.009843, nextPhis[ 1]=-0.016098 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.016098 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.029040 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.022572 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.019336 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.017717 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.016908 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.016503 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.016300 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358409, 2.065586, -2.693622, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.402244 b=-5.196679 dts/dp=[1.424418, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990360, nextPhis[ 0]=6.016300 prevPhis[ 1]=0.009640, nextPhis[ 1]=-0.016300 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.016300 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.029242 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.022774 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.019538 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.017920 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.017110 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.016705 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.016503 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358328, 2.065547, -2.693557, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.402047 b=-5.196561 dts/dp=[1.424412, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990563, nextPhis[ 0]=6.016503 prevPhis[ 1]=0.009437, nextPhis[ 1]=-0.016503 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.016503 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.029444 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.022976 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.019741 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.018122 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.017312 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.016908 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.016705 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358247, 2.065508, -2.693491, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.401850 b=-5.196444 dts/dp=[1.424407, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990766, nextPhis[ 0]=6.016705 prevPhis[ 1]=0.009234, nextPhis[ 1]=-0.016705 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.016705 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.029647 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.023179 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.019943 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.018324 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.017515 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.017110 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.016908 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358166, 2.065469, -2.693426, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.401653 b=-5.196327 dts/dp=[1.424401, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990969, nextPhis[ 0]=6.016908 prevPhis[ 1]=0.009031, nextPhis[ 1]=-0.016908 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.016908 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.029849 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.023381 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.020145 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.018527 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.017717 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.017312 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.017110 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358086, 2.065430, -2.693360, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.401457 b=-5.196210 dts/dp=[1.424395, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991172, nextPhis[ 0]=6.017110 prevPhis[ 1]=0.008828, nextPhis[ 1]=-0.017110 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.017110 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.030051 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.023583 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.020348 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.018729 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.017920 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.017515 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.017312 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.358005, 2.065391, -2.693294, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.401260 b=-5.196093 dts/dp=[1.424390, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991375, nextPhis[ 0]=6.017312 prevPhis[ 1]=0.008625, nextPhis[ 1]=-0.017312 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.017312 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.030253 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.023785 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.020550 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.018931 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.018122 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.017717 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.017515 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357924, 2.065352, -2.693229, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.401063 b=-5.195975 dts/dp=[1.424384, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991578, nextPhis[ 0]=6.017515 prevPhis[ 1]=0.008422, nextPhis[ 1]=-0.017515 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.017515 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.030455 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.023988 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.020752 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.019134 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.018324 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.017920 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.017717 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357844, 2.065313, -2.693163, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.400867 b=-5.195858 dts/dp=[1.424378, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991781, nextPhis[ 0]=6.017717 prevPhis[ 1]=0.008219, nextPhis[ 1]=-0.017717 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.017717 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.030657 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.024190 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.020954 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.019336 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.018527 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.018122 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.017920 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357763, 2.065273, -2.693098, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.400670 b=-5.195741 dts/dp=[1.424372, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991984, nextPhis[ 0]=6.017920 prevPhis[ 1]=0.008016, nextPhis[ 1]=-0.017920 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.017920 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.030859 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.024392 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.021157 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.019538 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.018729 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.018324 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.018122 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357682, 2.065234, -2.693032, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.400473 b=-5.195624 dts/dp=[1.424367, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992187, nextPhis[ 0]=6.018122 prevPhis[ 1]=0.007813, nextPhis[ 1]=-0.018122 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.018122 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.031061 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.024594 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.021359 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.019741 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.018931 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.018527 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.018324 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357602, 2.065195, -2.692967, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.400276 b=-5.195507 dts/dp=[1.424361, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992390, nextPhis[ 0]=6.018324 prevPhis[ 1]=0.007610, nextPhis[ 1]=-0.018324 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.018324 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.031263 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.024797 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.021561 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.019943 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.019134 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.018729 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.018527 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357521, 2.065156, -2.692901, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.400080 b=-5.195389 dts/dp=[1.424355, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992593, nextPhis[ 0]=6.018527 prevPhis[ 1]=0.007407, nextPhis[ 1]=-0.018527 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.018527 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.031465 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.024999 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.021764 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.020145 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.019336 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.018931 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.018729 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357440, 2.065117, -2.692835, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.399883 b=-5.195272 dts/dp=[1.424349, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992796, nextPhis[ 0]=6.018729 prevPhis[ 1]=0.007204, nextPhis[ 1]=-0.018729 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.018729 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.031667 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.025201 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.021966 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.020348 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.019538 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.019134 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.018931 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357360, 2.065078, -2.692770, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.399686 b=-5.195155 dts/dp=[1.424344, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992999, nextPhis[ 0]=6.018931 prevPhis[ 1]=0.007001, nextPhis[ 1]=-0.018931 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.018931 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.031869 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.025403 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.022168 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.020550 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.019741 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.019336 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.019134 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357279, 2.065039, -2.692704, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.399490 b=-5.195038 dts/dp=[1.424338, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993202, nextPhis[ 0]=6.019134 prevPhis[ 1]=0.006798, nextPhis[ 1]=-0.019134 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.019134 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.032072 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.025605 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.022371 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.020752 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.019943 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.019538 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.019336 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357198, 2.065000, -2.692639, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.399293 b=-5.194921 dts/dp=[1.424332, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993405, nextPhis[ 0]=6.019336 prevPhis[ 1]=0.006595, nextPhis[ 1]=-0.019336 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.019336 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.032274 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.025808 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.022573 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.020955 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.020145 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.019741 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.019538 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357118, 2.064961, -2.692573, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.399096 b=-5.194804 dts/dp=[1.424326, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993608, nextPhis[ 0]=6.019538 prevPhis[ 1]=0.006392, nextPhis[ 1]=-0.019538 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.019538 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.032476 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.026010 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.022775 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.021157 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.020348 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.019943 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.019741 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.357037, 2.064922, -2.692508, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.398899 b=-5.194686 dts/dp=[1.424321, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993811, nextPhis[ 0]=6.019741 prevPhis[ 1]=0.006189, nextPhis[ 1]=-0.019741 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.019741 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.032678 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.026212 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.022977 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.021359 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.020550 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.020145 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.019943 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356956, 2.064883, -2.692442, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.398703 b=-5.194569 dts/dp=[1.424315, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994014, nextPhis[ 0]=6.019943 prevPhis[ 1]=0.005986, nextPhis[ 1]=-0.019943 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.019943 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.032880 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.026414 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.023180 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.021562 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.020752 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.020348 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.020145 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356876, 2.064844, -2.692376, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.398506 b=-5.194452 dts/dp=[1.424309, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994217, nextPhis[ 0]=6.020145 prevPhis[ 1]=0.005783, nextPhis[ 1]=-0.020145 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.020145 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.033082 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.026616 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.023382 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.021764 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.020955 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.020550 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.020348 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356795, 2.064805, -2.692311, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.398309 b=-5.194335 dts/dp=[1.424304, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994420, nextPhis[ 0]=6.020348 prevPhis[ 1]=0.005580, nextPhis[ 1]=-0.020348 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.020348 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.033284 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.026819 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.023584 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.021966 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.021157 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.020752 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.020550 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356714, 2.064766, -2.692245, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.398113 b=-5.194218 dts/dp=[1.424298, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994622, nextPhis[ 0]=6.020550 prevPhis[ 1]=0.005378, nextPhis[ 1]=-0.020550 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.020550 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.033486 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.027021 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.023786 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.022168 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.021359 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.020955 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.020752 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356634, 2.064727, -2.692180, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.397916 b=-5.194100 dts/dp=[1.424292, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994825, nextPhis[ 0]=6.020752 prevPhis[ 1]=0.005175, nextPhis[ 1]=-0.020752 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.020752 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.033688 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.027223 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.023989 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.022371 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.021562 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.021157 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.020955 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356553, 2.064688, -2.692114, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.397719 b=-5.193983 dts/dp=[1.424286, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995028, nextPhis[ 0]=6.020955 prevPhis[ 1]=0.004972, nextPhis[ 1]=-0.020955 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.020955 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.033890 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.027425 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.024191 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.022573 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.021764 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.021359 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.021157 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356472, 2.064648, -2.692049, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.397522 b=-5.193866 dts/dp=[1.424281, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995231, nextPhis[ 0]=6.021157 prevPhis[ 1]=0.004769, nextPhis[ 1]=-0.021157 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.021157 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.034092 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.027627 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.024393 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.022775 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.021966 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.021562 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.021359 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356392, 2.064609, -2.691983, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.397326 b=-5.193749 dts/dp=[1.424275, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995434, nextPhis[ 0]=6.021359 prevPhis[ 1]=0.004566, nextPhis[ 1]=-0.021359 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.021359 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.034294 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.027829 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.024595 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.022978 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.022168 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.021764 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.021562 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356311, 2.064570, -2.691917, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.397129 b=-5.193632 dts/dp=[1.424269, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995637, nextPhis[ 0]=6.021562 prevPhis[ 1]=0.004363, nextPhis[ 1]=-0.021562 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.021562 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.034496 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.028032 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.024797 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.023180 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.022371 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.021966 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.021764 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356231, 2.064531, -2.691852, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.396932 b=-5.193514 dts/dp=[1.424263, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995840, nextPhis[ 0]=6.021764 prevPhis[ 1]=0.004160, nextPhis[ 1]=-0.021764 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.021764 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.034698 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.028234 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.025000 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.023382 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.022573 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.022169 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.021966 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356150, 2.064492, -2.691786, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.396736 b=-5.193397 dts/dp=[1.424258, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996043, nextPhis[ 0]=6.021966 prevPhis[ 1]=0.003957, nextPhis[ 1]=-0.021966 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.021966 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.034900 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.028436 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.025202 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.023584 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.022775 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.022371 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.022169 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.356069, 2.064453, -2.691721, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.396539 b=-5.193280 dts/dp=[1.424252, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996245, nextPhis[ 0]=6.022169 prevPhis[ 1]=0.003755, nextPhis[ 1]=-0.022169 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.022169 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.035102 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.028638 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.025404 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.023787 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.022978 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.022573 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.022371 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355989, 2.064414, -2.691655, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.396342 b=-5.193163 dts/dp=[1.424246, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996448, nextPhis[ 0]=6.022371 prevPhis[ 1]=0.003552, nextPhis[ 1]=-0.022371 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.022371 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.035304 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.028840 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.025606 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.023989 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.023180 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.022775 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.022573 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355908, 2.064375, -2.691590, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.396145 b=-5.193046 dts/dp=[1.424240, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996651, nextPhis[ 0]=6.022573 prevPhis[ 1]=0.003349, nextPhis[ 1]=-0.022573 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.022573 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.035506 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.029042 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.025809 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.024191 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.023382 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.022978 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.022775 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355827, 2.064336, -2.691524, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.395949 b=-5.192928 dts/dp=[1.424235, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996854, nextPhis[ 0]=6.022775 prevPhis[ 1]=0.003146, nextPhis[ 1]=-0.022775 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.022775 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.035708 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.029244 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.026011 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.024393 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.023584 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.023180 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.022978 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355747, 2.064297, -2.691458, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.395752 b=-5.192811 dts/dp=[1.424229, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997057, nextPhis[ 0]=6.022978 prevPhis[ 1]=0.002943, nextPhis[ 1]=-0.022978 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.022978 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.035910 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.029446 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.026213 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.024595 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.023787 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.023382 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.023180 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355666, 2.064258, -2.691393, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.395555 b=-5.192694 dts/dp=[1.424223, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997260, nextPhis[ 0]=6.023180 prevPhis[ 1]=0.002740, nextPhis[ 1]=-0.023180 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.023180 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.036112 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.029649 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.026415 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.024798 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.023989 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.023584 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.023382 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355585, 2.064219, -2.691327, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.395359 b=-5.192577 dts/dp=[1.424217, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997463, nextPhis[ 0]=6.023382 prevPhis[ 1]=0.002537, nextPhis[ 1]=-0.023382 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.023382 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.036314 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.029851 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.026617 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.025000 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.024191 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.023787 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.023584 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355505, 2.064180, -2.691262, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.395162 b=-5.192460 dts/dp=[1.424212, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997665, nextPhis[ 0]=6.023584 prevPhis[ 1]=0.002335, nextPhis[ 1]=-0.023584 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.023584 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.036516 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.030053 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.026819 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.025202 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.024393 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.023989 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.023787 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355424, 2.064141, -2.691196, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.394965 b=-5.192343 dts/dp=[1.424206, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997868, nextPhis[ 0]=6.023787 prevPhis[ 1]=0.002132, nextPhis[ 1]=-0.023787 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.023787 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.036718 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.030255 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.027022 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.025404 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.024596 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.024191 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.023989 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355344, 2.064102, -2.691131, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.394768 b=-5.192225 dts/dp=[1.424200, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998071, nextPhis[ 0]=6.023989 prevPhis[ 1]=0.001929, nextPhis[ 1]=-0.023989 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.023989 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.036920 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.030457 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.027224 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.025607 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.024798 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.024393 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.024191 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355263, 2.064063, -2.691065, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.394572 b=-5.192108 dts/dp=[1.424194, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998274, nextPhis[ 0]=6.024191 prevPhis[ 1]=0.001726, nextPhis[ 1]=-0.024191 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.024191 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.037121 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.030659 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.027426 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.025809 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.025000 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.024596 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.024393 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355182, 2.064023, -2.690999, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.394375 b=-5.191991 dts/dp=[1.424189, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998477, nextPhis[ 0]=6.024393 prevPhis[ 1]=0.001523, nextPhis[ 1]=-0.024393 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.024393 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.037323 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.030861 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.027628 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.026011 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.025202 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.024798 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.024596 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355102, 2.063984, -2.690934, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.394178 b=-5.191874 dts/dp=[1.424183, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998680, nextPhis[ 0]=6.024596 prevPhis[ 1]=0.001320, nextPhis[ 1]=-0.024596 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.024596 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.037525 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.031063 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.027830 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.026213 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.025404 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.025000 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.024798 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.355021, 2.063945, -2.690868, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.393982 b=-5.191757 dts/dp=[1.424177, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998882, nextPhis[ 0]=6.024798 prevPhis[ 1]=0.001118, nextPhis[ 1]=-0.024798 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.024798 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.037727 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.031265 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.028032 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.026415 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.025607 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.025202 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.025000 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.354940, 2.063906, -2.690803, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.393785 b=-5.191639 dts/dp=[1.424171, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999085, nextPhis[ 0]=6.025000 prevPhis[ 1]=0.000915, nextPhis[ 1]=-0.025000 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.025000 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.037929 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.031467 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.028235 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.026617 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.025809 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.025404 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.025202 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.354860, 2.063867, -2.690737, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.393588 b=-5.191522 dts/dp=[1.424166, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999288, nextPhis[ 0]=6.025202 prevPhis[ 1]=0.000712, nextPhis[ 1]=-0.025202 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.025202 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.038131 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.031669 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.028437 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.026820 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.026011 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.025607 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.025404 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.354779, 2.063828, -2.690672, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.393391 b=-5.191405 dts/dp=[1.424160, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999491, nextPhis[ 0]=6.025404 prevPhis[ 1]=0.000509, nextPhis[ 1]=-0.025404 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.025404 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.038333 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.031872 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.028639 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.027022 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.026213 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.025809 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.025607 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.354699, 2.063789, -2.690606, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.393195 b=-5.191288 dts/dp=[1.424154, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999694, nextPhis[ 0]=6.025607 prevPhis[ 1]=0.000306, nextPhis[ 1]=-0.025607 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.025607 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.038535 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.032074 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.028841 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.027224 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.026415 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.026011 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.025809 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.354618, 2.063750, -2.690540, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.392998 b=-5.191171 dts/dp=[1.424149, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999896, nextPhis[ 0]=6.025809 prevPhis[ 1]=0.000104, nextPhis[ 1]=-0.025809 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 6.505000 Phiest = -0.025809 Phiest < 0.0 it = 1 Test = 6.502500 Phiest = -0.038737 Phiest < 0.0 it = 2 Test = 6.501250 Phiest = -0.032276 Phiest < 0.0 it = 3 Test = 6.500625 Phiest = -0.029043 Phiest < 0.0 it = 4 Test = 6.500312 Phiest = -0.027426 Phiest < 0.0 it = 5 Test = 6.500156 Phiest = -0.026618 Phiest < 0.0 it = 6 Test = 6.500078 Phiest = -0.026213 Phiest < 0.0 it = 7 Test = 6.500039 Phiest = -0.026011 Switch time for phi[1] is 6.500039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.354537, 2.063711, -2.690475, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=7.392801 b=-5.191053 dts/dp=[1.424143, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 6.500000 Tnext = 6.505000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.505000 pESO->GetIndependentVar(): 6.505000 ==>IsSwitchingOccur() prevPhis[ 0]=6.000099, nextPhis[ 0]=6.026011 prevPhis[ 1]=-0.000099, nextPhis[ 1]=-0.026011 <==IsSwitchingOccur() T = 6.505000 Tnext = 6.510000 Time: 6.50500e+00 states: [ -3.44233e-01 2.05871e+00] derivs: [ 2.05848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.510000 pESO->GetIndependentVar(): 6.510000 ==>IsSwitchingOccur() prevPhis[ 0]=6.026011, nextPhis[ 0]=6.051848 prevPhis[ 1]=-0.026011, nextPhis[ 1]=-0.051848 <==IsSwitchingOccur() T = 6.510000 Tnext = 6.515000 Time: 6.51000e+00 states: [ -3.33954e-01 2.05371e+00] derivs: [ 2.05348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.515000 pESO->GetIndependentVar(): 6.515000 ==>IsSwitchingOccur() prevPhis[ 0]=6.051848, nextPhis[ 0]=6.077610 prevPhis[ 1]=-0.051848, nextPhis[ 1]=-0.077610 <==IsSwitchingOccur() T = 6.515000 Tnext = 6.520000 Time: 6.51500e+00 states: [ -3.23700e-01 2.04871e+00] derivs: [ 2.04848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.520000 pESO->GetIndependentVar(): 6.520000 ==>IsSwitchingOccur() prevPhis[ 0]=6.077610, nextPhis[ 0]=6.103297 prevPhis[ 1]=-0.077610, nextPhis[ 1]=-0.103297 <==IsSwitchingOccur() T = 6.520000 Tnext = 6.525000 Time: 6.52000e+00 states: [ -3.13471e-01 2.04371e+00] derivs: [ 2.04348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.525000 pESO->GetIndependentVar(): 6.525000 ==>IsSwitchingOccur() prevPhis[ 0]=6.103297, nextPhis[ 0]=6.128909 prevPhis[ 1]=-0.103297, nextPhis[ 1]=-0.128909 <==IsSwitchingOccur() T = 6.525000 Tnext = 6.530000 Time: 6.52500e+00 states: [ -3.03267e-01 2.03871e+00] derivs: [ 2.03848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.530000 pESO->GetIndependentVar(): 6.530000 ==>IsSwitchingOccur() prevPhis[ 0]=6.128909, nextPhis[ 0]=6.154445 prevPhis[ 1]=-0.128909, nextPhis[ 1]=-0.154445 <==IsSwitchingOccur() T = 6.530000 Tnext = 6.535000 Time: 6.53000e+00 states: [ -2.93089e-01 2.03371e+00] derivs: [ 2.03348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.535000 pESO->GetIndependentVar(): 6.535000 ==>IsSwitchingOccur() prevPhis[ 0]=6.154445, nextPhis[ 0]=6.179907 prevPhis[ 1]=-0.154445, nextPhis[ 1]=-0.179907 <==IsSwitchingOccur() T = 6.535000 Tnext = 6.540000 Time: 6.53500e+00 states: [ -2.82935e-01 2.02871e+00] derivs: [ 2.02848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.540000 pESO->GetIndependentVar(): 6.540000 ==>IsSwitchingOccur() prevPhis[ 0]=6.179907, nextPhis[ 0]=6.205294 prevPhis[ 1]=-0.179907, nextPhis[ 1]=-0.205294 <==IsSwitchingOccur() T = 6.540000 Tnext = 6.545000 Time: 6.54000e+00 states: [ -2.72806e-01 2.02371e+00] derivs: [ 2.02348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.545000 pESO->GetIndependentVar(): 6.545000 ==>IsSwitchingOccur() prevPhis[ 0]=6.205294, nextPhis[ 0]=6.230606 prevPhis[ 1]=-0.205294, nextPhis[ 1]=-0.230606 <==IsSwitchingOccur() T = 6.545000 Tnext = 6.550000 Time: 6.54500e+00 states: [ -2.62702e-01 2.01871e+00] derivs: [ 2.01848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.550000 pESO->GetIndependentVar(): 6.550000 ==>IsSwitchingOccur() prevPhis[ 0]=6.230606, nextPhis[ 0]=6.255843 prevPhis[ 1]=-0.230606, nextPhis[ 1]=-0.255843 <==IsSwitchingOccur() T = 6.550000 Tnext = 6.555000 Time: 6.55000e+00 states: [ -2.52623e-01 2.01371e+00] derivs: [ 2.01348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.555000 pESO->GetIndependentVar(): 6.555000 ==>IsSwitchingOccur() prevPhis[ 0]=6.255843, nextPhis[ 0]=6.281005 prevPhis[ 1]=-0.255843, nextPhis[ 1]=-0.281005 <==IsSwitchingOccur() T = 6.555000 Tnext = 6.560000 Time: 6.55500e+00 states: [ -2.42569e-01 2.00871e+00] derivs: [ 2.00848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.560000 pESO->GetIndependentVar(): 6.560000 ==>IsSwitchingOccur() prevPhis[ 0]=6.281005, nextPhis[ 0]=6.306092 prevPhis[ 1]=-0.281005, nextPhis[ 1]=-0.306092 <==IsSwitchingOccur() T = 6.560000 Tnext = 6.565000 Time: 6.56000e+00 states: [ -2.32540e-01 2.00371e+00] derivs: [ 2.00348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.565000 pESO->GetIndependentVar(): 6.565000 ==>IsSwitchingOccur() prevPhis[ 0]=6.306092, nextPhis[ 0]=6.331104 prevPhis[ 1]=-0.306092, nextPhis[ 1]=-0.331104 <==IsSwitchingOccur() T = 6.565000 Tnext = 6.570000 Time: 6.56500e+00 states: [ -2.22536e-01 1.99871e+00] derivs: [ 1.99848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.570000 pESO->GetIndependentVar(): 6.570000 ==>IsSwitchingOccur() prevPhis[ 0]=6.331104, nextPhis[ 0]=6.356041 prevPhis[ 1]=-0.331104, nextPhis[ 1]=-0.356041 <==IsSwitchingOccur() T = 6.570000 Tnext = 6.575000 Time: 6.57000e+00 states: [ -2.12557e-01 1.99371e+00] derivs: [ 1.99348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.575000 pESO->GetIndependentVar(): 6.575000 ==>IsSwitchingOccur() prevPhis[ 0]=6.356041, nextPhis[ 0]=6.380902 prevPhis[ 1]=-0.356041, nextPhis[ 1]=-0.380902 <==IsSwitchingOccur() T = 6.575000 Tnext = 6.580000 Time: 6.57500e+00 states: [ -2.02603e-01 1.98871e+00] derivs: [ 1.98848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.580000 pESO->GetIndependentVar(): 6.580000 ==>IsSwitchingOccur() prevPhis[ 0]=6.380902, nextPhis[ 0]=6.405689 prevPhis[ 1]=-0.380902, nextPhis[ 1]=-0.405689 <==IsSwitchingOccur() T = 6.580000 Tnext = 6.585000 Time: 6.58000e+00 states: [ -1.92674e-01 1.98371e+00] derivs: [ 1.98348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.585000 pESO->GetIndependentVar(): 6.585000 ==>IsSwitchingOccur() prevPhis[ 0]=6.405689, nextPhis[ 0]=6.430401 prevPhis[ 1]=-0.405689, nextPhis[ 1]=-0.430401 <==IsSwitchingOccur() T = 6.585000 Tnext = 6.590000 Time: 6.58500e+00 states: [ -1.82770e-01 1.97871e+00] derivs: [ 1.97848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.590000 pESO->GetIndependentVar(): 6.590000 ==>IsSwitchingOccur() prevPhis[ 0]=6.430401, nextPhis[ 0]=6.455038 prevPhis[ 1]=-0.430401, nextPhis[ 1]=-0.455038 <==IsSwitchingOccur() T = 6.590000 Tnext = 6.595000 Time: 6.59000e+00 states: [ -1.72891e-01 1.97371e+00] derivs: [ 1.97348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.595000 pESO->GetIndependentVar(): 6.595000 ==>IsSwitchingOccur() prevPhis[ 0]=6.455038, nextPhis[ 0]=6.479600 prevPhis[ 1]=-0.455038, nextPhis[ 1]=-0.479600 <==IsSwitchingOccur() T = 6.595000 Tnext = 6.600000 Time: 6.59500e+00 states: [ -1.63037e-01 1.96871e+00] derivs: [ 1.96848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.600000 pESO->GetIndependentVar(): 6.600000 ==>IsSwitchingOccur() prevPhis[ 0]=6.479600, nextPhis[ 0]=6.504087 prevPhis[ 1]=-0.479600, nextPhis[ 1]=-0.504087 <==IsSwitchingOccur() T = 6.600000 Tnext = 6.605000 Time: 6.60000e+00 states: [ -1.53208e-01 1.96371e+00] derivs: [ 1.96348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.605000 pESO->GetIndependentVar(): 6.605000 ==>IsSwitchingOccur() prevPhis[ 0]=6.504087, nextPhis[ 0]=6.528499 prevPhis[ 1]=-0.504087, nextPhis[ 1]=-0.528499 <==IsSwitchingOccur() T = 6.605000 Tnext = 6.610000 Time: 6.60500e+00 states: [ -1.43404e-01 1.95871e+00] derivs: [ 1.95848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.610000 pESO->GetIndependentVar(): 6.610000 ==>IsSwitchingOccur() prevPhis[ 0]=6.528499, nextPhis[ 0]=6.552836 prevPhis[ 1]=-0.528499, nextPhis[ 1]=-0.552836 <==IsSwitchingOccur() T = 6.610000 Tnext = 6.615000 Time: 6.61000e+00 states: [ -1.33625e-01 1.95371e+00] derivs: [ 1.95348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.615000 pESO->GetIndependentVar(): 6.615000 ==>IsSwitchingOccur() prevPhis[ 0]=6.552836, nextPhis[ 0]=6.577098 prevPhis[ 1]=-0.552836, nextPhis[ 1]=-0.577098 <==IsSwitchingOccur() T = 6.615000 Tnext = 6.620000 Time: 6.61500e+00 states: [ -1.23871e-01 1.94871e+00] derivs: [ 1.94848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.620000 pESO->GetIndependentVar(): 6.620000 ==>IsSwitchingOccur() prevPhis[ 0]=6.577098, nextPhis[ 0]=6.601284 prevPhis[ 1]=-0.577098, nextPhis[ 1]=-0.601284 <==IsSwitchingOccur() T = 6.620000 Tnext = 6.625000 Time: 6.62000e+00 states: [ -1.14142e-01 1.94371e+00] derivs: [ 1.94348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.625000 pESO->GetIndependentVar(): 6.625000 ==>IsSwitchingOccur() prevPhis[ 0]=6.601284, nextPhis[ 0]=6.625396 prevPhis[ 1]=-0.601284, nextPhis[ 1]=-0.625396 <==IsSwitchingOccur() T = 6.625000 Tnext = 6.630000 Time: 6.62500e+00 states: [ -1.04438e-01 1.93871e+00] derivs: [ 1.93848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.630000 pESO->GetIndependentVar(): 6.630000 ==>IsSwitchingOccur() prevPhis[ 0]=6.625396, nextPhis[ 0]=6.649433 prevPhis[ 1]=-0.625396, nextPhis[ 1]=-0.649433 <==IsSwitchingOccur() T = 6.630000 Tnext = 6.635000 Time: 6.63000e+00 states: [ -9.47593e-02 1.93371e+00] derivs: [ 1.93348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.635000 pESO->GetIndependentVar(): 6.635000 ==>IsSwitchingOccur() prevPhis[ 0]=6.649433, nextPhis[ 0]=6.673395 prevPhis[ 1]=-0.649433, nextPhis[ 1]=-0.673395 <==IsSwitchingOccur() T = 6.635000 Tnext = 6.640000 Time: 6.63500e+00 states: [ -8.51053e-02 1.92871e+00] derivs: [ 1.92848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.640000 pESO->GetIndependentVar(): 6.640000 ==>IsSwitchingOccur() prevPhis[ 0]=6.673395, nextPhis[ 0]=6.697282 prevPhis[ 1]=-0.673395, nextPhis[ 1]=-0.697282 <==IsSwitchingOccur() T = 6.640000 Tnext = 6.645000 Time: 6.64000e+00 states: [ -7.54763e-02 1.92371e+00] derivs: [ 1.92348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.645000 pESO->GetIndependentVar(): 6.645000 ==>IsSwitchingOccur() prevPhis[ 0]=6.697282, nextPhis[ 0]=6.721094 prevPhis[ 1]=-0.697282, nextPhis[ 1]=-0.721094 <==IsSwitchingOccur() T = 6.645000 Tnext = 6.650000 Time: 6.64500e+00 states: [ -6.58724e-02 1.91871e+00] derivs: [ 1.91848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.650000 pESO->GetIndependentVar(): 6.650000 ==>IsSwitchingOccur() prevPhis[ 0]=6.721094, nextPhis[ 0]=6.744831 prevPhis[ 1]=-0.721094, nextPhis[ 1]=-0.744831 <==IsSwitchingOccur() T = 6.650000 Tnext = 6.655000 Time: 6.65000e+00 states: [ -5.62934e-02 1.91371e+00] derivs: [ 1.91348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.655000 pESO->GetIndependentVar(): 6.655000 ==>IsSwitchingOccur() prevPhis[ 0]=6.744831, nextPhis[ 0]=6.768493 prevPhis[ 1]=-0.744831, nextPhis[ 1]=-0.768493 <==IsSwitchingOccur() T = 6.655000 Tnext = 6.660000 Time: 6.65500e+00 states: [ -4.67395e-02 1.90871e+00] derivs: [ 1.90848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.660000 pESO->GetIndependentVar(): 6.660000 ==>IsSwitchingOccur() prevPhis[ 0]=6.768493, nextPhis[ 0]=6.792079 prevPhis[ 1]=-0.768493, nextPhis[ 1]=-0.792079 <==IsSwitchingOccur() T = 6.660000 Tnext = 6.665000 Time: 6.66000e+00 states: [ -3.72105e-02 1.90371e+00] derivs: [ 1.90348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.665000 pESO->GetIndependentVar(): 6.665000 ==>IsSwitchingOccur() prevPhis[ 0]=6.792079, nextPhis[ 0]=6.815591 prevPhis[ 1]=-0.792079, nextPhis[ 1]=-0.815591 <==IsSwitchingOccur() T = 6.665000 Tnext = 6.670000 Time: 6.66500e+00 states: [ -2.77066e-02 1.89871e+00] derivs: [ 1.89821e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.670000 pESO->GetIndependentVar(): 6.670000 ==>IsSwitchingOccur() prevPhis[ 0]=6.815591, nextPhis[ 0]=6.839028 prevPhis[ 1]=-0.815591, nextPhis[ 1]=-0.839028 <==IsSwitchingOccur() T = 6.670000 Tnext = 6.675000 Time: 6.67000e+00 states: [ -1.82277e-02 1.89371e+00] derivs: [ 1.89321e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.675000 pESO->GetIndependentVar(): 6.675000 ==>IsSwitchingOccur() prevPhis[ 0]=6.839028, nextPhis[ 0]=6.862389 prevPhis[ 1]=-0.839028, nextPhis[ 1]=-0.862389 <==IsSwitchingOccur() T = 6.675000 Tnext = 6.680000 Time: 6.67500e+00 states: [ -8.77385e-03 1.88871e+00] derivs: [ 1.88821e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.680000 pESO->GetIndependentVar(): 6.680000 ==>IsSwitchingOccur() prevPhis[ 0]=6.862389, nextPhis[ 0]=6.885676 prevPhis[ 1]=-0.862389, nextPhis[ 1]=-0.885676 <==IsSwitchingOccur() T = 6.680000 Tnext = 6.685000 Time: 6.68000e+00 states: [ 6.55034e-04 1.88371e+00] derivs: [ 1.88321e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.685000 pESO->GetIndependentVar(): 6.685000 ==>IsSwitchingOccur() prevPhis[ 0]=6.885676, nextPhis[ 0]=6.908888 prevPhis[ 1]=-0.885676, nextPhis[ 1]=-0.908888 <==IsSwitchingOccur() T = 6.685000 Tnext = 6.690000 Time: 6.68500e+00 states: [ 1.00589e-02 1.87871e+00] derivs: [ 1.87821e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.690000 pESO->GetIndependentVar(): 6.690000 ==>IsSwitchingOccur() prevPhis[ 0]=6.908888, nextPhis[ 0]=6.932024 prevPhis[ 1]=-0.908888, nextPhis[ 1]=-0.932024 <==IsSwitchingOccur() T = 6.690000 Tnext = 6.695000 Time: 6.69000e+00 states: [ 1.94378e-02 1.87371e+00] derivs: [ 1.87321e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.695000 pESO->GetIndependentVar(): 6.695000 ==>IsSwitchingOccur() prevPhis[ 0]=6.932024, nextPhis[ 0]=6.955086 prevPhis[ 1]=-0.932024, nextPhis[ 1]=-0.955086 <==IsSwitchingOccur() T = 6.695000 Tnext = 6.700000 Time: 6.69500e+00 states: [ 2.87917e-02 1.86871e+00] derivs: [ 1.86821e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.700000 pESO->GetIndependentVar(): 6.700000 ==>IsSwitchingOccur() prevPhis[ 0]=6.955086, nextPhis[ 0]=6.978073 prevPhis[ 1]=-0.955086, nextPhis[ 1]=-0.978073 <==IsSwitchingOccur() T = 6.700000 Tnext = 6.705000 Time: 6.70000e+00 states: [ 3.81206e-02 1.86371e+00] derivs: [ 1.86321e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.705000 pESO->GetIndependentVar(): 6.705000 ==>IsSwitchingOccur() prevPhis[ 0]=6.978073, nextPhis[ 0]=7.000985 prevPhis[ 1]=-0.978073, nextPhis[ 1]=-1.000985 <==IsSwitchingOccur() T = 6.705000 Tnext = 6.710000 Time: 6.70500e+00 states: [ 4.74245e-02 1.85871e+00] derivs: [ 1.85848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.710000 pESO->GetIndependentVar(): 6.710000 ==>IsSwitchingOccur() prevPhis[ 0]=7.000985, nextPhis[ 0]=7.023821 prevPhis[ 1]=-1.000985, nextPhis[ 1]=-1.023821 <==IsSwitchingOccur() T = 6.710000 Tnext = 6.715000 Time: 6.71000e+00 states: [ 5.67035e-02 1.85371e+00] derivs: [ 1.85348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.715000 pESO->GetIndependentVar(): 6.715000 ==>IsSwitchingOccur() prevPhis[ 0]=7.023821, nextPhis[ 0]=7.046583 prevPhis[ 1]=-1.023821, nextPhis[ 1]=-1.046583 <==IsSwitchingOccur() T = 6.715000 Tnext = 6.720000 Time: 6.71500e+00 states: [ 6.59575e-02 1.84871e+00] derivs: [ 1.84848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.720000 pESO->GetIndependentVar(): 6.720000 ==>IsSwitchingOccur() prevPhis[ 0]=7.046583, nextPhis[ 0]=7.069270 prevPhis[ 1]=-1.046583, nextPhis[ 1]=-1.069270 <==IsSwitchingOccur() T = 6.720000 Tnext = 6.725000 Time: 6.72000e+00 states: [ 7.51864e-02 1.84371e+00] derivs: [ 1.84348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.725000 pESO->GetIndependentVar(): 6.725000 ==>IsSwitchingOccur() prevPhis[ 0]=7.069270, nextPhis[ 0]=7.091882 prevPhis[ 1]=-1.069270, nextPhis[ 1]=-1.091882 <==IsSwitchingOccur() T = 6.725000 Tnext = 6.730000 Time: 6.72500e+00 states: [ 8.43904e-02 1.83871e+00] derivs: [ 1.83848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.730000 pESO->GetIndependentVar(): 6.730000 ==>IsSwitchingOccur() prevPhis[ 0]=7.091882, nextPhis[ 0]=7.114419 prevPhis[ 1]=-1.091882, nextPhis[ 1]=-1.114419 <==IsSwitchingOccur() T = 6.730000 Tnext = 6.735000 Time: 6.73000e+00 states: [ 9.35693e-02 1.83371e+00] derivs: [ 1.83348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.735000 pESO->GetIndependentVar(): 6.735000 ==>IsSwitchingOccur() prevPhis[ 0]=7.114419, nextPhis[ 0]=7.136881 prevPhis[ 1]=-1.114419, nextPhis[ 1]=-1.136881 <==IsSwitchingOccur() T = 6.735000 Tnext = 6.740000 Time: 6.73500e+00 states: [ 1.02723e-01 1.82871e+00] derivs: [ 1.82848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.740000 pESO->GetIndependentVar(): 6.740000 ==>IsSwitchingOccur() prevPhis[ 0]=7.136881, nextPhis[ 0]=7.159268 prevPhis[ 1]=-1.136881, nextPhis[ 1]=-1.159268 <==IsSwitchingOccur() T = 6.740000 Tnext = 6.745000 Time: 6.74000e+00 states: [ 1.11852e-01 1.82371e+00] derivs: [ 1.82348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.745000 pESO->GetIndependentVar(): 6.745000 ==>IsSwitchingOccur() prevPhis[ 0]=7.159268, nextPhis[ 0]=7.181580 prevPhis[ 1]=-1.159268, nextPhis[ 1]=-1.181580 <==IsSwitchingOccur() T = 6.745000 Tnext = 6.750000 Time: 6.74500e+00 states: [ 1.20956e-01 1.81871e+00] derivs: [ 1.81848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.750000 pESO->GetIndependentVar(): 6.750000 ==>IsSwitchingOccur() prevPhis[ 0]=7.181580, nextPhis[ 0]=7.203817 prevPhis[ 1]=-1.181580, nextPhis[ 1]=-1.203817 <==IsSwitchingOccur() T = 6.750000 Tnext = 6.755000 Time: 6.75000e+00 states: [ 1.30035e-01 1.81371e+00] derivs: [ 1.81348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.755000 pESO->GetIndependentVar(): 6.755000 ==>IsSwitchingOccur() prevPhis[ 0]=7.203817, nextPhis[ 0]=7.225978 prevPhis[ 1]=-1.203817, nextPhis[ 1]=-1.225978 <==IsSwitchingOccur() T = 6.755000 Tnext = 6.760000 Time: 6.75500e+00 states: [ 1.39089e-01 1.80871e+00] derivs: [ 1.80848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.760000 pESO->GetIndependentVar(): 6.760000 ==>IsSwitchingOccur() prevPhis[ 0]=7.225978, nextPhis[ 0]=7.248065 prevPhis[ 1]=-1.225978, nextPhis[ 1]=-1.248065 <==IsSwitchingOccur() T = 6.760000 Tnext = 6.765000 Time: 6.76000e+00 states: [ 1.48118e-01 1.80371e+00] derivs: [ 1.80348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.765000 pESO->GetIndependentVar(): 6.765000 ==>IsSwitchingOccur() prevPhis[ 0]=7.248065, nextPhis[ 0]=7.270077 prevPhis[ 1]=-1.248065, nextPhis[ 1]=-1.270077 <==IsSwitchingOccur() T = 6.765000 Tnext = 6.770000 Time: 6.76500e+00 states: [ 1.57122e-01 1.79871e+00] derivs: [ 1.79848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.770000 pESO->GetIndependentVar(): 6.770000 ==>IsSwitchingOccur() prevPhis[ 0]=7.270077, nextPhis[ 0]=7.292014 prevPhis[ 1]=-1.270077, nextPhis[ 1]=-1.292014 <==IsSwitchingOccur() T = 6.770000 Tnext = 6.775000 Time: 6.77000e+00 states: [ 1.66101e-01 1.79371e+00] derivs: [ 1.79348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.775000 pESO->GetIndependentVar(): 6.775000 ==>IsSwitchingOccur() prevPhis[ 0]=7.292014, nextPhis[ 0]=7.313876 prevPhis[ 1]=-1.292014, nextPhis[ 1]=-1.313876 <==IsSwitchingOccur() T = 6.775000 Tnext = 6.780000 Time: 6.77500e+00 states: [ 1.75055e-01 1.78871e+00] derivs: [ 1.78848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.780000 pESO->GetIndependentVar(): 6.780000 ==>IsSwitchingOccur() prevPhis[ 0]=7.313876, nextPhis[ 0]=7.335663 prevPhis[ 1]=-1.313876, nextPhis[ 1]=-1.335663 <==IsSwitchingOccur() T = 6.780000 Tnext = 6.785000 Time: 6.78000e+00 states: [ 1.83984e-01 1.78371e+00] derivs: [ 1.78348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.785000 pESO->GetIndependentVar(): 6.785000 ==>IsSwitchingOccur() prevPhis[ 0]=7.335663, nextPhis[ 0]=7.357375 prevPhis[ 1]=-1.335663, nextPhis[ 1]=-1.357375 <==IsSwitchingOccur() T = 6.785000 Tnext = 6.790000 Time: 6.78500e+00 states: [ 1.92888e-01 1.77871e+00] derivs: [ 1.77848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.790000 pESO->GetIndependentVar(): 6.790000 ==>IsSwitchingOccur() prevPhis[ 0]=7.357375, nextPhis[ 0]=7.379012 prevPhis[ 1]=-1.357375, nextPhis[ 1]=-1.379012 <==IsSwitchingOccur() T = 6.790000 Tnext = 6.795000 Time: 6.79000e+00 states: [ 2.01767e-01 1.77371e+00] derivs: [ 1.77348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.795000 pESO->GetIndependentVar(): 6.795000 ==>IsSwitchingOccur() prevPhis[ 0]=7.379012, nextPhis[ 0]=7.400574 prevPhis[ 1]=-1.379012, nextPhis[ 1]=-1.400574 <==IsSwitchingOccur() T = 6.795000 Tnext = 6.800000 Time: 6.79500e+00 states: [ 2.10621e-01 1.76871e+00] derivs: [ 1.76848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.800000 pESO->GetIndependentVar(): 6.800000 ==>IsSwitchingOccur() prevPhis[ 0]=7.400574, nextPhis[ 0]=7.422060 prevPhis[ 1]=-1.400574, nextPhis[ 1]=-1.422060 <==IsSwitchingOccur() T = 6.800000 Tnext = 6.805000 Time: 6.80000e+00 states: [ 2.19450e-01 1.76371e+00] derivs: [ 1.76348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.805000 pESO->GetIndependentVar(): 6.805000 ==>IsSwitchingOccur() prevPhis[ 0]=7.422060, nextPhis[ 0]=7.443472 prevPhis[ 1]=-1.422060, nextPhis[ 1]=-1.443472 <==IsSwitchingOccur() T = 6.805000 Tnext = 6.810000 Time: 6.80500e+00 states: [ 2.28254e-01 1.75871e+00] derivs: [ 1.75848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.810000 pESO->GetIndependentVar(): 6.810000 ==>IsSwitchingOccur() prevPhis[ 0]=7.443472, nextPhis[ 0]=7.464809 prevPhis[ 1]=-1.443472, nextPhis[ 1]=-1.464809 <==IsSwitchingOccur() T = 6.810000 Tnext = 6.815000 Time: 6.81000e+00 states: [ 2.37033e-01 1.75371e+00] derivs: [ 1.75348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.815000 pESO->GetIndependentVar(): 6.815000 ==>IsSwitchingOccur() prevPhis[ 0]=7.464809, nextPhis[ 0]=7.486071 prevPhis[ 1]=-1.464809, nextPhis[ 1]=-1.486071 <==IsSwitchingOccur() T = 6.815000 Tnext = 6.820000 Time: 6.81500e+00 states: [ 2.45787e-01 1.74871e+00] derivs: [ 1.74848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.820000 pESO->GetIndependentVar(): 6.820000 ==>IsSwitchingOccur() prevPhis[ 0]=7.486071, nextPhis[ 0]=7.507258 prevPhis[ 1]=-1.486071, nextPhis[ 1]=-1.507258 <==IsSwitchingOccur() T = 6.820000 Tnext = 6.825000 Time: 6.82000e+00 states: [ 2.54516e-01 1.74371e+00] derivs: [ 1.74348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.825000 pESO->GetIndependentVar(): 6.825000 ==>IsSwitchingOccur() prevPhis[ 0]=7.507258, nextPhis[ 0]=7.528370 prevPhis[ 1]=-1.507258, nextPhis[ 1]=-1.528370 <==IsSwitchingOccur() T = 6.825000 Tnext = 6.830000 Time: 6.82500e+00 states: [ 2.63220e-01 1.73871e+00] derivs: [ 1.73848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.830000 pESO->GetIndependentVar(): 6.830000 ==>IsSwitchingOccur() prevPhis[ 0]=7.528370, nextPhis[ 0]=7.549407 prevPhis[ 1]=-1.528370, nextPhis[ 1]=-1.549407 <==IsSwitchingOccur() T = 6.830000 Tnext = 6.835000 Time: 6.83000e+00 states: [ 2.71899e-01 1.73371e+00] derivs: [ 1.73348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.835000 pESO->GetIndependentVar(): 6.835000 ==>IsSwitchingOccur() prevPhis[ 0]=7.549407, nextPhis[ 0]=7.570369 prevPhis[ 1]=-1.549407, nextPhis[ 1]=-1.570369 <==IsSwitchingOccur() T = 6.835000 Tnext = 6.840000 Time: 6.83500e+00 states: [ 2.80553e-01 1.72871e+00] derivs: [ 1.72848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.840000 pESO->GetIndependentVar(): 6.840000 ==>IsSwitchingOccur() prevPhis[ 0]=7.570369, nextPhis[ 0]=7.591256 prevPhis[ 1]=-1.570369, nextPhis[ 1]=-1.591256 <==IsSwitchingOccur() T = 6.840000 Tnext = 6.845000 Time: 6.84000e+00 states: [ 2.89182e-01 1.72371e+00] derivs: [ 1.72348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.845000 pESO->GetIndependentVar(): 6.845000 ==>IsSwitchingOccur() prevPhis[ 0]=7.591256, nextPhis[ 0]=7.612067 prevPhis[ 1]=-1.591256, nextPhis[ 1]=-1.612067 <==IsSwitchingOccur() T = 6.845000 Tnext = 6.850000 Time: 6.84500e+00 states: [ 2.97785e-01 1.71871e+00] derivs: [ 1.71848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.850000 pESO->GetIndependentVar(): 6.850000 ==>IsSwitchingOccur() prevPhis[ 0]=7.612067, nextPhis[ 0]=7.632804 prevPhis[ 1]=-1.612067, nextPhis[ 1]=-1.632804 <==IsSwitchingOccur() T = 6.850000 Tnext = 6.855000 Time: 6.85000e+00 states: [ 3.06364e-01 1.71371e+00] derivs: [ 1.71348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.855000 pESO->GetIndependentVar(): 6.855000 ==>IsSwitchingOccur() prevPhis[ 0]=7.632804, nextPhis[ 0]=7.653466 prevPhis[ 1]=-1.632804, nextPhis[ 1]=-1.653466 <==IsSwitchingOccur() T = 6.855000 Tnext = 6.860000 Time: 6.85500e+00 states: [ 3.14918e-01 1.70871e+00] derivs: [ 1.70848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.860000 pESO->GetIndependentVar(): 6.860000 ==>IsSwitchingOccur() prevPhis[ 0]=7.653466, nextPhis[ 0]=7.674053 prevPhis[ 1]=-1.653466, nextPhis[ 1]=-1.674053 <==IsSwitchingOccur() T = 6.860000 Tnext = 6.865000 Time: 6.86000e+00 states: [ 3.23447e-01 1.70371e+00] derivs: [ 1.70348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.865000 pESO->GetIndependentVar(): 6.865000 ==>IsSwitchingOccur() prevPhis[ 0]=7.674053, nextPhis[ 0]=7.694565 prevPhis[ 1]=-1.674053, nextPhis[ 1]=-1.694565 <==IsSwitchingOccur() T = 6.865000 Tnext = 6.870000 Time: 6.86500e+00 states: [ 3.31951e-01 1.69871e+00] derivs: [ 1.69848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.870000 pESO->GetIndependentVar(): 6.870000 ==>IsSwitchingOccur() prevPhis[ 0]=7.694565, nextPhis[ 0]=7.715002 prevPhis[ 1]=-1.694565, nextPhis[ 1]=-1.715002 <==IsSwitchingOccur() T = 6.870000 Tnext = 6.875000 Time: 6.87000e+00 states: [ 3.40430e-01 1.69371e+00] derivs: [ 1.69348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.875000 pESO->GetIndependentVar(): 6.875000 ==>IsSwitchingOccur() prevPhis[ 0]=7.715002, nextPhis[ 0]=7.735364 prevPhis[ 1]=-1.715002, nextPhis[ 1]=-1.735364 <==IsSwitchingOccur() T = 6.875000 Tnext = 6.880000 Time: 6.87500e+00 states: [ 3.48884e-01 1.68871e+00] derivs: [ 1.68848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.880000 pESO->GetIndependentVar(): 6.880000 ==>IsSwitchingOccur() prevPhis[ 0]=7.735364, nextPhis[ 0]=7.755651 prevPhis[ 1]=-1.735364, nextPhis[ 1]=-1.755651 <==IsSwitchingOccur() T = 6.880000 Tnext = 6.885000 Time: 6.88000e+00 states: [ 3.57313e-01 1.68371e+00] derivs: [ 1.68348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.885000 pESO->GetIndependentVar(): 6.885000 ==>IsSwitchingOccur() prevPhis[ 0]=7.755651, nextPhis[ 0]=7.775863 prevPhis[ 1]=-1.755651, nextPhis[ 1]=-1.775863 <==IsSwitchingOccur() T = 6.885000 Tnext = 6.890000 Time: 6.88500e+00 states: [ 3.65717e-01 1.67871e+00] derivs: [ 1.67848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.890000 pESO->GetIndependentVar(): 6.890000 ==>IsSwitchingOccur() prevPhis[ 0]=7.775863, nextPhis[ 0]=7.795999 prevPhis[ 1]=-1.775863, nextPhis[ 1]=-1.795999 <==IsSwitchingOccur() T = 6.890000 Tnext = 6.895000 Time: 6.89000e+00 states: [ 3.74096e-01 1.67371e+00] derivs: [ 1.67348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.895000 pESO->GetIndependentVar(): 6.895000 ==>IsSwitchingOccur() prevPhis[ 0]=7.795999, nextPhis[ 0]=7.816061 prevPhis[ 1]=-1.795999, nextPhis[ 1]=-1.816061 <==IsSwitchingOccur() T = 6.895000 Tnext = 6.900000 Time: 6.89500e+00 states: [ 3.82450e-01 1.66871e+00] derivs: [ 1.66848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.900000 pESO->GetIndependentVar(): 6.900000 ==>IsSwitchingOccur() prevPhis[ 0]=7.816061, nextPhis[ 0]=7.836048 prevPhis[ 1]=-1.816061, nextPhis[ 1]=-1.836048 <==IsSwitchingOccur() T = 6.900000 Tnext = 6.905000 Time: 6.90000e+00 states: [ 3.90779e-01 1.66371e+00] derivs: [ 1.66348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.905000 pESO->GetIndependentVar(): 6.905000 ==>IsSwitchingOccur() prevPhis[ 0]=7.836048, nextPhis[ 0]=7.855960 prevPhis[ 1]=-1.836048, nextPhis[ 1]=-1.855960 <==IsSwitchingOccur() T = 6.905000 Tnext = 6.910000 Time: 6.90500e+00 states: [ 3.99083e-01 1.65871e+00] derivs: [ 1.65848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.910000 pESO->GetIndependentVar(): 6.910000 ==>IsSwitchingOccur() prevPhis[ 0]=7.855960, nextPhis[ 0]=7.875797 prevPhis[ 1]=-1.855960, nextPhis[ 1]=-1.875797 <==IsSwitchingOccur() T = 6.910000 Tnext = 6.915000 Time: 6.91000e+00 states: [ 4.07362e-01 1.65371e+00] derivs: [ 1.65348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.915000 pESO->GetIndependentVar(): 6.915000 ==>IsSwitchingOccur() prevPhis[ 0]=7.875797, nextPhis[ 0]=7.895559 prevPhis[ 1]=-1.875797, nextPhis[ 1]=-1.895559 <==IsSwitchingOccur() T = 6.915000 Tnext = 6.920000 Time: 6.91500e+00 states: [ 4.15616e-01 1.64871e+00] derivs: [ 1.64848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.920000 pESO->GetIndependentVar(): 6.920000 ==>IsSwitchingOccur() prevPhis[ 0]=7.895559, nextPhis[ 0]=7.915246 prevPhis[ 1]=-1.895559, nextPhis[ 1]=-1.915246 <==IsSwitchingOccur() T = 6.920000 Tnext = 6.925000 Time: 6.92000e+00 states: [ 4.23845e-01 1.64371e+00] derivs: [ 1.64348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.925000 pESO->GetIndependentVar(): 6.925000 ==>IsSwitchingOccur() prevPhis[ 0]=7.915246, nextPhis[ 0]=7.934858 prevPhis[ 1]=-1.915246, nextPhis[ 1]=-1.934858 <==IsSwitchingOccur() T = 6.925000 Tnext = 6.930000 Time: 6.92500e+00 states: [ 4.32049e-01 1.63871e+00] derivs: [ 1.63848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.930000 pESO->GetIndependentVar(): 6.930000 ==>IsSwitchingOccur() prevPhis[ 0]=7.934858, nextPhis[ 0]=7.954395 prevPhis[ 1]=-1.934858, nextPhis[ 1]=-1.954395 <==IsSwitchingOccur() T = 6.930000 Tnext = 6.935000 Time: 6.93000e+00 states: [ 4.40228e-01 1.63371e+00] derivs: [ 1.63348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.935000 pESO->GetIndependentVar(): 6.935000 ==>IsSwitchingOccur() prevPhis[ 0]=7.954395, nextPhis[ 0]=7.973856 prevPhis[ 1]=-1.954395, nextPhis[ 1]=-1.973856 <==IsSwitchingOccur() T = 6.935000 Tnext = 6.940000 Time: 6.93500e+00 states: [ 4.48382e-01 1.62871e+00] derivs: [ 1.62848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.940000 pESO->GetIndependentVar(): 6.940000 ==>IsSwitchingOccur() prevPhis[ 0]=7.973856, nextPhis[ 0]=7.993243 prevPhis[ 1]=-1.973856, nextPhis[ 1]=-1.993243 <==IsSwitchingOccur() T = 6.940000 Tnext = 6.945000 Time: 6.94000e+00 states: [ 4.56511e-01 1.62371e+00] derivs: [ 1.62348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.945000 pESO->GetIndependentVar(): 6.945000 ==>IsSwitchingOccur() prevPhis[ 0]=7.993243, nextPhis[ 0]=8.012555 prevPhis[ 1]=-1.993243, nextPhis[ 1]=-2.012555 <==IsSwitchingOccur() T = 6.945000 Tnext = 6.950000 Time: 6.94500e+00 states: [ 4.64615e-01 1.61871e+00] derivs: [ 1.61848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.950000 pESO->GetIndependentVar(): 6.950000 ==>IsSwitchingOccur() prevPhis[ 0]=8.012555, nextPhis[ 0]=8.031792 prevPhis[ 1]=-2.012555, nextPhis[ 1]=-2.031792 <==IsSwitchingOccur() T = 6.950000 Tnext = 6.955000 Time: 6.95000e+00 states: [ 4.72694e-01 1.61371e+00] derivs: [ 1.61348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.955000 pESO->GetIndependentVar(): 6.955000 ==>IsSwitchingOccur() prevPhis[ 0]=8.031792, nextPhis[ 0]=8.050954 prevPhis[ 1]=-2.031792, nextPhis[ 1]=-2.050954 <==IsSwitchingOccur() T = 6.955000 Tnext = 6.960000 Time: 6.95500e+00 states: [ 4.80748e-01 1.60871e+00] derivs: [ 1.60848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.960000 pESO->GetIndependentVar(): 6.960000 ==>IsSwitchingOccur() prevPhis[ 0]=8.050954, nextPhis[ 0]=8.070041 prevPhis[ 1]=-2.050954, nextPhis[ 1]=-2.070041 <==IsSwitchingOccur() T = 6.960000 Tnext = 6.965000 Time: 6.96000e+00 states: [ 4.88777e-01 1.60371e+00] derivs: [ 1.60348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.965000 pESO->GetIndependentVar(): 6.965000 ==>IsSwitchingOccur() prevPhis[ 0]=8.070041, nextPhis[ 0]=8.089053 prevPhis[ 1]=-2.070041, nextPhis[ 1]=-2.089053 <==IsSwitchingOccur() T = 6.965000 Tnext = 6.970000 Time: 6.96500e+00 states: [ 4.96781e-01 1.59871e+00] derivs: [ 1.59848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.970000 pESO->GetIndependentVar(): 6.970000 ==>IsSwitchingOccur() prevPhis[ 0]=8.089053, nextPhis[ 0]=8.107990 prevPhis[ 1]=-2.089053, nextPhis[ 1]=-2.107990 <==IsSwitchingOccur() T = 6.970000 Tnext = 6.975000 Time: 6.97000e+00 states: [ 5.04760e-01 1.59371e+00] derivs: [ 1.59348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.975000 pESO->GetIndependentVar(): 6.975000 ==>IsSwitchingOccur() prevPhis[ 0]=8.107990, nextPhis[ 0]=8.126852 prevPhis[ 1]=-2.107990, nextPhis[ 1]=-2.126852 <==IsSwitchingOccur() T = 6.975000 Tnext = 6.980000 Time: 6.97500e+00 states: [ 5.12714e-01 1.58871e+00] derivs: [ 1.58848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.980000 pESO->GetIndependentVar(): 6.980000 ==>IsSwitchingOccur() prevPhis[ 0]=8.126852, nextPhis[ 0]=8.145638 prevPhis[ 1]=-2.126852, nextPhis[ 1]=-2.145638 <==IsSwitchingOccur() T = 6.980000 Tnext = 6.985000 Time: 6.98000e+00 states: [ 5.20642e-01 1.58371e+00] derivs: [ 1.58348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.985000 pESO->GetIndependentVar(): 6.985000 ==>IsSwitchingOccur() prevPhis[ 0]=8.145638, nextPhis[ 0]=8.164350 prevPhis[ 1]=-2.145638, nextPhis[ 1]=-2.164350 <==IsSwitchingOccur() T = 6.985000 Tnext = 6.990000 Time: 6.98500e+00 states: [ 5.28546e-01 1.57871e+00] derivs: [ 1.57848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.990000 pESO->GetIndependentVar(): 6.990000 ==>IsSwitchingOccur() prevPhis[ 0]=8.164350, nextPhis[ 0]=8.182987 prevPhis[ 1]=-2.164350, nextPhis[ 1]=-2.182987 <==IsSwitchingOccur() T = 6.990000 Tnext = 6.995000 Time: 6.99000e+00 states: [ 5.36425e-01 1.57371e+00] derivs: [ 1.57348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 6.995000 pESO->GetIndependentVar(): 6.995000 ==>IsSwitchingOccur() prevPhis[ 0]=8.182987, nextPhis[ 0]=8.201549 prevPhis[ 1]=-2.182987, nextPhis[ 1]=-2.201549 <==IsSwitchingOccur() T = 6.995000 Tnext = 7.000000 Time: 6.99500e+00 states: [ 5.44279e-01 1.56871e+00] derivs: [ 1.56848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.000000 pESO->GetIndependentVar(): 7.000000 ==>IsSwitchingOccur() prevPhis[ 0]=8.201549, nextPhis[ 0]=8.220036 prevPhis[ 1]=-2.201549, nextPhis[ 1]=-2.220036 <==IsSwitchingOccur() T = 7.000000 Tnext = 7.005000 Time: 7.00000e+00 states: [ 5.52108e-01 1.56371e+00] derivs: [ 1.56348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.005000 pESO->GetIndependentVar(): 7.005000 ==>IsSwitchingOccur() prevPhis[ 0]=8.220036, nextPhis[ 0]=8.238448 prevPhis[ 1]=-2.220036, nextPhis[ 1]=-2.238448 <==IsSwitchingOccur() T = 7.005000 Tnext = 7.010000 Time: 7.00500e+00 states: [ 5.59912e-01 1.55871e+00] derivs: [ 1.55848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.010000 pESO->GetIndependentVar(): 7.010000 ==>IsSwitchingOccur() prevPhis[ 0]=8.238448, nextPhis[ 0]=8.256785 prevPhis[ 1]=-2.238448, nextPhis[ 1]=-2.256785 <==IsSwitchingOccur() T = 7.010000 Tnext = 7.015000 Time: 7.01000e+00 states: [ 5.67691e-01 1.55371e+00] derivs: [ 1.55348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.015000 pESO->GetIndependentVar(): 7.015000 ==>IsSwitchingOccur() prevPhis[ 0]=8.256785, nextPhis[ 0]=8.275047 prevPhis[ 1]=-2.256785, nextPhis[ 1]=-2.275047 <==IsSwitchingOccur() T = 7.015000 Tnext = 7.020000 Time: 7.01500e+00 states: [ 5.75445e-01 1.54871e+00] derivs: [ 1.54848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.020000 pESO->GetIndependentVar(): 7.020000 ==>IsSwitchingOccur() prevPhis[ 0]=8.275047, nextPhis[ 0]=8.293234 prevPhis[ 1]=-2.275047, nextPhis[ 1]=-2.293234 <==IsSwitchingOccur() T = 7.020000 Tnext = 7.025000 Time: 7.02000e+00 states: [ 5.83174e-01 1.54371e+00] derivs: [ 1.54348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.025000 pESO->GetIndependentVar(): 7.025000 ==>IsSwitchingOccur() prevPhis[ 0]=8.293234, nextPhis[ 0]=8.311345 prevPhis[ 1]=-2.293234, nextPhis[ 1]=-2.311345 <==IsSwitchingOccur() T = 7.025000 Tnext = 7.030000 Time: 7.02500e+00 states: [ 5.90878e-01 1.53871e+00] derivs: [ 1.53848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.030000 pESO->GetIndependentVar(): 7.030000 ==>IsSwitchingOccur() prevPhis[ 0]=8.311345, nextPhis[ 0]=8.329382 prevPhis[ 1]=-2.311345, nextPhis[ 1]=-2.329382 <==IsSwitchingOccur() T = 7.030000 Tnext = 7.035000 Time: 7.03000e+00 states: [ 5.98557e-01 1.53371e+00] derivs: [ 1.53348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.035000 pESO->GetIndependentVar(): 7.035000 ==>IsSwitchingOccur() prevPhis[ 0]=8.329382, nextPhis[ 0]=8.347344 prevPhis[ 1]=-2.329382, nextPhis[ 1]=-2.347344 <==IsSwitchingOccur() T = 7.035000 Tnext = 7.040000 Time: 7.03500e+00 states: [ 6.06211e-01 1.52871e+00] derivs: [ 1.52848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.040000 pESO->GetIndependentVar(): 7.040000 ==>IsSwitchingOccur() prevPhis[ 0]=8.347344, nextPhis[ 0]=8.365231 prevPhis[ 1]=-2.347344, nextPhis[ 1]=-2.365231 <==IsSwitchingOccur() T = 7.040000 Tnext = 7.045000 Time: 7.04000e+00 states: [ 6.13840e-01 1.52371e+00] derivs: [ 1.52348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.045000 pESO->GetIndependentVar(): 7.045000 ==>IsSwitchingOccur() prevPhis[ 0]=8.365231, nextPhis[ 0]=8.383043 prevPhis[ 1]=-2.365231, nextPhis[ 1]=-2.383043 <==IsSwitchingOccur() T = 7.045000 Tnext = 7.050000 Time: 7.04500e+00 states: [ 6.21444e-01 1.51871e+00] derivs: [ 1.51848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.050000 pESO->GetIndependentVar(): 7.050000 ==>IsSwitchingOccur() prevPhis[ 0]=8.383043, nextPhis[ 0]=8.400780 prevPhis[ 1]=-2.383043, nextPhis[ 1]=-2.400780 <==IsSwitchingOccur() T = 7.050000 Tnext = 7.055000 Time: 7.05000e+00 states: [ 6.29023e-01 1.51371e+00] derivs: [ 1.51348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.055000 pESO->GetIndependentVar(): 7.055000 ==>IsSwitchingOccur() prevPhis[ 0]=8.400780, nextPhis[ 0]=8.418442 prevPhis[ 1]=-2.400780, nextPhis[ 1]=-2.418442 <==IsSwitchingOccur() T = 7.055000 Tnext = 7.060000 Time: 7.05500e+00 states: [ 6.36577e-01 1.50871e+00] derivs: [ 1.50848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.060000 pESO->GetIndependentVar(): 7.060000 ==>IsSwitchingOccur() prevPhis[ 0]=8.418442, nextPhis[ 0]=8.436029 prevPhis[ 1]=-2.418442, nextPhis[ 1]=-2.436029 <==IsSwitchingOccur() T = 7.060000 Tnext = 7.065000 Time: 7.06000e+00 states: [ 6.44106e-01 1.50371e+00] derivs: [ 1.50348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.065000 pESO->GetIndependentVar(): 7.065000 ==>IsSwitchingOccur() prevPhis[ 0]=8.436029, nextPhis[ 0]=8.453541 prevPhis[ 1]=-2.436029, nextPhis[ 1]=-2.453541 <==IsSwitchingOccur() T = 7.065000 Tnext = 7.070000 Time: 7.06500e+00 states: [ 6.51610e-01 1.49871e+00] derivs: [ 1.49848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.070000 pESO->GetIndependentVar(): 7.070000 ==>IsSwitchingOccur() prevPhis[ 0]=8.453541, nextPhis[ 0]=8.470977 prevPhis[ 1]=-2.453541, nextPhis[ 1]=-2.470977 <==IsSwitchingOccur() T = 7.070000 Tnext = 7.075000 Time: 7.07000e+00 states: [ 6.59089e-01 1.49371e+00] derivs: [ 1.49348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.075000 pESO->GetIndependentVar(): 7.075000 ==>IsSwitchingOccur() prevPhis[ 0]=8.470977, nextPhis[ 0]=8.488339 prevPhis[ 1]=-2.470977, nextPhis[ 1]=-2.488339 <==IsSwitchingOccur() T = 7.075000 Tnext = 7.080000 Time: 7.07500e+00 states: [ 6.66543e-01 1.48871e+00] derivs: [ 1.48848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.080000 pESO->GetIndependentVar(): 7.080000 ==>IsSwitchingOccur() prevPhis[ 0]=8.488339, nextPhis[ 0]=8.505626 prevPhis[ 1]=-2.488339, nextPhis[ 1]=-2.505626 <==IsSwitchingOccur() T = 7.080000 Tnext = 7.085000 Time: 7.08000e+00 states: [ 6.73972e-01 1.48371e+00] derivs: [ 1.48348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.085000 pESO->GetIndependentVar(): 7.085000 ==>IsSwitchingOccur() prevPhis[ 0]=8.505626, nextPhis[ 0]=8.522838 prevPhis[ 1]=-2.505626, nextPhis[ 1]=-2.522838 <==IsSwitchingOccur() T = 7.085000 Tnext = 7.090000 Time: 7.08500e+00 states: [ 6.81376e-01 1.47871e+00] derivs: [ 1.47848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.090000 pESO->GetIndependentVar(): 7.090000 ==>IsSwitchingOccur() prevPhis[ 0]=8.522838, nextPhis[ 0]=8.539975 prevPhis[ 1]=-2.522838, nextPhis[ 1]=-2.539975 <==IsSwitchingOccur() T = 7.090000 Tnext = 7.095000 Time: 7.09000e+00 states: [ 6.88755e-01 1.47371e+00] derivs: [ 1.47348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.095000 pESO->GetIndependentVar(): 7.095000 ==>IsSwitchingOccur() prevPhis[ 0]=8.539975, nextPhis[ 0]=8.557037 prevPhis[ 1]=-2.539975, nextPhis[ 1]=-2.557037 <==IsSwitchingOccur() T = 7.095000 Tnext = 7.100000 Time: 7.09500e+00 states: [ 6.96109e-01 1.46871e+00] derivs: [ 1.46848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.100000 pESO->GetIndependentVar(): 7.100000 ==>IsSwitchingOccur() prevPhis[ 0]=8.557037, nextPhis[ 0]=8.574024 prevPhis[ 1]=-2.557037, nextPhis[ 1]=-2.574024 <==IsSwitchingOccur() T = 7.100000 Tnext = 7.105000 Time: 7.10000e+00 states: [ 7.03438e-01 1.46371e+00] derivs: [ 1.46348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.105000 pESO->GetIndependentVar(): 7.105000 ==>IsSwitchingOccur() prevPhis[ 0]=8.574024, nextPhis[ 0]=8.590936 prevPhis[ 1]=-2.574024, nextPhis[ 1]=-2.590936 <==IsSwitchingOccur() T = 7.105000 Tnext = 7.110000 Time: 7.10500e+00 states: [ 7.10742e-01 1.45871e+00] derivs: [ 1.45848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.110000 pESO->GetIndependentVar(): 7.110000 ==>IsSwitchingOccur() prevPhis[ 0]=8.590936, nextPhis[ 0]=8.607772 prevPhis[ 1]=-2.590936, nextPhis[ 1]=-2.607772 <==IsSwitchingOccur() T = 7.110000 Tnext = 7.115000 Time: 7.11000e+00 states: [ 7.18021e-01 1.45371e+00] derivs: [ 1.45348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.115000 pESO->GetIndependentVar(): 7.115000 ==>IsSwitchingOccur() prevPhis[ 0]=8.607772, nextPhis[ 0]=8.624534 prevPhis[ 1]=-2.607772, nextPhis[ 1]=-2.624534 <==IsSwitchingOccur() T = 7.115000 Tnext = 7.120000 Time: 7.11500e+00 states: [ 7.25274e-01 1.44871e+00] derivs: [ 1.44848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.120000 pESO->GetIndependentVar(): 7.120000 ==>IsSwitchingOccur() prevPhis[ 0]=8.624534, nextPhis[ 0]=8.641221 prevPhis[ 1]=-2.624534, nextPhis[ 1]=-2.641221 <==IsSwitchingOccur() T = 7.120000 Tnext = 7.125000 Time: 7.12000e+00 states: [ 7.32503e-01 1.44371e+00] derivs: [ 1.44348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.125000 pESO->GetIndependentVar(): 7.125000 ==>IsSwitchingOccur() prevPhis[ 0]=8.641221, nextPhis[ 0]=8.657833 prevPhis[ 1]=-2.641221, nextPhis[ 1]=-2.657833 <==IsSwitchingOccur() T = 7.125000 Tnext = 7.130000 Time: 7.12500e+00 states: [ 7.39707e-01 1.43871e+00] derivs: [ 1.43848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.130000 pESO->GetIndependentVar(): 7.130000 ==>IsSwitchingOccur() prevPhis[ 0]=8.657833, nextPhis[ 0]=8.674370 prevPhis[ 1]=-2.657833, nextPhis[ 1]=-2.674370 <==IsSwitchingOccur() T = 7.130000 Tnext = 7.135000 Time: 7.13000e+00 states: [ 7.46886e-01 1.43371e+00] derivs: [ 1.43348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.135000 pESO->GetIndependentVar(): 7.135000 ==>IsSwitchingOccur() prevPhis[ 0]=8.674370, nextPhis[ 0]=8.690832 prevPhis[ 1]=-2.674370, nextPhis[ 1]=-2.690832 <==IsSwitchingOccur() T = 7.135000 Tnext = 7.140000 Time: 7.13500e+00 states: [ 7.54040e-01 1.42871e+00] derivs: [ 1.42848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.140000 pESO->GetIndependentVar(): 7.140000 ==>IsSwitchingOccur() prevPhis[ 0]=8.690832, nextPhis[ 0]=8.707219 prevPhis[ 1]=-2.690832, nextPhis[ 1]=-2.707219 <==IsSwitchingOccur() T = 7.140000 Tnext = 7.145000 Time: 7.14000e+00 states: [ 7.61169e-01 1.42371e+00] derivs: [ 1.42348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.145000 pESO->GetIndependentVar(): 7.145000 ==>IsSwitchingOccur() prevPhis[ 0]=8.707219, nextPhis[ 0]=8.723531 prevPhis[ 1]=-2.707219, nextPhis[ 1]=-2.723531 <==IsSwitchingOccur() T = 7.145000 Tnext = 7.150000 Time: 7.14500e+00 states: [ 7.68273e-01 1.41871e+00] derivs: [ 1.41848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.150000 pESO->GetIndependentVar(): 7.150000 ==>IsSwitchingOccur() prevPhis[ 0]=8.723531, nextPhis[ 0]=8.739768 prevPhis[ 1]=-2.723531, nextPhis[ 1]=-2.739768 <==IsSwitchingOccur() T = 7.150000 Tnext = 7.155000 Time: 7.15000e+00 states: [ 7.75352e-01 1.41371e+00] derivs: [ 1.41348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.155000 pESO->GetIndependentVar(): 7.155000 ==>IsSwitchingOccur() prevPhis[ 0]=8.739768, nextPhis[ 0]=8.755929 prevPhis[ 1]=-2.739768, nextPhis[ 1]=-2.755929 <==IsSwitchingOccur() T = 7.155000 Tnext = 7.160000 Time: 7.15500e+00 states: [ 7.82406e-01 1.40871e+00] derivs: [ 1.40848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.160000 pESO->GetIndependentVar(): 7.160000 ==>IsSwitchingOccur() prevPhis[ 0]=8.755929, nextPhis[ 0]=8.772016 prevPhis[ 1]=-2.755929, nextPhis[ 1]=-2.772016 <==IsSwitchingOccur() T = 7.160000 Tnext = 7.165000 Time: 7.16000e+00 states: [ 7.89435e-01 1.40371e+00] derivs: [ 1.40348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.165000 pESO->GetIndependentVar(): 7.165000 ==>IsSwitchingOccur() prevPhis[ 0]=8.772016, nextPhis[ 0]=8.788028 prevPhis[ 1]=-2.772016, nextPhis[ 1]=-2.788028 <==IsSwitchingOccur() T = 7.165000 Tnext = 7.170000 Time: 7.16500e+00 states: [ 7.96439e-01 1.39871e+00] derivs: [ 1.39848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.170000 pESO->GetIndependentVar(): 7.170000 ==>IsSwitchingOccur() prevPhis[ 0]=8.788028, nextPhis[ 0]=8.803965 prevPhis[ 1]=-2.788028, nextPhis[ 1]=-2.803965 <==IsSwitchingOccur() T = 7.170000 Tnext = 7.175000 Time: 7.17000e+00 states: [ 8.03418e-01 1.39371e+00] derivs: [ 1.39348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.175000 pESO->GetIndependentVar(): 7.175000 ==>IsSwitchingOccur() prevPhis[ 0]=8.803965, nextPhis[ 0]=8.819827 prevPhis[ 1]=-2.803965, nextPhis[ 1]=-2.819827 <==IsSwitchingOccur() T = 7.175000 Tnext = 7.180000 Time: 7.17500e+00 states: [ 8.10372e-01 1.38871e+00] derivs: [ 1.38848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.180000 pESO->GetIndependentVar(): 7.180000 ==>IsSwitchingOccur() prevPhis[ 0]=8.819827, nextPhis[ 0]=8.835614 prevPhis[ 1]=-2.819827, nextPhis[ 1]=-2.835614 <==IsSwitchingOccur() T = 7.180000 Tnext = 7.185000 Time: 7.18000e+00 states: [ 8.17301e-01 1.38371e+00] derivs: [ 1.38348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.185000 pESO->GetIndependentVar(): 7.185000 ==>IsSwitchingOccur() prevPhis[ 0]=8.835614, nextPhis[ 0]=8.851326 prevPhis[ 1]=-2.835614, nextPhis[ 1]=-2.851326 <==IsSwitchingOccur() T = 7.185000 Tnext = 7.190000 Time: 7.18500e+00 states: [ 8.24205e-01 1.37871e+00] derivs: [ 1.37848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.190000 pESO->GetIndependentVar(): 7.190000 ==>IsSwitchingOccur() prevPhis[ 0]=8.851326, nextPhis[ 0]=8.866963 prevPhis[ 1]=-2.851326, nextPhis[ 1]=-2.866963 <==IsSwitchingOccur() T = 7.190000 Tnext = 7.195000 Time: 7.19000e+00 states: [ 8.31084e-01 1.37371e+00] derivs: [ 1.37348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.195000 pESO->GetIndependentVar(): 7.195000 ==>IsSwitchingOccur() prevPhis[ 0]=8.866963, nextPhis[ 0]=8.882525 prevPhis[ 1]=-2.866963, nextPhis[ 1]=-2.882525 <==IsSwitchingOccur() T = 7.195000 Tnext = 7.200000 Time: 7.19500e+00 states: [ 8.37938e-01 1.36871e+00] derivs: [ 1.36848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.200000 pESO->GetIndependentVar(): 7.200000 ==>IsSwitchingOccur() prevPhis[ 0]=8.882525, nextPhis[ 0]=8.898011 prevPhis[ 1]=-2.882525, nextPhis[ 1]=-2.898011 <==IsSwitchingOccur() T = 7.200000 Tnext = 7.205000 Time: 7.20000e+00 states: [ 8.44767e-01 1.36371e+00] derivs: [ 1.36348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.205000 pESO->GetIndependentVar(): 7.205000 ==>IsSwitchingOccur() prevPhis[ 0]=8.898011, nextPhis[ 0]=8.913423 prevPhis[ 1]=-2.898011, nextPhis[ 1]=-2.913423 <==IsSwitchingOccur() T = 7.205000 Tnext = 7.210000 Time: 7.20500e+00 states: [ 8.51571e-01 1.35871e+00] derivs: [ 1.35848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.210000 pESO->GetIndependentVar(): 7.210000 ==>IsSwitchingOccur() prevPhis[ 0]=8.913423, nextPhis[ 0]=8.928760 prevPhis[ 1]=-2.913423, nextPhis[ 1]=-2.928760 <==IsSwitchingOccur() T = 7.210000 Tnext = 7.215000 Time: 7.21000e+00 states: [ 8.58350e-01 1.35371e+00] derivs: [ 1.35348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.215000 pESO->GetIndependentVar(): 7.215000 ==>IsSwitchingOccur() prevPhis[ 0]=8.928760, nextPhis[ 0]=8.944022 prevPhis[ 1]=-2.928760, nextPhis[ 1]=-2.944022 <==IsSwitchingOccur() T = 7.215000 Tnext = 7.220000 Time: 7.21500e+00 states: [ 8.65104e-01 1.34871e+00] derivs: [ 1.34848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.220000 pESO->GetIndependentVar(): 7.220000 ==>IsSwitchingOccur() prevPhis[ 0]=8.944022, nextPhis[ 0]=8.959209 prevPhis[ 1]=-2.944022, nextPhis[ 1]=-2.959209 <==IsSwitchingOccur() T = 7.220000 Tnext = 7.225000 Time: 7.22000e+00 states: [ 8.71833e-01 1.34371e+00] derivs: [ 1.34348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.225000 pESO->GetIndependentVar(): 7.225000 ==>IsSwitchingOccur() prevPhis[ 0]=8.959209, nextPhis[ 0]=8.974321 prevPhis[ 1]=-2.959209, nextPhis[ 1]=-2.974321 <==IsSwitchingOccur() T = 7.225000 Tnext = 7.230000 Time: 7.22500e+00 states: [ 8.78537e-01 1.33871e+00] derivs: [ 1.33848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.230000 pESO->GetIndependentVar(): 7.230000 ==>IsSwitchingOccur() prevPhis[ 0]=8.974321, nextPhis[ 0]=8.989358 prevPhis[ 1]=-2.974321, nextPhis[ 1]=-2.989358 <==IsSwitchingOccur() T = 7.230000 Tnext = 7.235000 Time: 7.23000e+00 states: [ 8.85216e-01 1.33371e+00] derivs: [ 1.33348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.235000 pESO->GetIndependentVar(): 7.235000 ==>IsSwitchingOccur() prevPhis[ 0]=8.989358, nextPhis[ 0]=9.004320 prevPhis[ 1]=-2.989358, nextPhis[ 1]=-3.004320 <==IsSwitchingOccur() T = 7.235000 Tnext = 7.240000 Time: 7.23500e+00 states: [ 8.91870e-01 1.32871e+00] derivs: [ 1.32848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.240000 pESO->GetIndependentVar(): 7.240000 ==>IsSwitchingOccur() prevPhis[ 0]=9.004320, nextPhis[ 0]=9.019207 prevPhis[ 1]=-3.004320, nextPhis[ 1]=-3.019207 <==IsSwitchingOccur() T = 7.240000 Tnext = 7.245000 Time: 7.24000e+00 states: [ 8.98499e-01 1.32371e+00] derivs: [ 1.32348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.245000 pESO->GetIndependentVar(): 7.245000 ==>IsSwitchingOccur() prevPhis[ 0]=9.019207, nextPhis[ 0]=9.034018 prevPhis[ 1]=-3.019207, nextPhis[ 1]=-3.034018 <==IsSwitchingOccur() T = 7.245000 Tnext = 7.250000 Time: 7.24500e+00 states: [ 9.05103e-01 1.31871e+00] derivs: [ 1.31848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.250000 pESO->GetIndependentVar(): 7.250000 ==>IsSwitchingOccur() prevPhis[ 0]=9.034018, nextPhis[ 0]=9.048755 prevPhis[ 1]=-3.034018, nextPhis[ 1]=-3.048755 <==IsSwitchingOccur() T = 7.250000 Tnext = 7.255000 Time: 7.25000e+00 states: [ 9.11681e-01 1.31371e+00] derivs: [ 1.31348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.255000 pESO->GetIndependentVar(): 7.255000 ==>IsSwitchingOccur() prevPhis[ 0]=9.048755, nextPhis[ 0]=9.063417 prevPhis[ 1]=-3.048755, nextPhis[ 1]=-3.063417 <==IsSwitchingOccur() T = 7.255000 Tnext = 7.260000 Time: 7.25500e+00 states: [ 9.18235e-01 1.30871e+00] derivs: [ 1.30848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.260000 pESO->GetIndependentVar(): 7.260000 ==>IsSwitchingOccur() prevPhis[ 0]=9.063417, nextPhis[ 0]=9.078004 prevPhis[ 1]=-3.063417, nextPhis[ 1]=-3.078004 <==IsSwitchingOccur() T = 7.260000 Tnext = 7.265000 Time: 7.26000e+00 states: [ 9.24764e-01 1.30371e+00] derivs: [ 1.30348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.265000 pESO->GetIndependentVar(): 7.265000 ==>IsSwitchingOccur() prevPhis[ 0]=9.078004, nextPhis[ 0]=9.092516 prevPhis[ 1]=-3.078004, nextPhis[ 1]=-3.092516 <==IsSwitchingOccur() T = 7.265000 Tnext = 7.270000 Time: 7.26500e+00 states: [ 9.31268e-01 1.29871e+00] derivs: [ 1.29848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.270000 pESO->GetIndependentVar(): 7.270000 ==>IsSwitchingOccur() prevPhis[ 0]=9.092516, nextPhis[ 0]=9.106953 prevPhis[ 1]=-3.092516, nextPhis[ 1]=-3.106953 <==IsSwitchingOccur() T = 7.270000 Tnext = 7.275000 Time: 7.27000e+00 states: [ 9.37747e-01 1.29371e+00] derivs: [ 1.29348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.275000 pESO->GetIndependentVar(): 7.275000 ==>IsSwitchingOccur() prevPhis[ 0]=9.106953, nextPhis[ 0]=9.121315 prevPhis[ 1]=-3.106953, nextPhis[ 1]=-3.121315 <==IsSwitchingOccur() T = 7.275000 Tnext = 7.280000 Time: 7.27500e+00 states: [ 9.44201e-01 1.28871e+00] derivs: [ 1.28848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.280000 pESO->GetIndependentVar(): 7.280000 ==>IsSwitchingOccur() prevPhis[ 0]=9.121315, nextPhis[ 0]=9.135602 prevPhis[ 1]=-3.121315, nextPhis[ 1]=-3.135602 <==IsSwitchingOccur() T = 7.280000 Tnext = 7.285000 Time: 7.28000e+00 states: [ 9.50630e-01 1.28371e+00] derivs: [ 1.28348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.285000 pESO->GetIndependentVar(): 7.285000 ==>IsSwitchingOccur() prevPhis[ 0]=9.135602, nextPhis[ 0]=9.149814 prevPhis[ 1]=-3.135602, nextPhis[ 1]=-3.149814 <==IsSwitchingOccur() T = 7.285000 Tnext = 7.290000 Time: 7.28500e+00 states: [ 9.57034e-01 1.27871e+00] derivs: [ 1.27848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.290000 pESO->GetIndependentVar(): 7.290000 ==>IsSwitchingOccur() prevPhis[ 0]=9.149814, nextPhis[ 0]=9.163950 prevPhis[ 1]=-3.149814, nextPhis[ 1]=-3.163950 <==IsSwitchingOccur() T = 7.290000 Tnext = 7.295000 Time: 7.29000e+00 states: [ 9.63413e-01 1.27371e+00] derivs: [ 1.27348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.295000 pESO->GetIndependentVar(): 7.295000 ==>IsSwitchingOccur() prevPhis[ 0]=9.163950, nextPhis[ 0]=9.178012 prevPhis[ 1]=-3.163950, nextPhis[ 1]=-3.178012 <==IsSwitchingOccur() T = 7.295000 Tnext = 7.300000 Time: 7.29500e+00 states: [ 9.69767e-01 1.26871e+00] derivs: [ 1.26848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.300000 pESO->GetIndependentVar(): 7.300000 ==>IsSwitchingOccur() prevPhis[ 0]=9.178012, nextPhis[ 0]=9.191999 prevPhis[ 1]=-3.178012, nextPhis[ 1]=-3.191999 <==IsSwitchingOccur() T = 7.300000 Tnext = 7.305000 Time: 7.30000e+00 states: [ 9.76096e-01 1.26371e+00] derivs: [ 1.26348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.305000 pESO->GetIndependentVar(): 7.305000 ==>IsSwitchingOccur() prevPhis[ 0]=9.191999, nextPhis[ 0]=9.205911 prevPhis[ 1]=-3.191999, nextPhis[ 1]=-3.205911 <==IsSwitchingOccur() T = 7.305000 Tnext = 7.310000 Time: 7.30500e+00 states: [ 9.82400e-01 1.25871e+00] derivs: [ 1.25848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.310000 pESO->GetIndependentVar(): 7.310000 ==>IsSwitchingOccur() prevPhis[ 0]=9.205911, nextPhis[ 0]=9.219748 prevPhis[ 1]=-3.205911, nextPhis[ 1]=-3.219748 <==IsSwitchingOccur() T = 7.310000 Tnext = 7.315000 Time: 7.31000e+00 states: [ 9.88679e-01 1.25371e+00] derivs: [ 1.25348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.315000 pESO->GetIndependentVar(): 7.315000 ==>IsSwitchingOccur() prevPhis[ 0]=9.219748, nextPhis[ 0]=9.233510 prevPhis[ 1]=-3.219748, nextPhis[ 1]=-3.233510 <==IsSwitchingOccur() T = 7.315000 Tnext = 7.320000 Time: 7.31500e+00 states: [ 9.94933e-01 1.24871e+00] derivs: [ 1.24848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.320000 pESO->GetIndependentVar(): 7.320000 ==>IsSwitchingOccur() prevPhis[ 0]=9.233510, nextPhis[ 0]=9.247197 prevPhis[ 1]=-3.233510, nextPhis[ 1]=-3.247197 <==IsSwitchingOccur() T = 7.320000 Tnext = 7.325000 Time: 7.32000e+00 states: [ 1.00116e+00 1.24371e+00] derivs: [ 1.24348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.325000 pESO->GetIndependentVar(): 7.325000 ==>IsSwitchingOccur() prevPhis[ 0]=9.247197, nextPhis[ 0]=9.260809 prevPhis[ 1]=-3.247197, nextPhis[ 1]=-3.260809 <==IsSwitchingOccur() T = 7.325000 Tnext = 7.330000 Time: 7.32500e+00 states: [ 1.00737e+00 1.23871e+00] derivs: [ 1.23848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.330000 pESO->GetIndependentVar(): 7.330000 ==>IsSwitchingOccur() prevPhis[ 0]=9.260809, nextPhis[ 0]=9.274346 prevPhis[ 1]=-3.260809, nextPhis[ 1]=-3.274346 <==IsSwitchingOccur() T = 7.330000 Tnext = 7.335000 Time: 7.33000e+00 states: [ 1.01354e+00 1.23371e+00] derivs: [ 1.23348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.335000 pESO->GetIndependentVar(): 7.335000 ==>IsSwitchingOccur() prevPhis[ 0]=9.274346, nextPhis[ 0]=9.287807 prevPhis[ 1]=-3.274346, nextPhis[ 1]=-3.287807 <==IsSwitchingOccur() T = 7.335000 Tnext = 7.340000 Time: 7.33500e+00 states: [ 1.01970e+00 1.22871e+00] derivs: [ 1.22848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.340000 pESO->GetIndependentVar(): 7.340000 ==>IsSwitchingOccur() prevPhis[ 0]=9.287807, nextPhis[ 0]=9.301194 prevPhis[ 1]=-3.287807, nextPhis[ 1]=-3.301194 <==IsSwitchingOccur() T = 7.340000 Tnext = 7.345000 Time: 7.34000e+00 states: [ 1.02583e+00 1.22371e+00] derivs: [ 1.22348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.345000 pESO->GetIndependentVar(): 7.345000 ==>IsSwitchingOccur() prevPhis[ 0]=9.301194, nextPhis[ 0]=9.314506 prevPhis[ 1]=-3.301194, nextPhis[ 1]=-3.314506 <==IsSwitchingOccur() T = 7.345000 Tnext = 7.350000 Time: 7.34500e+00 states: [ 1.03193e+00 1.21871e+00] derivs: [ 1.21848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.350000 pESO->GetIndependentVar(): 7.350000 ==>IsSwitchingOccur() prevPhis[ 0]=9.314506, nextPhis[ 0]=9.327743 prevPhis[ 1]=-3.314506, nextPhis[ 1]=-3.327743 <==IsSwitchingOccur() T = 7.350000 Tnext = 7.355000 Time: 7.35000e+00 states: [ 1.03801e+00 1.21371e+00] derivs: [ 1.21348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.355000 pESO->GetIndependentVar(): 7.355000 ==>IsSwitchingOccur() prevPhis[ 0]=9.327743, nextPhis[ 0]=9.340905 prevPhis[ 1]=-3.327743, nextPhis[ 1]=-3.340905 <==IsSwitchingOccur() T = 7.355000 Tnext = 7.360000 Time: 7.35500e+00 states: [ 1.04406e+00 1.20871e+00] derivs: [ 1.20848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.360000 pESO->GetIndependentVar(): 7.360000 ==>IsSwitchingOccur() prevPhis[ 0]=9.340905, nextPhis[ 0]=9.353992 prevPhis[ 1]=-3.340905, nextPhis[ 1]=-3.353992 <==IsSwitchingOccur() T = 7.360000 Tnext = 7.365000 Time: 7.36000e+00 states: [ 1.05009e+00 1.20371e+00] derivs: [ 1.20348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.365000 pESO->GetIndependentVar(): 7.365000 ==>IsSwitchingOccur() prevPhis[ 0]=9.353992, nextPhis[ 0]=9.367004 prevPhis[ 1]=-3.353992, nextPhis[ 1]=-3.367004 <==IsSwitchingOccur() T = 7.365000 Tnext = 7.370000 Time: 7.36500e+00 states: [ 1.05610e+00 1.19871e+00] derivs: [ 1.19848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.370000 pESO->GetIndependentVar(): 7.370000 ==>IsSwitchingOccur() prevPhis[ 0]=9.367004, nextPhis[ 0]=9.379941 prevPhis[ 1]=-3.367004, nextPhis[ 1]=-3.379941 <==IsSwitchingOccur() T = 7.370000 Tnext = 7.375000 Time: 7.37000e+00 states: [ 1.06208e+00 1.19371e+00] derivs: [ 1.19348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.375000 pESO->GetIndependentVar(): 7.375000 ==>IsSwitchingOccur() prevPhis[ 0]=9.379941, nextPhis[ 0]=9.392803 prevPhis[ 1]=-3.379941, nextPhis[ 1]=-3.392803 <==IsSwitchingOccur() T = 7.375000 Tnext = 7.380000 Time: 7.37500e+00 states: [ 1.06803e+00 1.18871e+00] derivs: [ 1.18848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.380000 pESO->GetIndependentVar(): 7.380000 ==>IsSwitchingOccur() prevPhis[ 0]=9.392803, nextPhis[ 0]=9.405589 prevPhis[ 1]=-3.392803, nextPhis[ 1]=-3.405589 <==IsSwitchingOccur() T = 7.380000 Tnext = 7.385000 Time: 7.38000e+00 states: [ 1.07396e+00 1.18371e+00] derivs: [ 1.18348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.385000 pESO->GetIndependentVar(): 7.385000 ==>IsSwitchingOccur() prevPhis[ 0]=9.405589, nextPhis[ 0]=9.418301 prevPhis[ 1]=-3.405589, nextPhis[ 1]=-3.418301 <==IsSwitchingOccur() T = 7.385000 Tnext = 7.390000 Time: 7.38500e+00 states: [ 1.07986e+00 1.17871e+00] derivs: [ 1.17848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.390000 pESO->GetIndependentVar(): 7.390000 ==>IsSwitchingOccur() prevPhis[ 0]=9.418301, nextPhis[ 0]=9.430938 prevPhis[ 1]=-3.418301, nextPhis[ 1]=-3.430938 <==IsSwitchingOccur() T = 7.390000 Tnext = 7.395000 Time: 7.39000e+00 states: [ 1.08574e+00 1.17371e+00] derivs: [ 1.17348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.395000 pESO->GetIndependentVar(): 7.395000 ==>IsSwitchingOccur() prevPhis[ 0]=9.430938, nextPhis[ 0]=9.443500 prevPhis[ 1]=-3.430938, nextPhis[ 1]=-3.443500 <==IsSwitchingOccur() T = 7.395000 Tnext = 7.400000 Time: 7.39500e+00 states: [ 1.09160e+00 1.16871e+00] derivs: [ 1.16848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.400000 pESO->GetIndependentVar(): 7.400000 ==>IsSwitchingOccur() prevPhis[ 0]=9.443500, nextPhis[ 0]=9.455987 prevPhis[ 1]=-3.443500, nextPhis[ 1]=-3.455987 <==IsSwitchingOccur() T = 7.400000 Tnext = 7.405000 Time: 7.40000e+00 states: [ 1.09743e+00 1.16371e+00] derivs: [ 1.16348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.405000 pESO->GetIndependentVar(): 7.405000 ==>IsSwitchingOccur() prevPhis[ 0]=9.455987, nextPhis[ 0]=9.468399 prevPhis[ 1]=-3.455987, nextPhis[ 1]=-3.468399 <==IsSwitchingOccur() T = 7.405000 Tnext = 7.410000 Time: 7.40500e+00 states: [ 1.10323e+00 1.15871e+00] derivs: [ 1.15848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.410000 pESO->GetIndependentVar(): 7.410000 ==>IsSwitchingOccur() prevPhis[ 0]=9.468399, nextPhis[ 0]=9.480736 prevPhis[ 1]=-3.468399, nextPhis[ 1]=-3.480736 <==IsSwitchingOccur() T = 7.410000 Tnext = 7.415000 Time: 7.41000e+00 states: [ 1.10901e+00 1.15371e+00] derivs: [ 1.15348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.415000 pESO->GetIndependentVar(): 7.415000 ==>IsSwitchingOccur() prevPhis[ 0]=9.480736, nextPhis[ 0]=9.492998 prevPhis[ 1]=-3.480736, nextPhis[ 1]=-3.492998 <==IsSwitchingOccur() T = 7.415000 Tnext = 7.420000 Time: 7.41500e+00 states: [ 1.11476e+00 1.14871e+00] derivs: [ 1.14848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.420000 pESO->GetIndependentVar(): 7.420000 ==>IsSwitchingOccur() prevPhis[ 0]=9.492998, nextPhis[ 0]=9.505185 prevPhis[ 1]=-3.492998, nextPhis[ 1]=-3.505185 <==IsSwitchingOccur() T = 7.420000 Tnext = 7.425000 Time: 7.42000e+00 states: [ 1.12049e+00 1.14371e+00] derivs: [ 1.14348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.425000 pESO->GetIndependentVar(): 7.425000 ==>IsSwitchingOccur() prevPhis[ 0]=9.505185, nextPhis[ 0]=9.517296 prevPhis[ 1]=-3.505185, nextPhis[ 1]=-3.517296 <==IsSwitchingOccur() T = 7.425000 Tnext = 7.430000 Time: 7.42500e+00 states: [ 1.12620e+00 1.13871e+00] derivs: [ 1.13848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.430000 pESO->GetIndependentVar(): 7.430000 ==>IsSwitchingOccur() prevPhis[ 0]=9.517296, nextPhis[ 0]=9.529333 prevPhis[ 1]=-3.517296, nextPhis[ 1]=-3.529333 <==IsSwitchingOccur() T = 7.430000 Tnext = 7.435000 Time: 7.43000e+00 states: [ 1.13187e+00 1.13371e+00] derivs: [ 1.13348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.435000 pESO->GetIndependentVar(): 7.435000 ==>IsSwitchingOccur() prevPhis[ 0]=9.529333, nextPhis[ 0]=9.541295 prevPhis[ 1]=-3.529333, nextPhis[ 1]=-3.541295 <==IsSwitchingOccur() T = 7.435000 Tnext = 7.440000 Time: 7.43500e+00 states: [ 1.13753e+00 1.12871e+00] derivs: [ 1.12848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.440000 pESO->GetIndependentVar(): 7.440000 ==>IsSwitchingOccur() prevPhis[ 0]=9.541295, nextPhis[ 0]=9.553182 prevPhis[ 1]=-3.541295, nextPhis[ 1]=-3.553182 <==IsSwitchingOccur() T = 7.440000 Tnext = 7.445000 Time: 7.44000e+00 states: [ 1.14316e+00 1.12371e+00] derivs: [ 1.12348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.445000 pESO->GetIndependentVar(): 7.445000 ==>IsSwitchingOccur() prevPhis[ 0]=9.553182, nextPhis[ 0]=9.564994 prevPhis[ 1]=-3.553182, nextPhis[ 1]=-3.564994 <==IsSwitchingOccur() T = 7.445000 Tnext = 7.450000 Time: 7.44500e+00 states: [ 1.14876e+00 1.11871e+00] derivs: [ 1.11848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.450000 pESO->GetIndependentVar(): 7.450000 ==>IsSwitchingOccur() prevPhis[ 0]=9.564994, nextPhis[ 0]=9.576731 prevPhis[ 1]=-3.564994, nextPhis[ 1]=-3.576731 <==IsSwitchingOccur() T = 7.450000 Tnext = 7.455000 Time: 7.45000e+00 states: [ 1.15434e+00 1.11371e+00] derivs: [ 1.11348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.455000 pESO->GetIndependentVar(): 7.455000 ==>IsSwitchingOccur() prevPhis[ 0]=9.576731, nextPhis[ 0]=9.588393 prevPhis[ 1]=-3.576731, nextPhis[ 1]=-3.588393 <==IsSwitchingOccur() T = 7.455000 Tnext = 7.460000 Time: 7.45500e+00 states: [ 1.15989e+00 1.10871e+00] derivs: [ 1.10848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.460000 pESO->GetIndependentVar(): 7.460000 ==>IsSwitchingOccur() prevPhis[ 0]=9.588393, nextPhis[ 0]=9.599980 prevPhis[ 1]=-3.588393, nextPhis[ 1]=-3.599980 <==IsSwitchingOccur() T = 7.460000 Tnext = 7.465000 Time: 7.46000e+00 states: [ 1.16542e+00 1.10371e+00] derivs: [ 1.10348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.465000 pESO->GetIndependentVar(): 7.465000 ==>IsSwitchingOccur() prevPhis[ 0]=9.599980, nextPhis[ 0]=9.611492 prevPhis[ 1]=-3.599980, nextPhis[ 1]=-3.611492 <==IsSwitchingOccur() T = 7.465000 Tnext = 7.470000 Time: 7.46500e+00 states: [ 1.17093e+00 1.09871e+00] derivs: [ 1.09848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.470000 pESO->GetIndependentVar(): 7.470000 ==>IsSwitchingOccur() prevPhis[ 0]=9.611492, nextPhis[ 0]=9.622928 prevPhis[ 1]=-3.611492, nextPhis[ 1]=-3.622928 <==IsSwitchingOccur() T = 7.470000 Tnext = 7.475000 Time: 7.47000e+00 states: [ 1.17641e+00 1.09371e+00] derivs: [ 1.09348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.475000 pESO->GetIndependentVar(): 7.475000 ==>IsSwitchingOccur() prevPhis[ 0]=9.622928, nextPhis[ 0]=9.634290 prevPhis[ 1]=-3.622928, nextPhis[ 1]=-3.634290 <==IsSwitchingOccur() T = 7.475000 Tnext = 7.480000 Time: 7.47500e+00 states: [ 1.18186e+00 1.08871e+00] derivs: [ 1.08848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.480000 pESO->GetIndependentVar(): 7.480000 ==>IsSwitchingOccur() prevPhis[ 0]=9.634290, nextPhis[ 0]=9.645577 prevPhis[ 1]=-3.634290, nextPhis[ 1]=-3.645577 <==IsSwitchingOccur() T = 7.480000 Tnext = 7.485000 Time: 7.48000e+00 states: [ 1.18729e+00 1.08371e+00] derivs: [ 1.08348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.485000 pESO->GetIndependentVar(): 7.485000 ==>IsSwitchingOccur() prevPhis[ 0]=9.645577, nextPhis[ 0]=9.656789 prevPhis[ 1]=-3.645577, nextPhis[ 1]=-3.656789 <==IsSwitchingOccur() T = 7.485000 Tnext = 7.490000 Time: 7.48500e+00 states: [ 1.19269e+00 1.07871e+00] derivs: [ 1.07848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.490000 pESO->GetIndependentVar(): 7.490000 ==>IsSwitchingOccur() prevPhis[ 0]=9.656789, nextPhis[ 0]=9.667926 prevPhis[ 1]=-3.656789, nextPhis[ 1]=-3.667926 <==IsSwitchingOccur() T = 7.490000 Tnext = 7.495000 Time: 7.49000e+00 states: [ 1.19807e+00 1.07371e+00] derivs: [ 1.07348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.495000 pESO->GetIndependentVar(): 7.495000 ==>IsSwitchingOccur() prevPhis[ 0]=9.667926, nextPhis[ 0]=9.678988 prevPhis[ 1]=-3.667926, nextPhis[ 1]=-3.678988 <==IsSwitchingOccur() T = 7.495000 Tnext = 7.500000 Time: 7.49500e+00 states: [ 1.20343e+00 1.06871e+00] derivs: [ 1.06848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.500000 pESO->GetIndependentVar(): 7.500000 ==>IsSwitchingOccur() prevPhis[ 0]=9.678988, nextPhis[ 0]=9.689975 prevPhis[ 1]=-3.678988, nextPhis[ 1]=-3.689975 <==IsSwitchingOccur() T = 7.500000 Tnext = 7.505000 Time: 7.50000e+00 states: [ 1.20875e+00 1.06371e+00] derivs: [ 1.06348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.505000 pESO->GetIndependentVar(): 7.505000 ==>IsSwitchingOccur() prevPhis[ 0]=9.689975, nextPhis[ 0]=9.700887 prevPhis[ 1]=-3.689975, nextPhis[ 1]=-3.700887 <==IsSwitchingOccur() T = 7.505000 Tnext = 7.510000 Time: 7.50500e+00 states: [ 1.21406e+00 1.05871e+00] derivs: [ 1.05848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.510000 pESO->GetIndependentVar(): 7.510000 ==>IsSwitchingOccur() prevPhis[ 0]=9.700887, nextPhis[ 0]=9.711724 prevPhis[ 1]=-3.700887, nextPhis[ 1]=-3.711724 <==IsSwitchingOccur() T = 7.510000 Tnext = 7.515000 Time: 7.51000e+00 states: [ 1.21934e+00 1.05371e+00] derivs: [ 1.05348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.515000 pESO->GetIndependentVar(): 7.515000 ==>IsSwitchingOccur() prevPhis[ 0]=9.711724, nextPhis[ 0]=9.722485 prevPhis[ 1]=-3.711724, nextPhis[ 1]=-3.722485 <==IsSwitchingOccur() T = 7.515000 Tnext = 7.520000 Time: 7.51500e+00 states: [ 1.22459e+00 1.04871e+00] derivs: [ 1.04848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.520000 pESO->GetIndependentVar(): 7.520000 ==>IsSwitchingOccur() prevPhis[ 0]=9.722485, nextPhis[ 0]=9.733172 prevPhis[ 1]=-3.722485, nextPhis[ 1]=-3.733172 <==IsSwitchingOccur() T = 7.520000 Tnext = 7.525000 Time: 7.52000e+00 states: [ 1.22982e+00 1.04371e+00] derivs: [ 1.04348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.525000 pESO->GetIndependentVar(): 7.525000 ==>IsSwitchingOccur() prevPhis[ 0]=9.733172, nextPhis[ 0]=9.743784 prevPhis[ 1]=-3.733172, nextPhis[ 1]=-3.743784 <==IsSwitchingOccur() T = 7.525000 Tnext = 7.530000 Time: 7.52500e+00 states: [ 1.23502e+00 1.03871e+00] derivs: [ 1.03848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.530000 pESO->GetIndependentVar(): 7.530000 ==>IsSwitchingOccur() prevPhis[ 0]=9.743784, nextPhis[ 0]=9.754321 prevPhis[ 1]=-3.743784, nextPhis[ 1]=-3.754321 <==IsSwitchingOccur() T = 7.530000 Tnext = 7.535000 Time: 7.53000e+00 states: [ 1.24020e+00 1.03371e+00] derivs: [ 1.03348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.535000 pESO->GetIndependentVar(): 7.535000 ==>IsSwitchingOccur() prevPhis[ 0]=9.754321, nextPhis[ 0]=9.764783 prevPhis[ 1]=-3.754321, nextPhis[ 1]=-3.764783 <==IsSwitchingOccur() T = 7.535000 Tnext = 7.540000 Time: 7.53500e+00 states: [ 1.24536e+00 1.02871e+00] derivs: [ 1.02848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.540000 pESO->GetIndependentVar(): 7.540000 ==>IsSwitchingOccur() prevPhis[ 0]=9.764783, nextPhis[ 0]=9.775170 prevPhis[ 1]=-3.764783, nextPhis[ 1]=-3.775170 <==IsSwitchingOccur() T = 7.540000 Tnext = 7.545000 Time: 7.54000e+00 states: [ 1.25049e+00 1.02371e+00] derivs: [ 1.02348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.545000 pESO->GetIndependentVar(): 7.545000 ==>IsSwitchingOccur() prevPhis[ 0]=9.775170, nextPhis[ 0]=9.785482 prevPhis[ 1]=-3.775170, nextPhis[ 1]=-3.785482 <==IsSwitchingOccur() T = 7.545000 Tnext = 7.550000 Time: 7.54500e+00 states: [ 1.25559e+00 1.01871e+00] derivs: [ 1.01848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.550000 pESO->GetIndependentVar(): 7.550000 ==>IsSwitchingOccur() prevPhis[ 0]=9.785482, nextPhis[ 0]=9.795719 prevPhis[ 1]=-3.785482, nextPhis[ 1]=-3.795719 <==IsSwitchingOccur() T = 7.550000 Tnext = 7.555000 Time: 7.55000e+00 states: [ 1.26067e+00 1.01371e+00] derivs: [ 1.01348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.555000 pESO->GetIndependentVar(): 7.555000 ==>IsSwitchingOccur() prevPhis[ 0]=9.795719, nextPhis[ 0]=9.805881 prevPhis[ 1]=-3.795719, nextPhis[ 1]=-3.805881 <==IsSwitchingOccur() T = 7.555000 Tnext = 7.560000 Time: 7.55500e+00 states: [ 1.26572e+00 1.00871e+00] derivs: [ 1.00848e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.560000 pESO->GetIndependentVar(): 7.560000 ==>IsSwitchingOccur() prevPhis[ 0]=9.805881, nextPhis[ 0]=9.815967 prevPhis[ 1]=-3.805881, nextPhis[ 1]=-3.815967 <==IsSwitchingOccur() T = 7.560000 Tnext = 7.565000 Time: 7.56000e+00 states: [ 1.27075e+00 1.00371e+00] derivs: [ 1.00348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.565000 pESO->GetIndependentVar(): 7.565000 ==>IsSwitchingOccur() prevPhis[ 0]=9.815967, nextPhis[ 0]=9.825979 prevPhis[ 1]=-3.815967, nextPhis[ 1]=-3.825979 <==IsSwitchingOccur() T = 7.565000 Tnext = 7.570000 Time: 7.56500e+00 states: [ 1.27576e+00 9.98711e-01] derivs: [ 9.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.570000 pESO->GetIndependentVar(): 7.570000 ==>IsSwitchingOccur() prevPhis[ 0]=9.825979, nextPhis[ 0]=9.835916 prevPhis[ 1]=-3.825979, nextPhis[ 1]=-3.835916 <==IsSwitchingOccur() T = 7.570000 Tnext = 7.575000 Time: 7.57000e+00 states: [ 1.28074e+00 9.93711e-01] derivs: [ 9.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.575000 pESO->GetIndependentVar(): 7.575000 ==>IsSwitchingOccur() prevPhis[ 0]=9.835916, nextPhis[ 0]=9.845778 prevPhis[ 1]=-3.835916, nextPhis[ 1]=-3.845778 <==IsSwitchingOccur() T = 7.575000 Tnext = 7.580000 Time: 7.57500e+00 states: [ 1.28569e+00 9.88711e-01] derivs: [ 9.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.580000 pESO->GetIndependentVar(): 7.580000 ==>IsSwitchingOccur() prevPhis[ 0]=9.845778, nextPhis[ 0]=9.855565 prevPhis[ 1]=-3.845778, nextPhis[ 1]=-3.855565 <==IsSwitchingOccur() T = 7.580000 Tnext = 7.585000 Time: 7.58000e+00 states: [ 1.29062e+00 9.83711e-01] derivs: [ 9.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.585000 pESO->GetIndependentVar(): 7.585000 ==>IsSwitchingOccur() prevPhis[ 0]=9.855565, nextPhis[ 0]=9.865277 prevPhis[ 1]=-3.855565, nextPhis[ 1]=-3.865277 <==IsSwitchingOccur() T = 7.585000 Tnext = 7.590000 Time: 7.58500e+00 states: [ 1.29552e+00 9.78711e-01] derivs: [ 9.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.590000 pESO->GetIndependentVar(): 7.590000 ==>IsSwitchingOccur() prevPhis[ 0]=9.865277, nextPhis[ 0]=9.874914 prevPhis[ 1]=-3.865277, nextPhis[ 1]=-3.874914 <==IsSwitchingOccur() T = 7.590000 Tnext = 7.595000 Time: 7.59000e+00 states: [ 1.30040e+00 9.73711e-01] derivs: [ 9.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.595000 pESO->GetIndependentVar(): 7.595000 ==>IsSwitchingOccur() prevPhis[ 0]=9.874914, nextPhis[ 0]=9.884476 prevPhis[ 1]=-3.874914, nextPhis[ 1]=-3.884476 <==IsSwitchingOccur() T = 7.595000 Tnext = 7.600000 Time: 7.59500e+00 states: [ 1.30525e+00 9.68711e-01] derivs: [ 9.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.600000 pESO->GetIndependentVar(): 7.600000 ==>IsSwitchingOccur() prevPhis[ 0]=9.884476, nextPhis[ 0]=9.893963 prevPhis[ 1]=-3.884476, nextPhis[ 1]=-3.893963 <==IsSwitchingOccur() T = 7.600000 Tnext = 7.605000 Time: 7.60000e+00 states: [ 1.31008e+00 9.63711e-01] derivs: [ 9.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.605000 pESO->GetIndependentVar(): 7.605000 ==>IsSwitchingOccur() prevPhis[ 0]=9.893963, nextPhis[ 0]=9.903374 prevPhis[ 1]=-3.893963, nextPhis[ 1]=-3.903374 <==IsSwitchingOccur() T = 7.605000 Tnext = 7.610000 Time: 7.60500e+00 states: [ 1.31489e+00 9.58711e-01] derivs: [ 9.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.610000 pESO->GetIndependentVar(): 7.610000 ==>IsSwitchingOccur() prevPhis[ 0]=9.903374, nextPhis[ 0]=9.912711 prevPhis[ 1]=-3.903374, nextPhis[ 1]=-3.912711 <==IsSwitchingOccur() T = 7.610000 Tnext = 7.615000 Time: 7.61000e+00 states: [ 1.31967e+00 9.53711e-01] derivs: [ 9.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.615000 pESO->GetIndependentVar(): 7.615000 ==>IsSwitchingOccur() prevPhis[ 0]=9.912711, nextPhis[ 0]=9.921973 prevPhis[ 1]=-3.912711, nextPhis[ 1]=-3.921973 <==IsSwitchingOccur() T = 7.615000 Tnext = 7.620000 Time: 7.61500e+00 states: [ 1.32442e+00 9.48711e-01] derivs: [ 9.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.620000 pESO->GetIndependentVar(): 7.620000 ==>IsSwitchingOccur() prevPhis[ 0]=9.921973, nextPhis[ 0]=9.931160 prevPhis[ 1]=-3.921973, nextPhis[ 1]=-3.931160 <==IsSwitchingOccur() T = 7.620000 Tnext = 7.625000 Time: 7.62000e+00 states: [ 1.32915e+00 9.43711e-01] derivs: [ 9.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.625000 pESO->GetIndependentVar(): 7.625000 ==>IsSwitchingOccur() prevPhis[ 0]=9.931160, nextPhis[ 0]=9.940272 prevPhis[ 1]=-3.931160, nextPhis[ 1]=-3.940272 <==IsSwitchingOccur() T = 7.625000 Tnext = 7.630000 Time: 7.62500e+00 states: [ 1.33385e+00 9.38711e-01] derivs: [ 9.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.630000 pESO->GetIndependentVar(): 7.630000 ==>IsSwitchingOccur() prevPhis[ 0]=9.940272, nextPhis[ 0]=9.949309 prevPhis[ 1]=-3.940272, nextPhis[ 1]=-3.949309 <==IsSwitchingOccur() T = 7.630000 Tnext = 7.635000 Time: 7.63000e+00 states: [ 1.33853e+00 9.33711e-01] derivs: [ 9.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.635000 pESO->GetIndependentVar(): 7.635000 ==>IsSwitchingOccur() prevPhis[ 0]=9.949309, nextPhis[ 0]=9.958271 prevPhis[ 1]=-3.949309, nextPhis[ 1]=-3.958271 <==IsSwitchingOccur() T = 7.635000 Tnext = 7.640000 Time: 7.63500e+00 states: [ 1.34319e+00 9.28711e-01] derivs: [ 9.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.640000 pESO->GetIndependentVar(): 7.640000 ==>IsSwitchingOccur() prevPhis[ 0]=9.958271, nextPhis[ 0]=9.967158 prevPhis[ 1]=-3.958271, nextPhis[ 1]=-3.967158 <==IsSwitchingOccur() T = 7.640000 Tnext = 7.645000 Time: 7.64000e+00 states: [ 1.34782e+00 9.23711e-01] derivs: [ 9.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.645000 pESO->GetIndependentVar(): 7.645000 ==>IsSwitchingOccur() prevPhis[ 0]=9.967158, nextPhis[ 0]=9.975969 prevPhis[ 1]=-3.967158, nextPhis[ 1]=-3.975969 <==IsSwitchingOccur() T = 7.645000 Tnext = 7.650000 Time: 7.64500e+00 states: [ 1.35242e+00 9.18711e-01] derivs: [ 9.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.650000 pESO->GetIndependentVar(): 7.650000 ==>IsSwitchingOccur() prevPhis[ 0]=9.975969, nextPhis[ 0]=9.984706 prevPhis[ 1]=-3.975969, nextPhis[ 1]=-3.984706 <==IsSwitchingOccur() T = 7.650000 Tnext = 7.655000 Time: 7.65000e+00 states: [ 1.35700e+00 9.13711e-01] derivs: [ 9.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.655000 pESO->GetIndependentVar(): 7.655000 ==>IsSwitchingOccur() prevPhis[ 0]=9.984706, nextPhis[ 0]=9.993368 prevPhis[ 1]=-3.984706, nextPhis[ 1]=-3.993368 <==IsSwitchingOccur() T = 7.655000 Tnext = 7.660000 Time: 7.65500e+00 states: [ 1.36155e+00 9.08711e-01] derivs: [ 9.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.660000 pESO->GetIndependentVar(): 7.660000 ==>IsSwitchingOccur() prevPhis[ 0]=9.993368, nextPhis[ 0]=10.001955 prevPhis[ 1]=-3.993368, nextPhis[ 1]=-4.001955 <==IsSwitchingOccur() T = 7.660000 Tnext = 7.665000 Time: 7.66000e+00 states: [ 1.36608e+00 9.03711e-01] derivs: [ 9.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.665000 pESO->GetIndependentVar(): 7.665000 ==>IsSwitchingOccur() prevPhis[ 0]=10.001955, nextPhis[ 0]=10.010467 prevPhis[ 1]=-4.001955, nextPhis[ 1]=-4.010467 <==IsSwitchingOccur() T = 7.665000 Tnext = 7.670000 Time: 7.66500e+00 states: [ 1.37059e+00 8.98711e-01] derivs: [ 8.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.670000 pESO->GetIndependentVar(): 7.670000 ==>IsSwitchingOccur() prevPhis[ 0]=10.010467, nextPhis[ 0]=10.018904 prevPhis[ 1]=-4.010467, nextPhis[ 1]=-4.018904 <==IsSwitchingOccur() T = 7.670000 Tnext = 7.675000 Time: 7.67000e+00 states: [ 1.37506e+00 8.93711e-01] derivs: [ 8.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.675000 pESO->GetIndependentVar(): 7.675000 ==>IsSwitchingOccur() prevPhis[ 0]=10.018904, nextPhis[ 0]=10.027266 prevPhis[ 1]=-4.018904, nextPhis[ 1]=-4.027266 <==IsSwitchingOccur() T = 7.675000 Tnext = 7.680000 Time: 7.67500e+00 states: [ 1.37952e+00 8.88711e-01] derivs: [ 8.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.680000 pESO->GetIndependentVar(): 7.680000 ==>IsSwitchingOccur() prevPhis[ 0]=10.027266, nextPhis[ 0]=10.035553 prevPhis[ 1]=-4.027266, nextPhis[ 1]=-4.035553 <==IsSwitchingOccur() T = 7.680000 Tnext = 7.685000 Time: 7.68000e+00 states: [ 1.38395e+00 8.83711e-01] derivs: [ 8.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.685000 pESO->GetIndependentVar(): 7.685000 ==>IsSwitchingOccur() prevPhis[ 0]=10.035553, nextPhis[ 0]=10.043765 prevPhis[ 1]=-4.035553, nextPhis[ 1]=-4.043765 <==IsSwitchingOccur() T = 7.685000 Tnext = 7.690000 Time: 7.68500e+00 states: [ 1.38835e+00 8.78711e-01] derivs: [ 8.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.690000 pESO->GetIndependentVar(): 7.690000 ==>IsSwitchingOccur() prevPhis[ 0]=10.043765, nextPhis[ 0]=10.051901 prevPhis[ 1]=-4.043765, nextPhis[ 1]=-4.051901 <==IsSwitchingOccur() T = 7.690000 Tnext = 7.695000 Time: 7.69000e+00 states: [ 1.39273e+00 8.73711e-01] derivs: [ 8.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.695000 pESO->GetIndependentVar(): 7.695000 ==>IsSwitchingOccur() prevPhis[ 0]=10.051901, nextPhis[ 0]=10.059963 prevPhis[ 1]=-4.051901, nextPhis[ 1]=-4.059963 <==IsSwitchingOccur() T = 7.695000 Tnext = 7.700000 Time: 7.69500e+00 states: [ 1.39708e+00 8.68711e-01] derivs: [ 8.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.700000 pESO->GetIndependentVar(): 7.700000 ==>IsSwitchingOccur() prevPhis[ 0]=10.059963, nextPhis[ 0]=10.067950 prevPhis[ 1]=-4.059963, nextPhis[ 1]=-4.067950 <==IsSwitchingOccur() T = 7.700000 Tnext = 7.705000 Time: 7.70000e+00 states: [ 1.40141e+00 8.63711e-01] derivs: [ 8.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.705000 pESO->GetIndependentVar(): 7.705000 ==>IsSwitchingOccur() prevPhis[ 0]=10.067950, nextPhis[ 0]=10.075862 prevPhis[ 1]=-4.067950, nextPhis[ 1]=-4.075862 <==IsSwitchingOccur() T = 7.705000 Tnext = 7.710000 Time: 7.70500e+00 states: [ 1.40572e+00 8.58711e-01] derivs: [ 8.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.710000 pESO->GetIndependentVar(): 7.710000 ==>IsSwitchingOccur() prevPhis[ 0]=10.075862, nextPhis[ 0]=10.083699 prevPhis[ 1]=-4.075862, nextPhis[ 1]=-4.083699 <==IsSwitchingOccur() T = 7.710000 Tnext = 7.715000 Time: 7.71000e+00 states: [ 1.41000e+00 8.53711e-01] derivs: [ 8.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.715000 pESO->GetIndependentVar(): 7.715000 ==>IsSwitchingOccur() prevPhis[ 0]=10.083699, nextPhis[ 0]=10.091461 prevPhis[ 1]=-4.083699, nextPhis[ 1]=-4.091461 <==IsSwitchingOccur() T = 7.715000 Tnext = 7.720000 Time: 7.71500e+00 states: [ 1.41425e+00 8.48711e-01] derivs: [ 8.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.720000 pESO->GetIndependentVar(): 7.720000 ==>IsSwitchingOccur() prevPhis[ 0]=10.091461, nextPhis[ 0]=10.099148 prevPhis[ 1]=-4.091461, nextPhis[ 1]=-4.099148 <==IsSwitchingOccur() T = 7.720000 Tnext = 7.725000 Time: 7.72000e+00 states: [ 1.41848e+00 8.43711e-01] derivs: [ 8.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.725000 pESO->GetIndependentVar(): 7.725000 ==>IsSwitchingOccur() prevPhis[ 0]=10.099148, nextPhis[ 0]=10.106760 prevPhis[ 1]=-4.099148, nextPhis[ 1]=-4.106760 <==IsSwitchingOccur() T = 7.725000 Tnext = 7.730000 Time: 7.72500e+00 states: [ 1.42268e+00 8.38711e-01] derivs: [ 8.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.730000 pESO->GetIndependentVar(): 7.730000 ==>IsSwitchingOccur() prevPhis[ 0]=10.106760, nextPhis[ 0]=10.114297 prevPhis[ 1]=-4.106760, nextPhis[ 1]=-4.114297 <==IsSwitchingOccur() T = 7.730000 Tnext = 7.735000 Time: 7.73000e+00 states: [ 1.42686e+00 8.33711e-01] derivs: [ 8.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.735000 pESO->GetIndependentVar(): 7.735000 ==>IsSwitchingOccur() prevPhis[ 0]=10.114297, nextPhis[ 0]=10.121758 prevPhis[ 1]=-4.114297, nextPhis[ 1]=-4.121758 <==IsSwitchingOccur() T = 7.735000 Tnext = 7.740000 Time: 7.73500e+00 states: [ 1.43102e+00 8.28711e-01] derivs: [ 8.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.740000 pESO->GetIndependentVar(): 7.740000 ==>IsSwitchingOccur() prevPhis[ 0]=10.121758, nextPhis[ 0]=10.129145 prevPhis[ 1]=-4.121758, nextPhis[ 1]=-4.129145 <==IsSwitchingOccur() T = 7.740000 Tnext = 7.745000 Time: 7.74000e+00 states: [ 1.43514e+00 8.23711e-01] derivs: [ 8.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.745000 pESO->GetIndependentVar(): 7.745000 ==>IsSwitchingOccur() prevPhis[ 0]=10.129145, nextPhis[ 0]=10.136457 prevPhis[ 1]=-4.129145, nextPhis[ 1]=-4.136457 <==IsSwitchingOccur() T = 7.745000 Tnext = 7.750000 Time: 7.74500e+00 states: [ 1.43925e+00 8.18711e-01] derivs: [ 8.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.750000 pESO->GetIndependentVar(): 7.750000 ==>IsSwitchingOccur() prevPhis[ 0]=10.136457, nextPhis[ 0]=10.143694 prevPhis[ 1]=-4.136457, nextPhis[ 1]=-4.143694 <==IsSwitchingOccur() T = 7.750000 Tnext = 7.755000 Time: 7.75000e+00 states: [ 1.44333e+00 8.13711e-01] derivs: [ 8.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.755000 pESO->GetIndependentVar(): 7.755000 ==>IsSwitchingOccur() prevPhis[ 0]=10.143694, nextPhis[ 0]=10.150856 prevPhis[ 1]=-4.143694, nextPhis[ 1]=-4.150856 <==IsSwitchingOccur() T = 7.755000 Tnext = 7.760000 Time: 7.75500e+00 states: [ 1.44738e+00 8.08711e-01] derivs: [ 8.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.760000 pESO->GetIndependentVar(): 7.760000 ==>IsSwitchingOccur() prevPhis[ 0]=10.150856, nextPhis[ 0]=10.157943 prevPhis[ 1]=-4.150856, nextPhis[ 1]=-4.157943 <==IsSwitchingOccur() T = 7.760000 Tnext = 7.765000 Time: 7.76000e+00 states: [ 1.45141e+00 8.03711e-01] derivs: [ 8.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.765000 pESO->GetIndependentVar(): 7.765000 ==>IsSwitchingOccur() prevPhis[ 0]=10.157943, nextPhis[ 0]=10.164955 prevPhis[ 1]=-4.157943, nextPhis[ 1]=-4.164955 <==IsSwitchingOccur() T = 7.765000 Tnext = 7.770000 Time: 7.76500e+00 states: [ 1.45541e+00 7.98711e-01] derivs: [ 7.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.770000 pESO->GetIndependentVar(): 7.770000 ==>IsSwitchingOccur() prevPhis[ 0]=10.164955, nextPhis[ 0]=10.171892 prevPhis[ 1]=-4.164955, nextPhis[ 1]=-4.171892 <==IsSwitchingOccur() T = 7.770000 Tnext = 7.775000 Time: 7.77000e+00 states: [ 1.45939e+00 7.93711e-01] derivs: [ 7.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.775000 pESO->GetIndependentVar(): 7.775000 ==>IsSwitchingOccur() prevPhis[ 0]=10.171892, nextPhis[ 0]=10.178754 prevPhis[ 1]=-4.171892, nextPhis[ 1]=-4.178754 <==IsSwitchingOccur() T = 7.775000 Tnext = 7.780000 Time: 7.77500e+00 states: [ 1.46335e+00 7.88711e-01] derivs: [ 7.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.780000 pESO->GetIndependentVar(): 7.780000 ==>IsSwitchingOccur() prevPhis[ 0]=10.178754, nextPhis[ 0]=10.185540 prevPhis[ 1]=-4.178754, nextPhis[ 1]=-4.185540 <==IsSwitchingOccur() T = 7.780000 Tnext = 7.785000 Time: 7.78000e+00 states: [ 1.46728e+00 7.83711e-01] derivs: [ 7.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.785000 pESO->GetIndependentVar(): 7.785000 ==>IsSwitchingOccur() prevPhis[ 0]=10.185540, nextPhis[ 0]=10.192252 prevPhis[ 1]=-4.185540, nextPhis[ 1]=-4.192252 <==IsSwitchingOccur() T = 7.785000 Tnext = 7.790000 Time: 7.78500e+00 states: [ 1.47118e+00 7.78711e-01] derivs: [ 7.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.790000 pESO->GetIndependentVar(): 7.790000 ==>IsSwitchingOccur() prevPhis[ 0]=10.192252, nextPhis[ 0]=10.198889 prevPhis[ 1]=-4.192252, nextPhis[ 1]=-4.198889 <==IsSwitchingOccur() T = 7.790000 Tnext = 7.795000 Time: 7.79000e+00 states: [ 1.47506e+00 7.73711e-01] derivs: [ 7.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.795000 pESO->GetIndependentVar(): 7.795000 ==>IsSwitchingOccur() prevPhis[ 0]=10.198889, nextPhis[ 0]=10.205451 prevPhis[ 1]=-4.198889, nextPhis[ 1]=-4.205451 <==IsSwitchingOccur() T = 7.795000 Tnext = 7.800000 Time: 7.79500e+00 states: [ 1.47891e+00 7.68711e-01] derivs: [ 7.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.800000 pESO->GetIndependentVar(): 7.800000 ==>IsSwitchingOccur() prevPhis[ 0]=10.205451, nextPhis[ 0]=10.211938 prevPhis[ 1]=-4.205451, nextPhis[ 1]=-4.211938 <==IsSwitchingOccur() T = 7.800000 Tnext = 7.805000 Time: 7.80000e+00 states: [ 1.48274e+00 7.63711e-01] derivs: [ 7.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.805000 pESO->GetIndependentVar(): 7.805000 ==>IsSwitchingOccur() prevPhis[ 0]=10.211938, nextPhis[ 0]=10.218350 prevPhis[ 1]=-4.211938, nextPhis[ 1]=-4.218350 <==IsSwitchingOccur() T = 7.805000 Tnext = 7.810000 Time: 7.80500e+00 states: [ 1.48655e+00 7.58711e-01] derivs: [ 7.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.810000 pESO->GetIndependentVar(): 7.810000 ==>IsSwitchingOccur() prevPhis[ 0]=10.218350, nextPhis[ 0]=10.224687 prevPhis[ 1]=-4.218350, nextPhis[ 1]=-4.224687 <==IsSwitchingOccur() T = 7.810000 Tnext = 7.815000 Time: 7.81000e+00 states: [ 1.49033e+00 7.53711e-01] derivs: [ 7.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.815000 pESO->GetIndependentVar(): 7.815000 ==>IsSwitchingOccur() prevPhis[ 0]=10.224687, nextPhis[ 0]=10.230949 prevPhis[ 1]=-4.224687, nextPhis[ 1]=-4.230949 <==IsSwitchingOccur() T = 7.815000 Tnext = 7.820000 Time: 7.81500e+00 states: [ 1.49408e+00 7.48711e-01] derivs: [ 7.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.820000 pESO->GetIndependentVar(): 7.820000 ==>IsSwitchingOccur() prevPhis[ 0]=10.230949, nextPhis[ 0]=10.237136 prevPhis[ 1]=-4.230949, nextPhis[ 1]=-4.237136 <==IsSwitchingOccur() T = 7.820000 Tnext = 7.825000 Time: 7.82000e+00 states: [ 1.49781e+00 7.43711e-01] derivs: [ 7.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.825000 pESO->GetIndependentVar(): 7.825000 ==>IsSwitchingOccur() prevPhis[ 0]=10.237136, nextPhis[ 0]=10.243247 prevPhis[ 1]=-4.237136, nextPhis[ 1]=-4.243247 <==IsSwitchingOccur() T = 7.825000 Tnext = 7.830000 Time: 7.82500e+00 states: [ 1.50151e+00 7.38711e-01] derivs: [ 7.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.830000 pESO->GetIndependentVar(): 7.830000 ==>IsSwitchingOccur() prevPhis[ 0]=10.243247, nextPhis[ 0]=10.249284 prevPhis[ 1]=-4.243247, nextPhis[ 1]=-4.249284 <==IsSwitchingOccur() T = 7.830000 Tnext = 7.835000 Time: 7.83000e+00 states: [ 1.50519e+00 7.33711e-01] derivs: [ 7.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.835000 pESO->GetIndependentVar(): 7.835000 ==>IsSwitchingOccur() prevPhis[ 0]=10.249284, nextPhis[ 0]=10.255246 prevPhis[ 1]=-4.249284, nextPhis[ 1]=-4.255246 <==IsSwitchingOccur() T = 7.835000 Tnext = 7.840000 Time: 7.83500e+00 states: [ 1.50885e+00 7.28711e-01] derivs: [ 7.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.840000 pESO->GetIndependentVar(): 7.840000 ==>IsSwitchingOccur() prevPhis[ 0]=10.255246, nextPhis[ 0]=10.261133 prevPhis[ 1]=-4.255246, nextPhis[ 1]=-4.261133 <==IsSwitchingOccur() T = 7.840000 Tnext = 7.845000 Time: 7.84000e+00 states: [ 1.51247e+00 7.23711e-01] derivs: [ 7.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.845000 pESO->GetIndependentVar(): 7.845000 ==>IsSwitchingOccur() prevPhis[ 0]=10.261133, nextPhis[ 0]=10.266945 prevPhis[ 1]=-4.261133, nextPhis[ 1]=-4.266945 <==IsSwitchingOccur() T = 7.845000 Tnext = 7.850000 Time: 7.84500e+00 states: [ 1.51608e+00 7.18711e-01] derivs: [ 7.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.850000 pESO->GetIndependentVar(): 7.850000 ==>IsSwitchingOccur() prevPhis[ 0]=10.266945, nextPhis[ 0]=10.272682 prevPhis[ 1]=-4.266945, nextPhis[ 1]=-4.272682 <==IsSwitchingOccur() T = 7.850000 Tnext = 7.855000 Time: 7.85000e+00 states: [ 1.51966e+00 7.13711e-01] derivs: [ 7.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.855000 pESO->GetIndependentVar(): 7.855000 ==>IsSwitchingOccur() prevPhis[ 0]=10.272682, nextPhis[ 0]=10.278344 prevPhis[ 1]=-4.272682, nextPhis[ 1]=-4.278344 <==IsSwitchingOccur() T = 7.855000 Tnext = 7.860000 Time: 7.85500e+00 states: [ 1.52321e+00 7.08711e-01] derivs: [ 7.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.860000 pESO->GetIndependentVar(): 7.860000 ==>IsSwitchingOccur() prevPhis[ 0]=10.278344, nextPhis[ 0]=10.283931 prevPhis[ 1]=-4.278344, nextPhis[ 1]=-4.283931 <==IsSwitchingOccur() T = 7.860000 Tnext = 7.865000 Time: 7.86000e+00 states: [ 1.52674e+00 7.03711e-01] derivs: [ 7.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.865000 pESO->GetIndependentVar(): 7.865000 ==>IsSwitchingOccur() prevPhis[ 0]=10.283931, nextPhis[ 0]=10.289443 prevPhis[ 1]=-4.283931, nextPhis[ 1]=-4.289443 <==IsSwitchingOccur() T = 7.865000 Tnext = 7.870000 Time: 7.86500e+00 states: [ 1.53024e+00 6.98711e-01] derivs: [ 6.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.870000 pESO->GetIndependentVar(): 7.870000 ==>IsSwitchingOccur() prevPhis[ 0]=10.289443, nextPhis[ 0]=10.294879 prevPhis[ 1]=-4.289443, nextPhis[ 1]=-4.294879 <==IsSwitchingOccur() T = 7.870000 Tnext = 7.875000 Time: 7.87000e+00 states: [ 1.53372e+00 6.93711e-01] derivs: [ 6.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.875000 pESO->GetIndependentVar(): 7.875000 ==>IsSwitchingOccur() prevPhis[ 0]=10.294879, nextPhis[ 0]=10.300241 prevPhis[ 1]=-4.294879, nextPhis[ 1]=-4.300241 <==IsSwitchingOccur() T = 7.875000 Tnext = 7.880000 Time: 7.87500e+00 states: [ 1.53718e+00 6.88711e-01] derivs: [ 6.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.880000 pESO->GetIndependentVar(): 7.880000 ==>IsSwitchingOccur() prevPhis[ 0]=10.300241, nextPhis[ 0]=10.305528 prevPhis[ 1]=-4.300241, nextPhis[ 1]=-4.305528 <==IsSwitchingOccur() T = 7.880000 Tnext = 7.885000 Time: 7.88000e+00 states: [ 1.54061e+00 6.83711e-01] derivs: [ 6.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.885000 pESO->GetIndependentVar(): 7.885000 ==>IsSwitchingOccur() prevPhis[ 0]=10.305528, nextPhis[ 0]=10.310740 prevPhis[ 1]=-4.305528, nextPhis[ 1]=-4.310740 <==IsSwitchingOccur() T = 7.885000 Tnext = 7.890000 Time: 7.88500e+00 states: [ 1.54401e+00 6.78711e-01] derivs: [ 6.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.890000 pESO->GetIndependentVar(): 7.890000 ==>IsSwitchingOccur() prevPhis[ 0]=10.310740, nextPhis[ 0]=10.315877 prevPhis[ 1]=-4.310740, nextPhis[ 1]=-4.315877 <==IsSwitchingOccur() T = 7.890000 Tnext = 7.895000 Time: 7.89000e+00 states: [ 1.54739e+00 6.73711e-01] derivs: [ 6.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.895000 pESO->GetIndependentVar(): 7.895000 ==>IsSwitchingOccur() prevPhis[ 0]=10.315877, nextPhis[ 0]=10.320939 prevPhis[ 1]=-4.315877, nextPhis[ 1]=-4.320939 <==IsSwitchingOccur() T = 7.895000 Tnext = 7.900000 Time: 7.89500e+00 states: [ 1.55074e+00 6.68711e-01] derivs: [ 6.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.900000 pESO->GetIndependentVar(): 7.900000 ==>IsSwitchingOccur() prevPhis[ 0]=10.320939, nextPhis[ 0]=10.325926 prevPhis[ 1]=-4.320939, nextPhis[ 1]=-4.325926 <==IsSwitchingOccur() T = 7.900000 Tnext = 7.905000 Time: 7.90000e+00 states: [ 1.55407e+00 6.63711e-01] derivs: [ 6.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.905000 pESO->GetIndependentVar(): 7.905000 ==>IsSwitchingOccur() prevPhis[ 0]=10.325926, nextPhis[ 0]=10.330838 prevPhis[ 1]=-4.325926, nextPhis[ 1]=-4.330838 <==IsSwitchingOccur() T = 7.905000 Tnext = 7.910000 Time: 7.90500e+00 states: [ 1.55738e+00 6.58711e-01] derivs: [ 6.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.910000 pESO->GetIndependentVar(): 7.910000 ==>IsSwitchingOccur() prevPhis[ 0]=10.330838, nextPhis[ 0]=10.335675 prevPhis[ 1]=-4.330838, nextPhis[ 1]=-4.335675 <==IsSwitchingOccur() T = 7.910000 Tnext = 7.915000 Time: 7.91000e+00 states: [ 1.56065e+00 6.53711e-01] derivs: [ 6.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.915000 pESO->GetIndependentVar(): 7.915000 ==>IsSwitchingOccur() prevPhis[ 0]=10.335675, nextPhis[ 0]=10.340436 prevPhis[ 1]=-4.335675, nextPhis[ 1]=-4.340436 <==IsSwitchingOccur() T = 7.915000 Tnext = 7.920000 Time: 7.91500e+00 states: [ 1.56391e+00 6.48711e-01] derivs: [ 6.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.920000 pESO->GetIndependentVar(): 7.920000 ==>IsSwitchingOccur() prevPhis[ 0]=10.340436, nextPhis[ 0]=10.345123 prevPhis[ 1]=-4.340436, nextPhis[ 1]=-4.345123 <==IsSwitchingOccur() T = 7.920000 Tnext = 7.925000 Time: 7.92000e+00 states: [ 1.56714e+00 6.43711e-01] derivs: [ 6.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.925000 pESO->GetIndependentVar(): 7.925000 ==>IsSwitchingOccur() prevPhis[ 0]=10.345123, nextPhis[ 0]=10.349735 prevPhis[ 1]=-4.345123, nextPhis[ 1]=-4.349735 <==IsSwitchingOccur() T = 7.925000 Tnext = 7.930000 Time: 7.92500e+00 states: [ 1.57034e+00 6.38711e-01] derivs: [ 6.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.930000 pESO->GetIndependentVar(): 7.930000 ==>IsSwitchingOccur() prevPhis[ 0]=10.349735, nextPhis[ 0]=10.354272 prevPhis[ 1]=-4.349735, nextPhis[ 1]=-4.354272 <==IsSwitchingOccur() T = 7.930000 Tnext = 7.935000 Time: 7.93000e+00 states: [ 1.57352e+00 6.33711e-01] derivs: [ 6.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.935000 pESO->GetIndependentVar(): 7.935000 ==>IsSwitchingOccur() prevPhis[ 0]=10.354272, nextPhis[ 0]=10.358734 prevPhis[ 1]=-4.354272, nextPhis[ 1]=-4.358734 <==IsSwitchingOccur() T = 7.935000 Tnext = 7.940000 Time: 7.93500e+00 states: [ 1.57667e+00 6.28711e-01] derivs: [ 6.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.940000 pESO->GetIndependentVar(): 7.940000 ==>IsSwitchingOccur() prevPhis[ 0]=10.358734, nextPhis[ 0]=10.363121 prevPhis[ 1]=-4.358734, nextPhis[ 1]=-4.363121 <==IsSwitchingOccur() T = 7.940000 Tnext = 7.945000 Time: 7.94000e+00 states: [ 1.57980e+00 6.23711e-01] derivs: [ 6.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.945000 pESO->GetIndependentVar(): 7.945000 ==>IsSwitchingOccur() prevPhis[ 0]=10.363121, nextPhis[ 0]=10.367433 prevPhis[ 1]=-4.363121, nextPhis[ 1]=-4.367433 <==IsSwitchingOccur() T = 7.945000 Tnext = 7.950000 Time: 7.94500e+00 states: [ 1.58291e+00 6.18711e-01] derivs: [ 6.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.950000 pESO->GetIndependentVar(): 7.950000 ==>IsSwitchingOccur() prevPhis[ 0]=10.367433, nextPhis[ 0]=10.371670 prevPhis[ 1]=-4.367433, nextPhis[ 1]=-4.371670 <==IsSwitchingOccur() T = 7.950000 Tnext = 7.955000 Time: 7.95000e+00 states: [ 1.58599e+00 6.13711e-01] derivs: [ 6.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.955000 pESO->GetIndependentVar(): 7.955000 ==>IsSwitchingOccur() prevPhis[ 0]=10.371670, nextPhis[ 0]=10.375832 prevPhis[ 1]=-4.371670, nextPhis[ 1]=-4.375832 <==IsSwitchingOccur() T = 7.955000 Tnext = 7.960000 Time: 7.95500e+00 states: [ 1.58904e+00 6.08711e-01] derivs: [ 6.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.960000 pESO->GetIndependentVar(): 7.960000 ==>IsSwitchingOccur() prevPhis[ 0]=10.375832, nextPhis[ 0]=10.379918 prevPhis[ 1]=-4.375832, nextPhis[ 1]=-4.379918 <==IsSwitchingOccur() T = 7.960000 Tnext = 7.965000 Time: 7.96000e+00 states: [ 1.59207e+00 6.03711e-01] derivs: [ 6.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.965000 pESO->GetIndependentVar(): 7.965000 ==>IsSwitchingOccur() prevPhis[ 0]=10.379918, nextPhis[ 0]=10.383930 prevPhis[ 1]=-4.379918, nextPhis[ 1]=-4.383930 <==IsSwitchingOccur() T = 7.965000 Tnext = 7.970000 Time: 7.96500e+00 states: [ 1.59507e+00 5.98711e-01] derivs: [ 5.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.970000 pESO->GetIndependentVar(): 7.970000 ==>IsSwitchingOccur() prevPhis[ 0]=10.383930, nextPhis[ 0]=10.387867 prevPhis[ 1]=-4.383930, nextPhis[ 1]=-4.387867 <==IsSwitchingOccur() T = 7.970000 Tnext = 7.975000 Time: 7.97000e+00 states: [ 1.59805e+00 5.93711e-01] derivs: [ 5.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.975000 pESO->GetIndependentVar(): 7.975000 ==>IsSwitchingOccur() prevPhis[ 0]=10.387867, nextPhis[ 0]=10.391729 prevPhis[ 1]=-4.387867, nextPhis[ 1]=-4.391729 <==IsSwitchingOccur() T = 7.975000 Tnext = 7.980000 Time: 7.97500e+00 states: [ 1.60101e+00 5.88711e-01] derivs: [ 5.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.980000 pESO->GetIndependentVar(): 7.980000 ==>IsSwitchingOccur() prevPhis[ 0]=10.391729, nextPhis[ 0]=10.395516 prevPhis[ 1]=-4.391729, nextPhis[ 1]=-4.395516 <==IsSwitchingOccur() T = 7.980000 Tnext = 7.985000 Time: 7.98000e+00 states: [ 1.60394e+00 5.83711e-01] derivs: [ 5.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.985000 pESO->GetIndependentVar(): 7.985000 ==>IsSwitchingOccur() prevPhis[ 0]=10.395516, nextPhis[ 0]=10.399228 prevPhis[ 1]=-4.395516, nextPhis[ 1]=-4.399228 <==IsSwitchingOccur() T = 7.985000 Tnext = 7.990000 Time: 7.98500e+00 states: [ 1.60684e+00 5.78711e-01] derivs: [ 5.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.990000 pESO->GetIndependentVar(): 7.990000 ==>IsSwitchingOccur() prevPhis[ 0]=10.399228, nextPhis[ 0]=10.402865 prevPhis[ 1]=-4.399228, nextPhis[ 1]=-4.402865 <==IsSwitchingOccur() T = 7.990000 Tnext = 7.995000 Time: 7.99000e+00 states: [ 1.60972e+00 5.73711e-01] derivs: [ 5.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 7.995000 pESO->GetIndependentVar(): 7.995000 ==>IsSwitchingOccur() prevPhis[ 0]=10.402865, nextPhis[ 0]=10.406427 prevPhis[ 1]=-4.402865, nextPhis[ 1]=-4.406427 <==IsSwitchingOccur() T = 7.995000 Tnext = 8.000000 Time: 7.99500e+00 states: [ 1.61257e+00 5.68711e-01] derivs: [ 5.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.000000 pESO->GetIndependentVar(): 8.000000 ==>IsSwitchingOccur() prevPhis[ 0]=10.406427, nextPhis[ 0]=10.409914 prevPhis[ 1]=-4.406427, nextPhis[ 1]=-4.409914 <==IsSwitchingOccur() T = 8.000000 Tnext = 8.005000 Time: 8.00000e+00 states: [ 1.61540e+00 5.63711e-01] derivs: [ 5.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.005000 pESO->GetIndependentVar(): 8.005000 ==>IsSwitchingOccur() prevPhis[ 0]=10.409914, nextPhis[ 0]=10.413325 prevPhis[ 1]=-4.409914, nextPhis[ 1]=-4.413325 <==IsSwitchingOccur() T = 8.005000 Tnext = 8.010000 Time: 8.00500e+00 states: [ 1.61820e+00 5.58711e-01] derivs: [ 5.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.010000 pESO->GetIndependentVar(): 8.010000 ==>IsSwitchingOccur() prevPhis[ 0]=10.413325, nextPhis[ 0]=10.416662 prevPhis[ 1]=-4.413325, nextPhis[ 1]=-4.416662 <==IsSwitchingOccur() T = 8.010000 Tnext = 8.015000 Time: 8.01000e+00 states: [ 1.62098e+00 5.53711e-01] derivs: [ 5.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.015000 pESO->GetIndependentVar(): 8.015000 ==>IsSwitchingOccur() prevPhis[ 0]=10.416662, nextPhis[ 0]=10.419924 prevPhis[ 1]=-4.416662, nextPhis[ 1]=-4.419924 <==IsSwitchingOccur() T = 8.015000 Tnext = 8.020000 Time: 8.01500e+00 states: [ 1.62374e+00 5.48711e-01] derivs: [ 5.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.020000 pESO->GetIndependentVar(): 8.020000 ==>IsSwitchingOccur() prevPhis[ 0]=10.419924, nextPhis[ 0]=10.423111 prevPhis[ 1]=-4.419924, nextPhis[ 1]=-4.423111 <==IsSwitchingOccur() T = 8.020000 Tnext = 8.025000 Time: 8.02000e+00 states: [ 1.62647e+00 5.43711e-01] derivs: [ 5.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.025000 pESO->GetIndependentVar(): 8.025000 ==>IsSwitchingOccur() prevPhis[ 0]=10.423111, nextPhis[ 0]=10.426223 prevPhis[ 1]=-4.423111, nextPhis[ 1]=-4.426223 <==IsSwitchingOccur() T = 8.025000 Tnext = 8.030000 Time: 8.02500e+00 states: [ 1.62917e+00 5.38711e-01] derivs: [ 5.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.030000 pESO->GetIndependentVar(): 8.030000 ==>IsSwitchingOccur() prevPhis[ 0]=10.426223, nextPhis[ 0]=10.429260 prevPhis[ 1]=-4.426223, nextPhis[ 1]=-4.429260 <==IsSwitchingOccur() T = 8.030000 Tnext = 8.035000 Time: 8.03000e+00 states: [ 1.63185e+00 5.33711e-01] derivs: [ 5.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.035000 pESO->GetIndependentVar(): 8.035000 ==>IsSwitchingOccur() prevPhis[ 0]=10.429260, nextPhis[ 0]=10.432222 prevPhis[ 1]=-4.429260, nextPhis[ 1]=-4.432222 <==IsSwitchingOccur() T = 8.035000 Tnext = 8.040000 Time: 8.03500e+00 states: [ 1.63450e+00 5.28711e-01] derivs: [ 5.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.040000 pESO->GetIndependentVar(): 8.040000 ==>IsSwitchingOccur() prevPhis[ 0]=10.432222, nextPhis[ 0]=10.435109 prevPhis[ 1]=-4.432222, nextPhis[ 1]=-4.435109 <==IsSwitchingOccur() T = 8.040000 Tnext = 8.045000 Time: 8.04000e+00 states: [ 1.63713e+00 5.23711e-01] derivs: [ 5.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.045000 pESO->GetIndependentVar(): 8.045000 ==>IsSwitchingOccur() prevPhis[ 0]=10.435109, nextPhis[ 0]=10.437920 prevPhis[ 1]=-4.435109, nextPhis[ 1]=-4.437920 <==IsSwitchingOccur() T = 8.045000 Tnext = 8.050000 Time: 8.04500e+00 states: [ 1.63974e+00 5.18711e-01] derivs: [ 5.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.050000 pESO->GetIndependentVar(): 8.050000 ==>IsSwitchingOccur() prevPhis[ 0]=10.437920, nextPhis[ 0]=10.440657 prevPhis[ 1]=-4.437920, nextPhis[ 1]=-4.440657 <==IsSwitchingOccur() T = 8.050000 Tnext = 8.055000 Time: 8.05000e+00 states: [ 1.64232e+00 5.13711e-01] derivs: [ 5.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.055000 pESO->GetIndependentVar(): 8.055000 ==>IsSwitchingOccur() prevPhis[ 0]=10.440657, nextPhis[ 0]=10.443319 prevPhis[ 1]=-4.440657, nextPhis[ 1]=-4.443319 <==IsSwitchingOccur() T = 8.055000 Tnext = 8.060000 Time: 8.05500e+00 states: [ 1.64487e+00 5.08711e-01] derivs: [ 5.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.060000 pESO->GetIndependentVar(): 8.060000 ==>IsSwitchingOccur() prevPhis[ 0]=10.443319, nextPhis[ 0]=10.445906 prevPhis[ 1]=-4.443319, nextPhis[ 1]=-4.445906 <==IsSwitchingOccur() T = 8.060000 Tnext = 8.065000 Time: 8.06000e+00 states: [ 1.64740e+00 5.03711e-01] derivs: [ 5.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.065000 pESO->GetIndependentVar(): 8.065000 ==>IsSwitchingOccur() prevPhis[ 0]=10.445906, nextPhis[ 0]=10.448418 prevPhis[ 1]=-4.445906, nextPhis[ 1]=-4.448418 <==IsSwitchingOccur() T = 8.065000 Tnext = 8.070000 Time: 8.06500e+00 states: [ 1.64990e+00 4.98711e-01] derivs: [ 4.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.070000 pESO->GetIndependentVar(): 8.070000 ==>IsSwitchingOccur() prevPhis[ 0]=10.448418, nextPhis[ 0]=10.450855 prevPhis[ 1]=-4.448418, nextPhis[ 1]=-4.450855 <==IsSwitchingOccur() T = 8.070000 Tnext = 8.075000 Time: 8.07000e+00 states: [ 1.65238e+00 4.93711e-01] derivs: [ 4.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.075000 pESO->GetIndependentVar(): 8.075000 ==>IsSwitchingOccur() prevPhis[ 0]=10.450855, nextPhis[ 0]=10.453217 prevPhis[ 1]=-4.450855, nextPhis[ 1]=-4.453217 <==IsSwitchingOccur() T = 8.075000 Tnext = 8.080000 Time: 8.07500e+00 states: [ 1.65484e+00 4.88711e-01] derivs: [ 4.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.080000 pESO->GetIndependentVar(): 8.080000 ==>IsSwitchingOccur() prevPhis[ 0]=10.453217, nextPhis[ 0]=10.455504 prevPhis[ 1]=-4.453217, nextPhis[ 1]=-4.455504 <==IsSwitchingOccur() T = 8.080000 Tnext = 8.085000 Time: 8.08000e+00 states: [ 1.65726e+00 4.83711e-01] derivs: [ 4.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.085000 pESO->GetIndependentVar(): 8.085000 ==>IsSwitchingOccur() prevPhis[ 0]=10.455504, nextPhis[ 0]=10.457716 prevPhis[ 1]=-4.455504, nextPhis[ 1]=-4.457716 <==IsSwitchingOccur() T = 8.085000 Tnext = 8.090000 Time: 8.08500e+00 states: [ 1.65967e+00 4.78711e-01] derivs: [ 4.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.090000 pESO->GetIndependentVar(): 8.090000 ==>IsSwitchingOccur() prevPhis[ 0]=10.457716, nextPhis[ 0]=10.459852 prevPhis[ 1]=-4.457716, nextPhis[ 1]=-4.459852 <==IsSwitchingOccur() T = 8.090000 Tnext = 8.095000 Time: 8.09000e+00 states: [ 1.66205e+00 4.73711e-01] derivs: [ 4.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.095000 pESO->GetIndependentVar(): 8.095000 ==>IsSwitchingOccur() prevPhis[ 0]=10.459852, nextPhis[ 0]=10.461914 prevPhis[ 1]=-4.459852, nextPhis[ 1]=-4.461914 <==IsSwitchingOccur() T = 8.095000 Tnext = 8.100000 Time: 8.09500e+00 states: [ 1.66440e+00 4.68711e-01] derivs: [ 4.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.100000 pESO->GetIndependentVar(): 8.100000 ==>IsSwitchingOccur() prevPhis[ 0]=10.461914, nextPhis[ 0]=10.463901 prevPhis[ 1]=-4.461914, nextPhis[ 1]=-4.463901 <==IsSwitchingOccur() T = 8.100000 Tnext = 8.105000 Time: 8.10000e+00 states: [ 1.66673e+00 4.63711e-01] derivs: [ 4.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.105000 pESO->GetIndependentVar(): 8.105000 ==>IsSwitchingOccur() prevPhis[ 0]=10.463901, nextPhis[ 0]=10.465813 prevPhis[ 1]=-4.463901, nextPhis[ 1]=-4.465813 <==IsSwitchingOccur() T = 8.105000 Tnext = 8.110000 Time: 8.10500e+00 states: [ 1.66903e+00 4.58711e-01] derivs: [ 4.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.110000 pESO->GetIndependentVar(): 8.110000 ==>IsSwitchingOccur() prevPhis[ 0]=10.465813, nextPhis[ 0]=10.467650 prevPhis[ 1]=-4.465813, nextPhis[ 1]=-4.467650 <==IsSwitchingOccur() T = 8.110000 Tnext = 8.115000 Time: 8.11000e+00 states: [ 1.67131e+00 4.53711e-01] derivs: [ 4.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.115000 pESO->GetIndependentVar(): 8.115000 ==>IsSwitchingOccur() prevPhis[ 0]=10.467650, nextPhis[ 0]=10.469412 prevPhis[ 1]=-4.467650, nextPhis[ 1]=-4.469412 <==IsSwitchingOccur() T = 8.115000 Tnext = 8.120000 Time: 8.11500e+00 states: [ 1.67357e+00 4.48711e-01] derivs: [ 4.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.120000 pESO->GetIndependentVar(): 8.120000 ==>IsSwitchingOccur() prevPhis[ 0]=10.469412, nextPhis[ 0]=10.471099 prevPhis[ 1]=-4.469412, nextPhis[ 1]=-4.471099 <==IsSwitchingOccur() T = 8.120000 Tnext = 8.125000 Time: 8.12000e+00 states: [ 1.67580e+00 4.43711e-01] derivs: [ 4.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.125000 pESO->GetIndependentVar(): 8.125000 ==>IsSwitchingOccur() prevPhis[ 0]=10.471099, nextPhis[ 0]=10.472711 prevPhis[ 1]=-4.471099, nextPhis[ 1]=-4.472711 <==IsSwitchingOccur() T = 8.125000 Tnext = 8.130000 Time: 8.12500e+00 states: [ 1.67800e+00 4.38711e-01] derivs: [ 4.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.130000 pESO->GetIndependentVar(): 8.130000 ==>IsSwitchingOccur() prevPhis[ 0]=10.472711, nextPhis[ 0]=10.474248 prevPhis[ 1]=-4.472711, nextPhis[ 1]=-4.474248 <==IsSwitchingOccur() T = 8.130000 Tnext = 8.135000 Time: 8.13000e+00 states: [ 1.68018e+00 4.33711e-01] derivs: [ 4.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.135000 pESO->GetIndependentVar(): 8.135000 ==>IsSwitchingOccur() prevPhis[ 0]=10.474248, nextPhis[ 0]=10.475709 prevPhis[ 1]=-4.474248, nextPhis[ 1]=-4.475709 <==IsSwitchingOccur() T = 8.135000 Tnext = 8.140000 Time: 8.13500e+00 states: [ 1.68233e+00 4.28711e-01] derivs: [ 4.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.140000 pESO->GetIndependentVar(): 8.140000 ==>IsSwitchingOccur() prevPhis[ 0]=10.475709, nextPhis[ 0]=10.477096 prevPhis[ 1]=-4.475709, nextPhis[ 1]=-4.477096 <==IsSwitchingOccur() T = 8.140000 Tnext = 8.145000 Time: 8.14000e+00 states: [ 1.68446e+00 4.23711e-01] derivs: [ 4.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.145000 pESO->GetIndependentVar(): 8.145000 ==>IsSwitchingOccur() prevPhis[ 0]=10.477096, nextPhis[ 0]=10.478408 prevPhis[ 1]=-4.477096, nextPhis[ 1]=-4.478408 <==IsSwitchingOccur() T = 8.145000 Tnext = 8.150000 Time: 8.14500e+00 states: [ 1.68657e+00 4.18711e-01] derivs: [ 4.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.150000 pESO->GetIndependentVar(): 8.150000 ==>IsSwitchingOccur() prevPhis[ 0]=10.478408, nextPhis[ 0]=10.479645 prevPhis[ 1]=-4.478408, nextPhis[ 1]=-4.479645 <==IsSwitchingOccur() T = 8.150000 Tnext = 8.155000 Time: 8.15000e+00 states: [ 1.68864e+00 4.13711e-01] derivs: [ 4.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.155000 pESO->GetIndependentVar(): 8.155000 ==>IsSwitchingOccur() prevPhis[ 0]=10.479645, nextPhis[ 0]=10.480807 prevPhis[ 1]=-4.479645, nextPhis[ 1]=-4.480807 <==IsSwitchingOccur() T = 8.155000 Tnext = 8.160000 Time: 8.15500e+00 states: [ 1.69070e+00 4.08711e-01] derivs: [ 4.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.160000 pESO->GetIndependentVar(): 8.160000 ==>IsSwitchingOccur() prevPhis[ 0]=10.480807, nextPhis[ 0]=10.481894 prevPhis[ 1]=-4.480807, nextPhis[ 1]=-4.481894 <==IsSwitchingOccur() T = 8.160000 Tnext = 8.165000 Time: 8.16000e+00 states: [ 1.69273e+00 4.03711e-01] derivs: [ 4.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.165000 pESO->GetIndependentVar(): 8.165000 ==>IsSwitchingOccur() prevPhis[ 0]=10.481894, nextPhis[ 0]=10.482906 prevPhis[ 1]=-4.481894, nextPhis[ 1]=-4.482906 <==IsSwitchingOccur() T = 8.165000 Tnext = 8.170000 Time: 8.16500e+00 states: [ 1.69473e+00 3.98711e-01] derivs: [ 3.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.170000 pESO->GetIndependentVar(): 8.170000 ==>IsSwitchingOccur() prevPhis[ 0]=10.482906, nextPhis[ 0]=10.483843 prevPhis[ 1]=-4.482906, nextPhis[ 1]=-4.483843 <==IsSwitchingOccur() T = 8.170000 Tnext = 8.175000 Time: 8.17000e+00 states: [ 1.69671e+00 3.93711e-01] derivs: [ 3.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.175000 pESO->GetIndependentVar(): 8.175000 ==>IsSwitchingOccur() prevPhis[ 0]=10.483843, nextPhis[ 0]=10.484705 prevPhis[ 1]=-4.483843, nextPhis[ 1]=-4.484705 <==IsSwitchingOccur() T = 8.175000 Tnext = 8.180000 Time: 8.17500e+00 states: [ 1.69866e+00 3.88711e-01] derivs: [ 3.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.180000 pESO->GetIndependentVar(): 8.180000 ==>IsSwitchingOccur() prevPhis[ 0]=10.484705, nextPhis[ 0]=10.485491 prevPhis[ 1]=-4.484705, nextPhis[ 1]=-4.485491 <==IsSwitchingOccur() T = 8.180000 Tnext = 8.185000 Time: 8.18000e+00 states: [ 1.70059e+00 3.83711e-01] derivs: [ 3.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.185000 pESO->GetIndependentVar(): 8.185000 ==>IsSwitchingOccur() prevPhis[ 0]=10.485491, nextPhis[ 0]=10.486203 prevPhis[ 1]=-4.485491, nextPhis[ 1]=-4.486203 <==IsSwitchingOccur() T = 8.185000 Tnext = 8.190000 Time: 8.18500e+00 states: [ 1.70250e+00 3.78711e-01] derivs: [ 3.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.190000 pESO->GetIndependentVar(): 8.190000 ==>IsSwitchingOccur() prevPhis[ 0]=10.486203, nextPhis[ 0]=10.486840 prevPhis[ 1]=-4.486203, nextPhis[ 1]=-4.486840 <==IsSwitchingOccur() T = 8.190000 Tnext = 8.195000 Time: 8.19000e+00 states: [ 1.70438e+00 3.73711e-01] derivs: [ 3.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.195000 pESO->GetIndependentVar(): 8.195000 ==>IsSwitchingOccur() prevPhis[ 0]=10.486840, nextPhis[ 0]=10.487402 prevPhis[ 1]=-4.486840, nextPhis[ 1]=-4.487402 <==IsSwitchingOccur() T = 8.195000 Tnext = 8.200000 Time: 8.19500e+00 states: [ 1.70623e+00 3.68711e-01] derivs: [ 3.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.200000 pESO->GetIndependentVar(): 8.200000 ==>IsSwitchingOccur() prevPhis[ 0]=10.487402, nextPhis[ 0]=10.487889 prevPhis[ 1]=-4.487402, nextPhis[ 1]=-4.487889 <==IsSwitchingOccur() T = 8.200000 Tnext = 8.205000 Time: 8.20000e+00 states: [ 1.70806e+00 3.63711e-01] derivs: [ 3.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.205000 pESO->GetIndependentVar(): 8.205000 ==>IsSwitchingOccur() prevPhis[ 0]=10.487889, nextPhis[ 0]=10.488301 prevPhis[ 1]=-4.487889, nextPhis[ 1]=-4.488301 <==IsSwitchingOccur() T = 8.205000 Tnext = 8.210000 Time: 8.20500e+00 states: [ 1.70986e+00 3.58711e-01] derivs: [ 3.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.210000 pESO->GetIndependentVar(): 8.210000 ==>IsSwitchingOccur() prevPhis[ 0]=10.488301, nextPhis[ 0]=10.488638 prevPhis[ 1]=-4.488301, nextPhis[ 1]=-4.488638 <==IsSwitchingOccur() T = 8.210000 Tnext = 8.215000 Time: 8.21000e+00 states: [ 1.71164e+00 3.53711e-01] derivs: [ 3.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.215000 pESO->GetIndependentVar(): 8.215000 ==>IsSwitchingOccur() prevPhis[ 0]=10.488638, nextPhis[ 0]=10.488900 prevPhis[ 1]=-4.488638, nextPhis[ 1]=-4.488900 <==IsSwitchingOccur() T = 8.215000 Tnext = 8.220000 Time: 8.21500e+00 states: [ 1.71340e+00 3.48711e-01] derivs: [ 3.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.220000 pESO->GetIndependentVar(): 8.220000 ==>IsSwitchingOccur() prevPhis[ 0]=10.488900, nextPhis[ 0]=10.489087 prevPhis[ 1]=-4.488900, nextPhis[ 1]=-4.489087 <==IsSwitchingOccur() T = 8.220000 Tnext = 8.225000 Time: 8.22000e+00 states: [ 1.71513e+00 3.43711e-01] derivs: [ 3.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.225000 pESO->GetIndependentVar(): 8.225000 ==>IsSwitchingOccur() prevPhis[ 0]=10.489087, nextPhis[ 0]=10.489198 prevPhis[ 1]=-4.489087, nextPhis[ 1]=-4.489198 <==IsSwitchingOccur() T = 8.225000 Tnext = 8.230000 Time: 8.22500e+00 states: [ 1.71683e+00 3.38711e-01] derivs: [ 3.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.230000 pESO->GetIndependentVar(): 8.230000 ==>IsSwitchingOccur() prevPhis[ 0]=10.489198, nextPhis[ 0]=10.489235 prevPhis[ 1]=-4.489198, nextPhis[ 1]=-4.489235 <==IsSwitchingOccur() T = 8.230000 Tnext = 8.235000 Time: 8.23000e+00 states: [ 1.71851e+00 3.33711e-01] derivs: [ 3.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.235000 pESO->GetIndependentVar(): 8.235000 ==>IsSwitchingOccur() prevPhis[ 0]=10.489235, nextPhis[ 0]=10.489197 prevPhis[ 1]=-4.489235, nextPhis[ 1]=-4.489197 <==IsSwitchingOccur() T = 8.235000 Tnext = 8.240000 Time: 8.23500e+00 states: [ 1.72016e+00 3.28711e-01] derivs: [ 3.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.240000 pESO->GetIndependentVar(): 8.240000 ==>IsSwitchingOccur() prevPhis[ 0]=10.489197, nextPhis[ 0]=10.489084 prevPhis[ 1]=-4.489197, nextPhis[ 1]=-4.489084 <==IsSwitchingOccur() T = 8.240000 Tnext = 8.245000 Time: 8.24000e+00 states: [ 1.72179e+00 3.23711e-01] derivs: [ 3.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.245000 pESO->GetIndependentVar(): 8.245000 ==>IsSwitchingOccur() prevPhis[ 0]=10.489084, nextPhis[ 0]=10.488896 prevPhis[ 1]=-4.489084, nextPhis[ 1]=-4.488896 <==IsSwitchingOccur() T = 8.245000 Tnext = 8.250000 Time: 8.24500e+00 states: [ 1.72340e+00 3.18711e-01] derivs: [ 3.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.250000 pESO->GetIndependentVar(): 8.250000 ==>IsSwitchingOccur() prevPhis[ 0]=10.488896, nextPhis[ 0]=10.488633 prevPhis[ 1]=-4.488896, nextPhis[ 1]=-4.488633 <==IsSwitchingOccur() T = 8.250000 Tnext = 8.255000 Time: 8.25000e+00 states: [ 1.72497e+00 3.13711e-01] derivs: [ 3.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.255000 pESO->GetIndependentVar(): 8.255000 ==>IsSwitchingOccur() prevPhis[ 0]=10.488633, nextPhis[ 0]=10.488295 prevPhis[ 1]=-4.488633, nextPhis[ 1]=-4.488295 <==IsSwitchingOccur() T = 8.255000 Tnext = 8.260000 Time: 8.25500e+00 states: [ 1.72653e+00 3.08711e-01] derivs: [ 3.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.260000 pESO->GetIndependentVar(): 8.260000 ==>IsSwitchingOccur() prevPhis[ 0]=10.488295, nextPhis[ 0]=10.487882 prevPhis[ 1]=-4.488295, nextPhis[ 1]=-4.487882 <==IsSwitchingOccur() T = 8.260000 Tnext = 8.265000 Time: 8.26000e+00 states: [ 1.72806e+00 3.03711e-01] derivs: [ 3.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.265000 pESO->GetIndependentVar(): 8.265000 ==>IsSwitchingOccur() prevPhis[ 0]=10.487882, nextPhis[ 0]=10.487394 prevPhis[ 1]=-4.487882, nextPhis[ 1]=-4.487394 <==IsSwitchingOccur() T = 8.265000 Tnext = 8.270000 Time: 8.26500e+00 states: [ 1.72956e+00 2.98711e-01] derivs: [ 2.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.270000 pESO->GetIndependentVar(): 8.270000 ==>IsSwitchingOccur() prevPhis[ 0]=10.487394, nextPhis[ 0]=10.486830 prevPhis[ 1]=-4.487394, nextPhis[ 1]=-4.486830 <==IsSwitchingOccur() T = 8.270000 Tnext = 8.275000 Time: 8.27000e+00 states: [ 1.73104e+00 2.93711e-01] derivs: [ 2.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.275000 pESO->GetIndependentVar(): 8.275000 ==>IsSwitchingOccur() prevPhis[ 0]=10.486830, nextPhis[ 0]=10.486192 prevPhis[ 1]=-4.486830, nextPhis[ 1]=-4.486192 <==IsSwitchingOccur() T = 8.275000 Tnext = 8.280000 Time: 8.27500e+00 states: [ 1.73249e+00 2.88711e-01] derivs: [ 2.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.280000 pESO->GetIndependentVar(): 8.280000 ==>IsSwitchingOccur() prevPhis[ 0]=10.486192, nextPhis[ 0]=10.485479 prevPhis[ 1]=-4.486192, nextPhis[ 1]=-4.485479 <==IsSwitchingOccur() T = 8.280000 Tnext = 8.285000 Time: 8.28000e+00 states: [ 1.73392e+00 2.83711e-01] derivs: [ 2.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.285000 pESO->GetIndependentVar(): 8.285000 ==>IsSwitchingOccur() prevPhis[ 0]=10.485479, nextPhis[ 0]=10.484691 prevPhis[ 1]=-4.485479, nextPhis[ 1]=-4.484691 <==IsSwitchingOccur() T = 8.285000 Tnext = 8.290000 Time: 8.28500e+00 states: [ 1.73533e+00 2.78711e-01] derivs: [ 2.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.290000 pESO->GetIndependentVar(): 8.290000 ==>IsSwitchingOccur() prevPhis[ 0]=10.484691, nextPhis[ 0]=10.483828 prevPhis[ 1]=-4.484691, nextPhis[ 1]=-4.483828 <==IsSwitchingOccur() T = 8.290000 Tnext = 8.295000 Time: 8.29000e+00 states: [ 1.73671e+00 2.73711e-01] derivs: [ 2.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.295000 pESO->GetIndependentVar(): 8.295000 ==>IsSwitchingOccur() prevPhis[ 0]=10.483828, nextPhis[ 0]=10.482890 prevPhis[ 1]=-4.483828, nextPhis[ 1]=-4.482890 <==IsSwitchingOccur() T = 8.295000 Tnext = 8.300000 Time: 8.29500e+00 states: [ 1.73806e+00 2.68711e-01] derivs: [ 2.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.300000 pESO->GetIndependentVar(): 8.300000 ==>IsSwitchingOccur() prevPhis[ 0]=10.482890, nextPhis[ 0]=10.481877 prevPhis[ 1]=-4.482890, nextPhis[ 1]=-4.481877 <==IsSwitchingOccur() T = 8.300000 Tnext = 8.305000 Time: 8.30000e+00 states: [ 1.73939e+00 2.63711e-01] derivs: [ 2.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.305000 pESO->GetIndependentVar(): 8.305000 ==>IsSwitchingOccur() prevPhis[ 0]=10.481877, nextPhis[ 0]=10.480789 prevPhis[ 1]=-4.481877, nextPhis[ 1]=-4.480789 <==IsSwitchingOccur() T = 8.305000 Tnext = 8.310000 Time: 8.30500e+00 states: [ 1.74069e+00 2.58711e-01] derivs: [ 2.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.310000 pESO->GetIndependentVar(): 8.310000 ==>IsSwitchingOccur() prevPhis[ 0]=10.480789, nextPhis[ 0]=10.479626 prevPhis[ 1]=-4.480789, nextPhis[ 1]=-4.479626 <==IsSwitchingOccur() T = 8.310000 Tnext = 8.315000 Time: 8.31000e+00 states: [ 1.74197e+00 2.53711e-01] derivs: [ 2.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.315000 pESO->GetIndependentVar(): 8.315000 ==>IsSwitchingOccur() prevPhis[ 0]=10.479626, nextPhis[ 0]=10.478387 prevPhis[ 1]=-4.479626, nextPhis[ 1]=-4.478387 <==IsSwitchingOccur() T = 8.315000 Tnext = 8.320000 Time: 8.31500e+00 states: [ 1.74323e+00 2.48711e-01] derivs: [ 2.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.320000 pESO->GetIndependentVar(): 8.320000 ==>IsSwitchingOccur() prevPhis[ 0]=10.478387, nextPhis[ 0]=10.477074 prevPhis[ 1]=-4.478387, nextPhis[ 1]=-4.477074 <==IsSwitchingOccur() T = 8.320000 Tnext = 8.325000 Time: 8.32000e+00 states: [ 1.74445e+00 2.43711e-01] derivs: [ 2.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.325000 pESO->GetIndependentVar(): 8.325000 ==>IsSwitchingOccur() prevPhis[ 0]=10.477074, nextPhis[ 0]=10.475686 prevPhis[ 1]=-4.477074, nextPhis[ 1]=-4.475686 <==IsSwitchingOccur() T = 8.325000 Tnext = 8.330000 Time: 8.32500e+00 states: [ 1.74566e+00 2.38711e-01] derivs: [ 2.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.330000 pESO->GetIndependentVar(): 8.330000 ==>IsSwitchingOccur() prevPhis[ 0]=10.475686, nextPhis[ 0]=10.474223 prevPhis[ 1]=-4.475686, nextPhis[ 1]=-4.474223 <==IsSwitchingOccur() T = 8.330000 Tnext = 8.335000 Time: 8.33000e+00 states: [ 1.74684e+00 2.33711e-01] derivs: [ 2.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.335000 pESO->GetIndependentVar(): 8.335000 ==>IsSwitchingOccur() prevPhis[ 0]=10.474223, nextPhis[ 0]=10.472685 prevPhis[ 1]=-4.474223, nextPhis[ 1]=-4.472685 <==IsSwitchingOccur() T = 8.335000 Tnext = 8.340000 Time: 8.33500e+00 states: [ 1.74799e+00 2.28711e-01] derivs: [ 2.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.340000 pESO->GetIndependentVar(): 8.340000 ==>IsSwitchingOccur() prevPhis[ 0]=10.472685, nextPhis[ 0]=10.471072 prevPhis[ 1]=-4.472685, nextPhis[ 1]=-4.471072 <==IsSwitchingOccur() T = 8.340000 Tnext = 8.345000 Time: 8.34000e+00 states: [ 1.74912e+00 2.23711e-01] derivs: [ 2.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.345000 pESO->GetIndependentVar(): 8.345000 ==>IsSwitchingOccur() prevPhis[ 0]=10.471072, nextPhis[ 0]=10.469384 prevPhis[ 1]=-4.471072, nextPhis[ 1]=-4.469384 <==IsSwitchingOccur() T = 8.345000 Tnext = 8.350000 Time: 8.34500e+00 states: [ 1.75022e+00 2.18711e-01] derivs: [ 2.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.350000 pESO->GetIndependentVar(): 8.350000 ==>IsSwitchingOccur() prevPhis[ 0]=10.469384, nextPhis[ 0]=10.467621 prevPhis[ 1]=-4.469384, nextPhis[ 1]=-4.467621 <==IsSwitchingOccur() T = 8.350000 Tnext = 8.355000 Time: 8.35000e+00 states: [ 1.75130e+00 2.13711e-01] derivs: [ 2.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.355000 pESO->GetIndependentVar(): 8.355000 ==>IsSwitchingOccur() prevPhis[ 0]=10.467621, nextPhis[ 0]=10.465782 prevPhis[ 1]=-4.467621, nextPhis[ 1]=-4.465782 <==IsSwitchingOccur() T = 8.355000 Tnext = 8.360000 Time: 8.35500e+00 states: [ 1.75236e+00 2.08711e-01] derivs: [ 2.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.360000 pESO->GetIndependentVar(): 8.360000 ==>IsSwitchingOccur() prevPhis[ 0]=10.465782, nextPhis[ 0]=10.463869 prevPhis[ 1]=-4.465782, nextPhis[ 1]=-4.463869 <==IsSwitchingOccur() T = 8.360000 Tnext = 8.365000 Time: 8.36000e+00 states: [ 1.75339e+00 2.03711e-01] derivs: [ 2.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.365000 pESO->GetIndependentVar(): 8.365000 ==>IsSwitchingOccur() prevPhis[ 0]=10.463869, nextPhis[ 0]=10.461881 prevPhis[ 1]=-4.463869, nextPhis[ 1]=-4.461881 <==IsSwitchingOccur() T = 8.365000 Tnext = 8.370000 Time: 8.36500e+00 states: [ 1.75439e+00 1.98711e-01] derivs: [ 1.98476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.370000 pESO->GetIndependentVar(): 8.370000 ==>IsSwitchingOccur() prevPhis[ 0]=10.461881, nextPhis[ 0]=10.459818 prevPhis[ 1]=-4.461881, nextPhis[ 1]=-4.459818 <==IsSwitchingOccur() T = 8.370000 Tnext = 8.375000 Time: 8.37000e+00 states: [ 1.75537e+00 1.93711e-01] derivs: [ 1.93476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.375000 pESO->GetIndependentVar(): 8.375000 ==>IsSwitchingOccur() prevPhis[ 0]=10.459818, nextPhis[ 0]=10.457680 prevPhis[ 1]=-4.459818, nextPhis[ 1]=-4.457680 <==IsSwitchingOccur() T = 8.375000 Tnext = 8.380000 Time: 8.37500e+00 states: [ 1.75632e+00 1.88711e-01] derivs: [ 1.88476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.380000 pESO->GetIndependentVar(): 8.380000 ==>IsSwitchingOccur() prevPhis[ 0]=10.457680, nextPhis[ 0]=10.455467 prevPhis[ 1]=-4.457680, nextPhis[ 1]=-4.455467 <==IsSwitchingOccur() T = 8.380000 Tnext = 8.385000 Time: 8.38000e+00 states: [ 1.75725e+00 1.83711e-01] derivs: [ 1.83476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.385000 pESO->GetIndependentVar(): 8.385000 ==>IsSwitchingOccur() prevPhis[ 0]=10.455467, nextPhis[ 0]=10.453179 prevPhis[ 1]=-4.455467, nextPhis[ 1]=-4.453179 <==IsSwitchingOccur() T = 8.385000 Tnext = 8.390000 Time: 8.38500e+00 states: [ 1.75816e+00 1.78711e-01] derivs: [ 1.78476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.390000 pESO->GetIndependentVar(): 8.390000 ==>IsSwitchingOccur() prevPhis[ 0]=10.453179, nextPhis[ 0]=10.450816 prevPhis[ 1]=-4.453179, nextPhis[ 1]=-4.450816 <==IsSwitchingOccur() T = 8.390000 Tnext = 8.395000 Time: 8.39000e+00 states: [ 1.75903e+00 1.73711e-01] derivs: [ 1.73476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.395000 pESO->GetIndependentVar(): 8.395000 ==>IsSwitchingOccur() prevPhis[ 0]=10.450816, nextPhis[ 0]=10.448378 prevPhis[ 1]=-4.450816, nextPhis[ 1]=-4.448378 <==IsSwitchingOccur() T = 8.395000 Tnext = 8.400000 Time: 8.39500e+00 states: [ 1.75989e+00 1.68711e-01] derivs: [ 1.68476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.400000 pESO->GetIndependentVar(): 8.400000 ==>IsSwitchingOccur() prevPhis[ 0]=10.448378, nextPhis[ 0]=10.445864 prevPhis[ 1]=-4.448378, nextPhis[ 1]=-4.445864 <==IsSwitchingOccur() T = 8.400000 Tnext = 8.405000 Time: 8.40000e+00 states: [ 1.76072e+00 1.63711e-01] derivs: [ 1.63476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.405000 pESO->GetIndependentVar(): 8.405000 ==>IsSwitchingOccur() prevPhis[ 0]=10.445864, nextPhis[ 0]=10.443276 prevPhis[ 1]=-4.445864, nextPhis[ 1]=-4.443276 <==IsSwitchingOccur() T = 8.405000 Tnext = 8.410000 Time: 8.40500e+00 states: [ 1.76152e+00 1.58711e-01] derivs: [ 1.58476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.410000 pESO->GetIndependentVar(): 8.410000 ==>IsSwitchingOccur() prevPhis[ 0]=10.443276, nextPhis[ 0]=10.440613 prevPhis[ 1]=-4.443276, nextPhis[ 1]=-4.440613 <==IsSwitchingOccur() T = 8.410000 Tnext = 8.415000 Time: 8.41000e+00 states: [ 1.76230e+00 1.53711e-01] derivs: [ 1.53476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.415000 pESO->GetIndependentVar(): 8.415000 ==>IsSwitchingOccur() prevPhis[ 0]=10.440613, nextPhis[ 0]=10.437875 prevPhis[ 1]=-4.440613, nextPhis[ 1]=-4.437875 <==IsSwitchingOccur() T = 8.415000 Tnext = 8.420000 Time: 8.41500e+00 states: [ 1.76305e+00 1.48711e-01] derivs: [ 1.48476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.420000 pESO->GetIndependentVar(): 8.420000 ==>IsSwitchingOccur() prevPhis[ 0]=10.437875, nextPhis[ 0]=10.435062 prevPhis[ 1]=-4.437875, nextPhis[ 1]=-4.435062 <==IsSwitchingOccur() T = 8.420000 Tnext = 8.425000 Time: 8.42000e+00 states: [ 1.76378e+00 1.43711e-01] derivs: [ 1.43476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.425000 pESO->GetIndependentVar(): 8.425000 ==>IsSwitchingOccur() prevPhis[ 0]=10.435062, nextPhis[ 0]=10.432174 prevPhis[ 1]=-4.435062, nextPhis[ 1]=-4.432174 <==IsSwitchingOccur() T = 8.425000 Tnext = 8.430000 Time: 8.42500e+00 states: [ 1.76449e+00 1.38711e-01] derivs: [ 1.38476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.430000 pESO->GetIndependentVar(): 8.430000 ==>IsSwitchingOccur() prevPhis[ 0]=10.432174, nextPhis[ 0]=10.429211 prevPhis[ 1]=-4.432174, nextPhis[ 1]=-4.429211 <==IsSwitchingOccur() T = 8.430000 Tnext = 8.435000 Time: 8.43000e+00 states: [ 1.76517e+00 1.33711e-01] derivs: [ 1.33476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.435000 pESO->GetIndependentVar(): 8.435000 ==>IsSwitchingOccur() prevPhis[ 0]=10.429211, nextPhis[ 0]=10.426173 prevPhis[ 1]=-4.429211, nextPhis[ 1]=-4.426173 <==IsSwitchingOccur() T = 8.435000 Tnext = 8.440000 Time: 8.43500e+00 states: [ 1.76582e+00 1.28711e-01] derivs: [ 1.28476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.440000 pESO->GetIndependentVar(): 8.440000 ==>IsSwitchingOccur() prevPhis[ 0]=10.426173, nextPhis[ 0]=10.423060 prevPhis[ 1]=-4.426173, nextPhis[ 1]=-4.423060 <==IsSwitchingOccur() T = 8.440000 Tnext = 8.445000 Time: 8.44000e+00 states: [ 1.76645e+00 1.23711e-01] derivs: [ 1.23476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.445000 pESO->GetIndependentVar(): 8.445000 ==>IsSwitchingOccur() prevPhis[ 0]=10.423060, nextPhis[ 0]=10.419871 prevPhis[ 1]=-4.423060, nextPhis[ 1]=-4.419871 <==IsSwitchingOccur() T = 8.445000 Tnext = 8.450000 Time: 8.44500e+00 states: [ 1.76705e+00 1.18711e-01] derivs: [ 1.18476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.450000 pESO->GetIndependentVar(): 8.450000 ==>IsSwitchingOccur() prevPhis[ 0]=10.419871, nextPhis[ 0]=10.416608 prevPhis[ 1]=-4.419871, nextPhis[ 1]=-4.416608 <==IsSwitchingOccur() T = 8.450000 Tnext = 8.455000 Time: 8.45000e+00 states: [ 1.76763e+00 1.13711e-01] derivs: [ 1.13476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.455000 pESO->GetIndependentVar(): 8.455000 ==>IsSwitchingOccur() prevPhis[ 0]=10.416608, nextPhis[ 0]=10.413270 prevPhis[ 1]=-4.416608, nextPhis[ 1]=-4.413270 <==IsSwitchingOccur() T = 8.455000 Tnext = 8.460000 Time: 8.45500e+00 states: [ 1.76819e+00 1.08711e-01] derivs: [ 1.08476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.460000 pESO->GetIndependentVar(): 8.460000 ==>IsSwitchingOccur() prevPhis[ 0]=10.413270, nextPhis[ 0]=10.409857 prevPhis[ 1]=-4.413270, nextPhis[ 1]=-4.409857 <==IsSwitchingOccur() T = 8.460000 Tnext = 8.465000 Time: 8.46000e+00 states: [ 1.76872e+00 1.03711e-01] derivs: [ 1.03476e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.465000 pESO->GetIndependentVar(): 8.465000 ==>IsSwitchingOccur() prevPhis[ 0]=10.409857, nextPhis[ 0]=10.406369 prevPhis[ 1]=-4.409857, nextPhis[ 1]=-4.406369 <==IsSwitchingOccur() T = 8.465000 Tnext = 8.470000 Time: 8.46500e+00 states: [ 1.76922e+00 9.87109e-02] derivs: [ 9.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.470000 pESO->GetIndependentVar(): 8.470000 ==>IsSwitchingOccur() prevPhis[ 0]=10.406369, nextPhis[ 0]=10.402806 prevPhis[ 1]=-4.406369, nextPhis[ 1]=-4.402806 <==IsSwitchingOccur() T = 8.470000 Tnext = 8.475000 Time: 8.47000e+00 states: [ 1.76970e+00 9.37109e-02] derivs: [ 9.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.475000 pESO->GetIndependentVar(): 8.475000 ==>IsSwitchingOccur() prevPhis[ 0]=10.402806, nextPhis[ 0]=10.399168 prevPhis[ 1]=-4.402806, nextPhis[ 1]=-4.399168 <==IsSwitchingOccur() T = 8.475000 Tnext = 8.480000 Time: 8.47500e+00 states: [ 1.77015e+00 8.87109e-02] derivs: [ 8.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.480000 pESO->GetIndependentVar(): 8.480000 ==>IsSwitchingOccur() prevPhis[ 0]=10.399168, nextPhis[ 0]=10.395455 prevPhis[ 1]=-4.399168, nextPhis[ 1]=-4.395455 <==IsSwitchingOccur() T = 8.480000 Tnext = 8.485000 Time: 8.48000e+00 states: [ 1.77058e+00 8.37109e-02] derivs: [ 8.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.485000 pESO->GetIndependentVar(): 8.485000 ==>IsSwitchingOccur() prevPhis[ 0]=10.395455, nextPhis[ 0]=10.391667 prevPhis[ 1]=-4.395455, nextPhis[ 1]=-4.391667 <==IsSwitchingOccur() T = 8.485000 Tnext = 8.490000 Time: 8.48500e+00 states: [ 1.77099e+00 7.87109e-02] derivs: [ 7.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.490000 pESO->GetIndependentVar(): 8.490000 ==>IsSwitchingOccur() prevPhis[ 0]=10.391667, nextPhis[ 0]=10.387803 prevPhis[ 1]=-4.391667, nextPhis[ 1]=-4.387803 <==IsSwitchingOccur() T = 8.490000 Tnext = 8.495000 Time: 8.49000e+00 states: [ 1.77136e+00 7.37109e-02] derivs: [ 7.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.495000 pESO->GetIndependentVar(): 8.495000 ==>IsSwitchingOccur() prevPhis[ 0]=10.387803, nextPhis[ 0]=10.383865 prevPhis[ 1]=-4.387803, nextPhis[ 1]=-4.383865 <==IsSwitchingOccur() T = 8.495000 Tnext = 8.500000 Time: 8.49500e+00 states: [ 1.77172e+00 6.87109e-02] derivs: [ 6.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.500000 pESO->GetIndependentVar(): 8.500000 ==>IsSwitchingOccur() prevPhis[ 0]=10.383865, nextPhis[ 0]=10.379852 prevPhis[ 1]=-4.383865, nextPhis[ 1]=-4.379852 <==IsSwitchingOccur() T = 8.500000 Tnext = 8.505000 Time: 8.50000e+00 states: [ 1.77205e+00 6.37109e-02] derivs: [ 6.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.505000 pESO->GetIndependentVar(): 8.505000 ==>IsSwitchingOccur() prevPhis[ 0]=10.379852, nextPhis[ 0]=10.375764 prevPhis[ 1]=-4.379852, nextPhis[ 1]=-4.375764 <==IsSwitchingOccur() T = 8.505000 Tnext = 8.510000 Time: 8.50500e+00 states: [ 1.77235e+00 5.87109e-02] derivs: [ 5.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.510000 pESO->GetIndependentVar(): 8.510000 ==>IsSwitchingOccur() prevPhis[ 0]=10.375764, nextPhis[ 0]=10.371601 prevPhis[ 1]=-4.375764, nextPhis[ 1]=-4.371601 <==IsSwitchingOccur() T = 8.510000 Tnext = 8.515000 Time: 8.51000e+00 states: [ 1.77263e+00 5.37109e-02] derivs: [ 5.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.515000 pESO->GetIndependentVar(): 8.515000 ==>IsSwitchingOccur() prevPhis[ 0]=10.371601, nextPhis[ 0]=10.367363 prevPhis[ 1]=-4.371601, nextPhis[ 1]=-4.367363 <==IsSwitchingOccur() T = 8.515000 Tnext = 8.520000 Time: 8.51500e+00 states: [ 1.77288e+00 4.87109e-02] derivs: [ 4.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.520000 pESO->GetIndependentVar(): 8.520000 ==>IsSwitchingOccur() prevPhis[ 0]=10.367363, nextPhis[ 0]=10.363050 prevPhis[ 1]=-4.367363, nextPhis[ 1]=-4.363050 <==IsSwitchingOccur() T = 8.520000 Tnext = 8.525000 Time: 8.52000e+00 states: [ 1.77311e+00 4.37109e-02] derivs: [ 4.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.525000 pESO->GetIndependentVar(): 8.525000 ==>IsSwitchingOccur() prevPhis[ 0]=10.363050, nextPhis[ 0]=10.358662 prevPhis[ 1]=-4.363050, nextPhis[ 1]=-4.358662 <==IsSwitchingOccur() T = 8.525000 Tnext = 8.530000 Time: 8.52500e+00 states: [ 1.77332e+00 3.87109e-02] derivs: [ 3.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.530000 pESO->GetIndependentVar(): 8.530000 ==>IsSwitchingOccur() prevPhis[ 0]=10.358662, nextPhis[ 0]=10.354199 prevPhis[ 1]=-4.358662, nextPhis[ 1]=-4.354199 <==IsSwitchingOccur() T = 8.530000 Tnext = 8.535000 Time: 8.53000e+00 states: [ 1.77350e+00 3.37109e-02] derivs: [ 3.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.535000 pESO->GetIndependentVar(): 8.535000 ==>IsSwitchingOccur() prevPhis[ 0]=10.354199, nextPhis[ 0]=10.349660 prevPhis[ 1]=-4.354199, nextPhis[ 1]=-4.349660 <==IsSwitchingOccur() T = 8.535000 Tnext = 8.540000 Time: 8.53500e+00 states: [ 1.77365e+00 2.87109e-02] derivs: [ 2.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.540000 pESO->GetIndependentVar(): 8.540000 ==>IsSwitchingOccur() prevPhis[ 0]=10.349660, nextPhis[ 0]=10.345047 prevPhis[ 1]=-4.349660, nextPhis[ 1]=-4.345047 <==IsSwitchingOccur() T = 8.540000 Tnext = 8.545000 Time: 8.54000e+00 states: [ 1.77378e+00 2.37109e-02] derivs: [ 2.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.545000 pESO->GetIndependentVar(): 8.545000 ==>IsSwitchingOccur() prevPhis[ 0]=10.345047, nextPhis[ 0]=10.340359 prevPhis[ 1]=-4.345047, nextPhis[ 1]=-4.340359 <==IsSwitchingOccur() T = 8.545000 Tnext = 8.550000 Time: 8.54500e+00 states: [ 1.77388e+00 1.87109e-02] derivs: [ 1.84762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.550000 pESO->GetIndependentVar(): 8.550000 ==>IsSwitchingOccur() prevPhis[ 0]=10.340359, nextPhis[ 0]=10.335596 prevPhis[ 1]=-4.340359, nextPhis[ 1]=-4.335596 <==IsSwitchingOccur() T = 8.550000 Tnext = 8.555000 Time: 8.55000e+00 states: [ 1.77396e+00 1.37109e-02] derivs: [ 1.34762e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.555000 pESO->GetIndependentVar(): 8.555000 ==>IsSwitchingOccur() prevPhis[ 0]=10.335596, nextPhis[ 0]=10.330758 prevPhis[ 1]=-4.335596, nextPhis[ 1]=-4.330758 <==IsSwitchingOccur() T = 8.555000 Tnext = 8.560000 Time: 8.55500e+00 states: [ 1.77402e+00 8.71093e-03] derivs: [ 8.47616e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.560000 pESO->GetIndependentVar(): 8.560000 ==>IsSwitchingOccur() prevPhis[ 0]=10.330758, nextPhis[ 0]=10.325845 prevPhis[ 1]=-4.330758, nextPhis[ 1]=-4.325845 <==IsSwitchingOccur() T = 8.560000 Tnext = 8.565000 Time: 8.56000e+00 states: [ 1.77404e+00 3.71093e-03] derivs: [ 3.47616e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.565000 pESO->GetIndependentVar(): 8.565000 ==>IsSwitchingOccur() prevPhis[ 0]=10.325845, nextPhis[ 0]=10.320857 prevPhis[ 1]=-4.325845, nextPhis[ 1]=-4.320857 <==IsSwitchingOccur() T = 8.565000 Tnext = 8.570000 Time: 8.56500e+00 states: [ 1.77405e+00 -1.28907e-03] derivs: [ -1.52384e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.570000 pESO->GetIndependentVar(): 8.570000 ==>IsSwitchingOccur() prevPhis[ 0]=10.320857, nextPhis[ 0]=10.315794 prevPhis[ 1]=-4.320857, nextPhis[ 1]=-4.315794 <==IsSwitchingOccur() T = 8.570000 Tnext = 8.575000 Time: 8.57000e+00 states: [ 1.77403e+00 -6.28907e-03] derivs: [ -6.52384e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.575000 pESO->GetIndependentVar(): 8.575000 ==>IsSwitchingOccur() prevPhis[ 0]=10.315794, nextPhis[ 0]=10.310656 prevPhis[ 1]=-4.315794, nextPhis[ 1]=-4.310656 <==IsSwitchingOccur() T = 8.575000 Tnext = 8.580000 Time: 8.57500e+00 states: [ 1.77398e+00 -1.12891e-02] derivs: [ -1.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.580000 pESO->GetIndependentVar(): 8.580000 ==>IsSwitchingOccur() prevPhis[ 0]=10.310656, nextPhis[ 0]=10.305442 prevPhis[ 1]=-4.310656, nextPhis[ 1]=-4.305442 <==IsSwitchingOccur() T = 8.580000 Tnext = 8.585000 Time: 8.58000e+00 states: [ 1.77391e+00 -1.62891e-02] derivs: [ -1.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.585000 pESO->GetIndependentVar(): 8.585000 ==>IsSwitchingOccur() prevPhis[ 0]=10.305442, nextPhis[ 0]=10.300154 prevPhis[ 1]=-4.305442, nextPhis[ 1]=-4.300154 <==IsSwitchingOccur() T = 8.585000 Tnext = 8.590000 Time: 8.58500e+00 states: [ 1.77381e+00 -2.12891e-02] derivs: [ -2.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.590000 pESO->GetIndependentVar(): 8.590000 ==>IsSwitchingOccur() prevPhis[ 0]=10.300154, nextPhis[ 0]=10.294791 prevPhis[ 1]=-4.300154, nextPhis[ 1]=-4.294791 <==IsSwitchingOccur() T = 8.590000 Tnext = 8.595000 Time: 8.59000e+00 states: [ 1.77369e+00 -2.62891e-02] derivs: [ -2.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.595000 pESO->GetIndependentVar(): 8.595000 ==>IsSwitchingOccur() prevPhis[ 0]=10.294791, nextPhis[ 0]=10.289353 prevPhis[ 1]=-4.294791, nextPhis[ 1]=-4.289353 <==IsSwitchingOccur() T = 8.595000 Tnext = 8.600000 Time: 8.59500e+00 states: [ 1.77355e+00 -3.12891e-02] derivs: [ -3.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.600000 pESO->GetIndependentVar(): 8.600000 ==>IsSwitchingOccur() prevPhis[ 0]=10.289353, nextPhis[ 0]=10.283840 prevPhis[ 1]=-4.289353, nextPhis[ 1]=-4.283840 <==IsSwitchingOccur() T = 8.600000 Tnext = 8.605000 Time: 8.60000e+00 states: [ 1.77338e+00 -3.62891e-02] derivs: [ -3.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.605000 pESO->GetIndependentVar(): 8.605000 ==>IsSwitchingOccur() prevPhis[ 0]=10.283840, nextPhis[ 0]=10.278252 prevPhis[ 1]=-4.283840, nextPhis[ 1]=-4.278252 <==IsSwitchingOccur() T = 8.605000 Tnext = 8.610000 Time: 8.60500e+00 states: [ 1.77318e+00 -4.12891e-02] derivs: [ -4.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.610000 pESO->GetIndependentVar(): 8.610000 ==>IsSwitchingOccur() prevPhis[ 0]=10.278252, nextPhis[ 0]=10.272589 prevPhis[ 1]=-4.278252, nextPhis[ 1]=-4.272589 <==IsSwitchingOccur() T = 8.610000 Tnext = 8.615000 Time: 8.61000e+00 states: [ 1.77296e+00 -4.62891e-02] derivs: [ -4.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.615000 pESO->GetIndependentVar(): 8.615000 ==>IsSwitchingOccur() prevPhis[ 0]=10.272589, nextPhis[ 0]=10.266851 prevPhis[ 1]=-4.272589, nextPhis[ 1]=-4.266851 <==IsSwitchingOccur() T = 8.615000 Tnext = 8.620000 Time: 8.61500e+00 states: [ 1.77271e+00 -5.12891e-02] derivs: [ -5.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.620000 pESO->GetIndependentVar(): 8.620000 ==>IsSwitchingOccur() prevPhis[ 0]=10.266851, nextPhis[ 0]=10.261038 prevPhis[ 1]=-4.266851, nextPhis[ 1]=-4.261038 <==IsSwitchingOccur() T = 8.620000 Tnext = 8.625000 Time: 8.62000e+00 states: [ 1.77244e+00 -5.62891e-02] derivs: [ -5.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.625000 pESO->GetIndependentVar(): 8.625000 ==>IsSwitchingOccur() prevPhis[ 0]=10.261038, nextPhis[ 0]=10.255149 prevPhis[ 1]=-4.261038, nextPhis[ 1]=-4.255149 <==IsSwitchingOccur() T = 8.625000 Tnext = 8.630000 Time: 8.62500e+00 states: [ 1.77215e+00 -6.12891e-02] derivs: [ -6.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.630000 pESO->GetIndependentVar(): 8.630000 ==>IsSwitchingOccur() prevPhis[ 0]=10.255149, nextPhis[ 0]=10.249186 prevPhis[ 1]=-4.255149, nextPhis[ 1]=-4.249186 <==IsSwitchingOccur() T = 8.630000 Tnext = 8.635000 Time: 8.63000e+00 states: [ 1.77183e+00 -6.62891e-02] derivs: [ -6.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.635000 pESO->GetIndependentVar(): 8.635000 ==>IsSwitchingOccur() prevPhis[ 0]=10.249186, nextPhis[ 0]=10.243148 prevPhis[ 1]=-4.249186, nextPhis[ 1]=-4.243148 <==IsSwitchingOccur() T = 8.635000 Tnext = 8.640000 Time: 8.63500e+00 states: [ 1.77148e+00 -7.12891e-02] derivs: [ -7.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.640000 pESO->GetIndependentVar(): 8.640000 ==>IsSwitchingOccur() prevPhis[ 0]=10.243148, nextPhis[ 0]=10.237035 prevPhis[ 1]=-4.243148, nextPhis[ 1]=-4.237035 <==IsSwitchingOccur() T = 8.640000 Tnext = 8.645000 Time: 8.64000e+00 states: [ 1.77111e+00 -7.62891e-02] derivs: [ -7.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.645000 pESO->GetIndependentVar(): 8.645000 ==>IsSwitchingOccur() prevPhis[ 0]=10.237035, nextPhis[ 0]=10.230847 prevPhis[ 1]=-4.237035, nextPhis[ 1]=-4.230847 <==IsSwitchingOccur() T = 8.645000 Tnext = 8.650000 Time: 8.64500e+00 states: [ 1.77071e+00 -8.12891e-02] derivs: [ -8.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.650000 pESO->GetIndependentVar(): 8.650000 ==>IsSwitchingOccur() prevPhis[ 0]=10.230847, nextPhis[ 0]=10.224584 prevPhis[ 1]=-4.230847, nextPhis[ 1]=-4.224584 <==IsSwitchingOccur() T = 8.650000 Tnext = 8.655000 Time: 8.65000e+00 states: [ 1.77029e+00 -8.62891e-02] derivs: [ -8.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.655000 pESO->GetIndependentVar(): 8.655000 ==>IsSwitchingOccur() prevPhis[ 0]=10.224584, nextPhis[ 0]=10.218246 prevPhis[ 1]=-4.224584, nextPhis[ 1]=-4.218246 <==IsSwitchingOccur() T = 8.655000 Tnext = 8.660000 Time: 8.65500e+00 states: [ 1.76984e+00 -9.12891e-02] derivs: [ -9.15238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.660000 pESO->GetIndependentVar(): 8.660000 ==>IsSwitchingOccur() prevPhis[ 0]=10.218246, nextPhis[ 0]=10.211833 prevPhis[ 1]=-4.218246, nextPhis[ 1]=-4.211833 <==IsSwitchingOccur() T = 8.660000 Tnext = 8.665000 Time: 8.66000e+00 states: [ 1.76937e+00 -9.62891e-02] derivs: [ -9.65238e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.665000 pESO->GetIndependentVar(): 8.665000 ==>IsSwitchingOccur() prevPhis[ 0]=10.211833, nextPhis[ 0]=10.205344 prevPhis[ 1]=-4.211833, nextPhis[ 1]=-4.205344 <==IsSwitchingOccur() T = 8.665000 Tnext = 8.670000 Time: 8.66500e+00 states: [ 1.76888e+00 -1.01289e-01] derivs: [ -1.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.670000 pESO->GetIndependentVar(): 8.670000 ==>IsSwitchingOccur() prevPhis[ 0]=10.205344, nextPhis[ 0]=10.198781 prevPhis[ 1]=-4.205344, nextPhis[ 1]=-4.198781 <==IsSwitchingOccur() T = 8.670000 Tnext = 8.675000 Time: 8.67000e+00 states: [ 1.76836e+00 -1.06289e-01] derivs: [ -1.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.675000 pESO->GetIndependentVar(): 8.675000 ==>IsSwitchingOccur() prevPhis[ 0]=10.198781, nextPhis[ 0]=10.192143 prevPhis[ 1]=-4.198781, nextPhis[ 1]=-4.192143 <==IsSwitchingOccur() T = 8.675000 Tnext = 8.680000 Time: 8.67500e+00 states: [ 1.76781e+00 -1.11289e-01] derivs: [ -1.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.680000 pESO->GetIndependentVar(): 8.680000 ==>IsSwitchingOccur() prevPhis[ 0]=10.192143, nextPhis[ 0]=10.185430 prevPhis[ 1]=-4.192143, nextPhis[ 1]=-4.185430 <==IsSwitchingOccur() T = 8.680000 Tnext = 8.685000 Time: 8.68000e+00 states: [ 1.76724e+00 -1.16289e-01] derivs: [ -1.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.685000 pESO->GetIndependentVar(): 8.685000 ==>IsSwitchingOccur() prevPhis[ 0]=10.185430, nextPhis[ 0]=10.178642 prevPhis[ 1]=-4.185430, nextPhis[ 1]=-4.178642 <==IsSwitchingOccur() T = 8.685000 Tnext = 8.690000 Time: 8.68500e+00 states: [ 1.76664e+00 -1.21289e-01] derivs: [ -1.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.690000 pESO->GetIndependentVar(): 8.690000 ==>IsSwitchingOccur() prevPhis[ 0]=10.178642, nextPhis[ 0]=10.171779 prevPhis[ 1]=-4.178642, nextPhis[ 1]=-4.171779 <==IsSwitchingOccur() T = 8.690000 Tnext = 8.695000 Time: 8.69000e+00 states: [ 1.76602e+00 -1.26289e-01] derivs: [ -1.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.695000 pESO->GetIndependentVar(): 8.695000 ==>IsSwitchingOccur() prevPhis[ 0]=10.171779, nextPhis[ 0]=10.164841 prevPhis[ 1]=-4.171779, nextPhis[ 1]=-4.164841 <==IsSwitchingOccur() T = 8.695000 Tnext = 8.700000 Time: 8.69500e+00 states: [ 1.76538e+00 -1.31289e-01] derivs: [ -1.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.700000 pESO->GetIndependentVar(): 8.700000 ==>IsSwitchingOccur() prevPhis[ 0]=10.164841, nextPhis[ 0]=10.157828 prevPhis[ 1]=-4.164841, nextPhis[ 1]=-4.157828 <==IsSwitchingOccur() T = 8.700000 Tnext = 8.705000 Time: 8.70000e+00 states: [ 1.76471e+00 -1.36289e-01] derivs: [ -1.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.705000 pESO->GetIndependentVar(): 8.705000 ==>IsSwitchingOccur() prevPhis[ 0]=10.157828, nextPhis[ 0]=10.150740 prevPhis[ 1]=-4.157828, nextPhis[ 1]=-4.150740 <==IsSwitchingOccur() T = 8.705000 Tnext = 8.710000 Time: 8.70500e+00 states: [ 1.76401e+00 -1.41289e-01] derivs: [ -1.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.710000 pESO->GetIndependentVar(): 8.710000 ==>IsSwitchingOccur() prevPhis[ 0]=10.150740, nextPhis[ 0]=10.143576 prevPhis[ 1]=-4.150740, nextPhis[ 1]=-4.143576 <==IsSwitchingOccur() T = 8.710000 Tnext = 8.715000 Time: 8.71000e+00 states: [ 1.76329e+00 -1.46289e-01] derivs: [ -1.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.715000 pESO->GetIndependentVar(): 8.715000 ==>IsSwitchingOccur() prevPhis[ 0]=10.143576, nextPhis[ 0]=10.136338 prevPhis[ 1]=-4.143576, nextPhis[ 1]=-4.136338 <==IsSwitchingOccur() T = 8.715000 Tnext = 8.720000 Time: 8.71500e+00 states: [ 1.76254e+00 -1.51289e-01] derivs: [ -1.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.720000 pESO->GetIndependentVar(): 8.720000 ==>IsSwitchingOccur() prevPhis[ 0]=10.136338, nextPhis[ 0]=10.129025 prevPhis[ 1]=-4.136338, nextPhis[ 1]=-4.129025 <==IsSwitchingOccur() T = 8.720000 Tnext = 8.725000 Time: 8.72000e+00 states: [ 1.76177e+00 -1.56289e-01] derivs: [ -1.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.725000 pESO->GetIndependentVar(): 8.725000 ==>IsSwitchingOccur() prevPhis[ 0]=10.129025, nextPhis[ 0]=10.121637 prevPhis[ 1]=-4.129025, nextPhis[ 1]=-4.121637 <==IsSwitchingOccur() T = 8.725000 Tnext = 8.730000 Time: 8.72500e+00 states: [ 1.76098e+00 -1.61289e-01] derivs: [ -1.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.730000 pESO->GetIndependentVar(): 8.730000 ==>IsSwitchingOccur() prevPhis[ 0]=10.121637, nextPhis[ 0]=10.114174 prevPhis[ 1]=-4.121637, nextPhis[ 1]=-4.114174 <==IsSwitchingOccur() T = 8.730000 Tnext = 8.735000 Time: 8.73000e+00 states: [ 1.76015e+00 -1.66289e-01] derivs: [ -1.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.735000 pESO->GetIndependentVar(): 8.735000 ==>IsSwitchingOccur() prevPhis[ 0]=10.114174, nextPhis[ 0]=10.106636 prevPhis[ 1]=-4.114174, nextPhis[ 1]=-4.106636 <==IsSwitchingOccur() T = 8.735000 Tnext = 8.740000 Time: 8.73500e+00 states: [ 1.75931e+00 -1.71289e-01] derivs: [ -1.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.740000 pESO->GetIndependentVar(): 8.740000 ==>IsSwitchingOccur() prevPhis[ 0]=10.106636, nextPhis[ 0]=10.099023 prevPhis[ 1]=-4.106636, nextPhis[ 1]=-4.099023 <==IsSwitchingOccur() T = 8.740000 Tnext = 8.745000 Time: 8.74000e+00 states: [ 1.75844e+00 -1.76289e-01] derivs: [ -1.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.745000 pESO->GetIndependentVar(): 8.745000 ==>IsSwitchingOccur() prevPhis[ 0]=10.099023, nextPhis[ 0]=10.091335 prevPhis[ 1]=-4.099023, nextPhis[ 1]=-4.091335 <==IsSwitchingOccur() T = 8.745000 Tnext = 8.750000 Time: 8.74500e+00 states: [ 1.75754e+00 -1.81289e-01] derivs: [ -1.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.750000 pESO->GetIndependentVar(): 8.750000 ==>IsSwitchingOccur() prevPhis[ 0]=10.091335, nextPhis[ 0]=10.083572 prevPhis[ 1]=-4.091335, nextPhis[ 1]=-4.083572 <==IsSwitchingOccur() T = 8.750000 Tnext = 8.755000 Time: 8.75000e+00 states: [ 1.75662e+00 -1.86289e-01] derivs: [ -1.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.755000 pESO->GetIndependentVar(): 8.755000 ==>IsSwitchingOccur() prevPhis[ 0]=10.083572, nextPhis[ 0]=10.075733 prevPhis[ 1]=-4.083572, nextPhis[ 1]=-4.075733 <==IsSwitchingOccur() T = 8.755000 Tnext = 8.760000 Time: 8.75500e+00 states: [ 1.75567e+00 -1.91289e-01] derivs: [ -1.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.760000 pESO->GetIndependentVar(): 8.760000 ==>IsSwitchingOccur() prevPhis[ 0]=10.075733, nextPhis[ 0]=10.067820 prevPhis[ 1]=-4.075733, nextPhis[ 1]=-4.067820 <==IsSwitchingOccur() T = 8.760000 Tnext = 8.765000 Time: 8.76000e+00 states: [ 1.75470e+00 -1.96289e-01] derivs: [ -1.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.765000 pESO->GetIndependentVar(): 8.765000 ==>IsSwitchingOccur() prevPhis[ 0]=10.067820, nextPhis[ 0]=10.059832 prevPhis[ 1]=-4.067820, nextPhis[ 1]=-4.059832 <==IsSwitchingOccur() T = 8.765000 Tnext = 8.770000 Time: 8.76500e+00 states: [ 1.75371e+00 -2.01289e-01] derivs: [ -2.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.770000 pESO->GetIndependentVar(): 8.770000 ==>IsSwitchingOccur() prevPhis[ 0]=10.059832, nextPhis[ 0]=10.051769 prevPhis[ 1]=-4.059832, nextPhis[ 1]=-4.051769 <==IsSwitchingOccur() T = 8.770000 Tnext = 8.775000 Time: 8.77000e+00 states: [ 1.75269e+00 -2.06289e-01] derivs: [ -2.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.775000 pESO->GetIndependentVar(): 8.775000 ==>IsSwitchingOccur() prevPhis[ 0]=10.051769, nextPhis[ 0]=10.043631 prevPhis[ 1]=-4.051769, nextPhis[ 1]=-4.043631 <==IsSwitchingOccur() T = 8.775000 Tnext = 8.780000 Time: 8.77500e+00 states: [ 1.75164e+00 -2.11289e-01] derivs: [ -2.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.780000 pESO->GetIndependentVar(): 8.780000 ==>IsSwitchingOccur() prevPhis[ 0]=10.043631, nextPhis[ 0]=10.035418 prevPhis[ 1]=-4.043631, nextPhis[ 1]=-4.035418 <==IsSwitchingOccur() T = 8.780000 Tnext = 8.785000 Time: 8.78000e+00 states: [ 1.75057e+00 -2.16289e-01] derivs: [ -2.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.785000 pESO->GetIndependentVar(): 8.785000 ==>IsSwitchingOccur() prevPhis[ 0]=10.035418, nextPhis[ 0]=10.027130 prevPhis[ 1]=-4.035418, nextPhis[ 1]=-4.027130 <==IsSwitchingOccur() T = 8.785000 Tnext = 8.790000 Time: 8.78500e+00 states: [ 1.74947e+00 -2.21289e-01] derivs: [ -2.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.790000 pESO->GetIndependentVar(): 8.790000 ==>IsSwitchingOccur() prevPhis[ 0]=10.027130, nextPhis[ 0]=10.018767 prevPhis[ 1]=-4.027130, nextPhis[ 1]=-4.018767 <==IsSwitchingOccur() T = 8.790000 Tnext = 8.795000 Time: 8.79000e+00 states: [ 1.74835e+00 -2.26289e-01] derivs: [ -2.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.795000 pESO->GetIndependentVar(): 8.795000 ==>IsSwitchingOccur() prevPhis[ 0]=10.018767, nextPhis[ 0]=10.010329 prevPhis[ 1]=-4.018767, nextPhis[ 1]=-4.010329 <==IsSwitchingOccur() T = 8.795000 Tnext = 8.800000 Time: 8.79500e+00 states: [ 1.74721e+00 -2.31289e-01] derivs: [ -2.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.800000 pESO->GetIndependentVar(): 8.800000 ==>IsSwitchingOccur() prevPhis[ 0]=10.010329, nextPhis[ 0]=10.001815 prevPhis[ 1]=-4.010329, nextPhis[ 1]=-4.001815 <==IsSwitchingOccur() T = 8.800000 Tnext = 8.805000 Time: 8.80000e+00 states: [ 1.74603e+00 -2.36289e-01] derivs: [ -2.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.805000 pESO->GetIndependentVar(): 8.805000 ==>IsSwitchingOccur() prevPhis[ 0]=10.001815, nextPhis[ 0]=9.993227 prevPhis[ 1]=-4.001815, nextPhis[ 1]=-3.993227 <==IsSwitchingOccur() T = 8.805000 Tnext = 8.810000 Time: 8.80500e+00 states: [ 1.74484e+00 -2.41289e-01] derivs: [ -2.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.810000 pESO->GetIndependentVar(): 8.810000 ==>IsSwitchingOccur() prevPhis[ 0]=9.993227, nextPhis[ 0]=9.984564 prevPhis[ 1]=-3.993227, nextPhis[ 1]=-3.984564 <==IsSwitchingOccur() T = 8.810000 Tnext = 8.815000 Time: 8.81000e+00 states: [ 1.74362e+00 -2.46289e-01] derivs: [ -2.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.815000 pESO->GetIndependentVar(): 8.815000 ==>IsSwitchingOccur() prevPhis[ 0]=9.984564, nextPhis[ 0]=9.975826 prevPhis[ 1]=-3.984564, nextPhis[ 1]=-3.975826 <==IsSwitchingOccur() T = 8.815000 Tnext = 8.820000 Time: 8.81500e+00 states: [ 1.74237e+00 -2.51289e-01] derivs: [ -2.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.820000 pESO->GetIndependentVar(): 8.820000 ==>IsSwitchingOccur() prevPhis[ 0]=9.975826, nextPhis[ 0]=9.967013 prevPhis[ 1]=-3.975826, nextPhis[ 1]=-3.967013 <==IsSwitchingOccur() T = 8.820000 Tnext = 8.825000 Time: 8.82000e+00 states: [ 1.74110e+00 -2.56289e-01] derivs: [ -2.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.825000 pESO->GetIndependentVar(): 8.825000 ==>IsSwitchingOccur() prevPhis[ 0]=9.967013, nextPhis[ 0]=9.958125 prevPhis[ 1]=-3.967013, nextPhis[ 1]=-3.958125 <==IsSwitchingOccur() T = 8.825000 Tnext = 8.830000 Time: 8.82500e+00 states: [ 1.73980e+00 -2.61289e-01] derivs: [ -2.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.830000 pESO->GetIndependentVar(): 8.830000 ==>IsSwitchingOccur() prevPhis[ 0]=9.958125, nextPhis[ 0]=9.949162 prevPhis[ 1]=-3.958125, nextPhis[ 1]=-3.949162 <==IsSwitchingOccur() T = 8.830000 Tnext = 8.835000 Time: 8.83000e+00 states: [ 1.73848e+00 -2.66289e-01] derivs: [ -2.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.835000 pESO->GetIndependentVar(): 8.835000 ==>IsSwitchingOccur() prevPhis[ 0]=9.949162, nextPhis[ 0]=9.940124 prevPhis[ 1]=-3.949162, nextPhis[ 1]=-3.940124 <==IsSwitchingOccur() T = 8.835000 Tnext = 8.840000 Time: 8.83500e+00 states: [ 1.73714e+00 -2.71289e-01] derivs: [ -2.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.840000 pESO->GetIndependentVar(): 8.840000 ==>IsSwitchingOccur() prevPhis[ 0]=9.940124, nextPhis[ 0]=9.931011 prevPhis[ 1]=-3.940124, nextPhis[ 1]=-3.931011 <==IsSwitchingOccur() T = 8.840000 Tnext = 8.845000 Time: 8.84000e+00 states: [ 1.73577e+00 -2.76289e-01] derivs: [ -2.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.845000 pESO->GetIndependentVar(): 8.845000 ==>IsSwitchingOccur() prevPhis[ 0]=9.931011, nextPhis[ 0]=9.921822 prevPhis[ 1]=-3.931011, nextPhis[ 1]=-3.921822 <==IsSwitchingOccur() T = 8.845000 Tnext = 8.850000 Time: 8.84500e+00 states: [ 1.73437e+00 -2.81289e-01] derivs: [ -2.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.850000 pESO->GetIndependentVar(): 8.850000 ==>IsSwitchingOccur() prevPhis[ 0]=9.921822, nextPhis[ 0]=9.912559 prevPhis[ 1]=-3.921822, nextPhis[ 1]=-3.912559 <==IsSwitchingOccur() T = 8.850000 Tnext = 8.855000 Time: 8.85000e+00 states: [ 1.73295e+00 -2.86289e-01] derivs: [ -2.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.855000 pESO->GetIndependentVar(): 8.855000 ==>IsSwitchingOccur() prevPhis[ 0]=9.912559, nextPhis[ 0]=9.903221 prevPhis[ 1]=-3.912559, nextPhis[ 1]=-3.903221 <==IsSwitchingOccur() T = 8.855000 Tnext = 8.860000 Time: 8.85500e+00 states: [ 1.73150e+00 -2.91289e-01] derivs: [ -2.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.860000 pESO->GetIndependentVar(): 8.860000 ==>IsSwitchingOccur() prevPhis[ 0]=9.903221, nextPhis[ 0]=9.893808 prevPhis[ 1]=-3.903221, nextPhis[ 1]=-3.893808 <==IsSwitchingOccur() T = 8.860000 Tnext = 8.865000 Time: 8.86000e+00 states: [ 1.73003e+00 -2.96289e-01] derivs: [ -2.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.865000 pESO->GetIndependentVar(): 8.865000 ==>IsSwitchingOccur() prevPhis[ 0]=9.893808, nextPhis[ 0]=9.884320 prevPhis[ 1]=-3.893808, nextPhis[ 1]=-3.884320 <==IsSwitchingOccur() T = 8.865000 Tnext = 8.870000 Time: 8.86500e+00 states: [ 1.72854e+00 -3.01289e-01] derivs: [ -3.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.870000 pESO->GetIndependentVar(): 8.870000 ==>IsSwitchingOccur() prevPhis[ 0]=9.884320, nextPhis[ 0]=9.874757 prevPhis[ 1]=-3.884320, nextPhis[ 1]=-3.874757 <==IsSwitchingOccur() T = 8.870000 Tnext = 8.875000 Time: 8.87000e+00 states: [ 1.72702e+00 -3.06289e-01] derivs: [ -3.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.875000 pESO->GetIndependentVar(): 8.875000 ==>IsSwitchingOccur() prevPhis[ 0]=9.874757, nextPhis[ 0]=9.865119 prevPhis[ 1]=-3.874757, nextPhis[ 1]=-3.865119 <==IsSwitchingOccur() T = 8.875000 Tnext = 8.880000 Time: 8.87500e+00 states: [ 1.72547e+00 -3.11289e-01] derivs: [ -3.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.880000 pESO->GetIndependentVar(): 8.880000 ==>IsSwitchingOccur() prevPhis[ 0]=9.865119, nextPhis[ 0]=9.855406 prevPhis[ 1]=-3.865119, nextPhis[ 1]=-3.855406 <==IsSwitchingOccur() T = 8.880000 Tnext = 8.885000 Time: 8.88000e+00 states: [ 1.72390e+00 -3.16289e-01] derivs: [ -3.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.885000 pESO->GetIndependentVar(): 8.885000 ==>IsSwitchingOccur() prevPhis[ 0]=9.855406, nextPhis[ 0]=9.845617 prevPhis[ 1]=-3.855406, nextPhis[ 1]=-3.845617 <==IsSwitchingOccur() T = 8.885000 Tnext = 8.890000 Time: 8.88500e+00 states: [ 1.72230e+00 -3.21289e-01] derivs: [ -3.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.890000 pESO->GetIndependentVar(): 8.890000 ==>IsSwitchingOccur() prevPhis[ 0]=9.845617, nextPhis[ 0]=9.835754 prevPhis[ 1]=-3.845617, nextPhis[ 1]=-3.835754 <==IsSwitchingOccur() T = 8.890000 Tnext = 8.895000 Time: 8.89000e+00 states: [ 1.72068e+00 -3.26289e-01] derivs: [ -3.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.895000 pESO->GetIndependentVar(): 8.895000 ==>IsSwitchingOccur() prevPhis[ 0]=9.835754, nextPhis[ 0]=9.825816 prevPhis[ 1]=-3.835754, nextPhis[ 1]=-3.825816 <==IsSwitchingOccur() T = 8.895000 Tnext = 8.900000 Time: 8.89500e+00 states: [ 1.71904e+00 -3.31289e-01] derivs: [ -3.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.900000 pESO->GetIndependentVar(): 8.900000 ==>IsSwitchingOccur() prevPhis[ 0]=9.825816, nextPhis[ 0]=9.815803 prevPhis[ 1]=-3.825816, nextPhis[ 1]=-3.815803 <==IsSwitchingOccur() T = 8.900000 Tnext = 8.905000 Time: 8.90000e+00 states: [ 1.71736e+00 -3.36289e-01] derivs: [ -3.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.905000 pESO->GetIndependentVar(): 8.905000 ==>IsSwitchingOccur() prevPhis[ 0]=9.815803, nextPhis[ 0]=9.805715 prevPhis[ 1]=-3.815803, nextPhis[ 1]=-3.805715 <==IsSwitchingOccur() T = 8.905000 Tnext = 8.910000 Time: 8.90500e+00 states: [ 1.71567e+00 -3.41289e-01] derivs: [ -3.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.910000 pESO->GetIndependentVar(): 8.910000 ==>IsSwitchingOccur() prevPhis[ 0]=9.805715, nextPhis[ 0]=9.795552 prevPhis[ 1]=-3.805715, nextPhis[ 1]=-3.795552 <==IsSwitchingOccur() T = 8.910000 Tnext = 8.915000 Time: 8.91000e+00 states: [ 1.71395e+00 -3.46289e-01] derivs: [ -3.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.915000 pESO->GetIndependentVar(): 8.915000 ==>IsSwitchingOccur() prevPhis[ 0]=9.795552, nextPhis[ 0]=9.785314 prevPhis[ 1]=-3.795552, nextPhis[ 1]=-3.785314 <==IsSwitchingOccur() T = 8.915000 Tnext = 8.920000 Time: 8.91500e+00 states: [ 1.71220e+00 -3.51289e-01] derivs: [ -3.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.920000 pESO->GetIndependentVar(): 8.920000 ==>IsSwitchingOccur() prevPhis[ 0]=9.785314, nextPhis[ 0]=9.775001 prevPhis[ 1]=-3.785314, nextPhis[ 1]=-3.775001 <==IsSwitchingOccur() T = 8.920000 Tnext = 8.925000 Time: 8.92000e+00 states: [ 1.71043e+00 -3.56289e-01] derivs: [ -3.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.925000 pESO->GetIndependentVar(): 8.925000 ==>IsSwitchingOccur() prevPhis[ 0]=9.775001, nextPhis[ 0]=9.764613 prevPhis[ 1]=-3.775001, nextPhis[ 1]=-3.764613 <==IsSwitchingOccur() T = 8.925000 Tnext = 8.930000 Time: 8.92500e+00 states: [ 1.70863e+00 -3.61289e-01] derivs: [ -3.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.930000 pESO->GetIndependentVar(): 8.930000 ==>IsSwitchingOccur() prevPhis[ 0]=9.764613, nextPhis[ 0]=9.754149 prevPhis[ 1]=-3.764613, nextPhis[ 1]=-3.754149 <==IsSwitchingOccur() T = 8.930000 Tnext = 8.935000 Time: 8.93000e+00 states: [ 1.70681e+00 -3.66289e-01] derivs: [ -3.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.935000 pESO->GetIndependentVar(): 8.935000 ==>IsSwitchingOccur() prevPhis[ 0]=9.754149, nextPhis[ 0]=9.743611 prevPhis[ 1]=-3.754149, nextPhis[ 1]=-3.743611 <==IsSwitchingOccur() T = 8.935000 Tnext = 8.940000 Time: 8.93500e+00 states: [ 1.70497e+00 -3.71289e-01] derivs: [ -3.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.940000 pESO->GetIndependentVar(): 8.940000 ==>IsSwitchingOccur() prevPhis[ 0]=9.743611, nextPhis[ 0]=9.732998 prevPhis[ 1]=-3.743611, nextPhis[ 1]=-3.732998 <==IsSwitchingOccur() T = 8.940000 Tnext = 8.945000 Time: 8.94000e+00 states: [ 1.70310e+00 -3.76289e-01] derivs: [ -3.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.945000 pESO->GetIndependentVar(): 8.945000 ==>IsSwitchingOccur() prevPhis[ 0]=9.732998, nextPhis[ 0]=9.722310 prevPhis[ 1]=-3.732998, nextPhis[ 1]=-3.722310 <==IsSwitchingOccur() T = 8.945000 Tnext = 8.950000 Time: 8.94500e+00 states: [ 1.70120e+00 -3.81289e-01] derivs: [ -3.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.950000 pESO->GetIndependentVar(): 8.950000 ==>IsSwitchingOccur() prevPhis[ 0]=9.722310, nextPhis[ 0]=9.711547 prevPhis[ 1]=-3.722310, nextPhis[ 1]=-3.711547 <==IsSwitchingOccur() T = 8.950000 Tnext = 8.955000 Time: 8.95000e+00 states: [ 1.69928e+00 -3.86289e-01] derivs: [ -3.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.955000 pESO->GetIndependentVar(): 8.955000 ==>IsSwitchingOccur() prevPhis[ 0]=9.711547, nextPhis[ 0]=9.700709 prevPhis[ 1]=-3.711547, nextPhis[ 1]=-3.700709 <==IsSwitchingOccur() T = 8.955000 Tnext = 8.960000 Time: 8.95500e+00 states: [ 1.69733e+00 -3.91289e-01] derivs: [ -3.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.960000 pESO->GetIndependentVar(): 8.960000 ==>IsSwitchingOccur() prevPhis[ 0]=9.700709, nextPhis[ 0]=9.689796 prevPhis[ 1]=-3.700709, nextPhis[ 1]=-3.689796 <==IsSwitchingOccur() T = 8.960000 Tnext = 8.965000 Time: 8.96000e+00 states: [ 1.69536e+00 -3.96289e-01] derivs: [ -3.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.965000 pESO->GetIndependentVar(): 8.965000 ==>IsSwitchingOccur() prevPhis[ 0]=9.689796, nextPhis[ 0]=9.678808 prevPhis[ 1]=-3.689796, nextPhis[ 1]=-3.678808 <==IsSwitchingOccur() T = 8.965000 Tnext = 8.970000 Time: 8.96500e+00 states: [ 1.69337e+00 -4.01289e-01] derivs: [ -4.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.970000 pESO->GetIndependentVar(): 8.970000 ==>IsSwitchingOccur() prevPhis[ 0]=9.678808, nextPhis[ 0]=9.667745 prevPhis[ 1]=-3.678808, nextPhis[ 1]=-3.667745 <==IsSwitchingOccur() T = 8.970000 Tnext = 8.975000 Time: 8.97000e+00 states: [ 1.69134e+00 -4.06289e-01] derivs: [ -4.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.975000 pESO->GetIndependentVar(): 8.975000 ==>IsSwitchingOccur() prevPhis[ 0]=9.667745, nextPhis[ 0]=9.656606 prevPhis[ 1]=-3.667745, nextPhis[ 1]=-3.656606 <==IsSwitchingOccur() T = 8.975000 Tnext = 8.980000 Time: 8.97500e+00 states: [ 1.68930e+00 -4.11289e-01] derivs: [ -4.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.980000 pESO->GetIndependentVar(): 8.980000 ==>IsSwitchingOccur() prevPhis[ 0]=9.656606, nextPhis[ 0]=9.645393 prevPhis[ 1]=-3.656606, nextPhis[ 1]=-3.645393 <==IsSwitchingOccur() T = 8.980000 Tnext = 8.985000 Time: 8.98000e+00 states: [ 1.68723e+00 -4.16289e-01] derivs: [ -4.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.985000 pESO->GetIndependentVar(): 8.985000 ==>IsSwitchingOccur() prevPhis[ 0]=9.645393, nextPhis[ 0]=9.634105 prevPhis[ 1]=-3.645393, nextPhis[ 1]=-3.634105 <==IsSwitchingOccur() T = 8.985000 Tnext = 8.990000 Time: 8.98500e+00 states: [ 1.68513e+00 -4.21289e-01] derivs: [ -4.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.990000 pESO->GetIndependentVar(): 8.990000 ==>IsSwitchingOccur() prevPhis[ 0]=9.634105, nextPhis[ 0]=9.622742 prevPhis[ 1]=-3.634105, nextPhis[ 1]=-3.622742 <==IsSwitchingOccur() T = 8.990000 Tnext = 8.995000 Time: 8.99000e+00 states: [ 1.68301e+00 -4.26289e-01] derivs: [ -4.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 8.995000 pESO->GetIndependentVar(): 8.995000 ==>IsSwitchingOccur() prevPhis[ 0]=9.622742, nextPhis[ 0]=9.611304 prevPhis[ 1]=-3.622742, nextPhis[ 1]=-3.611304 <==IsSwitchingOccur() T = 8.995000 Tnext = 9.000000 Time: 8.99500e+00 states: [ 1.68086e+00 -4.31289e-01] derivs: [ -4.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.000000 pESO->GetIndependentVar(): 9.000000 ==>IsSwitchingOccur() prevPhis[ 0]=9.611304, nextPhis[ 0]=9.599791 prevPhis[ 1]=-3.611304, nextPhis[ 1]=-3.599791 <==IsSwitchingOccur() T = 9.000000 Tnext = 9.005000 Time: 9.00000e+00 states: [ 1.67869e+00 -4.36289e-01] derivs: [ -4.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.005000 pESO->GetIndependentVar(): 9.005000 ==>IsSwitchingOccur() prevPhis[ 0]=9.599791, nextPhis[ 0]=9.588203 prevPhis[ 1]=-3.599791, nextPhis[ 1]=-3.588203 <==IsSwitchingOccur() T = 9.005000 Tnext = 9.010000 Time: 9.00500e+00 states: [ 1.67650e+00 -4.41289e-01] derivs: [ -4.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.010000 pESO->GetIndependentVar(): 9.010000 ==>IsSwitchingOccur() prevPhis[ 0]=9.588203, nextPhis[ 0]=9.576540 prevPhis[ 1]=-3.588203, nextPhis[ 1]=-3.576540 <==IsSwitchingOccur() T = 9.010000 Tnext = 9.015000 Time: 9.01000e+00 states: [ 1.67428e+00 -4.46289e-01] derivs: [ -4.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.015000 pESO->GetIndependentVar(): 9.015000 ==>IsSwitchingOccur() prevPhis[ 0]=9.576540, nextPhis[ 0]=9.564802 prevPhis[ 1]=-3.576540, nextPhis[ 1]=-3.564802 <==IsSwitchingOccur() T = 9.015000 Tnext = 9.020000 Time: 9.01500e+00 states: [ 1.67203e+00 -4.51289e-01] derivs: [ -4.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.020000 pESO->GetIndependentVar(): 9.020000 ==>IsSwitchingOccur() prevPhis[ 0]=9.564802, nextPhis[ 0]=9.552988 prevPhis[ 1]=-3.564802, nextPhis[ 1]=-3.552988 <==IsSwitchingOccur() T = 9.020000 Tnext = 9.025000 Time: 9.02000e+00 states: [ 1.66976e+00 -4.56289e-01] derivs: [ -4.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.025000 pESO->GetIndependentVar(): 9.025000 ==>IsSwitchingOccur() prevPhis[ 0]=9.552988, nextPhis[ 0]=9.541100 prevPhis[ 1]=-3.552988, nextPhis[ 1]=-3.541100 <==IsSwitchingOccur() T = 9.025000 Tnext = 9.030000 Time: 9.02500e+00 states: [ 1.66746e+00 -4.61289e-01] derivs: [ -4.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.030000 pESO->GetIndependentVar(): 9.030000 ==>IsSwitchingOccur() prevPhis[ 0]=9.541100, nextPhis[ 0]=9.529137 prevPhis[ 1]=-3.541100, nextPhis[ 1]=-3.529137 <==IsSwitchingOccur() T = 9.030000 Tnext = 9.035000 Time: 9.03000e+00 states: [ 1.66514e+00 -4.66289e-01] derivs: [ -4.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.035000 pESO->GetIndependentVar(): 9.035000 ==>IsSwitchingOccur() prevPhis[ 0]=9.529137, nextPhis[ 0]=9.517099 prevPhis[ 1]=-3.529137, nextPhis[ 1]=-3.517099 <==IsSwitchingOccur() T = 9.035000 Tnext = 9.040000 Time: 9.03500e+00 states: [ 1.66280e+00 -4.71289e-01] derivs: [ -4.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.040000 pESO->GetIndependentVar(): 9.040000 ==>IsSwitchingOccur() prevPhis[ 0]=9.517099, nextPhis[ 0]=9.504986 prevPhis[ 1]=-3.517099, nextPhis[ 1]=-3.504986 <==IsSwitchingOccur() T = 9.040000 Tnext = 9.045000 Time: 9.04000e+00 states: [ 1.66043e+00 -4.76289e-01] derivs: [ -4.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.045000 pESO->GetIndependentVar(): 9.045000 ==>IsSwitchingOccur() prevPhis[ 0]=9.504986, nextPhis[ 0]=9.492798 prevPhis[ 1]=-3.504986, nextPhis[ 1]=-3.492798 <==IsSwitchingOccur() T = 9.045000 Tnext = 9.050000 Time: 9.04500e+00 states: [ 1.65803e+00 -4.81289e-01] derivs: [ -4.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.050000 pESO->GetIndependentVar(): 9.050000 ==>IsSwitchingOccur() prevPhis[ 0]=9.492798, nextPhis[ 0]=9.480535 prevPhis[ 1]=-3.492798, nextPhis[ 1]=-3.480535 <==IsSwitchingOccur() T = 9.050000 Tnext = 9.055000 Time: 9.05000e+00 states: [ 1.65561e+00 -4.86289e-01] derivs: [ -4.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.055000 pESO->GetIndependentVar(): 9.055000 ==>IsSwitchingOccur() prevPhis[ 0]=9.480535, nextPhis[ 0]=9.468197 prevPhis[ 1]=-3.480535, nextPhis[ 1]=-3.468197 <==IsSwitchingOccur() T = 9.055000 Tnext = 9.060000 Time: 9.05500e+00 states: [ 1.65316e+00 -4.91289e-01] derivs: [ -4.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.060000 pESO->GetIndependentVar(): 9.060000 ==>IsSwitchingOccur() prevPhis[ 0]=9.468197, nextPhis[ 0]=9.455784 prevPhis[ 1]=-3.468197, nextPhis[ 1]=-3.455784 <==IsSwitchingOccur() T = 9.060000 Tnext = 9.065000 Time: 9.06000e+00 states: [ 1.65069e+00 -4.96289e-01] derivs: [ -4.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.065000 pESO->GetIndependentVar(): 9.065000 ==>IsSwitchingOccur() prevPhis[ 0]=9.455784, nextPhis[ 0]=9.443295 prevPhis[ 1]=-3.455784, nextPhis[ 1]=-3.443295 <==IsSwitchingOccur() T = 9.065000 Tnext = 9.070000 Time: 9.06500e+00 states: [ 1.64819e+00 -5.01289e-01] derivs: [ -5.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.070000 pESO->GetIndependentVar(): 9.070000 ==>IsSwitchingOccur() prevPhis[ 0]=9.443295, nextPhis[ 0]=9.430732 prevPhis[ 1]=-3.443295, nextPhis[ 1]=-3.430732 <==IsSwitchingOccur() T = 9.070000 Tnext = 9.075000 Time: 9.07000e+00 states: [ 1.64567e+00 -5.06289e-01] derivs: [ -5.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.075000 pESO->GetIndependentVar(): 9.075000 ==>IsSwitchingOccur() prevPhis[ 0]=9.430732, nextPhis[ 0]=9.418094 prevPhis[ 1]=-3.430732, nextPhis[ 1]=-3.418094 <==IsSwitchingOccur() T = 9.075000 Tnext = 9.080000 Time: 9.07500e+00 states: [ 1.64313e+00 -5.11289e-01] derivs: [ -5.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.080000 pESO->GetIndependentVar(): 9.080000 ==>IsSwitchingOccur() prevPhis[ 0]=9.418094, nextPhis[ 0]=9.405381 prevPhis[ 1]=-3.418094, nextPhis[ 1]=-3.405381 <==IsSwitchingOccur() T = 9.080000 Tnext = 9.085000 Time: 9.08000e+00 states: [ 1.64056e+00 -5.16289e-01] derivs: [ -5.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.085000 pESO->GetIndependentVar(): 9.085000 ==>IsSwitchingOccur() prevPhis[ 0]=9.405381, nextPhis[ 0]=9.392593 prevPhis[ 1]=-3.405381, nextPhis[ 1]=-3.392593 <==IsSwitchingOccur() T = 9.085000 Tnext = 9.090000 Time: 9.08500e+00 states: [ 1.63796e+00 -5.21289e-01] derivs: [ -5.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.090000 pESO->GetIndependentVar(): 9.090000 ==>IsSwitchingOccur() prevPhis[ 0]=9.392593, nextPhis[ 0]=9.379730 prevPhis[ 1]=-3.392593, nextPhis[ 1]=-3.379730 <==IsSwitchingOccur() T = 9.090000 Tnext = 9.095000 Time: 9.09000e+00 states: [ 1.63534e+00 -5.26289e-01] derivs: [ -5.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.095000 pESO->GetIndependentVar(): 9.095000 ==>IsSwitchingOccur() prevPhis[ 0]=9.379730, nextPhis[ 0]=9.366792 prevPhis[ 1]=-3.379730, nextPhis[ 1]=-3.366792 <==IsSwitchingOccur() T = 9.095000 Tnext = 9.100000 Time: 9.09500e+00 states: [ 1.63269e+00 -5.31289e-01] derivs: [ -5.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.100000 pESO->GetIndependentVar(): 9.100000 ==>IsSwitchingOccur() prevPhis[ 0]=9.366792, nextPhis[ 0]=9.353779 prevPhis[ 1]=-3.366792, nextPhis[ 1]=-3.353779 <==IsSwitchingOccur() T = 9.100000 Tnext = 9.105000 Time: 9.10000e+00 states: [ 1.63002e+00 -5.36289e-01] derivs: [ -5.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.105000 pESO->GetIndependentVar(): 9.105000 ==>IsSwitchingOccur() prevPhis[ 0]=9.353779, nextPhis[ 0]=9.340691 prevPhis[ 1]=-3.353779, nextPhis[ 1]=-3.340691 <==IsSwitchingOccur() T = 9.105000 Tnext = 9.110000 Time: 9.10500e+00 states: [ 1.62733e+00 -5.41289e-01] derivs: [ -5.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.110000 pESO->GetIndependentVar(): 9.110000 ==>IsSwitchingOccur() prevPhis[ 0]=9.340691, nextPhis[ 0]=9.327527 prevPhis[ 1]=-3.340691, nextPhis[ 1]=-3.327527 <==IsSwitchingOccur() T = 9.110000 Tnext = 9.115000 Time: 9.11000e+00 states: [ 1.62461e+00 -5.46289e-01] derivs: [ -5.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.115000 pESO->GetIndependentVar(): 9.115000 ==>IsSwitchingOccur() prevPhis[ 0]=9.327527, nextPhis[ 0]=9.314289 prevPhis[ 1]=-3.327527, nextPhis[ 1]=-3.314289 <==IsSwitchingOccur() T = 9.115000 Tnext = 9.120000 Time: 9.11500e+00 states: [ 1.62186e+00 -5.51289e-01] derivs: [ -5.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.120000 pESO->GetIndependentVar(): 9.120000 ==>IsSwitchingOccur() prevPhis[ 0]=9.314289, nextPhis[ 0]=9.300976 prevPhis[ 1]=-3.314289, nextPhis[ 1]=-3.300976 <==IsSwitchingOccur() T = 9.120000 Tnext = 9.125000 Time: 9.12000e+00 states: [ 1.61909e+00 -5.56289e-01] derivs: [ -5.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.125000 pESO->GetIndependentVar(): 9.125000 ==>IsSwitchingOccur() prevPhis[ 0]=9.300976, nextPhis[ 0]=9.287588 prevPhis[ 1]=-3.300976, nextPhis[ 1]=-3.287588 <==IsSwitchingOccur() T = 9.125000 Tnext = 9.130000 Time: 9.12500e+00 states: [ 1.61629e+00 -5.61289e-01] derivs: [ -5.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.130000 pESO->GetIndependentVar(): 9.130000 ==>IsSwitchingOccur() prevPhis[ 0]=9.287588, nextPhis[ 0]=9.274125 prevPhis[ 1]=-3.287588, nextPhis[ 1]=-3.274125 <==IsSwitchingOccur() T = 9.130000 Tnext = 9.135000 Time: 9.13000e+00 states: [ 1.61347e+00 -5.66289e-01] derivs: [ -5.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.135000 pESO->GetIndependentVar(): 9.135000 ==>IsSwitchingOccur() prevPhis[ 0]=9.274125, nextPhis[ 0]=9.260587 prevPhis[ 1]=-3.274125, nextPhis[ 1]=-3.260587 <==IsSwitchingOccur() T = 9.135000 Tnext = 9.140000 Time: 9.13500e+00 states: [ 1.61063e+00 -5.71289e-01] derivs: [ -5.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.140000 pESO->GetIndependentVar(): 9.140000 ==>IsSwitchingOccur() prevPhis[ 0]=9.260587, nextPhis[ 0]=9.246974 prevPhis[ 1]=-3.260587, nextPhis[ 1]=-3.246974 <==IsSwitchingOccur() T = 9.140000 Tnext = 9.145000 Time: 9.14000e+00 states: [ 1.60775e+00 -5.76289e-01] derivs: [ -5.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.145000 pESO->GetIndependentVar(): 9.145000 ==>IsSwitchingOccur() prevPhis[ 0]=9.246974, nextPhis[ 0]=9.233286 prevPhis[ 1]=-3.246974, nextPhis[ 1]=-3.233286 <==IsSwitchingOccur() T = 9.145000 Tnext = 9.150000 Time: 9.14500e+00 states: [ 1.60486e+00 -5.81289e-01] derivs: [ -5.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.150000 pESO->GetIndependentVar(): 9.150000 ==>IsSwitchingOccur() prevPhis[ 0]=9.233286, nextPhis[ 0]=9.219522 prevPhis[ 1]=-3.233286, nextPhis[ 1]=-3.219522 <==IsSwitchingOccur() T = 9.150000 Tnext = 9.155000 Time: 9.15000e+00 states: [ 1.60194e+00 -5.86289e-01] derivs: [ -5.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.155000 pESO->GetIndependentVar(): 9.155000 ==>IsSwitchingOccur() prevPhis[ 0]=9.219522, nextPhis[ 0]=9.205684 prevPhis[ 1]=-3.219522, nextPhis[ 1]=-3.205684 <==IsSwitchingOccur() T = 9.155000 Tnext = 9.160000 Time: 9.15500e+00 states: [ 1.59899e+00 -5.91289e-01] derivs: [ -5.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.160000 pESO->GetIndependentVar(): 9.160000 ==>IsSwitchingOccur() prevPhis[ 0]=9.205684, nextPhis[ 0]=9.191771 prevPhis[ 1]=-3.205684, nextPhis[ 1]=-3.191771 <==IsSwitchingOccur() T = 9.160000 Tnext = 9.165000 Time: 9.16000e+00 states: [ 1.59602e+00 -5.96289e-01] derivs: [ -5.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.165000 pESO->GetIndependentVar(): 9.165000 ==>IsSwitchingOccur() prevPhis[ 0]=9.191771, nextPhis[ 0]=9.177783 prevPhis[ 1]=-3.191771, nextPhis[ 1]=-3.177783 <==IsSwitchingOccur() T = 9.165000 Tnext = 9.170000 Time: 9.16500e+00 states: [ 1.59302e+00 -6.01289e-01] derivs: [ -6.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.170000 pESO->GetIndependentVar(): 9.170000 ==>IsSwitchingOccur() prevPhis[ 0]=9.177783, nextPhis[ 0]=9.163720 prevPhis[ 1]=-3.177783, nextPhis[ 1]=-3.163720 <==IsSwitchingOccur() T = 9.170000 Tnext = 9.175000 Time: 9.17000e+00 states: [ 1.59000e+00 -6.06289e-01] derivs: [ -6.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.175000 pESO->GetIndependentVar(): 9.175000 ==>IsSwitchingOccur() prevPhis[ 0]=9.163720, nextPhis[ 0]=9.149582 prevPhis[ 1]=-3.163720, nextPhis[ 1]=-3.149582 <==IsSwitchingOccur() T = 9.175000 Tnext = 9.180000 Time: 9.17500e+00 states: [ 1.58696e+00 -6.11289e-01] derivs: [ -6.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.180000 pESO->GetIndependentVar(): 9.180000 ==>IsSwitchingOccur() prevPhis[ 0]=9.149582, nextPhis[ 0]=9.135369 prevPhis[ 1]=-3.149582, nextPhis[ 1]=-3.135369 <==IsSwitchingOccur() T = 9.180000 Tnext = 9.185000 Time: 9.18000e+00 states: [ 1.58389e+00 -6.16289e-01] derivs: [ -6.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.185000 pESO->GetIndependentVar(): 9.185000 ==>IsSwitchingOccur() prevPhis[ 0]=9.135369, nextPhis[ 0]=9.121081 prevPhis[ 1]=-3.135369, nextPhis[ 1]=-3.121081 <==IsSwitchingOccur() T = 9.185000 Tnext = 9.190000 Time: 9.18500e+00 states: [ 1.58079e+00 -6.21289e-01] derivs: [ -6.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.190000 pESO->GetIndependentVar(): 9.190000 ==>IsSwitchingOccur() prevPhis[ 0]=9.121081, nextPhis[ 0]=9.106718 prevPhis[ 1]=-3.121081, nextPhis[ 1]=-3.106718 <==IsSwitchingOccur() T = 9.190000 Tnext = 9.195000 Time: 9.19000e+00 states: [ 1.57767e+00 -6.26289e-01] derivs: [ -6.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.195000 pESO->GetIndependentVar(): 9.195000 ==>IsSwitchingOccur() prevPhis[ 0]=9.106718, nextPhis[ 0]=9.092279 prevPhis[ 1]=-3.106718, nextPhis[ 1]=-3.092279 <==IsSwitchingOccur() T = 9.195000 Tnext = 9.200000 Time: 9.19500e+00 states: [ 1.57452e+00 -6.31289e-01] derivs: [ -6.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.200000 pESO->GetIndependentVar(): 9.200000 ==>IsSwitchingOccur() prevPhis[ 0]=9.092279, nextPhis[ 0]=9.077766 prevPhis[ 1]=-3.092279, nextPhis[ 1]=-3.077766 <==IsSwitchingOccur() T = 9.200000 Tnext = 9.205000 Time: 9.20000e+00 states: [ 1.57135e+00 -6.36289e-01] derivs: [ -6.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.205000 pESO->GetIndependentVar(): 9.205000 ==>IsSwitchingOccur() prevPhis[ 0]=9.077766, nextPhis[ 0]=9.063178 prevPhis[ 1]=-3.077766, nextPhis[ 1]=-3.063178 <==IsSwitchingOccur() T = 9.205000 Tnext = 9.210000 Time: 9.20500e+00 states: [ 1.56816e+00 -6.41289e-01] derivs: [ -6.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.210000 pESO->GetIndependentVar(): 9.210000 ==>IsSwitchingOccur() prevPhis[ 0]=9.063178, nextPhis[ 0]=9.048515 prevPhis[ 1]=-3.063178, nextPhis[ 1]=-3.048515 <==IsSwitchingOccur() T = 9.210000 Tnext = 9.215000 Time: 9.21000e+00 states: [ 1.56493e+00 -6.46289e-01] derivs: [ -6.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.215000 pESO->GetIndependentVar(): 9.215000 ==>IsSwitchingOccur() prevPhis[ 0]=9.048515, nextPhis[ 0]=9.033777 prevPhis[ 1]=-3.048515, nextPhis[ 1]=-3.033777 <==IsSwitchingOccur() T = 9.215000 Tnext = 9.220000 Time: 9.21500e+00 states: [ 1.56169e+00 -6.51289e-01] derivs: [ -6.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.220000 pESO->GetIndependentVar(): 9.220000 ==>IsSwitchingOccur() prevPhis[ 0]=9.033777, nextPhis[ 0]=9.018964 prevPhis[ 1]=-3.033777, nextPhis[ 1]=-3.018964 <==IsSwitchingOccur() T = 9.220000 Tnext = 9.225000 Time: 9.22000e+00 states: [ 1.55842e+00 -6.56289e-01] derivs: [ -6.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.225000 pESO->GetIndependentVar(): 9.225000 ==>IsSwitchingOccur() prevPhis[ 0]=9.018964, nextPhis[ 0]=9.004076 prevPhis[ 1]=-3.018964, nextPhis[ 1]=-3.004076 <==IsSwitchingOccur() T = 9.225000 Tnext = 9.230000 Time: 9.22500e+00 states: [ 1.55512e+00 -6.61289e-01] derivs: [ -6.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.230000 pESO->GetIndependentVar(): 9.230000 ==>IsSwitchingOccur() prevPhis[ 0]=9.004076, nextPhis[ 0]=8.989113 prevPhis[ 1]=-3.004076, nextPhis[ 1]=-2.989113 <==IsSwitchingOccur() T = 9.230000 Tnext = 9.235000 Time: 9.23000e+00 states: [ 1.55180e+00 -6.66289e-01] derivs: [ -6.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.235000 pESO->GetIndependentVar(): 9.235000 ==>IsSwitchingOccur() prevPhis[ 0]=8.989113, nextPhis[ 0]=8.974075 prevPhis[ 1]=-2.989113, nextPhis[ 1]=-2.974075 <==IsSwitchingOccur() T = 9.235000 Tnext = 9.240000 Time: 9.23500e+00 states: [ 1.54845e+00 -6.71289e-01] derivs: [ -6.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.240000 pESO->GetIndependentVar(): 9.240000 ==>IsSwitchingOccur() prevPhis[ 0]=8.974075, nextPhis[ 0]=8.958961 prevPhis[ 1]=-2.974075, nextPhis[ 1]=-2.958961 <==IsSwitchingOccur() T = 9.240000 Tnext = 9.245000 Time: 9.24000e+00 states: [ 1.54508e+00 -6.76289e-01] derivs: [ -6.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.245000 pESO->GetIndependentVar(): 9.245000 ==>IsSwitchingOccur() prevPhis[ 0]=8.958961, nextPhis[ 0]=8.943773 prevPhis[ 1]=-2.958961, nextPhis[ 1]=-2.943773 <==IsSwitchingOccur() T = 9.245000 Tnext = 9.250000 Time: 9.24500e+00 states: [ 1.54169e+00 -6.81289e-01] derivs: [ -6.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.250000 pESO->GetIndependentVar(): 9.250000 ==>IsSwitchingOccur() prevPhis[ 0]=8.943773, nextPhis[ 0]=8.928510 prevPhis[ 1]=-2.943773, nextPhis[ 1]=-2.928510 <==IsSwitchingOccur() T = 9.250000 Tnext = 9.255000 Time: 9.25000e+00 states: [ 1.53827e+00 -6.86289e-01] derivs: [ -6.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.255000 pESO->GetIndependentVar(): 9.255000 ==>IsSwitchingOccur() prevPhis[ 0]=8.928510, nextPhis[ 0]=8.913172 prevPhis[ 1]=-2.928510, nextPhis[ 1]=-2.913172 <==IsSwitchingOccur() T = 9.255000 Tnext = 9.260000 Time: 9.25500e+00 states: [ 1.53482e+00 -6.91289e-01] derivs: [ -6.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.260000 pESO->GetIndependentVar(): 9.260000 ==>IsSwitchingOccur() prevPhis[ 0]=8.913172, nextPhis[ 0]=8.897759 prevPhis[ 1]=-2.913172, nextPhis[ 1]=-2.897759 <==IsSwitchingOccur() T = 9.260000 Tnext = 9.265000 Time: 9.26000e+00 states: [ 1.53135e+00 -6.96289e-01] derivs: [ -6.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.265000 pESO->GetIndependentVar(): 9.265000 ==>IsSwitchingOccur() prevPhis[ 0]=8.897759, nextPhis[ 0]=8.882271 prevPhis[ 1]=-2.897759, nextPhis[ 1]=-2.882271 <==IsSwitchingOccur() T = 9.265000 Tnext = 9.270000 Time: 9.26500e+00 states: [ 1.52785e+00 -7.01289e-01] derivs: [ -7.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.270000 pESO->GetIndependentVar(): 9.270000 ==>IsSwitchingOccur() prevPhis[ 0]=8.882271, nextPhis[ 0]=8.866708 prevPhis[ 1]=-2.882271, nextPhis[ 1]=-2.866708 <==IsSwitchingOccur() T = 9.270000 Tnext = 9.275000 Time: 9.27000e+00 states: [ 1.52433e+00 -7.06289e-01] derivs: [ -7.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.275000 pESO->GetIndependentVar(): 9.275000 ==>IsSwitchingOccur() prevPhis[ 0]=8.866708, nextPhis[ 0]=8.851070 prevPhis[ 1]=-2.866708, nextPhis[ 1]=-2.851070 <==IsSwitchingOccur() T = 9.275000 Tnext = 9.280000 Time: 9.27500e+00 states: [ 1.52079e+00 -7.11289e-01] derivs: [ -7.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.280000 pESO->GetIndependentVar(): 9.280000 ==>IsSwitchingOccur() prevPhis[ 0]=8.851070, nextPhis[ 0]=8.835357 prevPhis[ 1]=-2.851070, nextPhis[ 1]=-2.835357 <==IsSwitchingOccur() T = 9.280000 Tnext = 9.285000 Time: 9.28000e+00 states: [ 1.51722e+00 -7.16289e-01] derivs: [ -7.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.285000 pESO->GetIndependentVar(): 9.285000 ==>IsSwitchingOccur() prevPhis[ 0]=8.835357, nextPhis[ 0]=8.819568 prevPhis[ 1]=-2.835357, nextPhis[ 1]=-2.819568 <==IsSwitchingOccur() T = 9.285000 Tnext = 9.290000 Time: 9.28500e+00 states: [ 1.51362e+00 -7.21289e-01] derivs: [ -7.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.290000 pESO->GetIndependentVar(): 9.290000 ==>IsSwitchingOccur() prevPhis[ 0]=8.819568, nextPhis[ 0]=8.803705 prevPhis[ 1]=-2.819568, nextPhis[ 1]=-2.803705 <==IsSwitchingOccur() T = 9.290000 Tnext = 9.295000 Time: 9.29000e+00 states: [ 1.51000e+00 -7.26289e-01] derivs: [ -7.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.295000 pESO->GetIndependentVar(): 9.295000 ==>IsSwitchingOccur() prevPhis[ 0]=8.803705, nextPhis[ 0]=8.787767 prevPhis[ 1]=-2.803705, nextPhis[ 1]=-2.787767 <==IsSwitchingOccur() T = 9.295000 Tnext = 9.300000 Time: 9.29500e+00 states: [ 1.50635e+00 -7.31289e-01] derivs: [ -7.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.300000 pESO->GetIndependentVar(): 9.300000 ==>IsSwitchingOccur() prevPhis[ 0]=8.787767, nextPhis[ 0]=8.771754 prevPhis[ 1]=-2.787767, nextPhis[ 1]=-2.771754 <==IsSwitchingOccur() T = 9.300000 Tnext = 9.305000 Time: 9.30000e+00 states: [ 1.50268e+00 -7.36289e-01] derivs: [ -7.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.305000 pESO->GetIndependentVar(): 9.305000 ==>IsSwitchingOccur() prevPhis[ 0]=8.771754, nextPhis[ 0]=8.755666 prevPhis[ 1]=-2.771754, nextPhis[ 1]=-2.755666 <==IsSwitchingOccur() T = 9.305000 Tnext = 9.310000 Time: 9.30500e+00 states: [ 1.49899e+00 -7.41289e-01] derivs: [ -7.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.310000 pESO->GetIndependentVar(): 9.310000 ==>IsSwitchingOccur() prevPhis[ 0]=8.755666, nextPhis[ 0]=8.739503 prevPhis[ 1]=-2.755666, nextPhis[ 1]=-2.739503 <==IsSwitchingOccur() T = 9.310000 Tnext = 9.315000 Time: 9.31000e+00 states: [ 1.49526e+00 -7.46289e-01] derivs: [ -7.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.315000 pESO->GetIndependentVar(): 9.315000 ==>IsSwitchingOccur() prevPhis[ 0]=8.739503, nextPhis[ 0]=8.723265 prevPhis[ 1]=-2.739503, nextPhis[ 1]=-2.723265 <==IsSwitchingOccur() T = 9.315000 Tnext = 9.320000 Time: 9.31500e+00 states: [ 1.49152e+00 -7.51289e-01] derivs: [ -7.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.320000 pESO->GetIndependentVar(): 9.320000 ==>IsSwitchingOccur() prevPhis[ 0]=8.723265, nextPhis[ 0]=8.706952 prevPhis[ 1]=-2.723265, nextPhis[ 1]=-2.706952 <==IsSwitchingOccur() T = 9.320000 Tnext = 9.325000 Time: 9.32000e+00 states: [ 1.48775e+00 -7.56289e-01] derivs: [ -7.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.325000 pESO->GetIndependentVar(): 9.325000 ==>IsSwitchingOccur() prevPhis[ 0]=8.706952, nextPhis[ 0]=8.690563 prevPhis[ 1]=-2.706952, nextPhis[ 1]=-2.690563 <==IsSwitchingOccur() T = 9.325000 Tnext = 9.330000 Time: 9.32500e+00 states: [ 1.48395e+00 -7.61289e-01] derivs: [ -7.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.330000 pESO->GetIndependentVar(): 9.330000 ==>IsSwitchingOccur() prevPhis[ 0]=8.690563, nextPhis[ 0]=8.674100 prevPhis[ 1]=-2.690563, nextPhis[ 1]=-2.674100 <==IsSwitchingOccur() T = 9.330000 Tnext = 9.335000 Time: 9.33000e+00 states: [ 1.48013e+00 -7.66289e-01] derivs: [ -7.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.335000 pESO->GetIndependentVar(): 9.335000 ==>IsSwitchingOccur() prevPhis[ 0]=8.674100, nextPhis[ 0]=8.657562 prevPhis[ 1]=-2.674100, nextPhis[ 1]=-2.657562 <==IsSwitchingOccur() T = 9.335000 Tnext = 9.340000 Time: 9.33500e+00 states: [ 1.47628e+00 -7.71289e-01] derivs: [ -7.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.340000 pESO->GetIndependentVar(): 9.340000 ==>IsSwitchingOccur() prevPhis[ 0]=8.657562, nextPhis[ 0]=8.640949 prevPhis[ 1]=-2.657562, nextPhis[ 1]=-2.640949 <==IsSwitchingOccur() T = 9.340000 Tnext = 9.345000 Time: 9.34000e+00 states: [ 1.47241e+00 -7.76289e-01] derivs: [ -7.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.345000 pESO->GetIndependentVar(): 9.345000 ==>IsSwitchingOccur() prevPhis[ 0]=8.640949, nextPhis[ 0]=8.624261 prevPhis[ 1]=-2.640949, nextPhis[ 1]=-2.624261 <==IsSwitchingOccur() T = 9.345000 Tnext = 9.350000 Time: 9.34500e+00 states: [ 1.46852e+00 -7.81289e-01] derivs: [ -7.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.350000 pESO->GetIndependentVar(): 9.350000 ==>IsSwitchingOccur() prevPhis[ 0]=8.624261, nextPhis[ 0]=8.607498 prevPhis[ 1]=-2.624261, nextPhis[ 1]=-2.607498 <==IsSwitchingOccur() T = 9.350000 Tnext = 9.355000 Time: 9.35000e+00 states: [ 1.46460e+00 -7.86289e-01] derivs: [ -7.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.355000 pESO->GetIndependentVar(): 9.355000 ==>IsSwitchingOccur() prevPhis[ 0]=8.607498, nextPhis[ 0]=8.590660 prevPhis[ 1]=-2.607498, nextPhis[ 1]=-2.590660 <==IsSwitchingOccur() T = 9.355000 Tnext = 9.360000 Time: 9.35500e+00 states: [ 1.46065e+00 -7.91289e-01] derivs: [ -7.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.360000 pESO->GetIndependentVar(): 9.360000 ==>IsSwitchingOccur() prevPhis[ 0]=8.590660, nextPhis[ 0]=8.573747 prevPhis[ 1]=-2.590660, nextPhis[ 1]=-2.573747 <==IsSwitchingOccur() T = 9.360000 Tnext = 9.365000 Time: 9.36000e+00 states: [ 1.45668e+00 -7.96289e-01] derivs: [ -7.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.365000 pESO->GetIndependentVar(): 9.365000 ==>IsSwitchingOccur() prevPhis[ 0]=8.573747, nextPhis[ 0]=8.556759 prevPhis[ 1]=-2.573747, nextPhis[ 1]=-2.556759 <==IsSwitchingOccur() T = 9.365000 Tnext = 9.370000 Time: 9.36500e+00 states: [ 1.45268e+00 -8.01289e-01] derivs: [ -8.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.370000 pESO->GetIndependentVar(): 9.370000 ==>IsSwitchingOccur() prevPhis[ 0]=8.556759, nextPhis[ 0]=8.539695 prevPhis[ 1]=-2.556759, nextPhis[ 1]=-2.539695 <==IsSwitchingOccur() T = 9.370000 Tnext = 9.375000 Time: 9.37000e+00 states: [ 1.44866e+00 -8.06289e-01] derivs: [ -8.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.375000 pESO->GetIndependentVar(): 9.375000 ==>IsSwitchingOccur() prevPhis[ 0]=8.539695, nextPhis[ 0]=8.522557 prevPhis[ 1]=-2.539695, nextPhis[ 1]=-2.522557 <==IsSwitchingOccur() T = 9.375000 Tnext = 9.380000 Time: 9.37500e+00 states: [ 1.44462e+00 -8.11289e-01] derivs: [ -8.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.380000 pESO->GetIndependentVar(): 9.380000 ==>IsSwitchingOccur() prevPhis[ 0]=8.522557, nextPhis[ 0]=8.505344 prevPhis[ 1]=-2.522557, nextPhis[ 1]=-2.505344 <==IsSwitchingOccur() T = 9.380000 Tnext = 9.385000 Time: 9.38000e+00 states: [ 1.44054e+00 -8.16289e-01] derivs: [ -8.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.385000 pESO->GetIndependentVar(): 9.385000 ==>IsSwitchingOccur() prevPhis[ 0]=8.505344, nextPhis[ 0]=8.488056 prevPhis[ 1]=-2.505344, nextPhis[ 1]=-2.488056 <==IsSwitchingOccur() T = 9.385000 Tnext = 9.390000 Time: 9.38500e+00 states: [ 1.43645e+00 -8.21289e-01] derivs: [ -8.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.390000 pESO->GetIndependentVar(): 9.390000 ==>IsSwitchingOccur() prevPhis[ 0]=8.488056, nextPhis[ 0]=8.470693 prevPhis[ 1]=-2.488056, nextPhis[ 1]=-2.470693 <==IsSwitchingOccur() T = 9.390000 Tnext = 9.395000 Time: 9.39000e+00 states: [ 1.43233e+00 -8.26289e-01] derivs: [ -8.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.395000 pESO->GetIndependentVar(): 9.395000 ==>IsSwitchingOccur() prevPhis[ 0]=8.470693, nextPhis[ 0]=8.453255 prevPhis[ 1]=-2.470693, nextPhis[ 1]=-2.453255 <==IsSwitchingOccur() T = 9.395000 Tnext = 9.400000 Time: 9.39500e+00 states: [ 1.42818e+00 -8.31289e-01] derivs: [ -8.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.400000 pESO->GetIndependentVar(): 9.400000 ==>IsSwitchingOccur() prevPhis[ 0]=8.453255, nextPhis[ 0]=8.435742 prevPhis[ 1]=-2.453255, nextPhis[ 1]=-2.435742 <==IsSwitchingOccur() T = 9.400000 Tnext = 9.405000 Time: 9.40000e+00 states: [ 1.42401e+00 -8.36289e-01] derivs: [ -8.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.405000 pESO->GetIndependentVar(): 9.405000 ==>IsSwitchingOccur() prevPhis[ 0]=8.435742, nextPhis[ 0]=8.418154 prevPhis[ 1]=-2.435742, nextPhis[ 1]=-2.418154 <==IsSwitchingOccur() T = 9.405000 Tnext = 9.410000 Time: 9.40500e+00 states: [ 1.41981e+00 -8.41289e-01] derivs: [ -8.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.410000 pESO->GetIndependentVar(): 9.410000 ==>IsSwitchingOccur() prevPhis[ 0]=8.418154, nextPhis[ 0]=8.400491 prevPhis[ 1]=-2.418154, nextPhis[ 1]=-2.400491 <==IsSwitchingOccur() T = 9.410000 Tnext = 9.415000 Time: 9.41000e+00 states: [ 1.41559e+00 -8.46289e-01] derivs: [ -8.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.415000 pESO->GetIndependentVar(): 9.415000 ==>IsSwitchingOccur() prevPhis[ 0]=8.400491, nextPhis[ 0]=8.382752 prevPhis[ 1]=-2.400491, nextPhis[ 1]=-2.382752 <==IsSwitchingOccur() T = 9.415000 Tnext = 9.420000 Time: 9.41500e+00 states: [ 1.41135e+00 -8.51289e-01] derivs: [ -8.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.420000 pESO->GetIndependentVar(): 9.420000 ==>IsSwitchingOccur() prevPhis[ 0]=8.382752, nextPhis[ 0]=8.364939 prevPhis[ 1]=-2.382752, nextPhis[ 1]=-2.364939 <==IsSwitchingOccur() T = 9.420000 Tnext = 9.425000 Time: 9.42000e+00 states: [ 1.40708e+00 -8.56289e-01] derivs: [ -8.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.425000 pESO->GetIndependentVar(): 9.425000 ==>IsSwitchingOccur() prevPhis[ 0]=8.364939, nextPhis[ 0]=8.347051 prevPhis[ 1]=-2.364939, nextPhis[ 1]=-2.347051 <==IsSwitchingOccur() T = 9.425000 Tnext = 9.430000 Time: 9.42500e+00 states: [ 1.40278e+00 -8.61289e-01] derivs: [ -8.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.430000 pESO->GetIndependentVar(): 9.430000 ==>IsSwitchingOccur() prevPhis[ 0]=8.347051, nextPhis[ 0]=8.329088 prevPhis[ 1]=-2.347051, nextPhis[ 1]=-2.329088 <==IsSwitchingOccur() T = 9.430000 Tnext = 9.435000 Time: 9.43000e+00 states: [ 1.39846e+00 -8.66289e-01] derivs: [ -8.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.435000 pESO->GetIndependentVar(): 9.435000 ==>IsSwitchingOccur() prevPhis[ 0]=8.329088, nextPhis[ 0]=8.311050 prevPhis[ 1]=-2.329088, nextPhis[ 1]=-2.311050 <==IsSwitchingOccur() T = 9.435000 Tnext = 9.440000 Time: 9.43500e+00 states: [ 1.39411e+00 -8.71289e-01] derivs: [ -8.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.440000 pESO->GetIndependentVar(): 9.440000 ==>IsSwitchingOccur() prevPhis[ 0]=8.311050, nextPhis[ 0]=8.292937 prevPhis[ 1]=-2.311050, nextPhis[ 1]=-2.292937 <==IsSwitchingOccur() T = 9.440000 Tnext = 9.445000 Time: 9.44000e+00 states: [ 1.38974e+00 -8.76289e-01] derivs: [ -8.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.445000 pESO->GetIndependentVar(): 9.445000 ==>IsSwitchingOccur() prevPhis[ 0]=8.292937, nextPhis[ 0]=8.274749 prevPhis[ 1]=-2.292937, nextPhis[ 1]=-2.274749 <==IsSwitchingOccur() T = 9.445000 Tnext = 9.450000 Time: 9.44500e+00 states: [ 1.38535e+00 -8.81289e-01] derivs: [ -8.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.450000 pESO->GetIndependentVar(): 9.450000 ==>IsSwitchingOccur() prevPhis[ 0]=8.274749, nextPhis[ 0]=8.256486 prevPhis[ 1]=-2.274749, nextPhis[ 1]=-2.256486 <==IsSwitchingOccur() T = 9.450000 Tnext = 9.455000 Time: 9.45000e+00 states: [ 1.38092e+00 -8.86289e-01] derivs: [ -8.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.455000 pESO->GetIndependentVar(): 9.455000 ==>IsSwitchingOccur() prevPhis[ 0]=8.256486, nextPhis[ 0]=8.238148 prevPhis[ 1]=-2.256486, nextPhis[ 1]=-2.238148 <==IsSwitchingOccur() T = 9.455000 Tnext = 9.460000 Time: 9.45500e+00 states: [ 1.37648e+00 -8.91289e-01] derivs: [ -8.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.460000 pESO->GetIndependentVar(): 9.460000 ==>IsSwitchingOccur() prevPhis[ 0]=8.238148, nextPhis[ 0]=8.219734 prevPhis[ 1]=-2.238148, nextPhis[ 1]=-2.219734 <==IsSwitchingOccur() T = 9.460000 Tnext = 9.465000 Time: 9.46000e+00 states: [ 1.37201e+00 -8.96289e-01] derivs: [ -8.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.465000 pESO->GetIndependentVar(): 9.465000 ==>IsSwitchingOccur() prevPhis[ 0]=8.219734, nextPhis[ 0]=8.201246 prevPhis[ 1]=-2.219734, nextPhis[ 1]=-2.201246 <==IsSwitchingOccur() T = 9.465000 Tnext = 9.470000 Time: 9.46500e+00 states: [ 1.36751e+00 -9.01289e-01] derivs: [ -9.01524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.470000 pESO->GetIndependentVar(): 9.470000 ==>IsSwitchingOccur() prevPhis[ 0]=8.201246, nextPhis[ 0]=8.182683 prevPhis[ 1]=-2.201246, nextPhis[ 1]=-2.182683 <==IsSwitchingOccur() T = 9.470000 Tnext = 9.475000 Time: 9.47000e+00 states: [ 1.36299e+00 -9.06289e-01] derivs: [ -9.06524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.475000 pESO->GetIndependentVar(): 9.475000 ==>IsSwitchingOccur() prevPhis[ 0]=8.182683, nextPhis[ 0]=8.164045 prevPhis[ 1]=-2.182683, nextPhis[ 1]=-2.164045 <==IsSwitchingOccur() T = 9.475000 Tnext = 9.480000 Time: 9.47500e+00 states: [ 1.35844e+00 -9.11289e-01] derivs: [ -9.11524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.480000 pESO->GetIndependentVar(): 9.480000 ==>IsSwitchingOccur() prevPhis[ 0]=8.164045, nextPhis[ 0]=8.145332 prevPhis[ 1]=-2.164045, nextPhis[ 1]=-2.145332 <==IsSwitchingOccur() T = 9.480000 Tnext = 9.485000 Time: 9.48000e+00 states: [ 1.35387e+00 -9.16289e-01] derivs: [ -9.16524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.485000 pESO->GetIndependentVar(): 9.485000 ==>IsSwitchingOccur() prevPhis[ 0]=8.145332, nextPhis[ 0]=8.126544 prevPhis[ 1]=-2.145332, nextPhis[ 1]=-2.126544 <==IsSwitchingOccur() T = 9.485000 Tnext = 9.490000 Time: 9.48500e+00 states: [ 1.34928e+00 -9.21289e-01] derivs: [ -9.21524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.490000 pESO->GetIndependentVar(): 9.490000 ==>IsSwitchingOccur() prevPhis[ 0]=8.126544, nextPhis[ 0]=8.107681 prevPhis[ 1]=-2.126544, nextPhis[ 1]=-2.107681 <==IsSwitchingOccur() T = 9.490000 Tnext = 9.495000 Time: 9.49000e+00 states: [ 1.34466e+00 -9.26289e-01] derivs: [ -9.26524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.495000 pESO->GetIndependentVar(): 9.495000 ==>IsSwitchingOccur() prevPhis[ 0]=8.107681, nextPhis[ 0]=8.088743 prevPhis[ 1]=-2.107681, nextPhis[ 1]=-2.088743 <==IsSwitchingOccur() T = 9.495000 Tnext = 9.500000 Time: 9.49500e+00 states: [ 1.34001e+00 -9.31289e-01] derivs: [ -9.31524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.500000 pESO->GetIndependentVar(): 9.500000 ==>IsSwitchingOccur() prevPhis[ 0]=8.088743, nextPhis[ 0]=8.069730 prevPhis[ 1]=-2.088743, nextPhis[ 1]=-2.069730 <==IsSwitchingOccur() T = 9.500000 Tnext = 9.505000 Time: 9.50000e+00 states: [ 1.33534e+00 -9.36289e-01] derivs: [ -9.36524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.505000 pESO->GetIndependentVar(): 9.505000 ==>IsSwitchingOccur() prevPhis[ 0]=8.069730, nextPhis[ 0]=8.050641 prevPhis[ 1]=-2.069730, nextPhis[ 1]=-2.050641 <==IsSwitchingOccur() T = 9.505000 Tnext = 9.510000 Time: 9.50500e+00 states: [ 1.33064e+00 -9.41289e-01] derivs: [ -9.41524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.510000 pESO->GetIndependentVar(): 9.510000 ==>IsSwitchingOccur() prevPhis[ 0]=8.050641, nextPhis[ 0]=8.031478 prevPhis[ 1]=-2.050641, nextPhis[ 1]=-2.031478 <==IsSwitchingOccur() T = 9.510000 Tnext = 9.515000 Time: 9.51000e+00 states: [ 1.32592e+00 -9.46289e-01] derivs: [ -9.46524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.515000 pESO->GetIndependentVar(): 9.515000 ==>IsSwitchingOccur() prevPhis[ 0]=8.031478, nextPhis[ 0]=8.012240 prevPhis[ 1]=-2.031478, nextPhis[ 1]=-2.012240 <==IsSwitchingOccur() T = 9.515000 Tnext = 9.520000 Time: 9.51500e+00 states: [ 1.32118e+00 -9.51289e-01] derivs: [ -9.51524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.520000 pESO->GetIndependentVar(): 9.520000 ==>IsSwitchingOccur() prevPhis[ 0]=8.012240, nextPhis[ 0]=7.992927 prevPhis[ 1]=-2.012240, nextPhis[ 1]=-1.992927 <==IsSwitchingOccur() T = 9.520000 Tnext = 9.525000 Time: 9.52000e+00 states: [ 1.31641e+00 -9.56289e-01] derivs: [ -9.56524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.525000 pESO->GetIndependentVar(): 9.525000 ==>IsSwitchingOccur() prevPhis[ 0]=7.992927, nextPhis[ 0]=7.973539 prevPhis[ 1]=-1.992927, nextPhis[ 1]=-1.973539 <==IsSwitchingOccur() T = 9.525000 Tnext = 9.530000 Time: 9.52500e+00 states: [ 1.31161e+00 -9.61289e-01] derivs: [ -9.61524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.530000 pESO->GetIndependentVar(): 9.530000 ==>IsSwitchingOccur() prevPhis[ 0]=7.973539, nextPhis[ 0]=7.954076 prevPhis[ 1]=-1.973539, nextPhis[ 1]=-1.954076 <==IsSwitchingOccur() T = 9.530000 Tnext = 9.535000 Time: 9.53000e+00 states: [ 1.30679e+00 -9.66289e-01] derivs: [ -9.66524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.535000 pESO->GetIndependentVar(): 9.535000 ==>IsSwitchingOccur() prevPhis[ 0]=7.954076, nextPhis[ 0]=7.934538 prevPhis[ 1]=-1.954076, nextPhis[ 1]=-1.934538 <==IsSwitchingOccur() T = 9.535000 Tnext = 9.540000 Time: 9.53500e+00 states: [ 1.30194e+00 -9.71289e-01] derivs: [ -9.71524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.540000 pESO->GetIndependentVar(): 9.540000 ==>IsSwitchingOccur() prevPhis[ 0]=7.934538, nextPhis[ 0]=7.914925 prevPhis[ 1]=-1.934538, nextPhis[ 1]=-1.914925 <==IsSwitchingOccur() T = 9.540000 Tnext = 9.545000 Time: 9.54000e+00 states: [ 1.29707e+00 -9.76289e-01] derivs: [ -9.76524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.545000 pESO->GetIndependentVar(): 9.545000 ==>IsSwitchingOccur() prevPhis[ 0]=7.914925, nextPhis[ 0]=7.895236 prevPhis[ 1]=-1.914925, nextPhis[ 1]=-1.895236 <==IsSwitchingOccur() T = 9.545000 Tnext = 9.550000 Time: 9.54500e+00 states: [ 1.29218e+00 -9.81289e-01] derivs: [ -9.81524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.550000 pESO->GetIndependentVar(): 9.550000 ==>IsSwitchingOccur() prevPhis[ 0]=7.895236, nextPhis[ 0]=7.875473 prevPhis[ 1]=-1.895236, nextPhis[ 1]=-1.875473 <==IsSwitchingOccur() T = 9.550000 Tnext = 9.555000 Time: 9.55000e+00 states: [ 1.28725e+00 -9.86289e-01] derivs: [ -9.86524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.555000 pESO->GetIndependentVar(): 9.555000 ==>IsSwitchingOccur() prevPhis[ 0]=7.875473, nextPhis[ 0]=7.855635 prevPhis[ 1]=-1.875473, nextPhis[ 1]=-1.855635 <==IsSwitchingOccur() T = 9.555000 Tnext = 9.560000 Time: 9.55500e+00 states: [ 1.28231e+00 -9.91289e-01] derivs: [ -9.91524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.560000 pESO->GetIndependentVar(): 9.560000 ==>IsSwitchingOccur() prevPhis[ 0]=7.855635, nextPhis[ 0]=7.835722 prevPhis[ 1]=-1.855635, nextPhis[ 1]=-1.835722 <==IsSwitchingOccur() T = 9.560000 Tnext = 9.565000 Time: 9.56000e+00 states: [ 1.27734e+00 -9.96289e-01] derivs: [ -9.96524e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.565000 pESO->GetIndependentVar(): 9.565000 ==>IsSwitchingOccur() prevPhis[ 0]=7.835722, nextPhis[ 0]=7.815734 prevPhis[ 1]=-1.835722, nextPhis[ 1]=-1.815734 <==IsSwitchingOccur() T = 9.565000 Tnext = 9.570000 Time: 9.56500e+00 states: [ 1.27234e+00 -1.00129e+00] derivs: [ -1.00152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.570000 pESO->GetIndependentVar(): 9.570000 ==>IsSwitchingOccur() prevPhis[ 0]=7.815734, nextPhis[ 0]=7.795671 prevPhis[ 1]=-1.815734, nextPhis[ 1]=-1.795671 <==IsSwitchingOccur() T = 9.570000 Tnext = 9.575000 Time: 9.57000e+00 states: [ 1.26732e+00 -1.00629e+00] derivs: [ -1.00652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.575000 pESO->GetIndependentVar(): 9.575000 ==>IsSwitchingOccur() prevPhis[ 0]=7.795671, nextPhis[ 0]=7.775533 prevPhis[ 1]=-1.795671, nextPhis[ 1]=-1.775533 <==IsSwitchingOccur() T = 9.575000 Tnext = 9.580000 Time: 9.57500e+00 states: [ 1.26227e+00 -1.01129e+00] derivs: [ -1.01152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.580000 pESO->GetIndependentVar(): 9.580000 ==>IsSwitchingOccur() prevPhis[ 0]=7.775533, nextPhis[ 0]=7.755320 prevPhis[ 1]=-1.775533, nextPhis[ 1]=-1.755320 <==IsSwitchingOccur() T = 9.580000 Tnext = 9.585000 Time: 9.58000e+00 states: [ 1.25720e+00 -1.01629e+00] derivs: [ -1.01652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.585000 pESO->GetIndependentVar(): 9.585000 ==>IsSwitchingOccur() prevPhis[ 0]=7.755320, nextPhis[ 0]=7.735032 prevPhis[ 1]=-1.755320, nextPhis[ 1]=-1.735032 <==IsSwitchingOccur() T = 9.585000 Tnext = 9.590000 Time: 9.58500e+00 states: [ 1.25211e+00 -1.02129e+00] derivs: [ -1.02152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.590000 pESO->GetIndependentVar(): 9.590000 ==>IsSwitchingOccur() prevPhis[ 0]=7.735032, nextPhis[ 0]=7.714668 prevPhis[ 1]=-1.735032, nextPhis[ 1]=-1.714668 <==IsSwitchingOccur() T = 9.590000 Tnext = 9.595000 Time: 9.59000e+00 states: [ 1.24699e+00 -1.02629e+00] derivs: [ -1.02652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.595000 pESO->GetIndependentVar(): 9.595000 ==>IsSwitchingOccur() prevPhis[ 0]=7.714668, nextPhis[ 0]=7.694230 prevPhis[ 1]=-1.714668, nextPhis[ 1]=-1.694230 <==IsSwitchingOccur() T = 9.595000 Tnext = 9.600000 Time: 9.59500e+00 states: [ 1.24184e+00 -1.03129e+00] derivs: [ -1.03152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.600000 pESO->GetIndependentVar(): 9.600000 ==>IsSwitchingOccur() prevPhis[ 0]=7.694230, nextPhis[ 0]=7.673717 prevPhis[ 1]=-1.694230, nextPhis[ 1]=-1.673717 <==IsSwitchingOccur() T = 9.600000 Tnext = 9.605000 Time: 9.60000e+00 states: [ 1.23667e+00 -1.03629e+00] derivs: [ -1.03652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.605000 pESO->GetIndependentVar(): 9.605000 ==>IsSwitchingOccur() prevPhis[ 0]=7.673717, nextPhis[ 0]=7.653129 prevPhis[ 1]=-1.673717, nextPhis[ 1]=-1.653129 <==IsSwitchingOccur() T = 9.605000 Tnext = 9.610000 Time: 9.60500e+00 states: [ 1.23147e+00 -1.04129e+00] derivs: [ -1.04152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.610000 pESO->GetIndependentVar(): 9.610000 ==>IsSwitchingOccur() prevPhis[ 0]=7.653129, nextPhis[ 0]=7.632466 prevPhis[ 1]=-1.653129, nextPhis[ 1]=-1.632466 <==IsSwitchingOccur() T = 9.610000 Tnext = 9.615000 Time: 9.61000e+00 states: [ 1.22625e+00 -1.04629e+00] derivs: [ -1.04652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.615000 pESO->GetIndependentVar(): 9.615000 ==>IsSwitchingOccur() prevPhis[ 0]=7.632466, nextPhis[ 0]=7.611728 prevPhis[ 1]=-1.632466, nextPhis[ 1]=-1.611728 <==IsSwitchingOccur() T = 9.615000 Tnext = 9.620000 Time: 9.61500e+00 states: [ 1.22101e+00 -1.05129e+00] derivs: [ -1.05152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.620000 pESO->GetIndependentVar(): 9.620000 ==>IsSwitchingOccur() prevPhis[ 0]=7.611728, nextPhis[ 0]=7.590915 prevPhis[ 1]=-1.611728, nextPhis[ 1]=-1.590915 <==IsSwitchingOccur() T = 9.620000 Tnext = 9.625000 Time: 9.62000e+00 states: [ 1.21573e+00 -1.05629e+00] derivs: [ -1.05652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.625000 pESO->GetIndependentVar(): 9.625000 ==>IsSwitchingOccur() prevPhis[ 0]=7.590915, nextPhis[ 0]=7.570027 prevPhis[ 1]=-1.590915, nextPhis[ 1]=-1.570027 <==IsSwitchingOccur() T = 9.625000 Tnext = 9.630000 Time: 9.62500e+00 states: [ 1.21044e+00 -1.06129e+00] derivs: [ -1.06152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.630000 pESO->GetIndependentVar(): 9.630000 ==>IsSwitchingOccur() prevPhis[ 0]=7.570027, nextPhis[ 0]=7.549064 prevPhis[ 1]=-1.570027, nextPhis[ 1]=-1.549064 <==IsSwitchingOccur() T = 9.630000 Tnext = 9.635000 Time: 9.63000e+00 states: [ 1.20512e+00 -1.06629e+00] derivs: [ -1.06652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.635000 pESO->GetIndependentVar(): 9.635000 ==>IsSwitchingOccur() prevPhis[ 0]=7.549064, nextPhis[ 0]=7.528025 prevPhis[ 1]=-1.549064, nextPhis[ 1]=-1.528025 <==IsSwitchingOccur() T = 9.635000 Tnext = 9.640000 Time: 9.63500e+00 states: [ 1.19977e+00 -1.07129e+00] derivs: [ -1.07152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.640000 pESO->GetIndependentVar(): 9.640000 ==>IsSwitchingOccur() prevPhis[ 0]=7.528025, nextPhis[ 0]=7.506912 prevPhis[ 1]=-1.528025, nextPhis[ 1]=-1.506912 <==IsSwitchingOccur() T = 9.640000 Tnext = 9.645000 Time: 9.64000e+00 states: [ 1.19440e+00 -1.07629e+00] derivs: [ -1.07652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.645000 pESO->GetIndependentVar(): 9.645000 ==>IsSwitchingOccur() prevPhis[ 0]=7.506912, nextPhis[ 0]=7.485724 prevPhis[ 1]=-1.506912, nextPhis[ 1]=-1.485724 <==IsSwitchingOccur() T = 9.645000 Tnext = 9.650000 Time: 9.64500e+00 states: [ 1.18900e+00 -1.08129e+00] derivs: [ -1.08152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.650000 pESO->GetIndependentVar(): 9.650000 ==>IsSwitchingOccur() prevPhis[ 0]=7.485724, nextPhis[ 0]=7.464461 prevPhis[ 1]=-1.485724, nextPhis[ 1]=-1.464461 <==IsSwitchingOccur() T = 9.650000 Tnext = 9.655000 Time: 9.65000e+00 states: [ 1.18358e+00 -1.08629e+00] derivs: [ -1.08652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.655000 pESO->GetIndependentVar(): 9.655000 ==>IsSwitchingOccur() prevPhis[ 0]=7.464461, nextPhis[ 0]=7.443123 prevPhis[ 1]=-1.464461, nextPhis[ 1]=-1.443123 <==IsSwitchingOccur() T = 9.655000 Tnext = 9.660000 Time: 9.65500e+00 states: [ 1.17814e+00 -1.09129e+00] derivs: [ -1.09152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.660000 pESO->GetIndependentVar(): 9.660000 ==>IsSwitchingOccur() prevPhis[ 0]=7.443123, nextPhis[ 0]=7.421710 prevPhis[ 1]=-1.443123, nextPhis[ 1]=-1.421710 <==IsSwitchingOccur() T = 9.660000 Tnext = 9.665000 Time: 9.66000e+00 states: [ 1.17267e+00 -1.09629e+00] derivs: [ -1.09652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.665000 pESO->GetIndependentVar(): 9.665000 ==>IsSwitchingOccur() prevPhis[ 0]=7.421710, nextPhis[ 0]=7.400222 prevPhis[ 1]=-1.421710, nextPhis[ 1]=-1.400222 <==IsSwitchingOccur() T = 9.665000 Tnext = 9.670000 Time: 9.66500e+00 states: [ 1.16717e+00 -1.10129e+00] derivs: [ -1.10152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.670000 pESO->GetIndependentVar(): 9.670000 ==>IsSwitchingOccur() prevPhis[ 0]=7.400222, nextPhis[ 0]=7.378659 prevPhis[ 1]=-1.400222, nextPhis[ 1]=-1.378659 <==IsSwitchingOccur() T = 9.670000 Tnext = 9.675000 Time: 9.67000e+00 states: [ 1.16165e+00 -1.10629e+00] derivs: [ -1.10652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.675000 pESO->GetIndependentVar(): 9.675000 ==>IsSwitchingOccur() prevPhis[ 0]=7.378659, nextPhis[ 0]=7.357021 prevPhis[ 1]=-1.378659, nextPhis[ 1]=-1.357021 <==IsSwitchingOccur() T = 9.675000 Tnext = 9.680000 Time: 9.67500e+00 states: [ 1.15610e+00 -1.11129e+00] derivs: [ -1.11152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.680000 pESO->GetIndependentVar(): 9.680000 ==>IsSwitchingOccur() prevPhis[ 0]=7.357021, nextPhis[ 0]=7.335307 prevPhis[ 1]=-1.357021, nextPhis[ 1]=-1.335307 <==IsSwitchingOccur() T = 9.680000 Tnext = 9.685000 Time: 9.68000e+00 states: [ 1.15053e+00 -1.11629e+00] derivs: [ -1.11652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.685000 pESO->GetIndependentVar(): 9.685000 ==>IsSwitchingOccur() prevPhis[ 0]=7.335307, nextPhis[ 0]=7.313519 prevPhis[ 1]=-1.335307, nextPhis[ 1]=-1.313519 <==IsSwitchingOccur() T = 9.685000 Tnext = 9.690000 Time: 9.68500e+00 states: [ 1.14494e+00 -1.12129e+00] derivs: [ -1.12152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.690000 pESO->GetIndependentVar(): 9.690000 ==>IsSwitchingOccur() prevPhis[ 0]=7.313519, nextPhis[ 0]=7.291656 prevPhis[ 1]=-1.313519, nextPhis[ 1]=-1.291656 <==IsSwitchingOccur() T = 9.690000 Tnext = 9.695000 Time: 9.69000e+00 states: [ 1.13932e+00 -1.12629e+00] derivs: [ -1.12652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.695000 pESO->GetIndependentVar(): 9.695000 ==>IsSwitchingOccur() prevPhis[ 0]=7.291656, nextPhis[ 0]=7.269718 prevPhis[ 1]=-1.291656, nextPhis[ 1]=-1.269718 <==IsSwitchingOccur() T = 9.695000 Tnext = 9.700000 Time: 9.69500e+00 states: [ 1.13367e+00 -1.13129e+00] derivs: [ -1.13152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.700000 pESO->GetIndependentVar(): 9.700000 ==>IsSwitchingOccur() prevPhis[ 0]=7.269718, nextPhis[ 0]=7.247705 prevPhis[ 1]=-1.269718, nextPhis[ 1]=-1.247705 <==IsSwitchingOccur() T = 9.700000 Tnext = 9.705000 Time: 9.70000e+00 states: [ 1.12800e+00 -1.13629e+00] derivs: [ -1.13652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.705000 pESO->GetIndependentVar(): 9.705000 ==>IsSwitchingOccur() prevPhis[ 0]=7.247705, nextPhis[ 0]=7.225617 prevPhis[ 1]=-1.247705, nextPhis[ 1]=-1.225617 <==IsSwitchingOccur() T = 9.705000 Tnext = 9.710000 Time: 9.70500e+00 states: [ 1.12230e+00 -1.14129e+00] derivs: [ -1.14152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.710000 pESO->GetIndependentVar(): 9.710000 ==>IsSwitchingOccur() prevPhis[ 0]=7.225617, nextPhis[ 0]=7.203454 prevPhis[ 1]=-1.225617, nextPhis[ 1]=-1.203454 <==IsSwitchingOccur() T = 9.710000 Tnext = 9.715000 Time: 9.71000e+00 states: [ 1.11658e+00 -1.14629e+00] derivs: [ -1.14652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.715000 pESO->GetIndependentVar(): 9.715000 ==>IsSwitchingOccur() prevPhis[ 0]=7.203454, nextPhis[ 0]=7.181216 prevPhis[ 1]=-1.203454, nextPhis[ 1]=-1.181216 <==IsSwitchingOccur() T = 9.715000 Tnext = 9.720000 Time: 9.71500e+00 states: [ 1.11083e+00 -1.15129e+00] derivs: [ -1.15152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.720000 pESO->GetIndependentVar(): 9.720000 ==>IsSwitchingOccur() prevPhis[ 0]=7.181216, nextPhis[ 0]=7.158902 prevPhis[ 1]=-1.181216, nextPhis[ 1]=-1.158902 <==IsSwitchingOccur() T = 9.720000 Tnext = 9.725000 Time: 9.72000e+00 states: [ 1.10506e+00 -1.15629e+00] derivs: [ -1.15652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.725000 pESO->GetIndependentVar(): 9.725000 ==>IsSwitchingOccur() prevPhis[ 0]=7.158902, nextPhis[ 0]=7.136514 prevPhis[ 1]=-1.158902, nextPhis[ 1]=-1.136514 <==IsSwitchingOccur() T = 9.725000 Tnext = 9.730000 Time: 9.72500e+00 states: [ 1.09927e+00 -1.16129e+00] derivs: [ -1.16152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.730000 pESO->GetIndependentVar(): 9.730000 ==>IsSwitchingOccur() prevPhis[ 0]=7.136514, nextPhis[ 0]=7.114051 prevPhis[ 1]=-1.136514, nextPhis[ 1]=-1.114051 <==IsSwitchingOccur() T = 9.730000 Tnext = 9.735000 Time: 9.73000e+00 states: [ 1.09345e+00 -1.16629e+00] derivs: [ -1.16652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.735000 pESO->GetIndependentVar(): 9.735000 ==>IsSwitchingOccur() prevPhis[ 0]=7.114051, nextPhis[ 0]=7.091513 prevPhis[ 1]=-1.114051, nextPhis[ 1]=-1.091513 <==IsSwitchingOccur() T = 9.735000 Tnext = 9.740000 Time: 9.73500e+00 states: [ 1.08760e+00 -1.17129e+00] derivs: [ -1.17152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.740000 pESO->GetIndependentVar(): 9.740000 ==>IsSwitchingOccur() prevPhis[ 0]=7.091513, nextPhis[ 0]=7.068900 prevPhis[ 1]=-1.091513, nextPhis[ 1]=-1.068900 <==IsSwitchingOccur() T = 9.740000 Tnext = 9.745000 Time: 9.74000e+00 states: [ 1.08173e+00 -1.17629e+00] derivs: [ -1.17652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.745000 pESO->GetIndependentVar(): 9.745000 ==>IsSwitchingOccur() prevPhis[ 0]=7.068900, nextPhis[ 0]=7.046212 prevPhis[ 1]=-1.068900, nextPhis[ 1]=-1.046212 <==IsSwitchingOccur() T = 9.745000 Tnext = 9.750000 Time: 9.74500e+00 states: [ 1.07583e+00 -1.18129e+00] derivs: [ -1.18152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.750000 pESO->GetIndependentVar(): 9.750000 ==>IsSwitchingOccur() prevPhis[ 0]=7.046212, nextPhis[ 0]=7.023449 prevPhis[ 1]=-1.046212, nextPhis[ 1]=-1.023449 <==IsSwitchingOccur() T = 9.750000 Tnext = 9.755000 Time: 9.75000e+00 states: [ 1.06991e+00 -1.18629e+00] derivs: [ -1.18652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.755000 pESO->GetIndependentVar(): 9.755000 ==>IsSwitchingOccur() prevPhis[ 0]=7.023449, nextPhis[ 0]=7.000611 prevPhis[ 1]=-1.023449, nextPhis[ 1]=-1.000611 <==IsSwitchingOccur() T = 9.755000 Tnext = 9.760000 Time: 9.75500e+00 states: [ 1.06397e+00 -1.19129e+00] derivs: [ -1.19152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.760000 pESO->GetIndependentVar(): 9.760000 ==>IsSwitchingOccur() prevPhis[ 0]=7.000611, nextPhis[ 0]=6.977698 prevPhis[ 1]=-1.000611, nextPhis[ 1]=-0.977698 <==IsSwitchingOccur() T = 9.760000 Tnext = 9.765000 Time: 9.76000e+00 states: [ 1.05800e+00 -1.19629e+00] derivs: [ -1.19652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.765000 pESO->GetIndependentVar(): 9.765000 ==>IsSwitchingOccur() prevPhis[ 0]=6.977698, nextPhis[ 0]=6.954709 prevPhis[ 1]=-0.977698, nextPhis[ 1]=-0.954709 <==IsSwitchingOccur() T = 9.765000 Tnext = 9.770000 Time: 9.76500e+00 states: [ 1.05200e+00 -1.20129e+00] derivs: [ -1.20152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.770000 pESO->GetIndependentVar(): 9.770000 ==>IsSwitchingOccur() prevPhis[ 0]=6.954709, nextPhis[ 0]=6.931646 prevPhis[ 1]=-0.954709, nextPhis[ 1]=-0.931646 <==IsSwitchingOccur() T = 9.770000 Tnext = 9.775000 Time: 9.77000e+00 states: [ 1.04598e+00 -1.20629e+00] derivs: [ -1.20652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.775000 pESO->GetIndependentVar(): 9.775000 ==>IsSwitchingOccur() prevPhis[ 0]=6.931646, nextPhis[ 0]=6.908508 prevPhis[ 1]=-0.931646, nextPhis[ 1]=-0.908508 <==IsSwitchingOccur() T = 9.775000 Tnext = 9.780000 Time: 9.77500e+00 states: [ 1.03993e+00 -1.21129e+00] derivs: [ -1.21152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.780000 pESO->GetIndependentVar(): 9.780000 ==>IsSwitchingOccur() prevPhis[ 0]=6.908508, nextPhis[ 0]=6.885295 prevPhis[ 1]=-0.908508, nextPhis[ 1]=-0.885295 <==IsSwitchingOccur() T = 9.780000 Tnext = 9.785000 Time: 9.78000e+00 states: [ 1.03386e+00 -1.21629e+00] derivs: [ -1.21652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.785000 pESO->GetIndependentVar(): 9.785000 ==>IsSwitchingOccur() prevPhis[ 0]=6.885295, nextPhis[ 0]=6.862007 prevPhis[ 1]=-0.885295, nextPhis[ 1]=-0.862007 <==IsSwitchingOccur() T = 9.785000 Tnext = 9.790000 Time: 9.78500e+00 states: [ 1.02777e+00 -1.22129e+00] derivs: [ -1.22152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.790000 pESO->GetIndependentVar(): 9.790000 ==>IsSwitchingOccur() prevPhis[ 0]=6.862007, nextPhis[ 0]=6.838644 prevPhis[ 1]=-0.862007, nextPhis[ 1]=-0.838644 <==IsSwitchingOccur() T = 9.790000 Tnext = 9.795000 Time: 9.79000e+00 states: [ 1.02164e+00 -1.22629e+00] derivs: [ -1.22652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.795000 pESO->GetIndependentVar(): 9.795000 ==>IsSwitchingOccur() prevPhis[ 0]=6.838644, nextPhis[ 0]=6.815206 prevPhis[ 1]=-0.838644, nextPhis[ 1]=-0.815206 <==IsSwitchingOccur() T = 9.795000 Tnext = 9.800000 Time: 9.79500e+00 states: [ 1.01550e+00 -1.23129e+00] derivs: [ -1.23152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.800000 pESO->GetIndependentVar(): 9.800000 ==>IsSwitchingOccur() prevPhis[ 0]=6.815206, nextPhis[ 0]=6.791693 prevPhis[ 1]=-0.815206, nextPhis[ 1]=-0.791693 <==IsSwitchingOccur() T = 9.800000 Tnext = 9.805000 Time: 9.80000e+00 states: [ 1.00933e+00 -1.23629e+00] derivs: [ -1.23652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.805000 pESO->GetIndependentVar(): 9.805000 ==>IsSwitchingOccur() prevPhis[ 0]=6.791693, nextPhis[ 0]=6.768105 prevPhis[ 1]=-0.791693, nextPhis[ 1]=-0.768105 <==IsSwitchingOccur() T = 9.805000 Tnext = 9.810000 Time: 9.80500e+00 states: [ 1.00313e+00 -1.24129e+00] derivs: [ -1.24152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.810000 pESO->GetIndependentVar(): 9.810000 ==>IsSwitchingOccur() prevPhis[ 0]=6.768105, nextPhis[ 0]=6.744441 prevPhis[ 1]=-0.768105, nextPhis[ 1]=-0.744441 <==IsSwitchingOccur() T = 9.810000 Tnext = 9.815000 Time: 9.81000e+00 states: [ 9.96910e-01 -1.24629e+00] derivs: [ -1.24652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.815000 pESO->GetIndependentVar(): 9.815000 ==>IsSwitchingOccur() prevPhis[ 0]=6.744441, nextPhis[ 0]=6.720703 prevPhis[ 1]=-0.744441, nextPhis[ 1]=-0.720703 <==IsSwitchingOccur() T = 9.815000 Tnext = 9.820000 Time: 9.81500e+00 states: [ 9.90664e-01 -1.25129e+00] derivs: [ -1.25152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.820000 pESO->GetIndependentVar(): 9.820000 ==>IsSwitchingOccur() prevPhis[ 0]=6.720703, nextPhis[ 0]=6.696890 prevPhis[ 1]=-0.720703, nextPhis[ 1]=-0.696890 <==IsSwitchingOccur() T = 9.820000 Tnext = 9.825000 Time: 9.82000e+00 states: [ 9.84393e-01 -1.25629e+00] derivs: [ -1.25652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.825000 pESO->GetIndependentVar(): 9.825000 ==>IsSwitchingOccur() prevPhis[ 0]=6.696890, nextPhis[ 0]=6.673002 prevPhis[ 1]=-0.696890, nextPhis[ 1]=-0.673002 <==IsSwitchingOccur() T = 9.825000 Tnext = 9.830000 Time: 9.82500e+00 states: [ 9.78097e-01 -1.26129e+00] derivs: [ -1.26152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.830000 pESO->GetIndependentVar(): 9.830000 ==>IsSwitchingOccur() prevPhis[ 0]=6.673002, nextPhis[ 0]=6.649039 prevPhis[ 1]=-0.673002, nextPhis[ 1]=-0.649039 <==IsSwitchingOccur() T = 9.830000 Tnext = 9.835000 Time: 9.83000e+00 states: [ 9.71776e-01 -1.26629e+00] derivs: [ -1.26652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.835000 pESO->GetIndependentVar(): 9.835000 ==>IsSwitchingOccur() prevPhis[ 0]=6.649039, nextPhis[ 0]=6.625001 prevPhis[ 1]=-0.649039, nextPhis[ 1]=-0.625001 <==IsSwitchingOccur() T = 9.835000 Tnext = 9.840000 Time: 9.83500e+00 states: [ 9.65430e-01 -1.27129e+00] derivs: [ -1.27152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.840000 pESO->GetIndependentVar(): 9.840000 ==>IsSwitchingOccur() prevPhis[ 0]=6.625001, nextPhis[ 0]=6.600888 prevPhis[ 1]=-0.625001, nextPhis[ 1]=-0.600888 <==IsSwitchingOccur() T = 9.840000 Tnext = 9.845000 Time: 9.84000e+00 states: [ 9.59059e-01 -1.27629e+00] derivs: [ -1.27652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.845000 pESO->GetIndependentVar(): 9.845000 ==>IsSwitchingOccur() prevPhis[ 0]=6.600888, nextPhis[ 0]=6.576700 prevPhis[ 1]=-0.600888, nextPhis[ 1]=-0.576700 <==IsSwitchingOccur() T = 9.845000 Tnext = 9.850000 Time: 9.84500e+00 states: [ 9.52663e-01 -1.28129e+00] derivs: [ -1.28152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.850000 pESO->GetIndependentVar(): 9.850000 ==>IsSwitchingOccur() prevPhis[ 0]=6.576700, nextPhis[ 0]=6.552437 prevPhis[ 1]=-0.576700, nextPhis[ 1]=-0.552437 <==IsSwitchingOccur() T = 9.850000 Tnext = 9.855000 Time: 9.85000e+00 states: [ 9.46242e-01 -1.28629e+00] derivs: [ -1.28652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.855000 pESO->GetIndependentVar(): 9.855000 ==>IsSwitchingOccur() prevPhis[ 0]=6.552437, nextPhis[ 0]=6.528098 prevPhis[ 1]=-0.552437, nextPhis[ 1]=-0.528098 <==IsSwitchingOccur() T = 9.855000 Tnext = 9.860000 Time: 9.85500e+00 states: [ 9.39796e-01 -1.29129e+00] derivs: [ -1.29152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.860000 pESO->GetIndependentVar(): 9.860000 ==>IsSwitchingOccur() prevPhis[ 0]=6.528098, nextPhis[ 0]=6.503685 prevPhis[ 1]=-0.528098, nextPhis[ 1]=-0.503685 <==IsSwitchingOccur() T = 9.860000 Tnext = 9.865000 Time: 9.86000e+00 states: [ 9.33325e-01 -1.29629e+00] derivs: [ -1.29652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.865000 pESO->GetIndependentVar(): 9.865000 ==>IsSwitchingOccur() prevPhis[ 0]=6.503685, nextPhis[ 0]=6.479197 prevPhis[ 1]=-0.503685, nextPhis[ 1]=-0.479197 <==IsSwitchingOccur() T = 9.865000 Tnext = 9.870000 Time: 9.86500e+00 states: [ 9.26829e-01 -1.30129e+00] derivs: [ -1.30152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.870000 pESO->GetIndependentVar(): 9.870000 ==>IsSwitchingOccur() prevPhis[ 0]=6.479197, nextPhis[ 0]=6.454634 prevPhis[ 1]=-0.479197, nextPhis[ 1]=-0.454634 <==IsSwitchingOccur() T = 9.870000 Tnext = 9.875000 Time: 9.87000e+00 states: [ 9.20308e-01 -1.30629e+00] derivs: [ -1.30652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.875000 pESO->GetIndependentVar(): 9.875000 ==>IsSwitchingOccur() prevPhis[ 0]=6.454634, nextPhis[ 0]=6.429996 prevPhis[ 1]=-0.454634, nextPhis[ 1]=-0.429996 <==IsSwitchingOccur() T = 9.875000 Tnext = 9.880000 Time: 9.87500e+00 states: [ 9.13762e-01 -1.31129e+00] derivs: [ -1.31152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.880000 pESO->GetIndependentVar(): 9.880000 ==>IsSwitchingOccur() prevPhis[ 0]=6.429996, nextPhis[ 0]=6.405283 prevPhis[ 1]=-0.429996, nextPhis[ 1]=-0.405283 <==IsSwitchingOccur() T = 9.880000 Tnext = 9.885000 Time: 9.88000e+00 states: [ 9.07191e-01 -1.31629e+00] derivs: [ -1.31652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.885000 pESO->GetIndependentVar(): 9.885000 ==>IsSwitchingOccur() prevPhis[ 0]=6.405283, nextPhis[ 0]=6.380495 prevPhis[ 1]=-0.405283, nextPhis[ 1]=-0.380495 <==IsSwitchingOccur() T = 9.885000 Tnext = 9.890000 Time: 9.88500e+00 states: [ 9.00595e-01 -1.32129e+00] derivs: [ -1.32152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.890000 pESO->GetIndependentVar(): 9.890000 ==>IsSwitchingOccur() prevPhis[ 0]=6.380495, nextPhis[ 0]=6.355632 prevPhis[ 1]=-0.380495, nextPhis[ 1]=-0.355632 <==IsSwitchingOccur() T = 9.890000 Tnext = 9.895000 Time: 9.89000e+00 states: [ 8.93974e-01 -1.32629e+00] derivs: [ -1.32652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.895000 pESO->GetIndependentVar(): 9.895000 ==>IsSwitchingOccur() prevPhis[ 0]=6.355632, nextPhis[ 0]=6.330693 prevPhis[ 1]=-0.355632, nextPhis[ 1]=-0.330693 <==IsSwitchingOccur() T = 9.895000 Tnext = 9.900000 Time: 9.89500e+00 states: [ 8.87328e-01 -1.33129e+00] derivs: [ -1.33152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.900000 pESO->GetIndependentVar(): 9.900000 ==>IsSwitchingOccur() prevPhis[ 0]=6.330693, nextPhis[ 0]=6.305680 prevPhis[ 1]=-0.330693, nextPhis[ 1]=-0.305680 <==IsSwitchingOccur() T = 9.900000 Tnext = 9.905000 Time: 9.90000e+00 states: [ 8.80656e-01 -1.33629e+00] derivs: [ -1.33652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.905000 pESO->GetIndependentVar(): 9.905000 ==>IsSwitchingOccur() prevPhis[ 0]=6.305680, nextPhis[ 0]=6.280592 prevPhis[ 1]=-0.305680, nextPhis[ 1]=-0.280592 <==IsSwitchingOccur() T = 9.905000 Tnext = 9.910000 Time: 9.90500e+00 states: [ 8.73960e-01 -1.34129e+00] derivs: [ -1.34152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.910000 pESO->GetIndependentVar(): 9.910000 ==>IsSwitchingOccur() prevPhis[ 0]=6.280592, nextPhis[ 0]=6.255429 prevPhis[ 1]=-0.280592, nextPhis[ 1]=-0.255429 <==IsSwitchingOccur() T = 9.910000 Tnext = 9.915000 Time: 9.91000e+00 states: [ 8.67239e-01 -1.34629e+00] derivs: [ -1.34652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.915000 pESO->GetIndependentVar(): 9.915000 ==>IsSwitchingOccur() prevPhis[ 0]=6.255429, nextPhis[ 0]=6.230191 prevPhis[ 1]=-0.255429, nextPhis[ 1]=-0.230191 <==IsSwitchingOccur() T = 9.915000 Tnext = 9.920000 Time: 9.91500e+00 states: [ 8.60493e-01 -1.35129e+00] derivs: [ -1.35152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.920000 pESO->GetIndependentVar(): 9.920000 ==>IsSwitchingOccur() prevPhis[ 0]=6.230191, nextPhis[ 0]=6.204878 prevPhis[ 1]=-0.230191, nextPhis[ 1]=-0.204878 <==IsSwitchingOccur() T = 9.920000 Tnext = 9.925000 Time: 9.92000e+00 states: [ 8.53722e-01 -1.35629e+00] derivs: [ -1.35652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.925000 pESO->GetIndependentVar(): 9.925000 ==>IsSwitchingOccur() prevPhis[ 0]=6.204878, nextPhis[ 0]=6.179490 prevPhis[ 1]=-0.204878, nextPhis[ 1]=-0.179490 <==IsSwitchingOccur() T = 9.925000 Tnext = 9.930000 Time: 9.92500e+00 states: [ 8.46926e-01 -1.36129e+00] derivs: [ -1.36152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.930000 pESO->GetIndependentVar(): 9.930000 ==>IsSwitchingOccur() prevPhis[ 0]=6.179490, nextPhis[ 0]=6.154027 prevPhis[ 1]=-0.179490, nextPhis[ 1]=-0.154027 <==IsSwitchingOccur() T = 9.930000 Tnext = 9.935000 Time: 9.93000e+00 states: [ 8.40105e-01 -1.36629e+00] derivs: [ -1.36652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.935000 pESO->GetIndependentVar(): 9.935000 ==>IsSwitchingOccur() prevPhis[ 0]=6.154027, nextPhis[ 0]=6.128489 prevPhis[ 1]=-0.154027, nextPhis[ 1]=-0.128489 <==IsSwitchingOccur() T = 9.935000 Tnext = 9.940000 Time: 9.93500e+00 states: [ 8.33259e-01 -1.37129e+00] derivs: [ -1.37152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.940000 pESO->GetIndependentVar(): 9.940000 ==>IsSwitchingOccur() prevPhis[ 0]=6.128489, nextPhis[ 0]=6.102875 prevPhis[ 1]=-0.128489, nextPhis[ 1]=-0.102875 <==IsSwitchingOccur() T = 9.940000 Tnext = 9.945000 Time: 9.94000e+00 states: [ 8.26388e-01 -1.37629e+00] derivs: [ -1.37652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.945000 pESO->GetIndependentVar(): 9.945000 ==>IsSwitchingOccur() prevPhis[ 0]=6.102875, nextPhis[ 0]=6.077187 prevPhis[ 1]=-0.102875, nextPhis[ 1]=-0.077187 <==IsSwitchingOccur() T = 9.945000 Tnext = 9.950000 Time: 9.94500e+00 states: [ 8.19492e-01 -1.38129e+00] derivs: [ -1.38152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.950000 pESO->GetIndependentVar(): 9.950000 ==>IsSwitchingOccur() prevPhis[ 0]=6.077187, nextPhis[ 0]=6.051424 prevPhis[ 1]=-0.077187, nextPhis[ 1]=-0.051424 <==IsSwitchingOccur() T = 9.950000 Tnext = 9.955000 Time: 9.95000e+00 states: [ 8.12571e-01 -1.38629e+00] derivs: [ -1.38652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.955000 pESO->GetIndependentVar(): 9.955000 ==>IsSwitchingOccur() prevPhis[ 0]=6.051424, nextPhis[ 0]=6.025586 prevPhis[ 1]=-0.051424, nextPhis[ 1]=-0.025586 <==IsSwitchingOccur() T = 9.955000 Tnext = 9.960000 Time: 9.95500e+00 states: [ 8.05625e-01 -1.39129e+00] derivs: [ -1.39152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.960000 pESO->GetIndependentVar(): 9.960000 ==>IsSwitchingOccur() prevPhis[ 0]=6.025586, nextPhis[ 0]=5.999673 prevPhis[ 1]=-0.025586, nextPhis[ 1]=0.000327 <==IsSwitchingOccur() T = 9.960000 Tnext = 9.965000 Time: 9.96000e+00 states: [ 7.98654e-01 -1.39629e+00] derivs: [ -1.39652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.965000 pESO->GetIndependentVar(): 9.965000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999673, nextPhis[ 0]=5.973685 prevPhis[ 1]=0.000327, nextPhis[ 1]=0.026315 <==IsSwitchingOccur() T = 9.965000 Tnext = 9.970000 Time: 9.96500e+00 states: [ 7.91658e-01 -1.40129e+00] derivs: [ -1.40152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.970000 pESO->GetIndependentVar(): 9.970000 ==>IsSwitchingOccur() prevPhis[ 0]=5.973685, nextPhis[ 0]=5.947622 prevPhis[ 1]=0.026315, nextPhis[ 1]=0.052378 <==IsSwitchingOccur() T = 9.970000 Tnext = 9.975000 Time: 9.97000e+00 states: [ 7.84637e-01 -1.40629e+00] derivs: [ -1.40652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.975000 pESO->GetIndependentVar(): 9.975000 ==>IsSwitchingOccur() prevPhis[ 0]=5.947622, nextPhis[ 0]=5.921484 prevPhis[ 1]=0.052378, nextPhis[ 1]=0.078516 <==IsSwitchingOccur() T = 9.975000 Tnext = 9.980000 Time: 9.97500e+00 states: [ 7.77591e-01 -1.41129e+00] derivs: [ -1.41152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.980000 pESO->GetIndependentVar(): 9.980000 ==>IsSwitchingOccur() prevPhis[ 0]=5.921484, nextPhis[ 0]=5.895271 prevPhis[ 1]=0.078516, nextPhis[ 1]=0.104729 <==IsSwitchingOccur() T = 9.980000 Tnext = 9.985000 Time: 9.98000e+00 states: [ 7.70520e-01 -1.41629e+00] derivs: [ -1.41652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.985000 pESO->GetIndependentVar(): 9.985000 ==>IsSwitchingOccur() prevPhis[ 0]=5.895271, nextPhis[ 0]=5.868982 prevPhis[ 1]=0.104729, nextPhis[ 1]=0.131018 <==IsSwitchingOccur() T = 9.985000 Tnext = 9.990000 Time: 9.98500e+00 states: [ 7.63424e-01 -1.42129e+00] derivs: [ -1.42152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.990000 pESO->GetIndependentVar(): 9.990000 ==>IsSwitchingOccur() prevPhis[ 0]=5.868982, nextPhis[ 0]=5.842619 prevPhis[ 1]=0.131018, nextPhis[ 1]=0.157381 <==IsSwitchingOccur() T = 9.990000 Tnext = 9.995000 Time: 9.99000e+00 states: [ 7.56303e-01 -1.42629e+00] derivs: [ -1.42652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 9.995000 pESO->GetIndependentVar(): 9.995000 ==>IsSwitchingOccur() prevPhis[ 0]=5.842619, nextPhis[ 0]=5.816181 prevPhis[ 1]=0.157381, nextPhis[ 1]=0.183819 <==IsSwitchingOccur() T = 9.995000 Tnext = 10.000000 Time: 9.99500e+00 states: [ 7.49157e-01 -1.43129e+00] derivs: [ -1.43152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.000000 pESO->GetIndependentVar(): 10.000000 ==>IsSwitchingOccur() prevPhis[ 0]=5.816181, nextPhis[ 0]=5.789668 prevPhis[ 1]=0.183819, nextPhis[ 1]=0.210332 <==IsSwitchingOccur() T = 10.000000 Tnext = 10.005000 Time: 1.00000e+01 states: [ 7.41986e-01 -1.43629e+00] derivs: [ -1.43652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.005000 pESO->GetIndependentVar(): 10.005000 ==>IsSwitchingOccur() prevPhis[ 0]=5.789668, nextPhis[ 0]=5.763080 prevPhis[ 1]=0.210332, nextPhis[ 1]=0.236920 <==IsSwitchingOccur() T = 10.005000 Tnext = 10.010000 Time: 1.00050e+01 states: [ 7.34790e-01 -1.44129e+00] derivs: [ -1.44152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.010000 pESO->GetIndependentVar(): 10.010000 ==>IsSwitchingOccur() prevPhis[ 0]=5.763080, nextPhis[ 0]=5.736417 prevPhis[ 1]=0.236920, nextPhis[ 1]=0.263583 <==IsSwitchingOccur() T = 10.010000 Tnext = 10.015000 Time: 1.00100e+01 states: [ 7.27569e-01 -1.44629e+00] derivs: [ -1.44652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.015000 pESO->GetIndependentVar(): 10.015000 ==>IsSwitchingOccur() prevPhis[ 0]=5.736417, nextPhis[ 0]=5.709679 prevPhis[ 1]=0.263583, nextPhis[ 1]=0.290321 <==IsSwitchingOccur() T = 10.015000 Tnext = 10.020000 Time: 1.00150e+01 states: [ 7.20323e-01 -1.45129e+00] derivs: [ -1.45152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.020000 pESO->GetIndependentVar(): 10.020000 ==>IsSwitchingOccur() prevPhis[ 0]=5.709679, nextPhis[ 0]=5.682866 prevPhis[ 1]=0.290321, nextPhis[ 1]=0.317134 <==IsSwitchingOccur() T = 10.020000 Tnext = 10.025000 Time: 1.00200e+01 states: [ 7.13052e-01 -1.45629e+00] derivs: [ -1.45652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.025000 pESO->GetIndependentVar(): 10.025000 ==>IsSwitchingOccur() prevPhis[ 0]=5.682866, nextPhis[ 0]=5.655978 prevPhis[ 1]=0.317134, nextPhis[ 1]=0.344022 <==IsSwitchingOccur() T = 10.025000 Tnext = 10.030000 Time: 1.00250e+01 states: [ 7.05756e-01 -1.46129e+00] derivs: [ -1.46152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.030000 pESO->GetIndependentVar(): 10.030000 ==>IsSwitchingOccur() prevPhis[ 0]=5.655978, nextPhis[ 0]=5.629014 prevPhis[ 1]=0.344022, nextPhis[ 1]=0.370986 <==IsSwitchingOccur() T = 10.030000 Tnext = 10.035000 Time: 1.00300e+01 states: [ 6.98435e-01 -1.46629e+00] derivs: [ -1.46652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.035000 pESO->GetIndependentVar(): 10.035000 ==>IsSwitchingOccur() prevPhis[ 0]=5.629014, nextPhis[ 0]=5.601976 prevPhis[ 1]=0.370986, nextPhis[ 1]=0.398024 <==IsSwitchingOccur() T = 10.035000 Tnext = 10.040000 Time: 1.00350e+01 states: [ 6.91088e-01 -1.47129e+00] derivs: [ -1.47152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.040000 pESO->GetIndependentVar(): 10.040000 ==>IsSwitchingOccur() prevPhis[ 0]=5.601976, nextPhis[ 0]=5.574863 prevPhis[ 1]=0.398024, nextPhis[ 1]=0.425137 <==IsSwitchingOccur() T = 10.040000 Tnext = 10.045000 Time: 1.00400e+01 states: [ 6.83717e-01 -1.47629e+00] derivs: [ -1.47652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.045000 pESO->GetIndependentVar(): 10.045000 ==>IsSwitchingOccur() prevPhis[ 0]=5.574863, nextPhis[ 0]=5.547675 prevPhis[ 1]=0.425137, nextPhis[ 1]=0.452325 <==IsSwitchingOccur() T = 10.045000 Tnext = 10.050000 Time: 1.00450e+01 states: [ 6.76321e-01 -1.48129e+00] derivs: [ -1.48152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.050000 pESO->GetIndependentVar(): 10.050000 ==>IsSwitchingOccur() prevPhis[ 0]=5.547675, nextPhis[ 0]=5.520412 prevPhis[ 1]=0.452325, nextPhis[ 1]=0.479588 <==IsSwitchingOccur() T = 10.050000 Tnext = 10.055000 Time: 1.00500e+01 states: [ 6.68900e-01 -1.48629e+00] derivs: [ -1.48652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.055000 pESO->GetIndependentVar(): 10.055000 ==>IsSwitchingOccur() prevPhis[ 0]=5.520412, nextPhis[ 0]=5.493074 prevPhis[ 1]=0.479588, nextPhis[ 1]=0.506926 <==IsSwitchingOccur() T = 10.055000 Tnext = 10.060000 Time: 1.00550e+01 states: [ 6.61454e-01 -1.49129e+00] derivs: [ -1.49152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.060000 pESO->GetIndependentVar(): 10.060000 ==>IsSwitchingOccur() prevPhis[ 0]=5.493074, nextPhis[ 0]=5.465661 prevPhis[ 1]=0.506926, nextPhis[ 1]=0.534339 <==IsSwitchingOccur() T = 10.060000 Tnext = 10.065000 Time: 1.00600e+01 states: [ 6.53983e-01 -1.49629e+00] derivs: [ -1.49652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.065000 pESO->GetIndependentVar(): 10.065000 ==>IsSwitchingOccur() prevPhis[ 0]=5.465661, nextPhis[ 0]=5.438173 prevPhis[ 1]=0.534339, nextPhis[ 1]=0.561827 <==IsSwitchingOccur() T = 10.065000 Tnext = 10.070000 Time: 1.00650e+01 states: [ 6.46487e-01 -1.50129e+00] derivs: [ -1.50152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.070000 pESO->GetIndependentVar(): 10.070000 ==>IsSwitchingOccur() prevPhis[ 0]=5.438173, nextPhis[ 0]=5.410609 prevPhis[ 1]=0.561827, nextPhis[ 1]=0.589391 <==IsSwitchingOccur() T = 10.070000 Tnext = 10.075000 Time: 1.00700e+01 states: [ 6.38966e-01 -1.50629e+00] derivs: [ -1.50652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.075000 pESO->GetIndependentVar(): 10.075000 ==>IsSwitchingOccur() prevPhis[ 0]=5.410609, nextPhis[ 0]=5.382971 prevPhis[ 1]=0.589391, nextPhis[ 1]=0.617029 <==IsSwitchingOccur() T = 10.075000 Tnext = 10.080000 Time: 1.00750e+01 states: [ 6.31420e-01 -1.51129e+00] derivs: [ -1.51152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.080000 pESO->GetIndependentVar(): 10.080000 ==>IsSwitchingOccur() prevPhis[ 0]=5.382971, nextPhis[ 0]=5.355258 prevPhis[ 1]=0.617029, nextPhis[ 1]=0.644742 <==IsSwitchingOccur() T = 10.080000 Tnext = 10.085000 Time: 1.00800e+01 states: [ 6.23849e-01 -1.51629e+00] derivs: [ -1.51652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.085000 pESO->GetIndependentVar(): 10.085000 ==>IsSwitchingOccur() prevPhis[ 0]=5.355258, nextPhis[ 0]=5.327470 prevPhis[ 1]=0.644742, nextPhis[ 1]=0.672530 <==IsSwitchingOccur() T = 10.085000 Tnext = 10.090000 Time: 1.00850e+01 states: [ 6.16253e-01 -1.52129e+00] derivs: [ -1.52152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.090000 pESO->GetIndependentVar(): 10.090000 ==>IsSwitchingOccur() prevPhis[ 0]=5.327470, nextPhis[ 0]=5.299607 prevPhis[ 1]=0.672530, nextPhis[ 1]=0.700393 <==IsSwitchingOccur() T = 10.090000 Tnext = 10.095000 Time: 1.00900e+01 states: [ 6.08632e-01 -1.52629e+00] derivs: [ -1.52652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.095000 pESO->GetIndependentVar(): 10.095000 ==>IsSwitchingOccur() prevPhis[ 0]=5.299607, nextPhis[ 0]=5.271669 prevPhis[ 1]=0.700393, nextPhis[ 1]=0.728331 <==IsSwitchingOccur() T = 10.095000 Tnext = 10.100000 Time: 1.00950e+01 states: [ 6.00986e-01 -1.53129e+00] derivs: [ -1.53152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.100000 pESO->GetIndependentVar(): 10.100000 ==>IsSwitchingOccur() prevPhis[ 0]=5.271669, nextPhis[ 0]=5.243656 prevPhis[ 1]=0.728331, nextPhis[ 1]=0.756344 <==IsSwitchingOccur() T = 10.100000 Tnext = 10.105000 Time: 1.01000e+01 states: [ 5.93315e-01 -1.53629e+00] derivs: [ -1.53652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.105000 pESO->GetIndependentVar(): 10.105000 ==>IsSwitchingOccur() prevPhis[ 0]=5.243656, nextPhis[ 0]=5.215568 prevPhis[ 1]=0.756344, nextPhis[ 1]=0.784432 <==IsSwitchingOccur() T = 10.105000 Tnext = 10.110000 Time: 1.01050e+01 states: [ 5.85619e-01 -1.54129e+00] derivs: [ -1.54152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.110000 pESO->GetIndependentVar(): 10.110000 ==>IsSwitchingOccur() prevPhis[ 0]=5.215568, nextPhis[ 0]=5.187405 prevPhis[ 1]=0.784432, nextPhis[ 1]=0.812595 <==IsSwitchingOccur() T = 10.110000 Tnext = 10.115000 Time: 1.01100e+01 states: [ 5.77898e-01 -1.54629e+00] derivs: [ -1.54652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.115000 pESO->GetIndependentVar(): 10.115000 ==>IsSwitchingOccur() prevPhis[ 0]=5.187405, nextPhis[ 0]=5.159166 prevPhis[ 1]=0.812595, nextPhis[ 1]=0.840834 <==IsSwitchingOccur() T = 10.115000 Tnext = 10.120000 Time: 1.01150e+01 states: [ 5.70152e-01 -1.55129e+00] derivs: [ -1.55152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.120000 pESO->GetIndependentVar(): 10.120000 ==>IsSwitchingOccur() prevPhis[ 0]=5.159166, nextPhis[ 0]=5.130853 prevPhis[ 1]=0.840834, nextPhis[ 1]=0.869147 <==IsSwitchingOccur() T = 10.120000 Tnext = 10.125000 Time: 1.01200e+01 states: [ 5.62381e-01 -1.55629e+00] derivs: [ -1.55652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.125000 pESO->GetIndependentVar(): 10.125000 ==>IsSwitchingOccur() prevPhis[ 0]=5.130853, nextPhis[ 0]=5.102465 prevPhis[ 1]=0.869147, nextPhis[ 1]=0.897535 <==IsSwitchingOccur() T = 10.125000 Tnext = 10.130000 Time: 1.01250e+01 states: [ 5.54585e-01 -1.56129e+00] derivs: [ -1.56152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.130000 pESO->GetIndependentVar(): 10.130000 ==>IsSwitchingOccur() prevPhis[ 0]=5.102465, nextPhis[ 0]=5.074002 prevPhis[ 1]=0.897535, nextPhis[ 1]=0.925998 <==IsSwitchingOccur() T = 10.130000 Tnext = 10.135000 Time: 1.01300e+01 states: [ 5.46764e-01 -1.56629e+00] derivs: [ -1.56652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.135000 pESO->GetIndependentVar(): 10.135000 ==>IsSwitchingOccur() prevPhis[ 0]=5.074002, nextPhis[ 0]=5.045464 prevPhis[ 1]=0.925998, nextPhis[ 1]=0.954536 <==IsSwitchingOccur() T = 10.135000 Tnext = 10.140000 Time: 1.01350e+01 states: [ 5.38918e-01 -1.57129e+00] derivs: [ -1.57152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.140000 pESO->GetIndependentVar(): 10.140000 ==>IsSwitchingOccur() prevPhis[ 0]=5.045464, nextPhis[ 0]=5.016851 prevPhis[ 1]=0.954536, nextPhis[ 1]=0.983149 <==IsSwitchingOccur() T = 10.140000 Tnext = 10.145000 Time: 1.01400e+01 states: [ 5.31047e-01 -1.57629e+00] derivs: [ -1.57652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.145000 pESO->GetIndependentVar(): 10.145000 ==>IsSwitchingOccur() prevPhis[ 0]=5.016851, nextPhis[ 0]=4.988163 prevPhis[ 1]=0.983149, nextPhis[ 1]=1.011837 <==IsSwitchingOccur() T = 10.145000 Tnext = 10.150000 Time: 1.01450e+01 states: [ 5.23151e-01 -1.58129e+00] derivs: [ -1.58152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.150000 pESO->GetIndependentVar(): 10.150000 ==>IsSwitchingOccur() prevPhis[ 0]=4.988163, nextPhis[ 0]=4.959400 prevPhis[ 1]=1.011837, nextPhis[ 1]=1.040600 <==IsSwitchingOccur() T = 10.150000 Tnext = 10.155000 Time: 1.01500e+01 states: [ 5.15230e-01 -1.58629e+00] derivs: [ -1.58652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.155000 pESO->GetIndependentVar(): 10.155000 ==>IsSwitchingOccur() prevPhis[ 0]=4.959400, nextPhis[ 0]=4.930562 prevPhis[ 1]=1.040600, nextPhis[ 1]=1.069438 <==IsSwitchingOccur() T = 10.155000 Tnext = 10.160000 Time: 1.01550e+01 states: [ 5.07284e-01 -1.59129e+00] derivs: [ -1.59152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.160000 pESO->GetIndependentVar(): 10.160000 ==>IsSwitchingOccur() prevPhis[ 0]=4.930562, nextPhis[ 0]=4.901648 prevPhis[ 1]=1.069438, nextPhis[ 1]=1.098352 <==IsSwitchingOccur() T = 10.160000 Tnext = 10.165000 Time: 1.01600e+01 states: [ 4.99313e-01 -1.59629e+00] derivs: [ -1.59652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.165000 pESO->GetIndependentVar(): 10.165000 ==>IsSwitchingOccur() prevPhis[ 0]=4.901648, nextPhis[ 0]=4.872660 prevPhis[ 1]=1.098352, nextPhis[ 1]=1.127340 <==IsSwitchingOccur() T = 10.165000 Tnext = 10.170000 Time: 1.01650e+01 states: [ 4.91316e-01 -1.60129e+00] derivs: [ -1.60152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.170000 pESO->GetIndependentVar(): 10.170000 ==>IsSwitchingOccur() prevPhis[ 0]=4.872660, nextPhis[ 0]=4.843597 prevPhis[ 1]=1.127340, nextPhis[ 1]=1.156403 <==IsSwitchingOccur() T = 10.170000 Tnext = 10.175000 Time: 1.01700e+01 states: [ 4.83295e-01 -1.60629e+00] derivs: [ -1.60652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.175000 pESO->GetIndependentVar(): 10.175000 ==>IsSwitchingOccur() prevPhis[ 0]=4.843597, nextPhis[ 0]=4.814459 prevPhis[ 1]=1.156403, nextPhis[ 1]=1.185541 <==IsSwitchingOccur() T = 10.175000 Tnext = 10.180000 Time: 1.01750e+01 states: [ 4.75249e-01 -1.61129e+00] derivs: [ -1.61152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.180000 pESO->GetIndependentVar(): 10.180000 ==>IsSwitchingOccur() prevPhis[ 0]=4.814459, nextPhis[ 0]=4.785246 prevPhis[ 1]=1.185541, nextPhis[ 1]=1.214754 <==IsSwitchingOccur() T = 10.180000 Tnext = 10.185000 Time: 1.01800e+01 states: [ 4.67178e-01 -1.61629e+00] derivs: [ -1.61652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.185000 pESO->GetIndependentVar(): 10.185000 ==>IsSwitchingOccur() prevPhis[ 0]=4.785246, nextPhis[ 0]=4.755958 prevPhis[ 1]=1.214754, nextPhis[ 1]=1.244042 <==IsSwitchingOccur() T = 10.185000 Tnext = 10.190000 Time: 1.01850e+01 states: [ 4.59082e-01 -1.62129e+00] derivs: [ -1.62152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.190000 pESO->GetIndependentVar(): 10.190000 ==>IsSwitchingOccur() prevPhis[ 0]=4.755958, nextPhis[ 0]=4.726595 prevPhis[ 1]=1.244042, nextPhis[ 1]=1.273405 <==IsSwitchingOccur() T = 10.190000 Tnext = 10.195000 Time: 1.01900e+01 states: [ 4.50961e-01 -1.62629e+00] derivs: [ -1.62652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.195000 pESO->GetIndependentVar(): 10.195000 ==>IsSwitchingOccur() prevPhis[ 0]=4.726595, nextPhis[ 0]=4.697157 prevPhis[ 1]=1.273405, nextPhis[ 1]=1.302843 <==IsSwitchingOccur() T = 10.195000 Tnext = 10.200000 Time: 1.01950e+01 states: [ 4.42815e-01 -1.63129e+00] derivs: [ -1.63152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.200000 pESO->GetIndependentVar(): 10.200000 ==>IsSwitchingOccur() prevPhis[ 0]=4.697157, nextPhis[ 0]=4.667644 prevPhis[ 1]=1.302843, nextPhis[ 1]=1.332356 <==IsSwitchingOccur() T = 10.200000 Tnext = 10.205000 Time: 1.02000e+01 states: [ 4.34644e-01 -1.63629e+00] derivs: [ -1.63652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.205000 pESO->GetIndependentVar(): 10.205000 ==>IsSwitchingOccur() prevPhis[ 0]=4.667644, nextPhis[ 0]=4.638055 prevPhis[ 1]=1.332356, nextPhis[ 1]=1.361945 <==IsSwitchingOccur() T = 10.205000 Tnext = 10.210000 Time: 1.02050e+01 states: [ 4.26448e-01 -1.64129e+00] derivs: [ -1.64152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.210000 pESO->GetIndependentVar(): 10.210000 ==>IsSwitchingOccur() prevPhis[ 0]=4.638055, nextPhis[ 0]=4.608392 prevPhis[ 1]=1.361945, nextPhis[ 1]=1.391608 <==IsSwitchingOccur() T = 10.210000 Tnext = 10.215000 Time: 1.02100e+01 states: [ 4.18227e-01 -1.64629e+00] derivs: [ -1.64652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.215000 pESO->GetIndependentVar(): 10.215000 ==>IsSwitchingOccur() prevPhis[ 0]=4.608392, nextPhis[ 0]=4.578654 prevPhis[ 1]=1.391608, nextPhis[ 1]=1.421346 <==IsSwitchingOccur() T = 10.215000 Tnext = 10.220000 Time: 1.02150e+01 states: [ 4.09981e-01 -1.65129e+00] derivs: [ -1.65152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.220000 pESO->GetIndependentVar(): 10.220000 ==>IsSwitchingOccur() prevPhis[ 0]=4.578654, nextPhis[ 0]=4.548841 prevPhis[ 1]=1.421346, nextPhis[ 1]=1.451159 <==IsSwitchingOccur() T = 10.220000 Tnext = 10.225000 Time: 1.02200e+01 states: [ 4.01710e-01 -1.65629e+00] derivs: [ -1.65652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.225000 pESO->GetIndependentVar(): 10.225000 ==>IsSwitchingOccur() prevPhis[ 0]=4.548841, nextPhis[ 0]=4.518953 prevPhis[ 1]=1.451159, nextPhis[ 1]=1.481047 <==IsSwitchingOccur() T = 10.225000 Tnext = 10.230000 Time: 1.02250e+01 states: [ 3.93414e-01 -1.66129e+00] derivs: [ -1.66152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.230000 pESO->GetIndependentVar(): 10.230000 ==>IsSwitchingOccur() prevPhis[ 0]=4.518953, nextPhis[ 0]=4.488990 prevPhis[ 1]=1.481047, nextPhis[ 1]=1.511010 <==IsSwitchingOccur() T = 10.230000 Tnext = 10.235000 Time: 1.02300e+01 states: [ 3.85093e-01 -1.66629e+00] derivs: [ -1.66652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.235000 pESO->GetIndependentVar(): 10.235000 ==>IsSwitchingOccur() prevPhis[ 0]=4.488990, nextPhis[ 0]=4.458952 prevPhis[ 1]=1.511010, nextPhis[ 1]=1.541048 <==IsSwitchingOccur() T = 10.235000 Tnext = 10.240000 Time: 1.02350e+01 states: [ 3.76747e-01 -1.67129e+00] derivs: [ -1.67152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.240000 pESO->GetIndependentVar(): 10.240000 ==>IsSwitchingOccur() prevPhis[ 0]=4.458952, nextPhis[ 0]=4.428839 prevPhis[ 1]=1.541048, nextPhis[ 1]=1.571161 <==IsSwitchingOccur() T = 10.240000 Tnext = 10.245000 Time: 1.02400e+01 states: [ 3.68376e-01 -1.67629e+00] derivs: [ -1.67652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.245000 pESO->GetIndependentVar(): 10.245000 ==>IsSwitchingOccur() prevPhis[ 0]=4.428839, nextPhis[ 0]=4.398650 prevPhis[ 1]=1.571161, nextPhis[ 1]=1.601350 <==IsSwitchingOccur() T = 10.245000 Tnext = 10.250000 Time: 1.02450e+01 states: [ 3.59980e-01 -1.68129e+00] derivs: [ -1.68152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.250000 pESO->GetIndependentVar(): 10.250000 ==>IsSwitchingOccur() prevPhis[ 0]=4.398650, nextPhis[ 0]=4.368387 prevPhis[ 1]=1.601350, nextPhis[ 1]=1.631613 <==IsSwitchingOccur() T = 10.250000 Tnext = 10.255000 Time: 1.02500e+01 states: [ 3.51559e-01 -1.68629e+00] derivs: [ -1.68652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.255000 pESO->GetIndependentVar(): 10.255000 ==>IsSwitchingOccur() prevPhis[ 0]=4.368387, nextPhis[ 0]=4.338049 prevPhis[ 1]=1.631613, nextPhis[ 1]=1.661951 <==IsSwitchingOccur() T = 10.255000 Tnext = 10.260000 Time: 1.02550e+01 states: [ 3.43113e-01 -1.69129e+00] derivs: [ -1.69152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.260000 pESO->GetIndependentVar(): 10.260000 ==>IsSwitchingOccur() prevPhis[ 0]=4.338049, nextPhis[ 0]=4.307636 prevPhis[ 1]=1.661951, nextPhis[ 1]=1.692364 <==IsSwitchingOccur() T = 10.260000 Tnext = 10.265000 Time: 1.02600e+01 states: [ 3.34642e-01 -1.69629e+00] derivs: [ -1.69652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.265000 pESO->GetIndependentVar(): 10.265000 ==>IsSwitchingOccur() prevPhis[ 0]=4.307636, nextPhis[ 0]=4.277148 prevPhis[ 1]=1.692364, nextPhis[ 1]=1.722852 <==IsSwitchingOccur() T = 10.265000 Tnext = 10.270000 Time: 1.02650e+01 states: [ 3.26146e-01 -1.70129e+00] derivs: [ -1.70152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.270000 pESO->GetIndependentVar(): 10.270000 ==>IsSwitchingOccur() prevPhis[ 0]=4.277148, nextPhis[ 0]=4.246585 prevPhis[ 1]=1.722852, nextPhis[ 1]=1.753415 <==IsSwitchingOccur() T = 10.270000 Tnext = 10.275000 Time: 1.02700e+01 states: [ 3.17625e-01 -1.70629e+00] derivs: [ -1.70652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.275000 pESO->GetIndependentVar(): 10.275000 ==>IsSwitchingOccur() prevPhis[ 0]=4.246585, nextPhis[ 0]=4.215947 prevPhis[ 1]=1.753415, nextPhis[ 1]=1.784053 <==IsSwitchingOccur() T = 10.275000 Tnext = 10.280000 Time: 1.02750e+01 states: [ 3.09079e-01 -1.71129e+00] derivs: [ -1.71152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.280000 pESO->GetIndependentVar(): 10.280000 ==>IsSwitchingOccur() prevPhis[ 0]=4.215947, nextPhis[ 0]=4.185234 prevPhis[ 1]=1.784053, nextPhis[ 1]=1.814766 <==IsSwitchingOccur() T = 10.280000 Tnext = 10.285000 Time: 1.02800e+01 states: [ 3.00508e-01 -1.71629e+00] derivs: [ -1.71652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.285000 pESO->GetIndependentVar(): 10.285000 ==>IsSwitchingOccur() prevPhis[ 0]=4.185234, nextPhis[ 0]=4.154446 prevPhis[ 1]=1.814766, nextPhis[ 1]=1.845554 <==IsSwitchingOccur() T = 10.285000 Tnext = 10.290000 Time: 1.02850e+01 states: [ 2.91912e-01 -1.72129e+00] derivs: [ -1.72152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.290000 pESO->GetIndependentVar(): 10.290000 ==>IsSwitchingOccur() prevPhis[ 0]=4.154446, nextPhis[ 0]=4.123582 prevPhis[ 1]=1.845554, nextPhis[ 1]=1.876418 <==IsSwitchingOccur() T = 10.290000 Tnext = 10.295000 Time: 1.02900e+01 states: [ 2.83291e-01 -1.72629e+00] derivs: [ -1.72652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.295000 pESO->GetIndependentVar(): 10.295000 ==>IsSwitchingOccur() prevPhis[ 0]=4.123582, nextPhis[ 0]=4.092644 prevPhis[ 1]=1.876418, nextPhis[ 1]=1.907356 <==IsSwitchingOccur() T = 10.295000 Tnext = 10.300000 Time: 1.02950e+01 states: [ 2.74644e-01 -1.73129e+00] derivs: [ -1.73152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.300000 pESO->GetIndependentVar(): 10.300000 ==>IsSwitchingOccur() prevPhis[ 0]=4.092644, nextPhis[ 0]=4.061631 prevPhis[ 1]=1.907356, nextPhis[ 1]=1.938369 <==IsSwitchingOccur() T = 10.300000 Tnext = 10.305000 Time: 1.03000e+01 states: [ 2.65973e-01 -1.73629e+00] derivs: [ -1.73652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.305000 pESO->GetIndependentVar(): 10.305000 ==>IsSwitchingOccur() prevPhis[ 0]=4.061631, nextPhis[ 0]=4.030543 prevPhis[ 1]=1.938369, nextPhis[ 1]=1.969457 <==IsSwitchingOccur() T = 10.305000 Tnext = 10.310000 Time: 1.03050e+01 states: [ 2.57277e-01 -1.74129e+00] derivs: [ -1.74152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.310000 pESO->GetIndependentVar(): 10.310000 ==>IsSwitchingOccur() prevPhis[ 0]=4.030543, nextPhis[ 0]=3.999380 prevPhis[ 1]=1.969457, nextPhis[ 1]=2.000620 <==IsSwitchingOccur() T = 10.310000 Tnext = 10.315000 Time: 1.03100e+01 states: [ 2.48556e-01 -1.74629e+00] derivs: [ -1.74652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.315000 pESO->GetIndependentVar(): 10.315000 ==>IsSwitchingOccur() prevPhis[ 0]=3.999380, nextPhis[ 0]=3.968142 prevPhis[ 1]=2.000620, nextPhis[ 1]=2.031858 <==IsSwitchingOccur() T = 10.315000 Tnext = 10.320000 Time: 1.03150e+01 states: [ 2.39810e-01 -1.75129e+00] derivs: [ -1.75152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.320000 pESO->GetIndependentVar(): 10.320000 ==>IsSwitchingOccur() prevPhis[ 0]=3.968142, nextPhis[ 0]=3.936829 prevPhis[ 1]=2.031858, nextPhis[ 1]=2.063171 <==IsSwitchingOccur() T = 10.320000 Tnext = 10.325000 Time: 1.03200e+01 states: [ 2.31039e-01 -1.75629e+00] derivs: [ -1.75652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.325000 pESO->GetIndependentVar(): 10.325000 ==>IsSwitchingOccur() prevPhis[ 0]=3.936829, nextPhis[ 0]=3.905441 prevPhis[ 1]=2.063171, nextPhis[ 1]=2.094559 <==IsSwitchingOccur() T = 10.325000 Tnext = 10.330000 Time: 1.03250e+01 states: [ 2.22243e-01 -1.76129e+00] derivs: [ -1.76152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.330000 pESO->GetIndependentVar(): 10.330000 ==>IsSwitchingOccur() prevPhis[ 0]=3.905441, nextPhis[ 0]=3.873978 prevPhis[ 1]=2.094559, nextPhis[ 1]=2.126022 <==IsSwitchingOccur() T = 10.330000 Tnext = 10.335000 Time: 1.03300e+01 states: [ 2.13422e-01 -1.76629e+00] derivs: [ -1.76652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.335000 pESO->GetIndependentVar(): 10.335000 ==>IsSwitchingOccur() prevPhis[ 0]=3.873978, nextPhis[ 0]=3.842439 prevPhis[ 1]=2.126022, nextPhis[ 1]=2.157561 <==IsSwitchingOccur() T = 10.335000 Tnext = 10.340000 Time: 1.03350e+01 states: [ 2.04576e-01 -1.77129e+00] derivs: [ -1.77152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.340000 pESO->GetIndependentVar(): 10.340000 ==>IsSwitchingOccur() prevPhis[ 0]=3.842439, nextPhis[ 0]=3.810826 prevPhis[ 1]=2.157561, nextPhis[ 1]=2.189174 <==IsSwitchingOccur() T = 10.340000 Tnext = 10.345000 Time: 1.03400e+01 states: [ 1.95705e-01 -1.77629e+00] derivs: [ -1.77652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.345000 pESO->GetIndependentVar(): 10.345000 ==>IsSwitchingOccur() prevPhis[ 0]=3.810826, nextPhis[ 0]=3.779138 prevPhis[ 1]=2.189174, nextPhis[ 1]=2.220862 <==IsSwitchingOccur() T = 10.345000 Tnext = 10.350000 Time: 1.03450e+01 states: [ 1.86809e-01 -1.78129e+00] derivs: [ -1.78152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.350000 pESO->GetIndependentVar(): 10.350000 ==>IsSwitchingOccur() prevPhis[ 0]=3.779138, nextPhis[ 0]=3.747375 prevPhis[ 1]=2.220862, nextPhis[ 1]=2.252625 <==IsSwitchingOccur() T = 10.350000 Tnext = 10.355000 Time: 1.03500e+01 states: [ 1.77888e-01 -1.78629e+00] derivs: [ -1.78652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.355000 pESO->GetIndependentVar(): 10.355000 ==>IsSwitchingOccur() prevPhis[ 0]=3.747375, nextPhis[ 0]=3.715537 prevPhis[ 1]=2.252625, nextPhis[ 1]=2.284463 <==IsSwitchingOccur() T = 10.355000 Tnext = 10.360000 Time: 1.03550e+01 states: [ 1.68942e-01 -1.79129e+00] derivs: [ -1.79152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.360000 pESO->GetIndependentVar(): 10.360000 ==>IsSwitchingOccur() prevPhis[ 0]=3.715537, nextPhis[ 0]=3.683624 prevPhis[ 1]=2.284463, nextPhis[ 1]=2.316376 <==IsSwitchingOccur() T = 10.360000 Tnext = 10.365000 Time: 1.03600e+01 states: [ 1.59971e-01 -1.79629e+00] derivs: [ -1.79652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.365000 pESO->GetIndependentVar(): 10.365000 ==>IsSwitchingOccur() prevPhis[ 0]=3.683624, nextPhis[ 0]=3.651636 prevPhis[ 1]=2.316376, nextPhis[ 1]=2.348364 <==IsSwitchingOccur() T = 10.365000 Tnext = 10.370000 Time: 1.03650e+01 states: [ 1.50975e-01 -1.80129e+00] derivs: [ -1.80152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.370000 pESO->GetIndependentVar(): 10.370000 ==>IsSwitchingOccur() prevPhis[ 0]=3.651636, nextPhis[ 0]=3.619573 prevPhis[ 1]=2.348364, nextPhis[ 1]=2.380427 <==IsSwitchingOccur() T = 10.370000 Tnext = 10.375000 Time: 1.03700e+01 states: [ 1.41954e-01 -1.80629e+00] derivs: [ -1.80652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.375000 pESO->GetIndependentVar(): 10.375000 ==>IsSwitchingOccur() prevPhis[ 0]=3.619573, nextPhis[ 0]=3.587435 prevPhis[ 1]=2.380427, nextPhis[ 1]=2.412565 <==IsSwitchingOccur() T = 10.375000 Tnext = 10.380000 Time: 1.03750e+01 states: [ 1.32908e-01 -1.81129e+00] derivs: [ -1.81152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.380000 pESO->GetIndependentVar(): 10.380000 ==>IsSwitchingOccur() prevPhis[ 0]=3.587435, nextPhis[ 0]=3.555221 prevPhis[ 1]=2.412565, nextPhis[ 1]=2.444779 <==IsSwitchingOccur() T = 10.380000 Tnext = 10.385000 Time: 1.03800e+01 states: [ 1.23837e-01 -1.81629e+00] derivs: [ -1.81652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.385000 pESO->GetIndependentVar(): 10.385000 ==>IsSwitchingOccur() prevPhis[ 0]=3.555221, nextPhis[ 0]=3.522933 prevPhis[ 1]=2.444779, nextPhis[ 1]=2.477067 <==IsSwitchingOccur() T = 10.385000 Tnext = 10.390000 Time: 1.03850e+01 states: [ 1.14741e-01 -1.82129e+00] derivs: [ -1.82152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.390000 pESO->GetIndependentVar(): 10.390000 ==>IsSwitchingOccur() prevPhis[ 0]=3.522933, nextPhis[ 0]=3.490570 prevPhis[ 1]=2.477067, nextPhis[ 1]=2.509430 <==IsSwitchingOccur() T = 10.390000 Tnext = 10.395000 Time: 1.03900e+01 states: [ 1.05620e-01 -1.82629e+00] derivs: [ -1.82652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.395000 pESO->GetIndependentVar(): 10.395000 ==>IsSwitchingOccur() prevPhis[ 0]=3.490570, nextPhis[ 0]=3.458132 prevPhis[ 1]=2.509430, nextPhis[ 1]=2.541868 <==IsSwitchingOccur() T = 10.395000 Tnext = 10.400000 Time: 1.03950e+01 states: [ 9.64737e-02 -1.83129e+00] derivs: [ -1.83152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.400000 pESO->GetIndependentVar(): 10.400000 ==>IsSwitchingOccur() prevPhis[ 0]=3.458132, nextPhis[ 0]=3.425619 prevPhis[ 1]=2.541868, nextPhis[ 1]=2.574381 <==IsSwitchingOccur() T = 10.400000 Tnext = 10.405000 Time: 1.04000e+01 states: [ 8.73027e-02 -1.83629e+00] derivs: [ -1.83652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.405000 pESO->GetIndependentVar(): 10.405000 ==>IsSwitchingOccur() prevPhis[ 0]=3.425619, nextPhis[ 0]=3.393031 prevPhis[ 1]=2.574381, nextPhis[ 1]=2.606969 <==IsSwitchingOccur() T = 10.405000 Tnext = 10.410000 Time: 1.04050e+01 states: [ 7.81067e-02 -1.84129e+00] derivs: [ -1.84152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.410000 pESO->GetIndependentVar(): 10.410000 ==>IsSwitchingOccur() prevPhis[ 0]=3.393031, nextPhis[ 0]=3.360368 prevPhis[ 1]=2.606969, nextPhis[ 1]=2.639632 <==IsSwitchingOccur() T = 10.410000 Tnext = 10.415000 Time: 1.04100e+01 states: [ 6.88856e-02 -1.84629e+00] derivs: [ -1.84652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.415000 pESO->GetIndependentVar(): 10.415000 ==>IsSwitchingOccur() prevPhis[ 0]=3.360368, nextPhis[ 0]=3.327630 prevPhis[ 1]=2.639632, nextPhis[ 1]=2.672370 <==IsSwitchingOccur() T = 10.415000 Tnext = 10.420000 Time: 1.04150e+01 states: [ 5.96396e-02 -1.85129e+00] derivs: [ -1.85152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.420000 pESO->GetIndependentVar(): 10.420000 ==>IsSwitchingOccur() prevPhis[ 0]=3.327630, nextPhis[ 0]=3.294816 prevPhis[ 1]=2.672370, nextPhis[ 1]=2.705184 <==IsSwitchingOccur() T = 10.420000 Tnext = 10.425000 Time: 1.04200e+01 states: [ 5.03685e-02 -1.85629e+00] derivs: [ -1.85652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.425000 pESO->GetIndependentVar(): 10.425000 ==>IsSwitchingOccur() prevPhis[ 0]=3.294816, nextPhis[ 0]=3.261928 prevPhis[ 1]=2.705184, nextPhis[ 1]=2.738072 <==IsSwitchingOccur() T = 10.425000 Tnext = 10.430000 Time: 1.04250e+01 states: [ 4.10725e-02 -1.86129e+00] derivs: [ -1.86152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.430000 pESO->GetIndependentVar(): 10.430000 ==>IsSwitchingOccur() prevPhis[ 0]=3.261928, nextPhis[ 0]=3.228965 prevPhis[ 1]=2.738072, nextPhis[ 1]=2.771035 <==IsSwitchingOccur() T = 10.430000 Tnext = 10.435000 Time: 1.04300e+01 states: [ 3.17515e-02 -1.86629e+00] derivs: [ -1.86652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.435000 pESO->GetIndependentVar(): 10.435000 ==>IsSwitchingOccur() prevPhis[ 0]=3.228965, nextPhis[ 0]=3.195927 prevPhis[ 1]=2.771035, nextPhis[ 1]=2.804073 <==IsSwitchingOccur() T = 10.435000 Tnext = 10.440000 Time: 1.04350e+01 states: [ 2.24053e-02 -1.87129e+00] derivs: [ -1.87179e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.440000 pESO->GetIndependentVar(): 10.440000 ==>IsSwitchingOccur() prevPhis[ 0]=3.195927, nextPhis[ 0]=3.162814 prevPhis[ 1]=2.804073, nextPhis[ 1]=2.837186 <==IsSwitchingOccur() T = 10.440000 Tnext = 10.445000 Time: 1.04400e+01 states: [ 1.30342e-02 -1.87629e+00] derivs: [ -1.87679e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.445000 pESO->GetIndependentVar(): 10.445000 ==>IsSwitchingOccur() prevPhis[ 0]=3.162814, nextPhis[ 0]=3.129625 prevPhis[ 1]=2.837186, nextPhis[ 1]=2.870375 <==IsSwitchingOccur() T = 10.445000 Tnext = 10.450000 Time: 1.04450e+01 states: [ 3.63811e-03 -1.88129e+00] derivs: [ -1.88179e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.450000 pESO->GetIndependentVar(): 10.450000 ==>IsSwitchingOccur() prevPhis[ 0]=3.129625, nextPhis[ 0]=3.096362 prevPhis[ 1]=2.870375, nextPhis[ 1]=2.903638 <==IsSwitchingOccur() T = 10.450000 Tnext = 10.455000 Time: 1.04500e+01 states: [ -5.78300e-03 -1.88629e+00] derivs: [ -1.88679e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.455000 pESO->GetIndependentVar(): 10.455000 ==>IsSwitchingOccur() prevPhis[ 0]=3.096362, nextPhis[ 0]=3.063024 prevPhis[ 1]=2.903638, nextPhis[ 1]=2.936976 <==IsSwitchingOccur() T = 10.455000 Tnext = 10.460000 Time: 1.04550e+01 states: [ -1.52291e-02 -1.89129e+00] derivs: [ -1.89179e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.460000 pESO->GetIndependentVar(): 10.460000 ==>IsSwitchingOccur() prevPhis[ 0]=3.063024, nextPhis[ 0]=3.029610 prevPhis[ 1]=2.936976, nextPhis[ 1]=2.970390 <==IsSwitchingOccur() T = 10.460000 Tnext = 10.465000 Time: 1.04600e+01 states: [ -2.47002e-02 -1.89629e+00] derivs: [ -1.89679e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.465000 pESO->GetIndependentVar(): 10.465000 ==>IsSwitchingOccur() prevPhis[ 0]=3.029610, nextPhis[ 0]=2.996122 prevPhis[ 1]=2.970390, nextPhis[ 1]=3.003878 <==IsSwitchingOccur() T = 10.465000 Tnext = 10.470000 Time: 1.04650e+01 states: [ -3.41964e-02 -1.90129e+00] derivs: [ -1.90179e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.470000 pESO->GetIndependentVar(): 10.470000 ==>IsSwitchingOccur() prevPhis[ 0]=2.996122, nextPhis[ 0]=2.962559 prevPhis[ 1]=3.003878, nextPhis[ 1]=3.037441 <==IsSwitchingOccur() T = 10.470000 Tnext = 10.475000 Time: 1.04700e+01 states: [ -4.37174e-02 -1.90629e+00] derivs: [ -1.90664e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.475000 pESO->GetIndependentVar(): 10.475000 ==>IsSwitchingOccur() prevPhis[ 0]=2.962559, nextPhis[ 0]=2.928921 prevPhis[ 1]=3.037441, nextPhis[ 1]=3.071079 <==IsSwitchingOccur() T = 10.475000 Tnext = 10.480000 Time: 1.04750e+01 states: [ -5.32634e-02 -1.91129e+00] derivs: [ -1.91152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.480000 pESO->GetIndependentVar(): 10.480000 ==>IsSwitchingOccur() prevPhis[ 0]=2.928921, nextPhis[ 0]=2.895208 prevPhis[ 1]=3.071079, nextPhis[ 1]=3.104792 <==IsSwitchingOccur() T = 10.480000 Tnext = 10.485000 Time: 1.04800e+01 states: [ -6.28344e-02 -1.91629e+00] derivs: [ -1.91652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.485000 pESO->GetIndependentVar(): 10.485000 ==>IsSwitchingOccur() prevPhis[ 0]=2.895208, nextPhis[ 0]=2.861419 prevPhis[ 1]=3.104792, nextPhis[ 1]=3.138581 <==IsSwitchingOccur() T = 10.485000 Tnext = 10.490000 Time: 1.04850e+01 states: [ -7.24305e-02 -1.92129e+00] derivs: [ -1.92152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.490000 pESO->GetIndependentVar(): 10.490000 ==>IsSwitchingOccur() prevPhis[ 0]=2.861419, nextPhis[ 0]=2.827556 prevPhis[ 1]=3.138581, nextPhis[ 1]=3.172444 <==IsSwitchingOccur() T = 10.490000 Tnext = 10.495000 Time: 1.04900e+01 states: [ -8.20515e-02 -1.92629e+00] derivs: [ -1.92652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.495000 pESO->GetIndependentVar(): 10.495000 ==>IsSwitchingOccur() prevPhis[ 0]=2.827556, nextPhis[ 0]=2.793618 prevPhis[ 1]=3.172444, nextPhis[ 1]=3.206382 <==IsSwitchingOccur() T = 10.495000 Tnext = 10.500000 Time: 1.04950e+01 states: [ -9.16976e-02 -1.93129e+00] derivs: [ -1.93152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.500000 pESO->GetIndependentVar(): 10.500000 ==>IsSwitchingOccur() prevPhis[ 0]=2.793618, nextPhis[ 0]=2.759605 prevPhis[ 1]=3.206382, nextPhis[ 1]=3.240395 <==IsSwitchingOccur() T = 10.500000 Tnext = 10.505000 Time: 1.05000e+01 states: [ -1.01369e-01 -1.93629e+00] derivs: [ -1.93652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.505000 pESO->GetIndependentVar(): 10.505000 ==>IsSwitchingOccur() prevPhis[ 0]=2.759605, nextPhis[ 0]=2.725517 prevPhis[ 1]=3.240395, nextPhis[ 1]=3.274483 <==IsSwitchingOccur() T = 10.505000 Tnext = 10.510000 Time: 1.05050e+01 states: [ -1.11065e-01 -1.94129e+00] derivs: [ -1.94152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.510000 pESO->GetIndependentVar(): 10.510000 ==>IsSwitchingOccur() prevPhis[ 0]=2.725517, nextPhis[ 0]=2.691354 prevPhis[ 1]=3.274483, nextPhis[ 1]=3.308646 <==IsSwitchingOccur() T = 10.510000 Tnext = 10.515000 Time: 1.05100e+01 states: [ -1.20786e-01 -1.94629e+00] derivs: [ -1.94652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.515000 pESO->GetIndependentVar(): 10.515000 ==>IsSwitchingOccur() prevPhis[ 0]=2.691354, nextPhis[ 0]=2.657116 prevPhis[ 1]=3.308646, nextPhis[ 1]=3.342884 <==IsSwitchingOccur() T = 10.515000 Tnext = 10.520000 Time: 1.05150e+01 states: [ -1.30532e-01 -1.95129e+00] derivs: [ -1.95152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.520000 pESO->GetIndependentVar(): 10.520000 ==>IsSwitchingOccur() prevPhis[ 0]=2.657116, nextPhis[ 0]=2.622803 prevPhis[ 1]=3.342884, nextPhis[ 1]=3.377197 <==IsSwitchingOccur() T = 10.520000 Tnext = 10.525000 Time: 1.05200e+01 states: [ -1.40303e-01 -1.95629e+00] derivs: [ -1.95652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.525000 pESO->GetIndependentVar(): 10.525000 ==>IsSwitchingOccur() prevPhis[ 0]=2.622803, nextPhis[ 0]=2.588415 prevPhis[ 1]=3.377197, nextPhis[ 1]=3.411585 <==IsSwitchingOccur() T = 10.525000 Tnext = 10.530000 Time: 1.05250e+01 states: [ -1.50099e-01 -1.96129e+00] derivs: [ -1.96152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.530000 pESO->GetIndependentVar(): 10.530000 ==>IsSwitchingOccur() prevPhis[ 0]=2.588415, nextPhis[ 0]=2.553951 prevPhis[ 1]=3.411585, nextPhis[ 1]=3.446049 <==IsSwitchingOccur() T = 10.530000 Tnext = 10.535000 Time: 1.05300e+01 states: [ -1.59920e-01 -1.96629e+00] derivs: [ -1.96652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.535000 pESO->GetIndependentVar(): 10.535000 ==>IsSwitchingOccur() prevPhis[ 0]=2.553951, nextPhis[ 0]=2.519413 prevPhis[ 1]=3.446049, nextPhis[ 1]=3.480587 <==IsSwitchingOccur() T = 10.535000 Tnext = 10.540000 Time: 1.05350e+01 states: [ -1.69766e-01 -1.97129e+00] derivs: [ -1.97152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.540000 pESO->GetIndependentVar(): 10.540000 ==>IsSwitchingOccur() prevPhis[ 0]=2.519413, nextPhis[ 0]=2.484800 prevPhis[ 1]=3.480587, nextPhis[ 1]=3.515200 <==IsSwitchingOccur() T = 10.540000 Tnext = 10.545000 Time: 1.05400e+01 states: [ -1.79637e-01 -1.97629e+00] derivs: [ -1.97652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.545000 pESO->GetIndependentVar(): 10.545000 ==>IsSwitchingOccur() prevPhis[ 0]=2.484800, nextPhis[ 0]=2.450112 prevPhis[ 1]=3.515200, nextPhis[ 1]=3.549888 <==IsSwitchingOccur() T = 10.545000 Tnext = 10.550000 Time: 1.05450e+01 states: [ -1.89533e-01 -1.98129e+00] derivs: [ -1.98152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.550000 pESO->GetIndependentVar(): 10.550000 ==>IsSwitchingOccur() prevPhis[ 0]=2.450112, nextPhis[ 0]=2.415349 prevPhis[ 1]=3.549888, nextPhis[ 1]=3.584651 <==IsSwitchingOccur() T = 10.550000 Tnext = 10.555000 Time: 1.05500e+01 states: [ -1.99454e-01 -1.98629e+00] derivs: [ -1.98652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.555000 pESO->GetIndependentVar(): 10.555000 ==>IsSwitchingOccur() prevPhis[ 0]=2.415349, nextPhis[ 0]=2.380511 prevPhis[ 1]=3.584651, nextPhis[ 1]=3.619489 <==IsSwitchingOccur() T = 10.555000 Tnext = 10.560000 Time: 1.05550e+01 states: [ -2.09400e-01 -1.99129e+00] derivs: [ -1.99152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.560000 pESO->GetIndependentVar(): 10.560000 ==>IsSwitchingOccur() prevPhis[ 0]=2.380511, nextPhis[ 0]=2.345598 prevPhis[ 1]=3.619489, nextPhis[ 1]=3.654402 <==IsSwitchingOccur() T = 10.560000 Tnext = 10.565000 Time: 1.05600e+01 states: [ -2.19371e-01 -1.99629e+00] derivs: [ -1.99652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.565000 pESO->GetIndependentVar(): 10.565000 ==>IsSwitchingOccur() prevPhis[ 0]=2.345598, nextPhis[ 0]=2.310610 prevPhis[ 1]=3.654402, nextPhis[ 1]=3.689390 <==IsSwitchingOccur() T = 10.565000 Tnext = 10.570000 Time: 1.05650e+01 states: [ -2.29367e-01 -2.00129e+00] derivs: [ -2.00152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.570000 pESO->GetIndependentVar(): 10.570000 ==>IsSwitchingOccur() prevPhis[ 0]=2.310610, nextPhis[ 0]=2.275547 prevPhis[ 1]=3.689390, nextPhis[ 1]=3.724453 <==IsSwitchingOccur() T = 10.570000 Tnext = 10.575000 Time: 1.05700e+01 states: [ -2.39388e-01 -2.00629e+00] derivs: [ -2.00652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.575000 pESO->GetIndependentVar(): 10.575000 ==>IsSwitchingOccur() prevPhis[ 0]=2.275547, nextPhis[ 0]=2.240408 prevPhis[ 1]=3.724453, nextPhis[ 1]=3.759592 <==IsSwitchingOccur() T = 10.575000 Tnext = 10.580000 Time: 1.05750e+01 states: [ -2.49434e-01 -2.01129e+00] derivs: [ -2.01152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.580000 pESO->GetIndependentVar(): 10.580000 ==>IsSwitchingOccur() prevPhis[ 0]=2.240408, nextPhis[ 0]=2.205195 prevPhis[ 1]=3.759592, nextPhis[ 1]=3.794805 <==IsSwitchingOccur() T = 10.580000 Tnext = 10.585000 Time: 1.05800e+01 states: [ -2.59505e-01 -2.01629e+00] derivs: [ -2.01652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.585000 pESO->GetIndependentVar(): 10.585000 ==>IsSwitchingOccur() prevPhis[ 0]=2.205195, nextPhis[ 0]=2.169907 prevPhis[ 1]=3.794805, nextPhis[ 1]=3.830093 <==IsSwitchingOccur() T = 10.585000 Tnext = 10.590000 Time: 1.05850e+01 states: [ -2.69601e-01 -2.02129e+00] derivs: [ -2.02152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.590000 pESO->GetIndependentVar(): 10.590000 ==>IsSwitchingOccur() prevPhis[ 0]=2.169907, nextPhis[ 0]=2.134544 prevPhis[ 1]=3.830093, nextPhis[ 1]=3.865456 <==IsSwitchingOccur() T = 10.590000 Tnext = 10.595000 Time: 1.05900e+01 states: [ -2.79722e-01 -2.02629e+00] derivs: [ -2.02652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.595000 pESO->GetIndependentVar(): 10.595000 ==>IsSwitchingOccur() prevPhis[ 0]=2.134544, nextPhis[ 0]=2.099106 prevPhis[ 1]=3.865456, nextPhis[ 1]=3.900894 <==IsSwitchingOccur() T = 10.595000 Tnext = 10.600000 Time: 1.05950e+01 states: [ -2.89868e-01 -2.03129e+00] derivs: [ -2.03152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.600000 pESO->GetIndependentVar(): 10.600000 ==>IsSwitchingOccur() prevPhis[ 0]=2.099106, nextPhis[ 0]=2.063593 prevPhis[ 1]=3.900894, nextPhis[ 1]=3.936407 <==IsSwitchingOccur() T = 10.600000 Tnext = 10.605000 Time: 1.06000e+01 states: [ -3.00039e-01 -2.03629e+00] derivs: [ -2.03652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.605000 pESO->GetIndependentVar(): 10.605000 ==>IsSwitchingOccur() prevPhis[ 0]=2.063593, nextPhis[ 0]=2.028005 prevPhis[ 1]=3.936407, nextPhis[ 1]=3.971995 <==IsSwitchingOccur() T = 10.605000 Tnext = 10.610000 Time: 1.06050e+01 states: [ -3.10235e-01 -2.04129e+00] derivs: [ -2.04152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.610000 pESO->GetIndependentVar(): 10.610000 ==>IsSwitchingOccur() prevPhis[ 0]=2.028005, nextPhis[ 0]=1.992342 prevPhis[ 1]=3.971995, nextPhis[ 1]=4.007658 <==IsSwitchingOccur() T = 10.610000 Tnext = 10.615000 Time: 1.06100e+01 states: [ -3.20456e-01 -2.04629e+00] derivs: [ -2.04652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.615000 pESO->GetIndependentVar(): 10.615000 ==>IsSwitchingOccur() prevPhis[ 0]=1.992342, nextPhis[ 0]=1.956604 prevPhis[ 1]=4.007658, nextPhis[ 1]=4.043396 <==IsSwitchingOccur() T = 10.615000 Tnext = 10.620000 Time: 1.06150e+01 states: [ -3.30702e-01 -2.05129e+00] derivs: [ -2.05152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.620000 pESO->GetIndependentVar(): 10.620000 ==>IsSwitchingOccur() prevPhis[ 0]=1.956604, nextPhis[ 0]=1.920790 prevPhis[ 1]=4.043396, nextPhis[ 1]=4.079210 <==IsSwitchingOccur() T = 10.620000 Tnext = 10.625000 Time: 1.06200e+01 states: [ -3.40974e-01 -2.05629e+00] derivs: [ -2.05652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.625000 pESO->GetIndependentVar(): 10.625000 ==>IsSwitchingOccur() prevPhis[ 0]=1.920790, nextPhis[ 0]=1.884902 prevPhis[ 1]=4.079210, nextPhis[ 1]=4.115098 <==IsSwitchingOccur() T = 10.625000 Tnext = 10.630000 Time: 1.06250e+01 states: [ -3.51270e-01 -2.06129e+00] derivs: [ -2.06152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.630000 pESO->GetIndependentVar(): 10.630000 ==>IsSwitchingOccur() prevPhis[ 0]=1.884902, nextPhis[ 0]=1.848939 prevPhis[ 1]=4.115098, nextPhis[ 1]=4.151061 <==IsSwitchingOccur() T = 10.630000 Tnext = 10.635000 Time: 1.06300e+01 states: [ -3.61591e-01 -2.06629e+00] derivs: [ -2.06652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.635000 pESO->GetIndependentVar(): 10.635000 ==>IsSwitchingOccur() prevPhis[ 0]=1.848939, nextPhis[ 0]=1.812901 prevPhis[ 1]=4.151061, nextPhis[ 1]=4.187099 <==IsSwitchingOccur() T = 10.635000 Tnext = 10.640000 Time: 1.06350e+01 states: [ -3.71937e-01 -2.07129e+00] derivs: [ -2.07152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.640000 pESO->GetIndependentVar(): 10.640000 ==>IsSwitchingOccur() prevPhis[ 0]=1.812901, nextPhis[ 0]=1.776788 prevPhis[ 1]=4.187099, nextPhis[ 1]=4.223212 <==IsSwitchingOccur() T = 10.640000 Tnext = 10.645000 Time: 1.06400e+01 states: [ -3.82308e-01 -2.07629e+00] derivs: [ -2.07652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.645000 pESO->GetIndependentVar(): 10.645000 ==>IsSwitchingOccur() prevPhis[ 0]=1.776788, nextPhis[ 0]=1.740600 prevPhis[ 1]=4.223212, nextPhis[ 1]=4.259400 <==IsSwitchingOccur() T = 10.645000 Tnext = 10.650000 Time: 1.06450e+01 states: [ -3.92704e-01 -2.08129e+00] derivs: [ -2.08152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.650000 pESO->GetIndependentVar(): 10.650000 ==>IsSwitchingOccur() prevPhis[ 0]=1.740600, nextPhis[ 0]=1.704337 prevPhis[ 1]=4.259400, nextPhis[ 1]=4.295663 <==IsSwitchingOccur() T = 10.650000 Tnext = 10.655000 Time: 1.06500e+01 states: [ -4.03125e-01 -2.08629e+00] derivs: [ -2.08652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.655000 pESO->GetIndependentVar(): 10.655000 ==>IsSwitchingOccur() prevPhis[ 0]=1.704337, nextPhis[ 0]=1.667999 prevPhis[ 1]=4.295663, nextPhis[ 1]=4.332001 <==IsSwitchingOccur() T = 10.655000 Tnext = 10.660000 Time: 1.06550e+01 states: [ -4.13571e-01 -2.09129e+00] derivs: [ -2.09152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.660000 pESO->GetIndependentVar(): 10.660000 ==>IsSwitchingOccur() prevPhis[ 0]=1.667999, nextPhis[ 0]=1.631585 prevPhis[ 1]=4.332001, nextPhis[ 1]=4.368415 <==IsSwitchingOccur() T = 10.660000 Tnext = 10.665000 Time: 1.06600e+01 states: [ -4.24042e-01 -2.09629e+00] derivs: [ -2.09652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.665000 pESO->GetIndependentVar(): 10.665000 ==>IsSwitchingOccur() prevPhis[ 0]=1.631585, nextPhis[ 0]=1.595097 prevPhis[ 1]=4.368415, nextPhis[ 1]=4.404903 <==IsSwitchingOccur() T = 10.665000 Tnext = 10.670000 Time: 1.06650e+01 states: [ -4.34538e-01 -2.10129e+00] derivs: [ -2.10152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.670000 pESO->GetIndependentVar(): 10.670000 ==>IsSwitchingOccur() prevPhis[ 0]=1.595097, nextPhis[ 0]=1.558534 prevPhis[ 1]=4.404903, nextPhis[ 1]=4.441466 <==IsSwitchingOccur() T = 10.670000 Tnext = 10.675000 Time: 1.06700e+01 states: [ -4.45059e-01 -2.10629e+00] derivs: [ -2.10652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.675000 pESO->GetIndependentVar(): 10.675000 ==>IsSwitchingOccur() prevPhis[ 0]=1.558534, nextPhis[ 0]=1.521896 prevPhis[ 1]=4.441466, nextPhis[ 1]=4.478104 <==IsSwitchingOccur() T = 10.675000 Tnext = 10.680000 Time: 1.06750e+01 states: [ -4.55605e-01 -2.11129e+00] derivs: [ -2.11152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.680000 pESO->GetIndependentVar(): 10.680000 ==>IsSwitchingOccur() prevPhis[ 0]=1.521896, nextPhis[ 0]=1.485183 prevPhis[ 1]=4.478104, nextPhis[ 1]=4.514817 <==IsSwitchingOccur() T = 10.680000 Tnext = 10.685000 Time: 1.06800e+01 states: [ -4.66176e-01 -2.11629e+00] derivs: [ -2.11652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.685000 pESO->GetIndependentVar(): 10.685000 ==>IsSwitchingOccur() prevPhis[ 0]=1.485183, nextPhis[ 0]=1.448395 prevPhis[ 1]=4.514817, nextPhis[ 1]=4.551605 <==IsSwitchingOccur() T = 10.685000 Tnext = 10.690000 Time: 1.06850e+01 states: [ -4.76772e-01 -2.12129e+00] derivs: [ -2.12152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.690000 pESO->GetIndependentVar(): 10.690000 ==>IsSwitchingOccur() prevPhis[ 0]=1.448395, nextPhis[ 0]=1.411532 prevPhis[ 1]=4.551605, nextPhis[ 1]=4.588468 <==IsSwitchingOccur() T = 10.690000 Tnext = 10.695000 Time: 1.06900e+01 states: [ -4.87393e-01 -2.12629e+00] derivs: [ -2.12652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.695000 pESO->GetIndependentVar(): 10.695000 ==>IsSwitchingOccur() prevPhis[ 0]=1.411532, nextPhis[ 0]=1.374594 prevPhis[ 1]=4.588468, nextPhis[ 1]=4.625406 <==IsSwitchingOccur() T = 10.695000 Tnext = 10.700000 Time: 1.06950e+01 states: [ -4.98039e-01 -2.13129e+00] derivs: [ -2.13152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.700000 pESO->GetIndependentVar(): 10.700000 ==>IsSwitchingOccur() prevPhis[ 0]=1.374594, nextPhis[ 0]=1.337581 prevPhis[ 1]=4.625406, nextPhis[ 1]=4.662419 <==IsSwitchingOccur() T = 10.700000 Tnext = 10.705000 Time: 1.07000e+01 states: [ -5.08710e-01 -2.13629e+00] derivs: [ -2.13652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.705000 pESO->GetIndependentVar(): 10.705000 ==>IsSwitchingOccur() prevPhis[ 0]=1.337581, nextPhis[ 0]=1.300492 prevPhis[ 1]=4.662419, nextPhis[ 1]=4.699508 <==IsSwitchingOccur() T = 10.705000 Tnext = 10.710000 Time: 1.07050e+01 states: [ -5.19406e-01 -2.14129e+00] derivs: [ -2.14152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.710000 pESO->GetIndependentVar(): 10.710000 ==>IsSwitchingOccur() prevPhis[ 0]=1.300492, nextPhis[ 0]=1.263329 prevPhis[ 1]=4.699508, nextPhis[ 1]=4.736671 <==IsSwitchingOccur() T = 10.710000 Tnext = 10.715000 Time: 1.07100e+01 states: [ -5.30127e-01 -2.14629e+00] derivs: [ -2.14652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.715000 pESO->GetIndependentVar(): 10.715000 ==>IsSwitchingOccur() prevPhis[ 0]=1.263329, nextPhis[ 0]=1.226091 prevPhis[ 1]=4.736671, nextPhis[ 1]=4.773909 <==IsSwitchingOccur() T = 10.715000 Tnext = 10.720000 Time: 1.07150e+01 states: [ -5.40873e-01 -2.15129e+00] derivs: [ -2.15152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.720000 pESO->GetIndependentVar(): 10.720000 ==>IsSwitchingOccur() prevPhis[ 0]=1.226091, nextPhis[ 0]=1.188778 prevPhis[ 1]=4.773909, nextPhis[ 1]=4.811222 <==IsSwitchingOccur() T = 10.720000 Tnext = 10.725000 Time: 1.07200e+01 states: [ -5.51644e-01 -2.15629e+00] derivs: [ -2.15652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.725000 pESO->GetIndependentVar(): 10.725000 ==>IsSwitchingOccur() prevPhis[ 0]=1.188778, nextPhis[ 0]=1.151390 prevPhis[ 1]=4.811222, nextPhis[ 1]=4.848610 <==IsSwitchingOccur() T = 10.725000 Tnext = 10.730000 Time: 1.07250e+01 states: [ -5.62440e-01 -2.16129e+00] derivs: [ -2.16152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.730000 pESO->GetIndependentVar(): 10.730000 ==>IsSwitchingOccur() prevPhis[ 0]=1.151390, nextPhis[ 0]=1.113927 prevPhis[ 1]=4.848610, nextPhis[ 1]=4.886073 <==IsSwitchingOccur() T = 10.730000 Tnext = 10.735000 Time: 1.07300e+01 states: [ -5.73261e-01 -2.16629e+00] derivs: [ -2.16652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.735000 pESO->GetIndependentVar(): 10.735000 ==>IsSwitchingOccur() prevPhis[ 0]=1.113927, nextPhis[ 0]=1.076389 prevPhis[ 1]=4.886073, nextPhis[ 1]=4.923611 <==IsSwitchingOccur() T = 10.735000 Tnext = 10.740000 Time: 1.07350e+01 states: [ -5.84107e-01 -2.17129e+00] derivs: [ -2.17152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.740000 pESO->GetIndependentVar(): 10.740000 ==>IsSwitchingOccur() prevPhis[ 0]=1.076389, nextPhis[ 0]=1.038776 prevPhis[ 1]=4.923611, nextPhis[ 1]=4.961224 <==IsSwitchingOccur() T = 10.740000 Tnext = 10.745000 Time: 1.07400e+01 states: [ -5.94978e-01 -2.17629e+00] derivs: [ -2.17652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.745000 pESO->GetIndependentVar(): 10.745000 ==>IsSwitchingOccur() prevPhis[ 0]=1.038776, nextPhis[ 0]=1.001088 prevPhis[ 1]=4.961224, nextPhis[ 1]=4.998912 <==IsSwitchingOccur() T = 10.745000 Tnext = 10.750000 Time: 1.07450e+01 states: [ -6.05874e-01 -2.18129e+00] derivs: [ -2.18152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.750000 pESO->GetIndependentVar(): 10.750000 ==>IsSwitchingOccur() prevPhis[ 0]=1.001088, nextPhis[ 0]=0.963324 prevPhis[ 1]=4.998912, nextPhis[ 1]=5.036676 <==IsSwitchingOccur() T = 10.750000 Tnext = 10.755000 Time: 1.07500e+01 states: [ -6.16795e-01 -2.18629e+00] derivs: [ -2.18652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.755000 pESO->GetIndependentVar(): 10.755000 ==>IsSwitchingOccur() prevPhis[ 0]=0.963324, nextPhis[ 0]=0.925486 prevPhis[ 1]=5.036676, nextPhis[ 1]=5.074514 <==IsSwitchingOccur() T = 10.755000 Tnext = 10.760000 Time: 1.07550e+01 states: [ -6.27742e-01 -2.19129e+00] derivs: [ -2.19152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.760000 pESO->GetIndependentVar(): 10.760000 ==>IsSwitchingOccur() prevPhis[ 0]=0.925486, nextPhis[ 0]=0.887573 prevPhis[ 1]=5.074514, nextPhis[ 1]=5.112427 <==IsSwitchingOccur() T = 10.760000 Tnext = 10.765000 Time: 1.07600e+01 states: [ -6.38713e-01 -2.19629e+00] derivs: [ -2.19652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.765000 pESO->GetIndependentVar(): 10.765000 ==>IsSwitchingOccur() prevPhis[ 0]=0.887573, nextPhis[ 0]=0.849585 prevPhis[ 1]=5.112427, nextPhis[ 1]=5.150415 <==IsSwitchingOccur() T = 10.765000 Tnext = 10.770000 Time: 1.07650e+01 states: [ -6.49709e-01 -2.20129e+00] derivs: [ -2.20152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.770000 pESO->GetIndependentVar(): 10.770000 ==>IsSwitchingOccur() prevPhis[ 0]=0.849585, nextPhis[ 0]=0.811522 prevPhis[ 1]=5.150415, nextPhis[ 1]=5.188478 <==IsSwitchingOccur() T = 10.770000 Tnext = 10.775000 Time: 1.07700e+01 states: [ -6.60730e-01 -2.20629e+00] derivs: [ -2.20652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.775000 pESO->GetIndependentVar(): 10.775000 ==>IsSwitchingOccur() prevPhis[ 0]=0.811522, nextPhis[ 0]=0.773384 prevPhis[ 1]=5.188478, nextPhis[ 1]=5.226616 <==IsSwitchingOccur() T = 10.775000 Tnext = 10.780000 Time: 1.07750e+01 states: [ -6.71776e-01 -2.21129e+00] derivs: [ -2.21152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.780000 pESO->GetIndependentVar(): 10.780000 ==>IsSwitchingOccur() prevPhis[ 0]=0.773384, nextPhis[ 0]=0.735171 prevPhis[ 1]=5.226616, nextPhis[ 1]=5.264829 <==IsSwitchingOccur() T = 10.780000 Tnext = 10.785000 Time: 1.07800e+01 states: [ -6.82847e-01 -2.21629e+00] derivs: [ -2.21652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.785000 pESO->GetIndependentVar(): 10.785000 ==>IsSwitchingOccur() prevPhis[ 0]=0.735171, nextPhis[ 0]=0.696883 prevPhis[ 1]=5.264829, nextPhis[ 1]=5.303117 <==IsSwitchingOccur() T = 10.785000 Tnext = 10.790000 Time: 1.07850e+01 states: [ -6.93943e-01 -2.22129e+00] derivs: [ -2.22152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.790000 pESO->GetIndependentVar(): 10.790000 ==>IsSwitchingOccur() prevPhis[ 0]=0.696883, nextPhis[ 0]=0.658519 prevPhis[ 1]=5.303117, nextPhis[ 1]=5.341481 <==IsSwitchingOccur() T = 10.790000 Tnext = 10.795000 Time: 1.07900e+01 states: [ -7.05064e-01 -2.22629e+00] derivs: [ -2.22652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.795000 pESO->GetIndependentVar(): 10.795000 ==>IsSwitchingOccur() prevPhis[ 0]=0.658519, nextPhis[ 0]=0.620081 prevPhis[ 1]=5.341481, nextPhis[ 1]=5.379919 <==IsSwitchingOccur() T = 10.795000 Tnext = 10.800000 Time: 1.07950e+01 states: [ -7.16210e-01 -2.23129e+00] derivs: [ -2.23152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.800000 pESO->GetIndependentVar(): 10.800000 ==>IsSwitchingOccur() prevPhis[ 0]=0.620081, nextPhis[ 0]=0.581568 prevPhis[ 1]=5.379919, nextPhis[ 1]=5.418432 <==IsSwitchingOccur() T = 10.800000 Tnext = 10.805000 Time: 1.08000e+01 states: [ -7.27381e-01 -2.23629e+00] derivs: [ -2.23652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.805000 pESO->GetIndependentVar(): 10.805000 ==>IsSwitchingOccur() prevPhis[ 0]=0.581568, nextPhis[ 0]=0.542980 prevPhis[ 1]=5.418432, nextPhis[ 1]=5.457020 <==IsSwitchingOccur() T = 10.805000 Tnext = 10.810000 Time: 1.08050e+01 states: [ -7.38577e-01 -2.24129e+00] derivs: [ -2.24152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.810000 pESO->GetIndependentVar(): 10.810000 ==>IsSwitchingOccur() prevPhis[ 0]=0.542980, nextPhis[ 0]=0.504317 prevPhis[ 1]=5.457020, nextPhis[ 1]=5.495683 <==IsSwitchingOccur() T = 10.810000 Tnext = 10.815000 Time: 1.08100e+01 states: [ -7.49798e-01 -2.24629e+00] derivs: [ -2.24652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.815000 pESO->GetIndependentVar(): 10.815000 ==>IsSwitchingOccur() prevPhis[ 0]=0.504317, nextPhis[ 0]=0.465579 prevPhis[ 1]=5.495683, nextPhis[ 1]=5.534421 <==IsSwitchingOccur() T = 10.815000 Tnext = 10.820000 Time: 1.08150e+01 states: [ -7.61044e-01 -2.25129e+00] derivs: [ -2.25152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.820000 pESO->GetIndependentVar(): 10.820000 ==>IsSwitchingOccur() prevPhis[ 0]=0.465579, nextPhis[ 0]=0.426766 prevPhis[ 1]=5.534421, nextPhis[ 1]=5.573234 <==IsSwitchingOccur() T = 10.820000 Tnext = 10.825000 Time: 1.08200e+01 states: [ -7.72315e-01 -2.25629e+00] derivs: [ -2.25652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.825000 pESO->GetIndependentVar(): 10.825000 ==>IsSwitchingOccur() prevPhis[ 0]=0.426766, nextPhis[ 0]=0.387878 prevPhis[ 1]=5.573234, nextPhis[ 1]=5.612122 <==IsSwitchingOccur() T = 10.825000 Tnext = 10.830000 Time: 1.08250e+01 states: [ -7.83611e-01 -2.26129e+00] derivs: [ -2.26152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.830000 pESO->GetIndependentVar(): 10.830000 ==>IsSwitchingOccur() prevPhis[ 0]=0.387878, nextPhis[ 0]=0.348915 prevPhis[ 1]=5.612122, nextPhis[ 1]=5.651085 <==IsSwitchingOccur() T = 10.830000 Tnext = 10.835000 Time: 1.08300e+01 states: [ -7.94932e-01 -2.26629e+00] derivs: [ -2.26652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.835000 pESO->GetIndependentVar(): 10.835000 ==>IsSwitchingOccur() prevPhis[ 0]=0.348915, nextPhis[ 0]=0.309876 prevPhis[ 1]=5.651085, nextPhis[ 1]=5.690124 <==IsSwitchingOccur() T = 10.835000 Tnext = 10.840000 Time: 1.08350e+01 states: [ -8.06278e-01 -2.27129e+00] derivs: [ -2.27152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.840000 pESO->GetIndependentVar(): 10.840000 ==>IsSwitchingOccur() prevPhis[ 0]=0.309876, nextPhis[ 0]=0.270763 prevPhis[ 1]=5.690124, nextPhis[ 1]=5.729237 <==IsSwitchingOccur() T = 10.840000 Tnext = 10.845000 Time: 1.08400e+01 states: [ -8.17649e-01 -2.27629e+00] derivs: [ -2.27652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.845000 pESO->GetIndependentVar(): 10.845000 ==>IsSwitchingOccur() prevPhis[ 0]=0.270763, nextPhis[ 0]=0.231575 prevPhis[ 1]=5.729237, nextPhis[ 1]=5.768425 <==IsSwitchingOccur() T = 10.845000 Tnext = 10.850000 Time: 1.08450e+01 states: [ -8.29045e-01 -2.28129e+00] derivs: [ -2.28152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.850000 pESO->GetIndependentVar(): 10.850000 ==>IsSwitchingOccur() prevPhis[ 0]=0.231575, nextPhis[ 0]=0.192312 prevPhis[ 1]=5.768425, nextPhis[ 1]=5.807688 <==IsSwitchingOccur() T = 10.850000 Tnext = 10.855000 Time: 1.08500e+01 states: [ -8.40466e-01 -2.28629e+00] derivs: [ -2.28652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.855000 pESO->GetIndependentVar(): 10.855000 ==>IsSwitchingOccur() prevPhis[ 0]=0.192312, nextPhis[ 0]=0.152974 prevPhis[ 1]=5.807688, nextPhis[ 1]=5.847026 <==IsSwitchingOccur() T = 10.855000 Tnext = 10.860000 Time: 1.08550e+01 states: [ -8.51912e-01 -2.29129e+00] derivs: [ -2.29152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.860000 pESO->GetIndependentVar(): 10.860000 ==>IsSwitchingOccur() prevPhis[ 0]=0.152974, nextPhis[ 0]=0.113561 prevPhis[ 1]=5.847026, nextPhis[ 1]=5.886439 <==IsSwitchingOccur() T = 10.860000 Tnext = 10.865000 Time: 1.08600e+01 states: [ -8.63383e-01 -2.29629e+00] derivs: [ -2.29652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.865000 pESO->GetIndependentVar(): 10.865000 ==>IsSwitchingOccur() prevPhis[ 0]=0.113561, nextPhis[ 0]=0.074073 prevPhis[ 1]=5.886439, nextPhis[ 1]=5.925927 <==IsSwitchingOccur() T = 10.865000 Tnext = 10.870000 Time: 1.08650e+01 states: [ -8.74879e-01 -2.30129e+00] derivs: [ -2.30152e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.870000 pESO->GetIndependentVar(): 10.870000 ==>IsSwitchingOccur() prevPhis[ 0]=0.074073, nextPhis[ 0]=0.034510 prevPhis[ 1]=5.925927, nextPhis[ 1]=5.965490 <==IsSwitchingOccur() T = 10.870000 Tnext = 10.875000 Time: 1.08700e+01 states: [ -8.86400e-01 -2.30629e+00] derivs: [ -2.30652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.875000 pESO->GetIndependentVar(): 10.875000 ==>IsSwitchingOccur() prevPhis[ 0]=0.034510, nextPhis[ 0]=-0.005128 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.875000 Phiest = -0.005128 Phiest < 0.0 it = 1 Test = 10.872500 Phiest = -0.024976 Phiest < 0.0 it = 2 Test = 10.871250 Phiest = -0.015049 Phiest < 0.0 it = 3 Test = 10.870625 Phiest = -0.010088 Phiest < 0.0 it = 4 Test = 10.870313 Phiest = -0.007608 Phiest < 0.0 it = 5 Test = 10.870156 Phiest = -0.006368 Phiest < 0.0 it = 6 Test = 10.870078 Phiest = -0.005748 Phiest < 0.0 it = 7 Test = 10.870039 Phiest = -0.005438 Switch time for phi[0] is 10.870039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.886491, -2.306328, 4.645176, 1.678624, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=15.614150 b=-7.919064 dts/dp=[1.971717, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [-0.886491, -2.306328, 4.645176, 1.678624, ] AllSensVars (befor 2-nd IC recalculation):[-0.886491, -2.306328, 4.645123, -2.264810, ] AllSensDers (befor 2-nd IC recalculation):[-2.306328, 1.000000, 1.678623, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[-0.886491, -2.306328, 4.645123, -2.264810, ] AllSensDers (after 2-nd IC recalculation):[-2.306328, 1.000000, -2.264810, -0.000000, ] <==RecalculateSensIC() T = 10.870000 Tnext = 10.875000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.875000 pESO->GetIndependentVar(): 10.875000 ==>IsSwitchingOccur() prevPhis[ 0]=0.034200, nextPhis[ 0]=0.004649 prevPhis[ 1]=5.965800, nextPhis[ 1]=5.995351 <==IsSwitchingOccur() T = 10.875000 Tnext = 10.880000 Time: 1.08750e+01 states: [ -8.98008e-01 -2.30133e+00] derivs: [ -2.30109e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004649, nextPhis[ 0]=-0.024827 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.024827 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.039537 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.032185 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.028507 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.026667 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.025747 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.025287 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.025057 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898097, -2.301289, 4.633711, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.636323 b=-5.903788 dts/dp=[1.970993, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004419, nextPhis[ 0]=-0.025057 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.025057 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.039767 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.032415 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.028737 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.026897 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.025977 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.025517 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.025287 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898187, -2.301250, 4.633622, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.636058 b=-5.903671 dts/dp=[1.970987, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004188, nextPhis[ 0]=-0.025287 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.025287 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.039996 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.032645 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.028967 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.027127 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.026207 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.025747 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.025517 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898277, -2.301211, 4.633534, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.635792 b=-5.903554 dts/dp=[1.970981, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003957, nextPhis[ 0]=-0.025517 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.025517 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.040226 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.032874 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.029197 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.027357 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.026437 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.025977 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.025747 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898367, -2.301172, 4.633446, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.635527 b=-5.903436 dts/dp=[1.970975, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003727, nextPhis[ 0]=-0.025747 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.025747 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.040456 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.033104 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.029427 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.027587 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.026667 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.026207 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.025977 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898457, -2.301133, 4.633357, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.635261 b=-5.903319 dts/dp=[1.970969, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003496, nextPhis[ 0]=-0.025977 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.025977 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.040686 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.033334 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.029656 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.027817 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.026897 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.026437 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.026207 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898547, -2.301094, 4.633269, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.634996 b=-5.903202 dts/dp=[1.970964, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003266, nextPhis[ 0]=-0.026207 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.026207 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.040915 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.033564 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.029886 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.028047 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.027127 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.026667 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.026437 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898637, -2.301055, 4.633180, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.634731 b=-5.903085 dts/dp=[1.970958, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003035, nextPhis[ 0]=-0.026437 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.026437 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.041145 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.033794 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.030116 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.028277 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.027357 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.026897 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.026667 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898727, -2.301016, 4.633092, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.634465 b=-5.902968 dts/dp=[1.970952, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002804, nextPhis[ 0]=-0.026667 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.026667 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.041375 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.034024 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.030346 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.028507 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.027587 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.027127 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.026897 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898817, -2.300977, 4.633003, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.634200 b=-5.902850 dts/dp=[1.970946, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002574, nextPhis[ 0]=-0.026897 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.026897 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.041604 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.034254 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.030576 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.028737 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.027817 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.027357 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.027127 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898906, -2.300938, 4.632915, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.633934 b=-5.902733 dts/dp=[1.970940, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002343, nextPhis[ 0]=-0.027127 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.027127 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.041834 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.034483 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.030806 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.028967 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.028047 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.027587 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.027357 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.898996, -2.300898, 4.632826, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.633669 b=-5.902616 dts/dp=[1.970934, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002113, nextPhis[ 0]=-0.027357 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.027357 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.042064 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.034713 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.031036 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.029197 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.028277 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.027817 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.027587 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899086, -2.300859, 4.632738, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.633404 b=-5.902499 dts/dp=[1.970929, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001882, nextPhis[ 0]=-0.027587 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.027587 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.042293 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.034943 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.031266 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.029427 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.028507 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.028047 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.027817 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899176, -2.300820, 4.632649, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.633138 b=-5.902382 dts/dp=[1.970923, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001651, nextPhis[ 0]=-0.027817 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.027817 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.042523 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.035173 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.031496 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.029657 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.028737 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.028277 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.028047 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899266, -2.300781, 4.632561, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.632873 b=-5.902265 dts/dp=[1.970917, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001421, nextPhis[ 0]=-0.028047 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.028047 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.042753 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.035403 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.031726 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.029887 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.028967 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.028507 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.028277 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899356, -2.300742, 4.632472, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.632607 b=-5.902147 dts/dp=[1.970911, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001190, nextPhis[ 0]=-0.028277 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.028277 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.042983 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.035633 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.031956 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.030117 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.029197 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.028737 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.028507 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899446, -2.300703, 4.632384, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.632342 b=-5.902030 dts/dp=[1.970905, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000960, nextPhis[ 0]=-0.028507 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.028507 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.043212 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.035862 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.032186 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.030347 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.029427 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.028967 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.028737 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899536, -2.300664, 4.632295, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.632076 b=-5.901913 dts/dp=[1.970899, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000729, nextPhis[ 0]=-0.028737 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.028737 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.043442 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.036092 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.032415 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.030576 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.029657 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.029197 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.028967 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899625, -2.300625, 4.632207, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.631811 b=-5.901796 dts/dp=[1.970894, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000499, nextPhis[ 0]=-0.028967 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.028967 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.043672 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.036322 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.032645 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.030806 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.029887 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.029427 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.029197 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899715, -2.300586, 4.632118, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.631546 b=-5.901679 dts/dp=[1.970888, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000268, nextPhis[ 0]=-0.029197 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.029197 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.043901 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.036552 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.032875 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.031036 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.030117 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.029657 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.029427 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899805, -2.300547, 4.632030, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.631280 b=-5.901561 dts/dp=[1.970882, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000038, nextPhis[ 0]=-0.029427 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 10.880000 Phiest = -0.029427 Phiest < 0.0 it = 1 Test = 10.877500 Phiest = -0.044131 Phiest < 0.0 it = 2 Test = 10.876250 Phiest = -0.036782 Phiest < 0.0 it = 3 Test = 10.875625 Phiest = -0.033105 Phiest < 0.0 it = 4 Test = 10.875313 Phiest = -0.031266 Phiest < 0.0 it = 5 Test = 10.875156 Phiest = -0.030347 Phiest < 0.0 it = 6 Test = 10.875078 Phiest = -0.029887 Phiest < 0.0 it = 7 Test = 10.875039 Phiest = -0.029657 Switch time for phi[0] is 10.875039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.899895, -2.300508, 4.631942, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=11.631015 b=-5.901444 dts/dp=[1.970876, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 10.875000 Tnext = 10.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.880000 pESO->GetIndependentVar(): 10.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.000193, nextPhis[ 0]=-0.029657 prevPhis[ 1]=6.000193, nextPhis[ 1]=6.029657 <==IsSwitchingOccur() T = 10.880000 Tnext = 10.885000 Time: 1.08800e+01 states: [ -9.11383e-01 -2.29551e+00] derivs: [ -2.29527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.885000 pESO->GetIndependentVar(): 10.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.029657, nextPhis[ 0]=-0.059046 prevPhis[ 1]=6.029657, nextPhis[ 1]=6.059046 <==IsSwitchingOccur() T = 10.885000 Tnext = 10.890000 Time: 1.08850e+01 states: [ -9.22846e-01 -2.29051e+00] derivs: [ -2.29027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.890000 pESO->GetIndependentVar(): 10.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.059046, nextPhis[ 0]=-0.088359 prevPhis[ 1]=6.059046, nextPhis[ 1]=6.088359 <==IsSwitchingOccur() T = 10.890000 Tnext = 10.895000 Time: 1.08900e+01 states: [ -9.34284e-01 -2.28551e+00] derivs: [ -2.28527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.895000 pESO->GetIndependentVar(): 10.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.088359, nextPhis[ 0]=-0.117598 prevPhis[ 1]=6.088359, nextPhis[ 1]=6.117598 <==IsSwitchingOccur() T = 10.895000 Tnext = 10.900000 Time: 1.08950e+01 states: [ -9.45697e-01 -2.28051e+00] derivs: [ -2.28027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.900000 pESO->GetIndependentVar(): 10.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.117598, nextPhis[ 0]=-0.146762 prevPhis[ 1]=6.117598, nextPhis[ 1]=6.146762 <==IsSwitchingOccur() T = 10.900000 Tnext = 10.905000 Time: 1.09000e+01 states: [ -9.57085e-01 -2.27551e+00] derivs: [ -2.27527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.905000 pESO->GetIndependentVar(): 10.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.146762, nextPhis[ 0]=-0.175851 prevPhis[ 1]=6.146762, nextPhis[ 1]=6.175851 <==IsSwitchingOccur() T = 10.905000 Tnext = 10.910000 Time: 1.09050e+01 states: [ -9.68448e-01 -2.27051e+00] derivs: [ -2.27027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.910000 pESO->GetIndependentVar(): 10.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.175851, nextPhis[ 0]=-0.204865 prevPhis[ 1]=6.175851, nextPhis[ 1]=6.204865 <==IsSwitchingOccur() T = 10.910000 Tnext = 10.915000 Time: 1.09100e+01 states: [ -9.79786e-01 -2.26551e+00] derivs: [ -2.26527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.915000 pESO->GetIndependentVar(): 10.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.204865, nextPhis[ 0]=-0.233804 prevPhis[ 1]=6.204865, nextPhis[ 1]=6.233804 <==IsSwitchingOccur() T = 10.915000 Tnext = 10.920000 Time: 1.09150e+01 states: [ -9.91099e-01 -2.26051e+00] derivs: [ -2.26027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.920000 pESO->GetIndependentVar(): 10.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.233804, nextPhis[ 0]=-0.262668 prevPhis[ 1]=6.233804, nextPhis[ 1]=6.262668 <==IsSwitchingOccur() T = 10.920000 Tnext = 10.925000 Time: 1.09200e+01 states: [ -1.00239e+00 -2.25551e+00] derivs: [ -2.25527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.925000 pESO->GetIndependentVar(): 10.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.262668, nextPhis[ 0]=-0.291456 prevPhis[ 1]=6.262668, nextPhis[ 1]=6.291456 <==IsSwitchingOccur() T = 10.925000 Tnext = 10.930000 Time: 1.09250e+01 states: [ -1.01365e+00 -2.25051e+00] derivs: [ -2.25027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.930000 pESO->GetIndependentVar(): 10.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.291456, nextPhis[ 0]=-0.320170 prevPhis[ 1]=6.291456, nextPhis[ 1]=6.320170 <==IsSwitchingOccur() T = 10.930000 Tnext = 10.935000 Time: 1.09300e+01 states: [ -1.02489e+00 -2.24551e+00] derivs: [ -2.24527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.935000 pESO->GetIndependentVar(): 10.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.320170, nextPhis[ 0]=-0.348809 prevPhis[ 1]=6.320170, nextPhis[ 1]=6.348809 <==IsSwitchingOccur() T = 10.935000 Tnext = 10.940000 Time: 1.09350e+01 states: [ -1.03610e+00 -2.24051e+00] derivs: [ -2.24027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.940000 pESO->GetIndependentVar(): 10.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.348809, nextPhis[ 0]=-0.377373 prevPhis[ 1]=6.348809, nextPhis[ 1]=6.377373 <==IsSwitchingOccur() T = 10.940000 Tnext = 10.945000 Time: 1.09400e+01 states: [ -1.04729e+00 -2.23551e+00] derivs: [ -2.23527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.945000 pESO->GetIndependentVar(): 10.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.377373, nextPhis[ 0]=-0.405862 prevPhis[ 1]=6.377373, nextPhis[ 1]=6.405862 <==IsSwitchingOccur() T = 10.945000 Tnext = 10.950000 Time: 1.09450e+01 states: [ -1.05845e+00 -2.23051e+00] derivs: [ -2.23027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.950000 pESO->GetIndependentVar(): 10.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.405862, nextPhis[ 0]=-0.434276 prevPhis[ 1]=6.405862, nextPhis[ 1]=6.434276 <==IsSwitchingOccur() T = 10.950000 Tnext = 10.955000 Time: 1.09500e+01 states: [ -1.06959e+00 -2.22551e+00] derivs: [ -2.22527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.955000 pESO->GetIndependentVar(): 10.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.434276, nextPhis[ 0]=-0.462614 prevPhis[ 1]=6.434276, nextPhis[ 1]=6.462614 <==IsSwitchingOccur() T = 10.955000 Tnext = 10.960000 Time: 1.09550e+01 states: [ -1.08070e+00 -2.22051e+00] derivs: [ -2.22027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.960000 pESO->GetIndependentVar(): 10.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.462614, nextPhis[ 0]=-0.490878 prevPhis[ 1]=6.462614, nextPhis[ 1]=6.490878 <==IsSwitchingOccur() T = 10.960000 Tnext = 10.965000 Time: 1.09600e+01 states: [ -1.09179e+00 -2.21551e+00] derivs: [ -2.21527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.965000 pESO->GetIndependentVar(): 10.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.490878, nextPhis[ 0]=-0.519067 prevPhis[ 1]=6.490878, nextPhis[ 1]=6.519067 <==IsSwitchingOccur() T = 10.965000 Tnext = 10.970000 Time: 1.09650e+01 states: [ -1.10285e+00 -2.21051e+00] derivs: [ -2.21027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.970000 pESO->GetIndependentVar(): 10.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.519067, nextPhis[ 0]=-0.547181 prevPhis[ 1]=6.519067, nextPhis[ 1]=6.547181 <==IsSwitchingOccur() T = 10.970000 Tnext = 10.975000 Time: 1.09700e+01 states: [ -1.11389e+00 -2.20551e+00] derivs: [ -2.20527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.975000 pESO->GetIndependentVar(): 10.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.547181, nextPhis[ 0]=-0.575220 prevPhis[ 1]=6.547181, nextPhis[ 1]=6.575220 <==IsSwitchingOccur() T = 10.975000 Tnext = 10.980000 Time: 1.09750e+01 states: [ -1.12490e+00 -2.20051e+00] derivs: [ -2.20027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.980000 pESO->GetIndependentVar(): 10.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.575220, nextPhis[ 0]=-0.603184 prevPhis[ 1]=6.575220, nextPhis[ 1]=6.603184 <==IsSwitchingOccur() T = 10.980000 Tnext = 10.985000 Time: 1.09800e+01 states: [ -1.13589e+00 -2.19551e+00] derivs: [ -2.19527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.985000 pESO->GetIndependentVar(): 10.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.603184, nextPhis[ 0]=-0.631072 prevPhis[ 1]=6.603184, nextPhis[ 1]=6.631072 <==IsSwitchingOccur() T = 10.985000 Tnext = 10.990000 Time: 1.09850e+01 states: [ -1.14685e+00 -2.19051e+00] derivs: [ -2.19027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.990000 pESO->GetIndependentVar(): 10.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.631072, nextPhis[ 0]=-0.658886 prevPhis[ 1]=6.631072, nextPhis[ 1]=6.658886 <==IsSwitchingOccur() T = 10.990000 Tnext = 10.995000 Time: 1.09900e+01 states: [ -1.15779e+00 -2.18551e+00] derivs: [ -2.18527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 10.995000 pESO->GetIndependentVar(): 10.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.658886, nextPhis[ 0]=-0.686625 prevPhis[ 1]=6.658886, nextPhis[ 1]=6.686625 <==IsSwitchingOccur() T = 10.995000 Tnext = 11.000000 Time: 1.09950e+01 states: [ -1.16871e+00 -2.18051e+00] derivs: [ -2.18027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.000000 pESO->GetIndependentVar(): 11.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.686625, nextPhis[ 0]=-0.714289 prevPhis[ 1]=6.686625, nextPhis[ 1]=6.714289 <==IsSwitchingOccur() T = 11.000000 Tnext = 11.005000 Time: 1.10000e+01 states: [ -1.17959e+00 -2.17551e+00] derivs: [ -2.17527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.005000 pESO->GetIndependentVar(): 11.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.714289, nextPhis[ 0]=-0.741878 prevPhis[ 1]=6.714289, nextPhis[ 1]=6.741878 <==IsSwitchingOccur() T = 11.005000 Tnext = 11.010000 Time: 1.10050e+01 states: [ -1.19046e+00 -2.17051e+00] derivs: [ -2.17027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.010000 pESO->GetIndependentVar(): 11.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.741878, nextPhis[ 0]=-0.769392 prevPhis[ 1]=6.741878, nextPhis[ 1]=6.769392 <==IsSwitchingOccur() T = 11.010000 Tnext = 11.015000 Time: 1.10100e+01 states: [ -1.20129e+00 -2.16551e+00] derivs: [ -2.16527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.015000 pESO->GetIndependentVar(): 11.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.769392, nextPhis[ 0]=-0.796831 prevPhis[ 1]=6.769392, nextPhis[ 1]=6.796831 <==IsSwitchingOccur() T = 11.015000 Tnext = 11.020000 Time: 1.10150e+01 states: [ -1.21211e+00 -2.16051e+00] derivs: [ -2.16027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.020000 pESO->GetIndependentVar(): 11.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.796831, nextPhis[ 0]=-0.824194 prevPhis[ 1]=6.796831, nextPhis[ 1]=6.824194 <==IsSwitchingOccur() T = 11.020000 Tnext = 11.025000 Time: 1.10200e+01 states: [ -1.22290e+00 -2.15551e+00] derivs: [ -2.15527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.025000 pESO->GetIndependentVar(): 11.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.824194, nextPhis[ 0]=-0.851483 prevPhis[ 1]=6.824194, nextPhis[ 1]=6.851483 <==IsSwitchingOccur() T = 11.025000 Tnext = 11.030000 Time: 1.10250e+01 states: [ -1.23366e+00 -2.15051e+00] derivs: [ -2.15027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.030000 pESO->GetIndependentVar(): 11.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.851483, nextPhis[ 0]=-0.878697 prevPhis[ 1]=6.851483, nextPhis[ 1]=6.878697 <==IsSwitchingOccur() T = 11.030000 Tnext = 11.035000 Time: 1.10300e+01 states: [ -1.24440e+00 -2.14551e+00] derivs: [ -2.14527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.035000 pESO->GetIndependentVar(): 11.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.878697, nextPhis[ 0]=-0.905836 prevPhis[ 1]=6.878697, nextPhis[ 1]=6.905836 <==IsSwitchingOccur() T = 11.035000 Tnext = 11.040000 Time: 1.10350e+01 states: [ -1.25511e+00 -2.14051e+00] derivs: [ -2.14027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.040000 pESO->GetIndependentVar(): 11.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.905836, nextPhis[ 0]=-0.932900 prevPhis[ 1]=6.905836, nextPhis[ 1]=6.932900 <==IsSwitchingOccur() T = 11.040000 Tnext = 11.045000 Time: 1.10400e+01 states: [ -1.26580e+00 -2.13551e+00] derivs: [ -2.13527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.045000 pESO->GetIndependentVar(): 11.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.932900, nextPhis[ 0]=-0.959889 prevPhis[ 1]=6.932900, nextPhis[ 1]=6.959889 <==IsSwitchingOccur() T = 11.045000 Tnext = 11.050000 Time: 1.10450e+01 states: [ -1.27646e+00 -2.13051e+00] derivs: [ -2.13027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.050000 pESO->GetIndependentVar(): 11.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.959889, nextPhis[ 0]=-0.986802 prevPhis[ 1]=6.959889, nextPhis[ 1]=6.986802 <==IsSwitchingOccur() T = 11.050000 Tnext = 11.055000 Time: 1.10500e+01 states: [ -1.28710e+00 -2.12551e+00] derivs: [ -2.12527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.055000 pESO->GetIndependentVar(): 11.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.986802, nextPhis[ 0]=-1.013641 prevPhis[ 1]=6.986802, nextPhis[ 1]=7.013641 <==IsSwitchingOccur() T = 11.055000 Tnext = 11.060000 Time: 1.10550e+01 states: [ -1.29771e+00 -2.12051e+00] derivs: [ -2.12027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.060000 pESO->GetIndependentVar(): 11.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.013641, nextPhis[ 0]=-1.040405 prevPhis[ 1]=7.013641, nextPhis[ 1]=7.040405 <==IsSwitchingOccur() T = 11.060000 Tnext = 11.065000 Time: 1.10600e+01 states: [ -1.30830e+00 -2.11551e+00] derivs: [ -2.11527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.065000 pESO->GetIndependentVar(): 11.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.040405, nextPhis[ 0]=-1.067094 prevPhis[ 1]=7.040405, nextPhis[ 1]=7.067094 <==IsSwitchingOccur() T = 11.065000 Tnext = 11.070000 Time: 1.10650e+01 states: [ -1.31886e+00 -2.11051e+00] derivs: [ -2.11027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.070000 pESO->GetIndependentVar(): 11.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.067094, nextPhis[ 0]=-1.093708 prevPhis[ 1]=7.067094, nextPhis[ 1]=7.093708 <==IsSwitchingOccur() T = 11.070000 Tnext = 11.075000 Time: 1.10700e+01 states: [ -1.32940e+00 -2.10551e+00] derivs: [ -2.10527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.075000 pESO->GetIndependentVar(): 11.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.093708, nextPhis[ 0]=-1.120247 prevPhis[ 1]=7.093708, nextPhis[ 1]=7.120247 <==IsSwitchingOccur() T = 11.075000 Tnext = 11.080000 Time: 1.10750e+01 states: [ -1.33991e+00 -2.10051e+00] derivs: [ -2.10027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.080000 pESO->GetIndependentVar(): 11.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.120247, nextPhis[ 0]=-1.146710 prevPhis[ 1]=7.120247, nextPhis[ 1]=7.146710 <==IsSwitchingOccur() T = 11.080000 Tnext = 11.085000 Time: 1.10800e+01 states: [ -1.35040e+00 -2.09551e+00] derivs: [ -2.09527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.085000 pESO->GetIndependentVar(): 11.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.146710, nextPhis[ 0]=-1.173099 prevPhis[ 1]=7.146710, nextPhis[ 1]=7.173099 <==IsSwitchingOccur() T = 11.085000 Tnext = 11.090000 Time: 1.10850e+01 states: [ -1.36086e+00 -2.09051e+00] derivs: [ -2.09027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.090000 pESO->GetIndependentVar(): 11.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.173099, nextPhis[ 0]=-1.199413 prevPhis[ 1]=7.173099, nextPhis[ 1]=7.199413 <==IsSwitchingOccur() T = 11.090000 Tnext = 11.095000 Time: 1.10900e+01 states: [ -1.37130e+00 -2.08551e+00] derivs: [ -2.08527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.095000 pESO->GetIndependentVar(): 11.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.199413, nextPhis[ 0]=-1.225652 prevPhis[ 1]=7.199413, nextPhis[ 1]=7.225652 <==IsSwitchingOccur() T = 11.095000 Tnext = 11.100000 Time: 1.10950e+01 states: [ -1.38171e+00 -2.08051e+00] derivs: [ -2.08027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.100000 pESO->GetIndependentVar(): 11.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.225652, nextPhis[ 0]=-1.251816 prevPhis[ 1]=7.225652, nextPhis[ 1]=7.251816 <==IsSwitchingOccur() T = 11.100000 Tnext = 11.105000 Time: 1.11000e+01 states: [ -1.39210e+00 -2.07551e+00] derivs: [ -2.07527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.105000 pESO->GetIndependentVar(): 11.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.251816, nextPhis[ 0]=-1.277905 prevPhis[ 1]=7.251816, nextPhis[ 1]=7.277905 <==IsSwitchingOccur() T = 11.105000 Tnext = 11.110000 Time: 1.11050e+01 states: [ -1.40247e+00 -2.07051e+00] derivs: [ -2.07027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.110000 pESO->GetIndependentVar(): 11.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.277905, nextPhis[ 0]=-1.303918 prevPhis[ 1]=7.277905, nextPhis[ 1]=7.303918 <==IsSwitchingOccur() T = 11.110000 Tnext = 11.115000 Time: 1.11100e+01 states: [ -1.41280e+00 -2.06551e+00] derivs: [ -2.06527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.115000 pESO->GetIndependentVar(): 11.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.303918, nextPhis[ 0]=-1.329857 prevPhis[ 1]=7.303918, nextPhis[ 1]=7.329857 <==IsSwitchingOccur() T = 11.115000 Tnext = 11.120000 Time: 1.11150e+01 states: [ -1.42312e+00 -2.06051e+00] derivs: [ -2.06027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.120000 pESO->GetIndependentVar(): 11.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.329857, nextPhis[ 0]=-1.355721 prevPhis[ 1]=7.329857, nextPhis[ 1]=7.355721 <==IsSwitchingOccur() T = 11.120000 Tnext = 11.125000 Time: 1.11200e+01 states: [ -1.43340e+00 -2.05551e+00] derivs: [ -2.05527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.125000 pESO->GetIndependentVar(): 11.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.355721, nextPhis[ 0]=-1.381510 prevPhis[ 1]=7.355721, nextPhis[ 1]=7.381510 <==IsSwitchingOccur() T = 11.125000 Tnext = 11.130000 Time: 1.11250e+01 states: [ -1.44367e+00 -2.05051e+00] derivs: [ -2.05027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.130000 pESO->GetIndependentVar(): 11.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.381510, nextPhis[ 0]=-1.407224 prevPhis[ 1]=7.381510, nextPhis[ 1]=7.407224 <==IsSwitchingOccur() T = 11.130000 Tnext = 11.135000 Time: 1.11300e+01 states: [ -1.45391e+00 -2.04551e+00] derivs: [ -2.04527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.135000 pESO->GetIndependentVar(): 11.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.407224, nextPhis[ 0]=-1.432863 prevPhis[ 1]=7.407224, nextPhis[ 1]=7.432863 <==IsSwitchingOccur() T = 11.135000 Tnext = 11.140000 Time: 1.11350e+01 states: [ -1.46412e+00 -2.04051e+00] derivs: [ -2.04027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.140000 pESO->GetIndependentVar(): 11.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.432863, nextPhis[ 0]=-1.458427 prevPhis[ 1]=7.432863, nextPhis[ 1]=7.458427 <==IsSwitchingOccur() T = 11.140000 Tnext = 11.145000 Time: 1.11400e+01 states: [ -1.47431e+00 -2.03551e+00] derivs: [ -2.03527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.145000 pESO->GetIndependentVar(): 11.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.458427, nextPhis[ 0]=-1.483915 prevPhis[ 1]=7.458427, nextPhis[ 1]=7.483915 <==IsSwitchingOccur() T = 11.145000 Tnext = 11.150000 Time: 1.11450e+01 states: [ -1.48447e+00 -2.03051e+00] derivs: [ -2.03027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.150000 pESO->GetIndependentVar(): 11.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.483915, nextPhis[ 0]=-1.509329 prevPhis[ 1]=7.483915, nextPhis[ 1]=7.509329 <==IsSwitchingOccur() T = 11.150000 Tnext = 11.155000 Time: 1.11500e+01 states: [ -1.49461e+00 -2.02551e+00] derivs: [ -2.02527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.155000 pESO->GetIndependentVar(): 11.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.509329, nextPhis[ 0]=-1.534668 prevPhis[ 1]=7.509329, nextPhis[ 1]=7.534668 <==IsSwitchingOccur() T = 11.155000 Tnext = 11.160000 Time: 1.11550e+01 states: [ -1.50472e+00 -2.02051e+00] derivs: [ -2.02027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.160000 pESO->GetIndependentVar(): 11.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.534668, nextPhis[ 0]=-1.559932 prevPhis[ 1]=7.534668, nextPhis[ 1]=7.559932 <==IsSwitchingOccur() T = 11.160000 Tnext = 11.165000 Time: 1.11600e+01 states: [ -1.51481e+00 -2.01551e+00] derivs: [ -2.01527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.165000 pESO->GetIndependentVar(): 11.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.559932, nextPhis[ 0]=-1.585121 prevPhis[ 1]=7.559932, nextPhis[ 1]=7.585121 <==IsSwitchingOccur() T = 11.165000 Tnext = 11.170000 Time: 1.11650e+01 states: [ -1.52487e+00 -2.01051e+00] derivs: [ -2.01027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.170000 pESO->GetIndependentVar(): 11.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.585121, nextPhis[ 0]=-1.610235 prevPhis[ 1]=7.585121, nextPhis[ 1]=7.610235 <==IsSwitchingOccur() T = 11.170000 Tnext = 11.175000 Time: 1.11700e+01 states: [ -1.53491e+00 -2.00551e+00] derivs: [ -2.00527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.175000 pESO->GetIndependentVar(): 11.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.610235, nextPhis[ 0]=-1.635273 prevPhis[ 1]=7.610235, nextPhis[ 1]=7.635273 <==IsSwitchingOccur() T = 11.175000 Tnext = 11.180000 Time: 1.11750e+01 states: [ -1.54492e+00 -2.00051e+00] derivs: [ -2.00027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.180000 pESO->GetIndependentVar(): 11.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.635273, nextPhis[ 0]=-1.660237 prevPhis[ 1]=7.635273, nextPhis[ 1]=7.660237 <==IsSwitchingOccur() T = 11.180000 Tnext = 11.185000 Time: 1.11800e+01 states: [ -1.55491e+00 -1.99551e+00] derivs: [ -1.99527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.185000 pESO->GetIndependentVar(): 11.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.660237, nextPhis[ 0]=-1.685126 prevPhis[ 1]=7.660237, nextPhis[ 1]=7.685126 <==IsSwitchingOccur() T = 11.185000 Tnext = 11.190000 Time: 1.11850e+01 states: [ -1.56487e+00 -1.99051e+00] derivs: [ -1.99027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.190000 pESO->GetIndependentVar(): 11.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.685126, nextPhis[ 0]=-1.709940 prevPhis[ 1]=7.685126, nextPhis[ 1]=7.709940 <==IsSwitchingOccur() T = 11.190000 Tnext = 11.195000 Time: 1.11900e+01 states: [ -1.57481e+00 -1.98551e+00] derivs: [ -1.98527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.195000 pESO->GetIndependentVar(): 11.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.709940, nextPhis[ 0]=-1.734679 prevPhis[ 1]=7.709940, nextPhis[ 1]=7.734679 <==IsSwitchingOccur() T = 11.195000 Tnext = 11.200000 Time: 1.11950e+01 states: [ -1.58472e+00 -1.98051e+00] derivs: [ -1.98027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.200000 pESO->GetIndependentVar(): 11.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.734679, nextPhis[ 0]=-1.759343 prevPhis[ 1]=7.734679, nextPhis[ 1]=7.759343 <==IsSwitchingOccur() T = 11.200000 Tnext = 11.205000 Time: 1.12000e+01 states: [ -1.59461e+00 -1.97551e+00] derivs: [ -1.97527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.205000 pESO->GetIndependentVar(): 11.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.759343, nextPhis[ 0]=-1.783931 prevPhis[ 1]=7.759343, nextPhis[ 1]=7.783931 <==IsSwitchingOccur() T = 11.205000 Tnext = 11.210000 Time: 1.12050e+01 states: [ -1.60447e+00 -1.97051e+00] derivs: [ -1.97027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.210000 pESO->GetIndependentVar(): 11.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.783931, nextPhis[ 0]=-1.808445 prevPhis[ 1]=7.783931, nextPhis[ 1]=7.808445 <==IsSwitchingOccur() T = 11.210000 Tnext = 11.215000 Time: 1.12100e+01 states: [ -1.61431e+00 -1.96551e+00] derivs: [ -1.96527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.215000 pESO->GetIndependentVar(): 11.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.808445, nextPhis[ 0]=-1.832884 prevPhis[ 1]=7.808445, nextPhis[ 1]=7.832884 <==IsSwitchingOccur() T = 11.215000 Tnext = 11.220000 Time: 1.12150e+01 states: [ -1.62413e+00 -1.96051e+00] derivs: [ -1.96027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.220000 pESO->GetIndependentVar(): 11.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.832884, nextPhis[ 0]=-1.857248 prevPhis[ 1]=7.832884, nextPhis[ 1]=7.857248 <==IsSwitchingOccur() T = 11.220000 Tnext = 11.225000 Time: 1.12200e+01 states: [ -1.63391e+00 -1.95551e+00] derivs: [ -1.95527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.225000 pESO->GetIndependentVar(): 11.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.857248, nextPhis[ 0]=-1.881537 prevPhis[ 1]=7.857248, nextPhis[ 1]=7.881537 <==IsSwitchingOccur() T = 11.225000 Tnext = 11.230000 Time: 1.12250e+01 states: [ -1.64368e+00 -1.95051e+00] derivs: [ -1.95027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.230000 pESO->GetIndependentVar(): 11.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.881537, nextPhis[ 0]=-1.905751 prevPhis[ 1]=7.881537, nextPhis[ 1]=7.905751 <==IsSwitchingOccur() T = 11.230000 Tnext = 11.235000 Time: 1.12300e+01 states: [ -1.65341e+00 -1.94551e+00] derivs: [ -1.94527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.235000 pESO->GetIndependentVar(): 11.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.905751, nextPhis[ 0]=-1.929890 prevPhis[ 1]=7.905751, nextPhis[ 1]=7.929890 <==IsSwitchingOccur() T = 11.235000 Tnext = 11.240000 Time: 1.12350e+01 states: [ -1.66313e+00 -1.94051e+00] derivs: [ -1.94027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.240000 pESO->GetIndependentVar(): 11.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.929890, nextPhis[ 0]=-1.953953 prevPhis[ 1]=7.929890, nextPhis[ 1]=7.953953 <==IsSwitchingOccur() T = 11.240000 Tnext = 11.245000 Time: 1.12400e+01 states: [ -1.67282e+00 -1.93551e+00] derivs: [ -1.93527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.245000 pESO->GetIndependentVar(): 11.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.953953, nextPhis[ 0]=-1.977942 prevPhis[ 1]=7.953953, nextPhis[ 1]=7.977942 <==IsSwitchingOccur() T = 11.245000 Tnext = 11.250000 Time: 1.12450e+01 states: [ -1.68248e+00 -1.93051e+00] derivs: [ -1.93027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.250000 pESO->GetIndependentVar(): 11.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.977942, nextPhis[ 0]=-2.001856 prevPhis[ 1]=7.977942, nextPhis[ 1]=8.001856 <==IsSwitchingOccur() T = 11.250000 Tnext = 11.255000 Time: 1.12500e+01 states: [ -1.69212e+00 -1.92551e+00] derivs: [ -1.92527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.255000 pESO->GetIndependentVar(): 11.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.001856, nextPhis[ 0]=-2.025695 prevPhis[ 1]=8.001856, nextPhis[ 1]=8.025695 <==IsSwitchingOccur() T = 11.255000 Tnext = 11.260000 Time: 1.12550e+01 states: [ -1.70173e+00 -1.92051e+00] derivs: [ -1.92027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.260000 pESO->GetIndependentVar(): 11.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.025695, nextPhis[ 0]=-2.049459 prevPhis[ 1]=8.025695, nextPhis[ 1]=8.049459 <==IsSwitchingOccur() T = 11.260000 Tnext = 11.265000 Time: 1.12600e+01 states: [ -1.71132e+00 -1.91551e+00] derivs: [ -1.91527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.265000 pESO->GetIndependentVar(): 11.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.049459, nextPhis[ 0]=-2.073148 prevPhis[ 1]=8.049459, nextPhis[ 1]=8.073148 <==IsSwitchingOccur() T = 11.265000 Tnext = 11.270000 Time: 1.12650e+01 states: [ -1.72088e+00 -1.91051e+00] derivs: [ -1.91027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.270000 pESO->GetIndependentVar(): 11.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.073148, nextPhis[ 0]=-2.096761 prevPhis[ 1]=8.073148, nextPhis[ 1]=8.096761 <==IsSwitchingOccur() T = 11.270000 Tnext = 11.275000 Time: 1.12700e+01 states: [ -1.73042e+00 -1.90551e+00] derivs: [ -1.90527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.275000 pESO->GetIndependentVar(): 11.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.096761, nextPhis[ 0]=-2.120300 prevPhis[ 1]=8.096761, nextPhis[ 1]=8.120300 <==IsSwitchingOccur() T = 11.275000 Tnext = 11.280000 Time: 1.12750e+01 states: [ -1.73993e+00 -1.90051e+00] derivs: [ -1.90027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.280000 pESO->GetIndependentVar(): 11.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.120300, nextPhis[ 0]=-2.143764 prevPhis[ 1]=8.120300, nextPhis[ 1]=8.143764 <==IsSwitchingOccur() T = 11.280000 Tnext = 11.285000 Time: 1.12800e+01 states: [ -1.74942e+00 -1.89551e+00] derivs: [ -1.89527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.285000 pESO->GetIndependentVar(): 11.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.143764, nextPhis[ 0]=-2.167153 prevPhis[ 1]=8.143764, nextPhis[ 1]=8.167153 <==IsSwitchingOccur() T = 11.285000 Tnext = 11.290000 Time: 1.12850e+01 states: [ -1.75888e+00 -1.89051e+00] derivs: [ -1.89027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.290000 pESO->GetIndependentVar(): 11.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.167153, nextPhis[ 0]=-2.190467 prevPhis[ 1]=8.167153, nextPhis[ 1]=8.190467 <==IsSwitchingOccur() T = 11.290000 Tnext = 11.295000 Time: 1.12900e+01 states: [ -1.76832e+00 -1.88551e+00] derivs: [ -1.88527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.295000 pESO->GetIndependentVar(): 11.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.190467, nextPhis[ 0]=-2.213706 prevPhis[ 1]=8.190467, nextPhis[ 1]=8.213706 <==IsSwitchingOccur() T = 11.295000 Tnext = 11.300000 Time: 1.12950e+01 states: [ -1.77773e+00 -1.88051e+00] derivs: [ -1.88027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.300000 pESO->GetIndependentVar(): 11.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.213706, nextPhis[ 0]=-2.236869 prevPhis[ 1]=8.213706, nextPhis[ 1]=8.236869 <==IsSwitchingOccur() T = 11.300000 Tnext = 11.305000 Time: 1.13000e+01 states: [ -1.78712e+00 -1.87551e+00] derivs: [ -1.87527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.305000 pESO->GetIndependentVar(): 11.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.236869, nextPhis[ 0]=-2.259958 prevPhis[ 1]=8.236869, nextPhis[ 1]=8.259958 <==IsSwitchingOccur() T = 11.305000 Tnext = 11.310000 Time: 1.13050e+01 states: [ -1.79648e+00 -1.87051e+00] derivs: [ -1.87027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.310000 pESO->GetIndependentVar(): 11.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.259958, nextPhis[ 0]=-2.282972 prevPhis[ 1]=8.259958, nextPhis[ 1]=8.282972 <==IsSwitchingOccur() T = 11.310000 Tnext = 11.315000 Time: 1.13100e+01 states: [ -1.80582e+00 -1.86551e+00] derivs: [ -1.86527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.315000 pESO->GetIndependentVar(): 11.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.282972, nextPhis[ 0]=-2.305911 prevPhis[ 1]=8.282972, nextPhis[ 1]=8.305911 <==IsSwitchingOccur() T = 11.315000 Tnext = 11.320000 Time: 1.13150e+01 states: [ -1.81513e+00 -1.86051e+00] derivs: [ -1.86027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.320000 pESO->GetIndependentVar(): 11.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.305911, nextPhis[ 0]=-2.328775 prevPhis[ 1]=8.305911, nextPhis[ 1]=8.328775 <==IsSwitchingOccur() T = 11.320000 Tnext = 11.325000 Time: 1.13200e+01 states: [ -1.82442e+00 -1.85551e+00] derivs: [ -1.85527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.325000 pESO->GetIndependentVar(): 11.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.328775, nextPhis[ 0]=-2.351564 prevPhis[ 1]=8.328775, nextPhis[ 1]=8.351564 <==IsSwitchingOccur() T = 11.325000 Tnext = 11.330000 Time: 1.13250e+01 states: [ -1.83369e+00 -1.85051e+00] derivs: [ -1.85027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.330000 pESO->GetIndependentVar(): 11.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.351564, nextPhis[ 0]=-2.374278 prevPhis[ 1]=8.351564, nextPhis[ 1]=8.374278 <==IsSwitchingOccur() T = 11.330000 Tnext = 11.335000 Time: 1.13300e+01 states: [ -1.84292e+00 -1.84551e+00] derivs: [ -1.84527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.335000 pESO->GetIndependentVar(): 11.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.374278, nextPhis[ 0]=-2.396916 prevPhis[ 1]=8.374278, nextPhis[ 1]=8.396916 <==IsSwitchingOccur() T = 11.335000 Tnext = 11.340000 Time: 1.13350e+01 states: [ -1.85214e+00 -1.84051e+00] derivs: [ -1.84027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.340000 pESO->GetIndependentVar(): 11.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.396916, nextPhis[ 0]=-2.419480 prevPhis[ 1]=8.396916, nextPhis[ 1]=8.419480 <==IsSwitchingOccur() T = 11.340000 Tnext = 11.345000 Time: 1.13400e+01 states: [ -1.86132e+00 -1.83551e+00] derivs: [ -1.83527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.345000 pESO->GetIndependentVar(): 11.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.419480, nextPhis[ 0]=-2.441969 prevPhis[ 1]=8.419480, nextPhis[ 1]=8.441969 <==IsSwitchingOccur() T = 11.345000 Tnext = 11.350000 Time: 1.13450e+01 states: [ -1.87049e+00 -1.83051e+00] derivs: [ -1.83027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.350000 pESO->GetIndependentVar(): 11.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.441969, nextPhis[ 0]=-2.464383 prevPhis[ 1]=8.441969, nextPhis[ 1]=8.464383 <==IsSwitchingOccur() T = 11.350000 Tnext = 11.355000 Time: 1.13500e+01 states: [ -1.87963e+00 -1.82551e+00] derivs: [ -1.82527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.355000 pESO->GetIndependentVar(): 11.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.464383, nextPhis[ 0]=-2.486722 prevPhis[ 1]=8.464383, nextPhis[ 1]=8.486722 <==IsSwitchingOccur() T = 11.355000 Tnext = 11.360000 Time: 1.13550e+01 states: [ -1.88874e+00 -1.82051e+00] derivs: [ -1.82027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.360000 pESO->GetIndependentVar(): 11.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.486722, nextPhis[ 0]=-2.508986 prevPhis[ 1]=8.486722, nextPhis[ 1]=8.508986 <==IsSwitchingOccur() T = 11.360000 Tnext = 11.365000 Time: 1.13600e+01 states: [ -1.89783e+00 -1.81551e+00] derivs: [ -1.81527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.365000 pESO->GetIndependentVar(): 11.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.508986, nextPhis[ 0]=-2.531174 prevPhis[ 1]=8.508986, nextPhis[ 1]=8.531174 <==IsSwitchingOccur() T = 11.365000 Tnext = 11.370000 Time: 1.13650e+01 states: [ -1.90689e+00 -1.81051e+00] derivs: [ -1.81027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.370000 pESO->GetIndependentVar(): 11.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.531174, nextPhis[ 0]=-2.553288 prevPhis[ 1]=8.531174, nextPhis[ 1]=8.553288 <==IsSwitchingOccur() T = 11.370000 Tnext = 11.375000 Time: 1.13700e+01 states: [ -1.91593e+00 -1.80551e+00] derivs: [ -1.80527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.375000 pESO->GetIndependentVar(): 11.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.553288, nextPhis[ 0]=-2.575327 prevPhis[ 1]=8.553288, nextPhis[ 1]=8.575327 <==IsSwitchingOccur() T = 11.375000 Tnext = 11.380000 Time: 1.13750e+01 states: [ -1.92494e+00 -1.80051e+00] derivs: [ -1.80027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.380000 pESO->GetIndependentVar(): 11.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.575327, nextPhis[ 0]=-2.597291 prevPhis[ 1]=8.575327, nextPhis[ 1]=8.597291 <==IsSwitchingOccur() T = 11.380000 Tnext = 11.385000 Time: 1.13800e+01 states: [ -1.93393e+00 -1.79551e+00] derivs: [ -1.79527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.385000 pESO->GetIndependentVar(): 11.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.597291, nextPhis[ 0]=-2.619180 prevPhis[ 1]=8.597291, nextPhis[ 1]=8.619180 <==IsSwitchingOccur() T = 11.385000 Tnext = 11.390000 Time: 1.13850e+01 states: [ -1.94289e+00 -1.79051e+00] derivs: [ -1.79027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.390000 pESO->GetIndependentVar(): 11.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.619180, nextPhis[ 0]=-2.640994 prevPhis[ 1]=8.619180, nextPhis[ 1]=8.640994 <==IsSwitchingOccur() T = 11.390000 Tnext = 11.395000 Time: 1.13900e+01 states: [ -1.95183e+00 -1.78551e+00] derivs: [ -1.78527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.395000 pESO->GetIndependentVar(): 11.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.640994, nextPhis[ 0]=-2.662732 prevPhis[ 1]=8.640994, nextPhis[ 1]=8.662732 <==IsSwitchingOccur() T = 11.395000 Tnext = 11.400000 Time: 1.13950e+01 states: [ -1.96074e+00 -1.78051e+00] derivs: [ -1.78027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.400000 pESO->GetIndependentVar(): 11.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.662732, nextPhis[ 0]=-2.684396 prevPhis[ 1]=8.662732, nextPhis[ 1]=8.684396 <==IsSwitchingOccur() T = 11.400000 Tnext = 11.405000 Time: 1.14000e+01 states: [ -1.96963e+00 -1.77551e+00] derivs: [ -1.77527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.405000 pESO->GetIndependentVar(): 11.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.684396, nextPhis[ 0]=-2.705985 prevPhis[ 1]=8.684396, nextPhis[ 1]=8.705985 <==IsSwitchingOccur() T = 11.405000 Tnext = 11.410000 Time: 1.14050e+01 states: [ -1.97849e+00 -1.77051e+00] derivs: [ -1.77027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.410000 pESO->GetIndependentVar(): 11.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.705985, nextPhis[ 0]=-2.727499 prevPhis[ 1]=8.705985, nextPhis[ 1]=8.727499 <==IsSwitchingOccur() T = 11.410000 Tnext = 11.415000 Time: 1.14100e+01 states: [ -1.98733e+00 -1.76551e+00] derivs: [ -1.76527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.415000 pESO->GetIndependentVar(): 11.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.727499, nextPhis[ 0]=-2.748938 prevPhis[ 1]=8.727499, nextPhis[ 1]=8.748938 <==IsSwitchingOccur() T = 11.415000 Tnext = 11.420000 Time: 1.14150e+01 states: [ -1.99614e+00 -1.76051e+00] derivs: [ -1.76027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.420000 pESO->GetIndependentVar(): 11.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.748938, nextPhis[ 0]=-2.770302 prevPhis[ 1]=8.748938, nextPhis[ 1]=8.770302 <==IsSwitchingOccur() T = 11.420000 Tnext = 11.425000 Time: 1.14200e+01 states: [ -2.00493e+00 -1.75551e+00] derivs: [ -1.75527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.425000 pESO->GetIndependentVar(): 11.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.770302, nextPhis[ 0]=-2.791591 prevPhis[ 1]=8.770302, nextPhis[ 1]=8.791591 <==IsSwitchingOccur() T = 11.425000 Tnext = 11.430000 Time: 1.14250e+01 states: [ -2.01369e+00 -1.75051e+00] derivs: [ -1.75027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.430000 pESO->GetIndependentVar(): 11.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.791591, nextPhis[ 0]=-2.812804 prevPhis[ 1]=8.791591, nextPhis[ 1]=8.812804 <==IsSwitchingOccur() T = 11.430000 Tnext = 11.435000 Time: 1.14300e+01 states: [ -2.02243e+00 -1.74551e+00] derivs: [ -1.74527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.435000 pESO->GetIndependentVar(): 11.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.812804, nextPhis[ 0]=-2.833943 prevPhis[ 1]=8.812804, nextPhis[ 1]=8.833943 <==IsSwitchingOccur() T = 11.435000 Tnext = 11.440000 Time: 1.14350e+01 states: [ -2.03115e+00 -1.74051e+00] derivs: [ -1.74027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.440000 pESO->GetIndependentVar(): 11.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.833943, nextPhis[ 0]=-2.855007 prevPhis[ 1]=8.833943, nextPhis[ 1]=8.855007 <==IsSwitchingOccur() T = 11.440000 Tnext = 11.445000 Time: 1.14400e+01 states: [ -2.03983e+00 -1.73551e+00] derivs: [ -1.73527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.445000 pESO->GetIndependentVar(): 11.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.855007, nextPhis[ 0]=-2.875996 prevPhis[ 1]=8.855007, nextPhis[ 1]=8.875996 <==IsSwitchingOccur() T = 11.445000 Tnext = 11.450000 Time: 1.14450e+01 states: [ -2.04850e+00 -1.73051e+00] derivs: [ -1.73027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.450000 pESO->GetIndependentVar(): 11.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.875996, nextPhis[ 0]=-2.896910 prevPhis[ 1]=8.875996, nextPhis[ 1]=8.896910 <==IsSwitchingOccur() T = 11.450000 Tnext = 11.455000 Time: 1.14500e+01 states: [ -2.05713e+00 -1.72551e+00] derivs: [ -1.72527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.455000 pESO->GetIndependentVar(): 11.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.896910, nextPhis[ 0]=-2.917749 prevPhis[ 1]=8.896910, nextPhis[ 1]=8.917749 <==IsSwitchingOccur() T = 11.455000 Tnext = 11.460000 Time: 1.14550e+01 states: [ -2.06575e+00 -1.72051e+00] derivs: [ -1.72027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.460000 pESO->GetIndependentVar(): 11.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.917749, nextPhis[ 0]=-2.938512 prevPhis[ 1]=8.917749, nextPhis[ 1]=8.938512 <==IsSwitchingOccur() T = 11.460000 Tnext = 11.465000 Time: 1.14600e+01 states: [ -2.07433e+00 -1.71551e+00] derivs: [ -1.71527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.465000 pESO->GetIndependentVar(): 11.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.938512, nextPhis[ 0]=-2.959201 prevPhis[ 1]=8.938512, nextPhis[ 1]=8.959201 <==IsSwitchingOccur() T = 11.465000 Tnext = 11.470000 Time: 1.14650e+01 states: [ -2.08290e+00 -1.71051e+00] derivs: [ -1.71027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.470000 pESO->GetIndependentVar(): 11.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.959201, nextPhis[ 0]=-2.979815 prevPhis[ 1]=8.959201, nextPhis[ 1]=8.979815 <==IsSwitchingOccur() T = 11.470000 Tnext = 11.475000 Time: 1.14700e+01 states: [ -2.09144e+00 -1.70551e+00] derivs: [ -1.70527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.475000 pESO->GetIndependentVar(): 11.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.979815, nextPhis[ 0]=-3.000354 prevPhis[ 1]=8.979815, nextPhis[ 1]=9.000354 <==IsSwitchingOccur() T = 11.475000 Tnext = 11.480000 Time: 1.14750e+01 states: [ -2.09995e+00 -1.70051e+00] derivs: [ -1.70027e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.480000 pESO->GetIndependentVar(): 11.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.000354, nextPhis[ 0]=-3.020818 prevPhis[ 1]=9.000354, nextPhis[ 1]=9.020818 <==IsSwitchingOccur() T = 11.480000 Tnext = 11.485000 Time: 1.14800e+01 states: [ -2.10844e+00 -1.69551e+00] derivs: [ -1.69527e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.485000 pESO->GetIndependentVar(): 11.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.020818, nextPhis[ 0]=-3.041203 prevPhis[ 1]=9.020818, nextPhis[ 1]=9.041203 <==IsSwitchingOccur() T = 11.485000 Tnext = 11.490000 Time: 1.14850e+01 states: [ -2.11690e+00 -1.69051e+00] derivs: [ -1.69026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.490000 pESO->GetIndependentVar(): 11.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.041203, nextPhis[ 0]=-3.061512 prevPhis[ 1]=9.041203, nextPhis[ 1]=9.061512 <==IsSwitchingOccur() T = 11.490000 Tnext = 11.495000 Time: 1.14900e+01 states: [ -2.12533e+00 -1.68551e+00] derivs: [ -1.68526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.495000 pESO->GetIndependentVar(): 11.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.061512, nextPhis[ 0]=-3.081747 prevPhis[ 1]=9.061512, nextPhis[ 1]=9.081747 <==IsSwitchingOccur() T = 11.495000 Tnext = 11.500000 Time: 1.14950e+01 states: [ -2.13375e+00 -1.68051e+00] derivs: [ -1.68026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.500000 pESO->GetIndependentVar(): 11.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.081747, nextPhis[ 0]=-3.101907 prevPhis[ 1]=9.081747, nextPhis[ 1]=9.101907 <==IsSwitchingOccur() T = 11.500000 Tnext = 11.505000 Time: 1.15000e+01 states: [ -2.14213e+00 -1.67551e+00] derivs: [ -1.67526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.505000 pESO->GetIndependentVar(): 11.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.101907, nextPhis[ 0]=-3.121992 prevPhis[ 1]=9.101907, nextPhis[ 1]=9.121992 <==IsSwitchingOccur() T = 11.505000 Tnext = 11.510000 Time: 1.15050e+01 states: [ -2.15049e+00 -1.67051e+00] derivs: [ -1.67026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.510000 pESO->GetIndependentVar(): 11.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.121992, nextPhis[ 0]=-3.142001 prevPhis[ 1]=9.121992, nextPhis[ 1]=9.142001 <==IsSwitchingOccur() T = 11.510000 Tnext = 11.515000 Time: 1.15100e+01 states: [ -2.15883e+00 -1.66551e+00] derivs: [ -1.66526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.515000 pESO->GetIndependentVar(): 11.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.142001, nextPhis[ 0]=-3.161936 prevPhis[ 1]=9.142001, nextPhis[ 1]=9.161936 <==IsSwitchingOccur() T = 11.515000 Tnext = 11.520000 Time: 1.15150e+01 states: [ -2.16714e+00 -1.66051e+00] derivs: [ -1.66026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.520000 pESO->GetIndependentVar(): 11.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.161936, nextPhis[ 0]=-3.181796 prevPhis[ 1]=9.161936, nextPhis[ 1]=9.181796 <==IsSwitchingOccur() T = 11.520000 Tnext = 11.525000 Time: 1.15200e+01 states: [ -2.17543e+00 -1.65551e+00] derivs: [ -1.65526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.525000 pESO->GetIndependentVar(): 11.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.181796, nextPhis[ 0]=-3.201581 prevPhis[ 1]=9.181796, nextPhis[ 1]=9.201581 <==IsSwitchingOccur() T = 11.525000 Tnext = 11.530000 Time: 1.15250e+01 states: [ -2.18369e+00 -1.65051e+00] derivs: [ -1.65026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.530000 pESO->GetIndependentVar(): 11.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.201581, nextPhis[ 0]=-3.221290 prevPhis[ 1]=9.201581, nextPhis[ 1]=9.221290 <==IsSwitchingOccur() T = 11.530000 Tnext = 11.535000 Time: 1.15300e+01 states: [ -2.19193e+00 -1.64551e+00] derivs: [ -1.64526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.535000 pESO->GetIndependentVar(): 11.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.221290, nextPhis[ 0]=-3.240925 prevPhis[ 1]=9.221290, nextPhis[ 1]=9.240925 <==IsSwitchingOccur() T = 11.535000 Tnext = 11.540000 Time: 1.15350e+01 states: [ -2.20014e+00 -1.64051e+00] derivs: [ -1.64026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.540000 pESO->GetIndependentVar(): 11.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.240925, nextPhis[ 0]=-3.260485 prevPhis[ 1]=9.240925, nextPhis[ 1]=9.260485 <==IsSwitchingOccur() T = 11.540000 Tnext = 11.545000 Time: 1.15400e+01 states: [ -2.20833e+00 -1.63551e+00] derivs: [ -1.63526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.545000 pESO->GetIndependentVar(): 11.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.260485, nextPhis[ 0]=-3.279970 prevPhis[ 1]=9.260485, nextPhis[ 1]=9.279970 <==IsSwitchingOccur() T = 11.545000 Tnext = 11.550000 Time: 1.15450e+01 states: [ -2.21649e+00 -1.63051e+00] derivs: [ -1.63026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.550000 pESO->GetIndependentVar(): 11.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.279970, nextPhis[ 0]=-3.299379 prevPhis[ 1]=9.279970, nextPhis[ 1]=9.299379 <==IsSwitchingOccur() T = 11.550000 Tnext = 11.555000 Time: 1.15500e+01 states: [ -2.22462e+00 -1.62551e+00] derivs: [ -1.62526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.555000 pESO->GetIndependentVar(): 11.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.299379, nextPhis[ 0]=-3.318714 prevPhis[ 1]=9.299379, nextPhis[ 1]=9.318714 <==IsSwitchingOccur() T = 11.555000 Tnext = 11.560000 Time: 1.15550e+01 states: [ -2.23274e+00 -1.62051e+00] derivs: [ -1.62026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.560000 pESO->GetIndependentVar(): 11.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.318714, nextPhis[ 0]=-3.337974 prevPhis[ 1]=9.318714, nextPhis[ 1]=9.337974 <==IsSwitchingOccur() T = 11.560000 Tnext = 11.565000 Time: 1.15600e+01 states: [ -2.24082e+00 -1.61551e+00] derivs: [ -1.61526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.565000 pESO->GetIndependentVar(): 11.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.337974, nextPhis[ 0]=-3.357159 prevPhis[ 1]=9.337974, nextPhis[ 1]=9.357159 <==IsSwitchingOccur() T = 11.565000 Tnext = 11.570000 Time: 1.15650e+01 states: [ -2.24888e+00 -1.61051e+00] derivs: [ -1.61026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.570000 pESO->GetIndependentVar(): 11.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.357159, nextPhis[ 0]=-3.376268 prevPhis[ 1]=9.357159, nextPhis[ 1]=9.376268 <==IsSwitchingOccur() T = 11.570000 Tnext = 11.575000 Time: 1.15700e+01 states: [ -2.25692e+00 -1.60551e+00] derivs: [ -1.60526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.575000 pESO->GetIndependentVar(): 11.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.376268, nextPhis[ 0]=-3.395303 prevPhis[ 1]=9.376268, nextPhis[ 1]=9.395303 <==IsSwitchingOccur() T = 11.575000 Tnext = 11.580000 Time: 1.15750e+01 states: [ -2.26493e+00 -1.60051e+00] derivs: [ -1.60026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.580000 pESO->GetIndependentVar(): 11.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.395303, nextPhis[ 0]=-3.414263 prevPhis[ 1]=9.395303, nextPhis[ 1]=9.414263 <==IsSwitchingOccur() T = 11.580000 Tnext = 11.585000 Time: 1.15800e+01 states: [ -2.27292e+00 -1.59551e+00] derivs: [ -1.59526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.585000 pESO->GetIndependentVar(): 11.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.414263, nextPhis[ 0]=-3.433148 prevPhis[ 1]=9.414263, nextPhis[ 1]=9.433148 <==IsSwitchingOccur() T = 11.585000 Tnext = 11.590000 Time: 1.15850e+01 states: [ -2.28088e+00 -1.59051e+00] derivs: [ -1.59026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.590000 pESO->GetIndependentVar(): 11.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.433148, nextPhis[ 0]=-3.451958 prevPhis[ 1]=9.433148, nextPhis[ 1]=9.451958 <==IsSwitchingOccur() T = 11.590000 Tnext = 11.595000 Time: 1.15900e+01 states: [ -2.28882e+00 -1.58551e+00] derivs: [ -1.58526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.595000 pESO->GetIndependentVar(): 11.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.451958, nextPhis[ 0]=-3.470692 prevPhis[ 1]=9.451958, nextPhis[ 1]=9.470692 <==IsSwitchingOccur() T = 11.595000 Tnext = 11.600000 Time: 1.15950e+01 states: [ -2.29673e+00 -1.58051e+00] derivs: [ -1.58026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.600000 pESO->GetIndependentVar(): 11.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.470692, nextPhis[ 0]=-3.489352 prevPhis[ 1]=9.470692, nextPhis[ 1]=9.489352 <==IsSwitchingOccur() T = 11.600000 Tnext = 11.605000 Time: 1.16000e+01 states: [ -2.30461e+00 -1.57551e+00] derivs: [ -1.57526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.605000 pESO->GetIndependentVar(): 11.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.489352, nextPhis[ 0]=-3.507937 prevPhis[ 1]=9.489352, nextPhis[ 1]=9.507937 <==IsSwitchingOccur() T = 11.605000 Tnext = 11.610000 Time: 1.16050e+01 states: [ -2.31248e+00 -1.57051e+00] derivs: [ -1.57026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.610000 pESO->GetIndependentVar(): 11.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.507937, nextPhis[ 0]=-3.526447 prevPhis[ 1]=9.507937, nextPhis[ 1]=9.526447 <==IsSwitchingOccur() T = 11.610000 Tnext = 11.615000 Time: 1.16100e+01 states: [ -2.32031e+00 -1.56551e+00] derivs: [ -1.56526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.615000 pESO->GetIndependentVar(): 11.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.526447, nextPhis[ 0]=-3.544881 prevPhis[ 1]=9.526447, nextPhis[ 1]=9.544881 <==IsSwitchingOccur() T = 11.615000 Tnext = 11.620000 Time: 1.16150e+01 states: [ -2.32812e+00 -1.56051e+00] derivs: [ -1.56026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.620000 pESO->GetIndependentVar(): 11.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.544881, nextPhis[ 0]=-3.563241 prevPhis[ 1]=9.544881, nextPhis[ 1]=9.563241 <==IsSwitchingOccur() T = 11.620000 Tnext = 11.625000 Time: 1.16200e+01 states: [ -2.33591e+00 -1.55551e+00] derivs: [ -1.55526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.625000 pESO->GetIndependentVar(): 11.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.563241, nextPhis[ 0]=-3.581526 prevPhis[ 1]=9.563241, nextPhis[ 1]=9.581526 <==IsSwitchingOccur() T = 11.625000 Tnext = 11.630000 Time: 1.16250e+01 states: [ -2.34367e+00 -1.55051e+00] derivs: [ -1.55026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.630000 pESO->GetIndependentVar(): 11.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.581526, nextPhis[ 0]=-3.599736 prevPhis[ 1]=9.581526, nextPhis[ 1]=9.599736 <==IsSwitchingOccur() T = 11.630000 Tnext = 11.635000 Time: 1.16300e+01 states: [ -2.35141e+00 -1.54551e+00] derivs: [ -1.54526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.635000 pESO->GetIndependentVar(): 11.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.599736, nextPhis[ 0]=-3.617870 prevPhis[ 1]=9.599736, nextPhis[ 1]=9.617870 <==IsSwitchingOccur() T = 11.635000 Tnext = 11.640000 Time: 1.16350e+01 states: [ -2.35912e+00 -1.54051e+00] derivs: [ -1.54026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.640000 pESO->GetIndependentVar(): 11.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.617870, nextPhis[ 0]=-3.635930 prevPhis[ 1]=9.617870, nextPhis[ 1]=9.635930 <==IsSwitchingOccur() T = 11.640000 Tnext = 11.645000 Time: 1.16400e+01 states: [ -2.36681e+00 -1.53551e+00] derivs: [ -1.53526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.645000 pESO->GetIndependentVar(): 11.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.635930, nextPhis[ 0]=-3.653915 prevPhis[ 1]=9.635930, nextPhis[ 1]=9.653915 <==IsSwitchingOccur() T = 11.645000 Tnext = 11.650000 Time: 1.16450e+01 states: [ -2.37447e+00 -1.53051e+00] derivs: [ -1.53026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.650000 pESO->GetIndependentVar(): 11.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.653915, nextPhis[ 0]=-3.671825 prevPhis[ 1]=9.653915, nextPhis[ 1]=9.671825 <==IsSwitchingOccur() T = 11.650000 Tnext = 11.655000 Time: 1.16500e+01 states: [ -2.38211e+00 -1.52551e+00] derivs: [ -1.52526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.655000 pESO->GetIndependentVar(): 11.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.671825, nextPhis[ 0]=-3.689659 prevPhis[ 1]=9.671825, nextPhis[ 1]=9.689659 <==IsSwitchingOccur() T = 11.655000 Tnext = 11.660000 Time: 1.16550e+01 states: [ -2.38972e+00 -1.52051e+00] derivs: [ -1.52026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.660000 pESO->GetIndependentVar(): 11.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.689659, nextPhis[ 0]=-3.707419 prevPhis[ 1]=9.689659, nextPhis[ 1]=9.707419 <==IsSwitchingOccur() T = 11.660000 Tnext = 11.665000 Time: 1.16600e+01 states: [ -2.39730e+00 -1.51551e+00] derivs: [ -1.51526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.665000 pESO->GetIndependentVar(): 11.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.707419, nextPhis[ 0]=-3.725104 prevPhis[ 1]=9.707419, nextPhis[ 1]=9.725104 <==IsSwitchingOccur() T = 11.665000 Tnext = 11.670000 Time: 1.16650e+01 states: [ -2.40487e+00 -1.51051e+00] derivs: [ -1.51026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.670000 pESO->GetIndependentVar(): 11.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.725104, nextPhis[ 0]=-3.742714 prevPhis[ 1]=9.725104, nextPhis[ 1]=9.742714 <==IsSwitchingOccur() T = 11.670000 Tnext = 11.675000 Time: 1.16700e+01 states: [ -2.41240e+00 -1.50551e+00] derivs: [ -1.50526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.675000 pESO->GetIndependentVar(): 11.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.742714, nextPhis[ 0]=-3.760248 prevPhis[ 1]=9.742714, nextPhis[ 1]=9.760248 <==IsSwitchingOccur() T = 11.675000 Tnext = 11.680000 Time: 1.16750e+01 states: [ -2.41991e+00 -1.50051e+00] derivs: [ -1.50026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.680000 pESO->GetIndependentVar(): 11.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.760248, nextPhis[ 0]=-3.777708 prevPhis[ 1]=9.760248, nextPhis[ 1]=9.777708 <==IsSwitchingOccur() T = 11.680000 Tnext = 11.685000 Time: 1.16800e+01 states: [ -2.42740e+00 -1.49551e+00] derivs: [ -1.49526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.685000 pESO->GetIndependentVar(): 11.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.777708, nextPhis[ 0]=-3.795093 prevPhis[ 1]=9.777708, nextPhis[ 1]=9.795093 <==IsSwitchingOccur() T = 11.685000 Tnext = 11.690000 Time: 1.16850e+01 states: [ -2.43486e+00 -1.49051e+00] derivs: [ -1.49026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.690000 pESO->GetIndependentVar(): 11.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.795093, nextPhis[ 0]=-3.812403 prevPhis[ 1]=9.795093, nextPhis[ 1]=9.812403 <==IsSwitchingOccur() T = 11.690000 Tnext = 11.695000 Time: 1.16900e+01 states: [ -2.44230e+00 -1.48551e+00] derivs: [ -1.48526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.695000 pESO->GetIndependentVar(): 11.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.812403, nextPhis[ 0]=-3.829637 prevPhis[ 1]=9.812403, nextPhis[ 1]=9.829637 <==IsSwitchingOccur() T = 11.695000 Tnext = 11.700000 Time: 1.16950e+01 states: [ -2.44971e+00 -1.48051e+00] derivs: [ -1.48026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.700000 pESO->GetIndependentVar(): 11.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.829637, nextPhis[ 0]=-3.846797 prevPhis[ 1]=9.829637, nextPhis[ 1]=9.846797 <==IsSwitchingOccur() T = 11.700000 Tnext = 11.705000 Time: 1.17000e+01 states: [ -2.45710e+00 -1.47551e+00] derivs: [ -1.47526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.705000 pESO->GetIndependentVar(): 11.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.846797, nextPhis[ 0]=-3.863882 prevPhis[ 1]=9.846797, nextPhis[ 1]=9.863882 <==IsSwitchingOccur() T = 11.705000 Tnext = 11.710000 Time: 1.17050e+01 states: [ -2.46446e+00 -1.47051e+00] derivs: [ -1.47026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.710000 pESO->GetIndependentVar(): 11.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.863882, nextPhis[ 0]=-3.880892 prevPhis[ 1]=9.863882, nextPhis[ 1]=9.880892 <==IsSwitchingOccur() T = 11.710000 Tnext = 11.715000 Time: 1.17100e+01 states: [ -2.47179e+00 -1.46551e+00] derivs: [ -1.46526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.715000 pESO->GetIndependentVar(): 11.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.880892, nextPhis[ 0]=-3.897827 prevPhis[ 1]=9.880892, nextPhis[ 1]=9.897827 <==IsSwitchingOccur() T = 11.715000 Tnext = 11.720000 Time: 1.17150e+01 states: [ -2.47911e+00 -1.46051e+00] derivs: [ -1.46026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.720000 pESO->GetIndependentVar(): 11.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.897827, nextPhis[ 0]=-3.914686 prevPhis[ 1]=9.897827, nextPhis[ 1]=9.914686 <==IsSwitchingOccur() T = 11.720000 Tnext = 11.725000 Time: 1.17200e+01 states: [ -2.48639e+00 -1.45551e+00] derivs: [ -1.45526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.725000 pESO->GetIndependentVar(): 11.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.914686, nextPhis[ 0]=-3.931471 prevPhis[ 1]=9.914686, nextPhis[ 1]=9.931471 <==IsSwitchingOccur() T = 11.725000 Tnext = 11.730000 Time: 1.17250e+01 states: [ -2.49365e+00 -1.45051e+00] derivs: [ -1.45026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.730000 pESO->GetIndependentVar(): 11.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.931471, nextPhis[ 0]=-3.948181 prevPhis[ 1]=9.931471, nextPhis[ 1]=9.948181 <==IsSwitchingOccur() T = 11.730000 Tnext = 11.735000 Time: 1.17300e+01 states: [ -2.50089e+00 -1.44551e+00] derivs: [ -1.44526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.735000 pESO->GetIndependentVar(): 11.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.948181, nextPhis[ 0]=-3.964816 prevPhis[ 1]=9.948181, nextPhis[ 1]=9.964816 <==IsSwitchingOccur() T = 11.735000 Tnext = 11.740000 Time: 1.17350e+01 states: [ -2.50810e+00 -1.44051e+00] derivs: [ -1.44026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.740000 pESO->GetIndependentVar(): 11.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.964816, nextPhis[ 0]=-3.981375 prevPhis[ 1]=9.964816, nextPhis[ 1]=9.981375 <==IsSwitchingOccur() T = 11.740000 Tnext = 11.745000 Time: 1.17400e+01 states: [ -2.51529e+00 -1.43551e+00] derivs: [ -1.43526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.745000 pESO->GetIndependentVar(): 11.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.981375, nextPhis[ 0]=-3.997860 prevPhis[ 1]=9.981375, nextPhis[ 1]=9.997860 <==IsSwitchingOccur() T = 11.745000 Tnext = 11.750000 Time: 1.17450e+01 states: [ -2.52245e+00 -1.43051e+00] derivs: [ -1.43026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.750000 pESO->GetIndependentVar(): 11.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.997860, nextPhis[ 0]=-4.014270 prevPhis[ 1]=9.997860, nextPhis[ 1]=10.014270 <==IsSwitchingOccur() T = 11.750000 Tnext = 11.755000 Time: 1.17500e+01 states: [ -2.52959e+00 -1.42551e+00] derivs: [ -1.42526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.755000 pESO->GetIndependentVar(): 11.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.014270, nextPhis[ 0]=-4.030605 prevPhis[ 1]=10.014270, nextPhis[ 1]=10.030605 <==IsSwitchingOccur() T = 11.755000 Tnext = 11.760000 Time: 1.17550e+01 states: [ -2.53670e+00 -1.42051e+00] derivs: [ -1.42026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.760000 pESO->GetIndependentVar(): 11.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.030605, nextPhis[ 0]=-4.046864 prevPhis[ 1]=10.030605, nextPhis[ 1]=10.046864 <==IsSwitchingOccur() T = 11.760000 Tnext = 11.765000 Time: 1.17600e+01 states: [ -2.54379e+00 -1.41551e+00] derivs: [ -1.41526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.765000 pESO->GetIndependentVar(): 11.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.046864, nextPhis[ 0]=-4.063049 prevPhis[ 1]=10.046864, nextPhis[ 1]=10.063049 <==IsSwitchingOccur() T = 11.765000 Tnext = 11.770000 Time: 1.17650e+01 states: [ -2.55085e+00 -1.41051e+00] derivs: [ -1.41026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.770000 pESO->GetIndependentVar(): 11.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.063049, nextPhis[ 0]=-4.079159 prevPhis[ 1]=10.063049, nextPhis[ 1]=10.079159 <==IsSwitchingOccur() T = 11.770000 Tnext = 11.775000 Time: 1.17700e+01 states: [ -2.55788e+00 -1.40551e+00] derivs: [ -1.40526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.775000 pESO->GetIndependentVar(): 11.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.079159, nextPhis[ 0]=-4.095194 prevPhis[ 1]=10.079159, nextPhis[ 1]=10.095194 <==IsSwitchingOccur() T = 11.775000 Tnext = 11.780000 Time: 1.17750e+01 states: [ -2.56490e+00 -1.40051e+00] derivs: [ -1.40026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.780000 pESO->GetIndependentVar(): 11.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.095194, nextPhis[ 0]=-4.111153 prevPhis[ 1]=10.095194, nextPhis[ 1]=10.111153 <==IsSwitchingOccur() T = 11.780000 Tnext = 11.785000 Time: 1.17800e+01 states: [ -2.57188e+00 -1.39551e+00] derivs: [ -1.39526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.785000 pESO->GetIndependentVar(): 11.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.111153, nextPhis[ 0]=-4.127038 prevPhis[ 1]=10.111153, nextPhis[ 1]=10.127038 <==IsSwitchingOccur() T = 11.785000 Tnext = 11.790000 Time: 1.17850e+01 states: [ -2.57884e+00 -1.39051e+00] derivs: [ -1.39026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.790000 pESO->GetIndependentVar(): 11.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.127038, nextPhis[ 0]=-4.142848 prevPhis[ 1]=10.127038, nextPhis[ 1]=10.142848 <==IsSwitchingOccur() T = 11.790000 Tnext = 11.795000 Time: 1.17900e+01 states: [ -2.58578e+00 -1.38551e+00] derivs: [ -1.38526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.795000 pESO->GetIndependentVar(): 11.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.142848, nextPhis[ 0]=-4.158583 prevPhis[ 1]=10.142848, nextPhis[ 1]=10.158583 <==IsSwitchingOccur() T = 11.795000 Tnext = 11.800000 Time: 1.17950e+01 states: [ -2.59269e+00 -1.38051e+00] derivs: [ -1.38026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.800000 pESO->GetIndependentVar(): 11.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.158583, nextPhis[ 0]=-4.174242 prevPhis[ 1]=10.158583, nextPhis[ 1]=10.174242 <==IsSwitchingOccur() T = 11.800000 Tnext = 11.805000 Time: 1.18000e+01 states: [ -2.59958e+00 -1.37551e+00] derivs: [ -1.37526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.805000 pESO->GetIndependentVar(): 11.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.174242, nextPhis[ 0]=-4.189827 prevPhis[ 1]=10.174242, nextPhis[ 1]=10.189827 <==IsSwitchingOccur() T = 11.805000 Tnext = 11.810000 Time: 1.18050e+01 states: [ -2.60644e+00 -1.37051e+00] derivs: [ -1.37026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.810000 pESO->GetIndependentVar(): 11.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.189827, nextPhis[ 0]=-4.205337 prevPhis[ 1]=10.189827, nextPhis[ 1]=10.205337 <==IsSwitchingOccur() T = 11.810000 Tnext = 11.815000 Time: 1.18100e+01 states: [ -2.61328e+00 -1.36551e+00] derivs: [ -1.36526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.815000 pESO->GetIndependentVar(): 11.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.205337, nextPhis[ 0]=-4.220772 prevPhis[ 1]=10.205337, nextPhis[ 1]=10.220772 <==IsSwitchingOccur() T = 11.815000 Tnext = 11.820000 Time: 1.18150e+01 states: [ -2.62009e+00 -1.36051e+00] derivs: [ -1.36026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.820000 pESO->GetIndependentVar(): 11.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.220772, nextPhis[ 0]=-4.236132 prevPhis[ 1]=10.220772, nextPhis[ 1]=10.236132 <==IsSwitchingOccur() T = 11.820000 Tnext = 11.825000 Time: 1.18200e+01 states: [ -2.62687e+00 -1.35551e+00] derivs: [ -1.35526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.825000 pESO->GetIndependentVar(): 11.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.236132, nextPhis[ 0]=-4.251416 prevPhis[ 1]=10.236132, nextPhis[ 1]=10.251416 <==IsSwitchingOccur() T = 11.825000 Tnext = 11.830000 Time: 1.18250e+01 states: [ -2.63364e+00 -1.35051e+00] derivs: [ -1.35026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.830000 pESO->GetIndependentVar(): 11.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.251416, nextPhis[ 0]=-4.266626 prevPhis[ 1]=10.251416, nextPhis[ 1]=10.266626 <==IsSwitchingOccur() T = 11.830000 Tnext = 11.835000 Time: 1.18300e+01 states: [ -2.64037e+00 -1.34551e+00] derivs: [ -1.34526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.835000 pESO->GetIndependentVar(): 11.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.266626, nextPhis[ 0]=-4.281761 prevPhis[ 1]=10.266626, nextPhis[ 1]=10.281761 <==IsSwitchingOccur() T = 11.835000 Tnext = 11.840000 Time: 1.18350e+01 states: [ -2.64708e+00 -1.34051e+00] derivs: [ -1.34026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.840000 pESO->GetIndependentVar(): 11.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.281761, nextPhis[ 0]=-4.296821 prevPhis[ 1]=10.281761, nextPhis[ 1]=10.296821 <==IsSwitchingOccur() T = 11.840000 Tnext = 11.845000 Time: 1.18400e+01 states: [ -2.65377e+00 -1.33551e+00] derivs: [ -1.33526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.845000 pESO->GetIndependentVar(): 11.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.296821, nextPhis[ 0]=-4.311805 prevPhis[ 1]=10.296821, nextPhis[ 1]=10.311805 <==IsSwitchingOccur() T = 11.845000 Tnext = 11.850000 Time: 1.18450e+01 states: [ -2.66043e+00 -1.33051e+00] derivs: [ -1.33026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.850000 pESO->GetIndependentVar(): 11.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.311805, nextPhis[ 0]=-4.326715 prevPhis[ 1]=10.311805, nextPhis[ 1]=10.326715 <==IsSwitchingOccur() T = 11.850000 Tnext = 11.855000 Time: 1.18500e+01 states: [ -2.66707e+00 -1.32551e+00] derivs: [ -1.32526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.855000 pESO->GetIndependentVar(): 11.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.326715, nextPhis[ 0]=-4.341550 prevPhis[ 1]=10.326715, nextPhis[ 1]=10.341550 <==IsSwitchingOccur() T = 11.855000 Tnext = 11.860000 Time: 1.18550e+01 states: [ -2.67368e+00 -1.32051e+00] derivs: [ -1.32026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.860000 pESO->GetIndependentVar(): 11.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.341550, nextPhis[ 0]=-4.356310 prevPhis[ 1]=10.341550, nextPhis[ 1]=10.356310 <==IsSwitchingOccur() T = 11.860000 Tnext = 11.865000 Time: 1.18600e+01 states: [ -2.68027e+00 -1.31551e+00] derivs: [ -1.31526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.865000 pESO->GetIndependentVar(): 11.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.356310, nextPhis[ 0]=-4.370994 prevPhis[ 1]=10.356310, nextPhis[ 1]=10.370994 <==IsSwitchingOccur() T = 11.865000 Tnext = 11.870000 Time: 1.18650e+01 states: [ -2.68683e+00 -1.31051e+00] derivs: [ -1.31026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.870000 pESO->GetIndependentVar(): 11.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.370994, nextPhis[ 0]=-4.385604 prevPhis[ 1]=10.370994, nextPhis[ 1]=10.385604 <==IsSwitchingOccur() T = 11.870000 Tnext = 11.875000 Time: 1.18700e+01 states: [ -2.69337e+00 -1.30551e+00] derivs: [ -1.30526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.875000 pESO->GetIndependentVar(): 11.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.385604, nextPhis[ 0]=-4.400139 prevPhis[ 1]=10.385604, nextPhis[ 1]=10.400139 <==IsSwitchingOccur() T = 11.875000 Tnext = 11.880000 Time: 1.18750e+01 states: [ -2.69988e+00 -1.30051e+00] derivs: [ -1.30026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.880000 pESO->GetIndependentVar(): 11.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.400139, nextPhis[ 0]=-4.414599 prevPhis[ 1]=10.400139, nextPhis[ 1]=10.414599 <==IsSwitchingOccur() T = 11.880000 Tnext = 11.885000 Time: 1.18800e+01 states: [ -2.70636e+00 -1.29551e+00] derivs: [ -1.29526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.885000 pESO->GetIndependentVar(): 11.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.414599, nextPhis[ 0]=-4.428983 prevPhis[ 1]=10.414599, nextPhis[ 1]=10.428983 <==IsSwitchingOccur() T = 11.885000 Tnext = 11.890000 Time: 1.18850e+01 states: [ -2.71283e+00 -1.29051e+00] derivs: [ -1.29026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.890000 pESO->GetIndependentVar(): 11.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.428983, nextPhis[ 0]=-4.443293 prevPhis[ 1]=10.428983, nextPhis[ 1]=10.443293 <==IsSwitchingOccur() T = 11.890000 Tnext = 11.895000 Time: 1.18900e+01 states: [ -2.71926e+00 -1.28551e+00] derivs: [ -1.28526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.895000 pESO->GetIndependentVar(): 11.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.443293, nextPhis[ 0]=-4.457528 prevPhis[ 1]=10.443293, nextPhis[ 1]=10.457528 <==IsSwitchingOccur() T = 11.895000 Tnext = 11.900000 Time: 1.18950e+01 states: [ -2.72567e+00 -1.28051e+00] derivs: [ -1.28026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.900000 pESO->GetIndependentVar(): 11.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.457528, nextPhis[ 0]=-4.471688 prevPhis[ 1]=10.457528, nextPhis[ 1]=10.471688 <==IsSwitchingOccur() T = 11.900000 Tnext = 11.905000 Time: 1.19000e+01 states: [ -2.73206e+00 -1.27551e+00] derivs: [ -1.27526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.905000 pESO->GetIndependentVar(): 11.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.471688, nextPhis[ 0]=-4.485772 prevPhis[ 1]=10.471688, nextPhis[ 1]=10.485772 <==IsSwitchingOccur() T = 11.905000 Tnext = 11.910000 Time: 1.19050e+01 states: [ -2.73842e+00 -1.27051e+00] derivs: [ -1.27026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.910000 pESO->GetIndependentVar(): 11.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.485772, nextPhis[ 0]=-4.499782 prevPhis[ 1]=10.485772, nextPhis[ 1]=10.499782 <==IsSwitchingOccur() T = 11.910000 Tnext = 11.915000 Time: 1.19100e+01 states: [ -2.74476e+00 -1.26551e+00] derivs: [ -1.26526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.915000 pESO->GetIndependentVar(): 11.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.499782, nextPhis[ 0]=-4.513717 prevPhis[ 1]=10.499782, nextPhis[ 1]=10.513717 <==IsSwitchingOccur() T = 11.915000 Tnext = 11.920000 Time: 1.19150e+01 states: [ -2.75107e+00 -1.26051e+00] derivs: [ -1.26026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.920000 pESO->GetIndependentVar(): 11.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.513717, nextPhis[ 0]=-4.527577 prevPhis[ 1]=10.513717, nextPhis[ 1]=10.527577 <==IsSwitchingOccur() T = 11.920000 Tnext = 11.925000 Time: 1.19200e+01 states: [ -2.75736e+00 -1.25551e+00] derivs: [ -1.25526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.925000 pESO->GetIndependentVar(): 11.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.527577, nextPhis[ 0]=-4.541362 prevPhis[ 1]=10.527577, nextPhis[ 1]=10.541362 <==IsSwitchingOccur() T = 11.925000 Tnext = 11.930000 Time: 1.19250e+01 states: [ -2.76362e+00 -1.25051e+00] derivs: [ -1.25026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.930000 pESO->GetIndependentVar(): 11.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.541362, nextPhis[ 0]=-4.555071 prevPhis[ 1]=10.541362, nextPhis[ 1]=10.555071 <==IsSwitchingOccur() T = 11.930000 Tnext = 11.935000 Time: 1.19300e+01 states: [ -2.76985e+00 -1.24551e+00] derivs: [ -1.24526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.935000 pESO->GetIndependentVar(): 11.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.555071, nextPhis[ 0]=-4.568706 prevPhis[ 1]=10.555071, nextPhis[ 1]=10.568706 <==IsSwitchingOccur() T = 11.935000 Tnext = 11.940000 Time: 1.19350e+01 states: [ -2.77607e+00 -1.24051e+00] derivs: [ -1.24026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.940000 pESO->GetIndependentVar(): 11.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.568706, nextPhis[ 0]=-4.582266 prevPhis[ 1]=10.568706, nextPhis[ 1]=10.582266 <==IsSwitchingOccur() T = 11.940000 Tnext = 11.945000 Time: 1.19400e+01 states: [ -2.78225e+00 -1.23551e+00] derivs: [ -1.23526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.945000 pESO->GetIndependentVar(): 11.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.582266, nextPhis[ 0]=-4.595751 prevPhis[ 1]=10.582266, nextPhis[ 1]=10.595751 <==IsSwitchingOccur() T = 11.945000 Tnext = 11.950000 Time: 1.19450e+01 states: [ -2.78841e+00 -1.23051e+00] derivs: [ -1.23026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.950000 pESO->GetIndependentVar(): 11.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.595751, nextPhis[ 0]=-4.609160 prevPhis[ 1]=10.595751, nextPhis[ 1]=10.609160 <==IsSwitchingOccur() T = 11.950000 Tnext = 11.955000 Time: 1.19500e+01 states: [ -2.79455e+00 -1.22551e+00] derivs: [ -1.22526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.955000 pESO->GetIndependentVar(): 11.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.609160, nextPhis[ 0]=-4.622495 prevPhis[ 1]=10.609160, nextPhis[ 1]=10.622495 <==IsSwitchingOccur() T = 11.955000 Tnext = 11.960000 Time: 1.19550e+01 states: [ -2.80066e+00 -1.22051e+00] derivs: [ -1.22026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.960000 pESO->GetIndependentVar(): 11.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.622495, nextPhis[ 0]=-4.635755 prevPhis[ 1]=10.622495, nextPhis[ 1]=10.635755 <==IsSwitchingOccur() T = 11.960000 Tnext = 11.965000 Time: 1.19600e+01 states: [ -2.80675e+00 -1.21551e+00] derivs: [ -1.21526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.965000 pESO->GetIndependentVar(): 11.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.635755, nextPhis[ 0]=-4.648940 prevPhis[ 1]=10.635755, nextPhis[ 1]=10.648940 <==IsSwitchingOccur() T = 11.965000 Tnext = 11.970000 Time: 1.19650e+01 states: [ -2.81281e+00 -1.21051e+00] derivs: [ -1.21026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.970000 pESO->GetIndependentVar(): 11.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.648940, nextPhis[ 0]=-4.662049 prevPhis[ 1]=10.648940, nextPhis[ 1]=10.662049 <==IsSwitchingOccur() T = 11.970000 Tnext = 11.975000 Time: 1.19700e+01 states: [ -2.81885e+00 -1.20551e+00] derivs: [ -1.20526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.975000 pESO->GetIndependentVar(): 11.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.662049, nextPhis[ 0]=-4.675084 prevPhis[ 1]=10.662049, nextPhis[ 1]=10.675084 <==IsSwitchingOccur() T = 11.975000 Tnext = 11.980000 Time: 1.19750e+01 states: [ -2.82486e+00 -1.20051e+00] derivs: [ -1.20026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.980000 pESO->GetIndependentVar(): 11.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.675084, nextPhis[ 0]=-4.688044 prevPhis[ 1]=10.675084, nextPhis[ 1]=10.688044 <==IsSwitchingOccur() T = 11.980000 Tnext = 11.985000 Time: 1.19800e+01 states: [ -2.83085e+00 -1.19551e+00] derivs: [ -1.19526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.985000 pESO->GetIndependentVar(): 11.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.688044, nextPhis[ 0]=-4.700929 prevPhis[ 1]=10.688044, nextPhis[ 1]=10.700929 <==IsSwitchingOccur() T = 11.985000 Tnext = 11.990000 Time: 1.19850e+01 states: [ -2.83681e+00 -1.19051e+00] derivs: [ -1.19026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.990000 pESO->GetIndependentVar(): 11.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.700929, nextPhis[ 0]=-4.713738 prevPhis[ 1]=10.700929, nextPhis[ 1]=10.713738 <==IsSwitchingOccur() T = 11.990000 Tnext = 11.995000 Time: 1.19900e+01 states: [ -2.84274e+00 -1.18551e+00] derivs: [ -1.18526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 11.995000 pESO->GetIndependentVar(): 11.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.713738, nextPhis[ 0]=-4.726473 prevPhis[ 1]=10.713738, nextPhis[ 1]=10.726473 <==IsSwitchingOccur() T = 11.995000 Tnext = 12.000000 Time: 1.19950e+01 states: [ -2.84866e+00 -1.18051e+00] derivs: [ -1.18026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.000000 pESO->GetIndependentVar(): 12.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.726473, nextPhis[ 0]=-4.739133 prevPhis[ 1]=10.726473, nextPhis[ 1]=10.739133 <==IsSwitchingOccur() T = 12.000000 Tnext = 12.005000 Time: 1.20000e+01 states: [ -2.85454e+00 -1.17551e+00] derivs: [ -1.17526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.005000 pESO->GetIndependentVar(): 12.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.739133, nextPhis[ 0]=-4.751718 prevPhis[ 1]=10.739133, nextPhis[ 1]=10.751718 <==IsSwitchingOccur() T = 12.005000 Tnext = 12.010000 Time: 1.20050e+01 states: [ -2.86040e+00 -1.17051e+00] derivs: [ -1.17026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.010000 pESO->GetIndependentVar(): 12.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.751718, nextPhis[ 0]=-4.764227 prevPhis[ 1]=10.751718, nextPhis[ 1]=10.764227 <==IsSwitchingOccur() T = 12.010000 Tnext = 12.015000 Time: 1.20100e+01 states: [ -2.86624e+00 -1.16551e+00] derivs: [ -1.16526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.015000 pESO->GetIndependentVar(): 12.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.764227, nextPhis[ 0]=-4.776662 prevPhis[ 1]=10.764227, nextPhis[ 1]=10.776662 <==IsSwitchingOccur() T = 12.015000 Tnext = 12.020000 Time: 1.20150e+01 states: [ -2.87205e+00 -1.16051e+00] derivs: [ -1.16026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.020000 pESO->GetIndependentVar(): 12.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.776662, nextPhis[ 0]=-4.789022 prevPhis[ 1]=10.776662, nextPhis[ 1]=10.789022 <==IsSwitchingOccur() T = 12.020000 Tnext = 12.025000 Time: 1.20200e+01 states: [ -2.87784e+00 -1.15551e+00] derivs: [ -1.15526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.025000 pESO->GetIndependentVar(): 12.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.789022, nextPhis[ 0]=-4.801307 prevPhis[ 1]=10.789022, nextPhis[ 1]=10.801307 <==IsSwitchingOccur() T = 12.025000 Tnext = 12.030000 Time: 1.20250e+01 states: [ -2.88360e+00 -1.15051e+00] derivs: [ -1.15026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.030000 pESO->GetIndependentVar(): 12.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.801307, nextPhis[ 0]=-4.813516 prevPhis[ 1]=10.801307, nextPhis[ 1]=10.813516 <==IsSwitchingOccur() T = 12.030000 Tnext = 12.035000 Time: 1.20300e+01 states: [ -2.88934e+00 -1.14551e+00] derivs: [ -1.14526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.035000 pESO->GetIndependentVar(): 12.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.813516, nextPhis[ 0]=-4.825651 prevPhis[ 1]=10.813516, nextPhis[ 1]=10.825651 <==IsSwitchingOccur() T = 12.035000 Tnext = 12.040000 Time: 1.20350e+01 states: [ -2.89505e+00 -1.14051e+00] derivs: [ -1.14026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.040000 pESO->GetIndependentVar(): 12.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.825651, nextPhis[ 0]=-4.837711 prevPhis[ 1]=10.825651, nextPhis[ 1]=10.837711 <==IsSwitchingOccur() T = 12.040000 Tnext = 12.045000 Time: 1.20400e+01 states: [ -2.90073e+00 -1.13551e+00] derivs: [ -1.13526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.045000 pESO->GetIndependentVar(): 12.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.837711, nextPhis[ 0]=-4.849696 prevPhis[ 1]=10.837711, nextPhis[ 1]=10.849696 <==IsSwitchingOccur() T = 12.045000 Tnext = 12.050000 Time: 1.20450e+01 states: [ -2.90640e+00 -1.13051e+00] derivs: [ -1.13026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.050000 pESO->GetIndependentVar(): 12.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.849696, nextPhis[ 0]=-4.861606 prevPhis[ 1]=10.849696, nextPhis[ 1]=10.861606 <==IsSwitchingOccur() T = 12.050000 Tnext = 12.055000 Time: 1.20500e+01 states: [ -2.91203e+00 -1.12551e+00] derivs: [ -1.12526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.055000 pESO->GetIndependentVar(): 12.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.861606, nextPhis[ 0]=-4.873440 prevPhis[ 1]=10.861606, nextPhis[ 1]=10.873440 <==IsSwitchingOccur() T = 12.055000 Tnext = 12.060000 Time: 1.20550e+01 states: [ -2.91764e+00 -1.12051e+00] derivs: [ -1.12026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.060000 pESO->GetIndependentVar(): 12.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.873440, nextPhis[ 0]=-4.885200 prevPhis[ 1]=10.873440, nextPhis[ 1]=10.885200 <==IsSwitchingOccur() T = 12.060000 Tnext = 12.065000 Time: 1.20600e+01 states: [ -2.92323e+00 -1.11551e+00] derivs: [ -1.11526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.065000 pESO->GetIndependentVar(): 12.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.885200, nextPhis[ 0]=-4.896885 prevPhis[ 1]=10.885200, nextPhis[ 1]=10.896885 <==IsSwitchingOccur() T = 12.065000 Tnext = 12.070000 Time: 1.20650e+01 states: [ -2.92879e+00 -1.11051e+00] derivs: [ -1.11026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.070000 pESO->GetIndependentVar(): 12.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.896885, nextPhis[ 0]=-4.908495 prevPhis[ 1]=10.896885, nextPhis[ 1]=10.908495 <==IsSwitchingOccur() T = 12.070000 Tnext = 12.075000 Time: 1.20700e+01 states: [ -2.93433e+00 -1.10551e+00] derivs: [ -1.10526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.075000 pESO->GetIndependentVar(): 12.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.908495, nextPhis[ 0]=-4.920029 prevPhis[ 1]=10.908495, nextPhis[ 1]=10.920029 <==IsSwitchingOccur() T = 12.075000 Tnext = 12.080000 Time: 1.20750e+01 states: [ -2.93984e+00 -1.10051e+00] derivs: [ -1.10026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.080000 pESO->GetIndependentVar(): 12.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.920029, nextPhis[ 0]=-4.931489 prevPhis[ 1]=10.920029, nextPhis[ 1]=10.931489 <==IsSwitchingOccur() T = 12.080000 Tnext = 12.085000 Time: 1.20800e+01 states: [ -2.94533e+00 -1.09551e+00] derivs: [ -1.09526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.085000 pESO->GetIndependentVar(): 12.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.931489, nextPhis[ 0]=-4.942874 prevPhis[ 1]=10.931489, nextPhis[ 1]=10.942874 <==IsSwitchingOccur() T = 12.085000 Tnext = 12.090000 Time: 1.20850e+01 states: [ -2.95079e+00 -1.09051e+00] derivs: [ -1.09026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.090000 pESO->GetIndependentVar(): 12.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.942874, nextPhis[ 0]=-4.954184 prevPhis[ 1]=10.942874, nextPhis[ 1]=10.954184 <==IsSwitchingOccur() T = 12.090000 Tnext = 12.095000 Time: 1.20900e+01 states: [ -2.95623e+00 -1.08551e+00] derivs: [ -1.08526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.095000 pESO->GetIndependentVar(): 12.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.954184, nextPhis[ 0]=-4.965418 prevPhis[ 1]=10.954184, nextPhis[ 1]=10.965418 <==IsSwitchingOccur() T = 12.095000 Tnext = 12.100000 Time: 1.20950e+01 states: [ -2.96164e+00 -1.08051e+00] derivs: [ -1.08026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.100000 pESO->GetIndependentVar(): 12.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.965418, nextPhis[ 0]=-4.976578 prevPhis[ 1]=10.965418, nextPhis[ 1]=10.976578 <==IsSwitchingOccur() T = 12.100000 Tnext = 12.105000 Time: 1.21000e+01 states: [ -2.96702e+00 -1.07551e+00] derivs: [ -1.07526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.105000 pESO->GetIndependentVar(): 12.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.976578, nextPhis[ 0]=-4.987663 prevPhis[ 1]=10.976578, nextPhis[ 1]=10.987663 <==IsSwitchingOccur() T = 12.105000 Tnext = 12.110000 Time: 1.21050e+01 states: [ -2.97239e+00 -1.07051e+00] derivs: [ -1.07026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.110000 pESO->GetIndependentVar(): 12.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.987663, nextPhis[ 0]=-4.998673 prevPhis[ 1]=10.987663, nextPhis[ 1]=10.998673 <==IsSwitchingOccur() T = 12.110000 Tnext = 12.115000 Time: 1.21100e+01 states: [ -2.97772e+00 -1.06551e+00] derivs: [ -1.06526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.115000 pESO->GetIndependentVar(): 12.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.998673, nextPhis[ 0]=-5.009607 prevPhis[ 1]=10.998673, nextPhis[ 1]=11.009607 <==IsSwitchingOccur() T = 12.115000 Tnext = 12.120000 Time: 1.21150e+01 states: [ -2.98303e+00 -1.06051e+00] derivs: [ -1.06026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.120000 pESO->GetIndependentVar(): 12.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.009607, nextPhis[ 0]=-5.020467 prevPhis[ 1]=11.009607, nextPhis[ 1]=11.020467 <==IsSwitchingOccur() T = 12.120000 Tnext = 12.125000 Time: 1.21200e+01 states: [ -2.98832e+00 -1.05551e+00] derivs: [ -1.05526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.125000 pESO->GetIndependentVar(): 12.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.020467, nextPhis[ 0]=-5.031252 prevPhis[ 1]=11.020467, nextPhis[ 1]=11.031252 <==IsSwitchingOccur() T = 12.125000 Tnext = 12.130000 Time: 1.21250e+01 states: [ -2.99358e+00 -1.05051e+00] derivs: [ -1.05026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.130000 pESO->GetIndependentVar(): 12.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.031252, nextPhis[ 0]=-5.041962 prevPhis[ 1]=11.031252, nextPhis[ 1]=11.041962 <==IsSwitchingOccur() T = 12.130000 Tnext = 12.135000 Time: 1.21300e+01 states: [ -2.99882e+00 -1.04551e+00] derivs: [ -1.04526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.135000 pESO->GetIndependentVar(): 12.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.041962, nextPhis[ 0]=-5.052596 prevPhis[ 1]=11.041962, nextPhis[ 1]=11.052596 <==IsSwitchingOccur() T = 12.135000 Tnext = 12.140000 Time: 1.21350e+01 states: [ -3.00403e+00 -1.04051e+00] derivs: [ -1.04026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.140000 pESO->GetIndependentVar(): 12.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.052596, nextPhis[ 0]=-5.063156 prevPhis[ 1]=11.052596, nextPhis[ 1]=11.063156 <==IsSwitchingOccur() T = 12.140000 Tnext = 12.145000 Time: 1.21400e+01 states: [ -3.00922e+00 -1.03551e+00] derivs: [ -1.03526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.145000 pESO->GetIndependentVar(): 12.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.063156, nextPhis[ 0]=-5.073641 prevPhis[ 1]=11.063156, nextPhis[ 1]=11.073641 <==IsSwitchingOccur() T = 12.145000 Tnext = 12.150000 Time: 1.21450e+01 states: [ -3.01438e+00 -1.03051e+00] derivs: [ -1.03026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.150000 pESO->GetIndependentVar(): 12.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.073641, nextPhis[ 0]=-5.084051 prevPhis[ 1]=11.073641, nextPhis[ 1]=11.084051 <==IsSwitchingOccur() T = 12.150000 Tnext = 12.155000 Time: 1.21500e+01 states: [ -3.01951e+00 -1.02551e+00] derivs: [ -1.02526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.155000 pESO->GetIndependentVar(): 12.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.084051, nextPhis[ 0]=-5.094386 prevPhis[ 1]=11.084051, nextPhis[ 1]=11.094386 <==IsSwitchingOccur() T = 12.155000 Tnext = 12.160000 Time: 1.21550e+01 states: [ -3.02463e+00 -1.02051e+00] derivs: [ -1.02026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.160000 pESO->GetIndependentVar(): 12.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.094386, nextPhis[ 0]=-5.104645 prevPhis[ 1]=11.094386, nextPhis[ 1]=11.104645 <==IsSwitchingOccur() T = 12.160000 Tnext = 12.165000 Time: 1.21600e+01 states: [ -3.02971e+00 -1.01551e+00] derivs: [ -1.01526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.165000 pESO->GetIndependentVar(): 12.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.104645, nextPhis[ 0]=-5.114830 prevPhis[ 1]=11.104645, nextPhis[ 1]=11.114830 <==IsSwitchingOccur() T = 12.165000 Tnext = 12.170000 Time: 1.21650e+01 states: [ -3.03477e+00 -1.01051e+00] derivs: [ -1.01026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.170000 pESO->GetIndependentVar(): 12.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.114830, nextPhis[ 0]=-5.124940 prevPhis[ 1]=11.114830, nextPhis[ 1]=11.124940 <==IsSwitchingOccur() T = 12.170000 Tnext = 12.175000 Time: 1.21700e+01 states: [ -3.03981e+00 -1.00551e+00] derivs: [ -1.00526e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.175000 pESO->GetIndependentVar(): 12.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.124940, nextPhis[ 0]=-5.134975 prevPhis[ 1]=11.124940, nextPhis[ 1]=11.134975 <==IsSwitchingOccur() T = 12.175000 Tnext = 12.180000 Time: 1.21750e+01 states: [ -3.04482e+00 -1.00051e+00] derivs: [ -1.00026e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.180000 pESO->GetIndependentVar(): 12.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.134975, nextPhis[ 0]=-5.144934 prevPhis[ 1]=11.134975, nextPhis[ 1]=11.144934 <==IsSwitchingOccur() T = 12.180000 Tnext = 12.185000 Time: 1.21800e+01 states: [ -3.04981e+00 -9.95508e-01] derivs: [ -9.95265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.185000 pESO->GetIndependentVar(): 12.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.144934, nextPhis[ 0]=-5.154819 prevPhis[ 1]=11.144934, nextPhis[ 1]=11.154819 <==IsSwitchingOccur() T = 12.185000 Tnext = 12.190000 Time: 1.21850e+01 states: [ -3.05477e+00 -9.90508e-01] derivs: [ -9.90265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.190000 pESO->GetIndependentVar(): 12.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.154819, nextPhis[ 0]=-5.164629 prevPhis[ 1]=11.154819, nextPhis[ 1]=11.164629 <==IsSwitchingOccur() T = 12.190000 Tnext = 12.195000 Time: 1.21900e+01 states: [ -3.05971e+00 -9.85508e-01] derivs: [ -9.85265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.195000 pESO->GetIndependentVar(): 12.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.164629, nextPhis[ 0]=-5.174364 prevPhis[ 1]=11.164629, nextPhis[ 1]=11.174364 <==IsSwitchingOccur() T = 12.195000 Tnext = 12.200000 Time: 1.21950e+01 states: [ -3.06462e+00 -9.80508e-01] derivs: [ -9.80265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.200000 pESO->GetIndependentVar(): 12.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.174364, nextPhis[ 0]=-5.184023 prevPhis[ 1]=11.174364, nextPhis[ 1]=11.184023 <==IsSwitchingOccur() T = 12.200000 Tnext = 12.205000 Time: 1.22000e+01 states: [ -3.06951e+00 -9.75508e-01] derivs: [ -9.75265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.205000 pESO->GetIndependentVar(): 12.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.184023, nextPhis[ 0]=-5.193608 prevPhis[ 1]=11.184023, nextPhis[ 1]=11.193608 <==IsSwitchingOccur() T = 12.205000 Tnext = 12.210000 Time: 1.22050e+01 states: [ -3.07437e+00 -9.70508e-01] derivs: [ -9.70265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.210000 pESO->GetIndependentVar(): 12.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.193608, nextPhis[ 0]=-5.203118 prevPhis[ 1]=11.193608, nextPhis[ 1]=11.203118 <==IsSwitchingOccur() T = 12.210000 Tnext = 12.215000 Time: 1.22100e+01 states: [ -3.07920e+00 -9.65508e-01] derivs: [ -9.65265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.215000 pESO->GetIndependentVar(): 12.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.203118, nextPhis[ 0]=-5.212553 prevPhis[ 1]=11.203118, nextPhis[ 1]=11.212553 <==IsSwitchingOccur() T = 12.215000 Tnext = 12.220000 Time: 1.22150e+01 states: [ -3.08401e+00 -9.60508e-01] derivs: [ -9.60265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.220000 pESO->GetIndependentVar(): 12.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.212553, nextPhis[ 0]=-5.221912 prevPhis[ 1]=11.212553, nextPhis[ 1]=11.221912 <==IsSwitchingOccur() T = 12.220000 Tnext = 12.225000 Time: 1.22200e+01 states: [ -3.08880e+00 -9.55508e-01] derivs: [ -9.55265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.225000 pESO->GetIndependentVar(): 12.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.221912, nextPhis[ 0]=-5.231197 prevPhis[ 1]=11.221912, nextPhis[ 1]=11.231197 <==IsSwitchingOccur() T = 12.225000 Tnext = 12.230000 Time: 1.22250e+01 states: [ -3.09356e+00 -9.50508e-01] derivs: [ -9.50265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.230000 pESO->GetIndependentVar(): 12.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.231197, nextPhis[ 0]=-5.240407 prevPhis[ 1]=11.231197, nextPhis[ 1]=11.240407 <==IsSwitchingOccur() T = 12.230000 Tnext = 12.235000 Time: 1.22300e+01 states: [ -3.09830e+00 -9.45508e-01] derivs: [ -9.45265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.235000 pESO->GetIndependentVar(): 12.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.240407, nextPhis[ 0]=-5.249542 prevPhis[ 1]=11.240407, nextPhis[ 1]=11.249542 <==IsSwitchingOccur() T = 12.235000 Tnext = 12.240000 Time: 1.22350e+01 states: [ -3.10301e+00 -9.40508e-01] derivs: [ -9.40265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.240000 pESO->GetIndependentVar(): 12.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.249542, nextPhis[ 0]=-5.258601 prevPhis[ 1]=11.249542, nextPhis[ 1]=11.258601 <==IsSwitchingOccur() T = 12.240000 Tnext = 12.245000 Time: 1.22400e+01 states: [ -3.10770e+00 -9.35508e-01] derivs: [ -9.35265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.245000 pESO->GetIndependentVar(): 12.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.258601, nextPhis[ 0]=-5.267586 prevPhis[ 1]=11.258601, nextPhis[ 1]=11.267586 <==IsSwitchingOccur() T = 12.245000 Tnext = 12.250000 Time: 1.22450e+01 states: [ -3.11236e+00 -9.30508e-01] derivs: [ -9.30265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.250000 pESO->GetIndependentVar(): 12.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.267586, nextPhis[ 0]=-5.276496 prevPhis[ 1]=11.267586, nextPhis[ 1]=11.276496 <==IsSwitchingOccur() T = 12.250000 Tnext = 12.255000 Time: 1.22500e+01 states: [ -3.11700e+00 -9.25508e-01] derivs: [ -9.25265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.255000 pESO->GetIndependentVar(): 12.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.276496, nextPhis[ 0]=-5.285331 prevPhis[ 1]=11.276496, nextPhis[ 1]=11.285331 <==IsSwitchingOccur() T = 12.255000 Tnext = 12.260000 Time: 1.22550e+01 states: [ -3.12161e+00 -9.20508e-01] derivs: [ -9.20265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.260000 pESO->GetIndependentVar(): 12.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.285331, nextPhis[ 0]=-5.294090 prevPhis[ 1]=11.285331, nextPhis[ 1]=11.294090 <==IsSwitchingOccur() T = 12.260000 Tnext = 12.265000 Time: 1.22600e+01 states: [ -3.12619e+00 -9.15508e-01] derivs: [ -9.15265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.265000 pESO->GetIndependentVar(): 12.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.294090, nextPhis[ 0]=-5.302775 prevPhis[ 1]=11.294090, nextPhis[ 1]=11.302775 <==IsSwitchingOccur() T = 12.265000 Tnext = 12.270000 Time: 1.22650e+01 states: [ -3.13076e+00 -9.10508e-01] derivs: [ -9.10265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.270000 pESO->GetIndependentVar(): 12.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.302775, nextPhis[ 0]=-5.311385 prevPhis[ 1]=11.302775, nextPhis[ 1]=11.311385 <==IsSwitchingOccur() T = 12.270000 Tnext = 12.275000 Time: 1.22700e+01 states: [ -3.13529e+00 -9.05508e-01] derivs: [ -9.05265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.275000 pESO->GetIndependentVar(): 12.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.311385, nextPhis[ 0]=-5.319920 prevPhis[ 1]=11.311385, nextPhis[ 1]=11.319920 <==IsSwitchingOccur() T = 12.275000 Tnext = 12.280000 Time: 1.22750e+01 states: [ -3.13980e+00 -9.00508e-01] derivs: [ -9.00265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.280000 pESO->GetIndependentVar(): 12.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.319920, nextPhis[ 0]=-5.328380 prevPhis[ 1]=11.319920, nextPhis[ 1]=11.328380 <==IsSwitchingOccur() T = 12.280000 Tnext = 12.285000 Time: 1.22800e+01 states: [ -3.14429e+00 -8.95508e-01] derivs: [ -8.95265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.285000 pESO->GetIndependentVar(): 12.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.328380, nextPhis[ 0]=-5.336764 prevPhis[ 1]=11.328380, nextPhis[ 1]=11.336764 <==IsSwitchingOccur() T = 12.285000 Tnext = 12.290000 Time: 1.22850e+01 states: [ -3.14875e+00 -8.90508e-01] derivs: [ -8.90265e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.290000 pESO->GetIndependentVar(): 12.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.336764, nextPhis[ 0]=-5.345072 prevPhis[ 1]=11.336764, nextPhis[ 1]=11.345072 <==IsSwitchingOccur() T = 12.290000 Tnext = 12.295000 Time: 1.22900e+01 states: [ -3.15319e+00 -8.85508e-01] derivs: [ -8.84216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.295000 pESO->GetIndependentVar(): 12.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.345072, nextPhis[ 0]=-5.353304 prevPhis[ 1]=11.345072, nextPhis[ 1]=11.353304 <==IsSwitchingOccur() T = 12.295000 Tnext = 12.300000 Time: 1.22950e+01 states: [ -3.15760e+00 -8.80508e-01] derivs: [ -8.79216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.300000 pESO->GetIndependentVar(): 12.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.353304, nextPhis[ 0]=-5.361461 prevPhis[ 1]=11.353304, nextPhis[ 1]=11.361461 <==IsSwitchingOccur() T = 12.300000 Tnext = 12.305000 Time: 1.23000e+01 states: [ -3.16198e+00 -8.75508e-01] derivs: [ -8.74216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.305000 pESO->GetIndependentVar(): 12.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.361461, nextPhis[ 0]=-5.369543 prevPhis[ 1]=11.361461, nextPhis[ 1]=11.369543 <==IsSwitchingOccur() T = 12.305000 Tnext = 12.310000 Time: 1.23050e+01 states: [ -3.16635e+00 -8.70508e-01] derivs: [ -8.69216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.310000 pESO->GetIndependentVar(): 12.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.369543, nextPhis[ 0]=-5.377550 prevPhis[ 1]=11.369543, nextPhis[ 1]=11.377550 <==IsSwitchingOccur() T = 12.310000 Tnext = 12.315000 Time: 1.23100e+01 states: [ -3.17068e+00 -8.65508e-01] derivs: [ -8.64216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.315000 pESO->GetIndependentVar(): 12.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.377550, nextPhis[ 0]=-5.385483 prevPhis[ 1]=11.377550, nextPhis[ 1]=11.385483 <==IsSwitchingOccur() T = 12.315000 Tnext = 12.320000 Time: 1.23150e+01 states: [ -3.17499e+00 -8.60508e-01] derivs: [ -8.59216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.320000 pESO->GetIndependentVar(): 12.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.385483, nextPhis[ 0]=-5.393340 prevPhis[ 1]=11.385483, nextPhis[ 1]=11.393340 <==IsSwitchingOccur() T = 12.320000 Tnext = 12.325000 Time: 1.23200e+01 states: [ -3.17928e+00 -8.55508e-01] derivs: [ -8.54216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.325000 pESO->GetIndependentVar(): 12.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.393340, nextPhis[ 0]=-5.401122 prevPhis[ 1]=11.393340, nextPhis[ 1]=11.401122 <==IsSwitchingOccur() T = 12.325000 Tnext = 12.330000 Time: 1.23250e+01 states: [ -3.18354e+00 -8.50508e-01] derivs: [ -8.49216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.330000 pESO->GetIndependentVar(): 12.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.401122, nextPhis[ 0]=-5.408829 prevPhis[ 1]=11.401122, nextPhis[ 1]=11.408829 <==IsSwitchingOccur() T = 12.330000 Tnext = 12.335000 Time: 1.23300e+01 states: [ -3.18777e+00 -8.45508e-01] derivs: [ -8.44216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.335000 pESO->GetIndependentVar(): 12.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.408829, nextPhis[ 0]=-5.416462 prevPhis[ 1]=11.408829, nextPhis[ 1]=11.416462 <==IsSwitchingOccur() T = 12.335000 Tnext = 12.340000 Time: 1.23350e+01 states: [ -3.19198e+00 -8.40508e-01] derivs: [ -8.39216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.340000 pESO->GetIndependentVar(): 12.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.416462, nextPhis[ 0]=-5.424019 prevPhis[ 1]=11.416462, nextPhis[ 1]=11.424019 <==IsSwitchingOccur() T = 12.340000 Tnext = 12.345000 Time: 1.23400e+01 states: [ -3.19617e+00 -8.35508e-01] derivs: [ -8.34216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.345000 pESO->GetIndependentVar(): 12.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.424019, nextPhis[ 0]=-5.431501 prevPhis[ 1]=11.424019, nextPhis[ 1]=11.431501 <==IsSwitchingOccur() T = 12.345000 Tnext = 12.350000 Time: 1.23450e+01 states: [ -3.20033e+00 -8.30508e-01] derivs: [ -8.29216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.350000 pESO->GetIndependentVar(): 12.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.431501, nextPhis[ 0]=-5.438908 prevPhis[ 1]=11.431501, nextPhis[ 1]=11.438908 <==IsSwitchingOccur() T = 12.350000 Tnext = 12.355000 Time: 1.23500e+01 states: [ -3.20447e+00 -8.25508e-01] derivs: [ -8.24216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.355000 pESO->GetIndependentVar(): 12.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.438908, nextPhis[ 0]=-5.446240 prevPhis[ 1]=11.438908, nextPhis[ 1]=11.446240 <==IsSwitchingOccur() T = 12.355000 Tnext = 12.360000 Time: 1.23550e+01 states: [ -3.20858e+00 -8.20508e-01] derivs: [ -8.19216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.360000 pESO->GetIndependentVar(): 12.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.446240, nextPhis[ 0]=-5.453498 prevPhis[ 1]=11.446240, nextPhis[ 1]=11.453498 <==IsSwitchingOccur() T = 12.360000 Tnext = 12.365000 Time: 1.23600e+01 states: [ -3.21266e+00 -8.15508e-01] derivs: [ -8.14216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.365000 pESO->GetIndependentVar(): 12.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.453498, nextPhis[ 0]=-5.460680 prevPhis[ 1]=11.453498, nextPhis[ 1]=11.460680 <==IsSwitchingOccur() T = 12.365000 Tnext = 12.370000 Time: 1.23650e+01 states: [ -3.21672e+00 -8.10508e-01] derivs: [ -8.09216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.370000 pESO->GetIndependentVar(): 12.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.460680, nextPhis[ 0]=-5.467787 prevPhis[ 1]=11.460680, nextPhis[ 1]=11.467787 <==IsSwitchingOccur() T = 12.370000 Tnext = 12.375000 Time: 1.23700e+01 states: [ -3.22076e+00 -8.05508e-01] derivs: [ -8.04216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.375000 pESO->GetIndependentVar(): 12.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.467787, nextPhis[ 0]=-5.474819 prevPhis[ 1]=11.467787, nextPhis[ 1]=11.474819 <==IsSwitchingOccur() T = 12.375000 Tnext = 12.380000 Time: 1.23750e+01 states: [ -3.22477e+00 -8.00508e-01] derivs: [ -7.99216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.380000 pESO->GetIndependentVar(): 12.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.474819, nextPhis[ 0]=-5.481777 prevPhis[ 1]=11.474819, nextPhis[ 1]=11.481777 <==IsSwitchingOccur() T = 12.380000 Tnext = 12.385000 Time: 1.23800e+01 states: [ -3.22876e+00 -7.95508e-01] derivs: [ -7.94216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.385000 pESO->GetIndependentVar(): 12.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.481777, nextPhis[ 0]=-5.488659 prevPhis[ 1]=11.481777, nextPhis[ 1]=11.488659 <==IsSwitchingOccur() T = 12.385000 Tnext = 12.390000 Time: 1.23850e+01 states: [ -3.23272e+00 -7.90508e-01] derivs: [ -7.89216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.390000 pESO->GetIndependentVar(): 12.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.488659, nextPhis[ 0]=-5.495466 prevPhis[ 1]=11.488659, nextPhis[ 1]=11.495466 <==IsSwitchingOccur() T = 12.390000 Tnext = 12.395000 Time: 1.23900e+01 states: [ -3.23665e+00 -7.85508e-01] derivs: [ -7.84216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.395000 pESO->GetIndependentVar(): 12.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.495466, nextPhis[ 0]=-5.502198 prevPhis[ 1]=11.495466, nextPhis[ 1]=11.502198 <==IsSwitchingOccur() T = 12.395000 Tnext = 12.400000 Time: 1.23950e+01 states: [ -3.24056e+00 -7.80508e-01] derivs: [ -7.79216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.400000 pESO->GetIndependentVar(): 12.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.502198, nextPhis[ 0]=-5.508855 prevPhis[ 1]=11.502198, nextPhis[ 1]=11.508855 <==IsSwitchingOccur() T = 12.400000 Tnext = 12.405000 Time: 1.24000e+01 states: [ -3.24445e+00 -7.75508e-01] derivs: [ -7.74216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.405000 pESO->GetIndependentVar(): 12.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.508855, nextPhis[ 0]=-5.515438 prevPhis[ 1]=11.508855, nextPhis[ 1]=11.515438 <==IsSwitchingOccur() T = 12.405000 Tnext = 12.410000 Time: 1.24050e+01 states: [ -3.24831e+00 -7.70508e-01] derivs: [ -7.69216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.410000 pESO->GetIndependentVar(): 12.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.515438, nextPhis[ 0]=-5.521945 prevPhis[ 1]=11.515438, nextPhis[ 1]=11.521945 <==IsSwitchingOccur() T = 12.410000 Tnext = 12.415000 Time: 1.24100e+01 states: [ -3.25215e+00 -7.65508e-01] derivs: [ -7.64216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.415000 pESO->GetIndependentVar(): 12.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.521945, nextPhis[ 0]=-5.528377 prevPhis[ 1]=11.521945, nextPhis[ 1]=11.528377 <==IsSwitchingOccur() T = 12.415000 Tnext = 12.420000 Time: 1.24150e+01 states: [ -3.25596e+00 -7.60508e-01] derivs: [ -7.59216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.420000 pESO->GetIndependentVar(): 12.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.528377, nextPhis[ 0]=-5.534734 prevPhis[ 1]=11.528377, nextPhis[ 1]=11.534734 <==IsSwitchingOccur() T = 12.420000 Tnext = 12.425000 Time: 1.24200e+01 states: [ -3.25974e+00 -7.55508e-01] derivs: [ -7.54216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.425000 pESO->GetIndependentVar(): 12.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.534734, nextPhis[ 0]=-5.541017 prevPhis[ 1]=11.534734, nextPhis[ 1]=11.541017 <==IsSwitchingOccur() T = 12.425000 Tnext = 12.430000 Time: 1.24250e+01 states: [ -3.26350e+00 -7.50508e-01] derivs: [ -7.49216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.430000 pESO->GetIndependentVar(): 12.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.541017, nextPhis[ 0]=-5.547224 prevPhis[ 1]=11.541017, nextPhis[ 1]=11.547224 <==IsSwitchingOccur() T = 12.430000 Tnext = 12.435000 Time: 1.24300e+01 states: [ -3.26724e+00 -7.45508e-01] derivs: [ -7.44216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.435000 pESO->GetIndependentVar(): 12.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.547224, nextPhis[ 0]=-5.553356 prevPhis[ 1]=11.547224, nextPhis[ 1]=11.553356 <==IsSwitchingOccur() T = 12.435000 Tnext = 12.440000 Time: 1.24350e+01 states: [ -3.27095e+00 -7.40508e-01] derivs: [ -7.39216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.440000 pESO->GetIndependentVar(): 12.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.553356, nextPhis[ 0]=-5.559413 prevPhis[ 1]=11.553356, nextPhis[ 1]=11.559413 <==IsSwitchingOccur() T = 12.440000 Tnext = 12.445000 Time: 1.24400e+01 states: [ -3.27464e+00 -7.35508e-01] derivs: [ -7.34216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.445000 pESO->GetIndependentVar(): 12.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.559413, nextPhis[ 0]=-5.565396 prevPhis[ 1]=11.559413, nextPhis[ 1]=11.565396 <==IsSwitchingOccur() T = 12.445000 Tnext = 12.450000 Time: 1.24450e+01 states: [ -3.27830e+00 -7.30508e-01] derivs: [ -7.29216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.450000 pESO->GetIndependentVar(): 12.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.565396, nextPhis[ 0]=-5.571303 prevPhis[ 1]=11.565396, nextPhis[ 1]=11.571303 <==IsSwitchingOccur() T = 12.450000 Tnext = 12.455000 Time: 1.24500e+01 states: [ -3.28193e+00 -7.25508e-01] derivs: [ -7.24216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.455000 pESO->GetIndependentVar(): 12.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.571303, nextPhis[ 0]=-5.577135 prevPhis[ 1]=11.571303, nextPhis[ 1]=11.577135 <==IsSwitchingOccur() T = 12.455000 Tnext = 12.460000 Time: 1.24550e+01 states: [ -3.28554e+00 -7.20508e-01] derivs: [ -7.19216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.460000 pESO->GetIndependentVar(): 12.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.577135, nextPhis[ 0]=-5.582892 prevPhis[ 1]=11.577135, nextPhis[ 1]=11.582892 <==IsSwitchingOccur() T = 12.460000 Tnext = 12.465000 Time: 1.24600e+01 states: [ -3.28913e+00 -7.15508e-01] derivs: [ -7.14216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.465000 pESO->GetIndependentVar(): 12.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.582892, nextPhis[ 0]=-5.588574 prevPhis[ 1]=11.582892, nextPhis[ 1]=11.588574 <==IsSwitchingOccur() T = 12.465000 Tnext = 12.470000 Time: 1.24650e+01 states: [ -3.29269e+00 -7.10508e-01] derivs: [ -7.09216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.470000 pESO->GetIndependentVar(): 12.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.588574, nextPhis[ 0]=-5.594182 prevPhis[ 1]=11.588574, nextPhis[ 1]=11.594182 <==IsSwitchingOccur() T = 12.470000 Tnext = 12.475000 Time: 1.24700e+01 states: [ -3.29622e+00 -7.05508e-01] derivs: [ -7.04216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.475000 pESO->GetIndependentVar(): 12.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.594182, nextPhis[ 0]=-5.599714 prevPhis[ 1]=11.594182, nextPhis[ 1]=11.599714 <==IsSwitchingOccur() T = 12.475000 Tnext = 12.480000 Time: 1.24750e+01 states: [ -3.29974e+00 -7.00508e-01] derivs: [ -6.99216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.480000 pESO->GetIndependentVar(): 12.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.599714, nextPhis[ 0]=-5.605171 prevPhis[ 1]=11.599714, nextPhis[ 1]=11.605171 <==IsSwitchingOccur() T = 12.480000 Tnext = 12.485000 Time: 1.24800e+01 states: [ -3.30322e+00 -6.95508e-01] derivs: [ -6.94216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.485000 pESO->GetIndependentVar(): 12.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.605171, nextPhis[ 0]=-5.610553 prevPhis[ 1]=11.605171, nextPhis[ 1]=11.610553 <==IsSwitchingOccur() T = 12.485000 Tnext = 12.490000 Time: 1.24850e+01 states: [ -3.30668e+00 -6.90508e-01] derivs: [ -6.89216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.490000 pESO->GetIndependentVar(): 12.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.610553, nextPhis[ 0]=-5.615861 prevPhis[ 1]=11.610553, nextPhis[ 1]=11.615861 <==IsSwitchingOccur() T = 12.490000 Tnext = 12.495000 Time: 1.24900e+01 states: [ -3.31012e+00 -6.85508e-01] derivs: [ -6.84216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.495000 pESO->GetIndependentVar(): 12.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.615861, nextPhis[ 0]=-5.621093 prevPhis[ 1]=11.615861, nextPhis[ 1]=11.621093 <==IsSwitchingOccur() T = 12.495000 Tnext = 12.500000 Time: 1.24950e+01 states: [ -3.31353e+00 -6.80508e-01] derivs: [ -6.79216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.500000 pESO->GetIndependentVar(): 12.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.621093, nextPhis[ 0]=-5.626250 prevPhis[ 1]=11.621093, nextPhis[ 1]=11.626250 <==IsSwitchingOccur() T = 12.500000 Tnext = 12.505000 Time: 1.25000e+01 states: [ -3.31691e+00 -6.75508e-01] derivs: [ -6.74216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.505000 pESO->GetIndependentVar(): 12.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.626250, nextPhis[ 0]=-5.631332 prevPhis[ 1]=11.626250, nextPhis[ 1]=11.631332 <==IsSwitchingOccur() T = 12.505000 Tnext = 12.510000 Time: 1.25050e+01 states: [ -3.32027e+00 -6.70508e-01] derivs: [ -6.69216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.510000 pESO->GetIndependentVar(): 12.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.631332, nextPhis[ 0]=-5.636339 prevPhis[ 1]=11.631332, nextPhis[ 1]=11.636339 <==IsSwitchingOccur() T = 12.510000 Tnext = 12.515000 Time: 1.25100e+01 states: [ -3.32361e+00 -6.65508e-01] derivs: [ -6.64216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.515000 pESO->GetIndependentVar(): 12.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.636339, nextPhis[ 0]=-5.641272 prevPhis[ 1]=11.636339, nextPhis[ 1]=11.641272 <==IsSwitchingOccur() T = 12.515000 Tnext = 12.520000 Time: 1.25150e+01 states: [ -3.32692e+00 -6.60508e-01] derivs: [ -6.59216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.520000 pESO->GetIndependentVar(): 12.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.641272, nextPhis[ 0]=-5.646129 prevPhis[ 1]=11.641272, nextPhis[ 1]=11.646129 <==IsSwitchingOccur() T = 12.520000 Tnext = 12.525000 Time: 1.25200e+01 states: [ -3.33021e+00 -6.55508e-01] derivs: [ -6.54216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.525000 pESO->GetIndependentVar(): 12.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.646129, nextPhis[ 0]=-5.650911 prevPhis[ 1]=11.646129, nextPhis[ 1]=11.650911 <==IsSwitchingOccur() T = 12.525000 Tnext = 12.530000 Time: 1.25250e+01 states: [ -3.33347e+00 -6.50508e-01] derivs: [ -6.49216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.530000 pESO->GetIndependentVar(): 12.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.650911, nextPhis[ 0]=-5.655618 prevPhis[ 1]=11.650911, nextPhis[ 1]=11.655618 <==IsSwitchingOccur() T = 12.530000 Tnext = 12.535000 Time: 1.25300e+01 states: [ -3.33670e+00 -6.45508e-01] derivs: [ -6.44216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.535000 pESO->GetIndependentVar(): 12.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.655618, nextPhis[ 0]=-5.660251 prevPhis[ 1]=11.655618, nextPhis[ 1]=11.660251 <==IsSwitchingOccur() T = 12.535000 Tnext = 12.540000 Time: 1.25350e+01 states: [ -3.33991e+00 -6.40508e-01] derivs: [ -6.39216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.540000 pESO->GetIndependentVar(): 12.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.660251, nextPhis[ 0]=-5.664808 prevPhis[ 1]=11.660251, nextPhis[ 1]=11.664808 <==IsSwitchingOccur() T = 12.540000 Tnext = 12.545000 Time: 1.25400e+01 states: [ -3.34310e+00 -6.35508e-01] derivs: [ -6.34216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.545000 pESO->GetIndependentVar(): 12.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.664808, nextPhis[ 0]=-5.669290 prevPhis[ 1]=11.664808, nextPhis[ 1]=11.669290 <==IsSwitchingOccur() T = 12.545000 Tnext = 12.550000 Time: 1.25450e+01 states: [ -3.34626e+00 -6.30508e-01] derivs: [ -6.29216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.550000 pESO->GetIndependentVar(): 12.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.669290, nextPhis[ 0]=-5.673697 prevPhis[ 1]=11.669290, nextPhis[ 1]=11.673697 <==IsSwitchingOccur() T = 12.550000 Tnext = 12.555000 Time: 1.25500e+01 states: [ -3.34940e+00 -6.25508e-01] derivs: [ -6.24216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.555000 pESO->GetIndependentVar(): 12.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.673697, nextPhis[ 0]=-5.678030 prevPhis[ 1]=11.673697, nextPhis[ 1]=11.678030 <==IsSwitchingOccur() T = 12.555000 Tnext = 12.560000 Time: 1.25550e+01 states: [ -3.35251e+00 -6.20508e-01] derivs: [ -6.19216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.560000 pESO->GetIndependentVar(): 12.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.678030, nextPhis[ 0]=-5.682287 prevPhis[ 1]=11.678030, nextPhis[ 1]=11.682287 <==IsSwitchingOccur() T = 12.560000 Tnext = 12.565000 Time: 1.25600e+01 states: [ -3.35559e+00 -6.15508e-01] derivs: [ -6.14216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.565000 pESO->GetIndependentVar(): 12.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.682287, nextPhis[ 0]=-5.686469 prevPhis[ 1]=11.682287, nextPhis[ 1]=11.686469 <==IsSwitchingOccur() T = 12.565000 Tnext = 12.570000 Time: 1.25650e+01 states: [ -3.35865e+00 -6.10508e-01] derivs: [ -6.09216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.570000 pESO->GetIndependentVar(): 12.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.686469, nextPhis[ 0]=-5.690576 prevPhis[ 1]=11.686469, nextPhis[ 1]=11.690576 <==IsSwitchingOccur() T = 12.570000 Tnext = 12.575000 Time: 1.25700e+01 states: [ -3.36169e+00 -6.05508e-01] derivs: [ -6.04216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.575000 pESO->GetIndependentVar(): 12.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.690576, nextPhis[ 0]=-5.694608 prevPhis[ 1]=11.690576, nextPhis[ 1]=11.694608 <==IsSwitchingOccur() T = 12.575000 Tnext = 12.580000 Time: 1.25750e+01 states: [ -3.36470e+00 -6.00508e-01] derivs: [ -5.99216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.580000 pESO->GetIndependentVar(): 12.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.694608, nextPhis[ 0]=-5.698566 prevPhis[ 1]=11.694608, nextPhis[ 1]=11.698566 <==IsSwitchingOccur() T = 12.580000 Tnext = 12.585000 Time: 1.25800e+01 states: [ -3.36769e+00 -5.95508e-01] derivs: [ -5.94216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.585000 pESO->GetIndependentVar(): 12.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.698566, nextPhis[ 0]=-5.702448 prevPhis[ 1]=11.698566, nextPhis[ 1]=11.702448 <==IsSwitchingOccur() T = 12.585000 Tnext = 12.590000 Time: 1.25850e+01 states: [ -3.37065e+00 -5.90508e-01] derivs: [ -5.89216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.590000 pESO->GetIndependentVar(): 12.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.702448, nextPhis[ 0]=-5.706255 prevPhis[ 1]=11.702448, nextPhis[ 1]=11.706255 <==IsSwitchingOccur() T = 12.590000 Tnext = 12.595000 Time: 1.25900e+01 states: [ -3.37358e+00 -5.85508e-01] derivs: [ -5.84216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.595000 pESO->GetIndependentVar(): 12.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.706255, nextPhis[ 0]=-5.709987 prevPhis[ 1]=11.706255, nextPhis[ 1]=11.709987 <==IsSwitchingOccur() T = 12.595000 Tnext = 12.600000 Time: 1.25950e+01 states: [ -3.37649e+00 -5.80508e-01] derivs: [ -5.79216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.600000 pESO->GetIndependentVar(): 12.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.709987, nextPhis[ 0]=-5.713645 prevPhis[ 1]=11.709987, nextPhis[ 1]=11.713645 <==IsSwitchingOccur() T = 12.600000 Tnext = 12.605000 Time: 1.26000e+01 states: [ -3.37938e+00 -5.75508e-01] derivs: [ -5.74216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.605000 pESO->GetIndependentVar(): 12.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.713645, nextPhis[ 0]=-5.717227 prevPhis[ 1]=11.713645, nextPhis[ 1]=11.717227 <==IsSwitchingOccur() T = 12.605000 Tnext = 12.610000 Time: 1.26050e+01 states: [ -3.38224e+00 -5.70508e-01] derivs: [ -5.69216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.610000 pESO->GetIndependentVar(): 12.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.717227, nextPhis[ 0]=-5.720734 prevPhis[ 1]=11.717227, nextPhis[ 1]=11.720734 <==IsSwitchingOccur() T = 12.610000 Tnext = 12.615000 Time: 1.26100e+01 states: [ -3.38508e+00 -5.65508e-01] derivs: [ -5.64216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.615000 pESO->GetIndependentVar(): 12.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.720734, nextPhis[ 0]=-5.724166 prevPhis[ 1]=11.720734, nextPhis[ 1]=11.724166 <==IsSwitchingOccur() T = 12.615000 Tnext = 12.620000 Time: 1.26150e+01 states: [ -3.38789e+00 -5.60508e-01] derivs: [ -5.59216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.620000 pESO->GetIndependentVar(): 12.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.724166, nextPhis[ 0]=-5.727523 prevPhis[ 1]=11.724166, nextPhis[ 1]=11.727523 <==IsSwitchingOccur() T = 12.620000 Tnext = 12.625000 Time: 1.26200e+01 states: [ -3.39067e+00 -5.55508e-01] derivs: [ -5.54216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.625000 pESO->GetIndependentVar(): 12.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.727523, nextPhis[ 0]=-5.730806 prevPhis[ 1]=11.727523, nextPhis[ 1]=11.730806 <==IsSwitchingOccur() T = 12.625000 Tnext = 12.630000 Time: 1.26250e+01 states: [ -3.39343e+00 -5.50508e-01] derivs: [ -5.49216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.630000 pESO->GetIndependentVar(): 12.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.730806, nextPhis[ 0]=-5.734013 prevPhis[ 1]=11.730806, nextPhis[ 1]=11.734013 <==IsSwitchingOccur() T = 12.630000 Tnext = 12.635000 Time: 1.26300e+01 states: [ -3.39617e+00 -5.45508e-01] derivs: [ -5.44216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.635000 pESO->GetIndependentVar(): 12.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.734013, nextPhis[ 0]=-5.737145 prevPhis[ 1]=11.734013, nextPhis[ 1]=11.737145 <==IsSwitchingOccur() T = 12.635000 Tnext = 12.640000 Time: 1.26350e+01 states: [ -3.39888e+00 -5.40508e-01] derivs: [ -5.39216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.640000 pESO->GetIndependentVar(): 12.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.737145, nextPhis[ 0]=-5.740202 prevPhis[ 1]=11.737145, nextPhis[ 1]=11.740202 <==IsSwitchingOccur() T = 12.640000 Tnext = 12.645000 Time: 1.26400e+01 states: [ -3.40156e+00 -5.35508e-01] derivs: [ -5.34216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.645000 pESO->GetIndependentVar(): 12.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.740202, nextPhis[ 0]=-5.743185 prevPhis[ 1]=11.740202, nextPhis[ 1]=11.743185 <==IsSwitchingOccur() T = 12.645000 Tnext = 12.650000 Time: 1.26450e+01 states: [ -3.40423e+00 -5.30508e-01] derivs: [ -5.29216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.650000 pESO->GetIndependentVar(): 12.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.743185, nextPhis[ 0]=-5.746092 prevPhis[ 1]=11.743185, nextPhis[ 1]=11.746092 <==IsSwitchingOccur() T = 12.650000 Tnext = 12.655000 Time: 1.26500e+01 states: [ -3.40686e+00 -5.25508e-01] derivs: [ -5.24216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.655000 pESO->GetIndependentVar(): 12.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.746092, nextPhis[ 0]=-5.748924 prevPhis[ 1]=11.746092, nextPhis[ 1]=11.748924 <==IsSwitchingOccur() T = 12.655000 Tnext = 12.660000 Time: 1.26550e+01 states: [ -3.40947e+00 -5.20508e-01] derivs: [ -5.19216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.660000 pESO->GetIndependentVar(): 12.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.748924, nextPhis[ 0]=-5.751681 prevPhis[ 1]=11.748924, nextPhis[ 1]=11.751681 <==IsSwitchingOccur() T = 12.660000 Tnext = 12.665000 Time: 1.26600e+01 states: [ -3.41206e+00 -5.15508e-01] derivs: [ -5.14216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.665000 pESO->GetIndependentVar(): 12.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.751681, nextPhis[ 0]=-5.754363 prevPhis[ 1]=11.751681, nextPhis[ 1]=11.754363 <==IsSwitchingOccur() T = 12.665000 Tnext = 12.670000 Time: 1.26650e+01 states: [ -3.41462e+00 -5.10508e-01] derivs: [ -5.09216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.670000 pESO->GetIndependentVar(): 12.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.754363, nextPhis[ 0]=-5.756971 prevPhis[ 1]=11.754363, nextPhis[ 1]=11.756971 <==IsSwitchingOccur() T = 12.670000 Tnext = 12.675000 Time: 1.26700e+01 states: [ -3.41715e+00 -5.05508e-01] derivs: [ -5.04216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.675000 pESO->GetIndependentVar(): 12.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.756971, nextPhis[ 0]=-5.759503 prevPhis[ 1]=11.756971, nextPhis[ 1]=11.759503 <==IsSwitchingOccur() T = 12.675000 Tnext = 12.680000 Time: 1.26750e+01 states: [ -3.41967e+00 -5.00508e-01] derivs: [ -4.99216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.680000 pESO->GetIndependentVar(): 12.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.759503, nextPhis[ 0]=-5.761960 prevPhis[ 1]=11.759503, nextPhis[ 1]=11.761960 <==IsSwitchingOccur() T = 12.680000 Tnext = 12.685000 Time: 1.26800e+01 states: [ -3.42215e+00 -4.95508e-01] derivs: [ -4.94216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.685000 pESO->GetIndependentVar(): 12.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.761960, nextPhis[ 0]=-5.764342 prevPhis[ 1]=11.761960, nextPhis[ 1]=11.764342 <==IsSwitchingOccur() T = 12.685000 Tnext = 12.690000 Time: 1.26850e+01 states: [ -3.42461e+00 -4.90508e-01] derivs: [ -4.89216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.690000 pESO->GetIndependentVar(): 12.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.764342, nextPhis[ 0]=-5.766650 prevPhis[ 1]=11.764342, nextPhis[ 1]=11.766650 <==IsSwitchingOccur() T = 12.690000 Tnext = 12.695000 Time: 1.26900e+01 states: [ -3.42705e+00 -4.85508e-01] derivs: [ -4.84216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.695000 pESO->GetIndependentVar(): 12.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.766650, nextPhis[ 0]=-5.768882 prevPhis[ 1]=11.766650, nextPhis[ 1]=11.768882 <==IsSwitchingOccur() T = 12.695000 Tnext = 12.700000 Time: 1.26950e+01 states: [ -3.42946e+00 -4.80508e-01] derivs: [ -4.79216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.700000 pESO->GetIndependentVar(): 12.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.768882, nextPhis[ 0]=-5.771039 prevPhis[ 1]=11.768882, nextPhis[ 1]=11.771039 <==IsSwitchingOccur() T = 12.700000 Tnext = 12.705000 Time: 1.27000e+01 states: [ -3.43184e+00 -4.75508e-01] derivs: [ -4.74216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.705000 pESO->GetIndependentVar(): 12.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.771039, nextPhis[ 0]=-5.773121 prevPhis[ 1]=11.771039, nextPhis[ 1]=11.773121 <==IsSwitchingOccur() T = 12.705000 Tnext = 12.710000 Time: 1.27050e+01 states: [ -3.43420e+00 -4.70508e-01] derivs: [ -4.69216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.710000 pESO->GetIndependentVar(): 12.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.773121, nextPhis[ 0]=-5.775129 prevPhis[ 1]=11.773121, nextPhis[ 1]=11.775129 <==IsSwitchingOccur() T = 12.710000 Tnext = 12.715000 Time: 1.27100e+01 states: [ -3.43654e+00 -4.65508e-01] derivs: [ -4.64216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.715000 pESO->GetIndependentVar(): 12.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.775129, nextPhis[ 0]=-5.777061 prevPhis[ 1]=11.775129, nextPhis[ 1]=11.777061 <==IsSwitchingOccur() T = 12.715000 Tnext = 12.720000 Time: 1.27150e+01 states: [ -3.43885e+00 -4.60508e-01] derivs: [ -4.59216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.720000 pESO->GetIndependentVar(): 12.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.777061, nextPhis[ 0]=-5.778918 prevPhis[ 1]=11.777061, nextPhis[ 1]=11.778918 <==IsSwitchingOccur() T = 12.720000 Tnext = 12.725000 Time: 1.27200e+01 states: [ -3.44114e+00 -4.55508e-01] derivs: [ -4.54216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.725000 pESO->GetIndependentVar(): 12.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.778918, nextPhis[ 0]=-5.780700 prevPhis[ 1]=11.778918, nextPhis[ 1]=11.780700 <==IsSwitchingOccur() T = 12.725000 Tnext = 12.730000 Time: 1.27250e+01 states: [ -3.44340e+00 -4.50508e-01] derivs: [ -4.49216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.730000 pESO->GetIndependentVar(): 12.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.780700, nextPhis[ 0]=-5.782407 prevPhis[ 1]=11.780700, nextPhis[ 1]=11.782407 <==IsSwitchingOccur() T = 12.730000 Tnext = 12.735000 Time: 1.27300e+01 states: [ -3.44563e+00 -4.45508e-01] derivs: [ -4.44216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.735000 pESO->GetIndependentVar(): 12.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.782407, nextPhis[ 0]=-5.784040 prevPhis[ 1]=11.782407, nextPhis[ 1]=11.784040 <==IsSwitchingOccur() T = 12.735000 Tnext = 12.740000 Time: 1.27350e+01 states: [ -3.44784e+00 -4.40508e-01] derivs: [ -4.39216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.740000 pESO->GetIndependentVar(): 12.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.784040, nextPhis[ 0]=-5.785597 prevPhis[ 1]=11.784040, nextPhis[ 1]=11.785597 <==IsSwitchingOccur() T = 12.740000 Tnext = 12.745000 Time: 1.27400e+01 states: [ -3.45003e+00 -4.35508e-01] derivs: [ -4.34216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.745000 pESO->GetIndependentVar(): 12.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.785597, nextPhis[ 0]=-5.787079 prevPhis[ 1]=11.785597, nextPhis[ 1]=11.787079 <==IsSwitchingOccur() T = 12.745000 Tnext = 12.750000 Time: 1.27450e+01 states: [ -3.45219e+00 -4.30508e-01] derivs: [ -4.29216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.750000 pESO->GetIndependentVar(): 12.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.787079, nextPhis[ 0]=-5.788486 prevPhis[ 1]=11.787079, nextPhis[ 1]=11.788486 <==IsSwitchingOccur() T = 12.750000 Tnext = 12.755000 Time: 1.27500e+01 states: [ -3.45433e+00 -4.25508e-01] derivs: [ -4.24216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.755000 pESO->GetIndependentVar(): 12.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.788486, nextPhis[ 0]=-5.789819 prevPhis[ 1]=11.788486, nextPhis[ 1]=11.789819 <==IsSwitchingOccur() T = 12.755000 Tnext = 12.760000 Time: 1.27550e+01 states: [ -3.45644e+00 -4.20508e-01] derivs: [ -4.19216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.760000 pESO->GetIndependentVar(): 12.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.789819, nextPhis[ 0]=-5.791076 prevPhis[ 1]=11.789819, nextPhis[ 1]=11.791076 <==IsSwitchingOccur() T = 12.760000 Tnext = 12.765000 Time: 1.27600e+01 states: [ -3.45852e+00 -4.15508e-01] derivs: [ -4.14216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.765000 pESO->GetIndependentVar(): 12.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.791076, nextPhis[ 0]=-5.792258 prevPhis[ 1]=11.791076, nextPhis[ 1]=11.792258 <==IsSwitchingOccur() T = 12.765000 Tnext = 12.770000 Time: 1.27650e+01 states: [ -3.46058e+00 -4.10508e-01] derivs: [ -4.09216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.770000 pESO->GetIndependentVar(): 12.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.792258, nextPhis[ 0]=-5.793365 prevPhis[ 1]=11.792258, nextPhis[ 1]=11.793365 <==IsSwitchingOccur() T = 12.770000 Tnext = 12.775000 Time: 1.27700e+01 states: [ -3.46262e+00 -4.05508e-01] derivs: [ -4.04216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.775000 pESO->GetIndependentVar(): 12.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.793365, nextPhis[ 0]=-5.794397 prevPhis[ 1]=11.793365, nextPhis[ 1]=11.794397 <==IsSwitchingOccur() T = 12.775000 Tnext = 12.780000 Time: 1.27750e+01 states: [ -3.46463e+00 -4.00508e-01] derivs: [ -3.99216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.780000 pESO->GetIndependentVar(): 12.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.794397, nextPhis[ 0]=-5.795355 prevPhis[ 1]=11.794397, nextPhis[ 1]=11.795355 <==IsSwitchingOccur() T = 12.780000 Tnext = 12.785000 Time: 1.27800e+01 states: [ -3.46662e+00 -3.95508e-01] derivs: [ -3.94216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.785000 pESO->GetIndependentVar(): 12.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.795355, nextPhis[ 0]=-5.796237 prevPhis[ 1]=11.795355, nextPhis[ 1]=11.796237 <==IsSwitchingOccur() T = 12.785000 Tnext = 12.790000 Time: 1.27850e+01 states: [ -3.46858e+00 -3.90508e-01] derivs: [ -3.89216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.790000 pESO->GetIndependentVar(): 12.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.796237, nextPhis[ 0]=-5.797044 prevPhis[ 1]=11.796237, nextPhis[ 1]=11.797044 <==IsSwitchingOccur() T = 12.790000 Tnext = 12.795000 Time: 1.27900e+01 states: [ -3.47051e+00 -3.85508e-01] derivs: [ -3.84216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.795000 pESO->GetIndependentVar(): 12.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.797044, nextPhis[ 0]=-5.797776 prevPhis[ 1]=11.797044, nextPhis[ 1]=11.797776 <==IsSwitchingOccur() T = 12.795000 Tnext = 12.800000 Time: 1.27950e+01 states: [ -3.47242e+00 -3.80508e-01] derivs: [ -3.79216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.800000 pESO->GetIndependentVar(): 12.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.797776, nextPhis[ 0]=-5.798434 prevPhis[ 1]=11.797776, nextPhis[ 1]=11.798434 <==IsSwitchingOccur() T = 12.800000 Tnext = 12.805000 Time: 1.28000e+01 states: [ -3.47431e+00 -3.75508e-01] derivs: [ -3.74216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.805000 pESO->GetIndependentVar(): 12.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.798434, nextPhis[ 0]=-5.799016 prevPhis[ 1]=11.798434, nextPhis[ 1]=11.799016 <==IsSwitchingOccur() T = 12.805000 Tnext = 12.810000 Time: 1.28050e+01 states: [ -3.47617e+00 -3.70508e-01] derivs: [ -3.69216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.810000 pESO->GetIndependentVar(): 12.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.799016, nextPhis[ 0]=-5.799523 prevPhis[ 1]=11.799016, nextPhis[ 1]=11.799523 <==IsSwitchingOccur() T = 12.810000 Tnext = 12.815000 Time: 1.28100e+01 states: [ -3.47801e+00 -3.65508e-01] derivs: [ -3.64216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.815000 pESO->GetIndependentVar(): 12.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.799523, nextPhis[ 0]=-5.799955 prevPhis[ 1]=11.799523, nextPhis[ 1]=11.799955 <==IsSwitchingOccur() T = 12.815000 Tnext = 12.820000 Time: 1.28150e+01 states: [ -3.47982e+00 -3.60508e-01] derivs: [ -3.59216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.820000 pESO->GetIndependentVar(): 12.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.799955, nextPhis[ 0]=-5.800312 prevPhis[ 1]=11.799955, nextPhis[ 1]=11.800312 <==IsSwitchingOccur() T = 12.820000 Tnext = 12.825000 Time: 1.28200e+01 states: [ -3.48160e+00 -3.55508e-01] derivs: [ -3.54216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.825000 pESO->GetIndependentVar(): 12.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800312, nextPhis[ 0]=-5.800595 prevPhis[ 1]=11.800312, nextPhis[ 1]=11.800595 <==IsSwitchingOccur() T = 12.825000 Tnext = 12.830000 Time: 1.28250e+01 states: [ -3.48336e+00 -3.50508e-01] derivs: [ -3.49216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.830000 pESO->GetIndependentVar(): 12.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800595, nextPhis[ 0]=-5.800802 prevPhis[ 1]=11.800595, nextPhis[ 1]=11.800802 <==IsSwitchingOccur() T = 12.830000 Tnext = 12.835000 Time: 1.28300e+01 states: [ -3.48510e+00 -3.45508e-01] derivs: [ -3.44216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.835000 pESO->GetIndependentVar(): 12.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800802, nextPhis[ 0]=-5.800934 prevPhis[ 1]=11.800802, nextPhis[ 1]=11.800934 <==IsSwitchingOccur() T = 12.835000 Tnext = 12.840000 Time: 1.28350e+01 states: [ -3.48681e+00 -3.40508e-01] derivs: [ -3.39216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.840000 pESO->GetIndependentVar(): 12.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800934, nextPhis[ 0]=-5.800991 prevPhis[ 1]=11.800934, nextPhis[ 1]=11.800991 <==IsSwitchingOccur() T = 12.840000 Tnext = 12.845000 Time: 1.28400e+01 states: [ -3.48849e+00 -3.35508e-01] derivs: [ -3.34216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.845000 pESO->GetIndependentVar(): 12.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800991, nextPhis[ 0]=-5.800974 prevPhis[ 1]=11.800991, nextPhis[ 1]=11.800974 <==IsSwitchingOccur() T = 12.845000 Tnext = 12.850000 Time: 1.28450e+01 states: [ -3.49016e+00 -3.30508e-01] derivs: [ -3.29216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.850000 pESO->GetIndependentVar(): 12.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800974, nextPhis[ 0]=-5.800881 prevPhis[ 1]=11.800974, nextPhis[ 1]=11.800881 <==IsSwitchingOccur() T = 12.850000 Tnext = 12.855000 Time: 1.28500e+01 states: [ -3.49179e+00 -3.25508e-01] derivs: [ -3.24216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.855000 pESO->GetIndependentVar(): 12.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800881, nextPhis[ 0]=-5.800713 prevPhis[ 1]=11.800881, nextPhis[ 1]=11.800713 <==IsSwitchingOccur() T = 12.855000 Tnext = 12.860000 Time: 1.28550e+01 states: [ -3.49340e+00 -3.20508e-01] derivs: [ -3.19216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.860000 pESO->GetIndependentVar(): 12.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800713, nextPhis[ 0]=-5.800470 prevPhis[ 1]=11.800713, nextPhis[ 1]=11.800470 <==IsSwitchingOccur() T = 12.860000 Tnext = 12.865000 Time: 1.28600e+01 states: [ -3.49499e+00 -3.15508e-01] derivs: [ -3.14216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.865000 pESO->GetIndependentVar(): 12.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800470, nextPhis[ 0]=-5.800153 prevPhis[ 1]=11.800470, nextPhis[ 1]=11.800153 <==IsSwitchingOccur() T = 12.865000 Tnext = 12.870000 Time: 1.28650e+01 states: [ -3.49655e+00 -3.10508e-01] derivs: [ -3.09216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.870000 pESO->GetIndependentVar(): 12.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.800153, nextPhis[ 0]=-5.799760 prevPhis[ 1]=11.800153, nextPhis[ 1]=11.799760 <==IsSwitchingOccur() T = 12.870000 Tnext = 12.875000 Time: 1.28700e+01 states: [ -3.49808e+00 -3.05508e-01] derivs: [ -3.04216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.875000 pESO->GetIndependentVar(): 12.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.799760, nextPhis[ 0]=-5.799292 prevPhis[ 1]=11.799760, nextPhis[ 1]=11.799292 <==IsSwitchingOccur() T = 12.875000 Tnext = 12.880000 Time: 1.28750e+01 states: [ -3.49959e+00 -3.00508e-01] derivs: [ -2.99216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.880000 pESO->GetIndependentVar(): 12.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.799292, nextPhis[ 0]=-5.798749 prevPhis[ 1]=11.799292, nextPhis[ 1]=11.798749 <==IsSwitchingOccur() T = 12.880000 Tnext = 12.885000 Time: 1.28800e+01 states: [ -3.50108e+00 -2.95508e-01] derivs: [ -2.94216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.885000 pESO->GetIndependentVar(): 12.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.798749, nextPhis[ 0]=-5.798131 prevPhis[ 1]=11.798749, nextPhis[ 1]=11.798131 <==IsSwitchingOccur() T = 12.885000 Tnext = 12.890000 Time: 1.28850e+01 states: [ -3.50254e+00 -2.90508e-01] derivs: [ -2.89216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.890000 pESO->GetIndependentVar(): 12.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.798131, nextPhis[ 0]=-5.797439 prevPhis[ 1]=11.798131, nextPhis[ 1]=11.797439 <==IsSwitchingOccur() T = 12.890000 Tnext = 12.895000 Time: 1.28900e+01 states: [ -3.50398e+00 -2.85508e-01] derivs: [ -2.84216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.895000 pESO->GetIndependentVar(): 12.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.797439, nextPhis[ 0]=-5.796671 prevPhis[ 1]=11.797439, nextPhis[ 1]=11.796671 <==IsSwitchingOccur() T = 12.895000 Tnext = 12.900000 Time: 1.28950e+01 states: [ -3.50539e+00 -2.80508e-01] derivs: [ -2.79216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.900000 pESO->GetIndependentVar(): 12.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.796671, nextPhis[ 0]=-5.795828 prevPhis[ 1]=11.796671, nextPhis[ 1]=11.795828 <==IsSwitchingOccur() T = 12.900000 Tnext = 12.905000 Time: 1.29000e+01 states: [ -3.50677e+00 -2.75508e-01] derivs: [ -2.74216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.905000 pESO->GetIndependentVar(): 12.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.795828, nextPhis[ 0]=-5.794910 prevPhis[ 1]=11.795828, nextPhis[ 1]=11.794910 <==IsSwitchingOccur() T = 12.905000 Tnext = 12.910000 Time: 1.29050e+01 states: [ -3.50813e+00 -2.70508e-01] derivs: [ -2.69216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.910000 pESO->GetIndependentVar(): 12.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.794910, nextPhis[ 0]=-5.793918 prevPhis[ 1]=11.794910, nextPhis[ 1]=11.793918 <==IsSwitchingOccur() T = 12.910000 Tnext = 12.915000 Time: 1.29100e+01 states: [ -3.50947e+00 -2.65508e-01] derivs: [ -2.64216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.915000 pESO->GetIndependentVar(): 12.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.793918, nextPhis[ 0]=-5.792850 prevPhis[ 1]=11.793918, nextPhis[ 1]=11.792850 <==IsSwitchingOccur() T = 12.915000 Tnext = 12.920000 Time: 1.29150e+01 states: [ -3.51078e+00 -2.60508e-01] derivs: [ -2.59216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.920000 pESO->GetIndependentVar(): 12.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.792850, nextPhis[ 0]=-5.791707 prevPhis[ 1]=11.792850, nextPhis[ 1]=11.791707 <==IsSwitchingOccur() T = 12.920000 Tnext = 12.925000 Time: 1.29200e+01 states: [ -3.51207e+00 -2.55508e-01] derivs: [ -2.54216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.925000 pESO->GetIndependentVar(): 12.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.791707, nextPhis[ 0]=-5.790489 prevPhis[ 1]=11.791707, nextPhis[ 1]=11.790489 <==IsSwitchingOccur() T = 12.925000 Tnext = 12.930000 Time: 1.29250e+01 states: [ -3.51333e+00 -2.50508e-01] derivs: [ -2.49216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.930000 pESO->GetIndependentVar(): 12.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.790489, nextPhis[ 0]=-5.789196 prevPhis[ 1]=11.790489, nextPhis[ 1]=11.789196 <==IsSwitchingOccur() T = 12.930000 Tnext = 12.935000 Time: 1.29300e+01 states: [ -3.51456e+00 -2.45508e-01] derivs: [ -2.44216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.935000 pESO->GetIndependentVar(): 12.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.789196, nextPhis[ 0]=-5.787829 prevPhis[ 1]=11.789196, nextPhis[ 1]=11.787829 <==IsSwitchingOccur() T = 12.935000 Tnext = 12.940000 Time: 1.29350e+01 states: [ -3.51577e+00 -2.40508e-01] derivs: [ -2.39216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.940000 pESO->GetIndependentVar(): 12.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.787829, nextPhis[ 0]=-5.786386 prevPhis[ 1]=11.787829, nextPhis[ 1]=11.786386 <==IsSwitchingOccur() T = 12.940000 Tnext = 12.945000 Time: 1.29400e+01 states: [ -3.51696e+00 -2.35508e-01] derivs: [ -2.34216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.945000 pESO->GetIndependentVar(): 12.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.786386, nextPhis[ 0]=-5.784868 prevPhis[ 1]=11.786386, nextPhis[ 1]=11.784868 <==IsSwitchingOccur() T = 12.945000 Tnext = 12.950000 Time: 1.29450e+01 states: [ -3.51812e+00 -2.30508e-01] derivs: [ -2.29216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.950000 pESO->GetIndependentVar(): 12.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.784868, nextPhis[ 0]=-5.783275 prevPhis[ 1]=11.784868, nextPhis[ 1]=11.783275 <==IsSwitchingOccur() T = 12.950000 Tnext = 12.955000 Time: 1.29500e+01 states: [ -3.51926e+00 -2.25508e-01] derivs: [ -2.24216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.955000 pESO->GetIndependentVar(): 12.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.783275, nextPhis[ 0]=-5.781608 prevPhis[ 1]=11.783275, nextPhis[ 1]=11.781608 <==IsSwitchingOccur() T = 12.955000 Tnext = 12.960000 Time: 1.29550e+01 states: [ -3.52037e+00 -2.20508e-01] derivs: [ -2.19216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.960000 pESO->GetIndependentVar(): 12.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.781608, nextPhis[ 0]=-5.779865 prevPhis[ 1]=11.781608, nextPhis[ 1]=11.779865 <==IsSwitchingOccur() T = 12.960000 Tnext = 12.965000 Time: 1.29600e+01 states: [ -3.52145e+00 -2.15508e-01] derivs: [ -2.14216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.965000 pESO->GetIndependentVar(): 12.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.779865, nextPhis[ 0]=-5.778047 prevPhis[ 1]=11.779865, nextPhis[ 1]=11.778047 <==IsSwitchingOccur() T = 12.965000 Tnext = 12.970000 Time: 1.29650e+01 states: [ -3.52251e+00 -2.10508e-01] derivs: [ -2.09216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.970000 pESO->GetIndependentVar(): 12.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.778047, nextPhis[ 0]=-5.776154 prevPhis[ 1]=11.778047, nextPhis[ 1]=11.776154 <==IsSwitchingOccur() T = 12.970000 Tnext = 12.975000 Time: 1.29700e+01 states: [ -3.52355e+00 -2.05508e-01] derivs: [ -2.04216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.975000 pESO->GetIndependentVar(): 12.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.776154, nextPhis[ 0]=-5.774186 prevPhis[ 1]=11.776154, nextPhis[ 1]=11.774186 <==IsSwitchingOccur() T = 12.975000 Tnext = 12.980000 Time: 1.29750e+01 states: [ -3.52456e+00 -2.00508e-01] derivs: [ -1.99216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.980000 pESO->GetIndependentVar(): 12.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.774186, nextPhis[ 0]=-5.772144 prevPhis[ 1]=11.774186, nextPhis[ 1]=11.772144 <==IsSwitchingOccur() T = 12.980000 Tnext = 12.985000 Time: 1.29800e+01 states: [ -3.52555e+00 -1.95508e-01] derivs: [ -1.94216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.985000 pESO->GetIndependentVar(): 12.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.772144, nextPhis[ 0]=-5.770026 prevPhis[ 1]=11.772144, nextPhis[ 1]=11.770026 <==IsSwitchingOccur() T = 12.985000 Tnext = 12.990000 Time: 1.29850e+01 states: [ -3.52651e+00 -1.90508e-01] derivs: [ -1.89216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.990000 pESO->GetIndependentVar(): 12.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.770026, nextPhis[ 0]=-5.767833 prevPhis[ 1]=11.770026, nextPhis[ 1]=11.767833 <==IsSwitchingOccur() T = 12.990000 Tnext = 12.995000 Time: 1.29900e+01 states: [ -3.52744e+00 -1.85508e-01] derivs: [ -1.84216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 12.995000 pESO->GetIndependentVar(): 12.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.767833, nextPhis[ 0]=-5.765565 prevPhis[ 1]=11.767833, nextPhis[ 1]=11.765565 <==IsSwitchingOccur() T = 12.995000 Tnext = 13.000000 Time: 1.29950e+01 states: [ -3.52835e+00 -1.80508e-01] derivs: [ -1.79216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.000000 pESO->GetIndependentVar(): 13.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.765565, nextPhis[ 0]=-5.763223 prevPhis[ 1]=11.765565, nextPhis[ 1]=11.763223 <==IsSwitchingOccur() T = 13.000000 Tnext = 13.005000 Time: 1.30000e+01 states: [ -3.52924e+00 -1.75508e-01] derivs: [ -1.74216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.005000 pESO->GetIndependentVar(): 13.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.763223, nextPhis[ 0]=-5.760805 prevPhis[ 1]=11.763223, nextPhis[ 1]=11.760805 <==IsSwitchingOccur() T = 13.005000 Tnext = 13.010000 Time: 1.30050e+01 states: [ -3.53010e+00 -1.70508e-01] derivs: [ -1.69216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.010000 pESO->GetIndependentVar(): 13.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.760805, nextPhis[ 0]=-5.758312 prevPhis[ 1]=11.760805, nextPhis[ 1]=11.758312 <==IsSwitchingOccur() T = 13.010000 Tnext = 13.015000 Time: 1.30100e+01 states: [ -3.53093e+00 -1.65508e-01] derivs: [ -1.64216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.015000 pESO->GetIndependentVar(): 13.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.758312, nextPhis[ 0]=-5.755744 prevPhis[ 1]=11.758312, nextPhis[ 1]=11.755744 <==IsSwitchingOccur() T = 13.015000 Tnext = 13.020000 Time: 1.30150e+01 states: [ -3.53175e+00 -1.60508e-01] derivs: [ -1.59216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.020000 pESO->GetIndependentVar(): 13.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.755744, nextPhis[ 0]=-5.753102 prevPhis[ 1]=11.755744, nextPhis[ 1]=11.753102 <==IsSwitchingOccur() T = 13.020000 Tnext = 13.025000 Time: 1.30200e+01 states: [ -3.53253e+00 -1.55508e-01] derivs: [ -1.54216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.025000 pESO->GetIndependentVar(): 13.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.753102, nextPhis[ 0]=-5.750384 prevPhis[ 1]=11.753102, nextPhis[ 1]=11.750384 <==IsSwitchingOccur() T = 13.025000 Tnext = 13.030000 Time: 1.30250e+01 states: [ -3.53329e+00 -1.50508e-01] derivs: [ -1.49216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.030000 pESO->GetIndependentVar(): 13.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.750384, nextPhis[ 0]=-5.747591 prevPhis[ 1]=11.750384, nextPhis[ 1]=11.747591 <==IsSwitchingOccur() T = 13.030000 Tnext = 13.035000 Time: 1.30300e+01 states: [ -3.53403e+00 -1.45508e-01] derivs: [ -1.44216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.035000 pESO->GetIndependentVar(): 13.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.747591, nextPhis[ 0]=-5.744723 prevPhis[ 1]=11.747591, nextPhis[ 1]=11.744723 <==IsSwitchingOccur() T = 13.035000 Tnext = 13.040000 Time: 1.30350e+01 states: [ -3.53474e+00 -1.40508e-01] derivs: [ -1.39216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.040000 pESO->GetIndependentVar(): 13.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.744723, nextPhis[ 0]=-5.741780 prevPhis[ 1]=11.744723, nextPhis[ 1]=11.741780 <==IsSwitchingOccur() T = 13.040000 Tnext = 13.045000 Time: 1.30400e+01 states: [ -3.53542e+00 -1.35508e-01] derivs: [ -1.34216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.045000 pESO->GetIndependentVar(): 13.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.741780, nextPhis[ 0]=-5.738763 prevPhis[ 1]=11.741780, nextPhis[ 1]=11.738763 <==IsSwitchingOccur() T = 13.045000 Tnext = 13.050000 Time: 1.30450e+01 states: [ -3.53608e+00 -1.30508e-01] derivs: [ -1.29216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.050000 pESO->GetIndependentVar(): 13.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.738763, nextPhis[ 0]=-5.735670 prevPhis[ 1]=11.738763, nextPhis[ 1]=11.735670 <==IsSwitchingOccur() T = 13.050000 Tnext = 13.055000 Time: 1.30500e+01 states: [ -3.53672e+00 -1.25508e-01] derivs: [ -1.24216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.055000 pESO->GetIndependentVar(): 13.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.735670, nextPhis[ 0]=-5.732502 prevPhis[ 1]=11.735670, nextPhis[ 1]=11.732502 <==IsSwitchingOccur() T = 13.055000 Tnext = 13.060000 Time: 1.30550e+01 states: [ -3.53733e+00 -1.20508e-01] derivs: [ -1.19216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.060000 pESO->GetIndependentVar(): 13.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.732502, nextPhis[ 0]=-5.729259 prevPhis[ 1]=11.732502, nextPhis[ 1]=11.729259 <==IsSwitchingOccur() T = 13.060000 Tnext = 13.065000 Time: 1.30600e+01 states: [ -3.53792e+00 -1.15508e-01] derivs: [ -1.14216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.065000 pESO->GetIndependentVar(): 13.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.729259, nextPhis[ 0]=-5.725942 prevPhis[ 1]=11.729259, nextPhis[ 1]=11.725942 <==IsSwitchingOccur() T = 13.065000 Tnext = 13.070000 Time: 1.30650e+01 states: [ -3.53848e+00 -1.10508e-01] derivs: [ -1.09216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.070000 pESO->GetIndependentVar(): 13.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.725942, nextPhis[ 0]=-5.722549 prevPhis[ 1]=11.725942, nextPhis[ 1]=11.722549 <==IsSwitchingOccur() T = 13.070000 Tnext = 13.075000 Time: 1.30700e+01 states: [ -3.53901e+00 -1.05508e-01] derivs: [ -1.04216e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.075000 pESO->GetIndependentVar(): 13.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.722549, nextPhis[ 0]=-5.719081 prevPhis[ 1]=11.722549, nextPhis[ 1]=11.719081 <==IsSwitchingOccur() T = 13.075000 Tnext = 13.080000 Time: 1.30750e+01 states: [ -3.53952e+00 -1.00508e-01] derivs: [ -9.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.080000 pESO->GetIndependentVar(): 13.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.719081, nextPhis[ 0]=-5.715538 prevPhis[ 1]=11.719081, nextPhis[ 1]=11.715538 <==IsSwitchingOccur() T = 13.080000 Tnext = 13.085000 Time: 1.30800e+01 states: [ -3.54001e+00 -9.55078e-02] derivs: [ -9.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.085000 pESO->GetIndependentVar(): 13.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.715538, nextPhis[ 0]=-5.711920 prevPhis[ 1]=11.715538, nextPhis[ 1]=11.711920 <==IsSwitchingOccur() T = 13.085000 Tnext = 13.090000 Time: 1.30850e+01 states: [ -3.54047e+00 -9.05078e-02] derivs: [ -8.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.090000 pESO->GetIndependentVar(): 13.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.711920, nextPhis[ 0]=-5.708228 prevPhis[ 1]=11.711920, nextPhis[ 1]=11.708228 <==IsSwitchingOccur() T = 13.090000 Tnext = 13.095000 Time: 1.30900e+01 states: [ -3.54091e+00 -8.55078e-02] derivs: [ -8.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.095000 pESO->GetIndependentVar(): 13.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.708228, nextPhis[ 0]=-5.704460 prevPhis[ 1]=11.708228, nextPhis[ 1]=11.704460 <==IsSwitchingOccur() T = 13.095000 Tnext = 13.100000 Time: 1.30950e+01 states: [ -3.54132e+00 -8.05078e-02] derivs: [ -7.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.100000 pESO->GetIndependentVar(): 13.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.704460, nextPhis[ 0]=-5.700617 prevPhis[ 1]=11.704460, nextPhis[ 1]=11.700617 <==IsSwitchingOccur() T = 13.100000 Tnext = 13.105000 Time: 1.31000e+01 states: [ -3.54170e+00 -7.55078e-02] derivs: [ -7.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.105000 pESO->GetIndependentVar(): 13.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.700617, nextPhis[ 0]=-5.696699 prevPhis[ 1]=11.700617, nextPhis[ 1]=11.696699 <==IsSwitchingOccur() T = 13.105000 Tnext = 13.110000 Time: 1.31050e+01 states: [ -3.54206e+00 -7.05078e-02] derivs: [ -6.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.110000 pESO->GetIndependentVar(): 13.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.696699, nextPhis[ 0]=-5.692707 prevPhis[ 1]=11.696699, nextPhis[ 1]=11.692707 <==IsSwitchingOccur() T = 13.110000 Tnext = 13.115000 Time: 1.31100e+01 states: [ -3.54240e+00 -6.55078e-02] derivs: [ -6.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.115000 pESO->GetIndependentVar(): 13.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.692707, nextPhis[ 0]=-5.688639 prevPhis[ 1]=11.692707, nextPhis[ 1]=11.688639 <==IsSwitchingOccur() T = 13.115000 Tnext = 13.120000 Time: 1.31150e+01 states: [ -3.54271e+00 -6.05078e-02] derivs: [ -5.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.120000 pESO->GetIndependentVar(): 13.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.688639, nextPhis[ 0]=-5.684496 prevPhis[ 1]=11.688639, nextPhis[ 1]=11.684496 <==IsSwitchingOccur() T = 13.120000 Tnext = 13.125000 Time: 1.31200e+01 states: [ -3.54300e+00 -5.55078e-02] derivs: [ -5.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.125000 pESO->GetIndependentVar(): 13.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.684496, nextPhis[ 0]=-5.680278 prevPhis[ 1]=11.684496, nextPhis[ 1]=11.680278 <==IsSwitchingOccur() T = 13.125000 Tnext = 13.130000 Time: 1.31250e+01 states: [ -3.54326e+00 -5.05078e-02] derivs: [ -4.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.130000 pESO->GetIndependentVar(): 13.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.680278, nextPhis[ 0]=-5.675985 prevPhis[ 1]=11.680278, nextPhis[ 1]=11.675985 <==IsSwitchingOccur() T = 13.130000 Tnext = 13.135000 Time: 1.31300e+01 states: [ -3.54349e+00 -4.55078e-02] derivs: [ -4.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.135000 pESO->GetIndependentVar(): 13.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.675985, nextPhis[ 0]=-5.671618 prevPhis[ 1]=11.675985, nextPhis[ 1]=11.671618 <==IsSwitchingOccur() T = 13.135000 Tnext = 13.140000 Time: 1.31350e+01 states: [ -3.54370e+00 -4.05078e-02] derivs: [ -3.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.140000 pESO->GetIndependentVar(): 13.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.671618, nextPhis[ 0]=-5.667175 prevPhis[ 1]=11.671618, nextPhis[ 1]=11.667175 <==IsSwitchingOccur() T = 13.140000 Tnext = 13.145000 Time: 1.31400e+01 states: [ -3.54389e+00 -3.55078e-02] derivs: [ -3.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.145000 pESO->GetIndependentVar(): 13.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.667175, nextPhis[ 0]=-5.662657 prevPhis[ 1]=11.667175, nextPhis[ 1]=11.662657 <==IsSwitchingOccur() T = 13.145000 Tnext = 13.150000 Time: 1.31450e+01 states: [ -3.54405e+00 -3.05078e-02] derivs: [ -2.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.150000 pESO->GetIndependentVar(): 13.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.662657, nextPhis[ 0]=-5.658064 prevPhis[ 1]=11.662657, nextPhis[ 1]=11.658064 <==IsSwitchingOccur() T = 13.150000 Tnext = 13.155000 Time: 1.31500e+01 states: [ -3.54419e+00 -2.55078e-02] derivs: [ -2.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.155000 pESO->GetIndependentVar(): 13.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.658064, nextPhis[ 0]=-5.653397 prevPhis[ 1]=11.658064, nextPhis[ 1]=11.653397 <==IsSwitchingOccur() T = 13.155000 Tnext = 13.160000 Time: 1.31550e+01 states: [ -3.54430e+00 -2.05078e-02] derivs: [ -1.92163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.160000 pESO->GetIndependentVar(): 13.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.653397, nextPhis[ 0]=-5.648654 prevPhis[ 1]=11.653397, nextPhis[ 1]=11.648654 <==IsSwitchingOccur() T = 13.160000 Tnext = 13.165000 Time: 1.31600e+01 states: [ -3.54438e+00 -1.55078e-02] derivs: [ -1.42163e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.165000 pESO->GetIndependentVar(): 13.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.648654, nextPhis[ 0]=-5.643836 prevPhis[ 1]=11.648654, nextPhis[ 1]=11.643836 <==IsSwitchingOccur() T = 13.165000 Tnext = 13.170000 Time: 1.31650e+01 states: [ -3.54444e+00 -1.05078e-02] derivs: [ -9.21634e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.170000 pESO->GetIndependentVar(): 13.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.643836, nextPhis[ 0]=-5.638943 prevPhis[ 1]=11.643836, nextPhis[ 1]=11.638943 <==IsSwitchingOccur() T = 13.170000 Tnext = 13.175000 Time: 1.31700e+01 states: [ -3.54448e+00 -5.50780e-03] derivs: [ -4.21634e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.175000 pESO->GetIndependentVar(): 13.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.638943, nextPhis[ 0]=-5.633975 prevPhis[ 1]=11.638943, nextPhis[ 1]=11.633975 <==IsSwitchingOccur() T = 13.175000 Tnext = 13.180000 Time: 1.31750e+01 states: [ -3.54449e+00 -5.07799e-04] derivs: [ 7.83656e-04 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.180000 pESO->GetIndependentVar(): 13.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.633975, nextPhis[ 0]=-5.628933 prevPhis[ 1]=11.633975, nextPhis[ 1]=11.628933 <==IsSwitchingOccur() T = 13.180000 Tnext = 13.185000 Time: 1.31800e+01 states: [ -3.54447e+00 4.49220e-03] derivs: [ 5.78366e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.185000 pESO->GetIndependentVar(): 13.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.628933, nextPhis[ 0]=-5.623815 prevPhis[ 1]=11.628933, nextPhis[ 1]=11.623815 <==IsSwitchingOccur() T = 13.185000 Tnext = 13.190000 Time: 1.31850e+01 states: [ -3.54444e+00 9.49220e-03] derivs: [ 1.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.190000 pESO->GetIndependentVar(): 13.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.623815, nextPhis[ 0]=-5.618622 prevPhis[ 1]=11.623815, nextPhis[ 1]=11.618622 <==IsSwitchingOccur() T = 13.190000 Tnext = 13.195000 Time: 1.31900e+01 states: [ -3.54437e+00 1.44922e-02] derivs: [ 1.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.195000 pESO->GetIndependentVar(): 13.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.618622, nextPhis[ 0]=-5.613354 prevPhis[ 1]=11.618622, nextPhis[ 1]=11.613354 <==IsSwitchingOccur() T = 13.195000 Tnext = 13.200000 Time: 1.31950e+01 states: [ -3.54428e+00 1.94922e-02] derivs: [ 2.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.200000 pESO->GetIndependentVar(): 13.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.613354, nextPhis[ 0]=-5.608012 prevPhis[ 1]=11.613354, nextPhis[ 1]=11.608012 <==IsSwitchingOccur() T = 13.200000 Tnext = 13.205000 Time: 1.32000e+01 states: [ -3.54417e+00 2.44922e-02] derivs: [ 2.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.205000 pESO->GetIndependentVar(): 13.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.608012, nextPhis[ 0]=-5.602594 prevPhis[ 1]=11.608012, nextPhis[ 1]=11.602594 <==IsSwitchingOccur() T = 13.205000 Tnext = 13.210000 Time: 1.32050e+01 states: [ -3.54403e+00 2.94922e-02] derivs: [ 3.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.210000 pESO->GetIndependentVar(): 13.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.602594, nextPhis[ 0]=-5.597101 prevPhis[ 1]=11.602594, nextPhis[ 1]=11.597101 <==IsSwitchingOccur() T = 13.210000 Tnext = 13.215000 Time: 1.32100e+01 states: [ -3.54386e+00 3.44922e-02] derivs: [ 3.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.215000 pESO->GetIndependentVar(): 13.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.597101, nextPhis[ 0]=-5.591533 prevPhis[ 1]=11.597101, nextPhis[ 1]=11.591533 <==IsSwitchingOccur() T = 13.215000 Tnext = 13.220000 Time: 1.32150e+01 states: [ -3.54368e+00 3.94922e-02] derivs: [ 4.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.220000 pESO->GetIndependentVar(): 13.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.591533, nextPhis[ 0]=-5.585891 prevPhis[ 1]=11.591533, nextPhis[ 1]=11.585891 <==IsSwitchingOccur() T = 13.220000 Tnext = 13.225000 Time: 1.32200e+01 states: [ -3.54346e+00 4.44922e-02] derivs: [ 4.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.225000 pESO->GetIndependentVar(): 13.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.585891, nextPhis[ 0]=-5.580173 prevPhis[ 1]=11.585891, nextPhis[ 1]=11.580173 <==IsSwitchingOccur() T = 13.225000 Tnext = 13.230000 Time: 1.32250e+01 states: [ -3.54322e+00 4.94922e-02] derivs: [ 5.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.230000 pESO->GetIndependentVar(): 13.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.580173, nextPhis[ 0]=-5.574380 prevPhis[ 1]=11.580173, nextPhis[ 1]=11.574380 <==IsSwitchingOccur() T = 13.230000 Tnext = 13.235000 Time: 1.32300e+01 states: [ -3.54296e+00 5.44922e-02] derivs: [ 5.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.235000 pESO->GetIndependentVar(): 13.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.574380, nextPhis[ 0]=-5.568512 prevPhis[ 1]=11.574380, nextPhis[ 1]=11.568512 <==IsSwitchingOccur() T = 13.235000 Tnext = 13.240000 Time: 1.32350e+01 states: [ -3.54267e+00 5.94922e-02] derivs: [ 6.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.240000 pESO->GetIndependentVar(): 13.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.568512, nextPhis[ 0]=-5.562569 prevPhis[ 1]=11.568512, nextPhis[ 1]=11.562569 <==IsSwitchingOccur() T = 13.240000 Tnext = 13.245000 Time: 1.32400e+01 states: [ -3.54235e+00 6.44922e-02] derivs: [ 6.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.245000 pESO->GetIndependentVar(): 13.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.562569, nextPhis[ 0]=-5.556552 prevPhis[ 1]=11.562569, nextPhis[ 1]=11.556552 <==IsSwitchingOccur() T = 13.245000 Tnext = 13.250000 Time: 1.32450e+01 states: [ -3.54201e+00 6.94922e-02] derivs: [ 7.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.250000 pESO->GetIndependentVar(): 13.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.556552, nextPhis[ 0]=-5.550459 prevPhis[ 1]=11.556552, nextPhis[ 1]=11.550459 <==IsSwitchingOccur() T = 13.250000 Tnext = 13.255000 Time: 1.32500e+01 states: [ -3.54165e+00 7.44922e-02] derivs: [ 7.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.255000 pESO->GetIndependentVar(): 13.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.550459, nextPhis[ 0]=-5.544291 prevPhis[ 1]=11.550459, nextPhis[ 1]=11.544291 <==IsSwitchingOccur() T = 13.255000 Tnext = 13.260000 Time: 1.32550e+01 states: [ -3.54126e+00 7.94922e-02] derivs: [ 8.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.260000 pESO->GetIndependentVar(): 13.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.544291, nextPhis[ 0]=-5.538048 prevPhis[ 1]=11.544291, nextPhis[ 1]=11.538048 <==IsSwitchingOccur() T = 13.260000 Tnext = 13.265000 Time: 1.32600e+01 states: [ -3.54085e+00 8.44922e-02] derivs: [ 8.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.265000 pESO->GetIndependentVar(): 13.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.538048, nextPhis[ 0]=-5.531731 prevPhis[ 1]=11.538048, nextPhis[ 1]=11.531731 <==IsSwitchingOccur() T = 13.265000 Tnext = 13.270000 Time: 1.32650e+01 states: [ -3.54041e+00 8.94922e-02] derivs: [ 9.07837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.270000 pESO->GetIndependentVar(): 13.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.531731, nextPhis[ 0]=-5.525338 prevPhis[ 1]=11.531731, nextPhis[ 1]=11.525338 <==IsSwitchingOccur() T = 13.270000 Tnext = 13.275000 Time: 1.32700e+01 states: [ -3.53994e+00 9.44922e-02] derivs: [ 9.57837e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.275000 pESO->GetIndependentVar(): 13.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.525338, nextPhis[ 0]=-5.518870 prevPhis[ 1]=11.525338, nextPhis[ 1]=11.518870 <==IsSwitchingOccur() T = 13.275000 Tnext = 13.280000 Time: 1.32750e+01 states: [ -3.53945e+00 9.94922e-02] derivs: [ 1.00784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.280000 pESO->GetIndependentVar(): 13.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.518870, nextPhis[ 0]=-5.512327 prevPhis[ 1]=11.518870, nextPhis[ 1]=11.512327 <==IsSwitchingOccur() T = 13.280000 Tnext = 13.285000 Time: 1.32800e+01 states: [ -3.53894e+00 1.04492e-01] derivs: [ 1.05784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.285000 pESO->GetIndependentVar(): 13.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.512327, nextPhis[ 0]=-5.505709 prevPhis[ 1]=11.512327, nextPhis[ 1]=11.505709 <==IsSwitchingOccur() T = 13.285000 Tnext = 13.290000 Time: 1.32850e+01 states: [ -3.53840e+00 1.09492e-01] derivs: [ 1.10784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.290000 pESO->GetIndependentVar(): 13.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.505709, nextPhis[ 0]=-5.499017 prevPhis[ 1]=11.505709, nextPhis[ 1]=11.499017 <==IsSwitchingOccur() T = 13.290000 Tnext = 13.295000 Time: 1.32900e+01 states: [ -3.53784e+00 1.14492e-01] derivs: [ 1.15784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.295000 pESO->GetIndependentVar(): 13.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.499017, nextPhis[ 0]=-5.492249 prevPhis[ 1]=11.499017, nextPhis[ 1]=11.492249 <==IsSwitchingOccur() T = 13.295000 Tnext = 13.300000 Time: 1.32950e+01 states: [ -3.53725e+00 1.19492e-01] derivs: [ 1.20784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.300000 pESO->GetIndependentVar(): 13.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.492249, nextPhis[ 0]=-5.485406 prevPhis[ 1]=11.492249, nextPhis[ 1]=11.485406 <==IsSwitchingOccur() T = 13.300000 Tnext = 13.305000 Time: 1.33000e+01 states: [ -3.53663e+00 1.24492e-01] derivs: [ 1.25784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.305000 pESO->GetIndependentVar(): 13.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.485406, nextPhis[ 0]=-5.478488 prevPhis[ 1]=11.485406, nextPhis[ 1]=11.478488 <==IsSwitchingOccur() T = 13.305000 Tnext = 13.310000 Time: 1.33050e+01 states: [ -3.53599e+00 1.29492e-01] derivs: [ 1.30784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.310000 pESO->GetIndependentVar(): 13.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.478488, nextPhis[ 0]=-5.471496 prevPhis[ 1]=11.478488, nextPhis[ 1]=11.471496 <==IsSwitchingOccur() T = 13.310000 Tnext = 13.315000 Time: 1.33100e+01 states: [ -3.53533e+00 1.34492e-01] derivs: [ 1.35784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.315000 pESO->GetIndependentVar(): 13.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.471496, nextPhis[ 0]=-5.464428 prevPhis[ 1]=11.471496, nextPhis[ 1]=11.464428 <==IsSwitchingOccur() T = 13.315000 Tnext = 13.320000 Time: 1.33150e+01 states: [ -3.53464e+00 1.39492e-01] derivs: [ 1.40784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.320000 pESO->GetIndependentVar(): 13.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.464428, nextPhis[ 0]=-5.457285 prevPhis[ 1]=11.464428, nextPhis[ 1]=11.457285 <==IsSwitchingOccur() T = 13.320000 Tnext = 13.325000 Time: 1.33200e+01 states: [ -3.53393e+00 1.44492e-01] derivs: [ 1.45784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.325000 pESO->GetIndependentVar(): 13.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.457285, nextPhis[ 0]=-5.450067 prevPhis[ 1]=11.457285, nextPhis[ 1]=11.450067 <==IsSwitchingOccur() T = 13.325000 Tnext = 13.330000 Time: 1.33250e+01 states: [ -3.53319e+00 1.49492e-01] derivs: [ 1.50784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.330000 pESO->GetIndependentVar(): 13.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.450067, nextPhis[ 0]=-5.442774 prevPhis[ 1]=11.450067, nextPhis[ 1]=11.442774 <==IsSwitchingOccur() T = 13.330000 Tnext = 13.335000 Time: 1.33300e+01 states: [ -3.53242e+00 1.54492e-01] derivs: [ 1.55784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.335000 pESO->GetIndependentVar(): 13.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.442774, nextPhis[ 0]=-5.435407 prevPhis[ 1]=11.442774, nextPhis[ 1]=11.435407 <==IsSwitchingOccur() T = 13.335000 Tnext = 13.340000 Time: 1.33350e+01 states: [ -3.53163e+00 1.59492e-01] derivs: [ 1.60784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.340000 pESO->GetIndependentVar(): 13.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.435407, nextPhis[ 0]=-5.427964 prevPhis[ 1]=11.435407, nextPhis[ 1]=11.427964 <==IsSwitchingOccur() T = 13.340000 Tnext = 13.345000 Time: 1.33400e+01 states: [ -3.53082e+00 1.64492e-01] derivs: [ 1.65784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.345000 pESO->GetIndependentVar(): 13.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.427964, nextPhis[ 0]=-5.420446 prevPhis[ 1]=11.427964, nextPhis[ 1]=11.420446 <==IsSwitchingOccur() T = 13.345000 Tnext = 13.350000 Time: 1.33450e+01 states: [ -3.52998e+00 1.69492e-01] derivs: [ 1.70784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.350000 pESO->GetIndependentVar(): 13.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.420446, nextPhis[ 0]=-5.412853 prevPhis[ 1]=11.420446, nextPhis[ 1]=11.412853 <==IsSwitchingOccur() T = 13.350000 Tnext = 13.355000 Time: 1.33500e+01 states: [ -3.52912e+00 1.74492e-01] derivs: [ 1.75784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.355000 pESO->GetIndependentVar(): 13.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.412853, nextPhis[ 0]=-5.405186 prevPhis[ 1]=11.412853, nextPhis[ 1]=11.405186 <==IsSwitchingOccur() T = 13.355000 Tnext = 13.360000 Time: 1.33550e+01 states: [ -3.52823e+00 1.79492e-01] derivs: [ 1.80784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.360000 pESO->GetIndependentVar(): 13.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.405186, nextPhis[ 0]=-5.397443 prevPhis[ 1]=11.405186, nextPhis[ 1]=11.397443 <==IsSwitchingOccur() T = 13.360000 Tnext = 13.365000 Time: 1.33600e+01 states: [ -3.52731e+00 1.84492e-01] derivs: [ 1.85784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.365000 pESO->GetIndependentVar(): 13.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.397443, nextPhis[ 0]=-5.389625 prevPhis[ 1]=11.397443, nextPhis[ 1]=11.389625 <==IsSwitchingOccur() T = 13.365000 Tnext = 13.370000 Time: 1.33650e+01 states: [ -3.52637e+00 1.89492e-01] derivs: [ 1.90784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.370000 pESO->GetIndependentVar(): 13.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.389625, nextPhis[ 0]=-5.381732 prevPhis[ 1]=11.389625, nextPhis[ 1]=11.381732 <==IsSwitchingOccur() T = 13.370000 Tnext = 13.375000 Time: 1.33700e+01 states: [ -3.52541e+00 1.94492e-01] derivs: [ 1.95784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.375000 pESO->GetIndependentVar(): 13.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.381732, nextPhis[ 0]=-5.373765 prevPhis[ 1]=11.381732, nextPhis[ 1]=11.373765 <==IsSwitchingOccur() T = 13.375000 Tnext = 13.380000 Time: 1.33750e+01 states: [ -3.52442e+00 1.99492e-01] derivs: [ 2.00784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.380000 pESO->GetIndependentVar(): 13.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.373765, nextPhis[ 0]=-5.365722 prevPhis[ 1]=11.373765, nextPhis[ 1]=11.365722 <==IsSwitchingOccur() T = 13.380000 Tnext = 13.385000 Time: 1.33800e+01 states: [ -3.52340e+00 2.04492e-01] derivs: [ 2.05784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.385000 pESO->GetIndependentVar(): 13.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.365722, nextPhis[ 0]=-5.357604 prevPhis[ 1]=11.365722, nextPhis[ 1]=11.357604 <==IsSwitchingOccur() T = 13.385000 Tnext = 13.390000 Time: 1.33850e+01 states: [ -3.52237e+00 2.09492e-01] derivs: [ 2.10784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.390000 pESO->GetIndependentVar(): 13.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.357604, nextPhis[ 0]=-5.349411 prevPhis[ 1]=11.357604, nextPhis[ 1]=11.349411 <==IsSwitchingOccur() T = 13.390000 Tnext = 13.395000 Time: 1.33900e+01 states: [ -3.52130e+00 2.14492e-01] derivs: [ 2.15784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.395000 pESO->GetIndependentVar(): 13.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.349411, nextPhis[ 0]=-5.341143 prevPhis[ 1]=11.349411, nextPhis[ 1]=11.341143 <==IsSwitchingOccur() T = 13.395000 Tnext = 13.400000 Time: 1.33950e+01 states: [ -3.52021e+00 2.19492e-01] derivs: [ 2.20784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.400000 pESO->GetIndependentVar(): 13.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.341143, nextPhis[ 0]=-5.332801 prevPhis[ 1]=11.341143, nextPhis[ 1]=11.332801 <==IsSwitchingOccur() T = 13.400000 Tnext = 13.405000 Time: 1.34000e+01 states: [ -3.51910e+00 2.24492e-01] derivs: [ 2.25784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.405000 pESO->GetIndependentVar(): 13.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.332801, nextPhis[ 0]=-5.324383 prevPhis[ 1]=11.332801, nextPhis[ 1]=11.324383 <==IsSwitchingOccur() T = 13.405000 Tnext = 13.410000 Time: 1.34050e+01 states: [ -3.51796e+00 2.29492e-01] derivs: [ 2.30784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.410000 pESO->GetIndependentVar(): 13.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.324383, nextPhis[ 0]=-5.315890 prevPhis[ 1]=11.324383, nextPhis[ 1]=11.315890 <==IsSwitchingOccur() T = 13.410000 Tnext = 13.415000 Time: 1.34100e+01 states: [ -3.51679e+00 2.34492e-01] derivs: [ 2.35784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.415000 pESO->GetIndependentVar(): 13.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.315890, nextPhis[ 0]=-5.307322 prevPhis[ 1]=11.315890, nextPhis[ 1]=11.307322 <==IsSwitchingOccur() T = 13.415000 Tnext = 13.420000 Time: 1.34150e+01 states: [ -3.51560e+00 2.39492e-01] derivs: [ 2.40784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.420000 pESO->GetIndependentVar(): 13.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.307322, nextPhis[ 0]=-5.298680 prevPhis[ 1]=11.307322, nextPhis[ 1]=11.298680 <==IsSwitchingOccur() T = 13.420000 Tnext = 13.425000 Time: 1.34200e+01 states: [ -3.51439e+00 2.44492e-01] derivs: [ 2.45784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.425000 pESO->GetIndependentVar(): 13.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.298680, nextPhis[ 0]=-5.289962 prevPhis[ 1]=11.298680, nextPhis[ 1]=11.289962 <==IsSwitchingOccur() T = 13.425000 Tnext = 13.430000 Time: 1.34250e+01 states: [ -3.51315e+00 2.49492e-01] derivs: [ 2.50784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.430000 pESO->GetIndependentVar(): 13.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.289962, nextPhis[ 0]=-5.281169 prevPhis[ 1]=11.289962, nextPhis[ 1]=11.281169 <==IsSwitchingOccur() T = 13.430000 Tnext = 13.435000 Time: 1.34300e+01 states: [ -3.51189e+00 2.54492e-01] derivs: [ 2.55784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.435000 pESO->GetIndependentVar(): 13.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.281169, nextPhis[ 0]=-5.272301 prevPhis[ 1]=11.281169, nextPhis[ 1]=11.272301 <==IsSwitchingOccur() T = 13.435000 Tnext = 13.440000 Time: 1.34350e+01 states: [ -3.51060e+00 2.59492e-01] derivs: [ 2.60784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.440000 pESO->GetIndependentVar(): 13.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.272301, nextPhis[ 0]=-5.263358 prevPhis[ 1]=11.272301, nextPhis[ 1]=11.263358 <==IsSwitchingOccur() T = 13.440000 Tnext = 13.445000 Time: 1.34400e+01 states: [ -3.50928e+00 2.64492e-01] derivs: [ 2.65784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.445000 pESO->GetIndependentVar(): 13.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.263358, nextPhis[ 0]=-5.254341 prevPhis[ 1]=11.263358, nextPhis[ 1]=11.254341 <==IsSwitchingOccur() T = 13.445000 Tnext = 13.450000 Time: 1.34450e+01 states: [ -3.50794e+00 2.69492e-01] derivs: [ 2.70784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.450000 pESO->GetIndependentVar(): 13.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.254341, nextPhis[ 0]=-5.245248 prevPhis[ 1]=11.254341, nextPhis[ 1]=11.245248 <==IsSwitchingOccur() T = 13.450000 Tnext = 13.455000 Time: 1.34500e+01 states: [ -3.50658e+00 2.74492e-01] derivs: [ 2.75784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.455000 pESO->GetIndependentVar(): 13.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.245248, nextPhis[ 0]=-5.236080 prevPhis[ 1]=11.245248, nextPhis[ 1]=11.236080 <==IsSwitchingOccur() T = 13.455000 Tnext = 13.460000 Time: 1.34550e+01 states: [ -3.50519e+00 2.79492e-01] derivs: [ 2.80784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.460000 pESO->GetIndependentVar(): 13.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.236080, nextPhis[ 0]=-5.226837 prevPhis[ 1]=11.236080, nextPhis[ 1]=11.226837 <==IsSwitchingOccur() T = 13.460000 Tnext = 13.465000 Time: 1.34600e+01 states: [ -3.50378e+00 2.84492e-01] derivs: [ 2.85784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.465000 pESO->GetIndependentVar(): 13.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.226837, nextPhis[ 0]=-5.217520 prevPhis[ 1]=11.226837, nextPhis[ 1]=11.217520 <==IsSwitchingOccur() T = 13.465000 Tnext = 13.470000 Time: 1.34650e+01 states: [ -3.50234e+00 2.89492e-01] derivs: [ 2.90784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.470000 pESO->GetIndependentVar(): 13.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.217520, nextPhis[ 0]=-5.208127 prevPhis[ 1]=11.217520, nextPhis[ 1]=11.208127 <==IsSwitchingOccur() T = 13.470000 Tnext = 13.475000 Time: 1.34700e+01 states: [ -3.50087e+00 2.94492e-01] derivs: [ 2.95784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.475000 pESO->GetIndependentVar(): 13.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.208127, nextPhis[ 0]=-5.198659 prevPhis[ 1]=11.208127, nextPhis[ 1]=11.198659 <==IsSwitchingOccur() T = 13.475000 Tnext = 13.480000 Time: 1.34750e+01 states: [ -3.49938e+00 2.99492e-01] derivs: [ 3.00784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.480000 pESO->GetIndependentVar(): 13.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.198659, nextPhis[ 0]=-5.189116 prevPhis[ 1]=11.198659, nextPhis[ 1]=11.189116 <==IsSwitchingOccur() T = 13.480000 Tnext = 13.485000 Time: 1.34800e+01 states: [ -3.49787e+00 3.04492e-01] derivs: [ 3.05784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.485000 pESO->GetIndependentVar(): 13.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.189116, nextPhis[ 0]=-5.179498 prevPhis[ 1]=11.189116, nextPhis[ 1]=11.179498 <==IsSwitchingOccur() T = 13.485000 Tnext = 13.490000 Time: 1.34850e+01 states: [ -3.49633e+00 3.09492e-01] derivs: [ 3.10784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.490000 pESO->GetIndependentVar(): 13.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.179498, nextPhis[ 0]=-5.169806 prevPhis[ 1]=11.179498, nextPhis[ 1]=11.169806 <==IsSwitchingOccur() T = 13.490000 Tnext = 13.495000 Time: 1.34900e+01 states: [ -3.49477e+00 3.14492e-01] derivs: [ 3.15784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.495000 pESO->GetIndependentVar(): 13.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.169806, nextPhis[ 0]=-5.160038 prevPhis[ 1]=11.169806, nextPhis[ 1]=11.160038 <==IsSwitchingOccur() T = 13.495000 Tnext = 13.500000 Time: 1.34950e+01 states: [ -3.49318e+00 3.19492e-01] derivs: [ 3.20784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.500000 pESO->GetIndependentVar(): 13.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.160038, nextPhis[ 0]=-5.150195 prevPhis[ 1]=11.160038, nextPhis[ 1]=11.150195 <==IsSwitchingOccur() T = 13.500000 Tnext = 13.505000 Time: 1.35000e+01 states: [ -3.49156e+00 3.24492e-01] derivs: [ 3.25784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.505000 pESO->GetIndependentVar(): 13.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.150195, nextPhis[ 0]=-5.140277 prevPhis[ 1]=11.150195, nextPhis[ 1]=11.140277 <==IsSwitchingOccur() T = 13.505000 Tnext = 13.510000 Time: 1.35050e+01 states: [ -3.48992e+00 3.29492e-01] derivs: [ 3.30784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.510000 pESO->GetIndependentVar(): 13.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.140277, nextPhis[ 0]=-5.130285 prevPhis[ 1]=11.140277, nextPhis[ 1]=11.130285 <==IsSwitchingOccur() T = 13.510000 Tnext = 13.515000 Time: 1.35100e+01 states: [ -3.48826e+00 3.34492e-01] derivs: [ 3.35784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.515000 pESO->GetIndependentVar(): 13.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.130285, nextPhis[ 0]=-5.120217 prevPhis[ 1]=11.130285, nextPhis[ 1]=11.120217 <==IsSwitchingOccur() T = 13.515000 Tnext = 13.520000 Time: 1.35150e+01 states: [ -3.48657e+00 3.39492e-01] derivs: [ 3.40784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.520000 pESO->GetIndependentVar(): 13.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.120217, nextPhis[ 0]=-5.110074 prevPhis[ 1]=11.120217, nextPhis[ 1]=11.110074 <==IsSwitchingOccur() T = 13.520000 Tnext = 13.525000 Time: 1.35200e+01 states: [ -3.48486e+00 3.44492e-01] derivs: [ 3.45784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.525000 pESO->GetIndependentVar(): 13.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.110074, nextPhis[ 0]=-5.099856 prevPhis[ 1]=11.110074, nextPhis[ 1]=11.099856 <==IsSwitchingOccur() T = 13.525000 Tnext = 13.530000 Time: 1.35250e+01 states: [ -3.48312e+00 3.49492e-01] derivs: [ 3.50784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.530000 pESO->GetIndependentVar(): 13.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.099856, nextPhis[ 0]=-5.089563 prevPhis[ 1]=11.099856, nextPhis[ 1]=11.089563 <==IsSwitchingOccur() T = 13.530000 Tnext = 13.535000 Time: 1.35300e+01 states: [ -3.48135e+00 3.54492e-01] derivs: [ 3.55784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.535000 pESO->GetIndependentVar(): 13.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.089563, nextPhis[ 0]=-5.079196 prevPhis[ 1]=11.089563, nextPhis[ 1]=11.079196 <==IsSwitchingOccur() T = 13.535000 Tnext = 13.540000 Time: 1.35350e+01 states: [ -3.47956e+00 3.59492e-01] derivs: [ 3.60784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.540000 pESO->GetIndependentVar(): 13.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.079196, nextPhis[ 0]=-5.068753 prevPhis[ 1]=11.079196, nextPhis[ 1]=11.068753 <==IsSwitchingOccur() T = 13.540000 Tnext = 13.545000 Time: 1.35400e+01 states: [ -3.47775e+00 3.64492e-01] derivs: [ 3.65784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.545000 pESO->GetIndependentVar(): 13.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.068753, nextPhis[ 0]=-5.058235 prevPhis[ 1]=11.068753, nextPhis[ 1]=11.058235 <==IsSwitchingOccur() T = 13.545000 Tnext = 13.550000 Time: 1.35450e+01 states: [ -3.47591e+00 3.69492e-01] derivs: [ 3.70784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.550000 pESO->GetIndependentVar(): 13.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.058235, nextPhis[ 0]=-5.047642 prevPhis[ 1]=11.058235, nextPhis[ 1]=11.047642 <==IsSwitchingOccur() T = 13.550000 Tnext = 13.555000 Time: 1.35500e+01 states: [ -3.47404e+00 3.74492e-01] derivs: [ 3.75784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.555000 pESO->GetIndependentVar(): 13.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.047642, nextPhis[ 0]=-5.036975 prevPhis[ 1]=11.047642, nextPhis[ 1]=11.036975 <==IsSwitchingOccur() T = 13.555000 Tnext = 13.560000 Time: 1.35550e+01 states: [ -3.47216e+00 3.79492e-01] derivs: [ 3.80784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.560000 pESO->GetIndependentVar(): 13.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.036975, nextPhis[ 0]=-5.026232 prevPhis[ 1]=11.036975, nextPhis[ 1]=11.026232 <==IsSwitchingOccur() T = 13.560000 Tnext = 13.565000 Time: 1.35600e+01 states: [ -3.47024e+00 3.84492e-01] derivs: [ 3.85784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.565000 pESO->GetIndependentVar(): 13.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.026232, nextPhis[ 0]=-5.015414 prevPhis[ 1]=11.026232, nextPhis[ 1]=11.015414 <==IsSwitchingOccur() T = 13.565000 Tnext = 13.570000 Time: 1.35650e+01 states: [ -3.46830e+00 3.89492e-01] derivs: [ 3.90784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.570000 pESO->GetIndependentVar(): 13.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.015414, nextPhis[ 0]=-5.004521 prevPhis[ 1]=11.015414, nextPhis[ 1]=11.004521 <==IsSwitchingOccur() T = 13.570000 Tnext = 13.575000 Time: 1.35700e+01 states: [ -3.46634e+00 3.94492e-01] derivs: [ 3.95784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.575000 pESO->GetIndependentVar(): 13.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.004521, nextPhis[ 0]=-4.993554 prevPhis[ 1]=11.004521, nextPhis[ 1]=10.993554 <==IsSwitchingOccur() T = 13.575000 Tnext = 13.580000 Time: 1.35750e+01 states: [ -3.46435e+00 3.99492e-01] derivs: [ 4.00784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.580000 pESO->GetIndependentVar(): 13.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.993554, nextPhis[ 0]=-4.982511 prevPhis[ 1]=10.993554, nextPhis[ 1]=10.982511 <==IsSwitchingOccur() T = 13.580000 Tnext = 13.585000 Time: 1.35800e+01 states: [ -3.46233e+00 4.04492e-01] derivs: [ 4.05784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.585000 pESO->GetIndependentVar(): 13.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.982511, nextPhis[ 0]=-4.971393 prevPhis[ 1]=10.982511, nextPhis[ 1]=10.971393 <==IsSwitchingOccur() T = 13.585000 Tnext = 13.590000 Time: 1.35850e+01 states: [ -3.46030e+00 4.09492e-01] derivs: [ 4.10784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.590000 pESO->GetIndependentVar(): 13.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.971393, nextPhis[ 0]=-4.960200 prevPhis[ 1]=10.971393, nextPhis[ 1]=10.960200 <==IsSwitchingOccur() T = 13.590000 Tnext = 13.595000 Time: 1.35900e+01 states: [ -3.45823e+00 4.14492e-01] derivs: [ 4.15784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.595000 pESO->GetIndependentVar(): 13.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.960200, nextPhis[ 0]=-4.948932 prevPhis[ 1]=10.960200, nextPhis[ 1]=10.948932 <==IsSwitchingOccur() T = 13.595000 Tnext = 13.600000 Time: 1.35950e+01 states: [ -3.45614e+00 4.19492e-01] derivs: [ 4.20784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.600000 pESO->GetIndependentVar(): 13.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.948932, nextPhis[ 0]=-4.937590 prevPhis[ 1]=10.948932, nextPhis[ 1]=10.937590 <==IsSwitchingOccur() T = 13.600000 Tnext = 13.605000 Time: 1.36000e+01 states: [ -3.45403e+00 4.24492e-01] derivs: [ 4.25784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.605000 pESO->GetIndependentVar(): 13.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.937590, nextPhis[ 0]=-4.926172 prevPhis[ 1]=10.937590, nextPhis[ 1]=10.926172 <==IsSwitchingOccur() T = 13.605000 Tnext = 13.610000 Time: 1.36050e+01 states: [ -3.45189e+00 4.29492e-01] derivs: [ 4.30784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.610000 pESO->GetIndependentVar(): 13.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.926172, nextPhis[ 0]=-4.914679 prevPhis[ 1]=10.926172, nextPhis[ 1]=10.914679 <==IsSwitchingOccur() T = 13.610000 Tnext = 13.615000 Time: 1.36100e+01 states: [ -3.44972e+00 4.34492e-01] derivs: [ 4.35784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.615000 pESO->GetIndependentVar(): 13.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.914679, nextPhis[ 0]=-4.903111 prevPhis[ 1]=10.914679, nextPhis[ 1]=10.903111 <==IsSwitchingOccur() T = 13.615000 Tnext = 13.620000 Time: 1.36150e+01 states: [ -3.44753e+00 4.39492e-01] derivs: [ 4.40784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.620000 pESO->GetIndependentVar(): 13.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.903111, nextPhis[ 0]=-4.891469 prevPhis[ 1]=10.903111, nextPhis[ 1]=10.891469 <==IsSwitchingOccur() T = 13.620000 Tnext = 13.625000 Time: 1.36200e+01 states: [ -3.44532e+00 4.44492e-01] derivs: [ 4.45784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.625000 pESO->GetIndependentVar(): 13.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.891469, nextPhis[ 0]=-4.879751 prevPhis[ 1]=10.891469, nextPhis[ 1]=10.879751 <==IsSwitchingOccur() T = 13.625000 Tnext = 13.630000 Time: 1.36250e+01 states: [ -3.44308e+00 4.49492e-01] derivs: [ 4.50784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.630000 pESO->GetIndependentVar(): 13.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.879751, nextPhis[ 0]=-4.867958 prevPhis[ 1]=10.879751, nextPhis[ 1]=10.867958 <==IsSwitchingOccur() T = 13.630000 Tnext = 13.635000 Time: 1.36300e+01 states: [ -3.44082e+00 4.54492e-01] derivs: [ 4.55784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.635000 pESO->GetIndependentVar(): 13.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.867958, nextPhis[ 0]=-4.856090 prevPhis[ 1]=10.867958, nextPhis[ 1]=10.856090 <==IsSwitchingOccur() T = 13.635000 Tnext = 13.640000 Time: 1.36350e+01 states: [ -3.43853e+00 4.59492e-01] derivs: [ 4.60784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.640000 pESO->GetIndependentVar(): 13.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.856090, nextPhis[ 0]=-4.844147 prevPhis[ 1]=10.856090, nextPhis[ 1]=10.844147 <==IsSwitchingOccur() T = 13.640000 Tnext = 13.645000 Time: 1.36400e+01 states: [ -3.43621e+00 4.64492e-01] derivs: [ 4.65784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.645000 pESO->GetIndependentVar(): 13.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.844147, nextPhis[ 0]=-4.832130 prevPhis[ 1]=10.844147, nextPhis[ 1]=10.832130 <==IsSwitchingOccur() T = 13.645000 Tnext = 13.650000 Time: 1.36450e+01 states: [ -3.43387e+00 4.69492e-01] derivs: [ 4.70784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.650000 pESO->GetIndependentVar(): 13.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.832130, nextPhis[ 0]=-4.820037 prevPhis[ 1]=10.832130, nextPhis[ 1]=10.820037 <==IsSwitchingOccur() T = 13.650000 Tnext = 13.655000 Time: 1.36500e+01 states: [ -3.43151e+00 4.74492e-01] derivs: [ 4.75784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.655000 pESO->GetIndependentVar(): 13.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.820037, nextPhis[ 0]=-4.807869 prevPhis[ 1]=10.820037, nextPhis[ 1]=10.807869 <==IsSwitchingOccur() T = 13.655000 Tnext = 13.660000 Time: 1.36550e+01 states: [ -3.42912e+00 4.79492e-01] derivs: [ 4.80784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.660000 pESO->GetIndependentVar(): 13.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.807869, nextPhis[ 0]=-4.795626 prevPhis[ 1]=10.807869, nextPhis[ 1]=10.795626 <==IsSwitchingOccur() T = 13.660000 Tnext = 13.665000 Time: 1.36600e+01 states: [ -3.42671e+00 4.84492e-01] derivs: [ 4.85784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.665000 pESO->GetIndependentVar(): 13.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.795626, nextPhis[ 0]=-4.783309 prevPhis[ 1]=10.795626, nextPhis[ 1]=10.783309 <==IsSwitchingOccur() T = 13.665000 Tnext = 13.670000 Time: 1.36650e+01 states: [ -3.42427e+00 4.89492e-01] derivs: [ 4.90784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.670000 pESO->GetIndependentVar(): 13.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.783309, nextPhis[ 0]=-4.770916 prevPhis[ 1]=10.783309, nextPhis[ 1]=10.770916 <==IsSwitchingOccur() T = 13.670000 Tnext = 13.675000 Time: 1.36700e+01 states: [ -3.42180e+00 4.94492e-01] derivs: [ 4.95784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.675000 pESO->GetIndependentVar(): 13.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.770916, nextPhis[ 0]=-4.758448 prevPhis[ 1]=10.770916, nextPhis[ 1]=10.758448 <==IsSwitchingOccur() T = 13.675000 Tnext = 13.680000 Time: 1.36750e+01 states: [ -3.41931e+00 4.99492e-01] derivs: [ 5.00784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.680000 pESO->GetIndependentVar(): 13.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.758448, nextPhis[ 0]=-4.745905 prevPhis[ 1]=10.758448, nextPhis[ 1]=10.745905 <==IsSwitchingOccur() T = 13.680000 Tnext = 13.685000 Time: 1.36800e+01 states: [ -3.41680e+00 5.04492e-01] derivs: [ 5.05784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.685000 pESO->GetIndependentVar(): 13.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.745905, nextPhis[ 0]=-4.733287 prevPhis[ 1]=10.745905, nextPhis[ 1]=10.733287 <==IsSwitchingOccur() T = 13.685000 Tnext = 13.690000 Time: 1.36850e+01 states: [ -3.41426e+00 5.09492e-01] derivs: [ 5.10784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.690000 pESO->GetIndependentVar(): 13.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.733287, nextPhis[ 0]=-4.720595 prevPhis[ 1]=10.733287, nextPhis[ 1]=10.720595 <==IsSwitchingOccur() T = 13.690000 Tnext = 13.695000 Time: 1.36900e+01 states: [ -3.41170e+00 5.14492e-01] derivs: [ 5.15784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.695000 pESO->GetIndependentVar(): 13.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.720595, nextPhis[ 0]=-4.707827 prevPhis[ 1]=10.720595, nextPhis[ 1]=10.707827 <==IsSwitchingOccur() T = 13.695000 Tnext = 13.700000 Time: 1.36950e+01 states: [ -3.40911e+00 5.19492e-01] derivs: [ 5.20784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.700000 pESO->GetIndependentVar(): 13.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.707827, nextPhis[ 0]=-4.694984 prevPhis[ 1]=10.707827, nextPhis[ 1]=10.694984 <==IsSwitchingOccur() T = 13.700000 Tnext = 13.705000 Time: 1.37000e+01 states: [ -3.40649e+00 5.24492e-01] derivs: [ 5.25784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.705000 pESO->GetIndependentVar(): 13.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.694984, nextPhis[ 0]=-4.682066 prevPhis[ 1]=10.694984, nextPhis[ 1]=10.682066 <==IsSwitchingOccur() T = 13.705000 Tnext = 13.710000 Time: 1.37050e+01 states: [ -3.40385e+00 5.29492e-01] derivs: [ 5.30784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.710000 pESO->GetIndependentVar(): 13.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.682066, nextPhis[ 0]=-4.669074 prevPhis[ 1]=10.682066, nextPhis[ 1]=10.669074 <==IsSwitchingOccur() T = 13.710000 Tnext = 13.715000 Time: 1.37100e+01 states: [ -3.40119e+00 5.34492e-01] derivs: [ 5.35784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.715000 pESO->GetIndependentVar(): 13.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.669074, nextPhis[ 0]=-4.656006 prevPhis[ 1]=10.669074, nextPhis[ 1]=10.656006 <==IsSwitchingOccur() T = 13.715000 Tnext = 13.720000 Time: 1.37150e+01 states: [ -3.39850e+00 5.39492e-01] derivs: [ 5.40784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.720000 pESO->GetIndependentVar(): 13.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.656006, nextPhis[ 0]=-4.642863 prevPhis[ 1]=10.656006, nextPhis[ 1]=10.642863 <==IsSwitchingOccur() T = 13.720000 Tnext = 13.725000 Time: 1.37200e+01 states: [ -3.39579e+00 5.44492e-01] derivs: [ 5.45784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.725000 pESO->GetIndependentVar(): 13.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.642863, nextPhis[ 0]=-4.629645 prevPhis[ 1]=10.642863, nextPhis[ 1]=10.629645 <==IsSwitchingOccur() T = 13.725000 Tnext = 13.730000 Time: 1.37250e+01 states: [ -3.39305e+00 5.49492e-01] derivs: [ 5.50784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.730000 pESO->GetIndependentVar(): 13.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.629645, nextPhis[ 0]=-4.616352 prevPhis[ 1]=10.629645, nextPhis[ 1]=10.616352 <==IsSwitchingOccur() T = 13.730000 Tnext = 13.735000 Time: 1.37300e+01 states: [ -3.39028e+00 5.54492e-01] derivs: [ 5.55784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.735000 pESO->GetIndependentVar(): 13.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.616352, nextPhis[ 0]=-4.602985 prevPhis[ 1]=10.616352, nextPhis[ 1]=10.602985 <==IsSwitchingOccur() T = 13.735000 Tnext = 13.740000 Time: 1.37350e+01 states: [ -3.38749e+00 5.59492e-01] derivs: [ 5.60784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.740000 pESO->GetIndependentVar(): 13.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.602985, nextPhis[ 0]=-4.589542 prevPhis[ 1]=10.602985, nextPhis[ 1]=10.589542 <==IsSwitchingOccur() T = 13.740000 Tnext = 13.745000 Time: 1.37400e+01 states: [ -3.38468e+00 5.64492e-01] derivs: [ 5.65784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.745000 pESO->GetIndependentVar(): 13.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.589542, nextPhis[ 0]=-4.576024 prevPhis[ 1]=10.589542, nextPhis[ 1]=10.576024 <==IsSwitchingOccur() T = 13.745000 Tnext = 13.750000 Time: 1.37450e+01 states: [ -3.38184e+00 5.69492e-01] derivs: [ 5.70784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.750000 pESO->GetIndependentVar(): 13.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.576024, nextPhis[ 0]=-4.562431 prevPhis[ 1]=10.576024, nextPhis[ 1]=10.562431 <==IsSwitchingOccur() T = 13.750000 Tnext = 13.755000 Time: 1.37500e+01 states: [ -3.37897e+00 5.74492e-01] derivs: [ 5.75784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.755000 pESO->GetIndependentVar(): 13.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.562431, nextPhis[ 0]=-4.548764 prevPhis[ 1]=10.562431, nextPhis[ 1]=10.548764 <==IsSwitchingOccur() T = 13.755000 Tnext = 13.760000 Time: 1.37550e+01 states: [ -3.37609e+00 5.79492e-01] derivs: [ 5.80784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.760000 pESO->GetIndependentVar(): 13.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.548764, nextPhis[ 0]=-4.535021 prevPhis[ 1]=10.548764, nextPhis[ 1]=10.535021 <==IsSwitchingOccur() T = 13.760000 Tnext = 13.765000 Time: 1.37600e+01 states: [ -3.37317e+00 5.84492e-01] derivs: [ 5.85784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.765000 pESO->GetIndependentVar(): 13.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.535021, nextPhis[ 0]=-4.521203 prevPhis[ 1]=10.535021, nextPhis[ 1]=10.521203 <==IsSwitchingOccur() T = 13.765000 Tnext = 13.770000 Time: 1.37650e+01 states: [ -3.37023e+00 5.89492e-01] derivs: [ 5.90784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.770000 pESO->GetIndependentVar(): 13.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.521203, nextPhis[ 0]=-4.507310 prevPhis[ 1]=10.521203, nextPhis[ 1]=10.507310 <==IsSwitchingOccur() T = 13.770000 Tnext = 13.775000 Time: 1.37700e+01 states: [ -3.36727e+00 5.94492e-01] derivs: [ 5.95784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.775000 pESO->GetIndependentVar(): 13.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.507310, nextPhis[ 0]=-4.493343 prevPhis[ 1]=10.507310, nextPhis[ 1]=10.493343 <==IsSwitchingOccur() T = 13.775000 Tnext = 13.780000 Time: 1.37750e+01 states: [ -3.36428e+00 5.99492e-01] derivs: [ 6.00784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.780000 pESO->GetIndependentVar(): 13.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.493343, nextPhis[ 0]=-4.479300 prevPhis[ 1]=10.493343, nextPhis[ 1]=10.479300 <==IsSwitchingOccur() T = 13.780000 Tnext = 13.785000 Time: 1.37800e+01 states: [ -3.36126e+00 6.04492e-01] derivs: [ 6.05784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.785000 pESO->GetIndependentVar(): 13.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.479300, nextPhis[ 0]=-4.465182 prevPhis[ 1]=10.479300, nextPhis[ 1]=10.465182 <==IsSwitchingOccur() T = 13.785000 Tnext = 13.790000 Time: 1.37850e+01 states: [ -3.35822e+00 6.09492e-01] derivs: [ 6.10784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.790000 pESO->GetIndependentVar(): 13.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.465182, nextPhis[ 0]=-4.450989 prevPhis[ 1]=10.465182, nextPhis[ 1]=10.450989 <==IsSwitchingOccur() T = 13.790000 Tnext = 13.795000 Time: 1.37900e+01 states: [ -3.35516e+00 6.14492e-01] derivs: [ 6.15784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.795000 pESO->GetIndependentVar(): 13.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.450989, nextPhis[ 0]=-4.436721 prevPhis[ 1]=10.450989, nextPhis[ 1]=10.436721 <==IsSwitchingOccur() T = 13.795000 Tnext = 13.800000 Time: 1.37950e+01 states: [ -3.35207e+00 6.19492e-01] derivs: [ 6.20784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.800000 pESO->GetIndependentVar(): 13.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.436721, nextPhis[ 0]=-4.422379 prevPhis[ 1]=10.436721, nextPhis[ 1]=10.422379 <==IsSwitchingOccur() T = 13.800000 Tnext = 13.805000 Time: 1.38000e+01 states: [ -3.34896e+00 6.24492e-01] derivs: [ 6.25784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.805000 pESO->GetIndependentVar(): 13.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.422379, nextPhis[ 0]=-4.407961 prevPhis[ 1]=10.422379, nextPhis[ 1]=10.407961 <==IsSwitchingOccur() T = 13.805000 Tnext = 13.810000 Time: 1.38050e+01 states: [ -3.34582e+00 6.29492e-01] derivs: [ 6.30784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.810000 pESO->GetIndependentVar(): 13.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.407961, nextPhis[ 0]=-4.393468 prevPhis[ 1]=10.407961, nextPhis[ 1]=10.393468 <==IsSwitchingOccur() T = 13.810000 Tnext = 13.815000 Time: 1.38100e+01 states: [ -3.34265e+00 6.34492e-01] derivs: [ 6.35784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.815000 pESO->GetIndependentVar(): 13.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.393468, nextPhis[ 0]=-4.378900 prevPhis[ 1]=10.393468, nextPhis[ 1]=10.378900 <==IsSwitchingOccur() T = 13.815000 Tnext = 13.820000 Time: 1.38150e+01 states: [ -3.33946e+00 6.39492e-01] derivs: [ 6.40784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.820000 pESO->GetIndependentVar(): 13.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.378900, nextPhis[ 0]=-4.364258 prevPhis[ 1]=10.378900, nextPhis[ 1]=10.364258 <==IsSwitchingOccur() T = 13.820000 Tnext = 13.825000 Time: 1.38200e+01 states: [ -3.33625e+00 6.44492e-01] derivs: [ 6.45784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.825000 pESO->GetIndependentVar(): 13.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.364258, nextPhis[ 0]=-4.349540 prevPhis[ 1]=10.364258, nextPhis[ 1]=10.349540 <==IsSwitchingOccur() T = 13.825000 Tnext = 13.830000 Time: 1.38250e+01 states: [ -3.33301e+00 6.49492e-01] derivs: [ 6.50784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.830000 pESO->GetIndependentVar(): 13.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.349540, nextPhis[ 0]=-4.334747 prevPhis[ 1]=10.349540, nextPhis[ 1]=10.334747 <==IsSwitchingOccur() T = 13.830000 Tnext = 13.835000 Time: 1.38300e+01 states: [ -3.32975e+00 6.54492e-01] derivs: [ 6.55784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.835000 pESO->GetIndependentVar(): 13.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.334747, nextPhis[ 0]=-4.319879 prevPhis[ 1]=10.334747, nextPhis[ 1]=10.319879 <==IsSwitchingOccur() T = 13.835000 Tnext = 13.840000 Time: 1.38350e+01 states: [ -3.32646e+00 6.59492e-01] derivs: [ 6.60784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.840000 pESO->GetIndependentVar(): 13.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.319879, nextPhis[ 0]=-4.304936 prevPhis[ 1]=10.319879, nextPhis[ 1]=10.304936 <==IsSwitchingOccur() T = 13.840000 Tnext = 13.845000 Time: 1.38400e+01 states: [ -3.32314e+00 6.64492e-01] derivs: [ 6.65784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.845000 pESO->GetIndependentVar(): 13.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.304936, nextPhis[ 0]=-4.289919 prevPhis[ 1]=10.304936, nextPhis[ 1]=10.289919 <==IsSwitchingOccur() T = 13.845000 Tnext = 13.850000 Time: 1.38450e+01 states: [ -3.31980e+00 6.69492e-01] derivs: [ 6.70784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.850000 pESO->GetIndependentVar(): 13.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.289919, nextPhis[ 0]=-4.274826 prevPhis[ 1]=10.289919, nextPhis[ 1]=10.274826 <==IsSwitchingOccur() T = 13.850000 Tnext = 13.855000 Time: 1.38500e+01 states: [ -3.31644e+00 6.74492e-01] derivs: [ 6.75784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.855000 pESO->GetIndependentVar(): 13.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.274826, nextPhis[ 0]=-4.259658 prevPhis[ 1]=10.274826, nextPhis[ 1]=10.259658 <==IsSwitchingOccur() T = 13.855000 Tnext = 13.860000 Time: 1.38550e+01 states: [ -3.31305e+00 6.79492e-01] derivs: [ 6.80784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.860000 pESO->GetIndependentVar(): 13.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.259658, nextPhis[ 0]=-4.244415 prevPhis[ 1]=10.259658, nextPhis[ 1]=10.244415 <==IsSwitchingOccur() T = 13.860000 Tnext = 13.865000 Time: 1.38600e+01 states: [ -3.30964e+00 6.84492e-01] derivs: [ 6.85784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.865000 pESO->GetIndependentVar(): 13.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.244415, nextPhis[ 0]=-4.229098 prevPhis[ 1]=10.244415, nextPhis[ 1]=10.229098 <==IsSwitchingOccur() T = 13.865000 Tnext = 13.870000 Time: 1.38650e+01 states: [ -3.30620e+00 6.89492e-01] derivs: [ 6.90784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.870000 pESO->GetIndependentVar(): 13.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.229098, nextPhis[ 0]=-4.213705 prevPhis[ 1]=10.229098, nextPhis[ 1]=10.213705 <==IsSwitchingOccur() T = 13.870000 Tnext = 13.875000 Time: 1.38700e+01 states: [ -3.30273e+00 6.94492e-01] derivs: [ 6.95784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.875000 pESO->GetIndependentVar(): 13.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.213705, nextPhis[ 0]=-4.198237 prevPhis[ 1]=10.213705, nextPhis[ 1]=10.198237 <==IsSwitchingOccur() T = 13.875000 Tnext = 13.880000 Time: 1.38750e+01 states: [ -3.29924e+00 6.99492e-01] derivs: [ 7.00784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.880000 pESO->GetIndependentVar(): 13.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.198237, nextPhis[ 0]=-4.182694 prevPhis[ 1]=10.198237, nextPhis[ 1]=10.182694 <==IsSwitchingOccur() T = 13.880000 Tnext = 13.885000 Time: 1.38800e+01 states: [ -3.29573e+00 7.04492e-01] derivs: [ 7.05784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.885000 pESO->GetIndependentVar(): 13.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.182694, nextPhis[ 0]=-4.167076 prevPhis[ 1]=10.182694, nextPhis[ 1]=10.167076 <==IsSwitchingOccur() T = 13.885000 Tnext = 13.890000 Time: 1.38850e+01 states: [ -3.29219e+00 7.09492e-01] derivs: [ 7.10784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.890000 pESO->GetIndependentVar(): 13.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.167076, nextPhis[ 0]=-4.151384 prevPhis[ 1]=10.167076, nextPhis[ 1]=10.151384 <==IsSwitchingOccur() T = 13.890000 Tnext = 13.895000 Time: 1.38900e+01 states: [ -3.28863e+00 7.14492e-01] derivs: [ 7.15784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.895000 pESO->GetIndependentVar(): 13.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.151384, nextPhis[ 0]=-4.135616 prevPhis[ 1]=10.151384, nextPhis[ 1]=10.135616 <==IsSwitchingOccur() T = 13.895000 Tnext = 13.900000 Time: 1.38950e+01 states: [ -3.28504e+00 7.19492e-01] derivs: [ 7.20784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.900000 pESO->GetIndependentVar(): 13.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.135616, nextPhis[ 0]=-4.119773 prevPhis[ 1]=10.135616, nextPhis[ 1]=10.119773 <==IsSwitchingOccur() T = 13.900000 Tnext = 13.905000 Time: 1.39000e+01 states: [ -3.28142e+00 7.24492e-01] derivs: [ 7.25784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.905000 pESO->GetIndependentVar(): 13.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.119773, nextPhis[ 0]=-4.103855 prevPhis[ 1]=10.119773, nextPhis[ 1]=10.103855 <==IsSwitchingOccur() T = 13.905000 Tnext = 13.910000 Time: 1.39050e+01 states: [ -3.27778e+00 7.29492e-01] derivs: [ 7.30784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.910000 pESO->GetIndependentVar(): 13.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.103855, nextPhis[ 0]=-4.087863 prevPhis[ 1]=10.103855, nextPhis[ 1]=10.087863 <==IsSwitchingOccur() T = 13.910000 Tnext = 13.915000 Time: 1.39100e+01 states: [ -3.27412e+00 7.34492e-01] derivs: [ 7.35784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.915000 pESO->GetIndependentVar(): 13.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.087863, nextPhis[ 0]=-4.071795 prevPhis[ 1]=10.087863, nextPhis[ 1]=10.071795 <==IsSwitchingOccur() T = 13.915000 Tnext = 13.920000 Time: 1.39150e+01 states: [ -3.27043e+00 7.39492e-01] derivs: [ 7.40784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.920000 pESO->GetIndependentVar(): 13.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.071795, nextPhis[ 0]=-4.055652 prevPhis[ 1]=10.071795, nextPhis[ 1]=10.055652 <==IsSwitchingOccur() T = 13.920000 Tnext = 13.925000 Time: 1.39200e+01 states: [ -3.26671e+00 7.44492e-01] derivs: [ 7.45784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.925000 pESO->GetIndependentVar(): 13.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.055652, nextPhis[ 0]=-4.039434 prevPhis[ 1]=10.055652, nextPhis[ 1]=10.039434 <==IsSwitchingOccur() T = 13.925000 Tnext = 13.930000 Time: 1.39250e+01 states: [ -3.26298e+00 7.49492e-01] derivs: [ 7.50784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.930000 pESO->GetIndependentVar(): 13.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.039434, nextPhis[ 0]=-4.023141 prevPhis[ 1]=10.039434, nextPhis[ 1]=10.023141 <==IsSwitchingOccur() T = 13.930000 Tnext = 13.935000 Time: 1.39300e+01 states: [ -3.25921e+00 7.54492e-01] derivs: [ 7.55784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.935000 pESO->GetIndependentVar(): 13.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.023141, nextPhis[ 0]=-4.006774 prevPhis[ 1]=10.023141, nextPhis[ 1]=10.006774 <==IsSwitchingOccur() T = 13.935000 Tnext = 13.940000 Time: 1.39350e+01 states: [ -3.25542e+00 7.59492e-01] derivs: [ 7.60784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.940000 pESO->GetIndependentVar(): 13.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.006774, nextPhis[ 0]=-3.990331 prevPhis[ 1]=10.006774, nextPhis[ 1]=9.990331 <==IsSwitchingOccur() T = 13.940000 Tnext = 13.945000 Time: 1.39400e+01 states: [ -3.25161e+00 7.64492e-01] derivs: [ 7.65784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.945000 pESO->GetIndependentVar(): 13.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.990331, nextPhis[ 0]=-3.973813 prevPhis[ 1]=9.990331, nextPhis[ 1]=9.973813 <==IsSwitchingOccur() T = 13.945000 Tnext = 13.950000 Time: 1.39450e+01 states: [ -3.24777e+00 7.69492e-01] derivs: [ 7.70784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.950000 pESO->GetIndependentVar(): 13.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.973813, nextPhis[ 0]=-3.957220 prevPhis[ 1]=9.973813, nextPhis[ 1]=9.957220 <==IsSwitchingOccur() T = 13.950000 Tnext = 13.955000 Time: 1.39500e+01 states: [ -3.24390e+00 7.74492e-01] derivs: [ 7.75784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.955000 pESO->GetIndependentVar(): 13.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.957220, nextPhis[ 0]=-3.940553 prevPhis[ 1]=9.957220, nextPhis[ 1]=9.940553 <==IsSwitchingOccur() T = 13.955000 Tnext = 13.960000 Time: 1.39550e+01 states: [ -3.24001e+00 7.79492e-01] derivs: [ 7.80784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.960000 pESO->GetIndependentVar(): 13.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.940553, nextPhis[ 0]=-3.923810 prevPhis[ 1]=9.940553, nextPhis[ 1]=9.923810 <==IsSwitchingOccur() T = 13.960000 Tnext = 13.965000 Time: 1.39600e+01 states: [ -3.23610e+00 7.84492e-01] derivs: [ 7.85784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.965000 pESO->GetIndependentVar(): 13.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.923810, nextPhis[ 0]=-3.906992 prevPhis[ 1]=9.923810, nextPhis[ 1]=9.906992 <==IsSwitchingOccur() T = 13.965000 Tnext = 13.970000 Time: 1.39650e+01 states: [ -3.23216e+00 7.89492e-01] derivs: [ 7.90784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.970000 pESO->GetIndependentVar(): 13.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.906992, nextPhis[ 0]=-3.890099 prevPhis[ 1]=9.906992, nextPhis[ 1]=9.890099 <==IsSwitchingOccur() T = 13.970000 Tnext = 13.975000 Time: 1.39700e+01 states: [ -3.22820e+00 7.94492e-01] derivs: [ 7.95784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.975000 pESO->GetIndependentVar(): 13.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.890099, nextPhis[ 0]=-3.873132 prevPhis[ 1]=9.890099, nextPhis[ 1]=9.873132 <==IsSwitchingOccur() T = 13.975000 Tnext = 13.980000 Time: 1.39750e+01 states: [ -3.22421e+00 7.99492e-01] derivs: [ 8.00784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.980000 pESO->GetIndependentVar(): 13.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.873132, nextPhis[ 0]=-3.856089 prevPhis[ 1]=9.873132, nextPhis[ 1]=9.856089 <==IsSwitchingOccur() T = 13.980000 Tnext = 13.985000 Time: 1.39800e+01 states: [ -3.22019e+00 8.04492e-01] derivs: [ 8.05784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.985000 pESO->GetIndependentVar(): 13.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.856089, nextPhis[ 0]=-3.838971 prevPhis[ 1]=9.856089, nextPhis[ 1]=9.838971 <==IsSwitchingOccur() T = 13.985000 Tnext = 13.990000 Time: 1.39850e+01 states: [ -3.21615e+00 8.09492e-01] derivs: [ 8.10784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.990000 pESO->GetIndependentVar(): 13.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.838971, nextPhis[ 0]=-3.821778 prevPhis[ 1]=9.838971, nextPhis[ 1]=9.821778 <==IsSwitchingOccur() T = 13.990000 Tnext = 13.995000 Time: 1.39900e+01 states: [ -3.21209e+00 8.14492e-01] derivs: [ 8.15784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 13.995000 pESO->GetIndependentVar(): 13.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.821778, nextPhis[ 0]=-3.804510 prevPhis[ 1]=9.821778, nextPhis[ 1]=9.804510 <==IsSwitchingOccur() T = 13.995000 Tnext = 14.000000 Time: 1.39950e+01 states: [ -3.20800e+00 8.19492e-01] derivs: [ 8.20784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.000000 pESO->GetIndependentVar(): 14.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.804510, nextPhis[ 0]=-3.787168 prevPhis[ 1]=9.804510, nextPhis[ 1]=9.787168 <==IsSwitchingOccur() T = 14.000000 Tnext = 14.005000 Time: 1.40000e+01 states: [ -3.20389e+00 8.24492e-01] derivs: [ 8.25784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.005000 pESO->GetIndependentVar(): 14.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.787168, nextPhis[ 0]=-3.769750 prevPhis[ 1]=9.787168, nextPhis[ 1]=9.769750 <==IsSwitchingOccur() T = 14.005000 Tnext = 14.010000 Time: 1.40050e+01 states: [ -3.19975e+00 8.29492e-01] derivs: [ 8.30784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.010000 pESO->GetIndependentVar(): 14.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.769750, nextPhis[ 0]=-3.752257 prevPhis[ 1]=9.769750, nextPhis[ 1]=9.752257 <==IsSwitchingOccur() T = 14.010000 Tnext = 14.015000 Time: 1.40100e+01 states: [ -3.19558e+00 8.34492e-01] derivs: [ 8.35784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.015000 pESO->GetIndependentVar(): 14.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.752257, nextPhis[ 0]=-3.734689 prevPhis[ 1]=9.752257, nextPhis[ 1]=9.734689 <==IsSwitchingOccur() T = 14.015000 Tnext = 14.020000 Time: 1.40150e+01 states: [ -3.19139e+00 8.39492e-01] derivs: [ 8.40784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.020000 pESO->GetIndependentVar(): 14.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.734689, nextPhis[ 0]=-3.717047 prevPhis[ 1]=9.734689, nextPhis[ 1]=9.717047 <==IsSwitchingOccur() T = 14.020000 Tnext = 14.025000 Time: 1.40200e+01 states: [ -3.18718e+00 8.44492e-01] derivs: [ 8.45784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.025000 pESO->GetIndependentVar(): 14.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.717047, nextPhis[ 0]=-3.699329 prevPhis[ 1]=9.717047, nextPhis[ 1]=9.699329 <==IsSwitchingOccur() T = 14.025000 Tnext = 14.030000 Time: 1.40250e+01 states: [ -3.18294e+00 8.49492e-01] derivs: [ 8.50784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.030000 pESO->GetIndependentVar(): 14.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.699329, nextPhis[ 0]=-3.681536 prevPhis[ 1]=9.699329, nextPhis[ 1]=9.681536 <==IsSwitchingOccur() T = 14.030000 Tnext = 14.035000 Time: 1.40300e+01 states: [ -3.17868e+00 8.54492e-01] derivs: [ 8.55784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.035000 pESO->GetIndependentVar(): 14.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.681536, nextPhis[ 0]=-3.663668 prevPhis[ 1]=9.681536, nextPhis[ 1]=9.663668 <==IsSwitchingOccur() T = 14.035000 Tnext = 14.040000 Time: 1.40350e+01 states: [ -3.17439e+00 8.59492e-01] derivs: [ 8.60784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.040000 pESO->GetIndependentVar(): 14.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.663668, nextPhis[ 0]=-3.645725 prevPhis[ 1]=9.663668, nextPhis[ 1]=9.645725 <==IsSwitchingOccur() T = 14.040000 Tnext = 14.045000 Time: 1.40400e+01 states: [ -3.17007e+00 8.64492e-01] derivs: [ 8.65784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.045000 pESO->GetIndependentVar(): 14.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.645725, nextPhis[ 0]=-3.627708 prevPhis[ 1]=9.645725, nextPhis[ 1]=9.627708 <==IsSwitchingOccur() T = 14.045000 Tnext = 14.050000 Time: 1.40450e+01 states: [ -3.16573e+00 8.69492e-01] derivs: [ 8.70784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.050000 pESO->GetIndependentVar(): 14.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.627708, nextPhis[ 0]=-3.609615 prevPhis[ 1]=9.627708, nextPhis[ 1]=9.609615 <==IsSwitchingOccur() T = 14.050000 Tnext = 14.055000 Time: 1.40500e+01 states: [ -3.16137e+00 8.74492e-01] derivs: [ 8.75784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.055000 pESO->GetIndependentVar(): 14.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.609615, nextPhis[ 0]=-3.591447 prevPhis[ 1]=9.609615, nextPhis[ 1]=9.591447 <==IsSwitchingOccur() T = 14.055000 Tnext = 14.060000 Time: 1.40550e+01 states: [ -3.15698e+00 8.79492e-01] derivs: [ 8.80784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.060000 pESO->GetIndependentVar(): 14.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.591447, nextPhis[ 0]=-3.573204 prevPhis[ 1]=9.591447, nextPhis[ 1]=9.573204 <==IsSwitchingOccur() T = 14.060000 Tnext = 14.065000 Time: 1.40600e+01 states: [ -3.15257e+00 8.84492e-01] derivs: [ 8.85784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.065000 pESO->GetIndependentVar(): 14.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.573204, nextPhis[ 0]=-3.554887 prevPhis[ 1]=9.573204, nextPhis[ 1]=9.554887 <==IsSwitchingOccur() T = 14.065000 Tnext = 14.070000 Time: 1.40650e+01 states: [ -3.14813e+00 8.89492e-01] derivs: [ 8.90784e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.070000 pESO->GetIndependentVar(): 14.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.554887, nextPhis[ 0]=-3.536496 prevPhis[ 1]=9.554887, nextPhis[ 1]=9.536496 <==IsSwitchingOccur() T = 14.070000 Tnext = 14.075000 Time: 1.40700e+01 states: [ -3.14366e+00 8.94492e-01] derivs: [ 8.94735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.075000 pESO->GetIndependentVar(): 14.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.536496, nextPhis[ 0]=-3.518031 prevPhis[ 1]=9.536496, nextPhis[ 1]=9.518031 <==IsSwitchingOccur() T = 14.075000 Tnext = 14.080000 Time: 1.40750e+01 states: [ -3.13917e+00 8.99492e-01] derivs: [ 8.99735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.080000 pESO->GetIndependentVar(): 14.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.518031, nextPhis[ 0]=-3.499491 prevPhis[ 1]=9.518031, nextPhis[ 1]=9.499491 <==IsSwitchingOccur() T = 14.080000 Tnext = 14.085000 Time: 1.40800e+01 states: [ -3.13466e+00 9.04492e-01] derivs: [ 9.04735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.085000 pESO->GetIndependentVar(): 14.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.499491, nextPhis[ 0]=-3.480876 prevPhis[ 1]=9.499491, nextPhis[ 1]=9.480876 <==IsSwitchingOccur() T = 14.085000 Tnext = 14.090000 Time: 1.40850e+01 states: [ -3.13012e+00 9.09492e-01] derivs: [ 9.09735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.090000 pESO->GetIndependentVar(): 14.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.480876, nextPhis[ 0]=-3.462185 prevPhis[ 1]=9.480876, nextPhis[ 1]=9.462185 <==IsSwitchingOccur() T = 14.090000 Tnext = 14.095000 Time: 1.40900e+01 states: [ -3.12556e+00 9.14492e-01] derivs: [ 9.14735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.095000 pESO->GetIndependentVar(): 14.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.462185, nextPhis[ 0]=-3.443420 prevPhis[ 1]=9.462185, nextPhis[ 1]=9.443420 <==IsSwitchingOccur() T = 14.095000 Tnext = 14.100000 Time: 1.40950e+01 states: [ -3.12097e+00 9.19492e-01] derivs: [ 9.19735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.100000 pESO->GetIndependentVar(): 14.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.443420, nextPhis[ 0]=-3.424580 prevPhis[ 1]=9.443420, nextPhis[ 1]=9.424580 <==IsSwitchingOccur() T = 14.100000 Tnext = 14.105000 Time: 1.41000e+01 states: [ -3.11636e+00 9.24492e-01] derivs: [ 9.24735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.105000 pESO->GetIndependentVar(): 14.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.424580, nextPhis[ 0]=-3.405665 prevPhis[ 1]=9.424580, nextPhis[ 1]=9.405665 <==IsSwitchingOccur() T = 14.105000 Tnext = 14.110000 Time: 1.41050e+01 states: [ -3.11172e+00 9.29492e-01] derivs: [ 9.29735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.110000 pESO->GetIndependentVar(): 14.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.405665, nextPhis[ 0]=-3.386674 prevPhis[ 1]=9.405665, nextPhis[ 1]=9.386674 <==IsSwitchingOccur() T = 14.110000 Tnext = 14.115000 Time: 1.41100e+01 states: [ -3.10706e+00 9.34492e-01] derivs: [ 9.34735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.115000 pESO->GetIndependentVar(): 14.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.386674, nextPhis[ 0]=-3.367609 prevPhis[ 1]=9.386674, nextPhis[ 1]=9.367609 <==IsSwitchingOccur() T = 14.115000 Tnext = 14.120000 Time: 1.41150e+01 states: [ -3.10237e+00 9.39492e-01] derivs: [ 9.39735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.120000 pESO->GetIndependentVar(): 14.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.367609, nextPhis[ 0]=-3.348469 prevPhis[ 1]=9.367609, nextPhis[ 1]=9.348469 <==IsSwitchingOccur() T = 14.120000 Tnext = 14.125000 Time: 1.41200e+01 states: [ -3.09765e+00 9.44492e-01] derivs: [ 9.44735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.125000 pESO->GetIndependentVar(): 14.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.348469, nextPhis[ 0]=-3.329254 prevPhis[ 1]=9.348469, nextPhis[ 1]=9.329254 <==IsSwitchingOccur() T = 14.125000 Tnext = 14.130000 Time: 1.41250e+01 states: [ -3.09292e+00 9.49492e-01] derivs: [ 9.49735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.130000 pESO->GetIndependentVar(): 14.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.329254, nextPhis[ 0]=-3.309963 prevPhis[ 1]=9.329254, nextPhis[ 1]=9.309963 <==IsSwitchingOccur() T = 14.130000 Tnext = 14.135000 Time: 1.41300e+01 states: [ -3.08815e+00 9.54492e-01] derivs: [ 9.54735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.135000 pESO->GetIndependentVar(): 14.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.309963, nextPhis[ 0]=-3.290598 prevPhis[ 1]=9.309963, nextPhis[ 1]=9.290598 <==IsSwitchingOccur() T = 14.135000 Tnext = 14.140000 Time: 1.41350e+01 states: [ -3.08336e+00 9.59492e-01] derivs: [ 9.59735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.140000 pESO->GetIndependentVar(): 14.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.290598, nextPhis[ 0]=-3.271158 prevPhis[ 1]=9.290598, nextPhis[ 1]=9.271158 <==IsSwitchingOccur() T = 14.140000 Tnext = 14.145000 Time: 1.41400e+01 states: [ -3.07855e+00 9.64492e-01] derivs: [ 9.64735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.145000 pESO->GetIndependentVar(): 14.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.271158, nextPhis[ 0]=-3.251643 prevPhis[ 1]=9.271158, nextPhis[ 1]=9.251643 <==IsSwitchingOccur() T = 14.145000 Tnext = 14.150000 Time: 1.41450e+01 states: [ -3.07371e+00 9.69492e-01] derivs: [ 9.69735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.150000 pESO->GetIndependentVar(): 14.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.251643, nextPhis[ 0]=-3.232052 prevPhis[ 1]=9.251643, nextPhis[ 1]=9.232052 <==IsSwitchingOccur() T = 14.150000 Tnext = 14.155000 Time: 1.41500e+01 states: [ -3.06885e+00 9.74492e-01] derivs: [ 9.74735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.155000 pESO->GetIndependentVar(): 14.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.232052, nextPhis[ 0]=-3.212387 prevPhis[ 1]=9.232052, nextPhis[ 1]=9.212387 <==IsSwitchingOccur() T = 14.155000 Tnext = 14.160000 Time: 1.41550e+01 states: [ -3.06396e+00 9.79492e-01] derivs: [ 9.79735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.160000 pESO->GetIndependentVar(): 14.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.212387, nextPhis[ 0]=-3.192647 prevPhis[ 1]=9.212387, nextPhis[ 1]=9.192647 <==IsSwitchingOccur() T = 14.160000 Tnext = 14.165000 Time: 1.41600e+01 states: [ -3.05905e+00 9.84492e-01] derivs: [ 9.84735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.165000 pESO->GetIndependentVar(): 14.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.192647, nextPhis[ 0]=-3.172832 prevPhis[ 1]=9.192647, nextPhis[ 1]=9.172832 <==IsSwitchingOccur() T = 14.165000 Tnext = 14.170000 Time: 1.41650e+01 states: [ -3.05411e+00 9.89492e-01] derivs: [ 9.89735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.170000 pESO->GetIndependentVar(): 14.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.172832, nextPhis[ 0]=-3.152941 prevPhis[ 1]=9.172832, nextPhis[ 1]=9.152941 <==IsSwitchingOccur() T = 14.170000 Tnext = 14.175000 Time: 1.41700e+01 states: [ -3.04914e+00 9.94492e-01] derivs: [ 9.94735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.175000 pESO->GetIndependentVar(): 14.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.152941, nextPhis[ 0]=-3.132976 prevPhis[ 1]=9.152941, nextPhis[ 1]=9.132976 <==IsSwitchingOccur() T = 14.175000 Tnext = 14.180000 Time: 1.41750e+01 states: [ -3.04416e+00 9.99492e-01] derivs: [ 9.99735e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.180000 pESO->GetIndependentVar(): 14.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.132976, nextPhis[ 0]=-3.112936 prevPhis[ 1]=9.132976, nextPhis[ 1]=9.112936 <==IsSwitchingOccur() T = 14.180000 Tnext = 14.185000 Time: 1.41800e+01 states: [ -3.03914e+00 1.00449e+00] derivs: [ 1.00474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.185000 pESO->GetIndependentVar(): 14.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.112936, nextPhis[ 0]=-3.092821 prevPhis[ 1]=9.112936, nextPhis[ 1]=9.092821 <==IsSwitchingOccur() T = 14.185000 Tnext = 14.190000 Time: 1.41850e+01 states: [ -3.03410e+00 1.00949e+00] derivs: [ 1.00974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.190000 pESO->GetIndependentVar(): 14.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.092821, nextPhis[ 0]=-3.072631 prevPhis[ 1]=9.092821, nextPhis[ 1]=9.072631 <==IsSwitchingOccur() T = 14.190000 Tnext = 14.195000 Time: 1.41900e+01 states: [ -3.02904e+00 1.01449e+00] derivs: [ 1.01474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.195000 pESO->GetIndependentVar(): 14.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.072631, nextPhis[ 0]=-3.052365 prevPhis[ 1]=9.072631, nextPhis[ 1]=9.052365 <==IsSwitchingOccur() T = 14.195000 Tnext = 14.200000 Time: 1.41950e+01 states: [ -3.02395e+00 1.01949e+00] derivs: [ 1.01974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.200000 pESO->GetIndependentVar(): 14.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.052365, nextPhis[ 0]=-3.032025 prevPhis[ 1]=9.052365, nextPhis[ 1]=9.032025 <==IsSwitchingOccur() T = 14.200000 Tnext = 14.205000 Time: 1.42000e+01 states: [ -3.01884e+00 1.02449e+00] derivs: [ 1.02474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.205000 pESO->GetIndependentVar(): 14.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.032025, nextPhis[ 0]=-3.011610 prevPhis[ 1]=9.032025, nextPhis[ 1]=9.011610 <==IsSwitchingOccur() T = 14.205000 Tnext = 14.210000 Time: 1.42050e+01 states: [ -3.01370e+00 1.02949e+00] derivs: [ 1.02974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.210000 pESO->GetIndependentVar(): 14.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.011610, nextPhis[ 0]=-2.991120 prevPhis[ 1]=9.011610, nextPhis[ 1]=8.991120 <==IsSwitchingOccur() T = 14.210000 Tnext = 14.215000 Time: 1.42100e+01 states: [ -3.00854e+00 1.03449e+00] derivs: [ 1.03474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.215000 pESO->GetIndependentVar(): 14.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.991120, nextPhis[ 0]=-2.970554 prevPhis[ 1]=8.991120, nextPhis[ 1]=8.970554 <==IsSwitchingOccur() T = 14.215000 Tnext = 14.220000 Time: 1.42150e+01 states: [ -3.00335e+00 1.03949e+00] derivs: [ 1.03974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.220000 pESO->GetIndependentVar(): 14.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.970554, nextPhis[ 0]=-2.949914 prevPhis[ 1]=8.970554, nextPhis[ 1]=8.949914 <==IsSwitchingOccur() T = 14.220000 Tnext = 14.225000 Time: 1.42200e+01 states: [ -2.99814e+00 1.04449e+00] derivs: [ 1.04474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.225000 pESO->GetIndependentVar(): 14.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.949914, nextPhis[ 0]=-2.929199 prevPhis[ 1]=8.949914, nextPhis[ 1]=8.929199 <==IsSwitchingOccur() T = 14.225000 Tnext = 14.230000 Time: 1.42250e+01 states: [ -2.99290e+00 1.04949e+00] derivs: [ 1.04974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.230000 pESO->GetIndependentVar(): 14.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.929199, nextPhis[ 0]=-2.908409 prevPhis[ 1]=8.929199, nextPhis[ 1]=8.908409 <==IsSwitchingOccur() T = 14.230000 Tnext = 14.235000 Time: 1.42300e+01 states: [ -2.98763e+00 1.05449e+00] derivs: [ 1.05474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.235000 pESO->GetIndependentVar(): 14.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.908409, nextPhis[ 0]=-2.887543 prevPhis[ 1]=8.908409, nextPhis[ 1]=8.887543 <==IsSwitchingOccur() T = 14.235000 Tnext = 14.240000 Time: 1.42350e+01 states: [ -2.98235e+00 1.05949e+00] derivs: [ 1.05974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.240000 pESO->GetIndependentVar(): 14.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.887543, nextPhis[ 0]=-2.866603 prevPhis[ 1]=8.887543, nextPhis[ 1]=8.866603 <==IsSwitchingOccur() T = 14.240000 Tnext = 14.245000 Time: 1.42400e+01 states: [ -2.97703e+00 1.06449e+00] derivs: [ 1.06474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.245000 pESO->GetIndependentVar(): 14.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.866603, nextPhis[ 0]=-2.845588 prevPhis[ 1]=8.866603, nextPhis[ 1]=8.845588 <==IsSwitchingOccur() T = 14.245000 Tnext = 14.250000 Time: 1.42450e+01 states: [ -2.97169e+00 1.06949e+00] derivs: [ 1.06974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.250000 pESO->GetIndependentVar(): 14.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.845588, nextPhis[ 0]=-2.824498 prevPhis[ 1]=8.845588, nextPhis[ 1]=8.824498 <==IsSwitchingOccur() T = 14.250000 Tnext = 14.255000 Time: 1.42500e+01 states: [ -2.96633e+00 1.07449e+00] derivs: [ 1.07474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.255000 pESO->GetIndependentVar(): 14.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.824498, nextPhis[ 0]=-2.803332 prevPhis[ 1]=8.824498, nextPhis[ 1]=8.803332 <==IsSwitchingOccur() T = 14.255000 Tnext = 14.260000 Time: 1.42550e+01 states: [ -2.96094e+00 1.07949e+00] derivs: [ 1.07974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.260000 pESO->GetIndependentVar(): 14.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.803332, nextPhis[ 0]=-2.782092 prevPhis[ 1]=8.803332, nextPhis[ 1]=8.782092 <==IsSwitchingOccur() T = 14.260000 Tnext = 14.265000 Time: 1.42600e+01 states: [ -2.95553e+00 1.08449e+00] derivs: [ 1.08474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.265000 pESO->GetIndependentVar(): 14.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.782092, nextPhis[ 0]=-2.760777 prevPhis[ 1]=8.782092, nextPhis[ 1]=8.760777 <==IsSwitchingOccur() T = 14.265000 Tnext = 14.270000 Time: 1.42650e+01 states: [ -2.95009e+00 1.08949e+00] derivs: [ 1.08974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.270000 pESO->GetIndependentVar(): 14.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.760777, nextPhis[ 0]=-2.739387 prevPhis[ 1]=8.760777, nextPhis[ 1]=8.739387 <==IsSwitchingOccur() T = 14.270000 Tnext = 14.275000 Time: 1.42700e+01 states: [ -2.94463e+00 1.09449e+00] derivs: [ 1.09474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.275000 pESO->GetIndependentVar(): 14.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.739387, nextPhis[ 0]=-2.717921 prevPhis[ 1]=8.739387, nextPhis[ 1]=8.717921 <==IsSwitchingOccur() T = 14.275000 Tnext = 14.280000 Time: 1.42750e+01 states: [ -2.93914e+00 1.09949e+00] derivs: [ 1.09974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.280000 pESO->GetIndependentVar(): 14.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.717921, nextPhis[ 0]=-2.696381 prevPhis[ 1]=8.717921, nextPhis[ 1]=8.696381 <==IsSwitchingOccur() T = 14.280000 Tnext = 14.285000 Time: 1.42800e+01 states: [ -2.93362e+00 1.10449e+00] derivs: [ 1.10474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.285000 pESO->GetIndependentVar(): 14.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.696381, nextPhis[ 0]=-2.674766 prevPhis[ 1]=8.696381, nextPhis[ 1]=8.674766 <==IsSwitchingOccur() T = 14.285000 Tnext = 14.290000 Time: 1.42850e+01 states: [ -2.92809e+00 1.10949e+00] derivs: [ 1.10974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.290000 pESO->GetIndependentVar(): 14.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.674766, nextPhis[ 0]=-2.653076 prevPhis[ 1]=8.674766, nextPhis[ 1]=8.653076 <==IsSwitchingOccur() T = 14.290000 Tnext = 14.295000 Time: 1.42900e+01 states: [ -2.92252e+00 1.11449e+00] derivs: [ 1.11474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.295000 pESO->GetIndependentVar(): 14.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.653076, nextPhis[ 0]=-2.631310 prevPhis[ 1]=8.653076, nextPhis[ 1]=8.631310 <==IsSwitchingOccur() T = 14.295000 Tnext = 14.300000 Time: 1.42950e+01 states: [ -2.91693e+00 1.11949e+00] derivs: [ 1.11974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.300000 pESO->GetIndependentVar(): 14.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.631310, nextPhis[ 0]=-2.609470 prevPhis[ 1]=8.631310, nextPhis[ 1]=8.609470 <==IsSwitchingOccur() T = 14.300000 Tnext = 14.305000 Time: 1.43000e+01 states: [ -2.91132e+00 1.12449e+00] derivs: [ 1.12474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.305000 pESO->GetIndependentVar(): 14.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.609470, nextPhis[ 0]=-2.587555 prevPhis[ 1]=8.609470, nextPhis[ 1]=8.587555 <==IsSwitchingOccur() T = 14.305000 Tnext = 14.310000 Time: 1.43050e+01 states: [ -2.90568e+00 1.12949e+00] derivs: [ 1.12974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.310000 pESO->GetIndependentVar(): 14.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.587555, nextPhis[ 0]=-2.565565 prevPhis[ 1]=8.587555, nextPhis[ 1]=8.565565 <==IsSwitchingOccur() T = 14.310000 Tnext = 14.315000 Time: 1.43100e+01 states: [ -2.90002e+00 1.13449e+00] derivs: [ 1.13474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.315000 pESO->GetIndependentVar(): 14.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.565565, nextPhis[ 0]=-2.543500 prevPhis[ 1]=8.565565, nextPhis[ 1]=8.543500 <==IsSwitchingOccur() T = 14.315000 Tnext = 14.320000 Time: 1.43150e+01 states: [ -2.89433e+00 1.13949e+00] derivs: [ 1.13974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.320000 pESO->GetIndependentVar(): 14.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.543500, nextPhis[ 0]=-2.521359 prevPhis[ 1]=8.543500, nextPhis[ 1]=8.521359 <==IsSwitchingOccur() T = 14.320000 Tnext = 14.325000 Time: 1.43200e+01 states: [ -2.88862e+00 1.14449e+00] derivs: [ 1.14474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.325000 pESO->GetIndependentVar(): 14.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.521359, nextPhis[ 0]=-2.499144 prevPhis[ 1]=8.521359, nextPhis[ 1]=8.499144 <==IsSwitchingOccur() T = 14.325000 Tnext = 14.330000 Time: 1.43250e+01 states: [ -2.88288e+00 1.14949e+00] derivs: [ 1.14974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.330000 pESO->GetIndependentVar(): 14.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.499144, nextPhis[ 0]=-2.476854 prevPhis[ 1]=8.499144, nextPhis[ 1]=8.476854 <==IsSwitchingOccur() T = 14.330000 Tnext = 14.335000 Time: 1.43300e+01 states: [ -2.87712e+00 1.15449e+00] derivs: [ 1.15474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.335000 pESO->GetIndependentVar(): 14.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.476854, nextPhis[ 0]=-2.454489 prevPhis[ 1]=8.476854, nextPhis[ 1]=8.454489 <==IsSwitchingOccur() T = 14.335000 Tnext = 14.340000 Time: 1.43350e+01 states: [ -2.87133e+00 1.15949e+00] derivs: [ 1.15974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.340000 pESO->GetIndependentVar(): 14.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.454489, nextPhis[ 0]=-2.432048 prevPhis[ 1]=8.454489, nextPhis[ 1]=8.432048 <==IsSwitchingOccur() T = 14.340000 Tnext = 14.345000 Time: 1.43400e+01 states: [ -2.86551e+00 1.16449e+00] derivs: [ 1.16474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.345000 pESO->GetIndependentVar(): 14.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.432048, nextPhis[ 0]=-2.409533 prevPhis[ 1]=8.432048, nextPhis[ 1]=8.409533 <==IsSwitchingOccur() T = 14.345000 Tnext = 14.350000 Time: 1.43450e+01 states: [ -2.85968e+00 1.16949e+00] derivs: [ 1.16974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.350000 pESO->GetIndependentVar(): 14.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.409533, nextPhis[ 0]=-2.386943 prevPhis[ 1]=8.409533, nextPhis[ 1]=8.386943 <==IsSwitchingOccur() T = 14.350000 Tnext = 14.355000 Time: 1.43500e+01 states: [ -2.85381e+00 1.17449e+00] derivs: [ 1.17474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.355000 pESO->GetIndependentVar(): 14.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.386943, nextPhis[ 0]=-2.364278 prevPhis[ 1]=8.386943, nextPhis[ 1]=8.364278 <==IsSwitchingOccur() T = 14.355000 Tnext = 14.360000 Time: 1.43550e+01 states: [ -2.84792e+00 1.17949e+00] derivs: [ 1.17974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.360000 pESO->GetIndependentVar(): 14.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.364278, nextPhis[ 0]=-2.341537 prevPhis[ 1]=8.364278, nextPhis[ 1]=8.341537 <==IsSwitchingOccur() T = 14.360000 Tnext = 14.365000 Time: 1.43600e+01 states: [ -2.84201e+00 1.18449e+00] derivs: [ 1.18474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.365000 pESO->GetIndependentVar(): 14.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.341537, nextPhis[ 0]=-2.318722 prevPhis[ 1]=8.341537, nextPhis[ 1]=8.318722 <==IsSwitchingOccur() T = 14.365000 Tnext = 14.370000 Time: 1.43650e+01 states: [ -2.83607e+00 1.18949e+00] derivs: [ 1.18974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.370000 pESO->GetIndependentVar(): 14.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.318722, nextPhis[ 0]=-2.295832 prevPhis[ 1]=8.318722, nextPhis[ 1]=8.295832 <==IsSwitchingOccur() T = 14.370000 Tnext = 14.375000 Time: 1.43700e+01 states: [ -2.83011e+00 1.19449e+00] derivs: [ 1.19474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.375000 pESO->GetIndependentVar(): 14.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.295832, nextPhis[ 0]=-2.272867 prevPhis[ 1]=8.295832, nextPhis[ 1]=8.272867 <==IsSwitchingOccur() T = 14.375000 Tnext = 14.380000 Time: 1.43750e+01 states: [ -2.82412e+00 1.19949e+00] derivs: [ 1.19974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.380000 pESO->GetIndependentVar(): 14.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.272867, nextPhis[ 0]=-2.249826 prevPhis[ 1]=8.272867, nextPhis[ 1]=8.249826 <==IsSwitchingOccur() T = 14.380000 Tnext = 14.385000 Time: 1.43800e+01 states: [ -2.81811e+00 1.20449e+00] derivs: [ 1.20474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.385000 pESO->GetIndependentVar(): 14.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.249826, nextPhis[ 0]=-2.226711 prevPhis[ 1]=8.249826, nextPhis[ 1]=8.226711 <==IsSwitchingOccur() T = 14.385000 Tnext = 14.390000 Time: 1.43850e+01 states: [ -2.81207e+00 1.20949e+00] derivs: [ 1.20974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.390000 pESO->GetIndependentVar(): 14.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.226711, nextPhis[ 0]=-2.203521 prevPhis[ 1]=8.226711, nextPhis[ 1]=8.203521 <==IsSwitchingOccur() T = 14.390000 Tnext = 14.395000 Time: 1.43900e+01 states: [ -2.80600e+00 1.21449e+00] derivs: [ 1.21474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.395000 pESO->GetIndependentVar(): 14.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.203521, nextPhis[ 0]=-2.180256 prevPhis[ 1]=8.203521, nextPhis[ 1]=8.180256 <==IsSwitchingOccur() T = 14.395000 Tnext = 14.400000 Time: 1.43950e+01 states: [ -2.79992e+00 1.21949e+00] derivs: [ 1.21974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.400000 pESO->GetIndependentVar(): 14.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.180256, nextPhis[ 0]=-2.156915 prevPhis[ 1]=8.180256, nextPhis[ 1]=8.156915 <==IsSwitchingOccur() T = 14.400000 Tnext = 14.405000 Time: 1.44000e+01 states: [ -2.79380e+00 1.22449e+00] derivs: [ 1.22474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.405000 pESO->GetIndependentVar(): 14.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.156915, nextPhis[ 0]=-2.133500 prevPhis[ 1]=8.156915, nextPhis[ 1]=8.133500 <==IsSwitchingOccur() T = 14.405000 Tnext = 14.410000 Time: 1.44050e+01 states: [ -2.78766e+00 1.22949e+00] derivs: [ 1.22974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.410000 pESO->GetIndependentVar(): 14.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.133500, nextPhis[ 0]=-2.110010 prevPhis[ 1]=8.133500, nextPhis[ 1]=8.110010 <==IsSwitchingOccur() T = 14.410000 Tnext = 14.415000 Time: 1.44100e+01 states: [ -2.78150e+00 1.23449e+00] derivs: [ 1.23474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.415000 pESO->GetIndependentVar(): 14.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.110010, nextPhis[ 0]=-2.086445 prevPhis[ 1]=8.110010, nextPhis[ 1]=8.086445 <==IsSwitchingOccur() T = 14.415000 Tnext = 14.420000 Time: 1.44150e+01 states: [ -2.77531e+00 1.23949e+00] derivs: [ 1.23974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.420000 pESO->GetIndependentVar(): 14.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.086445, nextPhis[ 0]=-2.062804 prevPhis[ 1]=8.086445, nextPhis[ 1]=8.062804 <==IsSwitchingOccur() T = 14.420000 Tnext = 14.425000 Time: 1.44200e+01 states: [ -2.76910e+00 1.24449e+00] derivs: [ 1.24474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.425000 pESO->GetIndependentVar(): 14.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.062804, nextPhis[ 0]=-2.039089 prevPhis[ 1]=8.062804, nextPhis[ 1]=8.039089 <==IsSwitchingOccur() T = 14.425000 Tnext = 14.430000 Time: 1.44250e+01 states: [ -2.76286e+00 1.24949e+00] derivs: [ 1.24974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.430000 pESO->GetIndependentVar(): 14.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.039089, nextPhis[ 0]=-2.015299 prevPhis[ 1]=8.039089, nextPhis[ 1]=8.015299 <==IsSwitchingOccur() T = 14.430000 Tnext = 14.435000 Time: 1.44300e+01 states: [ -2.75660e+00 1.25449e+00] derivs: [ 1.25474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.435000 pESO->GetIndependentVar(): 14.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.015299, nextPhis[ 0]=-1.991434 prevPhis[ 1]=8.015299, nextPhis[ 1]=7.991434 <==IsSwitchingOccur() T = 14.435000 Tnext = 14.440000 Time: 1.44350e+01 states: [ -2.75031e+00 1.25949e+00] derivs: [ 1.25974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.440000 pESO->GetIndependentVar(): 14.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.991434, nextPhis[ 0]=-1.967493 prevPhis[ 1]=7.991434, nextPhis[ 1]=7.967493 <==IsSwitchingOccur() T = 14.440000 Tnext = 14.445000 Time: 1.44400e+01 states: [ -2.74400e+00 1.26449e+00] derivs: [ 1.26474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.445000 pESO->GetIndependentVar(): 14.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.967493, nextPhis[ 0]=-1.943478 prevPhis[ 1]=7.967493, nextPhis[ 1]=7.943478 <==IsSwitchingOccur() T = 14.445000 Tnext = 14.450000 Time: 1.44450e+01 states: [ -2.73766e+00 1.26949e+00] derivs: [ 1.26974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.450000 pESO->GetIndependentVar(): 14.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.943478, nextPhis[ 0]=-1.919388 prevPhis[ 1]=7.943478, nextPhis[ 1]=7.919388 <==IsSwitchingOccur() T = 14.450000 Tnext = 14.455000 Time: 1.44500e+01 states: [ -2.73129e+00 1.27449e+00] derivs: [ 1.27474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.455000 pESO->GetIndependentVar(): 14.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.919388, nextPhis[ 0]=-1.895223 prevPhis[ 1]=7.919388, nextPhis[ 1]=7.895223 <==IsSwitchingOccur() T = 14.455000 Tnext = 14.460000 Time: 1.44550e+01 states: [ -2.72490e+00 1.27949e+00] derivs: [ 1.27974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.460000 pESO->GetIndependentVar(): 14.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.895223, nextPhis[ 0]=-1.870983 prevPhis[ 1]=7.895223, nextPhis[ 1]=7.870983 <==IsSwitchingOccur() T = 14.460000 Tnext = 14.465000 Time: 1.44600e+01 states: [ -2.71849e+00 1.28449e+00] derivs: [ 1.28474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.465000 pESO->GetIndependentVar(): 14.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.870983, nextPhis[ 0]=-1.846667 prevPhis[ 1]=7.870983, nextPhis[ 1]=7.846667 <==IsSwitchingOccur() T = 14.465000 Tnext = 14.470000 Time: 1.44650e+01 states: [ -2.71205e+00 1.28949e+00] derivs: [ 1.28974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.470000 pESO->GetIndependentVar(): 14.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.846667, nextPhis[ 0]=-1.822277 prevPhis[ 1]=7.846667, nextPhis[ 1]=7.822277 <==IsSwitchingOccur() T = 14.470000 Tnext = 14.475000 Time: 1.44700e+01 states: [ -2.70559e+00 1.29449e+00] derivs: [ 1.29474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.475000 pESO->GetIndependentVar(): 14.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.822277, nextPhis[ 0]=-1.797812 prevPhis[ 1]=7.822277, nextPhis[ 1]=7.797812 <==IsSwitchingOccur() T = 14.475000 Tnext = 14.480000 Time: 1.44750e+01 states: [ -2.69910e+00 1.29949e+00] derivs: [ 1.29974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.480000 pESO->GetIndependentVar(): 14.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.797812, nextPhis[ 0]=-1.773272 prevPhis[ 1]=7.797812, nextPhis[ 1]=7.773272 <==IsSwitchingOccur() T = 14.480000 Tnext = 14.485000 Time: 1.44800e+01 states: [ -2.69259e+00 1.30449e+00] derivs: [ 1.30474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.485000 pESO->GetIndependentVar(): 14.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.773272, nextPhis[ 0]=-1.748656 prevPhis[ 1]=7.773272, nextPhis[ 1]=7.748656 <==IsSwitchingOccur() T = 14.485000 Tnext = 14.490000 Time: 1.44850e+01 states: [ -2.68605e+00 1.30949e+00] derivs: [ 1.30974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.490000 pESO->GetIndependentVar(): 14.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.748656, nextPhis[ 0]=-1.723966 prevPhis[ 1]=7.748656, nextPhis[ 1]=7.723966 <==IsSwitchingOccur() T = 14.490000 Tnext = 14.495000 Time: 1.44900e+01 states: [ -2.67949e+00 1.31449e+00] derivs: [ 1.31474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.495000 pESO->GetIndependentVar(): 14.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.723966, nextPhis[ 0]=-1.699201 prevPhis[ 1]=7.723966, nextPhis[ 1]=7.699201 <==IsSwitchingOccur() T = 14.495000 Tnext = 14.500000 Time: 1.44950e+01 states: [ -2.67290e+00 1.31949e+00] derivs: [ 1.31974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.500000 pESO->GetIndependentVar(): 14.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.699201, nextPhis[ 0]=-1.674361 prevPhis[ 1]=7.699201, nextPhis[ 1]=7.674361 <==IsSwitchingOccur() T = 14.500000 Tnext = 14.505000 Time: 1.45000e+01 states: [ -2.66628e+00 1.32449e+00] derivs: [ 1.32474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.505000 pESO->GetIndependentVar(): 14.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.674361, nextPhis[ 0]=-1.649445 prevPhis[ 1]=7.674361, nextPhis[ 1]=7.649445 <==IsSwitchingOccur() T = 14.505000 Tnext = 14.510000 Time: 1.45050e+01 states: [ -2.65965e+00 1.32949e+00] derivs: [ 1.32974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.510000 pESO->GetIndependentVar(): 14.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.649445, nextPhis[ 0]=-1.624455 prevPhis[ 1]=7.649445, nextPhis[ 1]=7.624455 <==IsSwitchingOccur() T = 14.510000 Tnext = 14.515000 Time: 1.45100e+01 states: [ -2.65298e+00 1.33449e+00] derivs: [ 1.33474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.515000 pESO->GetIndependentVar(): 14.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.624455, nextPhis[ 0]=-1.599390 prevPhis[ 1]=7.624455, nextPhis[ 1]=7.599390 <==IsSwitchingOccur() T = 14.515000 Tnext = 14.520000 Time: 1.45150e+01 states: [ -2.64629e+00 1.33949e+00] derivs: [ 1.33974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.520000 pESO->GetIndependentVar(): 14.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.599390, nextPhis[ 0]=-1.574250 prevPhis[ 1]=7.599390, nextPhis[ 1]=7.574250 <==IsSwitchingOccur() T = 14.520000 Tnext = 14.525000 Time: 1.45200e+01 states: [ -2.63958e+00 1.34449e+00] derivs: [ 1.34474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.525000 pESO->GetIndependentVar(): 14.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.574250, nextPhis[ 0]=-1.549034 prevPhis[ 1]=7.574250, nextPhis[ 1]=7.549034 <==IsSwitchingOccur() T = 14.525000 Tnext = 14.530000 Time: 1.45250e+01 states: [ -2.63284e+00 1.34949e+00] derivs: [ 1.34974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.530000 pESO->GetIndependentVar(): 14.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.549034, nextPhis[ 0]=-1.523744 prevPhis[ 1]=7.549034, nextPhis[ 1]=7.523744 <==IsSwitchingOccur() T = 14.530000 Tnext = 14.535000 Time: 1.45300e+01 states: [ -2.62608e+00 1.35449e+00] derivs: [ 1.35474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.535000 pESO->GetIndependentVar(): 14.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.523744, nextPhis[ 0]=-1.498379 prevPhis[ 1]=7.523744, nextPhis[ 1]=7.498379 <==IsSwitchingOccur() T = 14.535000 Tnext = 14.540000 Time: 1.45350e+01 states: [ -2.61929e+00 1.35949e+00] derivs: [ 1.35974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.540000 pESO->GetIndependentVar(): 14.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.498379, nextPhis[ 0]=-1.472939 prevPhis[ 1]=7.498379, nextPhis[ 1]=7.472939 <==IsSwitchingOccur() T = 14.540000 Tnext = 14.545000 Time: 1.45400e+01 states: [ -2.61248e+00 1.36449e+00] derivs: [ 1.36474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.545000 pESO->GetIndependentVar(): 14.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.472939, nextPhis[ 0]=-1.447423 prevPhis[ 1]=7.472939, nextPhis[ 1]=7.447423 <==IsSwitchingOccur() T = 14.545000 Tnext = 14.550000 Time: 1.45450e+01 states: [ -2.60564e+00 1.36949e+00] derivs: [ 1.36974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.550000 pESO->GetIndependentVar(): 14.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.447423, nextPhis[ 0]=-1.421833 prevPhis[ 1]=7.447423, nextPhis[ 1]=7.421833 <==IsSwitchingOccur() T = 14.550000 Tnext = 14.555000 Time: 1.45500e+01 states: [ -2.59878e+00 1.37449e+00] derivs: [ 1.37474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.555000 pESO->GetIndependentVar(): 14.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.421833, nextPhis[ 0]=-1.396168 prevPhis[ 1]=7.421833, nextPhis[ 1]=7.396168 <==IsSwitchingOccur() T = 14.555000 Tnext = 14.560000 Time: 1.45550e+01 states: [ -2.59189e+00 1.37949e+00] derivs: [ 1.37974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.560000 pESO->GetIndependentVar(): 14.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.396168, nextPhis[ 0]=-1.370428 prevPhis[ 1]=7.396168, nextPhis[ 1]=7.370428 <==IsSwitchingOccur() T = 14.560000 Tnext = 14.565000 Time: 1.45600e+01 states: [ -2.58497e+00 1.38449e+00] derivs: [ 1.38474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.565000 pESO->GetIndependentVar(): 14.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.370428, nextPhis[ 0]=-1.344612 prevPhis[ 1]=7.370428, nextPhis[ 1]=7.344612 <==IsSwitchingOccur() T = 14.565000 Tnext = 14.570000 Time: 1.45650e+01 states: [ -2.57803e+00 1.38949e+00] derivs: [ 1.38974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.570000 pESO->GetIndependentVar(): 14.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.344612, nextPhis[ 0]=-1.318722 prevPhis[ 1]=7.344612, nextPhis[ 1]=7.318722 <==IsSwitchingOccur() T = 14.570000 Tnext = 14.575000 Time: 1.45700e+01 states: [ -2.57107e+00 1.39449e+00] derivs: [ 1.39474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.575000 pESO->GetIndependentVar(): 14.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.318722, nextPhis[ 0]=-1.292757 prevPhis[ 1]=7.318722, nextPhis[ 1]=7.292757 <==IsSwitchingOccur() T = 14.575000 Tnext = 14.580000 Time: 1.45750e+01 states: [ -2.56408e+00 1.39949e+00] derivs: [ 1.39974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.580000 pESO->GetIndependentVar(): 14.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.292757, nextPhis[ 0]=-1.266717 prevPhis[ 1]=7.292757, nextPhis[ 1]=7.266717 <==IsSwitchingOccur() T = 14.580000 Tnext = 14.585000 Time: 1.45800e+01 states: [ -2.55707e+00 1.40449e+00] derivs: [ 1.40474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.585000 pESO->GetIndependentVar(): 14.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.266717, nextPhis[ 0]=-1.240601 prevPhis[ 1]=7.266717, nextPhis[ 1]=7.240601 <==IsSwitchingOccur() T = 14.585000 Tnext = 14.590000 Time: 1.45850e+01 states: [ -2.55003e+00 1.40949e+00] derivs: [ 1.40974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.590000 pESO->GetIndependentVar(): 14.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.240601, nextPhis[ 0]=-1.214411 prevPhis[ 1]=7.240601, nextPhis[ 1]=7.214411 <==IsSwitchingOccur() T = 14.590000 Tnext = 14.595000 Time: 1.45900e+01 states: [ -2.54297e+00 1.41449e+00] derivs: [ 1.41474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.595000 pESO->GetIndependentVar(): 14.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.214411, nextPhis[ 0]=-1.188146 prevPhis[ 1]=7.214411, nextPhis[ 1]=7.188146 <==IsSwitchingOccur() T = 14.595000 Tnext = 14.600000 Time: 1.45950e+01 states: [ -2.53588e+00 1.41949e+00] derivs: [ 1.41974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.600000 pESO->GetIndependentVar(): 14.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.188146, nextPhis[ 0]=-1.161806 prevPhis[ 1]=7.188146, nextPhis[ 1]=7.161806 <==IsSwitchingOccur() T = 14.600000 Tnext = 14.605000 Time: 1.46000e+01 states: [ -2.52877e+00 1.42449e+00] derivs: [ 1.42474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.605000 pESO->GetIndependentVar(): 14.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.161806, nextPhis[ 0]=-1.135391 prevPhis[ 1]=7.161806, nextPhis[ 1]=7.135391 <==IsSwitchingOccur() T = 14.605000 Tnext = 14.610000 Time: 1.46050e+01 states: [ -2.52163e+00 1.42949e+00] derivs: [ 1.42974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.610000 pESO->GetIndependentVar(): 14.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.135391, nextPhis[ 0]=-1.108900 prevPhis[ 1]=7.135391, nextPhis[ 1]=7.108900 <==IsSwitchingOccur() T = 14.610000 Tnext = 14.615000 Time: 1.46100e+01 states: [ -2.51446e+00 1.43449e+00] derivs: [ 1.43474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.615000 pESO->GetIndependentVar(): 14.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.108900, nextPhis[ 0]=-1.082335 prevPhis[ 1]=7.108900, nextPhis[ 1]=7.082335 <==IsSwitchingOccur() T = 14.615000 Tnext = 14.620000 Time: 1.46150e+01 states: [ -2.50728e+00 1.43949e+00] derivs: [ 1.43974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.620000 pESO->GetIndependentVar(): 14.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.082335, nextPhis[ 0]=-1.055695 prevPhis[ 1]=7.082335, nextPhis[ 1]=7.055695 <==IsSwitchingOccur() T = 14.620000 Tnext = 14.625000 Time: 1.46200e+01 states: [ -2.50006e+00 1.44449e+00] derivs: [ 1.44474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.625000 pESO->GetIndependentVar(): 14.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.055695, nextPhis[ 0]=-1.028980 prevPhis[ 1]=7.055695, nextPhis[ 1]=7.028980 <==IsSwitchingOccur() T = 14.625000 Tnext = 14.630000 Time: 1.46250e+01 states: [ -2.49282e+00 1.44949e+00] derivs: [ 1.44974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.630000 pESO->GetIndependentVar(): 14.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.028980, nextPhis[ 0]=-1.002189 prevPhis[ 1]=7.028980, nextPhis[ 1]=7.002189 <==IsSwitchingOccur() T = 14.630000 Tnext = 14.635000 Time: 1.46300e+01 states: [ -2.48556e+00 1.45449e+00] derivs: [ 1.45474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.635000 pESO->GetIndependentVar(): 14.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.002189, nextPhis[ 0]=-0.975324 prevPhis[ 1]=7.002189, nextPhis[ 1]=6.975324 <==IsSwitchingOccur() T = 14.635000 Tnext = 14.640000 Time: 1.46350e+01 states: [ -2.47827e+00 1.45949e+00] derivs: [ 1.45974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.640000 pESO->GetIndependentVar(): 14.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.975324, nextPhis[ 0]=-0.948384 prevPhis[ 1]=6.975324, nextPhis[ 1]=6.948384 <==IsSwitchingOccur() T = 14.640000 Tnext = 14.645000 Time: 1.46400e+01 states: [ -2.47096e+00 1.46449e+00] derivs: [ 1.46474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.645000 pESO->GetIndependentVar(): 14.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.948384, nextPhis[ 0]=-0.921369 prevPhis[ 1]=6.948384, nextPhis[ 1]=6.921369 <==IsSwitchingOccur() T = 14.645000 Tnext = 14.650000 Time: 1.46450e+01 states: [ -2.46362e+00 1.46949e+00] derivs: [ 1.46974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.650000 pESO->GetIndependentVar(): 14.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.921369, nextPhis[ 0]=-0.894278 prevPhis[ 1]=6.921369, nextPhis[ 1]=6.894278 <==IsSwitchingOccur() T = 14.650000 Tnext = 14.655000 Time: 1.46500e+01 states: [ -2.45626e+00 1.47449e+00] derivs: [ 1.47474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.655000 pESO->GetIndependentVar(): 14.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.894278, nextPhis[ 0]=-0.867113 prevPhis[ 1]=6.894278, nextPhis[ 1]=6.867113 <==IsSwitchingOccur() T = 14.655000 Tnext = 14.660000 Time: 1.46550e+01 states: [ -2.44887e+00 1.47949e+00] derivs: [ 1.47974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.660000 pESO->GetIndependentVar(): 14.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.867113, nextPhis[ 0]=-0.839873 prevPhis[ 1]=6.867113, nextPhis[ 1]=6.839873 <==IsSwitchingOccur() T = 14.660000 Tnext = 14.665000 Time: 1.46600e+01 states: [ -2.44146e+00 1.48449e+00] derivs: [ 1.48474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.665000 pESO->GetIndependentVar(): 14.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.839873, nextPhis[ 0]=-0.812558 prevPhis[ 1]=6.839873, nextPhis[ 1]=6.812558 <==IsSwitchingOccur() T = 14.665000 Tnext = 14.670000 Time: 1.46650e+01 states: [ -2.43402e+00 1.48949e+00] derivs: [ 1.48974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.670000 pESO->GetIndependentVar(): 14.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.812558, nextPhis[ 0]=-0.785167 prevPhis[ 1]=6.812558, nextPhis[ 1]=6.785167 <==IsSwitchingOccur() T = 14.670000 Tnext = 14.675000 Time: 1.46700e+01 states: [ -2.42655e+00 1.49449e+00] derivs: [ 1.49474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.675000 pESO->GetIndependentVar(): 14.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.785167, nextPhis[ 0]=-0.757702 prevPhis[ 1]=6.785167, nextPhis[ 1]=6.757702 <==IsSwitchingOccur() T = 14.675000 Tnext = 14.680000 Time: 1.46750e+01 states: [ -2.41906e+00 1.49949e+00] derivs: [ 1.49974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.680000 pESO->GetIndependentVar(): 14.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.757702, nextPhis[ 0]=-0.730162 prevPhis[ 1]=6.757702, nextPhis[ 1]=6.730162 <==IsSwitchingOccur() T = 14.680000 Tnext = 14.685000 Time: 1.46800e+01 states: [ -2.41155e+00 1.50449e+00] derivs: [ 1.50474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.685000 pESO->GetIndependentVar(): 14.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.730162, nextPhis[ 0]=-0.702547 prevPhis[ 1]=6.730162, nextPhis[ 1]=6.702547 <==IsSwitchingOccur() T = 14.685000 Tnext = 14.690000 Time: 1.46850e+01 states: [ -2.40401e+00 1.50949e+00] derivs: [ 1.50974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.690000 pESO->GetIndependentVar(): 14.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.702547, nextPhis[ 0]=-0.674856 prevPhis[ 1]=6.702547, nextPhis[ 1]=6.674856 <==IsSwitchingOccur() T = 14.690000 Tnext = 14.695000 Time: 1.46900e+01 states: [ -2.39645e+00 1.51449e+00] derivs: [ 1.51474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.695000 pESO->GetIndependentVar(): 14.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.674856, nextPhis[ 0]=-0.647091 prevPhis[ 1]=6.674856, nextPhis[ 1]=6.647091 <==IsSwitchingOccur() T = 14.695000 Tnext = 14.700000 Time: 1.46950e+01 states: [ -2.38886e+00 1.51949e+00] derivs: [ 1.51974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.700000 pESO->GetIndependentVar(): 14.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.647091, nextPhis[ 0]=-0.619251 prevPhis[ 1]=6.647091, nextPhis[ 1]=6.619251 <==IsSwitchingOccur() T = 14.700000 Tnext = 14.705000 Time: 1.47000e+01 states: [ -2.38125e+00 1.52449e+00] derivs: [ 1.52474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.705000 pESO->GetIndependentVar(): 14.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.619251, nextPhis[ 0]=-0.591336 prevPhis[ 1]=6.619251, nextPhis[ 1]=6.591336 <==IsSwitchingOccur() T = 14.705000 Tnext = 14.710000 Time: 1.47050e+01 states: [ -2.37361e+00 1.52949e+00] derivs: [ 1.52974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.710000 pESO->GetIndependentVar(): 14.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.591336, nextPhis[ 0]=-0.563345 prevPhis[ 1]=6.591336, nextPhis[ 1]=6.563345 <==IsSwitchingOccur() T = 14.710000 Tnext = 14.715000 Time: 1.47100e+01 states: [ -2.36595e+00 1.53449e+00] derivs: [ 1.53474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.715000 pESO->GetIndependentVar(): 14.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.563345, nextPhis[ 0]=-0.535280 prevPhis[ 1]=6.563345, nextPhis[ 1]=6.535280 <==IsSwitchingOccur() T = 14.715000 Tnext = 14.720000 Time: 1.47150e+01 states: [ -2.35826e+00 1.53949e+00] derivs: [ 1.53974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.720000 pESO->GetIndependentVar(): 14.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.535280, nextPhis[ 0]=-0.507140 prevPhis[ 1]=6.535280, nextPhis[ 1]=6.507140 <==IsSwitchingOccur() T = 14.720000 Tnext = 14.725000 Time: 1.47200e+01 states: [ -2.35054e+00 1.54449e+00] derivs: [ 1.54474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.725000 pESO->GetIndependentVar(): 14.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.507140, nextPhis[ 0]=-0.478925 prevPhis[ 1]=6.507140, nextPhis[ 1]=6.478925 <==IsSwitchingOccur() T = 14.725000 Tnext = 14.730000 Time: 1.47250e+01 states: [ -2.34281e+00 1.54949e+00] derivs: [ 1.54974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.730000 pESO->GetIndependentVar(): 14.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.478925, nextPhis[ 0]=-0.450634 prevPhis[ 1]=6.478925, nextPhis[ 1]=6.450634 <==IsSwitchingOccur() T = 14.730000 Tnext = 14.735000 Time: 1.47300e+01 states: [ -2.33504e+00 1.55449e+00] derivs: [ 1.55474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.735000 pESO->GetIndependentVar(): 14.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.450634, nextPhis[ 0]=-0.422269 prevPhis[ 1]=6.450634, nextPhis[ 1]=6.422269 <==IsSwitchingOccur() T = 14.735000 Tnext = 14.740000 Time: 1.47350e+01 states: [ -2.32725e+00 1.55949e+00] derivs: [ 1.55974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.740000 pESO->GetIndependentVar(): 14.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.422269, nextPhis[ 0]=-0.393829 prevPhis[ 1]=6.422269, nextPhis[ 1]=6.393829 <==IsSwitchingOccur() T = 14.740000 Tnext = 14.745000 Time: 1.47400e+01 states: [ -2.31944e+00 1.56449e+00] derivs: [ 1.56474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.745000 pESO->GetIndependentVar(): 14.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.393829, nextPhis[ 0]=-0.365314 prevPhis[ 1]=6.393829, nextPhis[ 1]=6.365314 <==IsSwitchingOccur() T = 14.745000 Tnext = 14.750000 Time: 1.47450e+01 states: [ -2.31160e+00 1.56949e+00] derivs: [ 1.56974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.750000 pESO->GetIndependentVar(): 14.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.365314, nextPhis[ 0]=-0.336724 prevPhis[ 1]=6.365314, nextPhis[ 1]=6.336724 <==IsSwitchingOccur() T = 14.750000 Tnext = 14.755000 Time: 1.47500e+01 states: [ -2.30374e+00 1.57449e+00] derivs: [ 1.57474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.755000 pESO->GetIndependentVar(): 14.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.336724, nextPhis[ 0]=-0.308058 prevPhis[ 1]=6.336724, nextPhis[ 1]=6.308058 <==IsSwitchingOccur() T = 14.755000 Tnext = 14.760000 Time: 1.47550e+01 states: [ -2.29585e+00 1.57949e+00] derivs: [ 1.57974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.760000 pESO->GetIndependentVar(): 14.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.308058, nextPhis[ 0]=-0.279318 prevPhis[ 1]=6.308058, nextPhis[ 1]=6.279318 <==IsSwitchingOccur() T = 14.760000 Tnext = 14.765000 Time: 1.47600e+01 states: [ -2.28794e+00 1.58449e+00] derivs: [ 1.58474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.765000 pESO->GetIndependentVar(): 14.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.279318, nextPhis[ 0]=-0.250503 prevPhis[ 1]=6.279318, nextPhis[ 1]=6.250503 <==IsSwitchingOccur() T = 14.765000 Tnext = 14.770000 Time: 1.47650e+01 states: [ -2.28000e+00 1.58949e+00] derivs: [ 1.58974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.770000 pESO->GetIndependentVar(): 14.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.250503, nextPhis[ 0]=-0.221613 prevPhis[ 1]=6.250503, nextPhis[ 1]=6.221613 <==IsSwitchingOccur() T = 14.770000 Tnext = 14.775000 Time: 1.47700e+01 states: [ -2.27203e+00 1.59449e+00] derivs: [ 1.59474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.775000 pESO->GetIndependentVar(): 14.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.221613, nextPhis[ 0]=-0.192647 prevPhis[ 1]=6.221613, nextPhis[ 1]=6.192647 <==IsSwitchingOccur() T = 14.775000 Tnext = 14.780000 Time: 1.47750e+01 states: [ -2.26405e+00 1.59949e+00] derivs: [ 1.59974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.780000 pESO->GetIndependentVar(): 14.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.192647, nextPhis[ 0]=-0.163607 prevPhis[ 1]=6.192647, nextPhis[ 1]=6.163607 <==IsSwitchingOccur() T = 14.780000 Tnext = 14.785000 Time: 1.47800e+01 states: [ -2.25603e+00 1.60449e+00] derivs: [ 1.60474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.785000 pESO->GetIndependentVar(): 14.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.163607, nextPhis[ 0]=-0.134492 prevPhis[ 1]=6.163607, nextPhis[ 1]=6.134492 <==IsSwitchingOccur() T = 14.785000 Tnext = 14.790000 Time: 1.47850e+01 states: [ -2.24799e+00 1.60949e+00] derivs: [ 1.60974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.790000 pESO->GetIndependentVar(): 14.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.134492, nextPhis[ 0]=-0.105302 prevPhis[ 1]=6.134492, nextPhis[ 1]=6.105302 <==IsSwitchingOccur() T = 14.790000 Tnext = 14.795000 Time: 1.47900e+01 states: [ -2.23993e+00 1.61449e+00] derivs: [ 1.61474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.795000 pESO->GetIndependentVar(): 14.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.105302, nextPhis[ 0]=-0.076036 prevPhis[ 1]=6.105302, nextPhis[ 1]=6.076036 <==IsSwitchingOccur() T = 14.795000 Tnext = 14.800000 Time: 1.47950e+01 states: [ -2.23184e+00 1.61949e+00] derivs: [ 1.61974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.800000 pESO->GetIndependentVar(): 14.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.076036, nextPhis[ 0]=-0.046696 prevPhis[ 1]=6.076036, nextPhis[ 1]=6.046696 <==IsSwitchingOccur() T = 14.800000 Tnext = 14.805000 Time: 1.48000e+01 states: [ -2.22373e+00 1.62449e+00] derivs: [ 1.62474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.805000 pESO->GetIndependentVar(): 14.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.046696, nextPhis[ 0]=-0.017281 prevPhis[ 1]=6.046696, nextPhis[ 1]=6.017281 <==IsSwitchingOccur() T = 14.805000 Tnext = 14.810000 Time: 1.48050e+01 states: [ -2.21559e+00 1.62949e+00] derivs: [ 1.62974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.810000 pESO->GetIndependentVar(): 14.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.017281, nextPhis[ 0]=0.012209 prevPhis[ 1]=6.017281, nextPhis[ 1]=5.987791 <==IsSwitchingOccur() T = 14.810000 Tnext = 14.815000 Time: 1.48100e+01 states: [ -2.20743e+00 1.63449e+00] derivs: [ 1.63474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.815000 pESO->GetIndependentVar(): 14.815000 ==>IsSwitchingOccur() prevPhis[ 0]=0.012209, nextPhis[ 0]=0.041775 prevPhis[ 1]=5.987791, nextPhis[ 1]=5.958225 <==IsSwitchingOccur() T = 14.815000 Tnext = 14.820000 Time: 1.48150e+01 states: [ -2.19924e+00 1.63949e+00] derivs: [ 1.63974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.820000 pESO->GetIndependentVar(): 14.820000 ==>IsSwitchingOccur() prevPhis[ 0]=0.041775, nextPhis[ 0]=0.071415 prevPhis[ 1]=5.958225, nextPhis[ 1]=5.928585 <==IsSwitchingOccur() T = 14.820000 Tnext = 14.825000 Time: 1.48200e+01 states: [ -2.19103e+00 1.64449e+00] derivs: [ 1.64474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.825000 pESO->GetIndependentVar(): 14.825000 ==>IsSwitchingOccur() prevPhis[ 0]=0.071415, nextPhis[ 0]=0.101130 prevPhis[ 1]=5.928585, nextPhis[ 1]=5.898870 <==IsSwitchingOccur() T = 14.825000 Tnext = 14.830000 Time: 1.48250e+01 states: [ -2.18279e+00 1.64949e+00] derivs: [ 1.64974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.830000 pESO->GetIndependentVar(): 14.830000 ==>IsSwitchingOccur() prevPhis[ 0]=0.101130, nextPhis[ 0]=0.130920 prevPhis[ 1]=5.898870, nextPhis[ 1]=5.869080 <==IsSwitchingOccur() T = 14.830000 Tnext = 14.835000 Time: 1.48300e+01 states: [ -2.17452e+00 1.65449e+00] derivs: [ 1.65474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.835000 pESO->GetIndependentVar(): 14.835000 ==>IsSwitchingOccur() prevPhis[ 0]=0.130920, nextPhis[ 0]=0.160786 prevPhis[ 1]=5.869080, nextPhis[ 1]=5.839214 <==IsSwitchingOccur() T = 14.835000 Tnext = 14.840000 Time: 1.48350e+01 states: [ -2.16624e+00 1.65949e+00] derivs: [ 1.65974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.840000 pESO->GetIndependentVar(): 14.840000 ==>IsSwitchingOccur() prevPhis[ 0]=0.160786, nextPhis[ 0]=0.190726 prevPhis[ 1]=5.839214, nextPhis[ 1]=5.809274 <==IsSwitchingOccur() T = 14.840000 Tnext = 14.845000 Time: 1.48400e+01 states: [ -2.15792e+00 1.66449e+00] derivs: [ 1.66474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.845000 pESO->GetIndependentVar(): 14.845000 ==>IsSwitchingOccur() prevPhis[ 0]=0.190726, nextPhis[ 0]=0.220741 prevPhis[ 1]=5.809274, nextPhis[ 1]=5.779259 <==IsSwitchingOccur() T = 14.845000 Tnext = 14.850000 Time: 1.48450e+01 states: [ -2.14958e+00 1.66949e+00] derivs: [ 1.66974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.850000 pESO->GetIndependentVar(): 14.850000 ==>IsSwitchingOccur() prevPhis[ 0]=0.220741, nextPhis[ 0]=0.250831 prevPhis[ 1]=5.779259, nextPhis[ 1]=5.749169 <==IsSwitchingOccur() T = 14.850000 Tnext = 14.855000 Time: 1.48500e+01 states: [ -2.14122e+00 1.67449e+00] derivs: [ 1.67474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.855000 pESO->GetIndependentVar(): 14.855000 ==>IsSwitchingOccur() prevPhis[ 0]=0.250831, nextPhis[ 0]=0.280997 prevPhis[ 1]=5.749169, nextPhis[ 1]=5.719003 <==IsSwitchingOccur() T = 14.855000 Tnext = 14.860000 Time: 1.48550e+01 states: [ -2.13283e+00 1.67949e+00] derivs: [ 1.67974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.860000 pESO->GetIndependentVar(): 14.860000 ==>IsSwitchingOccur() prevPhis[ 0]=0.280997, nextPhis[ 0]=0.311237 prevPhis[ 1]=5.719003, nextPhis[ 1]=5.688763 <==IsSwitchingOccur() T = 14.860000 Tnext = 14.865000 Time: 1.48600e+01 states: [ -2.12442e+00 1.68449e+00] derivs: [ 1.68474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.865000 pESO->GetIndependentVar(): 14.865000 ==>IsSwitchingOccur() prevPhis[ 0]=0.311237, nextPhis[ 0]=0.341552 prevPhis[ 1]=5.688763, nextPhis[ 1]=5.658448 <==IsSwitchingOccur() T = 14.865000 Tnext = 14.870000 Time: 1.48650e+01 states: [ -2.11598e+00 1.68949e+00] derivs: [ 1.68974e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.870000 pESO->GetIndependentVar(): 14.870000 ==>IsSwitchingOccur() prevPhis[ 0]=0.341552, nextPhis[ 0]=0.371942 prevPhis[ 1]=5.658448, nextPhis[ 1]=5.628058 <==IsSwitchingOccur() T = 14.870000 Tnext = 14.875000 Time: 1.48700e+01 states: [ -2.10752e+00 1.69449e+00] derivs: [ 1.69474e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.875000 pESO->GetIndependentVar(): 14.875000 ==>IsSwitchingOccur() prevPhis[ 0]=0.371942, nextPhis[ 0]=0.402403 prevPhis[ 1]=5.628058, nextPhis[ 1]=5.597597 <==IsSwitchingOccur() T = 14.875000 Tnext = 14.880000 Time: 1.48750e+01 states: [ -2.09903e+00 1.69949e+00] derivs: [ 1.69973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.880000 pESO->GetIndependentVar(): 14.880000 ==>IsSwitchingOccur() prevPhis[ 0]=0.402403, nextPhis[ 0]=0.432940 prevPhis[ 1]=5.597597, nextPhis[ 1]=5.567060 <==IsSwitchingOccur() T = 14.880000 Tnext = 14.885000 Time: 1.48800e+01 states: [ -2.09052e+00 1.70449e+00] derivs: [ 1.70473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.885000 pESO->GetIndependentVar(): 14.885000 ==>IsSwitchingOccur() prevPhis[ 0]=0.432940, nextPhis[ 0]=0.463551 prevPhis[ 1]=5.567060, nextPhis[ 1]=5.536449 <==IsSwitchingOccur() T = 14.885000 Tnext = 14.890000 Time: 1.48850e+01 states: [ -2.08198e+00 1.70949e+00] derivs: [ 1.70973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.890000 pESO->GetIndependentVar(): 14.890000 ==>IsSwitchingOccur() prevPhis[ 0]=0.463551, nextPhis[ 0]=0.494237 prevPhis[ 1]=5.536449, nextPhis[ 1]=5.505763 <==IsSwitchingOccur() T = 14.890000 Tnext = 14.895000 Time: 1.48900e+01 states: [ -2.07342e+00 1.71449e+00] derivs: [ 1.71473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.895000 pESO->GetIndependentVar(): 14.895000 ==>IsSwitchingOccur() prevPhis[ 0]=0.494237, nextPhis[ 0]=0.524998 prevPhis[ 1]=5.505763, nextPhis[ 1]=5.475002 <==IsSwitchingOccur() T = 14.895000 Tnext = 14.900000 Time: 1.48950e+01 states: [ -2.06483e+00 1.71949e+00] derivs: [ 1.71973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.900000 pESO->GetIndependentVar(): 14.900000 ==>IsSwitchingOccur() prevPhis[ 0]=0.524998, nextPhis[ 0]=0.555834 prevPhis[ 1]=5.475002, nextPhis[ 1]=5.444166 <==IsSwitchingOccur() T = 14.900000 Tnext = 14.905000 Time: 1.49000e+01 states: [ -2.05622e+00 1.72449e+00] derivs: [ 1.72473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.905000 pESO->GetIndependentVar(): 14.905000 ==>IsSwitchingOccur() prevPhis[ 0]=0.555834, nextPhis[ 0]=0.586745 prevPhis[ 1]=5.444166, nextPhis[ 1]=5.413255 <==IsSwitchingOccur() T = 14.905000 Tnext = 14.910000 Time: 1.49050e+01 states: [ -2.04758e+00 1.72949e+00] derivs: [ 1.72973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.910000 pESO->GetIndependentVar(): 14.910000 ==>IsSwitchingOccur() prevPhis[ 0]=0.586745, nextPhis[ 0]=0.617732 prevPhis[ 1]=5.413255, nextPhis[ 1]=5.382268 <==IsSwitchingOccur() T = 14.910000 Tnext = 14.915000 Time: 1.49100e+01 states: [ -2.03892e+00 1.73449e+00] derivs: [ 1.73473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.915000 pESO->GetIndependentVar(): 14.915000 ==>IsSwitchingOccur() prevPhis[ 0]=0.617732, nextPhis[ 0]=0.648793 prevPhis[ 1]=5.382268, nextPhis[ 1]=5.351207 <==IsSwitchingOccur() T = 14.915000 Tnext = 14.920000 Time: 1.49150e+01 states: [ -2.03023e+00 1.73949e+00] derivs: [ 1.73973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.920000 pESO->GetIndependentVar(): 14.920000 ==>IsSwitchingOccur() prevPhis[ 0]=0.648793, nextPhis[ 0]=0.679929 prevPhis[ 1]=5.351207, nextPhis[ 1]=5.320071 <==IsSwitchingOccur() T = 14.920000 Tnext = 14.925000 Time: 1.49200e+01 states: [ -2.02152e+00 1.74449e+00] derivs: [ 1.74473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.925000 pESO->GetIndependentVar(): 14.925000 ==>IsSwitchingOccur() prevPhis[ 0]=0.679929, nextPhis[ 0]=0.711140 prevPhis[ 1]=5.320071, nextPhis[ 1]=5.288860 <==IsSwitchingOccur() T = 14.925000 Tnext = 14.930000 Time: 1.49250e+01 states: [ -2.01278e+00 1.74949e+00] derivs: [ 1.74973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.930000 pESO->GetIndependentVar(): 14.930000 ==>IsSwitchingOccur() prevPhis[ 0]=0.711140, nextPhis[ 0]=0.742426 prevPhis[ 1]=5.288860, nextPhis[ 1]=5.257574 <==IsSwitchingOccur() T = 14.930000 Tnext = 14.935000 Time: 1.49300e+01 states: [ -2.00402e+00 1.75449e+00] derivs: [ 1.75473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.935000 pESO->GetIndependentVar(): 14.935000 ==>IsSwitchingOccur() prevPhis[ 0]=0.742426, nextPhis[ 0]=0.773787 prevPhis[ 1]=5.257574, nextPhis[ 1]=5.226213 <==IsSwitchingOccur() T = 14.935000 Tnext = 14.940000 Time: 1.49350e+01 states: [ -1.99523e+00 1.75949e+00] derivs: [ 1.75973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.940000 pESO->GetIndependentVar(): 14.940000 ==>IsSwitchingOccur() prevPhis[ 0]=0.773787, nextPhis[ 0]=0.805224 prevPhis[ 1]=5.226213, nextPhis[ 1]=5.194776 <==IsSwitchingOccur() T = 14.940000 Tnext = 14.945000 Time: 1.49400e+01 states: [ -1.98642e+00 1.76449e+00] derivs: [ 1.76473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.945000 pESO->GetIndependentVar(): 14.945000 ==>IsSwitchingOccur() prevPhis[ 0]=0.805224, nextPhis[ 0]=0.836735 prevPhis[ 1]=5.194776, nextPhis[ 1]=5.163265 <==IsSwitchingOccur() T = 14.945000 Tnext = 14.950000 Time: 1.49450e+01 states: [ -1.97759e+00 1.76949e+00] derivs: [ 1.76973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.950000 pESO->GetIndependentVar(): 14.950000 ==>IsSwitchingOccur() prevPhis[ 0]=0.836735, nextPhis[ 0]=0.868321 prevPhis[ 1]=5.163265, nextPhis[ 1]=5.131679 <==IsSwitchingOccur() T = 14.950000 Tnext = 14.955000 Time: 1.49500e+01 states: [ -1.96872e+00 1.77449e+00] derivs: [ 1.77473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.955000 pESO->GetIndependentVar(): 14.955000 ==>IsSwitchingOccur() prevPhis[ 0]=0.868321, nextPhis[ 0]=0.899982 prevPhis[ 1]=5.131679, nextPhis[ 1]=5.100018 <==IsSwitchingOccur() T = 14.955000 Tnext = 14.960000 Time: 1.49550e+01 states: [ -1.95984e+00 1.77949e+00] derivs: [ 1.77973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.960000 pESO->GetIndependentVar(): 14.960000 ==>IsSwitchingOccur() prevPhis[ 0]=0.899982, nextPhis[ 0]=0.931718 prevPhis[ 1]=5.100018, nextPhis[ 1]=5.068282 <==IsSwitchingOccur() T = 14.960000 Tnext = 14.965000 Time: 1.49600e+01 states: [ -1.95092e+00 1.78449e+00] derivs: [ 1.78473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.965000 pESO->GetIndependentVar(): 14.965000 ==>IsSwitchingOccur() prevPhis[ 0]=0.931718, nextPhis[ 0]=0.963529 prevPhis[ 1]=5.068282, nextPhis[ 1]=5.036471 <==IsSwitchingOccur() T = 14.965000 Tnext = 14.970000 Time: 1.49650e+01 states: [ -1.94199e+00 1.78949e+00] derivs: [ 1.78973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.970000 pESO->GetIndependentVar(): 14.970000 ==>IsSwitchingOccur() prevPhis[ 0]=0.963529, nextPhis[ 0]=0.995416 prevPhis[ 1]=5.036471, nextPhis[ 1]=5.004584 <==IsSwitchingOccur() T = 14.970000 Tnext = 14.975000 Time: 1.49700e+01 states: [ -1.93303e+00 1.79449e+00] derivs: [ 1.79473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.975000 pESO->GetIndependentVar(): 14.975000 ==>IsSwitchingOccur() prevPhis[ 0]=0.995416, nextPhis[ 0]=1.027377 prevPhis[ 1]=5.004584, nextPhis[ 1]=4.972623 <==IsSwitchingOccur() T = 14.975000 Tnext = 14.980000 Time: 1.49750e+01 states: [ -1.92404e+00 1.79949e+00] derivs: [ 1.79973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.980000 pESO->GetIndependentVar(): 14.980000 ==>IsSwitchingOccur() prevPhis[ 0]=1.027377, nextPhis[ 0]=1.059413 prevPhis[ 1]=4.972623, nextPhis[ 1]=4.940587 <==IsSwitchingOccur() T = 14.980000 Tnext = 14.985000 Time: 1.49800e+01 states: [ -1.91503e+00 1.80449e+00] derivs: [ 1.80473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.985000 pESO->GetIndependentVar(): 14.985000 ==>IsSwitchingOccur() prevPhis[ 0]=1.059413, nextPhis[ 0]=1.091524 prevPhis[ 1]=4.940587, nextPhis[ 1]=4.908476 <==IsSwitchingOccur() T = 14.985000 Tnext = 14.990000 Time: 1.49850e+01 states: [ -1.90599e+00 1.80949e+00] derivs: [ 1.80973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.990000 pESO->GetIndependentVar(): 14.990000 ==>IsSwitchingOccur() prevPhis[ 0]=1.091524, nextPhis[ 0]=1.123710 prevPhis[ 1]=4.908476, nextPhis[ 1]=4.876290 <==IsSwitchingOccur() T = 14.990000 Tnext = 14.995000 Time: 1.49900e+01 states: [ -1.89693e+00 1.81449e+00] derivs: [ 1.81473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 14.995000 pESO->GetIndependentVar(): 14.995000 ==>IsSwitchingOccur() prevPhis[ 0]=1.123710, nextPhis[ 0]=1.155971 prevPhis[ 1]=4.876290, nextPhis[ 1]=4.844029 <==IsSwitchingOccur() T = 14.995000 Tnext = 15.000000 Time: 1.49950e+01 states: [ -1.88784e+00 1.81949e+00] derivs: [ 1.81973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.000000 pESO->GetIndependentVar(): 15.000000 ==>IsSwitchingOccur() prevPhis[ 0]=1.155971, nextPhis[ 0]=1.188307 prevPhis[ 1]=4.844029, nextPhis[ 1]=4.811693 <==IsSwitchingOccur() T = 15.000000 Tnext = 15.005000 Time: 1.50000e+01 states: [ -1.87873e+00 1.82449e+00] derivs: [ 1.82473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.005000 pESO->GetIndependentVar(): 15.005000 ==>IsSwitchingOccur() prevPhis[ 0]=1.188307, nextPhis[ 0]=1.220719 prevPhis[ 1]=4.811693, nextPhis[ 1]=4.779281 <==IsSwitchingOccur() T = 15.005000 Tnext = 15.010000 Time: 1.50050e+01 states: [ -1.86959e+00 1.82949e+00] derivs: [ 1.82973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.010000 pESO->GetIndependentVar(): 15.010000 ==>IsSwitchingOccur() prevPhis[ 0]=1.220719, nextPhis[ 0]=1.253205 prevPhis[ 1]=4.779281, nextPhis[ 1]=4.746795 <==IsSwitchingOccur() T = 15.010000 Tnext = 15.015000 Time: 1.50100e+01 states: [ -1.86043e+00 1.83449e+00] derivs: [ 1.83473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.015000 pESO->GetIndependentVar(): 15.015000 ==>IsSwitchingOccur() prevPhis[ 0]=1.253205, nextPhis[ 0]=1.285766 prevPhis[ 1]=4.746795, nextPhis[ 1]=4.714234 <==IsSwitchingOccur() T = 15.015000 Tnext = 15.020000 Time: 1.50150e+01 states: [ -1.85124e+00 1.83949e+00] derivs: [ 1.83973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.020000 pESO->GetIndependentVar(): 15.020000 ==>IsSwitchingOccur() prevPhis[ 0]=1.285766, nextPhis[ 0]=1.318402 prevPhis[ 1]=4.714234, nextPhis[ 1]=4.681598 <==IsSwitchingOccur() T = 15.020000 Tnext = 15.025000 Time: 1.50200e+01 states: [ -1.84203e+00 1.84449e+00] derivs: [ 1.84473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.025000 pESO->GetIndependentVar(): 15.025000 ==>IsSwitchingOccur() prevPhis[ 0]=1.318402, nextPhis[ 0]=1.351113 prevPhis[ 1]=4.681598, nextPhis[ 1]=4.648887 <==IsSwitchingOccur() T = 15.025000 Tnext = 15.030000 Time: 1.50250e+01 states: [ -1.83279e+00 1.84949e+00] derivs: [ 1.84973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.030000 pESO->GetIndependentVar(): 15.030000 ==>IsSwitchingOccur() prevPhis[ 0]=1.351113, nextPhis[ 0]=1.383899 prevPhis[ 1]=4.648887, nextPhis[ 1]=4.616101 <==IsSwitchingOccur() T = 15.030000 Tnext = 15.035000 Time: 1.50300e+01 states: [ -1.82353e+00 1.85449e+00] derivs: [ 1.85473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.035000 pESO->GetIndependentVar(): 15.035000 ==>IsSwitchingOccur() prevPhis[ 0]=1.383899, nextPhis[ 0]=1.416761 prevPhis[ 1]=4.616101, nextPhis[ 1]=4.583239 <==IsSwitchingOccur() T = 15.035000 Tnext = 15.040000 Time: 1.50350e+01 states: [ -1.81424e+00 1.85949e+00] derivs: [ 1.85973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.040000 pESO->GetIndependentVar(): 15.040000 ==>IsSwitchingOccur() prevPhis[ 0]=1.416761, nextPhis[ 0]=1.449697 prevPhis[ 1]=4.583239, nextPhis[ 1]=4.550303 <==IsSwitchingOccur() T = 15.040000 Tnext = 15.045000 Time: 1.50400e+01 states: [ -1.80493e+00 1.86449e+00] derivs: [ 1.86473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.045000 pESO->GetIndependentVar(): 15.045000 ==>IsSwitchingOccur() prevPhis[ 0]=1.449697, nextPhis[ 0]=1.482708 prevPhis[ 1]=4.550303, nextPhis[ 1]=4.517292 <==IsSwitchingOccur() T = 15.045000 Tnext = 15.050000 Time: 1.50450e+01 states: [ -1.79559e+00 1.86949e+00] derivs: [ 1.86973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.050000 pESO->GetIndependentVar(): 15.050000 ==>IsSwitchingOccur() prevPhis[ 0]=1.482708, nextPhis[ 0]=1.515794 prevPhis[ 1]=4.517292, nextPhis[ 1]=4.484206 <==IsSwitchingOccur() T = 15.050000 Tnext = 15.055000 Time: 1.50500e+01 states: [ -1.78623e+00 1.87449e+00] derivs: [ 1.87473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.055000 pESO->GetIndependentVar(): 15.055000 ==>IsSwitchingOccur() prevPhis[ 0]=1.515794, nextPhis[ 0]=1.548955 prevPhis[ 1]=4.484206, nextPhis[ 1]=4.451045 <==IsSwitchingOccur() T = 15.055000 Tnext = 15.060000 Time: 1.50550e+01 states: [ -1.77685e+00 1.87949e+00] derivs: [ 1.87973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.060000 pESO->GetIndependentVar(): 15.060000 ==>IsSwitchingOccur() prevPhis[ 0]=1.548955, nextPhis[ 0]=1.582191 prevPhis[ 1]=4.451045, nextPhis[ 1]=4.417809 <==IsSwitchingOccur() T = 15.060000 Tnext = 15.065000 Time: 1.50600e+01 states: [ -1.76743e+00 1.88449e+00] derivs: [ 1.88473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.065000 pESO->GetIndependentVar(): 15.065000 ==>IsSwitchingOccur() prevPhis[ 0]=1.582191, nextPhis[ 0]=1.615503 prevPhis[ 1]=4.417809, nextPhis[ 1]=4.384497 <==IsSwitchingOccur() T = 15.065000 Tnext = 15.070000 Time: 1.50650e+01 states: [ -1.75800e+00 1.88949e+00] derivs: [ 1.88973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.070000 pESO->GetIndependentVar(): 15.070000 ==>IsSwitchingOccur() prevPhis[ 0]=1.615503, nextPhis[ 0]=1.648889 prevPhis[ 1]=4.384497, nextPhis[ 1]=4.351111 <==IsSwitchingOccur() T = 15.070000 Tnext = 15.075000 Time: 1.50700e+01 states: [ -1.74853e+00 1.89449e+00] derivs: [ 1.89473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.075000 pESO->GetIndependentVar(): 15.075000 ==>IsSwitchingOccur() prevPhis[ 0]=1.648889, nextPhis[ 0]=1.682350 prevPhis[ 1]=4.351111, nextPhis[ 1]=4.317650 <==IsSwitchingOccur() T = 15.075000 Tnext = 15.080000 Time: 1.50750e+01 states: [ -1.73905e+00 1.89949e+00] derivs: [ 1.89973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.080000 pESO->GetIndependentVar(): 15.080000 ==>IsSwitchingOccur() prevPhis[ 0]=1.682350, nextPhis[ 0]=1.715886 prevPhis[ 1]=4.317650, nextPhis[ 1]=4.284114 <==IsSwitchingOccur() T = 15.080000 Tnext = 15.085000 Time: 1.50800e+01 states: [ -1.72954e+00 1.90449e+00] derivs: [ 1.90473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.085000 pESO->GetIndependentVar(): 15.085000 ==>IsSwitchingOccur() prevPhis[ 0]=1.715886, nextPhis[ 0]=1.749497 prevPhis[ 1]=4.284114, nextPhis[ 1]=4.250503 <==IsSwitchingOccur() T = 15.085000 Tnext = 15.090000 Time: 1.50850e+01 states: [ -1.72000e+00 1.90949e+00] derivs: [ 1.90973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.090000 pESO->GetIndependentVar(): 15.090000 ==>IsSwitchingOccur() prevPhis[ 0]=1.749497, nextPhis[ 0]=1.783183 prevPhis[ 1]=4.250503, nextPhis[ 1]=4.216817 <==IsSwitchingOccur() T = 15.090000 Tnext = 15.095000 Time: 1.50900e+01 states: [ -1.71044e+00 1.91449e+00] derivs: [ 1.91473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.095000 pESO->GetIndependentVar(): 15.095000 ==>IsSwitchingOccur() prevPhis[ 0]=1.783183, nextPhis[ 0]=1.816945 prevPhis[ 1]=4.216817, nextPhis[ 1]=4.183055 <==IsSwitchingOccur() T = 15.095000 Tnext = 15.100000 Time: 1.50950e+01 states: [ -1.70085e+00 1.91949e+00] derivs: [ 1.91973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.100000 pESO->GetIndependentVar(): 15.100000 ==>IsSwitchingOccur() prevPhis[ 0]=1.816945, nextPhis[ 0]=1.850781 prevPhis[ 1]=4.183055, nextPhis[ 1]=4.149219 <==IsSwitchingOccur() T = 15.100000 Tnext = 15.105000 Time: 1.51000e+01 states: [ -1.69124e+00 1.92449e+00] derivs: [ 1.92473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.105000 pESO->GetIndependentVar(): 15.105000 ==>IsSwitchingOccur() prevPhis[ 0]=1.850781, nextPhis[ 0]=1.884692 prevPhis[ 1]=4.149219, nextPhis[ 1]=4.115308 <==IsSwitchingOccur() T = 15.105000 Tnext = 15.110000 Time: 1.51050e+01 states: [ -1.68160e+00 1.92949e+00] derivs: [ 1.92973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.110000 pESO->GetIndependentVar(): 15.110000 ==>IsSwitchingOccur() prevPhis[ 0]=1.884692, nextPhis[ 0]=1.918678 prevPhis[ 1]=4.115308, nextPhis[ 1]=4.081322 <==IsSwitchingOccur() T = 15.110000 Tnext = 15.115000 Time: 1.51100e+01 states: [ -1.67194e+00 1.93449e+00] derivs: [ 1.93473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.115000 pESO->GetIndependentVar(): 15.115000 ==>IsSwitchingOccur() prevPhis[ 0]=1.918678, nextPhis[ 0]=1.952739 prevPhis[ 1]=4.081322, nextPhis[ 1]=4.047261 <==IsSwitchingOccur() T = 15.115000 Tnext = 15.120000 Time: 1.51150e+01 states: [ -1.66225e+00 1.93949e+00] derivs: [ 1.93973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.120000 pESO->GetIndependentVar(): 15.120000 ==>IsSwitchingOccur() prevPhis[ 0]=1.952739, nextPhis[ 0]=1.986875 prevPhis[ 1]=4.047261, nextPhis[ 1]=4.013125 <==IsSwitchingOccur() T = 15.120000 Tnext = 15.125000 Time: 1.51200e+01 states: [ -1.65254e+00 1.94449e+00] derivs: [ 1.94473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.125000 pESO->GetIndependentVar(): 15.125000 ==>IsSwitchingOccur() prevPhis[ 0]=1.986875, nextPhis[ 0]=2.021087 prevPhis[ 1]=4.013125, nextPhis[ 1]=3.978913 <==IsSwitchingOccur() T = 15.125000 Tnext = 15.130000 Time: 1.51250e+01 states: [ -1.64280e+00 1.94949e+00] derivs: [ 1.94973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.130000 pESO->GetIndependentVar(): 15.130000 ==>IsSwitchingOccur() prevPhis[ 0]=2.021087, nextPhis[ 0]=2.055373 prevPhis[ 1]=3.978913, nextPhis[ 1]=3.944627 <==IsSwitchingOccur() T = 15.130000 Tnext = 15.135000 Time: 1.51300e+01 states: [ -1.63304e+00 1.95449e+00] derivs: [ 1.95473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.135000 pESO->GetIndependentVar(): 15.135000 ==>IsSwitchingOccur() prevPhis[ 0]=2.055373, nextPhis[ 0]=2.089734 prevPhis[ 1]=3.944627, nextPhis[ 1]=3.910266 <==IsSwitchingOccur() T = 15.135000 Tnext = 15.140000 Time: 1.51350e+01 states: [ -1.62325e+00 1.95949e+00] derivs: [ 1.95973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.140000 pESO->GetIndependentVar(): 15.140000 ==>IsSwitchingOccur() prevPhis[ 0]=2.089734, nextPhis[ 0]=2.124170 prevPhis[ 1]=3.910266, nextPhis[ 1]=3.875830 <==IsSwitchingOccur() T = 15.140000 Tnext = 15.145000 Time: 1.51400e+01 states: [ -1.61344e+00 1.96449e+00] derivs: [ 1.96473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.145000 pESO->GetIndependentVar(): 15.145000 ==>IsSwitchingOccur() prevPhis[ 0]=2.124170, nextPhis[ 0]=2.158681 prevPhis[ 1]=3.875830, nextPhis[ 1]=3.841319 <==IsSwitchingOccur() T = 15.145000 Tnext = 15.150000 Time: 1.51450e+01 states: [ -1.60360e+00 1.96949e+00] derivs: [ 1.96973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.150000 pESO->GetIndependentVar(): 15.150000 ==>IsSwitchingOccur() prevPhis[ 0]=2.158681, nextPhis[ 0]=2.193267 prevPhis[ 1]=3.841319, nextPhis[ 1]=3.806733 <==IsSwitchingOccur() T = 15.150000 Tnext = 15.155000 Time: 1.51500e+01 states: [ -1.59374e+00 1.97449e+00] derivs: [ 1.97473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.155000 pESO->GetIndependentVar(): 15.155000 ==>IsSwitchingOccur() prevPhis[ 0]=2.193267, nextPhis[ 0]=2.227928 prevPhis[ 1]=3.806733, nextPhis[ 1]=3.772072 <==IsSwitchingOccur() T = 15.155000 Tnext = 15.160000 Time: 1.51550e+01 states: [ -1.58385e+00 1.97949e+00] derivs: [ 1.97973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.160000 pESO->GetIndependentVar(): 15.160000 ==>IsSwitchingOccur() prevPhis[ 0]=2.227928, nextPhis[ 0]=2.262665 prevPhis[ 1]=3.772072, nextPhis[ 1]=3.737335 <==IsSwitchingOccur() T = 15.160000 Tnext = 15.165000 Time: 1.51600e+01 states: [ -1.57394e+00 1.98449e+00] derivs: [ 1.98473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.165000 pESO->GetIndependentVar(): 15.165000 ==>IsSwitchingOccur() prevPhis[ 0]=2.262665, nextPhis[ 0]=2.297476 prevPhis[ 1]=3.737335, nextPhis[ 1]=3.702524 <==IsSwitchingOccur() T = 15.165000 Tnext = 15.170000 Time: 1.51650e+01 states: [ -1.56401e+00 1.98949e+00] derivs: [ 1.98973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.170000 pESO->GetIndependentVar(): 15.170000 ==>IsSwitchingOccur() prevPhis[ 0]=2.297476, nextPhis[ 0]=2.332362 prevPhis[ 1]=3.702524, nextPhis[ 1]=3.667638 <==IsSwitchingOccur() T = 15.170000 Tnext = 15.175000 Time: 1.51700e+01 states: [ -1.55404e+00 1.99449e+00] derivs: [ 1.99473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.175000 pESO->GetIndependentVar(): 15.175000 ==>IsSwitchingOccur() prevPhis[ 0]=2.332362, nextPhis[ 0]=2.367323 prevPhis[ 1]=3.667638, nextPhis[ 1]=3.632677 <==IsSwitchingOccur() T = 15.175000 Tnext = 15.180000 Time: 1.51750e+01 states: [ -1.54406e+00 1.99949e+00] derivs: [ 1.99973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.180000 pESO->GetIndependentVar(): 15.180000 ==>IsSwitchingOccur() prevPhis[ 0]=2.367323, nextPhis[ 0]=2.402359 prevPhis[ 1]=3.632677, nextPhis[ 1]=3.597641 <==IsSwitchingOccur() T = 15.180000 Tnext = 15.185000 Time: 1.51800e+01 states: [ -1.53404e+00 2.00449e+00] derivs: [ 2.00473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.185000 pESO->GetIndependentVar(): 15.185000 ==>IsSwitchingOccur() prevPhis[ 0]=2.402359, nextPhis[ 0]=2.437470 prevPhis[ 1]=3.597641, nextPhis[ 1]=3.562530 <==IsSwitchingOccur() T = 15.185000 Tnext = 15.190000 Time: 1.51850e+01 states: [ -1.52401e+00 2.00949e+00] derivs: [ 2.00973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.190000 pESO->GetIndependentVar(): 15.190000 ==>IsSwitchingOccur() prevPhis[ 0]=2.437470, nextPhis[ 0]=2.472657 prevPhis[ 1]=3.562530, nextPhis[ 1]=3.527343 <==IsSwitchingOccur() T = 15.190000 Tnext = 15.195000 Time: 1.51900e+01 states: [ -1.51395e+00 2.01449e+00] derivs: [ 2.01473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.195000 pESO->GetIndependentVar(): 15.195000 ==>IsSwitchingOccur() prevPhis[ 0]=2.472657, nextPhis[ 0]=2.507918 prevPhis[ 1]=3.527343, nextPhis[ 1]=3.492082 <==IsSwitchingOccur() T = 15.195000 Tnext = 15.200000 Time: 1.51950e+01 states: [ -1.50386e+00 2.01949e+00] derivs: [ 2.01973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.200000 pESO->GetIndependentVar(): 15.200000 ==>IsSwitchingOccur() prevPhis[ 0]=2.507918, nextPhis[ 0]=2.543254 prevPhis[ 1]=3.492082, nextPhis[ 1]=3.456746 <==IsSwitchingOccur() T = 15.200000 Tnext = 15.205000 Time: 1.52000e+01 states: [ -1.49375e+00 2.02449e+00] derivs: [ 2.02473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.205000 pESO->GetIndependentVar(): 15.205000 ==>IsSwitchingOccur() prevPhis[ 0]=2.543254, nextPhis[ 0]=2.578665 prevPhis[ 1]=3.456746, nextPhis[ 1]=3.421335 <==IsSwitchingOccur() T = 15.205000 Tnext = 15.210000 Time: 1.52050e+01 states: [ -1.48361e+00 2.02949e+00] derivs: [ 2.02973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.210000 pESO->GetIndependentVar(): 15.210000 ==>IsSwitchingOccur() prevPhis[ 0]=2.578665, nextPhis[ 0]=2.614151 prevPhis[ 1]=3.421335, nextPhis[ 1]=3.385849 <==IsSwitchingOccur() T = 15.210000 Tnext = 15.215000 Time: 1.52100e+01 states: [ -1.47345e+00 2.03449e+00] derivs: [ 2.03473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.215000 pESO->GetIndependentVar(): 15.215000 ==>IsSwitchingOccur() prevPhis[ 0]=2.614151, nextPhis[ 0]=2.649712 prevPhis[ 1]=3.385849, nextPhis[ 1]=3.350288 <==IsSwitchingOccur() T = 15.215000 Tnext = 15.220000 Time: 1.52150e+01 states: [ -1.46326e+00 2.03949e+00] derivs: [ 2.03973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.220000 pESO->GetIndependentVar(): 15.220000 ==>IsSwitchingOccur() prevPhis[ 0]=2.649712, nextPhis[ 0]=2.685349 prevPhis[ 1]=3.350288, nextPhis[ 1]=3.314651 <==IsSwitchingOccur() T = 15.220000 Tnext = 15.225000 Time: 1.52200e+01 states: [ -1.45305e+00 2.04449e+00] derivs: [ 2.04473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.225000 pESO->GetIndependentVar(): 15.225000 ==>IsSwitchingOccur() prevPhis[ 0]=2.685349, nextPhis[ 0]=2.721060 prevPhis[ 1]=3.314651, nextPhis[ 1]=3.278940 <==IsSwitchingOccur() T = 15.225000 Tnext = 15.230000 Time: 1.52250e+01 states: [ -1.44281e+00 2.04949e+00] derivs: [ 2.04973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.230000 pESO->GetIndependentVar(): 15.230000 ==>IsSwitchingOccur() prevPhis[ 0]=2.721060, nextPhis[ 0]=2.756846 prevPhis[ 1]=3.278940, nextPhis[ 1]=3.243154 <==IsSwitchingOccur() T = 15.230000 Tnext = 15.235000 Time: 1.52300e+01 states: [ -1.43255e+00 2.05449e+00] derivs: [ 2.05473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.235000 pESO->GetIndependentVar(): 15.235000 ==>IsSwitchingOccur() prevPhis[ 0]=2.756846, nextPhis[ 0]=2.792707 prevPhis[ 1]=3.243154, nextPhis[ 1]=3.207293 <==IsSwitchingOccur() T = 15.235000 Tnext = 15.240000 Time: 1.52350e+01 states: [ -1.42226e+00 2.05949e+00] derivs: [ 2.05973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.240000 pESO->GetIndependentVar(): 15.240000 ==>IsSwitchingOccur() prevPhis[ 0]=2.792707, nextPhis[ 0]=2.828643 prevPhis[ 1]=3.207293, nextPhis[ 1]=3.171357 <==IsSwitchingOccur() T = 15.240000 Tnext = 15.245000 Time: 1.52400e+01 states: [ -1.41195e+00 2.06449e+00] derivs: [ 2.06473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.245000 pESO->GetIndependentVar(): 15.245000 ==>IsSwitchingOccur() prevPhis[ 0]=2.828643, nextPhis[ 0]=2.864654 prevPhis[ 1]=3.171357, nextPhis[ 1]=3.135346 <==IsSwitchingOccur() T = 15.245000 Tnext = 15.250000 Time: 1.52450e+01 states: [ -1.40161e+00 2.06949e+00] derivs: [ 2.06973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.250000 pESO->GetIndependentVar(): 15.250000 ==>IsSwitchingOccur() prevPhis[ 0]=2.864654, nextPhis[ 0]=2.900741 prevPhis[ 1]=3.135346, nextPhis[ 1]=3.099259 <==IsSwitchingOccur() T = 15.250000 Tnext = 15.255000 Time: 1.52500e+01 states: [ -1.39125e+00 2.07449e+00] derivs: [ 2.07473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.255000 pESO->GetIndependentVar(): 15.255000 ==>IsSwitchingOccur() prevPhis[ 0]=2.900741, nextPhis[ 0]=2.936902 prevPhis[ 1]=3.099259, nextPhis[ 1]=3.063098 <==IsSwitchingOccur() T = 15.255000 Tnext = 15.260000 Time: 1.52550e+01 states: [ -1.38086e+00 2.07949e+00] derivs: [ 2.07973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.260000 pESO->GetIndependentVar(): 15.260000 ==>IsSwitchingOccur() prevPhis[ 0]=2.936902, nextPhis[ 0]=2.973138 prevPhis[ 1]=3.063098, nextPhis[ 1]=3.026862 <==IsSwitchingOccur() T = 15.260000 Tnext = 15.265000 Time: 1.52600e+01 states: [ -1.37045e+00 2.08449e+00] derivs: [ 2.08473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.265000 pESO->GetIndependentVar(): 15.265000 ==>IsSwitchingOccur() prevPhis[ 0]=2.973138, nextPhis[ 0]=3.009449 prevPhis[ 1]=3.026862, nextPhis[ 1]=2.990551 <==IsSwitchingOccur() T = 15.265000 Tnext = 15.270000 Time: 1.52650e+01 states: [ -1.36001e+00 2.08949e+00] derivs: [ 2.08973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.270000 pESO->GetIndependentVar(): 15.270000 ==>IsSwitchingOccur() prevPhis[ 0]=3.009449, nextPhis[ 0]=3.045835 prevPhis[ 1]=2.990551, nextPhis[ 1]=2.954165 <==IsSwitchingOccur() T = 15.270000 Tnext = 15.275000 Time: 1.52700e+01 states: [ -1.34955e+00 2.09449e+00] derivs: [ 2.09473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.275000 pESO->GetIndependentVar(): 15.275000 ==>IsSwitchingOccur() prevPhis[ 0]=3.045835, nextPhis[ 0]=3.082296 prevPhis[ 1]=2.954165, nextPhis[ 1]=2.917704 <==IsSwitchingOccur() T = 15.275000 Tnext = 15.280000 Time: 1.52750e+01 states: [ -1.33907e+00 2.09949e+00] derivs: [ 2.09973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.280000 pESO->GetIndependentVar(): 15.280000 ==>IsSwitchingOccur() prevPhis[ 0]=3.082296, nextPhis[ 0]=3.118833 prevPhis[ 1]=2.917704, nextPhis[ 1]=2.881167 <==IsSwitchingOccur() T = 15.280000 Tnext = 15.285000 Time: 1.52800e+01 states: [ -1.32855e+00 2.10449e+00] derivs: [ 2.10473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.285000 pESO->GetIndependentVar(): 15.285000 ==>IsSwitchingOccur() prevPhis[ 0]=3.118833, nextPhis[ 0]=3.155444 prevPhis[ 1]=2.881167, nextPhis[ 1]=2.844556 <==IsSwitchingOccur() T = 15.285000 Tnext = 15.290000 Time: 1.52850e+01 states: [ -1.31802e+00 2.10949e+00] derivs: [ 2.10973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.290000 pESO->GetIndependentVar(): 15.290000 ==>IsSwitchingOccur() prevPhis[ 0]=3.155444, nextPhis[ 0]=3.192130 prevPhis[ 1]=2.844556, nextPhis[ 1]=2.807870 <==IsSwitchingOccur() T = 15.290000 Tnext = 15.295000 Time: 1.52900e+01 states: [ -1.30745e+00 2.11449e+00] derivs: [ 2.11473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.295000 pESO->GetIndependentVar(): 15.295000 ==>IsSwitchingOccur() prevPhis[ 0]=3.192130, nextPhis[ 0]=3.228891 prevPhis[ 1]=2.807870, nextPhis[ 1]=2.771109 <==IsSwitchingOccur() T = 15.295000 Tnext = 15.300000 Time: 1.52950e+01 states: [ -1.29687e+00 2.11949e+00] derivs: [ 2.11973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.300000 pESO->GetIndependentVar(): 15.300000 ==>IsSwitchingOccur() prevPhis[ 0]=3.228891, nextPhis[ 0]=3.265727 prevPhis[ 1]=2.771109, nextPhis[ 1]=2.734273 <==IsSwitchingOccur() T = 15.300000 Tnext = 15.305000 Time: 1.53000e+01 states: [ -1.28626e+00 2.12449e+00] derivs: [ 2.12473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.305000 pESO->GetIndependentVar(): 15.305000 ==>IsSwitchingOccur() prevPhis[ 0]=3.265727, nextPhis[ 0]=3.302638 prevPhis[ 1]=2.734273, nextPhis[ 1]=2.697362 <==IsSwitchingOccur() T = 15.305000 Tnext = 15.310000 Time: 1.53050e+01 states: [ -1.27562e+00 2.12949e+00] derivs: [ 2.12973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.310000 pESO->GetIndependentVar(): 15.310000 ==>IsSwitchingOccur() prevPhis[ 0]=3.302638, nextPhis[ 0]=3.339625 prevPhis[ 1]=2.697362, nextPhis[ 1]=2.660375 <==IsSwitchingOccur() T = 15.310000 Tnext = 15.315000 Time: 1.53100e+01 states: [ -1.26496e+00 2.13449e+00] derivs: [ 2.13473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.315000 pESO->GetIndependentVar(): 15.315000 ==>IsSwitchingOccur() prevPhis[ 0]=3.339625, nextPhis[ 0]=3.376686 prevPhis[ 1]=2.660375, nextPhis[ 1]=2.623314 <==IsSwitchingOccur() T = 15.315000 Tnext = 15.320000 Time: 1.53150e+01 states: [ -1.25427e+00 2.13949e+00] derivs: [ 2.13973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.320000 pESO->GetIndependentVar(): 15.320000 ==>IsSwitchingOccur() prevPhis[ 0]=3.376686, nextPhis[ 0]=3.413822 prevPhis[ 1]=2.623314, nextPhis[ 1]=2.586178 <==IsSwitchingOccur() T = 15.320000 Tnext = 15.325000 Time: 1.53200e+01 states: [ -1.24356e+00 2.14449e+00] derivs: [ 2.14473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.325000 pESO->GetIndependentVar(): 15.325000 ==>IsSwitchingOccur() prevPhis[ 0]=3.413822, nextPhis[ 0]=3.451033 prevPhis[ 1]=2.586178, nextPhis[ 1]=2.548967 <==IsSwitchingOccur() T = 15.325000 Tnext = 15.330000 Time: 1.53250e+01 states: [ -1.23282e+00 2.14949e+00] derivs: [ 2.14973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.330000 pESO->GetIndependentVar(): 15.330000 ==>IsSwitchingOccur() prevPhis[ 0]=3.451033, nextPhis[ 0]=3.488319 prevPhis[ 1]=2.548967, nextPhis[ 1]=2.511681 <==IsSwitchingOccur() T = 15.330000 Tnext = 15.335000 Time: 1.53300e+01 states: [ -1.22206e+00 2.15449e+00] derivs: [ 2.15473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.335000 pESO->GetIndependentVar(): 15.335000 ==>IsSwitchingOccur() prevPhis[ 0]=3.488319, nextPhis[ 0]=3.525680 prevPhis[ 1]=2.511681, nextPhis[ 1]=2.474320 <==IsSwitchingOccur() T = 15.335000 Tnext = 15.340000 Time: 1.53350e+01 states: [ -1.21127e+00 2.15949e+00] derivs: [ 2.15973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.340000 pESO->GetIndependentVar(): 15.340000 ==>IsSwitchingOccur() prevPhis[ 0]=3.525680, nextPhis[ 0]=3.563116 prevPhis[ 1]=2.474320, nextPhis[ 1]=2.436884 <==IsSwitchingOccur() T = 15.340000 Tnext = 15.345000 Time: 1.53400e+01 states: [ -1.20046e+00 2.16449e+00] derivs: [ 2.16473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.345000 pESO->GetIndependentVar(): 15.345000 ==>IsSwitchingOccur() prevPhis[ 0]=3.563116, nextPhis[ 0]=3.600628 prevPhis[ 1]=2.436884, nextPhis[ 1]=2.399372 <==IsSwitchingOccur() T = 15.345000 Tnext = 15.350000 Time: 1.53450e+01 states: [ -1.18962e+00 2.16949e+00] derivs: [ 2.16973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.350000 pESO->GetIndependentVar(): 15.350000 ==>IsSwitchingOccur() prevPhis[ 0]=3.600628, nextPhis[ 0]=3.638214 prevPhis[ 1]=2.399372, nextPhis[ 1]=2.361786 <==IsSwitchingOccur() T = 15.350000 Tnext = 15.355000 Time: 1.53500e+01 states: [ -1.17876e+00 2.17449e+00] derivs: [ 2.17473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.355000 pESO->GetIndependentVar(): 15.355000 ==>IsSwitchingOccur() prevPhis[ 0]=3.638214, nextPhis[ 0]=3.675875 prevPhis[ 1]=2.361786, nextPhis[ 1]=2.324125 <==IsSwitchingOccur() T = 15.355000 Tnext = 15.360000 Time: 1.53550e+01 states: [ -1.16787e+00 2.17949e+00] derivs: [ 2.17973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.360000 pESO->GetIndependentVar(): 15.360000 ==>IsSwitchingOccur() prevPhis[ 0]=3.675875, nextPhis[ 0]=3.713611 prevPhis[ 1]=2.324125, nextPhis[ 1]=2.286389 <==IsSwitchingOccur() T = 15.360000 Tnext = 15.365000 Time: 1.53600e+01 states: [ -1.15696e+00 2.18449e+00] derivs: [ 2.18473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.365000 pESO->GetIndependentVar(): 15.365000 ==>IsSwitchingOccur() prevPhis[ 0]=3.713611, nextPhis[ 0]=3.751422 prevPhis[ 1]=2.286389, nextPhis[ 1]=2.248578 <==IsSwitchingOccur() T = 15.365000 Tnext = 15.370000 Time: 1.53650e+01 states: [ -1.14602e+00 2.18949e+00] derivs: [ 2.18973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.370000 pESO->GetIndependentVar(): 15.370000 ==>IsSwitchingOccur() prevPhis[ 0]=3.751422, nextPhis[ 0]=3.789308 prevPhis[ 1]=2.248578, nextPhis[ 1]=2.210692 <==IsSwitchingOccur() T = 15.370000 Tnext = 15.375000 Time: 1.53700e+01 states: [ -1.13506e+00 2.19449e+00] derivs: [ 2.19473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.375000 pESO->GetIndependentVar(): 15.375000 ==>IsSwitchingOccur() prevPhis[ 0]=3.789308, nextPhis[ 0]=3.827270 prevPhis[ 1]=2.210692, nextPhis[ 1]=2.172730 <==IsSwitchingOccur() T = 15.375000 Tnext = 15.380000 Time: 1.53750e+01 states: [ -1.12407e+00 2.19949e+00] derivs: [ 2.19973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.380000 pESO->GetIndependentVar(): 15.380000 ==>IsSwitchingOccur() prevPhis[ 0]=3.827270, nextPhis[ 0]=3.865306 prevPhis[ 1]=2.172730, nextPhis[ 1]=2.134694 <==IsSwitchingOccur() T = 15.380000 Tnext = 15.385000 Time: 1.53800e+01 states: [ -1.11306e+00 2.20449e+00] derivs: [ 2.20473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.385000 pESO->GetIndependentVar(): 15.385000 ==>IsSwitchingOccur() prevPhis[ 0]=3.865306, nextPhis[ 0]=3.903417 prevPhis[ 1]=2.134694, nextPhis[ 1]=2.096583 <==IsSwitchingOccur() T = 15.385000 Tnext = 15.390000 Time: 1.53850e+01 states: [ -1.10203e+00 2.20949e+00] derivs: [ 2.20973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.390000 pESO->GetIndependentVar(): 15.390000 ==>IsSwitchingOccur() prevPhis[ 0]=3.903417, nextPhis[ 0]=3.941603 prevPhis[ 1]=2.096583, nextPhis[ 1]=2.058397 <==IsSwitchingOccur() T = 15.390000 Tnext = 15.395000 Time: 1.53900e+01 states: [ -1.09096e+00 2.21449e+00] derivs: [ 2.21473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.395000 pESO->GetIndependentVar(): 15.395000 ==>IsSwitchingOccur() prevPhis[ 0]=3.941603, nextPhis[ 0]=3.979864 prevPhis[ 1]=2.058397, nextPhis[ 1]=2.020136 <==IsSwitchingOccur() T = 15.395000 Tnext = 15.400000 Time: 1.53950e+01 states: [ -1.07988e+00 2.21949e+00] derivs: [ 2.21973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.400000 pESO->GetIndependentVar(): 15.400000 ==>IsSwitchingOccur() prevPhis[ 0]=3.979864, nextPhis[ 0]=4.018200 prevPhis[ 1]=2.020136, nextPhis[ 1]=1.981800 <==IsSwitchingOccur() T = 15.400000 Tnext = 15.405000 Time: 1.54000e+01 states: [ -1.06876e+00 2.22449e+00] derivs: [ 2.22473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.405000 pESO->GetIndependentVar(): 15.405000 ==>IsSwitchingOccur() prevPhis[ 0]=4.018200, nextPhis[ 0]=4.056612 prevPhis[ 1]=1.981800, nextPhis[ 1]=1.943388 <==IsSwitchingOccur() T = 15.405000 Tnext = 15.410000 Time: 1.54050e+01 states: [ -1.05763e+00 2.22949e+00] derivs: [ 2.22973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.410000 pESO->GetIndependentVar(): 15.410000 ==>IsSwitchingOccur() prevPhis[ 0]=4.056612, nextPhis[ 0]=4.095098 prevPhis[ 1]=1.943388, nextPhis[ 1]=1.904902 <==IsSwitchingOccur() T = 15.410000 Tnext = 15.415000 Time: 1.54100e+01 states: [ -1.04646e+00 2.23449e+00] derivs: [ 2.23473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.415000 pESO->GetIndependentVar(): 15.415000 ==>IsSwitchingOccur() prevPhis[ 0]=4.095098, nextPhis[ 0]=4.133659 prevPhis[ 1]=1.904902, nextPhis[ 1]=1.866341 <==IsSwitchingOccur() T = 15.415000 Tnext = 15.420000 Time: 1.54150e+01 states: [ -1.03528e+00 2.23949e+00] derivs: [ 2.23973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.420000 pESO->GetIndependentVar(): 15.420000 ==>IsSwitchingOccur() prevPhis[ 0]=4.133659, nextPhis[ 0]=4.172295 prevPhis[ 1]=1.866341, nextPhis[ 1]=1.827705 <==IsSwitchingOccur() T = 15.420000 Tnext = 15.425000 Time: 1.54200e+01 states: [ -1.02407e+00 2.24449e+00] derivs: [ 2.24473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.425000 pESO->GetIndependentVar(): 15.425000 ==>IsSwitchingOccur() prevPhis[ 0]=4.172295, nextPhis[ 0]=4.211006 prevPhis[ 1]=1.827705, nextPhis[ 1]=1.788994 <==IsSwitchingOccur() T = 15.425000 Tnext = 15.430000 Time: 1.54250e+01 states: [ -1.01283e+00 2.24949e+00] derivs: [ 2.24973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.430000 pESO->GetIndependentVar(): 15.430000 ==>IsSwitchingOccur() prevPhis[ 0]=4.211006, nextPhis[ 0]=4.249792 prevPhis[ 1]=1.788994, nextPhis[ 1]=1.750208 <==IsSwitchingOccur() T = 15.430000 Tnext = 15.435000 Time: 1.54300e+01 states: [ -1.00157e+00 2.25449e+00] derivs: [ 2.25473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.435000 pESO->GetIndependentVar(): 15.435000 ==>IsSwitchingOccur() prevPhis[ 0]=4.249792, nextPhis[ 0]=4.288654 prevPhis[ 1]=1.750208, nextPhis[ 1]=1.711346 <==IsSwitchingOccur() T = 15.435000 Tnext = 15.440000 Time: 1.54350e+01 states: [ -9.90280e-01 2.25949e+00] derivs: [ 2.25973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.440000 pESO->GetIndependentVar(): 15.440000 ==>IsSwitchingOccur() prevPhis[ 0]=4.288654, nextPhis[ 0]=4.327590 prevPhis[ 1]=1.711346, nextPhis[ 1]=1.672410 <==IsSwitchingOccur() T = 15.440000 Tnext = 15.445000 Time: 1.54400e+01 states: [ -9.78968e-01 2.26449e+00] derivs: [ 2.26473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.445000 pESO->GetIndependentVar(): 15.445000 ==>IsSwitchingOccur() prevPhis[ 0]=4.327590, nextPhis[ 0]=4.366601 prevPhis[ 1]=1.672410, nextPhis[ 1]=1.633399 <==IsSwitchingOccur() T = 15.445000 Tnext = 15.450000 Time: 1.54450e+01 states: [ -9.67630e-01 2.26949e+00] derivs: [ 2.26973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.450000 pESO->GetIndependentVar(): 15.450000 ==>IsSwitchingOccur() prevPhis[ 0]=4.366601, nextPhis[ 0]=4.405687 prevPhis[ 1]=1.633399, nextPhis[ 1]=1.594313 <==IsSwitchingOccur() T = 15.450000 Tnext = 15.455000 Time: 1.54500e+01 states: [ -9.56268e-01 2.27449e+00] derivs: [ 2.27473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.455000 pESO->GetIndependentVar(): 15.455000 ==>IsSwitchingOccur() prevPhis[ 0]=4.405687, nextPhis[ 0]=4.444848 prevPhis[ 1]=1.594313, nextPhis[ 1]=1.555152 <==IsSwitchingOccur() T = 15.455000 Tnext = 15.460000 Time: 1.54550e+01 states: [ -9.44881e-01 2.27949e+00] derivs: [ 2.27973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.460000 pESO->GetIndependentVar(): 15.460000 ==>IsSwitchingOccur() prevPhis[ 0]=4.444848, nextPhis[ 0]=4.484084 prevPhis[ 1]=1.555152, nextPhis[ 1]=1.515916 <==IsSwitchingOccur() T = 15.460000 Tnext = 15.465000 Time: 1.54600e+01 states: [ -9.33469e-01 2.28449e+00] derivs: [ 2.28473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.465000 pESO->GetIndependentVar(): 15.465000 ==>IsSwitchingOccur() prevPhis[ 0]=4.484084, nextPhis[ 0]=4.523396 prevPhis[ 1]=1.515916, nextPhis[ 1]=1.476604 <==IsSwitchingOccur() T = 15.465000 Tnext = 15.470000 Time: 1.54650e+01 states: [ -9.22032e-01 2.28949e+00] derivs: [ 2.28973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.470000 pESO->GetIndependentVar(): 15.470000 ==>IsSwitchingOccur() prevPhis[ 0]=4.523396, nextPhis[ 0]=4.562782 prevPhis[ 1]=1.476604, nextPhis[ 1]=1.437218 <==IsSwitchingOccur() T = 15.470000 Tnext = 15.475000 Time: 1.54700e+01 states: [ -9.10570e-01 2.29449e+00] derivs: [ 2.29473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.475000 pESO->GetIndependentVar(): 15.475000 ==>IsSwitchingOccur() prevPhis[ 0]=4.562782, nextPhis[ 0]=4.602243 prevPhis[ 1]=1.437218, nextPhis[ 1]=1.397757 <==IsSwitchingOccur() T = 15.475000 Tnext = 15.480000 Time: 1.54750e+01 states: [ -8.99083e-01 2.29949e+00] derivs: [ 2.29973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.480000 pESO->GetIndependentVar(): 15.480000 ==>IsSwitchingOccur() prevPhis[ 0]=4.602243, nextPhis[ 0]=4.641779 prevPhis[ 1]=1.397757, nextPhis[ 1]=1.358221 <==IsSwitchingOccur() T = 15.480000 Tnext = 15.485000 Time: 1.54800e+01 states: [ -8.87571e-01 2.30449e+00] derivs: [ 2.30473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.485000 pESO->GetIndependentVar(): 15.485000 ==>IsSwitchingOccur() prevPhis[ 0]=4.641779, nextPhis[ 0]=4.681390 prevPhis[ 1]=1.358221, nextPhis[ 1]=1.318610 <==IsSwitchingOccur() T = 15.485000 Tnext = 15.490000 Time: 1.54850e+01 states: [ -8.76034e-01 2.30949e+00] derivs: [ 2.30973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.490000 pESO->GetIndependentVar(): 15.490000 ==>IsSwitchingOccur() prevPhis[ 0]=4.681390, nextPhis[ 0]=4.721076 prevPhis[ 1]=1.318610, nextPhis[ 1]=1.278924 <==IsSwitchingOccur() T = 15.490000 Tnext = 15.495000 Time: 1.54900e+01 states: [ -8.64472e-01 2.31449e+00] derivs: [ 2.31473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.495000 pESO->GetIndependentVar(): 15.495000 ==>IsSwitchingOccur() prevPhis[ 0]=4.721076, nextPhis[ 0]=4.760838 prevPhis[ 1]=1.278924, nextPhis[ 1]=1.239162 <==IsSwitchingOccur() T = 15.495000 Tnext = 15.500000 Time: 1.54950e+01 states: [ -8.52885e-01 2.31949e+00] derivs: [ 2.31973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.500000 pESO->GetIndependentVar(): 15.500000 ==>IsSwitchingOccur() prevPhis[ 0]=4.760838, nextPhis[ 0]=4.800674 prevPhis[ 1]=1.239162, nextPhis[ 1]=1.199326 <==IsSwitchingOccur() T = 15.500000 Tnext = 15.505000 Time: 1.55000e+01 states: [ -8.41273e-01 2.32449e+00] derivs: [ 2.32473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.505000 pESO->GetIndependentVar(): 15.505000 ==>IsSwitchingOccur() prevPhis[ 0]=4.800674, nextPhis[ 0]=4.840585 prevPhis[ 1]=1.199326, nextPhis[ 1]=1.159415 <==IsSwitchingOccur() T = 15.505000 Tnext = 15.510000 Time: 1.55050e+01 states: [ -8.29636e-01 2.32949e+00] derivs: [ 2.32973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.510000 pESO->GetIndependentVar(): 15.510000 ==>IsSwitchingOccur() prevPhis[ 0]=4.840585, nextPhis[ 0]=4.880571 prevPhis[ 1]=1.159415, nextPhis[ 1]=1.119429 <==IsSwitchingOccur() T = 15.510000 Tnext = 15.515000 Time: 1.55100e+01 states: [ -8.17974e-01 2.33449e+00] derivs: [ 2.33473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.515000 pESO->GetIndependentVar(): 15.515000 ==>IsSwitchingOccur() prevPhis[ 0]=4.880571, nextPhis[ 0]=4.920632 prevPhis[ 1]=1.119429, nextPhis[ 1]=1.079368 <==IsSwitchingOccur() T = 15.515000 Tnext = 15.520000 Time: 1.55150e+01 states: [ -8.06287e-01 2.33949e+00] derivs: [ 2.33973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.520000 pESO->GetIndependentVar(): 15.520000 ==>IsSwitchingOccur() prevPhis[ 0]=4.920632, nextPhis[ 0]=4.960768 prevPhis[ 1]=1.079368, nextPhis[ 1]=1.039232 <==IsSwitchingOccur() T = 15.520000 Tnext = 15.525000 Time: 1.55200e+01 states: [ -7.94575e-01 2.34449e+00] derivs: [ 2.34473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.525000 pESO->GetIndependentVar(): 15.525000 ==>IsSwitchingOccur() prevPhis[ 0]=4.960768, nextPhis[ 0]=5.000979 prevPhis[ 1]=1.039232, nextPhis[ 1]=0.999021 <==IsSwitchingOccur() T = 15.525000 Tnext = 15.530000 Time: 1.55250e+01 states: [ -7.82838e-01 2.34949e+00] derivs: [ 2.34973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.530000 pESO->GetIndependentVar(): 15.530000 ==>IsSwitchingOccur() prevPhis[ 0]=5.000979, nextPhis[ 0]=5.041266 prevPhis[ 1]=0.999021, nextPhis[ 1]=0.958734 <==IsSwitchingOccur() T = 15.530000 Tnext = 15.535000 Time: 1.55300e+01 states: [ -7.71076e-01 2.35449e+00] derivs: [ 2.35473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.535000 pESO->GetIndependentVar(): 15.535000 ==>IsSwitchingOccur() prevPhis[ 0]=5.041266, nextPhis[ 0]=5.081627 prevPhis[ 1]=0.958734, nextPhis[ 1]=0.918373 <==IsSwitchingOccur() T = 15.535000 Tnext = 15.540000 Time: 1.55350e+01 states: [ -7.59288e-01 2.35949e+00] derivs: [ 2.35973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.540000 pESO->GetIndependentVar(): 15.540000 ==>IsSwitchingOccur() prevPhis[ 0]=5.081627, nextPhis[ 0]=5.122063 prevPhis[ 1]=0.918373, nextPhis[ 1]=0.877937 <==IsSwitchingOccur() T = 15.540000 Tnext = 15.545000 Time: 1.55400e+01 states: [ -7.47476e-01 2.36449e+00] derivs: [ 2.36473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.545000 pESO->GetIndependentVar(): 15.545000 ==>IsSwitchingOccur() prevPhis[ 0]=5.122063, nextPhis[ 0]=5.162574 prevPhis[ 1]=0.877937, nextPhis[ 1]=0.837426 <==IsSwitchingOccur() T = 15.545000 Tnext = 15.550000 Time: 1.55450e+01 states: [ -7.35639e-01 2.36949e+00] derivs: [ 2.36973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.550000 pESO->GetIndependentVar(): 15.550000 ==>IsSwitchingOccur() prevPhis[ 0]=5.162574, nextPhis[ 0]=5.203160 prevPhis[ 1]=0.837426, nextPhis[ 1]=0.796840 <==IsSwitchingOccur() T = 15.550000 Tnext = 15.555000 Time: 1.55500e+01 states: [ -7.23777e-01 2.37449e+00] derivs: [ 2.37473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.555000 pESO->GetIndependentVar(): 15.555000 ==>IsSwitchingOccur() prevPhis[ 0]=5.203160, nextPhis[ 0]=5.243821 prevPhis[ 1]=0.796840, nextPhis[ 1]=0.756179 <==IsSwitchingOccur() T = 15.555000 Tnext = 15.560000 Time: 1.55550e+01 states: [ -7.11890e-01 2.37949e+00] derivs: [ 2.37973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.560000 pESO->GetIndependentVar(): 15.560000 ==>IsSwitchingOccur() prevPhis[ 0]=5.243821, nextPhis[ 0]=5.284558 prevPhis[ 1]=0.756179, nextPhis[ 1]=0.715442 <==IsSwitchingOccur() T = 15.560000 Tnext = 15.565000 Time: 1.55600e+01 states: [ -6.99978e-01 2.38449e+00] derivs: [ 2.38473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.565000 pESO->GetIndependentVar(): 15.565000 ==>IsSwitchingOccur() prevPhis[ 0]=5.284558, nextPhis[ 0]=5.325369 prevPhis[ 1]=0.715442, nextPhis[ 1]=0.674631 <==IsSwitchingOccur() T = 15.565000 Tnext = 15.570000 Time: 1.55650e+01 states: [ -6.88041e-01 2.38949e+00] derivs: [ 2.38973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.570000 pESO->GetIndependentVar(): 15.570000 ==>IsSwitchingOccur() prevPhis[ 0]=5.325369, nextPhis[ 0]=5.366255 prevPhis[ 1]=0.674631, nextPhis[ 1]=0.633745 <==IsSwitchingOccur() T = 15.570000 Tnext = 15.575000 Time: 1.55700e+01 states: [ -6.76079e-01 2.39449e+00] derivs: [ 2.39473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.575000 pESO->GetIndependentVar(): 15.575000 ==>IsSwitchingOccur() prevPhis[ 0]=5.366255, nextPhis[ 0]=5.407216 prevPhis[ 1]=0.633745, nextPhis[ 1]=0.592784 <==IsSwitchingOccur() T = 15.575000 Tnext = 15.580000 Time: 1.55750e+01 states: [ -6.64092e-01 2.39949e+00] derivs: [ 2.39973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.580000 pESO->GetIndependentVar(): 15.580000 ==>IsSwitchingOccur() prevPhis[ 0]=5.407216, nextPhis[ 0]=5.448252 prevPhis[ 1]=0.592784, nextPhis[ 1]=0.551748 <==IsSwitchingOccur() T = 15.580000 Tnext = 15.585000 Time: 1.55800e+01 states: [ -6.52080e-01 2.40449e+00] derivs: [ 2.40473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.585000 pESO->GetIndependentVar(): 15.585000 ==>IsSwitchingOccur() prevPhis[ 0]=5.448252, nextPhis[ 0]=5.489363 prevPhis[ 1]=0.551748, nextPhis[ 1]=0.510637 <==IsSwitchingOccur() T = 15.585000 Tnext = 15.590000 Time: 1.55850e+01 states: [ -6.40043e-01 2.40949e+00] derivs: [ 2.40973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.590000 pESO->GetIndependentVar(): 15.590000 ==>IsSwitchingOccur() prevPhis[ 0]=5.489363, nextPhis[ 0]=5.530550 prevPhis[ 1]=0.510637, nextPhis[ 1]=0.469450 <==IsSwitchingOccur() T = 15.590000 Tnext = 15.595000 Time: 1.55900e+01 states: [ -6.27981e-01 2.41449e+00] derivs: [ 2.41473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.595000 pESO->GetIndependentVar(): 15.595000 ==>IsSwitchingOccur() prevPhis[ 0]=5.530550, nextPhis[ 0]=5.571811 prevPhis[ 1]=0.469450, nextPhis[ 1]=0.428189 <==IsSwitchingOccur() T = 15.595000 Tnext = 15.600000 Time: 1.55950e+01 states: [ -6.15894e-01 2.41949e+00] derivs: [ 2.41973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.600000 pESO->GetIndependentVar(): 15.600000 ==>IsSwitchingOccur() prevPhis[ 0]=5.571811, nextPhis[ 0]=5.613147 prevPhis[ 1]=0.428189, nextPhis[ 1]=0.386853 <==IsSwitchingOccur() T = 15.600000 Tnext = 15.605000 Time: 1.56000e+01 states: [ -6.03782e-01 2.42449e+00] derivs: [ 2.42473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.605000 pESO->GetIndependentVar(): 15.605000 ==>IsSwitchingOccur() prevPhis[ 0]=5.613147, nextPhis[ 0]=5.654558 prevPhis[ 1]=0.386853, nextPhis[ 1]=0.345442 <==IsSwitchingOccur() T = 15.605000 Tnext = 15.610000 Time: 1.56050e+01 states: [ -5.91645e-01 2.42949e+00] derivs: [ 2.42973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.610000 pESO->GetIndependentVar(): 15.610000 ==>IsSwitchingOccur() prevPhis[ 0]=5.654558, nextPhis[ 0]=5.696044 prevPhis[ 1]=0.345442, nextPhis[ 1]=0.303956 <==IsSwitchingOccur() T = 15.610000 Tnext = 15.615000 Time: 1.56100e+01 states: [ -5.79483e-01 2.43449e+00] derivs: [ 2.43473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.615000 pESO->GetIndependentVar(): 15.615000 ==>IsSwitchingOccur() prevPhis[ 0]=5.696044, nextPhis[ 0]=5.737605 prevPhis[ 1]=0.303956, nextPhis[ 1]=0.262395 <==IsSwitchingOccur() T = 15.615000 Tnext = 15.620000 Time: 1.56150e+01 states: [ -5.67296e-01 2.43949e+00] derivs: [ 2.43973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.620000 pESO->GetIndependentVar(): 15.620000 ==>IsSwitchingOccur() prevPhis[ 0]=5.737605, nextPhis[ 0]=5.779242 prevPhis[ 1]=0.262395, nextPhis[ 1]=0.220758 <==IsSwitchingOccur() T = 15.620000 Tnext = 15.625000 Time: 1.56200e+01 states: [ -5.55084e-01 2.44449e+00] derivs: [ 2.44473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.625000 pESO->GetIndependentVar(): 15.625000 ==>IsSwitchingOccur() prevPhis[ 0]=5.779242, nextPhis[ 0]=5.820953 prevPhis[ 1]=0.220758, nextPhis[ 1]=0.179047 <==IsSwitchingOccur() T = 15.625000 Tnext = 15.630000 Time: 1.56250e+01 states: [ -5.42847e-01 2.44949e+00] derivs: [ 2.44973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.630000 pESO->GetIndependentVar(): 15.630000 ==>IsSwitchingOccur() prevPhis[ 0]=5.820953, nextPhis[ 0]=5.862739 prevPhis[ 1]=0.179047, nextPhis[ 1]=0.137261 <==IsSwitchingOccur() T = 15.630000 Tnext = 15.635000 Time: 1.56300e+01 states: [ -5.30584e-01 2.45449e+00] derivs: [ 2.45473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.635000 pESO->GetIndependentVar(): 15.635000 ==>IsSwitchingOccur() prevPhis[ 0]=5.862739, nextPhis[ 0]=5.904600 prevPhis[ 1]=0.137261, nextPhis[ 1]=0.095400 <==IsSwitchingOccur() T = 15.635000 Tnext = 15.640000 Time: 1.56350e+01 states: [ -5.18297e-01 2.45949e+00] derivs: [ 2.45973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.640000 pESO->GetIndependentVar(): 15.640000 ==>IsSwitchingOccur() prevPhis[ 0]=5.904600, nextPhis[ 0]=5.946536 prevPhis[ 1]=0.095400, nextPhis[ 1]=0.053464 <==IsSwitchingOccur() T = 15.640000 Tnext = 15.645000 Time: 1.56400e+01 states: [ -5.05985e-01 2.46449e+00] derivs: [ 2.46473e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.645000 pESO->GetIndependentVar(): 15.645000 ==>IsSwitchingOccur() prevPhis[ 0]=5.946536, nextPhis[ 0]=5.988547 prevPhis[ 1]=0.053464, nextPhis[ 1]=0.011453 <==IsSwitchingOccur() T = 15.645000 Tnext = 15.650000 Time: 1.56450e+01 states: [ -4.93648e-01 2.46949e+00] derivs: [ 2.46973e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988547, nextPhis[ 0]=6.030634 prevPhis[ 1]=0.011453, nextPhis[ 1]=-0.030634 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.030634 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.051705 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.041166 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.035899 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.033266 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.031950 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.031292 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.030963 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.493552, 2.469531, -6.171290, -2.264810, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=21.778680 b=-8.408673 dts/dp=[2.590026, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [-0.493552, 2.469531, -6.171290, -2.264810, ] AllSensVars (befor 2-nd IC recalculation):[-0.493552, 2.469531, -6.171222, 2.915242, ] AllSensDers (befor 2-nd IC recalculation):[2.469531, -1.000000, -2.264810, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[-0.493552, 2.469531, -6.171222, 2.915242, ] AllSensDers (after 2-nd IC recalculation):[2.469531, -1.000000, 2.915242, -0.000000, ] <==RecalculateSensIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988876, nextPhis[ 0]=6.020875 prevPhis[ 1]=0.011124, nextPhis[ 1]=-0.020875 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.020875 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.036846 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.028864 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.024870 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.022873 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.021874 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.021374 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.021125 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.493455, 2.469492, -6.171108, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.598081 b=-6.408397 dts/dp=[2.590052, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989126, nextPhis[ 0]=6.021125 prevPhis[ 1]=0.010874, nextPhis[ 1]=-0.021125 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.021125 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.037096 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.029113 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.025120 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.023122 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.022124 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.021624 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.021374 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.493359, 2.469453, -6.170994, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.597740 b=-6.408280 dts/dp=[2.590046, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989376, nextPhis[ 0]=6.021374 prevPhis[ 1]=0.010624, nextPhis[ 1]=-0.021374 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.021374 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.037345 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.029363 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.025369 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.023372 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.022373 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.021874 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.021624 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.493262, 2.469414, -6.170880, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.597398 b=-6.408163 dts/dp=[2.590040, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989627, nextPhis[ 0]=6.021624 prevPhis[ 1]=0.010373, nextPhis[ 1]=-0.021624 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.021624 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.037595 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.029612 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.025619 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.023622 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.022623 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.022124 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.021874 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.493166, 2.469375, -6.170766, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.597057 b=-6.408046 dts/dp=[2.590034, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989877, nextPhis[ 0]=6.021874 prevPhis[ 1]=0.010123, nextPhis[ 1]=-0.021874 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.021874 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.037844 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.029862 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.025869 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.023872 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.022873 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.022373 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.022124 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.493070, 2.469336, -6.170652, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.596715 b=-6.407929 dts/dp=[2.590028, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990127, nextPhis[ 0]=6.022124 prevPhis[ 1]=0.009873, nextPhis[ 1]=-0.022124 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.022124 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.038094 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.030111 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.026118 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.024121 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.023123 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.022623 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.022373 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492973, 2.469297, -6.170538, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.596373 b=-6.407811 dts/dp=[2.590022, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990378, nextPhis[ 0]=6.022373 prevPhis[ 1]=0.009622, nextPhis[ 1]=-0.022373 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.022373 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.038343 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.030361 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.026368 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.024371 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.023372 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.022873 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.022623 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492877, 2.469258, -6.170424, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.596032 b=-6.407694 dts/dp=[2.590016, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990628, nextPhis[ 0]=6.022623 prevPhis[ 1]=0.009372, nextPhis[ 1]=-0.022623 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.022623 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.038592 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.030611 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.026618 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.024621 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.023622 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.023123 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.022873 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492780, 2.469219, -6.170311, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.595690 b=-6.407577 dts/dp=[2.590010, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990878, nextPhis[ 0]=6.022873 prevPhis[ 1]=0.009122, nextPhis[ 1]=-0.022873 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.022873 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.038842 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.030860 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.026867 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.024870 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.023872 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.023372 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.023123 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492684, 2.469180, -6.170197, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.595348 b=-6.407460 dts/dp=[2.590004, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991129, nextPhis[ 0]=6.023123 prevPhis[ 1]=0.008871, nextPhis[ 1]=-0.023123 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.023123 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.039091 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.031110 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.027117 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.025120 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.024121 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.023622 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.023372 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492587, 2.469141, -6.170083, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.595007 b=-6.407343 dts/dp=[2.589998, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991379, nextPhis[ 0]=6.023372 prevPhis[ 1]=0.008621, nextPhis[ 1]=-0.023372 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.023372 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.039341 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.031359 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.027367 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.025370 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.024371 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.023872 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.023622 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492491, 2.469102, -6.169969, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.594665 b=-6.407226 dts/dp=[2.589992, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991629, nextPhis[ 0]=6.023622 prevPhis[ 1]=0.008371, nextPhis[ 1]=-0.023622 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.023622 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.039590 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.031609 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.027616 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.025619 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.024621 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.024121 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.023872 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492394, 2.469063, -6.169855, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.594324 b=-6.407108 dts/dp=[2.589986, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991879, nextPhis[ 0]=6.023872 prevPhis[ 1]=0.008121, nextPhis[ 1]=-0.023872 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.023872 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.039840 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.031858 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.027866 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.025869 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.024870 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.024371 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.024121 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492298, 2.469024, -6.169741, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.593982 b=-6.406991 dts/dp=[2.589980, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992130, nextPhis[ 0]=6.024121 prevPhis[ 1]=0.007870, nextPhis[ 1]=-0.024121 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.024121 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.040089 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.032108 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.028116 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.026119 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.025120 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.024621 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.024371 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492201, 2.468984, -6.169627, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.593640 b=-6.406874 dts/dp=[2.589975, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992380, nextPhis[ 0]=6.024371 prevPhis[ 1]=0.007620, nextPhis[ 1]=-0.024371 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.024371 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.040338 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.032357 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.028365 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.026368 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.025370 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.024870 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.024621 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492105, 2.468945, -6.169513, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.593299 b=-6.406757 dts/dp=[2.589969, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992630, nextPhis[ 0]=6.024621 prevPhis[ 1]=0.007370, nextPhis[ 1]=-0.024621 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.024621 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.040588 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.032607 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.028615 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.026618 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.025619 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.025120 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.024870 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.492009, 2.468906, -6.169400, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.592957 b=-6.406640 dts/dp=[2.589963, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992881, nextPhis[ 0]=6.024870 prevPhis[ 1]=0.007119, nextPhis[ 1]=-0.024870 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.024870 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.040837 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.032857 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.028864 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.026868 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.025869 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.025370 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.025120 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491912, 2.468867, -6.169286, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.592615 b=-6.406522 dts/dp=[2.589957, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993131, nextPhis[ 0]=6.025120 prevPhis[ 1]=0.006869, nextPhis[ 1]=-0.025120 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.025120 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.041086 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.033106 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.029114 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.027117 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.026119 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.025619 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.025370 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491816, 2.468828, -6.169172, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.592274 b=-6.406405 dts/dp=[2.589951, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993381, nextPhis[ 0]=6.025370 prevPhis[ 1]=0.006619, nextPhis[ 1]=-0.025370 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.025370 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.041336 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.033356 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.029364 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.027367 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.026368 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.025869 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.025619 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491719, 2.468789, -6.169058, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.591932 b=-6.406288 dts/dp=[2.589945, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993631, nextPhis[ 0]=6.025619 prevPhis[ 1]=0.006369, nextPhis[ 1]=-0.025619 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.025619 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.041585 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.033605 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.029613 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.027616 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.026618 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.026119 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.025869 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491623, 2.468750, -6.168944, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.591590 b=-6.406171 dts/dp=[2.589939, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993882, nextPhis[ 0]=6.025869 prevPhis[ 1]=0.006118, nextPhis[ 1]=-0.025869 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.025869 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.041835 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.033855 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.029863 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.027866 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.026868 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.026368 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.026119 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491526, 2.468711, -6.168830, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.591249 b=-6.406054 dts/dp=[2.589933, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994132, nextPhis[ 0]=6.026119 prevPhis[ 1]=0.005868, nextPhis[ 1]=-0.026119 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.026119 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.042084 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.034104 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.030112 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.028116 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.027117 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.026618 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.026368 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491430, 2.468672, -6.168716, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.590907 b=-6.405936 dts/dp=[2.589927, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994382, nextPhis[ 0]=6.026368 prevPhis[ 1]=0.005618, nextPhis[ 1]=-0.026368 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.026368 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.042333 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.034354 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.030362 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.028365 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.027367 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.026868 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.026618 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491334, 2.468633, -6.168602, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.590566 b=-6.405819 dts/dp=[2.589921, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994632, nextPhis[ 0]=6.026618 prevPhis[ 1]=0.005368, nextPhis[ 1]=-0.026618 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.026618 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.042583 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.034603 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.030611 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.028615 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.027616 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.027117 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.026868 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491237, 2.468594, -6.168489, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.590224 b=-6.405702 dts/dp=[2.589915, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994882, nextPhis[ 0]=6.026868 prevPhis[ 1]=0.005118, nextPhis[ 1]=-0.026868 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.026868 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.042832 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.034853 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.030861 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.028865 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.027866 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.027367 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.027117 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491141, 2.468555, -6.168375, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.589882 b=-6.405585 dts/dp=[2.589909, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995133, nextPhis[ 0]=6.027117 prevPhis[ 1]=0.004867, nextPhis[ 1]=-0.027117 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.027117 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.043081 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.035102 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.031111 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.029114 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.028116 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.027617 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.027367 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.491044, 2.468516, -6.168261, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.589541 b=-6.405468 dts/dp=[2.589903, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995383, nextPhis[ 0]=6.027367 prevPhis[ 1]=0.004617, nextPhis[ 1]=-0.027367 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.027367 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.043331 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.035352 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.031360 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.029364 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.028365 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.027866 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.027617 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490948, 2.468477, -6.168147, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.589199 b=-6.405351 dts/dp=[2.589897, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995633, nextPhis[ 0]=6.027617 prevPhis[ 1]=0.004367, nextPhis[ 1]=-0.027617 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.027617 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.043580 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.035601 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.031610 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.029613 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.028615 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.028116 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.027866 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490851, 2.468438, -6.168033, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.588857 b=-6.405233 dts/dp=[2.589891, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995883, nextPhis[ 0]=6.027866 prevPhis[ 1]=0.004117, nextPhis[ 1]=-0.027866 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.027866 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.043829 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.035851 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.031859 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.029863 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.028865 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.028365 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.028116 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490755, 2.468399, -6.167919, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.588516 b=-6.405116 dts/dp=[2.589885, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996134, nextPhis[ 0]=6.028116 prevPhis[ 1]=0.003866, nextPhis[ 1]=-0.028116 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.028116 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.044079 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.036100 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.032109 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.030112 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.029114 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.028615 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.028365 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490659, 2.468359, -6.167805, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.588174 b=-6.404999 dts/dp=[2.589879, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996384, nextPhis[ 0]=6.028365 prevPhis[ 1]=0.003616, nextPhis[ 1]=-0.028365 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.028365 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.044328 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.036349 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.032358 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.030362 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.029364 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.028865 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.028615 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490562, 2.468320, -6.167691, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.587833 b=-6.404882 dts/dp=[2.589873, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996634, nextPhis[ 0]=6.028615 prevPhis[ 1]=0.003366, nextPhis[ 1]=-0.028615 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.028615 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.044577 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.036599 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.032608 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.030612 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.029613 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.029114 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.028865 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490466, 2.468281, -6.167577, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.587491 b=-6.404765 dts/dp=[2.589867, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996884, nextPhis[ 0]=6.028865 prevPhis[ 1]=0.003116, nextPhis[ 1]=-0.028865 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.028865 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.044827 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.036848 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.032857 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.030861 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.029863 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.029364 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.029114 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490369, 2.468242, -6.167464, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.587149 b=-6.404647 dts/dp=[2.589861, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997134, nextPhis[ 0]=6.029114 prevPhis[ 1]=0.002866, nextPhis[ 1]=-0.029114 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.029114 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.045076 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.037098 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.033107 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.031111 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.030113 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.029613 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.029364 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490273, 2.468203, -6.167350, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.586808 b=-6.404530 dts/dp=[2.589855, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997384, nextPhis[ 0]=6.029364 prevPhis[ 1]=0.002616, nextPhis[ 1]=-0.029364 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.029364 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.045325 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.037347 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.033356 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.031360 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.030362 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.029863 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.029613 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490176, 2.468164, -6.167236, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.586466 b=-6.404413 dts/dp=[2.589850, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997635, nextPhis[ 0]=6.029613 prevPhis[ 1]=0.002365, nextPhis[ 1]=-0.029613 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.029613 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.045574 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.037597 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.033606 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.031610 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.030612 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.030113 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.029863 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.490080, 2.468125, -6.167122, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.586124 b=-6.404296 dts/dp=[2.589844, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997885, nextPhis[ 0]=6.029863 prevPhis[ 1]=0.002115, nextPhis[ 1]=-0.029863 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.029863 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.045824 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.037846 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.033855 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.031859 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.030861 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.030362 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.030113 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489984, 2.468086, -6.167008, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.585783 b=-6.404179 dts/dp=[2.589838, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998135, nextPhis[ 0]=6.030113 prevPhis[ 1]=0.001865, nextPhis[ 1]=-0.030113 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.030113 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.046073 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.038096 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.034105 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.032109 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.031111 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.030612 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.030362 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489887, 2.468047, -6.166894, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.585441 b=-6.404061 dts/dp=[2.589832, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998385, nextPhis[ 0]=6.030362 prevPhis[ 1]=0.001615, nextPhis[ 1]=-0.030362 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.030362 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.046322 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.038345 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.034354 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.032358 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.031360 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.030861 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.030612 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489791, 2.468008, -6.166780, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.585099 b=-6.403944 dts/dp=[2.589826, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998635, nextPhis[ 0]=6.030612 prevPhis[ 1]=0.001365, nextPhis[ 1]=-0.030612 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.030612 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.046572 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.038594 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.034604 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.032608 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.031610 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.031111 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.030861 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489694, 2.467969, -6.166666, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.584758 b=-6.403827 dts/dp=[2.589820, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998885, nextPhis[ 0]=6.030861 prevPhis[ 1]=0.001115, nextPhis[ 1]=-0.030861 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.030861 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.046821 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.038844 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.034853 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.032858 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.031859 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.031360 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.031111 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489598, 2.467930, -6.166553, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.584416 b=-6.403710 dts/dp=[2.589814, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999136, nextPhis[ 0]=6.031111 prevPhis[ 1]=0.000864, nextPhis[ 1]=-0.031111 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.031111 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.047070 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.039093 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.035103 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.033107 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.032109 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.031610 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.031360 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489502, 2.467891, -6.166439, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.584075 b=-6.403593 dts/dp=[2.589808, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999386, nextPhis[ 0]=6.031360 prevPhis[ 1]=0.000614, nextPhis[ 1]=-0.031360 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.031360 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.047319 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.039343 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.035352 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.033357 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.032359 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.031859 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.031610 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489405, 2.467852, -6.166325, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.583733 b=-6.403476 dts/dp=[2.589802, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999636, nextPhis[ 0]=6.031610 prevPhis[ 1]=0.000364, nextPhis[ 1]=-0.031610 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.031610 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.047569 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.039592 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.035602 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.033606 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.032608 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.032109 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.031859 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489309, 2.467813, -6.166211, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.583391 b=-6.403358 dts/dp=[2.589796, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999886, nextPhis[ 0]=6.031859 prevPhis[ 1]=0.000114, nextPhis[ 1]=-0.031859 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 15.650000 Phiest = -0.031859 Phiest < 0.0 it = 1 Test = 15.647500 Phiest = -0.047818 Phiest < 0.0 it = 2 Test = 15.646250 Phiest = -0.039842 Phiest < 0.0 it = 3 Test = 15.645625 Phiest = -0.035851 Phiest < 0.0 it = 4 Test = 15.645313 Phiest = -0.033856 Phiest < 0.0 it = 5 Test = 15.645156 Phiest = -0.032858 Phiest < 0.0 it = 6 Test = 15.645078 Phiest = -0.032359 Phiest < 0.0 it = 7 Test = 15.645039 Phiest = -0.032109 Switch time for phi[1] is 15.645039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.489212, 2.467774, -6.166097, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=16.583050 b=-6.403241 dts/dp=[2.589790, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 15.645000 Tnext = 15.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.650000 pESO->GetIndependentVar(): 15.650000 ==>IsSwitchingOccur() prevPhis[ 0]=6.000136, nextPhis[ 0]=6.032109 prevPhis[ 1]=-0.000136, nextPhis[ 1]=-0.032109 <==IsSwitchingOccur() T = 15.650000 Tnext = 15.655000 Time: 1.56500e+01 states: [ -4.76888e-01 2.46277e+00] derivs: [ 2.46254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.655000 pESO->GetIndependentVar(): 15.655000 ==>IsSwitchingOccur() prevPhis[ 0]=6.032109, nextPhis[ 0]=6.064007 prevPhis[ 1]=-0.032109, nextPhis[ 1]=-0.064007 <==IsSwitchingOccur() T = 15.655000 Tnext = 15.660000 Time: 1.56550e+01 states: [ -4.64589e-01 2.45777e+00] derivs: [ 2.45754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.660000 pESO->GetIndependentVar(): 15.660000 ==>IsSwitchingOccur() prevPhis[ 0]=6.064007, nextPhis[ 0]=6.095830 prevPhis[ 1]=-0.064007, nextPhis[ 1]=-0.095830 <==IsSwitchingOccur() T = 15.660000 Tnext = 15.665000 Time: 1.56600e+01 states: [ -4.52315e-01 2.45277e+00] derivs: [ 2.45254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.665000 pESO->GetIndependentVar(): 15.665000 ==>IsSwitchingOccur() prevPhis[ 0]=6.095830, nextPhis[ 0]=6.127577 prevPhis[ 1]=-0.095830, nextPhis[ 1]=-0.127577 <==IsSwitchingOccur() T = 15.665000 Tnext = 15.670000 Time: 1.56650e+01 states: [ -4.40065e-01 2.44777e+00] derivs: [ 2.44754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.670000 pESO->GetIndependentVar(): 15.670000 ==>IsSwitchingOccur() prevPhis[ 0]=6.127577, nextPhis[ 0]=6.159250 prevPhis[ 1]=-0.127577, nextPhis[ 1]=-0.159250 <==IsSwitchingOccur() T = 15.670000 Tnext = 15.675000 Time: 1.56700e+01 states: [ -4.27841e-01 2.44277e+00] derivs: [ 2.44254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.675000 pESO->GetIndependentVar(): 15.675000 ==>IsSwitchingOccur() prevPhis[ 0]=6.159250, nextPhis[ 0]=6.190848 prevPhis[ 1]=-0.159250, nextPhis[ 1]=-0.190848 <==IsSwitchingOccur() T = 15.675000 Tnext = 15.680000 Time: 1.56750e+01 states: [ -4.15642e-01 2.43777e+00] derivs: [ 2.43754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.680000 pESO->GetIndependentVar(): 15.680000 ==>IsSwitchingOccur() prevPhis[ 0]=6.190848, nextPhis[ 0]=6.222371 prevPhis[ 1]=-0.190848, nextPhis[ 1]=-0.222371 <==IsSwitchingOccur() T = 15.680000 Tnext = 15.685000 Time: 1.56800e+01 states: [ -4.03468e-01 2.43277e+00] derivs: [ 2.43254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.685000 pESO->GetIndependentVar(): 15.685000 ==>IsSwitchingOccur() prevPhis[ 0]=6.222371, nextPhis[ 0]=6.253819 prevPhis[ 1]=-0.222371, nextPhis[ 1]=-0.253819 <==IsSwitchingOccur() T = 15.685000 Tnext = 15.690000 Time: 1.56850e+01 states: [ -3.91318e-01 2.42777e+00] derivs: [ 2.42754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.690000 pESO->GetIndependentVar(): 15.690000 ==>IsSwitchingOccur() prevPhis[ 0]=6.253819, nextPhis[ 0]=6.285192 prevPhis[ 1]=-0.253819, nextPhis[ 1]=-0.285192 <==IsSwitchingOccur() T = 15.690000 Tnext = 15.695000 Time: 1.56900e+01 states: [ -3.79194e-01 2.42277e+00] derivs: [ 2.42254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.695000 pESO->GetIndependentVar(): 15.695000 ==>IsSwitchingOccur() prevPhis[ 0]=6.285192, nextPhis[ 0]=6.316489 prevPhis[ 1]=-0.285192, nextPhis[ 1]=-0.316489 <==IsSwitchingOccur() T = 15.695000 Tnext = 15.700000 Time: 1.56950e+01 states: [ -3.67095e-01 2.41777e+00] derivs: [ 2.41754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.700000 pESO->GetIndependentVar(): 15.700000 ==>IsSwitchingOccur() prevPhis[ 0]=6.316489, nextPhis[ 0]=6.347712 prevPhis[ 1]=-0.316489, nextPhis[ 1]=-0.347712 <==IsSwitchingOccur() T = 15.700000 Tnext = 15.705000 Time: 1.57000e+01 states: [ -3.55020e-01 2.41277e+00] derivs: [ 2.41254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.705000 pESO->GetIndependentVar(): 15.705000 ==>IsSwitchingOccur() prevPhis[ 0]=6.347712, nextPhis[ 0]=6.378860 prevPhis[ 1]=-0.347712, nextPhis[ 1]=-0.378860 <==IsSwitchingOccur() T = 15.705000 Tnext = 15.710000 Time: 1.57050e+01 states: [ -3.42971e-01 2.40777e+00] derivs: [ 2.40754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.710000 pESO->GetIndependentVar(): 15.710000 ==>IsSwitchingOccur() prevPhis[ 0]=6.378860, nextPhis[ 0]=6.409933 prevPhis[ 1]=-0.378860, nextPhis[ 1]=-0.409933 <==IsSwitchingOccur() T = 15.710000 Tnext = 15.715000 Time: 1.57100e+01 states: [ -3.30947e-01 2.40277e+00] derivs: [ 2.40254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.715000 pESO->GetIndependentVar(): 15.715000 ==>IsSwitchingOccur() prevPhis[ 0]=6.409933, nextPhis[ 0]=6.440931 prevPhis[ 1]=-0.409933, nextPhis[ 1]=-0.440931 <==IsSwitchingOccur() T = 15.715000 Tnext = 15.720000 Time: 1.57150e+01 states: [ -3.18948e-01 2.39777e+00] derivs: [ 2.39754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.720000 pESO->GetIndependentVar(): 15.720000 ==>IsSwitchingOccur() prevPhis[ 0]=6.440931, nextPhis[ 0]=6.471854 prevPhis[ 1]=-0.440931, nextPhis[ 1]=-0.471854 <==IsSwitchingOccur() T = 15.720000 Tnext = 15.725000 Time: 1.57200e+01 states: [ -3.06973e-01 2.39277e+00] derivs: [ 2.39254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.725000 pESO->GetIndependentVar(): 15.725000 ==>IsSwitchingOccur() prevPhis[ 0]=6.471854, nextPhis[ 0]=6.502701 prevPhis[ 1]=-0.471854, nextPhis[ 1]=-0.502701 <==IsSwitchingOccur() T = 15.725000 Tnext = 15.730000 Time: 1.57250e+01 states: [ -2.95024e-01 2.38777e+00] derivs: [ 2.38754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.730000 pESO->GetIndependentVar(): 15.730000 ==>IsSwitchingOccur() prevPhis[ 0]=6.502701, nextPhis[ 0]=6.533474 prevPhis[ 1]=-0.502701, nextPhis[ 1]=-0.533474 <==IsSwitchingOccur() T = 15.730000 Tnext = 15.735000 Time: 1.57300e+01 states: [ -2.83100e-01 2.38277e+00] derivs: [ 2.38254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.735000 pESO->GetIndependentVar(): 15.735000 ==>IsSwitchingOccur() prevPhis[ 0]=6.533474, nextPhis[ 0]=6.564172 prevPhis[ 1]=-0.533474, nextPhis[ 1]=-0.564172 <==IsSwitchingOccur() T = 15.735000 Tnext = 15.740000 Time: 1.57350e+01 states: [ -2.71201e-01 2.37777e+00] derivs: [ 2.37754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.740000 pESO->GetIndependentVar(): 15.740000 ==>IsSwitchingOccur() prevPhis[ 0]=6.564172, nextPhis[ 0]=6.594795 prevPhis[ 1]=-0.564172, nextPhis[ 1]=-0.594795 <==IsSwitchingOccur() T = 15.740000 Tnext = 15.745000 Time: 1.57400e+01 states: [ -2.59326e-01 2.37277e+00] derivs: [ 2.37254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.745000 pESO->GetIndependentVar(): 15.745000 ==>IsSwitchingOccur() prevPhis[ 0]=6.594795, nextPhis[ 0]=6.625343 prevPhis[ 1]=-0.594795, nextPhis[ 1]=-0.625343 <==IsSwitchingOccur() T = 15.745000 Tnext = 15.750000 Time: 1.57450e+01 states: [ -2.47477e-01 2.36777e+00] derivs: [ 2.36754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.750000 pESO->GetIndependentVar(): 15.750000 ==>IsSwitchingOccur() prevPhis[ 0]=6.625343, nextPhis[ 0]=6.655815 prevPhis[ 1]=-0.625343, nextPhis[ 1]=-0.655815 <==IsSwitchingOccur() T = 15.750000 Tnext = 15.755000 Time: 1.57500e+01 states: [ -2.35653e-01 2.36277e+00] derivs: [ 2.36254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.755000 pESO->GetIndependentVar(): 15.755000 ==>IsSwitchingOccur() prevPhis[ 0]=6.655815, nextPhis[ 0]=6.686213 prevPhis[ 1]=-0.655815, nextPhis[ 1]=-0.686213 <==IsSwitchingOccur() T = 15.755000 Tnext = 15.760000 Time: 1.57550e+01 states: [ -2.23853e-01 2.35777e+00] derivs: [ 2.35754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.760000 pESO->GetIndependentVar(): 15.760000 ==>IsSwitchingOccur() prevPhis[ 0]=6.686213, nextPhis[ 0]=6.716536 prevPhis[ 1]=-0.686213, nextPhis[ 1]=-0.716536 <==IsSwitchingOccur() T = 15.760000 Tnext = 15.765000 Time: 1.57600e+01 states: [ -2.12079e-01 2.35277e+00] derivs: [ 2.35254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.765000 pESO->GetIndependentVar(): 15.765000 ==>IsSwitchingOccur() prevPhis[ 0]=6.716536, nextPhis[ 0]=6.746784 prevPhis[ 1]=-0.716536, nextPhis[ 1]=-0.746784 <==IsSwitchingOccur() T = 15.765000 Tnext = 15.770000 Time: 1.57650e+01 states: [ -2.00330e-01 2.34777e+00] derivs: [ 2.34754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.770000 pESO->GetIndependentVar(): 15.770000 ==>IsSwitchingOccur() prevPhis[ 0]=6.746784, nextPhis[ 0]=6.776957 prevPhis[ 1]=-0.746784, nextPhis[ 1]=-0.776957 <==IsSwitchingOccur() T = 15.770000 Tnext = 15.775000 Time: 1.57700e+01 states: [ -1.88606e-01 2.34277e+00] derivs: [ 2.34254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.775000 pESO->GetIndependentVar(): 15.775000 ==>IsSwitchingOccur() prevPhis[ 0]=6.776957, nextPhis[ 0]=6.807055 prevPhis[ 1]=-0.776957, nextPhis[ 1]=-0.807055 <==IsSwitchingOccur() T = 15.775000 Tnext = 15.780000 Time: 1.57750e+01 states: [ -1.76906e-01 2.33777e+00] derivs: [ 2.33754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.780000 pESO->GetIndependentVar(): 15.780000 ==>IsSwitchingOccur() prevPhis[ 0]=6.807055, nextPhis[ 0]=6.837077 prevPhis[ 1]=-0.807055, nextPhis[ 1]=-0.837077 <==IsSwitchingOccur() T = 15.780000 Tnext = 15.785000 Time: 1.57800e+01 states: [ -1.65232e-01 2.33277e+00] derivs: [ 2.33254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.785000 pESO->GetIndependentVar(): 15.785000 ==>IsSwitchingOccur() prevPhis[ 0]=6.837077, nextPhis[ 0]=6.867025 prevPhis[ 1]=-0.837077, nextPhis[ 1]=-0.867025 <==IsSwitchingOccur() T = 15.785000 Tnext = 15.790000 Time: 1.57850e+01 states: [ -1.53583e-01 2.32777e+00] derivs: [ 2.32754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.790000 pESO->GetIndependentVar(): 15.790000 ==>IsSwitchingOccur() prevPhis[ 0]=6.867025, nextPhis[ 0]=6.896898 prevPhis[ 1]=-0.867025, nextPhis[ 1]=-0.896898 <==IsSwitchingOccur() T = 15.790000 Tnext = 15.795000 Time: 1.57900e+01 states: [ -1.41958e-01 2.32277e+00] derivs: [ 2.32254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.795000 pESO->GetIndependentVar(): 15.795000 ==>IsSwitchingOccur() prevPhis[ 0]=6.896898, nextPhis[ 0]=6.926696 prevPhis[ 1]=-0.896898, nextPhis[ 1]=-0.926696 <==IsSwitchingOccur() T = 15.795000 Tnext = 15.800000 Time: 1.57950e+01 states: [ -1.30359e-01 2.31777e+00] derivs: [ 2.31754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.800000 pESO->GetIndependentVar(): 15.800000 ==>IsSwitchingOccur() prevPhis[ 0]=6.926696, nextPhis[ 0]=6.956419 prevPhis[ 1]=-0.926696, nextPhis[ 1]=-0.956419 <==IsSwitchingOccur() T = 15.800000 Tnext = 15.805000 Time: 1.58000e+01 states: [ -1.18785e-01 2.31277e+00] derivs: [ 2.31254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.805000 pESO->GetIndependentVar(): 15.805000 ==>IsSwitchingOccur() prevPhis[ 0]=6.956419, nextPhis[ 0]=6.986067 prevPhis[ 1]=-0.956419, nextPhis[ 1]=-0.986067 <==IsSwitchingOccur() T = 15.805000 Tnext = 15.810000 Time: 1.58050e+01 states: [ -1.07236e-01 2.30777e+00] derivs: [ 2.30754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.810000 pESO->GetIndependentVar(): 15.810000 ==>IsSwitchingOccur() prevPhis[ 0]=6.986067, nextPhis[ 0]=7.015639 prevPhis[ 1]=-0.986067, nextPhis[ 1]=-1.015639 <==IsSwitchingOccur() T = 15.810000 Tnext = 15.815000 Time: 1.58100e+01 states: [ -9.57114e-02 2.30277e+00] derivs: [ 2.30254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.815000 pESO->GetIndependentVar(): 15.815000 ==>IsSwitchingOccur() prevPhis[ 0]=7.015639, nextPhis[ 0]=7.045137 prevPhis[ 1]=-1.015639, nextPhis[ 1]=-1.045137 <==IsSwitchingOccur() T = 15.815000 Tnext = 15.820000 Time: 1.58150e+01 states: [ -8.42121e-02 2.29777e+00] derivs: [ 2.29754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.820000 pESO->GetIndependentVar(): 15.820000 ==>IsSwitchingOccur() prevPhis[ 0]=7.045137, nextPhis[ 0]=7.074560 prevPhis[ 1]=-1.045137, nextPhis[ 1]=-1.074560 <==IsSwitchingOccur() T = 15.820000 Tnext = 15.825000 Time: 1.58200e+01 states: [ -7.27378e-02 2.29277e+00] derivs: [ 2.29254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.825000 pESO->GetIndependentVar(): 15.825000 ==>IsSwitchingOccur() prevPhis[ 0]=7.074560, nextPhis[ 0]=7.103908 prevPhis[ 1]=-1.074560, nextPhis[ 1]=-1.103908 <==IsSwitchingOccur() T = 15.825000 Tnext = 15.830000 Time: 1.58250e+01 states: [ -6.12886e-02 2.28777e+00] derivs: [ 2.28754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.830000 pESO->GetIndependentVar(): 15.830000 ==>IsSwitchingOccur() prevPhis[ 0]=7.103908, nextPhis[ 0]=7.133181 prevPhis[ 1]=-1.103908, nextPhis[ 1]=-1.133181 <==IsSwitchingOccur() T = 15.830000 Tnext = 15.835000 Time: 1.58300e+01 states: [ -4.98643e-02 2.28277e+00] derivs: [ 2.28254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.835000 pESO->GetIndependentVar(): 15.835000 ==>IsSwitchingOccur() prevPhis[ 0]=7.133181, nextPhis[ 0]=7.162378 prevPhis[ 1]=-1.133181, nextPhis[ 1]=-1.162378 <==IsSwitchingOccur() T = 15.835000 Tnext = 15.840000 Time: 1.58350e+01 states: [ -3.84650e-02 2.27777e+00] derivs: [ 2.27754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.840000 pESO->GetIndependentVar(): 15.840000 ==>IsSwitchingOccur() prevPhis[ 0]=7.162378, nextPhis[ 0]=7.191501 prevPhis[ 1]=-1.162378, nextPhis[ 1]=-1.191501 <==IsSwitchingOccur() T = 15.840000 Tnext = 15.845000 Time: 1.58400e+01 states: [ -2.70908e-02 2.27277e+00] derivs: [ 2.27239e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.845000 pESO->GetIndependentVar(): 15.845000 ==>IsSwitchingOccur() prevPhis[ 0]=7.191501, nextPhis[ 0]=7.220549 prevPhis[ 1]=-1.191501, nextPhis[ 1]=-1.220549 <==IsSwitchingOccur() T = 15.845000 Tnext = 15.850000 Time: 1.58450e+01 states: [ -1.57416e-02 2.26777e+00] derivs: [ 2.26727e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.850000 pESO->GetIndependentVar(): 15.850000 ==>IsSwitchingOccur() prevPhis[ 0]=7.220549, nextPhis[ 0]=7.249521 prevPhis[ 1]=-1.220549, nextPhis[ 1]=-1.249521 <==IsSwitchingOccur() T = 15.850000 Tnext = 15.855000 Time: 1.58500e+01 states: [ -4.41744e-03 2.26277e+00] derivs: [ 2.26227e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.855000 pESO->GetIndependentVar(): 15.855000 ==>IsSwitchingOccur() prevPhis[ 0]=7.249521, nextPhis[ 0]=7.278419 prevPhis[ 1]=-1.249521, nextPhis[ 1]=-1.278419 <==IsSwitchingOccur() T = 15.855000 Tnext = 15.860000 Time: 1.58550e+01 states: [ 6.88175e-03 2.25777e+00] derivs: [ 2.25727e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.860000 pESO->GetIndependentVar(): 15.860000 ==>IsSwitchingOccur() prevPhis[ 0]=7.278419, nextPhis[ 0]=7.307241 prevPhis[ 1]=-1.278419, nextPhis[ 1]=-1.307241 <==IsSwitchingOccur() T = 15.860000 Tnext = 15.865000 Time: 1.58600e+01 states: [ 1.81559e-02 2.25277e+00] derivs: [ 2.25227e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.865000 pESO->GetIndependentVar(): 15.865000 ==>IsSwitchingOccur() prevPhis[ 0]=7.307241, nextPhis[ 0]=7.335989 prevPhis[ 1]=-1.307241, nextPhis[ 1]=-1.335989 <==IsSwitchingOccur() T = 15.865000 Tnext = 15.870000 Time: 1.58650e+01 states: [ 2.94051e-02 2.24777e+00] derivs: [ 2.24727e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.870000 pESO->GetIndependentVar(): 15.870000 ==>IsSwitchingOccur() prevPhis[ 0]=7.335989, nextPhis[ 0]=7.364662 prevPhis[ 1]=-1.335989, nextPhis[ 1]=-1.364662 <==IsSwitchingOccur() T = 15.870000 Tnext = 15.875000 Time: 1.58700e+01 states: [ 4.06293e-02 2.24277e+00] derivs: [ 2.24227e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.875000 pESO->GetIndependentVar(): 15.875000 ==>IsSwitchingOccur() prevPhis[ 0]=7.364662, nextPhis[ 0]=7.393259 prevPhis[ 1]=-1.364662, nextPhis[ 1]=-1.393259 <==IsSwitchingOccur() T = 15.875000 Tnext = 15.880000 Time: 1.58750e+01 states: [ 5.18286e-02 2.23777e+00] derivs: [ 2.23754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.880000 pESO->GetIndependentVar(): 15.880000 ==>IsSwitchingOccur() prevPhis[ 0]=7.393259, nextPhis[ 0]=7.421782 prevPhis[ 1]=-1.393259, nextPhis[ 1]=-1.421782 <==IsSwitchingOccur() T = 15.880000 Tnext = 15.885000 Time: 1.58800e+01 states: [ 6.30029e-02 2.23277e+00] derivs: [ 2.23254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.885000 pESO->GetIndependentVar(): 15.885000 ==>IsSwitchingOccur() prevPhis[ 0]=7.421782, nextPhis[ 0]=7.450230 prevPhis[ 1]=-1.421782, nextPhis[ 1]=-1.450230 <==IsSwitchingOccur() T = 15.885000 Tnext = 15.890000 Time: 1.58850e+01 states: [ 7.41522e-02 2.22777e+00] derivs: [ 2.22754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.890000 pESO->GetIndependentVar(): 15.890000 ==>IsSwitchingOccur() prevPhis[ 0]=7.450230, nextPhis[ 0]=7.478603 prevPhis[ 1]=-1.450230, nextPhis[ 1]=-1.478603 <==IsSwitchingOccur() T = 15.890000 Tnext = 15.895000 Time: 1.58900e+01 states: [ 8.52764e-02 2.22277e+00] derivs: [ 2.22254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.895000 pESO->GetIndependentVar(): 15.895000 ==>IsSwitchingOccur() prevPhis[ 0]=7.478603, nextPhis[ 0]=7.506901 prevPhis[ 1]=-1.478603, nextPhis[ 1]=-1.506901 <==IsSwitchingOccur() T = 15.895000 Tnext = 15.900000 Time: 1.58950e+01 states: [ 9.63757e-02 2.21777e+00] derivs: [ 2.21754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.900000 pESO->GetIndependentVar(): 15.900000 ==>IsSwitchingOccur() prevPhis[ 0]=7.506901, nextPhis[ 0]=7.535124 prevPhis[ 1]=-1.506901, nextPhis[ 1]=-1.535124 <==IsSwitchingOccur() T = 15.900000 Tnext = 15.905000 Time: 1.59000e+01 states: [ 1.07450e-01 2.21277e+00] derivs: [ 2.21254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.905000 pESO->GetIndependentVar(): 15.905000 ==>IsSwitchingOccur() prevPhis[ 0]=7.535124, nextPhis[ 0]=7.563271 prevPhis[ 1]=-1.535124, nextPhis[ 1]=-1.563271 <==IsSwitchingOccur() T = 15.905000 Tnext = 15.910000 Time: 1.59050e+01 states: [ 1.18499e-01 2.20777e+00] derivs: [ 2.20754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.910000 pESO->GetIndependentVar(): 15.910000 ==>IsSwitchingOccur() prevPhis[ 0]=7.563271, nextPhis[ 0]=7.591344 prevPhis[ 1]=-1.563271, nextPhis[ 1]=-1.591344 <==IsSwitchingOccur() T = 15.910000 Tnext = 15.915000 Time: 1.59100e+01 states: [ 1.29524e-01 2.20277e+00] derivs: [ 2.20254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.915000 pESO->GetIndependentVar(): 15.915000 ==>IsSwitchingOccur() prevPhis[ 0]=7.591344, nextPhis[ 0]=7.619342 prevPhis[ 1]=-1.591344, nextPhis[ 1]=-1.619342 <==IsSwitchingOccur() T = 15.915000 Tnext = 15.920000 Time: 1.59150e+01 states: [ 1.40523e-01 2.19777e+00] derivs: [ 2.19754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.920000 pESO->GetIndependentVar(): 15.920000 ==>IsSwitchingOccur() prevPhis[ 0]=7.619342, nextPhis[ 0]=7.647265 prevPhis[ 1]=-1.619342, nextPhis[ 1]=-1.647265 <==IsSwitchingOccur() T = 15.920000 Tnext = 15.925000 Time: 1.59200e+01 states: [ 1.51497e-01 2.19277e+00] derivs: [ 2.19254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.925000 pESO->GetIndependentVar(): 15.925000 ==>IsSwitchingOccur() prevPhis[ 0]=7.647265, nextPhis[ 0]=7.675113 prevPhis[ 1]=-1.647265, nextPhis[ 1]=-1.675113 <==IsSwitchingOccur() T = 15.925000 Tnext = 15.930000 Time: 1.59250e+01 states: [ 1.62446e-01 2.18777e+00] derivs: [ 2.18754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.930000 pESO->GetIndependentVar(): 15.930000 ==>IsSwitchingOccur() prevPhis[ 0]=7.675113, nextPhis[ 0]=7.702885 prevPhis[ 1]=-1.675113, nextPhis[ 1]=-1.702885 <==IsSwitchingOccur() T = 15.930000 Tnext = 15.935000 Time: 1.59300e+01 states: [ 1.73371e-01 2.18277e+00] derivs: [ 2.18254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.935000 pESO->GetIndependentVar(): 15.935000 ==>IsSwitchingOccur() prevPhis[ 0]=7.702885, nextPhis[ 0]=7.730583 prevPhis[ 1]=-1.702885, nextPhis[ 1]=-1.730583 <==IsSwitchingOccur() T = 15.935000 Tnext = 15.940000 Time: 1.59350e+01 states: [ 1.84270e-01 2.17777e+00] derivs: [ 2.17754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.940000 pESO->GetIndependentVar(): 15.940000 ==>IsSwitchingOccur() prevPhis[ 0]=7.730583, nextPhis[ 0]=7.758206 prevPhis[ 1]=-1.730583, nextPhis[ 1]=-1.758206 <==IsSwitchingOccur() T = 15.940000 Tnext = 15.945000 Time: 1.59400e+01 states: [ 1.95144e-01 2.17277e+00] derivs: [ 2.17254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.945000 pESO->GetIndependentVar(): 15.945000 ==>IsSwitchingOccur() prevPhis[ 0]=7.758206, nextPhis[ 0]=7.785754 prevPhis[ 1]=-1.758206, nextPhis[ 1]=-1.785754 <==IsSwitchingOccur() T = 15.945000 Tnext = 15.950000 Time: 1.59450e+01 states: [ 2.05993e-01 2.16777e+00] derivs: [ 2.16754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.950000 pESO->GetIndependentVar(): 15.950000 ==>IsSwitchingOccur() prevPhis[ 0]=7.785754, nextPhis[ 0]=7.813227 prevPhis[ 1]=-1.785754, nextPhis[ 1]=-1.813227 <==IsSwitchingOccur() T = 15.950000 Tnext = 15.955000 Time: 1.59500e+01 states: [ 2.16818e-01 2.16277e+00] derivs: [ 2.16254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.955000 pESO->GetIndependentVar(): 15.955000 ==>IsSwitchingOccur() prevPhis[ 0]=7.813227, nextPhis[ 0]=7.840625 prevPhis[ 1]=-1.813227, nextPhis[ 1]=-1.840625 <==IsSwitchingOccur() T = 15.955000 Tnext = 15.960000 Time: 1.59550e+01 states: [ 2.27617e-01 2.15777e+00] derivs: [ 2.15754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.960000 pESO->GetIndependentVar(): 15.960000 ==>IsSwitchingOccur() prevPhis[ 0]=7.840625, nextPhis[ 0]=7.867947 prevPhis[ 1]=-1.840625, nextPhis[ 1]=-1.867947 <==IsSwitchingOccur() T = 15.960000 Tnext = 15.965000 Time: 1.59600e+01 states: [ 2.38391e-01 2.15277e+00] derivs: [ 2.15254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.965000 pESO->GetIndependentVar(): 15.965000 ==>IsSwitchingOccur() prevPhis[ 0]=7.867947, nextPhis[ 0]=7.895195 prevPhis[ 1]=-1.867947, nextPhis[ 1]=-1.895195 <==IsSwitchingOccur() T = 15.965000 Tnext = 15.970000 Time: 1.59650e+01 states: [ 2.49141e-01 2.14777e+00] derivs: [ 2.14754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.970000 pESO->GetIndependentVar(): 15.970000 ==>IsSwitchingOccur() prevPhis[ 0]=7.895195, nextPhis[ 0]=7.922368 prevPhis[ 1]=-1.895195, nextPhis[ 1]=-1.922368 <==IsSwitchingOccur() T = 15.970000 Tnext = 15.975000 Time: 1.59700e+01 states: [ 2.59865e-01 2.14277e+00] derivs: [ 2.14254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.975000 pESO->GetIndependentVar(): 15.975000 ==>IsSwitchingOccur() prevPhis[ 0]=7.922368, nextPhis[ 0]=7.949466 prevPhis[ 1]=-1.922368, nextPhis[ 1]=-1.949466 <==IsSwitchingOccur() T = 15.975000 Tnext = 15.980000 Time: 1.59750e+01 states: [ 2.70564e-01 2.13777e+00] derivs: [ 2.13754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.980000 pESO->GetIndependentVar(): 15.980000 ==>IsSwitchingOccur() prevPhis[ 0]=7.949466, nextPhis[ 0]=7.976489 prevPhis[ 1]=-1.949466, nextPhis[ 1]=-1.976489 <==IsSwitchingOccur() T = 15.980000 Tnext = 15.985000 Time: 1.59800e+01 states: [ 2.81238e-01 2.13277e+00] derivs: [ 2.13254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.985000 pESO->GetIndependentVar(): 15.985000 ==>IsSwitchingOccur() prevPhis[ 0]=7.976489, nextPhis[ 0]=8.003437 prevPhis[ 1]=-1.976489, nextPhis[ 1]=-2.003437 <==IsSwitchingOccur() T = 15.985000 Tnext = 15.990000 Time: 1.59850e+01 states: [ 2.91888e-01 2.12777e+00] derivs: [ 2.12754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.990000 pESO->GetIndependentVar(): 15.990000 ==>IsSwitchingOccur() prevPhis[ 0]=8.003437, nextPhis[ 0]=8.030309 prevPhis[ 1]=-2.003437, nextPhis[ 1]=-2.030309 <==IsSwitchingOccur() T = 15.990000 Tnext = 15.995000 Time: 1.59900e+01 states: [ 3.02512e-01 2.12277e+00] derivs: [ 2.12254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 15.995000 pESO->GetIndependentVar(): 15.995000 ==>IsSwitchingOccur() prevPhis[ 0]=8.030309, nextPhis[ 0]=8.057107 prevPhis[ 1]=-2.030309, nextPhis[ 1]=-2.057107 <==IsSwitchingOccur() T = 15.995000 Tnext = 16.000000 Time: 1.59950e+01 states: [ 3.13111e-01 2.11777e+00] derivs: [ 2.11754e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.000000 pESO->GetIndependentVar(): 16.000000 ==>IsSwitchingOccur() prevPhis[ 0]=8.057107, nextPhis[ 0]=8.083830 prevPhis[ 1]=-2.057107, nextPhis[ 1]=-2.083830 <==IsSwitchingOccur() T = 16.000000 Tnext = 16.005000 Time: 1.60000e+01 states: [ 3.23685e-01 2.11277e+00] derivs: [ 2.11254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.005000 pESO->GetIndependentVar(): 16.005000 ==>IsSwitchingOccur() prevPhis[ 0]=8.083830, nextPhis[ 0]=8.110478 prevPhis[ 1]=-2.083830, nextPhis[ 1]=-2.110478 <==IsSwitchingOccur() T = 16.005000 Tnext = 16.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.010000 pESO->GetIndependentVar(): 16.010000 ==>IsSwitchingOccur() prevPhis[ 0]=8.110478, nextPhis[ 0]=8.137051 prevPhis[ 1]=-2.110478, nextPhis[ 1]=-2.137051 <==IsSwitchingOccur() T = 16.010000 Tnext = 16.015000 Time: 1.60100e+01 states: [ 3.44759e-01 2.10277e+00] derivs: [ 2.10254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.015000 pESO->GetIndependentVar(): 16.015000 ==>IsSwitchingOccur() prevPhis[ 0]=8.137051, nextPhis[ 0]=8.163548 prevPhis[ 1]=-2.137051, nextPhis[ 1]=-2.163548 <==IsSwitchingOccur() T = 16.015000 Tnext = 16.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.020000 pESO->GetIndependentVar(): 16.020000 ==>IsSwitchingOccur() prevPhis[ 0]=8.163548, nextPhis[ 0]=8.189971 prevPhis[ 1]=-2.163548, nextPhis[ 1]=-2.189971 <==IsSwitchingOccur() T = 16.020000 Tnext = 16.025000 Time: 1.60200e+01 states: [ 3.65733e-01 2.09277e+00] derivs: [ 2.09254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.025000 pESO->GetIndependentVar(): 16.025000 ==>IsSwitchingOccur() prevPhis[ 0]=8.189971, nextPhis[ 0]=8.216319 prevPhis[ 1]=-2.189971, nextPhis[ 1]=-2.216319 <==IsSwitchingOccur() T = 16.025000 Tnext = 16.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.030000 pESO->GetIndependentVar(): 16.030000 ==>IsSwitchingOccur() prevPhis[ 0]=8.216319, nextPhis[ 0]=8.242592 prevPhis[ 1]=-2.216319, nextPhis[ 1]=-2.242592 <==IsSwitchingOccur() T = 16.030000 Tnext = 16.035000 Time: 1.60300e+01 states: [ 3.86606e-01 2.08277e+00] derivs: [ 2.08254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.035000 pESO->GetIndependentVar(): 16.035000 ==>IsSwitchingOccur() prevPhis[ 0]=8.242592, nextPhis[ 0]=8.268790 prevPhis[ 1]=-2.242592, nextPhis[ 1]=-2.268790 <==IsSwitchingOccur() T = 16.035000 Tnext = 16.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.040000 pESO->GetIndependentVar(): 16.040000 ==>IsSwitchingOccur() prevPhis[ 0]=8.268790, nextPhis[ 0]=8.294913 prevPhis[ 1]=-2.268790, nextPhis[ 1]=-2.294913 <==IsSwitchingOccur() T = 16.040000 Tnext = 16.045000 Time: 1.60400e+01 states: [ 4.07380e-01 2.07277e+00] derivs: [ 2.07254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.045000 pESO->GetIndependentVar(): 16.045000 ==>IsSwitchingOccur() prevPhis[ 0]=8.294913, nextPhis[ 0]=8.320960 prevPhis[ 1]=-2.294913, nextPhis[ 1]=-2.320960 <==IsSwitchingOccur() T = 16.045000 Tnext = 16.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.050000 pESO->GetIndependentVar(): 16.050000 ==>IsSwitchingOccur() prevPhis[ 0]=8.320960, nextPhis[ 0]=8.346933 prevPhis[ 1]=-2.320960, nextPhis[ 1]=-2.346933 <==IsSwitchingOccur() T = 16.050000 Tnext = 16.055000 Time: 1.60500e+01 states: [ 4.28053e-01 2.06277e+00] derivs: [ 2.06254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.055000 pESO->GetIndependentVar(): 16.055000 ==>IsSwitchingOccur() prevPhis[ 0]=8.346933, nextPhis[ 0]=8.372831 prevPhis[ 1]=-2.346933, nextPhis[ 1]=-2.372831 <==IsSwitchingOccur() T = 16.055000 Tnext = 16.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.060000 pESO->GetIndependentVar(): 16.060000 ==>IsSwitchingOccur() prevPhis[ 0]=8.372831, nextPhis[ 0]=8.398654 prevPhis[ 1]=-2.372831, nextPhis[ 1]=-2.398654 <==IsSwitchingOccur() T = 16.060000 Tnext = 16.065000 Time: 1.60600e+01 states: [ 4.48627e-01 2.05277e+00] derivs: [ 2.05254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.065000 pESO->GetIndependentVar(): 16.065000 ==>IsSwitchingOccur() prevPhis[ 0]=8.398654, nextPhis[ 0]=8.424402 prevPhis[ 1]=-2.398654, nextPhis[ 1]=-2.424402 <==IsSwitchingOccur() T = 16.065000 Tnext = 16.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.070000 pESO->GetIndependentVar(): 16.070000 ==>IsSwitchingOccur() prevPhis[ 0]=8.424402, nextPhis[ 0]=8.450075 prevPhis[ 1]=-2.424402, nextPhis[ 1]=-2.450075 <==IsSwitchingOccur() T = 16.070000 Tnext = 16.075000 Time: 1.60700e+01 states: [ 4.69100e-01 2.04277e+00] derivs: [ 2.04254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.075000 pESO->GetIndependentVar(): 16.075000 ==>IsSwitchingOccur() prevPhis[ 0]=8.450075, nextPhis[ 0]=8.475672 prevPhis[ 1]=-2.450075, nextPhis[ 1]=-2.475672 <==IsSwitchingOccur() T = 16.075000 Tnext = 16.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.080000 pESO->GetIndependentVar(): 16.080000 ==>IsSwitchingOccur() prevPhis[ 0]=8.475672, nextPhis[ 0]=8.501195 prevPhis[ 1]=-2.475672, nextPhis[ 1]=-2.501195 <==IsSwitchingOccur() T = 16.080000 Tnext = 16.085000 Time: 1.60800e+01 states: [ 4.89474e-01 2.03277e+00] derivs: [ 2.03254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.085000 pESO->GetIndependentVar(): 16.085000 ==>IsSwitchingOccur() prevPhis[ 0]=8.501195, nextPhis[ 0]=8.526643 prevPhis[ 1]=-2.501195, nextPhis[ 1]=-2.526643 <==IsSwitchingOccur() T = 16.085000 Tnext = 16.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.090000 pESO->GetIndependentVar(): 16.090000 ==>IsSwitchingOccur() prevPhis[ 0]=8.526643, nextPhis[ 0]=8.552016 prevPhis[ 1]=-2.526643, nextPhis[ 1]=-2.552016 <==IsSwitchingOccur() T = 16.090000 Tnext = 16.095000 Time: 1.60900e+01 states: [ 5.09747e-01 2.02277e+00] derivs: [ 2.02254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.095000 pESO->GetIndependentVar(): 16.095000 ==>IsSwitchingOccur() prevPhis[ 0]=8.552016, nextPhis[ 0]=8.577314 prevPhis[ 1]=-2.552016, nextPhis[ 1]=-2.577314 <==IsSwitchingOccur() T = 16.095000 Tnext = 16.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.100000 pESO->GetIndependentVar(): 16.100000 ==>IsSwitchingOccur() prevPhis[ 0]=8.577314, nextPhis[ 0]=8.602537 prevPhis[ 1]=-2.577314, nextPhis[ 1]=-2.602537 <==IsSwitchingOccur() T = 16.100000 Tnext = 16.105000 Time: 1.61000e+01 states: [ 5.29921e-01 2.01277e+00] derivs: [ 2.01254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.105000 pESO->GetIndependentVar(): 16.105000 ==>IsSwitchingOccur() prevPhis[ 0]=8.602537, nextPhis[ 0]=8.627684 prevPhis[ 1]=-2.602537, nextPhis[ 1]=-2.627684 <==IsSwitchingOccur() T = 16.105000 Tnext = 16.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.110000 pESO->GetIndependentVar(): 16.110000 ==>IsSwitchingOccur() prevPhis[ 0]=8.627684, nextPhis[ 0]=8.652757 prevPhis[ 1]=-2.627684, nextPhis[ 1]=-2.652757 <==IsSwitchingOccur() T = 16.110000 Tnext = 16.115000 Time: 1.61100e+01 states: [ 5.49995e-01 2.00277e+00] derivs: [ 2.00254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.115000 pESO->GetIndependentVar(): 16.115000 ==>IsSwitchingOccur() prevPhis[ 0]=8.652757, nextPhis[ 0]=8.677755 prevPhis[ 1]=-2.652757, nextPhis[ 1]=-2.677755 <==IsSwitchingOccur() T = 16.115000 Tnext = 16.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.120000 pESO->GetIndependentVar(): 16.120000 ==>IsSwitchingOccur() prevPhis[ 0]=8.677755, nextPhis[ 0]=8.702678 prevPhis[ 1]=-2.677755, nextPhis[ 1]=-2.702678 <==IsSwitchingOccur() T = 16.120000 Tnext = 16.125000 Time: 1.61200e+01 states: [ 5.69968e-01 1.99277e+00] derivs: [ 1.99254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.125000 pESO->GetIndependentVar(): 16.125000 ==>IsSwitchingOccur() prevPhis[ 0]=8.702678, nextPhis[ 0]=8.727526 prevPhis[ 1]=-2.702678, nextPhis[ 1]=-2.727526 <==IsSwitchingOccur() T = 16.125000 Tnext = 16.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.130000 pESO->GetIndependentVar(): 16.130000 ==>IsSwitchingOccur() prevPhis[ 0]=8.727526, nextPhis[ 0]=8.752299 prevPhis[ 1]=-2.727526, nextPhis[ 1]=-2.752299 <==IsSwitchingOccur() T = 16.130000 Tnext = 16.135000 Time: 1.61300e+01 states: [ 5.89842e-01 1.98277e+00] derivs: [ 1.98254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.135000 pESO->GetIndependentVar(): 16.135000 ==>IsSwitchingOccur() prevPhis[ 0]=8.752299, nextPhis[ 0]=8.776996 prevPhis[ 1]=-2.752299, nextPhis[ 1]=-2.776996 <==IsSwitchingOccur() T = 16.135000 Tnext = 16.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.140000 pESO->GetIndependentVar(): 16.140000 ==>IsSwitchingOccur() prevPhis[ 0]=8.776996, nextPhis[ 0]=8.801619 prevPhis[ 1]=-2.776996, nextPhis[ 1]=-2.801619 <==IsSwitchingOccur() T = 16.140000 Tnext = 16.145000 Time: 1.61400e+01 states: [ 6.09615e-01 1.97277e+00] derivs: [ 1.97254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.145000 pESO->GetIndependentVar(): 16.145000 ==>IsSwitchingOccur() prevPhis[ 0]=8.801619, nextPhis[ 0]=8.826167 prevPhis[ 1]=-2.801619, nextPhis[ 1]=-2.826167 <==IsSwitchingOccur() T = 16.145000 Tnext = 16.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.150000 pESO->GetIndependentVar(): 16.150000 ==>IsSwitchingOccur() prevPhis[ 0]=8.826167, nextPhis[ 0]=8.850640 prevPhis[ 1]=-2.826167, nextPhis[ 1]=-2.850640 <==IsSwitchingOccur() T = 16.150000 Tnext = 16.155000 Time: 1.61500e+01 states: [ 6.29289e-01 1.96277e+00] derivs: [ 1.96254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.155000 pESO->GetIndependentVar(): 16.155000 ==>IsSwitchingOccur() prevPhis[ 0]=8.850640, nextPhis[ 0]=8.875038 prevPhis[ 1]=-2.850640, nextPhis[ 1]=-2.875038 <==IsSwitchingOccur() T = 16.155000 Tnext = 16.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.160000 pESO->GetIndependentVar(): 16.160000 ==>IsSwitchingOccur() prevPhis[ 0]=8.875038, nextPhis[ 0]=8.899360 prevPhis[ 1]=-2.875038, nextPhis[ 1]=-2.899360 <==IsSwitchingOccur() T = 16.160000 Tnext = 16.165000 Time: 1.61600e+01 states: [ 6.48862e-01 1.95277e+00] derivs: [ 1.95254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.165000 pESO->GetIndependentVar(): 16.165000 ==>IsSwitchingOccur() prevPhis[ 0]=8.899360, nextPhis[ 0]=8.923608 prevPhis[ 1]=-2.899360, nextPhis[ 1]=-2.923608 <==IsSwitchingOccur() T = 16.165000 Tnext = 16.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.170000 pESO->GetIndependentVar(): 16.170000 ==>IsSwitchingOccur() prevPhis[ 0]=8.923608, nextPhis[ 0]=8.947781 prevPhis[ 1]=-2.923608, nextPhis[ 1]=-2.947781 <==IsSwitchingOccur() T = 16.170000 Tnext = 16.175000 Time: 1.61700e+01 states: [ 6.68336e-01 1.94277e+00] derivs: [ 1.94254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.175000 pESO->GetIndependentVar(): 16.175000 ==>IsSwitchingOccur() prevPhis[ 0]=8.947781, nextPhis[ 0]=8.971879 prevPhis[ 1]=-2.947781, nextPhis[ 1]=-2.971879 <==IsSwitchingOccur() T = 16.175000 Tnext = 16.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.180000 pESO->GetIndependentVar(): 16.180000 ==>IsSwitchingOccur() prevPhis[ 0]=8.971879, nextPhis[ 0]=8.995902 prevPhis[ 1]=-2.971879, nextPhis[ 1]=-2.995902 <==IsSwitchingOccur() T = 16.180000 Tnext = 16.185000 Time: 1.61800e+01 states: [ 6.87709e-01 1.93277e+00] derivs: [ 1.93254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.185000 pESO->GetIndependentVar(): 16.185000 ==>IsSwitchingOccur() prevPhis[ 0]=8.995902, nextPhis[ 0]=9.019850 prevPhis[ 1]=-2.995902, nextPhis[ 1]=-3.019850 <==IsSwitchingOccur() T = 16.185000 Tnext = 16.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.190000 pESO->GetIndependentVar(): 16.190000 ==>IsSwitchingOccur() prevPhis[ 0]=9.019850, nextPhis[ 0]=9.043722 prevPhis[ 1]=-3.019850, nextPhis[ 1]=-3.043722 <==IsSwitchingOccur() T = 16.190000 Tnext = 16.195000 Time: 1.61900e+01 states: [ 7.06983e-01 1.92277e+00] derivs: [ 1.92254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.195000 pESO->GetIndependentVar(): 16.195000 ==>IsSwitchingOccur() prevPhis[ 0]=9.043722, nextPhis[ 0]=9.067520 prevPhis[ 1]=-3.043722, nextPhis[ 1]=-3.067520 <==IsSwitchingOccur() T = 16.195000 Tnext = 16.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.200000 pESO->GetIndependentVar(): 16.200000 ==>IsSwitchingOccur() prevPhis[ 0]=9.067520, nextPhis[ 0]=9.091243 prevPhis[ 1]=-3.067520, nextPhis[ 1]=-3.091243 <==IsSwitchingOccur() T = 16.200000 Tnext = 16.205000 Time: 1.62000e+01 states: [ 7.26157e-01 1.91277e+00] derivs: [ 1.91254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.205000 pESO->GetIndependentVar(): 16.205000 ==>IsSwitchingOccur() prevPhis[ 0]=9.091243, nextPhis[ 0]=9.114891 prevPhis[ 1]=-3.091243, nextPhis[ 1]=-3.114891 <==IsSwitchingOccur() T = 16.205000 Tnext = 16.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.210000 pESO->GetIndependentVar(): 16.210000 ==>IsSwitchingOccur() prevPhis[ 0]=9.114891, nextPhis[ 0]=9.138464 prevPhis[ 1]=-3.114891, nextPhis[ 1]=-3.138464 <==IsSwitchingOccur() T = 16.210000 Tnext = 16.215000 Time: 1.62100e+01 states: [ 7.45230e-01 1.90277e+00] derivs: [ 1.90254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.215000 pESO->GetIndependentVar(): 16.215000 ==>IsSwitchingOccur() prevPhis[ 0]=9.138464, nextPhis[ 0]=9.161962 prevPhis[ 1]=-3.138464, nextPhis[ 1]=-3.161962 <==IsSwitchingOccur() T = 16.215000 Tnext = 16.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.220000 pESO->GetIndependentVar(): 16.220000 ==>IsSwitchingOccur() prevPhis[ 0]=9.161962, nextPhis[ 0]=9.185384 prevPhis[ 1]=-3.161962, nextPhis[ 1]=-3.185384 <==IsSwitchingOccur() T = 16.220000 Tnext = 16.225000 Time: 1.62200e+01 states: [ 7.64204e-01 1.89277e+00] derivs: [ 1.89254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.225000 pESO->GetIndependentVar(): 16.225000 ==>IsSwitchingOccur() prevPhis[ 0]=9.185384, nextPhis[ 0]=9.208732 prevPhis[ 1]=-3.185384, nextPhis[ 1]=-3.208732 <==IsSwitchingOccur() T = 16.225000 Tnext = 16.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.230000 pESO->GetIndependentVar(): 16.230000 ==>IsSwitchingOccur() prevPhis[ 0]=9.208732, nextPhis[ 0]=9.232005 prevPhis[ 1]=-3.208732, nextPhis[ 1]=-3.232005 <==IsSwitchingOccur() T = 16.230000 Tnext = 16.235000 Time: 1.62300e+01 states: [ 7.83077e-01 1.88277e+00] derivs: [ 1.88254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.235000 pESO->GetIndependentVar(): 16.235000 ==>IsSwitchingOccur() prevPhis[ 0]=9.232005, nextPhis[ 0]=9.255203 prevPhis[ 1]=-3.232005, nextPhis[ 1]=-3.255203 <==IsSwitchingOccur() T = 16.235000 Tnext = 16.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.240000 pESO->GetIndependentVar(): 16.240000 ==>IsSwitchingOccur() prevPhis[ 0]=9.255203, nextPhis[ 0]=9.278326 prevPhis[ 1]=-3.255203, nextPhis[ 1]=-3.278326 <==IsSwitchingOccur() T = 16.240000 Tnext = 16.245000 Time: 1.62400e+01 states: [ 8.01851e-01 1.87277e+00] derivs: [ 1.87254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.245000 pESO->GetIndependentVar(): 16.245000 ==>IsSwitchingOccur() prevPhis[ 0]=9.278326, nextPhis[ 0]=9.301374 prevPhis[ 1]=-3.278326, nextPhis[ 1]=-3.301374 <==IsSwitchingOccur() T = 16.245000 Tnext = 16.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.250000 pESO->GetIndependentVar(): 16.250000 ==>IsSwitchingOccur() prevPhis[ 0]=9.301374, nextPhis[ 0]=9.324346 prevPhis[ 1]=-3.301374, nextPhis[ 1]=-3.324346 <==IsSwitchingOccur() T = 16.250000 Tnext = 16.255000 Time: 1.62500e+01 states: [ 8.20524e-01 1.86277e+00] derivs: [ 1.86254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.255000 pESO->GetIndependentVar(): 16.255000 ==>IsSwitchingOccur() prevPhis[ 0]=9.324346, nextPhis[ 0]=9.347244 prevPhis[ 1]=-3.324346, nextPhis[ 1]=-3.347244 <==IsSwitchingOccur() T = 16.255000 Tnext = 16.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.260000 pESO->GetIndependentVar(): 16.260000 ==>IsSwitchingOccur() prevPhis[ 0]=9.347244, nextPhis[ 0]=9.370067 prevPhis[ 1]=-3.347244, nextPhis[ 1]=-3.370067 <==IsSwitchingOccur() T = 16.260000 Tnext = 16.265000 Time: 1.62600e+01 states: [ 8.39098e-01 1.85277e+00] derivs: [ 1.85254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.265000 pESO->GetIndependentVar(): 16.265000 ==>IsSwitchingOccur() prevPhis[ 0]=9.370067, nextPhis[ 0]=9.392815 prevPhis[ 1]=-3.370067, nextPhis[ 1]=-3.392815 <==IsSwitchingOccur() T = 16.265000 Tnext = 16.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.270000 pESO->GetIndependentVar(): 16.270000 ==>IsSwitchingOccur() prevPhis[ 0]=9.392815, nextPhis[ 0]=9.415488 prevPhis[ 1]=-3.392815, nextPhis[ 1]=-3.415488 <==IsSwitchingOccur() T = 16.270000 Tnext = 16.275000 Time: 1.62700e+01 states: [ 8.57571e-01 1.84277e+00] derivs: [ 1.84254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.275000 pESO->GetIndependentVar(): 16.275000 ==>IsSwitchingOccur() prevPhis[ 0]=9.415488, nextPhis[ 0]=9.438085 prevPhis[ 1]=-3.415488, nextPhis[ 1]=-3.438085 <==IsSwitchingOccur() T = 16.275000 Tnext = 16.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.280000 pESO->GetIndependentVar(): 16.280000 ==>IsSwitchingOccur() prevPhis[ 0]=9.438085, nextPhis[ 0]=9.460608 prevPhis[ 1]=-3.438085, nextPhis[ 1]=-3.460608 <==IsSwitchingOccur() T = 16.280000 Tnext = 16.285000 Time: 1.62800e+01 states: [ 8.75945e-01 1.83277e+00] derivs: [ 1.83254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.285000 pESO->GetIndependentVar(): 16.285000 ==>IsSwitchingOccur() prevPhis[ 0]=9.460608, nextPhis[ 0]=9.483056 prevPhis[ 1]=-3.460608, nextPhis[ 1]=-3.483056 <==IsSwitchingOccur() T = 16.285000 Tnext = 16.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.290000 pESO->GetIndependentVar(): 16.290000 ==>IsSwitchingOccur() prevPhis[ 0]=9.483056, nextPhis[ 0]=9.505429 prevPhis[ 1]=-3.483056, nextPhis[ 1]=-3.505429 <==IsSwitchingOccur() T = 16.290000 Tnext = 16.295000 Time: 1.62900e+01 states: [ 8.94218e-01 1.82277e+00] derivs: [ 1.82254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.295000 pESO->GetIndependentVar(): 16.295000 ==>IsSwitchingOccur() prevPhis[ 0]=9.505429, nextPhis[ 0]=9.527727 prevPhis[ 1]=-3.505429, nextPhis[ 1]=-3.527727 <==IsSwitchingOccur() T = 16.295000 Tnext = 16.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.300000 pESO->GetIndependentVar(): 16.300000 ==>IsSwitchingOccur() prevPhis[ 0]=9.527727, nextPhis[ 0]=9.549950 prevPhis[ 1]=-3.527727, nextPhis[ 1]=-3.549950 <==IsSwitchingOccur() T = 16.300000 Tnext = 16.305000 Time: 1.63000e+01 states: [ 9.12392e-01 1.81277e+00] derivs: [ 1.81254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.305000 pESO->GetIndependentVar(): 16.305000 ==>IsSwitchingOccur() prevPhis[ 0]=9.549950, nextPhis[ 0]=9.572097 prevPhis[ 1]=-3.549950, nextPhis[ 1]=-3.572097 <==IsSwitchingOccur() T = 16.305000 Tnext = 16.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.310000 pESO->GetIndependentVar(): 16.310000 ==>IsSwitchingOccur() prevPhis[ 0]=9.572097, nextPhis[ 0]=9.594170 prevPhis[ 1]=-3.572097, nextPhis[ 1]=-3.594170 <==IsSwitchingOccur() T = 16.310000 Tnext = 16.315000 Time: 1.63100e+01 states: [ 9.30466e-01 1.80277e+00] derivs: [ 1.80254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.315000 pESO->GetIndependentVar(): 16.315000 ==>IsSwitchingOccur() prevPhis[ 0]=9.594170, nextPhis[ 0]=9.616168 prevPhis[ 1]=-3.594170, nextPhis[ 1]=-3.616168 <==IsSwitchingOccur() T = 16.315000 Tnext = 16.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.320000 pESO->GetIndependentVar(): 16.320000 ==>IsSwitchingOccur() prevPhis[ 0]=9.616168, nextPhis[ 0]=9.638091 prevPhis[ 1]=-3.616168, nextPhis[ 1]=-3.638091 <==IsSwitchingOccur() T = 16.320000 Tnext = 16.325000 Time: 1.63200e+01 states: [ 9.48439e-01 1.79277e+00] derivs: [ 1.79254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.325000 pESO->GetIndependentVar(): 16.325000 ==>IsSwitchingOccur() prevPhis[ 0]=9.638091, nextPhis[ 0]=9.659939 prevPhis[ 1]=-3.638091, nextPhis[ 1]=-3.659939 <==IsSwitchingOccur() T = 16.325000 Tnext = 16.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.330000 pESO->GetIndependentVar(): 16.330000 ==>IsSwitchingOccur() prevPhis[ 0]=9.659939, nextPhis[ 0]=9.681712 prevPhis[ 1]=-3.659939, nextPhis[ 1]=-3.681712 <==IsSwitchingOccur() T = 16.330000 Tnext = 16.335000 Time: 1.63300e+01 states: [ 9.66313e-01 1.78277e+00] derivs: [ 1.78254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.335000 pESO->GetIndependentVar(): 16.335000 ==>IsSwitchingOccur() prevPhis[ 0]=9.681712, nextPhis[ 0]=9.703409 prevPhis[ 1]=-3.681712, nextPhis[ 1]=-3.703409 <==IsSwitchingOccur() T = 16.335000 Tnext = 16.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.340000 pESO->GetIndependentVar(): 16.340000 ==>IsSwitchingOccur() prevPhis[ 0]=9.703409, nextPhis[ 0]=9.725032 prevPhis[ 1]=-3.703409, nextPhis[ 1]=-3.725032 <==IsSwitchingOccur() T = 16.340000 Tnext = 16.345000 Time: 1.63400e+01 states: [ 9.84086e-01 1.77277e+00] derivs: [ 1.77254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.345000 pESO->GetIndependentVar(): 16.345000 ==>IsSwitchingOccur() prevPhis[ 0]=9.725032, nextPhis[ 0]=9.746580 prevPhis[ 1]=-3.725032, nextPhis[ 1]=-3.746580 <==IsSwitchingOccur() T = 16.345000 Tnext = 16.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.350000 pESO->GetIndependentVar(): 16.350000 ==>IsSwitchingOccur() prevPhis[ 0]=9.746580, nextPhis[ 0]=9.768053 prevPhis[ 1]=-3.746580, nextPhis[ 1]=-3.768053 <==IsSwitchingOccur() T = 16.350000 Tnext = 16.355000 Time: 1.63500e+01 states: [ 1.00176e+00 1.76277e+00] derivs: [ 1.76254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.355000 pESO->GetIndependentVar(): 16.355000 ==>IsSwitchingOccur() prevPhis[ 0]=9.768053, nextPhis[ 0]=9.789451 prevPhis[ 1]=-3.768053, nextPhis[ 1]=-3.789451 <==IsSwitchingOccur() T = 16.355000 Tnext = 16.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.360000 pESO->GetIndependentVar(): 16.360000 ==>IsSwitchingOccur() prevPhis[ 0]=9.789451, nextPhis[ 0]=9.810774 prevPhis[ 1]=-3.789451, nextPhis[ 1]=-3.810774 <==IsSwitchingOccur() T = 16.360000 Tnext = 16.365000 Time: 1.63600e+01 states: [ 1.01933e+00 1.75277e+00] derivs: [ 1.75254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.365000 pESO->GetIndependentVar(): 16.365000 ==>IsSwitchingOccur() prevPhis[ 0]=9.810774, nextPhis[ 0]=9.832021 prevPhis[ 1]=-3.810774, nextPhis[ 1]=-3.832021 <==IsSwitchingOccur() T = 16.365000 Tnext = 16.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.370000 pESO->GetIndependentVar(): 16.370000 ==>IsSwitchingOccur() prevPhis[ 0]=9.832021, nextPhis[ 0]=9.853194 prevPhis[ 1]=-3.832021, nextPhis[ 1]=-3.853194 <==IsSwitchingOccur() T = 16.370000 Tnext = 16.375000 Time: 1.63700e+01 states: [ 1.03681e+00 1.74277e+00] derivs: [ 1.74254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.375000 pESO->GetIndependentVar(): 16.375000 ==>IsSwitchingOccur() prevPhis[ 0]=9.853194, nextPhis[ 0]=9.874292 prevPhis[ 1]=-3.853194, nextPhis[ 1]=-3.874292 <==IsSwitchingOccur() T = 16.375000 Tnext = 16.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.380000 pESO->GetIndependentVar(): 16.380000 ==>IsSwitchingOccur() prevPhis[ 0]=9.874292, nextPhis[ 0]=9.895315 prevPhis[ 1]=-3.874292, nextPhis[ 1]=-3.895315 <==IsSwitchingOccur() T = 16.380000 Tnext = 16.385000 Time: 1.63800e+01 states: [ 1.05418e+00 1.73277e+00] derivs: [ 1.73254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.385000 pESO->GetIndependentVar(): 16.385000 ==>IsSwitchingOccur() prevPhis[ 0]=9.895315, nextPhis[ 0]=9.916263 prevPhis[ 1]=-3.895315, nextPhis[ 1]=-3.916263 <==IsSwitchingOccur() T = 16.385000 Tnext = 16.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.390000 pESO->GetIndependentVar(): 16.390000 ==>IsSwitchingOccur() prevPhis[ 0]=9.916263, nextPhis[ 0]=9.937135 prevPhis[ 1]=-3.916263, nextPhis[ 1]=-3.937135 <==IsSwitchingOccur() T = 16.390000 Tnext = 16.395000 Time: 1.63900e+01 states: [ 1.07145e+00 1.72277e+00] derivs: [ 1.72254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.395000 pESO->GetIndependentVar(): 16.395000 ==>IsSwitchingOccur() prevPhis[ 0]=9.937135, nextPhis[ 0]=9.957933 prevPhis[ 1]=-3.937135, nextPhis[ 1]=-3.957933 <==IsSwitchingOccur() T = 16.395000 Tnext = 16.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.400000 pESO->GetIndependentVar(): 16.400000 ==>IsSwitchingOccur() prevPhis[ 0]=9.957933, nextPhis[ 0]=9.978656 prevPhis[ 1]=-3.957933, nextPhis[ 1]=-3.978656 <==IsSwitchingOccur() T = 16.400000 Tnext = 16.405000 Time: 1.64000e+01 states: [ 1.08863e+00 1.71277e+00] derivs: [ 1.71254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.405000 pESO->GetIndependentVar(): 16.405000 ==>IsSwitchingOccur() prevPhis[ 0]=9.978656, nextPhis[ 0]=9.999304 prevPhis[ 1]=-3.978656, nextPhis[ 1]=-3.999304 <==IsSwitchingOccur() T = 16.405000 Tnext = 16.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.410000 pESO->GetIndependentVar(): 16.410000 ==>IsSwitchingOccur() prevPhis[ 0]=9.999304, nextPhis[ 0]=10.019877 prevPhis[ 1]=-3.999304, nextPhis[ 1]=-4.019877 <==IsSwitchingOccur() T = 16.410000 Tnext = 16.415000 Time: 1.64100e+01 states: [ 1.10570e+00 1.70277e+00] derivs: [ 1.70254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.415000 pESO->GetIndependentVar(): 16.415000 ==>IsSwitchingOccur() prevPhis[ 0]=10.019877, nextPhis[ 0]=10.040375 prevPhis[ 1]=-4.019877, nextPhis[ 1]=-4.040375 <==IsSwitchingOccur() T = 16.415000 Tnext = 16.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.420000 pESO->GetIndependentVar(): 16.420000 ==>IsSwitchingOccur() prevPhis[ 0]=10.040375, nextPhis[ 0]=10.060797 prevPhis[ 1]=-4.040375, nextPhis[ 1]=-4.060797 <==IsSwitchingOccur() T = 16.420000 Tnext = 16.425000 Time: 1.64200e+01 states: [ 1.12267e+00 1.69277e+00] derivs: [ 1.69254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.425000 pESO->GetIndependentVar(): 16.425000 ==>IsSwitchingOccur() prevPhis[ 0]=10.060797, nextPhis[ 0]=10.081145 prevPhis[ 1]=-4.060797, nextPhis[ 1]=-4.081145 <==IsSwitchingOccur() T = 16.425000 Tnext = 16.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.430000 pESO->GetIndependentVar(): 16.430000 ==>IsSwitchingOccur() prevPhis[ 0]=10.081145, nextPhis[ 0]=10.101418 prevPhis[ 1]=-4.081145, nextPhis[ 1]=-4.101418 <==IsSwitchingOccur() T = 16.430000 Tnext = 16.435000 Time: 1.64300e+01 states: [ 1.13955e+00 1.68277e+00] derivs: [ 1.68254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.435000 pESO->GetIndependentVar(): 16.435000 ==>IsSwitchingOccur() prevPhis[ 0]=10.101418, nextPhis[ 0]=10.121616 prevPhis[ 1]=-4.101418, nextPhis[ 1]=-4.121616 <==IsSwitchingOccur() T = 16.435000 Tnext = 16.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.440000 pESO->GetIndependentVar(): 16.440000 ==>IsSwitchingOccur() prevPhis[ 0]=10.121616, nextPhis[ 0]=10.141739 prevPhis[ 1]=-4.121616, nextPhis[ 1]=-4.141739 <==IsSwitchingOccur() T = 16.440000 Tnext = 16.445000 Time: 1.64400e+01 states: [ 1.15632e+00 1.67277e+00] derivs: [ 1.67254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.445000 pESO->GetIndependentVar(): 16.445000 ==>IsSwitchingOccur() prevPhis[ 0]=10.141739, nextPhis[ 0]=10.161787 prevPhis[ 1]=-4.141739, nextPhis[ 1]=-4.161787 <==IsSwitchingOccur() T = 16.445000 Tnext = 16.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.450000 pESO->GetIndependentVar(): 16.450000 ==>IsSwitchingOccur() prevPhis[ 0]=10.161787, nextPhis[ 0]=10.181759 prevPhis[ 1]=-4.161787, nextPhis[ 1]=-4.181759 <==IsSwitchingOccur() T = 16.450000 Tnext = 16.455000 Time: 1.64500e+01 states: [ 1.17300e+00 1.66277e+00] derivs: [ 1.66254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.455000 pESO->GetIndependentVar(): 16.455000 ==>IsSwitchingOccur() prevPhis[ 0]=10.181759, nextPhis[ 0]=10.201657 prevPhis[ 1]=-4.181759, nextPhis[ 1]=-4.201657 <==IsSwitchingOccur() T = 16.455000 Tnext = 16.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.460000 pESO->GetIndependentVar(): 16.460000 ==>IsSwitchingOccur() prevPhis[ 0]=10.201657, nextPhis[ 0]=10.221480 prevPhis[ 1]=-4.201657, nextPhis[ 1]=-4.221480 <==IsSwitchingOccur() T = 16.460000 Tnext = 16.465000 Time: 1.64600e+01 states: [ 1.18957e+00 1.65277e+00] derivs: [ 1.65254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.465000 pESO->GetIndependentVar(): 16.465000 ==>IsSwitchingOccur() prevPhis[ 0]=10.221480, nextPhis[ 0]=10.241228 prevPhis[ 1]=-4.221480, nextPhis[ 1]=-4.241228 <==IsSwitchingOccur() T = 16.465000 Tnext = 16.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.470000 pESO->GetIndependentVar(): 16.470000 ==>IsSwitchingOccur() prevPhis[ 0]=10.241228, nextPhis[ 0]=10.260901 prevPhis[ 1]=-4.241228, nextPhis[ 1]=-4.260901 <==IsSwitchingOccur() T = 16.470000 Tnext = 16.475000 Time: 1.64700e+01 states: [ 1.20604e+00 1.64277e+00] derivs: [ 1.64254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.475000 pESO->GetIndependentVar(): 16.475000 ==>IsSwitchingOccur() prevPhis[ 0]=10.260901, nextPhis[ 0]=10.280499 prevPhis[ 1]=-4.260901, nextPhis[ 1]=-4.280499 <==IsSwitchingOccur() T = 16.475000 Tnext = 16.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.480000 pESO->GetIndependentVar(): 16.480000 ==>IsSwitchingOccur() prevPhis[ 0]=10.280499, nextPhis[ 0]=10.300021 prevPhis[ 1]=-4.280499, nextPhis[ 1]=-4.300021 <==IsSwitchingOccur() T = 16.480000 Tnext = 16.485000 Time: 1.64800e+01 states: [ 1.22242e+00 1.63277e+00] derivs: [ 1.63254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.485000 pESO->GetIndependentVar(): 16.485000 ==>IsSwitchingOccur() prevPhis[ 0]=10.300021, nextPhis[ 0]=10.319469 prevPhis[ 1]=-4.300021, nextPhis[ 1]=-4.319469 <==IsSwitchingOccur() T = 16.485000 Tnext = 16.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.490000 pESO->GetIndependentVar(): 16.490000 ==>IsSwitchingOccur() prevPhis[ 0]=10.319469, nextPhis[ 0]=10.338842 prevPhis[ 1]=-4.319469, nextPhis[ 1]=-4.338842 <==IsSwitchingOccur() T = 16.490000 Tnext = 16.495000 Time: 1.64900e+01 states: [ 1.23869e+00 1.62277e+00] derivs: [ 1.62254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.495000 pESO->GetIndependentVar(): 16.495000 ==>IsSwitchingOccur() prevPhis[ 0]=10.338842, nextPhis[ 0]=10.358140 prevPhis[ 1]=-4.338842, nextPhis[ 1]=-4.358140 <==IsSwitchingOccur() T = 16.495000 Tnext = 16.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.500000 pESO->GetIndependentVar(): 16.500000 ==>IsSwitchingOccur() prevPhis[ 0]=10.358140, nextPhis[ 0]=10.377363 prevPhis[ 1]=-4.358140, nextPhis[ 1]=-4.377363 <==IsSwitchingOccur() T = 16.500000 Tnext = 16.505000 Time: 1.65000e+01 states: [ 1.25486e+00 1.61277e+00] derivs: [ 1.61254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.505000 pESO->GetIndependentVar(): 16.505000 ==>IsSwitchingOccur() prevPhis[ 0]=10.377363, nextPhis[ 0]=10.396511 prevPhis[ 1]=-4.377363, nextPhis[ 1]=-4.396511 <==IsSwitchingOccur() T = 16.505000 Tnext = 16.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.510000 pESO->GetIndependentVar(): 16.510000 ==>IsSwitchingOccur() prevPhis[ 0]=10.396511, nextPhis[ 0]=10.415583 prevPhis[ 1]=-4.396511, nextPhis[ 1]=-4.415583 <==IsSwitchingOccur() T = 16.510000 Tnext = 16.515000 Time: 1.65100e+01 states: [ 1.27094e+00 1.60277e+00] derivs: [ 1.60254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.515000 pESO->GetIndependentVar(): 16.515000 ==>IsSwitchingOccur() prevPhis[ 0]=10.415583, nextPhis[ 0]=10.434581 prevPhis[ 1]=-4.415583, nextPhis[ 1]=-4.434581 <==IsSwitchingOccur() T = 16.515000 Tnext = 16.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.520000 pESO->GetIndependentVar(): 16.520000 ==>IsSwitchingOccur() prevPhis[ 0]=10.434581, nextPhis[ 0]=10.453504 prevPhis[ 1]=-4.434581, nextPhis[ 1]=-4.453504 <==IsSwitchingOccur() T = 16.520000 Tnext = 16.525000 Time: 1.65200e+01 states: [ 1.28691e+00 1.59277e+00] derivs: [ 1.59254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.525000 pESO->GetIndependentVar(): 16.525000 ==>IsSwitchingOccur() prevPhis[ 0]=10.453504, nextPhis[ 0]=10.472352 prevPhis[ 1]=-4.453504, nextPhis[ 1]=-4.472352 <==IsSwitchingOccur() T = 16.525000 Tnext = 16.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.530000 pESO->GetIndependentVar(): 16.530000 ==>IsSwitchingOccur() prevPhis[ 0]=10.472352, nextPhis[ 0]=10.491125 prevPhis[ 1]=-4.472352, nextPhis[ 1]=-4.491125 <==IsSwitchingOccur() T = 16.530000 Tnext = 16.535000 Time: 1.65300e+01 states: [ 1.30278e+00 1.58277e+00] derivs: [ 1.58254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.535000 pESO->GetIndependentVar(): 16.535000 ==>IsSwitchingOccur() prevPhis[ 0]=10.491125, nextPhis[ 0]=10.509822 prevPhis[ 1]=-4.491125, nextPhis[ 1]=-4.509822 <==IsSwitchingOccur() T = 16.535000 Tnext = 16.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.540000 pESO->GetIndependentVar(): 16.540000 ==>IsSwitchingOccur() prevPhis[ 0]=10.509822, nextPhis[ 0]=10.528445 prevPhis[ 1]=-4.509822, nextPhis[ 1]=-4.528445 <==IsSwitchingOccur() T = 16.540000 Tnext = 16.545000 Time: 1.65400e+01 states: [ 1.31856e+00 1.57277e+00] derivs: [ 1.57254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.545000 pESO->GetIndependentVar(): 16.545000 ==>IsSwitchingOccur() prevPhis[ 0]=10.528445, nextPhis[ 0]=10.546993 prevPhis[ 1]=-4.528445, nextPhis[ 1]=-4.546993 <==IsSwitchingOccur() T = 16.545000 Tnext = 16.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.550000 pESO->GetIndependentVar(): 16.550000 ==>IsSwitchingOccur() prevPhis[ 0]=10.546993, nextPhis[ 0]=10.565466 prevPhis[ 1]=-4.546993, nextPhis[ 1]=-4.565466 <==IsSwitchingOccur() T = 16.550000 Tnext = 16.555000 Time: 1.65500e+01 states: [ 1.33423e+00 1.56277e+00] derivs: [ 1.56254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.555000 pESO->GetIndependentVar(): 16.555000 ==>IsSwitchingOccur() prevPhis[ 0]=10.565466, nextPhis[ 0]=10.583864 prevPhis[ 1]=-4.565466, nextPhis[ 1]=-4.583864 <==IsSwitchingOccur() T = 16.555000 Tnext = 16.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.560000 pESO->GetIndependentVar(): 16.560000 ==>IsSwitchingOccur() prevPhis[ 0]=10.583864, nextPhis[ 0]=10.602187 prevPhis[ 1]=-4.583864, nextPhis[ 1]=-4.602187 <==IsSwitchingOccur() T = 16.560000 Tnext = 16.565000 Time: 1.65600e+01 states: [ 1.34980e+00 1.55277e+00] derivs: [ 1.55254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.565000 pESO->GetIndependentVar(): 16.565000 ==>IsSwitchingOccur() prevPhis[ 0]=10.602187, nextPhis[ 0]=10.620434 prevPhis[ 1]=-4.602187, nextPhis[ 1]=-4.620434 <==IsSwitchingOccur() T = 16.565000 Tnext = 16.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.570000 pESO->GetIndependentVar(): 16.570000 ==>IsSwitchingOccur() prevPhis[ 0]=10.620434, nextPhis[ 0]=10.638607 prevPhis[ 1]=-4.620434, nextPhis[ 1]=-4.638607 <==IsSwitchingOccur() T = 16.570000 Tnext = 16.575000 Time: 1.65700e+01 states: [ 1.36528e+00 1.54277e+00] derivs: [ 1.54254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.575000 pESO->GetIndependentVar(): 16.575000 ==>IsSwitchingOccur() prevPhis[ 0]=10.638607, nextPhis[ 0]=10.656705 prevPhis[ 1]=-4.638607, nextPhis[ 1]=-4.656705 <==IsSwitchingOccur() T = 16.575000 Tnext = 16.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.580000 pESO->GetIndependentVar(): 16.580000 ==>IsSwitchingOccur() prevPhis[ 0]=10.656705, nextPhis[ 0]=10.674728 prevPhis[ 1]=-4.656705, nextPhis[ 1]=-4.674728 <==IsSwitchingOccur() T = 16.580000 Tnext = 16.585000 Time: 1.65800e+01 states: [ 1.38065e+00 1.53277e+00] derivs: [ 1.53254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.585000 pESO->GetIndependentVar(): 16.585000 ==>IsSwitchingOccur() prevPhis[ 0]=10.674728, nextPhis[ 0]=10.692676 prevPhis[ 1]=-4.674728, nextPhis[ 1]=-4.692676 <==IsSwitchingOccur() T = 16.585000 Tnext = 16.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.590000 pESO->GetIndependentVar(): 16.590000 ==>IsSwitchingOccur() prevPhis[ 0]=10.692676, nextPhis[ 0]=10.710549 prevPhis[ 1]=-4.692676, nextPhis[ 1]=-4.710549 <==IsSwitchingOccur() T = 16.590000 Tnext = 16.595000 Time: 1.65900e+01 states: [ 1.39593e+00 1.52277e+00] derivs: [ 1.52254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.595000 pESO->GetIndependentVar(): 16.595000 ==>IsSwitchingOccur() prevPhis[ 0]=10.710549, nextPhis[ 0]=10.728346 prevPhis[ 1]=-4.710549, nextPhis[ 1]=-4.728346 <==IsSwitchingOccur() T = 16.595000 Tnext = 16.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.600000 pESO->GetIndependentVar(): 16.600000 ==>IsSwitchingOccur() prevPhis[ 0]=10.728346, nextPhis[ 0]=10.746069 prevPhis[ 1]=-4.728346, nextPhis[ 1]=-4.746069 <==IsSwitchingOccur() T = 16.600000 Tnext = 16.605000 Time: 1.66000e+01 states: [ 1.41110e+00 1.51277e+00] derivs: [ 1.51254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.605000 pESO->GetIndependentVar(): 16.605000 ==>IsSwitchingOccur() prevPhis[ 0]=10.746069, nextPhis[ 0]=10.763717 prevPhis[ 1]=-4.746069, nextPhis[ 1]=-4.763717 <==IsSwitchingOccur() T = 16.605000 Tnext = 16.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.610000 pESO->GetIndependentVar(): 16.610000 ==>IsSwitchingOccur() prevPhis[ 0]=10.763717, nextPhis[ 0]=10.781290 prevPhis[ 1]=-4.763717, nextPhis[ 1]=-4.781290 <==IsSwitchingOccur() T = 16.610000 Tnext = 16.615000 Time: 1.66100e+01 states: [ 1.42617e+00 1.50277e+00] derivs: [ 1.50254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.615000 pESO->GetIndependentVar(): 16.615000 ==>IsSwitchingOccur() prevPhis[ 0]=10.781290, nextPhis[ 0]=10.798788 prevPhis[ 1]=-4.781290, nextPhis[ 1]=-4.798788 <==IsSwitchingOccur() T = 16.615000 Tnext = 16.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.620000 pESO->GetIndependentVar(): 16.620000 ==>IsSwitchingOccur() prevPhis[ 0]=10.798788, nextPhis[ 0]=10.816211 prevPhis[ 1]=-4.798788, nextPhis[ 1]=-4.816211 <==IsSwitchingOccur() T = 16.620000 Tnext = 16.625000 Time: 1.66200e+01 states: [ 1.44115e+00 1.49277e+00] derivs: [ 1.49254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.625000 pESO->GetIndependentVar(): 16.625000 ==>IsSwitchingOccur() prevPhis[ 0]=10.816211, nextPhis[ 0]=10.833558 prevPhis[ 1]=-4.816211, nextPhis[ 1]=-4.833558 <==IsSwitchingOccur() T = 16.625000 Tnext = 16.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.630000 pESO->GetIndependentVar(): 16.630000 ==>IsSwitchingOccur() prevPhis[ 0]=10.833558, nextPhis[ 0]=10.850831 prevPhis[ 1]=-4.833558, nextPhis[ 1]=-4.850831 <==IsSwitchingOccur() T = 16.630000 Tnext = 16.635000 Time: 1.66300e+01 states: [ 1.45602e+00 1.48277e+00] derivs: [ 1.48254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.635000 pESO->GetIndependentVar(): 16.635000 ==>IsSwitchingOccur() prevPhis[ 0]=10.850831, nextPhis[ 0]=10.868029 prevPhis[ 1]=-4.850831, nextPhis[ 1]=-4.868029 <==IsSwitchingOccur() T = 16.635000 Tnext = 16.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.640000 pESO->GetIndependentVar(): 16.640000 ==>IsSwitchingOccur() prevPhis[ 0]=10.868029, nextPhis[ 0]=10.885152 prevPhis[ 1]=-4.868029, nextPhis[ 1]=-4.885152 <==IsSwitchingOccur() T = 16.640000 Tnext = 16.645000 Time: 1.66400e+01 states: [ 1.47079e+00 1.47277e+00] derivs: [ 1.47254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.645000 pESO->GetIndependentVar(): 16.645000 ==>IsSwitchingOccur() prevPhis[ 0]=10.885152, nextPhis[ 0]=10.902200 prevPhis[ 1]=-4.885152, nextPhis[ 1]=-4.902200 <==IsSwitchingOccur() T = 16.645000 Tnext = 16.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.650000 pESO->GetIndependentVar(): 16.650000 ==>IsSwitchingOccur() prevPhis[ 0]=10.902200, nextPhis[ 0]=10.919172 prevPhis[ 1]=-4.902200, nextPhis[ 1]=-4.919172 <==IsSwitchingOccur() T = 16.650000 Tnext = 16.655000 Time: 1.66500e+01 states: [ 1.48547e+00 1.46277e+00] derivs: [ 1.46254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.655000 pESO->GetIndependentVar(): 16.655000 ==>IsSwitchingOccur() prevPhis[ 0]=10.919172, nextPhis[ 0]=10.936070 prevPhis[ 1]=-4.919172, nextPhis[ 1]=-4.936070 <==IsSwitchingOccur() T = 16.655000 Tnext = 16.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.660000 pESO->GetIndependentVar(): 16.660000 ==>IsSwitchingOccur() prevPhis[ 0]=10.936070, nextPhis[ 0]=10.952893 prevPhis[ 1]=-4.936070, nextPhis[ 1]=-4.952893 <==IsSwitchingOccur() T = 16.660000 Tnext = 16.665000 Time: 1.66600e+01 states: [ 1.50004e+00 1.45277e+00] derivs: [ 1.45254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.665000 pESO->GetIndependentVar(): 16.665000 ==>IsSwitchingOccur() prevPhis[ 0]=10.952893, nextPhis[ 0]=10.969641 prevPhis[ 1]=-4.952893, nextPhis[ 1]=-4.969641 <==IsSwitchingOccur() T = 16.665000 Tnext = 16.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.670000 pESO->GetIndependentVar(): 16.670000 ==>IsSwitchingOccur() prevPhis[ 0]=10.969641, nextPhis[ 0]=10.986314 prevPhis[ 1]=-4.969641, nextPhis[ 1]=-4.986314 <==IsSwitchingOccur() T = 16.670000 Tnext = 16.675000 Time: 1.66700e+01 states: [ 1.51451e+00 1.44277e+00] derivs: [ 1.44254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.675000 pESO->GetIndependentVar(): 16.675000 ==>IsSwitchingOccur() prevPhis[ 0]=10.986314, nextPhis[ 0]=11.002912 prevPhis[ 1]=-4.986314, nextPhis[ 1]=-5.002912 <==IsSwitchingOccur() T = 16.675000 Tnext = 16.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.680000 pESO->GetIndependentVar(): 16.680000 ==>IsSwitchingOccur() prevPhis[ 0]=11.002912, nextPhis[ 0]=11.019434 prevPhis[ 1]=-5.002912, nextPhis[ 1]=-5.019434 <==IsSwitchingOccur() T = 16.680000 Tnext = 16.685000 Time: 1.66800e+01 states: [ 1.52889e+00 1.43277e+00] derivs: [ 1.43254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.685000 pESO->GetIndependentVar(): 16.685000 ==>IsSwitchingOccur() prevPhis[ 0]=11.019434, nextPhis[ 0]=11.035882 prevPhis[ 1]=-5.019434, nextPhis[ 1]=-5.035882 <==IsSwitchingOccur() T = 16.685000 Tnext = 16.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.690000 pESO->GetIndependentVar(): 16.690000 ==>IsSwitchingOccur() prevPhis[ 0]=11.035882, nextPhis[ 0]=11.052255 prevPhis[ 1]=-5.035882, nextPhis[ 1]=-5.052255 <==IsSwitchingOccur() T = 16.690000 Tnext = 16.695000 Time: 1.66900e+01 states: [ 1.54316e+00 1.42277e+00] derivs: [ 1.42254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.695000 pESO->GetIndependentVar(): 16.695000 ==>IsSwitchingOccur() prevPhis[ 0]=11.052255, nextPhis[ 0]=11.068553 prevPhis[ 1]=-5.052255, nextPhis[ 1]=-5.068553 <==IsSwitchingOccur() T = 16.695000 Tnext = 16.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.700000 pESO->GetIndependentVar(): 16.700000 ==>IsSwitchingOccur() prevPhis[ 0]=11.068553, nextPhis[ 0]=11.084776 prevPhis[ 1]=-5.068553, nextPhis[ 1]=-5.084776 <==IsSwitchingOccur() T = 16.700000 Tnext = 16.705000 Time: 1.67000e+01 states: [ 1.55733e+00 1.41277e+00] derivs: [ 1.41254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.705000 pESO->GetIndependentVar(): 16.705000 ==>IsSwitchingOccur() prevPhis[ 0]=11.084776, nextPhis[ 0]=11.100924 prevPhis[ 1]=-5.084776, nextPhis[ 1]=-5.100924 <==IsSwitchingOccur() T = 16.705000 Tnext = 16.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.710000 pESO->GetIndependentVar(): 16.710000 ==>IsSwitchingOccur() prevPhis[ 0]=11.100924, nextPhis[ 0]=11.116996 prevPhis[ 1]=-5.100924, nextPhis[ 1]=-5.116996 <==IsSwitchingOccur() T = 16.710000 Tnext = 16.715000 Time: 1.67100e+01 states: [ 1.57141e+00 1.40277e+00] derivs: [ 1.40254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.715000 pESO->GetIndependentVar(): 16.715000 ==>IsSwitchingOccur() prevPhis[ 0]=11.116996, nextPhis[ 0]=11.132994 prevPhis[ 1]=-5.116996, nextPhis[ 1]=-5.132994 <==IsSwitchingOccur() T = 16.715000 Tnext = 16.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.720000 pESO->GetIndependentVar(): 16.720000 ==>IsSwitchingOccur() prevPhis[ 0]=11.132994, nextPhis[ 0]=11.148917 prevPhis[ 1]=-5.132994, nextPhis[ 1]=-5.148917 <==IsSwitchingOccur() T = 16.720000 Tnext = 16.725000 Time: 1.67200e+01 states: [ 1.58538e+00 1.39277e+00] derivs: [ 1.39254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.725000 pESO->GetIndependentVar(): 16.725000 ==>IsSwitchingOccur() prevPhis[ 0]=11.148917, nextPhis[ 0]=11.164765 prevPhis[ 1]=-5.148917, nextPhis[ 1]=-5.164765 <==IsSwitchingOccur() T = 16.725000 Tnext = 16.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.730000 pESO->GetIndependentVar(): 16.730000 ==>IsSwitchingOccur() prevPhis[ 0]=11.164765, nextPhis[ 0]=11.180538 prevPhis[ 1]=-5.164765, nextPhis[ 1]=-5.180538 <==IsSwitchingOccur() T = 16.730000 Tnext = 16.735000 Time: 1.67300e+01 states: [ 1.59925e+00 1.38277e+00] derivs: [ 1.38254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.735000 pESO->GetIndependentVar(): 16.735000 ==>IsSwitchingOccur() prevPhis[ 0]=11.180538, nextPhis[ 0]=11.196236 prevPhis[ 1]=-5.180538, nextPhis[ 1]=-5.196236 <==IsSwitchingOccur() T = 16.735000 Tnext = 16.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.740000 pESO->GetIndependentVar(): 16.740000 ==>IsSwitchingOccur() prevPhis[ 0]=11.196236, nextPhis[ 0]=11.211858 prevPhis[ 1]=-5.196236, nextPhis[ 1]=-5.211858 <==IsSwitchingOccur() T = 16.740000 Tnext = 16.745000 Time: 1.67400e+01 states: [ 1.61303e+00 1.37277e+00] derivs: [ 1.37254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.745000 pESO->GetIndependentVar(): 16.745000 ==>IsSwitchingOccur() prevPhis[ 0]=11.211858, nextPhis[ 0]=11.227406 prevPhis[ 1]=-5.211858, nextPhis[ 1]=-5.227406 <==IsSwitchingOccur() T = 16.745000 Tnext = 16.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.750000 pESO->GetIndependentVar(): 16.750000 ==>IsSwitchingOccur() prevPhis[ 0]=11.227406, nextPhis[ 0]=11.242879 prevPhis[ 1]=-5.227406, nextPhis[ 1]=-5.242879 <==IsSwitchingOccur() T = 16.750000 Tnext = 16.755000 Time: 1.67500e+01 states: [ 1.62670e+00 1.36277e+00] derivs: [ 1.36254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.755000 pESO->GetIndependentVar(): 16.755000 ==>IsSwitchingOccur() prevPhis[ 0]=11.242879, nextPhis[ 0]=11.258277 prevPhis[ 1]=-5.242879, nextPhis[ 1]=-5.258277 <==IsSwitchingOccur() T = 16.755000 Tnext = 16.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.760000 pESO->GetIndependentVar(): 16.760000 ==>IsSwitchingOccur() prevPhis[ 0]=11.258277, nextPhis[ 0]=11.273600 prevPhis[ 1]=-5.258277, nextPhis[ 1]=-5.273600 <==IsSwitchingOccur() T = 16.760000 Tnext = 16.765000 Time: 1.67600e+01 states: [ 1.64028e+00 1.35277e+00] derivs: [ 1.35254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.765000 pESO->GetIndependentVar(): 16.765000 ==>IsSwitchingOccur() prevPhis[ 0]=11.273600, nextPhis[ 0]=11.288847 prevPhis[ 1]=-5.273600, nextPhis[ 1]=-5.288847 <==IsSwitchingOccur() T = 16.765000 Tnext = 16.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.770000 pESO->GetIndependentVar(): 16.770000 ==>IsSwitchingOccur() prevPhis[ 0]=11.288847, nextPhis[ 0]=11.304020 prevPhis[ 1]=-5.288847, nextPhis[ 1]=-5.304020 <==IsSwitchingOccur() T = 16.770000 Tnext = 16.775000 Time: 1.67700e+01 states: [ 1.65375e+00 1.34277e+00] derivs: [ 1.34254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.775000 pESO->GetIndependentVar(): 16.775000 ==>IsSwitchingOccur() prevPhis[ 0]=11.304020, nextPhis[ 0]=11.319118 prevPhis[ 1]=-5.304020, nextPhis[ 1]=-5.319118 <==IsSwitchingOccur() T = 16.775000 Tnext = 16.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.780000 pESO->GetIndependentVar(): 16.780000 ==>IsSwitchingOccur() prevPhis[ 0]=11.319118, nextPhis[ 0]=11.334141 prevPhis[ 1]=-5.319118, nextPhis[ 1]=-5.334141 <==IsSwitchingOccur() T = 16.780000 Tnext = 16.785000 Time: 1.67800e+01 states: [ 1.66712e+00 1.33277e+00] derivs: [ 1.33254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.785000 pESO->GetIndependentVar(): 16.785000 ==>IsSwitchingOccur() prevPhis[ 0]=11.334141, nextPhis[ 0]=11.349089 prevPhis[ 1]=-5.334141, nextPhis[ 1]=-5.349089 <==IsSwitchingOccur() T = 16.785000 Tnext = 16.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.790000 pESO->GetIndependentVar(): 16.790000 ==>IsSwitchingOccur() prevPhis[ 0]=11.349089, nextPhis[ 0]=11.363962 prevPhis[ 1]=-5.349089, nextPhis[ 1]=-5.363962 <==IsSwitchingOccur() T = 16.790000 Tnext = 16.795000 Time: 1.67900e+01 states: [ 1.68040e+00 1.32277e+00] derivs: [ 1.32254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.795000 pESO->GetIndependentVar(): 16.795000 ==>IsSwitchingOccur() prevPhis[ 0]=11.363962, nextPhis[ 0]=11.378759 prevPhis[ 1]=-5.363962, nextPhis[ 1]=-5.378759 <==IsSwitchingOccur() T = 16.795000 Tnext = 16.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.800000 pESO->GetIndependentVar(): 16.800000 ==>IsSwitchingOccur() prevPhis[ 0]=11.378759, nextPhis[ 0]=11.393482 prevPhis[ 1]=-5.378759, nextPhis[ 1]=-5.393482 <==IsSwitchingOccur() T = 16.800000 Tnext = 16.805000 Time: 1.68000e+01 states: [ 1.69357e+00 1.31277e+00] derivs: [ 1.31254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.805000 pESO->GetIndependentVar(): 16.805000 ==>IsSwitchingOccur() prevPhis[ 0]=11.393482, nextPhis[ 0]=11.408130 prevPhis[ 1]=-5.393482, nextPhis[ 1]=-5.408130 <==IsSwitchingOccur() T = 16.805000 Tnext = 16.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.810000 pESO->GetIndependentVar(): 16.810000 ==>IsSwitchingOccur() prevPhis[ 0]=11.408130, nextPhis[ 0]=11.422703 prevPhis[ 1]=-5.408130, nextPhis[ 1]=-5.422703 <==IsSwitchingOccur() T = 16.810000 Tnext = 16.815000 Time: 1.68100e+01 states: [ 1.70664e+00 1.30277e+00] derivs: [ 1.30254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.815000 pESO->GetIndependentVar(): 16.815000 ==>IsSwitchingOccur() prevPhis[ 0]=11.422703, nextPhis[ 0]=11.437201 prevPhis[ 1]=-5.422703, nextPhis[ 1]=-5.437201 <==IsSwitchingOccur() T = 16.815000 Tnext = 16.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.820000 pESO->GetIndependentVar(): 16.820000 ==>IsSwitchingOccur() prevPhis[ 0]=11.437201, nextPhis[ 0]=11.451624 prevPhis[ 1]=-5.437201, nextPhis[ 1]=-5.451624 <==IsSwitchingOccur() T = 16.820000 Tnext = 16.825000 Time: 1.68200e+01 states: [ 1.71962e+00 1.29277e+00] derivs: [ 1.29254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.825000 pESO->GetIndependentVar(): 16.825000 ==>IsSwitchingOccur() prevPhis[ 0]=11.451624, nextPhis[ 0]=11.465971 prevPhis[ 1]=-5.451624, nextPhis[ 1]=-5.465971 <==IsSwitchingOccur() T = 16.825000 Tnext = 16.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.830000 pESO->GetIndependentVar(): 16.830000 ==>IsSwitchingOccur() prevPhis[ 0]=11.465971, nextPhis[ 0]=11.480244 prevPhis[ 1]=-5.465971, nextPhis[ 1]=-5.480244 <==IsSwitchingOccur() T = 16.830000 Tnext = 16.835000 Time: 1.68300e+01 states: [ 1.73249e+00 1.28277e+00] derivs: [ 1.28254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.835000 pESO->GetIndependentVar(): 16.835000 ==>IsSwitchingOccur() prevPhis[ 0]=11.480244, nextPhis[ 0]=11.494442 prevPhis[ 1]=-5.480244, nextPhis[ 1]=-5.494442 <==IsSwitchingOccur() T = 16.835000 Tnext = 16.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.840000 pESO->GetIndependentVar(): 16.840000 ==>IsSwitchingOccur() prevPhis[ 0]=11.494442, nextPhis[ 0]=11.508565 prevPhis[ 1]=-5.494442, nextPhis[ 1]=-5.508565 <==IsSwitchingOccur() T = 16.840000 Tnext = 16.845000 Time: 1.68400e+01 states: [ 1.74526e+00 1.27277e+00] derivs: [ 1.27254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.845000 pESO->GetIndependentVar(): 16.845000 ==>IsSwitchingOccur() prevPhis[ 0]=11.508565, nextPhis[ 0]=11.522613 prevPhis[ 1]=-5.508565, nextPhis[ 1]=-5.522613 <==IsSwitchingOccur() T = 16.845000 Tnext = 16.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.850000 pESO->GetIndependentVar(): 16.850000 ==>IsSwitchingOccur() prevPhis[ 0]=11.522613, nextPhis[ 0]=11.536586 prevPhis[ 1]=-5.522613, nextPhis[ 1]=-5.536586 <==IsSwitchingOccur() T = 16.850000 Tnext = 16.855000 Time: 1.68500e+01 states: [ 1.75794e+00 1.26277e+00] derivs: [ 1.26254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.855000 pESO->GetIndependentVar(): 16.855000 ==>IsSwitchingOccur() prevPhis[ 0]=11.536586, nextPhis[ 0]=11.550483 prevPhis[ 1]=-5.536586, nextPhis[ 1]=-5.550483 <==IsSwitchingOccur() T = 16.855000 Tnext = 16.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.860000 pESO->GetIndependentVar(): 16.860000 ==>IsSwitchingOccur() prevPhis[ 0]=11.550483, nextPhis[ 0]=11.564306 prevPhis[ 1]=-5.550483, nextPhis[ 1]=-5.564306 <==IsSwitchingOccur() T = 16.860000 Tnext = 16.865000 Time: 1.68600e+01 states: [ 1.77051e+00 1.25277e+00] derivs: [ 1.25254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.865000 pESO->GetIndependentVar(): 16.865000 ==>IsSwitchingOccur() prevPhis[ 0]=11.564306, nextPhis[ 0]=11.578054 prevPhis[ 1]=-5.564306, nextPhis[ 1]=-5.578054 <==IsSwitchingOccur() T = 16.865000 Tnext = 16.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.870000 pESO->GetIndependentVar(): 16.870000 ==>IsSwitchingOccur() prevPhis[ 0]=11.578054, nextPhis[ 0]=11.591727 prevPhis[ 1]=-5.578054, nextPhis[ 1]=-5.591727 <==IsSwitchingOccur() T = 16.870000 Tnext = 16.875000 Time: 1.68700e+01 states: [ 1.78298e+00 1.24277e+00] derivs: [ 1.24254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.875000 pESO->GetIndependentVar(): 16.875000 ==>IsSwitchingOccur() prevPhis[ 0]=11.591727, nextPhis[ 0]=11.605325 prevPhis[ 1]=-5.591727, nextPhis[ 1]=-5.605325 <==IsSwitchingOccur() T = 16.875000 Tnext = 16.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.880000 pESO->GetIndependentVar(): 16.880000 ==>IsSwitchingOccur() prevPhis[ 0]=11.605325, nextPhis[ 0]=11.618847 prevPhis[ 1]=-5.605325, nextPhis[ 1]=-5.618847 <==IsSwitchingOccur() T = 16.880000 Tnext = 16.885000 Time: 1.68800e+01 states: [ 1.79536e+00 1.23277e+00] derivs: [ 1.23254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.885000 pESO->GetIndependentVar(): 16.885000 ==>IsSwitchingOccur() prevPhis[ 0]=11.618847, nextPhis[ 0]=11.632295 prevPhis[ 1]=-5.618847, nextPhis[ 1]=-5.632295 <==IsSwitchingOccur() T = 16.885000 Tnext = 16.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.890000 pESO->GetIndependentVar(): 16.890000 ==>IsSwitchingOccur() prevPhis[ 0]=11.632295, nextPhis[ 0]=11.645668 prevPhis[ 1]=-5.632295, nextPhis[ 1]=-5.645668 <==IsSwitchingOccur() T = 16.890000 Tnext = 16.895000 Time: 1.68900e+01 states: [ 1.80763e+00 1.22277e+00] derivs: [ 1.22254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.895000 pESO->GetIndependentVar(): 16.895000 ==>IsSwitchingOccur() prevPhis[ 0]=11.645668, nextPhis[ 0]=11.658966 prevPhis[ 1]=-5.645668, nextPhis[ 1]=-5.658966 <==IsSwitchingOccur() T = 16.895000 Tnext = 16.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.900000 pESO->GetIndependentVar(): 16.900000 ==>IsSwitchingOccur() prevPhis[ 0]=11.658966, nextPhis[ 0]=11.672189 prevPhis[ 1]=-5.658966, nextPhis[ 1]=-5.672189 <==IsSwitchingOccur() T = 16.900000 Tnext = 16.905000 Time: 1.69000e+01 states: [ 1.81981e+00 1.21277e+00] derivs: [ 1.21254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.905000 pESO->GetIndependentVar(): 16.905000 ==>IsSwitchingOccur() prevPhis[ 0]=11.672189, nextPhis[ 0]=11.685337 prevPhis[ 1]=-5.672189, nextPhis[ 1]=-5.685337 <==IsSwitchingOccur() T = 16.905000 Tnext = 16.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.910000 pESO->GetIndependentVar(): 16.910000 ==>IsSwitchingOccur() prevPhis[ 0]=11.685337, nextPhis[ 0]=11.698409 prevPhis[ 1]=-5.685337, nextPhis[ 1]=-5.698409 <==IsSwitchingOccur() T = 16.910000 Tnext = 16.915000 Time: 1.69100e+01 states: [ 1.83188e+00 1.20277e+00] derivs: [ 1.20254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.915000 pESO->GetIndependentVar(): 16.915000 ==>IsSwitchingOccur() prevPhis[ 0]=11.698409, nextPhis[ 0]=11.711407 prevPhis[ 1]=-5.698409, nextPhis[ 1]=-5.711407 <==IsSwitchingOccur() T = 16.915000 Tnext = 16.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.920000 pESO->GetIndependentVar(): 16.920000 ==>IsSwitchingOccur() prevPhis[ 0]=11.711407, nextPhis[ 0]=11.724330 prevPhis[ 1]=-5.711407, nextPhis[ 1]=-5.724330 <==IsSwitchingOccur() T = 16.920000 Tnext = 16.925000 Time: 1.69200e+01 states: [ 1.84385e+00 1.19277e+00] derivs: [ 1.19254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.925000 pESO->GetIndependentVar(): 16.925000 ==>IsSwitchingOccur() prevPhis[ 0]=11.724330, nextPhis[ 0]=11.737178 prevPhis[ 1]=-5.724330, nextPhis[ 1]=-5.737178 <==IsSwitchingOccur() T = 16.925000 Tnext = 16.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.930000 pESO->GetIndependentVar(): 16.930000 ==>IsSwitchingOccur() prevPhis[ 0]=11.737178, nextPhis[ 0]=11.749951 prevPhis[ 1]=-5.737178, nextPhis[ 1]=-5.749951 <==IsSwitchingOccur() T = 16.930000 Tnext = 16.935000 Time: 1.69300e+01 states: [ 1.85573e+00 1.18277e+00] derivs: [ 1.18254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.935000 pESO->GetIndependentVar(): 16.935000 ==>IsSwitchingOccur() prevPhis[ 0]=11.749951, nextPhis[ 0]=11.762649 prevPhis[ 1]=-5.749951, nextPhis[ 1]=-5.762649 <==IsSwitchingOccur() T = 16.935000 Tnext = 16.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.940000 pESO->GetIndependentVar(): 16.940000 ==>IsSwitchingOccur() prevPhis[ 0]=11.762649, nextPhis[ 0]=11.775271 prevPhis[ 1]=-5.762649, nextPhis[ 1]=-5.775271 <==IsSwitchingOccur() T = 16.940000 Tnext = 16.945000 Time: 1.69400e+01 states: [ 1.86750e+00 1.17277e+00] derivs: [ 1.17254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.945000 pESO->GetIndependentVar(): 16.945000 ==>IsSwitchingOccur() prevPhis[ 0]=11.775271, nextPhis[ 0]=11.787819 prevPhis[ 1]=-5.775271, nextPhis[ 1]=-5.787819 <==IsSwitchingOccur() T = 16.945000 Tnext = 16.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.950000 pESO->GetIndependentVar(): 16.950000 ==>IsSwitchingOccur() prevPhis[ 0]=11.787819, nextPhis[ 0]=11.800292 prevPhis[ 1]=-5.787819, nextPhis[ 1]=-5.800292 <==IsSwitchingOccur() T = 16.950000 Tnext = 16.955000 Time: 1.69500e+01 states: [ 1.87917e+00 1.16277e+00] derivs: [ 1.16254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.955000 pESO->GetIndependentVar(): 16.955000 ==>IsSwitchingOccur() prevPhis[ 0]=11.800292, nextPhis[ 0]=11.812690 prevPhis[ 1]=-5.800292, nextPhis[ 1]=-5.812690 <==IsSwitchingOccur() T = 16.955000 Tnext = 16.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.960000 pESO->GetIndependentVar(): 16.960000 ==>IsSwitchingOccur() prevPhis[ 0]=11.812690, nextPhis[ 0]=11.825013 prevPhis[ 1]=-5.812690, nextPhis[ 1]=-5.825013 <==IsSwitchingOccur() T = 16.960000 Tnext = 16.965000 Time: 1.69600e+01 states: [ 1.89075e+00 1.15277e+00] derivs: [ 1.15254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.965000 pESO->GetIndependentVar(): 16.965000 ==>IsSwitchingOccur() prevPhis[ 0]=11.825013, nextPhis[ 0]=11.837261 prevPhis[ 1]=-5.825013, nextPhis[ 1]=-5.837261 <==IsSwitchingOccur() T = 16.965000 Tnext = 16.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.970000 pESO->GetIndependentVar(): 16.970000 ==>IsSwitchingOccur() prevPhis[ 0]=11.837261, nextPhis[ 0]=11.849433 prevPhis[ 1]=-5.837261, nextPhis[ 1]=-5.849433 <==IsSwitchingOccur() T = 16.970000 Tnext = 16.975000 Time: 1.69700e+01 states: [ 1.90222e+00 1.14277e+00] derivs: [ 1.14254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.975000 pESO->GetIndependentVar(): 16.975000 ==>IsSwitchingOccur() prevPhis[ 0]=11.849433, nextPhis[ 0]=11.861531 prevPhis[ 1]=-5.849433, nextPhis[ 1]=-5.861531 <==IsSwitchingOccur() T = 16.975000 Tnext = 16.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.980000 pESO->GetIndependentVar(): 16.980000 ==>IsSwitchingOccur() prevPhis[ 0]=11.861531, nextPhis[ 0]=11.873554 prevPhis[ 1]=-5.861531, nextPhis[ 1]=-5.873554 <==IsSwitchingOccur() T = 16.980000 Tnext = 16.985000 Time: 1.69800e+01 states: [ 1.91359e+00 1.13277e+00] derivs: [ 1.13254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.985000 pESO->GetIndependentVar(): 16.985000 ==>IsSwitchingOccur() prevPhis[ 0]=11.873554, nextPhis[ 0]=11.885502 prevPhis[ 1]=-5.873554, nextPhis[ 1]=-5.885502 <==IsSwitchingOccur() T = 16.985000 Tnext = 16.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.990000 pESO->GetIndependentVar(): 16.990000 ==>IsSwitchingOccur() prevPhis[ 0]=11.885502, nextPhis[ 0]=11.897375 prevPhis[ 1]=-5.885502, nextPhis[ 1]=-5.897375 <==IsSwitchingOccur() T = 16.990000 Tnext = 16.995000 Time: 1.69900e+01 states: [ 1.92487e+00 1.12277e+00] derivs: [ 1.12254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 16.995000 pESO->GetIndependentVar(): 16.995000 ==>IsSwitchingOccur() prevPhis[ 0]=11.897375, nextPhis[ 0]=11.909173 prevPhis[ 1]=-5.897375, nextPhis[ 1]=-5.909173 <==IsSwitchingOccur() T = 16.995000 Tnext = 17.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.000000 pESO->GetIndependentVar(): 17.000000 ==>IsSwitchingOccur() prevPhis[ 0]=11.909173, nextPhis[ 0]=11.920895 prevPhis[ 1]=-5.909173, nextPhis[ 1]=-5.920895 <==IsSwitchingOccur() T = 17.000000 Tnext = 17.005000 Time: 1.70000e+01 states: [ 1.93604e+00 1.11277e+00] derivs: [ 1.11254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.005000 pESO->GetIndependentVar(): 17.005000 ==>IsSwitchingOccur() prevPhis[ 0]=11.920895, nextPhis[ 0]=11.932543 prevPhis[ 1]=-5.920895, nextPhis[ 1]=-5.932543 <==IsSwitchingOccur() T = 17.005000 Tnext = 17.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.010000 pESO->GetIndependentVar(): 17.010000 ==>IsSwitchingOccur() prevPhis[ 0]=11.932543, nextPhis[ 0]=11.944116 prevPhis[ 1]=-5.932543, nextPhis[ 1]=-5.944116 <==IsSwitchingOccur() T = 17.010000 Tnext = 17.015000 Time: 1.70100e+01 states: [ 1.94711e+00 1.10277e+00] derivs: [ 1.10254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.015000 pESO->GetIndependentVar(): 17.015000 ==>IsSwitchingOccur() prevPhis[ 0]=11.944116, nextPhis[ 0]=11.955614 prevPhis[ 1]=-5.944116, nextPhis[ 1]=-5.955614 <==IsSwitchingOccur() T = 17.015000 Tnext = 17.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.020000 pESO->GetIndependentVar(): 17.020000 ==>IsSwitchingOccur() prevPhis[ 0]=11.955614, nextPhis[ 0]=11.967037 prevPhis[ 1]=-5.955614, nextPhis[ 1]=-5.967037 <==IsSwitchingOccur() T = 17.020000 Tnext = 17.025000 Time: 1.70200e+01 states: [ 1.95809e+00 1.09277e+00] derivs: [ 1.09254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.025000 pESO->GetIndependentVar(): 17.025000 ==>IsSwitchingOccur() prevPhis[ 0]=11.967037, nextPhis[ 0]=11.978384 prevPhis[ 1]=-5.967037, nextPhis[ 1]=-5.978384 <==IsSwitchingOccur() T = 17.025000 Tnext = 17.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.030000 pESO->GetIndependentVar(): 17.030000 ==>IsSwitchingOccur() prevPhis[ 0]=11.978384, nextPhis[ 0]=11.989657 prevPhis[ 1]=-5.978384, nextPhis[ 1]=-5.989657 <==IsSwitchingOccur() T = 17.030000 Tnext = 17.035000 Time: 1.70300e+01 states: [ 1.96896e+00 1.08277e+00] derivs: [ 1.08254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.035000 pESO->GetIndependentVar(): 17.035000 ==>IsSwitchingOccur() prevPhis[ 0]=11.989657, nextPhis[ 0]=12.000855 prevPhis[ 1]=-5.989657, nextPhis[ 1]=-6.000855 <==IsSwitchingOccur() T = 17.035000 Tnext = 17.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.040000 pESO->GetIndependentVar(): 17.040000 ==>IsSwitchingOccur() prevPhis[ 0]=12.000855, nextPhis[ 0]=12.011978 prevPhis[ 1]=-6.000855, nextPhis[ 1]=-6.011978 <==IsSwitchingOccur() T = 17.040000 Tnext = 17.045000 Time: 1.70400e+01 states: [ 1.97973e+00 1.07277e+00] derivs: [ 1.07254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.045000 pESO->GetIndependentVar(): 17.045000 ==>IsSwitchingOccur() prevPhis[ 0]=12.011978, nextPhis[ 0]=12.023026 prevPhis[ 1]=-6.011978, nextPhis[ 1]=-6.023026 <==IsSwitchingOccur() T = 17.045000 Tnext = 17.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.050000 pESO->GetIndependentVar(): 17.050000 ==>IsSwitchingOccur() prevPhis[ 0]=12.023026, nextPhis[ 0]=12.033999 prevPhis[ 1]=-6.023026, nextPhis[ 1]=-6.033999 <==IsSwitchingOccur() T = 17.050000 Tnext = 17.055000 Time: 1.70500e+01 states: [ 1.99041e+00 1.06277e+00] derivs: [ 1.06254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.055000 pESO->GetIndependentVar(): 17.055000 ==>IsSwitchingOccur() prevPhis[ 0]=12.033999, nextPhis[ 0]=12.044896 prevPhis[ 1]=-6.033999, nextPhis[ 1]=-6.044896 <==IsSwitchingOccur() T = 17.055000 Tnext = 17.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.060000 pESO->GetIndependentVar(): 17.060000 ==>IsSwitchingOccur() prevPhis[ 0]=12.044896, nextPhis[ 0]=12.055719 prevPhis[ 1]=-6.044896, nextPhis[ 1]=-6.055719 <==IsSwitchingOccur() T = 17.060000 Tnext = 17.065000 Time: 1.70600e+01 states: [ 2.00098e+00 1.05277e+00] derivs: [ 1.05254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.065000 pESO->GetIndependentVar(): 17.065000 ==>IsSwitchingOccur() prevPhis[ 0]=12.055719, nextPhis[ 0]=12.066467 prevPhis[ 1]=-6.055719, nextPhis[ 1]=-6.066467 <==IsSwitchingOccur() T = 17.065000 Tnext = 17.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.070000 pESO->GetIndependentVar(): 17.070000 ==>IsSwitchingOccur() prevPhis[ 0]=12.066467, nextPhis[ 0]=12.077140 prevPhis[ 1]=-6.066467, nextPhis[ 1]=-6.077140 <==IsSwitchingOccur() T = 17.070000 Tnext = 17.075000 Time: 1.70700e+01 states: [ 2.01146e+00 1.04277e+00] derivs: [ 1.04254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.075000 pESO->GetIndependentVar(): 17.075000 ==>IsSwitchingOccur() prevPhis[ 0]=12.077140, nextPhis[ 0]=12.087738 prevPhis[ 1]=-6.077140, nextPhis[ 1]=-6.087738 <==IsSwitchingOccur() T = 17.075000 Tnext = 17.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.080000 pESO->GetIndependentVar(): 17.080000 ==>IsSwitchingOccur() prevPhis[ 0]=12.087738, nextPhis[ 0]=12.098261 prevPhis[ 1]=-6.087738, nextPhis[ 1]=-6.098261 <==IsSwitchingOccur() T = 17.080000 Tnext = 17.085000 Time: 1.70800e+01 states: [ 2.02183e+00 1.03277e+00] derivs: [ 1.03254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.085000 pESO->GetIndependentVar(): 17.085000 ==>IsSwitchingOccur() prevPhis[ 0]=12.098261, nextPhis[ 0]=12.108708 prevPhis[ 1]=-6.098261, nextPhis[ 1]=-6.108708 <==IsSwitchingOccur() T = 17.085000 Tnext = 17.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.090000 pESO->GetIndependentVar(): 17.090000 ==>IsSwitchingOccur() prevPhis[ 0]=12.108708, nextPhis[ 0]=12.119081 prevPhis[ 1]=-6.108708, nextPhis[ 1]=-6.119081 <==IsSwitchingOccur() T = 17.090000 Tnext = 17.095000 Time: 1.70900e+01 states: [ 2.03210e+00 1.02277e+00] derivs: [ 1.02254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.095000 pESO->GetIndependentVar(): 17.095000 ==>IsSwitchingOccur() prevPhis[ 0]=12.119081, nextPhis[ 0]=12.129379 prevPhis[ 1]=-6.119081, nextPhis[ 1]=-6.129379 <==IsSwitchingOccur() T = 17.095000 Tnext = 17.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.100000 pESO->GetIndependentVar(): 17.100000 ==>IsSwitchingOccur() prevPhis[ 0]=12.129379, nextPhis[ 0]=12.139602 prevPhis[ 1]=-6.129379, nextPhis[ 1]=-6.139602 <==IsSwitchingOccur() T = 17.100000 Tnext = 17.105000 Time: 1.71000e+01 states: [ 2.04228e+00 1.01277e+00] derivs: [ 1.01254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.105000 pESO->GetIndependentVar(): 17.105000 ==>IsSwitchingOccur() prevPhis[ 0]=12.139602, nextPhis[ 0]=12.149750 prevPhis[ 1]=-6.139602, nextPhis[ 1]=-6.149750 <==IsSwitchingOccur() T = 17.105000 Tnext = 17.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.110000 pESO->GetIndependentVar(): 17.110000 ==>IsSwitchingOccur() prevPhis[ 0]=12.149750, nextPhis[ 0]=12.159823 prevPhis[ 1]=-6.149750, nextPhis[ 1]=-6.159823 <==IsSwitchingOccur() T = 17.110000 Tnext = 17.115000 Time: 1.71100e+01 states: [ 2.05235e+00 1.00277e+00] derivs: [ 1.00254e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.115000 pESO->GetIndependentVar(): 17.115000 ==>IsSwitchingOccur() prevPhis[ 0]=12.159823, nextPhis[ 0]=12.169820 prevPhis[ 1]=-6.159823, nextPhis[ 1]=-6.169820 <==IsSwitchingOccur() T = 17.115000 Tnext = 17.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.120000 pESO->GetIndependentVar(): 17.120000 ==>IsSwitchingOccur() prevPhis[ 0]=12.169820, nextPhis[ 0]=12.179743 prevPhis[ 1]=-6.169820, nextPhis[ 1]=-6.179743 <==IsSwitchingOccur() T = 17.120000 Tnext = 17.125000 Time: 1.71200e+01 states: [ 2.06232e+00 9.92774e-01] derivs: [ 9.92539e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.125000 pESO->GetIndependentVar(): 17.125000 ==>IsSwitchingOccur() prevPhis[ 0]=12.179743, nextPhis[ 0]=12.189591 prevPhis[ 1]=-6.179743, nextPhis[ 1]=-6.189591 <==IsSwitchingOccur() T = 17.125000 Tnext = 17.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.130000 pESO->GetIndependentVar(): 17.130000 ==>IsSwitchingOccur() prevPhis[ 0]=12.189591, nextPhis[ 0]=12.199364 prevPhis[ 1]=-6.189591, nextPhis[ 1]=-6.199364 <==IsSwitchingOccur() T = 17.130000 Tnext = 17.135000 Time: 1.71300e+01 states: [ 2.07220e+00 9.82774e-01] derivs: [ 9.82539e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.135000 pESO->GetIndependentVar(): 17.135000 ==>IsSwitchingOccur() prevPhis[ 0]=12.199364, nextPhis[ 0]=12.209062 prevPhis[ 1]=-6.199364, nextPhis[ 1]=-6.209062 <==IsSwitchingOccur() T = 17.135000 Tnext = 17.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.140000 pESO->GetIndependentVar(): 17.140000 ==>IsSwitchingOccur() prevPhis[ 0]=12.209062, nextPhis[ 0]=12.218684 prevPhis[ 1]=-6.209062, nextPhis[ 1]=-6.218684 <==IsSwitchingOccur() T = 17.140000 Tnext = 17.145000 Time: 1.71400e+01 states: [ 2.08197e+00 9.72774e-01] derivs: [ 9.72539e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.145000 pESO->GetIndependentVar(): 17.145000 ==>IsSwitchingOccur() prevPhis[ 0]=12.218684, nextPhis[ 0]=12.228232 prevPhis[ 1]=-6.218684, nextPhis[ 1]=-6.228232 <==IsSwitchingOccur() T = 17.145000 Tnext = 17.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.150000 pESO->GetIndependentVar(): 17.150000 ==>IsSwitchingOccur() prevPhis[ 0]=12.228232, nextPhis[ 0]=12.237705 prevPhis[ 1]=-6.228232, nextPhis[ 1]=-6.237705 <==IsSwitchingOccur() T = 17.150000 Tnext = 17.155000 Time: 1.71500e+01 states: [ 2.09164e+00 9.62774e-01] derivs: [ 9.62539e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.155000 pESO->GetIndependentVar(): 17.155000 ==>IsSwitchingOccur() prevPhis[ 0]=12.237705, nextPhis[ 0]=12.247103 prevPhis[ 1]=-6.237705, nextPhis[ 1]=-6.247103 <==IsSwitchingOccur() T = 17.155000 Tnext = 17.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.160000 pESO->GetIndependentVar(): 17.160000 ==>IsSwitchingOccur() prevPhis[ 0]=12.247103, nextPhis[ 0]=12.256426 prevPhis[ 1]=-6.247103, nextPhis[ 1]=-6.256426 <==IsSwitchingOccur() T = 17.160000 Tnext = 17.165000 Time: 1.71600e+01 states: [ 2.10122e+00 9.52774e-01] derivs: [ 9.52539e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.165000 pESO->GetIndependentVar(): 17.165000 ==>IsSwitchingOccur() prevPhis[ 0]=12.256426, nextPhis[ 0]=12.265674 prevPhis[ 1]=-6.256426, nextPhis[ 1]=-6.265674 <==IsSwitchingOccur() T = 17.165000 Tnext = 17.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.170000 pESO->GetIndependentVar(): 17.170000 ==>IsSwitchingOccur() prevPhis[ 0]=12.265674, nextPhis[ 0]=12.274846 prevPhis[ 1]=-6.265674, nextPhis[ 1]=-6.274846 <==IsSwitchingOccur() T = 17.170000 Tnext = 17.175000 Time: 1.71700e+01 states: [ 2.11069e+00 9.42774e-01] derivs: [ 9.42539e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.175000 pESO->GetIndependentVar(): 17.175000 ==>IsSwitchingOccur() prevPhis[ 0]=12.274846, nextPhis[ 0]=12.283940 prevPhis[ 1]=-6.274846, nextPhis[ 1]=-6.283940 <==IsSwitchingOccur() T = 17.175000 Tnext = 17.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.180000 pESO->GetIndependentVar(): 17.180000 ==>IsSwitchingOccur() prevPhis[ 0]=12.283940, nextPhis[ 0]=12.292959 prevPhis[ 1]=-6.283940, nextPhis[ 1]=-6.292959 <==IsSwitchingOccur() T = 17.180000 Tnext = 17.185000 Time: 1.71800e+01 states: [ 2.12006e+00 9.32774e-01] derivs: [ 9.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.185000 pESO->GetIndependentVar(): 17.185000 ==>IsSwitchingOccur() prevPhis[ 0]=12.292959, nextPhis[ 0]=12.301903 prevPhis[ 1]=-6.292959, nextPhis[ 1]=-6.301903 <==IsSwitchingOccur() T = 17.185000 Tnext = 17.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.190000 pESO->GetIndependentVar(): 17.190000 ==>IsSwitchingOccur() prevPhis[ 0]=12.301903, nextPhis[ 0]=12.310771 prevPhis[ 1]=-6.301903, nextPhis[ 1]=-6.310771 <==IsSwitchingOccur() T = 17.190000 Tnext = 17.195000 Time: 1.71900e+01 states: [ 2.12933e+00 9.22774e-01] derivs: [ 9.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.195000 pESO->GetIndependentVar(): 17.195000 ==>IsSwitchingOccur() prevPhis[ 0]=12.310771, nextPhis[ 0]=12.319565 prevPhis[ 1]=-6.310771, nextPhis[ 1]=-6.319565 <==IsSwitchingOccur() T = 17.195000 Tnext = 17.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.200000 pESO->GetIndependentVar(): 17.200000 ==>IsSwitchingOccur() prevPhis[ 0]=12.319565, nextPhis[ 0]=12.328284 prevPhis[ 1]=-6.319565, nextPhis[ 1]=-6.328284 <==IsSwitchingOccur() T = 17.200000 Tnext = 17.205000 Time: 1.72000e+01 states: [ 2.13850e+00 9.12774e-01] derivs: [ 9.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.205000 pESO->GetIndependentVar(): 17.205000 ==>IsSwitchingOccur() prevPhis[ 0]=12.328284, nextPhis[ 0]=12.336928 prevPhis[ 1]=-6.328284, nextPhis[ 1]=-6.336928 <==IsSwitchingOccur() T = 17.205000 Tnext = 17.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.210000 pESO->GetIndependentVar(): 17.210000 ==>IsSwitchingOccur() prevPhis[ 0]=12.336928, nextPhis[ 0]=12.345496 prevPhis[ 1]=-6.336928, nextPhis[ 1]=-6.345496 <==IsSwitchingOccur() T = 17.210000 Tnext = 17.215000 Time: 1.72100e+01 states: [ 2.14757e+00 9.02774e-01] derivs: [ 9.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.215000 pESO->GetIndependentVar(): 17.215000 ==>IsSwitchingOccur() prevPhis[ 0]=12.345496, nextPhis[ 0]=12.353990 prevPhis[ 1]=-6.345496, nextPhis[ 1]=-6.353990 <==IsSwitchingOccur() T = 17.215000 Tnext = 17.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.220000 pESO->GetIndependentVar(): 17.220000 ==>IsSwitchingOccur() prevPhis[ 0]=12.353990, nextPhis[ 0]=12.362409 prevPhis[ 1]=-6.353990, nextPhis[ 1]=-6.362409 <==IsSwitchingOccur() T = 17.220000 Tnext = 17.225000 Time: 1.72200e+01 states: [ 2.15655e+00 8.92774e-01] derivs: [ 8.92531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.225000 pESO->GetIndependentVar(): 17.225000 ==>IsSwitchingOccur() prevPhis[ 0]=12.362409, nextPhis[ 0]=12.370753 prevPhis[ 1]=-6.362409, nextPhis[ 1]=-6.370753 <==IsSwitchingOccur() T = 17.225000 Tnext = 17.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.230000 pESO->GetIndependentVar(): 17.230000 ==>IsSwitchingOccur() prevPhis[ 0]=12.370753, nextPhis[ 0]=12.379021 prevPhis[ 1]=-6.370753, nextPhis[ 1]=-6.379021 <==IsSwitchingOccur() T = 17.230000 Tnext = 17.235000 Time: 1.72300e+01 states: [ 2.16542e+00 8.82774e-01] derivs: [ 8.82531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.235000 pESO->GetIndependentVar(): 17.235000 ==>IsSwitchingOccur() prevPhis[ 0]=12.379021, nextPhis[ 0]=12.387215 prevPhis[ 1]=-6.379021, nextPhis[ 1]=-6.387215 <==IsSwitchingOccur() T = 17.235000 Tnext = 17.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.240000 pESO->GetIndependentVar(): 17.240000 ==>IsSwitchingOccur() prevPhis[ 0]=12.387215, nextPhis[ 0]=12.395334 prevPhis[ 1]=-6.387215, nextPhis[ 1]=-6.395334 <==IsSwitchingOccur() T = 17.240000 Tnext = 17.245000 Time: 1.72400e+01 states: [ 2.17419e+00 8.72774e-01] derivs: [ 8.72531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.245000 pESO->GetIndependentVar(): 17.245000 ==>IsSwitchingOccur() prevPhis[ 0]=12.395334, nextPhis[ 0]=12.403378 prevPhis[ 1]=-6.395334, nextPhis[ 1]=-6.403378 <==IsSwitchingOccur() T = 17.245000 Tnext = 17.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.250000 pESO->GetIndependentVar(): 17.250000 ==>IsSwitchingOccur() prevPhis[ 0]=12.403378, nextPhis[ 0]=12.411346 prevPhis[ 1]=-6.403378, nextPhis[ 1]=-6.411346 <==IsSwitchingOccur() T = 17.250000 Tnext = 17.255000 Time: 1.72500e+01 states: [ 2.18286e+00 8.62774e-01] derivs: [ 8.62531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.255000 pESO->GetIndependentVar(): 17.255000 ==>IsSwitchingOccur() prevPhis[ 0]=12.411346, nextPhis[ 0]=12.419240 prevPhis[ 1]=-6.411346, nextPhis[ 1]=-6.419240 <==IsSwitchingOccur() T = 17.255000 Tnext = 17.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.260000 pESO->GetIndependentVar(): 17.260000 ==>IsSwitchingOccur() prevPhis[ 0]=12.419240, nextPhis[ 0]=12.427059 prevPhis[ 1]=-6.419240, nextPhis[ 1]=-6.427059 <==IsSwitchingOccur() T = 17.260000 Tnext = 17.265000 Time: 1.72600e+01 states: [ 2.19143e+00 8.52774e-01] derivs: [ 8.52531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.265000 pESO->GetIndependentVar(): 17.265000 ==>IsSwitchingOccur() prevPhis[ 0]=12.427059, nextPhis[ 0]=12.434803 prevPhis[ 1]=-6.427059, nextPhis[ 1]=-6.434803 <==IsSwitchingOccur() T = 17.265000 Tnext = 17.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.270000 pESO->GetIndependentVar(): 17.270000 ==>IsSwitchingOccur() prevPhis[ 0]=12.434803, nextPhis[ 0]=12.442471 prevPhis[ 1]=-6.434803, nextPhis[ 1]=-6.442471 <==IsSwitchingOccur() T = 17.270000 Tnext = 17.275000 Time: 1.72700e+01 states: [ 2.19990e+00 8.42774e-01] derivs: [ 8.42531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.275000 pESO->GetIndependentVar(): 17.275000 ==>IsSwitchingOccur() prevPhis[ 0]=12.442471, nextPhis[ 0]=12.450065 prevPhis[ 1]=-6.442471, nextPhis[ 1]=-6.450065 <==IsSwitchingOccur() T = 17.275000 Tnext = 17.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.280000 pESO->GetIndependentVar(): 17.280000 ==>IsSwitchingOccur() prevPhis[ 0]=12.450065, nextPhis[ 0]=12.457584 prevPhis[ 1]=-6.450065, nextPhis[ 1]=-6.457584 <==IsSwitchingOccur() T = 17.280000 Tnext = 17.285000 Time: 1.72800e+01 states: [ 2.20827e+00 8.32774e-01] derivs: [ 8.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.285000 pESO->GetIndependentVar(): 17.285000 ==>IsSwitchingOccur() prevPhis[ 0]=12.457584, nextPhis[ 0]=12.465028 prevPhis[ 1]=-6.457584, nextPhis[ 1]=-6.465028 <==IsSwitchingOccur() T = 17.285000 Tnext = 17.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.290000 pESO->GetIndependentVar(): 17.290000 ==>IsSwitchingOccur() prevPhis[ 0]=12.465028, nextPhis[ 0]=12.472396 prevPhis[ 1]=-6.465028, nextPhis[ 1]=-6.472396 <==IsSwitchingOccur() T = 17.290000 Tnext = 17.295000 Time: 1.72900e+01 states: [ 2.21654e+00 8.22774e-01] derivs: [ 8.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.295000 pESO->GetIndependentVar(): 17.295000 ==>IsSwitchingOccur() prevPhis[ 0]=12.472396, nextPhis[ 0]=12.479690 prevPhis[ 1]=-6.472396, nextPhis[ 1]=-6.479690 <==IsSwitchingOccur() T = 17.295000 Tnext = 17.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.300000 pESO->GetIndependentVar(): 17.300000 ==>IsSwitchingOccur() prevPhis[ 0]=12.479690, nextPhis[ 0]=12.486909 prevPhis[ 1]=-6.479690, nextPhis[ 1]=-6.486909 <==IsSwitchingOccur() T = 17.300000 Tnext = 17.305000 Time: 1.73000e+01 states: [ 2.22471e+00 8.12774e-01] derivs: [ 8.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.305000 pESO->GetIndependentVar(): 17.305000 ==>IsSwitchingOccur() prevPhis[ 0]=12.486909, nextPhis[ 0]=12.494053 prevPhis[ 1]=-6.486909, nextPhis[ 1]=-6.494053 <==IsSwitchingOccur() T = 17.305000 Tnext = 17.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.310000 pESO->GetIndependentVar(): 17.310000 ==>IsSwitchingOccur() prevPhis[ 0]=12.494053, nextPhis[ 0]=12.501121 prevPhis[ 1]=-6.494053, nextPhis[ 1]=-6.501121 <==IsSwitchingOccur() T = 17.310000 Tnext = 17.315000 Time: 1.73100e+01 states: [ 2.23278e+00 8.02774e-01] derivs: [ 8.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.315000 pESO->GetIndependentVar(): 17.315000 ==>IsSwitchingOccur() prevPhis[ 0]=12.501121, nextPhis[ 0]=12.508115 prevPhis[ 1]=-6.501121, nextPhis[ 1]=-6.508115 <==IsSwitchingOccur() T = 17.315000 Tnext = 17.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.320000 pESO->GetIndependentVar(): 17.320000 ==>IsSwitchingOccur() prevPhis[ 0]=12.508115, nextPhis[ 0]=12.515034 prevPhis[ 1]=-6.508115, nextPhis[ 1]=-6.515034 <==IsSwitchingOccur() T = 17.320000 Tnext = 17.325000 Time: 1.73200e+01 states: [ 2.24075e+00 7.92774e-01] derivs: [ 7.92531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.325000 pESO->GetIndependentVar(): 17.325000 ==>IsSwitchingOccur() prevPhis[ 0]=12.515034, nextPhis[ 0]=12.521878 prevPhis[ 1]=-6.515034, nextPhis[ 1]=-6.521878 <==IsSwitchingOccur() T = 17.325000 Tnext = 17.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.330000 pESO->GetIndependentVar(): 17.330000 ==>IsSwitchingOccur() prevPhis[ 0]=12.521878, nextPhis[ 0]=12.528646 prevPhis[ 1]=-6.521878, nextPhis[ 1]=-6.528646 <==IsSwitchingOccur() T = 17.330000 Tnext = 17.335000 Time: 1.73300e+01 states: [ 2.24862e+00 7.82774e-01] derivs: [ 7.82531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.335000 pESO->GetIndependentVar(): 17.335000 ==>IsSwitchingOccur() prevPhis[ 0]=12.528646, nextPhis[ 0]=12.535340 prevPhis[ 1]=-6.528646, nextPhis[ 1]=-6.535340 <==IsSwitchingOccur() T = 17.335000 Tnext = 17.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.340000 pESO->GetIndependentVar(): 17.340000 ==>IsSwitchingOccur() prevPhis[ 0]=12.535340, nextPhis[ 0]=12.541959 prevPhis[ 1]=-6.535340, nextPhis[ 1]=-6.541959 <==IsSwitchingOccur() T = 17.340000 Tnext = 17.345000 Time: 1.73400e+01 states: [ 2.25640e+00 7.72774e-01] derivs: [ 7.72531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.345000 pESO->GetIndependentVar(): 17.345000 ==>IsSwitchingOccur() prevPhis[ 0]=12.541959, nextPhis[ 0]=12.548503 prevPhis[ 1]=-6.541959, nextPhis[ 1]=-6.548503 <==IsSwitchingOccur() T = 17.345000 Tnext = 17.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.350000 pESO->GetIndependentVar(): 17.350000 ==>IsSwitchingOccur() prevPhis[ 0]=12.548503, nextPhis[ 0]=12.554971 prevPhis[ 1]=-6.548503, nextPhis[ 1]=-6.554971 <==IsSwitchingOccur() T = 17.350000 Tnext = 17.355000 Time: 1.73500e+01 states: [ 2.26407e+00 7.62774e-01] derivs: [ 7.62531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.355000 pESO->GetIndependentVar(): 17.355000 ==>IsSwitchingOccur() prevPhis[ 0]=12.554971, nextPhis[ 0]=12.561365 prevPhis[ 1]=-6.554971, nextPhis[ 1]=-6.561365 <==IsSwitchingOccur() T = 17.355000 Tnext = 17.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.360000 pESO->GetIndependentVar(): 17.360000 ==>IsSwitchingOccur() prevPhis[ 0]=12.561365, nextPhis[ 0]=12.567684 prevPhis[ 1]=-6.561365, nextPhis[ 1]=-6.567684 <==IsSwitchingOccur() T = 17.360000 Tnext = 17.365000 Time: 1.73600e+01 states: [ 2.27164e+00 7.52774e-01] derivs: [ 7.52531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.365000 pESO->GetIndependentVar(): 17.365000 ==>IsSwitchingOccur() prevPhis[ 0]=12.567684, nextPhis[ 0]=12.573928 prevPhis[ 1]=-6.567684, nextPhis[ 1]=-6.573928 <==IsSwitchingOccur() T = 17.365000 Tnext = 17.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.370000 pESO->GetIndependentVar(): 17.370000 ==>IsSwitchingOccur() prevPhis[ 0]=12.573928, nextPhis[ 0]=12.580096 prevPhis[ 1]=-6.573928, nextPhis[ 1]=-6.580096 <==IsSwitchingOccur() T = 17.370000 Tnext = 17.375000 Time: 1.73700e+01 states: [ 2.27911e+00 7.42774e-01] derivs: [ 7.42531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.375000 pESO->GetIndependentVar(): 17.375000 ==>IsSwitchingOccur() prevPhis[ 0]=12.580096, nextPhis[ 0]=12.586190 prevPhis[ 1]=-6.580096, nextPhis[ 1]=-6.586190 <==IsSwitchingOccur() T = 17.375000 Tnext = 17.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.380000 pESO->GetIndependentVar(): 17.380000 ==>IsSwitchingOccur() prevPhis[ 0]=12.586190, nextPhis[ 0]=12.592209 prevPhis[ 1]=-6.586190, nextPhis[ 1]=-6.592209 <==IsSwitchingOccur() T = 17.380000 Tnext = 17.385000 Time: 1.73800e+01 states: [ 2.28648e+00 7.32774e-01] derivs: [ 7.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.385000 pESO->GetIndependentVar(): 17.385000 ==>IsSwitchingOccur() prevPhis[ 0]=12.592209, nextPhis[ 0]=12.598152 prevPhis[ 1]=-6.592209, nextPhis[ 1]=-6.598152 <==IsSwitchingOccur() T = 17.385000 Tnext = 17.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.390000 pESO->GetIndependentVar(): 17.390000 ==>IsSwitchingOccur() prevPhis[ 0]=12.598152, nextPhis[ 0]=12.604021 prevPhis[ 1]=-6.598152, nextPhis[ 1]=-6.604021 <==IsSwitchingOccur() T = 17.390000 Tnext = 17.395000 Time: 1.73900e+01 states: [ 2.29375e+00 7.22774e-01] derivs: [ 7.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.395000 pESO->GetIndependentVar(): 17.395000 ==>IsSwitchingOccur() prevPhis[ 0]=12.604021, nextPhis[ 0]=12.609815 prevPhis[ 1]=-6.604021, nextPhis[ 1]=-6.609815 <==IsSwitchingOccur() T = 17.395000 Tnext = 17.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.400000 pESO->GetIndependentVar(): 17.400000 ==>IsSwitchingOccur() prevPhis[ 0]=12.609815, nextPhis[ 0]=12.615534 prevPhis[ 1]=-6.609815, nextPhis[ 1]=-6.615534 <==IsSwitchingOccur() T = 17.400000 Tnext = 17.405000 Time: 1.74000e+01 states: [ 2.30092e+00 7.12774e-01] derivs: [ 7.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.405000 pESO->GetIndependentVar(): 17.405000 ==>IsSwitchingOccur() prevPhis[ 0]=12.615534, nextPhis[ 0]=12.621177 prevPhis[ 1]=-6.615534, nextPhis[ 1]=-6.621177 <==IsSwitchingOccur() T = 17.405000 Tnext = 17.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.410000 pESO->GetIndependentVar(): 17.410000 ==>IsSwitchingOccur() prevPhis[ 0]=12.621177, nextPhis[ 0]=12.626746 prevPhis[ 1]=-6.621177, nextPhis[ 1]=-6.626746 <==IsSwitchingOccur() T = 17.410000 Tnext = 17.415000 Time: 1.74100e+01 states: [ 2.30799e+00 7.02774e-01] derivs: [ 7.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.415000 pESO->GetIndependentVar(): 17.415000 ==>IsSwitchingOccur() prevPhis[ 0]=12.626746, nextPhis[ 0]=12.632240 prevPhis[ 1]=-6.626746, nextPhis[ 1]=-6.632240 <==IsSwitchingOccur() T = 17.415000 Tnext = 17.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.420000 pESO->GetIndependentVar(): 17.420000 ==>IsSwitchingOccur() prevPhis[ 0]=12.632240, nextPhis[ 0]=12.637659 prevPhis[ 1]=-6.632240, nextPhis[ 1]=-6.637659 <==IsSwitchingOccur() T = 17.420000 Tnext = 17.425000 Time: 1.74200e+01 states: [ 2.31496e+00 6.92774e-01] derivs: [ 6.92531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.425000 pESO->GetIndependentVar(): 17.425000 ==>IsSwitchingOccur() prevPhis[ 0]=12.637659, nextPhis[ 0]=12.643002 prevPhis[ 1]=-6.637659, nextPhis[ 1]=-6.643002 <==IsSwitchingOccur() T = 17.425000 Tnext = 17.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.430000 pESO->GetIndependentVar(): 17.430000 ==>IsSwitchingOccur() prevPhis[ 0]=12.643002, nextPhis[ 0]=12.648271 prevPhis[ 1]=-6.643002, nextPhis[ 1]=-6.648271 <==IsSwitchingOccur() T = 17.430000 Tnext = 17.435000 Time: 1.74300e+01 states: [ 2.32183e+00 6.82774e-01] derivs: [ 6.82531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.435000 pESO->GetIndependentVar(): 17.435000 ==>IsSwitchingOccur() prevPhis[ 0]=12.648271, nextPhis[ 0]=12.653465 prevPhis[ 1]=-6.648271, nextPhis[ 1]=-6.653465 <==IsSwitchingOccur() T = 17.435000 Tnext = 17.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.440000 pESO->GetIndependentVar(): 17.440000 ==>IsSwitchingOccur() prevPhis[ 0]=12.653465, nextPhis[ 0]=12.658584 prevPhis[ 1]=-6.653465, nextPhis[ 1]=-6.658584 <==IsSwitchingOccur() T = 17.440000 Tnext = 17.445000 Time: 1.74400e+01 states: [ 2.32860e+00 6.72774e-01] derivs: [ 6.72531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.445000 pESO->GetIndependentVar(): 17.445000 ==>IsSwitchingOccur() prevPhis[ 0]=12.658584, nextPhis[ 0]=12.663627 prevPhis[ 1]=-6.658584, nextPhis[ 1]=-6.663627 <==IsSwitchingOccur() T = 17.445000 Tnext = 17.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.450000 pESO->GetIndependentVar(): 17.450000 ==>IsSwitchingOccur() prevPhis[ 0]=12.663627, nextPhis[ 0]=12.668596 prevPhis[ 1]=-6.663627, nextPhis[ 1]=-6.668596 <==IsSwitchingOccur() T = 17.450000 Tnext = 17.455000 Time: 1.74500e+01 states: [ 2.33527e+00 6.62774e-01] derivs: [ 6.62531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.455000 pESO->GetIndependentVar(): 17.455000 ==>IsSwitchingOccur() prevPhis[ 0]=12.668596, nextPhis[ 0]=12.673490 prevPhis[ 1]=-6.668596, nextPhis[ 1]=-6.673490 <==IsSwitchingOccur() T = 17.455000 Tnext = 17.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.460000 pESO->GetIndependentVar(): 17.460000 ==>IsSwitchingOccur() prevPhis[ 0]=12.673490, nextPhis[ 0]=12.678309 prevPhis[ 1]=-6.673490, nextPhis[ 1]=-6.678309 <==IsSwitchingOccur() T = 17.460000 Tnext = 17.465000 Time: 1.74600e+01 states: [ 2.34185e+00 6.52774e-01] derivs: [ 6.52531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.465000 pESO->GetIndependentVar(): 17.465000 ==>IsSwitchingOccur() prevPhis[ 0]=12.678309, nextPhis[ 0]=12.683052 prevPhis[ 1]=-6.678309, nextPhis[ 1]=-6.683052 <==IsSwitchingOccur() T = 17.465000 Tnext = 17.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.470000 pESO->GetIndependentVar(): 17.470000 ==>IsSwitchingOccur() prevPhis[ 0]=12.683052, nextPhis[ 0]=12.687721 prevPhis[ 1]=-6.683052, nextPhis[ 1]=-6.687721 <==IsSwitchingOccur() T = 17.470000 Tnext = 17.475000 Time: 1.74700e+01 states: [ 2.34832e+00 6.42774e-01] derivs: [ 6.42531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.475000 pESO->GetIndependentVar(): 17.475000 ==>IsSwitchingOccur() prevPhis[ 0]=12.687721, nextPhis[ 0]=12.692315 prevPhis[ 1]=-6.687721, nextPhis[ 1]=-6.692315 <==IsSwitchingOccur() T = 17.475000 Tnext = 17.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.480000 pESO->GetIndependentVar(): 17.480000 ==>IsSwitchingOccur() prevPhis[ 0]=12.692315, nextPhis[ 0]=12.696834 prevPhis[ 1]=-6.692315, nextPhis[ 1]=-6.696834 <==IsSwitchingOccur() T = 17.480000 Tnext = 17.485000 Time: 1.74800e+01 states: [ 2.35469e+00 6.32774e-01] derivs: [ 6.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.485000 pESO->GetIndependentVar(): 17.485000 ==>IsSwitchingOccur() prevPhis[ 0]=12.696834, nextPhis[ 0]=12.701277 prevPhis[ 1]=-6.696834, nextPhis[ 1]=-6.701277 <==IsSwitchingOccur() T = 17.485000 Tnext = 17.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.490000 pESO->GetIndependentVar(): 17.490000 ==>IsSwitchingOccur() prevPhis[ 0]=12.701277, nextPhis[ 0]=12.705646 prevPhis[ 1]=-6.701277, nextPhis[ 1]=-6.705646 <==IsSwitchingOccur() T = 17.490000 Tnext = 17.495000 Time: 1.74900e+01 states: [ 2.36096e+00 6.22774e-01] derivs: [ 6.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.495000 pESO->GetIndependentVar(): 17.495000 ==>IsSwitchingOccur() prevPhis[ 0]=12.705646, nextPhis[ 0]=12.709940 prevPhis[ 1]=-6.705646, nextPhis[ 1]=-6.709940 <==IsSwitchingOccur() T = 17.495000 Tnext = 17.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.500000 pESO->GetIndependentVar(): 17.500000 ==>IsSwitchingOccur() prevPhis[ 0]=12.709940, nextPhis[ 0]=12.714159 prevPhis[ 1]=-6.709940, nextPhis[ 1]=-6.714159 <==IsSwitchingOccur() T = 17.500000 Tnext = 17.505000 Time: 1.75000e+01 states: [ 2.36713e+00 6.12774e-01] derivs: [ 6.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.505000 pESO->GetIndependentVar(): 17.505000 ==>IsSwitchingOccur() prevPhis[ 0]=12.714159, nextPhis[ 0]=12.718302 prevPhis[ 1]=-6.714159, nextPhis[ 1]=-6.718302 <==IsSwitchingOccur() T = 17.505000 Tnext = 17.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.510000 pESO->GetIndependentVar(): 17.510000 ==>IsSwitchingOccur() prevPhis[ 0]=12.718302, nextPhis[ 0]=12.722371 prevPhis[ 1]=-6.718302, nextPhis[ 1]=-6.722371 <==IsSwitchingOccur() T = 17.510000 Tnext = 17.515000 Time: 1.75100e+01 states: [ 2.37320e+00 6.02774e-01] derivs: [ 6.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.515000 pESO->GetIndependentVar(): 17.515000 ==>IsSwitchingOccur() prevPhis[ 0]=12.722371, nextPhis[ 0]=12.726365 prevPhis[ 1]=-6.722371, nextPhis[ 1]=-6.726365 <==IsSwitchingOccur() T = 17.515000 Tnext = 17.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.520000 pESO->GetIndependentVar(): 17.520000 ==>IsSwitchingOccur() prevPhis[ 0]=12.726365, nextPhis[ 0]=12.730284 prevPhis[ 1]=-6.726365, nextPhis[ 1]=-6.730284 <==IsSwitchingOccur() T = 17.520000 Tnext = 17.525000 Time: 1.75200e+01 states: [ 2.37917e+00 5.92774e-01] derivs: [ 5.92531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.525000 pESO->GetIndependentVar(): 17.525000 ==>IsSwitchingOccur() prevPhis[ 0]=12.730284, nextPhis[ 0]=12.734127 prevPhis[ 1]=-6.730284, nextPhis[ 1]=-6.734127 <==IsSwitchingOccur() T = 17.525000 Tnext = 17.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.530000 pESO->GetIndependentVar(): 17.530000 ==>IsSwitchingOccur() prevPhis[ 0]=12.734127, nextPhis[ 0]=12.737896 prevPhis[ 1]=-6.734127, nextPhis[ 1]=-6.737896 <==IsSwitchingOccur() T = 17.530000 Tnext = 17.535000 Time: 1.75300e+01 states: [ 2.38504e+00 5.82774e-01] derivs: [ 5.82531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.535000 pESO->GetIndependentVar(): 17.535000 ==>IsSwitchingOccur() prevPhis[ 0]=12.737896, nextPhis[ 0]=12.741590 prevPhis[ 1]=-6.737896, nextPhis[ 1]=-6.741590 <==IsSwitchingOccur() T = 17.535000 Tnext = 17.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.540000 pESO->GetIndependentVar(): 17.540000 ==>IsSwitchingOccur() prevPhis[ 0]=12.741590, nextPhis[ 0]=12.745209 prevPhis[ 1]=-6.741590, nextPhis[ 1]=-6.745209 <==IsSwitchingOccur() T = 17.540000 Tnext = 17.545000 Time: 1.75400e+01 states: [ 2.39081e+00 5.72774e-01] derivs: [ 5.72531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.545000 pESO->GetIndependentVar(): 17.545000 ==>IsSwitchingOccur() prevPhis[ 0]=12.745209, nextPhis[ 0]=12.748752 prevPhis[ 1]=-6.745209, nextPhis[ 1]=-6.748752 <==IsSwitchingOccur() T = 17.545000 Tnext = 17.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.550000 pESO->GetIndependentVar(): 17.550000 ==>IsSwitchingOccur() prevPhis[ 0]=12.748752, nextPhis[ 0]=12.752221 prevPhis[ 1]=-6.748752, nextPhis[ 1]=-6.752221 <==IsSwitchingOccur() T = 17.550000 Tnext = 17.555000 Time: 1.75500e+01 states: [ 2.39648e+00 5.62774e-01] derivs: [ 5.62531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.555000 pESO->GetIndependentVar(): 17.555000 ==>IsSwitchingOccur() prevPhis[ 0]=12.752221, nextPhis[ 0]=12.755615 prevPhis[ 1]=-6.752221, nextPhis[ 1]=-6.755615 <==IsSwitchingOccur() T = 17.555000 Tnext = 17.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.560000 pESO->GetIndependentVar(): 17.560000 ==>IsSwitchingOccur() prevPhis[ 0]=12.755615, nextPhis[ 0]=12.758934 prevPhis[ 1]=-6.755615, nextPhis[ 1]=-6.758934 <==IsSwitchingOccur() T = 17.560000 Tnext = 17.565000 Time: 1.75600e+01 states: [ 2.40205e+00 5.52774e-01] derivs: [ 5.52531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.565000 pESO->GetIndependentVar(): 17.565000 ==>IsSwitchingOccur() prevPhis[ 0]=12.758934, nextPhis[ 0]=12.762177 prevPhis[ 1]=-6.758934, nextPhis[ 1]=-6.762177 <==IsSwitchingOccur() T = 17.565000 Tnext = 17.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.570000 pESO->GetIndependentVar(): 17.570000 ==>IsSwitchingOccur() prevPhis[ 0]=12.762177, nextPhis[ 0]=12.765346 prevPhis[ 1]=-6.762177, nextPhis[ 1]=-6.765346 <==IsSwitchingOccur() T = 17.570000 Tnext = 17.575000 Time: 1.75700e+01 states: [ 2.40752e+00 5.42774e-01] derivs: [ 5.42531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.575000 pESO->GetIndependentVar(): 17.575000 ==>IsSwitchingOccur() prevPhis[ 0]=12.765346, nextPhis[ 0]=12.768440 prevPhis[ 1]=-6.765346, nextPhis[ 1]=-6.768440 <==IsSwitchingOccur() T = 17.575000 Tnext = 17.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.580000 pESO->GetIndependentVar(): 17.580000 ==>IsSwitchingOccur() prevPhis[ 0]=12.768440, nextPhis[ 0]=12.771459 prevPhis[ 1]=-6.768440, nextPhis[ 1]=-6.771459 <==IsSwitchingOccur() T = 17.580000 Tnext = 17.585000 Time: 1.75800e+01 states: [ 2.41290e+00 5.32774e-01] derivs: [ 5.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.585000 pESO->GetIndependentVar(): 17.585000 ==>IsSwitchingOccur() prevPhis[ 0]=12.771459, nextPhis[ 0]=12.774402 prevPhis[ 1]=-6.771459, nextPhis[ 1]=-6.774402 <==IsSwitchingOccur() T = 17.585000 Tnext = 17.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.590000 pESO->GetIndependentVar(): 17.590000 ==>IsSwitchingOccur() prevPhis[ 0]=12.774402, nextPhis[ 0]=12.777271 prevPhis[ 1]=-6.774402, nextPhis[ 1]=-6.777271 <==IsSwitchingOccur() T = 17.590000 Tnext = 17.595000 Time: 1.75900e+01 states: [ 2.41817e+00 5.22774e-01] derivs: [ 5.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.595000 pESO->GetIndependentVar(): 17.595000 ==>IsSwitchingOccur() prevPhis[ 0]=12.777271, nextPhis[ 0]=12.780065 prevPhis[ 1]=-6.777271, nextPhis[ 1]=-6.780065 <==IsSwitchingOccur() T = 17.595000 Tnext = 17.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.600000 pESO->GetIndependentVar(): 17.600000 ==>IsSwitchingOccur() prevPhis[ 0]=12.780065, nextPhis[ 0]=12.782784 prevPhis[ 1]=-6.780065, nextPhis[ 1]=-6.782784 <==IsSwitchingOccur() T = 17.600000 Tnext = 17.605000 Time: 1.76000e+01 states: [ 2.42334e+00 5.12774e-01] derivs: [ 5.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.605000 pESO->GetIndependentVar(): 17.605000 ==>IsSwitchingOccur() prevPhis[ 0]=12.782784, nextPhis[ 0]=12.785427 prevPhis[ 1]=-6.782784, nextPhis[ 1]=-6.785427 <==IsSwitchingOccur() T = 17.605000 Tnext = 17.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.610000 pESO->GetIndependentVar(): 17.610000 ==>IsSwitchingOccur() prevPhis[ 0]=12.785427, nextPhis[ 0]=12.787996 prevPhis[ 1]=-6.785427, nextPhis[ 1]=-6.787996 <==IsSwitchingOccur() T = 17.610000 Tnext = 17.615000 Time: 1.76100e+01 states: [ 2.42841e+00 5.02774e-01] derivs: [ 5.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.615000 pESO->GetIndependentVar(): 17.615000 ==>IsSwitchingOccur() prevPhis[ 0]=12.787996, nextPhis[ 0]=12.790490 prevPhis[ 1]=-6.787996, nextPhis[ 1]=-6.790490 <==IsSwitchingOccur() T = 17.615000 Tnext = 17.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.620000 pESO->GetIndependentVar(): 17.620000 ==>IsSwitchingOccur() prevPhis[ 0]=12.790490, nextPhis[ 0]=12.792909 prevPhis[ 1]=-6.790490, nextPhis[ 1]=-6.792909 <==IsSwitchingOccur() T = 17.620000 Tnext = 17.625000 Time: 1.76200e+01 states: [ 2.43338e+00 4.92774e-01] derivs: [ 4.92531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.625000 pESO->GetIndependentVar(): 17.625000 ==>IsSwitchingOccur() prevPhis[ 0]=12.792909, nextPhis[ 0]=12.795252 prevPhis[ 1]=-6.792909, nextPhis[ 1]=-6.795252 <==IsSwitchingOccur() T = 17.625000 Tnext = 17.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.630000 pESO->GetIndependentVar(): 17.630000 ==>IsSwitchingOccur() prevPhis[ 0]=12.795252, nextPhis[ 0]=12.797521 prevPhis[ 1]=-6.795252, nextPhis[ 1]=-6.797521 <==IsSwitchingOccur() T = 17.630000 Tnext = 17.635000 Time: 1.76300e+01 states: [ 2.43825e+00 4.82774e-01] derivs: [ 4.82531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.635000 pESO->GetIndependentVar(): 17.635000 ==>IsSwitchingOccur() prevPhis[ 0]=12.797521, nextPhis[ 0]=12.799715 prevPhis[ 1]=-6.797521, nextPhis[ 1]=-6.799715 <==IsSwitchingOccur() T = 17.635000 Tnext = 17.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.640000 pESO->GetIndependentVar(): 17.640000 ==>IsSwitchingOccur() prevPhis[ 0]=12.799715, nextPhis[ 0]=12.801834 prevPhis[ 1]=-6.799715, nextPhis[ 1]=-6.801834 <==IsSwitchingOccur() T = 17.640000 Tnext = 17.645000 Time: 1.76400e+01 states: [ 2.44302e+00 4.72774e-01] derivs: [ 4.72531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.645000 pESO->GetIndependentVar(): 17.645000 ==>IsSwitchingOccur() prevPhis[ 0]=12.801834, nextPhis[ 0]=12.803877 prevPhis[ 1]=-6.801834, nextPhis[ 1]=-6.803877 <==IsSwitchingOccur() T = 17.645000 Tnext = 17.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.650000 pESO->GetIndependentVar(): 17.650000 ==>IsSwitchingOccur() prevPhis[ 0]=12.803877, nextPhis[ 0]=12.805846 prevPhis[ 1]=-6.803877, nextPhis[ 1]=-6.805846 <==IsSwitchingOccur() T = 17.650000 Tnext = 17.655000 Time: 1.76500e+01 states: [ 2.44769e+00 4.62774e-01] derivs: [ 4.62531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.655000 pESO->GetIndependentVar(): 17.655000 ==>IsSwitchingOccur() prevPhis[ 0]=12.805846, nextPhis[ 0]=12.807740 prevPhis[ 1]=-6.805846, nextPhis[ 1]=-6.807740 <==IsSwitchingOccur() T = 17.655000 Tnext = 17.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.660000 pESO->GetIndependentVar(): 17.660000 ==>IsSwitchingOccur() prevPhis[ 0]=12.807740, nextPhis[ 0]=12.809559 prevPhis[ 1]=-6.807740, nextPhis[ 1]=-6.809559 <==IsSwitchingOccur() T = 17.660000 Tnext = 17.665000 Time: 1.76600e+01 states: [ 2.45226e+00 4.52774e-01] derivs: [ 4.52531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.665000 pESO->GetIndependentVar(): 17.665000 ==>IsSwitchingOccur() prevPhis[ 0]=12.809559, nextPhis[ 0]=12.811302 prevPhis[ 1]=-6.809559, nextPhis[ 1]=-6.811302 <==IsSwitchingOccur() T = 17.665000 Tnext = 17.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.670000 pESO->GetIndependentVar(): 17.670000 ==>IsSwitchingOccur() prevPhis[ 0]=12.811302, nextPhis[ 0]=12.812971 prevPhis[ 1]=-6.811302, nextPhis[ 1]=-6.812971 <==IsSwitchingOccur() T = 17.670000 Tnext = 17.675000 Time: 1.76700e+01 states: [ 2.45673e+00 4.42774e-01] derivs: [ 4.42531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.675000 pESO->GetIndependentVar(): 17.675000 ==>IsSwitchingOccur() prevPhis[ 0]=12.812971, nextPhis[ 0]=12.814565 prevPhis[ 1]=-6.812971, nextPhis[ 1]=-6.814565 <==IsSwitchingOccur() T = 17.675000 Tnext = 17.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.680000 pESO->GetIndependentVar(): 17.680000 ==>IsSwitchingOccur() prevPhis[ 0]=12.814565, nextPhis[ 0]=12.816084 prevPhis[ 1]=-6.814565, nextPhis[ 1]=-6.816084 <==IsSwitchingOccur() T = 17.680000 Tnext = 17.685000 Time: 1.76800e+01 states: [ 2.46110e+00 4.32774e-01] derivs: [ 4.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.685000 pESO->GetIndependentVar(): 17.685000 ==>IsSwitchingOccur() prevPhis[ 0]=12.816084, nextPhis[ 0]=12.817527 prevPhis[ 1]=-6.816084, nextPhis[ 1]=-6.817527 <==IsSwitchingOccur() T = 17.685000 Tnext = 17.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.690000 pESO->GetIndependentVar(): 17.690000 ==>IsSwitchingOccur() prevPhis[ 0]=12.817527, nextPhis[ 0]=12.818896 prevPhis[ 1]=-6.817527, nextPhis[ 1]=-6.818896 <==IsSwitchingOccur() T = 17.690000 Tnext = 17.695000 Time: 1.76900e+01 states: [ 2.46537e+00 4.22774e-01] derivs: [ 4.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.695000 pESO->GetIndependentVar(): 17.695000 ==>IsSwitchingOccur() prevPhis[ 0]=12.818896, nextPhis[ 0]=12.820190 prevPhis[ 1]=-6.818896, nextPhis[ 1]=-6.820190 <==IsSwitchingOccur() T = 17.695000 Tnext = 17.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.700000 pESO->GetIndependentVar(): 17.700000 ==>IsSwitchingOccur() prevPhis[ 0]=12.820190, nextPhis[ 0]=12.821408 prevPhis[ 1]=-6.820190, nextPhis[ 1]=-6.821408 <==IsSwitchingOccur() T = 17.700000 Tnext = 17.705000 Time: 1.77000e+01 states: [ 2.46954e+00 4.12774e-01] derivs: [ 4.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.705000 pESO->GetIndependentVar(): 17.705000 ==>IsSwitchingOccur() prevPhis[ 0]=12.821408, nextPhis[ 0]=12.822552 prevPhis[ 1]=-6.821408, nextPhis[ 1]=-6.822552 <==IsSwitchingOccur() T = 17.705000 Tnext = 17.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.710000 pESO->GetIndependentVar(): 17.710000 ==>IsSwitchingOccur() prevPhis[ 0]=12.822552, nextPhis[ 0]=12.823621 prevPhis[ 1]=-6.822552, nextPhis[ 1]=-6.823621 <==IsSwitchingOccur() T = 17.710000 Tnext = 17.715000 Time: 1.77100e+01 states: [ 2.47362e+00 4.02774e-01] derivs: [ 4.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.715000 pESO->GetIndependentVar(): 17.715000 ==>IsSwitchingOccur() prevPhis[ 0]=12.823621, nextPhis[ 0]=12.824615 prevPhis[ 1]=-6.823621, nextPhis[ 1]=-6.824615 <==IsSwitchingOccur() T = 17.715000 Tnext = 17.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.720000 pESO->GetIndependentVar(): 17.720000 ==>IsSwitchingOccur() prevPhis[ 0]=12.824615, nextPhis[ 0]=12.825533 prevPhis[ 1]=-6.824615, nextPhis[ 1]=-6.825533 <==IsSwitchingOccur() T = 17.720000 Tnext = 17.725000 Time: 1.77200e+01 states: [ 2.47759e+00 3.92774e-01] derivs: [ 3.92531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.725000 pESO->GetIndependentVar(): 17.725000 ==>IsSwitchingOccur() prevPhis[ 0]=12.825533, nextPhis[ 0]=12.826377 prevPhis[ 1]=-6.825533, nextPhis[ 1]=-6.826377 <==IsSwitchingOccur() T = 17.725000 Tnext = 17.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.730000 pESO->GetIndependentVar(): 17.730000 ==>IsSwitchingOccur() prevPhis[ 0]=12.826377, nextPhis[ 0]=12.827146 prevPhis[ 1]=-6.826377, nextPhis[ 1]=-6.827146 <==IsSwitchingOccur() T = 17.730000 Tnext = 17.735000 Time: 1.77300e+01 states: [ 2.48146e+00 3.82774e-01] derivs: [ 3.82531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.735000 pESO->GetIndependentVar(): 17.735000 ==>IsSwitchingOccur() prevPhis[ 0]=12.827146, nextPhis[ 0]=12.827840 prevPhis[ 1]=-6.827146, nextPhis[ 1]=-6.827840 <==IsSwitchingOccur() T = 17.735000 Tnext = 17.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.740000 pESO->GetIndependentVar(): 17.740000 ==>IsSwitchingOccur() prevPhis[ 0]=12.827840, nextPhis[ 0]=12.828458 prevPhis[ 1]=-6.827840, nextPhis[ 1]=-6.828458 <==IsSwitchingOccur() T = 17.740000 Tnext = 17.745000 Time: 1.77400e+01 states: [ 2.48523e+00 3.72774e-01] derivs: [ 3.72531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.745000 pESO->GetIndependentVar(): 17.745000 ==>IsSwitchingOccur() prevPhis[ 0]=12.828458, nextPhis[ 0]=12.829002 prevPhis[ 1]=-6.828458, nextPhis[ 1]=-6.829002 <==IsSwitchingOccur() T = 17.745000 Tnext = 17.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.750000 pESO->GetIndependentVar(): 17.750000 ==>IsSwitchingOccur() prevPhis[ 0]=12.829002, nextPhis[ 0]=12.829471 prevPhis[ 1]=-6.829002, nextPhis[ 1]=-6.829471 <==IsSwitchingOccur() T = 17.750000 Tnext = 17.755000 Time: 1.77500e+01 states: [ 2.48890e+00 3.62774e-01] derivs: [ 3.62531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.755000 pESO->GetIndependentVar(): 17.755000 ==>IsSwitchingOccur() prevPhis[ 0]=12.829471, nextPhis[ 0]=12.829865 prevPhis[ 1]=-6.829471, nextPhis[ 1]=-6.829865 <==IsSwitchingOccur() T = 17.755000 Tnext = 17.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.760000 pESO->GetIndependentVar(): 17.760000 ==>IsSwitchingOccur() prevPhis[ 0]=12.829865, nextPhis[ 0]=12.830183 prevPhis[ 1]=-6.829865, nextPhis[ 1]=-6.830183 <==IsSwitchingOccur() T = 17.760000 Tnext = 17.765000 Time: 1.77600e+01 states: [ 2.49247e+00 3.52774e-01] derivs: [ 3.52531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.765000 pESO->GetIndependentVar(): 17.765000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830183, nextPhis[ 0]=12.830427 prevPhis[ 1]=-6.830183, nextPhis[ 1]=-6.830427 <==IsSwitchingOccur() T = 17.765000 Tnext = 17.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.770000 pESO->GetIndependentVar(): 17.770000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830427, nextPhis[ 0]=12.830596 prevPhis[ 1]=-6.830427, nextPhis[ 1]=-6.830596 <==IsSwitchingOccur() T = 17.770000 Tnext = 17.775000 Time: 1.77700e+01 states: [ 2.49594e+00 3.42774e-01] derivs: [ 3.42531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.775000 pESO->GetIndependentVar(): 17.775000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830596, nextPhis[ 0]=12.830690 prevPhis[ 1]=-6.830596, nextPhis[ 1]=-6.830690 <==IsSwitchingOccur() T = 17.775000 Tnext = 17.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.780000 pESO->GetIndependentVar(): 17.780000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830690, nextPhis[ 0]=12.830708 prevPhis[ 1]=-6.830690, nextPhis[ 1]=-6.830708 <==IsSwitchingOccur() T = 17.780000 Tnext = 17.785000 Time: 1.77800e+01 states: [ 2.49931e+00 3.32774e-01] derivs: [ 3.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.785000 pESO->GetIndependentVar(): 17.785000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830708, nextPhis[ 0]=12.830652 prevPhis[ 1]=-6.830708, nextPhis[ 1]=-6.830652 <==IsSwitchingOccur() T = 17.785000 Tnext = 17.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.790000 pESO->GetIndependentVar(): 17.790000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830652, nextPhis[ 0]=12.830521 prevPhis[ 1]=-6.830652, nextPhis[ 1]=-6.830521 <==IsSwitchingOccur() T = 17.790000 Tnext = 17.795000 Time: 1.77900e+01 states: [ 2.50258e+00 3.22774e-01] derivs: [ 3.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.795000 pESO->GetIndependentVar(): 17.795000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830521, nextPhis[ 0]=12.830315 prevPhis[ 1]=-6.830521, nextPhis[ 1]=-6.830315 <==IsSwitchingOccur() T = 17.795000 Tnext = 17.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.800000 pESO->GetIndependentVar(): 17.800000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830315, nextPhis[ 0]=12.830033 prevPhis[ 1]=-6.830315, nextPhis[ 1]=-6.830033 <==IsSwitchingOccur() T = 17.800000 Tnext = 17.805000 Time: 1.78000e+01 states: [ 2.50575e+00 3.12774e-01] derivs: [ 3.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.805000 pESO->GetIndependentVar(): 17.805000 ==>IsSwitchingOccur() prevPhis[ 0]=12.830033, nextPhis[ 0]=12.829677 prevPhis[ 1]=-6.830033, nextPhis[ 1]=-6.829677 <==IsSwitchingOccur() T = 17.805000 Tnext = 17.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.810000 pESO->GetIndependentVar(): 17.810000 ==>IsSwitchingOccur() prevPhis[ 0]=12.829677, nextPhis[ 0]=12.829246 prevPhis[ 1]=-6.829677, nextPhis[ 1]=-6.829246 <==IsSwitchingOccur() T = 17.810000 Tnext = 17.815000 Time: 1.78100e+01 states: [ 2.50882e+00 3.02773e-01] derivs: [ 3.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.815000 pESO->GetIndependentVar(): 17.815000 ==>IsSwitchingOccur() prevPhis[ 0]=12.829246, nextPhis[ 0]=12.828740 prevPhis[ 1]=-6.829246, nextPhis[ 1]=-6.828740 <==IsSwitchingOccur() T = 17.815000 Tnext = 17.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.820000 pESO->GetIndependentVar(): 17.820000 ==>IsSwitchingOccur() prevPhis[ 0]=12.828740, nextPhis[ 0]=12.828158 prevPhis[ 1]=-6.828740, nextPhis[ 1]=-6.828158 <==IsSwitchingOccur() T = 17.820000 Tnext = 17.825000 Time: 1.78200e+01 states: [ 2.51179e+00 2.92773e-01] derivs: [ 2.92531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.825000 pESO->GetIndependentVar(): 17.825000 ==>IsSwitchingOccur() prevPhis[ 0]=12.828158, nextPhis[ 0]=12.827502 prevPhis[ 1]=-6.828158, nextPhis[ 1]=-6.827502 <==IsSwitchingOccur() T = 17.825000 Tnext = 17.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.830000 pESO->GetIndependentVar(): 17.830000 ==>IsSwitchingOccur() prevPhis[ 0]=12.827502, nextPhis[ 0]=12.826771 prevPhis[ 1]=-6.827502, nextPhis[ 1]=-6.826771 <==IsSwitchingOccur() T = 17.830000 Tnext = 17.835000 Time: 1.78300e+01 states: [ 2.51467e+00 2.82773e-01] derivs: [ 2.82531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.835000 pESO->GetIndependentVar(): 17.835000 ==>IsSwitchingOccur() prevPhis[ 0]=12.826771, nextPhis[ 0]=12.825965 prevPhis[ 1]=-6.826771, nextPhis[ 1]=-6.825965 <==IsSwitchingOccur() T = 17.835000 Tnext = 17.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.840000 pESO->GetIndependentVar(): 17.840000 ==>IsSwitchingOccur() prevPhis[ 0]=12.825965, nextPhis[ 0]=12.825083 prevPhis[ 1]=-6.825965, nextPhis[ 1]=-6.825083 <==IsSwitchingOccur() T = 17.840000 Tnext = 17.845000 Time: 1.78400e+01 states: [ 2.51744e+00 2.72773e-01] derivs: [ 2.72531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.845000 pESO->GetIndependentVar(): 17.845000 ==>IsSwitchingOccur() prevPhis[ 0]=12.825083, nextPhis[ 0]=12.824127 prevPhis[ 1]=-6.825083, nextPhis[ 1]=-6.824127 <==IsSwitchingOccur() T = 17.845000 Tnext = 17.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.850000 pESO->GetIndependentVar(): 17.850000 ==>IsSwitchingOccur() prevPhis[ 0]=12.824127, nextPhis[ 0]=12.823096 prevPhis[ 1]=-6.824127, nextPhis[ 1]=-6.823096 <==IsSwitchingOccur() T = 17.850000 Tnext = 17.855000 Time: 1.78500e+01 states: [ 2.52011e+00 2.62773e-01] derivs: [ 2.62531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.855000 pESO->GetIndependentVar(): 17.855000 ==>IsSwitchingOccur() prevPhis[ 0]=12.823096, nextPhis[ 0]=12.821990 prevPhis[ 1]=-6.823096, nextPhis[ 1]=-6.821990 <==IsSwitchingOccur() T = 17.855000 Tnext = 17.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.860000 pESO->GetIndependentVar(): 17.860000 ==>IsSwitchingOccur() prevPhis[ 0]=12.821990, nextPhis[ 0]=12.820808 prevPhis[ 1]=-6.821990, nextPhis[ 1]=-6.820808 <==IsSwitchingOccur() T = 17.860000 Tnext = 17.865000 Time: 1.78600e+01 states: [ 2.52268e+00 2.52773e-01] derivs: [ 2.52531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.865000 pESO->GetIndependentVar(): 17.865000 ==>IsSwitchingOccur() prevPhis[ 0]=12.820808, nextPhis[ 0]=12.819552 prevPhis[ 1]=-6.820808, nextPhis[ 1]=-6.819552 <==IsSwitchingOccur() T = 17.865000 Tnext = 17.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.870000 pESO->GetIndependentVar(): 17.870000 ==>IsSwitchingOccur() prevPhis[ 0]=12.819552, nextPhis[ 0]=12.818221 prevPhis[ 1]=-6.819552, nextPhis[ 1]=-6.818221 <==IsSwitchingOccur() T = 17.870000 Tnext = 17.875000 Time: 1.78700e+01 states: [ 2.52515e+00 2.42773e-01] derivs: [ 2.42531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.875000 pESO->GetIndependentVar(): 17.875000 ==>IsSwitchingOccur() prevPhis[ 0]=12.818221, nextPhis[ 0]=12.816815 prevPhis[ 1]=-6.818221, nextPhis[ 1]=-6.816815 <==IsSwitchingOccur() T = 17.875000 Tnext = 17.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.880000 pESO->GetIndependentVar(): 17.880000 ==>IsSwitchingOccur() prevPhis[ 0]=12.816815, nextPhis[ 0]=12.815333 prevPhis[ 1]=-6.816815, nextPhis[ 1]=-6.815333 <==IsSwitchingOccur() T = 17.880000 Tnext = 17.885000 Time: 1.78800e+01 states: [ 2.52752e+00 2.32773e-01] derivs: [ 2.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.885000 pESO->GetIndependentVar(): 17.885000 ==>IsSwitchingOccur() prevPhis[ 0]=12.815333, nextPhis[ 0]=12.813777 prevPhis[ 1]=-6.815333, nextPhis[ 1]=-6.813777 <==IsSwitchingOccur() T = 17.885000 Tnext = 17.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.890000 pESO->GetIndependentVar(): 17.890000 ==>IsSwitchingOccur() prevPhis[ 0]=12.813777, nextPhis[ 0]=12.812146 prevPhis[ 1]=-6.813777, nextPhis[ 1]=-6.812146 <==IsSwitchingOccur() T = 17.890000 Tnext = 17.895000 Time: 1.78900e+01 states: [ 2.52979e+00 2.22773e-01] derivs: [ 2.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.895000 pESO->GetIndependentVar(): 17.895000 ==>IsSwitchingOccur() prevPhis[ 0]=12.812146, nextPhis[ 0]=12.810440 prevPhis[ 1]=-6.812146, nextPhis[ 1]=-6.810440 <==IsSwitchingOccur() T = 17.895000 Tnext = 17.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.900000 pESO->GetIndependentVar(): 17.900000 ==>IsSwitchingOccur() prevPhis[ 0]=12.810440, nextPhis[ 0]=12.808658 prevPhis[ 1]=-6.810440, nextPhis[ 1]=-6.808658 <==IsSwitchingOccur() T = 17.900000 Tnext = 17.905000 Time: 1.79000e+01 states: [ 2.53196e+00 2.12773e-01] derivs: [ 2.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.905000 pESO->GetIndependentVar(): 17.905000 ==>IsSwitchingOccur() prevPhis[ 0]=12.808658, nextPhis[ 0]=12.806802 prevPhis[ 1]=-6.808658, nextPhis[ 1]=-6.806802 <==IsSwitchingOccur() T = 17.905000 Tnext = 17.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.910000 pESO->GetIndependentVar(): 17.910000 ==>IsSwitchingOccur() prevPhis[ 0]=12.806802, nextPhis[ 0]=12.804871 prevPhis[ 1]=-6.806802, nextPhis[ 1]=-6.804871 <==IsSwitchingOccur() T = 17.910000 Tnext = 17.915000 Time: 1.79100e+01 states: [ 2.53403e+00 2.02773e-01] derivs: [ 2.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.915000 pESO->GetIndependentVar(): 17.915000 ==>IsSwitchingOccur() prevPhis[ 0]=12.804871, nextPhis[ 0]=12.802865 prevPhis[ 1]=-6.804871, nextPhis[ 1]=-6.802865 <==IsSwitchingOccur() T = 17.915000 Tnext = 17.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.920000 pESO->GetIndependentVar(): 17.920000 ==>IsSwitchingOccur() prevPhis[ 0]=12.802865, nextPhis[ 0]=12.800783 prevPhis[ 1]=-6.802865, nextPhis[ 1]=-6.800783 <==IsSwitchingOccur() T = 17.920000 Tnext = 17.925000 Time: 1.79200e+01 states: [ 2.53600e+00 1.92773e-01] derivs: [ 1.92531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.925000 pESO->GetIndependentVar(): 17.925000 ==>IsSwitchingOccur() prevPhis[ 0]=12.800783, nextPhis[ 0]=12.798627 prevPhis[ 1]=-6.800783, nextPhis[ 1]=-6.798627 <==IsSwitchingOccur() T = 17.925000 Tnext = 17.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.930000 pESO->GetIndependentVar(): 17.930000 ==>IsSwitchingOccur() prevPhis[ 0]=12.798627, nextPhis[ 0]=12.796396 prevPhis[ 1]=-6.798627, nextPhis[ 1]=-6.796396 <==IsSwitchingOccur() T = 17.930000 Tnext = 17.935000 Time: 1.79300e+01 states: [ 2.53787e+00 1.82773e-01] derivs: [ 1.82531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.935000 pESO->GetIndependentVar(): 17.935000 ==>IsSwitchingOccur() prevPhis[ 0]=12.796396, nextPhis[ 0]=12.794090 prevPhis[ 1]=-6.796396, nextPhis[ 1]=-6.794090 <==IsSwitchingOccur() T = 17.935000 Tnext = 17.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.940000 pESO->GetIndependentVar(): 17.940000 ==>IsSwitchingOccur() prevPhis[ 0]=12.794090, nextPhis[ 0]=12.791708 prevPhis[ 1]=-6.794090, nextPhis[ 1]=-6.791708 <==IsSwitchingOccur() T = 17.940000 Tnext = 17.945000 Time: 1.79400e+01 states: [ 2.53964e+00 1.72773e-01] derivs: [ 1.72531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.945000 pESO->GetIndependentVar(): 17.945000 ==>IsSwitchingOccur() prevPhis[ 0]=12.791708, nextPhis[ 0]=12.789252 prevPhis[ 1]=-6.791708, nextPhis[ 1]=-6.789252 <==IsSwitchingOccur() T = 17.945000 Tnext = 17.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.950000 pESO->GetIndependentVar(): 17.950000 ==>IsSwitchingOccur() prevPhis[ 0]=12.789252, nextPhis[ 0]=12.786721 prevPhis[ 1]=-6.789252, nextPhis[ 1]=-6.786721 <==IsSwitchingOccur() T = 17.950000 Tnext = 17.955000 Time: 1.79500e+01 states: [ 2.54132e+00 1.62773e-01] derivs: [ 1.62531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.955000 pESO->GetIndependentVar(): 17.955000 ==>IsSwitchingOccur() prevPhis[ 0]=12.786721, nextPhis[ 0]=12.784115 prevPhis[ 1]=-6.786721, nextPhis[ 1]=-6.784115 <==IsSwitchingOccur() T = 17.955000 Tnext = 17.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.960000 pESO->GetIndependentVar(): 17.960000 ==>IsSwitchingOccur() prevPhis[ 0]=12.784115, nextPhis[ 0]=12.781433 prevPhis[ 1]=-6.784115, nextPhis[ 1]=-6.781433 <==IsSwitchingOccur() T = 17.960000 Tnext = 17.965000 Time: 1.79600e+01 states: [ 2.54289e+00 1.52773e-01] derivs: [ 1.52531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.965000 pESO->GetIndependentVar(): 17.965000 ==>IsSwitchingOccur() prevPhis[ 0]=12.781433, nextPhis[ 0]=12.778677 prevPhis[ 1]=-6.781433, nextPhis[ 1]=-6.778677 <==IsSwitchingOccur() T = 17.965000 Tnext = 17.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.970000 pESO->GetIndependentVar(): 17.970000 ==>IsSwitchingOccur() prevPhis[ 0]=12.778677, nextPhis[ 0]=12.775846 prevPhis[ 1]=-6.778677, nextPhis[ 1]=-6.775846 <==IsSwitchingOccur() T = 17.970000 Tnext = 17.975000 Time: 1.79700e+01 states: [ 2.54436e+00 1.42773e-01] derivs: [ 1.42531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.975000 pESO->GetIndependentVar(): 17.975000 ==>IsSwitchingOccur() prevPhis[ 0]=12.775846, nextPhis[ 0]=12.772939 prevPhis[ 1]=-6.775846, nextPhis[ 1]=-6.772939 <==IsSwitchingOccur() T = 17.975000 Tnext = 17.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.980000 pESO->GetIndependentVar(): 17.980000 ==>IsSwitchingOccur() prevPhis[ 0]=12.772939, nextPhis[ 0]=12.769958 prevPhis[ 1]=-6.772939, nextPhis[ 1]=-6.769958 <==IsSwitchingOccur() T = 17.980000 Tnext = 17.985000 Time: 1.79800e+01 states: [ 2.54573e+00 1.32773e-01] derivs: [ 1.32531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.985000 pESO->GetIndependentVar(): 17.985000 ==>IsSwitchingOccur() prevPhis[ 0]=12.769958, nextPhis[ 0]=12.766902 prevPhis[ 1]=-6.769958, nextPhis[ 1]=-6.766902 <==IsSwitchingOccur() T = 17.985000 Tnext = 17.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.990000 pESO->GetIndependentVar(): 17.990000 ==>IsSwitchingOccur() prevPhis[ 0]=12.766902, nextPhis[ 0]=12.763771 prevPhis[ 1]=-6.766902, nextPhis[ 1]=-6.763771 <==IsSwitchingOccur() T = 17.990000 Tnext = 17.995000 Time: 1.79900e+01 states: [ 2.54700e+00 1.22773e-01] derivs: [ 1.22531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 17.995000 pESO->GetIndependentVar(): 17.995000 ==>IsSwitchingOccur() prevPhis[ 0]=12.763771, nextPhis[ 0]=12.760564 prevPhis[ 1]=-6.763771, nextPhis[ 1]=-6.760564 <==IsSwitchingOccur() T = 17.995000 Tnext = 18.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.000000 pESO->GetIndependentVar(): 18.000000 ==>IsSwitchingOccur() prevPhis[ 0]=12.760564, nextPhis[ 0]=12.757283 prevPhis[ 1]=-6.760564, nextPhis[ 1]=-6.757283 <==IsSwitchingOccur() T = 18.000000 Tnext = 18.005000 Time: 1.80000e+01 states: [ 2.54817e+00 1.12773e-01] derivs: [ 1.12531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.005000 pESO->GetIndependentVar(): 18.005000 ==>IsSwitchingOccur() prevPhis[ 0]=12.757283, nextPhis[ 0]=12.753927 prevPhis[ 1]=-6.757283, nextPhis[ 1]=-6.753927 <==IsSwitchingOccur() T = 18.005000 Tnext = 18.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.010000 pESO->GetIndependentVar(): 18.010000 ==>IsSwitchingOccur() prevPhis[ 0]=12.753927, nextPhis[ 0]=12.750496 prevPhis[ 1]=-6.753927, nextPhis[ 1]=-6.750496 <==IsSwitchingOccur() T = 18.010000 Tnext = 18.015000 Time: 1.80100e+01 states: [ 2.54924e+00 1.02773e-01] derivs: [ 1.02531e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.015000 pESO->GetIndependentVar(): 18.015000 ==>IsSwitchingOccur() prevPhis[ 0]=12.750496, nextPhis[ 0]=12.746989 prevPhis[ 1]=-6.750496, nextPhis[ 1]=-6.746989 <==IsSwitchingOccur() T = 18.015000 Tnext = 18.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.020000 pESO->GetIndependentVar(): 18.020000 ==>IsSwitchingOccur() prevPhis[ 0]=12.746989, nextPhis[ 0]=12.743408 prevPhis[ 1]=-6.746989, nextPhis[ 1]=-6.743408 <==IsSwitchingOccur() T = 18.020000 Tnext = 18.025000 Time: 1.80200e+01 states: [ 2.55021e+00 9.27735e-02] derivs: [ 9.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.025000 pESO->GetIndependentVar(): 18.025000 ==>IsSwitchingOccur() prevPhis[ 0]=12.743408, nextPhis[ 0]=12.739752 prevPhis[ 1]=-6.743408, nextPhis[ 1]=-6.739752 <==IsSwitchingOccur() T = 18.025000 Tnext = 18.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.030000 pESO->GetIndependentVar(): 18.030000 ==>IsSwitchingOccur() prevPhis[ 0]=12.739752, nextPhis[ 0]=12.736021 prevPhis[ 1]=-6.739752, nextPhis[ 1]=-6.736021 <==IsSwitchingOccur() T = 18.030000 Tnext = 18.035000 Time: 1.80300e+01 states: [ 2.55108e+00 8.27735e-02] derivs: [ 8.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.035000 pESO->GetIndependentVar(): 18.035000 ==>IsSwitchingOccur() prevPhis[ 0]=12.736021, nextPhis[ 0]=12.732214 prevPhis[ 1]=-6.736021, nextPhis[ 1]=-6.732214 <==IsSwitchingOccur() T = 18.035000 Tnext = 18.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.040000 pESO->GetIndependentVar(): 18.040000 ==>IsSwitchingOccur() prevPhis[ 0]=12.732214, nextPhis[ 0]=12.728333 prevPhis[ 1]=-6.732214, nextPhis[ 1]=-6.728333 <==IsSwitchingOccur() T = 18.040000 Tnext = 18.045000 Time: 1.80400e+01 states: [ 2.55185e+00 7.27735e-02] derivs: [ 7.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.045000 pESO->GetIndependentVar(): 18.045000 ==>IsSwitchingOccur() prevPhis[ 0]=12.728333, nextPhis[ 0]=12.724377 prevPhis[ 1]=-6.728333, nextPhis[ 1]=-6.724377 <==IsSwitchingOccur() T = 18.045000 Tnext = 18.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.050000 pESO->GetIndependentVar(): 18.050000 ==>IsSwitchingOccur() prevPhis[ 0]=12.724377, nextPhis[ 0]=12.720346 prevPhis[ 1]=-6.724377, nextPhis[ 1]=-6.720346 <==IsSwitchingOccur() T = 18.050000 Tnext = 18.055000 Time: 1.80500e+01 states: [ 2.55252e+00 6.27735e-02] derivs: [ 6.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.055000 pESO->GetIndependentVar(): 18.055000 ==>IsSwitchingOccur() prevPhis[ 0]=12.720346, nextPhis[ 0]=12.716239 prevPhis[ 1]=-6.720346, nextPhis[ 1]=-6.716239 <==IsSwitchingOccur() T = 18.055000 Tnext = 18.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.060000 pESO->GetIndependentVar(): 18.060000 ==>IsSwitchingOccur() prevPhis[ 0]=12.716239, nextPhis[ 0]=12.712058 prevPhis[ 1]=-6.716239, nextPhis[ 1]=-6.712058 <==IsSwitchingOccur() T = 18.060000 Tnext = 18.065000 Time: 1.80600e+01 states: [ 2.55309e+00 5.27735e-02] derivs: [ 5.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.065000 pESO->GetIndependentVar(): 18.065000 ==>IsSwitchingOccur() prevPhis[ 0]=12.712058, nextPhis[ 0]=12.707802 prevPhis[ 1]=-6.712058, nextPhis[ 1]=-6.707802 <==IsSwitchingOccur() T = 18.065000 Tnext = 18.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.070000 pESO->GetIndependentVar(): 18.070000 ==>IsSwitchingOccur() prevPhis[ 0]=12.707802, nextPhis[ 0]=12.703471 prevPhis[ 1]=-6.707802, nextPhis[ 1]=-6.703471 <==IsSwitchingOccur() T = 18.070000 Tnext = 18.075000 Time: 1.80700e+01 states: [ 2.55357e+00 4.27735e-02] derivs: [ 4.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.075000 pESO->GetIndependentVar(): 18.075000 ==>IsSwitchingOccur() prevPhis[ 0]=12.703471, nextPhis[ 0]=12.699064 prevPhis[ 1]=-6.703471, nextPhis[ 1]=-6.699064 <==IsSwitchingOccur() T = 18.075000 Tnext = 18.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.080000 pESO->GetIndependentVar(): 18.080000 ==>IsSwitchingOccur() prevPhis[ 0]=12.699064, nextPhis[ 0]=12.694583 prevPhis[ 1]=-6.699064, nextPhis[ 1]=-6.694583 <==IsSwitchingOccur() T = 18.080000 Tnext = 18.085000 Time: 1.80800e+01 states: [ 2.55394e+00 3.27735e-02] derivs: [ 3.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.085000 pESO->GetIndependentVar(): 18.085000 ==>IsSwitchingOccur() prevPhis[ 0]=12.694583, nextPhis[ 0]=12.690027 prevPhis[ 1]=-6.694583, nextPhis[ 1]=-6.690027 <==IsSwitchingOccur() T = 18.085000 Tnext = 18.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.090000 pESO->GetIndependentVar(): 18.090000 ==>IsSwitchingOccur() prevPhis[ 0]=12.690027, nextPhis[ 0]=12.685396 prevPhis[ 1]=-6.690027, nextPhis[ 1]=-6.685396 <==IsSwitchingOccur() T = 18.090000 Tnext = 18.095000 Time: 1.80900e+01 states: [ 2.55421e+00 2.27735e-02] derivs: [ 2.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.095000 pESO->GetIndependentVar(): 18.095000 ==>IsSwitchingOccur() prevPhis[ 0]=12.685396, nextPhis[ 0]=12.680689 prevPhis[ 1]=-6.685396, nextPhis[ 1]=-6.680689 <==IsSwitchingOccur() T = 18.095000 Tnext = 18.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.100000 pESO->GetIndependentVar(): 18.100000 ==>IsSwitchingOccur() prevPhis[ 0]=12.680689, nextPhis[ 0]=12.675908 prevPhis[ 1]=-6.680689, nextPhis[ 1]=-6.675908 <==IsSwitchingOccur() T = 18.100000 Tnext = 18.105000 Time: 1.81000e+01 states: [ 2.55438e+00 1.27735e-02] derivs: [ 1.25306e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.105000 pESO->GetIndependentVar(): 18.105000 ==>IsSwitchingOccur() prevPhis[ 0]=12.675908, nextPhis[ 0]=12.671052 prevPhis[ 1]=-6.675908, nextPhis[ 1]=-6.671052 <==IsSwitchingOccur() T = 18.105000 Tnext = 18.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.110000 pESO->GetIndependentVar(): 18.110000 ==>IsSwitchingOccur() prevPhis[ 0]=12.671052, nextPhis[ 0]=12.666121 prevPhis[ 1]=-6.671052, nextPhis[ 1]=-6.666121 <==IsSwitchingOccur() T = 18.110000 Tnext = 18.115000 Time: 1.81100e+01 states: [ 2.55445e+00 2.77349e-03] derivs: [ 2.53061e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.115000 pESO->GetIndependentVar(): 18.115000 ==>IsSwitchingOccur() prevPhis[ 0]=12.666121, nextPhis[ 0]=12.661114 prevPhis[ 1]=-6.666121, nextPhis[ 1]=-6.661114 <==IsSwitchingOccur() T = 18.115000 Tnext = 18.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.120000 pESO->GetIndependentVar(): 18.120000 ==>IsSwitchingOccur() prevPhis[ 0]=12.661114, nextPhis[ 0]=12.656033 prevPhis[ 1]=-6.661114, nextPhis[ 1]=-6.656033 <==IsSwitchingOccur() T = 18.120000 Tnext = 18.125000 Time: 1.81200e+01 states: [ 2.55442e+00 -7.22651e-03] derivs: [ -7.46939e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.125000 pESO->GetIndependentVar(): 18.125000 ==>IsSwitchingOccur() prevPhis[ 0]=12.656033, nextPhis[ 0]=12.650877 prevPhis[ 1]=-6.656033, nextPhis[ 1]=-6.650877 <==IsSwitchingOccur() T = 18.125000 Tnext = 18.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.130000 pESO->GetIndependentVar(): 18.130000 ==>IsSwitchingOccur() prevPhis[ 0]=12.650877, nextPhis[ 0]=12.645646 prevPhis[ 1]=-6.650877, nextPhis[ 1]=-6.645646 <==IsSwitchingOccur() T = 18.130000 Tnext = 18.135000 Time: 1.81300e+01 states: [ 2.55429e+00 -1.72265e-02] derivs: [ -1.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.135000 pESO->GetIndependentVar(): 18.135000 ==>IsSwitchingOccur() prevPhis[ 0]=12.645646, nextPhis[ 0]=12.640339 prevPhis[ 1]=-6.645646, nextPhis[ 1]=-6.640339 <==IsSwitchingOccur() T = 18.135000 Tnext = 18.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.140000 pESO->GetIndependentVar(): 18.140000 ==>IsSwitchingOccur() prevPhis[ 0]=12.640339, nextPhis[ 0]=12.634958 prevPhis[ 1]=-6.640339, nextPhis[ 1]=-6.634958 <==IsSwitchingOccur() T = 18.140000 Tnext = 18.145000 Time: 1.81400e+01 states: [ 2.55406e+00 -2.72265e-02] derivs: [ -2.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.145000 pESO->GetIndependentVar(): 18.145000 ==>IsSwitchingOccur() prevPhis[ 0]=12.634958, nextPhis[ 0]=12.629502 prevPhis[ 1]=-6.634958, nextPhis[ 1]=-6.629502 <==IsSwitchingOccur() T = 18.145000 Tnext = 18.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.150000 pESO->GetIndependentVar(): 18.150000 ==>IsSwitchingOccur() prevPhis[ 0]=12.629502, nextPhis[ 0]=12.623971 prevPhis[ 1]=-6.629502, nextPhis[ 1]=-6.623971 <==IsSwitchingOccur() T = 18.150000 Tnext = 18.155000 Time: 1.81500e+01 states: [ 2.55373e+00 -3.72265e-02] derivs: [ -3.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.155000 pESO->GetIndependentVar(): 18.155000 ==>IsSwitchingOccur() prevPhis[ 0]=12.623971, nextPhis[ 0]=12.618364 prevPhis[ 1]=-6.623971, nextPhis[ 1]=-6.618364 <==IsSwitchingOccur() T = 18.155000 Tnext = 18.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.160000 pESO->GetIndependentVar(): 18.160000 ==>IsSwitchingOccur() prevPhis[ 0]=12.618364, nextPhis[ 0]=12.612683 prevPhis[ 1]=-6.618364, nextPhis[ 1]=-6.612683 <==IsSwitchingOccur() T = 18.160000 Tnext = 18.165000 Time: 1.81600e+01 states: [ 2.55330e+00 -4.72265e-02] derivs: [ -4.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.165000 pESO->GetIndependentVar(): 18.165000 ==>IsSwitchingOccur() prevPhis[ 0]=12.612683, nextPhis[ 0]=12.606927 prevPhis[ 1]=-6.612683, nextPhis[ 1]=-6.606927 <==IsSwitchingOccur() T = 18.165000 Tnext = 18.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.170000 pESO->GetIndependentVar(): 18.170000 ==>IsSwitchingOccur() prevPhis[ 0]=12.606927, nextPhis[ 0]=12.601096 prevPhis[ 1]=-6.606927, nextPhis[ 1]=-6.601096 <==IsSwitchingOccur() T = 18.170000 Tnext = 18.175000 Time: 1.81700e+01 states: [ 2.55277e+00 -5.72265e-02] derivs: [ -5.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.175000 pESO->GetIndependentVar(): 18.175000 ==>IsSwitchingOccur() prevPhis[ 0]=12.601096, nextPhis[ 0]=12.595189 prevPhis[ 1]=-6.601096, nextPhis[ 1]=-6.595189 <==IsSwitchingOccur() T = 18.175000 Tnext = 18.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.180000 pESO->GetIndependentVar(): 18.180000 ==>IsSwitchingOccur() prevPhis[ 0]=12.595189, nextPhis[ 0]=12.589208 prevPhis[ 1]=-6.595189, nextPhis[ 1]=-6.589208 <==IsSwitchingOccur() T = 18.180000 Tnext = 18.185000 Time: 1.81800e+01 states: [ 2.55214e+00 -6.72265e-02] derivs: [ -6.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.185000 pESO->GetIndependentVar(): 18.185000 ==>IsSwitchingOccur() prevPhis[ 0]=12.589208, nextPhis[ 0]=12.583152 prevPhis[ 1]=-6.589208, nextPhis[ 1]=-6.583152 <==IsSwitchingOccur() T = 18.185000 Tnext = 18.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.190000 pESO->GetIndependentVar(): 18.190000 ==>IsSwitchingOccur() prevPhis[ 0]=12.583152, nextPhis[ 0]=12.577021 prevPhis[ 1]=-6.583152, nextPhis[ 1]=-6.577021 <==IsSwitchingOccur() T = 18.190000 Tnext = 18.195000 Time: 1.81900e+01 states: [ 2.55142e+00 -7.72265e-02] derivs: [ -7.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.195000 pESO->GetIndependentVar(): 18.195000 ==>IsSwitchingOccur() prevPhis[ 0]=12.577021, nextPhis[ 0]=12.570814 prevPhis[ 1]=-6.577021, nextPhis[ 1]=-6.570814 <==IsSwitchingOccur() T = 18.195000 Tnext = 18.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.200000 pESO->GetIndependentVar(): 18.200000 ==>IsSwitchingOccur() prevPhis[ 0]=12.570814, nextPhis[ 0]=12.564533 prevPhis[ 1]=-6.570814, nextPhis[ 1]=-6.564533 <==IsSwitchingOccur() T = 18.200000 Tnext = 18.205000 Time: 1.82000e+01 states: [ 2.55059e+00 -8.72265e-02] derivs: [ -8.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.205000 pESO->GetIndependentVar(): 18.205000 ==>IsSwitchingOccur() prevPhis[ 0]=12.564533, nextPhis[ 0]=12.558177 prevPhis[ 1]=-6.564533, nextPhis[ 1]=-6.558177 <==IsSwitchingOccur() T = 18.205000 Tnext = 18.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.210000 pESO->GetIndependentVar(): 18.210000 ==>IsSwitchingOccur() prevPhis[ 0]=12.558177, nextPhis[ 0]=12.551746 prevPhis[ 1]=-6.558177, nextPhis[ 1]=-6.551746 <==IsSwitchingOccur() T = 18.210000 Tnext = 18.215000 Time: 1.82100e+01 states: [ 2.54966e+00 -9.72265e-02] derivs: [ -9.74694e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.215000 pESO->GetIndependentVar(): 18.215000 ==>IsSwitchingOccur() prevPhis[ 0]=12.551746, nextPhis[ 0]=12.545239 prevPhis[ 1]=-6.551746, nextPhis[ 1]=-6.545239 <==IsSwitchingOccur() T = 18.215000 Tnext = 18.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.220000 pESO->GetIndependentVar(): 18.220000 ==>IsSwitchingOccur() prevPhis[ 0]=12.545239, nextPhis[ 0]=12.538658 prevPhis[ 1]=-6.545239, nextPhis[ 1]=-6.538658 <==IsSwitchingOccur() T = 18.220000 Tnext = 18.225000 Time: 1.82200e+01 states: [ 2.54863e+00 -1.07227e-01] derivs: [ -1.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.225000 pESO->GetIndependentVar(): 18.225000 ==>IsSwitchingOccur() prevPhis[ 0]=12.538658, nextPhis[ 0]=12.532002 prevPhis[ 1]=-6.538658, nextPhis[ 1]=-6.532002 <==IsSwitchingOccur() T = 18.225000 Tnext = 18.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.230000 pESO->GetIndependentVar(): 18.230000 ==>IsSwitchingOccur() prevPhis[ 0]=12.532002, nextPhis[ 0]=12.525271 prevPhis[ 1]=-6.532002, nextPhis[ 1]=-6.525271 <==IsSwitchingOccur() T = 18.230000 Tnext = 18.235000 Time: 1.82300e+01 states: [ 2.54750e+00 -1.17227e-01] derivs: [ -1.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.235000 pESO->GetIndependentVar(): 18.235000 ==>IsSwitchingOccur() prevPhis[ 0]=12.525271, nextPhis[ 0]=12.518464 prevPhis[ 1]=-6.525271, nextPhis[ 1]=-6.518464 <==IsSwitchingOccur() T = 18.235000 Tnext = 18.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.240000 pESO->GetIndependentVar(): 18.240000 ==>IsSwitchingOccur() prevPhis[ 0]=12.518464, nextPhis[ 0]=12.511583 prevPhis[ 1]=-6.518464, nextPhis[ 1]=-6.511583 <==IsSwitchingOccur() T = 18.240000 Tnext = 18.245000 Time: 1.82400e+01 states: [ 2.54627e+00 -1.27227e-01] derivs: [ -1.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.245000 pESO->GetIndependentVar(): 18.245000 ==>IsSwitchingOccur() prevPhis[ 0]=12.511583, nextPhis[ 0]=12.504627 prevPhis[ 1]=-6.511583, nextPhis[ 1]=-6.504627 <==IsSwitchingOccur() T = 18.245000 Tnext = 18.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.250000 pESO->GetIndependentVar(): 18.250000 ==>IsSwitchingOccur() prevPhis[ 0]=12.504627, nextPhis[ 0]=12.497595 prevPhis[ 1]=-6.504627, nextPhis[ 1]=-6.497595 <==IsSwitchingOccur() T = 18.250000 Tnext = 18.255000 Time: 1.82500e+01 states: [ 2.54494e+00 -1.37227e-01] derivs: [ -1.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.255000 pESO->GetIndependentVar(): 18.255000 ==>IsSwitchingOccur() prevPhis[ 0]=12.497595, nextPhis[ 0]=12.490489 prevPhis[ 1]=-6.497595, nextPhis[ 1]=-6.490489 <==IsSwitchingOccur() T = 18.255000 Tnext = 18.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.260000 pESO->GetIndependentVar(): 18.260000 ==>IsSwitchingOccur() prevPhis[ 0]=12.490489, nextPhis[ 0]=12.483308 prevPhis[ 1]=-6.490489, nextPhis[ 1]=-6.483308 <==IsSwitchingOccur() T = 18.260000 Tnext = 18.265000 Time: 1.82600e+01 states: [ 2.54351e+00 -1.47227e-01] derivs: [ -1.47469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.265000 pESO->GetIndependentVar(): 18.265000 ==>IsSwitchingOccur() prevPhis[ 0]=12.483308, nextPhis[ 0]=12.476052 prevPhis[ 1]=-6.483308, nextPhis[ 1]=-6.476052 <==IsSwitchingOccur() T = 18.265000 Tnext = 18.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.270000 pESO->GetIndependentVar(): 18.270000 ==>IsSwitchingOccur() prevPhis[ 0]=12.476052, nextPhis[ 0]=12.468720 prevPhis[ 1]=-6.476052, nextPhis[ 1]=-6.468720 <==IsSwitchingOccur() T = 18.270000 Tnext = 18.275000 Time: 1.82700e+01 states: [ 2.54198e+00 -1.57227e-01] derivs: [ -1.57469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.275000 pESO->GetIndependentVar(): 18.275000 ==>IsSwitchingOccur() prevPhis[ 0]=12.468720, nextPhis[ 0]=12.461314 prevPhis[ 1]=-6.468720, nextPhis[ 1]=-6.461314 <==IsSwitchingOccur() T = 18.275000 Tnext = 18.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.280000 pESO->GetIndependentVar(): 18.280000 ==>IsSwitchingOccur() prevPhis[ 0]=12.461314, nextPhis[ 0]=12.453833 prevPhis[ 1]=-6.461314, nextPhis[ 1]=-6.453833 <==IsSwitchingOccur() T = 18.280000 Tnext = 18.285000 Time: 1.82800e+01 states: [ 2.54035e+00 -1.67227e-01] derivs: [ -1.67469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.285000 pESO->GetIndependentVar(): 18.285000 ==>IsSwitchingOccur() prevPhis[ 0]=12.453833, nextPhis[ 0]=12.446277 prevPhis[ 1]=-6.453833, nextPhis[ 1]=-6.446277 <==IsSwitchingOccur() T = 18.285000 Tnext = 18.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.290000 pESO->GetIndependentVar(): 18.290000 ==>IsSwitchingOccur() prevPhis[ 0]=12.446277, nextPhis[ 0]=12.438645 prevPhis[ 1]=-6.446277, nextPhis[ 1]=-6.438645 <==IsSwitchingOccur() T = 18.290000 Tnext = 18.295000 Time: 1.82900e+01 states: [ 2.53862e+00 -1.77227e-01] derivs: [ -1.77469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.295000 pESO->GetIndependentVar(): 18.295000 ==>IsSwitchingOccur() prevPhis[ 0]=12.438645, nextPhis[ 0]=12.430939 prevPhis[ 1]=-6.438645, nextPhis[ 1]=-6.430939 <==IsSwitchingOccur() T = 18.295000 Tnext = 18.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.300000 pESO->GetIndependentVar(): 18.300000 ==>IsSwitchingOccur() prevPhis[ 0]=12.430939, nextPhis[ 0]=12.423158 prevPhis[ 1]=-6.430939, nextPhis[ 1]=-6.423158 <==IsSwitchingOccur() T = 18.300000 Tnext = 18.305000 Time: 1.83000e+01 states: [ 2.53679e+00 -1.87227e-01] derivs: [ -1.87469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.305000 pESO->GetIndependentVar(): 18.305000 ==>IsSwitchingOccur() prevPhis[ 0]=12.423158, nextPhis[ 0]=12.415302 prevPhis[ 1]=-6.423158, nextPhis[ 1]=-6.415302 <==IsSwitchingOccur() T = 18.305000 Tnext = 18.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.310000 pESO->GetIndependentVar(): 18.310000 ==>IsSwitchingOccur() prevPhis[ 0]=12.415302, nextPhis[ 0]=12.407370 prevPhis[ 1]=-6.415302, nextPhis[ 1]=-6.407370 <==IsSwitchingOccur() T = 18.310000 Tnext = 18.315000 Time: 1.83100e+01 states: [ 2.53487e+00 -1.97227e-01] derivs: [ -1.97469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.315000 pESO->GetIndependentVar(): 18.315000 ==>IsSwitchingOccur() prevPhis[ 0]=12.407370, nextPhis[ 0]=12.399364 prevPhis[ 1]=-6.407370, nextPhis[ 1]=-6.399364 <==IsSwitchingOccur() T = 18.315000 Tnext = 18.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.320000 pESO->GetIndependentVar(): 18.320000 ==>IsSwitchingOccur() prevPhis[ 0]=12.399364, nextPhis[ 0]=12.391283 prevPhis[ 1]=-6.399364, nextPhis[ 1]=-6.391283 <==IsSwitchingOccur() T = 18.320000 Tnext = 18.325000 Time: 1.83200e+01 states: [ 2.53284e+00 -2.07227e-01] derivs: [ -2.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.325000 pESO->GetIndependentVar(): 18.325000 ==>IsSwitchingOccur() prevPhis[ 0]=12.391283, nextPhis[ 0]=12.383127 prevPhis[ 1]=-6.391283, nextPhis[ 1]=-6.383127 <==IsSwitchingOccur() T = 18.325000 Tnext = 18.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.330000 pESO->GetIndependentVar(): 18.330000 ==>IsSwitchingOccur() prevPhis[ 0]=12.383127, nextPhis[ 0]=12.374895 prevPhis[ 1]=-6.383127, nextPhis[ 1]=-6.374895 <==IsSwitchingOccur() T = 18.330000 Tnext = 18.335000 Time: 1.83300e+01 states: [ 2.53071e+00 -2.17227e-01] derivs: [ -2.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.335000 pESO->GetIndependentVar(): 18.335000 ==>IsSwitchingOccur() prevPhis[ 0]=12.374895, nextPhis[ 0]=12.366589 prevPhis[ 1]=-6.374895, nextPhis[ 1]=-6.366589 <==IsSwitchingOccur() T = 18.335000 Tnext = 18.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.340000 pESO->GetIndependentVar(): 18.340000 ==>IsSwitchingOccur() prevPhis[ 0]=12.366589, nextPhis[ 0]=12.358208 prevPhis[ 1]=-6.366589, nextPhis[ 1]=-6.358208 <==IsSwitchingOccur() T = 18.340000 Tnext = 18.345000 Time: 1.83400e+01 states: [ 2.52848e+00 -2.27227e-01] derivs: [ -2.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.345000 pESO->GetIndependentVar(): 18.345000 ==>IsSwitchingOccur() prevPhis[ 0]=12.358208, nextPhis[ 0]=12.349752 prevPhis[ 1]=-6.358208, nextPhis[ 1]=-6.349752 <==IsSwitchingOccur() T = 18.345000 Tnext = 18.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.350000 pESO->GetIndependentVar(): 18.350000 ==>IsSwitchingOccur() prevPhis[ 0]=12.349752, nextPhis[ 0]=12.341220 prevPhis[ 1]=-6.349752, nextPhis[ 1]=-6.341220 <==IsSwitchingOccur() T = 18.350000 Tnext = 18.355000 Time: 1.83500e+01 states: [ 2.52615e+00 -2.37227e-01] derivs: [ -2.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.355000 pESO->GetIndependentVar(): 18.355000 ==>IsSwitchingOccur() prevPhis[ 0]=12.341220, nextPhis[ 0]=12.332614 prevPhis[ 1]=-6.341220, nextPhis[ 1]=-6.332614 <==IsSwitchingOccur() T = 18.355000 Tnext = 18.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.360000 pESO->GetIndependentVar(): 18.360000 ==>IsSwitchingOccur() prevPhis[ 0]=12.332614, nextPhis[ 0]=12.323933 prevPhis[ 1]=-6.332614, nextPhis[ 1]=-6.323933 <==IsSwitchingOccur() T = 18.360000 Tnext = 18.365000 Time: 1.83600e+01 states: [ 2.52372e+00 -2.47227e-01] derivs: [ -2.47469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.365000 pESO->GetIndependentVar(): 18.365000 ==>IsSwitchingOccur() prevPhis[ 0]=12.323933, nextPhis[ 0]=12.315177 prevPhis[ 1]=-6.323933, nextPhis[ 1]=-6.315177 <==IsSwitchingOccur() T = 18.365000 Tnext = 18.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.370000 pESO->GetIndependentVar(): 18.370000 ==>IsSwitchingOccur() prevPhis[ 0]=12.315177, nextPhis[ 0]=12.306345 prevPhis[ 1]=-6.315177, nextPhis[ 1]=-6.306345 <==IsSwitchingOccur() T = 18.370000 Tnext = 18.375000 Time: 1.83700e+01 states: [ 2.52119e+00 -2.57227e-01] derivs: [ -2.57469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.375000 pESO->GetIndependentVar(): 18.375000 ==>IsSwitchingOccur() prevPhis[ 0]=12.306345, nextPhis[ 0]=12.297439 prevPhis[ 1]=-6.306345, nextPhis[ 1]=-6.297439 <==IsSwitchingOccur() T = 18.375000 Tnext = 18.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.380000 pESO->GetIndependentVar(): 18.380000 ==>IsSwitchingOccur() prevPhis[ 0]=12.297439, nextPhis[ 0]=12.288458 prevPhis[ 1]=-6.297439, nextPhis[ 1]=-6.288458 <==IsSwitchingOccur() T = 18.380000 Tnext = 18.385000 Time: 1.83800e+01 states: [ 2.51856e+00 -2.67227e-01] derivs: [ -2.67469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.385000 pESO->GetIndependentVar(): 18.385000 ==>IsSwitchingOccur() prevPhis[ 0]=12.288458, nextPhis[ 0]=12.279402 prevPhis[ 1]=-6.288458, nextPhis[ 1]=-6.279402 <==IsSwitchingOccur() T = 18.385000 Tnext = 18.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.390000 pESO->GetIndependentVar(): 18.390000 ==>IsSwitchingOccur() prevPhis[ 0]=12.279402, nextPhis[ 0]=12.270270 prevPhis[ 1]=-6.279402, nextPhis[ 1]=-6.270270 <==IsSwitchingOccur() T = 18.390000 Tnext = 18.395000 Time: 1.83900e+01 states: [ 2.51583e+00 -2.77227e-01] derivs: [ -2.77469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.395000 pESO->GetIndependentVar(): 18.395000 ==>IsSwitchingOccur() prevPhis[ 0]=12.270270, nextPhis[ 0]=12.261064 prevPhis[ 1]=-6.270270, nextPhis[ 1]=-6.261064 <==IsSwitchingOccur() T = 18.395000 Tnext = 18.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.400000 pESO->GetIndependentVar(): 18.400000 ==>IsSwitchingOccur() prevPhis[ 0]=12.261064, nextPhis[ 0]=12.251783 prevPhis[ 1]=-6.261064, nextPhis[ 1]=-6.251783 <==IsSwitchingOccur() T = 18.400000 Tnext = 18.405000 Time: 1.84000e+01 states: [ 2.51300e+00 -2.87227e-01] derivs: [ -2.87469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.405000 pESO->GetIndependentVar(): 18.405000 ==>IsSwitchingOccur() prevPhis[ 0]=12.251783, nextPhis[ 0]=12.242427 prevPhis[ 1]=-6.251783, nextPhis[ 1]=-6.242427 <==IsSwitchingOccur() T = 18.405000 Tnext = 18.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.410000 pESO->GetIndependentVar(): 18.410000 ==>IsSwitchingOccur() prevPhis[ 0]=12.242427, nextPhis[ 0]=12.232995 prevPhis[ 1]=-6.242427, nextPhis[ 1]=-6.232995 <==IsSwitchingOccur() T = 18.410000 Tnext = 18.415000 Time: 1.84100e+01 states: [ 2.51007e+00 -2.97227e-01] derivs: [ -2.97469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.415000 pESO->GetIndependentVar(): 18.415000 ==>IsSwitchingOccur() prevPhis[ 0]=12.232995, nextPhis[ 0]=12.223489 prevPhis[ 1]=-6.232995, nextPhis[ 1]=-6.223489 <==IsSwitchingOccur() T = 18.415000 Tnext = 18.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.420000 pESO->GetIndependentVar(): 18.420000 ==>IsSwitchingOccur() prevPhis[ 0]=12.223489, nextPhis[ 0]=12.213908 prevPhis[ 1]=-6.223489, nextPhis[ 1]=-6.213908 <==IsSwitchingOccur() T = 18.420000 Tnext = 18.425000 Time: 1.84200e+01 states: [ 2.50704e+00 -3.07227e-01] derivs: [ -3.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.425000 pESO->GetIndependentVar(): 18.425000 ==>IsSwitchingOccur() prevPhis[ 0]=12.213908, nextPhis[ 0]=12.204252 prevPhis[ 1]=-6.213908, nextPhis[ 1]=-6.204252 <==IsSwitchingOccur() T = 18.425000 Tnext = 18.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.430000 pESO->GetIndependentVar(): 18.430000 ==>IsSwitchingOccur() prevPhis[ 0]=12.204252, nextPhis[ 0]=12.194520 prevPhis[ 1]=-6.204252, nextPhis[ 1]=-6.194520 <==IsSwitchingOccur() T = 18.430000 Tnext = 18.435000 Time: 1.84300e+01 states: [ 2.50392e+00 -3.17227e-01] derivs: [ -3.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.435000 pESO->GetIndependentVar(): 18.435000 ==>IsSwitchingOccur() prevPhis[ 0]=12.194520, nextPhis[ 0]=12.184714 prevPhis[ 1]=-6.194520, nextPhis[ 1]=-6.184714 <==IsSwitchingOccur() T = 18.435000 Tnext = 18.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.440000 pESO->GetIndependentVar(): 18.440000 ==>IsSwitchingOccur() prevPhis[ 0]=12.184714, nextPhis[ 0]=12.174833 prevPhis[ 1]=-6.184714, nextPhis[ 1]=-6.174833 <==IsSwitchingOccur() T = 18.440000 Tnext = 18.445000 Time: 1.84400e+01 states: [ 2.50069e+00 -3.27227e-01] derivs: [ -3.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.445000 pESO->GetIndependentVar(): 18.445000 ==>IsSwitchingOccur() prevPhis[ 0]=12.174833, nextPhis[ 0]=12.164877 prevPhis[ 1]=-6.174833, nextPhis[ 1]=-6.164877 <==IsSwitchingOccur() T = 18.445000 Tnext = 18.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.450000 pESO->GetIndependentVar(): 18.450000 ==>IsSwitchingOccur() prevPhis[ 0]=12.164877, nextPhis[ 0]=12.154845 prevPhis[ 1]=-6.164877, nextPhis[ 1]=-6.154845 <==IsSwitchingOccur() T = 18.450000 Tnext = 18.455000 Time: 1.84500e+01 states: [ 2.49736e+00 -3.37227e-01] derivs: [ -3.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.455000 pESO->GetIndependentVar(): 18.455000 ==>IsSwitchingOccur() prevPhis[ 0]=12.154845, nextPhis[ 0]=12.144739 prevPhis[ 1]=-6.154845, nextPhis[ 1]=-6.144739 <==IsSwitchingOccur() T = 18.455000 Tnext = 18.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.460000 pESO->GetIndependentVar(): 18.460000 ==>IsSwitchingOccur() prevPhis[ 0]=12.144739, nextPhis[ 0]=12.134558 prevPhis[ 1]=-6.144739, nextPhis[ 1]=-6.134558 <==IsSwitchingOccur() T = 18.460000 Tnext = 18.465000 Time: 1.84600e+01 states: [ 2.49393e+00 -3.47227e-01] derivs: [ -3.47469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.465000 pESO->GetIndependentVar(): 18.465000 ==>IsSwitchingOccur() prevPhis[ 0]=12.134558, nextPhis[ 0]=12.124302 prevPhis[ 1]=-6.134558, nextPhis[ 1]=-6.124302 <==IsSwitchingOccur() T = 18.465000 Tnext = 18.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.470000 pESO->GetIndependentVar(): 18.470000 ==>IsSwitchingOccur() prevPhis[ 0]=12.124302, nextPhis[ 0]=12.113970 prevPhis[ 1]=-6.124302, nextPhis[ 1]=-6.113970 <==IsSwitchingOccur() T = 18.470000 Tnext = 18.475000 Time: 1.84700e+01 states: [ 2.49040e+00 -3.57227e-01] derivs: [ -3.57469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.475000 pESO->GetIndependentVar(): 18.475000 ==>IsSwitchingOccur() prevPhis[ 0]=12.113970, nextPhis[ 0]=12.103564 prevPhis[ 1]=-6.113970, nextPhis[ 1]=-6.103564 <==IsSwitchingOccur() T = 18.475000 Tnext = 18.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.480000 pESO->GetIndependentVar(): 18.480000 ==>IsSwitchingOccur() prevPhis[ 0]=12.103564, nextPhis[ 0]=12.093083 prevPhis[ 1]=-6.103564, nextPhis[ 1]=-6.093083 <==IsSwitchingOccur() T = 18.480000 Tnext = 18.485000 Time: 1.84800e+01 states: [ 2.48677e+00 -3.67227e-01] derivs: [ -3.67469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.485000 pESO->GetIndependentVar(): 18.485000 ==>IsSwitchingOccur() prevPhis[ 0]=12.093083, nextPhis[ 0]=12.082527 prevPhis[ 1]=-6.093083, nextPhis[ 1]=-6.082527 <==IsSwitchingOccur() T = 18.485000 Tnext = 18.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.490000 pESO->GetIndependentVar(): 18.490000 ==>IsSwitchingOccur() prevPhis[ 0]=12.082527, nextPhis[ 0]=12.071895 prevPhis[ 1]=-6.082527, nextPhis[ 1]=-6.071895 <==IsSwitchingOccur() T = 18.490000 Tnext = 18.495000 Time: 1.84900e+01 states: [ 2.48304e+00 -3.77227e-01] derivs: [ -3.77469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.495000 pESO->GetIndependentVar(): 18.495000 ==>IsSwitchingOccur() prevPhis[ 0]=12.071895, nextPhis[ 0]=12.061189 prevPhis[ 1]=-6.071895, nextPhis[ 1]=-6.061189 <==IsSwitchingOccur() T = 18.495000 Tnext = 18.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.500000 pESO->GetIndependentVar(): 18.500000 ==>IsSwitchingOccur() prevPhis[ 0]=12.061189, nextPhis[ 0]=12.050408 prevPhis[ 1]=-6.061189, nextPhis[ 1]=-6.050408 <==IsSwitchingOccur() T = 18.500000 Tnext = 18.505000 Time: 1.85000e+01 states: [ 2.47921e+00 -3.87227e-01] derivs: [ -3.87469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.505000 pESO->GetIndependentVar(): 18.505000 ==>IsSwitchingOccur() prevPhis[ 0]=12.050408, nextPhis[ 0]=12.039551 prevPhis[ 1]=-6.050408, nextPhis[ 1]=-6.039551 <==IsSwitchingOccur() T = 18.505000 Tnext = 18.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.510000 pESO->GetIndependentVar(): 18.510000 ==>IsSwitchingOccur() prevPhis[ 0]=12.039551, nextPhis[ 0]=12.028620 prevPhis[ 1]=-6.039551, nextPhis[ 1]=-6.028620 <==IsSwitchingOccur() T = 18.510000 Tnext = 18.515000 Time: 1.85100e+01 states: [ 2.47528e+00 -3.97227e-01] derivs: [ -3.97469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.515000 pESO->GetIndependentVar(): 18.515000 ==>IsSwitchingOccur() prevPhis[ 0]=12.028620, nextPhis[ 0]=12.017614 prevPhis[ 1]=-6.028620, nextPhis[ 1]=-6.017614 <==IsSwitchingOccur() T = 18.515000 Tnext = 18.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.520000 pESO->GetIndependentVar(): 18.520000 ==>IsSwitchingOccur() prevPhis[ 0]=12.017614, nextPhis[ 0]=12.006533 prevPhis[ 1]=-6.017614, nextPhis[ 1]=-6.006533 <==IsSwitchingOccur() T = 18.520000 Tnext = 18.525000 Time: 1.85200e+01 states: [ 2.47125e+00 -4.07227e-01] derivs: [ -4.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.525000 pESO->GetIndependentVar(): 18.525000 ==>IsSwitchingOccur() prevPhis[ 0]=12.006533, nextPhis[ 0]=11.995376 prevPhis[ 1]=-6.006533, nextPhis[ 1]=-5.995376 <==IsSwitchingOccur() T = 18.525000 Tnext = 18.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.530000 pESO->GetIndependentVar(): 18.530000 ==>IsSwitchingOccur() prevPhis[ 0]=11.995376, nextPhis[ 0]=11.984145 prevPhis[ 1]=-5.995376, nextPhis[ 1]=-5.984145 <==IsSwitchingOccur() T = 18.530000 Tnext = 18.535000 Time: 1.85300e+01 states: [ 2.46712e+00 -4.17227e-01] derivs: [ -4.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.535000 pESO->GetIndependentVar(): 18.535000 ==>IsSwitchingOccur() prevPhis[ 0]=11.984145, nextPhis[ 0]=11.972839 prevPhis[ 1]=-5.984145, nextPhis[ 1]=-5.972839 <==IsSwitchingOccur() T = 18.535000 Tnext = 18.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.540000 pESO->GetIndependentVar(): 18.540000 ==>IsSwitchingOccur() prevPhis[ 0]=11.972839, nextPhis[ 0]=11.961458 prevPhis[ 1]=-5.972839, nextPhis[ 1]=-5.961458 <==IsSwitchingOccur() T = 18.540000 Tnext = 18.545000 Time: 1.85400e+01 states: [ 2.46289e+00 -4.27227e-01] derivs: [ -4.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.545000 pESO->GetIndependentVar(): 18.545000 ==>IsSwitchingOccur() prevPhis[ 0]=11.961458, nextPhis[ 0]=11.950001 prevPhis[ 1]=-5.961458, nextPhis[ 1]=-5.950001 <==IsSwitchingOccur() T = 18.545000 Tnext = 18.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.550000 pESO->GetIndependentVar(): 18.550000 ==>IsSwitchingOccur() prevPhis[ 0]=11.950001, nextPhis[ 0]=11.938470 prevPhis[ 1]=-5.950001, nextPhis[ 1]=-5.938470 <==IsSwitchingOccur() T = 18.550000 Tnext = 18.555000 Time: 1.85500e+01 states: [ 2.45857e+00 -4.37227e-01] derivs: [ -4.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.555000 pESO->GetIndependentVar(): 18.555000 ==>IsSwitchingOccur() prevPhis[ 0]=11.938470, nextPhis[ 0]=11.926864 prevPhis[ 1]=-5.938470, nextPhis[ 1]=-5.926864 <==IsSwitchingOccur() T = 18.555000 Tnext = 18.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.560000 pESO->GetIndependentVar(): 18.560000 ==>IsSwitchingOccur() prevPhis[ 0]=11.926864, nextPhis[ 0]=11.915183 prevPhis[ 1]=-5.926864, nextPhis[ 1]=-5.915183 <==IsSwitchingOccur() T = 18.560000 Tnext = 18.565000 Time: 1.85600e+01 states: [ 2.45414e+00 -4.47227e-01] derivs: [ -4.47469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.565000 pESO->GetIndependentVar(): 18.565000 ==>IsSwitchingOccur() prevPhis[ 0]=11.915183, nextPhis[ 0]=11.903426 prevPhis[ 1]=-5.915183, nextPhis[ 1]=-5.903426 <==IsSwitchingOccur() T = 18.565000 Tnext = 18.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.570000 pESO->GetIndependentVar(): 18.570000 ==>IsSwitchingOccur() prevPhis[ 0]=11.903426, nextPhis[ 0]=11.891595 prevPhis[ 1]=-5.903426, nextPhis[ 1]=-5.891595 <==IsSwitchingOccur() T = 18.570000 Tnext = 18.575000 Time: 1.85700e+01 states: [ 2.44961e+00 -4.57227e-01] derivs: [ -4.57469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.575000 pESO->GetIndependentVar(): 18.575000 ==>IsSwitchingOccur() prevPhis[ 0]=11.891595, nextPhis[ 0]=11.879689 prevPhis[ 1]=-5.891595, nextPhis[ 1]=-5.879689 <==IsSwitchingOccur() T = 18.575000 Tnext = 18.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.580000 pESO->GetIndependentVar(): 18.580000 ==>IsSwitchingOccur() prevPhis[ 0]=11.879689, nextPhis[ 0]=11.867708 prevPhis[ 1]=-5.879689, nextPhis[ 1]=-5.867708 <==IsSwitchingOccur() T = 18.580000 Tnext = 18.585000 Time: 1.85800e+01 states: [ 2.44498e+00 -4.67227e-01] derivs: [ -4.67469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.585000 pESO->GetIndependentVar(): 18.585000 ==>IsSwitchingOccur() prevPhis[ 0]=11.867708, nextPhis[ 0]=11.855651 prevPhis[ 1]=-5.867708, nextPhis[ 1]=-5.855651 <==IsSwitchingOccur() T = 18.585000 Tnext = 18.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.590000 pESO->GetIndependentVar(): 18.590000 ==>IsSwitchingOccur() prevPhis[ 0]=11.855651, nextPhis[ 0]=11.843520 prevPhis[ 1]=-5.855651, nextPhis[ 1]=-5.843520 <==IsSwitchingOccur() T = 18.590000 Tnext = 18.595000 Time: 1.85900e+01 states: [ 2.44025e+00 -4.77227e-01] derivs: [ -4.77469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.595000 pESO->GetIndependentVar(): 18.595000 ==>IsSwitchingOccur() prevPhis[ 0]=11.843520, nextPhis[ 0]=11.831314 prevPhis[ 1]=-5.843520, nextPhis[ 1]=-5.831314 <==IsSwitchingOccur() T = 18.595000 Tnext = 18.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.600000 pESO->GetIndependentVar(): 18.600000 ==>IsSwitchingOccur() prevPhis[ 0]=11.831314, nextPhis[ 0]=11.819033 prevPhis[ 1]=-5.831314, nextPhis[ 1]=-5.819033 <==IsSwitchingOccur() T = 18.600000 Tnext = 18.605000 Time: 1.86000e+01 states: [ 2.43542e+00 -4.87227e-01] derivs: [ -4.87469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.605000 pESO->GetIndependentVar(): 18.605000 ==>IsSwitchingOccur() prevPhis[ 0]=11.819033, nextPhis[ 0]=11.806676 prevPhis[ 1]=-5.819033, nextPhis[ 1]=-5.806676 <==IsSwitchingOccur() T = 18.605000 Tnext = 18.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.610000 pESO->GetIndependentVar(): 18.610000 ==>IsSwitchingOccur() prevPhis[ 0]=11.806676, nextPhis[ 0]=11.794245 prevPhis[ 1]=-5.806676, nextPhis[ 1]=-5.794245 <==IsSwitchingOccur() T = 18.610000 Tnext = 18.615000 Time: 1.86100e+01 states: [ 2.43049e+00 -4.97227e-01] derivs: [ -4.97469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.615000 pESO->GetIndependentVar(): 18.615000 ==>IsSwitchingOccur() prevPhis[ 0]=11.794245, nextPhis[ 0]=11.781739 prevPhis[ 1]=-5.794245, nextPhis[ 1]=-5.781739 <==IsSwitchingOccur() T = 18.615000 Tnext = 18.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.620000 pESO->GetIndependentVar(): 18.620000 ==>IsSwitchingOccur() prevPhis[ 0]=11.781739, nextPhis[ 0]=11.769158 prevPhis[ 1]=-5.781739, nextPhis[ 1]=-5.769158 <==IsSwitchingOccur() T = 18.620000 Tnext = 18.625000 Time: 1.86200e+01 states: [ 2.42546e+00 -5.07227e-01] derivs: [ -5.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.625000 pESO->GetIndependentVar(): 18.625000 ==>IsSwitchingOccur() prevPhis[ 0]=11.769158, nextPhis[ 0]=11.756501 prevPhis[ 1]=-5.769158, nextPhis[ 1]=-5.756501 <==IsSwitchingOccur() T = 18.625000 Tnext = 18.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.630000 pESO->GetIndependentVar(): 18.630000 ==>IsSwitchingOccur() prevPhis[ 0]=11.756501, nextPhis[ 0]=11.743770 prevPhis[ 1]=-5.756501, nextPhis[ 1]=-5.743770 <==IsSwitchingOccur() T = 18.630000 Tnext = 18.635000 Time: 1.86300e+01 states: [ 2.42033e+00 -5.17227e-01] derivs: [ -5.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.635000 pESO->GetIndependentVar(): 18.635000 ==>IsSwitchingOccur() prevPhis[ 0]=11.743770, nextPhis[ 0]=11.730964 prevPhis[ 1]=-5.743770, nextPhis[ 1]=-5.730964 <==IsSwitchingOccur() T = 18.635000 Tnext = 18.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.640000 pESO->GetIndependentVar(): 18.640000 ==>IsSwitchingOccur() prevPhis[ 0]=11.730964, nextPhis[ 0]=11.718083 prevPhis[ 1]=-5.730964, nextPhis[ 1]=-5.718083 <==IsSwitchingOccur() T = 18.640000 Tnext = 18.645000 Time: 1.86400e+01 states: [ 2.41510e+00 -5.27227e-01] derivs: [ -5.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.645000 pESO->GetIndependentVar(): 18.645000 ==>IsSwitchingOccur() prevPhis[ 0]=11.718083, nextPhis[ 0]=11.705126 prevPhis[ 1]=-5.718083, nextPhis[ 1]=-5.705126 <==IsSwitchingOccur() T = 18.645000 Tnext = 18.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.650000 pESO->GetIndependentVar(): 18.650000 ==>IsSwitchingOccur() prevPhis[ 0]=11.705126, nextPhis[ 0]=11.692095 prevPhis[ 1]=-5.705126, nextPhis[ 1]=-5.692095 <==IsSwitchingOccur() T = 18.650000 Tnext = 18.655000 Time: 1.86500e+01 states: [ 2.40977e+00 -5.37227e-01] derivs: [ -5.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.655000 pESO->GetIndependentVar(): 18.655000 ==>IsSwitchingOccur() prevPhis[ 0]=11.692095, nextPhis[ 0]=11.678989 prevPhis[ 1]=-5.692095, nextPhis[ 1]=-5.678989 <==IsSwitchingOccur() T = 18.655000 Tnext = 18.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.660000 pESO->GetIndependentVar(): 18.660000 ==>IsSwitchingOccur() prevPhis[ 0]=11.678989, nextPhis[ 0]=11.665808 prevPhis[ 1]=-5.678989, nextPhis[ 1]=-5.665808 <==IsSwitchingOccur() T = 18.660000 Tnext = 18.665000 Time: 1.86600e+01 states: [ 2.40434e+00 -5.47227e-01] derivs: [ -5.47469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.665000 pESO->GetIndependentVar(): 18.665000 ==>IsSwitchingOccur() prevPhis[ 0]=11.665808, nextPhis[ 0]=11.652551 prevPhis[ 1]=-5.665808, nextPhis[ 1]=-5.652551 <==IsSwitchingOccur() T = 18.665000 Tnext = 18.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.670000 pESO->GetIndependentVar(): 18.670000 ==>IsSwitchingOccur() prevPhis[ 0]=11.652551, nextPhis[ 0]=11.639220 prevPhis[ 1]=-5.652551, nextPhis[ 1]=-5.639220 <==IsSwitchingOccur() T = 18.670000 Tnext = 18.675000 Time: 1.86700e+01 states: [ 2.39882e+00 -5.57227e-01] derivs: [ -5.57469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.675000 pESO->GetIndependentVar(): 18.675000 ==>IsSwitchingOccur() prevPhis[ 0]=11.639220, nextPhis[ 0]=11.625814 prevPhis[ 1]=-5.639220, nextPhis[ 1]=-5.625814 <==IsSwitchingOccur() T = 18.675000 Tnext = 18.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.680000 pESO->GetIndependentVar(): 18.680000 ==>IsSwitchingOccur() prevPhis[ 0]=11.625814, nextPhis[ 0]=11.612333 prevPhis[ 1]=-5.625814, nextPhis[ 1]=-5.612333 <==IsSwitchingOccur() T = 18.680000 Tnext = 18.685000 Time: 1.86800e+01 states: [ 2.39319e+00 -5.67227e-01] derivs: [ -5.67469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.685000 pESO->GetIndependentVar(): 18.685000 ==>IsSwitchingOccur() prevPhis[ 0]=11.612333, nextPhis[ 0]=11.598776 prevPhis[ 1]=-5.612333, nextPhis[ 1]=-5.598776 <==IsSwitchingOccur() T = 18.685000 Tnext = 18.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.690000 pESO->GetIndependentVar(): 18.690000 ==>IsSwitchingOccur() prevPhis[ 0]=11.598776, nextPhis[ 0]=11.585145 prevPhis[ 1]=-5.598776, nextPhis[ 1]=-5.585145 <==IsSwitchingOccur() T = 18.690000 Tnext = 18.695000 Time: 1.86900e+01 states: [ 2.38746e+00 -5.77227e-01] derivs: [ -5.77469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.695000 pESO->GetIndependentVar(): 18.695000 ==>IsSwitchingOccur() prevPhis[ 0]=11.585145, nextPhis[ 0]=11.571439 prevPhis[ 1]=-5.585145, nextPhis[ 1]=-5.571439 <==IsSwitchingOccur() T = 18.695000 Tnext = 18.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.700000 pESO->GetIndependentVar(): 18.700000 ==>IsSwitchingOccur() prevPhis[ 0]=11.571439, nextPhis[ 0]=11.557658 prevPhis[ 1]=-5.571439, nextPhis[ 1]=-5.557658 <==IsSwitchingOccur() T = 18.700000 Tnext = 18.705000 Time: 1.87000e+01 states: [ 2.38163e+00 -5.87227e-01] derivs: [ -5.87469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.705000 pESO->GetIndependentVar(): 18.705000 ==>IsSwitchingOccur() prevPhis[ 0]=11.557658, nextPhis[ 0]=11.543801 prevPhis[ 1]=-5.557658, nextPhis[ 1]=-5.543801 <==IsSwitchingOccur() T = 18.705000 Tnext = 18.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.710000 pESO->GetIndependentVar(): 18.710000 ==>IsSwitchingOccur() prevPhis[ 0]=11.543801, nextPhis[ 0]=11.529870 prevPhis[ 1]=-5.543801, nextPhis[ 1]=-5.529870 <==IsSwitchingOccur() T = 18.710000 Tnext = 18.715000 Time: 1.87100e+01 states: [ 2.37570e+00 -5.97227e-01] derivs: [ -5.97469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.715000 pESO->GetIndependentVar(): 18.715000 ==>IsSwitchingOccur() prevPhis[ 0]=11.529870, nextPhis[ 0]=11.515864 prevPhis[ 1]=-5.529870, nextPhis[ 1]=-5.515864 <==IsSwitchingOccur() T = 18.715000 Tnext = 18.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.720000 pESO->GetIndependentVar(): 18.720000 ==>IsSwitchingOccur() prevPhis[ 0]=11.515864, nextPhis[ 0]=11.501783 prevPhis[ 1]=-5.515864, nextPhis[ 1]=-5.501783 <==IsSwitchingOccur() T = 18.720000 Tnext = 18.725000 Time: 1.87200e+01 states: [ 2.36967e+00 -6.07227e-01] derivs: [ -6.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.725000 pESO->GetIndependentVar(): 18.725000 ==>IsSwitchingOccur() prevPhis[ 0]=11.501783, nextPhis[ 0]=11.487626 prevPhis[ 1]=-5.501783, nextPhis[ 1]=-5.487626 <==IsSwitchingOccur() T = 18.725000 Tnext = 18.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.730000 pESO->GetIndependentVar(): 18.730000 ==>IsSwitchingOccur() prevPhis[ 0]=11.487626, nextPhis[ 0]=11.473395 prevPhis[ 1]=-5.487626, nextPhis[ 1]=-5.473395 <==IsSwitchingOccur() T = 18.730000 Tnext = 18.735000 Time: 1.87300e+01 states: [ 2.36354e+00 -6.17227e-01] derivs: [ -6.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.735000 pESO->GetIndependentVar(): 18.735000 ==>IsSwitchingOccur() prevPhis[ 0]=11.473395, nextPhis[ 0]=11.459089 prevPhis[ 1]=-5.473395, nextPhis[ 1]=-5.459089 <==IsSwitchingOccur() T = 18.735000 Tnext = 18.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.740000 pESO->GetIndependentVar(): 18.740000 ==>IsSwitchingOccur() prevPhis[ 0]=11.459089, nextPhis[ 0]=11.444707 prevPhis[ 1]=-5.459089, nextPhis[ 1]=-5.444707 <==IsSwitchingOccur() T = 18.740000 Tnext = 18.745000 Time: 1.87400e+01 states: [ 2.35731e+00 -6.27227e-01] derivs: [ -6.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.745000 pESO->GetIndependentVar(): 18.745000 ==>IsSwitchingOccur() prevPhis[ 0]=11.444707, nextPhis[ 0]=11.430251 prevPhis[ 1]=-5.444707, nextPhis[ 1]=-5.430251 <==IsSwitchingOccur() T = 18.745000 Tnext = 18.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.750000 pESO->GetIndependentVar(): 18.750000 ==>IsSwitchingOccur() prevPhis[ 0]=11.430251, nextPhis[ 0]=11.415720 prevPhis[ 1]=-5.430251, nextPhis[ 1]=-5.415720 <==IsSwitchingOccur() T = 18.750000 Tnext = 18.755000 Time: 1.87500e+01 states: [ 2.35098e+00 -6.37227e-01] derivs: [ -6.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.755000 pESO->GetIndependentVar(): 18.755000 ==>IsSwitchingOccur() prevPhis[ 0]=11.415720, nextPhis[ 0]=11.401114 prevPhis[ 1]=-5.415720, nextPhis[ 1]=-5.401114 <==IsSwitchingOccur() T = 18.755000 Tnext = 18.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.760000 pESO->GetIndependentVar(): 18.760000 ==>IsSwitchingOccur() prevPhis[ 0]=11.401114, nextPhis[ 0]=11.386432 prevPhis[ 1]=-5.401114, nextPhis[ 1]=-5.386432 <==IsSwitchingOccur() T = 18.760000 Tnext = 18.765000 Time: 1.87600e+01 states: [ 2.34455e+00 -6.47227e-01] derivs: [ -6.47469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.765000 pESO->GetIndependentVar(): 18.765000 ==>IsSwitchingOccur() prevPhis[ 0]=11.386432, nextPhis[ 0]=11.371676 prevPhis[ 1]=-5.386432, nextPhis[ 1]=-5.371676 <==IsSwitchingOccur() T = 18.765000 Tnext = 18.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.770000 pESO->GetIndependentVar(): 18.770000 ==>IsSwitchingOccur() prevPhis[ 0]=11.371676, nextPhis[ 0]=11.356845 prevPhis[ 1]=-5.371676, nextPhis[ 1]=-5.356845 <==IsSwitchingOccur() T = 18.770000 Tnext = 18.775000 Time: 1.87700e+01 states: [ 2.33802e+00 -6.57227e-01] derivs: [ -6.57469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.775000 pESO->GetIndependentVar(): 18.775000 ==>IsSwitchingOccur() prevPhis[ 0]=11.356845, nextPhis[ 0]=11.341939 prevPhis[ 1]=-5.356845, nextPhis[ 1]=-5.341939 <==IsSwitchingOccur() T = 18.775000 Tnext = 18.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.780000 pESO->GetIndependentVar(): 18.780000 ==>IsSwitchingOccur() prevPhis[ 0]=11.341939, nextPhis[ 0]=11.326957 prevPhis[ 1]=-5.341939, nextPhis[ 1]=-5.326957 <==IsSwitchingOccur() T = 18.780000 Tnext = 18.785000 Time: 1.87800e+01 states: [ 2.33139e+00 -6.67227e-01] derivs: [ -6.67469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.785000 pESO->GetIndependentVar(): 18.785000 ==>IsSwitchingOccur() prevPhis[ 0]=11.326957, nextPhis[ 0]=11.311901 prevPhis[ 1]=-5.326957, nextPhis[ 1]=-5.311901 <==IsSwitchingOccur() T = 18.785000 Tnext = 18.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.790000 pESO->GetIndependentVar(): 18.790000 ==>IsSwitchingOccur() prevPhis[ 0]=11.311901, nextPhis[ 0]=11.296770 prevPhis[ 1]=-5.311901, nextPhis[ 1]=-5.296770 <==IsSwitchingOccur() T = 18.790000 Tnext = 18.795000 Time: 1.87900e+01 states: [ 2.32467e+00 -6.77227e-01] derivs: [ -6.77469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.795000 pESO->GetIndependentVar(): 18.795000 ==>IsSwitchingOccur() prevPhis[ 0]=11.296770, nextPhis[ 0]=11.281564 prevPhis[ 1]=-5.296770, nextPhis[ 1]=-5.281564 <==IsSwitchingOccur() T = 18.795000 Tnext = 18.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.800000 pESO->GetIndependentVar(): 18.800000 ==>IsSwitchingOccur() prevPhis[ 0]=11.281564, nextPhis[ 0]=11.266282 prevPhis[ 1]=-5.281564, nextPhis[ 1]=-5.266282 <==IsSwitchingOccur() T = 18.800000 Tnext = 18.805000 Time: 1.88000e+01 states: [ 2.31784e+00 -6.87227e-01] derivs: [ -6.87469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.805000 pESO->GetIndependentVar(): 18.805000 ==>IsSwitchingOccur() prevPhis[ 0]=11.266282, nextPhis[ 0]=11.250926 prevPhis[ 1]=-5.266282, nextPhis[ 1]=-5.250926 <==IsSwitchingOccur() T = 18.805000 Tnext = 18.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.810000 pESO->GetIndependentVar(): 18.810000 ==>IsSwitchingOccur() prevPhis[ 0]=11.250926, nextPhis[ 0]=11.235495 prevPhis[ 1]=-5.250926, nextPhis[ 1]=-5.235495 <==IsSwitchingOccur() T = 18.810000 Tnext = 18.815000 Time: 1.88100e+01 states: [ 2.31091e+00 -6.97227e-01] derivs: [ -6.97469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.815000 pESO->GetIndependentVar(): 18.815000 ==>IsSwitchingOccur() prevPhis[ 0]=11.235495, nextPhis[ 0]=11.219989 prevPhis[ 1]=-5.235495, nextPhis[ 1]=-5.219989 <==IsSwitchingOccur() T = 18.815000 Tnext = 18.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.820000 pESO->GetIndependentVar(): 18.820000 ==>IsSwitchingOccur() prevPhis[ 0]=11.219989, nextPhis[ 0]=11.204407 prevPhis[ 1]=-5.219989, nextPhis[ 1]=-5.204407 <==IsSwitchingOccur() T = 18.820000 Tnext = 18.825000 Time: 1.88200e+01 states: [ 2.30388e+00 -7.07227e-01] derivs: [ -7.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.825000 pESO->GetIndependentVar(): 18.825000 ==>IsSwitchingOccur() prevPhis[ 0]=11.204407, nextPhis[ 0]=11.188751 prevPhis[ 1]=-5.204407, nextPhis[ 1]=-5.188751 <==IsSwitchingOccur() T = 18.825000 Tnext = 18.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.830000 pESO->GetIndependentVar(): 18.830000 ==>IsSwitchingOccur() prevPhis[ 0]=11.188751, nextPhis[ 0]=11.173020 prevPhis[ 1]=-5.188751, nextPhis[ 1]=-5.173020 <==IsSwitchingOccur() T = 18.830000 Tnext = 18.835000 Time: 1.88300e+01 states: [ 2.29675e+00 -7.17227e-01] derivs: [ -7.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.835000 pESO->GetIndependentVar(): 18.835000 ==>IsSwitchingOccur() prevPhis[ 0]=11.173020, nextPhis[ 0]=11.157214 prevPhis[ 1]=-5.173020, nextPhis[ 1]=-5.157214 <==IsSwitchingOccur() T = 18.835000 Tnext = 18.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.840000 pESO->GetIndependentVar(): 18.840000 ==>IsSwitchingOccur() prevPhis[ 0]=11.157214, nextPhis[ 0]=11.141332 prevPhis[ 1]=-5.157214, nextPhis[ 1]=-5.141332 <==IsSwitchingOccur() T = 18.840000 Tnext = 18.845000 Time: 1.88400e+01 states: [ 2.28952e+00 -7.27227e-01] derivs: [ -7.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.845000 pESO->GetIndependentVar(): 18.845000 ==>IsSwitchingOccur() prevPhis[ 0]=11.141332, nextPhis[ 0]=11.125376 prevPhis[ 1]=-5.141332, nextPhis[ 1]=-5.125376 <==IsSwitchingOccur() T = 18.845000 Tnext = 18.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.850000 pESO->GetIndependentVar(): 18.850000 ==>IsSwitchingOccur() prevPhis[ 0]=11.125376, nextPhis[ 0]=11.109345 prevPhis[ 1]=-5.125376, nextPhis[ 1]=-5.109345 <==IsSwitchingOccur() T = 18.850000 Tnext = 18.855000 Time: 1.88500e+01 states: [ 2.28219e+00 -7.37227e-01] derivs: [ -7.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.855000 pESO->GetIndependentVar(): 18.855000 ==>IsSwitchingOccur() prevPhis[ 0]=11.109345, nextPhis[ 0]=11.093239 prevPhis[ 1]=-5.109345, nextPhis[ 1]=-5.093239 <==IsSwitchingOccur() T = 18.855000 Tnext = 18.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.860000 pESO->GetIndependentVar(): 18.860000 ==>IsSwitchingOccur() prevPhis[ 0]=11.093239, nextPhis[ 0]=11.077057 prevPhis[ 1]=-5.093239, nextPhis[ 1]=-5.077057 <==IsSwitchingOccur() T = 18.860000 Tnext = 18.865000 Time: 1.88600e+01 states: [ 2.27476e+00 -7.47227e-01] derivs: [ -7.47469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.865000 pESO->GetIndependentVar(): 18.865000 ==>IsSwitchingOccur() prevPhis[ 0]=11.077057, nextPhis[ 0]=11.060801 prevPhis[ 1]=-5.077057, nextPhis[ 1]=-5.060801 <==IsSwitchingOccur() T = 18.865000 Tnext = 18.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.870000 pESO->GetIndependentVar(): 18.870000 ==>IsSwitchingOccur() prevPhis[ 0]=11.060801, nextPhis[ 0]=11.044470 prevPhis[ 1]=-5.060801, nextPhis[ 1]=-5.044470 <==IsSwitchingOccur() T = 18.870000 Tnext = 18.875000 Time: 1.88700e+01 states: [ 2.26723e+00 -7.57227e-01] derivs: [ -7.57469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.875000 pESO->GetIndependentVar(): 18.875000 ==>IsSwitchingOccur() prevPhis[ 0]=11.044470, nextPhis[ 0]=11.028064 prevPhis[ 1]=-5.044470, nextPhis[ 1]=-5.028064 <==IsSwitchingOccur() T = 18.875000 Tnext = 18.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.880000 pESO->GetIndependentVar(): 18.880000 ==>IsSwitchingOccur() prevPhis[ 0]=11.028064, nextPhis[ 0]=11.011582 prevPhis[ 1]=-5.028064, nextPhis[ 1]=-5.011582 <==IsSwitchingOccur() T = 18.880000 Tnext = 18.885000 Time: 1.88800e+01 states: [ 2.25960e+00 -7.67227e-01] derivs: [ -7.67469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.885000 pESO->GetIndependentVar(): 18.885000 ==>IsSwitchingOccur() prevPhis[ 0]=11.011582, nextPhis[ 0]=10.995026 prevPhis[ 1]=-5.011582, nextPhis[ 1]=-4.995026 <==IsSwitchingOccur() T = 18.885000 Tnext = 18.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.890000 pESO->GetIndependentVar(): 18.890000 ==>IsSwitchingOccur() prevPhis[ 0]=10.995026, nextPhis[ 0]=10.978395 prevPhis[ 1]=-4.995026, nextPhis[ 1]=-4.978395 <==IsSwitchingOccur() T = 18.890000 Tnext = 18.895000 Time: 1.88900e+01 states: [ 2.25187e+00 -7.77227e-01] derivs: [ -7.77469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.895000 pESO->GetIndependentVar(): 18.895000 ==>IsSwitchingOccur() prevPhis[ 0]=10.978395, nextPhis[ 0]=10.961689 prevPhis[ 1]=-4.978395, nextPhis[ 1]=-4.961689 <==IsSwitchingOccur() T = 18.895000 Tnext = 18.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.900000 pESO->GetIndependentVar(): 18.900000 ==>IsSwitchingOccur() prevPhis[ 0]=10.961689, nextPhis[ 0]=10.944907 prevPhis[ 1]=-4.961689, nextPhis[ 1]=-4.944907 <==IsSwitchingOccur() T = 18.900000 Tnext = 18.905000 Time: 1.89000e+01 states: [ 2.24404e+00 -7.87227e-01] derivs: [ -7.87469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.905000 pESO->GetIndependentVar(): 18.905000 ==>IsSwitchingOccur() prevPhis[ 0]=10.944907, nextPhis[ 0]=10.928051 prevPhis[ 1]=-4.944907, nextPhis[ 1]=-4.928051 <==IsSwitchingOccur() T = 18.905000 Tnext = 18.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.910000 pESO->GetIndependentVar(): 18.910000 ==>IsSwitchingOccur() prevPhis[ 0]=10.928051, nextPhis[ 0]=10.911120 prevPhis[ 1]=-4.928051, nextPhis[ 1]=-4.911120 <==IsSwitchingOccur() T = 18.910000 Tnext = 18.915000 Time: 1.89100e+01 states: [ 2.23612e+00 -7.97227e-01] derivs: [ -7.97469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.915000 pESO->GetIndependentVar(): 18.915000 ==>IsSwitchingOccur() prevPhis[ 0]=10.911120, nextPhis[ 0]=10.894114 prevPhis[ 1]=-4.911120, nextPhis[ 1]=-4.894114 <==IsSwitchingOccur() T = 18.915000 Tnext = 18.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.920000 pESO->GetIndependentVar(): 18.920000 ==>IsSwitchingOccur() prevPhis[ 0]=10.894114, nextPhis[ 0]=10.877032 prevPhis[ 1]=-4.894114, nextPhis[ 1]=-4.877032 <==IsSwitchingOccur() T = 18.920000 Tnext = 18.925000 Time: 1.89200e+01 states: [ 2.22809e+00 -8.07227e-01] derivs: [ -8.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.925000 pESO->GetIndependentVar(): 18.925000 ==>IsSwitchingOccur() prevPhis[ 0]=10.877032, nextPhis[ 0]=10.859876 prevPhis[ 1]=-4.877032, nextPhis[ 1]=-4.859876 <==IsSwitchingOccur() T = 18.925000 Tnext = 18.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.930000 pESO->GetIndependentVar(): 18.930000 ==>IsSwitchingOccur() prevPhis[ 0]=10.859876, nextPhis[ 0]=10.842645 prevPhis[ 1]=-4.859876, nextPhis[ 1]=-4.842645 <==IsSwitchingOccur() T = 18.930000 Tnext = 18.935000 Time: 1.89300e+01 states: [ 2.21996e+00 -8.17227e-01] derivs: [ -8.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.935000 pESO->GetIndependentVar(): 18.935000 ==>IsSwitchingOccur() prevPhis[ 0]=10.842645, nextPhis[ 0]=10.825339 prevPhis[ 1]=-4.842645, nextPhis[ 1]=-4.825339 <==IsSwitchingOccur() T = 18.935000 Tnext = 18.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.940000 pESO->GetIndependentVar(): 18.940000 ==>IsSwitchingOccur() prevPhis[ 0]=10.825339, nextPhis[ 0]=10.807957 prevPhis[ 1]=-4.825339, nextPhis[ 1]=-4.807957 <==IsSwitchingOccur() T = 18.940000 Tnext = 18.945000 Time: 1.89400e+01 states: [ 2.21173e+00 -8.27227e-01] derivs: [ -8.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.945000 pESO->GetIndependentVar(): 18.945000 ==>IsSwitchingOccur() prevPhis[ 0]=10.807957, nextPhis[ 0]=10.790501 prevPhis[ 1]=-4.807957, nextPhis[ 1]=-4.790501 <==IsSwitchingOccur() T = 18.945000 Tnext = 18.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.950000 pESO->GetIndependentVar(): 18.950000 ==>IsSwitchingOccur() prevPhis[ 0]=10.790501, nextPhis[ 0]=10.772970 prevPhis[ 1]=-4.790501, nextPhis[ 1]=-4.772970 <==IsSwitchingOccur() T = 18.950000 Tnext = 18.955000 Time: 1.89500e+01 states: [ 2.20340e+00 -8.37227e-01] derivs: [ -8.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.955000 pESO->GetIndependentVar(): 18.955000 ==>IsSwitchingOccur() prevPhis[ 0]=10.772970, nextPhis[ 0]=10.755364 prevPhis[ 1]=-4.772970, nextPhis[ 1]=-4.755364 <==IsSwitchingOccur() T = 18.955000 Tnext = 18.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.960000 pESO->GetIndependentVar(): 18.960000 ==>IsSwitchingOccur() prevPhis[ 0]=10.755364, nextPhis[ 0]=10.737682 prevPhis[ 1]=-4.755364, nextPhis[ 1]=-4.737682 <==IsSwitchingOccur() T = 18.960000 Tnext = 18.965000 Time: 1.89600e+01 states: [ 2.19497e+00 -8.47227e-01] derivs: [ -8.47469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.965000 pESO->GetIndependentVar(): 18.965000 ==>IsSwitchingOccur() prevPhis[ 0]=10.737682, nextPhis[ 0]=10.719926 prevPhis[ 1]=-4.737682, nextPhis[ 1]=-4.719926 <==IsSwitchingOccur() T = 18.965000 Tnext = 18.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.970000 pESO->GetIndependentVar(): 18.970000 ==>IsSwitchingOccur() prevPhis[ 0]=10.719926, nextPhis[ 0]=10.702095 prevPhis[ 1]=-4.719926, nextPhis[ 1]=-4.702095 <==IsSwitchingOccur() T = 18.970000 Tnext = 18.975000 Time: 1.89700e+01 states: [ 2.18644e+00 -8.57227e-01] derivs: [ -8.57469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.975000 pESO->GetIndependentVar(): 18.975000 ==>IsSwitchingOccur() prevPhis[ 0]=10.702095, nextPhis[ 0]=10.684188 prevPhis[ 1]=-4.702095, nextPhis[ 1]=-4.684188 <==IsSwitchingOccur() T = 18.975000 Tnext = 18.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.980000 pESO->GetIndependentVar(): 18.980000 ==>IsSwitchingOccur() prevPhis[ 0]=10.684188, nextPhis[ 0]=10.666207 prevPhis[ 1]=-4.684188, nextPhis[ 1]=-4.666207 <==IsSwitchingOccur() T = 18.980000 Tnext = 18.985000 Time: 1.89800e+01 states: [ 2.17781e+00 -8.67227e-01] derivs: [ -8.67469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.985000 pESO->GetIndependentVar(): 18.985000 ==>IsSwitchingOccur() prevPhis[ 0]=10.666207, nextPhis[ 0]=10.648151 prevPhis[ 1]=-4.666207, nextPhis[ 1]=-4.648151 <==IsSwitchingOccur() T = 18.985000 Tnext = 18.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.990000 pESO->GetIndependentVar(): 18.990000 ==>IsSwitchingOccur() prevPhis[ 0]=10.648151, nextPhis[ 0]=10.630020 prevPhis[ 1]=-4.648151, nextPhis[ 1]=-4.630020 <==IsSwitchingOccur() T = 18.990000 Tnext = 18.995000 Time: 1.89900e+01 states: [ 2.16908e+00 -8.77227e-01] derivs: [ -8.77469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 18.995000 pESO->GetIndependentVar(): 18.995000 ==>IsSwitchingOccur() prevPhis[ 0]=10.630020, nextPhis[ 0]=10.611813 prevPhis[ 1]=-4.630020, nextPhis[ 1]=-4.611813 <==IsSwitchingOccur() T = 18.995000 Tnext = 19.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.000000 pESO->GetIndependentVar(): 19.000000 ==>IsSwitchingOccur() prevPhis[ 0]=10.611813, nextPhis[ 0]=10.593532 prevPhis[ 1]=-4.611813, nextPhis[ 1]=-4.593532 <==IsSwitchingOccur() T = 19.000000 Tnext = 19.005000 Time: 1.90000e+01 states: [ 2.16025e+00 -8.87227e-01] derivs: [ -8.87469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.005000 pESO->GetIndependentVar(): 19.005000 ==>IsSwitchingOccur() prevPhis[ 0]=10.593532, nextPhis[ 0]=10.575176 prevPhis[ 1]=-4.593532, nextPhis[ 1]=-4.575176 <==IsSwitchingOccur() T = 19.005000 Tnext = 19.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.010000 pESO->GetIndependentVar(): 19.010000 ==>IsSwitchingOccur() prevPhis[ 0]=10.575176, nextPhis[ 0]=10.556745 prevPhis[ 1]=-4.575176, nextPhis[ 1]=-4.556745 <==IsSwitchingOccur() T = 19.010000 Tnext = 19.015000 Time: 1.90100e+01 states: [ 2.15132e+00 -8.97227e-01] derivs: [ -8.97469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.015000 pESO->GetIndependentVar(): 19.015000 ==>IsSwitchingOccur() prevPhis[ 0]=10.556745, nextPhis[ 0]=10.538238 prevPhis[ 1]=-4.556745, nextPhis[ 1]=-4.538238 <==IsSwitchingOccur() T = 19.015000 Tnext = 19.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.020000 pESO->GetIndependentVar(): 19.020000 ==>IsSwitchingOccur() prevPhis[ 0]=10.538238, nextPhis[ 0]=10.519657 prevPhis[ 1]=-4.538238, nextPhis[ 1]=-4.519657 <==IsSwitchingOccur() T = 19.020000 Tnext = 19.025000 Time: 1.90200e+01 states: [ 2.14229e+00 -9.07227e-01] derivs: [ -9.07469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.025000 pESO->GetIndependentVar(): 19.025000 ==>IsSwitchingOccur() prevPhis[ 0]=10.519657, nextPhis[ 0]=10.501001 prevPhis[ 1]=-4.519657, nextPhis[ 1]=-4.501001 <==IsSwitchingOccur() T = 19.025000 Tnext = 19.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.030000 pESO->GetIndependentVar(): 19.030000 ==>IsSwitchingOccur() prevPhis[ 0]=10.501001, nextPhis[ 0]=10.482270 prevPhis[ 1]=-4.501001, nextPhis[ 1]=-4.482270 <==IsSwitchingOccur() T = 19.030000 Tnext = 19.035000 Time: 1.90300e+01 states: [ 2.13317e+00 -9.17227e-01] derivs: [ -9.17469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.035000 pESO->GetIndependentVar(): 19.035000 ==>IsSwitchingOccur() prevPhis[ 0]=10.482270, nextPhis[ 0]=10.463463 prevPhis[ 1]=-4.482270, nextPhis[ 1]=-4.463463 <==IsSwitchingOccur() T = 19.035000 Tnext = 19.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.040000 pESO->GetIndependentVar(): 19.040000 ==>IsSwitchingOccur() prevPhis[ 0]=10.463463, nextPhis[ 0]=10.444582 prevPhis[ 1]=-4.463463, nextPhis[ 1]=-4.444582 <==IsSwitchingOccur() T = 19.040000 Tnext = 19.045000 Time: 1.90400e+01 states: [ 2.12394e+00 -9.27227e-01] derivs: [ -9.27469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.045000 pESO->GetIndependentVar(): 19.045000 ==>IsSwitchingOccur() prevPhis[ 0]=10.444582, nextPhis[ 0]=10.425626 prevPhis[ 1]=-4.444582, nextPhis[ 1]=-4.425626 <==IsSwitchingOccur() T = 19.045000 Tnext = 19.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.050000 pESO->GetIndependentVar(): 19.050000 ==>IsSwitchingOccur() prevPhis[ 0]=10.425626, nextPhis[ 0]=10.406595 prevPhis[ 1]=-4.425626, nextPhis[ 1]=-4.406595 <==IsSwitchingOccur() T = 19.050000 Tnext = 19.055000 Time: 1.90500e+01 states: [ 2.11461e+00 -9.37227e-01] derivs: [ -9.37469e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.055000 pESO->GetIndependentVar(): 19.055000 ==>IsSwitchingOccur() prevPhis[ 0]=10.406595, nextPhis[ 0]=10.387488 prevPhis[ 1]=-4.406595, nextPhis[ 1]=-4.387488 <==IsSwitchingOccur() T = 19.055000 Tnext = 19.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.060000 pESO->GetIndependentVar(): 19.060000 ==>IsSwitchingOccur() prevPhis[ 0]=10.387488, nextPhis[ 0]=10.368311 prevPhis[ 1]=-4.387488, nextPhis[ 1]=-4.368311 <==IsSwitchingOccur() T = 19.060000 Tnext = 19.065000 Time: 1.90600e+01 states: [ 2.10518e+00 -9.47227e-01] derivs: [ -9.47461e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.065000 pESO->GetIndependentVar(): 19.065000 ==>IsSwitchingOccur() prevPhis[ 0]=10.368311, nextPhis[ 0]=10.349059 prevPhis[ 1]=-4.368311, nextPhis[ 1]=-4.349059 <==IsSwitchingOccur() T = 19.065000 Tnext = 19.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.070000 pESO->GetIndependentVar(): 19.070000 ==>IsSwitchingOccur() prevPhis[ 0]=10.349059, nextPhis[ 0]=10.329732 prevPhis[ 1]=-4.349059, nextPhis[ 1]=-4.329732 <==IsSwitchingOccur() T = 19.070000 Tnext = 19.075000 Time: 1.90700e+01 states: [ 2.09565e+00 -9.57227e-01] derivs: [ -9.57461e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.075000 pESO->GetIndependentVar(): 19.075000 ==>IsSwitchingOccur() prevPhis[ 0]=10.329732, nextPhis[ 0]=10.310330 prevPhis[ 1]=-4.329732, nextPhis[ 1]=-4.310330 <==IsSwitchingOccur() T = 19.075000 Tnext = 19.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.080000 pESO->GetIndependentVar(): 19.080000 ==>IsSwitchingOccur() prevPhis[ 0]=10.310330, nextPhis[ 0]=10.290853 prevPhis[ 1]=-4.310330, nextPhis[ 1]=-4.290853 <==IsSwitchingOccur() T = 19.080000 Tnext = 19.085000 Time: 1.90800e+01 states: [ 2.08603e+00 -9.67227e-01] derivs: [ -9.67461e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.085000 pESO->GetIndependentVar(): 19.085000 ==>IsSwitchingOccur() prevPhis[ 0]=10.290853, nextPhis[ 0]=10.271300 prevPhis[ 1]=-4.290853, nextPhis[ 1]=-4.271300 <==IsSwitchingOccur() T = 19.085000 Tnext = 19.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.090000 pESO->GetIndependentVar(): 19.090000 ==>IsSwitchingOccur() prevPhis[ 0]=10.271300, nextPhis[ 0]=10.251673 prevPhis[ 1]=-4.271300, nextPhis[ 1]=-4.251673 <==IsSwitchingOccur() T = 19.090000 Tnext = 19.095000 Time: 1.90900e+01 states: [ 2.07630e+00 -9.77227e-01] derivs: [ -9.77461e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.095000 pESO->GetIndependentVar(): 19.095000 ==>IsSwitchingOccur() prevPhis[ 0]=10.251673, nextPhis[ 0]=10.231971 prevPhis[ 1]=-4.251673, nextPhis[ 1]=-4.231971 <==IsSwitchingOccur() T = 19.095000 Tnext = 19.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.100000 pESO->GetIndependentVar(): 19.100000 ==>IsSwitchingOccur() prevPhis[ 0]=10.231971, nextPhis[ 0]=10.212194 prevPhis[ 1]=-4.231971, nextPhis[ 1]=-4.212194 <==IsSwitchingOccur() T = 19.100000 Tnext = 19.105000 Time: 1.91000e+01 states: [ 2.06647e+00 -9.87227e-01] derivs: [ -9.87461e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.105000 pESO->GetIndependentVar(): 19.105000 ==>IsSwitchingOccur() prevPhis[ 0]=10.212194, nextPhis[ 0]=10.192342 prevPhis[ 1]=-4.212194, nextPhis[ 1]=-4.192342 <==IsSwitchingOccur() T = 19.105000 Tnext = 19.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.110000 pESO->GetIndependentVar(): 19.110000 ==>IsSwitchingOccur() prevPhis[ 0]=10.192342, nextPhis[ 0]=10.172414 prevPhis[ 1]=-4.192342, nextPhis[ 1]=-4.172414 <==IsSwitchingOccur() T = 19.110000 Tnext = 19.115000 Time: 1.91100e+01 states: [ 2.05655e+00 -9.97227e-01] derivs: [ -9.97461e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.115000 pESO->GetIndependentVar(): 19.115000 ==>IsSwitchingOccur() prevPhis[ 0]=10.172414, nextPhis[ 0]=10.152412 prevPhis[ 1]=-4.172414, nextPhis[ 1]=-4.152412 <==IsSwitchingOccur() T = 19.115000 Tnext = 19.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.120000 pESO->GetIndependentVar(): 19.120000 ==>IsSwitchingOccur() prevPhis[ 0]=10.152412, nextPhis[ 0]=10.132335 prevPhis[ 1]=-4.152412, nextPhis[ 1]=-4.132335 <==IsSwitchingOccur() T = 19.120000 Tnext = 19.125000 Time: 1.91200e+01 states: [ 2.04652e+00 -1.00723e+00] derivs: [ -1.00746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.125000 pESO->GetIndependentVar(): 19.125000 ==>IsSwitchingOccur() prevPhis[ 0]=10.132335, nextPhis[ 0]=10.112183 prevPhis[ 1]=-4.132335, nextPhis[ 1]=-4.112183 <==IsSwitchingOccur() T = 19.125000 Tnext = 19.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.130000 pESO->GetIndependentVar(): 19.130000 ==>IsSwitchingOccur() prevPhis[ 0]=10.112183, nextPhis[ 0]=10.091956 prevPhis[ 1]=-4.112183, nextPhis[ 1]=-4.091956 <==IsSwitchingOccur() T = 19.130000 Tnext = 19.135000 Time: 1.91300e+01 states: [ 2.03639e+00 -1.01723e+00] derivs: [ -1.01746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.135000 pESO->GetIndependentVar(): 19.135000 ==>IsSwitchingOccur() prevPhis[ 0]=10.091956, nextPhis[ 0]=10.071654 prevPhis[ 1]=-4.091956, nextPhis[ 1]=-4.071654 <==IsSwitchingOccur() T = 19.135000 Tnext = 19.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.140000 pESO->GetIndependentVar(): 19.140000 ==>IsSwitchingOccur() prevPhis[ 0]=10.071654, nextPhis[ 0]=10.051276 prevPhis[ 1]=-4.071654, nextPhis[ 1]=-4.051276 <==IsSwitchingOccur() T = 19.140000 Tnext = 19.145000 Time: 1.91400e+01 states: [ 2.02617e+00 -1.02723e+00] derivs: [ -1.02746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.145000 pESO->GetIndependentVar(): 19.145000 ==>IsSwitchingOccur() prevPhis[ 0]=10.051276, nextPhis[ 0]=10.030824 prevPhis[ 1]=-4.051276, nextPhis[ 1]=-4.030824 <==IsSwitchingOccur() T = 19.145000 Tnext = 19.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.150000 pESO->GetIndependentVar(): 19.150000 ==>IsSwitchingOccur() prevPhis[ 0]=10.030824, nextPhis[ 0]=10.010297 prevPhis[ 1]=-4.030824, nextPhis[ 1]=-4.010297 <==IsSwitchingOccur() T = 19.150000 Tnext = 19.155000 Time: 1.91500e+01 states: [ 2.01584e+00 -1.03723e+00] derivs: [ -1.03746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.155000 pESO->GetIndependentVar(): 19.155000 ==>IsSwitchingOccur() prevPhis[ 0]=10.010297, nextPhis[ 0]=9.989695 prevPhis[ 1]=-4.010297, nextPhis[ 1]=-3.989695 <==IsSwitchingOccur() T = 19.155000 Tnext = 19.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.160000 pESO->GetIndependentVar(): 19.160000 ==>IsSwitchingOccur() prevPhis[ 0]=9.989695, nextPhis[ 0]=9.969018 prevPhis[ 1]=-3.989695, nextPhis[ 1]=-3.969018 <==IsSwitchingOccur() T = 19.160000 Tnext = 19.165000 Time: 1.91600e+01 states: [ 2.00541e+00 -1.04723e+00] derivs: [ -1.04746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.165000 pESO->GetIndependentVar(): 19.165000 ==>IsSwitchingOccur() prevPhis[ 0]=9.969018, nextPhis[ 0]=9.948266 prevPhis[ 1]=-3.969018, nextPhis[ 1]=-3.948266 <==IsSwitchingOccur() T = 19.165000 Tnext = 19.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.170000 pESO->GetIndependentVar(): 19.170000 ==>IsSwitchingOccur() prevPhis[ 0]=9.948266, nextPhis[ 0]=9.927438 prevPhis[ 1]=-3.948266, nextPhis[ 1]=-3.927438 <==IsSwitchingOccur() T = 19.170000 Tnext = 19.175000 Time: 1.91700e+01 states: [ 1.99489e+00 -1.05723e+00] derivs: [ -1.05746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.175000 pESO->GetIndependentVar(): 19.175000 ==>IsSwitchingOccur() prevPhis[ 0]=9.927438, nextPhis[ 0]=9.906536 prevPhis[ 1]=-3.927438, nextPhis[ 1]=-3.906536 <==IsSwitchingOccur() T = 19.175000 Tnext = 19.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.180000 pESO->GetIndependentVar(): 19.180000 ==>IsSwitchingOccur() prevPhis[ 0]=9.906536, nextPhis[ 0]=9.885559 prevPhis[ 1]=-3.906536, nextPhis[ 1]=-3.885559 <==IsSwitchingOccur() T = 19.180000 Tnext = 19.185000 Time: 1.91800e+01 states: [ 1.98426e+00 -1.06723e+00] derivs: [ -1.06746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.185000 pESO->GetIndependentVar(): 19.185000 ==>IsSwitchingOccur() prevPhis[ 0]=9.885559, nextPhis[ 0]=9.864507 prevPhis[ 1]=-3.885559, nextPhis[ 1]=-3.864507 <==IsSwitchingOccur() T = 19.185000 Tnext = 19.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.190000 pESO->GetIndependentVar(): 19.190000 ==>IsSwitchingOccur() prevPhis[ 0]=9.864507, nextPhis[ 0]=9.843380 prevPhis[ 1]=-3.864507, nextPhis[ 1]=-3.843380 <==IsSwitchingOccur() T = 19.190000 Tnext = 19.195000 Time: 1.91900e+01 states: [ 1.97354e+00 -1.07723e+00] derivs: [ -1.07746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.195000 pESO->GetIndependentVar(): 19.195000 ==>IsSwitchingOccur() prevPhis[ 0]=9.843380, nextPhis[ 0]=9.822177 prevPhis[ 1]=-3.843380, nextPhis[ 1]=-3.822177 <==IsSwitchingOccur() T = 19.195000 Tnext = 19.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.200000 pESO->GetIndependentVar(): 19.200000 ==>IsSwitchingOccur() prevPhis[ 0]=9.822177, nextPhis[ 0]=9.800900 prevPhis[ 1]=-3.822177, nextPhis[ 1]=-3.800900 <==IsSwitchingOccur() T = 19.200000 Tnext = 19.205000 Time: 1.92000e+01 states: [ 1.96271e+00 -1.08723e+00] derivs: [ -1.08746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.205000 pESO->GetIndependentVar(): 19.205000 ==>IsSwitchingOccur() prevPhis[ 0]=9.800900, nextPhis[ 0]=9.779548 prevPhis[ 1]=-3.800900, nextPhis[ 1]=-3.779548 <==IsSwitchingOccur() T = 19.205000 Tnext = 19.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.210000 pESO->GetIndependentVar(): 19.210000 ==>IsSwitchingOccur() prevPhis[ 0]=9.779548, nextPhis[ 0]=9.758121 prevPhis[ 1]=-3.779548, nextPhis[ 1]=-3.758121 <==IsSwitchingOccur() T = 19.210000 Tnext = 19.215000 Time: 1.92100e+01 states: [ 1.95178e+00 -1.09723e+00] derivs: [ -1.09746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.215000 pESO->GetIndependentVar(): 19.215000 ==>IsSwitchingOccur() prevPhis[ 0]=9.758121, nextPhis[ 0]=9.736619 prevPhis[ 1]=-3.758121, nextPhis[ 1]=-3.736619 <==IsSwitchingOccur() T = 19.215000 Tnext = 19.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.220000 pESO->GetIndependentVar(): 19.220000 ==>IsSwitchingOccur() prevPhis[ 0]=9.736619, nextPhis[ 0]=9.715042 prevPhis[ 1]=-3.736619, nextPhis[ 1]=-3.715042 <==IsSwitchingOccur() T = 19.220000 Tnext = 19.225000 Time: 1.92200e+01 states: [ 1.94076e+00 -1.10723e+00] derivs: [ -1.10746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.225000 pESO->GetIndependentVar(): 19.225000 ==>IsSwitchingOccur() prevPhis[ 0]=9.715042, nextPhis[ 0]=9.693389 prevPhis[ 1]=-3.715042, nextPhis[ 1]=-3.693389 <==IsSwitchingOccur() T = 19.225000 Tnext = 19.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.230000 pESO->GetIndependentVar(): 19.230000 ==>IsSwitchingOccur() prevPhis[ 0]=9.693389, nextPhis[ 0]=9.671662 prevPhis[ 1]=-3.693389, nextPhis[ 1]=-3.671662 <==IsSwitchingOccur() T = 19.230000 Tnext = 19.235000 Time: 1.92300e+01 states: [ 1.92963e+00 -1.11723e+00] derivs: [ -1.11746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.235000 pESO->GetIndependentVar(): 19.235000 ==>IsSwitchingOccur() prevPhis[ 0]=9.671662, nextPhis[ 0]=9.649860 prevPhis[ 1]=-3.671662, nextPhis[ 1]=-3.649860 <==IsSwitchingOccur() T = 19.235000 Tnext = 19.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.240000 pESO->GetIndependentVar(): 19.240000 ==>IsSwitchingOccur() prevPhis[ 0]=9.649860, nextPhis[ 0]=9.627983 prevPhis[ 1]=-3.649860, nextPhis[ 1]=-3.627983 <==IsSwitchingOccur() T = 19.240000 Tnext = 19.245000 Time: 1.92400e+01 states: [ 1.91840e+00 -1.12723e+00] derivs: [ -1.12746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.245000 pESO->GetIndependentVar(): 19.245000 ==>IsSwitchingOccur() prevPhis[ 0]=9.627983, nextPhis[ 0]=9.606031 prevPhis[ 1]=-3.627983, nextPhis[ 1]=-3.606031 <==IsSwitchingOccur() T = 19.245000 Tnext = 19.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.250000 pESO->GetIndependentVar(): 19.250000 ==>IsSwitchingOccur() prevPhis[ 0]=9.606031, nextPhis[ 0]=9.584004 prevPhis[ 1]=-3.606031, nextPhis[ 1]=-3.584004 <==IsSwitchingOccur() T = 19.250000 Tnext = 19.255000 Time: 1.92500e+01 states: [ 1.90708e+00 -1.13723e+00] derivs: [ -1.13746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.255000 pESO->GetIndependentVar(): 19.255000 ==>IsSwitchingOccur() prevPhis[ 0]=9.584004, nextPhis[ 0]=9.561901 prevPhis[ 1]=-3.584004, nextPhis[ 1]=-3.561901 <==IsSwitchingOccur() T = 19.255000 Tnext = 19.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.260000 pESO->GetIndependentVar(): 19.260000 ==>IsSwitchingOccur() prevPhis[ 0]=9.561901, nextPhis[ 0]=9.539724 prevPhis[ 1]=-3.561901, nextPhis[ 1]=-3.539724 <==IsSwitchingOccur() T = 19.260000 Tnext = 19.265000 Time: 1.92600e+01 states: [ 1.89565e+00 -1.14723e+00] derivs: [ -1.14746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.265000 pESO->GetIndependentVar(): 19.265000 ==>IsSwitchingOccur() prevPhis[ 0]=9.539724, nextPhis[ 0]=9.517472 prevPhis[ 1]=-3.539724, nextPhis[ 1]=-3.517472 <==IsSwitchingOccur() T = 19.265000 Tnext = 19.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.270000 pESO->GetIndependentVar(): 19.270000 ==>IsSwitchingOccur() prevPhis[ 0]=9.517472, nextPhis[ 0]=9.495145 prevPhis[ 1]=-3.517472, nextPhis[ 1]=-3.495145 <==IsSwitchingOccur() T = 19.270000 Tnext = 19.275000 Time: 1.92700e+01 states: [ 1.88412e+00 -1.15723e+00] derivs: [ -1.15746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.275000 pESO->GetIndependentVar(): 19.275000 ==>IsSwitchingOccur() prevPhis[ 0]=9.495145, nextPhis[ 0]=9.472743 prevPhis[ 1]=-3.495145, nextPhis[ 1]=-3.472743 <==IsSwitchingOccur() T = 19.275000 Tnext = 19.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.280000 pESO->GetIndependentVar(): 19.280000 ==>IsSwitchingOccur() prevPhis[ 0]=9.472743, nextPhis[ 0]=9.450266 prevPhis[ 1]=-3.472743, nextPhis[ 1]=-3.450266 <==IsSwitchingOccur() T = 19.280000 Tnext = 19.285000 Time: 1.92800e+01 states: [ 1.87250e+00 -1.16723e+00] derivs: [ -1.16746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.285000 pESO->GetIndependentVar(): 19.285000 ==>IsSwitchingOccur() prevPhis[ 0]=9.450266, nextPhis[ 0]=9.427713 prevPhis[ 1]=-3.450266, nextPhis[ 1]=-3.427713 <==IsSwitchingOccur() T = 19.285000 Tnext = 19.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.290000 pESO->GetIndependentVar(): 19.290000 ==>IsSwitchingOccur() prevPhis[ 0]=9.427713, nextPhis[ 0]=9.405086 prevPhis[ 1]=-3.427713, nextPhis[ 1]=-3.405086 <==IsSwitchingOccur() T = 19.290000 Tnext = 19.295000 Time: 1.92900e+01 states: [ 1.86077e+00 -1.17723e+00] derivs: [ -1.17746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.295000 pESO->GetIndependentVar(): 19.295000 ==>IsSwitchingOccur() prevPhis[ 0]=9.405086, nextPhis[ 0]=9.382384 prevPhis[ 1]=-3.405086, nextPhis[ 1]=-3.382384 <==IsSwitchingOccur() T = 19.295000 Tnext = 19.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.300000 pESO->GetIndependentVar(): 19.300000 ==>IsSwitchingOccur() prevPhis[ 0]=9.382384, nextPhis[ 0]=9.359607 prevPhis[ 1]=-3.382384, nextPhis[ 1]=-3.359607 <==IsSwitchingOccur() T = 19.300000 Tnext = 19.305000 Time: 1.93000e+01 states: [ 1.84894e+00 -1.18723e+00] derivs: [ -1.18746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.305000 pESO->GetIndependentVar(): 19.305000 ==>IsSwitchingOccur() prevPhis[ 0]=9.359607, nextPhis[ 0]=9.336755 prevPhis[ 1]=-3.359607, nextPhis[ 1]=-3.336755 <==IsSwitchingOccur() T = 19.305000 Tnext = 19.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.310000 pESO->GetIndependentVar(): 19.310000 ==>IsSwitchingOccur() prevPhis[ 0]=9.336755, nextPhis[ 0]=9.313827 prevPhis[ 1]=-3.336755, nextPhis[ 1]=-3.313827 <==IsSwitchingOccur() T = 19.310000 Tnext = 19.315000 Time: 1.93100e+01 states: [ 1.83702e+00 -1.19723e+00] derivs: [ -1.19746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.315000 pESO->GetIndependentVar(): 19.315000 ==>IsSwitchingOccur() prevPhis[ 0]=9.313827, nextPhis[ 0]=9.290825 prevPhis[ 1]=-3.313827, nextPhis[ 1]=-3.290825 <==IsSwitchingOccur() T = 19.315000 Tnext = 19.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.320000 pESO->GetIndependentVar(): 19.320000 ==>IsSwitchingOccur() prevPhis[ 0]=9.290825, nextPhis[ 0]=9.267748 prevPhis[ 1]=-3.290825, nextPhis[ 1]=-3.267748 <==IsSwitchingOccur() T = 19.320000 Tnext = 19.325000 Time: 1.93200e+01 states: [ 1.82499e+00 -1.20723e+00] derivs: [ -1.20746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.325000 pESO->GetIndependentVar(): 19.325000 ==>IsSwitchingOccur() prevPhis[ 0]=9.267748, nextPhis[ 0]=9.244596 prevPhis[ 1]=-3.267748, nextPhis[ 1]=-3.244596 <==IsSwitchingOccur() T = 19.325000 Tnext = 19.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.330000 pESO->GetIndependentVar(): 19.330000 ==>IsSwitchingOccur() prevPhis[ 0]=9.244596, nextPhis[ 0]=9.221369 prevPhis[ 1]=-3.244596, nextPhis[ 1]=-3.221369 <==IsSwitchingOccur() T = 19.330000 Tnext = 19.335000 Time: 1.93300e+01 states: [ 1.81287e+00 -1.21723e+00] derivs: [ -1.21746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.335000 pESO->GetIndependentVar(): 19.335000 ==>IsSwitchingOccur() prevPhis[ 0]=9.221369, nextPhis[ 0]=9.198067 prevPhis[ 1]=-3.221369, nextPhis[ 1]=-3.198067 <==IsSwitchingOccur() T = 19.335000 Tnext = 19.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.340000 pESO->GetIndependentVar(): 19.340000 ==>IsSwitchingOccur() prevPhis[ 0]=9.198067, nextPhis[ 0]=9.174689 prevPhis[ 1]=-3.198067, nextPhis[ 1]=-3.174689 <==IsSwitchingOccur() T = 19.340000 Tnext = 19.345000 Time: 1.93400e+01 states: [ 1.80064e+00 -1.22723e+00] derivs: [ -1.22746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.345000 pESO->GetIndependentVar(): 19.345000 ==>IsSwitchingOccur() prevPhis[ 0]=9.174689, nextPhis[ 0]=9.151237 prevPhis[ 1]=-3.174689, nextPhis[ 1]=-3.151237 <==IsSwitchingOccur() T = 19.345000 Tnext = 19.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.350000 pESO->GetIndependentVar(): 19.350000 ==>IsSwitchingOccur() prevPhis[ 0]=9.151237, nextPhis[ 0]=9.127710 prevPhis[ 1]=-3.151237, nextPhis[ 1]=-3.127710 <==IsSwitchingOccur() T = 19.350000 Tnext = 19.355000 Time: 1.93500e+01 states: [ 1.78831e+00 -1.23723e+00] derivs: [ -1.23746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.355000 pESO->GetIndependentVar(): 19.355000 ==>IsSwitchingOccur() prevPhis[ 0]=9.127710, nextPhis[ 0]=9.104108 prevPhis[ 1]=-3.127710, nextPhis[ 1]=-3.104108 <==IsSwitchingOccur() T = 19.355000 Tnext = 19.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.360000 pESO->GetIndependentVar(): 19.360000 ==>IsSwitchingOccur() prevPhis[ 0]=9.104108, nextPhis[ 0]=9.080431 prevPhis[ 1]=-3.104108, nextPhis[ 1]=-3.080431 <==IsSwitchingOccur() T = 19.360000 Tnext = 19.365000 Time: 1.93600e+01 states: [ 1.77589e+00 -1.24723e+00] derivs: [ -1.24746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.365000 pESO->GetIndependentVar(): 19.365000 ==>IsSwitchingOccur() prevPhis[ 0]=9.080431, nextPhis[ 0]=9.056679 prevPhis[ 1]=-3.080431, nextPhis[ 1]=-3.056679 <==IsSwitchingOccur() T = 19.365000 Tnext = 19.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.370000 pESO->GetIndependentVar(): 19.370000 ==>IsSwitchingOccur() prevPhis[ 0]=9.056679, nextPhis[ 0]=9.032851 prevPhis[ 1]=-3.056679, nextPhis[ 1]=-3.032851 <==IsSwitchingOccur() T = 19.370000 Tnext = 19.375000 Time: 1.93700e+01 states: [ 1.76336e+00 -1.25723e+00] derivs: [ -1.25746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.375000 pESO->GetIndependentVar(): 19.375000 ==>IsSwitchingOccur() prevPhis[ 0]=9.032851, nextPhis[ 0]=9.008949 prevPhis[ 1]=-3.032851, nextPhis[ 1]=-3.008949 <==IsSwitchingOccur() T = 19.375000 Tnext = 19.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.380000 pESO->GetIndependentVar(): 19.380000 ==>IsSwitchingOccur() prevPhis[ 0]=9.008949, nextPhis[ 0]=8.984972 prevPhis[ 1]=-3.008949, nextPhis[ 1]=-2.984972 <==IsSwitchingOccur() T = 19.380000 Tnext = 19.385000 Time: 1.93800e+01 states: [ 1.75073e+00 -1.26723e+00] derivs: [ -1.26746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.385000 pESO->GetIndependentVar(): 19.385000 ==>IsSwitchingOccur() prevPhis[ 0]=8.984972, nextPhis[ 0]=8.960920 prevPhis[ 1]=-2.984972, nextPhis[ 1]=-2.960920 <==IsSwitchingOccur() T = 19.385000 Tnext = 19.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.390000 pESO->GetIndependentVar(): 19.390000 ==>IsSwitchingOccur() prevPhis[ 0]=8.960920, nextPhis[ 0]=8.936793 prevPhis[ 1]=-2.960920, nextPhis[ 1]=-2.936793 <==IsSwitchingOccur() T = 19.390000 Tnext = 19.395000 Time: 1.93900e+01 states: [ 1.73801e+00 -1.27723e+00] derivs: [ -1.27746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.395000 pESO->GetIndependentVar(): 19.395000 ==>IsSwitchingOccur() prevPhis[ 0]=8.936793, nextPhis[ 0]=8.912590 prevPhis[ 1]=-2.936793, nextPhis[ 1]=-2.912590 <==IsSwitchingOccur() T = 19.395000 Tnext = 19.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.400000 pESO->GetIndependentVar(): 19.400000 ==>IsSwitchingOccur() prevPhis[ 0]=8.912590, nextPhis[ 0]=8.888313 prevPhis[ 1]=-2.912590, nextPhis[ 1]=-2.888313 <==IsSwitchingOccur() T = 19.400000 Tnext = 19.405000 Time: 1.94000e+01 states: [ 1.72518e+00 -1.28723e+00] derivs: [ -1.28746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.405000 pESO->GetIndependentVar(): 19.405000 ==>IsSwitchingOccur() prevPhis[ 0]=8.888313, nextPhis[ 0]=8.863961 prevPhis[ 1]=-2.888313, nextPhis[ 1]=-2.863961 <==IsSwitchingOccur() T = 19.405000 Tnext = 19.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.410000 pESO->GetIndependentVar(): 19.410000 ==>IsSwitchingOccur() prevPhis[ 0]=8.863961, nextPhis[ 0]=8.839534 prevPhis[ 1]=-2.863961, nextPhis[ 1]=-2.839534 <==IsSwitchingOccur() T = 19.410000 Tnext = 19.415000 Time: 1.94100e+01 states: [ 1.71225e+00 -1.29723e+00] derivs: [ -1.29746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.415000 pESO->GetIndependentVar(): 19.415000 ==>IsSwitchingOccur() prevPhis[ 0]=8.839534, nextPhis[ 0]=8.815032 prevPhis[ 1]=-2.839534, nextPhis[ 1]=-2.815032 <==IsSwitchingOccur() T = 19.415000 Tnext = 19.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.420000 pESO->GetIndependentVar(): 19.420000 ==>IsSwitchingOccur() prevPhis[ 0]=8.815032, nextPhis[ 0]=8.790455 prevPhis[ 1]=-2.815032, nextPhis[ 1]=-2.790455 <==IsSwitchingOccur() T = 19.420000 Tnext = 19.425000 Time: 1.94200e+01 states: [ 1.69923e+00 -1.30723e+00] derivs: [ -1.30746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.425000 pESO->GetIndependentVar(): 19.425000 ==>IsSwitchingOccur() prevPhis[ 0]=8.790455, nextPhis[ 0]=8.765802 prevPhis[ 1]=-2.790455, nextPhis[ 1]=-2.765802 <==IsSwitchingOccur() T = 19.425000 Tnext = 19.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.430000 pESO->GetIndependentVar(): 19.430000 ==>IsSwitchingOccur() prevPhis[ 0]=8.765802, nextPhis[ 0]=8.741075 prevPhis[ 1]=-2.765802, nextPhis[ 1]=-2.741075 <==IsSwitchingOccur() T = 19.430000 Tnext = 19.435000 Time: 1.94300e+01 states: [ 1.68610e+00 -1.31723e+00] derivs: [ -1.31746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.435000 pESO->GetIndependentVar(): 19.435000 ==>IsSwitchingOccur() prevPhis[ 0]=8.741075, nextPhis[ 0]=8.716273 prevPhis[ 1]=-2.741075, nextPhis[ 1]=-2.716273 <==IsSwitchingOccur() T = 19.435000 Tnext = 19.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.440000 pESO->GetIndependentVar(): 19.440000 ==>IsSwitchingOccur() prevPhis[ 0]=8.716273, nextPhis[ 0]=8.691396 prevPhis[ 1]=-2.716273, nextPhis[ 1]=-2.691396 <==IsSwitchingOccur() T = 19.440000 Tnext = 19.445000 Time: 1.94400e+01 states: [ 1.67287e+00 -1.32723e+00] derivs: [ -1.32746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.445000 pESO->GetIndependentVar(): 19.445000 ==>IsSwitchingOccur() prevPhis[ 0]=8.691396, nextPhis[ 0]=8.666444 prevPhis[ 1]=-2.691396, nextPhis[ 1]=-2.666444 <==IsSwitchingOccur() T = 19.445000 Tnext = 19.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.450000 pESO->GetIndependentVar(): 19.450000 ==>IsSwitchingOccur() prevPhis[ 0]=8.666444, nextPhis[ 0]=8.641417 prevPhis[ 1]=-2.666444, nextPhis[ 1]=-2.641417 <==IsSwitchingOccur() T = 19.450000 Tnext = 19.455000 Time: 1.94500e+01 states: [ 1.65955e+00 -1.33723e+00] derivs: [ -1.33746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.455000 pESO->GetIndependentVar(): 19.455000 ==>IsSwitchingOccur() prevPhis[ 0]=8.641417, nextPhis[ 0]=8.616314 prevPhis[ 1]=-2.641417, nextPhis[ 1]=-2.616314 <==IsSwitchingOccur() T = 19.455000 Tnext = 19.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.460000 pESO->GetIndependentVar(): 19.460000 ==>IsSwitchingOccur() prevPhis[ 0]=8.616314, nextPhis[ 0]=8.591137 prevPhis[ 1]=-2.616314, nextPhis[ 1]=-2.591137 <==IsSwitchingOccur() T = 19.460000 Tnext = 19.465000 Time: 1.94600e+01 states: [ 1.64612e+00 -1.34723e+00] derivs: [ -1.34746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.465000 pESO->GetIndependentVar(): 19.465000 ==>IsSwitchingOccur() prevPhis[ 0]=8.591137, nextPhis[ 0]=8.565885 prevPhis[ 1]=-2.591137, nextPhis[ 1]=-2.565885 <==IsSwitchingOccur() T = 19.465000 Tnext = 19.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.470000 pESO->GetIndependentVar(): 19.470000 ==>IsSwitchingOccur() prevPhis[ 0]=8.565885, nextPhis[ 0]=8.540558 prevPhis[ 1]=-2.565885, nextPhis[ 1]=-2.540558 <==IsSwitchingOccur() T = 19.470000 Tnext = 19.475000 Time: 1.94700e+01 states: [ 1.63259e+00 -1.35723e+00] derivs: [ -1.35746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.475000 pESO->GetIndependentVar(): 19.475000 ==>IsSwitchingOccur() prevPhis[ 0]=8.540558, nextPhis[ 0]=8.515156 prevPhis[ 1]=-2.540558, nextPhis[ 1]=-2.515156 <==IsSwitchingOccur() T = 19.475000 Tnext = 19.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.480000 pESO->GetIndependentVar(): 19.480000 ==>IsSwitchingOccur() prevPhis[ 0]=8.515156, nextPhis[ 0]=8.489678 prevPhis[ 1]=-2.515156, nextPhis[ 1]=-2.489678 <==IsSwitchingOccur() T = 19.480000 Tnext = 19.485000 Time: 1.94800e+01 states: [ 1.61897e+00 -1.36723e+00] derivs: [ -1.36746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.485000 pESO->GetIndependentVar(): 19.485000 ==>IsSwitchingOccur() prevPhis[ 0]=8.489678, nextPhis[ 0]=8.464126 prevPhis[ 1]=-2.489678, nextPhis[ 1]=-2.464126 <==IsSwitchingOccur() T = 19.485000 Tnext = 19.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.490000 pESO->GetIndependentVar(): 19.490000 ==>IsSwitchingOccur() prevPhis[ 0]=8.464126, nextPhis[ 0]=8.438499 prevPhis[ 1]=-2.464126, nextPhis[ 1]=-2.438499 <==IsSwitchingOccur() T = 19.490000 Tnext = 19.495000 Time: 1.94900e+01 states: [ 1.60524e+00 -1.37723e+00] derivs: [ -1.37746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.495000 pESO->GetIndependentVar(): 19.495000 ==>IsSwitchingOccur() prevPhis[ 0]=8.438499, nextPhis[ 0]=8.412797 prevPhis[ 1]=-2.438499, nextPhis[ 1]=-2.412797 <==IsSwitchingOccur() T = 19.495000 Tnext = 19.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.500000 pESO->GetIndependentVar(): 19.500000 ==>IsSwitchingOccur() prevPhis[ 0]=8.412797, nextPhis[ 0]=8.387020 prevPhis[ 1]=-2.412797, nextPhis[ 1]=-2.387020 <==IsSwitchingOccur() T = 19.500000 Tnext = 19.505000 Time: 1.95000e+01 states: [ 1.59142e+00 -1.38723e+00] derivs: [ -1.38746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.505000 pESO->GetIndependentVar(): 19.505000 ==>IsSwitchingOccur() prevPhis[ 0]=8.387020, nextPhis[ 0]=8.361168 prevPhis[ 1]=-2.387020, nextPhis[ 1]=-2.361168 <==IsSwitchingOccur() T = 19.505000 Tnext = 19.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.510000 pESO->GetIndependentVar(): 19.510000 ==>IsSwitchingOccur() prevPhis[ 0]=8.361168, nextPhis[ 0]=8.335240 prevPhis[ 1]=-2.361168, nextPhis[ 1]=-2.335240 <==IsSwitchingOccur() T = 19.510000 Tnext = 19.515000 Time: 1.95100e+01 states: [ 1.57749e+00 -1.39723e+00] derivs: [ -1.39746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.515000 pESO->GetIndependentVar(): 19.515000 ==>IsSwitchingOccur() prevPhis[ 0]=8.335240, nextPhis[ 0]=8.309238 prevPhis[ 1]=-2.335240, nextPhis[ 1]=-2.309238 <==IsSwitchingOccur() T = 19.515000 Tnext = 19.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.520000 pESO->GetIndependentVar(): 19.520000 ==>IsSwitchingOccur() prevPhis[ 0]=8.309238, nextPhis[ 0]=8.283161 prevPhis[ 1]=-2.309238, nextPhis[ 1]=-2.283161 <==IsSwitchingOccur() T = 19.520000 Tnext = 19.525000 Time: 1.95200e+01 states: [ 1.56346e+00 -1.40723e+00] derivs: [ -1.40746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.525000 pESO->GetIndependentVar(): 19.525000 ==>IsSwitchingOccur() prevPhis[ 0]=8.283161, nextPhis[ 0]=8.257009 prevPhis[ 1]=-2.283161, nextPhis[ 1]=-2.257009 <==IsSwitchingOccur() T = 19.525000 Tnext = 19.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.530000 pESO->GetIndependentVar(): 19.530000 ==>IsSwitchingOccur() prevPhis[ 0]=8.257009, nextPhis[ 0]=8.230782 prevPhis[ 1]=-2.257009, nextPhis[ 1]=-2.230782 <==IsSwitchingOccur() T = 19.530000 Tnext = 19.535000 Time: 1.95300e+01 states: [ 1.54934e+00 -1.41723e+00] derivs: [ -1.41746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.535000 pESO->GetIndependentVar(): 19.535000 ==>IsSwitchingOccur() prevPhis[ 0]=8.230782, nextPhis[ 0]=8.204480 prevPhis[ 1]=-2.230782, nextPhis[ 1]=-2.204480 <==IsSwitchingOccur() T = 19.535000 Tnext = 19.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.540000 pESO->GetIndependentVar(): 19.540000 ==>IsSwitchingOccur() prevPhis[ 0]=8.204480, nextPhis[ 0]=8.178102 prevPhis[ 1]=-2.204480, nextPhis[ 1]=-2.178102 <==IsSwitchingOccur() T = 19.540000 Tnext = 19.545000 Time: 1.95400e+01 states: [ 1.53511e+00 -1.42723e+00] derivs: [ -1.42746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.545000 pESO->GetIndependentVar(): 19.545000 ==>IsSwitchingOccur() prevPhis[ 0]=8.178102, nextPhis[ 0]=8.151650 prevPhis[ 1]=-2.178102, nextPhis[ 1]=-2.151650 <==IsSwitchingOccur() T = 19.545000 Tnext = 19.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.550000 pESO->GetIndependentVar(): 19.550000 ==>IsSwitchingOccur() prevPhis[ 0]=8.151650, nextPhis[ 0]=8.125123 prevPhis[ 1]=-2.151650, nextPhis[ 1]=-2.125123 <==IsSwitchingOccur() T = 19.550000 Tnext = 19.555000 Time: 1.95500e+01 states: [ 1.52078e+00 -1.43723e+00] derivs: [ -1.43746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.555000 pESO->GetIndependentVar(): 19.555000 ==>IsSwitchingOccur() prevPhis[ 0]=8.125123, nextPhis[ 0]=8.098521 prevPhis[ 1]=-2.125123, nextPhis[ 1]=-2.098521 <==IsSwitchingOccur() T = 19.555000 Tnext = 19.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.560000 pESO->GetIndependentVar(): 19.560000 ==>IsSwitchingOccur() prevPhis[ 0]=8.098521, nextPhis[ 0]=8.071844 prevPhis[ 1]=-2.098521, nextPhis[ 1]=-2.071844 <==IsSwitchingOccur() T = 19.560000 Tnext = 19.565000 Time: 1.95600e+01 states: [ 1.50636e+00 -1.44723e+00] derivs: [ -1.44746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.565000 pESO->GetIndependentVar(): 19.565000 ==>IsSwitchingOccur() prevPhis[ 0]=8.071844, nextPhis[ 0]=8.045091 prevPhis[ 1]=-2.071844, nextPhis[ 1]=-2.045091 <==IsSwitchingOccur() T = 19.565000 Tnext = 19.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.570000 pESO->GetIndependentVar(): 19.570000 ==>IsSwitchingOccur() prevPhis[ 0]=8.045091, nextPhis[ 0]=8.018264 prevPhis[ 1]=-2.045091, nextPhis[ 1]=-2.018264 <==IsSwitchingOccur() T = 19.570000 Tnext = 19.575000 Time: 1.95700e+01 states: [ 1.49183e+00 -1.45723e+00] derivs: [ -1.45746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.575000 pESO->GetIndependentVar(): 19.575000 ==>IsSwitchingOccur() prevPhis[ 0]=8.018264, nextPhis[ 0]=7.991362 prevPhis[ 1]=-2.018264, nextPhis[ 1]=-1.991362 <==IsSwitchingOccur() T = 19.575000 Tnext = 19.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.580000 pESO->GetIndependentVar(): 19.580000 ==>IsSwitchingOccur() prevPhis[ 0]=7.991362, nextPhis[ 0]=7.964385 prevPhis[ 1]=-1.991362, nextPhis[ 1]=-1.964385 <==IsSwitchingOccur() T = 19.580000 Tnext = 19.585000 Time: 1.95800e+01 states: [ 1.47720e+00 -1.46723e+00] derivs: [ -1.46746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.585000 pESO->GetIndependentVar(): 19.585000 ==>IsSwitchingOccur() prevPhis[ 0]=7.964385, nextPhis[ 0]=7.937333 prevPhis[ 1]=-1.964385, nextPhis[ 1]=-1.937333 <==IsSwitchingOccur() T = 19.585000 Tnext = 19.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.590000 pESO->GetIndependentVar(): 19.590000 ==>IsSwitchingOccur() prevPhis[ 0]=7.937333, nextPhis[ 0]=7.910206 prevPhis[ 1]=-1.937333, nextPhis[ 1]=-1.910206 <==IsSwitchingOccur() T = 19.590000 Tnext = 19.595000 Time: 1.95900e+01 states: [ 1.46248e+00 -1.47723e+00] derivs: [ -1.47746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.595000 pESO->GetIndependentVar(): 19.595000 ==>IsSwitchingOccur() prevPhis[ 0]=7.910206, nextPhis[ 0]=7.883003 prevPhis[ 1]=-1.910206, nextPhis[ 1]=-1.883003 <==IsSwitchingOccur() T = 19.595000 Tnext = 19.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.600000 pESO->GetIndependentVar(): 19.600000 ==>IsSwitchingOccur() prevPhis[ 0]=7.883003, nextPhis[ 0]=7.855726 prevPhis[ 1]=-1.883003, nextPhis[ 1]=-1.855726 <==IsSwitchingOccur() T = 19.600000 Tnext = 19.605000 Time: 1.96000e+01 states: [ 1.44765e+00 -1.48723e+00] derivs: [ -1.48746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.605000 pESO->GetIndependentVar(): 19.605000 ==>IsSwitchingOccur() prevPhis[ 0]=7.855726, nextPhis[ 0]=7.828374 prevPhis[ 1]=-1.855726, nextPhis[ 1]=-1.828374 <==IsSwitchingOccur() T = 19.605000 Tnext = 19.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.610000 pESO->GetIndependentVar(): 19.610000 ==>IsSwitchingOccur() prevPhis[ 0]=7.828374, nextPhis[ 0]=7.800947 prevPhis[ 1]=-1.828374, nextPhis[ 1]=-1.800947 <==IsSwitchingOccur() T = 19.610000 Tnext = 19.615000 Time: 1.96100e+01 states: [ 1.43272e+00 -1.49723e+00] derivs: [ -1.49746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.615000 pESO->GetIndependentVar(): 19.615000 ==>IsSwitchingOccur() prevPhis[ 0]=7.800947, nextPhis[ 0]=7.773445 prevPhis[ 1]=-1.800947, nextPhis[ 1]=-1.773445 <==IsSwitchingOccur() T = 19.615000 Tnext = 19.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.620000 pESO->GetIndependentVar(): 19.620000 ==>IsSwitchingOccur() prevPhis[ 0]=7.773445, nextPhis[ 0]=7.745868 prevPhis[ 1]=-1.773445, nextPhis[ 1]=-1.745868 <==IsSwitchingOccur() T = 19.620000 Tnext = 19.625000 Time: 1.96200e+01 states: [ 1.41770e+00 -1.50723e+00] derivs: [ -1.50746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.625000 pESO->GetIndependentVar(): 19.625000 ==>IsSwitchingOccur() prevPhis[ 0]=7.745868, nextPhis[ 0]=7.718215 prevPhis[ 1]=-1.745868, nextPhis[ 1]=-1.718215 <==IsSwitchingOccur() T = 19.625000 Tnext = 19.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.630000 pESO->GetIndependentVar(): 19.630000 ==>IsSwitchingOccur() prevPhis[ 0]=7.718215, nextPhis[ 0]=7.690488 prevPhis[ 1]=-1.718215, nextPhis[ 1]=-1.690488 <==IsSwitchingOccur() T = 19.630000 Tnext = 19.635000 Time: 1.96300e+01 states: [ 1.40257e+00 -1.51723e+00] derivs: [ -1.51746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.635000 pESO->GetIndependentVar(): 19.635000 ==>IsSwitchingOccur() prevPhis[ 0]=7.690488, nextPhis[ 0]=7.662686 prevPhis[ 1]=-1.690488, nextPhis[ 1]=-1.662686 <==IsSwitchingOccur() T = 19.635000 Tnext = 19.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.640000 pESO->GetIndependentVar(): 19.640000 ==>IsSwitchingOccur() prevPhis[ 0]=7.662686, nextPhis[ 0]=7.634809 prevPhis[ 1]=-1.662686, nextPhis[ 1]=-1.634809 <==IsSwitchingOccur() T = 19.640000 Tnext = 19.645000 Time: 1.96400e+01 states: [ 1.38735e+00 -1.52723e+00] derivs: [ -1.52746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.645000 pESO->GetIndependentVar(): 19.645000 ==>IsSwitchingOccur() prevPhis[ 0]=7.634809, nextPhis[ 0]=7.606857 prevPhis[ 1]=-1.634809, nextPhis[ 1]=-1.606857 <==IsSwitchingOccur() T = 19.645000 Tnext = 19.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.650000 pESO->GetIndependentVar(): 19.650000 ==>IsSwitchingOccur() prevPhis[ 0]=7.606857, nextPhis[ 0]=7.578829 prevPhis[ 1]=-1.606857, nextPhis[ 1]=-1.578829 <==IsSwitchingOccur() T = 19.650000 Tnext = 19.655000 Time: 1.96500e+01 states: [ 1.37202e+00 -1.53723e+00] derivs: [ -1.53746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.655000 pESO->GetIndependentVar(): 19.655000 ==>IsSwitchingOccur() prevPhis[ 0]=7.578829, nextPhis[ 0]=7.550727 prevPhis[ 1]=-1.578829, nextPhis[ 1]=-1.550727 <==IsSwitchingOccur() T = 19.655000 Tnext = 19.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.660000 pESO->GetIndependentVar(): 19.660000 ==>IsSwitchingOccur() prevPhis[ 0]=7.550727, nextPhis[ 0]=7.522550 prevPhis[ 1]=-1.550727, nextPhis[ 1]=-1.522550 <==IsSwitchingOccur() T = 19.660000 Tnext = 19.665000 Time: 1.96600e+01 states: [ 1.35659e+00 -1.54723e+00] derivs: [ -1.54746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.665000 pESO->GetIndependentVar(): 19.665000 ==>IsSwitchingOccur() prevPhis[ 0]=7.522550, nextPhis[ 0]=7.494298 prevPhis[ 1]=-1.522550, nextPhis[ 1]=-1.494298 <==IsSwitchingOccur() T = 19.665000 Tnext = 19.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.670000 pESO->GetIndependentVar(): 19.670000 ==>IsSwitchingOccur() prevPhis[ 0]=7.494298, nextPhis[ 0]=7.465971 prevPhis[ 1]=-1.494298, nextPhis[ 1]=-1.465971 <==IsSwitchingOccur() T = 19.670000 Tnext = 19.675000 Time: 1.96700e+01 states: [ 1.34107e+00 -1.55723e+00] derivs: [ -1.55746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.675000 pESO->GetIndependentVar(): 19.675000 ==>IsSwitchingOccur() prevPhis[ 0]=7.465971, nextPhis[ 0]=7.437569 prevPhis[ 1]=-1.465971, nextPhis[ 1]=-1.437569 <==IsSwitchingOccur() T = 19.675000 Tnext = 19.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.680000 pESO->GetIndependentVar(): 19.680000 ==>IsSwitchingOccur() prevPhis[ 0]=7.437569, nextPhis[ 0]=7.409091 prevPhis[ 1]=-1.437569, nextPhis[ 1]=-1.409091 <==IsSwitchingOccur() T = 19.680000 Tnext = 19.685000 Time: 1.96800e+01 states: [ 1.32544e+00 -1.56723e+00] derivs: [ -1.56746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.685000 pESO->GetIndependentVar(): 19.685000 ==>IsSwitchingOccur() prevPhis[ 0]=7.409091, nextPhis[ 0]=7.380539 prevPhis[ 1]=-1.409091, nextPhis[ 1]=-1.380539 <==IsSwitchingOccur() T = 19.685000 Tnext = 19.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.690000 pESO->GetIndependentVar(): 19.690000 ==>IsSwitchingOccur() prevPhis[ 0]=7.380539, nextPhis[ 0]=7.351912 prevPhis[ 1]=-1.380539, nextPhis[ 1]=-1.351912 <==IsSwitchingOccur() T = 19.690000 Tnext = 19.695000 Time: 1.96900e+01 states: [ 1.30971e+00 -1.57723e+00] derivs: [ -1.57746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.695000 pESO->GetIndependentVar(): 19.695000 ==>IsSwitchingOccur() prevPhis[ 0]=7.351912, nextPhis[ 0]=7.323210 prevPhis[ 1]=-1.351912, nextPhis[ 1]=-1.323210 <==IsSwitchingOccur() T = 19.695000 Tnext = 19.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.700000 pESO->GetIndependentVar(): 19.700000 ==>IsSwitchingOccur() prevPhis[ 0]=7.323210, nextPhis[ 0]=7.294433 prevPhis[ 1]=-1.323210, nextPhis[ 1]=-1.294433 <==IsSwitchingOccur() T = 19.700000 Tnext = 19.705000 Time: 1.97000e+01 states: [ 1.29389e+00 -1.58723e+00] derivs: [ -1.58746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.705000 pESO->GetIndependentVar(): 19.705000 ==>IsSwitchingOccur() prevPhis[ 0]=7.294433, nextPhis[ 0]=7.265581 prevPhis[ 1]=-1.294433, nextPhis[ 1]=-1.265581 <==IsSwitchingOccur() T = 19.705000 Tnext = 19.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.710000 pESO->GetIndependentVar(): 19.710000 ==>IsSwitchingOccur() prevPhis[ 0]=7.265581, nextPhis[ 0]=7.236653 prevPhis[ 1]=-1.265581, nextPhis[ 1]=-1.236653 <==IsSwitchingOccur() T = 19.710000 Tnext = 19.715000 Time: 1.97100e+01 states: [ 1.27796e+00 -1.59723e+00] derivs: [ -1.59746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.715000 pESO->GetIndependentVar(): 19.715000 ==>IsSwitchingOccur() prevPhis[ 0]=7.236653, nextPhis[ 0]=7.207651 prevPhis[ 1]=-1.236653, nextPhis[ 1]=-1.207651 <==IsSwitchingOccur() T = 19.715000 Tnext = 19.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.720000 pESO->GetIndependentVar(): 19.720000 ==>IsSwitchingOccur() prevPhis[ 0]=7.207651, nextPhis[ 0]=7.178574 prevPhis[ 1]=-1.207651, nextPhis[ 1]=-1.178574 <==IsSwitchingOccur() T = 19.720000 Tnext = 19.725000 Time: 1.97200e+01 states: [ 1.26193e+00 -1.60723e+00] derivs: [ -1.60746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.725000 pESO->GetIndependentVar(): 19.725000 ==>IsSwitchingOccur() prevPhis[ 0]=7.178574, nextPhis[ 0]=7.149422 prevPhis[ 1]=-1.178574, nextPhis[ 1]=-1.149422 <==IsSwitchingOccur() T = 19.725000 Tnext = 19.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.730000 pESO->GetIndependentVar(): 19.730000 ==>IsSwitchingOccur() prevPhis[ 0]=7.149422, nextPhis[ 0]=7.120195 prevPhis[ 1]=-1.149422, nextPhis[ 1]=-1.120195 <==IsSwitchingOccur() T = 19.730000 Tnext = 19.735000 Time: 1.97300e+01 states: [ 1.24581e+00 -1.61723e+00] derivs: [ -1.61746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.735000 pESO->GetIndependentVar(): 19.735000 ==>IsSwitchingOccur() prevPhis[ 0]=7.120195, nextPhis[ 0]=7.090892 prevPhis[ 1]=-1.120195, nextPhis[ 1]=-1.090892 <==IsSwitchingOccur() T = 19.735000 Tnext = 19.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.740000 pESO->GetIndependentVar(): 19.740000 ==>IsSwitchingOccur() prevPhis[ 0]=7.090892, nextPhis[ 0]=7.061515 prevPhis[ 1]=-1.090892, nextPhis[ 1]=-1.061515 <==IsSwitchingOccur() T = 19.740000 Tnext = 19.745000 Time: 1.97400e+01 states: [ 1.22958e+00 -1.62723e+00] derivs: [ -1.62746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.745000 pESO->GetIndependentVar(): 19.745000 ==>IsSwitchingOccur() prevPhis[ 0]=7.061515, nextPhis[ 0]=7.032063 prevPhis[ 1]=-1.061515, nextPhis[ 1]=-1.032063 <==IsSwitchingOccur() T = 19.745000 Tnext = 19.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.750000 pESO->GetIndependentVar(): 19.750000 ==>IsSwitchingOccur() prevPhis[ 0]=7.032063, nextPhis[ 0]=7.002536 prevPhis[ 1]=-1.032063, nextPhis[ 1]=-1.002536 <==IsSwitchingOccur() T = 19.750000 Tnext = 19.755000 Time: 1.97500e+01 states: [ 1.21325e+00 -1.63723e+00] derivs: [ -1.63746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.755000 pESO->GetIndependentVar(): 19.755000 ==>IsSwitchingOccur() prevPhis[ 0]=7.002536, nextPhis[ 0]=6.972934 prevPhis[ 1]=-1.002536, nextPhis[ 1]=-0.972934 <==IsSwitchingOccur() T = 19.755000 Tnext = 19.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.760000 pESO->GetIndependentVar(): 19.760000 ==>IsSwitchingOccur() prevPhis[ 0]=6.972934, nextPhis[ 0]=6.943257 prevPhis[ 1]=-0.972934, nextPhis[ 1]=-0.943257 <==IsSwitchingOccur() T = 19.760000 Tnext = 19.765000 Time: 1.97600e+01 states: [ 1.19683e+00 -1.64723e+00] derivs: [ -1.64746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.765000 pESO->GetIndependentVar(): 19.765000 ==>IsSwitchingOccur() prevPhis[ 0]=6.943257, nextPhis[ 0]=6.913504 prevPhis[ 1]=-0.943257, nextPhis[ 1]=-0.913504 <==IsSwitchingOccur() T = 19.765000 Tnext = 19.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.770000 pESO->GetIndependentVar(): 19.770000 ==>IsSwitchingOccur() prevPhis[ 0]=6.913504, nextPhis[ 0]=6.883677 prevPhis[ 1]=-0.913504, nextPhis[ 1]=-0.883677 <==IsSwitchingOccur() T = 19.770000 Tnext = 19.775000 Time: 1.97700e+01 states: [ 1.18030e+00 -1.65723e+00] derivs: [ -1.65746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.775000 pESO->GetIndependentVar(): 19.775000 ==>IsSwitchingOccur() prevPhis[ 0]=6.883677, nextPhis[ 0]=6.853775 prevPhis[ 1]=-0.883677, nextPhis[ 1]=-0.853775 <==IsSwitchingOccur() T = 19.775000 Tnext = 19.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.780000 pESO->GetIndependentVar(): 19.780000 ==>IsSwitchingOccur() prevPhis[ 0]=6.853775, nextPhis[ 0]=6.823798 prevPhis[ 1]=-0.853775, nextPhis[ 1]=-0.823798 <==IsSwitchingOccur() T = 19.780000 Tnext = 19.785000 Time: 1.97800e+01 states: [ 1.16367e+00 -1.66723e+00] derivs: [ -1.66746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.785000 pESO->GetIndependentVar(): 19.785000 ==>IsSwitchingOccur() prevPhis[ 0]=6.823798, nextPhis[ 0]=6.793746 prevPhis[ 1]=-0.823798, nextPhis[ 1]=-0.793746 <==IsSwitchingOccur() T = 19.785000 Tnext = 19.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.790000 pESO->GetIndependentVar(): 19.790000 ==>IsSwitchingOccur() prevPhis[ 0]=6.793746, nextPhis[ 0]=6.763619 prevPhis[ 1]=-0.793746, nextPhis[ 1]=-0.763619 <==IsSwitchingOccur() T = 19.790000 Tnext = 19.795000 Time: 1.97900e+01 states: [ 1.14695e+00 -1.67723e+00] derivs: [ -1.67746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.795000 pESO->GetIndependentVar(): 19.795000 ==>IsSwitchingOccur() prevPhis[ 0]=6.763619, nextPhis[ 0]=6.733416 prevPhis[ 1]=-0.763619, nextPhis[ 1]=-0.733416 <==IsSwitchingOccur() T = 19.795000 Tnext = 19.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.800000 pESO->GetIndependentVar(): 19.800000 ==>IsSwitchingOccur() prevPhis[ 0]=6.733416, nextPhis[ 0]=6.703139 prevPhis[ 1]=-0.733416, nextPhis[ 1]=-0.703139 <==IsSwitchingOccur() T = 19.800000 Tnext = 19.805000 Time: 1.98000e+01 states: [ 1.13012e+00 -1.68723e+00] derivs: [ -1.68746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.805000 pESO->GetIndependentVar(): 19.805000 ==>IsSwitchingOccur() prevPhis[ 0]=6.703139, nextPhis[ 0]=6.672787 prevPhis[ 1]=-0.703139, nextPhis[ 1]=-0.672787 <==IsSwitchingOccur() T = 19.805000 Tnext = 19.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.810000 pESO->GetIndependentVar(): 19.810000 ==>IsSwitchingOccur() prevPhis[ 0]=6.672787, nextPhis[ 0]=6.642360 prevPhis[ 1]=-0.672787, nextPhis[ 1]=-0.642360 <==IsSwitchingOccur() T = 19.810000 Tnext = 19.815000 Time: 1.98100e+01 states: [ 1.11320e+00 -1.69723e+00] derivs: [ -1.69746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.815000 pESO->GetIndependentVar(): 19.815000 ==>IsSwitchingOccur() prevPhis[ 0]=6.642360, nextPhis[ 0]=6.611858 prevPhis[ 1]=-0.642360, nextPhis[ 1]=-0.611858 <==IsSwitchingOccur() T = 19.815000 Tnext = 19.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.820000 pESO->GetIndependentVar(): 19.820000 ==>IsSwitchingOccur() prevPhis[ 0]=6.611858, nextPhis[ 0]=6.581281 prevPhis[ 1]=-0.611858, nextPhis[ 1]=-0.581281 <==IsSwitchingOccur() T = 19.820000 Tnext = 19.825000 Time: 1.98200e+01 states: [ 1.09617e+00 -1.70723e+00] derivs: [ -1.70746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.825000 pESO->GetIndependentVar(): 19.825000 ==>IsSwitchingOccur() prevPhis[ 0]=6.581281, nextPhis[ 0]=6.550628 prevPhis[ 1]=-0.581281, nextPhis[ 1]=-0.550628 <==IsSwitchingOccur() T = 19.825000 Tnext = 19.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.830000 pESO->GetIndependentVar(): 19.830000 ==>IsSwitchingOccur() prevPhis[ 0]=6.550628, nextPhis[ 0]=6.519901 prevPhis[ 1]=-0.550628, nextPhis[ 1]=-0.519901 <==IsSwitchingOccur() T = 19.830000 Tnext = 19.835000 Time: 1.98300e+01 states: [ 1.07904e+00 -1.71723e+00] derivs: [ -1.71746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.835000 pESO->GetIndependentVar(): 19.835000 ==>IsSwitchingOccur() prevPhis[ 0]=6.519901, nextPhis[ 0]=6.489099 prevPhis[ 1]=-0.519901, nextPhis[ 1]=-0.489099 <==IsSwitchingOccur() T = 19.835000 Tnext = 19.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.840000 pESO->GetIndependentVar(): 19.840000 ==>IsSwitchingOccur() prevPhis[ 0]=6.489099, nextPhis[ 0]=6.458222 prevPhis[ 1]=-0.489099, nextPhis[ 1]=-0.458222 <==IsSwitchingOccur() T = 19.840000 Tnext = 19.845000 Time: 1.98400e+01 states: [ 1.06182e+00 -1.72723e+00] derivs: [ -1.72746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.845000 pESO->GetIndependentVar(): 19.845000 ==>IsSwitchingOccur() prevPhis[ 0]=6.458222, nextPhis[ 0]=6.427270 prevPhis[ 1]=-0.458222, nextPhis[ 1]=-0.427270 <==IsSwitchingOccur() T = 19.845000 Tnext = 19.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.850000 pESO->GetIndependentVar(): 19.850000 ==>IsSwitchingOccur() prevPhis[ 0]=6.427270, nextPhis[ 0]=6.396242 prevPhis[ 1]=-0.427270, nextPhis[ 1]=-0.396242 <==IsSwitchingOccur() T = 19.850000 Tnext = 19.855000 Time: 1.98500e+01 states: [ 1.04449e+00 -1.73723e+00] derivs: [ -1.73746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.855000 pESO->GetIndependentVar(): 19.855000 ==>IsSwitchingOccur() prevPhis[ 0]=6.396242, nextPhis[ 0]=6.365140 prevPhis[ 1]=-0.396242, nextPhis[ 1]=-0.365140 <==IsSwitchingOccur() T = 19.855000 Tnext = 19.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.860000 pESO->GetIndependentVar(): 19.860000 ==>IsSwitchingOccur() prevPhis[ 0]=6.365140, nextPhis[ 0]=6.333963 prevPhis[ 1]=-0.365140, nextPhis[ 1]=-0.333963 <==IsSwitchingOccur() T = 19.860000 Tnext = 19.865000 Time: 1.98600e+01 states: [ 1.02706e+00 -1.74723e+00] derivs: [ -1.74746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.865000 pESO->GetIndependentVar(): 19.865000 ==>IsSwitchingOccur() prevPhis[ 0]=6.333963, nextPhis[ 0]=6.302711 prevPhis[ 1]=-0.333963, nextPhis[ 1]=-0.302711 <==IsSwitchingOccur() T = 19.865000 Tnext = 19.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.870000 pESO->GetIndependentVar(): 19.870000 ==>IsSwitchingOccur() prevPhis[ 0]=6.302711, nextPhis[ 0]=6.271384 prevPhis[ 1]=-0.302711, nextPhis[ 1]=-0.271384 <==IsSwitchingOccur() T = 19.870000 Tnext = 19.875000 Time: 1.98700e+01 states: [ 1.00954e+00 -1.75723e+00] derivs: [ -1.75746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.875000 pESO->GetIndependentVar(): 19.875000 ==>IsSwitchingOccur() prevPhis[ 0]=6.271384, nextPhis[ 0]=6.239982 prevPhis[ 1]=-0.271384, nextPhis[ 1]=-0.239982 <==IsSwitchingOccur() T = 19.875000 Tnext = 19.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.880000 pESO->GetIndependentVar(): 19.880000 ==>IsSwitchingOccur() prevPhis[ 0]=6.239982, nextPhis[ 0]=6.208504 prevPhis[ 1]=-0.239982, nextPhis[ 1]=-0.208504 <==IsSwitchingOccur() T = 19.880000 Tnext = 19.885000 Time: 1.98800e+01 states: [ 9.91910e-01 -1.76723e+00] derivs: [ -1.76746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.885000 pESO->GetIndependentVar(): 19.885000 ==>IsSwitchingOccur() prevPhis[ 0]=6.208504, nextPhis[ 0]=6.176952 prevPhis[ 1]=-0.208504, nextPhis[ 1]=-0.176952 <==IsSwitchingOccur() T = 19.885000 Tnext = 19.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.890000 pESO->GetIndependentVar(): 19.890000 ==>IsSwitchingOccur() prevPhis[ 0]=6.176952, nextPhis[ 0]=6.145325 prevPhis[ 1]=-0.176952, nextPhis[ 1]=-0.145325 <==IsSwitchingOccur() T = 19.890000 Tnext = 19.895000 Time: 1.98900e+01 states: [ 9.74184e-01 -1.77723e+00] derivs: [ -1.77746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.895000 pESO->GetIndependentVar(): 19.895000 ==>IsSwitchingOccur() prevPhis[ 0]=6.145325, nextPhis[ 0]=6.113623 prevPhis[ 1]=-0.145325, nextPhis[ 1]=-0.113623 <==IsSwitchingOccur() T = 19.895000 Tnext = 19.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.900000 pESO->GetIndependentVar(): 19.900000 ==>IsSwitchingOccur() prevPhis[ 0]=6.113623, nextPhis[ 0]=6.081846 prevPhis[ 1]=-0.113623, nextPhis[ 1]=-0.081846 <==IsSwitchingOccur() T = 19.900000 Tnext = 19.905000 Time: 1.99000e+01 states: [ 9.56357e-01 -1.78723e+00] derivs: [ -1.78746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.905000 pESO->GetIndependentVar(): 19.905000 ==>IsSwitchingOccur() prevPhis[ 0]=6.081846, nextPhis[ 0]=6.049994 prevPhis[ 1]=-0.081846, nextPhis[ 1]=-0.049994 <==IsSwitchingOccur() T = 19.905000 Tnext = 19.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.910000 pESO->GetIndependentVar(): 19.910000 ==>IsSwitchingOccur() prevPhis[ 0]=6.049994, nextPhis[ 0]=6.018066 prevPhis[ 1]=-0.049994, nextPhis[ 1]=-0.018066 <==IsSwitchingOccur() T = 19.910000 Tnext = 19.915000 Time: 1.99100e+01 states: [ 9.38431e-01 -1.79723e+00] derivs: [ -1.79746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.915000 pESO->GetIndependentVar(): 19.915000 ==>IsSwitchingOccur() prevPhis[ 0]=6.018066, nextPhis[ 0]=5.986064 prevPhis[ 1]=-0.018066, nextPhis[ 1]=0.013936 <==IsSwitchingOccur() T = 19.915000 Tnext = 19.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.920000 pESO->GetIndependentVar(): 19.920000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986064, nextPhis[ 0]=5.953987 prevPhis[ 1]=0.013936, nextPhis[ 1]=0.046013 <==IsSwitchingOccur() T = 19.920000 Tnext = 19.925000 Time: 1.99200e+01 states: [ 9.20405e-01 -1.80723e+00] derivs: [ -1.80746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.925000 pESO->GetIndependentVar(): 19.925000 ==>IsSwitchingOccur() prevPhis[ 0]=5.953987, nextPhis[ 0]=5.921835 prevPhis[ 1]=0.046013, nextPhis[ 1]=0.078165 <==IsSwitchingOccur() T = 19.925000 Tnext = 19.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.930000 pESO->GetIndependentVar(): 19.930000 ==>IsSwitchingOccur() prevPhis[ 0]=5.921835, nextPhis[ 0]=5.889608 prevPhis[ 1]=0.078165, nextPhis[ 1]=0.110392 <==IsSwitchingOccur() T = 19.930000 Tnext = 19.935000 Time: 1.99300e+01 states: [ 9.02278e-01 -1.81723e+00] derivs: [ -1.81746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.935000 pESO->GetIndependentVar(): 19.935000 ==>IsSwitchingOccur() prevPhis[ 0]=5.889608, nextPhis[ 0]=5.857305 prevPhis[ 1]=0.110392, nextPhis[ 1]=0.142695 <==IsSwitchingOccur() T = 19.935000 Tnext = 19.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.940000 pESO->GetIndependentVar(): 19.940000 ==>IsSwitchingOccur() prevPhis[ 0]=5.857305, nextPhis[ 0]=5.824928 prevPhis[ 1]=0.142695, nextPhis[ 1]=0.175072 <==IsSwitchingOccur() T = 19.940000 Tnext = 19.945000 Time: 1.99400e+01 states: [ 8.84052e-01 -1.82723e+00] derivs: [ -1.82746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.945000 pESO->GetIndependentVar(): 19.945000 ==>IsSwitchingOccur() prevPhis[ 0]=5.824928, nextPhis[ 0]=5.792476 prevPhis[ 1]=0.175072, nextPhis[ 1]=0.207524 <==IsSwitchingOccur() T = 19.945000 Tnext = 19.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.950000 pESO->GetIndependentVar(): 19.950000 ==>IsSwitchingOccur() prevPhis[ 0]=5.792476, nextPhis[ 0]=5.759949 prevPhis[ 1]=0.207524, nextPhis[ 1]=0.240051 <==IsSwitchingOccur() T = 19.950000 Tnext = 19.955000 Time: 1.99500e+01 states: [ 8.65725e-01 -1.83723e+00] derivs: [ -1.83746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.955000 pESO->GetIndependentVar(): 19.955000 ==>IsSwitchingOccur() prevPhis[ 0]=5.759949, nextPhis[ 0]=5.727347 prevPhis[ 1]=0.240051, nextPhis[ 1]=0.272653 <==IsSwitchingOccur() T = 19.955000 Tnext = 19.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.960000 pESO->GetIndependentVar(): 19.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.727347, nextPhis[ 0]=5.694670 prevPhis[ 1]=0.272653, nextPhis[ 1]=0.305330 <==IsSwitchingOccur() T = 19.960000 Tnext = 19.965000 Time: 1.99600e+01 states: [ 8.47299e-01 -1.84723e+00] derivs: [ -1.84746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.965000 pESO->GetIndependentVar(): 19.965000 ==>IsSwitchingOccur() prevPhis[ 0]=5.694670, nextPhis[ 0]=5.661917 prevPhis[ 1]=0.305330, nextPhis[ 1]=0.338083 <==IsSwitchingOccur() T = 19.965000 Tnext = 19.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.970000 pESO->GetIndependentVar(): 19.970000 ==>IsSwitchingOccur() prevPhis[ 0]=5.661917, nextPhis[ 0]=5.629090 prevPhis[ 1]=0.338083, nextPhis[ 1]=0.370910 <==IsSwitchingOccur() T = 19.970000 Tnext = 19.975000 Time: 1.99700e+01 states: [ 8.28772e-01 -1.85723e+00] derivs: [ -1.85746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.975000 pESO->GetIndependentVar(): 19.975000 ==>IsSwitchingOccur() prevPhis[ 0]=5.629090, nextPhis[ 0]=5.596188 prevPhis[ 1]=0.370910, nextPhis[ 1]=0.403812 <==IsSwitchingOccur() T = 19.975000 Tnext = 19.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.980000 pESO->GetIndependentVar(): 19.980000 ==>IsSwitchingOccur() prevPhis[ 0]=5.596188, nextPhis[ 0]=5.563211 prevPhis[ 1]=0.403812, nextPhis[ 1]=0.436789 <==IsSwitchingOccur() T = 19.980000 Tnext = 19.985000 Time: 1.99800e+01 states: [ 8.10146e-01 -1.86723e+00] derivs: [ -1.86746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.985000 pESO->GetIndependentVar(): 19.985000 ==>IsSwitchingOccur() prevPhis[ 0]=5.563211, nextPhis[ 0]=5.530159 prevPhis[ 1]=0.436789, nextPhis[ 1]=0.469841 <==IsSwitchingOccur() T = 19.985000 Tnext = 19.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.990000 pESO->GetIndependentVar(): 19.990000 ==>IsSwitchingOccur() prevPhis[ 0]=5.530159, nextPhis[ 0]=5.497032 prevPhis[ 1]=0.469841, nextPhis[ 1]=0.502968 <==IsSwitchingOccur() T = 19.990000 Tnext = 19.995000 Time: 1.99900e+01 states: [ 7.91419e-01 -1.87723e+00] derivs: [ -1.87746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 19.995000 pESO->GetIndependentVar(): 19.995000 ==>IsSwitchingOccur() prevPhis[ 0]=5.497032, nextPhis[ 0]=5.463829 prevPhis[ 1]=0.502968, nextPhis[ 1]=0.536171 <==IsSwitchingOccur() T = 19.995000 Tnext = 20.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.000000 pESO->GetIndependentVar(): 20.000000 ==>IsSwitchingOccur() prevPhis[ 0]=5.463829, nextPhis[ 0]=5.430552 prevPhis[ 1]=0.536171, nextPhis[ 1]=0.569448 <==IsSwitchingOccur() T = 20.000000 Tnext = 20.005000 Time: 2.00000e+01 states: [ 7.72593e-01 -1.88723e+00] derivs: [ -1.88746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.005000 pESO->GetIndependentVar(): 20.005000 ==>IsSwitchingOccur() prevPhis[ 0]=5.430552, nextPhis[ 0]=5.397200 prevPhis[ 1]=0.569448, nextPhis[ 1]=0.602800 <==IsSwitchingOccur() T = 20.005000 Tnext = 20.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.010000 pESO->GetIndependentVar(): 20.010000 ==>IsSwitchingOccur() prevPhis[ 0]=5.397200, nextPhis[ 0]=5.363773 prevPhis[ 1]=0.602800, nextPhis[ 1]=0.636227 <==IsSwitchingOccur() T = 20.010000 Tnext = 20.015000 Time: 2.00100e+01 states: [ 7.53666e-01 -1.89723e+00] derivs: [ -1.89746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.015000 pESO->GetIndependentVar(): 20.015000 ==>IsSwitchingOccur() prevPhis[ 0]=5.363773, nextPhis[ 0]=5.330271 prevPhis[ 1]=0.636227, nextPhis[ 1]=0.669729 <==IsSwitchingOccur() T = 20.015000 Tnext = 20.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.020000 pESO->GetIndependentVar(): 20.020000 ==>IsSwitchingOccur() prevPhis[ 0]=5.330271, nextPhis[ 0]=5.296693 prevPhis[ 1]=0.669729, nextPhis[ 1]=0.703307 <==IsSwitchingOccur() T = 20.020000 Tnext = 20.025000 Time: 2.00200e+01 states: [ 7.34640e-01 -1.90723e+00] derivs: [ -1.90746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.025000 pESO->GetIndependentVar(): 20.025000 ==>IsSwitchingOccur() prevPhis[ 0]=5.296693, nextPhis[ 0]=5.263041 prevPhis[ 1]=0.703307, nextPhis[ 1]=0.736959 <==IsSwitchingOccur() T = 20.025000 Tnext = 20.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.030000 pESO->GetIndependentVar(): 20.030000 ==>IsSwitchingOccur() prevPhis[ 0]=5.263041, nextPhis[ 0]=5.229314 prevPhis[ 1]=0.736959, nextPhis[ 1]=0.770686 <==IsSwitchingOccur() T = 20.030000 Tnext = 20.035000 Time: 2.00300e+01 states: [ 7.15514e-01 -1.91723e+00] derivs: [ -1.91746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.035000 pESO->GetIndependentVar(): 20.035000 ==>IsSwitchingOccur() prevPhis[ 0]=5.229314, nextPhis[ 0]=5.195512 prevPhis[ 1]=0.770686, nextPhis[ 1]=0.804488 <==IsSwitchingOccur() T = 20.035000 Tnext = 20.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.040000 pESO->GetIndependentVar(): 20.040000 ==>IsSwitchingOccur() prevPhis[ 0]=5.195512, nextPhis[ 0]=5.161635 prevPhis[ 1]=0.804488, nextPhis[ 1]=0.838365 <==IsSwitchingOccur() T = 20.040000 Tnext = 20.045000 Time: 2.00400e+01 states: [ 6.96287e-01 -1.92723e+00] derivs: [ -1.92746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.045000 pESO->GetIndependentVar(): 20.045000 ==>IsSwitchingOccur() prevPhis[ 0]=5.161635, nextPhis[ 0]=5.127683 prevPhis[ 1]=0.838365, nextPhis[ 1]=0.872317 <==IsSwitchingOccur() T = 20.045000 Tnext = 20.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.050000 pESO->GetIndependentVar(): 20.050000 ==>IsSwitchingOccur() prevPhis[ 0]=5.127683, nextPhis[ 0]=5.093655 prevPhis[ 1]=0.872317, nextPhis[ 1]=0.906345 <==IsSwitchingOccur() T = 20.050000 Tnext = 20.055000 Time: 2.00500e+01 states: [ 6.76961e-01 -1.93723e+00] derivs: [ -1.93746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.055000 pESO->GetIndependentVar(): 20.055000 ==>IsSwitchingOccur() prevPhis[ 0]=5.093655, nextPhis[ 0]=5.059553 prevPhis[ 1]=0.906345, nextPhis[ 1]=0.940447 <==IsSwitchingOccur() T = 20.055000 Tnext = 20.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.060000 pESO->GetIndependentVar(): 20.060000 ==>IsSwitchingOccur() prevPhis[ 0]=5.059553, nextPhis[ 0]=5.025376 prevPhis[ 1]=0.940447, nextPhis[ 1]=0.974624 <==IsSwitchingOccur() T = 20.060000 Tnext = 20.065000 Time: 2.00600e+01 states: [ 6.57534e-01 -1.94723e+00] derivs: [ -1.94746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.065000 pESO->GetIndependentVar(): 20.065000 ==>IsSwitchingOccur() prevPhis[ 0]=5.025376, nextPhis[ 0]=4.991124 prevPhis[ 1]=0.974624, nextPhis[ 1]=1.008876 <==IsSwitchingOccur() T = 20.065000 Tnext = 20.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.070000 pESO->GetIndependentVar(): 20.070000 ==>IsSwitchingOccur() prevPhis[ 0]=4.991124, nextPhis[ 0]=4.956797 prevPhis[ 1]=1.008876, nextPhis[ 1]=1.043203 <==IsSwitchingOccur() T = 20.070000 Tnext = 20.075000 Time: 2.00700e+01 states: [ 6.38008e-01 -1.95723e+00] derivs: [ -1.95746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.075000 pESO->GetIndependentVar(): 20.075000 ==>IsSwitchingOccur() prevPhis[ 0]=4.956797, nextPhis[ 0]=4.922395 prevPhis[ 1]=1.043203, nextPhis[ 1]=1.077605 <==IsSwitchingOccur() T = 20.075000 Tnext = 20.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.080000 pESO->GetIndependentVar(): 20.080000 ==>IsSwitchingOccur() prevPhis[ 0]=4.922395, nextPhis[ 0]=4.887917 prevPhis[ 1]=1.077605, nextPhis[ 1]=1.112083 <==IsSwitchingOccur() T = 20.080000 Tnext = 20.085000 Time: 2.00800e+01 states: [ 6.18381e-01 -1.96723e+00] derivs: [ -1.96746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.085000 pESO->GetIndependentVar(): 20.085000 ==>IsSwitchingOccur() prevPhis[ 0]=4.887917, nextPhis[ 0]=4.853365 prevPhis[ 1]=1.112083, nextPhis[ 1]=1.146635 <==IsSwitchingOccur() T = 20.085000 Tnext = 20.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.090000 pESO->GetIndependentVar(): 20.090000 ==>IsSwitchingOccur() prevPhis[ 0]=4.853365, nextPhis[ 0]=4.818738 prevPhis[ 1]=1.146635, nextPhis[ 1]=1.181262 <==IsSwitchingOccur() T = 20.090000 Tnext = 20.095000 Time: 2.00900e+01 states: [ 5.98655e-01 -1.97723e+00] derivs: [ -1.97746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.095000 pESO->GetIndependentVar(): 20.095000 ==>IsSwitchingOccur() prevPhis[ 0]=4.818738, nextPhis[ 0]=4.784036 prevPhis[ 1]=1.181262, nextPhis[ 1]=1.215964 <==IsSwitchingOccur() T = 20.095000 Tnext = 20.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.100000 pESO->GetIndependentVar(): 20.100000 ==>IsSwitchingOccur() prevPhis[ 0]=4.784036, nextPhis[ 0]=4.749259 prevPhis[ 1]=1.215964, nextPhis[ 1]=1.250741 <==IsSwitchingOccur() T = 20.100000 Tnext = 20.105000 Time: 2.01000e+01 states: [ 5.78828e-01 -1.98723e+00] derivs: [ -1.98746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.105000 pESO->GetIndependentVar(): 20.105000 ==>IsSwitchingOccur() prevPhis[ 0]=4.749259, nextPhis[ 0]=4.714406 prevPhis[ 1]=1.250741, nextPhis[ 1]=1.285594 <==IsSwitchingOccur() T = 20.105000 Tnext = 20.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.110000 pESO->GetIndependentVar(): 20.110000 ==>IsSwitchingOccur() prevPhis[ 0]=4.714406, nextPhis[ 0]=4.679479 prevPhis[ 1]=1.285594, nextPhis[ 1]=1.320521 <==IsSwitchingOccur() T = 20.110000 Tnext = 20.115000 Time: 2.01100e+01 states: [ 5.58902e-01 -1.99723e+00] derivs: [ -1.99746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.115000 pESO->GetIndependentVar(): 20.115000 ==>IsSwitchingOccur() prevPhis[ 0]=4.679479, nextPhis[ 0]=4.644477 prevPhis[ 1]=1.320521, nextPhis[ 1]=1.355523 <==IsSwitchingOccur() T = 20.115000 Tnext = 20.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.120000 pESO->GetIndependentVar(): 20.120000 ==>IsSwitchingOccur() prevPhis[ 0]=4.644477, nextPhis[ 0]=4.609400 prevPhis[ 1]=1.355523, nextPhis[ 1]=1.390600 <==IsSwitchingOccur() T = 20.120000 Tnext = 20.125000 Time: 2.01200e+01 states: [ 5.38875e-01 -2.00723e+00] derivs: [ -2.00746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.125000 pESO->GetIndependentVar(): 20.125000 ==>IsSwitchingOccur() prevPhis[ 0]=4.609400, nextPhis[ 0]=4.574248 prevPhis[ 1]=1.390600, nextPhis[ 1]=1.425752 <==IsSwitchingOccur() T = 20.125000 Tnext = 20.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.130000 pESO->GetIndependentVar(): 20.130000 ==>IsSwitchingOccur() prevPhis[ 0]=4.574248, nextPhis[ 0]=4.539021 prevPhis[ 1]=1.425752, nextPhis[ 1]=1.460979 <==IsSwitchingOccur() T = 20.130000 Tnext = 20.135000 Time: 2.01300e+01 states: [ 5.18749e-01 -2.01723e+00] derivs: [ -2.01746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.135000 pESO->GetIndependentVar(): 20.135000 ==>IsSwitchingOccur() prevPhis[ 0]=4.539021, nextPhis[ 0]=4.503718 prevPhis[ 1]=1.460979, nextPhis[ 1]=1.496282 <==IsSwitchingOccur() T = 20.135000 Tnext = 20.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.140000 pESO->GetIndependentVar(): 20.140000 ==>IsSwitchingOccur() prevPhis[ 0]=4.503718, nextPhis[ 0]=4.468341 prevPhis[ 1]=1.496282, nextPhis[ 1]=1.531659 <==IsSwitchingOccur() T = 20.140000 Tnext = 20.145000 Time: 2.01400e+01 states: [ 4.98523e-01 -2.02723e+00] derivs: [ -2.02746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.145000 pESO->GetIndependentVar(): 20.145000 ==>IsSwitchingOccur() prevPhis[ 0]=4.468341, nextPhis[ 0]=4.432889 prevPhis[ 1]=1.531659, nextPhis[ 1]=1.567111 <==IsSwitchingOccur() T = 20.145000 Tnext = 20.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.150000 pESO->GetIndependentVar(): 20.150000 ==>IsSwitchingOccur() prevPhis[ 0]=4.432889, nextPhis[ 0]=4.397362 prevPhis[ 1]=1.567111, nextPhis[ 1]=1.602638 <==IsSwitchingOccur() T = 20.150000 Tnext = 20.155000 Time: 2.01500e+01 states: [ 4.78196e-01 -2.03723e+00] derivs: [ -2.03746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.155000 pESO->GetIndependentVar(): 20.155000 ==>IsSwitchingOccur() prevPhis[ 0]=4.397362, nextPhis[ 0]=4.361760 prevPhis[ 1]=1.602638, nextPhis[ 1]=1.638240 <==IsSwitchingOccur() T = 20.155000 Tnext = 20.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.160000 pESO->GetIndependentVar(): 20.160000 ==>IsSwitchingOccur() prevPhis[ 0]=4.361760, nextPhis[ 0]=4.326083 prevPhis[ 1]=1.638240, nextPhis[ 1]=1.673917 <==IsSwitchingOccur() T = 20.160000 Tnext = 20.165000 Time: 2.01600e+01 states: [ 4.57770e-01 -2.04723e+00] derivs: [ -2.04746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.165000 pESO->GetIndependentVar(): 20.165000 ==>IsSwitchingOccur() prevPhis[ 0]=4.326083, nextPhis[ 0]=4.290330 prevPhis[ 1]=1.673917, nextPhis[ 1]=1.709670 <==IsSwitchingOccur() T = 20.165000 Tnext = 20.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.170000 pESO->GetIndependentVar(): 20.170000 ==>IsSwitchingOccur() prevPhis[ 0]=4.290330, nextPhis[ 0]=4.254503 prevPhis[ 1]=1.709670, nextPhis[ 1]=1.745497 <==IsSwitchingOccur() T = 20.170000 Tnext = 20.175000 Time: 2.01700e+01 states: [ 4.37243e-01 -2.05723e+00] derivs: [ -2.05746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.175000 pESO->GetIndependentVar(): 20.175000 ==>IsSwitchingOccur() prevPhis[ 0]=4.254503, nextPhis[ 0]=4.218601 prevPhis[ 1]=1.745497, nextPhis[ 1]=1.781399 <==IsSwitchingOccur() T = 20.175000 Tnext = 20.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.180000 pESO->GetIndependentVar(): 20.180000 ==>IsSwitchingOccur() prevPhis[ 0]=4.218601, nextPhis[ 0]=4.182624 prevPhis[ 1]=1.781399, nextPhis[ 1]=1.817376 <==IsSwitchingOccur() T = 20.180000 Tnext = 20.185000 Time: 2.01800e+01 states: [ 4.16617e-01 -2.06723e+00] derivs: [ -2.06746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.185000 pESO->GetIndependentVar(): 20.185000 ==>IsSwitchingOccur() prevPhis[ 0]=4.182624, nextPhis[ 0]=4.146572 prevPhis[ 1]=1.817376, nextPhis[ 1]=1.853428 <==IsSwitchingOccur() T = 20.185000 Tnext = 20.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.190000 pESO->GetIndependentVar(): 20.190000 ==>IsSwitchingOccur() prevPhis[ 0]=4.146572, nextPhis[ 0]=4.110444 prevPhis[ 1]=1.853428, nextPhis[ 1]=1.889556 <==IsSwitchingOccur() T = 20.190000 Tnext = 20.195000 Time: 2.01900e+01 states: [ 3.95890e-01 -2.07723e+00] derivs: [ -2.07746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.195000 pESO->GetIndependentVar(): 20.195000 ==>IsSwitchingOccur() prevPhis[ 0]=4.110444, nextPhis[ 0]=4.074242 prevPhis[ 1]=1.889556, nextPhis[ 1]=1.925758 <==IsSwitchingOccur() T = 20.195000 Tnext = 20.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.200000 pESO->GetIndependentVar(): 20.200000 ==>IsSwitchingOccur() prevPhis[ 0]=4.074242, nextPhis[ 0]=4.037965 prevPhis[ 1]=1.925758, nextPhis[ 1]=1.962035 <==IsSwitchingOccur() T = 20.200000 Tnext = 20.205000 Time: 2.02000e+01 states: [ 3.75064e-01 -2.08723e+00] derivs: [ -2.08746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.205000 pESO->GetIndependentVar(): 20.205000 ==>IsSwitchingOccur() prevPhis[ 0]=4.037965, nextPhis[ 0]=4.001613 prevPhis[ 1]=1.962035, nextPhis[ 1]=1.998387 <==IsSwitchingOccur() T = 20.205000 Tnext = 20.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.210000 pESO->GetIndependentVar(): 20.210000 ==>IsSwitchingOccur() prevPhis[ 0]=4.001613, nextPhis[ 0]=3.965186 prevPhis[ 1]=1.998387, nextPhis[ 1]=2.034814 <==IsSwitchingOccur() T = 20.210000 Tnext = 20.215000 Time: 2.02100e+01 states: [ 3.54137e-01 -2.09723e+00] derivs: [ -2.09746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.215000 pESO->GetIndependentVar(): 20.215000 ==>IsSwitchingOccur() prevPhis[ 0]=3.965186, nextPhis[ 0]=3.928684 prevPhis[ 1]=2.034814, nextPhis[ 1]=2.071316 <==IsSwitchingOccur() T = 20.215000 Tnext = 20.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.220000 pESO->GetIndependentVar(): 20.220000 ==>IsSwitchingOccur() prevPhis[ 0]=3.928684, nextPhis[ 0]=3.892106 prevPhis[ 1]=2.071316, nextPhis[ 1]=2.107894 <==IsSwitchingOccur() T = 20.220000 Tnext = 20.225000 Time: 2.02200e+01 states: [ 3.33111e-01 -2.10723e+00] derivs: [ -2.10746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.225000 pESO->GetIndependentVar(): 20.225000 ==>IsSwitchingOccur() prevPhis[ 0]=3.892106, nextPhis[ 0]=3.855454 prevPhis[ 1]=2.107894, nextPhis[ 1]=2.144546 <==IsSwitchingOccur() T = 20.225000 Tnext = 20.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.230000 pESO->GetIndependentVar(): 20.230000 ==>IsSwitchingOccur() prevPhis[ 0]=3.855454, nextPhis[ 0]=3.818727 prevPhis[ 1]=2.144546, nextPhis[ 1]=2.181273 <==IsSwitchingOccur() T = 20.230000 Tnext = 20.235000 Time: 2.02300e+01 states: [ 3.11985e-01 -2.11723e+00] derivs: [ -2.11746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.235000 pESO->GetIndependentVar(): 20.235000 ==>IsSwitchingOccur() prevPhis[ 0]=3.818727, nextPhis[ 0]=3.781925 prevPhis[ 1]=2.181273, nextPhis[ 1]=2.218075 <==IsSwitchingOccur() T = 20.235000 Tnext = 20.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.240000 pESO->GetIndependentVar(): 20.240000 ==>IsSwitchingOccur() prevPhis[ 0]=3.781925, nextPhis[ 0]=3.745048 prevPhis[ 1]=2.218075, nextPhis[ 1]=2.254952 <==IsSwitchingOccur() T = 20.240000 Tnext = 20.245000 Time: 2.02400e+01 states: [ 2.90758e-01 -2.12723e+00] derivs: [ -2.12746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.245000 pESO->GetIndependentVar(): 20.245000 ==>IsSwitchingOccur() prevPhis[ 0]=3.745048, nextPhis[ 0]=3.708096 prevPhis[ 1]=2.254952, nextPhis[ 1]=2.291904 <==IsSwitchingOccur() T = 20.245000 Tnext = 20.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.250000 pESO->GetIndependentVar(): 20.250000 ==>IsSwitchingOccur() prevPhis[ 0]=3.708096, nextPhis[ 0]=3.671068 prevPhis[ 1]=2.291904, nextPhis[ 1]=2.328932 <==IsSwitchingOccur() T = 20.250000 Tnext = 20.255000 Time: 2.02500e+01 states: [ 2.69432e-01 -2.13723e+00] derivs: [ -2.13746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.255000 pESO->GetIndependentVar(): 20.255000 ==>IsSwitchingOccur() prevPhis[ 0]=3.671068, nextPhis[ 0]=3.633966 prevPhis[ 1]=2.328932, nextPhis[ 1]=2.366034 <==IsSwitchingOccur() T = 20.255000 Tnext = 20.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.260000 pESO->GetIndependentVar(): 20.260000 ==>IsSwitchingOccur() prevPhis[ 0]=3.633966, nextPhis[ 0]=3.596789 prevPhis[ 1]=2.366034, nextPhis[ 1]=2.403211 <==IsSwitchingOccur() T = 20.260000 Tnext = 20.265000 Time: 2.02600e+01 states: [ 2.48005e-01 -2.14723e+00] derivs: [ -2.14746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.265000 pESO->GetIndependentVar(): 20.265000 ==>IsSwitchingOccur() prevPhis[ 0]=3.596789, nextPhis[ 0]=3.559537 prevPhis[ 1]=2.403211, nextPhis[ 1]=2.440463 <==IsSwitchingOccur() T = 20.265000 Tnext = 20.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.270000 pESO->GetIndependentVar(): 20.270000 ==>IsSwitchingOccur() prevPhis[ 0]=3.559537, nextPhis[ 0]=3.522210 prevPhis[ 1]=2.440463, nextPhis[ 1]=2.477790 <==IsSwitchingOccur() T = 20.270000 Tnext = 20.275000 Time: 2.02700e+01 states: [ 2.26479e-01 -2.15723e+00] derivs: [ -2.15746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.275000 pESO->GetIndependentVar(): 20.275000 ==>IsSwitchingOccur() prevPhis[ 0]=3.522210, nextPhis[ 0]=3.484807 prevPhis[ 1]=2.477790, nextPhis[ 1]=2.515193 <==IsSwitchingOccur() T = 20.275000 Tnext = 20.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.280000 pESO->GetIndependentVar(): 20.280000 ==>IsSwitchingOccur() prevPhis[ 0]=3.484807, nextPhis[ 0]=3.447330 prevPhis[ 1]=2.515193, nextPhis[ 1]=2.552670 <==IsSwitchingOccur() T = 20.280000 Tnext = 20.285000 Time: 2.02800e+01 states: [ 2.04852e-01 -2.16723e+00] derivs: [ -2.16746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.285000 pESO->GetIndependentVar(): 20.285000 ==>IsSwitchingOccur() prevPhis[ 0]=3.447330, nextPhis[ 0]=3.409778 prevPhis[ 1]=2.552670, nextPhis[ 1]=2.590222 <==IsSwitchingOccur() T = 20.285000 Tnext = 20.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.290000 pESO->GetIndependentVar(): 20.290000 ==>IsSwitchingOccur() prevPhis[ 0]=3.409778, nextPhis[ 0]=3.372151 prevPhis[ 1]=2.590222, nextPhis[ 1]=2.627849 <==IsSwitchingOccur() T = 20.290000 Tnext = 20.295000 Time: 2.02900e+01 states: [ 1.83126e-01 -2.17723e+00] derivs: [ -2.17746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.295000 pESO->GetIndependentVar(): 20.295000 ==>IsSwitchingOccur() prevPhis[ 0]=3.372151, nextPhis[ 0]=3.334449 prevPhis[ 1]=2.627849, nextPhis[ 1]=2.665551 <==IsSwitchingOccur() T = 20.295000 Tnext = 20.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.300000 pESO->GetIndependentVar(): 20.300000 ==>IsSwitchingOccur() prevPhis[ 0]=3.334449, nextPhis[ 0]=3.296672 prevPhis[ 1]=2.665551, nextPhis[ 1]=2.703328 <==IsSwitchingOccur() T = 20.300000 Tnext = 20.305000 Time: 2.03000e+01 states: [ 1.61299e-01 -2.18723e+00] derivs: [ -2.18746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.305000 pESO->GetIndependentVar(): 20.305000 ==>IsSwitchingOccur() prevPhis[ 0]=3.296672, nextPhis[ 0]=3.258819 prevPhis[ 1]=2.703328, nextPhis[ 1]=2.741181 <==IsSwitchingOccur() T = 20.305000 Tnext = 20.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.310000 pESO->GetIndependentVar(): 20.310000 ==>IsSwitchingOccur() prevPhis[ 0]=3.258819, nextPhis[ 0]=3.220892 prevPhis[ 1]=2.741181, nextPhis[ 1]=2.779108 <==IsSwitchingOccur() T = 20.310000 Tnext = 20.315000 Time: 2.03100e+01 states: [ 1.39373e-01 -2.19723e+00] derivs: [ -2.19746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.315000 pESO->GetIndependentVar(): 20.315000 ==>IsSwitchingOccur() prevPhis[ 0]=3.220892, nextPhis[ 0]=3.182890 prevPhis[ 1]=2.779108, nextPhis[ 1]=2.817110 <==IsSwitchingOccur() T = 20.315000 Tnext = 20.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.320000 pESO->GetIndependentVar(): 20.320000 ==>IsSwitchingOccur() prevPhis[ 0]=3.182890, nextPhis[ 0]=3.144813 prevPhis[ 1]=2.817110, nextPhis[ 1]=2.855187 <==IsSwitchingOccur() T = 20.320000 Tnext = 20.325000 Time: 2.03200e+01 states: [ 1.17346e-01 -2.20723e+00] derivs: [ -2.20746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.325000 pESO->GetIndependentVar(): 20.325000 ==>IsSwitchingOccur() prevPhis[ 0]=3.144813, nextPhis[ 0]=3.106661 prevPhis[ 1]=2.855187, nextPhis[ 1]=2.893339 <==IsSwitchingOccur() T = 20.325000 Tnext = 20.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.330000 pESO->GetIndependentVar(): 20.330000 ==>IsSwitchingOccur() prevPhis[ 0]=3.106661, nextPhis[ 0]=3.068434 prevPhis[ 1]=2.893339, nextPhis[ 1]=2.931566 <==IsSwitchingOccur() T = 20.330000 Tnext = 20.335000 Time: 2.03300e+01 states: [ 9.52200e-02 -2.21723e+00] derivs: [ -2.21746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.335000 pESO->GetIndependentVar(): 20.335000 ==>IsSwitchingOccur() prevPhis[ 0]=3.068434, nextPhis[ 0]=3.030131 prevPhis[ 1]=2.931566, nextPhis[ 1]=2.969869 <==IsSwitchingOccur() T = 20.335000 Tnext = 20.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.340000 pESO->GetIndependentVar(): 20.340000 ==>IsSwitchingOccur() prevPhis[ 0]=3.030131, nextPhis[ 0]=2.991754 prevPhis[ 1]=2.969869, nextPhis[ 1]=3.008246 <==IsSwitchingOccur() T = 20.340000 Tnext = 20.345000 Time: 2.03400e+01 states: [ 7.29936e-02 -2.22723e+00] derivs: [ -2.22746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.345000 pESO->GetIndependentVar(): 20.345000 ==>IsSwitchingOccur() prevPhis[ 0]=2.991754, nextPhis[ 0]=2.953302 prevPhis[ 1]=3.008246, nextPhis[ 1]=3.046698 <==IsSwitchingOccur() T = 20.345000 Tnext = 20.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.350000 pESO->GetIndependentVar(): 20.350000 ==>IsSwitchingOccur() prevPhis[ 0]=2.953302, nextPhis[ 0]=2.914775 prevPhis[ 1]=3.046698, nextPhis[ 1]=3.085225 <==IsSwitchingOccur() T = 20.350000 Tnext = 20.355000 Time: 2.03500e+01 states: [ 5.06671e-02 -2.23723e+00] derivs: [ -2.23746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.355000 pESO->GetIndependentVar(): 20.355000 ==>IsSwitchingOccur() prevPhis[ 0]=2.914775, nextPhis[ 0]=2.876173 prevPhis[ 1]=3.085225, nextPhis[ 1]=3.123827 <==IsSwitchingOccur() T = 20.355000 Tnext = 20.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.360000 pESO->GetIndependentVar(): 20.360000 ==>IsSwitchingOccur() prevPhis[ 0]=2.876173, nextPhis[ 0]=2.837496 prevPhis[ 1]=3.123827, nextPhis[ 1]=3.162504 <==IsSwitchingOccur() T = 20.360000 Tnext = 20.365000 Time: 2.03600e+01 states: [ 2.82407e-02 -2.24723e+00] derivs: [ -2.24746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.365000 pESO->GetIndependentVar(): 20.365000 ==>IsSwitchingOccur() prevPhis[ 0]=2.837496, nextPhis[ 0]=2.798743 prevPhis[ 1]=3.162504, nextPhis[ 1]=3.201257 <==IsSwitchingOccur() T = 20.365000 Tnext = 20.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.370000 pESO->GetIndependentVar(): 20.370000 ==>IsSwitchingOccur() prevPhis[ 0]=2.798743, nextPhis[ 0]=2.759916 prevPhis[ 1]=3.201257, nextPhis[ 1]=3.240084 <==IsSwitchingOccur() T = 20.370000 Tnext = 20.375000 Time: 2.03700e+01 states: [ 5.71409e-03 -2.25723e+00] derivs: [ -2.25773e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.375000 pESO->GetIndependentVar(): 20.375000 ==>IsSwitchingOccur() prevPhis[ 0]=2.759916, nextPhis[ 0]=2.721013 prevPhis[ 1]=3.240084, nextPhis[ 1]=3.278987 <==IsSwitchingOccur() T = 20.375000 Tnext = 20.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.380000 pESO->GetIndependentVar(): 20.380000 ==>IsSwitchingOccur() prevPhis[ 0]=2.721013, nextPhis[ 0]=2.682036 prevPhis[ 1]=3.278987, nextPhis[ 1]=3.317964 <==IsSwitchingOccur() T = 20.380000 Tnext = 20.385000 Time: 2.03800e+01 states: [ -1.69125e-02 -2.26723e+00] derivs: [ -2.26773e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.385000 pESO->GetIndependentVar(): 20.385000 ==>IsSwitchingOccur() prevPhis[ 0]=2.682036, nextPhis[ 0]=2.642983 prevPhis[ 1]=3.317964, nextPhis[ 1]=3.357017 <==IsSwitchingOccur() T = 20.385000 Tnext = 20.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.390000 pESO->GetIndependentVar(): 20.390000 ==>IsSwitchingOccur() prevPhis[ 0]=2.642983, nextPhis[ 0]=2.603856 prevPhis[ 1]=3.357017, nextPhis[ 1]=3.396144 <==IsSwitchingOccur() T = 20.390000 Tnext = 20.395000 Time: 2.03900e+01 states: [ -3.96391e-02 -2.27723e+00] derivs: [ -2.27773e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.395000 pESO->GetIndependentVar(): 20.395000 ==>IsSwitchingOccur() prevPhis[ 0]=2.603856, nextPhis[ 0]=2.564654 prevPhis[ 1]=3.396144, nextPhis[ 1]=3.435346 <==IsSwitchingOccur() T = 20.395000 Tnext = 20.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.400000 pESO->GetIndependentVar(): 20.400000 ==>IsSwitchingOccur() prevPhis[ 0]=2.564654, nextPhis[ 0]=2.525377 prevPhis[ 1]=3.435346, nextPhis[ 1]=3.474623 <==IsSwitchingOccur() T = 20.400000 Tnext = 20.405000 Time: 2.04000e+01 states: [ -6.24656e-02 -2.28723e+00] derivs: [ -2.28746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.405000 pESO->GetIndependentVar(): 20.405000 ==>IsSwitchingOccur() prevPhis[ 0]=2.525377, nextPhis[ 0]=2.486025 prevPhis[ 1]=3.474623, nextPhis[ 1]=3.513975 <==IsSwitchingOccur() T = 20.405000 Tnext = 20.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.410000 pESO->GetIndependentVar(): 20.410000 ==>IsSwitchingOccur() prevPhis[ 0]=2.486025, nextPhis[ 0]=2.446597 prevPhis[ 1]=3.513975, nextPhis[ 1]=3.553403 <==IsSwitchingOccur() T = 20.410000 Tnext = 20.415000 Time: 2.04100e+01 states: [ -8.53920e-02 -2.29723e+00] derivs: [ -2.29746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.415000 pESO->GetIndependentVar(): 20.415000 ==>IsSwitchingOccur() prevPhis[ 0]=2.446597, nextPhis[ 0]=2.407095 prevPhis[ 1]=3.553403, nextPhis[ 1]=3.592905 <==IsSwitchingOccur() T = 20.415000 Tnext = 20.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.420000 pESO->GetIndependentVar(): 20.420000 ==>IsSwitchingOccur() prevPhis[ 0]=2.407095, nextPhis[ 0]=2.367518 prevPhis[ 1]=3.592905, nextPhis[ 1]=3.632482 <==IsSwitchingOccur() T = 20.420000 Tnext = 20.425000 Time: 2.04200e+01 states: [ -1.08418e-01 -2.30723e+00] derivs: [ -2.30746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.425000 pESO->GetIndependentVar(): 20.425000 ==>IsSwitchingOccur() prevPhis[ 0]=2.367518, nextPhis[ 0]=2.327866 prevPhis[ 1]=3.632482, nextPhis[ 1]=3.672134 <==IsSwitchingOccur() T = 20.425000 Tnext = 20.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.430000 pESO->GetIndependentVar(): 20.430000 ==>IsSwitchingOccur() prevPhis[ 0]=2.327866, nextPhis[ 0]=2.288139 prevPhis[ 1]=3.672134, nextPhis[ 1]=3.711861 <==IsSwitchingOccur() T = 20.430000 Tnext = 20.435000 Time: 2.04300e+01 states: [ -1.31545e-01 -2.31723e+00] derivs: [ -2.31746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.435000 pESO->GetIndependentVar(): 20.435000 ==>IsSwitchingOccur() prevPhis[ 0]=2.288139, nextPhis[ 0]=2.248337 prevPhis[ 1]=3.711861, nextPhis[ 1]=3.751663 <==IsSwitchingOccur() T = 20.435000 Tnext = 20.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.440000 pESO->GetIndependentVar(): 20.440000 ==>IsSwitchingOccur() prevPhis[ 0]=2.248337, nextPhis[ 0]=2.208459 prevPhis[ 1]=3.751663, nextPhis[ 1]=3.791541 <==IsSwitchingOccur() T = 20.440000 Tnext = 20.445000 Time: 2.04400e+01 states: [ -1.54771e-01 -2.32723e+00] derivs: [ -2.32746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.445000 pESO->GetIndependentVar(): 20.445000 ==>IsSwitchingOccur() prevPhis[ 0]=2.208459, nextPhis[ 0]=2.168507 prevPhis[ 1]=3.791541, nextPhis[ 1]=3.831493 <==IsSwitchingOccur() T = 20.445000 Tnext = 20.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.450000 pESO->GetIndependentVar(): 20.450000 ==>IsSwitchingOccur() prevPhis[ 0]=2.168507, nextPhis[ 0]=2.128480 prevPhis[ 1]=3.831493, nextPhis[ 1]=3.871520 <==IsSwitchingOccur() T = 20.450000 Tnext = 20.455000 Time: 2.04500e+01 states: [ -1.78098e-01 -2.33723e+00] derivs: [ -2.33746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.455000 pESO->GetIndependentVar(): 20.455000 ==>IsSwitchingOccur() prevPhis[ 0]=2.128480, nextPhis[ 0]=2.088378 prevPhis[ 1]=3.871520, nextPhis[ 1]=3.911622 <==IsSwitchingOccur() T = 20.455000 Tnext = 20.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.460000 pESO->GetIndependentVar(): 20.460000 ==>IsSwitchingOccur() prevPhis[ 0]=2.088378, nextPhis[ 0]=2.048201 prevPhis[ 1]=3.911622, nextPhis[ 1]=3.951799 <==IsSwitchingOccur() T = 20.460000 Tnext = 20.465000 Time: 2.04600e+01 states: [ -2.01524e-01 -2.34723e+00] derivs: [ -2.34746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.465000 pESO->GetIndependentVar(): 20.465000 ==>IsSwitchingOccur() prevPhis[ 0]=2.048201, nextPhis[ 0]=2.007948 prevPhis[ 1]=3.951799, nextPhis[ 1]=3.992052 <==IsSwitchingOccur() T = 20.465000 Tnext = 20.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.470000 pESO->GetIndependentVar(): 20.470000 ==>IsSwitchingOccur() prevPhis[ 0]=2.007948, nextPhis[ 0]=1.967621 prevPhis[ 1]=3.992052, nextPhis[ 1]=4.032379 <==IsSwitchingOccur() T = 20.470000 Tnext = 20.475000 Time: 2.04700e+01 states: [ -2.25051e-01 -2.35723e+00] derivs: [ -2.35746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.475000 pESO->GetIndependentVar(): 20.475000 ==>IsSwitchingOccur() prevPhis[ 0]=1.967621, nextPhis[ 0]=1.927219 prevPhis[ 1]=4.032379, nextPhis[ 1]=4.072781 <==IsSwitchingOccur() T = 20.475000 Tnext = 20.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.480000 pESO->GetIndependentVar(): 20.480000 ==>IsSwitchingOccur() prevPhis[ 0]=1.927219, nextPhis[ 0]=1.886742 prevPhis[ 1]=4.072781, nextPhis[ 1]=4.113258 <==IsSwitchingOccur() T = 20.480000 Tnext = 20.485000 Time: 2.04800e+01 states: [ -2.48677e-01 -2.36723e+00] derivs: [ -2.36746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.485000 pESO->GetIndependentVar(): 20.485000 ==>IsSwitchingOccur() prevPhis[ 0]=1.886742, nextPhis[ 0]=1.846190 prevPhis[ 1]=4.113258, nextPhis[ 1]=4.153810 <==IsSwitchingOccur() T = 20.485000 Tnext = 20.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.490000 pESO->GetIndependentVar(): 20.490000 ==>IsSwitchingOccur() prevPhis[ 0]=1.846190, nextPhis[ 0]=1.805563 prevPhis[ 1]=4.153810, nextPhis[ 1]=4.194437 <==IsSwitchingOccur() T = 20.490000 Tnext = 20.495000 Time: 2.04900e+01 states: [ -2.72404e-01 -2.37723e+00] derivs: [ -2.37746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.495000 pESO->GetIndependentVar(): 20.495000 ==>IsSwitchingOccur() prevPhis[ 0]=1.805563, nextPhis[ 0]=1.764860 prevPhis[ 1]=4.194437, nextPhis[ 1]=4.235140 <==IsSwitchingOccur() T = 20.495000 Tnext = 20.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.500000 pESO->GetIndependentVar(): 20.500000 ==>IsSwitchingOccur() prevPhis[ 0]=1.764860, nextPhis[ 0]=1.724083 prevPhis[ 1]=4.235140, nextPhis[ 1]=4.275917 <==IsSwitchingOccur() T = 20.500000 Tnext = 20.505000 Time: 2.05000e+01 states: [ -2.96230e-01 -2.38723e+00] derivs: [ -2.38746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.505000 pESO->GetIndependentVar(): 20.505000 ==>IsSwitchingOccur() prevPhis[ 0]=1.724083, nextPhis[ 0]=1.683231 prevPhis[ 1]=4.275917, nextPhis[ 1]=4.316769 <==IsSwitchingOccur() T = 20.505000 Tnext = 20.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.510000 pESO->GetIndependentVar(): 20.510000 ==>IsSwitchingOccur() prevPhis[ 0]=1.683231, nextPhis[ 0]=1.642304 prevPhis[ 1]=4.316769, nextPhis[ 1]=4.357696 <==IsSwitchingOccur() T = 20.510000 Tnext = 20.515000 Time: 2.05100e+01 states: [ -3.20157e-01 -2.39723e+00] derivs: [ -2.39746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.515000 pESO->GetIndependentVar(): 20.515000 ==>IsSwitchingOccur() prevPhis[ 0]=1.642304, nextPhis[ 0]=1.601302 prevPhis[ 1]=4.357696, nextPhis[ 1]=4.398698 <==IsSwitchingOccur() T = 20.515000 Tnext = 20.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.520000 pESO->GetIndependentVar(): 20.520000 ==>IsSwitchingOccur() prevPhis[ 0]=1.601302, nextPhis[ 0]=1.560225 prevPhis[ 1]=4.398698, nextPhis[ 1]=4.439775 <==IsSwitchingOccur() T = 20.520000 Tnext = 20.525000 Time: 2.05200e+01 states: [ -3.44183e-01 -2.40723e+00] derivs: [ -2.40746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.525000 pESO->GetIndependentVar(): 20.525000 ==>IsSwitchingOccur() prevPhis[ 0]=1.560225, nextPhis[ 0]=1.519072 prevPhis[ 1]=4.439775, nextPhis[ 1]=4.480928 <==IsSwitchingOccur() T = 20.525000 Tnext = 20.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.530000 pESO->GetIndependentVar(): 20.530000 ==>IsSwitchingOccur() prevPhis[ 0]=1.519072, nextPhis[ 0]=1.477845 prevPhis[ 1]=4.480928, nextPhis[ 1]=4.522155 <==IsSwitchingOccur() T = 20.530000 Tnext = 20.535000 Time: 2.05300e+01 states: [ -3.68309e-01 -2.41723e+00] derivs: [ -2.41746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.535000 pESO->GetIndependentVar(): 20.535000 ==>IsSwitchingOccur() prevPhis[ 0]=1.477845, nextPhis[ 0]=1.436543 prevPhis[ 1]=4.522155, nextPhis[ 1]=4.563457 <==IsSwitchingOccur() T = 20.535000 Tnext = 20.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.540000 pESO->GetIndependentVar(): 20.540000 ==>IsSwitchingOccur() prevPhis[ 0]=1.436543, nextPhis[ 0]=1.395166 prevPhis[ 1]=4.563457, nextPhis[ 1]=4.604834 <==IsSwitchingOccur() T = 20.540000 Tnext = 20.545000 Time: 2.05400e+01 states: [ -3.92536e-01 -2.42723e+00] derivs: [ -2.42746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.545000 pESO->GetIndependentVar(): 20.545000 ==>IsSwitchingOccur() prevPhis[ 0]=1.395166, nextPhis[ 0]=1.353714 prevPhis[ 1]=4.604834, nextPhis[ 1]=4.646286 <==IsSwitchingOccur() T = 20.545000 Tnext = 20.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.550000 pESO->GetIndependentVar(): 20.550000 ==>IsSwitchingOccur() prevPhis[ 0]=1.353714, nextPhis[ 0]=1.312187 prevPhis[ 1]=4.646286, nextPhis[ 1]=4.687813 <==IsSwitchingOccur() T = 20.550000 Tnext = 20.555000 Time: 2.05500e+01 states: [ -4.16862e-01 -2.43723e+00] derivs: [ -2.43746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.555000 pESO->GetIndependentVar(): 20.555000 ==>IsSwitchingOccur() prevPhis[ 0]=1.312187, nextPhis[ 0]=1.270584 prevPhis[ 1]=4.687813, nextPhis[ 1]=4.729416 <==IsSwitchingOccur() T = 20.555000 Tnext = 20.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.560000 pESO->GetIndependentVar(): 20.560000 ==>IsSwitchingOccur() prevPhis[ 0]=1.270584, nextPhis[ 0]=1.228907 prevPhis[ 1]=4.729416, nextPhis[ 1]=4.771093 <==IsSwitchingOccur() T = 20.560000 Tnext = 20.565000 Time: 2.05600e+01 states: [ -4.41289e-01 -2.44723e+00] derivs: [ -2.44746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.565000 pESO->GetIndependentVar(): 20.565000 ==>IsSwitchingOccur() prevPhis[ 0]=1.228907, nextPhis[ 0]=1.187155 prevPhis[ 1]=4.771093, nextPhis[ 1]=4.812845 <==IsSwitchingOccur() T = 20.565000 Tnext = 20.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.570000 pESO->GetIndependentVar(): 20.570000 ==>IsSwitchingOccur() prevPhis[ 0]=1.187155, nextPhis[ 0]=1.145328 prevPhis[ 1]=4.812845, nextPhis[ 1]=4.854672 <==IsSwitchingOccur() T = 20.570000 Tnext = 20.575000 Time: 2.05700e+01 states: [ -4.65815e-01 -2.45723e+00] derivs: [ -2.45746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.575000 pESO->GetIndependentVar(): 20.575000 ==>IsSwitchingOccur() prevPhis[ 0]=1.145328, nextPhis[ 0]=1.103426 prevPhis[ 1]=4.854672, nextPhis[ 1]=4.896574 <==IsSwitchingOccur() T = 20.575000 Tnext = 20.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.580000 pESO->GetIndependentVar(): 20.580000 ==>IsSwitchingOccur() prevPhis[ 0]=1.103426, nextPhis[ 0]=1.061448 prevPhis[ 1]=4.896574, nextPhis[ 1]=4.938552 <==IsSwitchingOccur() T = 20.580000 Tnext = 20.585000 Time: 2.05800e+01 states: [ -4.90442e-01 -2.46723e+00] derivs: [ -2.46746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.585000 pESO->GetIndependentVar(): 20.585000 ==>IsSwitchingOccur() prevPhis[ 0]=1.061448, nextPhis[ 0]=1.019396 prevPhis[ 1]=4.938552, nextPhis[ 1]=4.980604 <==IsSwitchingOccur() T = 20.585000 Tnext = 20.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.590000 pESO->GetIndependentVar(): 20.590000 ==>IsSwitchingOccur() prevPhis[ 0]=1.019396, nextPhis[ 0]=0.977269 prevPhis[ 1]=4.980604, nextPhis[ 1]=5.022731 <==IsSwitchingOccur() T = 20.590000 Tnext = 20.595000 Time: 2.05900e+01 states: [ -5.15168e-01 -2.47723e+00] derivs: [ -2.47746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.595000 pESO->GetIndependentVar(): 20.595000 ==>IsSwitchingOccur() prevPhis[ 0]=0.977269, nextPhis[ 0]=0.935067 prevPhis[ 1]=5.022731, nextPhis[ 1]=5.064933 <==IsSwitchingOccur() T = 20.595000 Tnext = 20.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.600000 pESO->GetIndependentVar(): 20.600000 ==>IsSwitchingOccur() prevPhis[ 0]=0.935067, nextPhis[ 0]=0.892790 prevPhis[ 1]=5.064933, nextPhis[ 1]=5.107210 <==IsSwitchingOccur() T = 20.600000 Tnext = 20.605000 Time: 2.06000e+01 states: [ -5.39995e-01 -2.48723e+00] derivs: [ -2.48746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.605000 pESO->GetIndependentVar(): 20.605000 ==>IsSwitchingOccur() prevPhis[ 0]=0.892790, nextPhis[ 0]=0.850438 prevPhis[ 1]=5.107210, nextPhis[ 1]=5.149562 <==IsSwitchingOccur() T = 20.605000 Tnext = 20.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.610000 pESO->GetIndependentVar(): 20.610000 ==>IsSwitchingOccur() prevPhis[ 0]=0.850438, nextPhis[ 0]=0.808010 prevPhis[ 1]=5.149562, nextPhis[ 1]=5.191990 <==IsSwitchingOccur() T = 20.610000 Tnext = 20.615000 Time: 2.06100e+01 states: [ -5.64921e-01 -2.49723e+00] derivs: [ -2.49746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.615000 pESO->GetIndependentVar(): 20.615000 ==>IsSwitchingOccur() prevPhis[ 0]=0.808010, nextPhis[ 0]=0.765508 prevPhis[ 1]=5.191990, nextPhis[ 1]=5.234492 <==IsSwitchingOccur() T = 20.615000 Tnext = 20.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.620000 pESO->GetIndependentVar(): 20.620000 ==>IsSwitchingOccur() prevPhis[ 0]=0.765508, nextPhis[ 0]=0.722931 prevPhis[ 1]=5.234492, nextPhis[ 1]=5.277069 <==IsSwitchingOccur() T = 20.620000 Tnext = 20.625000 Time: 2.06200e+01 states: [ -5.89947e-01 -2.50723e+00] derivs: [ -2.50746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.625000 pESO->GetIndependentVar(): 20.625000 ==>IsSwitchingOccur() prevPhis[ 0]=0.722931, nextPhis[ 0]=0.680279 prevPhis[ 1]=5.277069, nextPhis[ 1]=5.319721 <==IsSwitchingOccur() T = 20.625000 Tnext = 20.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.630000 pESO->GetIndependentVar(): 20.630000 ==>IsSwitchingOccur() prevPhis[ 0]=0.680279, nextPhis[ 0]=0.637552 prevPhis[ 1]=5.319721, nextPhis[ 1]=5.362448 <==IsSwitchingOccur() T = 20.630000 Tnext = 20.635000 Time: 2.06300e+01 states: [ -6.15074e-01 -2.51723e+00] derivs: [ -2.51746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.635000 pESO->GetIndependentVar(): 20.635000 ==>IsSwitchingOccur() prevPhis[ 0]=0.637552, nextPhis[ 0]=0.594750 prevPhis[ 1]=5.362448, nextPhis[ 1]=5.405250 <==IsSwitchingOccur() T = 20.635000 Tnext = 20.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.640000 pESO->GetIndependentVar(): 20.640000 ==>IsSwitchingOccur() prevPhis[ 0]=0.594750, nextPhis[ 0]=0.551872 prevPhis[ 1]=5.405250, nextPhis[ 1]=5.448128 <==IsSwitchingOccur() T = 20.640000 Tnext = 20.645000 Time: 2.06400e+01 states: [ -6.40300e-01 -2.52723e+00] derivs: [ -2.52746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.645000 pESO->GetIndependentVar(): 20.645000 ==>IsSwitchingOccur() prevPhis[ 0]=0.551872, nextPhis[ 0]=0.508920 prevPhis[ 1]=5.448128, nextPhis[ 1]=5.491080 <==IsSwitchingOccur() T = 20.645000 Tnext = 20.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.650000 pESO->GetIndependentVar(): 20.650000 ==>IsSwitchingOccur() prevPhis[ 0]=0.508920, nextPhis[ 0]=0.465893 prevPhis[ 1]=5.491080, nextPhis[ 1]=5.534107 <==IsSwitchingOccur() T = 20.650000 Tnext = 20.655000 Time: 2.06500e+01 states: [ -6.65627e-01 -2.53723e+00] derivs: [ -2.53746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.655000 pESO->GetIndependentVar(): 20.655000 ==>IsSwitchingOccur() prevPhis[ 0]=0.465893, nextPhis[ 0]=0.422791 prevPhis[ 1]=5.534107, nextPhis[ 1]=5.577209 <==IsSwitchingOccur() T = 20.655000 Tnext = 20.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.660000 pESO->GetIndependentVar(): 20.660000 ==>IsSwitchingOccur() prevPhis[ 0]=0.422791, nextPhis[ 0]=0.379614 prevPhis[ 1]=5.577209, nextPhis[ 1]=5.620386 <==IsSwitchingOccur() T = 20.660000 Tnext = 20.665000 Time: 2.06600e+01 states: [ -6.91053e-01 -2.54723e+00] derivs: [ -2.54746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.665000 pESO->GetIndependentVar(): 20.665000 ==>IsSwitchingOccur() prevPhis[ 0]=0.379614, nextPhis[ 0]=0.336361 prevPhis[ 1]=5.620386, nextPhis[ 1]=5.663639 <==IsSwitchingOccur() T = 20.665000 Tnext = 20.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.670000 pESO->GetIndependentVar(): 20.670000 ==>IsSwitchingOccur() prevPhis[ 0]=0.336361, nextPhis[ 0]=0.293034 prevPhis[ 1]=5.663639, nextPhis[ 1]=5.706966 <==IsSwitchingOccur() T = 20.670000 Tnext = 20.675000 Time: 2.06700e+01 states: [ -7.16580e-01 -2.55723e+00] derivs: [ -2.55746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.675000 pESO->GetIndependentVar(): 20.675000 ==>IsSwitchingOccur() prevPhis[ 0]=0.293034, nextPhis[ 0]=0.249632 prevPhis[ 1]=5.706966, nextPhis[ 1]=5.750368 <==IsSwitchingOccur() T = 20.675000 Tnext = 20.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.680000 pESO->GetIndependentVar(): 20.680000 ==>IsSwitchingOccur() prevPhis[ 0]=0.249632, nextPhis[ 0]=0.206155 prevPhis[ 1]=5.750368, nextPhis[ 1]=5.793845 <==IsSwitchingOccur() T = 20.680000 Tnext = 20.685000 Time: 2.06800e+01 states: [ -7.42206e-01 -2.56723e+00] derivs: [ -2.56746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.685000 pESO->GetIndependentVar(): 20.685000 ==>IsSwitchingOccur() prevPhis[ 0]=0.206155, nextPhis[ 0]=0.162603 prevPhis[ 1]=5.793845, nextPhis[ 1]=5.837397 <==IsSwitchingOccur() T = 20.685000 Tnext = 20.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.690000 pESO->GetIndependentVar(): 20.690000 ==>IsSwitchingOccur() prevPhis[ 0]=0.162603, nextPhis[ 0]=0.118976 prevPhis[ 1]=5.837397, nextPhis[ 1]=5.881024 <==IsSwitchingOccur() T = 20.690000 Tnext = 20.695000 Time: 2.06900e+01 states: [ -7.67933e-01 -2.57723e+00] derivs: [ -2.57746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.695000 pESO->GetIndependentVar(): 20.695000 ==>IsSwitchingOccur() prevPhis[ 0]=0.118976, nextPhis[ 0]=0.075273 prevPhis[ 1]=5.881024, nextPhis[ 1]=5.924727 <==IsSwitchingOccur() T = 20.695000 Tnext = 20.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.700000 pESO->GetIndependentVar(): 20.700000 ==>IsSwitchingOccur() prevPhis[ 0]=0.075273, nextPhis[ 0]=0.031496 prevPhis[ 1]=5.924727, nextPhis[ 1]=5.968504 <==IsSwitchingOccur() T = 20.700000 Tnext = 20.705000 Time: 2.07000e+01 states: [ -7.93759e-01 -2.58723e+00] derivs: [ -2.58746e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.031496, nextPhis[ 0]=-0.012356 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.012356 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.034310 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.023330 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.017842 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.015099 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.013727 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.013042 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.012699 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.793860, -2.587266, 8.570563, 2.915242, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.626931 b=-8.761876 dts/dp=[3.267215, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [-0.793860, -2.587266, 8.570563, 2.915242, ] AllSensVars (befor 2-nd IC recalculation):[-0.793860, -2.587266, 8.570477, -3.619188, ] AllSensDers (befor 2-nd IC recalculation):[-2.587266, 1.000000, 2.915242, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[-0.793860, -2.587266, 8.570477, -3.619188, ] AllSensDers (after 2-nd IC recalculation):[-2.587266, 1.000000, -3.619188, -0.000000, ] <==RecalculateSensIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.031154, nextPhis[ 0]=-0.002611 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.002611 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.019466 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.011041 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.006827 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.004719 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.003665 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.003138 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.002875 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.793961, -2.587227, 8.570335, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.091818 b=-6.761600 dts/dp=[3.267247, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.030890, nextPhis[ 0]=-0.002875 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.002875 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.019729 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.011305 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.007091 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.004983 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.003929 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.003402 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.003138 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794062, -2.587187, 8.570194, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.091394 b=-6.761483 dts/dp=[3.267241, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.030626, nextPhis[ 0]=-0.003138 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.003138 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.019992 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.011568 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.007354 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.005246 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.004192 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.003665 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.003402 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794163, -2.587148, 8.570053, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.090970 b=-6.761366 dts/dp=[3.267235, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.030362, nextPhis[ 0]=-0.003402 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.003402 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.020255 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.011831 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.007617 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.005510 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.004456 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.003929 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.003665 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794264, -2.587109, 8.569911, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.090546 b=-6.761249 dts/dp=[3.267229, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.030098, nextPhis[ 0]=-0.003665 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.003665 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.020519 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.012095 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.007881 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.005773 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.004719 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.004192 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.003929 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794365, -2.587070, 8.569770, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.090122 b=-6.761132 dts/dp=[3.267223, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.029833, nextPhis[ 0]=-0.003929 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.003929 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.020782 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.012358 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.008144 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.006037 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.004983 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.004456 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.004192 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794466, -2.587031, 8.569629, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.089698 b=-6.761014 dts/dp=[3.267217, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.029569, nextPhis[ 0]=-0.004192 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.004192 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.021045 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.012622 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.008408 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.006300 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.005246 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.004719 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.004456 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794568, -2.586992, 8.569487, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.089274 b=-6.760897 dts/dp=[3.267210, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.029305, nextPhis[ 0]=-0.004456 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.004456 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.021308 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.012885 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.008671 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.006564 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.005510 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.004983 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.004719 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794669, -2.586953, 8.569346, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.088850 b=-6.760780 dts/dp=[3.267204, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.029041, nextPhis[ 0]=-0.004719 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.004719 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.021571 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.013148 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.008935 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.006827 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.005773 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.005246 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.004983 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794770, -2.586914, 8.569204, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.088425 b=-6.760663 dts/dp=[3.267198, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.028777, nextPhis[ 0]=-0.004983 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.004983 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.021835 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.013412 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.009198 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.007091 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.006037 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.005510 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.005246 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794871, -2.586875, 8.569063, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.088001 b=-6.760546 dts/dp=[3.267192, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.028513, nextPhis[ 0]=-0.005246 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.005246 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.022098 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.013675 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.009462 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.007354 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.006300 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.005773 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.005510 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.794972, -2.586836, 8.568922, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.087577 b=-6.760428 dts/dp=[3.267186, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.028249, nextPhis[ 0]=-0.005510 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.005510 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.022361 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.013938 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.009725 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.007618 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.006564 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.006037 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.005773 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795073, -2.586797, 8.568780, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.087153 b=-6.760311 dts/dp=[3.267180, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.027985, nextPhis[ 0]=-0.005773 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.005773 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.022624 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.014202 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.009988 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.007881 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.006827 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.006300 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.006037 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795174, -2.586758, 8.568639, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.086729 b=-6.760194 dts/dp=[3.267174, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.027721, nextPhis[ 0]=-0.006037 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.006037 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.022888 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.014465 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.010252 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.008145 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.007091 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.006564 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.006300 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795275, -2.586719, 8.568498, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.086305 b=-6.760077 dts/dp=[3.267168, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.027457, nextPhis[ 0]=-0.006300 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.006300 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.023151 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.014728 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.010515 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.008408 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.007354 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.006827 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.006564 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795376, -2.586680, 8.568356, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.085881 b=-6.759960 dts/dp=[3.267162, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.027193, nextPhis[ 0]=-0.006564 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.006564 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.023414 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.014992 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.010779 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.008671 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.007618 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.007091 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.006827 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795477, -2.586641, 8.568215, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.085457 b=-6.759842 dts/dp=[3.267156, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.026928, nextPhis[ 0]=-0.006827 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.006827 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.023677 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.015255 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.011042 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.008935 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.007881 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.007354 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.007091 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795578, -2.586602, 8.568073, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.085032 b=-6.759725 dts/dp=[3.267149, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.026664, nextPhis[ 0]=-0.007091 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.007091 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.023940 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.015518 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.011305 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.009198 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.008145 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.007618 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.007354 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795679, -2.586562, 8.567932, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.084608 b=-6.759608 dts/dp=[3.267143, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.026400, nextPhis[ 0]=-0.007354 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.007354 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.024203 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.015782 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.011569 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.009462 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.008408 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.007881 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.007618 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795780, -2.586523, 8.567791, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.084184 b=-6.759491 dts/dp=[3.267137, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.026136, nextPhis[ 0]=-0.007618 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.007618 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.024467 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.016045 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.011832 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.009725 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.008672 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.008145 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.007881 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795881, -2.586484, 8.567649, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.083760 b=-6.759374 dts/dp=[3.267131, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.025872, nextPhis[ 0]=-0.007881 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.007881 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.024730 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.016308 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.012096 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.009989 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.008935 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.008408 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.008145 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.795982, -2.586445, 8.567508, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.083336 b=-6.759257 dts/dp=[3.267125, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.025608, nextPhis[ 0]=-0.008145 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.008145 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.024993 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.016572 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.012359 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.010252 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.009198 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.008672 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.008408 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796083, -2.586406, 8.567367, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.082912 b=-6.759139 dts/dp=[3.267119, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.025344, nextPhis[ 0]=-0.008408 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.008408 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.025256 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.016835 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.012622 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.010515 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.009462 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.008935 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.008672 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796184, -2.586367, 8.567225, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.082488 b=-6.759022 dts/dp=[3.267113, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.025080, nextPhis[ 0]=-0.008672 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.008672 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.025519 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.017098 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.012886 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.010779 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.009725 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.009198 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.008935 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796285, -2.586328, 8.567084, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.082064 b=-6.758905 dts/dp=[3.267107, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.024816, nextPhis[ 0]=-0.008935 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.008935 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.025782 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.017362 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.013149 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.011042 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.009989 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.009462 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.009198 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796386, -2.586289, 8.566942, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.081639 b=-6.758788 dts/dp=[3.267101, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.024552, nextPhis[ 0]=-0.009198 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.009198 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.026046 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.017625 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.013412 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.011306 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.010252 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.009725 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.009462 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796487, -2.586250, 8.566801, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.081215 b=-6.758671 dts/dp=[3.267094, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.024288, nextPhis[ 0]=-0.009462 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.009462 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.026309 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.017888 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.013676 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.011569 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.010516 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.009989 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.009725 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796588, -2.586211, 8.566660, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.080791 b=-6.758553 dts/dp=[3.267088, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.024024, nextPhis[ 0]=-0.009725 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.009725 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.026572 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.018151 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.013939 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.011832 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.010779 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.010252 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.009989 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796689, -2.586172, 8.566518, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.080367 b=-6.758436 dts/dp=[3.267082, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.023760, nextPhis[ 0]=-0.009989 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.009989 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.026835 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.018415 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.014203 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.012096 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.011042 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.010516 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.010252 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796790, -2.586133, 8.566377, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.079943 b=-6.758319 dts/dp=[3.267076, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.023496, nextPhis[ 0]=-0.010252 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.010252 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.027098 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.018678 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.014466 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.012359 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.011306 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.010779 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.010516 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796891, -2.586094, 8.566236, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.079519 b=-6.758202 dts/dp=[3.267070, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.023232, nextPhis[ 0]=-0.010516 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.010516 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.027361 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.018941 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.014729 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.012623 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.011569 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.011042 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.010779 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.796992, -2.586055, 8.566094, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.079095 b=-6.758085 dts/dp=[3.267064, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.022968, nextPhis[ 0]=-0.010779 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.010779 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.027624 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.019204 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.014993 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.012886 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.011833 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.011306 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.011042 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797093, -2.586016, 8.565953, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.078671 b=-6.757967 dts/dp=[3.267058, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.022704, nextPhis[ 0]=-0.011042 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.011042 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.027887 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.019468 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.015256 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.013149 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.012096 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.011569 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.011306 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797194, -2.585977, 8.565811, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.078246 b=-6.757850 dts/dp=[3.267052, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.022440, nextPhis[ 0]=-0.011306 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.011306 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.028150 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.019731 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.015519 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.013413 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.012359 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.011833 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.011569 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797295, -2.585937, 8.565670, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.077822 b=-6.757733 dts/dp=[3.267046, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.022176, nextPhis[ 0]=-0.011569 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.011569 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.028414 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.019994 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.015783 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.013676 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.012623 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.012096 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.011833 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797396, -2.585898, 8.565529, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.077398 b=-6.757616 dts/dp=[3.267040, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.021912, nextPhis[ 0]=-0.011833 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.011833 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.028677 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.020257 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.016046 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.013939 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.012886 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.012359 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.012096 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797497, -2.585859, 8.565387, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.076974 b=-6.757499 dts/dp=[3.267033, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.021648, nextPhis[ 0]=-0.012096 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.012096 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.028940 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.020521 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.016309 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.014203 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.013149 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.012623 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.012359 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797598, -2.585820, 8.565246, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.076550 b=-6.757382 dts/dp=[3.267027, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.021384, nextPhis[ 0]=-0.012359 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.012359 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.029203 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.020784 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.016572 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.014466 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.013413 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.012886 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.012623 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797699, -2.585781, 8.565105, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.076126 b=-6.757264 dts/dp=[3.267021, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.021120, nextPhis[ 0]=-0.012623 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.012623 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.029466 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.021047 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.016836 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.014729 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.013676 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.013149 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.012886 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797801, -2.585742, 8.564963, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.075702 b=-6.757147 dts/dp=[3.267015, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.020856, nextPhis[ 0]=-0.012886 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.012886 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.029729 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.021310 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.017099 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.014993 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.013939 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.013413 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.013149 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.797902, -2.585703, 8.564822, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.075278 b=-6.757030 dts/dp=[3.267009, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.020592, nextPhis[ 0]=-0.013149 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.013149 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.029992 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.021574 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.017362 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.015256 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.014203 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.013676 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.013413 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798003, -2.585664, 8.564680, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.074853 b=-6.756913 dts/dp=[3.267003, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.020328, nextPhis[ 0]=-0.013413 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.013413 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.030255 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.021837 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.017626 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.015519 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.014466 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.013939 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.013676 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798104, -2.585625, 8.564539, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.074429 b=-6.756796 dts/dp=[3.266997, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.020064, nextPhis[ 0]=-0.013676 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.013676 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.030518 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.022100 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.017889 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.015783 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.014729 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.014203 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.013939 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798205, -2.585586, 8.564398, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.074005 b=-6.756678 dts/dp=[3.266991, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.019801, nextPhis[ 0]=-0.013939 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.013939 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.030781 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.022363 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.018152 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.016046 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.014993 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.014466 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.014203 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798306, -2.585547, 8.564256, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.073581 b=-6.756561 dts/dp=[3.266985, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.019537, nextPhis[ 0]=-0.014203 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.014203 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.031044 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.022626 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.018415 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.016309 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.015256 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.014730 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.014466 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798407, -2.585508, 8.564115, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.073157 b=-6.756444 dts/dp=[3.266978, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.019273, nextPhis[ 0]=-0.014466 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.014466 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.031307 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.022890 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.018679 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.016573 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.015519 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.014993 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.014730 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798508, -2.585469, 8.563974, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.072733 b=-6.756327 dts/dp=[3.266972, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.019009, nextPhis[ 0]=-0.014730 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.014730 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.031570 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.023153 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.018942 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.016836 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.015783 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.015256 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.014993 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798608, -2.585430, 8.563832, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.072309 b=-6.756210 dts/dp=[3.266966, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.018745, nextPhis[ 0]=-0.014993 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.014993 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.031833 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.023416 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.019205 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.017099 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.016046 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.015519 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.015256 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798709, -2.585391, 8.563691, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.071885 b=-6.756092 dts/dp=[3.266960, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.018481, nextPhis[ 0]=-0.015256 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.015256 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.032096 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.023679 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.019469 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.017363 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.016309 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.015783 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.015519 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798810, -2.585352, 8.563549, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.071460 b=-6.755975 dts/dp=[3.266954, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.018217, nextPhis[ 0]=-0.015519 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.015519 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.032360 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.023942 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.019732 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.017626 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.016573 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.016046 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.015783 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.798911, -2.585312, 8.563408, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.071036 b=-6.755858 dts/dp=[3.266948, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.017953, nextPhis[ 0]=-0.015783 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.015783 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.032623 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.024206 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.019995 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.017889 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.016836 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.016309 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.016046 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799012, -2.585273, 8.563267, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.070612 b=-6.755741 dts/dp=[3.266942, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.017689, nextPhis[ 0]=-0.016046 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.016046 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.032886 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.024469 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.020258 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.018152 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.017099 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.016573 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.016309 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799113, -2.585234, 8.563125, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.070188 b=-6.755624 dts/dp=[3.266936, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.017425, nextPhis[ 0]=-0.016309 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.016309 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.033149 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.024732 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.020522 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.018416 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.017363 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.016836 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.016573 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799214, -2.585195, 8.562984, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.069764 b=-6.755507 dts/dp=[3.266930, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.017161, nextPhis[ 0]=-0.016573 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.016573 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.033412 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.024995 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.020785 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.018679 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.017626 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.017099 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.016836 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799315, -2.585156, 8.562843, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.069340 b=-6.755389 dts/dp=[3.266923, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.016898, nextPhis[ 0]=-0.016836 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.016836 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.033675 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.025258 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.021048 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.018942 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.017889 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.017363 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.017099 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799416, -2.585117, 8.562701, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.068916 b=-6.755272 dts/dp=[3.266917, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.016634, nextPhis[ 0]=-0.017099 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.017099 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.033938 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.025521 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.021311 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.019205 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.018152 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.017626 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.017363 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799517, -2.585078, 8.562560, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.068492 b=-6.755155 dts/dp=[3.266911, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.016370, nextPhis[ 0]=-0.017363 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.017363 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.034201 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.025784 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.021574 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.019469 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.018416 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.017889 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.017626 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799618, -2.585039, 8.562418, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.068067 b=-6.755038 dts/dp=[3.266905, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.016106, nextPhis[ 0]=-0.017626 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.017626 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.034464 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.026048 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.021838 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.019732 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.018679 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.018152 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.017889 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799719, -2.585000, 8.562277, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.067643 b=-6.754921 dts/dp=[3.266899, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.015842, nextPhis[ 0]=-0.017889 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.017889 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.034727 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.026311 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.022101 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.019995 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.018942 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.018416 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.018152 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799820, -2.584961, 8.562136, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.067219 b=-6.754803 dts/dp=[3.266893, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.015578, nextPhis[ 0]=-0.018152 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.018152 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.034990 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.026574 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.022364 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.020258 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.019206 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.018679 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.018416 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.799921, -2.584922, 8.561994, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.066795 b=-6.754686 dts/dp=[3.266887, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.015314, nextPhis[ 0]=-0.018416 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.018416 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.035253 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.026837 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.022627 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.020522 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.019469 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.018942 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.018679 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800022, -2.584883, 8.561853, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.066371 b=-6.754569 dts/dp=[3.266881, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.015050, nextPhis[ 0]=-0.018679 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.018679 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.035516 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.027100 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.022890 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.020785 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.019732 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.019206 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.018942 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800123, -2.584844, 8.561712, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.065947 b=-6.754452 dts/dp=[3.266875, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.014787, nextPhis[ 0]=-0.018942 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.018942 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.035779 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.027363 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.023154 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.021048 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.019995 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.019469 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.019206 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800224, -2.584805, 8.561570, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.065523 b=-6.754335 dts/dp=[3.266868, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.014523, nextPhis[ 0]=-0.019206 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.019206 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.036041 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.027626 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.023417 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.021311 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.020259 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.019732 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.019469 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800325, -2.584766, 8.561429, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.065099 b=-6.754217 dts/dp=[3.266862, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.014259, nextPhis[ 0]=-0.019469 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.019469 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.036304 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.027889 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.023680 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.021575 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.020522 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.019995 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.019732 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800426, -2.584727, 8.561287, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.064674 b=-6.754100 dts/dp=[3.266856, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.013995, nextPhis[ 0]=-0.019732 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.019732 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.036567 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.028153 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.023943 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.021838 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.020785 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.020259 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.019995 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800527, -2.584687, 8.561146, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.064250 b=-6.753983 dts/dp=[3.266850, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.013731, nextPhis[ 0]=-0.019995 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.019995 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.036830 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.028416 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.024206 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.022101 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.021048 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.020522 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.020259 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800628, -2.584648, 8.561005, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.063826 b=-6.753866 dts/dp=[3.266844, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.013467, nextPhis[ 0]=-0.020259 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.020259 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.037093 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.028679 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.024470 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.022364 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.021311 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.020785 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.020522 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800729, -2.584609, 8.560863, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.063402 b=-6.753749 dts/dp=[3.266838, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.013204, nextPhis[ 0]=-0.020522 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.020522 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.037356 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.028942 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.024733 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.022627 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.021575 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.021048 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.020785 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800830, -2.584570, 8.560722, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.062978 b=-6.753632 dts/dp=[3.266832, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.012940, nextPhis[ 0]=-0.020785 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.020785 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.037619 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.029205 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.024996 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.022891 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.021838 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.021311 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.021048 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.800931, -2.584531, 8.560581, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.062554 b=-6.753514 dts/dp=[3.266826, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.012676, nextPhis[ 0]=-0.021048 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.021048 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.037882 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.029468 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.025259 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.023154 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.022101 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.021575 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.021311 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801032, -2.584492, 8.560439, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.062130 b=-6.753397 dts/dp=[3.266820, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.012412, nextPhis[ 0]=-0.021311 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.021311 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.038145 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.029731 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.025522 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.023417 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.022364 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.021838 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.021575 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801133, -2.584453, 8.560298, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.061706 b=-6.753280 dts/dp=[3.266813, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.012148, nextPhis[ 0]=-0.021575 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.021575 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.038408 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.029994 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.025785 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.023680 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.022628 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.022101 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.021838 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801234, -2.584414, 8.560156, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.061281 b=-6.753163 dts/dp=[3.266807, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.011885, nextPhis[ 0]=-0.021838 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.021838 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.038671 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.030257 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.026048 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.023943 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.022891 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.022364 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.022101 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801335, -2.584375, 8.560015, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.060857 b=-6.753046 dts/dp=[3.266801, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.011621, nextPhis[ 0]=-0.022101 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.022101 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.038934 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.030520 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.026312 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.024207 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.023154 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.022628 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.022364 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801436, -2.584336, 8.559874, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.060433 b=-6.752928 dts/dp=[3.266795, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.011357, nextPhis[ 0]=-0.022364 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.022364 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.039197 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.030783 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.026575 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.024470 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.023417 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.022891 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.022628 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801537, -2.584297, 8.559732, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.060009 b=-6.752811 dts/dp=[3.266789, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.011093, nextPhis[ 0]=-0.022628 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.022628 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.039460 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.031046 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.026838 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.024733 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.023680 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.023154 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.022891 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801638, -2.584258, 8.559591, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.059585 b=-6.752694 dts/dp=[3.266783, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010829, nextPhis[ 0]=-0.022891 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.022891 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.039723 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.031309 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.027101 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.024996 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.023943 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.023417 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.023154 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801739, -2.584219, 8.559450, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.059161 b=-6.752577 dts/dp=[3.266777, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010566, nextPhis[ 0]=-0.023154 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.023154 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.039985 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.031573 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.027364 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.025259 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.024207 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.023680 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.023417 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801840, -2.584180, 8.559308, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.058737 b=-6.752460 dts/dp=[3.266771, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010302, nextPhis[ 0]=-0.023417 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.023417 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.040248 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.031836 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.027627 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.025522 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.024470 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.023943 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.023680 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.801940, -2.584141, 8.559167, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.058313 b=-6.752342 dts/dp=[3.266764, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.010038, nextPhis[ 0]=-0.023680 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.023680 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.040511 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.032099 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.027890 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.025786 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.024733 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.024207 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.023943 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802041, -2.584102, 8.559025, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.057888 b=-6.752225 dts/dp=[3.266758, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009774, nextPhis[ 0]=-0.023943 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.023943 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.040774 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.032362 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.028153 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.026049 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.024996 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.024470 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.024207 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802142, -2.584062, 8.558884, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.057464 b=-6.752108 dts/dp=[3.266752, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009511, nextPhis[ 0]=-0.024207 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.024207 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.041037 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.032625 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.028417 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.026312 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.025259 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.024733 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.024470 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802243, -2.584023, 8.558743, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.057040 b=-6.751991 dts/dp=[3.266746, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.009247, nextPhis[ 0]=-0.024470 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.024470 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.041300 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.032888 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.028680 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.026575 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.025522 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.024996 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.024733 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802344, -2.583984, 8.558601, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.056616 b=-6.751874 dts/dp=[3.266740, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008983, nextPhis[ 0]=-0.024733 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.024733 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.041563 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.033151 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.028943 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.026838 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.025786 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.025259 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.024996 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802445, -2.583945, 8.558460, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.056192 b=-6.751756 dts/dp=[3.266734, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008719, nextPhis[ 0]=-0.024996 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.024996 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.041826 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.033414 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.029206 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.027101 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.026049 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.025522 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.025259 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802546, -2.583906, 8.558319, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.055768 b=-6.751639 dts/dp=[3.266728, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008456, nextPhis[ 0]=-0.025259 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.025259 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.042088 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.033677 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.029469 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.027364 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.026312 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.025786 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.025522 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802647, -2.583867, 8.558177, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.055344 b=-6.751522 dts/dp=[3.266722, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.008192, nextPhis[ 0]=-0.025522 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.025522 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.042351 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.033940 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.029732 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.027627 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.026575 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.026049 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.025786 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802748, -2.583828, 8.558036, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.054920 b=-6.751405 dts/dp=[3.266716, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007928, nextPhis[ 0]=-0.025786 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.025786 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.042614 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.034203 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.029995 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.027891 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.026838 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.026312 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.026049 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802849, -2.583789, 8.557894, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.054495 b=-6.751288 dts/dp=[3.266709, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007664, nextPhis[ 0]=-0.026049 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.026049 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.042877 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.034466 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.030258 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.028154 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.027101 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.026575 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.026312 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.802950, -2.583750, 8.557753, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.054071 b=-6.751171 dts/dp=[3.266703, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007401, nextPhis[ 0]=-0.026312 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.026312 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.043140 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.034729 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.030521 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.028417 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.027364 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.026838 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.026575 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803051, -2.583711, 8.557612, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.053647 b=-6.751053 dts/dp=[3.266697, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007137, nextPhis[ 0]=-0.026575 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.026575 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.043403 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.034992 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.030784 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.028680 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.027627 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.027101 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.026838 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803152, -2.583672, 8.557470, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.053223 b=-6.750936 dts/dp=[3.266691, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006873, nextPhis[ 0]=-0.026838 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.026838 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.043666 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.035255 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.031047 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.028943 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.027891 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.027364 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.027101 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803253, -2.583633, 8.557329, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.052799 b=-6.750819 dts/dp=[3.266685, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006609, nextPhis[ 0]=-0.027101 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.027101 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.043928 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.035518 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.031310 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.029206 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.028154 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.027627 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.027364 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803354, -2.583594, 8.557188, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.052375 b=-6.750702 dts/dp=[3.266679, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006346, nextPhis[ 0]=-0.027364 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.027364 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.044191 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.035781 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.031573 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.029469 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.028417 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.027891 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.027627 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803454, -2.583555, 8.557046, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.051951 b=-6.750585 dts/dp=[3.266673, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.006082, nextPhis[ 0]=-0.027627 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.027627 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.044454 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.036044 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.031836 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.029732 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.028680 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.028154 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.027891 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803555, -2.583516, 8.556905, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.051527 b=-6.750467 dts/dp=[3.266667, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005818, nextPhis[ 0]=-0.027891 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.027891 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.044717 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.036307 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.032099 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.029995 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.028943 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.028417 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.028154 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803656, -2.583477, 8.556763, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.051102 b=-6.750350 dts/dp=[3.266660, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005555, nextPhis[ 0]=-0.028154 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.028154 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.044980 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.036570 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.032362 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.030258 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.029206 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.028680 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.028417 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803757, -2.583437, 8.556622, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.050678 b=-6.750233 dts/dp=[3.266654, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005291, nextPhis[ 0]=-0.028417 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.028417 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.045242 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.036832 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.032625 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.030521 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.029469 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.028943 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.028680 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803858, -2.583398, 8.556481, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.050254 b=-6.750116 dts/dp=[3.266648, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.005027, nextPhis[ 0]=-0.028680 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.028680 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.045505 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.037095 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.032889 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.030784 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.029732 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.029206 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.028943 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.803959, -2.583359, 8.556339, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.049830 b=-6.749999 dts/dp=[3.266642, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004764, nextPhis[ 0]=-0.028943 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.028943 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.045768 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.037358 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.033152 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.031047 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.029995 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.029469 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.029206 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804060, -2.583320, 8.556198, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.049406 b=-6.749881 dts/dp=[3.266636, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004500, nextPhis[ 0]=-0.029206 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.029206 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.046031 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.037621 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.033415 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.031311 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.030258 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.029732 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.029469 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804161, -2.583281, 8.556057, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.048982 b=-6.749764 dts/dp=[3.266630, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.004236, nextPhis[ 0]=-0.029469 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.029469 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.046294 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.037884 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.033678 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.031574 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.030521 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.029995 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.029732 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804262, -2.583242, 8.555915, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.048558 b=-6.749647 dts/dp=[3.266624, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003973, nextPhis[ 0]=-0.029732 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.029732 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.046556 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.038147 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.033941 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.031837 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.030784 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.030258 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.029995 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804363, -2.583203, 8.555774, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.048134 b=-6.749530 dts/dp=[3.266618, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003709, nextPhis[ 0]=-0.029995 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.029995 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.046819 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.038410 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.034204 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.032100 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.031048 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.030521 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.030258 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804464, -2.583164, 8.555632, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.047709 b=-6.749413 dts/dp=[3.266612, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003445, nextPhis[ 0]=-0.030258 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.030258 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.047082 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.038673 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.034467 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.032363 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.031311 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.030784 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.030521 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804564, -2.583125, 8.555491, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.047285 b=-6.749296 dts/dp=[3.266605, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.003182, nextPhis[ 0]=-0.030521 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.030521 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.047345 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.038936 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.034730 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.032626 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.031574 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.031048 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.030784 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804665, -2.583086, 8.555350, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.046861 b=-6.749178 dts/dp=[3.266599, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002918, nextPhis[ 0]=-0.030784 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.030784 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.047608 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.039199 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.034993 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.032889 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.031837 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.031311 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.031048 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804766, -2.583047, 8.555208, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.046437 b=-6.749061 dts/dp=[3.266593, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002654, nextPhis[ 0]=-0.031048 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.031048 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.047870 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.039462 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.035256 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.033152 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.032100 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.031574 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.031311 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804867, -2.583008, 8.555067, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.046013 b=-6.748944 dts/dp=[3.266587, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002391, nextPhis[ 0]=-0.031311 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.031311 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.048133 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.039725 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.035518 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.033415 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.032363 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.031837 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.031574 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.804968, -2.582969, 8.554926, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.045589 b=-6.748827 dts/dp=[3.266581, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.002127, nextPhis[ 0]=-0.031574 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.031574 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.048396 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.039988 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.035781 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.033678 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.032626 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.032100 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.031837 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805069, -2.582930, 8.554784, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.045165 b=-6.748710 dts/dp=[3.266575, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001863, nextPhis[ 0]=-0.031837 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.031837 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.048659 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.040250 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.036044 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.033941 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.032889 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.032363 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.032100 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805170, -2.582891, 8.554643, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.044741 b=-6.748592 dts/dp=[3.266569, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001600, nextPhis[ 0]=-0.032100 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.032100 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.048921 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.040513 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.036307 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.034204 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.033152 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.032626 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.032363 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805271, -2.582852, 8.554501, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.044316 b=-6.748475 dts/dp=[3.266563, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001336, nextPhis[ 0]=-0.032363 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.032363 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.049184 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.040776 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.036570 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.034467 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.033415 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.032889 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.032626 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805372, -2.582812, 8.554360, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.043892 b=-6.748358 dts/dp=[3.266556, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001073, nextPhis[ 0]=-0.032626 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.032626 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.049447 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.041039 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.036833 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.034730 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.033678 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.033152 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.032889 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805473, -2.582773, 8.554219, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.043468 b=-6.748241 dts/dp=[3.266550, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000809, nextPhis[ 0]=-0.032889 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.032889 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.049709 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.041302 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.037096 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.034993 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.033941 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.033415 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.033152 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805573, -2.582734, 8.554077, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.043044 b=-6.748124 dts/dp=[3.266544, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000545, nextPhis[ 0]=-0.033152 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.033152 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.049972 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.041565 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.037359 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.035256 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.034204 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.033678 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.033415 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805674, -2.582695, 8.553936, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.042620 b=-6.748006 dts/dp=[3.266538, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000282, nextPhis[ 0]=-0.033415 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.033415 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.050235 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.041828 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.037622 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.035519 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.034467 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.033941 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.033678 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805775, -2.582656, 8.553795, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.042196 b=-6.747889 dts/dp=[3.266532, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000018, nextPhis[ 0]=-0.033678 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 20.705000 Phiest = -0.033678 Phiest < 0.0 it = 1 Test = 20.702500 Phiest = -0.050498 Phiest < 0.0 it = 2 Test = 20.701250 Phiest = -0.042091 Phiest < 0.0 it = 3 Test = 20.700625 Phiest = -0.037885 Phiest < 0.0 it = 4 Test = 20.700313 Phiest = -0.035782 Phiest < 0.0 it = 5 Test = 20.700156 Phiest = -0.034730 Phiest < 0.0 it = 6 Test = 20.700078 Phiest = -0.034204 Phiest < 0.0 it = 7 Test = 20.700039 Phiest = -0.033941 Switch time for phi[0] is 20.700039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.805876, -2.582617, 8.553653, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=22.041772 b=-6.747772 dts/dp=[3.266526, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 20.700000 Tnext = 20.705000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.705000 pESO->GetIndependentVar(): 20.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.000245, nextPhis[ 0]=-0.033941 prevPhis[ 1]=6.000245, nextPhis[ 1]=6.033941 <==IsSwitchingOccur() T = 20.705000 Tnext = 20.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.710000 pESO->GetIndependentVar(): 20.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.033941, nextPhis[ 0]=-0.067561 prevPhis[ 1]=6.033941, nextPhis[ 1]=6.067561 <==IsSwitchingOccur() T = 20.710000 Tnext = 20.715000 Time: 2.07100e+01 states: [ -8.31648e-01 -2.57262e+00] derivs: [ -2.57238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.715000 pESO->GetIndependentVar(): 20.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.067561, nextPhis[ 0]=-0.101107 prevPhis[ 1]=6.067561, nextPhis[ 1]=6.101107 <==IsSwitchingOccur() T = 20.715000 Tnext = 20.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.720000 pESO->GetIndependentVar(): 20.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.101107, nextPhis[ 0]=-0.134577 prevPhis[ 1]=6.101107, nextPhis[ 1]=6.134577 <==IsSwitchingOccur() T = 20.720000 Tnext = 20.725000 Time: 2.07200e+01 states: [ -8.57320e-01 -2.56262e+00] derivs: [ -2.56238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.725000 pESO->GetIndependentVar(): 20.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.134577, nextPhis[ 0]=-0.167973 prevPhis[ 1]=6.134577, nextPhis[ 1]=6.167973 <==IsSwitchingOccur() T = 20.725000 Tnext = 20.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.730000 pESO->GetIndependentVar(): 20.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.167973, nextPhis[ 0]=-0.201293 prevPhis[ 1]=6.167973, nextPhis[ 1]=6.201293 <==IsSwitchingOccur() T = 20.730000 Tnext = 20.735000 Time: 2.07300e+01 states: [ -8.82892e-01 -2.55262e+00] derivs: [ -2.55238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.735000 pESO->GetIndependentVar(): 20.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.201293, nextPhis[ 0]=-0.234539 prevPhis[ 1]=6.201293, nextPhis[ 1]=6.234539 <==IsSwitchingOccur() T = 20.735000 Tnext = 20.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.740000 pESO->GetIndependentVar(): 20.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.234539, nextPhis[ 0]=-0.267709 prevPhis[ 1]=6.234539, nextPhis[ 1]=6.267709 <==IsSwitchingOccur() T = 20.740000 Tnext = 20.745000 Time: 2.07400e+01 states: [ -9.08364e-01 -2.54262e+00] derivs: [ -2.54238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.745000 pESO->GetIndependentVar(): 20.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.267709, nextPhis[ 0]=-0.300805 prevPhis[ 1]=6.267709, nextPhis[ 1]=6.300805 <==IsSwitchingOccur() T = 20.745000 Tnext = 20.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.750000 pESO->GetIndependentVar(): 20.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.300805, nextPhis[ 0]=-0.333825 prevPhis[ 1]=6.300805, nextPhis[ 1]=6.333825 <==IsSwitchingOccur() T = 20.750000 Tnext = 20.755000 Time: 2.07500e+01 states: [ -9.33736e-01 -2.53262e+00] derivs: [ -2.53238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.755000 pESO->GetIndependentVar(): 20.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.333825, nextPhis[ 0]=-0.366771 prevPhis[ 1]=6.333825, nextPhis[ 1]=6.366771 <==IsSwitchingOccur() T = 20.755000 Tnext = 20.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.760000 pESO->GetIndependentVar(): 20.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.366771, nextPhis[ 0]=-0.399641 prevPhis[ 1]=6.366771, nextPhis[ 1]=6.399641 <==IsSwitchingOccur() T = 20.760000 Tnext = 20.765000 Time: 2.07600e+01 states: [ -9.59008e-01 -2.52262e+00] derivs: [ -2.52238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.765000 pESO->GetIndependentVar(): 20.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.399641, nextPhis[ 0]=-0.432437 prevPhis[ 1]=6.399641, nextPhis[ 1]=6.432437 <==IsSwitchingOccur() T = 20.765000 Tnext = 20.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.770000 pESO->GetIndependentVar(): 20.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.432437, nextPhis[ 0]=-0.465157 prevPhis[ 1]=6.432437, nextPhis[ 1]=6.465157 <==IsSwitchingOccur() T = 20.770000 Tnext = 20.775000 Time: 2.07700e+01 states: [ -9.84180e-01 -2.51262e+00] derivs: [ -2.51238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.775000 pESO->GetIndependentVar(): 20.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.465157, nextPhis[ 0]=-0.497803 prevPhis[ 1]=6.465157, nextPhis[ 1]=6.497803 <==IsSwitchingOccur() T = 20.775000 Tnext = 20.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.780000 pESO->GetIndependentVar(): 20.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.497803, nextPhis[ 0]=-0.530373 prevPhis[ 1]=6.497803, nextPhis[ 1]=6.530373 <==IsSwitchingOccur() T = 20.780000 Tnext = 20.785000 Time: 2.07800e+01 states: [ -1.00925e+00 -2.50262e+00] derivs: [ -2.50238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.785000 pESO->GetIndependentVar(): 20.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.530373, nextPhis[ 0]=-0.562869 prevPhis[ 1]=6.530373, nextPhis[ 1]=6.562869 <==IsSwitchingOccur() T = 20.785000 Tnext = 20.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.790000 pESO->GetIndependentVar(): 20.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.562869, nextPhis[ 0]=-0.595289 prevPhis[ 1]=6.562869, nextPhis[ 1]=6.595289 <==IsSwitchingOccur() T = 20.790000 Tnext = 20.795000 Time: 2.07900e+01 states: [ -1.03422e+00 -2.49262e+00] derivs: [ -2.49238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.795000 pESO->GetIndependentVar(): 20.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.595289, nextPhis[ 0]=-0.627635 prevPhis[ 1]=6.595289, nextPhis[ 1]=6.627635 <==IsSwitchingOccur() T = 20.795000 Tnext = 20.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.800000 pESO->GetIndependentVar(): 20.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.627635, nextPhis[ 0]=-0.659905 prevPhis[ 1]=6.627635, nextPhis[ 1]=6.659905 <==IsSwitchingOccur() T = 20.800000 Tnext = 20.805000 Time: 2.08000e+01 states: [ -1.05910e+00 -2.48262e+00] derivs: [ -2.48238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.805000 pESO->GetIndependentVar(): 20.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.659905, nextPhis[ 0]=-0.692100 prevPhis[ 1]=6.659905, nextPhis[ 1]=6.692100 <==IsSwitchingOccur() T = 20.805000 Tnext = 20.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.810000 pESO->GetIndependentVar(): 20.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.692100, nextPhis[ 0]=-0.724221 prevPhis[ 1]=6.692100, nextPhis[ 1]=6.724221 <==IsSwitchingOccur() T = 20.810000 Tnext = 20.815000 Time: 2.08100e+01 states: [ -1.08387e+00 -2.47262e+00] derivs: [ -2.47238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.815000 pESO->GetIndependentVar(): 20.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.724221, nextPhis[ 0]=-0.756266 prevPhis[ 1]=6.724221, nextPhis[ 1]=6.756266 <==IsSwitchingOccur() T = 20.815000 Tnext = 20.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.820000 pESO->GetIndependentVar(): 20.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.756266, nextPhis[ 0]=-0.788237 prevPhis[ 1]=6.756266, nextPhis[ 1]=6.788237 <==IsSwitchingOccur() T = 20.820000 Tnext = 20.825000 Time: 2.08200e+01 states: [ -1.10854e+00 -2.46262e+00] derivs: [ -2.46238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.825000 pESO->GetIndependentVar(): 20.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.788237, nextPhis[ 0]=-0.820132 prevPhis[ 1]=6.788237, nextPhis[ 1]=6.820132 <==IsSwitchingOccur() T = 20.825000 Tnext = 20.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.830000 pESO->GetIndependentVar(): 20.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.820132, nextPhis[ 0]=-0.851953 prevPhis[ 1]=6.820132, nextPhis[ 1]=6.851953 <==IsSwitchingOccur() T = 20.830000 Tnext = 20.835000 Time: 2.08300e+01 states: [ -1.13311e+00 -2.45262e+00] derivs: [ -2.45238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.835000 pESO->GetIndependentVar(): 20.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.851953, nextPhis[ 0]=-0.883698 prevPhis[ 1]=6.851953, nextPhis[ 1]=6.883698 <==IsSwitchingOccur() T = 20.835000 Tnext = 20.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.840000 pESO->GetIndependentVar(): 20.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.883698, nextPhis[ 0]=-0.915369 prevPhis[ 1]=6.883698, nextPhis[ 1]=6.915369 <==IsSwitchingOccur() T = 20.840000 Tnext = 20.845000 Time: 2.08400e+01 states: [ -1.15758e+00 -2.44262e+00] derivs: [ -2.44238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.845000 pESO->GetIndependentVar(): 20.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.915369, nextPhis[ 0]=-0.946964 prevPhis[ 1]=6.915369, nextPhis[ 1]=6.946964 <==IsSwitchingOccur() T = 20.845000 Tnext = 20.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.850000 pESO->GetIndependentVar(): 20.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.946964, nextPhis[ 0]=-0.978485 prevPhis[ 1]=6.946964, nextPhis[ 1]=6.978485 <==IsSwitchingOccur() T = 20.850000 Tnext = 20.855000 Time: 2.08500e+01 states: [ -1.18196e+00 -2.43262e+00] derivs: [ -2.43238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.855000 pESO->GetIndependentVar(): 20.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.978485, nextPhis[ 0]=-1.009930 prevPhis[ 1]=6.978485, nextPhis[ 1]=7.009930 <==IsSwitchingOccur() T = 20.855000 Tnext = 20.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.860000 pESO->GetIndependentVar(): 20.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.009930, nextPhis[ 0]=-1.041301 prevPhis[ 1]=7.009930, nextPhis[ 1]=7.041301 <==IsSwitchingOccur() T = 20.860000 Tnext = 20.865000 Time: 2.08600e+01 states: [ -1.20623e+00 -2.42262e+00] derivs: [ -2.42238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.865000 pESO->GetIndependentVar(): 20.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.041301, nextPhis[ 0]=-1.072596 prevPhis[ 1]=7.041301, nextPhis[ 1]=7.072596 <==IsSwitchingOccur() T = 20.865000 Tnext = 20.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.870000 pESO->GetIndependentVar(): 20.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.072596, nextPhis[ 0]=-1.103817 prevPhis[ 1]=7.072596, nextPhis[ 1]=7.103817 <==IsSwitchingOccur() T = 20.870000 Tnext = 20.875000 Time: 2.08700e+01 states: [ -1.23040e+00 -2.41262e+00] derivs: [ -2.41238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.875000 pESO->GetIndependentVar(): 20.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.103817, nextPhis[ 0]=-1.134962 prevPhis[ 1]=7.103817, nextPhis[ 1]=7.134962 <==IsSwitchingOccur() T = 20.875000 Tnext = 20.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.880000 pESO->GetIndependentVar(): 20.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.134962, nextPhis[ 0]=-1.166033 prevPhis[ 1]=7.134962, nextPhis[ 1]=7.166033 <==IsSwitchingOccur() T = 20.880000 Tnext = 20.885000 Time: 2.08800e+01 states: [ -1.25447e+00 -2.40262e+00] derivs: [ -2.40238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.885000 pESO->GetIndependentVar(): 20.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.166033, nextPhis[ 0]=-1.197028 prevPhis[ 1]=7.166033, nextPhis[ 1]=7.197028 <==IsSwitchingOccur() T = 20.885000 Tnext = 20.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.890000 pESO->GetIndependentVar(): 20.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.197028, nextPhis[ 0]=-1.227949 prevPhis[ 1]=7.197028, nextPhis[ 1]=7.227949 <==IsSwitchingOccur() T = 20.890000 Tnext = 20.895000 Time: 2.08900e+01 states: [ -1.27844e+00 -2.39262e+00] derivs: [ -2.39238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.895000 pESO->GetIndependentVar(): 20.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.227949, nextPhis[ 0]=-1.258794 prevPhis[ 1]=7.227949, nextPhis[ 1]=7.258794 <==IsSwitchingOccur() T = 20.895000 Tnext = 20.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.900000 pESO->GetIndependentVar(): 20.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.258794, nextPhis[ 0]=-1.289565 prevPhis[ 1]=7.258794, nextPhis[ 1]=7.289565 <==IsSwitchingOccur() T = 20.900000 Tnext = 20.905000 Time: 2.09000e+01 states: [ -1.30232e+00 -2.38262e+00] derivs: [ -2.38238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.905000 pESO->GetIndependentVar(): 20.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.289565, nextPhis[ 0]=-1.320260 prevPhis[ 1]=7.289565, nextPhis[ 1]=7.320260 <==IsSwitchingOccur() T = 20.905000 Tnext = 20.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.910000 pESO->GetIndependentVar(): 20.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.320260, nextPhis[ 0]=-1.350881 prevPhis[ 1]=7.320260, nextPhis[ 1]=7.350881 <==IsSwitchingOccur() T = 20.910000 Tnext = 20.915000 Time: 2.09100e+01 states: [ -1.32609e+00 -2.37262e+00] derivs: [ -2.37238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.915000 pESO->GetIndependentVar(): 20.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.350881, nextPhis[ 0]=-1.381426 prevPhis[ 1]=7.350881, nextPhis[ 1]=7.381426 <==IsSwitchingOccur() T = 20.915000 Tnext = 20.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.920000 pESO->GetIndependentVar(): 20.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.381426, nextPhis[ 0]=-1.411897 prevPhis[ 1]=7.381426, nextPhis[ 1]=7.411897 <==IsSwitchingOccur() T = 20.920000 Tnext = 20.925000 Time: 2.09200e+01 states: [ -1.34976e+00 -2.36262e+00] derivs: [ -2.36238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.925000 pESO->GetIndependentVar(): 20.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.411897, nextPhis[ 0]=-1.442292 prevPhis[ 1]=7.411897, nextPhis[ 1]=7.442292 <==IsSwitchingOccur() T = 20.925000 Tnext = 20.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.930000 pESO->GetIndependentVar(): 20.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.442292, nextPhis[ 0]=-1.472612 prevPhis[ 1]=7.442292, nextPhis[ 1]=7.472612 <==IsSwitchingOccur() T = 20.930000 Tnext = 20.935000 Time: 2.09300e+01 states: [ -1.37333e+00 -2.35262e+00] derivs: [ -2.35238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.935000 pESO->GetIndependentVar(): 20.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.472612, nextPhis[ 0]=-1.502858 prevPhis[ 1]=7.472612, nextPhis[ 1]=7.502858 <==IsSwitchingOccur() T = 20.935000 Tnext = 20.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.940000 pESO->GetIndependentVar(): 20.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.502858, nextPhis[ 0]=-1.533028 prevPhis[ 1]=7.502858, nextPhis[ 1]=7.533028 <==IsSwitchingOccur() T = 20.940000 Tnext = 20.945000 Time: 2.09400e+01 states: [ -1.39680e+00 -2.34262e+00] derivs: [ -2.34238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.945000 pESO->GetIndependentVar(): 20.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.533028, nextPhis[ 0]=-1.563124 prevPhis[ 1]=7.533028, nextPhis[ 1]=7.563124 <==IsSwitchingOccur() T = 20.945000 Tnext = 20.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.950000 pESO->GetIndependentVar(): 20.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.563124, nextPhis[ 0]=-1.593144 prevPhis[ 1]=7.563124, nextPhis[ 1]=7.593144 <==IsSwitchingOccur() T = 20.950000 Tnext = 20.955000 Time: 2.09500e+01 states: [ -1.42018e+00 -2.33262e+00] derivs: [ -2.33238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.955000 pESO->GetIndependentVar(): 20.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.593144, nextPhis[ 0]=-1.623090 prevPhis[ 1]=7.593144, nextPhis[ 1]=7.623090 <==IsSwitchingOccur() T = 20.955000 Tnext = 20.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.960000 pESO->GetIndependentVar(): 20.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.623090, nextPhis[ 0]=-1.652960 prevPhis[ 1]=7.623090, nextPhis[ 1]=7.652960 <==IsSwitchingOccur() T = 20.960000 Tnext = 20.965000 Time: 2.09600e+01 states: [ -1.44345e+00 -2.32262e+00] derivs: [ -2.32238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.965000 pESO->GetIndependentVar(): 20.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.652960, nextPhis[ 0]=-1.682756 prevPhis[ 1]=7.652960, nextPhis[ 1]=7.682756 <==IsSwitchingOccur() T = 20.965000 Tnext = 20.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.970000 pESO->GetIndependentVar(): 20.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.682756, nextPhis[ 0]=-1.712476 prevPhis[ 1]=7.682756, nextPhis[ 1]=7.712476 <==IsSwitchingOccur() T = 20.970000 Tnext = 20.975000 Time: 2.09700e+01 states: [ -1.46662e+00 -2.31262e+00] derivs: [ -2.31238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.975000 pESO->GetIndependentVar(): 20.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.712476, nextPhis[ 0]=-1.742122 prevPhis[ 1]=7.712476, nextPhis[ 1]=7.742122 <==IsSwitchingOccur() T = 20.975000 Tnext = 20.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.980000 pESO->GetIndependentVar(): 20.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.742122, nextPhis[ 0]=-1.771692 prevPhis[ 1]=7.742122, nextPhis[ 1]=7.771692 <==IsSwitchingOccur() T = 20.980000 Tnext = 20.985000 Time: 2.09800e+01 states: [ -1.48969e+00 -2.30262e+00] derivs: [ -2.30238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.985000 pESO->GetIndependentVar(): 20.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.771692, nextPhis[ 0]=-1.801188 prevPhis[ 1]=7.771692, nextPhis[ 1]=7.801188 <==IsSwitchingOccur() T = 20.985000 Tnext = 20.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.990000 pESO->GetIndependentVar(): 20.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.801188, nextPhis[ 0]=-1.830608 prevPhis[ 1]=7.801188, nextPhis[ 1]=7.830608 <==IsSwitchingOccur() T = 20.990000 Tnext = 20.995000 Time: 2.09900e+01 states: [ -1.51266e+00 -2.29262e+00] derivs: [ -2.29238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 20.995000 pESO->GetIndependentVar(): 20.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.830608, nextPhis[ 0]=-1.859954 prevPhis[ 1]=7.830608, nextPhis[ 1]=7.859954 <==IsSwitchingOccur() T = 20.995000 Tnext = 21.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.000000 pESO->GetIndependentVar(): 21.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.859954, nextPhis[ 0]=-1.889224 prevPhis[ 1]=7.859954, nextPhis[ 1]=7.889224 <==IsSwitchingOccur() T = 21.000000 Tnext = 21.005000 Time: 2.10000e+01 states: [ -1.53554e+00 -2.28262e+00] derivs: [ -2.28238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.005000 pESO->GetIndependentVar(): 21.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.889224, nextPhis[ 0]=-1.918420 prevPhis[ 1]=7.889224, nextPhis[ 1]=7.918420 <==IsSwitchingOccur() T = 21.005000 Tnext = 21.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.010000 pESO->GetIndependentVar(): 21.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.918420, nextPhis[ 0]=-1.947540 prevPhis[ 1]=7.918420, nextPhis[ 1]=7.947540 <==IsSwitchingOccur() T = 21.010000 Tnext = 21.015000 Time: 2.10100e+01 states: [ -1.55831e+00 -2.27262e+00] derivs: [ -2.27238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.015000 pESO->GetIndependentVar(): 21.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.947540, nextPhis[ 0]=-1.976586 prevPhis[ 1]=7.947540, nextPhis[ 1]=7.976586 <==IsSwitchingOccur() T = 21.015000 Tnext = 21.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.020000 pESO->GetIndependentVar(): 21.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.976586, nextPhis[ 0]=-2.005556 prevPhis[ 1]=7.976586, nextPhis[ 1]=8.005556 <==IsSwitchingOccur() T = 21.020000 Tnext = 21.025000 Time: 2.10200e+01 states: [ -1.58098e+00 -2.26262e+00] derivs: [ -2.26238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.025000 pESO->GetIndependentVar(): 21.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.005556, nextPhis[ 0]=-2.034452 prevPhis[ 1]=8.005556, nextPhis[ 1]=8.034452 <==IsSwitchingOccur() T = 21.025000 Tnext = 21.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.030000 pESO->GetIndependentVar(): 21.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.034452, nextPhis[ 0]=-2.063272 prevPhis[ 1]=8.034452, nextPhis[ 1]=8.063272 <==IsSwitchingOccur() T = 21.030000 Tnext = 21.035000 Time: 2.10300e+01 states: [ -1.60355e+00 -2.25262e+00] derivs: [ -2.25238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.035000 pESO->GetIndependentVar(): 21.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.063272, nextPhis[ 0]=-2.092018 prevPhis[ 1]=8.063272, nextPhis[ 1]=8.092018 <==IsSwitchingOccur() T = 21.035000 Tnext = 21.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.040000 pESO->GetIndependentVar(): 21.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.092018, nextPhis[ 0]=-2.120688 prevPhis[ 1]=8.092018, nextPhis[ 1]=8.120688 <==IsSwitchingOccur() T = 21.040000 Tnext = 21.045000 Time: 2.10400e+01 states: [ -1.62602e+00 -2.24262e+00] derivs: [ -2.24238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.045000 pESO->GetIndependentVar(): 21.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.120688, nextPhis[ 0]=-2.149284 prevPhis[ 1]=8.120688, nextPhis[ 1]=8.149284 <==IsSwitchingOccur() T = 21.045000 Tnext = 21.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.050000 pESO->GetIndependentVar(): 21.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.149284, nextPhis[ 0]=-2.177804 prevPhis[ 1]=8.149284, nextPhis[ 1]=8.177804 <==IsSwitchingOccur() T = 21.050000 Tnext = 21.055000 Time: 2.10500e+01 states: [ -1.64840e+00 -2.23262e+00] derivs: [ -2.23238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.055000 pESO->GetIndependentVar(): 21.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.177804, nextPhis[ 0]=-2.206250 prevPhis[ 1]=8.177804, nextPhis[ 1]=8.206250 <==IsSwitchingOccur() T = 21.055000 Tnext = 21.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.060000 pESO->GetIndependentVar(): 21.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.206250, nextPhis[ 0]=-2.234620 prevPhis[ 1]=8.206250, nextPhis[ 1]=8.234620 <==IsSwitchingOccur() T = 21.060000 Tnext = 21.065000 Time: 2.10600e+01 states: [ -1.67067e+00 -2.22262e+00] derivs: [ -2.22238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.065000 pESO->GetIndependentVar(): 21.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.234620, nextPhis[ 0]=-2.262915 prevPhis[ 1]=8.234620, nextPhis[ 1]=8.262915 <==IsSwitchingOccur() T = 21.065000 Tnext = 21.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.070000 pESO->GetIndependentVar(): 21.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.262915, nextPhis[ 0]=-2.291136 prevPhis[ 1]=8.262915, nextPhis[ 1]=8.291136 <==IsSwitchingOccur() T = 21.070000 Tnext = 21.075000 Time: 2.10700e+01 states: [ -1.69284e+00 -2.21262e+00] derivs: [ -2.21238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.075000 pESO->GetIndependentVar(): 21.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.291136, nextPhis[ 0]=-2.319281 prevPhis[ 1]=8.291136, nextPhis[ 1]=8.319281 <==IsSwitchingOccur() T = 21.075000 Tnext = 21.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.080000 pESO->GetIndependentVar(): 21.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.319281, nextPhis[ 0]=-2.347352 prevPhis[ 1]=8.319281, nextPhis[ 1]=8.347352 <==IsSwitchingOccur() T = 21.080000 Tnext = 21.085000 Time: 2.10800e+01 states: [ -1.71491e+00 -2.20262e+00] derivs: [ -2.20238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.085000 pESO->GetIndependentVar(): 21.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.347352, nextPhis[ 0]=-2.375347 prevPhis[ 1]=8.347352, nextPhis[ 1]=8.375347 <==IsSwitchingOccur() T = 21.085000 Tnext = 21.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.090000 pESO->GetIndependentVar(): 21.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.375347, nextPhis[ 0]=-2.403268 prevPhis[ 1]=8.375347, nextPhis[ 1]=8.403268 <==IsSwitchingOccur() T = 21.090000 Tnext = 21.095000 Time: 2.10900e+01 states: [ -1.73688e+00 -2.19262e+00] derivs: [ -2.19238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.095000 pESO->GetIndependentVar(): 21.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.403268, nextPhis[ 0]=-2.431113 prevPhis[ 1]=8.403268, nextPhis[ 1]=8.431113 <==IsSwitchingOccur() T = 21.095000 Tnext = 21.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.100000 pESO->GetIndependentVar(): 21.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.431113, nextPhis[ 0]=-2.458884 prevPhis[ 1]=8.431113, nextPhis[ 1]=8.458884 <==IsSwitchingOccur() T = 21.100000 Tnext = 21.105000 Time: 2.11000e+01 states: [ -1.75876e+00 -2.18262e+00] derivs: [ -2.18238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.105000 pESO->GetIndependentVar(): 21.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.458884, nextPhis[ 0]=-2.486579 prevPhis[ 1]=8.458884, nextPhis[ 1]=8.486579 <==IsSwitchingOccur() T = 21.105000 Tnext = 21.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.110000 pESO->GetIndependentVar(): 21.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.486579, nextPhis[ 0]=-2.514200 prevPhis[ 1]=8.486579, nextPhis[ 1]=8.514200 <==IsSwitchingOccur() T = 21.110000 Tnext = 21.115000 Time: 2.11100e+01 states: [ -1.78053e+00 -2.17262e+00] derivs: [ -2.17238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.115000 pESO->GetIndependentVar(): 21.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.514200, nextPhis[ 0]=-2.541745 prevPhis[ 1]=8.514200, nextPhis[ 1]=8.541745 <==IsSwitchingOccur() T = 21.115000 Tnext = 21.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.120000 pESO->GetIndependentVar(): 21.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.541745, nextPhis[ 0]=-2.569216 prevPhis[ 1]=8.541745, nextPhis[ 1]=8.569216 <==IsSwitchingOccur() T = 21.120000 Tnext = 21.125000 Time: 2.11200e+01 states: [ -1.80220e+00 -2.16262e+00] derivs: [ -2.16238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.125000 pESO->GetIndependentVar(): 21.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.569216, nextPhis[ 0]=-2.596611 prevPhis[ 1]=8.569216, nextPhis[ 1]=8.596611 <==IsSwitchingOccur() T = 21.125000 Tnext = 21.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.130000 pESO->GetIndependentVar(): 21.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.596611, nextPhis[ 0]=-2.623932 prevPhis[ 1]=8.596611, nextPhis[ 1]=8.623932 <==IsSwitchingOccur() T = 21.130000 Tnext = 21.135000 Time: 2.11300e+01 states: [ -1.82377e+00 -2.15262e+00] derivs: [ -2.15238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.135000 pESO->GetIndependentVar(): 21.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.623932, nextPhis[ 0]=-2.651177 prevPhis[ 1]=8.623932, nextPhis[ 1]=8.651177 <==IsSwitchingOccur() T = 21.135000 Tnext = 21.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.140000 pESO->GetIndependentVar(): 21.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.651177, nextPhis[ 0]=-2.678348 prevPhis[ 1]=8.651177, nextPhis[ 1]=8.678348 <==IsSwitchingOccur() T = 21.140000 Tnext = 21.145000 Time: 2.11400e+01 states: [ -1.84524e+00 -2.14262e+00] derivs: [ -2.14238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.145000 pESO->GetIndependentVar(): 21.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.678348, nextPhis[ 0]=-2.705443 prevPhis[ 1]=8.678348, nextPhis[ 1]=8.705443 <==IsSwitchingOccur() T = 21.145000 Tnext = 21.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.150000 pESO->GetIndependentVar(): 21.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.705443, nextPhis[ 0]=-2.732464 prevPhis[ 1]=8.705443, nextPhis[ 1]=8.732464 <==IsSwitchingOccur() T = 21.150000 Tnext = 21.155000 Time: 2.11500e+01 states: [ -1.86662e+00 -2.13262e+00] derivs: [ -2.13238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.155000 pESO->GetIndependentVar(): 21.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.732464, nextPhis[ 0]=-2.759409 prevPhis[ 1]=8.732464, nextPhis[ 1]=8.759409 <==IsSwitchingOccur() T = 21.155000 Tnext = 21.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.160000 pESO->GetIndependentVar(): 21.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.759409, nextPhis[ 0]=-2.786280 prevPhis[ 1]=8.759409, nextPhis[ 1]=8.786280 <==IsSwitchingOccur() T = 21.160000 Tnext = 21.165000 Time: 2.11600e+01 states: [ -1.88789e+00 -2.12262e+00] derivs: [ -2.12238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.165000 pESO->GetIndependentVar(): 21.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.786280, nextPhis[ 0]=-2.813075 prevPhis[ 1]=8.786280, nextPhis[ 1]=8.813075 <==IsSwitchingOccur() T = 21.165000 Tnext = 21.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.170000 pESO->GetIndependentVar(): 21.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.813075, nextPhis[ 0]=-2.839796 prevPhis[ 1]=8.813075, nextPhis[ 1]=8.839796 <==IsSwitchingOccur() T = 21.170000 Tnext = 21.175000 Time: 2.11700e+01 states: [ -1.90906e+00 -2.11262e+00] derivs: [ -2.11238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.175000 pESO->GetIndependentVar(): 21.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.839796, nextPhis[ 0]=-2.866441 prevPhis[ 1]=8.839796, nextPhis[ 1]=8.866441 <==IsSwitchingOccur() T = 21.175000 Tnext = 21.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.180000 pESO->GetIndependentVar(): 21.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.866441, nextPhis[ 0]=-2.893012 prevPhis[ 1]=8.866441, nextPhis[ 1]=8.893012 <==IsSwitchingOccur() T = 21.180000 Tnext = 21.185000 Time: 2.11800e+01 states: [ -1.93013e+00 -2.10262e+00] derivs: [ -2.10238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.185000 pESO->GetIndependentVar(): 21.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.893012, nextPhis[ 0]=-2.919507 prevPhis[ 1]=8.893012, nextPhis[ 1]=8.919507 <==IsSwitchingOccur() T = 21.185000 Tnext = 21.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.190000 pESO->GetIndependentVar(): 21.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.919507, nextPhis[ 0]=-2.945928 prevPhis[ 1]=8.919507, nextPhis[ 1]=8.945928 <==IsSwitchingOccur() T = 21.190000 Tnext = 21.195000 Time: 2.11900e+01 states: [ -1.95110e+00 -2.09262e+00] derivs: [ -2.09238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.195000 pESO->GetIndependentVar(): 21.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.945928, nextPhis[ 0]=-2.972273 prevPhis[ 1]=8.945928, nextPhis[ 1]=8.972273 <==IsSwitchingOccur() T = 21.195000 Tnext = 21.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.200000 pESO->GetIndependentVar(): 21.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.972273, nextPhis[ 0]=-2.998543 prevPhis[ 1]=8.972273, nextPhis[ 1]=8.998543 <==IsSwitchingOccur() T = 21.200000 Tnext = 21.205000 Time: 2.12000e+01 states: [ -1.97198e+00 -2.08262e+00] derivs: [ -2.08238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.205000 pESO->GetIndependentVar(): 21.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.998543, nextPhis[ 0]=-3.024739 prevPhis[ 1]=8.998543, nextPhis[ 1]=9.024739 <==IsSwitchingOccur() T = 21.205000 Tnext = 21.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.210000 pESO->GetIndependentVar(): 21.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.024739, nextPhis[ 0]=-3.050859 prevPhis[ 1]=9.024739, nextPhis[ 1]=9.050859 <==IsSwitchingOccur() T = 21.210000 Tnext = 21.215000 Time: 2.12100e+01 states: [ -1.99275e+00 -2.07262e+00] derivs: [ -2.07238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.215000 pESO->GetIndependentVar(): 21.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.050859, nextPhis[ 0]=-3.076905 prevPhis[ 1]=9.050859, nextPhis[ 1]=9.076905 <==IsSwitchingOccur() T = 21.215000 Tnext = 21.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.220000 pESO->GetIndependentVar(): 21.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.076905, nextPhis[ 0]=-3.102875 prevPhis[ 1]=9.076905, nextPhis[ 1]=9.102875 <==IsSwitchingOccur() T = 21.220000 Tnext = 21.225000 Time: 2.12200e+01 states: [ -2.01342e+00 -2.06262e+00] derivs: [ -2.06238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.225000 pESO->GetIndependentVar(): 21.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.102875, nextPhis[ 0]=-3.128771 prevPhis[ 1]=9.102875, nextPhis[ 1]=9.128771 <==IsSwitchingOccur() T = 21.225000 Tnext = 21.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.230000 pESO->GetIndependentVar(): 21.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.128771, nextPhis[ 0]=-3.154591 prevPhis[ 1]=9.128771, nextPhis[ 1]=9.154591 <==IsSwitchingOccur() T = 21.230000 Tnext = 21.235000 Time: 2.12300e+01 states: [ -2.03399e+00 -2.05262e+00] derivs: [ -2.05238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.235000 pESO->GetIndependentVar(): 21.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.154591, nextPhis[ 0]=-3.180337 prevPhis[ 1]=9.154591, nextPhis[ 1]=9.180337 <==IsSwitchingOccur() T = 21.235000 Tnext = 21.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.240000 pESO->GetIndependentVar(): 21.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.180337, nextPhis[ 0]=-3.206007 prevPhis[ 1]=9.180337, nextPhis[ 1]=9.206007 <==IsSwitchingOccur() T = 21.240000 Tnext = 21.245000 Time: 2.12400e+01 states: [ -2.05446e+00 -2.04262e+00] derivs: [ -2.04238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.245000 pESO->GetIndependentVar(): 21.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.206007, nextPhis[ 0]=-3.231603 prevPhis[ 1]=9.206007, nextPhis[ 1]=9.231603 <==IsSwitchingOccur() T = 21.245000 Tnext = 21.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.250000 pESO->GetIndependentVar(): 21.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.231603, nextPhis[ 0]=-3.257123 prevPhis[ 1]=9.231603, nextPhis[ 1]=9.257123 <==IsSwitchingOccur() T = 21.250000 Tnext = 21.255000 Time: 2.12500e+01 states: [ -2.07484e+00 -2.03262e+00] derivs: [ -2.03238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.255000 pESO->GetIndependentVar(): 21.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.257123, nextPhis[ 0]=-3.282569 prevPhis[ 1]=9.257123, nextPhis[ 1]=9.282569 <==IsSwitchingOccur() T = 21.255000 Tnext = 21.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.260000 pESO->GetIndependentVar(): 21.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.282569, nextPhis[ 0]=-3.307939 prevPhis[ 1]=9.282569, nextPhis[ 1]=9.307939 <==IsSwitchingOccur() T = 21.260000 Tnext = 21.265000 Time: 2.12600e+01 states: [ -2.09511e+00 -2.02262e+00] derivs: [ -2.02238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.265000 pESO->GetIndependentVar(): 21.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.307939, nextPhis[ 0]=-3.333235 prevPhis[ 1]=9.307939, nextPhis[ 1]=9.333235 <==IsSwitchingOccur() T = 21.265000 Tnext = 21.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.270000 pESO->GetIndependentVar(): 21.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.333235, nextPhis[ 0]=-3.358455 prevPhis[ 1]=9.333235, nextPhis[ 1]=9.358455 <==IsSwitchingOccur() T = 21.270000 Tnext = 21.275000 Time: 2.12700e+01 states: [ -2.11528e+00 -2.01262e+00] derivs: [ -2.01238e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.275000 pESO->GetIndependentVar(): 21.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.358455, nextPhis[ 0]=-3.383597 prevPhis[ 1]=9.358455, nextPhis[ 1]=9.383597 <==IsSwitchingOccur() T = 21.275000 Tnext = 21.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.280000 pESO->GetIndependentVar(): 21.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.383597, nextPhis[ 0]=-3.408663 prevPhis[ 1]=9.383597, nextPhis[ 1]=9.408663 <==IsSwitchingOccur() T = 21.280000 Tnext = 21.285000 Time: 2.12800e+01 states: [ -2.13535e+00 -2.00262e+00] derivs: [ -2.00237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.285000 pESO->GetIndependentVar(): 21.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.408663, nextPhis[ 0]=-3.433654 prevPhis[ 1]=9.408663, nextPhis[ 1]=9.433654 <==IsSwitchingOccur() T = 21.285000 Tnext = 21.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.290000 pESO->GetIndependentVar(): 21.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.433654, nextPhis[ 0]=-3.458571 prevPhis[ 1]=9.433654, nextPhis[ 1]=9.458571 <==IsSwitchingOccur() T = 21.290000 Tnext = 21.295000 Time: 2.12900e+01 states: [ -2.15532e+00 -1.99262e+00] derivs: [ -1.99237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.295000 pESO->GetIndependentVar(): 21.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.458571, nextPhis[ 0]=-3.483412 prevPhis[ 1]=9.458571, nextPhis[ 1]=9.483412 <==IsSwitchingOccur() T = 21.295000 Tnext = 21.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.300000 pESO->GetIndependentVar(): 21.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.483412, nextPhis[ 0]=-3.508179 prevPhis[ 1]=9.483412, nextPhis[ 1]=9.508179 <==IsSwitchingOccur() T = 21.300000 Tnext = 21.305000 Time: 2.13000e+01 states: [ -2.17519e+00 -1.98262e+00] derivs: [ -1.98237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.305000 pESO->GetIndependentVar(): 21.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.508179, nextPhis[ 0]=-3.532870 prevPhis[ 1]=9.508179, nextPhis[ 1]=9.532870 <==IsSwitchingOccur() T = 21.305000 Tnext = 21.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.310000 pESO->GetIndependentVar(): 21.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.532870, nextPhis[ 0]=-3.557486 prevPhis[ 1]=9.532870, nextPhis[ 1]=9.557486 <==IsSwitchingOccur() T = 21.310000 Tnext = 21.315000 Time: 2.13100e+01 states: [ -2.19496e+00 -1.97262e+00] derivs: [ -1.97237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.315000 pESO->GetIndependentVar(): 21.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.557486, nextPhis[ 0]=-3.582028 prevPhis[ 1]=9.557486, nextPhis[ 1]=9.582028 <==IsSwitchingOccur() T = 21.315000 Tnext = 21.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.320000 pESO->GetIndependentVar(): 21.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.582028, nextPhis[ 0]=-3.606494 prevPhis[ 1]=9.582028, nextPhis[ 1]=9.606494 <==IsSwitchingOccur() T = 21.320000 Tnext = 21.325000 Time: 2.13200e+01 states: [ -2.21463e+00 -1.96262e+00] derivs: [ -1.96237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.325000 pESO->GetIndependentVar(): 21.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.606494, nextPhis[ 0]=-3.630886 prevPhis[ 1]=9.606494, nextPhis[ 1]=9.630886 <==IsSwitchingOccur() T = 21.325000 Tnext = 21.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.330000 pESO->GetIndependentVar(): 21.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.630886, nextPhis[ 0]=-3.655202 prevPhis[ 1]=9.630886, nextPhis[ 1]=9.655202 <==IsSwitchingOccur() T = 21.330000 Tnext = 21.335000 Time: 2.13300e+01 states: [ -2.23419e+00 -1.95262e+00] derivs: [ -1.95237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.335000 pESO->GetIndependentVar(): 21.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.655202, nextPhis[ 0]=-3.679443 prevPhis[ 1]=9.655202, nextPhis[ 1]=9.679443 <==IsSwitchingOccur() T = 21.335000 Tnext = 21.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.340000 pESO->GetIndependentVar(): 21.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.679443, nextPhis[ 0]=-3.703610 prevPhis[ 1]=9.679443, nextPhis[ 1]=9.703610 <==IsSwitchingOccur() T = 21.340000 Tnext = 21.345000 Time: 2.13400e+01 states: [ -2.25366e+00 -1.94262e+00] derivs: [ -1.94237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.345000 pESO->GetIndependentVar(): 21.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.703610, nextPhis[ 0]=-3.727701 prevPhis[ 1]=9.703610, nextPhis[ 1]=9.727701 <==IsSwitchingOccur() T = 21.345000 Tnext = 21.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.350000 pESO->GetIndependentVar(): 21.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.727701, nextPhis[ 0]=-3.751718 prevPhis[ 1]=9.727701, nextPhis[ 1]=9.751718 <==IsSwitchingOccur() T = 21.350000 Tnext = 21.355000 Time: 2.13500e+01 states: [ -2.27303e+00 -1.93262e+00] derivs: [ -1.93237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.355000 pESO->GetIndependentVar(): 21.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.751718, nextPhis[ 0]=-3.775659 prevPhis[ 1]=9.751718, nextPhis[ 1]=9.775659 <==IsSwitchingOccur() T = 21.355000 Tnext = 21.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.360000 pESO->GetIndependentVar(): 21.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.775659, nextPhis[ 0]=-3.799525 prevPhis[ 1]=9.775659, nextPhis[ 1]=9.799525 <==IsSwitchingOccur() T = 21.360000 Tnext = 21.365000 Time: 2.13600e+01 states: [ -2.29230e+00 -1.92262e+00] derivs: [ -1.92237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.365000 pESO->GetIndependentVar(): 21.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.799525, nextPhis[ 0]=-3.823317 prevPhis[ 1]=9.799525, nextPhis[ 1]=9.823317 <==IsSwitchingOccur() T = 21.365000 Tnext = 21.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.370000 pESO->GetIndependentVar(): 21.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.823317, nextPhis[ 0]=-3.847033 prevPhis[ 1]=9.823317, nextPhis[ 1]=9.847033 <==IsSwitchingOccur() T = 21.370000 Tnext = 21.375000 Time: 2.13700e+01 states: [ -2.31147e+00 -1.91262e+00] derivs: [ -1.91237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.375000 pESO->GetIndependentVar(): 21.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.847033, nextPhis[ 0]=-3.870675 prevPhis[ 1]=9.847033, nextPhis[ 1]=9.870675 <==IsSwitchingOccur() T = 21.375000 Tnext = 21.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.380000 pESO->GetIndependentVar(): 21.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.870675, nextPhis[ 0]=-3.894241 prevPhis[ 1]=9.870675, nextPhis[ 1]=9.894241 <==IsSwitchingOccur() T = 21.380000 Tnext = 21.385000 Time: 2.13800e+01 states: [ -2.33054e+00 -1.90262e+00] derivs: [ -1.90237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.385000 pESO->GetIndependentVar(): 21.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.894241, nextPhis[ 0]=-3.917732 prevPhis[ 1]=9.894241, nextPhis[ 1]=9.917732 <==IsSwitchingOccur() T = 21.385000 Tnext = 21.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.390000 pESO->GetIndependentVar(): 21.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.917732, nextPhis[ 0]=-3.941149 prevPhis[ 1]=9.917732, nextPhis[ 1]=9.941149 <==IsSwitchingOccur() T = 21.390000 Tnext = 21.395000 Time: 2.13900e+01 states: [ -2.34951e+00 -1.89262e+00] derivs: [ -1.89237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.395000 pESO->GetIndependentVar(): 21.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.941149, nextPhis[ 0]=-3.964490 prevPhis[ 1]=9.941149, nextPhis[ 1]=9.964490 <==IsSwitchingOccur() T = 21.395000 Tnext = 21.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.400000 pESO->GetIndependentVar(): 21.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.964490, nextPhis[ 0]=-3.987757 prevPhis[ 1]=9.964490, nextPhis[ 1]=9.987757 <==IsSwitchingOccur() T = 21.400000 Tnext = 21.405000 Time: 2.14000e+01 states: [ -2.36838e+00 -1.88262e+00] derivs: [ -1.88237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.405000 pESO->GetIndependentVar(): 21.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.987757, nextPhis[ 0]=-4.010948 prevPhis[ 1]=9.987757, nextPhis[ 1]=10.010948 <==IsSwitchingOccur() T = 21.405000 Tnext = 21.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.410000 pESO->GetIndependentVar(): 21.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.010948, nextPhis[ 0]=-4.034064 prevPhis[ 1]=10.010948, nextPhis[ 1]=10.034064 <==IsSwitchingOccur() T = 21.410000 Tnext = 21.415000 Time: 2.14100e+01 states: [ -2.38715e+00 -1.87262e+00] derivs: [ -1.87237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.415000 pESO->GetIndependentVar(): 21.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.034064, nextPhis[ 0]=-4.057106 prevPhis[ 1]=10.034064, nextPhis[ 1]=10.057106 <==IsSwitchingOccur() T = 21.415000 Tnext = 21.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.420000 pESO->GetIndependentVar(): 21.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.057106, nextPhis[ 0]=-4.080072 prevPhis[ 1]=10.057106, nextPhis[ 1]=10.080072 <==IsSwitchingOccur() T = 21.420000 Tnext = 21.425000 Time: 2.14200e+01 states: [ -2.40582e+00 -1.86262e+00] derivs: [ -1.86237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.425000 pESO->GetIndependentVar(): 21.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.080072, nextPhis[ 0]=-4.102964 prevPhis[ 1]=10.080072, nextPhis[ 1]=10.102964 <==IsSwitchingOccur() T = 21.425000 Tnext = 21.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.430000 pESO->GetIndependentVar(): 21.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.102964, nextPhis[ 0]=-4.125780 prevPhis[ 1]=10.102964, nextPhis[ 1]=10.125780 <==IsSwitchingOccur() T = 21.430000 Tnext = 21.435000 Time: 2.14300e+01 states: [ -2.42439e+00 -1.85262e+00] derivs: [ -1.85237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.435000 pESO->GetIndependentVar(): 21.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.125780, nextPhis[ 0]=-4.148521 prevPhis[ 1]=10.125780, nextPhis[ 1]=10.148521 <==IsSwitchingOccur() T = 21.435000 Tnext = 21.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.440000 pESO->GetIndependentVar(): 21.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.148521, nextPhis[ 0]=-4.171188 prevPhis[ 1]=10.148521, nextPhis[ 1]=10.171188 <==IsSwitchingOccur() T = 21.440000 Tnext = 21.445000 Time: 2.14400e+01 states: [ -2.44286e+00 -1.84262e+00] derivs: [ -1.84237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.445000 pESO->GetIndependentVar(): 21.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.171188, nextPhis[ 0]=-4.193779 prevPhis[ 1]=10.171188, nextPhis[ 1]=10.193779 <==IsSwitchingOccur() T = 21.445000 Tnext = 21.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.450000 pESO->GetIndependentVar(): 21.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.193779, nextPhis[ 0]=-4.216296 prevPhis[ 1]=10.193779, nextPhis[ 1]=10.216296 <==IsSwitchingOccur() T = 21.450000 Tnext = 21.455000 Time: 2.14500e+01 states: [ -2.46123e+00 -1.83262e+00] derivs: [ -1.83237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.455000 pESO->GetIndependentVar(): 21.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.216296, nextPhis[ 0]=-4.238737 prevPhis[ 1]=10.216296, nextPhis[ 1]=10.238737 <==IsSwitchingOccur() T = 21.455000 Tnext = 21.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.460000 pESO->GetIndependentVar(): 21.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.238737, nextPhis[ 0]=-4.261103 prevPhis[ 1]=10.238737, nextPhis[ 1]=10.261103 <==IsSwitchingOccur() T = 21.460000 Tnext = 21.465000 Time: 2.14600e+01 states: [ -2.47950e+00 -1.82262e+00] derivs: [ -1.82237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.465000 pESO->GetIndependentVar(): 21.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.261103, nextPhis[ 0]=-4.283395 prevPhis[ 1]=10.261103, nextPhis[ 1]=10.283395 <==IsSwitchingOccur() T = 21.465000 Tnext = 21.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.470000 pESO->GetIndependentVar(): 21.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.283395, nextPhis[ 0]=-4.305611 prevPhis[ 1]=10.283395, nextPhis[ 1]=10.305611 <==IsSwitchingOccur() T = 21.470000 Tnext = 21.475000 Time: 2.14700e+01 states: [ -2.49766e+00 -1.81262e+00] derivs: [ -1.81237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.475000 pESO->GetIndependentVar(): 21.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.305611, nextPhis[ 0]=-4.327753 prevPhis[ 1]=10.305611, nextPhis[ 1]=10.327753 <==IsSwitchingOccur() T = 21.475000 Tnext = 21.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.480000 pESO->GetIndependentVar(): 21.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.327753, nextPhis[ 0]=-4.349819 prevPhis[ 1]=10.327753, nextPhis[ 1]=10.349819 <==IsSwitchingOccur() T = 21.480000 Tnext = 21.485000 Time: 2.14800e+01 states: [ -2.51573e+00 -1.80262e+00] derivs: [ -1.80237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.485000 pESO->GetIndependentVar(): 21.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.349819, nextPhis[ 0]=-4.371810 prevPhis[ 1]=10.349819, nextPhis[ 1]=10.371810 <==IsSwitchingOccur() T = 21.485000 Tnext = 21.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.490000 pESO->GetIndependentVar(): 21.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.371810, nextPhis[ 0]=-4.393727 prevPhis[ 1]=10.371810, nextPhis[ 1]=10.393727 <==IsSwitchingOccur() T = 21.490000 Tnext = 21.495000 Time: 2.14900e+01 states: [ -2.53370e+00 -1.79262e+00] derivs: [ -1.79237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.495000 pESO->GetIndependentVar(): 21.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.393727, nextPhis[ 0]=-4.415568 prevPhis[ 1]=10.393727, nextPhis[ 1]=10.415568 <==IsSwitchingOccur() T = 21.495000 Tnext = 21.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.500000 pESO->GetIndependentVar(): 21.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.415568, nextPhis[ 0]=-4.437335 prevPhis[ 1]=10.415568, nextPhis[ 1]=10.437335 <==IsSwitchingOccur() T = 21.500000 Tnext = 21.505000 Time: 2.15000e+01 states: [ -2.55157e+00 -1.78262e+00] derivs: [ -1.78237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.505000 pESO->GetIndependentVar(): 21.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.437335, nextPhis[ 0]=-4.459026 prevPhis[ 1]=10.437335, nextPhis[ 1]=10.459026 <==IsSwitchingOccur() T = 21.505000 Tnext = 21.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.510000 pESO->GetIndependentVar(): 21.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.459026, nextPhis[ 0]=-4.480642 prevPhis[ 1]=10.459026, nextPhis[ 1]=10.480642 <==IsSwitchingOccur() T = 21.510000 Tnext = 21.515000 Time: 2.15100e+01 states: [ -2.56934e+00 -1.77262e+00] derivs: [ -1.77237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.515000 pESO->GetIndependentVar(): 21.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.480642, nextPhis[ 0]=-4.502184 prevPhis[ 1]=10.480642, nextPhis[ 1]=10.502184 <==IsSwitchingOccur() T = 21.515000 Tnext = 21.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.520000 pESO->GetIndependentVar(): 21.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.502184, nextPhis[ 0]=-4.523650 prevPhis[ 1]=10.502184, nextPhis[ 1]=10.523650 <==IsSwitchingOccur() T = 21.520000 Tnext = 21.525000 Time: 2.15200e+01 states: [ -2.58701e+00 -1.76262e+00] derivs: [ -1.76237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.525000 pESO->GetIndependentVar(): 21.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.523650, nextPhis[ 0]=-4.545042 prevPhis[ 1]=10.523650, nextPhis[ 1]=10.545042 <==IsSwitchingOccur() T = 21.525000 Tnext = 21.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.530000 pESO->GetIndependentVar(): 21.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.545042, nextPhis[ 0]=-4.566358 prevPhis[ 1]=10.545042, nextPhis[ 1]=10.566358 <==IsSwitchingOccur() T = 21.530000 Tnext = 21.535000 Time: 2.15300e+01 states: [ -2.60458e+00 -1.75262e+00] derivs: [ -1.75237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.535000 pESO->GetIndependentVar(): 21.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.566358, nextPhis[ 0]=-4.587599 prevPhis[ 1]=10.566358, nextPhis[ 1]=10.587599 <==IsSwitchingOccur() T = 21.535000 Tnext = 21.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.540000 pESO->GetIndependentVar(): 21.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.587599, nextPhis[ 0]=-4.608766 prevPhis[ 1]=10.587599, nextPhis[ 1]=10.608766 <==IsSwitchingOccur() T = 21.540000 Tnext = 21.545000 Time: 2.15400e+01 states: [ -2.62205e+00 -1.74262e+00] derivs: [ -1.74237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.545000 pESO->GetIndependentVar(): 21.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.608766, nextPhis[ 0]=-4.629857 prevPhis[ 1]=10.608766, nextPhis[ 1]=10.629857 <==IsSwitchingOccur() T = 21.545000 Tnext = 21.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.550000 pESO->GetIndependentVar(): 21.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.629857, nextPhis[ 0]=-4.650874 prevPhis[ 1]=10.629857, nextPhis[ 1]=10.650874 <==IsSwitchingOccur() T = 21.550000 Tnext = 21.555000 Time: 2.15500e+01 states: [ -2.63942e+00 -1.73262e+00] derivs: [ -1.73237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.555000 pESO->GetIndependentVar(): 21.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.650874, nextPhis[ 0]=-4.671815 prevPhis[ 1]=10.650874, nextPhis[ 1]=10.671815 <==IsSwitchingOccur() T = 21.555000 Tnext = 21.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.560000 pESO->GetIndependentVar(): 21.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.671815, nextPhis[ 0]=-4.692681 prevPhis[ 1]=10.671815, nextPhis[ 1]=10.692681 <==IsSwitchingOccur() T = 21.560000 Tnext = 21.565000 Time: 2.15600e+01 states: [ -2.65669e+00 -1.72262e+00] derivs: [ -1.72237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.565000 pESO->GetIndependentVar(): 21.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.692681, nextPhis[ 0]=-4.713473 prevPhis[ 1]=10.692681, nextPhis[ 1]=10.713473 <==IsSwitchingOccur() T = 21.565000 Tnext = 21.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.570000 pESO->GetIndependentVar(): 21.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.713473, nextPhis[ 0]=-4.734189 prevPhis[ 1]=10.713473, nextPhis[ 1]=10.734189 <==IsSwitchingOccur() T = 21.570000 Tnext = 21.575000 Time: 2.15700e+01 states: [ -2.67386e+00 -1.71262e+00] derivs: [ -1.71237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.575000 pESO->GetIndependentVar(): 21.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.734189, nextPhis[ 0]=-4.754831 prevPhis[ 1]=10.734189, nextPhis[ 1]=10.754831 <==IsSwitchingOccur() T = 21.575000 Tnext = 21.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.580000 pESO->GetIndependentVar(): 21.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.754831, nextPhis[ 0]=-4.775397 prevPhis[ 1]=10.754831, nextPhis[ 1]=10.775397 <==IsSwitchingOccur() T = 21.580000 Tnext = 21.585000 Time: 2.15800e+01 states: [ -2.69093e+00 -1.70262e+00] derivs: [ -1.70237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.585000 pESO->GetIndependentVar(): 21.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.775397, nextPhis[ 0]=-4.795888 prevPhis[ 1]=10.775397, nextPhis[ 1]=10.795888 <==IsSwitchingOccur() T = 21.585000 Tnext = 21.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.590000 pESO->GetIndependentVar(): 21.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.795888, nextPhis[ 0]=-4.816305 prevPhis[ 1]=10.795888, nextPhis[ 1]=10.816305 <==IsSwitchingOccur() T = 21.590000 Tnext = 21.595000 Time: 2.15900e+01 states: [ -2.70790e+00 -1.69262e+00] derivs: [ -1.69237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.595000 pESO->GetIndependentVar(): 21.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.816305, nextPhis[ 0]=-4.836646 prevPhis[ 1]=10.816305, nextPhis[ 1]=10.836646 <==IsSwitchingOccur() T = 21.595000 Tnext = 21.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.600000 pESO->GetIndependentVar(): 21.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.836646, nextPhis[ 0]=-4.856913 prevPhis[ 1]=10.836646, nextPhis[ 1]=10.856913 <==IsSwitchingOccur() T = 21.600000 Tnext = 21.605000 Time: 2.16000e+01 states: [ -2.72477e+00 -1.68262e+00] derivs: [ -1.68237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.605000 pESO->GetIndependentVar(): 21.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.856913, nextPhis[ 0]=-4.877104 prevPhis[ 1]=10.856913, nextPhis[ 1]=10.877104 <==IsSwitchingOccur() T = 21.605000 Tnext = 21.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.610000 pESO->GetIndependentVar(): 21.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.877104, nextPhis[ 0]=-4.897220 prevPhis[ 1]=10.877104, nextPhis[ 1]=10.897220 <==IsSwitchingOccur() T = 21.610000 Tnext = 21.615000 Time: 2.16100e+01 states: [ -2.74153e+00 -1.67262e+00] derivs: [ -1.67237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.615000 pESO->GetIndependentVar(): 21.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.897220, nextPhis[ 0]=-4.917262 prevPhis[ 1]=10.897220, nextPhis[ 1]=10.917262 <==IsSwitchingOccur() T = 21.615000 Tnext = 21.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.620000 pESO->GetIndependentVar(): 21.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.917262, nextPhis[ 0]=-4.937228 prevPhis[ 1]=10.917262, nextPhis[ 1]=10.937228 <==IsSwitchingOccur() T = 21.620000 Tnext = 21.625000 Time: 2.16200e+01 states: [ -2.75820e+00 -1.66262e+00] derivs: [ -1.66237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.625000 pESO->GetIndependentVar(): 21.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.937228, nextPhis[ 0]=-4.957120 prevPhis[ 1]=10.937228, nextPhis[ 1]=10.957120 <==IsSwitchingOccur() T = 21.625000 Tnext = 21.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.630000 pESO->GetIndependentVar(): 21.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.957120, nextPhis[ 0]=-4.976936 prevPhis[ 1]=10.957120, nextPhis[ 1]=10.976936 <==IsSwitchingOccur() T = 21.630000 Tnext = 21.635000 Time: 2.16300e+01 states: [ -2.77477e+00 -1.65262e+00] derivs: [ -1.65237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.635000 pESO->GetIndependentVar(): 21.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.976936, nextPhis[ 0]=-4.996677 prevPhis[ 1]=10.976936, nextPhis[ 1]=10.996677 <==IsSwitchingOccur() T = 21.635000 Tnext = 21.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.640000 pESO->GetIndependentVar(): 21.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.996677, nextPhis[ 0]=-5.016344 prevPhis[ 1]=10.996677, nextPhis[ 1]=11.016344 <==IsSwitchingOccur() T = 21.640000 Tnext = 21.645000 Time: 2.16400e+01 states: [ -2.79124e+00 -1.64262e+00] derivs: [ -1.64237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.645000 pESO->GetIndependentVar(): 21.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.016344, nextPhis[ 0]=-5.035935 prevPhis[ 1]=11.016344, nextPhis[ 1]=11.035935 <==IsSwitchingOccur() T = 21.645000 Tnext = 21.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.650000 pESO->GetIndependentVar(): 21.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.035935, nextPhis[ 0]=-5.055452 prevPhis[ 1]=11.035935, nextPhis[ 1]=11.055452 <==IsSwitchingOccur() T = 21.650000 Tnext = 21.655000 Time: 2.16500e+01 states: [ -2.80761e+00 -1.63262e+00] derivs: [ -1.63237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.655000 pESO->GetIndependentVar(): 21.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.055452, nextPhis[ 0]=-5.074893 prevPhis[ 1]=11.055452, nextPhis[ 1]=11.074893 <==IsSwitchingOccur() T = 21.655000 Tnext = 21.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.660000 pESO->GetIndependentVar(): 21.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.074893, nextPhis[ 0]=-5.094259 prevPhis[ 1]=11.074893, nextPhis[ 1]=11.094259 <==IsSwitchingOccur() T = 21.660000 Tnext = 21.665000 Time: 2.16600e+01 states: [ -2.82388e+00 -1.62262e+00] derivs: [ -1.62237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.665000 pESO->GetIndependentVar(): 21.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.094259, nextPhis[ 0]=-5.113551 prevPhis[ 1]=11.094259, nextPhis[ 1]=11.113551 <==IsSwitchingOccur() T = 21.665000 Tnext = 21.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.670000 pESO->GetIndependentVar(): 21.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.113551, nextPhis[ 0]=-5.132767 prevPhis[ 1]=11.113551, nextPhis[ 1]=11.132767 <==IsSwitchingOccur() T = 21.670000 Tnext = 21.675000 Time: 2.16700e+01 states: [ -2.84005e+00 -1.61262e+00] derivs: [ -1.61237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.675000 pESO->GetIndependentVar(): 21.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.132767, nextPhis[ 0]=-5.151909 prevPhis[ 1]=11.132767, nextPhis[ 1]=11.151909 <==IsSwitchingOccur() T = 21.675000 Tnext = 21.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.680000 pESO->GetIndependentVar(): 21.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.151909, nextPhis[ 0]=-5.170975 prevPhis[ 1]=11.151909, nextPhis[ 1]=11.170975 <==IsSwitchingOccur() T = 21.680000 Tnext = 21.685000 Time: 2.16800e+01 states: [ -2.85612e+00 -1.60262e+00] derivs: [ -1.60237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.685000 pESO->GetIndependentVar(): 21.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.170975, nextPhis[ 0]=-5.189966 prevPhis[ 1]=11.170975, nextPhis[ 1]=11.189966 <==IsSwitchingOccur() T = 21.685000 Tnext = 21.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.690000 pESO->GetIndependentVar(): 21.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.189966, nextPhis[ 0]=-5.208883 prevPhis[ 1]=11.189966, nextPhis[ 1]=11.208883 <==IsSwitchingOccur() T = 21.690000 Tnext = 21.695000 Time: 2.16900e+01 states: [ -2.87209e+00 -1.59262e+00] derivs: [ -1.59237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.695000 pESO->GetIndependentVar(): 21.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.208883, nextPhis[ 0]=-5.227724 prevPhis[ 1]=11.208883, nextPhis[ 1]=11.227724 <==IsSwitchingOccur() T = 21.695000 Tnext = 21.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.700000 pESO->GetIndependentVar(): 21.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.227724, nextPhis[ 0]=-5.246491 prevPhis[ 1]=11.227724, nextPhis[ 1]=11.246491 <==IsSwitchingOccur() T = 21.700000 Tnext = 21.705000 Time: 2.17000e+01 states: [ -2.88796e+00 -1.58262e+00] derivs: [ -1.58237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.705000 pESO->GetIndependentVar(): 21.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.246491, nextPhis[ 0]=-5.265182 prevPhis[ 1]=11.246491, nextPhis[ 1]=11.265182 <==IsSwitchingOccur() T = 21.705000 Tnext = 21.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.710000 pESO->GetIndependentVar(): 21.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.265182, nextPhis[ 0]=-5.283798 prevPhis[ 1]=11.265182, nextPhis[ 1]=11.283798 <==IsSwitchingOccur() T = 21.710000 Tnext = 21.715000 Time: 2.17100e+01 states: [ -2.90373e+00 -1.57262e+00] derivs: [ -1.57237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.715000 pESO->GetIndependentVar(): 21.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.283798, nextPhis[ 0]=-5.302340 prevPhis[ 1]=11.283798, nextPhis[ 1]=11.302340 <==IsSwitchingOccur() T = 21.715000 Tnext = 21.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.720000 pESO->GetIndependentVar(): 21.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.302340, nextPhis[ 0]=-5.320806 prevPhis[ 1]=11.302340, nextPhis[ 1]=11.320806 <==IsSwitchingOccur() T = 21.720000 Tnext = 21.725000 Time: 2.17200e+01 states: [ -2.91940e+00 -1.56262e+00] derivs: [ -1.56237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.725000 pESO->GetIndependentVar(): 21.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.320806, nextPhis[ 0]=-5.339198 prevPhis[ 1]=11.320806, nextPhis[ 1]=11.339198 <==IsSwitchingOccur() T = 21.725000 Tnext = 21.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.730000 pESO->GetIndependentVar(): 21.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.339198, nextPhis[ 0]=-5.357514 prevPhis[ 1]=11.339198, nextPhis[ 1]=11.357514 <==IsSwitchingOccur() T = 21.730000 Tnext = 21.735000 Time: 2.17300e+01 states: [ -2.93497e+00 -1.55262e+00] derivs: [ -1.55237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.735000 pESO->GetIndependentVar(): 21.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.357514, nextPhis[ 0]=-5.375755 prevPhis[ 1]=11.357514, nextPhis[ 1]=11.375755 <==IsSwitchingOccur() T = 21.735000 Tnext = 21.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.740000 pESO->GetIndependentVar(): 21.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.375755, nextPhis[ 0]=-5.393922 prevPhis[ 1]=11.375755, nextPhis[ 1]=11.393922 <==IsSwitchingOccur() T = 21.740000 Tnext = 21.745000 Time: 2.17400e+01 states: [ -2.95043e+00 -1.54262e+00] derivs: [ -1.54237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.745000 pESO->GetIndependentVar(): 21.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.393922, nextPhis[ 0]=-5.412013 prevPhis[ 1]=11.393922, nextPhis[ 1]=11.412013 <==IsSwitchingOccur() T = 21.745000 Tnext = 21.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.750000 pESO->GetIndependentVar(): 21.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.412013, nextPhis[ 0]=-5.430030 prevPhis[ 1]=11.412013, nextPhis[ 1]=11.430030 <==IsSwitchingOccur() T = 21.750000 Tnext = 21.755000 Time: 2.17500e+01 states: [ -2.96580e+00 -1.53262e+00] derivs: [ -1.53237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.755000 pESO->GetIndependentVar(): 21.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.430030, nextPhis[ 0]=-5.447971 prevPhis[ 1]=11.430030, nextPhis[ 1]=11.447971 <==IsSwitchingOccur() T = 21.755000 Tnext = 21.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.760000 pESO->GetIndependentVar(): 21.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.447971, nextPhis[ 0]=-5.465837 prevPhis[ 1]=11.447971, nextPhis[ 1]=11.465837 <==IsSwitchingOccur() T = 21.760000 Tnext = 21.765000 Time: 2.17600e+01 states: [ -2.98107e+00 -1.52262e+00] derivs: [ -1.52237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.765000 pESO->GetIndependentVar(): 21.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.465837, nextPhis[ 0]=-5.483629 prevPhis[ 1]=11.465837, nextPhis[ 1]=11.483629 <==IsSwitchingOccur() T = 21.765000 Tnext = 21.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.770000 pESO->GetIndependentVar(): 21.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.483629, nextPhis[ 0]=-5.501345 prevPhis[ 1]=11.483629, nextPhis[ 1]=11.501345 <==IsSwitchingOccur() T = 21.770000 Tnext = 21.775000 Time: 2.17700e+01 states: [ -2.99624e+00 -1.51262e+00] derivs: [ -1.51237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.775000 pESO->GetIndependentVar(): 21.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.501345, nextPhis[ 0]=-5.518987 prevPhis[ 1]=11.501345, nextPhis[ 1]=11.518987 <==IsSwitchingOccur() T = 21.775000 Tnext = 21.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.780000 pESO->GetIndependentVar(): 21.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.518987, nextPhis[ 0]=-5.536553 prevPhis[ 1]=11.518987, nextPhis[ 1]=11.536553 <==IsSwitchingOccur() T = 21.780000 Tnext = 21.785000 Time: 2.17800e+01 states: [ -3.01131e+00 -1.50262e+00] derivs: [ -1.50237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.785000 pESO->GetIndependentVar(): 21.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.536553, nextPhis[ 0]=-5.554044 prevPhis[ 1]=11.536553, nextPhis[ 1]=11.554044 <==IsSwitchingOccur() T = 21.785000 Tnext = 21.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.790000 pESO->GetIndependentVar(): 21.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.554044, nextPhis[ 0]=-5.571461 prevPhis[ 1]=11.554044, nextPhis[ 1]=11.571461 <==IsSwitchingOccur() T = 21.790000 Tnext = 21.795000 Time: 2.17900e+01 states: [ -3.02628e+00 -1.49262e+00] derivs: [ -1.49237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.795000 pESO->GetIndependentVar(): 21.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.571461, nextPhis[ 0]=-5.588802 prevPhis[ 1]=11.571461, nextPhis[ 1]=11.588802 <==IsSwitchingOccur() T = 21.795000 Tnext = 21.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.800000 pESO->GetIndependentVar(): 21.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.588802, nextPhis[ 0]=-5.606069 prevPhis[ 1]=11.588802, nextPhis[ 1]=11.606069 <==IsSwitchingOccur() T = 21.800000 Tnext = 21.805000 Time: 2.18000e+01 states: [ -3.04115e+00 -1.48262e+00] derivs: [ -1.48237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.805000 pESO->GetIndependentVar(): 21.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.606069, nextPhis[ 0]=-5.623260 prevPhis[ 1]=11.606069, nextPhis[ 1]=11.623260 <==IsSwitchingOccur() T = 21.805000 Tnext = 21.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.810000 pESO->GetIndependentVar(): 21.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.623260, nextPhis[ 0]=-5.640376 prevPhis[ 1]=11.623260, nextPhis[ 1]=11.640376 <==IsSwitchingOccur() T = 21.810000 Tnext = 21.815000 Time: 2.18100e+01 states: [ -3.05592e+00 -1.47262e+00] derivs: [ -1.47237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.815000 pESO->GetIndependentVar(): 21.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.640376, nextPhis[ 0]=-5.657418 prevPhis[ 1]=11.640376, nextPhis[ 1]=11.657418 <==IsSwitchingOccur() T = 21.815000 Tnext = 21.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.820000 pESO->GetIndependentVar(): 21.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.657418, nextPhis[ 0]=-5.674384 prevPhis[ 1]=11.657418, nextPhis[ 1]=11.674384 <==IsSwitchingOccur() T = 21.820000 Tnext = 21.825000 Time: 2.18200e+01 states: [ -3.07059e+00 -1.46262e+00] derivs: [ -1.46237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.825000 pESO->GetIndependentVar(): 21.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.674384, nextPhis[ 0]=-5.691276 prevPhis[ 1]=11.674384, nextPhis[ 1]=11.691276 <==IsSwitchingOccur() T = 21.825000 Tnext = 21.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.830000 pESO->GetIndependentVar(): 21.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.691276, nextPhis[ 0]=-5.708092 prevPhis[ 1]=11.691276, nextPhis[ 1]=11.708092 <==IsSwitchingOccur() T = 21.830000 Tnext = 21.835000 Time: 2.18300e+01 states: [ -3.08516e+00 -1.45262e+00] derivs: [ -1.45237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.835000 pESO->GetIndependentVar(): 21.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.708092, nextPhis[ 0]=-5.724833 prevPhis[ 1]=11.708092, nextPhis[ 1]=11.724833 <==IsSwitchingOccur() T = 21.835000 Tnext = 21.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.840000 pESO->GetIndependentVar(): 21.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.724833, nextPhis[ 0]=-5.741500 prevPhis[ 1]=11.724833, nextPhis[ 1]=11.741500 <==IsSwitchingOccur() T = 21.840000 Tnext = 21.845000 Time: 2.18400e+01 states: [ -3.09963e+00 -1.44262e+00] derivs: [ -1.44237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.845000 pESO->GetIndependentVar(): 21.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.741500, nextPhis[ 0]=-5.758091 prevPhis[ 1]=11.741500, nextPhis[ 1]=11.758091 <==IsSwitchingOccur() T = 21.845000 Tnext = 21.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.850000 pESO->GetIndependentVar(): 21.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.758091, nextPhis[ 0]=-5.774608 prevPhis[ 1]=11.758091, nextPhis[ 1]=11.774608 <==IsSwitchingOccur() T = 21.850000 Tnext = 21.855000 Time: 2.18500e+01 states: [ -3.11400e+00 -1.43262e+00] derivs: [ -1.43237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.855000 pESO->GetIndependentVar(): 21.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.774608, nextPhis[ 0]=-5.791049 prevPhis[ 1]=11.774608, nextPhis[ 1]=11.791049 <==IsSwitchingOccur() T = 21.855000 Tnext = 21.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.860000 pESO->GetIndependentVar(): 21.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.791049, nextPhis[ 0]=-5.807415 prevPhis[ 1]=11.791049, nextPhis[ 1]=11.807415 <==IsSwitchingOccur() T = 21.860000 Tnext = 21.865000 Time: 2.18600e+01 states: [ -3.12827e+00 -1.42262e+00] derivs: [ -1.42237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.865000 pESO->GetIndependentVar(): 21.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.807415, nextPhis[ 0]=-5.823707 prevPhis[ 1]=11.807415, nextPhis[ 1]=11.823707 <==IsSwitchingOccur() T = 21.865000 Tnext = 21.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.870000 pESO->GetIndependentVar(): 21.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.823707, nextPhis[ 0]=-5.839923 prevPhis[ 1]=11.823707, nextPhis[ 1]=11.839923 <==IsSwitchingOccur() T = 21.870000 Tnext = 21.875000 Time: 2.18700e+01 states: [ -3.14244e+00 -1.41262e+00] derivs: [ -1.41237e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.875000 pESO->GetIndependentVar(): 21.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.839923, nextPhis[ 0]=-5.856065 prevPhis[ 1]=11.839923, nextPhis[ 1]=11.856065 <==IsSwitchingOccur() T = 21.875000 Tnext = 21.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.880000 pESO->GetIndependentVar(): 21.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.856065, nextPhis[ 0]=-5.872129 prevPhis[ 1]=11.856065, nextPhis[ 1]=11.872129 <==IsSwitchingOccur() T = 21.880000 Tnext = 21.885000 Time: 2.18800e+01 states: [ -3.15650e+00 -1.40262e+00] derivs: [ -1.40133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.885000 pESO->GetIndependentVar(): 21.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.872129, nextPhis[ 0]=-5.888117 prevPhis[ 1]=11.872129, nextPhis[ 1]=11.888117 <==IsSwitchingOccur() T = 21.885000 Tnext = 21.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.890000 pESO->GetIndependentVar(): 21.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.888117, nextPhis[ 0]=-5.904031 prevPhis[ 1]=11.888117, nextPhis[ 1]=11.904031 <==IsSwitchingOccur() T = 21.890000 Tnext = 21.895000 Time: 2.18900e+01 states: [ -3.17047e+00 -1.39262e+00] derivs: [ -1.39133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.895000 pESO->GetIndependentVar(): 21.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.904031, nextPhis[ 0]=-5.919870 prevPhis[ 1]=11.904031, nextPhis[ 1]=11.919870 <==IsSwitchingOccur() T = 21.895000 Tnext = 21.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.900000 pESO->GetIndependentVar(): 21.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.919870, nextPhis[ 0]=-5.935634 prevPhis[ 1]=11.919870, nextPhis[ 1]=11.935634 <==IsSwitchingOccur() T = 21.900000 Tnext = 21.905000 Time: 2.19000e+01 states: [ -3.18434e+00 -1.38262e+00] derivs: [ -1.38133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.905000 pESO->GetIndependentVar(): 21.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.935634, nextPhis[ 0]=-5.951323 prevPhis[ 1]=11.935634, nextPhis[ 1]=11.951323 <==IsSwitchingOccur() T = 21.905000 Tnext = 21.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.910000 pESO->GetIndependentVar(): 21.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.951323, nextPhis[ 0]=-5.966937 prevPhis[ 1]=11.951323, nextPhis[ 1]=11.966937 <==IsSwitchingOccur() T = 21.910000 Tnext = 21.915000 Time: 2.19100e+01 states: [ -3.19811e+00 -1.37262e+00] derivs: [ -1.37133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.915000 pESO->GetIndependentVar(): 21.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.966937, nextPhis[ 0]=-5.982476 prevPhis[ 1]=11.966937, nextPhis[ 1]=11.982476 <==IsSwitchingOccur() T = 21.915000 Tnext = 21.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.920000 pESO->GetIndependentVar(): 21.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.982476, nextPhis[ 0]=-5.997939 prevPhis[ 1]=11.982476, nextPhis[ 1]=11.997939 <==IsSwitchingOccur() T = 21.920000 Tnext = 21.925000 Time: 2.19200e+01 states: [ -3.21177e+00 -1.36262e+00] derivs: [ -1.36133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.925000 pESO->GetIndependentVar(): 21.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.997939, nextPhis[ 0]=-6.013328 prevPhis[ 1]=11.997939, nextPhis[ 1]=12.013328 <==IsSwitchingOccur() T = 21.925000 Tnext = 21.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.930000 pESO->GetIndependentVar(): 21.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.013328, nextPhis[ 0]=-6.028642 prevPhis[ 1]=12.013328, nextPhis[ 1]=12.028642 <==IsSwitchingOccur() T = 21.930000 Tnext = 21.935000 Time: 2.19300e+01 states: [ -3.22534e+00 -1.35262e+00] derivs: [ -1.35133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.935000 pESO->GetIndependentVar(): 21.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.028642, nextPhis[ 0]=-6.043881 prevPhis[ 1]=12.028642, nextPhis[ 1]=12.043881 <==IsSwitchingOccur() T = 21.935000 Tnext = 21.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.940000 pESO->GetIndependentVar(): 21.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.043881, nextPhis[ 0]=-6.059045 prevPhis[ 1]=12.043881, nextPhis[ 1]=12.059045 <==IsSwitchingOccur() T = 21.940000 Tnext = 21.945000 Time: 2.19400e+01 states: [ -3.23881e+00 -1.34262e+00] derivs: [ -1.34133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.945000 pESO->GetIndependentVar(): 21.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.059045, nextPhis[ 0]=-6.074134 prevPhis[ 1]=12.059045, nextPhis[ 1]=12.074134 <==IsSwitchingOccur() T = 21.945000 Tnext = 21.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.950000 pESO->GetIndependentVar(): 21.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.074134, nextPhis[ 0]=-6.089148 prevPhis[ 1]=12.074134, nextPhis[ 1]=12.089148 <==IsSwitchingOccur() T = 21.950000 Tnext = 21.955000 Time: 2.19500e+01 states: [ -3.25218e+00 -1.33262e+00] derivs: [ -1.33133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.955000 pESO->GetIndependentVar(): 21.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.089148, nextPhis[ 0]=-6.104087 prevPhis[ 1]=12.089148, nextPhis[ 1]=12.104087 <==IsSwitchingOccur() T = 21.955000 Tnext = 21.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.960000 pESO->GetIndependentVar(): 21.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.104087, nextPhis[ 0]=-6.118950 prevPhis[ 1]=12.104087, nextPhis[ 1]=12.118950 <==IsSwitchingOccur() T = 21.960000 Tnext = 21.965000 Time: 2.19600e+01 states: [ -3.26544e+00 -1.32262e+00] derivs: [ -1.32133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.965000 pESO->GetIndependentVar(): 21.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.118950, nextPhis[ 0]=-6.133739 prevPhis[ 1]=12.118950, nextPhis[ 1]=12.133739 <==IsSwitchingOccur() T = 21.965000 Tnext = 21.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.970000 pESO->GetIndependentVar(): 21.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.133739, nextPhis[ 0]=-6.148453 prevPhis[ 1]=12.133739, nextPhis[ 1]=12.148453 <==IsSwitchingOccur() T = 21.970000 Tnext = 21.975000 Time: 2.19700e+01 states: [ -3.27861e+00 -1.31262e+00] derivs: [ -1.31133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.975000 pESO->GetIndependentVar(): 21.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.148453, nextPhis[ 0]=-6.163092 prevPhis[ 1]=12.148453, nextPhis[ 1]=12.163092 <==IsSwitchingOccur() T = 21.975000 Tnext = 21.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.980000 pESO->GetIndependentVar(): 21.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.163092, nextPhis[ 0]=-6.177656 prevPhis[ 1]=12.163092, nextPhis[ 1]=12.177656 <==IsSwitchingOccur() T = 21.980000 Tnext = 21.985000 Time: 2.19800e+01 states: [ -3.29168e+00 -1.30262e+00] derivs: [ -1.30133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.985000 pESO->GetIndependentVar(): 21.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.177656, nextPhis[ 0]=-6.192145 prevPhis[ 1]=12.177656, nextPhis[ 1]=12.192145 <==IsSwitchingOccur() T = 21.985000 Tnext = 21.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.990000 pESO->GetIndependentVar(): 21.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.192145, nextPhis[ 0]=-6.206559 prevPhis[ 1]=12.192145, nextPhis[ 1]=12.206559 <==IsSwitchingOccur() T = 21.990000 Tnext = 21.995000 Time: 2.19900e+01 states: [ -3.30465e+00 -1.29262e+00] derivs: [ -1.29133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 21.995000 pESO->GetIndependentVar(): 21.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.206559, nextPhis[ 0]=-6.220897 prevPhis[ 1]=12.206559, nextPhis[ 1]=12.220897 <==IsSwitchingOccur() T = 21.995000 Tnext = 22.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.000000 pESO->GetIndependentVar(): 22.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.220897, nextPhis[ 0]=-6.235161 prevPhis[ 1]=12.220897, nextPhis[ 1]=12.235161 <==IsSwitchingOccur() T = 22.000000 Tnext = 22.005000 Time: 2.20000e+01 states: [ -3.31751e+00 -1.28262e+00] derivs: [ -1.28133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.005000 pESO->GetIndependentVar(): 22.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.235161, nextPhis[ 0]=-6.249350 prevPhis[ 1]=12.235161, nextPhis[ 1]=12.249350 <==IsSwitchingOccur() T = 22.005000 Tnext = 22.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.010000 pESO->GetIndependentVar(): 22.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.249350, nextPhis[ 0]=-6.263464 prevPhis[ 1]=12.249350, nextPhis[ 1]=12.263464 <==IsSwitchingOccur() T = 22.010000 Tnext = 22.015000 Time: 2.20100e+01 states: [ -3.33028e+00 -1.27262e+00] derivs: [ -1.27133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.015000 pESO->GetIndependentVar(): 22.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.263464, nextPhis[ 0]=-6.277503 prevPhis[ 1]=12.263464, nextPhis[ 1]=12.277503 <==IsSwitchingOccur() T = 22.015000 Tnext = 22.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.020000 pESO->GetIndependentVar(): 22.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.277503, nextPhis[ 0]=-6.291467 prevPhis[ 1]=12.277503, nextPhis[ 1]=12.291467 <==IsSwitchingOccur() T = 22.020000 Tnext = 22.025000 Time: 2.20200e+01 states: [ -3.34295e+00 -1.26262e+00] derivs: [ -1.26133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.025000 pESO->GetIndependentVar(): 22.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.291467, nextPhis[ 0]=-6.305356 prevPhis[ 1]=12.291467, nextPhis[ 1]=12.305356 <==IsSwitchingOccur() T = 22.025000 Tnext = 22.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.030000 pESO->GetIndependentVar(): 22.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.305356, nextPhis[ 0]=-6.319170 prevPhis[ 1]=12.305356, nextPhis[ 1]=12.319170 <==IsSwitchingOccur() T = 22.030000 Tnext = 22.035000 Time: 2.20300e+01 states: [ -3.35552e+00 -1.25262e+00] derivs: [ -1.25133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.035000 pESO->GetIndependentVar(): 22.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.319170, nextPhis[ 0]=-6.332908 prevPhis[ 1]=12.319170, nextPhis[ 1]=12.332908 <==IsSwitchingOccur() T = 22.035000 Tnext = 22.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.040000 pESO->GetIndependentVar(): 22.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.332908, nextPhis[ 0]=-6.346572 prevPhis[ 1]=12.332908, nextPhis[ 1]=12.346572 <==IsSwitchingOccur() T = 22.040000 Tnext = 22.045000 Time: 2.20400e+01 states: [ -3.36799e+00 -1.24262e+00] derivs: [ -1.24133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.045000 pESO->GetIndependentVar(): 22.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.346572, nextPhis[ 0]=-6.360161 prevPhis[ 1]=12.346572, nextPhis[ 1]=12.360161 <==IsSwitchingOccur() T = 22.045000 Tnext = 22.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.050000 pESO->GetIndependentVar(): 22.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.360161, nextPhis[ 0]=-6.373675 prevPhis[ 1]=12.360161, nextPhis[ 1]=12.373675 <==IsSwitchingOccur() T = 22.050000 Tnext = 22.055000 Time: 2.20500e+01 states: [ -3.38035e+00 -1.23262e+00] derivs: [ -1.23133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.055000 pESO->GetIndependentVar(): 22.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.373675, nextPhis[ 0]=-6.387114 prevPhis[ 1]=12.373675, nextPhis[ 1]=12.387114 <==IsSwitchingOccur() T = 22.055000 Tnext = 22.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.060000 pESO->GetIndependentVar(): 22.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.387114, nextPhis[ 0]=-6.400478 prevPhis[ 1]=12.387114, nextPhis[ 1]=12.400478 <==IsSwitchingOccur() T = 22.060000 Tnext = 22.065000 Time: 2.20600e+01 states: [ -3.39262e+00 -1.22262e+00] derivs: [ -1.22133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.065000 pESO->GetIndependentVar(): 22.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.400478, nextPhis[ 0]=-6.413767 prevPhis[ 1]=12.400478, nextPhis[ 1]=12.413767 <==IsSwitchingOccur() T = 22.065000 Tnext = 22.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.070000 pESO->GetIndependentVar(): 22.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.413767, nextPhis[ 0]=-6.426980 prevPhis[ 1]=12.413767, nextPhis[ 1]=12.426980 <==IsSwitchingOccur() T = 22.070000 Tnext = 22.075000 Time: 2.20700e+01 states: [ -3.40479e+00 -1.21262e+00] derivs: [ -1.21133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.075000 pESO->GetIndependentVar(): 22.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.426980, nextPhis[ 0]=-6.440119 prevPhis[ 1]=12.426980, nextPhis[ 1]=12.440119 <==IsSwitchingOccur() T = 22.075000 Tnext = 22.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.080000 pESO->GetIndependentVar(): 22.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.440119, nextPhis[ 0]=-6.453183 prevPhis[ 1]=12.440119, nextPhis[ 1]=12.453183 <==IsSwitchingOccur() T = 22.080000 Tnext = 22.085000 Time: 2.20800e+01 states: [ -3.41686e+00 -1.20262e+00] derivs: [ -1.20133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.085000 pESO->GetIndependentVar(): 22.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.453183, nextPhis[ 0]=-6.466172 prevPhis[ 1]=12.453183, nextPhis[ 1]=12.466172 <==IsSwitchingOccur() T = 22.085000 Tnext = 22.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.090000 pESO->GetIndependentVar(): 22.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.466172, nextPhis[ 0]=-6.479086 prevPhis[ 1]=12.466172, nextPhis[ 1]=12.479086 <==IsSwitchingOccur() T = 22.090000 Tnext = 22.095000 Time: 2.20900e+01 states: [ -3.42882e+00 -1.19262e+00] derivs: [ -1.19133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.095000 pESO->GetIndependentVar(): 22.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.479086, nextPhis[ 0]=-6.491925 prevPhis[ 1]=12.479086, nextPhis[ 1]=12.491925 <==IsSwitchingOccur() T = 22.095000 Tnext = 22.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.100000 pESO->GetIndependentVar(): 22.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.491925, nextPhis[ 0]=-6.504689 prevPhis[ 1]=12.491925, nextPhis[ 1]=12.504689 <==IsSwitchingOccur() T = 22.100000 Tnext = 22.105000 Time: 2.21000e+01 states: [ -3.44069e+00 -1.18262e+00] derivs: [ -1.18133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.105000 pESO->GetIndependentVar(): 22.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.504689, nextPhis[ 0]=-6.517378 prevPhis[ 1]=12.504689, nextPhis[ 1]=12.517378 <==IsSwitchingOccur() T = 22.105000 Tnext = 22.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.110000 pESO->GetIndependentVar(): 22.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.517378, nextPhis[ 0]=-6.529991 prevPhis[ 1]=12.517378, nextPhis[ 1]=12.529991 <==IsSwitchingOccur() T = 22.110000 Tnext = 22.115000 Time: 2.21100e+01 states: [ -3.45246e+00 -1.17262e+00] derivs: [ -1.17133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.115000 pESO->GetIndependentVar(): 22.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.529991, nextPhis[ 0]=-6.542530 prevPhis[ 1]=12.529991, nextPhis[ 1]=12.542530 <==IsSwitchingOccur() T = 22.115000 Tnext = 22.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.120000 pESO->GetIndependentVar(): 22.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.542530, nextPhis[ 0]=-6.554994 prevPhis[ 1]=12.542530, nextPhis[ 1]=12.554994 <==IsSwitchingOccur() T = 22.120000 Tnext = 22.125000 Time: 2.21200e+01 states: [ -3.46413e+00 -1.16262e+00] derivs: [ -1.16133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.125000 pESO->GetIndependentVar(): 22.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.554994, nextPhis[ 0]=-6.567383 prevPhis[ 1]=12.554994, nextPhis[ 1]=12.567383 <==IsSwitchingOccur() T = 22.125000 Tnext = 22.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.130000 pESO->GetIndependentVar(): 22.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.567383, nextPhis[ 0]=-6.579697 prevPhis[ 1]=12.567383, nextPhis[ 1]=12.579697 <==IsSwitchingOccur() T = 22.130000 Tnext = 22.135000 Time: 2.21300e+01 states: [ -3.47569e+00 -1.15262e+00] derivs: [ -1.15133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.135000 pESO->GetIndependentVar(): 22.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.579697, nextPhis[ 0]=-6.591936 prevPhis[ 1]=12.579697, nextPhis[ 1]=12.591936 <==IsSwitchingOccur() T = 22.135000 Tnext = 22.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.140000 pESO->GetIndependentVar(): 22.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.591936, nextPhis[ 0]=-6.604100 prevPhis[ 1]=12.591936, nextPhis[ 1]=12.604100 <==IsSwitchingOccur() T = 22.140000 Tnext = 22.145000 Time: 2.21400e+01 states: [ -3.48716e+00 -1.14262e+00] derivs: [ -1.14133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.145000 pESO->GetIndependentVar(): 22.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.604100, nextPhis[ 0]=-6.616188 prevPhis[ 1]=12.604100, nextPhis[ 1]=12.616188 <==IsSwitchingOccur() T = 22.145000 Tnext = 22.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.150000 pESO->GetIndependentVar(): 22.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.616188, nextPhis[ 0]=-6.628202 prevPhis[ 1]=12.616188, nextPhis[ 1]=12.628202 <==IsSwitchingOccur() T = 22.150000 Tnext = 22.155000 Time: 2.21500e+01 states: [ -3.49853e+00 -1.13262e+00] derivs: [ -1.13133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.155000 pESO->GetIndependentVar(): 22.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.628202, nextPhis[ 0]=-6.640141 prevPhis[ 1]=12.628202, nextPhis[ 1]=12.640141 <==IsSwitchingOccur() T = 22.155000 Tnext = 22.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.160000 pESO->GetIndependentVar(): 22.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.640141, nextPhis[ 0]=-6.652005 prevPhis[ 1]=12.640141, nextPhis[ 1]=12.652005 <==IsSwitchingOccur() T = 22.160000 Tnext = 22.165000 Time: 2.21600e+01 states: [ -3.50980e+00 -1.12262e+00] derivs: [ -1.12133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.165000 pESO->GetIndependentVar(): 22.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.652005, nextPhis[ 0]=-6.663794 prevPhis[ 1]=12.652005, nextPhis[ 1]=12.663794 <==IsSwitchingOccur() T = 22.165000 Tnext = 22.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.170000 pESO->GetIndependentVar(): 22.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.663794, nextPhis[ 0]=-6.675508 prevPhis[ 1]=12.663794, nextPhis[ 1]=12.675508 <==IsSwitchingOccur() T = 22.170000 Tnext = 22.175000 Time: 2.21700e+01 states: [ -3.52096e+00 -1.11262e+00] derivs: [ -1.11133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.175000 pESO->GetIndependentVar(): 22.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.675508, nextPhis[ 0]=-6.687147 prevPhis[ 1]=12.675508, nextPhis[ 1]=12.687147 <==IsSwitchingOccur() T = 22.175000 Tnext = 22.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.180000 pESO->GetIndependentVar(): 22.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.687147, nextPhis[ 0]=-6.698711 prevPhis[ 1]=12.687147, nextPhis[ 1]=12.698711 <==IsSwitchingOccur() T = 22.180000 Tnext = 22.185000 Time: 2.21800e+01 states: [ -3.53203e+00 -1.10262e+00] derivs: [ -1.10133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.185000 pESO->GetIndependentVar(): 22.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.698711, nextPhis[ 0]=-6.710199 prevPhis[ 1]=12.698711, nextPhis[ 1]=12.710199 <==IsSwitchingOccur() T = 22.185000 Tnext = 22.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.190000 pESO->GetIndependentVar(): 22.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.710199, nextPhis[ 0]=-6.721613 prevPhis[ 1]=12.710199, nextPhis[ 1]=12.721613 <==IsSwitchingOccur() T = 22.190000 Tnext = 22.195000 Time: 2.21900e+01 states: [ -3.54300e+00 -1.09262e+00] derivs: [ -1.09133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.195000 pESO->GetIndependentVar(): 22.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.721613, nextPhis[ 0]=-6.732952 prevPhis[ 1]=12.721613, nextPhis[ 1]=12.732952 <==IsSwitchingOccur() T = 22.195000 Tnext = 22.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.200000 pESO->GetIndependentVar(): 22.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.732952, nextPhis[ 0]=-6.744216 prevPhis[ 1]=12.732952, nextPhis[ 1]=12.744216 <==IsSwitchingOccur() T = 22.200000 Tnext = 22.205000 Time: 2.22000e+01 states: [ -3.55387e+00 -1.08262e+00] derivs: [ -1.08133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.205000 pESO->GetIndependentVar(): 22.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.744216, nextPhis[ 0]=-6.755405 prevPhis[ 1]=12.744216, nextPhis[ 1]=12.755405 <==IsSwitchingOccur() T = 22.205000 Tnext = 22.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.210000 pESO->GetIndependentVar(): 22.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.755405, nextPhis[ 0]=-6.766519 prevPhis[ 1]=12.755405, nextPhis[ 1]=12.766519 <==IsSwitchingOccur() T = 22.210000 Tnext = 22.215000 Time: 2.22100e+01 states: [ -3.56463e+00 -1.07262e+00] derivs: [ -1.07133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.215000 pESO->GetIndependentVar(): 22.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.766519, nextPhis[ 0]=-6.777558 prevPhis[ 1]=12.766519, nextPhis[ 1]=12.777558 <==IsSwitchingOccur() T = 22.215000 Tnext = 22.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.220000 pESO->GetIndependentVar(): 22.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.777558, nextPhis[ 0]=-6.788521 prevPhis[ 1]=12.777558, nextPhis[ 1]=12.788521 <==IsSwitchingOccur() T = 22.220000 Tnext = 22.225000 Time: 2.22200e+01 states: [ -3.57530e+00 -1.06262e+00] derivs: [ -1.06133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.225000 pESO->GetIndependentVar(): 22.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.788521, nextPhis[ 0]=-6.799410 prevPhis[ 1]=12.788521, nextPhis[ 1]=12.799410 <==IsSwitchingOccur() T = 22.225000 Tnext = 22.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.230000 pESO->GetIndependentVar(): 22.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.799410, nextPhis[ 0]=-6.810224 prevPhis[ 1]=12.799410, nextPhis[ 1]=12.810224 <==IsSwitchingOccur() T = 22.230000 Tnext = 22.235000 Time: 2.22300e+01 states: [ -3.58587e+00 -1.05262e+00] derivs: [ -1.05133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.235000 pESO->GetIndependentVar(): 22.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.810224, nextPhis[ 0]=-6.820963 prevPhis[ 1]=12.810224, nextPhis[ 1]=12.820963 <==IsSwitchingOccur() T = 22.235000 Tnext = 22.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.240000 pESO->GetIndependentVar(): 22.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.820963, nextPhis[ 0]=-6.831627 prevPhis[ 1]=12.820963, nextPhis[ 1]=12.831627 <==IsSwitchingOccur() T = 22.240000 Tnext = 22.245000 Time: 2.22400e+01 states: [ -3.59634e+00 -1.04262e+00] derivs: [ -1.04133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.245000 pESO->GetIndependentVar(): 22.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.831627, nextPhis[ 0]=-6.842216 prevPhis[ 1]=12.831627, nextPhis[ 1]=12.842216 <==IsSwitchingOccur() T = 22.245000 Tnext = 22.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.250000 pESO->GetIndependentVar(): 22.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.842216, nextPhis[ 0]=-6.852730 prevPhis[ 1]=12.842216, nextPhis[ 1]=12.852730 <==IsSwitchingOccur() T = 22.250000 Tnext = 22.255000 Time: 2.22500e+01 states: [ -3.60670e+00 -1.03262e+00] derivs: [ -1.03133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.255000 pESO->GetIndependentVar(): 22.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.852730, nextPhis[ 0]=-6.863168 prevPhis[ 1]=12.852730, nextPhis[ 1]=12.863168 <==IsSwitchingOccur() T = 22.255000 Tnext = 22.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.260000 pESO->GetIndependentVar(): 22.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.863168, nextPhis[ 0]=-6.873532 prevPhis[ 1]=12.863168, nextPhis[ 1]=12.873532 <==IsSwitchingOccur() T = 22.260000 Tnext = 22.265000 Time: 2.22600e+01 states: [ -3.61697e+00 -1.02262e+00] derivs: [ -1.02133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.265000 pESO->GetIndependentVar(): 22.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.873532, nextPhis[ 0]=-6.883821 prevPhis[ 1]=12.873532, nextPhis[ 1]=12.883821 <==IsSwitchingOccur() T = 22.265000 Tnext = 22.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.270000 pESO->GetIndependentVar(): 22.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.883821, nextPhis[ 0]=-6.894035 prevPhis[ 1]=12.883821, nextPhis[ 1]=12.894035 <==IsSwitchingOccur() T = 22.270000 Tnext = 22.275000 Time: 2.22700e+01 states: [ -3.62714e+00 -1.01262e+00] derivs: [ -1.01133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.275000 pESO->GetIndependentVar(): 22.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.894035, nextPhis[ 0]=-6.904174 prevPhis[ 1]=12.894035, nextPhis[ 1]=12.904174 <==IsSwitchingOccur() T = 22.275000 Tnext = 22.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.280000 pESO->GetIndependentVar(): 22.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.904174, nextPhis[ 0]=-6.914238 prevPhis[ 1]=12.904174, nextPhis[ 1]=12.914238 <==IsSwitchingOccur() T = 22.280000 Tnext = 22.285000 Time: 2.22800e+01 states: [ -3.63721e+00 -1.00262e+00] derivs: [ -1.00133e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.285000 pESO->GetIndependentVar(): 22.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.914238, nextPhis[ 0]=-6.924227 prevPhis[ 1]=12.914238, nextPhis[ 1]=12.924227 <==IsSwitchingOccur() T = 22.285000 Tnext = 22.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.290000 pESO->GetIndependentVar(): 22.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.924227, nextPhis[ 0]=-6.934141 prevPhis[ 1]=12.924227, nextPhis[ 1]=12.934141 <==IsSwitchingOccur() T = 22.290000 Tnext = 22.295000 Time: 2.22900e+01 states: [ -3.64717e+00 -9.92617e-01] derivs: [ -9.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.295000 pESO->GetIndependentVar(): 22.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.934141, nextPhis[ 0]=-6.943979 prevPhis[ 1]=12.934141, nextPhis[ 1]=12.943979 <==IsSwitchingOccur() T = 22.295000 Tnext = 22.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.300000 pESO->GetIndependentVar(): 22.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.943979, nextPhis[ 0]=-6.953743 prevPhis[ 1]=12.943979, nextPhis[ 1]=12.953743 <==IsSwitchingOccur() T = 22.300000 Tnext = 22.305000 Time: 2.23000e+01 states: [ -3.65704e+00 -9.82617e-01] derivs: [ -9.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.305000 pESO->GetIndependentVar(): 22.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.953743, nextPhis[ 0]=-6.963432 prevPhis[ 1]=12.953743, nextPhis[ 1]=12.963432 <==IsSwitchingOccur() T = 22.305000 Tnext = 22.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.310000 pESO->GetIndependentVar(): 22.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.963432, nextPhis[ 0]=-6.973046 prevPhis[ 1]=12.963432, nextPhis[ 1]=12.973046 <==IsSwitchingOccur() T = 22.310000 Tnext = 22.315000 Time: 2.23100e+01 states: [ -3.66681e+00 -9.72617e-01] derivs: [ -9.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.315000 pESO->GetIndependentVar(): 22.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.973046, nextPhis[ 0]=-6.982585 prevPhis[ 1]=12.973046, nextPhis[ 1]=12.982585 <==IsSwitchingOccur() T = 22.315000 Tnext = 22.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.320000 pESO->GetIndependentVar(): 22.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.982585, nextPhis[ 0]=-6.992049 prevPhis[ 1]=12.982585, nextPhis[ 1]=12.992049 <==IsSwitchingOccur() T = 22.320000 Tnext = 22.325000 Time: 2.23200e+01 states: [ -3.67648e+00 -9.62617e-01] derivs: [ -9.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.325000 pESO->GetIndependentVar(): 22.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.992049, nextPhis[ 0]=-7.001438 prevPhis[ 1]=12.992049, nextPhis[ 1]=13.001438 <==IsSwitchingOccur() T = 22.325000 Tnext = 22.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.330000 pESO->GetIndependentVar(): 22.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.001438, nextPhis[ 0]=-7.010751 prevPhis[ 1]=13.001438, nextPhis[ 1]=13.010751 <==IsSwitchingOccur() T = 22.330000 Tnext = 22.335000 Time: 2.23300e+01 states: [ -3.68604e+00 -9.52617e-01] derivs: [ -9.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.335000 pESO->GetIndependentVar(): 22.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.010751, nextPhis[ 0]=-7.019990 prevPhis[ 1]=13.010751, nextPhis[ 1]=13.019990 <==IsSwitchingOccur() T = 22.335000 Tnext = 22.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.340000 pESO->GetIndependentVar(): 22.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.019990, nextPhis[ 0]=-7.029154 prevPhis[ 1]=13.019990, nextPhis[ 1]=13.029154 <==IsSwitchingOccur() T = 22.340000 Tnext = 22.345000 Time: 2.23400e+01 states: [ -3.69551e+00 -9.42617e-01] derivs: [ -9.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.345000 pESO->GetIndependentVar(): 22.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.029154, nextPhis[ 0]=-7.038243 prevPhis[ 1]=13.029154, nextPhis[ 1]=13.038243 <==IsSwitchingOccur() T = 22.345000 Tnext = 22.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.350000 pESO->GetIndependentVar(): 22.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.038243, nextPhis[ 0]=-7.047257 prevPhis[ 1]=13.038243, nextPhis[ 1]=13.047257 <==IsSwitchingOccur() T = 22.350000 Tnext = 22.355000 Time: 2.23500e+01 states: [ -3.70488e+00 -9.32617e-01] derivs: [ -9.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.355000 pESO->GetIndependentVar(): 22.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.047257, nextPhis[ 0]=-7.056196 prevPhis[ 1]=13.047257, nextPhis[ 1]=13.056196 <==IsSwitchingOccur() T = 22.355000 Tnext = 22.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.360000 pESO->GetIndependentVar(): 22.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.056196, nextPhis[ 0]=-7.065060 prevPhis[ 1]=13.056196, nextPhis[ 1]=13.065060 <==IsSwitchingOccur() T = 22.360000 Tnext = 22.365000 Time: 2.23600e+01 states: [ -3.71415e+00 -9.22617e-01] derivs: [ -9.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.365000 pESO->GetIndependentVar(): 22.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.065060, nextPhis[ 0]=-7.073849 prevPhis[ 1]=13.065060, nextPhis[ 1]=13.073849 <==IsSwitchingOccur() T = 22.365000 Tnext = 22.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.370000 pESO->GetIndependentVar(): 22.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.073849, nextPhis[ 0]=-7.082562 prevPhis[ 1]=13.073849, nextPhis[ 1]=13.082562 <==IsSwitchingOccur() T = 22.370000 Tnext = 22.375000 Time: 2.23700e+01 states: [ -3.72332e+00 -9.12617e-01] derivs: [ -9.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.375000 pESO->GetIndependentVar(): 22.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.082562, nextPhis[ 0]=-7.091201 prevPhis[ 1]=13.082562, nextPhis[ 1]=13.091201 <==IsSwitchingOccur() T = 22.375000 Tnext = 22.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.380000 pESO->GetIndependentVar(): 22.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.091201, nextPhis[ 0]=-7.099765 prevPhis[ 1]=13.091201, nextPhis[ 1]=13.099765 <==IsSwitchingOccur() T = 22.380000 Tnext = 22.385000 Time: 2.23800e+01 states: [ -3.73238e+00 -9.02617e-01] derivs: [ -9.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.385000 pESO->GetIndependentVar(): 22.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.099765, nextPhis[ 0]=-7.108254 prevPhis[ 1]=13.099765, nextPhis[ 1]=13.108254 <==IsSwitchingOccur() T = 22.385000 Tnext = 22.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.390000 pESO->GetIndependentVar(): 22.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.108254, nextPhis[ 0]=-7.116668 prevPhis[ 1]=13.108254, nextPhis[ 1]=13.116668 <==IsSwitchingOccur() T = 22.390000 Tnext = 22.395000 Time: 2.23900e+01 states: [ -3.74135e+00 -8.92617e-01] derivs: [ -8.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.395000 pESO->GetIndependentVar(): 22.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.116668, nextPhis[ 0]=-7.125007 prevPhis[ 1]=13.116668, nextPhis[ 1]=13.125007 <==IsSwitchingOccur() T = 22.395000 Tnext = 22.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.400000 pESO->GetIndependentVar(): 22.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.125007, nextPhis[ 0]=-7.133271 prevPhis[ 1]=13.125007, nextPhis[ 1]=13.133271 <==IsSwitchingOccur() T = 22.400000 Tnext = 22.405000 Time: 2.24000e+01 states: [ -3.75022e+00 -8.82617e-01] derivs: [ -8.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.405000 pESO->GetIndependentVar(): 22.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.133271, nextPhis[ 0]=-7.141459 prevPhis[ 1]=13.133271, nextPhis[ 1]=13.141459 <==IsSwitchingOccur() T = 22.405000 Tnext = 22.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.410000 pESO->GetIndependentVar(): 22.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.141459, nextPhis[ 0]=-7.149573 prevPhis[ 1]=13.141459, nextPhis[ 1]=13.149573 <==IsSwitchingOccur() T = 22.410000 Tnext = 22.415000 Time: 2.24100e+01 states: [ -3.75899e+00 -8.72617e-01] derivs: [ -8.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.415000 pESO->GetIndependentVar(): 22.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.149573, nextPhis[ 0]=-7.157612 prevPhis[ 1]=13.149573, nextPhis[ 1]=13.157612 <==IsSwitchingOccur() T = 22.415000 Tnext = 22.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.420000 pESO->GetIndependentVar(): 22.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.157612, nextPhis[ 0]=-7.165576 prevPhis[ 1]=13.157612, nextPhis[ 1]=13.165576 <==IsSwitchingOccur() T = 22.420000 Tnext = 22.425000 Time: 2.24200e+01 states: [ -3.76765e+00 -8.62617e-01] derivs: [ -8.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.425000 pESO->GetIndependentVar(): 22.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.165576, nextPhis[ 0]=-7.173465 prevPhis[ 1]=13.165576, nextPhis[ 1]=13.173465 <==IsSwitchingOccur() T = 22.425000 Tnext = 22.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.430000 pESO->GetIndependentVar(): 22.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.173465, nextPhis[ 0]=-7.181279 prevPhis[ 1]=13.173465, nextPhis[ 1]=13.181279 <==IsSwitchingOccur() T = 22.430000 Tnext = 22.435000 Time: 2.24300e+01 states: [ -3.77622e+00 -8.52617e-01] derivs: [ -8.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.435000 pESO->GetIndependentVar(): 22.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.181279, nextPhis[ 0]=-7.189018 prevPhis[ 1]=13.181279, nextPhis[ 1]=13.189018 <==IsSwitchingOccur() T = 22.435000 Tnext = 22.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.440000 pESO->GetIndependentVar(): 22.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.189018, nextPhis[ 0]=-7.196682 prevPhis[ 1]=13.189018, nextPhis[ 1]=13.196682 <==IsSwitchingOccur() T = 22.440000 Tnext = 22.445000 Time: 2.24400e+01 states: [ -3.78469e+00 -8.42617e-01] derivs: [ -8.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.445000 pESO->GetIndependentVar(): 22.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.196682, nextPhis[ 0]=-7.204270 prevPhis[ 1]=13.196682, nextPhis[ 1]=13.204270 <==IsSwitchingOccur() T = 22.445000 Tnext = 22.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.450000 pESO->GetIndependentVar(): 22.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.204270, nextPhis[ 0]=-7.211784 prevPhis[ 1]=13.204270, nextPhis[ 1]=13.211784 <==IsSwitchingOccur() T = 22.450000 Tnext = 22.455000 Time: 2.24500e+01 states: [ -3.79306e+00 -8.32617e-01] derivs: [ -8.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.455000 pESO->GetIndependentVar(): 22.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.211784, nextPhis[ 0]=-7.219223 prevPhis[ 1]=13.211784, nextPhis[ 1]=13.219223 <==IsSwitchingOccur() T = 22.455000 Tnext = 22.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.460000 pESO->GetIndependentVar(): 22.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.219223, nextPhis[ 0]=-7.226587 prevPhis[ 1]=13.219223, nextPhis[ 1]=13.226587 <==IsSwitchingOccur() T = 22.460000 Tnext = 22.465000 Time: 2.24600e+01 states: [ -3.80132e+00 -8.22617e-01] derivs: [ -8.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.465000 pESO->GetIndependentVar(): 22.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.226587, nextPhis[ 0]=-7.233876 prevPhis[ 1]=13.226587, nextPhis[ 1]=13.233876 <==IsSwitchingOccur() T = 22.465000 Tnext = 22.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.470000 pESO->GetIndependentVar(): 22.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.233876, nextPhis[ 0]=-7.241090 prevPhis[ 1]=13.233876, nextPhis[ 1]=13.241090 <==IsSwitchingOccur() T = 22.470000 Tnext = 22.475000 Time: 2.24700e+01 states: [ -3.80949e+00 -8.12617e-01] derivs: [ -8.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.475000 pESO->GetIndependentVar(): 22.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.241090, nextPhis[ 0]=-7.248229 prevPhis[ 1]=13.241090, nextPhis[ 1]=13.248229 <==IsSwitchingOccur() T = 22.475000 Tnext = 22.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.480000 pESO->GetIndependentVar(): 22.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.248229, nextPhis[ 0]=-7.255292 prevPhis[ 1]=13.248229, nextPhis[ 1]=13.255292 <==IsSwitchingOccur() T = 22.480000 Tnext = 22.485000 Time: 2.24800e+01 states: [ -3.81756e+00 -8.02617e-01] derivs: [ -8.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.485000 pESO->GetIndependentVar(): 22.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.255292, nextPhis[ 0]=-7.262281 prevPhis[ 1]=13.255292, nextPhis[ 1]=13.262281 <==IsSwitchingOccur() T = 22.485000 Tnext = 22.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.490000 pESO->GetIndependentVar(): 22.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.262281, nextPhis[ 0]=-7.269195 prevPhis[ 1]=13.262281, nextPhis[ 1]=13.269195 <==IsSwitchingOccur() T = 22.490000 Tnext = 22.495000 Time: 2.24900e+01 states: [ -3.82553e+00 -7.92617e-01] derivs: [ -7.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.495000 pESO->GetIndependentVar(): 22.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.269195, nextPhis[ 0]=-7.276034 prevPhis[ 1]=13.269195, nextPhis[ 1]=13.276034 <==IsSwitchingOccur() T = 22.495000 Tnext = 22.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.500000 pESO->GetIndependentVar(): 22.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.276034, nextPhis[ 0]=-7.282798 prevPhis[ 1]=13.276034, nextPhis[ 1]=13.282798 <==IsSwitchingOccur() T = 22.500000 Tnext = 22.505000 Time: 2.25000e+01 states: [ -3.83339e+00 -7.82617e-01] derivs: [ -7.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.505000 pESO->GetIndependentVar(): 22.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.282798, nextPhis[ 0]=-7.289487 prevPhis[ 1]=13.282798, nextPhis[ 1]=13.289487 <==IsSwitchingOccur() T = 22.505000 Tnext = 22.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.510000 pESO->GetIndependentVar(): 22.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.289487, nextPhis[ 0]=-7.296101 prevPhis[ 1]=13.289487, nextPhis[ 1]=13.296101 <==IsSwitchingOccur() T = 22.510000 Tnext = 22.515000 Time: 2.25100e+01 states: [ -3.84116e+00 -7.72617e-01] derivs: [ -7.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.515000 pESO->GetIndependentVar(): 22.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.296101, nextPhis[ 0]=-7.302640 prevPhis[ 1]=13.296101, nextPhis[ 1]=13.302640 <==IsSwitchingOccur() T = 22.515000 Tnext = 22.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.520000 pESO->GetIndependentVar(): 22.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.302640, nextPhis[ 0]=-7.309103 prevPhis[ 1]=13.302640, nextPhis[ 1]=13.309103 <==IsSwitchingOccur() T = 22.520000 Tnext = 22.525000 Time: 2.25200e+01 states: [ -3.84883e+00 -7.62617e-01] derivs: [ -7.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.525000 pESO->GetIndependentVar(): 22.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.309103, nextPhis[ 0]=-7.315492 prevPhis[ 1]=13.309103, nextPhis[ 1]=13.315492 <==IsSwitchingOccur() T = 22.525000 Tnext = 22.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.530000 pESO->GetIndependentVar(): 22.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.315492, nextPhis[ 0]=-7.321806 prevPhis[ 1]=13.315492, nextPhis[ 1]=13.321806 <==IsSwitchingOccur() T = 22.530000 Tnext = 22.535000 Time: 2.25300e+01 states: [ -3.85640e+00 -7.52617e-01] derivs: [ -7.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.535000 pESO->GetIndependentVar(): 22.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.321806, nextPhis[ 0]=-7.328045 prevPhis[ 1]=13.321806, nextPhis[ 1]=13.328045 <==IsSwitchingOccur() T = 22.535000 Tnext = 22.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.540000 pESO->GetIndependentVar(): 22.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.328045, nextPhis[ 0]=-7.334209 prevPhis[ 1]=13.328045, nextPhis[ 1]=13.334209 <==IsSwitchingOccur() T = 22.540000 Tnext = 22.545000 Time: 2.25400e+01 states: [ -3.86386e+00 -7.42617e-01] derivs: [ -7.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.545000 pESO->GetIndependentVar(): 22.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.334209, nextPhis[ 0]=-7.340298 prevPhis[ 1]=13.334209, nextPhis[ 1]=13.340298 <==IsSwitchingOccur() T = 22.545000 Tnext = 22.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.550000 pESO->GetIndependentVar(): 22.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.340298, nextPhis[ 0]=-7.346312 prevPhis[ 1]=13.340298, nextPhis[ 1]=13.346312 <==IsSwitchingOccur() T = 22.550000 Tnext = 22.555000 Time: 2.25500e+01 states: [ -3.87123e+00 -7.32617e-01] derivs: [ -7.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.555000 pESO->GetIndependentVar(): 22.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.346312, nextPhis[ 0]=-7.352250 prevPhis[ 1]=13.346312, nextPhis[ 1]=13.352250 <==IsSwitchingOccur() T = 22.555000 Tnext = 22.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.560000 pESO->GetIndependentVar(): 22.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.352250, nextPhis[ 0]=-7.358114 prevPhis[ 1]=13.352250, nextPhis[ 1]=13.358114 <==IsSwitchingOccur() T = 22.560000 Tnext = 22.565000 Time: 2.25600e+01 states: [ -3.87850e+00 -7.22617e-01] derivs: [ -7.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.565000 pESO->GetIndependentVar(): 22.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.358114, nextPhis[ 0]=-7.363903 prevPhis[ 1]=13.358114, nextPhis[ 1]=13.363903 <==IsSwitchingOccur() T = 22.565000 Tnext = 22.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.570000 pESO->GetIndependentVar(): 22.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.363903, nextPhis[ 0]=-7.369617 prevPhis[ 1]=13.363903, nextPhis[ 1]=13.369617 <==IsSwitchingOccur() T = 22.570000 Tnext = 22.575000 Time: 2.25700e+01 states: [ -3.88567e+00 -7.12617e-01] derivs: [ -7.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.575000 pESO->GetIndependentVar(): 22.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.369617, nextPhis[ 0]=-7.375256 prevPhis[ 1]=13.369617, nextPhis[ 1]=13.375256 <==IsSwitchingOccur() T = 22.575000 Tnext = 22.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.580000 pESO->GetIndependentVar(): 22.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.375256, nextPhis[ 0]=-7.380820 prevPhis[ 1]=13.375256, nextPhis[ 1]=13.380820 <==IsSwitchingOccur() T = 22.580000 Tnext = 22.585000 Time: 2.25800e+01 states: [ -3.89273e+00 -7.02617e-01] derivs: [ -7.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.585000 pESO->GetIndependentVar(): 22.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.380820, nextPhis[ 0]=-7.386309 prevPhis[ 1]=13.380820, nextPhis[ 1]=13.386309 <==IsSwitchingOccur() T = 22.585000 Tnext = 22.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.590000 pESO->GetIndependentVar(): 22.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.386309, nextPhis[ 0]=-7.391722 prevPhis[ 1]=13.386309, nextPhis[ 1]=13.391722 <==IsSwitchingOccur() T = 22.590000 Tnext = 22.595000 Time: 2.25900e+01 states: [ -3.89970e+00 -6.92617e-01] derivs: [ -6.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.595000 pESO->GetIndependentVar(): 22.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.391722, nextPhis[ 0]=-7.397061 prevPhis[ 1]=13.391722, nextPhis[ 1]=13.397061 <==IsSwitchingOccur() T = 22.595000 Tnext = 22.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.600000 pESO->GetIndependentVar(): 22.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.397061, nextPhis[ 0]=-7.402325 prevPhis[ 1]=13.397061, nextPhis[ 1]=13.402325 <==IsSwitchingOccur() T = 22.600000 Tnext = 22.605000 Time: 2.26000e+01 states: [ -3.90657e+00 -6.82617e-01] derivs: [ -6.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.605000 pESO->GetIndependentVar(): 22.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.402325, nextPhis[ 0]=-7.407514 prevPhis[ 1]=13.402325, nextPhis[ 1]=13.407514 <==IsSwitchingOccur() T = 22.605000 Tnext = 22.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.610000 pESO->GetIndependentVar(): 22.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.407514, nextPhis[ 0]=-7.412628 prevPhis[ 1]=13.407514, nextPhis[ 1]=13.412628 <==IsSwitchingOccur() T = 22.610000 Tnext = 22.615000 Time: 2.26100e+01 states: [ -3.91334e+00 -6.72617e-01] derivs: [ -6.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.615000 pESO->GetIndependentVar(): 22.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.412628, nextPhis[ 0]=-7.417667 prevPhis[ 1]=13.412628, nextPhis[ 1]=13.417667 <==IsSwitchingOccur() T = 22.615000 Tnext = 22.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.620000 pESO->GetIndependentVar(): 22.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.417667, nextPhis[ 0]=-7.422631 prevPhis[ 1]=13.417667, nextPhis[ 1]=13.422631 <==IsSwitchingOccur() T = 22.620000 Tnext = 22.625000 Time: 2.26200e+01 states: [ -3.92000e+00 -6.62617e-01] derivs: [ -6.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.625000 pESO->GetIndependentVar(): 22.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.422631, nextPhis[ 0]=-7.427520 prevPhis[ 1]=13.422631, nextPhis[ 1]=13.427520 <==IsSwitchingOccur() T = 22.625000 Tnext = 22.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.630000 pESO->GetIndependentVar(): 22.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.427520, nextPhis[ 0]=-7.432333 prevPhis[ 1]=13.427520, nextPhis[ 1]=13.432333 <==IsSwitchingOccur() T = 22.630000 Tnext = 22.635000 Time: 2.26300e+01 states: [ -3.92657e+00 -6.52617e-01] derivs: [ -6.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.635000 pESO->GetIndependentVar(): 22.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.432333, nextPhis[ 0]=-7.437072 prevPhis[ 1]=13.432333, nextPhis[ 1]=13.437072 <==IsSwitchingOccur() T = 22.635000 Tnext = 22.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.640000 pESO->GetIndependentVar(): 22.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.437072, nextPhis[ 0]=-7.441736 prevPhis[ 1]=13.437072, nextPhis[ 1]=13.441736 <==IsSwitchingOccur() T = 22.640000 Tnext = 22.645000 Time: 2.26400e+01 states: [ -3.93304e+00 -6.42617e-01] derivs: [ -6.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.645000 pESO->GetIndependentVar(): 22.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.441736, nextPhis[ 0]=-7.446325 prevPhis[ 1]=13.441736, nextPhis[ 1]=13.446325 <==IsSwitchingOccur() T = 22.645000 Tnext = 22.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.650000 pESO->GetIndependentVar(): 22.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.446325, nextPhis[ 0]=-7.450839 prevPhis[ 1]=13.446325, nextPhis[ 1]=13.450839 <==IsSwitchingOccur() T = 22.650000 Tnext = 22.655000 Time: 2.26500e+01 states: [ -3.93941e+00 -6.32617e-01] derivs: [ -6.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.655000 pESO->GetIndependentVar(): 22.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.450839, nextPhis[ 0]=-7.455278 prevPhis[ 1]=13.450839, nextPhis[ 1]=13.455278 <==IsSwitchingOccur() T = 22.655000 Tnext = 22.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.660000 pESO->GetIndependentVar(): 22.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.455278, nextPhis[ 0]=-7.459642 prevPhis[ 1]=13.455278, nextPhis[ 1]=13.459642 <==IsSwitchingOccur() T = 22.660000 Tnext = 22.665000 Time: 2.26600e+01 states: [ -3.94567e+00 -6.22617e-01] derivs: [ -6.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.665000 pESO->GetIndependentVar(): 22.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.459642, nextPhis[ 0]=-7.463930 prevPhis[ 1]=13.459642, nextPhis[ 1]=13.463930 <==IsSwitchingOccur() T = 22.665000 Tnext = 22.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.670000 pESO->GetIndependentVar(): 22.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.463930, nextPhis[ 0]=-7.468144 prevPhis[ 1]=13.463930, nextPhis[ 1]=13.468144 <==IsSwitchingOccur() T = 22.670000 Tnext = 22.675000 Time: 2.26700e+01 states: [ -3.95184e+00 -6.12617e-01] derivs: [ -6.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.675000 pESO->GetIndependentVar(): 22.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.468144, nextPhis[ 0]=-7.472283 prevPhis[ 1]=13.468144, nextPhis[ 1]=13.472283 <==IsSwitchingOccur() T = 22.675000 Tnext = 22.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.680000 pESO->GetIndependentVar(): 22.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.472283, nextPhis[ 0]=-7.476347 prevPhis[ 1]=13.472283, nextPhis[ 1]=13.476347 <==IsSwitchingOccur() T = 22.680000 Tnext = 22.685000 Time: 2.26800e+01 states: [ -3.95791e+00 -6.02617e-01] derivs: [ -6.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.685000 pESO->GetIndependentVar(): 22.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.476347, nextPhis[ 0]=-7.480336 prevPhis[ 1]=13.476347, nextPhis[ 1]=13.480336 <==IsSwitchingOccur() T = 22.685000 Tnext = 22.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.690000 pESO->GetIndependentVar(): 22.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.480336, nextPhis[ 0]=-7.484250 prevPhis[ 1]=13.480336, nextPhis[ 1]=13.484250 <==IsSwitchingOccur() T = 22.690000 Tnext = 22.695000 Time: 2.26900e+01 states: [ -3.96388e+00 -5.92617e-01] derivs: [ -5.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.695000 pESO->GetIndependentVar(): 22.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.484250, nextPhis[ 0]=-7.488089 prevPhis[ 1]=13.484250, nextPhis[ 1]=13.488089 <==IsSwitchingOccur() T = 22.695000 Tnext = 22.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.700000 pESO->GetIndependentVar(): 22.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.488089, nextPhis[ 0]=-7.491853 prevPhis[ 1]=13.488089, nextPhis[ 1]=13.491853 <==IsSwitchingOccur() T = 22.700000 Tnext = 22.705000 Time: 2.27000e+01 states: [ -3.96975e+00 -5.82617e-01] derivs: [ -5.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.705000 pESO->GetIndependentVar(): 22.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.491853, nextPhis[ 0]=-7.495541 prevPhis[ 1]=13.491853, nextPhis[ 1]=13.495541 <==IsSwitchingOccur() T = 22.705000 Tnext = 22.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.710000 pESO->GetIndependentVar(): 22.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.495541, nextPhis[ 0]=-7.499155 prevPhis[ 1]=13.495541, nextPhis[ 1]=13.499155 <==IsSwitchingOccur() T = 22.710000 Tnext = 22.715000 Time: 2.27100e+01 states: [ -3.97551e+00 -5.72617e-01] derivs: [ -5.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.715000 pESO->GetIndependentVar(): 22.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.499155, nextPhis[ 0]=-7.502694 prevPhis[ 1]=13.499155, nextPhis[ 1]=13.502694 <==IsSwitchingOccur() T = 22.715000 Tnext = 22.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.720000 pESO->GetIndependentVar(): 22.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.502694, nextPhis[ 0]=-7.506158 prevPhis[ 1]=13.502694, nextPhis[ 1]=13.506158 <==IsSwitchingOccur() T = 22.720000 Tnext = 22.725000 Time: 2.27200e+01 states: [ -3.98118e+00 -5.62617e-01] derivs: [ -5.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.725000 pESO->GetIndependentVar(): 22.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.506158, nextPhis[ 0]=-7.509547 prevPhis[ 1]=13.506158, nextPhis[ 1]=13.509547 <==IsSwitchingOccur() T = 22.725000 Tnext = 22.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.730000 pESO->GetIndependentVar(): 22.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.509547, nextPhis[ 0]=-7.512861 prevPhis[ 1]=13.509547, nextPhis[ 1]=13.512861 <==IsSwitchingOccur() T = 22.730000 Tnext = 22.735000 Time: 2.27300e+01 states: [ -3.98675e+00 -5.52617e-01] derivs: [ -5.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.735000 pESO->GetIndependentVar(): 22.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.512861, nextPhis[ 0]=-7.516100 prevPhis[ 1]=13.512861, nextPhis[ 1]=13.516100 <==IsSwitchingOccur() T = 22.735000 Tnext = 22.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.740000 pESO->GetIndependentVar(): 22.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.516100, nextPhis[ 0]=-7.519263 prevPhis[ 1]=13.516100, nextPhis[ 1]=13.519263 <==IsSwitchingOccur() T = 22.740000 Tnext = 22.745000 Time: 2.27400e+01 states: [ -3.99222e+00 -5.42617e-01] derivs: [ -5.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.745000 pESO->GetIndependentVar(): 22.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.519263, nextPhis[ 0]=-7.522352 prevPhis[ 1]=13.519263, nextPhis[ 1]=13.522352 <==IsSwitchingOccur() T = 22.745000 Tnext = 22.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.750000 pESO->GetIndependentVar(): 22.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.522352, nextPhis[ 0]=-7.525366 prevPhis[ 1]=13.522352, nextPhis[ 1]=13.525366 <==IsSwitchingOccur() T = 22.750000 Tnext = 22.755000 Time: 2.27500e+01 states: [ -3.99758e+00 -5.32617e-01] derivs: [ -5.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.755000 pESO->GetIndependentVar(): 22.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.525366, nextPhis[ 0]=-7.528305 prevPhis[ 1]=13.525366, nextPhis[ 1]=13.528305 <==IsSwitchingOccur() T = 22.755000 Tnext = 22.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.760000 pESO->GetIndependentVar(): 22.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.528305, nextPhis[ 0]=-7.531169 prevPhis[ 1]=13.528305, nextPhis[ 1]=13.531169 <==IsSwitchingOccur() T = 22.760000 Tnext = 22.765000 Time: 2.27600e+01 states: [ -4.00285e+00 -5.22617e-01] derivs: [ -5.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.765000 pESO->GetIndependentVar(): 22.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.531169, nextPhis[ 0]=-7.533958 prevPhis[ 1]=13.531169, nextPhis[ 1]=13.533958 <==IsSwitchingOccur() T = 22.765000 Tnext = 22.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.770000 pESO->GetIndependentVar(): 22.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.533958, nextPhis[ 0]=-7.536672 prevPhis[ 1]=13.533958, nextPhis[ 1]=13.536672 <==IsSwitchingOccur() T = 22.770000 Tnext = 22.775000 Time: 2.27700e+01 states: [ -4.00802e+00 -5.12617e-01] derivs: [ -5.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.775000 pESO->GetIndependentVar(): 22.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.536672, nextPhis[ 0]=-7.539311 prevPhis[ 1]=13.536672, nextPhis[ 1]=13.539311 <==IsSwitchingOccur() T = 22.775000 Tnext = 22.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.780000 pESO->GetIndependentVar(): 22.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.539311, nextPhis[ 0]=-7.541874 prevPhis[ 1]=13.539311, nextPhis[ 1]=13.541874 <==IsSwitchingOccur() T = 22.780000 Tnext = 22.785000 Time: 2.27800e+01 states: [ -4.01309e+00 -5.02617e-01] derivs: [ -5.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.785000 pESO->GetIndependentVar(): 22.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.541874, nextPhis[ 0]=-7.544363 prevPhis[ 1]=13.541874, nextPhis[ 1]=13.544363 <==IsSwitchingOccur() T = 22.785000 Tnext = 22.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.790000 pESO->GetIndependentVar(): 22.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.544363, nextPhis[ 0]=-7.546777 prevPhis[ 1]=13.544363, nextPhis[ 1]=13.546777 <==IsSwitchingOccur() T = 22.790000 Tnext = 22.795000 Time: 2.27900e+01 states: [ -4.01805e+00 -4.92617e-01] derivs: [ -4.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.795000 pESO->GetIndependentVar(): 22.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.546777, nextPhis[ 0]=-7.549116 prevPhis[ 1]=13.546777, nextPhis[ 1]=13.549116 <==IsSwitchingOccur() T = 22.795000 Tnext = 22.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.800000 pESO->GetIndependentVar(): 22.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.549116, nextPhis[ 0]=-7.551380 prevPhis[ 1]=13.549116, nextPhis[ 1]=13.551380 <==IsSwitchingOccur() T = 22.800000 Tnext = 22.805000 Time: 2.28000e+01 states: [ -4.02292e+00 -4.82617e-01] derivs: [ -4.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.805000 pESO->GetIndependentVar(): 22.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.551380, nextPhis[ 0]=-7.553569 prevPhis[ 1]=13.551380, nextPhis[ 1]=13.553569 <==IsSwitchingOccur() T = 22.805000 Tnext = 22.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.810000 pESO->GetIndependentVar(): 22.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.553569, nextPhis[ 0]=-7.555683 prevPhis[ 1]=13.553569, nextPhis[ 1]=13.555683 <==IsSwitchingOccur() T = 22.810000 Tnext = 22.815000 Time: 2.28100e+01 states: [ -4.02769e+00 -4.72617e-01] derivs: [ -4.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.815000 pESO->GetIndependentVar(): 22.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.555683, nextPhis[ 0]=-7.557721 prevPhis[ 1]=13.555683, nextPhis[ 1]=13.557721 <==IsSwitchingOccur() T = 22.815000 Tnext = 22.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.820000 pESO->GetIndependentVar(): 22.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.557721, nextPhis[ 0]=-7.559685 prevPhis[ 1]=13.557721, nextPhis[ 1]=13.559685 <==IsSwitchingOccur() T = 22.820000 Tnext = 22.825000 Time: 2.28200e+01 states: [ -4.03236e+00 -4.62617e-01] derivs: [ -4.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.825000 pESO->GetIndependentVar(): 22.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.559685, nextPhis[ 0]=-7.561574 prevPhis[ 1]=13.559685, nextPhis[ 1]=13.561574 <==IsSwitchingOccur() T = 22.825000 Tnext = 22.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.830000 pESO->GetIndependentVar(): 22.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.561574, nextPhis[ 0]=-7.563388 prevPhis[ 1]=13.561574, nextPhis[ 1]=13.563388 <==IsSwitchingOccur() T = 22.830000 Tnext = 22.835000 Time: 2.28300e+01 states: [ -4.03692e+00 -4.52617e-01] derivs: [ -4.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.835000 pESO->GetIndependentVar(): 22.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.563388, nextPhis[ 0]=-7.565127 prevPhis[ 1]=13.563388, nextPhis[ 1]=13.565127 <==IsSwitchingOccur() T = 22.835000 Tnext = 22.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.840000 pESO->GetIndependentVar(): 22.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.565127, nextPhis[ 0]=-7.566791 prevPhis[ 1]=13.565127, nextPhis[ 1]=13.566791 <==IsSwitchingOccur() T = 22.840000 Tnext = 22.845000 Time: 2.28400e+01 states: [ -4.04139e+00 -4.42617e-01] derivs: [ -4.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.845000 pESO->GetIndependentVar(): 22.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.566791, nextPhis[ 0]=-7.568380 prevPhis[ 1]=13.566791, nextPhis[ 1]=13.568380 <==IsSwitchingOccur() T = 22.845000 Tnext = 22.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.850000 pESO->GetIndependentVar(): 22.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.568380, nextPhis[ 0]=-7.569893 prevPhis[ 1]=13.568380, nextPhis[ 1]=13.569893 <==IsSwitchingOccur() T = 22.850000 Tnext = 22.855000 Time: 2.28500e+01 states: [ -4.04576e+00 -4.32617e-01] derivs: [ -4.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.855000 pESO->GetIndependentVar(): 22.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.569893, nextPhis[ 0]=-7.571332 prevPhis[ 1]=13.569893, nextPhis[ 1]=13.571332 <==IsSwitchingOccur() T = 22.855000 Tnext = 22.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.860000 pESO->GetIndependentVar(): 22.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.571332, nextPhis[ 0]=-7.572696 prevPhis[ 1]=13.571332, nextPhis[ 1]=13.572696 <==IsSwitchingOccur() T = 22.860000 Tnext = 22.865000 Time: 2.28600e+01 states: [ -4.05003e+00 -4.22617e-01] derivs: [ -4.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.865000 pESO->GetIndependentVar(): 22.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.572696, nextPhis[ 0]=-7.573985 prevPhis[ 1]=13.572696, nextPhis[ 1]=13.573985 <==IsSwitchingOccur() T = 22.865000 Tnext = 22.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.870000 pESO->GetIndependentVar(): 22.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.573985, nextPhis[ 0]=-7.575199 prevPhis[ 1]=13.573985, nextPhis[ 1]=13.575199 <==IsSwitchingOccur() T = 22.870000 Tnext = 22.875000 Time: 2.28700e+01 states: [ -4.05419e+00 -4.12617e-01] derivs: [ -4.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.875000 pESO->GetIndependentVar(): 22.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.575199, nextPhis[ 0]=-7.576338 prevPhis[ 1]=13.575199, nextPhis[ 1]=13.576338 <==IsSwitchingOccur() T = 22.875000 Tnext = 22.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.880000 pESO->GetIndependentVar(): 22.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.576338, nextPhis[ 0]=-7.577402 prevPhis[ 1]=13.576338, nextPhis[ 1]=13.577402 <==IsSwitchingOccur() T = 22.880000 Tnext = 22.885000 Time: 2.28800e+01 states: [ -4.05826e+00 -4.02617e-01] derivs: [ -4.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.885000 pESO->GetIndependentVar(): 22.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.577402, nextPhis[ 0]=-7.578391 prevPhis[ 1]=13.577402, nextPhis[ 1]=13.578391 <==IsSwitchingOccur() T = 22.885000 Tnext = 22.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.890000 pESO->GetIndependentVar(): 22.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.578391, nextPhis[ 0]=-7.579304 prevPhis[ 1]=13.578391, nextPhis[ 1]=13.579304 <==IsSwitchingOccur() T = 22.890000 Tnext = 22.895000 Time: 2.28900e+01 states: [ -4.06223e+00 -3.92617e-01] derivs: [ -3.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.895000 pESO->GetIndependentVar(): 22.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.579304, nextPhis[ 0]=-7.580143 prevPhis[ 1]=13.579304, nextPhis[ 1]=13.580143 <==IsSwitchingOccur() T = 22.895000 Tnext = 22.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.900000 pESO->GetIndependentVar(): 22.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.580143, nextPhis[ 0]=-7.580907 prevPhis[ 1]=13.580143, nextPhis[ 1]=13.580907 <==IsSwitchingOccur() T = 22.900000 Tnext = 22.905000 Time: 2.29000e+01 states: [ -4.06610e+00 -3.82617e-01] derivs: [ -3.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.905000 pESO->GetIndependentVar(): 22.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.580907, nextPhis[ 0]=-7.581596 prevPhis[ 1]=13.580907, nextPhis[ 1]=13.581596 <==IsSwitchingOccur() T = 22.905000 Tnext = 22.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.910000 pESO->GetIndependentVar(): 22.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.581596, nextPhis[ 0]=-7.582210 prevPhis[ 1]=13.581596, nextPhis[ 1]=13.582210 <==IsSwitchingOccur() T = 22.910000 Tnext = 22.915000 Time: 2.29100e+01 states: [ -4.06986e+00 -3.72617e-01] derivs: [ -3.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.915000 pESO->GetIndependentVar(): 22.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.582210, nextPhis[ 0]=-7.582749 prevPhis[ 1]=13.582210, nextPhis[ 1]=13.582749 <==IsSwitchingOccur() T = 22.915000 Tnext = 22.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.920000 pESO->GetIndependentVar(): 22.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.582749, nextPhis[ 0]=-7.583213 prevPhis[ 1]=13.582749, nextPhis[ 1]=13.583213 <==IsSwitchingOccur() T = 22.920000 Tnext = 22.925000 Time: 2.29200e+01 states: [ -4.07353e+00 -3.62617e-01] derivs: [ -3.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.925000 pESO->GetIndependentVar(): 22.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.583213, nextPhis[ 0]=-7.583601 prevPhis[ 1]=13.583213, nextPhis[ 1]=13.583601 <==IsSwitchingOccur() T = 22.925000 Tnext = 22.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.930000 pESO->GetIndependentVar(): 22.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.583601, nextPhis[ 0]=-7.583915 prevPhis[ 1]=13.583601, nextPhis[ 1]=13.583915 <==IsSwitchingOccur() T = 22.930000 Tnext = 22.935000 Time: 2.29300e+01 states: [ -4.07710e+00 -3.52617e-01] derivs: [ -3.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.935000 pESO->GetIndependentVar(): 22.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.583915, nextPhis[ 0]=-7.584154 prevPhis[ 1]=13.583915, nextPhis[ 1]=13.584154 <==IsSwitchingOccur() T = 22.935000 Tnext = 22.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.940000 pESO->GetIndependentVar(): 22.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.584154, nextPhis[ 0]=-7.584318 prevPhis[ 1]=13.584154, nextPhis[ 1]=13.584318 <==IsSwitchingOccur() T = 22.940000 Tnext = 22.945000 Time: 2.29400e+01 states: [ -4.08057e+00 -3.42617e-01] derivs: [ -3.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.945000 pESO->GetIndependentVar(): 22.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.584318, nextPhis[ 0]=-7.584407 prevPhis[ 1]=13.584318, nextPhis[ 1]=13.584407 <==IsSwitchingOccur() T = 22.945000 Tnext = 22.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.950000 pESO->GetIndependentVar(): 22.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.584407, nextPhis[ 0]=-7.584421 prevPhis[ 1]=13.584407, nextPhis[ 1]=13.584421 <==IsSwitchingOccur() T = 22.950000 Tnext = 22.955000 Time: 2.29500e+01 states: [ -4.08393e+00 -3.32617e-01] derivs: [ -3.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.955000 pESO->GetIndependentVar(): 22.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.584421, nextPhis[ 0]=-7.584360 prevPhis[ 1]=13.584421, nextPhis[ 1]=13.584360 <==IsSwitchingOccur() T = 22.955000 Tnext = 22.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.960000 pESO->GetIndependentVar(): 22.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.584360, nextPhis[ 0]=-7.584224 prevPhis[ 1]=13.584360, nextPhis[ 1]=13.584224 <==IsSwitchingOccur() T = 22.960000 Tnext = 22.965000 Time: 2.29600e+01 states: [ -4.08720e+00 -3.22617e-01] derivs: [ -3.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.965000 pESO->GetIndependentVar(): 22.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.584224, nextPhis[ 0]=-7.584012 prevPhis[ 1]=13.584224, nextPhis[ 1]=13.584012 <==IsSwitchingOccur() T = 22.965000 Tnext = 22.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.970000 pESO->GetIndependentVar(): 22.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.584012, nextPhis[ 0]=-7.583726 prevPhis[ 1]=13.584012, nextPhis[ 1]=13.583726 <==IsSwitchingOccur() T = 22.970000 Tnext = 22.975000 Time: 2.29700e+01 states: [ -4.09037e+00 -3.12617e-01] derivs: [ -3.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.975000 pESO->GetIndependentVar(): 22.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.583726, nextPhis[ 0]=-7.583365 prevPhis[ 1]=13.583726, nextPhis[ 1]=13.583365 <==IsSwitchingOccur() T = 22.975000 Tnext = 22.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.980000 pESO->GetIndependentVar(): 22.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.583365, nextPhis[ 0]=-7.582929 prevPhis[ 1]=13.583365, nextPhis[ 1]=13.582929 <==IsSwitchingOccur() T = 22.980000 Tnext = 22.985000 Time: 2.29800e+01 states: [ -4.09344e+00 -3.02617e-01] derivs: [ -3.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.985000 pESO->GetIndependentVar(): 22.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.582929, nextPhis[ 0]=-7.582418 prevPhis[ 1]=13.582929, nextPhis[ 1]=13.582418 <==IsSwitchingOccur() T = 22.985000 Tnext = 22.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.990000 pESO->GetIndependentVar(): 22.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.582418, nextPhis[ 0]=-7.581832 prevPhis[ 1]=13.582418, nextPhis[ 1]=13.581832 <==IsSwitchingOccur() T = 22.990000 Tnext = 22.995000 Time: 2.29900e+01 states: [ -4.09640e+00 -2.92617e-01] derivs: [ -2.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 22.995000 pESO->GetIndependentVar(): 22.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.581832, nextPhis[ 0]=-7.581171 prevPhis[ 1]=13.581832, nextPhis[ 1]=13.581171 <==IsSwitchingOccur() T = 22.995000 Tnext = 23.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.000000 pESO->GetIndependentVar(): 23.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.581171, nextPhis[ 0]=-7.580434 prevPhis[ 1]=13.581171, nextPhis[ 1]=13.580434 <==IsSwitchingOccur() T = 23.000000 Tnext = 23.005000 Time: 2.30000e+01 states: [ -4.09927e+00 -2.82617e-01] derivs: [ -2.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.005000 pESO->GetIndependentVar(): 23.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.580434, nextPhis[ 0]=-7.579623 prevPhis[ 1]=13.580434, nextPhis[ 1]=13.579623 <==IsSwitchingOccur() T = 23.005000 Tnext = 23.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.010000 pESO->GetIndependentVar(): 23.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.579623, nextPhis[ 0]=-7.578737 prevPhis[ 1]=13.579623, nextPhis[ 1]=13.578737 <==IsSwitchingOccur() T = 23.010000 Tnext = 23.015000 Time: 2.30100e+01 states: [ -4.10204e+00 -2.72617e-01] derivs: [ -2.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.015000 pESO->GetIndependentVar(): 23.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.578737, nextPhis[ 0]=-7.577776 prevPhis[ 1]=13.578737, nextPhis[ 1]=13.577776 <==IsSwitchingOccur() T = 23.015000 Tnext = 23.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.020000 pESO->GetIndependentVar(): 23.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.577776, nextPhis[ 0]=-7.576740 prevPhis[ 1]=13.577776, nextPhis[ 1]=13.576740 <==IsSwitchingOccur() T = 23.020000 Tnext = 23.025000 Time: 2.30200e+01 states: [ -4.10471e+00 -2.62617e-01] derivs: [ -2.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.025000 pESO->GetIndependentVar(): 23.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.576740, nextPhis[ 0]=-7.575629 prevPhis[ 1]=13.576740, nextPhis[ 1]=13.575629 <==IsSwitchingOccur() T = 23.025000 Tnext = 23.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.030000 pESO->GetIndependentVar(): 23.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.575629, nextPhis[ 0]=-7.574443 prevPhis[ 1]=13.575629, nextPhis[ 1]=13.574443 <==IsSwitchingOccur() T = 23.030000 Tnext = 23.035000 Time: 2.30300e+01 states: [ -4.10728e+00 -2.52617e-01] derivs: [ -2.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.035000 pESO->GetIndependentVar(): 23.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.574443, nextPhis[ 0]=-7.573181 prevPhis[ 1]=13.574443, nextPhis[ 1]=13.573181 <==IsSwitchingOccur() T = 23.035000 Tnext = 23.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.040000 pESO->GetIndependentVar(): 23.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.573181, nextPhis[ 0]=-7.571845 prevPhis[ 1]=13.573181, nextPhis[ 1]=13.571845 <==IsSwitchingOccur() T = 23.040000 Tnext = 23.045000 Time: 2.30400e+01 states: [ -4.10974e+00 -2.42617e-01] derivs: [ -2.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.045000 pESO->GetIndependentVar(): 23.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.571845, nextPhis[ 0]=-7.570434 prevPhis[ 1]=13.571845, nextPhis[ 1]=13.570434 <==IsSwitchingOccur() T = 23.045000 Tnext = 23.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.050000 pESO->GetIndependentVar(): 23.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.570434, nextPhis[ 0]=-7.568948 prevPhis[ 1]=13.570434, nextPhis[ 1]=13.568948 <==IsSwitchingOccur() T = 23.050000 Tnext = 23.055000 Time: 2.30500e+01 states: [ -4.11211e+00 -2.32617e-01] derivs: [ -2.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.055000 pESO->GetIndependentVar(): 23.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.568948, nextPhis[ 0]=-7.567387 prevPhis[ 1]=13.568948, nextPhis[ 1]=13.567387 <==IsSwitchingOccur() T = 23.055000 Tnext = 23.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.060000 pESO->GetIndependentVar(): 23.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.567387, nextPhis[ 0]=-7.565751 prevPhis[ 1]=13.567387, nextPhis[ 1]=13.565751 <==IsSwitchingOccur() T = 23.060000 Tnext = 23.065000 Time: 2.30600e+01 states: [ -4.11438e+00 -2.22617e-01] derivs: [ -2.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.065000 pESO->GetIndependentVar(): 23.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.565751, nextPhis[ 0]=-7.564040 prevPhis[ 1]=13.565751, nextPhis[ 1]=13.564040 <==IsSwitchingOccur() T = 23.065000 Tnext = 23.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.070000 pESO->GetIndependentVar(): 23.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.564040, nextPhis[ 0]=-7.562254 prevPhis[ 1]=13.564040, nextPhis[ 1]=13.562254 <==IsSwitchingOccur() T = 23.070000 Tnext = 23.075000 Time: 2.30700e+01 states: [ -4.11655e+00 -2.12617e-01] derivs: [ -2.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.075000 pESO->GetIndependentVar(): 23.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.562254, nextPhis[ 0]=-7.560392 prevPhis[ 1]=13.562254, nextPhis[ 1]=13.560392 <==IsSwitchingOccur() T = 23.075000 Tnext = 23.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.080000 pESO->GetIndependentVar(): 23.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.560392, nextPhis[ 0]=-7.558456 prevPhis[ 1]=13.560392, nextPhis[ 1]=13.558456 <==IsSwitchingOccur() T = 23.080000 Tnext = 23.085000 Time: 2.30800e+01 states: [ -4.11861e+00 -2.02617e-01] derivs: [ -2.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.085000 pESO->GetIndependentVar(): 23.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.558456, nextPhis[ 0]=-7.556445 prevPhis[ 1]=13.558456, nextPhis[ 1]=13.556445 <==IsSwitchingOccur() T = 23.085000 Tnext = 23.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.090000 pESO->GetIndependentVar(): 23.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.556445, nextPhis[ 0]=-7.554359 prevPhis[ 1]=13.556445, nextPhis[ 1]=13.554359 <==IsSwitchingOccur() T = 23.090000 Tnext = 23.095000 Time: 2.30900e+01 states: [ -4.12058e+00 -1.92617e-01] derivs: [ -1.91326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.095000 pESO->GetIndependentVar(): 23.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.554359, nextPhis[ 0]=-7.552198 prevPhis[ 1]=13.554359, nextPhis[ 1]=13.552198 <==IsSwitchingOccur() T = 23.095000 Tnext = 23.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.100000 pESO->GetIndependentVar(): 23.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.552198, nextPhis[ 0]=-7.549962 prevPhis[ 1]=13.552198, nextPhis[ 1]=13.549962 <==IsSwitchingOccur() T = 23.100000 Tnext = 23.105000 Time: 2.31000e+01 states: [ -4.12245e+00 -1.82617e-01] derivs: [ -1.81326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.105000 pESO->GetIndependentVar(): 23.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.549962, nextPhis[ 0]=-7.547651 prevPhis[ 1]=13.549962, nextPhis[ 1]=13.547651 <==IsSwitchingOccur() T = 23.105000 Tnext = 23.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.110000 pESO->GetIndependentVar(): 23.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.547651, nextPhis[ 0]=-7.545264 prevPhis[ 1]=13.547651, nextPhis[ 1]=13.545264 <==IsSwitchingOccur() T = 23.110000 Tnext = 23.115000 Time: 2.31100e+01 states: [ -4.12422e+00 -1.72617e-01] derivs: [ -1.71326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.115000 pESO->GetIndependentVar(): 23.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.545264, nextPhis[ 0]=-7.542803 prevPhis[ 1]=13.545264, nextPhis[ 1]=13.542803 <==IsSwitchingOccur() T = 23.115000 Tnext = 23.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.120000 pESO->GetIndependentVar(): 23.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.542803, nextPhis[ 0]=-7.540267 prevPhis[ 1]=13.542803, nextPhis[ 1]=13.540267 <==IsSwitchingOccur() T = 23.120000 Tnext = 23.125000 Time: 2.31200e+01 states: [ -4.12588e+00 -1.62617e-01] derivs: [ -1.61326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.125000 pESO->GetIndependentVar(): 23.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.540267, nextPhis[ 0]=-7.537656 prevPhis[ 1]=13.540267, nextPhis[ 1]=13.537656 <==IsSwitchingOccur() T = 23.125000 Tnext = 23.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.130000 pESO->GetIndependentVar(): 23.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.537656, nextPhis[ 0]=-7.534970 prevPhis[ 1]=13.537656, nextPhis[ 1]=13.534970 <==IsSwitchingOccur() T = 23.130000 Tnext = 23.135000 Time: 2.31300e+01 states: [ -4.12745e+00 -1.52617e-01] derivs: [ -1.51326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.135000 pESO->GetIndependentVar(): 23.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.534970, nextPhis[ 0]=-7.532209 prevPhis[ 1]=13.534970, nextPhis[ 1]=13.532209 <==IsSwitchingOccur() T = 23.135000 Tnext = 23.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.140000 pESO->GetIndependentVar(): 23.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.532209, nextPhis[ 0]=-7.529373 prevPhis[ 1]=13.532209, nextPhis[ 1]=13.529373 <==IsSwitchingOccur() T = 23.140000 Tnext = 23.145000 Time: 2.31400e+01 states: [ -4.12892e+00 -1.42617e-01] derivs: [ -1.41326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.145000 pESO->GetIndependentVar(): 23.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.529373, nextPhis[ 0]=-7.526462 prevPhis[ 1]=13.529373, nextPhis[ 1]=13.526462 <==IsSwitchingOccur() T = 23.145000 Tnext = 23.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.150000 pESO->GetIndependentVar(): 23.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.526462, nextPhis[ 0]=-7.523475 prevPhis[ 1]=13.526462, nextPhis[ 1]=13.523475 <==IsSwitchingOccur() T = 23.150000 Tnext = 23.155000 Time: 2.31500e+01 states: [ -4.13029e+00 -1.32617e-01] derivs: [ -1.31326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.155000 pESO->GetIndependentVar(): 23.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.523475, nextPhis[ 0]=-7.520414 prevPhis[ 1]=13.523475, nextPhis[ 1]=13.520414 <==IsSwitchingOccur() T = 23.155000 Tnext = 23.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.160000 pESO->GetIndependentVar(): 23.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.520414, nextPhis[ 0]=-7.517278 prevPhis[ 1]=13.520414, nextPhis[ 1]=13.517278 <==IsSwitchingOccur() T = 23.160000 Tnext = 23.165000 Time: 2.31600e+01 states: [ -4.13155e+00 -1.22617e-01] derivs: [ -1.21326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.165000 pESO->GetIndependentVar(): 23.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.517278, nextPhis[ 0]=-7.514067 prevPhis[ 1]=13.517278, nextPhis[ 1]=13.514067 <==IsSwitchingOccur() T = 23.165000 Tnext = 23.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.170000 pESO->GetIndependentVar(): 23.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.514067, nextPhis[ 0]=-7.510781 prevPhis[ 1]=13.514067, nextPhis[ 1]=13.510781 <==IsSwitchingOccur() T = 23.170000 Tnext = 23.175000 Time: 2.31700e+01 states: [ -4.13272e+00 -1.12617e-01] derivs: [ -1.11326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.175000 pESO->GetIndependentVar(): 23.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.510781, nextPhis[ 0]=-7.507420 prevPhis[ 1]=13.510781, nextPhis[ 1]=13.507420 <==IsSwitchingOccur() T = 23.175000 Tnext = 23.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.180000 pESO->GetIndependentVar(): 23.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.507420, nextPhis[ 0]=-7.503984 prevPhis[ 1]=13.507420, nextPhis[ 1]=13.503984 <==IsSwitchingOccur() T = 23.180000 Tnext = 23.185000 Time: 2.31800e+01 states: [ -4.13379e+00 -1.02617e-01] derivs: [ -1.01326e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.185000 pESO->GetIndependentVar(): 23.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.503984, nextPhis[ 0]=-7.500472 prevPhis[ 1]=13.503984, nextPhis[ 1]=13.500472 <==IsSwitchingOccur() T = 23.185000 Tnext = 23.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.190000 pESO->GetIndependentVar(): 23.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.500472, nextPhis[ 0]=-7.496886 prevPhis[ 1]=13.500472, nextPhis[ 1]=13.496886 <==IsSwitchingOccur() T = 23.190000 Tnext = 23.195000 Time: 2.31900e+01 states: [ -4.13476e+00 -9.26171e-02] derivs: [ -9.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.195000 pESO->GetIndependentVar(): 23.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.496886, nextPhis[ 0]=-7.493225 prevPhis[ 1]=13.496886, nextPhis[ 1]=13.493225 <==IsSwitchingOccur() T = 23.195000 Tnext = 23.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.200000 pESO->GetIndependentVar(): 23.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.493225, nextPhis[ 0]=-7.489489 prevPhis[ 1]=13.493225, nextPhis[ 1]=13.489489 <==IsSwitchingOccur() T = 23.200000 Tnext = 23.205000 Time: 2.32000e+01 states: [ -4.13562e+00 -8.26171e-02] derivs: [ -8.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.205000 pESO->GetIndependentVar(): 23.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.489489, nextPhis[ 0]=-7.485678 prevPhis[ 1]=13.489489, nextPhis[ 1]=13.485678 <==IsSwitchingOccur() T = 23.205000 Tnext = 23.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.210000 pESO->GetIndependentVar(): 23.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.485678, nextPhis[ 0]=-7.481792 prevPhis[ 1]=13.485678, nextPhis[ 1]=13.481792 <==IsSwitchingOccur() T = 23.210000 Tnext = 23.215000 Time: 2.32100e+01 states: [ -4.13639e+00 -7.26171e-02] derivs: [ -7.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.215000 pESO->GetIndependentVar(): 23.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.481792, nextPhis[ 0]=-7.477831 prevPhis[ 1]=13.481792, nextPhis[ 1]=13.477831 <==IsSwitchingOccur() T = 23.215000 Tnext = 23.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.220000 pESO->GetIndependentVar(): 23.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.477831, nextPhis[ 0]=-7.473794 prevPhis[ 1]=13.477831, nextPhis[ 1]=13.473794 <==IsSwitchingOccur() T = 23.220000 Tnext = 23.225000 Time: 2.32200e+01 states: [ -4.13706e+00 -6.26171e-02] derivs: [ -6.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.225000 pESO->GetIndependentVar(): 23.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.473794, nextPhis[ 0]=-7.469683 prevPhis[ 1]=13.473794, nextPhis[ 1]=13.469683 <==IsSwitchingOccur() T = 23.225000 Tnext = 23.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.230000 pESO->GetIndependentVar(): 23.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.469683, nextPhis[ 0]=-7.465497 prevPhis[ 1]=13.469683, nextPhis[ 1]=13.465497 <==IsSwitchingOccur() T = 23.230000 Tnext = 23.235000 Time: 2.32300e+01 states: [ -4.13763e+00 -5.26171e-02] derivs: [ -5.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.235000 pESO->GetIndependentVar(): 23.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.465497, nextPhis[ 0]=-7.461236 prevPhis[ 1]=13.465497, nextPhis[ 1]=13.461236 <==IsSwitchingOccur() T = 23.235000 Tnext = 23.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.240000 pESO->GetIndependentVar(): 23.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.461236, nextPhis[ 0]=-7.456900 prevPhis[ 1]=13.461236, nextPhis[ 1]=13.456900 <==IsSwitchingOccur() T = 23.240000 Tnext = 23.245000 Time: 2.32400e+01 states: [ -4.13809e+00 -4.26171e-02] derivs: [ -4.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.245000 pESO->GetIndependentVar(): 23.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.456900, nextPhis[ 0]=-7.452489 prevPhis[ 1]=13.456900, nextPhis[ 1]=13.452489 <==IsSwitchingOccur() T = 23.245000 Tnext = 23.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.250000 pESO->GetIndependentVar(): 23.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.452489, nextPhis[ 0]=-7.448003 prevPhis[ 1]=13.452489, nextPhis[ 1]=13.448003 <==IsSwitchingOccur() T = 23.250000 Tnext = 23.255000 Time: 2.32500e+01 states: [ -4.13846e+00 -3.26171e-02] derivs: [ -3.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.255000 pESO->GetIndependentVar(): 23.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.448003, nextPhis[ 0]=-7.443442 prevPhis[ 1]=13.448003, nextPhis[ 1]=13.443442 <==IsSwitchingOccur() T = 23.255000 Tnext = 23.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.260000 pESO->GetIndependentVar(): 23.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.443442, nextPhis[ 0]=-7.438805 prevPhis[ 1]=13.443442, nextPhis[ 1]=13.438805 <==IsSwitchingOccur() T = 23.260000 Tnext = 23.265000 Time: 2.32600e+01 states: [ -4.13873e+00 -2.26171e-02] derivs: [ -2.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.265000 pESO->GetIndependentVar(): 23.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.438805, nextPhis[ 0]=-7.434094 prevPhis[ 1]=13.438805, nextPhis[ 1]=13.434094 <==IsSwitchingOccur() T = 23.265000 Tnext = 23.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.270000 pESO->GetIndependentVar(): 23.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.434094, nextPhis[ 0]=-7.429308 prevPhis[ 1]=13.434094, nextPhis[ 1]=13.429308 <==IsSwitchingOccur() T = 23.270000 Tnext = 23.275000 Time: 2.32700e+01 states: [ -4.13890e+00 -1.26171e-02] derivs: [ -1.13256e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.275000 pESO->GetIndependentVar(): 23.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.429308, nextPhis[ 0]=-7.424447 prevPhis[ 1]=13.429308, nextPhis[ 1]=13.424447 <==IsSwitchingOccur() T = 23.275000 Tnext = 23.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.280000 pESO->GetIndependentVar(): 23.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.424447, nextPhis[ 0]=-7.419511 prevPhis[ 1]=13.424447, nextPhis[ 1]=13.419511 <==IsSwitchingOccur() T = 23.280000 Tnext = 23.285000 Time: 2.32800e+01 states: [ -4.13896e+00 -2.61709e-03] derivs: [ -1.32563e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.285000 pESO->GetIndependentVar(): 23.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.419511, nextPhis[ 0]=-7.414500 prevPhis[ 1]=13.419511, nextPhis[ 1]=13.414500 <==IsSwitchingOccur() T = 23.285000 Tnext = 23.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.290000 pESO->GetIndependentVar(): 23.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.414500, nextPhis[ 0]=-7.409414 prevPhis[ 1]=13.414500, nextPhis[ 1]=13.409414 <==IsSwitchingOccur() T = 23.290000 Tnext = 23.295000 Time: 2.32900e+01 states: [ -4.13893e+00 7.38291e-03] derivs: [ 8.67437e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.295000 pESO->GetIndependentVar(): 23.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.409414, nextPhis[ 0]=-7.404252 prevPhis[ 1]=13.409414, nextPhis[ 1]=13.404252 <==IsSwitchingOccur() T = 23.295000 Tnext = 23.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.300000 pESO->GetIndependentVar(): 23.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.404252, nextPhis[ 0]=-7.399016 prevPhis[ 1]=13.404252, nextPhis[ 1]=13.399016 <==IsSwitchingOccur() T = 23.300000 Tnext = 23.305000 Time: 2.33000e+01 states: [ -4.13880e+00 1.73829e-02] derivs: [ 1.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.305000 pESO->GetIndependentVar(): 23.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.399016, nextPhis[ 0]=-7.393705 prevPhis[ 1]=13.399016, nextPhis[ 1]=13.393705 <==IsSwitchingOccur() T = 23.305000 Tnext = 23.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.310000 pESO->GetIndependentVar(): 23.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.393705, nextPhis[ 0]=-7.388319 prevPhis[ 1]=13.393705, nextPhis[ 1]=13.388319 <==IsSwitchingOccur() T = 23.310000 Tnext = 23.315000 Time: 2.33100e+01 states: [ -4.13857e+00 2.73829e-02] derivs: [ 2.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.315000 pESO->GetIndependentVar(): 23.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.388319, nextPhis[ 0]=-7.382858 prevPhis[ 1]=13.388319, nextPhis[ 1]=13.382858 <==IsSwitchingOccur() T = 23.315000 Tnext = 23.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.320000 pESO->GetIndependentVar(): 23.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.382858, nextPhis[ 0]=-7.377322 prevPhis[ 1]=13.382858, nextPhis[ 1]=13.377322 <==IsSwitchingOccur() T = 23.320000 Tnext = 23.325000 Time: 2.33200e+01 states: [ -4.13823e+00 3.73829e-02] derivs: [ 3.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.325000 pESO->GetIndependentVar(): 23.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.377322, nextPhis[ 0]=-7.371711 prevPhis[ 1]=13.377322, nextPhis[ 1]=13.371711 <==IsSwitchingOccur() T = 23.325000 Tnext = 23.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.330000 pESO->GetIndependentVar(): 23.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.371711, nextPhis[ 0]=-7.366025 prevPhis[ 1]=13.371711, nextPhis[ 1]=13.366025 <==IsSwitchingOccur() T = 23.330000 Tnext = 23.335000 Time: 2.33300e+01 states: [ -4.13780e+00 4.73829e-02] derivs: [ 4.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.335000 pESO->GetIndependentVar(): 23.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.366025, nextPhis[ 0]=-7.360263 prevPhis[ 1]=13.366025, nextPhis[ 1]=13.360263 <==IsSwitchingOccur() T = 23.335000 Tnext = 23.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.340000 pESO->GetIndependentVar(): 23.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.360263, nextPhis[ 0]=-7.354427 prevPhis[ 1]=13.360263, nextPhis[ 1]=13.354427 <==IsSwitchingOccur() T = 23.340000 Tnext = 23.345000 Time: 2.33400e+01 states: [ -4.13727e+00 5.73829e-02] derivs: [ 5.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.345000 pESO->GetIndependentVar(): 23.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.354427, nextPhis[ 0]=-7.348516 prevPhis[ 1]=13.354427, nextPhis[ 1]=13.348516 <==IsSwitchingOccur() T = 23.345000 Tnext = 23.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.350000 pESO->GetIndependentVar(): 23.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.348516, nextPhis[ 0]=-7.342530 prevPhis[ 1]=13.348516, nextPhis[ 1]=13.342530 <==IsSwitchingOccur() T = 23.350000 Tnext = 23.355000 Time: 2.33500e+01 states: [ -4.13664e+00 6.73829e-02] derivs: [ 6.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.355000 pESO->GetIndependentVar(): 23.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.342530, nextPhis[ 0]=-7.336469 prevPhis[ 1]=13.342530, nextPhis[ 1]=13.336469 <==IsSwitchingOccur() T = 23.355000 Tnext = 23.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.360000 pESO->GetIndependentVar(): 23.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.336469, nextPhis[ 0]=-7.330333 prevPhis[ 1]=13.336469, nextPhis[ 1]=13.330333 <==IsSwitchingOccur() T = 23.360000 Tnext = 23.365000 Time: 2.33600e+01 states: [ -4.13591e+00 7.73829e-02] derivs: [ 7.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.365000 pESO->GetIndependentVar(): 23.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.330333, nextPhis[ 0]=-7.324122 prevPhis[ 1]=13.330333, nextPhis[ 1]=13.324122 <==IsSwitchingOccur() T = 23.365000 Tnext = 23.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.370000 pESO->GetIndependentVar(): 23.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.324122, nextPhis[ 0]=-7.317835 prevPhis[ 1]=13.324122, nextPhis[ 1]=13.317835 <==IsSwitchingOccur() T = 23.370000 Tnext = 23.375000 Time: 2.33700e+01 states: [ -4.13507e+00 8.73829e-02] derivs: [ 8.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.375000 pESO->GetIndependentVar(): 23.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.317835, nextPhis[ 0]=-7.311474 prevPhis[ 1]=13.317835, nextPhis[ 1]=13.311474 <==IsSwitchingOccur() T = 23.375000 Tnext = 23.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.380000 pESO->GetIndependentVar(): 23.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.311474, nextPhis[ 0]=-7.305038 prevPhis[ 1]=13.311474, nextPhis[ 1]=13.305038 <==IsSwitchingOccur() T = 23.380000 Tnext = 23.385000 Time: 2.33800e+01 states: [ -4.13414e+00 9.73829e-02] derivs: [ 9.86744e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.385000 pESO->GetIndependentVar(): 23.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.305038, nextPhis[ 0]=-7.298527 prevPhis[ 1]=13.305038, nextPhis[ 1]=13.298527 <==IsSwitchingOccur() T = 23.385000 Tnext = 23.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.390000 pESO->GetIndependentVar(): 23.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.298527, nextPhis[ 0]=-7.291941 prevPhis[ 1]=13.298527, nextPhis[ 1]=13.291941 <==IsSwitchingOccur() T = 23.390000 Tnext = 23.395000 Time: 2.33900e+01 states: [ -4.13311e+00 1.07383e-01] derivs: [ 1.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.395000 pESO->GetIndependentVar(): 23.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.291941, nextPhis[ 0]=-7.285280 prevPhis[ 1]=13.291941, nextPhis[ 1]=13.285280 <==IsSwitchingOccur() T = 23.395000 Tnext = 23.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.400000 pESO->GetIndependentVar(): 23.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.285280, nextPhis[ 0]=-7.278544 prevPhis[ 1]=13.285280, nextPhis[ 1]=13.278544 <==IsSwitchingOccur() T = 23.400000 Tnext = 23.405000 Time: 2.34000e+01 states: [ -4.13198e+00 1.17383e-01] derivs: [ 1.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.405000 pESO->GetIndependentVar(): 23.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.278544, nextPhis[ 0]=-7.271732 prevPhis[ 1]=13.278544, nextPhis[ 1]=13.271732 <==IsSwitchingOccur() T = 23.405000 Tnext = 23.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.410000 pESO->GetIndependentVar(): 23.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.271732, nextPhis[ 0]=-7.264846 prevPhis[ 1]=13.271732, nextPhis[ 1]=13.264846 <==IsSwitchingOccur() T = 23.410000 Tnext = 23.415000 Time: 2.34100e+01 states: [ -4.13074e+00 1.27383e-01] derivs: [ 1.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.415000 pESO->GetIndependentVar(): 23.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.264846, nextPhis[ 0]=-7.257885 prevPhis[ 1]=13.264846, nextPhis[ 1]=13.257885 <==IsSwitchingOccur() T = 23.415000 Tnext = 23.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.420000 pESO->GetIndependentVar(): 23.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.257885, nextPhis[ 0]=-7.250849 prevPhis[ 1]=13.257885, nextPhis[ 1]=13.250849 <==IsSwitchingOccur() T = 23.420000 Tnext = 23.425000 Time: 2.34200e+01 states: [ -4.12941e+00 1.37383e-01] derivs: [ 1.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.425000 pESO->GetIndependentVar(): 23.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.250849, nextPhis[ 0]=-7.243738 prevPhis[ 1]=13.250849, nextPhis[ 1]=13.243738 <==IsSwitchingOccur() T = 23.425000 Tnext = 23.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.430000 pESO->GetIndependentVar(): 23.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.243738, nextPhis[ 0]=-7.236552 prevPhis[ 1]=13.243738, nextPhis[ 1]=13.236552 <==IsSwitchingOccur() T = 23.430000 Tnext = 23.435000 Time: 2.34300e+01 states: [ -4.12798e+00 1.47383e-01] derivs: [ 1.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.435000 pESO->GetIndependentVar(): 23.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.236552, nextPhis[ 0]=-7.229291 prevPhis[ 1]=13.236552, nextPhis[ 1]=13.229291 <==IsSwitchingOccur() T = 23.435000 Tnext = 23.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.440000 pESO->GetIndependentVar(): 23.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.229291, nextPhis[ 0]=-7.221955 prevPhis[ 1]=13.229291, nextPhis[ 1]=13.221955 <==IsSwitchingOccur() T = 23.440000 Tnext = 23.445000 Time: 2.34400e+01 states: [ -4.12645e+00 1.57383e-01] derivs: [ 1.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.445000 pESO->GetIndependentVar(): 23.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.221955, nextPhis[ 0]=-7.214543 prevPhis[ 1]=13.221955, nextPhis[ 1]=13.214543 <==IsSwitchingOccur() T = 23.445000 Tnext = 23.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.450000 pESO->GetIndependentVar(): 23.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.214543, nextPhis[ 0]=-7.207057 prevPhis[ 1]=13.214543, nextPhis[ 1]=13.207057 <==IsSwitchingOccur() T = 23.450000 Tnext = 23.455000 Time: 2.34500e+01 states: [ -4.12481e+00 1.67383e-01] derivs: [ 1.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.455000 pESO->GetIndependentVar(): 23.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.207057, nextPhis[ 0]=-7.199496 prevPhis[ 1]=13.207057, nextPhis[ 1]=13.199496 <==IsSwitchingOccur() T = 23.455000 Tnext = 23.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.460000 pESO->GetIndependentVar(): 23.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.199496, nextPhis[ 0]=-7.191860 prevPhis[ 1]=13.199496, nextPhis[ 1]=13.191860 <==IsSwitchingOccur() T = 23.460000 Tnext = 23.465000 Time: 2.34600e+01 states: [ -4.12308e+00 1.77383e-01] derivs: [ 1.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.465000 pESO->GetIndependentVar(): 23.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.191860, nextPhis[ 0]=-7.184149 prevPhis[ 1]=13.191860, nextPhis[ 1]=13.184149 <==IsSwitchingOccur() T = 23.465000 Tnext = 23.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.470000 pESO->GetIndependentVar(): 23.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.184149, nextPhis[ 0]=-7.176363 prevPhis[ 1]=13.184149, nextPhis[ 1]=13.176363 <==IsSwitchingOccur() T = 23.470000 Tnext = 23.475000 Time: 2.34700e+01 states: [ -4.12125e+00 1.87383e-01] derivs: [ 1.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.475000 pESO->GetIndependentVar(): 23.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.176363, nextPhis[ 0]=-7.168502 prevPhis[ 1]=13.176363, nextPhis[ 1]=13.168502 <==IsSwitchingOccur() T = 23.475000 Tnext = 23.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.480000 pESO->GetIndependentVar(): 23.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.168502, nextPhis[ 0]=-7.160565 prevPhis[ 1]=13.168502, nextPhis[ 1]=13.160565 <==IsSwitchingOccur() T = 23.480000 Tnext = 23.485000 Time: 2.34800e+01 states: [ -4.11932e+00 1.97383e-01] derivs: [ 1.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.485000 pESO->GetIndependentVar(): 23.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.160565, nextPhis[ 0]=-7.152554 prevPhis[ 1]=13.160565, nextPhis[ 1]=13.152554 <==IsSwitchingOccur() T = 23.485000 Tnext = 23.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.490000 pESO->GetIndependentVar(): 23.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.152554, nextPhis[ 0]=-7.144468 prevPhis[ 1]=13.152554, nextPhis[ 1]=13.144468 <==IsSwitchingOccur() T = 23.490000 Tnext = 23.495000 Time: 2.34900e+01 states: [ -4.11728e+00 2.07383e-01] derivs: [ 2.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.495000 pESO->GetIndependentVar(): 23.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.144468, nextPhis[ 0]=-7.136307 prevPhis[ 1]=13.144468, nextPhis[ 1]=13.136307 <==IsSwitchingOccur() T = 23.495000 Tnext = 23.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.500000 pESO->GetIndependentVar(): 23.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.136307, nextPhis[ 0]=-7.128071 prevPhis[ 1]=13.136307, nextPhis[ 1]=13.128071 <==IsSwitchingOccur() T = 23.500000 Tnext = 23.505000 Time: 2.35000e+01 states: [ -4.11515e+00 2.17383e-01] derivs: [ 2.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.505000 pESO->GetIndependentVar(): 23.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.128071, nextPhis[ 0]=-7.119760 prevPhis[ 1]=13.128071, nextPhis[ 1]=13.119760 <==IsSwitchingOccur() T = 23.505000 Tnext = 23.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.510000 pESO->GetIndependentVar(): 23.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.119760, nextPhis[ 0]=-7.111374 prevPhis[ 1]=13.119760, nextPhis[ 1]=13.111374 <==IsSwitchingOccur() T = 23.510000 Tnext = 23.515000 Time: 2.35100e+01 states: [ -4.11292e+00 2.27383e-01] derivs: [ 2.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.515000 pESO->GetIndependentVar(): 23.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.111374, nextPhis[ 0]=-7.102913 prevPhis[ 1]=13.111374, nextPhis[ 1]=13.102913 <==IsSwitchingOccur() T = 23.515000 Tnext = 23.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.520000 pESO->GetIndependentVar(): 23.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.102913, nextPhis[ 0]=-7.094376 prevPhis[ 1]=13.102913, nextPhis[ 1]=13.094376 <==IsSwitchingOccur() T = 23.520000 Tnext = 23.525000 Time: 2.35200e+01 states: [ -4.11059e+00 2.37383e-01] derivs: [ 2.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.525000 pESO->GetIndependentVar(): 23.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.094376, nextPhis[ 0]=-7.085765 prevPhis[ 1]=13.094376, nextPhis[ 1]=13.085765 <==IsSwitchingOccur() T = 23.525000 Tnext = 23.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.530000 pESO->GetIndependentVar(): 23.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.085765, nextPhis[ 0]=-7.077079 prevPhis[ 1]=13.085765, nextPhis[ 1]=13.077079 <==IsSwitchingOccur() T = 23.530000 Tnext = 23.535000 Time: 2.35300e+01 states: [ -4.10815e+00 2.47383e-01] derivs: [ 2.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.535000 pESO->GetIndependentVar(): 23.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.077079, nextPhis[ 0]=-7.068318 prevPhis[ 1]=13.077079, nextPhis[ 1]=13.068318 <==IsSwitchingOccur() T = 23.535000 Tnext = 23.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.540000 pESO->GetIndependentVar(): 23.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.068318, nextPhis[ 0]=-7.059482 prevPhis[ 1]=13.068318, nextPhis[ 1]=13.059482 <==IsSwitchingOccur() T = 23.540000 Tnext = 23.545000 Time: 2.35400e+01 states: [ -4.10562e+00 2.57383e-01] derivs: [ 2.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.545000 pESO->GetIndependentVar(): 23.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.059482, nextPhis[ 0]=-7.050571 prevPhis[ 1]=13.059482, nextPhis[ 1]=13.050571 <==IsSwitchingOccur() T = 23.545000 Tnext = 23.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.550000 pESO->GetIndependentVar(): 23.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.050571, nextPhis[ 0]=-7.041585 prevPhis[ 1]=13.050571, nextPhis[ 1]=13.041585 <==IsSwitchingOccur() T = 23.550000 Tnext = 23.555000 Time: 2.35500e+01 states: [ -4.10299e+00 2.67383e-01] derivs: [ 2.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.555000 pESO->GetIndependentVar(): 23.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.041585, nextPhis[ 0]=-7.032523 prevPhis[ 1]=13.041585, nextPhis[ 1]=13.032523 <==IsSwitchingOccur() T = 23.555000 Tnext = 23.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.560000 pESO->GetIndependentVar(): 23.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.032523, nextPhis[ 0]=-7.023387 prevPhis[ 1]=13.032523, nextPhis[ 1]=13.023387 <==IsSwitchingOccur() T = 23.560000 Tnext = 23.565000 Time: 2.35600e+01 states: [ -4.10026e+00 2.77383e-01] derivs: [ 2.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.565000 pESO->GetIndependentVar(): 23.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.023387, nextPhis[ 0]=-7.014176 prevPhis[ 1]=13.023387, nextPhis[ 1]=13.014176 <==IsSwitchingOccur() T = 23.565000 Tnext = 23.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.570000 pESO->GetIndependentVar(): 23.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.014176, nextPhis[ 0]=-7.004890 prevPhis[ 1]=13.014176, nextPhis[ 1]=13.004890 <==IsSwitchingOccur() T = 23.570000 Tnext = 23.575000 Time: 2.35700e+01 states: [ -4.09742e+00 2.87383e-01] derivs: [ 2.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.575000 pESO->GetIndependentVar(): 23.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.004890, nextPhis[ 0]=-6.995529 prevPhis[ 1]=13.004890, nextPhis[ 1]=12.995529 <==IsSwitchingOccur() T = 23.575000 Tnext = 23.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.580000 pESO->GetIndependentVar(): 23.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.995529, nextPhis[ 0]=-6.986093 prevPhis[ 1]=12.995529, nextPhis[ 1]=12.986093 <==IsSwitchingOccur() T = 23.580000 Tnext = 23.585000 Time: 2.35800e+01 states: [ -4.09449e+00 2.97383e-01] derivs: [ 2.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.585000 pESO->GetIndependentVar(): 23.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.986093, nextPhis[ 0]=-6.976582 prevPhis[ 1]=12.986093, nextPhis[ 1]=12.976582 <==IsSwitchingOccur() T = 23.585000 Tnext = 23.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.590000 pESO->GetIndependentVar(): 23.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.976582, nextPhis[ 0]=-6.966995 prevPhis[ 1]=12.976582, nextPhis[ 1]=12.966995 <==IsSwitchingOccur() T = 23.590000 Tnext = 23.595000 Time: 2.35900e+01 states: [ -4.09146e+00 3.07383e-01] derivs: [ 3.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.595000 pESO->GetIndependentVar(): 23.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.966995, nextPhis[ 0]=-6.957334 prevPhis[ 1]=12.966995, nextPhis[ 1]=12.957334 <==IsSwitchingOccur() T = 23.595000 Tnext = 23.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.600000 pESO->GetIndependentVar(): 23.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.957334, nextPhis[ 0]=-6.947598 prevPhis[ 1]=12.957334, nextPhis[ 1]=12.947598 <==IsSwitchingOccur() T = 23.600000 Tnext = 23.605000 Time: 2.36000e+01 states: [ -4.08833e+00 3.17383e-01] derivs: [ 3.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.605000 pESO->GetIndependentVar(): 23.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.947598, nextPhis[ 0]=-6.937787 prevPhis[ 1]=12.947598, nextPhis[ 1]=12.937787 <==IsSwitchingOccur() T = 23.605000 Tnext = 23.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.610000 pESO->GetIndependentVar(): 23.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.937787, nextPhis[ 0]=-6.927901 prevPhis[ 1]=12.937787, nextPhis[ 1]=12.927901 <==IsSwitchingOccur() T = 23.610000 Tnext = 23.615000 Time: 2.36100e+01 states: [ -4.08509e+00 3.27383e-01] derivs: [ 3.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.615000 pESO->GetIndependentVar(): 23.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.927901, nextPhis[ 0]=-6.917940 prevPhis[ 1]=12.927901, nextPhis[ 1]=12.917940 <==IsSwitchingOccur() T = 23.615000 Tnext = 23.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.620000 pESO->GetIndependentVar(): 23.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.917940, nextPhis[ 0]=-6.907904 prevPhis[ 1]=12.917940, nextPhis[ 1]=12.907904 <==IsSwitchingOccur() T = 23.620000 Tnext = 23.625000 Time: 2.36200e+01 states: [ -4.08176e+00 3.37383e-01] derivs: [ 3.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.625000 pESO->GetIndependentVar(): 23.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.907904, nextPhis[ 0]=-6.897793 prevPhis[ 1]=12.907904, nextPhis[ 1]=12.897793 <==IsSwitchingOccur() T = 23.625000 Tnext = 23.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.630000 pESO->GetIndependentVar(): 23.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.897793, nextPhis[ 0]=-6.887606 prevPhis[ 1]=12.897793, nextPhis[ 1]=12.887606 <==IsSwitchingOccur() T = 23.630000 Tnext = 23.635000 Time: 2.36300e+01 states: [ -4.07833e+00 3.47383e-01] derivs: [ 3.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.635000 pESO->GetIndependentVar(): 23.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.887606, nextPhis[ 0]=-6.877345 prevPhis[ 1]=12.887606, nextPhis[ 1]=12.877345 <==IsSwitchingOccur() T = 23.635000 Tnext = 23.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.640000 pESO->GetIndependentVar(): 23.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.877345, nextPhis[ 0]=-6.867009 prevPhis[ 1]=12.877345, nextPhis[ 1]=12.867009 <==IsSwitchingOccur() T = 23.640000 Tnext = 23.645000 Time: 2.36400e+01 states: [ -4.07480e+00 3.57383e-01] derivs: [ 3.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.645000 pESO->GetIndependentVar(): 23.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.867009, nextPhis[ 0]=-6.856598 prevPhis[ 1]=12.867009, nextPhis[ 1]=12.856598 <==IsSwitchingOccur() T = 23.645000 Tnext = 23.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.650000 pESO->GetIndependentVar(): 23.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.856598, nextPhis[ 0]=-6.846112 prevPhis[ 1]=12.856598, nextPhis[ 1]=12.846112 <==IsSwitchingOccur() T = 23.650000 Tnext = 23.655000 Time: 2.36500e+01 states: [ -4.07116e+00 3.67383e-01] derivs: [ 3.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.655000 pESO->GetIndependentVar(): 23.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.846112, nextPhis[ 0]=-6.835551 prevPhis[ 1]=12.846112, nextPhis[ 1]=12.835551 <==IsSwitchingOccur() T = 23.655000 Tnext = 23.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.660000 pESO->GetIndependentVar(): 23.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.835551, nextPhis[ 0]=-6.824915 prevPhis[ 1]=12.835551, nextPhis[ 1]=12.824915 <==IsSwitchingOccur() T = 23.660000 Tnext = 23.665000 Time: 2.36600e+01 states: [ -4.06743e+00 3.77383e-01] derivs: [ 3.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.665000 pESO->GetIndependentVar(): 23.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.824915, nextPhis[ 0]=-6.814203 prevPhis[ 1]=12.824915, nextPhis[ 1]=12.814203 <==IsSwitchingOccur() T = 23.665000 Tnext = 23.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.670000 pESO->GetIndependentVar(): 23.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.814203, nextPhis[ 0]=-6.803417 prevPhis[ 1]=12.814203, nextPhis[ 1]=12.803417 <==IsSwitchingOccur() T = 23.670000 Tnext = 23.675000 Time: 2.36700e+01 states: [ -4.06360e+00 3.87383e-01] derivs: [ 3.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.675000 pESO->GetIndependentVar(): 23.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.803417, nextPhis[ 0]=-6.792556 prevPhis[ 1]=12.803417, nextPhis[ 1]=12.792556 <==IsSwitchingOccur() T = 23.675000 Tnext = 23.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.680000 pESO->GetIndependentVar(): 23.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.792556, nextPhis[ 0]=-6.781620 prevPhis[ 1]=12.792556, nextPhis[ 1]=12.781620 <==IsSwitchingOccur() T = 23.680000 Tnext = 23.685000 Time: 2.36800e+01 states: [ -4.05967e+00 3.97383e-01] derivs: [ 3.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.685000 pESO->GetIndependentVar(): 23.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.781620, nextPhis[ 0]=-6.770609 prevPhis[ 1]=12.781620, nextPhis[ 1]=12.770609 <==IsSwitchingOccur() T = 23.685000 Tnext = 23.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.690000 pESO->GetIndependentVar(): 23.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.770609, nextPhis[ 0]=-6.759523 prevPhis[ 1]=12.770609, nextPhis[ 1]=12.759523 <==IsSwitchingOccur() T = 23.690000 Tnext = 23.695000 Time: 2.36900e+01 states: [ -4.05564e+00 4.07383e-01] derivs: [ 4.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.695000 pESO->GetIndependentVar(): 23.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.759523, nextPhis[ 0]=-6.748362 prevPhis[ 1]=12.759523, nextPhis[ 1]=12.748362 <==IsSwitchingOccur() T = 23.695000 Tnext = 23.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.700000 pESO->GetIndependentVar(): 23.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.748362, nextPhis[ 0]=-6.737125 prevPhis[ 1]=12.748362, nextPhis[ 1]=12.737125 <==IsSwitchingOccur() T = 23.700000 Tnext = 23.705000 Time: 2.37000e+01 states: [ -4.05150e+00 4.17383e-01] derivs: [ 4.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.705000 pESO->GetIndependentVar(): 23.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.737125, nextPhis[ 0]=-6.725814 prevPhis[ 1]=12.737125, nextPhis[ 1]=12.725814 <==IsSwitchingOccur() T = 23.705000 Tnext = 23.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.710000 pESO->GetIndependentVar(): 23.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.725814, nextPhis[ 0]=-6.714428 prevPhis[ 1]=12.725814, nextPhis[ 1]=12.714428 <==IsSwitchingOccur() T = 23.710000 Tnext = 23.715000 Time: 2.37100e+01 states: [ -4.04727e+00 4.27383e-01] derivs: [ 4.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.715000 pESO->GetIndependentVar(): 23.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.714428, nextPhis[ 0]=-6.702967 prevPhis[ 1]=12.714428, nextPhis[ 1]=12.702967 <==IsSwitchingOccur() T = 23.715000 Tnext = 23.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.720000 pESO->GetIndependentVar(): 23.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.702967, nextPhis[ 0]=-6.691431 prevPhis[ 1]=12.702967, nextPhis[ 1]=12.691431 <==IsSwitchingOccur() T = 23.720000 Tnext = 23.725000 Time: 2.37200e+01 states: [ -4.04294e+00 4.37383e-01] derivs: [ 4.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.725000 pESO->GetIndependentVar(): 23.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.691431, nextPhis[ 0]=-6.679820 prevPhis[ 1]=12.691431, nextPhis[ 1]=12.679820 <==IsSwitchingOccur() T = 23.725000 Tnext = 23.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.730000 pESO->GetIndependentVar(): 23.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.679820, nextPhis[ 0]=-6.668134 prevPhis[ 1]=12.679820, nextPhis[ 1]=12.668134 <==IsSwitchingOccur() T = 23.730000 Tnext = 23.735000 Time: 2.37300e+01 states: [ -4.03851e+00 4.47383e-01] derivs: [ 4.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.735000 pESO->GetIndependentVar(): 23.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.668134, nextPhis[ 0]=-6.656373 prevPhis[ 1]=12.668134, nextPhis[ 1]=12.656373 <==IsSwitchingOccur() T = 23.735000 Tnext = 23.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.740000 pESO->GetIndependentVar(): 23.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.656373, nextPhis[ 0]=-6.644536 prevPhis[ 1]=12.656373, nextPhis[ 1]=12.644536 <==IsSwitchingOccur() T = 23.740000 Tnext = 23.745000 Time: 2.37400e+01 states: [ -4.03397e+00 4.57383e-01] derivs: [ 4.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.745000 pESO->GetIndependentVar(): 23.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.644536, nextPhis[ 0]=-6.632625 prevPhis[ 1]=12.644536, nextPhis[ 1]=12.632625 <==IsSwitchingOccur() T = 23.745000 Tnext = 23.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.750000 pESO->GetIndependentVar(): 23.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.632625, nextPhis[ 0]=-6.620639 prevPhis[ 1]=12.632625, nextPhis[ 1]=12.620639 <==IsSwitchingOccur() T = 23.750000 Tnext = 23.755000 Time: 2.37500e+01 states: [ -4.02934e+00 4.67383e-01] derivs: [ 4.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.755000 pESO->GetIndependentVar(): 23.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.620639, nextPhis[ 0]=-6.608578 prevPhis[ 1]=12.620639, nextPhis[ 1]=12.608578 <==IsSwitchingOccur() T = 23.755000 Tnext = 23.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.760000 pESO->GetIndependentVar(): 23.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.608578, nextPhis[ 0]=-6.596442 prevPhis[ 1]=12.608578, nextPhis[ 1]=12.596442 <==IsSwitchingOccur() T = 23.760000 Tnext = 23.765000 Time: 2.37600e+01 states: [ -4.02461e+00 4.77383e-01] derivs: [ 4.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.765000 pESO->GetIndependentVar(): 23.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.596442, nextPhis[ 0]=-6.584231 prevPhis[ 1]=12.596442, nextPhis[ 1]=12.584231 <==IsSwitchingOccur() T = 23.765000 Tnext = 23.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.770000 pESO->GetIndependentVar(): 23.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.584231, nextPhis[ 0]=-6.571945 prevPhis[ 1]=12.584231, nextPhis[ 1]=12.571945 <==IsSwitchingOccur() T = 23.770000 Tnext = 23.775000 Time: 2.37700e+01 states: [ -4.01978e+00 4.87383e-01] derivs: [ 4.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.775000 pESO->GetIndependentVar(): 23.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.571945, nextPhis[ 0]=-6.559583 prevPhis[ 1]=12.571945, nextPhis[ 1]=12.559583 <==IsSwitchingOccur() T = 23.775000 Tnext = 23.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.780000 pESO->GetIndependentVar(): 23.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.559583, nextPhis[ 0]=-6.547147 prevPhis[ 1]=12.559583, nextPhis[ 1]=12.547147 <==IsSwitchingOccur() T = 23.780000 Tnext = 23.785000 Time: 2.37800e+01 states: [ -4.01484e+00 4.97383e-01] derivs: [ 4.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.785000 pESO->GetIndependentVar(): 23.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.547147, nextPhis[ 0]=-6.534636 prevPhis[ 1]=12.547147, nextPhis[ 1]=12.534636 <==IsSwitchingOccur() T = 23.785000 Tnext = 23.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.790000 pESO->GetIndependentVar(): 23.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.534636, nextPhis[ 0]=-6.522050 prevPhis[ 1]=12.534636, nextPhis[ 1]=12.522050 <==IsSwitchingOccur() T = 23.790000 Tnext = 23.795000 Time: 2.37900e+01 states: [ -4.00981e+00 5.07383e-01] derivs: [ 5.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.795000 pESO->GetIndependentVar(): 23.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.522050, nextPhis[ 0]=-6.509389 prevPhis[ 1]=12.522050, nextPhis[ 1]=12.509389 <==IsSwitchingOccur() T = 23.795000 Tnext = 23.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.800000 pESO->GetIndependentVar(): 23.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.509389, nextPhis[ 0]=-6.496653 prevPhis[ 1]=12.509389, nextPhis[ 1]=12.496653 <==IsSwitchingOccur() T = 23.800000 Tnext = 23.805000 Time: 2.38000e+01 states: [ -4.00468e+00 5.17383e-01] derivs: [ 5.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.805000 pESO->GetIndependentVar(): 23.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.496653, nextPhis[ 0]=-6.483842 prevPhis[ 1]=12.496653, nextPhis[ 1]=12.483842 <==IsSwitchingOccur() T = 23.805000 Tnext = 23.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.810000 pESO->GetIndependentVar(): 23.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.483842, nextPhis[ 0]=-6.470956 prevPhis[ 1]=12.483842, nextPhis[ 1]=12.470956 <==IsSwitchingOccur() T = 23.810000 Tnext = 23.815000 Time: 2.38100e+01 states: [ -3.99945e+00 5.27383e-01] derivs: [ 5.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.815000 pESO->GetIndependentVar(): 23.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.470956, nextPhis[ 0]=-6.457994 prevPhis[ 1]=12.470956, nextPhis[ 1]=12.457994 <==IsSwitchingOccur() T = 23.815000 Tnext = 23.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.820000 pESO->GetIndependentVar(): 23.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.457994, nextPhis[ 0]=-6.444958 prevPhis[ 1]=12.457994, nextPhis[ 1]=12.444958 <==IsSwitchingOccur() T = 23.820000 Tnext = 23.825000 Time: 2.38200e+01 states: [ -3.99411e+00 5.37383e-01] derivs: [ 5.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.825000 pESO->GetIndependentVar(): 23.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.444958, nextPhis[ 0]=-6.431847 prevPhis[ 1]=12.444958, nextPhis[ 1]=12.431847 <==IsSwitchingOccur() T = 23.825000 Tnext = 23.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.830000 pESO->GetIndependentVar(): 23.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.431847, nextPhis[ 0]=-6.418661 prevPhis[ 1]=12.431847, nextPhis[ 1]=12.418661 <==IsSwitchingOccur() T = 23.830000 Tnext = 23.835000 Time: 2.38300e+01 states: [ -3.98868e+00 5.47383e-01] derivs: [ 5.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.835000 pESO->GetIndependentVar(): 23.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.418661, nextPhis[ 0]=-6.405400 prevPhis[ 1]=12.418661, nextPhis[ 1]=12.405400 <==IsSwitchingOccur() T = 23.835000 Tnext = 23.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.840000 pESO->GetIndependentVar(): 23.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.405400, nextPhis[ 0]=-6.392064 prevPhis[ 1]=12.405400, nextPhis[ 1]=12.392064 <==IsSwitchingOccur() T = 23.840000 Tnext = 23.845000 Time: 2.38400e+01 states: [ -3.98315e+00 5.57383e-01] derivs: [ 5.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.845000 pESO->GetIndependentVar(): 23.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.392064, nextPhis[ 0]=-6.378653 prevPhis[ 1]=12.392064, nextPhis[ 1]=12.378653 <==IsSwitchingOccur() T = 23.845000 Tnext = 23.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.850000 pESO->GetIndependentVar(): 23.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.378653, nextPhis[ 0]=-6.365166 prevPhis[ 1]=12.378653, nextPhis[ 1]=12.365166 <==IsSwitchingOccur() T = 23.850000 Tnext = 23.855000 Time: 2.38500e+01 states: [ -3.97752e+00 5.67383e-01] derivs: [ 5.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.855000 pESO->GetIndependentVar(): 23.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.365166, nextPhis[ 0]=-6.351605 prevPhis[ 1]=12.365166, nextPhis[ 1]=12.351605 <==IsSwitchingOccur() T = 23.855000 Tnext = 23.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.860000 pESO->GetIndependentVar(): 23.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.351605, nextPhis[ 0]=-6.337969 prevPhis[ 1]=12.351605, nextPhis[ 1]=12.337969 <==IsSwitchingOccur() T = 23.860000 Tnext = 23.865000 Time: 2.38600e+01 states: [ -3.97178e+00 5.77383e-01] derivs: [ 5.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.865000 pESO->GetIndependentVar(): 23.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.337969, nextPhis[ 0]=-6.324258 prevPhis[ 1]=12.337969, nextPhis[ 1]=12.324258 <==IsSwitchingOccur() T = 23.865000 Tnext = 23.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.870000 pESO->GetIndependentVar(): 23.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.324258, nextPhis[ 0]=-6.310472 prevPhis[ 1]=12.324258, nextPhis[ 1]=12.310472 <==IsSwitchingOccur() T = 23.870000 Tnext = 23.875000 Time: 2.38700e+01 states: [ -3.96595e+00 5.87383e-01] derivs: [ 5.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.875000 pESO->GetIndependentVar(): 23.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.310472, nextPhis[ 0]=-6.296611 prevPhis[ 1]=12.310472, nextPhis[ 1]=12.296611 <==IsSwitchingOccur() T = 23.875000 Tnext = 23.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.880000 pESO->GetIndependentVar(): 23.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.296611, nextPhis[ 0]=-6.282675 prevPhis[ 1]=12.296611, nextPhis[ 1]=12.282675 <==IsSwitchingOccur() T = 23.880000 Tnext = 23.885000 Time: 2.38800e+01 states: [ -3.96002e+00 5.97383e-01] derivs: [ 5.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.885000 pESO->GetIndependentVar(): 23.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.282675, nextPhis[ 0]=-6.268663 prevPhis[ 1]=12.282675, nextPhis[ 1]=12.268663 <==IsSwitchingOccur() T = 23.885000 Tnext = 23.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.890000 pESO->GetIndependentVar(): 23.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.268663, nextPhis[ 0]=-6.254577 prevPhis[ 1]=12.268663, nextPhis[ 1]=12.254577 <==IsSwitchingOccur() T = 23.890000 Tnext = 23.895000 Time: 2.38900e+01 states: [ -3.95399e+00 6.07383e-01] derivs: [ 6.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.895000 pESO->GetIndependentVar(): 23.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.254577, nextPhis[ 0]=-6.240416 prevPhis[ 1]=12.254577, nextPhis[ 1]=12.240416 <==IsSwitchingOccur() T = 23.895000 Tnext = 23.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.900000 pESO->GetIndependentVar(): 23.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.240416, nextPhis[ 0]=-6.226180 prevPhis[ 1]=12.240416, nextPhis[ 1]=12.226180 <==IsSwitchingOccur() T = 23.900000 Tnext = 23.905000 Time: 2.39000e+01 states: [ -3.94785e+00 6.17383e-01] derivs: [ 6.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.905000 pESO->GetIndependentVar(): 23.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.226180, nextPhis[ 0]=-6.211869 prevPhis[ 1]=12.226180, nextPhis[ 1]=12.211869 <==IsSwitchingOccur() T = 23.905000 Tnext = 23.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.910000 pESO->GetIndependentVar(): 23.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.211869, nextPhis[ 0]=-6.197483 prevPhis[ 1]=12.211869, nextPhis[ 1]=12.197483 <==IsSwitchingOccur() T = 23.910000 Tnext = 23.915000 Time: 2.39100e+01 states: [ -3.94162e+00 6.27383e-01] derivs: [ 6.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.915000 pESO->GetIndependentVar(): 23.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.197483, nextPhis[ 0]=-6.183022 prevPhis[ 1]=12.197483, nextPhis[ 1]=12.183022 <==IsSwitchingOccur() T = 23.915000 Tnext = 23.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.920000 pESO->GetIndependentVar(): 23.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.183022, nextPhis[ 0]=-6.168486 prevPhis[ 1]=12.183022, nextPhis[ 1]=12.168486 <==IsSwitchingOccur() T = 23.920000 Tnext = 23.925000 Time: 2.39200e+01 states: [ -3.93529e+00 6.37383e-01] derivs: [ 6.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.925000 pESO->GetIndependentVar(): 23.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.168486, nextPhis[ 0]=-6.153874 prevPhis[ 1]=12.168486, nextPhis[ 1]=12.153874 <==IsSwitchingOccur() T = 23.925000 Tnext = 23.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.930000 pESO->GetIndependentVar(): 23.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.153874, nextPhis[ 0]=-6.139188 prevPhis[ 1]=12.153874, nextPhis[ 1]=12.139188 <==IsSwitchingOccur() T = 23.930000 Tnext = 23.935000 Time: 2.39300e+01 states: [ -3.92886e+00 6.47383e-01] derivs: [ 6.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.935000 pESO->GetIndependentVar(): 23.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.139188, nextPhis[ 0]=-6.124427 prevPhis[ 1]=12.139188, nextPhis[ 1]=12.124427 <==IsSwitchingOccur() T = 23.935000 Tnext = 23.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.940000 pESO->GetIndependentVar(): 23.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.124427, nextPhis[ 0]=-6.109591 prevPhis[ 1]=12.124427, nextPhis[ 1]=12.109591 <==IsSwitchingOccur() T = 23.940000 Tnext = 23.945000 Time: 2.39400e+01 states: [ -3.92232e+00 6.57383e-01] derivs: [ 6.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.945000 pESO->GetIndependentVar(): 23.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.109591, nextPhis[ 0]=-6.094680 prevPhis[ 1]=12.109591, nextPhis[ 1]=12.094680 <==IsSwitchingOccur() T = 23.945000 Tnext = 23.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.950000 pESO->GetIndependentVar(): 23.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.094680, nextPhis[ 0]=-6.079694 prevPhis[ 1]=12.094680, nextPhis[ 1]=12.079694 <==IsSwitchingOccur() T = 23.950000 Tnext = 23.955000 Time: 2.39500e+01 states: [ -3.91569e+00 6.67383e-01] derivs: [ 6.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.955000 pESO->GetIndependentVar(): 23.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.079694, nextPhis[ 0]=-6.064633 prevPhis[ 1]=12.079694, nextPhis[ 1]=12.064633 <==IsSwitchingOccur() T = 23.955000 Tnext = 23.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.960000 pESO->GetIndependentVar(): 23.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.064633, nextPhis[ 0]=-6.049496 prevPhis[ 1]=12.064633, nextPhis[ 1]=12.049496 <==IsSwitchingOccur() T = 23.960000 Tnext = 23.965000 Time: 2.39600e+01 states: [ -3.90896e+00 6.77383e-01] derivs: [ 6.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.965000 pESO->GetIndependentVar(): 23.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.049496, nextPhis[ 0]=-6.034285 prevPhis[ 1]=12.049496, nextPhis[ 1]=12.034285 <==IsSwitchingOccur() T = 23.965000 Tnext = 23.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.970000 pESO->GetIndependentVar(): 23.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.034285, nextPhis[ 0]=-6.018999 prevPhis[ 1]=12.034285, nextPhis[ 1]=12.018999 <==IsSwitchingOccur() T = 23.970000 Tnext = 23.975000 Time: 2.39700e+01 states: [ -3.90213e+00 6.87383e-01] derivs: [ 6.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.975000 pESO->GetIndependentVar(): 23.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.018999, nextPhis[ 0]=-6.003638 prevPhis[ 1]=12.018999, nextPhis[ 1]=12.003638 <==IsSwitchingOccur() T = 23.975000 Tnext = 23.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.980000 pESO->GetIndependentVar(): 23.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.003638, nextPhis[ 0]=-5.988202 prevPhis[ 1]=12.003638, nextPhis[ 1]=11.988202 <==IsSwitchingOccur() T = 23.980000 Tnext = 23.985000 Time: 2.39800e+01 states: [ -3.89519e+00 6.97383e-01] derivs: [ 6.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.985000 pESO->GetIndependentVar(): 23.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.988202, nextPhis[ 0]=-5.972691 prevPhis[ 1]=11.988202, nextPhis[ 1]=11.972691 <==IsSwitchingOccur() T = 23.985000 Tnext = 23.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.990000 pESO->GetIndependentVar(): 23.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.972691, nextPhis[ 0]=-5.957105 prevPhis[ 1]=11.972691, nextPhis[ 1]=11.957105 <==IsSwitchingOccur() T = 23.990000 Tnext = 23.995000 Time: 2.39900e+01 states: [ -3.88816e+00 7.07383e-01] derivs: [ 7.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 23.995000 pESO->GetIndependentVar(): 23.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.957105, nextPhis[ 0]=-5.941443 prevPhis[ 1]=11.957105, nextPhis[ 1]=11.941443 <==IsSwitchingOccur() T = 23.995000 Tnext = 24.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.000000 pESO->GetIndependentVar(): 24.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.941443, nextPhis[ 0]=-5.925707 prevPhis[ 1]=11.941443, nextPhis[ 1]=11.925707 <==IsSwitchingOccur() T = 24.000000 Tnext = 24.005000 Time: 2.40000e+01 states: [ -3.88103e+00 7.17383e-01] derivs: [ 7.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.005000 pESO->GetIndependentVar(): 24.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.925707, nextPhis[ 0]=-5.909896 prevPhis[ 1]=11.925707, nextPhis[ 1]=11.909896 <==IsSwitchingOccur() T = 24.005000 Tnext = 24.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.010000 pESO->GetIndependentVar(): 24.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.909896, nextPhis[ 0]=-5.894010 prevPhis[ 1]=11.909896, nextPhis[ 1]=11.894010 <==IsSwitchingOccur() T = 24.010000 Tnext = 24.015000 Time: 2.40100e+01 states: [ -3.87380e+00 7.27383e-01] derivs: [ 7.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.015000 pESO->GetIndependentVar(): 24.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.894010, nextPhis[ 0]=-5.878049 prevPhis[ 1]=11.894010, nextPhis[ 1]=11.878049 <==IsSwitchingOccur() T = 24.015000 Tnext = 24.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.020000 pESO->GetIndependentVar(): 24.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.878049, nextPhis[ 0]=-5.862013 prevPhis[ 1]=11.878049, nextPhis[ 1]=11.862013 <==IsSwitchingOccur() T = 24.020000 Tnext = 24.025000 Time: 2.40200e+01 states: [ -3.86647e+00 7.37383e-01] derivs: [ 7.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.025000 pESO->GetIndependentVar(): 24.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.862013, nextPhis[ 0]=-5.845902 prevPhis[ 1]=11.862013, nextPhis[ 1]=11.845902 <==IsSwitchingOccur() T = 24.025000 Tnext = 24.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.030000 pESO->GetIndependentVar(): 24.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.845902, nextPhis[ 0]=-5.829716 prevPhis[ 1]=11.845902, nextPhis[ 1]=11.829716 <==IsSwitchingOccur() T = 24.030000 Tnext = 24.035000 Time: 2.40300e+01 states: [ -3.85903e+00 7.47383e-01] derivs: [ 7.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.035000 pESO->GetIndependentVar(): 24.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.829716, nextPhis[ 0]=-5.813454 prevPhis[ 1]=11.829716, nextPhis[ 1]=11.813454 <==IsSwitchingOccur() T = 24.035000 Tnext = 24.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.040000 pESO->GetIndependentVar(): 24.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.813454, nextPhis[ 0]=-5.797118 prevPhis[ 1]=11.813454, nextPhis[ 1]=11.797118 <==IsSwitchingOccur() T = 24.040000 Tnext = 24.045000 Time: 2.40400e+01 states: [ -3.85150e+00 7.57383e-01] derivs: [ 7.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.045000 pESO->GetIndependentVar(): 24.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.797118, nextPhis[ 0]=-5.780707 prevPhis[ 1]=11.797118, nextPhis[ 1]=11.780707 <==IsSwitchingOccur() T = 24.045000 Tnext = 24.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.050000 pESO->GetIndependentVar(): 24.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.780707, nextPhis[ 0]=-5.764221 prevPhis[ 1]=11.780707, nextPhis[ 1]=11.764221 <==IsSwitchingOccur() T = 24.050000 Tnext = 24.055000 Time: 2.40500e+01 states: [ -3.84387e+00 7.67383e-01] derivs: [ 7.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.055000 pESO->GetIndependentVar(): 24.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.764221, nextPhis[ 0]=-5.747660 prevPhis[ 1]=11.764221, nextPhis[ 1]=11.747660 <==IsSwitchingOccur() T = 24.055000 Tnext = 24.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.060000 pESO->GetIndependentVar(): 24.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.747660, nextPhis[ 0]=-5.731024 prevPhis[ 1]=11.747660, nextPhis[ 1]=11.731024 <==IsSwitchingOccur() T = 24.060000 Tnext = 24.065000 Time: 2.40600e+01 states: [ -3.83614e+00 7.77383e-01] derivs: [ 7.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.065000 pESO->GetIndependentVar(): 24.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.731024, nextPhis[ 0]=-5.714313 prevPhis[ 1]=11.731024, nextPhis[ 1]=11.714313 <==IsSwitchingOccur() T = 24.065000 Tnext = 24.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.070000 pESO->GetIndependentVar(): 24.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.714313, nextPhis[ 0]=-5.697526 prevPhis[ 1]=11.714313, nextPhis[ 1]=11.697526 <==IsSwitchingOccur() T = 24.070000 Tnext = 24.075000 Time: 2.40700e+01 states: [ -3.82830e+00 7.87383e-01] derivs: [ 7.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.075000 pESO->GetIndependentVar(): 24.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.697526, nextPhis[ 0]=-5.680665 prevPhis[ 1]=11.697526, nextPhis[ 1]=11.680665 <==IsSwitchingOccur() T = 24.075000 Tnext = 24.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.080000 pESO->GetIndependentVar(): 24.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.680665, nextPhis[ 0]=-5.663729 prevPhis[ 1]=11.680665, nextPhis[ 1]=11.663729 <==IsSwitchingOccur() T = 24.080000 Tnext = 24.085000 Time: 2.40800e+01 states: [ -3.82037e+00 7.97383e-01] derivs: [ 7.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.085000 pESO->GetIndependentVar(): 24.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.663729, nextPhis[ 0]=-5.646718 prevPhis[ 1]=11.663729, nextPhis[ 1]=11.646718 <==IsSwitchingOccur() T = 24.085000 Tnext = 24.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.090000 pESO->GetIndependentVar(): 24.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.646718, nextPhis[ 0]=-5.629632 prevPhis[ 1]=11.646718, nextPhis[ 1]=11.629632 <==IsSwitchingOccur() T = 24.090000 Tnext = 24.095000 Time: 2.40900e+01 states: [ -3.81234e+00 8.07383e-01] derivs: [ 8.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.095000 pESO->GetIndependentVar(): 24.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.629632, nextPhis[ 0]=-5.612471 prevPhis[ 1]=11.629632, nextPhis[ 1]=11.612471 <==IsSwitchingOccur() T = 24.095000 Tnext = 24.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.100000 pESO->GetIndependentVar(): 24.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.612471, nextPhis[ 0]=-5.595235 prevPhis[ 1]=11.612471, nextPhis[ 1]=11.595235 <==IsSwitchingOccur() T = 24.100000 Tnext = 24.105000 Time: 2.41000e+01 states: [ -3.80421e+00 8.17383e-01] derivs: [ 8.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.105000 pESO->GetIndependentVar(): 24.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.595235, nextPhis[ 0]=-5.577923 prevPhis[ 1]=11.595235, nextPhis[ 1]=11.577923 <==IsSwitchingOccur() T = 24.105000 Tnext = 24.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.110000 pESO->GetIndependentVar(): 24.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.577923, nextPhis[ 0]=-5.560537 prevPhis[ 1]=11.577923, nextPhis[ 1]=11.560537 <==IsSwitchingOccur() T = 24.110000 Tnext = 24.115000 Time: 2.41100e+01 states: [ -3.79597e+00 8.27383e-01] derivs: [ 8.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.115000 pESO->GetIndependentVar(): 24.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.560537, nextPhis[ 0]=-5.543076 prevPhis[ 1]=11.560537, nextPhis[ 1]=11.543076 <==IsSwitchingOccur() T = 24.115000 Tnext = 24.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.120000 pESO->GetIndependentVar(): 24.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.543076, nextPhis[ 0]=-5.525540 prevPhis[ 1]=11.543076, nextPhis[ 1]=11.525540 <==IsSwitchingOccur() T = 24.120000 Tnext = 24.125000 Time: 2.41200e+01 states: [ -3.78764e+00 8.37383e-01] derivs: [ 8.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.125000 pESO->GetIndependentVar(): 24.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.525540, nextPhis[ 0]=-5.507929 prevPhis[ 1]=11.525540, nextPhis[ 1]=11.507929 <==IsSwitchingOccur() T = 24.125000 Tnext = 24.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.130000 pESO->GetIndependentVar(): 24.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.507929, nextPhis[ 0]=-5.490243 prevPhis[ 1]=11.507929, nextPhis[ 1]=11.490243 <==IsSwitchingOccur() T = 24.130000 Tnext = 24.135000 Time: 2.41300e+01 states: [ -3.77921e+00 8.47383e-01] derivs: [ 8.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.135000 pESO->GetIndependentVar(): 24.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.490243, nextPhis[ 0]=-5.472482 prevPhis[ 1]=11.490243, nextPhis[ 1]=11.472482 <==IsSwitchingOccur() T = 24.135000 Tnext = 24.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.140000 pESO->GetIndependentVar(): 24.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.472482, nextPhis[ 0]=-5.454646 prevPhis[ 1]=11.472482, nextPhis[ 1]=11.454646 <==IsSwitchingOccur() T = 24.140000 Tnext = 24.145000 Time: 2.41400e+01 states: [ -3.77068e+00 8.57383e-01] derivs: [ 8.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.145000 pESO->GetIndependentVar(): 24.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.454646, nextPhis[ 0]=-5.436734 prevPhis[ 1]=11.454646, nextPhis[ 1]=11.436734 <==IsSwitchingOccur() T = 24.145000 Tnext = 24.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.150000 pESO->GetIndependentVar(): 24.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.436734, nextPhis[ 0]=-5.418748 prevPhis[ 1]=11.436734, nextPhis[ 1]=11.418748 <==IsSwitchingOccur() T = 24.150000 Tnext = 24.155000 Time: 2.41500e+01 states: [ -3.76204e+00 8.67383e-01] derivs: [ 8.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.155000 pESO->GetIndependentVar(): 24.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.418748, nextPhis[ 0]=-5.400687 prevPhis[ 1]=11.418748, nextPhis[ 1]=11.400687 <==IsSwitchingOccur() T = 24.155000 Tnext = 24.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.160000 pESO->GetIndependentVar(): 24.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.400687, nextPhis[ 0]=-5.382551 prevPhis[ 1]=11.400687, nextPhis[ 1]=11.382551 <==IsSwitchingOccur() T = 24.160000 Tnext = 24.165000 Time: 2.41600e+01 states: [ -3.75331e+00 8.77383e-01] derivs: [ 8.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.165000 pESO->GetIndependentVar(): 24.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.382551, nextPhis[ 0]=-5.364340 prevPhis[ 1]=11.382551, nextPhis[ 1]=11.364340 <==IsSwitchingOccur() T = 24.165000 Tnext = 24.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.170000 pESO->GetIndependentVar(): 24.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.364340, nextPhis[ 0]=-5.346054 prevPhis[ 1]=11.364340, nextPhis[ 1]=11.346054 <==IsSwitchingOccur() T = 24.170000 Tnext = 24.175000 Time: 2.41700e+01 states: [ -3.74448e+00 8.87383e-01] derivs: [ 8.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.175000 pESO->GetIndependentVar(): 24.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.346054, nextPhis[ 0]=-5.327693 prevPhis[ 1]=11.346054, nextPhis[ 1]=11.327693 <==IsSwitchingOccur() T = 24.175000 Tnext = 24.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.180000 pESO->GetIndependentVar(): 24.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.327693, nextPhis[ 0]=-5.309256 prevPhis[ 1]=11.327693, nextPhis[ 1]=11.309256 <==IsSwitchingOccur() T = 24.180000 Tnext = 24.185000 Time: 2.41800e+01 states: [ -3.73555e+00 8.97383e-01] derivs: [ 8.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.185000 pESO->GetIndependentVar(): 24.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.309256, nextPhis[ 0]=-5.290745 prevPhis[ 1]=11.309256, nextPhis[ 1]=11.290745 <==IsSwitchingOccur() T = 24.185000 Tnext = 24.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.190000 pESO->GetIndependentVar(): 24.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.290745, nextPhis[ 0]=-5.272159 prevPhis[ 1]=11.290745, nextPhis[ 1]=11.272159 <==IsSwitchingOccur() T = 24.190000 Tnext = 24.195000 Time: 2.41900e+01 states: [ -3.72651e+00 9.07383e-01] derivs: [ 9.08674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.195000 pESO->GetIndependentVar(): 24.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.272159, nextPhis[ 0]=-5.253498 prevPhis[ 1]=11.272159, nextPhis[ 1]=11.253498 <==IsSwitchingOccur() T = 24.195000 Tnext = 24.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.200000 pESO->GetIndependentVar(): 24.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.253498, nextPhis[ 0]=-5.234762 prevPhis[ 1]=11.253498, nextPhis[ 1]=11.234762 <==IsSwitchingOccur() T = 24.200000 Tnext = 24.205000 Time: 2.42000e+01 states: [ -3.71738e+00 9.17383e-01] derivs: [ 9.18674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.205000 pESO->GetIndependentVar(): 24.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.234762, nextPhis[ 0]=-5.215951 prevPhis[ 1]=11.234762, nextPhis[ 1]=11.215951 <==IsSwitchingOccur() T = 24.205000 Tnext = 24.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.210000 pESO->GetIndependentVar(): 24.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.215951, nextPhis[ 0]=-5.197065 prevPhis[ 1]=11.215951, nextPhis[ 1]=11.197065 <==IsSwitchingOccur() T = 24.210000 Tnext = 24.215000 Time: 2.42100e+01 states: [ -3.70815e+00 9.27383e-01] derivs: [ 9.28674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.215000 pESO->GetIndependentVar(): 24.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.197065, nextPhis[ 0]=-5.178104 prevPhis[ 1]=11.197065, nextPhis[ 1]=11.178104 <==IsSwitchingOccur() T = 24.215000 Tnext = 24.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.220000 pESO->GetIndependentVar(): 24.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.178104, nextPhis[ 0]=-5.159067 prevPhis[ 1]=11.178104, nextPhis[ 1]=11.159067 <==IsSwitchingOccur() T = 24.220000 Tnext = 24.225000 Time: 2.42200e+01 states: [ -3.69882e+00 9.37383e-01] derivs: [ 9.38674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.225000 pESO->GetIndependentVar(): 24.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.159067, nextPhis[ 0]=-5.139956 prevPhis[ 1]=11.159067, nextPhis[ 1]=11.139956 <==IsSwitchingOccur() T = 24.225000 Tnext = 24.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.230000 pESO->GetIndependentVar(): 24.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.139956, nextPhis[ 0]=-5.120770 prevPhis[ 1]=11.139956, nextPhis[ 1]=11.120770 <==IsSwitchingOccur() T = 24.230000 Tnext = 24.235000 Time: 2.42300e+01 states: [ -3.68938e+00 9.47383e-01] derivs: [ 9.48674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.235000 pESO->GetIndependentVar(): 24.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.120770, nextPhis[ 0]=-5.101509 prevPhis[ 1]=11.120770, nextPhis[ 1]=11.101509 <==IsSwitchingOccur() T = 24.235000 Tnext = 24.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.240000 pESO->GetIndependentVar(): 24.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.101509, nextPhis[ 0]=-5.082173 prevPhis[ 1]=11.101509, nextPhis[ 1]=11.082173 <==IsSwitchingOccur() T = 24.240000 Tnext = 24.245000 Time: 2.42400e+01 states: [ -3.67985e+00 9.57383e-01] derivs: [ 9.58674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.245000 pESO->GetIndependentVar(): 24.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.082173, nextPhis[ 0]=-5.062762 prevPhis[ 1]=11.082173, nextPhis[ 1]=11.062762 <==IsSwitchingOccur() T = 24.245000 Tnext = 24.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.250000 pESO->GetIndependentVar(): 24.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.062762, nextPhis[ 0]=-5.043276 prevPhis[ 1]=11.062762, nextPhis[ 1]=11.043276 <==IsSwitchingOccur() T = 24.250000 Tnext = 24.255000 Time: 2.42500e+01 states: [ -3.67022e+00 9.67383e-01] derivs: [ 9.68674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.255000 pESO->GetIndependentVar(): 24.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.043276, nextPhis[ 0]=-5.023714 prevPhis[ 1]=11.043276, nextPhis[ 1]=11.023714 <==IsSwitchingOccur() T = 24.255000 Tnext = 24.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.260000 pESO->GetIndependentVar(): 24.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.023714, nextPhis[ 0]=-5.004078 prevPhis[ 1]=11.023714, nextPhis[ 1]=11.004078 <==IsSwitchingOccur() T = 24.260000 Tnext = 24.265000 Time: 2.42600e+01 states: [ -3.66049e+00 9.77383e-01] derivs: [ 9.78674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.265000 pESO->GetIndependentVar(): 24.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.004078, nextPhis[ 0]=-4.984367 prevPhis[ 1]=11.004078, nextPhis[ 1]=10.984367 <==IsSwitchingOccur() T = 24.265000 Tnext = 24.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.270000 pESO->GetIndependentVar(): 24.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.984367, nextPhis[ 0]=-4.964581 prevPhis[ 1]=10.984367, nextPhis[ 1]=10.964581 <==IsSwitchingOccur() T = 24.270000 Tnext = 24.275000 Time: 2.42700e+01 states: [ -3.65065e+00 9.87383e-01] derivs: [ 9.88674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.275000 pESO->GetIndependentVar(): 24.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.964581, nextPhis[ 0]=-4.944720 prevPhis[ 1]=10.964581, nextPhis[ 1]=10.944720 <==IsSwitchingOccur() T = 24.275000 Tnext = 24.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.280000 pESO->GetIndependentVar(): 24.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.944720, nextPhis[ 0]=-4.924784 prevPhis[ 1]=10.944720, nextPhis[ 1]=10.924784 <==IsSwitchingOccur() T = 24.280000 Tnext = 24.285000 Time: 2.42800e+01 states: [ -3.64072e+00 9.97383e-01] derivs: [ 9.98674e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.285000 pESO->GetIndependentVar(): 24.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.924784, nextPhis[ 0]=-4.904773 prevPhis[ 1]=10.924784, nextPhis[ 1]=10.904773 <==IsSwitchingOccur() T = 24.285000 Tnext = 24.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.290000 pESO->GetIndependentVar(): 24.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.904773, nextPhis[ 0]=-4.884686 prevPhis[ 1]=10.904773, nextPhis[ 1]=10.884686 <==IsSwitchingOccur() T = 24.290000 Tnext = 24.295000 Time: 2.42900e+01 states: [ -3.63069e+00 1.00738e+00] derivs: [ 1.00867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.295000 pESO->GetIndependentVar(): 24.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.884686, nextPhis[ 0]=-4.864525 prevPhis[ 1]=10.884686, nextPhis[ 1]=10.864525 <==IsSwitchingOccur() T = 24.295000 Tnext = 24.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.300000 pESO->GetIndependentVar(): 24.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.864525, nextPhis[ 0]=-4.844289 prevPhis[ 1]=10.864525, nextPhis[ 1]=10.844289 <==IsSwitchingOccur() T = 24.300000 Tnext = 24.305000 Time: 2.43000e+01 states: [ -3.62056e+00 1.01738e+00] derivs: [ 1.01867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.305000 pESO->GetIndependentVar(): 24.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.844289, nextPhis[ 0]=-4.823978 prevPhis[ 1]=10.844289, nextPhis[ 1]=10.823978 <==IsSwitchingOccur() T = 24.305000 Tnext = 24.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.310000 pESO->GetIndependentVar(): 24.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.823978, nextPhis[ 0]=-4.803592 prevPhis[ 1]=10.823978, nextPhis[ 1]=10.803592 <==IsSwitchingOccur() T = 24.310000 Tnext = 24.315000 Time: 2.43100e+01 states: [ -3.61032e+00 1.02738e+00] derivs: [ 1.02867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.315000 pESO->GetIndependentVar(): 24.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.803592, nextPhis[ 0]=-4.783131 prevPhis[ 1]=10.803592, nextPhis[ 1]=10.783131 <==IsSwitchingOccur() T = 24.315000 Tnext = 24.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.320000 pESO->GetIndependentVar(): 24.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.783131, nextPhis[ 0]=-4.762595 prevPhis[ 1]=10.783131, nextPhis[ 1]=10.762595 <==IsSwitchingOccur() T = 24.320000 Tnext = 24.325000 Time: 2.43200e+01 states: [ -3.59999e+00 1.03738e+00] derivs: [ 1.03867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.325000 pESO->GetIndependentVar(): 24.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.762595, nextPhis[ 0]=-4.741984 prevPhis[ 1]=10.762595, nextPhis[ 1]=10.741984 <==IsSwitchingOccur() T = 24.325000 Tnext = 24.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.330000 pESO->GetIndependentVar(): 24.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.741984, nextPhis[ 0]=-4.721297 prevPhis[ 1]=10.741984, nextPhis[ 1]=10.721297 <==IsSwitchingOccur() T = 24.330000 Tnext = 24.335000 Time: 2.43300e+01 states: [ -3.58956e+00 1.04738e+00] derivs: [ 1.04867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.335000 pESO->GetIndependentVar(): 24.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.721297, nextPhis[ 0]=-4.700536 prevPhis[ 1]=10.721297, nextPhis[ 1]=10.700536 <==IsSwitchingOccur() T = 24.335000 Tnext = 24.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.340000 pESO->GetIndependentVar(): 24.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.700536, nextPhis[ 0]=-4.679700 prevPhis[ 1]=10.700536, nextPhis[ 1]=10.679700 <==IsSwitchingOccur() T = 24.340000 Tnext = 24.345000 Time: 2.43400e+01 states: [ -3.57903e+00 1.05738e+00] derivs: [ 1.05867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.345000 pESO->GetIndependentVar(): 24.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.679700, nextPhis[ 0]=-4.658789 prevPhis[ 1]=10.679700, nextPhis[ 1]=10.658789 <==IsSwitchingOccur() T = 24.345000 Tnext = 24.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.350000 pESO->GetIndependentVar(): 24.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.658789, nextPhis[ 0]=-4.637803 prevPhis[ 1]=10.658789, nextPhis[ 1]=10.637803 <==IsSwitchingOccur() T = 24.350000 Tnext = 24.355000 Time: 2.43500e+01 states: [ -3.56840e+00 1.06738e+00] derivs: [ 1.06867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.355000 pESO->GetIndependentVar(): 24.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.637803, nextPhis[ 0]=-4.616742 prevPhis[ 1]=10.637803, nextPhis[ 1]=10.616742 <==IsSwitchingOccur() T = 24.355000 Tnext = 24.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.360000 pESO->GetIndependentVar(): 24.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.616742, nextPhis[ 0]=-4.595606 prevPhis[ 1]=10.616742, nextPhis[ 1]=10.595606 <==IsSwitchingOccur() T = 24.360000 Tnext = 24.365000 Time: 2.43600e+01 states: [ -3.55766e+00 1.07738e+00] derivs: [ 1.07867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.365000 pESO->GetIndependentVar(): 24.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.595606, nextPhis[ 0]=-4.574394 prevPhis[ 1]=10.595606, nextPhis[ 1]=10.574394 <==IsSwitchingOccur() T = 24.365000 Tnext = 24.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.370000 pESO->GetIndependentVar(): 24.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.574394, nextPhis[ 0]=-4.553108 prevPhis[ 1]=10.574394, nextPhis[ 1]=10.553108 <==IsSwitchingOccur() T = 24.370000 Tnext = 24.375000 Time: 2.43700e+01 states: [ -3.54683e+00 1.08738e+00] derivs: [ 1.08867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.375000 pESO->GetIndependentVar(): 24.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.553108, nextPhis[ 0]=-4.531747 prevPhis[ 1]=10.553108, nextPhis[ 1]=10.531747 <==IsSwitchingOccur() T = 24.375000 Tnext = 24.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.380000 pESO->GetIndependentVar(): 24.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.531747, nextPhis[ 0]=-4.510311 prevPhis[ 1]=10.531747, nextPhis[ 1]=10.510311 <==IsSwitchingOccur() T = 24.380000 Tnext = 24.385000 Time: 2.43800e+01 states: [ -3.53590e+00 1.09738e+00] derivs: [ 1.09867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.385000 pESO->GetIndependentVar(): 24.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.510311, nextPhis[ 0]=-4.488800 prevPhis[ 1]=10.510311, nextPhis[ 1]=10.488800 <==IsSwitchingOccur() T = 24.385000 Tnext = 24.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.390000 pESO->GetIndependentVar(): 24.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.488800, nextPhis[ 0]=-4.467214 prevPhis[ 1]=10.488800, nextPhis[ 1]=10.467214 <==IsSwitchingOccur() T = 24.390000 Tnext = 24.395000 Time: 2.43900e+01 states: [ -3.52487e+00 1.10738e+00] derivs: [ 1.10867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.395000 pESO->GetIndependentVar(): 24.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.467214, nextPhis[ 0]=-4.445553 prevPhis[ 1]=10.467214, nextPhis[ 1]=10.445553 <==IsSwitchingOccur() T = 24.395000 Tnext = 24.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.400000 pESO->GetIndependentVar(): 24.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.445553, nextPhis[ 0]=-4.423816 prevPhis[ 1]=10.445553, nextPhis[ 1]=10.423816 <==IsSwitchingOccur() T = 24.400000 Tnext = 24.405000 Time: 2.44000e+01 states: [ -3.51373e+00 1.11738e+00] derivs: [ 1.11867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.405000 pESO->GetIndependentVar(): 24.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.423816, nextPhis[ 0]=-4.402005 prevPhis[ 1]=10.423816, nextPhis[ 1]=10.402005 <==IsSwitchingOccur() T = 24.405000 Tnext = 24.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.410000 pESO->GetIndependentVar(): 24.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.402005, nextPhis[ 0]=-4.380119 prevPhis[ 1]=10.402005, nextPhis[ 1]=10.380119 <==IsSwitchingOccur() T = 24.410000 Tnext = 24.415000 Time: 2.44100e+01 states: [ -3.50250e+00 1.12738e+00] derivs: [ 1.12867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.415000 pESO->GetIndependentVar(): 24.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.380119, nextPhis[ 0]=-4.358158 prevPhis[ 1]=10.380119, nextPhis[ 1]=10.358158 <==IsSwitchingOccur() T = 24.415000 Tnext = 24.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.420000 pESO->GetIndependentVar(): 24.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.358158, nextPhis[ 0]=-4.336122 prevPhis[ 1]=10.358158, nextPhis[ 1]=10.336122 <==IsSwitchingOccur() T = 24.420000 Tnext = 24.425000 Time: 2.44200e+01 states: [ -3.49117e+00 1.13738e+00] derivs: [ 1.13867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.425000 pESO->GetIndependentVar(): 24.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.336122, nextPhis[ 0]=-4.314011 prevPhis[ 1]=10.336122, nextPhis[ 1]=10.314011 <==IsSwitchingOccur() T = 24.425000 Tnext = 24.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.430000 pESO->GetIndependentVar(): 24.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.314011, nextPhis[ 0]=-4.291825 prevPhis[ 1]=10.314011, nextPhis[ 1]=10.291825 <==IsSwitchingOccur() T = 24.430000 Tnext = 24.435000 Time: 2.44300e+01 states: [ -3.47974e+00 1.14738e+00] derivs: [ 1.14867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.435000 pESO->GetIndependentVar(): 24.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.291825, nextPhis[ 0]=-4.269564 prevPhis[ 1]=10.291825, nextPhis[ 1]=10.269564 <==IsSwitchingOccur() T = 24.435000 Tnext = 24.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.440000 pESO->GetIndependentVar(): 24.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.269564, nextPhis[ 0]=-4.247227 prevPhis[ 1]=10.269564, nextPhis[ 1]=10.247227 <==IsSwitchingOccur() T = 24.440000 Tnext = 24.445000 Time: 2.44400e+01 states: [ -3.46820e+00 1.15738e+00] derivs: [ 1.15867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.445000 pESO->GetIndependentVar(): 24.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.247227, nextPhis[ 0]=-4.224816 prevPhis[ 1]=10.247227, nextPhis[ 1]=10.224816 <==IsSwitchingOccur() T = 24.445000 Tnext = 24.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.450000 pESO->GetIndependentVar(): 24.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.224816, nextPhis[ 0]=-4.202330 prevPhis[ 1]=10.224816, nextPhis[ 1]=10.202330 <==IsSwitchingOccur() T = 24.450000 Tnext = 24.455000 Time: 2.44500e+01 states: [ -3.45657e+00 1.16738e+00] derivs: [ 1.16867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.455000 pESO->GetIndependentVar(): 24.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.202330, nextPhis[ 0]=-4.179769 prevPhis[ 1]=10.202330, nextPhis[ 1]=10.179769 <==IsSwitchingOccur() T = 24.455000 Tnext = 24.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.460000 pESO->GetIndependentVar(): 24.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.179769, nextPhis[ 0]=-4.157133 prevPhis[ 1]=10.179769, nextPhis[ 1]=10.157133 <==IsSwitchingOccur() T = 24.460000 Tnext = 24.465000 Time: 2.44600e+01 states: [ -3.44484e+00 1.17738e+00] derivs: [ 1.17867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.465000 pESO->GetIndependentVar(): 24.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.157133, nextPhis[ 0]=-4.134422 prevPhis[ 1]=10.157133, nextPhis[ 1]=10.134422 <==IsSwitchingOccur() T = 24.465000 Tnext = 24.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.470000 pESO->GetIndependentVar(): 24.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.134422, nextPhis[ 0]=-4.111636 prevPhis[ 1]=10.134422, nextPhis[ 1]=10.111636 <==IsSwitchingOccur() T = 24.470000 Tnext = 24.475000 Time: 2.44700e+01 states: [ -3.43301e+00 1.18738e+00] derivs: [ 1.18867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.475000 pESO->GetIndependentVar(): 24.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.111636, nextPhis[ 0]=-4.088774 prevPhis[ 1]=10.111636, nextPhis[ 1]=10.088774 <==IsSwitchingOccur() T = 24.475000 Tnext = 24.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.480000 pESO->GetIndependentVar(): 24.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.088774, nextPhis[ 0]=-4.065838 prevPhis[ 1]=10.088774, nextPhis[ 1]=10.065838 <==IsSwitchingOccur() T = 24.480000 Tnext = 24.485000 Time: 2.44800e+01 states: [ -3.42107e+00 1.19738e+00] derivs: [ 1.19867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.485000 pESO->GetIndependentVar(): 24.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.065838, nextPhis[ 0]=-4.042827 prevPhis[ 1]=10.065838, nextPhis[ 1]=10.042827 <==IsSwitchingOccur() T = 24.485000 Tnext = 24.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.490000 pESO->GetIndependentVar(): 24.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.042827, nextPhis[ 0]=-4.019741 prevPhis[ 1]=10.042827, nextPhis[ 1]=10.019741 <==IsSwitchingOccur() T = 24.490000 Tnext = 24.495000 Time: 2.44900e+01 states: [ -3.40904e+00 1.20738e+00] derivs: [ 1.20867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.495000 pESO->GetIndependentVar(): 24.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.019741, nextPhis[ 0]=-3.996580 prevPhis[ 1]=10.019741, nextPhis[ 1]=9.996580 <==IsSwitchingOccur() T = 24.495000 Tnext = 24.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.500000 pESO->GetIndependentVar(): 24.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.996580, nextPhis[ 0]=-3.973344 prevPhis[ 1]=9.996580, nextPhis[ 1]=9.973344 <==IsSwitchingOccur() T = 24.500000 Tnext = 24.505000 Time: 2.45000e+01 states: [ -3.39691e+00 1.21738e+00] derivs: [ 1.21867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.505000 pESO->GetIndependentVar(): 24.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.973344, nextPhis[ 0]=-3.950033 prevPhis[ 1]=9.973344, nextPhis[ 1]=9.950033 <==IsSwitchingOccur() T = 24.505000 Tnext = 24.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.510000 pESO->GetIndependentVar(): 24.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.950033, nextPhis[ 0]=-3.926646 prevPhis[ 1]=9.950033, nextPhis[ 1]=9.926646 <==IsSwitchingOccur() T = 24.510000 Tnext = 24.515000 Time: 2.45100e+01 states: [ -3.38468e+00 1.22738e+00] derivs: [ 1.22867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.515000 pESO->GetIndependentVar(): 24.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.926646, nextPhis[ 0]=-3.903185 prevPhis[ 1]=9.926646, nextPhis[ 1]=9.903185 <==IsSwitchingOccur() T = 24.515000 Tnext = 24.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.520000 pESO->GetIndependentVar(): 24.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.903185, nextPhis[ 0]=-3.879649 prevPhis[ 1]=9.903185, nextPhis[ 1]=9.879649 <==IsSwitchingOccur() T = 24.520000 Tnext = 24.525000 Time: 2.45200e+01 states: [ -3.37234e+00 1.23738e+00] derivs: [ 1.23867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.525000 pESO->GetIndependentVar(): 24.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.879649, nextPhis[ 0]=-3.856038 prevPhis[ 1]=9.879649, nextPhis[ 1]=9.856038 <==IsSwitchingOccur() T = 24.525000 Tnext = 24.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.530000 pESO->GetIndependentVar(): 24.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.856038, nextPhis[ 0]=-3.832352 prevPhis[ 1]=9.856038, nextPhis[ 1]=9.832352 <==IsSwitchingOccur() T = 24.530000 Tnext = 24.535000 Time: 2.45300e+01 states: [ -3.35991e+00 1.24738e+00] derivs: [ 1.24867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.535000 pESO->GetIndependentVar(): 24.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.832352, nextPhis[ 0]=-3.808591 prevPhis[ 1]=9.832352, nextPhis[ 1]=9.808591 <==IsSwitchingOccur() T = 24.535000 Tnext = 24.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.540000 pESO->GetIndependentVar(): 24.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.808591, nextPhis[ 0]=-3.784755 prevPhis[ 1]=9.808591, nextPhis[ 1]=9.784755 <==IsSwitchingOccur() T = 24.540000 Tnext = 24.545000 Time: 2.45400e+01 states: [ -3.34738e+00 1.25738e+00] derivs: [ 1.25867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.545000 pESO->GetIndependentVar(): 24.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.784755, nextPhis[ 0]=-3.760844 prevPhis[ 1]=9.784755, nextPhis[ 1]=9.760844 <==IsSwitchingOccur() T = 24.545000 Tnext = 24.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.550000 pESO->GetIndependentVar(): 24.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.760844, nextPhis[ 0]=-3.736857 prevPhis[ 1]=9.760844, nextPhis[ 1]=9.736857 <==IsSwitchingOccur() T = 24.550000 Tnext = 24.555000 Time: 2.45500e+01 states: [ -3.33475e+00 1.26738e+00] derivs: [ 1.26867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.555000 pESO->GetIndependentVar(): 24.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.736857, nextPhis[ 0]=-3.712796 prevPhis[ 1]=9.736857, nextPhis[ 1]=9.712796 <==IsSwitchingOccur() T = 24.555000 Tnext = 24.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.560000 pESO->GetIndependentVar(): 24.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.712796, nextPhis[ 0]=-3.688660 prevPhis[ 1]=9.712796, nextPhis[ 1]=9.688660 <==IsSwitchingOccur() T = 24.560000 Tnext = 24.565000 Time: 2.45600e+01 states: [ -3.32201e+00 1.27738e+00] derivs: [ 1.27867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.565000 pESO->GetIndependentVar(): 24.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.688660, nextPhis[ 0]=-3.664449 prevPhis[ 1]=9.688660, nextPhis[ 1]=9.664449 <==IsSwitchingOccur() T = 24.565000 Tnext = 24.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.570000 pESO->GetIndependentVar(): 24.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.664449, nextPhis[ 0]=-3.640163 prevPhis[ 1]=9.664449, nextPhis[ 1]=9.640163 <==IsSwitchingOccur() T = 24.570000 Tnext = 24.575000 Time: 2.45700e+01 states: [ -3.30918e+00 1.28738e+00] derivs: [ 1.28867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.575000 pESO->GetIndependentVar(): 24.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.640163, nextPhis[ 0]=-3.615802 prevPhis[ 1]=9.640163, nextPhis[ 1]=9.615802 <==IsSwitchingOccur() T = 24.575000 Tnext = 24.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.580000 pESO->GetIndependentVar(): 24.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.615802, nextPhis[ 0]=-3.591366 prevPhis[ 1]=9.615802, nextPhis[ 1]=9.591366 <==IsSwitchingOccur() T = 24.580000 Tnext = 24.585000 Time: 2.45800e+01 states: [ -3.29625e+00 1.29738e+00] derivs: [ 1.29867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.585000 pESO->GetIndependentVar(): 24.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.591366, nextPhis[ 0]=-3.566854 prevPhis[ 1]=9.591366, nextPhis[ 1]=9.566854 <==IsSwitchingOccur() T = 24.585000 Tnext = 24.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.590000 pESO->GetIndependentVar(): 24.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.566854, nextPhis[ 0]=-3.542268 prevPhis[ 1]=9.566854, nextPhis[ 1]=9.542268 <==IsSwitchingOccur() T = 24.590000 Tnext = 24.595000 Time: 2.45900e+01 states: [ -3.28322e+00 1.30738e+00] derivs: [ 1.30867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.595000 pESO->GetIndependentVar(): 24.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.542268, nextPhis[ 0]=-3.517607 prevPhis[ 1]=9.542268, nextPhis[ 1]=9.517607 <==IsSwitchingOccur() T = 24.595000 Tnext = 24.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.600000 pESO->GetIndependentVar(): 24.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.517607, nextPhis[ 0]=-3.492871 prevPhis[ 1]=9.517607, nextPhis[ 1]=9.492871 <==IsSwitchingOccur() T = 24.600000 Tnext = 24.605000 Time: 2.46000e+01 states: [ -3.27008e+00 1.31738e+00] derivs: [ 1.31867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.605000 pESO->GetIndependentVar(): 24.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.492871, nextPhis[ 0]=-3.468060 prevPhis[ 1]=9.492871, nextPhis[ 1]=9.468060 <==IsSwitchingOccur() T = 24.605000 Tnext = 24.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.610000 pESO->GetIndependentVar(): 24.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.468060, nextPhis[ 0]=-3.443174 prevPhis[ 1]=9.468060, nextPhis[ 1]=9.443174 <==IsSwitchingOccur() T = 24.610000 Tnext = 24.615000 Time: 2.46100e+01 states: [ -3.25685e+00 1.32738e+00] derivs: [ 1.32867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.615000 pESO->GetIndependentVar(): 24.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.443174, nextPhis[ 0]=-3.418213 prevPhis[ 1]=9.443174, nextPhis[ 1]=9.418213 <==IsSwitchingOccur() T = 24.615000 Tnext = 24.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.620000 pESO->GetIndependentVar(): 24.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.418213, nextPhis[ 0]=-3.393176 prevPhis[ 1]=9.418213, nextPhis[ 1]=9.393176 <==IsSwitchingOccur() T = 24.620000 Tnext = 24.625000 Time: 2.46200e+01 states: [ -3.24352e+00 1.33738e+00] derivs: [ 1.33867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.625000 pESO->GetIndependentVar(): 24.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.393176, nextPhis[ 0]=-3.368065 prevPhis[ 1]=9.393176, nextPhis[ 1]=9.368065 <==IsSwitchingOccur() T = 24.625000 Tnext = 24.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.630000 pESO->GetIndependentVar(): 24.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.368065, nextPhis[ 0]=-3.342879 prevPhis[ 1]=9.368065, nextPhis[ 1]=9.342879 <==IsSwitchingOccur() T = 24.630000 Tnext = 24.635000 Time: 2.46300e+01 states: [ -3.23009e+00 1.34738e+00] derivs: [ 1.34867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.635000 pESO->GetIndependentVar(): 24.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.342879, nextPhis[ 0]=-3.317618 prevPhis[ 1]=9.342879, nextPhis[ 1]=9.317618 <==IsSwitchingOccur() T = 24.635000 Tnext = 24.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.640000 pESO->GetIndependentVar(): 24.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.317618, nextPhis[ 0]=-3.292282 prevPhis[ 1]=9.317618, nextPhis[ 1]=9.292282 <==IsSwitchingOccur() T = 24.640000 Tnext = 24.645000 Time: 2.46400e+01 states: [ -3.21655e+00 1.35738e+00] derivs: [ 1.35867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.645000 pESO->GetIndependentVar(): 24.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.292282, nextPhis[ 0]=-3.266871 prevPhis[ 1]=9.292282, nextPhis[ 1]=9.266871 <==IsSwitchingOccur() T = 24.645000 Tnext = 24.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.650000 pESO->GetIndependentVar(): 24.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.266871, nextPhis[ 0]=-3.241385 prevPhis[ 1]=9.266871, nextPhis[ 1]=9.241385 <==IsSwitchingOccur() T = 24.650000 Tnext = 24.655000 Time: 2.46500e+01 states: [ -3.20292e+00 1.36738e+00] derivs: [ 1.36867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.655000 pESO->GetIndependentVar(): 24.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.241385, nextPhis[ 0]=-3.215824 prevPhis[ 1]=9.241385, nextPhis[ 1]=9.215824 <==IsSwitchingOccur() T = 24.655000 Tnext = 24.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.660000 pESO->GetIndependentVar(): 24.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.215824, nextPhis[ 0]=-3.190187 prevPhis[ 1]=9.215824, nextPhis[ 1]=9.190187 <==IsSwitchingOccur() T = 24.660000 Tnext = 24.665000 Time: 2.46600e+01 states: [ -3.18919e+00 1.37738e+00] derivs: [ 1.37867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.665000 pESO->GetIndependentVar(): 24.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.190187, nextPhis[ 0]=-3.164476 prevPhis[ 1]=9.190187, nextPhis[ 1]=9.164476 <==IsSwitchingOccur() T = 24.665000 Tnext = 24.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.670000 pESO->GetIndependentVar(): 24.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.164476, nextPhis[ 0]=-3.138690 prevPhis[ 1]=9.164476, nextPhis[ 1]=9.138690 <==IsSwitchingOccur() T = 24.670000 Tnext = 24.675000 Time: 2.46700e+01 states: [ -3.17536e+00 1.38738e+00] derivs: [ 1.38867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.675000 pESO->GetIndependentVar(): 24.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.138690, nextPhis[ 0]=-3.112829 prevPhis[ 1]=9.138690, nextPhis[ 1]=9.112829 <==IsSwitchingOccur() T = 24.675000 Tnext = 24.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.680000 pESO->GetIndependentVar(): 24.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.112829, nextPhis[ 0]=-3.086893 prevPhis[ 1]=9.112829, nextPhis[ 1]=9.086893 <==IsSwitchingOccur() T = 24.680000 Tnext = 24.685000 Time: 2.46800e+01 states: [ -3.16143e+00 1.39738e+00] derivs: [ 1.39867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.685000 pESO->GetIndependentVar(): 24.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.086893, nextPhis[ 0]=-3.060882 prevPhis[ 1]=9.086893, nextPhis[ 1]=9.060882 <==IsSwitchingOccur() T = 24.685000 Tnext = 24.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.690000 pESO->GetIndependentVar(): 24.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.060882, nextPhis[ 0]=-3.034796 prevPhis[ 1]=9.060882, nextPhis[ 1]=9.034796 <==IsSwitchingOccur() T = 24.690000 Tnext = 24.695000 Time: 2.46900e+01 states: [ -3.14739e+00 1.40738e+00] derivs: [ 1.40867e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.695000 pESO->GetIndependentVar(): 24.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.034796, nextPhis[ 0]=-3.008637 prevPhis[ 1]=9.034796, nextPhis[ 1]=9.008637 <==IsSwitchingOccur() T = 24.695000 Tnext = 24.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.700000 pESO->GetIndependentVar(): 24.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.008637, nextPhis[ 0]=-2.982403 prevPhis[ 1]=9.008637, nextPhis[ 1]=8.982403 <==IsSwitchingOccur() T = 24.700000 Tnext = 24.705000 Time: 2.47000e+01 states: [ -3.13326e+00 1.41738e+00] derivs: [ 1.41763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.705000 pESO->GetIndependentVar(): 24.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.982403, nextPhis[ 0]=-2.956095 prevPhis[ 1]=8.982403, nextPhis[ 1]=8.956095 <==IsSwitchingOccur() T = 24.705000 Tnext = 24.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.710000 pESO->GetIndependentVar(): 24.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.956095, nextPhis[ 0]=-2.929711 prevPhis[ 1]=8.956095, nextPhis[ 1]=8.929711 <==IsSwitchingOccur() T = 24.710000 Tnext = 24.715000 Time: 2.47100e+01 states: [ -3.11903e+00 1.42738e+00] derivs: [ 1.42763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.715000 pESO->GetIndependentVar(): 24.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.929711, nextPhis[ 0]=-2.903253 prevPhis[ 1]=8.929711, nextPhis[ 1]=8.903253 <==IsSwitchingOccur() T = 24.715000 Tnext = 24.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.720000 pESO->GetIndependentVar(): 24.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.903253, nextPhis[ 0]=-2.876719 prevPhis[ 1]=8.903253, nextPhis[ 1]=8.876719 <==IsSwitchingOccur() T = 24.720000 Tnext = 24.725000 Time: 2.47200e+01 states: [ -3.10470e+00 1.43738e+00] derivs: [ 1.43763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.725000 pESO->GetIndependentVar(): 24.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.876719, nextPhis[ 0]=-2.850110 prevPhis[ 1]=8.876719, nextPhis[ 1]=8.850110 <==IsSwitchingOccur() T = 24.725000 Tnext = 24.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.730000 pESO->GetIndependentVar(): 24.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.850110, nextPhis[ 0]=-2.823427 prevPhis[ 1]=8.850110, nextPhis[ 1]=8.823427 <==IsSwitchingOccur() T = 24.730000 Tnext = 24.735000 Time: 2.47300e+01 states: [ -3.09027e+00 1.44738e+00] derivs: [ 1.44763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.735000 pESO->GetIndependentVar(): 24.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.823427, nextPhis[ 0]=-2.796668 prevPhis[ 1]=8.823427, nextPhis[ 1]=8.796668 <==IsSwitchingOccur() T = 24.735000 Tnext = 24.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.740000 pESO->GetIndependentVar(): 24.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.796668, nextPhis[ 0]=-2.769835 prevPhis[ 1]=8.796668, nextPhis[ 1]=8.769835 <==IsSwitchingOccur() T = 24.740000 Tnext = 24.745000 Time: 2.47400e+01 states: [ -3.07574e+00 1.45738e+00] derivs: [ 1.45763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.745000 pESO->GetIndependentVar(): 24.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.769835, nextPhis[ 0]=-2.742926 prevPhis[ 1]=8.769835, nextPhis[ 1]=8.742926 <==IsSwitchingOccur() T = 24.745000 Tnext = 24.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.750000 pESO->GetIndependentVar(): 24.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.742926, nextPhis[ 0]=-2.715942 prevPhis[ 1]=8.742926, nextPhis[ 1]=8.715942 <==IsSwitchingOccur() T = 24.750000 Tnext = 24.755000 Time: 2.47500e+01 states: [ -3.06111e+00 1.46738e+00] derivs: [ 1.46763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.755000 pESO->GetIndependentVar(): 24.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.715942, nextPhis[ 0]=-2.688884 prevPhis[ 1]=8.715942, nextPhis[ 1]=8.688884 <==IsSwitchingOccur() T = 24.755000 Tnext = 24.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.760000 pESO->GetIndependentVar(): 24.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.688884, nextPhis[ 0]=-2.661750 prevPhis[ 1]=8.688884, nextPhis[ 1]=8.661750 <==IsSwitchingOccur() T = 24.760000 Tnext = 24.765000 Time: 2.47600e+01 states: [ -3.04638e+00 1.47738e+00] derivs: [ 1.47763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.765000 pESO->GetIndependentVar(): 24.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.661750, nextPhis[ 0]=-2.634542 prevPhis[ 1]=8.661750, nextPhis[ 1]=8.634542 <==IsSwitchingOccur() T = 24.765000 Tnext = 24.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.770000 pESO->GetIndependentVar(): 24.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.634542, nextPhis[ 0]=-2.607258 prevPhis[ 1]=8.634542, nextPhis[ 1]=8.607258 <==IsSwitchingOccur() T = 24.770000 Tnext = 24.775000 Time: 2.47700e+01 states: [ -3.03155e+00 1.48738e+00] derivs: [ 1.48763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.775000 pESO->GetIndependentVar(): 24.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.607258, nextPhis[ 0]=-2.579899 prevPhis[ 1]=8.607258, nextPhis[ 1]=8.579899 <==IsSwitchingOccur() T = 24.775000 Tnext = 24.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.780000 pESO->GetIndependentVar(): 24.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.579899, nextPhis[ 0]=-2.552466 prevPhis[ 1]=8.579899, nextPhis[ 1]=8.552466 <==IsSwitchingOccur() T = 24.780000 Tnext = 24.785000 Time: 2.47800e+01 states: [ -3.01662e+00 1.49738e+00] derivs: [ 1.49763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.785000 pESO->GetIndependentVar(): 24.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.552466, nextPhis[ 0]=-2.524957 prevPhis[ 1]=8.552466, nextPhis[ 1]=8.524957 <==IsSwitchingOccur() T = 24.785000 Tnext = 24.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.790000 pESO->GetIndependentVar(): 24.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.524957, nextPhis[ 0]=-2.497374 prevPhis[ 1]=8.524957, nextPhis[ 1]=8.497374 <==IsSwitchingOccur() T = 24.790000 Tnext = 24.795000 Time: 2.47900e+01 states: [ -3.00159e+00 1.50738e+00] derivs: [ 1.50763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.795000 pESO->GetIndependentVar(): 24.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.497374, nextPhis[ 0]=-2.469715 prevPhis[ 1]=8.497374, nextPhis[ 1]=8.469715 <==IsSwitchingOccur() T = 24.795000 Tnext = 24.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.800000 pESO->GetIndependentVar(): 24.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.469715, nextPhis[ 0]=-2.441981 prevPhis[ 1]=8.469715, nextPhis[ 1]=8.441981 <==IsSwitchingOccur() T = 24.800000 Tnext = 24.805000 Time: 2.48000e+01 states: [ -2.98645e+00 1.51738e+00] derivs: [ 1.51763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.805000 pESO->GetIndependentVar(): 24.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.441981, nextPhis[ 0]=-2.414173 prevPhis[ 1]=8.441981, nextPhis[ 1]=8.414173 <==IsSwitchingOccur() T = 24.805000 Tnext = 24.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.810000 pESO->GetIndependentVar(): 24.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.414173, nextPhis[ 0]=-2.386289 prevPhis[ 1]=8.414173, nextPhis[ 1]=8.386289 <==IsSwitchingOccur() T = 24.810000 Tnext = 24.815000 Time: 2.48100e+01 states: [ -2.97122e+00 1.52738e+00] derivs: [ 1.52763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.815000 pESO->GetIndependentVar(): 24.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.386289, nextPhis[ 0]=-2.358331 prevPhis[ 1]=8.386289, nextPhis[ 1]=8.358331 <==IsSwitchingOccur() T = 24.815000 Tnext = 24.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.820000 pESO->GetIndependentVar(): 24.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.358331, nextPhis[ 0]=-2.330297 prevPhis[ 1]=8.358331, nextPhis[ 1]=8.330297 <==IsSwitchingOccur() T = 24.820000 Tnext = 24.825000 Time: 2.48200e+01 states: [ -2.95589e+00 1.53738e+00] derivs: [ 1.53763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.825000 pESO->GetIndependentVar(): 24.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.330297, nextPhis[ 0]=-2.302188 prevPhis[ 1]=8.330297, nextPhis[ 1]=8.302188 <==IsSwitchingOccur() T = 24.825000 Tnext = 24.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.830000 pESO->GetIndependentVar(): 24.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.302188, nextPhis[ 0]=-2.274005 prevPhis[ 1]=8.302188, nextPhis[ 1]=8.274005 <==IsSwitchingOccur() T = 24.830000 Tnext = 24.835000 Time: 2.48300e+01 states: [ -2.94046e+00 1.54738e+00] derivs: [ 1.54763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.835000 pESO->GetIndependentVar(): 24.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.274005, nextPhis[ 0]=-2.245746 prevPhis[ 1]=8.274005, nextPhis[ 1]=8.245746 <==IsSwitchingOccur() T = 24.835000 Tnext = 24.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.840000 pESO->GetIndependentVar(): 24.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.245746, nextPhis[ 0]=-2.217413 prevPhis[ 1]=8.245746, nextPhis[ 1]=8.217413 <==IsSwitchingOccur() T = 24.840000 Tnext = 24.845000 Time: 2.48400e+01 states: [ -2.92493e+00 1.55738e+00] derivs: [ 1.55763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.845000 pESO->GetIndependentVar(): 24.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.217413, nextPhis[ 0]=-2.189004 prevPhis[ 1]=8.217413, nextPhis[ 1]=8.189004 <==IsSwitchingOccur() T = 24.845000 Tnext = 24.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.850000 pESO->GetIndependentVar(): 24.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.189004, nextPhis[ 0]=-2.160520 prevPhis[ 1]=8.189004, nextPhis[ 1]=8.160520 <==IsSwitchingOccur() T = 24.850000 Tnext = 24.855000 Time: 2.48500e+01 states: [ -2.90930e+00 1.56738e+00] derivs: [ 1.56763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.855000 pESO->GetIndependentVar(): 24.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.160520, nextPhis[ 0]=-2.131962 prevPhis[ 1]=8.160520, nextPhis[ 1]=8.131962 <==IsSwitchingOccur() T = 24.855000 Tnext = 24.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.860000 pESO->GetIndependentVar(): 24.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.131962, nextPhis[ 0]=-2.103328 prevPhis[ 1]=8.131962, nextPhis[ 1]=8.103328 <==IsSwitchingOccur() T = 24.860000 Tnext = 24.865000 Time: 2.48600e+01 states: [ -2.89357e+00 1.57738e+00] derivs: [ 1.57763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.865000 pESO->GetIndependentVar(): 24.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.103328, nextPhis[ 0]=-2.074619 prevPhis[ 1]=8.103328, nextPhis[ 1]=8.074619 <==IsSwitchingOccur() T = 24.865000 Tnext = 24.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.870000 pESO->GetIndependentVar(): 24.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.074619, nextPhis[ 0]=-2.045836 prevPhis[ 1]=8.074619, nextPhis[ 1]=8.045836 <==IsSwitchingOccur() T = 24.870000 Tnext = 24.875000 Time: 2.48700e+01 states: [ -2.87774e+00 1.58738e+00] derivs: [ 1.58763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.875000 pESO->GetIndependentVar(): 24.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.045836, nextPhis[ 0]=-2.016977 prevPhis[ 1]=8.045836, nextPhis[ 1]=8.016977 <==IsSwitchingOccur() T = 24.875000 Tnext = 24.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.880000 pESO->GetIndependentVar(): 24.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.016977, nextPhis[ 0]=-1.988044 prevPhis[ 1]=8.016977, nextPhis[ 1]=7.988044 <==IsSwitchingOccur() T = 24.880000 Tnext = 24.885000 Time: 2.48800e+01 states: [ -2.86181e+00 1.59738e+00] derivs: [ 1.59763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.885000 pESO->GetIndependentVar(): 24.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.988044, nextPhis[ 0]=-1.959035 prevPhis[ 1]=7.988044, nextPhis[ 1]=7.959035 <==IsSwitchingOccur() T = 24.885000 Tnext = 24.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.890000 pESO->GetIndependentVar(): 24.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.959035, nextPhis[ 0]=-1.929951 prevPhis[ 1]=7.959035, nextPhis[ 1]=7.929951 <==IsSwitchingOccur() T = 24.890000 Tnext = 24.895000 Time: 2.48900e+01 states: [ -2.84578e+00 1.60738e+00] derivs: [ 1.60763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.895000 pESO->GetIndependentVar(): 24.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.929951, nextPhis[ 0]=-1.900793 prevPhis[ 1]=7.929951, nextPhis[ 1]=7.900793 <==IsSwitchingOccur() T = 24.895000 Tnext = 24.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.900000 pESO->GetIndependentVar(): 24.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.900793, nextPhis[ 0]=-1.871559 prevPhis[ 1]=7.900793, nextPhis[ 1]=7.871559 <==IsSwitchingOccur() T = 24.900000 Tnext = 24.905000 Time: 2.49000e+01 states: [ -2.82965e+00 1.61738e+00] derivs: [ 1.61763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.905000 pESO->GetIndependentVar(): 24.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.871559, nextPhis[ 0]=-1.842251 prevPhis[ 1]=7.871559, nextPhis[ 1]=7.842251 <==IsSwitchingOccur() T = 24.905000 Tnext = 24.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.910000 pESO->GetIndependentVar(): 24.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.842251, nextPhis[ 0]=-1.812867 prevPhis[ 1]=7.842251, nextPhis[ 1]=7.812867 <==IsSwitchingOccur() T = 24.910000 Tnext = 24.915000 Time: 2.49100e+01 states: [ -2.81342e+00 1.62738e+00] derivs: [ 1.62763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.915000 pESO->GetIndependentVar(): 24.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.812867, nextPhis[ 0]=-1.783408 prevPhis[ 1]=7.812867, nextPhis[ 1]=7.783408 <==IsSwitchingOccur() T = 24.915000 Tnext = 24.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.920000 pESO->GetIndependentVar(): 24.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.783408, nextPhis[ 0]=-1.753875 prevPhis[ 1]=7.783408, nextPhis[ 1]=7.753875 <==IsSwitchingOccur() T = 24.920000 Tnext = 24.925000 Time: 2.49200e+01 states: [ -2.79709e+00 1.63738e+00] derivs: [ 1.63763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.925000 pESO->GetIndependentVar(): 24.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.753875, nextPhis[ 0]=-1.724266 prevPhis[ 1]=7.753875, nextPhis[ 1]=7.724266 <==IsSwitchingOccur() T = 24.925000 Tnext = 24.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.930000 pESO->GetIndependentVar(): 24.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.724266, nextPhis[ 0]=-1.694583 prevPhis[ 1]=7.724266, nextPhis[ 1]=7.694583 <==IsSwitchingOccur() T = 24.930000 Tnext = 24.935000 Time: 2.49300e+01 states: [ -2.78066e+00 1.64738e+00] derivs: [ 1.64763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.935000 pESO->GetIndependentVar(): 24.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.694583, nextPhis[ 0]=-1.664824 prevPhis[ 1]=7.694583, nextPhis[ 1]=7.664824 <==IsSwitchingOccur() T = 24.935000 Tnext = 24.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.940000 pESO->GetIndependentVar(): 24.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.664824, nextPhis[ 0]=-1.634990 prevPhis[ 1]=7.664824, nextPhis[ 1]=7.634990 <==IsSwitchingOccur() T = 24.940000 Tnext = 24.945000 Time: 2.49400e+01 states: [ -2.76412e+00 1.65738e+00] derivs: [ 1.65763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.945000 pESO->GetIndependentVar(): 24.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.634990, nextPhis[ 0]=-1.605082 prevPhis[ 1]=7.634990, nextPhis[ 1]=7.605082 <==IsSwitchingOccur() T = 24.945000 Tnext = 24.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.950000 pESO->GetIndependentVar(): 24.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.605082, nextPhis[ 0]=-1.575098 prevPhis[ 1]=7.605082, nextPhis[ 1]=7.575098 <==IsSwitchingOccur() T = 24.950000 Tnext = 24.955000 Time: 2.49500e+01 states: [ -2.74749e+00 1.66738e+00] derivs: [ 1.66763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.955000 pESO->GetIndependentVar(): 24.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.575098, nextPhis[ 0]=-1.545040 prevPhis[ 1]=7.575098, nextPhis[ 1]=7.545040 <==IsSwitchingOccur() T = 24.955000 Tnext = 24.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.960000 pESO->GetIndependentVar(): 24.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.545040, nextPhis[ 0]=-1.514906 prevPhis[ 1]=7.545040, nextPhis[ 1]=7.514906 <==IsSwitchingOccur() T = 24.960000 Tnext = 24.965000 Time: 2.49600e+01 states: [ -2.73076e+00 1.67738e+00] derivs: [ 1.67763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.965000 pESO->GetIndependentVar(): 24.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.514906, nextPhis[ 0]=-1.484697 prevPhis[ 1]=7.514906, nextPhis[ 1]=7.484697 <==IsSwitchingOccur() T = 24.965000 Tnext = 24.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.970000 pESO->GetIndependentVar(): 24.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.484697, nextPhis[ 0]=-1.454414 prevPhis[ 1]=7.484697, nextPhis[ 1]=7.454414 <==IsSwitchingOccur() T = 24.970000 Tnext = 24.975000 Time: 2.49700e+01 states: [ -2.71393e+00 1.68738e+00] derivs: [ 1.68763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.975000 pESO->GetIndependentVar(): 24.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.454414, nextPhis[ 0]=-1.424055 prevPhis[ 1]=7.454414, nextPhis[ 1]=7.424055 <==IsSwitchingOccur() T = 24.975000 Tnext = 24.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.980000 pESO->GetIndependentVar(): 24.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.424055, nextPhis[ 0]=-1.393622 prevPhis[ 1]=7.424055, nextPhis[ 1]=7.393622 <==IsSwitchingOccur() T = 24.980000 Tnext = 24.985000 Time: 2.49800e+01 states: [ -2.69700e+00 1.69738e+00] derivs: [ 1.69763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.985000 pESO->GetIndependentVar(): 24.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.393622, nextPhis[ 0]=-1.363113 prevPhis[ 1]=7.393622, nextPhis[ 1]=7.363113 <==IsSwitchingOccur() T = 24.985000 Tnext = 24.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.990000 pESO->GetIndependentVar(): 24.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.363113, nextPhis[ 0]=-1.332529 prevPhis[ 1]=7.363113, nextPhis[ 1]=7.332529 <==IsSwitchingOccur() T = 24.990000 Tnext = 24.995000 Time: 2.49900e+01 states: [ -2.67997e+00 1.70738e+00] derivs: [ 1.70763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 24.995000 pESO->GetIndependentVar(): 24.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.332529, nextPhis[ 0]=-1.301871 prevPhis[ 1]=7.332529, nextPhis[ 1]=7.301871 <==IsSwitchingOccur() T = 24.995000 Tnext = 25.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.000000 pESO->GetIndependentVar(): 25.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.301871, nextPhis[ 0]=-1.271137 prevPhis[ 1]=7.301871, nextPhis[ 1]=7.271137 <==IsSwitchingOccur() T = 25.000000 Tnext = 25.005000 Time: 2.50000e+01 states: [ -2.66284e+00 1.71738e+00] derivs: [ 1.71763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.005000 pESO->GetIndependentVar(): 25.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.271137, nextPhis[ 0]=-1.240329 prevPhis[ 1]=7.271137, nextPhis[ 1]=7.240329 <==IsSwitchingOccur() T = 25.005000 Tnext = 25.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.010000 pESO->GetIndependentVar(): 25.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.240329, nextPhis[ 0]=-1.209445 prevPhis[ 1]=7.240329, nextPhis[ 1]=7.209445 <==IsSwitchingOccur() T = 25.010000 Tnext = 25.015000 Time: 2.50100e+01 states: [ -2.64561e+00 1.72738e+00] derivs: [ 1.72763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.015000 pESO->GetIndependentVar(): 25.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.209445, nextPhis[ 0]=-1.178486 prevPhis[ 1]=7.209445, nextPhis[ 1]=7.178486 <==IsSwitchingOccur() T = 25.015000 Tnext = 25.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.020000 pESO->GetIndependentVar(): 25.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.178486, nextPhis[ 0]=-1.147453 prevPhis[ 1]=7.178486, nextPhis[ 1]=7.147453 <==IsSwitchingOccur() T = 25.020000 Tnext = 25.025000 Time: 2.50200e+01 states: [ -2.62828e+00 1.73738e+00] derivs: [ 1.73763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.025000 pESO->GetIndependentVar(): 25.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.147453, nextPhis[ 0]=-1.116344 prevPhis[ 1]=7.147453, nextPhis[ 1]=7.116344 <==IsSwitchingOccur() T = 25.025000 Tnext = 25.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.030000 pESO->GetIndependentVar(): 25.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.116344, nextPhis[ 0]=-1.085161 prevPhis[ 1]=7.116344, nextPhis[ 1]=7.085161 <==IsSwitchingOccur() T = 25.030000 Tnext = 25.035000 Time: 2.50300e+01 states: [ -2.61085e+00 1.74738e+00] derivs: [ 1.74763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.035000 pESO->GetIndependentVar(): 25.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.085161, nextPhis[ 0]=-1.053902 prevPhis[ 1]=7.085161, nextPhis[ 1]=7.053902 <==IsSwitchingOccur() T = 25.035000 Tnext = 25.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.040000 pESO->GetIndependentVar(): 25.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.053902, nextPhis[ 0]=-1.022568 prevPhis[ 1]=7.053902, nextPhis[ 1]=7.022568 <==IsSwitchingOccur() T = 25.040000 Tnext = 25.045000 Time: 2.50400e+01 states: [ -2.59332e+00 1.75738e+00] derivs: [ 1.75763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.045000 pESO->GetIndependentVar(): 25.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.022568, nextPhis[ 0]=-0.991160 prevPhis[ 1]=7.022568, nextPhis[ 1]=6.991160 <==IsSwitchingOccur() T = 25.045000 Tnext = 25.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.050000 pESO->GetIndependentVar(): 25.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.991160, nextPhis[ 0]=-0.959676 prevPhis[ 1]=6.991160, nextPhis[ 1]=6.959676 <==IsSwitchingOccur() T = 25.050000 Tnext = 25.055000 Time: 2.50500e+01 states: [ -2.57569e+00 1.76738e+00] derivs: [ 1.76763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.055000 pESO->GetIndependentVar(): 25.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.959676, nextPhis[ 0]=-0.928118 prevPhis[ 1]=6.959676, nextPhis[ 1]=6.928118 <==IsSwitchingOccur() T = 25.055000 Tnext = 25.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.060000 pESO->GetIndependentVar(): 25.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.928118, nextPhis[ 0]=-0.896484 prevPhis[ 1]=6.928118, nextPhis[ 1]=6.896484 <==IsSwitchingOccur() T = 25.060000 Tnext = 25.065000 Time: 2.50600e+01 states: [ -2.55796e+00 1.77738e+00] derivs: [ 1.77763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.065000 pESO->GetIndependentVar(): 25.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.896484, nextPhis[ 0]=-0.864775 prevPhis[ 1]=6.896484, nextPhis[ 1]=6.864775 <==IsSwitchingOccur() T = 25.065000 Tnext = 25.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.070000 pESO->GetIndependentVar(): 25.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.864775, nextPhis[ 0]=-0.832992 prevPhis[ 1]=6.864775, nextPhis[ 1]=6.832992 <==IsSwitchingOccur() T = 25.070000 Tnext = 25.075000 Time: 2.50700e+01 states: [ -2.54012e+00 1.78738e+00] derivs: [ 1.78763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.075000 pESO->GetIndependentVar(): 25.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.832992, nextPhis[ 0]=-0.801133 prevPhis[ 1]=6.832992, nextPhis[ 1]=6.801133 <==IsSwitchingOccur() T = 25.075000 Tnext = 25.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.080000 pESO->GetIndependentVar(): 25.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.801133, nextPhis[ 0]=-0.769200 prevPhis[ 1]=6.801133, nextPhis[ 1]=6.769200 <==IsSwitchingOccur() T = 25.080000 Tnext = 25.085000 Time: 2.50800e+01 states: [ -2.52219e+00 1.79738e+00] derivs: [ 1.79763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.085000 pESO->GetIndependentVar(): 25.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.769200, nextPhis[ 0]=-0.737191 prevPhis[ 1]=6.769200, nextPhis[ 1]=6.737191 <==IsSwitchingOccur() T = 25.085000 Tnext = 25.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.090000 pESO->GetIndependentVar(): 25.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.737191, nextPhis[ 0]=-0.705107 prevPhis[ 1]=6.737191, nextPhis[ 1]=6.705107 <==IsSwitchingOccur() T = 25.090000 Tnext = 25.095000 Time: 2.50900e+01 states: [ -2.50416e+00 1.80738e+00] derivs: [ 1.80763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.095000 pESO->GetIndependentVar(): 25.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.705107, nextPhis[ 0]=-0.672949 prevPhis[ 1]=6.705107, nextPhis[ 1]=6.672949 <==IsSwitchingOccur() T = 25.095000 Tnext = 25.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.100000 pESO->GetIndependentVar(): 25.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.672949, nextPhis[ 0]=-0.640715 prevPhis[ 1]=6.672949, nextPhis[ 1]=6.640715 <==IsSwitchingOccur() T = 25.100000 Tnext = 25.105000 Time: 2.51000e+01 states: [ -2.48603e+00 1.81738e+00] derivs: [ 1.81763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.105000 pESO->GetIndependentVar(): 25.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.640715, nextPhis[ 0]=-0.608407 prevPhis[ 1]=6.640715, nextPhis[ 1]=6.608407 <==IsSwitchingOccur() T = 25.105000 Tnext = 25.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.110000 pESO->GetIndependentVar(): 25.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.608407, nextPhis[ 0]=-0.576023 prevPhis[ 1]=6.608407, nextPhis[ 1]=6.576023 <==IsSwitchingOccur() T = 25.110000 Tnext = 25.115000 Time: 2.51100e+01 states: [ -2.46780e+00 1.82738e+00] derivs: [ 1.82763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.115000 pESO->GetIndependentVar(): 25.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.576023, nextPhis[ 0]=-0.543564 prevPhis[ 1]=6.576023, nextPhis[ 1]=6.543564 <==IsSwitchingOccur() T = 25.115000 Tnext = 25.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.120000 pESO->GetIndependentVar(): 25.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.543564, nextPhis[ 0]=-0.511031 prevPhis[ 1]=6.543564, nextPhis[ 1]=6.511031 <==IsSwitchingOccur() T = 25.120000 Tnext = 25.125000 Time: 2.51200e+01 states: [ -2.44947e+00 1.83738e+00] derivs: [ 1.83763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.125000 pESO->GetIndependentVar(): 25.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.511031, nextPhis[ 0]=-0.478422 prevPhis[ 1]=6.511031, nextPhis[ 1]=6.478422 <==IsSwitchingOccur() T = 25.125000 Tnext = 25.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.130000 pESO->GetIndependentVar(): 25.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.478422, nextPhis[ 0]=-0.445739 prevPhis[ 1]=6.478422, nextPhis[ 1]=6.445739 <==IsSwitchingOccur() T = 25.130000 Tnext = 25.135000 Time: 2.51300e+01 states: [ -2.43104e+00 1.84738e+00] derivs: [ 1.84763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.135000 pESO->GetIndependentVar(): 25.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.445739, nextPhis[ 0]=-0.412980 prevPhis[ 1]=6.445739, nextPhis[ 1]=6.412980 <==IsSwitchingOccur() T = 25.135000 Tnext = 25.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.140000 pESO->GetIndependentVar(): 25.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.412980, nextPhis[ 0]=-0.380146 prevPhis[ 1]=6.412980, nextPhis[ 1]=6.380146 <==IsSwitchingOccur() T = 25.140000 Tnext = 25.145000 Time: 2.51400e+01 states: [ -2.41251e+00 1.85738e+00] derivs: [ 1.85763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.145000 pESO->GetIndependentVar(): 25.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.380146, nextPhis[ 0]=-0.347238 prevPhis[ 1]=6.380146, nextPhis[ 1]=6.347238 <==IsSwitchingOccur() T = 25.145000 Tnext = 25.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.150000 pESO->GetIndependentVar(): 25.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.347238, nextPhis[ 0]=-0.314254 prevPhis[ 1]=6.347238, nextPhis[ 1]=6.314254 <==IsSwitchingOccur() T = 25.150000 Tnext = 25.155000 Time: 2.51500e+01 states: [ -2.39388e+00 1.86738e+00] derivs: [ 1.86763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.155000 pESO->GetIndependentVar(): 25.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.314254, nextPhis[ 0]=-0.281196 prevPhis[ 1]=6.314254, nextPhis[ 1]=6.281196 <==IsSwitchingOccur() T = 25.155000 Tnext = 25.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.160000 pESO->GetIndependentVar(): 25.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.281196, nextPhis[ 0]=-0.248062 prevPhis[ 1]=6.281196, nextPhis[ 1]=6.248062 <==IsSwitchingOccur() T = 25.160000 Tnext = 25.165000 Time: 2.51600e+01 states: [ -2.37515e+00 1.87738e+00] derivs: [ 1.87763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.165000 pESO->GetIndependentVar(): 25.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.248062, nextPhis[ 0]=-0.214853 prevPhis[ 1]=6.248062, nextPhis[ 1]=6.214853 <==IsSwitchingOccur() T = 25.165000 Tnext = 25.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.170000 pESO->GetIndependentVar(): 25.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.214853, nextPhis[ 0]=-0.181570 prevPhis[ 1]=6.214853, nextPhis[ 1]=6.181570 <==IsSwitchingOccur() T = 25.170000 Tnext = 25.175000 Time: 2.51700e+01 states: [ -2.35632e+00 1.88738e+00] derivs: [ 1.88763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.175000 pESO->GetIndependentVar(): 25.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.181570, nextPhis[ 0]=-0.148211 prevPhis[ 1]=6.181570, nextPhis[ 1]=6.148211 <==IsSwitchingOccur() T = 25.175000 Tnext = 25.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.180000 pESO->GetIndependentVar(): 25.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.148211, nextPhis[ 0]=-0.114778 prevPhis[ 1]=6.148211, nextPhis[ 1]=6.114778 <==IsSwitchingOccur() T = 25.180000 Tnext = 25.185000 Time: 2.51800e+01 states: [ -2.33739e+00 1.89738e+00] derivs: [ 1.89763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.185000 pESO->GetIndependentVar(): 25.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.114778, nextPhis[ 0]=-0.081269 prevPhis[ 1]=6.114778, nextPhis[ 1]=6.081269 <==IsSwitchingOccur() T = 25.185000 Tnext = 25.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.190000 pESO->GetIndependentVar(): 25.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.081269, nextPhis[ 0]=-0.047685 prevPhis[ 1]=6.081269, nextPhis[ 1]=6.047685 <==IsSwitchingOccur() T = 25.190000 Tnext = 25.195000 Time: 2.51900e+01 states: [ -2.31836e+00 1.90738e+00] derivs: [ 1.90763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.195000 pESO->GetIndependentVar(): 25.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.047685, nextPhis[ 0]=-0.014027 prevPhis[ 1]=6.047685, nextPhis[ 1]=6.014027 <==IsSwitchingOccur() T = 25.195000 Tnext = 25.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.200000 pESO->GetIndependentVar(): 25.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.014027, nextPhis[ 0]=0.019707 prevPhis[ 1]=6.014027, nextPhis[ 1]=5.980293 <==IsSwitchingOccur() T = 25.200000 Tnext = 25.205000 Time: 2.52000e+01 states: [ -2.29923e+00 1.91738e+00] derivs: [ 1.91763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.205000 pESO->GetIndependentVar(): 25.205000 ==>IsSwitchingOccur() prevPhis[ 0]=0.019707, nextPhis[ 0]=0.053515 prevPhis[ 1]=5.980293, nextPhis[ 1]=5.946485 <==IsSwitchingOccur() T = 25.205000 Tnext = 25.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.210000 pESO->GetIndependentVar(): 25.210000 ==>IsSwitchingOccur() prevPhis[ 0]=0.053515, nextPhis[ 0]=0.087399 prevPhis[ 1]=5.946485, nextPhis[ 1]=5.912601 <==IsSwitchingOccur() T = 25.210000 Tnext = 25.215000 Time: 2.52100e+01 states: [ -2.27999e+00 1.92738e+00] derivs: [ 1.92763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.215000 pESO->GetIndependentVar(): 25.215000 ==>IsSwitchingOccur() prevPhis[ 0]=0.087399, nextPhis[ 0]=0.121358 prevPhis[ 1]=5.912601, nextPhis[ 1]=5.878642 <==IsSwitchingOccur() T = 25.215000 Tnext = 25.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.220000 pESO->GetIndependentVar(): 25.220000 ==>IsSwitchingOccur() prevPhis[ 0]=0.121358, nextPhis[ 0]=0.155391 prevPhis[ 1]=5.878642, nextPhis[ 1]=5.844609 <==IsSwitchingOccur() T = 25.220000 Tnext = 25.225000 Time: 2.52200e+01 states: [ -2.26066e+00 1.93738e+00] derivs: [ 1.93763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.225000 pESO->GetIndependentVar(): 25.225000 ==>IsSwitchingOccur() prevPhis[ 0]=0.155391, nextPhis[ 0]=0.189500 prevPhis[ 1]=5.844609, nextPhis[ 1]=5.810500 <==IsSwitchingOccur() T = 25.225000 Tnext = 25.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.230000 pESO->GetIndependentVar(): 25.230000 ==>IsSwitchingOccur() prevPhis[ 0]=0.189500, nextPhis[ 0]=0.223683 prevPhis[ 1]=5.810500, nextPhis[ 1]=5.776317 <==IsSwitchingOccur() T = 25.230000 Tnext = 25.235000 Time: 2.52300e+01 states: [ -2.24123e+00 1.94738e+00] derivs: [ 1.94763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.235000 pESO->GetIndependentVar(): 25.235000 ==>IsSwitchingOccur() prevPhis[ 0]=0.223683, nextPhis[ 0]=0.257942 prevPhis[ 1]=5.776317, nextPhis[ 1]=5.742058 <==IsSwitchingOccur() T = 25.235000 Tnext = 25.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.240000 pESO->GetIndependentVar(): 25.240000 ==>IsSwitchingOccur() prevPhis[ 0]=0.257942, nextPhis[ 0]=0.292276 prevPhis[ 1]=5.742058, nextPhis[ 1]=5.707724 <==IsSwitchingOccur() T = 25.240000 Tnext = 25.245000 Time: 2.52400e+01 states: [ -2.22170e+00 1.95738e+00] derivs: [ 1.95763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.245000 pESO->GetIndependentVar(): 25.245000 ==>IsSwitchingOccur() prevPhis[ 0]=0.292276, nextPhis[ 0]=0.326684 prevPhis[ 1]=5.707724, nextPhis[ 1]=5.673316 <==IsSwitchingOccur() T = 25.245000 Tnext = 25.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.250000 pESO->GetIndependentVar(): 25.250000 ==>IsSwitchingOccur() prevPhis[ 0]=0.326684, nextPhis[ 0]=0.361168 prevPhis[ 1]=5.673316, nextPhis[ 1]=5.638832 <==IsSwitchingOccur() T = 25.250000 Tnext = 25.255000 Time: 2.52500e+01 states: [ -2.20207e+00 1.96738e+00] derivs: [ 1.96763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.255000 pESO->GetIndependentVar(): 25.255000 ==>IsSwitchingOccur() prevPhis[ 0]=0.361168, nextPhis[ 0]=0.395726 prevPhis[ 1]=5.638832, nextPhis[ 1]=5.604274 <==IsSwitchingOccur() T = 25.255000 Tnext = 25.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.260000 pESO->GetIndependentVar(): 25.260000 ==>IsSwitchingOccur() prevPhis[ 0]=0.395726, nextPhis[ 0]=0.430360 prevPhis[ 1]=5.604274, nextPhis[ 1]=5.569640 <==IsSwitchingOccur() T = 25.260000 Tnext = 25.265000 Time: 2.52600e+01 states: [ -2.18234e+00 1.97738e+00] derivs: [ 1.97763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.265000 pESO->GetIndependentVar(): 25.265000 ==>IsSwitchingOccur() prevPhis[ 0]=0.430360, nextPhis[ 0]=0.465069 prevPhis[ 1]=5.569640, nextPhis[ 1]=5.534931 <==IsSwitchingOccur() T = 25.265000 Tnext = 25.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.270000 pESO->GetIndependentVar(): 25.270000 ==>IsSwitchingOccur() prevPhis[ 0]=0.465069, nextPhis[ 0]=0.499852 prevPhis[ 1]=5.534931, nextPhis[ 1]=5.500148 <==IsSwitchingOccur() T = 25.270000 Tnext = 25.275000 Time: 2.52700e+01 states: [ -2.16251e+00 1.98738e+00] derivs: [ 1.98763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.275000 pESO->GetIndependentVar(): 25.275000 ==>IsSwitchingOccur() prevPhis[ 0]=0.499852, nextPhis[ 0]=0.534711 prevPhis[ 1]=5.500148, nextPhis[ 1]=5.465289 <==IsSwitchingOccur() T = 25.275000 Tnext = 25.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.280000 pESO->GetIndependentVar(): 25.280000 ==>IsSwitchingOccur() prevPhis[ 0]=0.534711, nextPhis[ 0]=0.569644 prevPhis[ 1]=5.465289, nextPhis[ 1]=5.430356 <==IsSwitchingOccur() T = 25.280000 Tnext = 25.285000 Time: 2.52800e+01 states: [ -2.14258e+00 1.99738e+00] derivs: [ 1.99763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.285000 pESO->GetIndependentVar(): 25.285000 ==>IsSwitchingOccur() prevPhis[ 0]=0.569644, nextPhis[ 0]=0.604653 prevPhis[ 1]=5.430356, nextPhis[ 1]=5.395347 <==IsSwitchingOccur() T = 25.285000 Tnext = 25.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.290000 pESO->GetIndependentVar(): 25.290000 ==>IsSwitchingOccur() prevPhis[ 0]=0.604653, nextPhis[ 0]=0.639737 prevPhis[ 1]=5.395347, nextPhis[ 1]=5.360263 <==IsSwitchingOccur() T = 25.290000 Tnext = 25.295000 Time: 2.52900e+01 states: [ -2.12255e+00 2.00738e+00] derivs: [ 2.00763e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.295000 pESO->GetIndependentVar(): 25.295000 ==>IsSwitchingOccur() prevPhis[ 0]=0.639737, nextPhis[ 0]=0.674895 prevPhis[ 1]=5.360263, nextPhis[ 1]=5.325105 <==IsSwitchingOccur() T = 25.295000 Tnext = 25.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.300000 pESO->GetIndependentVar(): 25.300000 ==>IsSwitchingOccur() prevPhis[ 0]=0.674895, nextPhis[ 0]=0.710125 prevPhis[ 1]=5.325105, nextPhis[ 1]=5.289875 <==IsSwitchingOccur() T = 25.300000 Tnext = 25.305000 Time: 2.53000e+01 states: [ -2.10242e+00 2.01738e+00] derivs: [ 2.01762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.305000 pESO->GetIndependentVar(): 25.305000 ==>IsSwitchingOccur() prevPhis[ 0]=0.710125, nextPhis[ 0]=0.745429 prevPhis[ 1]=5.289875, nextPhis[ 1]=5.254571 <==IsSwitchingOccur() T = 25.305000 Tnext = 25.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.310000 pESO->GetIndependentVar(): 25.310000 ==>IsSwitchingOccur() prevPhis[ 0]=0.745429, nextPhis[ 0]=0.780809 prevPhis[ 1]=5.254571, nextPhis[ 1]=5.219191 <==IsSwitchingOccur() T = 25.310000 Tnext = 25.315000 Time: 2.53100e+01 states: [ -2.08219e+00 2.02738e+00] derivs: [ 2.02762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.315000 pESO->GetIndependentVar(): 25.315000 ==>IsSwitchingOccur() prevPhis[ 0]=0.780809, nextPhis[ 0]=0.816263 prevPhis[ 1]=5.219191, nextPhis[ 1]=5.183737 <==IsSwitchingOccur() T = 25.315000 Tnext = 25.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.320000 pESO->GetIndependentVar(): 25.320000 ==>IsSwitchingOccur() prevPhis[ 0]=0.816263, nextPhis[ 0]=0.851793 prevPhis[ 1]=5.183737, nextPhis[ 1]=5.148207 <==IsSwitchingOccur() T = 25.320000 Tnext = 25.325000 Time: 2.53200e+01 states: [ -2.06186e+00 2.03738e+00] derivs: [ 2.03762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.325000 pESO->GetIndependentVar(): 25.325000 ==>IsSwitchingOccur() prevPhis[ 0]=0.851793, nextPhis[ 0]=0.887397 prevPhis[ 1]=5.148207, nextPhis[ 1]=5.112603 <==IsSwitchingOccur() T = 25.325000 Tnext = 25.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.330000 pESO->GetIndependentVar(): 25.330000 ==>IsSwitchingOccur() prevPhis[ 0]=0.887397, nextPhis[ 0]=0.923077 prevPhis[ 1]=5.112603, nextPhis[ 1]=5.076923 <==IsSwitchingOccur() T = 25.330000 Tnext = 25.335000 Time: 2.53300e+01 states: [ -2.04144e+00 2.04738e+00] derivs: [ 2.04762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.335000 pESO->GetIndependentVar(): 25.335000 ==>IsSwitchingOccur() prevPhis[ 0]=0.923077, nextPhis[ 0]=0.958831 prevPhis[ 1]=5.076923, nextPhis[ 1]=5.041169 <==IsSwitchingOccur() T = 25.335000 Tnext = 25.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.340000 pESO->GetIndependentVar(): 25.340000 ==>IsSwitchingOccur() prevPhis[ 0]=0.958831, nextPhis[ 0]=0.994661 prevPhis[ 1]=5.041169, nextPhis[ 1]=5.005339 <==IsSwitchingOccur() T = 25.340000 Tnext = 25.345000 Time: 2.53400e+01 states: [ -2.02091e+00 2.05738e+00] derivs: [ 2.05762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.345000 pESO->GetIndependentVar(): 25.345000 ==>IsSwitchingOccur() prevPhis[ 0]=0.994661, nextPhis[ 0]=1.030566 prevPhis[ 1]=5.005339, nextPhis[ 1]=4.969434 <==IsSwitchingOccur() T = 25.345000 Tnext = 25.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.350000 pESO->GetIndependentVar(): 25.350000 ==>IsSwitchingOccur() prevPhis[ 0]=1.030566, nextPhis[ 0]=1.066545 prevPhis[ 1]=4.969434, nextPhis[ 1]=4.933455 <==IsSwitchingOccur() T = 25.350000 Tnext = 25.355000 Time: 2.53500e+01 states: [ -2.00028e+00 2.06738e+00] derivs: [ 2.06762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.355000 pESO->GetIndependentVar(): 25.355000 ==>IsSwitchingOccur() prevPhis[ 0]=1.066545, nextPhis[ 0]=1.102600 prevPhis[ 1]=4.933455, nextPhis[ 1]=4.897400 <==IsSwitchingOccur() T = 25.355000 Tnext = 25.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.360000 pESO->GetIndependentVar(): 25.360000 ==>IsSwitchingOccur() prevPhis[ 0]=1.102600, nextPhis[ 0]=1.138729 prevPhis[ 1]=4.897400, nextPhis[ 1]=4.861271 <==IsSwitchingOccur() T = 25.360000 Tnext = 25.365000 Time: 2.53600e+01 states: [ -1.97955e+00 2.07738e+00] derivs: [ 2.07762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.365000 pESO->GetIndependentVar(): 25.365000 ==>IsSwitchingOccur() prevPhis[ 0]=1.138729, nextPhis[ 0]=1.174934 prevPhis[ 1]=4.861271, nextPhis[ 1]=4.825066 <==IsSwitchingOccur() T = 25.365000 Tnext = 25.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.370000 pESO->GetIndependentVar(): 25.370000 ==>IsSwitchingOccur() prevPhis[ 0]=1.174934, nextPhis[ 0]=1.211213 prevPhis[ 1]=4.825066, nextPhis[ 1]=4.788787 <==IsSwitchingOccur() T = 25.370000 Tnext = 25.375000 Time: 2.53700e+01 states: [ -1.95872e+00 2.08738e+00] derivs: [ 2.08762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.375000 pESO->GetIndependentVar(): 25.375000 ==>IsSwitchingOccur() prevPhis[ 0]=1.211213, nextPhis[ 0]=1.247568 prevPhis[ 1]=4.788787, nextPhis[ 1]=4.752432 <==IsSwitchingOccur() T = 25.375000 Tnext = 25.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.380000 pESO->GetIndependentVar(): 25.380000 ==>IsSwitchingOccur() prevPhis[ 0]=1.247568, nextPhis[ 0]=1.283997 prevPhis[ 1]=4.752432, nextPhis[ 1]=4.716003 <==IsSwitchingOccur() T = 25.380000 Tnext = 25.385000 Time: 2.53800e+01 states: [ -1.93780e+00 2.09738e+00] derivs: [ 2.09762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.385000 pESO->GetIndependentVar(): 25.385000 ==>IsSwitchingOccur() prevPhis[ 0]=1.283997, nextPhis[ 0]=1.320502 prevPhis[ 1]=4.716003, nextPhis[ 1]=4.679498 <==IsSwitchingOccur() T = 25.385000 Tnext = 25.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.390000 pESO->GetIndependentVar(): 25.390000 ==>IsSwitchingOccur() prevPhis[ 0]=1.320502, nextPhis[ 0]=1.357081 prevPhis[ 1]=4.679498, nextPhis[ 1]=4.642919 <==IsSwitchingOccur() T = 25.390000 Tnext = 25.395000 Time: 2.53900e+01 states: [ -1.91677e+00 2.10738e+00] derivs: [ 2.10762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.395000 pESO->GetIndependentVar(): 25.395000 ==>IsSwitchingOccur() prevPhis[ 0]=1.357081, nextPhis[ 0]=1.393736 prevPhis[ 1]=4.642919, nextPhis[ 1]=4.606264 <==IsSwitchingOccur() T = 25.395000 Tnext = 25.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.400000 pESO->GetIndependentVar(): 25.400000 ==>IsSwitchingOccur() prevPhis[ 0]=1.393736, nextPhis[ 0]=1.430465 prevPhis[ 1]=4.606264, nextPhis[ 1]=4.569535 <==IsSwitchingOccur() T = 25.400000 Tnext = 25.405000 Time: 2.54000e+01 states: [ -1.89564e+00 2.11738e+00] derivs: [ 2.11762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.405000 pESO->GetIndependentVar(): 25.405000 ==>IsSwitchingOccur() prevPhis[ 0]=1.430465, nextPhis[ 0]=1.467270 prevPhis[ 1]=4.569535, nextPhis[ 1]=4.532730 <==IsSwitchingOccur() T = 25.405000 Tnext = 25.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.410000 pESO->GetIndependentVar(): 25.410000 ==>IsSwitchingOccur() prevPhis[ 0]=1.467270, nextPhis[ 0]=1.504149 prevPhis[ 1]=4.532730, nextPhis[ 1]=4.495851 <==IsSwitchingOccur() T = 25.410000 Tnext = 25.415000 Time: 2.54100e+01 states: [ -1.87441e+00 2.12738e+00] derivs: [ 2.12762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.415000 pESO->GetIndependentVar(): 25.415000 ==>IsSwitchingOccur() prevPhis[ 0]=1.504149, nextPhis[ 0]=1.541104 prevPhis[ 1]=4.495851, nextPhis[ 1]=4.458896 <==IsSwitchingOccur() T = 25.415000 Tnext = 25.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.420000 pESO->GetIndependentVar(): 25.420000 ==>IsSwitchingOccur() prevPhis[ 0]=1.541104, nextPhis[ 0]=1.578133 prevPhis[ 1]=4.458896, nextPhis[ 1]=4.421867 <==IsSwitchingOccur() T = 25.420000 Tnext = 25.425000 Time: 2.54200e+01 states: [ -1.85308e+00 2.13738e+00] derivs: [ 2.13762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.425000 pESO->GetIndependentVar(): 25.425000 ==>IsSwitchingOccur() prevPhis[ 0]=1.578133, nextPhis[ 0]=1.615238 prevPhis[ 1]=4.421867, nextPhis[ 1]=4.384762 <==IsSwitchingOccur() T = 25.425000 Tnext = 25.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.430000 pESO->GetIndependentVar(): 25.430000 ==>IsSwitchingOccur() prevPhis[ 0]=1.615238, nextPhis[ 0]=1.652417 prevPhis[ 1]=4.384762, nextPhis[ 1]=4.347583 <==IsSwitchingOccur() T = 25.430000 Tnext = 25.435000 Time: 2.54300e+01 states: [ -1.83166e+00 2.14738e+00] derivs: [ 2.14762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.435000 pESO->GetIndependentVar(): 25.435000 ==>IsSwitchingOccur() prevPhis[ 0]=1.652417, nextPhis[ 0]=1.689672 prevPhis[ 1]=4.347583, nextPhis[ 1]=4.310328 <==IsSwitchingOccur() T = 25.435000 Tnext = 25.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.440000 pESO->GetIndependentVar(): 25.440000 ==>IsSwitchingOccur() prevPhis[ 0]=1.689672, nextPhis[ 0]=1.727001 prevPhis[ 1]=4.310328, nextPhis[ 1]=4.272999 <==IsSwitchingOccur() T = 25.440000 Tnext = 25.445000 Time: 2.54400e+01 states: [ -1.81013e+00 2.15738e+00] derivs: [ 2.15762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.445000 pESO->GetIndependentVar(): 25.445000 ==>IsSwitchingOccur() prevPhis[ 0]=1.727001, nextPhis[ 0]=1.764406 prevPhis[ 1]=4.272999, nextPhis[ 1]=4.235594 <==IsSwitchingOccur() T = 25.445000 Tnext = 25.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.450000 pESO->GetIndependentVar(): 25.450000 ==>IsSwitchingOccur() prevPhis[ 0]=1.764406, nextPhis[ 0]=1.801886 prevPhis[ 1]=4.235594, nextPhis[ 1]=4.198114 <==IsSwitchingOccur() T = 25.450000 Tnext = 25.455000 Time: 2.54500e+01 states: [ -1.78850e+00 2.16738e+00] derivs: [ 2.16762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.455000 pESO->GetIndependentVar(): 25.455000 ==>IsSwitchingOccur() prevPhis[ 0]=1.801886, nextPhis[ 0]=1.839440 prevPhis[ 1]=4.198114, nextPhis[ 1]=4.160560 <==IsSwitchingOccur() T = 25.455000 Tnext = 25.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.460000 pESO->GetIndependentVar(): 25.460000 ==>IsSwitchingOccur() prevPhis[ 0]=1.839440, nextPhis[ 0]=1.877070 prevPhis[ 1]=4.160560, nextPhis[ 1]=4.122930 <==IsSwitchingOccur() T = 25.460000 Tnext = 25.465000 Time: 2.54600e+01 states: [ -1.76677e+00 2.17738e+00] derivs: [ 2.17762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.465000 pESO->GetIndependentVar(): 25.465000 ==>IsSwitchingOccur() prevPhis[ 0]=1.877070, nextPhis[ 0]=1.914774 prevPhis[ 1]=4.122930, nextPhis[ 1]=4.085226 <==IsSwitchingOccur() T = 25.465000 Tnext = 25.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.470000 pESO->GetIndependentVar(): 25.470000 ==>IsSwitchingOccur() prevPhis[ 0]=1.914774, nextPhis[ 0]=1.952554 prevPhis[ 1]=4.085226, nextPhis[ 1]=4.047446 <==IsSwitchingOccur() T = 25.470000 Tnext = 25.475000 Time: 2.54700e+01 states: [ -1.74494e+00 2.18738e+00] derivs: [ 2.18762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.475000 pESO->GetIndependentVar(): 25.475000 ==>IsSwitchingOccur() prevPhis[ 0]=1.952554, nextPhis[ 0]=1.990408 prevPhis[ 1]=4.047446, nextPhis[ 1]=4.009592 <==IsSwitchingOccur() T = 25.475000 Tnext = 25.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.480000 pESO->GetIndependentVar(): 25.480000 ==>IsSwitchingOccur() prevPhis[ 0]=1.990408, nextPhis[ 0]=2.028338 prevPhis[ 1]=4.009592, nextPhis[ 1]=3.971662 <==IsSwitchingOccur() T = 25.480000 Tnext = 25.485000 Time: 2.54800e+01 states: [ -1.72302e+00 2.19738e+00] derivs: [ 2.19762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.485000 pESO->GetIndependentVar(): 25.485000 ==>IsSwitchingOccur() prevPhis[ 0]=2.028338, nextPhis[ 0]=2.066342 prevPhis[ 1]=3.971662, nextPhis[ 1]=3.933658 <==IsSwitchingOccur() T = 25.485000 Tnext = 25.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.490000 pESO->GetIndependentVar(): 25.490000 ==>IsSwitchingOccur() prevPhis[ 0]=2.066342, nextPhis[ 0]=2.104422 prevPhis[ 1]=3.933658, nextPhis[ 1]=3.895578 <==IsSwitchingOccur() T = 25.490000 Tnext = 25.495000 Time: 2.54900e+01 states: [ -1.70099e+00 2.20738e+00] derivs: [ 2.20762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.495000 pESO->GetIndependentVar(): 25.495000 ==>IsSwitchingOccur() prevPhis[ 0]=2.104422, nextPhis[ 0]=2.142576 prevPhis[ 1]=3.895578, nextPhis[ 1]=3.857424 <==IsSwitchingOccur() T = 25.495000 Tnext = 25.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.500000 pESO->GetIndependentVar(): 25.500000 ==>IsSwitchingOccur() prevPhis[ 0]=2.142576, nextPhis[ 0]=2.180806 prevPhis[ 1]=3.857424, nextPhis[ 1]=3.819194 <==IsSwitchingOccur() T = 25.500000 Tnext = 25.505000 Time: 2.55000e+01 states: [ -1.67886e+00 2.21738e+00] derivs: [ 2.21762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.505000 pESO->GetIndependentVar(): 25.505000 ==>IsSwitchingOccur() prevPhis[ 0]=2.180806, nextPhis[ 0]=2.219110 prevPhis[ 1]=3.819194, nextPhis[ 1]=3.780890 <==IsSwitchingOccur() T = 25.505000 Tnext = 25.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.510000 pESO->GetIndependentVar(): 25.510000 ==>IsSwitchingOccur() prevPhis[ 0]=2.219110, nextPhis[ 0]=2.257490 prevPhis[ 1]=3.780890, nextPhis[ 1]=3.742510 <==IsSwitchingOccur() T = 25.510000 Tnext = 25.515000 Time: 2.55100e+01 states: [ -1.65663e+00 2.22738e+00] derivs: [ 2.22762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.515000 pESO->GetIndependentVar(): 25.515000 ==>IsSwitchingOccur() prevPhis[ 0]=2.257490, nextPhis[ 0]=2.295944 prevPhis[ 1]=3.742510, nextPhis[ 1]=3.704056 <==IsSwitchingOccur() T = 25.515000 Tnext = 25.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.520000 pESO->GetIndependentVar(): 25.520000 ==>IsSwitchingOccur() prevPhis[ 0]=2.295944, nextPhis[ 0]=2.334474 prevPhis[ 1]=3.704056, nextPhis[ 1]=3.665526 <==IsSwitchingOccur() T = 25.520000 Tnext = 25.525000 Time: 2.55200e+01 states: [ -1.63430e+00 2.23738e+00] derivs: [ 2.23762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.525000 pESO->GetIndependentVar(): 25.525000 ==>IsSwitchingOccur() prevPhis[ 0]=2.334474, nextPhis[ 0]=2.373078 prevPhis[ 1]=3.665526, nextPhis[ 1]=3.626922 <==IsSwitchingOccur() T = 25.525000 Tnext = 25.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.530000 pESO->GetIndependentVar(): 25.530000 ==>IsSwitchingOccur() prevPhis[ 0]=2.373078, nextPhis[ 0]=2.411758 prevPhis[ 1]=3.626922, nextPhis[ 1]=3.588242 <==IsSwitchingOccur() T = 25.530000 Tnext = 25.535000 Time: 2.55300e+01 states: [ -1.61188e+00 2.24738e+00] derivs: [ 2.24762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.535000 pESO->GetIndependentVar(): 25.535000 ==>IsSwitchingOccur() prevPhis[ 0]=2.411758, nextPhis[ 0]=2.450512 prevPhis[ 1]=3.588242, nextPhis[ 1]=3.549488 <==IsSwitchingOccur() T = 25.535000 Tnext = 25.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.540000 pESO->GetIndependentVar(): 25.540000 ==>IsSwitchingOccur() prevPhis[ 0]=2.450512, nextPhis[ 0]=2.489342 prevPhis[ 1]=3.549488, nextPhis[ 1]=3.510658 <==IsSwitchingOccur() T = 25.540000 Tnext = 25.545000 Time: 2.55400e+01 states: [ -1.58935e+00 2.25738e+00] derivs: [ 2.25762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.545000 pESO->GetIndependentVar(): 25.545000 ==>IsSwitchingOccur() prevPhis[ 0]=2.489342, nextPhis[ 0]=2.528246 prevPhis[ 1]=3.510658, nextPhis[ 1]=3.471754 <==IsSwitchingOccur() T = 25.545000 Tnext = 25.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.550000 pESO->GetIndependentVar(): 25.550000 ==>IsSwitchingOccur() prevPhis[ 0]=2.528246, nextPhis[ 0]=2.567226 prevPhis[ 1]=3.471754, nextPhis[ 1]=3.432774 <==IsSwitchingOccur() T = 25.550000 Tnext = 25.555000 Time: 2.55500e+01 states: [ -1.56672e+00 2.26738e+00] derivs: [ 2.26762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.555000 pESO->GetIndependentVar(): 25.555000 ==>IsSwitchingOccur() prevPhis[ 0]=2.567226, nextPhis[ 0]=2.606280 prevPhis[ 1]=3.432774, nextPhis[ 1]=3.393720 <==IsSwitchingOccur() T = 25.555000 Tnext = 25.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.560000 pESO->GetIndependentVar(): 25.560000 ==>IsSwitchingOccur() prevPhis[ 0]=2.606280, nextPhis[ 0]=2.645410 prevPhis[ 1]=3.393720, nextPhis[ 1]=3.354590 <==IsSwitchingOccur() T = 25.560000 Tnext = 25.565000 Time: 2.55600e+01 states: [ -1.54399e+00 2.27738e+00] derivs: [ 2.27762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.565000 pESO->GetIndependentVar(): 25.565000 ==>IsSwitchingOccur() prevPhis[ 0]=2.645410, nextPhis[ 0]=2.684615 prevPhis[ 1]=3.354590, nextPhis[ 1]=3.315385 <==IsSwitchingOccur() T = 25.565000 Tnext = 25.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.570000 pESO->GetIndependentVar(): 25.570000 ==>IsSwitchingOccur() prevPhis[ 0]=2.684615, nextPhis[ 0]=2.723894 prevPhis[ 1]=3.315385, nextPhis[ 1]=3.276106 <==IsSwitchingOccur() T = 25.570000 Tnext = 25.575000 Time: 2.55700e+01 states: [ -1.52116e+00 2.28738e+00] derivs: [ 2.28762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.575000 pESO->GetIndependentVar(): 25.575000 ==>IsSwitchingOccur() prevPhis[ 0]=2.723894, nextPhis[ 0]=2.763249 prevPhis[ 1]=3.276106, nextPhis[ 1]=3.236751 <==IsSwitchingOccur() T = 25.575000 Tnext = 25.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.580000 pESO->GetIndependentVar(): 25.580000 ==>IsSwitchingOccur() prevPhis[ 0]=2.763249, nextPhis[ 0]=2.802678 prevPhis[ 1]=3.236751, nextPhis[ 1]=3.197322 <==IsSwitchingOccur() T = 25.580000 Tnext = 25.585000 Time: 2.55800e+01 states: [ -1.49823e+00 2.29738e+00] derivs: [ 2.29762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.585000 pESO->GetIndependentVar(): 25.585000 ==>IsSwitchingOccur() prevPhis[ 0]=2.802678, nextPhis[ 0]=2.842183 prevPhis[ 1]=3.197322, nextPhis[ 1]=3.157817 <==IsSwitchingOccur() T = 25.585000 Tnext = 25.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.590000 pESO->GetIndependentVar(): 25.590000 ==>IsSwitchingOccur() prevPhis[ 0]=2.842183, nextPhis[ 0]=2.881762 prevPhis[ 1]=3.157817, nextPhis[ 1]=3.118238 <==IsSwitchingOccur() T = 25.590000 Tnext = 25.595000 Time: 2.55900e+01 states: [ -1.47521e+00 2.30738e+00] derivs: [ 2.30762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.595000 pESO->GetIndependentVar(): 25.595000 ==>IsSwitchingOccur() prevPhis[ 0]=2.881762, nextPhis[ 0]=2.921417 prevPhis[ 1]=3.118238, nextPhis[ 1]=3.078583 <==IsSwitchingOccur() T = 25.595000 Tnext = 25.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.600000 pESO->GetIndependentVar(): 25.600000 ==>IsSwitchingOccur() prevPhis[ 0]=2.921417, nextPhis[ 0]=2.961146 prevPhis[ 1]=3.078583, nextPhis[ 1]=3.038854 <==IsSwitchingOccur() T = 25.600000 Tnext = 25.605000 Time: 2.56000e+01 states: [ -1.45208e+00 2.31738e+00] derivs: [ 2.31762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.605000 pESO->GetIndependentVar(): 25.605000 ==>IsSwitchingOccur() prevPhis[ 0]=2.961146, nextPhis[ 0]=3.000951 prevPhis[ 1]=3.038854, nextPhis[ 1]=2.999049 <==IsSwitchingOccur() T = 25.605000 Tnext = 25.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.610000 pESO->GetIndependentVar(): 25.610000 ==>IsSwitchingOccur() prevPhis[ 0]=3.000951, nextPhis[ 0]=3.040830 prevPhis[ 1]=2.999049, nextPhis[ 1]=2.959170 <==IsSwitchingOccur() T = 25.610000 Tnext = 25.615000 Time: 2.56100e+01 states: [ -1.42885e+00 2.32738e+00] derivs: [ 2.32762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.615000 pESO->GetIndependentVar(): 25.615000 ==>IsSwitchingOccur() prevPhis[ 0]=3.040830, nextPhis[ 0]=3.080785 prevPhis[ 1]=2.959170, nextPhis[ 1]=2.919215 <==IsSwitchingOccur() T = 25.615000 Tnext = 25.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.620000 pESO->GetIndependentVar(): 25.620000 ==>IsSwitchingOccur() prevPhis[ 0]=3.080785, nextPhis[ 0]=3.120814 prevPhis[ 1]=2.919215, nextPhis[ 1]=2.879186 <==IsSwitchingOccur() T = 25.620000 Tnext = 25.625000 Time: 2.56200e+01 states: [ -1.40552e+00 2.33738e+00] derivs: [ 2.33762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.625000 pESO->GetIndependentVar(): 25.625000 ==>IsSwitchingOccur() prevPhis[ 0]=3.120814, nextPhis[ 0]=3.160919 prevPhis[ 1]=2.879186, nextPhis[ 1]=2.839081 <==IsSwitchingOccur() T = 25.625000 Tnext = 25.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.630000 pESO->GetIndependentVar(): 25.630000 ==>IsSwitchingOccur() prevPhis[ 0]=3.160919, nextPhis[ 0]=3.201098 prevPhis[ 1]=2.839081, nextPhis[ 1]=2.798902 <==IsSwitchingOccur() T = 25.630000 Tnext = 25.635000 Time: 2.56300e+01 states: [ -1.38209e+00 2.34738e+00] derivs: [ 2.34762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.635000 pESO->GetIndependentVar(): 25.635000 ==>IsSwitchingOccur() prevPhis[ 0]=3.201098, nextPhis[ 0]=3.241353 prevPhis[ 1]=2.798902, nextPhis[ 1]=2.758647 <==IsSwitchingOccur() T = 25.635000 Tnext = 25.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.640000 pESO->GetIndependentVar(): 25.640000 ==>IsSwitchingOccur() prevPhis[ 0]=3.241353, nextPhis[ 0]=3.281682 prevPhis[ 1]=2.758647, nextPhis[ 1]=2.718318 <==IsSwitchingOccur() T = 25.640000 Tnext = 25.645000 Time: 2.56400e+01 states: [ -1.35857e+00 2.35738e+00] derivs: [ 2.35762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.645000 pESO->GetIndependentVar(): 25.645000 ==>IsSwitchingOccur() prevPhis[ 0]=3.281682, nextPhis[ 0]=3.322087 prevPhis[ 1]=2.718318, nextPhis[ 1]=2.677913 <==IsSwitchingOccur() T = 25.645000 Tnext = 25.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.650000 pESO->GetIndependentVar(): 25.650000 ==>IsSwitchingOccur() prevPhis[ 0]=3.322087, nextPhis[ 0]=3.362566 prevPhis[ 1]=2.677913, nextPhis[ 1]=2.637434 <==IsSwitchingOccur() T = 25.650000 Tnext = 25.655000 Time: 2.56500e+01 states: [ -1.33494e+00 2.36738e+00] derivs: [ 2.36762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.655000 pESO->GetIndependentVar(): 25.655000 ==>IsSwitchingOccur() prevPhis[ 0]=3.362566, nextPhis[ 0]=3.403121 prevPhis[ 1]=2.637434, nextPhis[ 1]=2.596879 <==IsSwitchingOccur() T = 25.655000 Tnext = 25.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.660000 pESO->GetIndependentVar(): 25.660000 ==>IsSwitchingOccur() prevPhis[ 0]=3.403121, nextPhis[ 0]=3.443750 prevPhis[ 1]=2.596879, nextPhis[ 1]=2.556250 <==IsSwitchingOccur() T = 25.660000 Tnext = 25.665000 Time: 2.56600e+01 states: [ -1.31121e+00 2.37738e+00] derivs: [ 2.37762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.665000 pESO->GetIndependentVar(): 25.665000 ==>IsSwitchingOccur() prevPhis[ 0]=3.443750, nextPhis[ 0]=3.484455 prevPhis[ 1]=2.556250, nextPhis[ 1]=2.515545 <==IsSwitchingOccur() T = 25.665000 Tnext = 25.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.670000 pESO->GetIndependentVar(): 25.670000 ==>IsSwitchingOccur() prevPhis[ 0]=3.484455, nextPhis[ 0]=3.525235 prevPhis[ 1]=2.515545, nextPhis[ 1]=2.474765 <==IsSwitchingOccur() T = 25.670000 Tnext = 25.675000 Time: 2.56700e+01 states: [ -1.28738e+00 2.38738e+00] derivs: [ 2.38762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.675000 pESO->GetIndependentVar(): 25.675000 ==>IsSwitchingOccur() prevPhis[ 0]=3.525235, nextPhis[ 0]=3.566089 prevPhis[ 1]=2.474765, nextPhis[ 1]=2.433911 <==IsSwitchingOccur() T = 25.675000 Tnext = 25.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.680000 pESO->GetIndependentVar(): 25.680000 ==>IsSwitchingOccur() prevPhis[ 0]=3.566089, nextPhis[ 0]=3.607019 prevPhis[ 1]=2.433911, nextPhis[ 1]=2.392981 <==IsSwitchingOccur() T = 25.680000 Tnext = 25.685000 Time: 2.56800e+01 states: [ -1.26345e+00 2.39738e+00] derivs: [ 2.39762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.685000 pESO->GetIndependentVar(): 25.685000 ==>IsSwitchingOccur() prevPhis[ 0]=3.607019, nextPhis[ 0]=3.648023 prevPhis[ 1]=2.392981, nextPhis[ 1]=2.351977 <==IsSwitchingOccur() T = 25.685000 Tnext = 25.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.690000 pESO->GetIndependentVar(): 25.690000 ==>IsSwitchingOccur() prevPhis[ 0]=3.648023, nextPhis[ 0]=3.689103 prevPhis[ 1]=2.351977, nextPhis[ 1]=2.310897 <==IsSwitchingOccur() T = 25.690000 Tnext = 25.695000 Time: 2.56900e+01 states: [ -1.23943e+00 2.40738e+00] derivs: [ 2.40762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.695000 pESO->GetIndependentVar(): 25.695000 ==>IsSwitchingOccur() prevPhis[ 0]=3.689103, nextPhis[ 0]=3.730257 prevPhis[ 1]=2.310897, nextPhis[ 1]=2.269743 <==IsSwitchingOccur() T = 25.695000 Tnext = 25.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.700000 pESO->GetIndependentVar(): 25.700000 ==>IsSwitchingOccur() prevPhis[ 0]=3.730257, nextPhis[ 0]=3.771487 prevPhis[ 1]=2.269743, nextPhis[ 1]=2.228513 <==IsSwitchingOccur() T = 25.700000 Tnext = 25.705000 Time: 2.57000e+01 states: [ -1.21530e+00 2.41738e+00] derivs: [ 2.41762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.705000 pESO->GetIndependentVar(): 25.705000 ==>IsSwitchingOccur() prevPhis[ 0]=3.771487, nextPhis[ 0]=3.812791 prevPhis[ 1]=2.228513, nextPhis[ 1]=2.187209 <==IsSwitchingOccur() T = 25.705000 Tnext = 25.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.710000 pESO->GetIndependentVar(): 25.710000 ==>IsSwitchingOccur() prevPhis[ 0]=3.812791, nextPhis[ 0]=3.854171 prevPhis[ 1]=2.187209, nextPhis[ 1]=2.145829 <==IsSwitchingOccur() T = 25.710000 Tnext = 25.715000 Time: 2.57100e+01 states: [ -1.19107e+00 2.42738e+00] derivs: [ 2.42762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.715000 pESO->GetIndependentVar(): 25.715000 ==>IsSwitchingOccur() prevPhis[ 0]=3.854171, nextPhis[ 0]=3.895625 prevPhis[ 1]=2.145829, nextPhis[ 1]=2.104375 <==IsSwitchingOccur() T = 25.715000 Tnext = 25.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.720000 pESO->GetIndependentVar(): 25.720000 ==>IsSwitchingOccur() prevPhis[ 0]=3.895625, nextPhis[ 0]=3.937155 prevPhis[ 1]=2.104375, nextPhis[ 1]=2.062845 <==IsSwitchingOccur() T = 25.720000 Tnext = 25.725000 Time: 2.57200e+01 states: [ -1.16674e+00 2.43738e+00] derivs: [ 2.43762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.725000 pESO->GetIndependentVar(): 25.725000 ==>IsSwitchingOccur() prevPhis[ 0]=3.937155, nextPhis[ 0]=3.978759 prevPhis[ 1]=2.062845, nextPhis[ 1]=2.021241 <==IsSwitchingOccur() T = 25.725000 Tnext = 25.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.730000 pESO->GetIndependentVar(): 25.730000 ==>IsSwitchingOccur() prevPhis[ 0]=3.978759, nextPhis[ 0]=4.020439 prevPhis[ 1]=2.021241, nextPhis[ 1]=1.979561 <==IsSwitchingOccur() T = 25.730000 Tnext = 25.735000 Time: 2.57300e+01 states: [ -1.14231e+00 2.44738e+00] derivs: [ 2.44762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.735000 pESO->GetIndependentVar(): 25.735000 ==>IsSwitchingOccur() prevPhis[ 0]=4.020439, nextPhis[ 0]=4.062193 prevPhis[ 1]=1.979561, nextPhis[ 1]=1.937807 <==IsSwitchingOccur() T = 25.735000 Tnext = 25.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.740000 pESO->GetIndependentVar(): 25.740000 ==>IsSwitchingOccur() prevPhis[ 0]=4.062193, nextPhis[ 0]=4.104023 prevPhis[ 1]=1.937807, nextPhis[ 1]=1.895977 <==IsSwitchingOccur() T = 25.740000 Tnext = 25.745000 Time: 2.57400e+01 states: [ -1.11779e+00 2.45738e+00] derivs: [ 2.45762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.745000 pESO->GetIndependentVar(): 25.745000 ==>IsSwitchingOccur() prevPhis[ 0]=4.104023, nextPhis[ 0]=4.145927 prevPhis[ 1]=1.895977, nextPhis[ 1]=1.854073 <==IsSwitchingOccur() T = 25.745000 Tnext = 25.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.750000 pESO->GetIndependentVar(): 25.750000 ==>IsSwitchingOccur() prevPhis[ 0]=4.145927, nextPhis[ 0]=4.187907 prevPhis[ 1]=1.854073, nextPhis[ 1]=1.812093 <==IsSwitchingOccur() T = 25.750000 Tnext = 25.755000 Time: 2.57500e+01 states: [ -1.09316e+00 2.46738e+00] derivs: [ 2.46762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.755000 pESO->GetIndependentVar(): 25.755000 ==>IsSwitchingOccur() prevPhis[ 0]=4.187907, nextPhis[ 0]=4.229961 prevPhis[ 1]=1.812093, nextPhis[ 1]=1.770039 <==IsSwitchingOccur() T = 25.755000 Tnext = 25.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.760000 pESO->GetIndependentVar(): 25.760000 ==>IsSwitchingOccur() prevPhis[ 0]=4.229961, nextPhis[ 0]=4.272091 prevPhis[ 1]=1.770039, nextPhis[ 1]=1.727909 <==IsSwitchingOccur() T = 25.760000 Tnext = 25.765000 Time: 2.57600e+01 states: [ -1.06843e+00 2.47738e+00] derivs: [ 2.47762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.765000 pESO->GetIndependentVar(): 25.765000 ==>IsSwitchingOccur() prevPhis[ 0]=4.272091, nextPhis[ 0]=4.314295 prevPhis[ 1]=1.727909, nextPhis[ 1]=1.685705 <==IsSwitchingOccur() T = 25.765000 Tnext = 25.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.770000 pESO->GetIndependentVar(): 25.770000 ==>IsSwitchingOccur() prevPhis[ 0]=4.314295, nextPhis[ 0]=4.356575 prevPhis[ 1]=1.685705, nextPhis[ 1]=1.643425 <==IsSwitchingOccur() T = 25.770000 Tnext = 25.775000 Time: 2.57700e+01 states: [ -1.04360e+00 2.48738e+00] derivs: [ 2.48762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.775000 pESO->GetIndependentVar(): 25.775000 ==>IsSwitchingOccur() prevPhis[ 0]=4.356575, nextPhis[ 0]=4.398929 prevPhis[ 1]=1.643425, nextPhis[ 1]=1.601071 <==IsSwitchingOccur() T = 25.775000 Tnext = 25.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.780000 pESO->GetIndependentVar(): 25.780000 ==>IsSwitchingOccur() prevPhis[ 0]=4.398929, nextPhis[ 0]=4.441359 prevPhis[ 1]=1.601071, nextPhis[ 1]=1.558641 <==IsSwitchingOccur() T = 25.780000 Tnext = 25.785000 Time: 2.57800e+01 states: [ -1.01867e+00 2.49738e+00] derivs: [ 2.49762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.785000 pESO->GetIndependentVar(): 25.785000 ==>IsSwitchingOccur() prevPhis[ 0]=4.441359, nextPhis[ 0]=4.483864 prevPhis[ 1]=1.558641, nextPhis[ 1]=1.516136 <==IsSwitchingOccur() T = 25.785000 Tnext = 25.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.790000 pESO->GetIndependentVar(): 25.790000 ==>IsSwitchingOccur() prevPhis[ 0]=4.483864, nextPhis[ 0]=4.526443 prevPhis[ 1]=1.516136, nextPhis[ 1]=1.473557 <==IsSwitchingOccur() T = 25.790000 Tnext = 25.795000 Time: 2.57900e+01 states: [ -9.93647e-01 2.50738e+00] derivs: [ 2.50762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.795000 pESO->GetIndependentVar(): 25.795000 ==>IsSwitchingOccur() prevPhis[ 0]=4.526443, nextPhis[ 0]=4.569098 prevPhis[ 1]=1.473557, nextPhis[ 1]=1.430902 <==IsSwitchingOccur() T = 25.795000 Tnext = 25.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.800000 pESO->GetIndependentVar(): 25.800000 ==>IsSwitchingOccur() prevPhis[ 0]=4.569098, nextPhis[ 0]=4.611827 prevPhis[ 1]=1.430902, nextPhis[ 1]=1.388173 <==IsSwitchingOccur() T = 25.800000 Tnext = 25.805000 Time: 2.58000e+01 states: [ -9.68519e-01 2.51738e+00] derivs: [ 2.51762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.805000 pESO->GetIndependentVar(): 25.805000 ==>IsSwitchingOccur() prevPhis[ 0]=4.611827, nextPhis[ 0]=4.654632 prevPhis[ 1]=1.388173, nextPhis[ 1]=1.345368 <==IsSwitchingOccur() T = 25.805000 Tnext = 25.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.810000 pESO->GetIndependentVar(): 25.810000 ==>IsSwitchingOccur() prevPhis[ 0]=4.654632, nextPhis[ 0]=4.697511 prevPhis[ 1]=1.345368, nextPhis[ 1]=1.302489 <==IsSwitchingOccur() T = 25.810000 Tnext = 25.815000 Time: 2.58100e+01 states: [ -9.43291e-01 2.52738e+00] derivs: [ 2.52762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.815000 pESO->GetIndependentVar(): 25.815000 ==>IsSwitchingOccur() prevPhis[ 0]=4.697511, nextPhis[ 0]=4.740466 prevPhis[ 1]=1.302489, nextPhis[ 1]=1.259534 <==IsSwitchingOccur() T = 25.815000 Tnext = 25.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.820000 pESO->GetIndependentVar(): 25.820000 ==>IsSwitchingOccur() prevPhis[ 0]=4.740466, nextPhis[ 0]=4.783495 prevPhis[ 1]=1.259534, nextPhis[ 1]=1.216505 <==IsSwitchingOccur() T = 25.820000 Tnext = 25.825000 Time: 2.58200e+01 states: [ -9.17963e-01 2.53738e+00] derivs: [ 2.53762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.825000 pESO->GetIndependentVar(): 25.825000 ==>IsSwitchingOccur() prevPhis[ 0]=4.783495, nextPhis[ 0]=4.826600 prevPhis[ 1]=1.216505, nextPhis[ 1]=1.173400 <==IsSwitchingOccur() T = 25.825000 Tnext = 25.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.830000 pESO->GetIndependentVar(): 25.830000 ==>IsSwitchingOccur() prevPhis[ 0]=4.826600, nextPhis[ 0]=4.869779 prevPhis[ 1]=1.173400, nextPhis[ 1]=1.130221 <==IsSwitchingOccur() T = 25.830000 Tnext = 25.835000 Time: 2.58300e+01 states: [ -8.92535e-01 2.54738e+00] derivs: [ 2.54762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.835000 pESO->GetIndependentVar(): 25.835000 ==>IsSwitchingOccur() prevPhis[ 0]=4.869779, nextPhis[ 0]=4.913034 prevPhis[ 1]=1.130221, nextPhis[ 1]=1.086966 <==IsSwitchingOccur() T = 25.835000 Tnext = 25.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.840000 pESO->GetIndependentVar(): 25.840000 ==>IsSwitchingOccur() prevPhis[ 0]=4.913034, nextPhis[ 0]=4.956363 prevPhis[ 1]=1.086966, nextPhis[ 1]=1.043637 <==IsSwitchingOccur() T = 25.840000 Tnext = 25.845000 Time: 2.58400e+01 states: [ -8.67007e-01 2.55738e+00] derivs: [ 2.55762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.845000 pESO->GetIndependentVar(): 25.845000 ==>IsSwitchingOccur() prevPhis[ 0]=4.956363, nextPhis[ 0]=4.999768 prevPhis[ 1]=1.043637, nextPhis[ 1]=1.000232 <==IsSwitchingOccur() T = 25.845000 Tnext = 25.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.850000 pESO->GetIndependentVar(): 25.850000 ==>IsSwitchingOccur() prevPhis[ 0]=4.999768, nextPhis[ 0]=5.043247 prevPhis[ 1]=1.000232, nextPhis[ 1]=0.956753 <==IsSwitchingOccur() T = 25.850000 Tnext = 25.855000 Time: 2.58500e+01 states: [ -8.41379e-01 2.56738e+00] derivs: [ 2.56762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.855000 pESO->GetIndependentVar(): 25.855000 ==>IsSwitchingOccur() prevPhis[ 0]=5.043247, nextPhis[ 0]=5.086802 prevPhis[ 1]=0.956753, nextPhis[ 1]=0.913198 <==IsSwitchingOccur() T = 25.855000 Tnext = 25.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.860000 pESO->GetIndependentVar(): 25.860000 ==>IsSwitchingOccur() prevPhis[ 0]=5.086802, nextPhis[ 0]=5.130431 prevPhis[ 1]=0.913198, nextPhis[ 1]=0.869569 <==IsSwitchingOccur() T = 25.860000 Tnext = 25.865000 Time: 2.58600e+01 states: [ -8.15651e-01 2.57738e+00] derivs: [ 2.57762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.865000 pESO->GetIndependentVar(): 25.865000 ==>IsSwitchingOccur() prevPhis[ 0]=5.130431, nextPhis[ 0]=5.174136 prevPhis[ 1]=0.869569, nextPhis[ 1]=0.825864 <==IsSwitchingOccur() T = 25.865000 Tnext = 25.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.870000 pESO->GetIndependentVar(): 25.870000 ==>IsSwitchingOccur() prevPhis[ 0]=5.174136, nextPhis[ 0]=5.217915 prevPhis[ 1]=0.825864, nextPhis[ 1]=0.782085 <==IsSwitchingOccur() T = 25.870000 Tnext = 25.875000 Time: 2.58700e+01 states: [ -7.89823e-01 2.58738e+00] derivs: [ 2.58762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.875000 pESO->GetIndependentVar(): 25.875000 ==>IsSwitchingOccur() prevPhis[ 0]=5.217915, nextPhis[ 0]=5.261770 prevPhis[ 1]=0.782085, nextPhis[ 1]=0.738230 <==IsSwitchingOccur() T = 25.875000 Tnext = 25.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.880000 pESO->GetIndependentVar(): 25.880000 ==>IsSwitchingOccur() prevPhis[ 0]=5.261770, nextPhis[ 0]=5.305699 prevPhis[ 1]=0.738230, nextPhis[ 1]=0.694301 <==IsSwitchingOccur() T = 25.880000 Tnext = 25.885000 Time: 2.58800e+01 states: [ -7.63895e-01 2.59738e+00] derivs: [ 2.59762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.885000 pESO->GetIndependentVar(): 25.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.305699, nextPhis[ 0]=5.349704 prevPhis[ 1]=0.694301, nextPhis[ 1]=0.650296 <==IsSwitchingOccur() T = 25.885000 Tnext = 25.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.890000 pESO->GetIndependentVar(): 25.890000 ==>IsSwitchingOccur() prevPhis[ 0]=5.349704, nextPhis[ 0]=5.393784 prevPhis[ 1]=0.650296, nextPhis[ 1]=0.606216 <==IsSwitchingOccur() T = 25.890000 Tnext = 25.895000 Time: 2.58900e+01 states: [ -7.37866e-01 2.60738e+00] derivs: [ 2.60762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.895000 pESO->GetIndependentVar(): 25.895000 ==>IsSwitchingOccur() prevPhis[ 0]=5.393784, nextPhis[ 0]=5.437938 prevPhis[ 1]=0.606216, nextPhis[ 1]=0.562062 <==IsSwitchingOccur() T = 25.895000 Tnext = 25.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.900000 pESO->GetIndependentVar(): 25.900000 ==>IsSwitchingOccur() prevPhis[ 0]=5.437938, nextPhis[ 0]=5.482168 prevPhis[ 1]=0.562062, nextPhis[ 1]=0.517832 <==IsSwitchingOccur() T = 25.900000 Tnext = 25.905000 Time: 2.59000e+01 states: [ -7.11738e-01 2.61738e+00] derivs: [ 2.61762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.905000 pESO->GetIndependentVar(): 25.905000 ==>IsSwitchingOccur() prevPhis[ 0]=5.482168, nextPhis[ 0]=5.526472 prevPhis[ 1]=0.517832, nextPhis[ 1]=0.473528 <==IsSwitchingOccur() T = 25.905000 Tnext = 25.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.910000 pESO->GetIndependentVar(): 25.910000 ==>IsSwitchingOccur() prevPhis[ 0]=5.526472, nextPhis[ 0]=5.570852 prevPhis[ 1]=0.473528, nextPhis[ 1]=0.429148 <==IsSwitchingOccur() T = 25.910000 Tnext = 25.915000 Time: 2.59100e+01 states: [ -6.85510e-01 2.62738e+00] derivs: [ 2.62762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.915000 pESO->GetIndependentVar(): 25.915000 ==>IsSwitchingOccur() prevPhis[ 0]=5.570852, nextPhis[ 0]=5.615306 prevPhis[ 1]=0.429148, nextPhis[ 1]=0.384694 <==IsSwitchingOccur() T = 25.915000 Tnext = 25.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.920000 pESO->GetIndependentVar(): 25.920000 ==>IsSwitchingOccur() prevPhis[ 0]=5.615306, nextPhis[ 0]=5.659836 prevPhis[ 1]=0.384694, nextPhis[ 1]=0.340164 <==IsSwitchingOccur() T = 25.920000 Tnext = 25.925000 Time: 2.59200e+01 states: [ -6.59182e-01 2.63738e+00] derivs: [ 2.63762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.925000 pESO->GetIndependentVar(): 25.925000 ==>IsSwitchingOccur() prevPhis[ 0]=5.659836, nextPhis[ 0]=5.704440 prevPhis[ 1]=0.340164, nextPhis[ 1]=0.295560 <==IsSwitchingOccur() T = 25.925000 Tnext = 25.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.930000 pESO->GetIndependentVar(): 25.930000 ==>IsSwitchingOccur() prevPhis[ 0]=5.704440, nextPhis[ 0]=5.749120 prevPhis[ 1]=0.295560, nextPhis[ 1]=0.250880 <==IsSwitchingOccur() T = 25.930000 Tnext = 25.935000 Time: 2.59300e+01 states: [ -6.32754e-01 2.64738e+00] derivs: [ 2.64762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.935000 pESO->GetIndependentVar(): 25.935000 ==>IsSwitchingOccur() prevPhis[ 0]=5.749120, nextPhis[ 0]=5.793874 prevPhis[ 1]=0.250880, nextPhis[ 1]=0.206126 <==IsSwitchingOccur() T = 25.935000 Tnext = 25.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.940000 pESO->GetIndependentVar(): 25.940000 ==>IsSwitchingOccur() prevPhis[ 0]=5.793874, nextPhis[ 0]=5.838704 prevPhis[ 1]=0.206126, nextPhis[ 1]=0.161296 <==IsSwitchingOccur() T = 25.940000 Tnext = 25.945000 Time: 2.59400e+01 states: [ -6.06226e-01 2.65738e+00] derivs: [ 2.65762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.945000 pESO->GetIndependentVar(): 25.945000 ==>IsSwitchingOccur() prevPhis[ 0]=5.838704, nextPhis[ 0]=5.883608 prevPhis[ 1]=0.161296, nextPhis[ 1]=0.116392 <==IsSwitchingOccur() T = 25.945000 Tnext = 25.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.950000 pESO->GetIndependentVar(): 25.950000 ==>IsSwitchingOccur() prevPhis[ 0]=5.883608, nextPhis[ 0]=5.928588 prevPhis[ 1]=0.116392, nextPhis[ 1]=0.071412 <==IsSwitchingOccur() T = 25.950000 Tnext = 25.955000 Time: 2.59500e+01 states: [ -5.79598e-01 2.66738e+00] derivs: [ 2.66762e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.955000 pESO->GetIndependentVar(): 25.955000 ==>IsSwitchingOccur() prevPhis[ 0]=5.928588, nextPhis[ 0]=5.973642 prevPhis[ 1]=0.071412, nextPhis[ 1]=0.026358 <==IsSwitchingOccur() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.973642, nextPhis[ 0]=6.018772 prevPhis[ 1]=0.026358, nextPhis[ 1]=-0.018772 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.018772 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.041365 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.030065 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.024418 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.021595 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.020183 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.019477 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.019125 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.566143, 2.672422, -10.465321, -3.619188, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=36.015152 b=-9.017346 dts/dp=[3.993986, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [-0.566143, 2.672422, -10.465321, -3.619188, ] AllSensVars (befor 2-nd IC recalculation):[-0.566143, 2.672422, -10.465216, 4.368784, ] AllSensDers (befor 2-nd IC recalculation):[2.672422, -1.000000, -3.619188, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[-0.566143, 2.672422, -10.465216, 4.368784, ] AllSensDers (after 2-nd IC recalculation):[2.672422, -1.000000, 4.368784, -0.000000, ] <==RecalculateSensIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.973995, nextPhis[ 0]=6.009037 prevPhis[ 1]=0.026005, nextPhis[ 1]=-0.009037 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.009037 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.026530 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.017786 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.013413 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.011225 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.010131 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.009584 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.009311 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.566038, 2.672383, -10.465045, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.026351 b=-7.017070 dts/dp=[3.994025, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974269, nextPhis[ 0]=6.009311 prevPhis[ 1]=0.025731, nextPhis[ 1]=-0.009311 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.009311 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.026803 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.018060 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.013686 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.011499 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.010405 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.009858 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.009584 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565934, 2.672344, -10.464874, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.025839 b=-7.016952 dts/dp=[3.994019, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974543, nextPhis[ 0]=6.009584 prevPhis[ 1]=0.025457, nextPhis[ 1]=-0.009584 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.009584 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.027077 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.018333 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.013960 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.011772 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.010678 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.010131 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.009858 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565829, 2.672305, -10.464704, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.025327 b=-7.016835 dts/dp=[3.994012, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974817, nextPhis[ 0]=6.009858 prevPhis[ 1]=0.025183, nextPhis[ 1]=-0.009858 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.009858 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.027350 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.018607 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.014233 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.012046 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.010952 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.010405 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.010131 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565725, 2.672266, -10.464533, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.024815 b=-7.016718 dts/dp=[3.994006, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975091, nextPhis[ 0]=6.010131 prevPhis[ 1]=0.024909, nextPhis[ 1]=-0.010131 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.010131 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.027623 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.018880 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.014506 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.012319 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.011225 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.010678 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.010405 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565621, 2.672227, -10.464362, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.024303 b=-7.016601 dts/dp=[3.994000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975365, nextPhis[ 0]=6.010405 prevPhis[ 1]=0.024635, nextPhis[ 1]=-0.010405 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.010405 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.027896 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.019153 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.014780 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.012592 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.011499 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.010952 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.010678 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565516, 2.672188, -10.464192, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.023791 b=-7.016484 dts/dp=[3.993994, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975639, nextPhis[ 0]=6.010678 prevPhis[ 1]=0.024361, nextPhis[ 1]=-0.010678 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.010678 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.028169 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.019427 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.015053 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.012866 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.011772 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.011225 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.010952 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565412, 2.672149, -10.464021, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.023279 b=-7.016366 dts/dp=[3.993987, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975913, nextPhis[ 0]=6.010952 prevPhis[ 1]=0.024087, nextPhis[ 1]=-0.010952 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.010952 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.028443 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.019700 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.015327 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.013139 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.012046 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.011499 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.011225 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565307, 2.672110, -10.463850, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.022767 b=-7.016249 dts/dp=[3.993981, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976187, nextPhis[ 0]=6.011225 prevPhis[ 1]=0.023813, nextPhis[ 1]=-0.011225 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.011225 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.028716 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.019973 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.015600 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.013413 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.012319 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.011772 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.011499 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565203, 2.672070, -10.463680, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.022255 b=-7.016132 dts/dp=[3.993975, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976461, nextPhis[ 0]=6.011499 prevPhis[ 1]=0.023539, nextPhis[ 1]=-0.011499 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.011499 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.028989 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.020247 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.015873 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.013686 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.012592 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.012046 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.011772 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.565099, 2.672031, -10.463509, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.021743 b=-7.016015 dts/dp=[3.993969, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976735, nextPhis[ 0]=6.011772 prevPhis[ 1]=0.023265, nextPhis[ 1]=-0.011772 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.011772 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.029262 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.020520 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.016147 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.013960 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.012866 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.012319 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.012046 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564994, 2.671992, -10.463338, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.021232 b=-7.015898 dts/dp=[3.993962, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977009, nextPhis[ 0]=6.012046 prevPhis[ 1]=0.022991, nextPhis[ 1]=-0.012046 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.012046 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.029535 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.020793 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.016420 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.014233 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.013139 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.012592 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.012319 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564890, 2.671953, -10.463168, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.020720 b=-7.015781 dts/dp=[3.993956, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977284, nextPhis[ 0]=6.012319 prevPhis[ 1]=0.022716, nextPhis[ 1]=-0.012319 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.012319 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.029809 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.021067 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.016694 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.014507 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.013413 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.012866 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.012592 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564786, 2.671914, -10.462997, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.020208 b=-7.015663 dts/dp=[3.993950, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977558, nextPhis[ 0]=6.012592 prevPhis[ 1]=0.022442, nextPhis[ 1]=-0.012592 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.012592 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.030082 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.021340 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.016967 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.014780 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.013686 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.013139 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.012866 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564681, 2.671875, -10.462827, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.019696 b=-7.015546 dts/dp=[3.993944, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977832, nextPhis[ 0]=6.012866 prevPhis[ 1]=0.022168, nextPhis[ 1]=-0.012866 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.012866 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.030355 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.021613 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.017240 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.015053 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.013960 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.013413 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.013139 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564577, 2.671836, -10.462656, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.019184 b=-7.015429 dts/dp=[3.993937, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978106, nextPhis[ 0]=6.013139 prevPhis[ 1]=0.021894, nextPhis[ 1]=-0.013139 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.013139 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.030628 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.021887 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.017514 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.015327 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.014233 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.013686 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.013413 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564472, 2.671797, -10.462485, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.018672 b=-7.015312 dts/dp=[3.993931, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978380, nextPhis[ 0]=6.013413 prevPhis[ 1]=0.021620, nextPhis[ 1]=-0.013413 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.013413 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.030901 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.022160 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.017787 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.015600 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.014507 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.013960 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.013686 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564368, 2.671758, -10.462315, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.018160 b=-7.015195 dts/dp=[3.993925, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978654, nextPhis[ 0]=6.013686 prevPhis[ 1]=0.021346, nextPhis[ 1]=-0.013686 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.013686 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.031174 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.022433 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.018061 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.015874 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.014780 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.014233 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.013960 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564264, 2.671719, -10.462144, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.017648 b=-7.015077 dts/dp=[3.993919, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978928, nextPhis[ 0]=6.013960 prevPhis[ 1]=0.021072, nextPhis[ 1]=-0.013960 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.013960 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.031448 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.022706 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.018334 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.016147 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.015053 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.014507 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.014233 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564159, 2.671680, -10.461973, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.017136 b=-7.014960 dts/dp=[3.993912, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979202, nextPhis[ 0]=6.014233 prevPhis[ 1]=0.020798, nextPhis[ 1]=-0.014233 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.014233 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.031721 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.022980 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.018607 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.016420 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.015327 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.014780 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.014507 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.564055, 2.671641, -10.461803, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.016624 b=-7.014843 dts/dp=[3.993906, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979476, nextPhis[ 0]=6.014507 prevPhis[ 1]=0.020524, nextPhis[ 1]=-0.014507 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.014507 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.031994 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.023253 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.018881 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.016694 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.015600 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.015053 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.014780 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563951, 2.671602, -10.461632, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.016112 b=-7.014726 dts/dp=[3.993900, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979750, nextPhis[ 0]=6.014780 prevPhis[ 1]=0.020250, nextPhis[ 1]=-0.014780 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.014780 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.032267 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.023526 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.019154 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.016967 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.015874 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.015327 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.015053 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563846, 2.671563, -10.461461, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.015600 b=-7.014609 dts/dp=[3.993893, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980024, nextPhis[ 0]=6.015053 prevPhis[ 1]=0.019976, nextPhis[ 1]=-0.015053 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.015053 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.032540 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.023800 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.019427 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.017241 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.016147 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.015600 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.015327 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563742, 2.671524, -10.461291, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.015088 b=-7.014491 dts/dp=[3.993887, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980298, nextPhis[ 0]=6.015327 prevPhis[ 1]=0.019702, nextPhis[ 1]=-0.015327 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.015327 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.032813 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.024073 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.019701 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.017514 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.016421 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.015874 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.015600 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563638, 2.671485, -10.461120, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.014576 b=-7.014374 dts/dp=[3.993881, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980572, nextPhis[ 0]=6.015600 prevPhis[ 1]=0.019428, nextPhis[ 1]=-0.015600 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.015600 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.033086 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.024346 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.019974 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.017787 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.016694 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.016147 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.015874 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563533, 2.671445, -10.460949, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.014064 b=-7.014257 dts/dp=[3.993875, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980846, nextPhis[ 0]=6.015874 prevPhis[ 1]=0.019154, nextPhis[ 1]=-0.015874 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.015874 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.033359 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.024619 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.020247 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.018061 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.016967 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.016421 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.016147 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563429, 2.671406, -10.460779, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.013552 b=-7.014140 dts/dp=[3.993868, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981120, nextPhis[ 0]=6.016147 prevPhis[ 1]=0.018880, nextPhis[ 1]=-0.016147 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.016147 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.033633 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.024893 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.020521 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.018334 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.017241 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.016694 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.016421 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563325, 2.671367, -10.460608, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.013040 b=-7.014023 dts/dp=[3.993862, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981394, nextPhis[ 0]=6.016421 prevPhis[ 1]=0.018606, nextPhis[ 1]=-0.016421 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.016421 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.033906 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.025166 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.020794 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.018608 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.017514 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.016967 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.016694 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563220, 2.671328, -10.460437, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.012528 b=-7.013906 dts/dp=[3.993856, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981668, nextPhis[ 0]=6.016694 prevPhis[ 1]=0.018332, nextPhis[ 1]=-0.016694 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.016694 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.034179 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.025439 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.021067 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.018881 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.017787 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.017241 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.016967 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563116, 2.671289, -10.460267, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.012016 b=-7.013788 dts/dp=[3.993850, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981942, nextPhis[ 0]=6.016967 prevPhis[ 1]=0.018058, nextPhis[ 1]=-0.016967 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.016967 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.034452 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.025712 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.021341 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.019154 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.018061 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.017514 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.017241 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.563011, 2.671250, -10.460096, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.011504 b=-7.013671 dts/dp=[3.993843, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982216, nextPhis[ 0]=6.017241 prevPhis[ 1]=0.017784, nextPhis[ 1]=-0.017241 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.017241 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.034725 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.025986 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.021614 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.019428 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.018334 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.017787 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.017514 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562907, 2.671211, -10.459925, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.010992 b=-7.013554 dts/dp=[3.993837, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982490, nextPhis[ 0]=6.017514 prevPhis[ 1]=0.017510, nextPhis[ 1]=-0.017514 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.017514 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.034998 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.026259 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.021887 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.019701 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.018608 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.018061 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.017787 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562803, 2.671172, -10.459755, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.010480 b=-7.013437 dts/dp=[3.993831, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982764, nextPhis[ 0]=6.017787 prevPhis[ 1]=0.017236, nextPhis[ 1]=-0.017787 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.017787 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.035271 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.026532 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.022161 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.019974 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.018881 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.018334 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.018061 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562698, 2.671133, -10.459584, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.009968 b=-7.013320 dts/dp=[3.993825, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983038, nextPhis[ 0]=6.018061 prevPhis[ 1]=0.016962, nextPhis[ 1]=-0.018061 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.018061 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.035544 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.026805 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.022434 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.020248 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.019154 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.018608 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.018334 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562594, 2.671094, -10.459413, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.009456 b=-7.013202 dts/dp=[3.993818, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983312, nextPhis[ 0]=6.018334 prevPhis[ 1]=0.016688, nextPhis[ 1]=-0.018334 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.018334 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.035817 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.027079 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.022707 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.020521 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.019428 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.018881 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.018608 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562490, 2.671055, -10.459243, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.008944 b=-7.013085 dts/dp=[3.993812, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983586, nextPhis[ 0]=6.018608 prevPhis[ 1]=0.016414, nextPhis[ 1]=-0.018608 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.018608 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.036090 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.027352 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.022981 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.020794 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.019701 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.019154 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.018881 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562385, 2.671016, -10.459072, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.008432 b=-7.012968 dts/dp=[3.993806, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983859, nextPhis[ 0]=6.018881 prevPhis[ 1]=0.016141, nextPhis[ 1]=-0.018881 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.018881 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.036363 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.027625 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.023254 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.021068 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.019974 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.019428 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.019154 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562281, 2.670977, -10.458901, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.007920 b=-7.012851 dts/dp=[3.993800, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984133, nextPhis[ 0]=6.019154 prevPhis[ 1]=0.015867, nextPhis[ 1]=-0.019154 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.019154 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.036637 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.027898 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.023527 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.021341 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.020248 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.019701 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.019428 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562177, 2.670938, -10.458731, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.007408 b=-7.012734 dts/dp=[3.993793, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984407, nextPhis[ 0]=6.019428 prevPhis[ 1]=0.015593, nextPhis[ 1]=-0.019428 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.019428 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.036910 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.028171 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.023800 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.021614 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.020521 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.019974 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.019701 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.562072, 2.670899, -10.458560, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.006896 b=-7.012616 dts/dp=[3.993787, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984681, nextPhis[ 0]=6.019701 prevPhis[ 1]=0.015319, nextPhis[ 1]=-0.019701 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.019701 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.037183 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.028445 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.024074 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.021888 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.020794 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.020248 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.019974 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561968, 2.670860, -10.458389, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.006384 b=-7.012499 dts/dp=[3.993781, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984955, nextPhis[ 0]=6.019974 prevPhis[ 1]=0.015045, nextPhis[ 1]=-0.019974 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.019974 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.037456 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.028718 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.024347 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.022161 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.021068 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.020521 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.020248 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561864, 2.670820, -10.458219, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.005872 b=-7.012382 dts/dp=[3.993774, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985229, nextPhis[ 0]=6.020248 prevPhis[ 1]=0.014771, nextPhis[ 1]=-0.020248 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.020248 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.037729 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.028991 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.024620 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.022434 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.021341 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.020794 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.020521 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561759, 2.670781, -10.458048, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.005361 b=-7.012265 dts/dp=[3.993768, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985503, nextPhis[ 0]=6.020521 prevPhis[ 1]=0.014497, nextPhis[ 1]=-0.020521 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.020521 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.038002 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.029264 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.024893 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.022707 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.021614 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.021068 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.020794 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561655, 2.670742, -10.457877, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.004849 b=-7.012148 dts/dp=[3.993762, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985777, nextPhis[ 0]=6.020794 prevPhis[ 1]=0.014223, nextPhis[ 1]=-0.020794 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.020794 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.038275 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.029537 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.025167 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.022981 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.021888 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.021341 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.021068 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561551, 2.670703, -10.457707, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.004337 b=-7.012031 dts/dp=[3.993756, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986051, nextPhis[ 0]=6.021068 prevPhis[ 1]=0.013949, nextPhis[ 1]=-0.021068 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.021068 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.038548 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.029811 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.025440 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.023254 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.022161 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.021614 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.021341 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561446, 2.670664, -10.457536, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.003825 b=-7.011913 dts/dp=[3.993749, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986325, nextPhis[ 0]=6.021341 prevPhis[ 1]=0.013675, nextPhis[ 1]=-0.021341 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.021341 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.038821 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.030084 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.025713 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.023527 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.022434 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.021888 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.021614 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561342, 2.670625, -10.457366, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.003313 b=-7.011796 dts/dp=[3.993743, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986599, nextPhis[ 0]=6.021614 prevPhis[ 1]=0.013401, nextPhis[ 1]=-0.021614 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.021614 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.039094 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.030357 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.025986 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.023801 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.022708 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.022161 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.021888 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561238, 2.670586, -10.457195, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.002801 b=-7.011679 dts/dp=[3.993737, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986873, nextPhis[ 0]=6.021888 prevPhis[ 1]=0.013127, nextPhis[ 1]=-0.021888 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.021888 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.039367 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.030630 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.026260 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.024074 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.022981 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.022434 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.022161 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561134, 2.670547, -10.457024, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.002289 b=-7.011562 dts/dp=[3.993731, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987146, nextPhis[ 0]=6.022161 prevPhis[ 1]=0.012854, nextPhis[ 1]=-0.022161 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.022161 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.039640 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.030903 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.026533 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.024347 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.023254 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.022708 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.022434 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.561029, 2.670508, -10.456854, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.001777 b=-7.011445 dts/dp=[3.993724, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987420, nextPhis[ 0]=6.022434 prevPhis[ 1]=0.012580, nextPhis[ 1]=-0.022434 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.022434 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.039913 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.031176 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.026806 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.024620 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.023527 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.022981 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.022708 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560925, 2.670469, -10.456683, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.001265 b=-7.011327 dts/dp=[3.993718, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987694, nextPhis[ 0]=6.022708 prevPhis[ 1]=0.012306, nextPhis[ 1]=-0.022708 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.022708 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.040186 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.031450 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.027079 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.024894 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.023801 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.023254 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.022981 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560821, 2.670430, -10.456512, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.000753 b=-7.011210 dts/dp=[3.993712, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987968, nextPhis[ 0]=6.022981 prevPhis[ 1]=0.012032, nextPhis[ 1]=-0.022981 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.022981 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.040459 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.031723 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.027353 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.025167 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.024074 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.023527 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.023254 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560716, 2.670391, -10.456342, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=28.000241 b=-7.011093 dts/dp=[3.993705, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988242, nextPhis[ 0]=6.023254 prevPhis[ 1]=0.011758, nextPhis[ 1]=-0.023254 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.023254 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.040732 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.031996 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.027626 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.025440 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.024347 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.023801 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.023527 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560612, 2.670352, -10.456171, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.999729 b=-7.010976 dts/dp=[3.993699, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988516, nextPhis[ 0]=6.023527 prevPhis[ 1]=0.011484, nextPhis[ 1]=-0.023527 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.023527 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.041005 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.032269 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.027899 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.025713 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.024620 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.024074 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.023801 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560508, 2.670313, -10.456000, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.999217 b=-7.010859 dts/dp=[3.993693, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988790, nextPhis[ 0]=6.023801 prevPhis[ 1]=0.011210, nextPhis[ 1]=-0.023801 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.023801 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.041278 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.032542 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.028172 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.025987 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.024894 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.024347 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.024074 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560403, 2.670274, -10.455830, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.998705 b=-7.010741 dts/dp=[3.993687, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989064, nextPhis[ 0]=6.024074 prevPhis[ 1]=0.010936, nextPhis[ 1]=-0.024074 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.024074 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.041551 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.032815 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.028445 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.026260 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.025167 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.024620 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.024347 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560299, 2.670235, -10.455659, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.998193 b=-7.010624 dts/dp=[3.993680, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989337, nextPhis[ 0]=6.024347 prevPhis[ 1]=0.010663, nextPhis[ 1]=-0.024347 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.024347 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.041824 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.033088 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.028719 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.026533 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.025440 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.024894 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.024620 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560195, 2.670196, -10.455488, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.997681 b=-7.010507 dts/dp=[3.993674, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989611, nextPhis[ 0]=6.024620 prevPhis[ 1]=0.010389, nextPhis[ 1]=-0.024620 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.024620 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.042097 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.033361 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.028992 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.026806 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.025713 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.025167 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.024894 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.560090, 2.670156, -10.455318, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.997169 b=-7.010390 dts/dp=[3.993668, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989885, nextPhis[ 0]=6.024894 prevPhis[ 1]=0.010115, nextPhis[ 1]=-0.024894 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.024894 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.042370 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.033635 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.029265 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.027080 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.025987 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.025440 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.025167 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559986, 2.670117, -10.455147, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.996657 b=-7.010273 dts/dp=[3.993662, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990159, nextPhis[ 0]=6.025167 prevPhis[ 1]=0.009841, nextPhis[ 1]=-0.025167 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.025167 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.042643 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.033908 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.029538 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.027353 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.026260 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.025713 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.025440 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559882, 2.670078, -10.454976, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.996145 b=-7.010156 dts/dp=[3.993655, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990433, nextPhis[ 0]=6.025440 prevPhis[ 1]=0.009567, nextPhis[ 1]=-0.025440 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.025440 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.042916 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.034181 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.029811 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.027626 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.026533 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.025987 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.025713 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559778, 2.670039, -10.454806, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.995633 b=-7.010038 dts/dp=[3.993649, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990707, nextPhis[ 0]=6.025713 prevPhis[ 1]=0.009293, nextPhis[ 1]=-0.025713 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.025713 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.043189 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.034454 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.030085 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.027899 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.026806 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.026260 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.025987 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559673, 2.670000, -10.454635, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.995121 b=-7.009921 dts/dp=[3.993643, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990980, nextPhis[ 0]=6.025987 prevPhis[ 1]=0.009020, nextPhis[ 1]=-0.025987 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.025987 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.043462 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.034727 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.030358 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.028172 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.027080 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.026533 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.026260 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559569, 2.669961, -10.454464, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.994609 b=-7.009804 dts/dp=[3.993636, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991254, nextPhis[ 0]=6.026260 prevPhis[ 1]=0.008746, nextPhis[ 1]=-0.026260 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.026260 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.043735 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.035000 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.030631 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.028446 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.027353 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.026806 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.026533 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559465, 2.669922, -10.454294, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.994097 b=-7.009687 dts/dp=[3.993630, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991528, nextPhis[ 0]=6.026533 prevPhis[ 1]=0.008472, nextPhis[ 1]=-0.026533 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.026533 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.044007 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.035273 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.030904 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.028719 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.027626 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.027080 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.026806 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559360, 2.669883, -10.454123, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.993585 b=-7.009570 dts/dp=[3.993624, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991802, nextPhis[ 0]=6.026806 prevPhis[ 1]=0.008198, nextPhis[ 1]=-0.026806 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.026806 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.044280 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.035546 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.031177 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.028992 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.027899 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.027353 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.027080 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559256, 2.669844, -10.453952, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.993073 b=-7.009452 dts/dp=[3.993618, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992076, nextPhis[ 0]=6.027080 prevPhis[ 1]=0.007924, nextPhis[ 1]=-0.027080 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.027080 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.044553 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.035819 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.031450 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.029265 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.028172 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.027626 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.027353 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559152, 2.669805, -10.453782, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.992561 b=-7.009335 dts/dp=[3.993611, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992350, nextPhis[ 0]=6.027353 prevPhis[ 1]=0.007650, nextPhis[ 1]=-0.027353 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.027353 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.044826 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.036092 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.031723 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.029538 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.028446 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.027899 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.027626 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.559047, 2.669766, -10.453611, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.992049 b=-7.009218 dts/dp=[3.993605, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992623, nextPhis[ 0]=6.027626 prevPhis[ 1]=0.007377, nextPhis[ 1]=-0.027626 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.027626 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.045099 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.036365 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.031997 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.029812 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.028719 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.028172 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.027899 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558943, 2.669727, -10.453440, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.991537 b=-7.009101 dts/dp=[3.993599, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992897, nextPhis[ 0]=6.027899 prevPhis[ 1]=0.007103, nextPhis[ 1]=-0.027899 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.027899 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.045372 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.036639 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.032270 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.030085 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.028992 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.028446 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.028172 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558839, 2.669688, -10.453270, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.991025 b=-7.008984 dts/dp=[3.993593, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993171, nextPhis[ 0]=6.028172 prevPhis[ 1]=0.006829, nextPhis[ 1]=-0.028172 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.028172 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.045645 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.036912 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.032543 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.030358 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.029265 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.028719 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.028446 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558735, 2.669649, -10.453099, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.990513 b=-7.008867 dts/dp=[3.993586, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993445, nextPhis[ 0]=6.028446 prevPhis[ 1]=0.006555, nextPhis[ 1]=-0.028446 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.028446 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.045918 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.037185 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.032816 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.030631 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.029538 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.028992 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.028719 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558630, 2.669610, -10.452928, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.990001 b=-7.008749 dts/dp=[3.993580, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993719, nextPhis[ 0]=6.028719 prevPhis[ 1]=0.006281, nextPhis[ 1]=-0.028719 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.028719 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.046191 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.037458 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.033089 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.030904 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.029812 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.029265 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.028992 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558526, 2.669571, -10.452758, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.989489 b=-7.008632 dts/dp=[3.993574, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993992, nextPhis[ 0]=6.028992 prevPhis[ 1]=0.006008, nextPhis[ 1]=-0.028992 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.028992 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.046464 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.037731 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.033362 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.031177 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.030085 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.029538 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.029265 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558422, 2.669531, -10.452587, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.988978 b=-7.008515 dts/dp=[3.993567, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994266, nextPhis[ 0]=6.029265 prevPhis[ 1]=0.005734, nextPhis[ 1]=-0.029265 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.029265 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.046737 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.038004 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.033635 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.031451 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.030358 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.029812 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.029538 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558318, 2.669492, -10.452416, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.988466 b=-7.008398 dts/dp=[3.993561, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994540, nextPhis[ 0]=6.029538 prevPhis[ 1]=0.005460, nextPhis[ 1]=-0.029538 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.029538 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.047010 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.038277 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.033908 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.031724 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.030631 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.030085 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.029812 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558213, 2.669453, -10.452246, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.987954 b=-7.008281 dts/dp=[3.993555, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994814, nextPhis[ 0]=6.029812 prevPhis[ 1]=0.005186, nextPhis[ 1]=-0.029812 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.029812 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.047282 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.038550 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.034182 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.031997 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.030904 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.030358 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.030085 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558109, 2.669414, -10.452075, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.987442 b=-7.008163 dts/dp=[3.993549, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995087, nextPhis[ 0]=6.030085 prevPhis[ 1]=0.004913, nextPhis[ 1]=-0.030085 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.030085 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.047555 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.038823 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.034455 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.032270 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.031177 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.030631 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.030358 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.558005, 2.669375, -10.451905, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.986930 b=-7.008046 dts/dp=[3.993542, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995361, nextPhis[ 0]=6.030358 prevPhis[ 1]=0.004639, nextPhis[ 1]=-0.030358 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.030358 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.047828 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.039096 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.034728 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.032543 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.031451 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.030904 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.030631 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557900, 2.669336, -10.451734, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.986418 b=-7.007929 dts/dp=[3.993536, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995635, nextPhis[ 0]=6.030631 prevPhis[ 1]=0.004365, nextPhis[ 1]=-0.030631 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.030631 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.048101 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.039369 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.035001 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.032816 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.031724 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.031177 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.030904 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557796, 2.669297, -10.451563, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.985906 b=-7.007812 dts/dp=[3.993530, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995909, nextPhis[ 0]=6.030904 prevPhis[ 1]=0.004091, nextPhis[ 1]=-0.030904 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.030904 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.048374 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.039642 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.035274 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.033089 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.031997 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.031451 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.031177 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557692, 2.669258, -10.451393, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.985394 b=-7.007695 dts/dp=[3.993524, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996182, nextPhis[ 0]=6.031177 prevPhis[ 1]=0.003818, nextPhis[ 1]=-0.031177 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.031177 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.048647 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.039915 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.035547 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.033362 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.032270 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.031724 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.031451 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557588, 2.669219, -10.451222, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.984882 b=-7.007577 dts/dp=[3.993517, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996456, nextPhis[ 0]=6.031451 prevPhis[ 1]=0.003544, nextPhis[ 1]=-0.031451 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.031451 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.048920 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.040188 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.035820 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.033636 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.032543 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.031997 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.031724 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557483, 2.669180, -10.451051, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.984370 b=-7.007460 dts/dp=[3.993511, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996730, nextPhis[ 0]=6.031724 prevPhis[ 1]=0.003270, nextPhis[ 1]=-0.031724 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.031724 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.049192 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.040461 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.036093 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.033909 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.032816 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.032270 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.031997 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557379, 2.669141, -10.450881, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.983858 b=-7.007343 dts/dp=[3.993505, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997004, nextPhis[ 0]=6.031997 prevPhis[ 1]=0.002996, nextPhis[ 1]=-0.031997 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.031997 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.049465 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.040734 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.036366 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.034182 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.033089 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.032543 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.032270 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557275, 2.669102, -10.450710, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.983346 b=-7.007226 dts/dp=[3.993498, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997277, nextPhis[ 0]=6.032270 prevPhis[ 1]=0.002723, nextPhis[ 1]=-0.032270 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.032270 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.049738 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.041007 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.036639 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.034455 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.033362 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.032816 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.032543 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557171, 2.669063, -10.450539, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.982834 b=-7.007109 dts/dp=[3.993492, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997551, nextPhis[ 0]=6.032543 prevPhis[ 1]=0.002449, nextPhis[ 1]=-0.032543 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.032543 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.050011 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.041280 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.036912 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.034728 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.033636 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.033089 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.032816 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.557066, 2.669024, -10.450369, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.982322 b=-7.006992 dts/dp=[3.993486, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997825, nextPhis[ 0]=6.032816 prevPhis[ 1]=0.002175, nextPhis[ 1]=-0.032816 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.032816 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.050284 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.041553 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.037185 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.035001 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.033909 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.033363 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.033089 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.556962, 2.668985, -10.450198, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.981810 b=-7.006874 dts/dp=[3.993480, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998098, nextPhis[ 0]=6.033089 prevPhis[ 1]=0.001902, nextPhis[ 1]=-0.033089 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.033089 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.050557 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.041826 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.037458 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.035274 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.034182 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.033636 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.033363 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.556858, 2.668946, -10.450027, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.981298 b=-7.006757 dts/dp=[3.993473, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998372, nextPhis[ 0]=6.033363 prevPhis[ 1]=0.001628, nextPhis[ 1]=-0.033363 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.033363 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.050829 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.042099 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.037732 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.035547 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.034455 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.033909 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.033636 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.556754, 2.668906, -10.449857, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.980786 b=-7.006640 dts/dp=[3.993467, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998646, nextPhis[ 0]=6.033636 prevPhis[ 1]=0.001354, nextPhis[ 1]=-0.033636 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.033636 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.051102 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.042372 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.038005 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.035820 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.034728 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.034182 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.033909 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.556649, 2.668867, -10.449686, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.980274 b=-7.006523 dts/dp=[3.993461, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998919, nextPhis[ 0]=6.033909 prevPhis[ 1]=0.001081, nextPhis[ 1]=-0.033909 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.033909 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.051375 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.042645 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.038278 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.036093 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.035001 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.034455 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.034182 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.556545, 2.668828, -10.449515, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.979762 b=-7.006406 dts/dp=[3.993455, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999193, nextPhis[ 0]=6.034182 prevPhis[ 1]=0.000807, nextPhis[ 1]=-0.034182 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.034182 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.051648 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.042918 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.038551 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.036366 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.035274 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.034728 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.034455 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.556441, 2.668789, -10.449345, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.979250 b=-7.006288 dts/dp=[3.993448, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999467, nextPhis[ 0]=6.034455 prevPhis[ 1]=0.000533, nextPhis[ 1]=-0.034455 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.034455 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.051921 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.043191 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.038824 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.036640 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.035547 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.035001 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.034728 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.556337, 2.668750, -10.449174, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.978738 b=-7.006171 dts/dp=[3.993442, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999741, nextPhis[ 0]=6.034728 prevPhis[ 1]=0.000259, nextPhis[ 1]=-0.034728 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 25.960000 Phiest = -0.034728 Phiest < 0.0 it = 1 Test = 25.957500 Phiest = -0.052194 Phiest < 0.0 it = 2 Test = 25.956250 Phiest = -0.043464 Phiest < 0.0 it = 3 Test = 25.955625 Phiest = -0.039097 Phiest < 0.0 it = 4 Test = 25.955312 Phiest = -0.036913 Phiest < 0.0 it = 5 Test = 25.955156 Phiest = -0.035820 Phiest < 0.0 it = 6 Test = 25.955078 Phiest = -0.035274 Phiest < 0.0 it = 7 Test = 25.955039 Phiest = -0.035001 Switch time for phi[1] is 25.955039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.556232, 2.668711, -10.449003, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=27.978226 b=-7.006054 dts/dp=[3.993436, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 25.955000 Tnext = 25.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.960000 pESO->GetIndependentVar(): 25.960000 ==>IsSwitchingOccur() prevPhis[ 0]=6.000014, nextPhis[ 0]=6.035001 prevPhis[ 1]=-0.000014, nextPhis[ 1]=-0.035001 <==IsSwitchingOccur() T = 25.960000 Tnext = 25.965000 Time: 2.59600e+01 states: [ -5.42903e-01 2.66371e+00] derivs: [ 2.66348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.965000 pESO->GetIndependentVar(): 25.965000 ==>IsSwitchingOccur() prevPhis[ 0]=6.035001, nextPhis[ 0]=6.069913 prevPhis[ 1]=-0.035001, nextPhis[ 1]=-0.069913 <==IsSwitchingOccur() T = 25.965000 Tnext = 25.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.970000 pESO->GetIndependentVar(): 25.970000 ==>IsSwitchingOccur() prevPhis[ 0]=6.069913, nextPhis[ 0]=6.104750 prevPhis[ 1]=-0.069913, nextPhis[ 1]=-0.104750 <==IsSwitchingOccur() T = 25.970000 Tnext = 25.975000 Time: 2.59700e+01 states: [ -5.16320e-01 2.65371e+00] derivs: [ 2.65348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.975000 pESO->GetIndependentVar(): 25.975000 ==>IsSwitchingOccur() prevPhis[ 0]=6.104750, nextPhis[ 0]=6.139512 prevPhis[ 1]=-0.104750, nextPhis[ 1]=-0.139512 <==IsSwitchingOccur() T = 25.975000 Tnext = 25.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.980000 pESO->GetIndependentVar(): 25.980000 ==>IsSwitchingOccur() prevPhis[ 0]=6.139512, nextPhis[ 0]=6.174199 prevPhis[ 1]=-0.139512, nextPhis[ 1]=-0.174199 <==IsSwitchingOccur() T = 25.980000 Tnext = 25.985000 Time: 2.59800e+01 states: [ -4.89837e-01 2.64371e+00] derivs: [ 2.64348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.985000 pESO->GetIndependentVar(): 25.985000 ==>IsSwitchingOccur() prevPhis[ 0]=6.174199, nextPhis[ 0]=6.208811 prevPhis[ 1]=-0.174199, nextPhis[ 1]=-0.208811 <==IsSwitchingOccur() T = 25.985000 Tnext = 25.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.990000 pESO->GetIndependentVar(): 25.990000 ==>IsSwitchingOccur() prevPhis[ 0]=6.208811, nextPhis[ 0]=6.243347 prevPhis[ 1]=-0.208811, nextPhis[ 1]=-0.243347 <==IsSwitchingOccur() T = 25.990000 Tnext = 25.995000 Time: 2.59900e+01 states: [ -4.63455e-01 2.63371e+00] derivs: [ 2.63348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 25.995000 pESO->GetIndependentVar(): 25.995000 ==>IsSwitchingOccur() prevPhis[ 0]=6.243347, nextPhis[ 0]=6.277809 prevPhis[ 1]=-0.243347, nextPhis[ 1]=-0.277809 <==IsSwitchingOccur() T = 25.995000 Tnext = 26.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.000000 pESO->GetIndependentVar(): 26.000000 ==>IsSwitchingOccur() prevPhis[ 0]=6.277809, nextPhis[ 0]=6.312196 prevPhis[ 1]=-0.277809, nextPhis[ 1]=-0.312196 <==IsSwitchingOccur() T = 26.000000 Tnext = 26.005000 Time: 2.60000e+01 states: [ -4.37172e-01 2.62371e+00] derivs: [ 2.62348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.005000 pESO->GetIndependentVar(): 26.005000 ==>IsSwitchingOccur() prevPhis[ 0]=6.312196, nextPhis[ 0]=6.346508 prevPhis[ 1]=-0.312196, nextPhis[ 1]=-0.346508 <==IsSwitchingOccur() T = 26.005000 Tnext = 26.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.010000 pESO->GetIndependentVar(): 26.010000 ==>IsSwitchingOccur() prevPhis[ 0]=6.346508, nextPhis[ 0]=6.380745 prevPhis[ 1]=-0.346508, nextPhis[ 1]=-0.380745 <==IsSwitchingOccur() T = 26.010000 Tnext = 26.015000 Time: 2.60100e+01 states: [ -4.10989e-01 2.61371e+00] derivs: [ 2.61348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.015000 pESO->GetIndependentVar(): 26.015000 ==>IsSwitchingOccur() prevPhis[ 0]=6.380745, nextPhis[ 0]=6.414907 prevPhis[ 1]=-0.380745, nextPhis[ 1]=-0.414907 <==IsSwitchingOccur() T = 26.015000 Tnext = 26.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.020000 pESO->GetIndependentVar(): 26.020000 ==>IsSwitchingOccur() prevPhis[ 0]=6.414907, nextPhis[ 0]=6.448994 prevPhis[ 1]=-0.414907, nextPhis[ 1]=-0.448994 <==IsSwitchingOccur() T = 26.020000 Tnext = 26.025000 Time: 2.60200e+01 states: [ -3.84906e-01 2.60371e+00] derivs: [ 2.60348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.025000 pESO->GetIndependentVar(): 26.025000 ==>IsSwitchingOccur() prevPhis[ 0]=6.448994, nextPhis[ 0]=6.483006 prevPhis[ 1]=-0.448994, nextPhis[ 1]=-0.483006 <==IsSwitchingOccur() T = 26.025000 Tnext = 26.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.030000 pESO->GetIndependentVar(): 26.030000 ==>IsSwitchingOccur() prevPhis[ 0]=6.483006, nextPhis[ 0]=6.516943 prevPhis[ 1]=-0.483006, nextPhis[ 1]=-0.516943 <==IsSwitchingOccur() T = 26.030000 Tnext = 26.035000 Time: 2.60300e+01 states: [ -3.58923e-01 2.59371e+00] derivs: [ 2.59348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.035000 pESO->GetIndependentVar(): 26.035000 ==>IsSwitchingOccur() prevPhis[ 0]=6.516943, nextPhis[ 0]=6.550804 prevPhis[ 1]=-0.516943, nextPhis[ 1]=-0.550804 <==IsSwitchingOccur() T = 26.035000 Tnext = 26.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.040000 pESO->GetIndependentVar(): 26.040000 ==>IsSwitchingOccur() prevPhis[ 0]=6.550804, nextPhis[ 0]=6.584591 prevPhis[ 1]=-0.550804, nextPhis[ 1]=-0.584591 <==IsSwitchingOccur() T = 26.040000 Tnext = 26.045000 Time: 2.60400e+01 states: [ -3.33040e-01 2.58371e+00] derivs: [ 2.58348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.045000 pESO->GetIndependentVar(): 26.045000 ==>IsSwitchingOccur() prevPhis[ 0]=6.584591, nextPhis[ 0]=6.618303 prevPhis[ 1]=-0.584591, nextPhis[ 1]=-0.618303 <==IsSwitchingOccur() T = 26.045000 Tnext = 26.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.050000 pESO->GetIndependentVar(): 26.050000 ==>IsSwitchingOccur() prevPhis[ 0]=6.618303, nextPhis[ 0]=6.651940 prevPhis[ 1]=-0.618303, nextPhis[ 1]=-0.651940 <==IsSwitchingOccur() T = 26.050000 Tnext = 26.055000 Time: 2.60500e+01 states: [ -3.07257e-01 2.57371e+00] derivs: [ 2.57348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.055000 pESO->GetIndependentVar(): 26.055000 ==>IsSwitchingOccur() prevPhis[ 0]=6.651940, nextPhis[ 0]=6.685502 prevPhis[ 1]=-0.651940, nextPhis[ 1]=-0.685502 <==IsSwitchingOccur() T = 26.055000 Tnext = 26.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.060000 pESO->GetIndependentVar(): 26.060000 ==>IsSwitchingOccur() prevPhis[ 0]=6.685502, nextPhis[ 0]=6.718989 prevPhis[ 1]=-0.685502, nextPhis[ 1]=-0.718989 <==IsSwitchingOccur() T = 26.060000 Tnext = 26.065000 Time: 2.60600e+01 states: [ -2.81574e-01 2.56371e+00] derivs: [ 2.56348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.065000 pESO->GetIndependentVar(): 26.065000 ==>IsSwitchingOccur() prevPhis[ 0]=6.718989, nextPhis[ 0]=6.752401 prevPhis[ 1]=-0.718989, nextPhis[ 1]=-0.752401 <==IsSwitchingOccur() T = 26.065000 Tnext = 26.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.070000 pESO->GetIndependentVar(): 26.070000 ==>IsSwitchingOccur() prevPhis[ 0]=6.752401, nextPhis[ 0]=6.785738 prevPhis[ 1]=-0.752401, nextPhis[ 1]=-0.785738 <==IsSwitchingOccur() T = 26.070000 Tnext = 26.075000 Time: 2.60700e+01 states: [ -2.55991e-01 2.55371e+00] derivs: [ 2.55348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.075000 pESO->GetIndependentVar(): 26.075000 ==>IsSwitchingOccur() prevPhis[ 0]=6.785738, nextPhis[ 0]=6.819000 prevPhis[ 1]=-0.785738, nextPhis[ 1]=-0.819000 <==IsSwitchingOccur() T = 26.075000 Tnext = 26.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.080000 pESO->GetIndependentVar(): 26.080000 ==>IsSwitchingOccur() prevPhis[ 0]=6.819000, nextPhis[ 0]=6.852186 prevPhis[ 1]=-0.819000, nextPhis[ 1]=-0.852186 <==IsSwitchingOccur() T = 26.080000 Tnext = 26.085000 Time: 2.60800e+01 states: [ -2.30508e-01 2.54371e+00] derivs: [ 2.54348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.085000 pESO->GetIndependentVar(): 26.085000 ==>IsSwitchingOccur() prevPhis[ 0]=6.852186, nextPhis[ 0]=6.885298 prevPhis[ 1]=-0.852186, nextPhis[ 1]=-0.885298 <==IsSwitchingOccur() T = 26.085000 Tnext = 26.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.090000 pESO->GetIndependentVar(): 26.090000 ==>IsSwitchingOccur() prevPhis[ 0]=6.885298, nextPhis[ 0]=6.918335 prevPhis[ 1]=-0.885298, nextPhis[ 1]=-0.918335 <==IsSwitchingOccur() T = 26.090000 Tnext = 26.095000 Time: 2.60900e+01 states: [ -2.05125e-01 2.53371e+00] derivs: [ 2.53348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.095000 pESO->GetIndependentVar(): 26.095000 ==>IsSwitchingOccur() prevPhis[ 0]=6.918335, nextPhis[ 0]=6.951297 prevPhis[ 1]=-0.918335, nextPhis[ 1]=-0.951297 <==IsSwitchingOccur() T = 26.095000 Tnext = 26.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.100000 pESO->GetIndependentVar(): 26.100000 ==>IsSwitchingOccur() prevPhis[ 0]=6.951297, nextPhis[ 0]=6.984184 prevPhis[ 1]=-0.951297, nextPhis[ 1]=-0.984184 <==IsSwitchingOccur() T = 26.100000 Tnext = 26.105000 Time: 2.61000e+01 states: [ -1.79842e-01 2.52371e+00] derivs: [ 2.52348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.105000 pESO->GetIndependentVar(): 26.105000 ==>IsSwitchingOccur() prevPhis[ 0]=6.984184, nextPhis[ 0]=7.016996 prevPhis[ 1]=-0.984184, nextPhis[ 1]=-1.016996 <==IsSwitchingOccur() T = 26.105000 Tnext = 26.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.110000 pESO->GetIndependentVar(): 26.110000 ==>IsSwitchingOccur() prevPhis[ 0]=7.016996, nextPhis[ 0]=7.049733 prevPhis[ 1]=-1.016996, nextPhis[ 1]=-1.049733 <==IsSwitchingOccur() T = 26.110000 Tnext = 26.115000 Time: 2.61100e+01 states: [ -1.54659e-01 2.51371e+00] derivs: [ 2.51348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.115000 pESO->GetIndependentVar(): 26.115000 ==>IsSwitchingOccur() prevPhis[ 0]=7.049733, nextPhis[ 0]=7.082395 prevPhis[ 1]=-1.049733, nextPhis[ 1]=-1.082395 <==IsSwitchingOccur() T = 26.115000 Tnext = 26.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.120000 pESO->GetIndependentVar(): 26.120000 ==>IsSwitchingOccur() prevPhis[ 0]=7.082395, nextPhis[ 0]=7.114982 prevPhis[ 1]=-1.082395, nextPhis[ 1]=-1.114982 <==IsSwitchingOccur() T = 26.120000 Tnext = 26.125000 Time: 2.61200e+01 states: [ -1.29577e-01 2.50371e+00] derivs: [ 2.50348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.125000 pESO->GetIndependentVar(): 26.125000 ==>IsSwitchingOccur() prevPhis[ 0]=7.114982, nextPhis[ 0]=7.147493 prevPhis[ 1]=-1.114982, nextPhis[ 1]=-1.147493 <==IsSwitchingOccur() T = 26.125000 Tnext = 26.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.130000 pESO->GetIndependentVar(): 26.130000 ==>IsSwitchingOccur() prevPhis[ 0]=7.147493, nextPhis[ 0]=7.179930 prevPhis[ 1]=-1.147493, nextPhis[ 1]=-1.179930 <==IsSwitchingOccur() T = 26.130000 Tnext = 26.135000 Time: 2.61300e+01 states: [ -1.04594e-01 2.49371e+00] derivs: [ 2.49348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.135000 pESO->GetIndependentVar(): 26.135000 ==>IsSwitchingOccur() prevPhis[ 0]=7.179930, nextPhis[ 0]=7.212292 prevPhis[ 1]=-1.179930, nextPhis[ 1]=-1.212292 <==IsSwitchingOccur() T = 26.135000 Tnext = 26.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.140000 pESO->GetIndependentVar(): 26.140000 ==>IsSwitchingOccur() prevPhis[ 0]=7.212292, nextPhis[ 0]=7.244579 prevPhis[ 1]=-1.212292, nextPhis[ 1]=-1.244579 <==IsSwitchingOccur() T = 26.140000 Tnext = 26.145000 Time: 2.61400e+01 states: [ -7.97107e-02 2.48371e+00] derivs: [ 2.48348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.145000 pESO->GetIndependentVar(): 26.145000 ==>IsSwitchingOccur() prevPhis[ 0]=7.244579, nextPhis[ 0]=7.276791 prevPhis[ 1]=-1.244579, nextPhis[ 1]=-1.276791 <==IsSwitchingOccur() T = 26.145000 Tnext = 26.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.150000 pESO->GetIndependentVar(): 26.150000 ==>IsSwitchingOccur() prevPhis[ 0]=7.276791, nextPhis[ 0]=7.308928 prevPhis[ 1]=-1.276791, nextPhis[ 1]=-1.308928 <==IsSwitchingOccur() T = 26.150000 Tnext = 26.155000 Time: 2.61500e+01 states: [ -5.49278e-02 2.47371e+00] derivs: [ 2.47348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.155000 pESO->GetIndependentVar(): 26.155000 ==>IsSwitchingOccur() prevPhis[ 0]=7.308928, nextPhis[ 0]=7.340990 prevPhis[ 1]=-1.308928, nextPhis[ 1]=-1.340990 <==IsSwitchingOccur() T = 26.155000 Tnext = 26.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.160000 pESO->GetIndependentVar(): 26.160000 ==>IsSwitchingOccur() prevPhis[ 0]=7.340990, nextPhis[ 0]=7.372977 prevPhis[ 1]=-1.340990, nextPhis[ 1]=-1.372977 <==IsSwitchingOccur() T = 26.160000 Tnext = 26.165000 Time: 2.61600e+01 states: [ -3.02448e-02 2.46371e+00] derivs: [ 2.46348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.165000 pESO->GetIndependentVar(): 26.165000 ==>IsSwitchingOccur() prevPhis[ 0]=7.372977, nextPhis[ 0]=7.404888 prevPhis[ 1]=-1.372977, nextPhis[ 1]=-1.404888 <==IsSwitchingOccur() T = 26.165000 Tnext = 26.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.170000 pESO->GetIndependentVar(): 26.170000 ==>IsSwitchingOccur() prevPhis[ 0]=7.404888, nextPhis[ 0]=7.436725 prevPhis[ 1]=-1.404888, nextPhis[ 1]=-1.436725 <==IsSwitchingOccur() T = 26.170000 Tnext = 26.175000 Time: 2.61700e+01 states: [ -5.66207e-03 2.45371e+00] derivs: [ 2.45321e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.175000 pESO->GetIndependentVar(): 26.175000 ==>IsSwitchingOccur() prevPhis[ 0]=7.436725, nextPhis[ 0]=7.468487 prevPhis[ 1]=-1.436725, nextPhis[ 1]=-1.468487 <==IsSwitchingOccur() T = 26.175000 Tnext = 26.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.180000 pESO->GetIndependentVar(): 26.180000 ==>IsSwitchingOccur() prevPhis[ 0]=7.468487, nextPhis[ 0]=7.500173 prevPhis[ 1]=-1.468487, nextPhis[ 1]=-1.500173 <==IsSwitchingOccur() T = 26.180000 Tnext = 26.185000 Time: 2.61800e+01 states: [ 1.88207e-02 2.44371e+00] derivs: [ 2.44321e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.185000 pESO->GetIndependentVar(): 26.185000 ==>IsSwitchingOccur() prevPhis[ 0]=7.500173, nextPhis[ 0]=7.531785 prevPhis[ 1]=-1.500173, nextPhis[ 1]=-1.531785 <==IsSwitchingOccur() T = 26.185000 Tnext = 26.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.190000 pESO->GetIndependentVar(): 26.190000 ==>IsSwitchingOccur() prevPhis[ 0]=7.531785, nextPhis[ 0]=7.563322 prevPhis[ 1]=-1.531785, nextPhis[ 1]=-1.563322 <==IsSwitchingOccur() T = 26.190000 Tnext = 26.195000 Time: 2.61900e+01 states: [ 4.32035e-02 2.43371e+00] derivs: [ 2.43321e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.195000 pESO->GetIndependentVar(): 26.195000 ==>IsSwitchingOccur() prevPhis[ 0]=7.563322, nextPhis[ 0]=7.594783 prevPhis[ 1]=-1.563322, nextPhis[ 1]=-1.594783 <==IsSwitchingOccur() T = 26.195000 Tnext = 26.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.200000 pESO->GetIndependentVar(): 26.200000 ==>IsSwitchingOccur() prevPhis[ 0]=7.594783, nextPhis[ 0]=7.626170 prevPhis[ 1]=-1.594783, nextPhis[ 1]=-1.626170 <==IsSwitchingOccur() T = 26.200000 Tnext = 26.205000 Time: 2.62000e+01 states: [ 6.74864e-02 2.42371e+00] derivs: [ 2.42348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.205000 pESO->GetIndependentVar(): 26.205000 ==>IsSwitchingOccur() prevPhis[ 0]=7.626170, nextPhis[ 0]=7.657482 prevPhis[ 1]=-1.626170, nextPhis[ 1]=-1.657482 <==IsSwitchingOccur() T = 26.205000 Tnext = 26.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.210000 pESO->GetIndependentVar(): 26.210000 ==>IsSwitchingOccur() prevPhis[ 0]=7.657482, nextPhis[ 0]=7.688719 prevPhis[ 1]=-1.657482, nextPhis[ 1]=-1.688719 <==IsSwitchingOccur() T = 26.210000 Tnext = 26.215000 Time: 2.62100e+01 states: [ 9.16693e-02 2.41371e+00] derivs: [ 2.41348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.215000 pESO->GetIndependentVar(): 26.215000 ==>IsSwitchingOccur() prevPhis[ 0]=7.688719, nextPhis[ 0]=7.719881 prevPhis[ 1]=-1.688719, nextPhis[ 1]=-1.719881 <==IsSwitchingOccur() T = 26.215000 Tnext = 26.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.220000 pESO->GetIndependentVar(): 26.220000 ==>IsSwitchingOccur() prevPhis[ 0]=7.719881, nextPhis[ 0]=7.750968 prevPhis[ 1]=-1.719881, nextPhis[ 1]=-1.750968 <==IsSwitchingOccur() T = 26.220000 Tnext = 26.225000 Time: 2.62200e+01 states: [ 1.15752e-01 2.40371e+00] derivs: [ 2.40348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.225000 pESO->GetIndependentVar(): 26.225000 ==>IsSwitchingOccur() prevPhis[ 0]=7.750968, nextPhis[ 0]=7.781980 prevPhis[ 1]=-1.750968, nextPhis[ 1]=-1.781980 <==IsSwitchingOccur() T = 26.225000 Tnext = 26.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.230000 pESO->GetIndependentVar(): 26.230000 ==>IsSwitchingOccur() prevPhis[ 0]=7.781980, nextPhis[ 0]=7.812917 prevPhis[ 1]=-1.781980, nextPhis[ 1]=-1.812917 <==IsSwitchingOccur() T = 26.230000 Tnext = 26.235000 Time: 2.62300e+01 states: [ 1.39735e-01 2.39371e+00] derivs: [ 2.39348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.235000 pESO->GetIndependentVar(): 26.235000 ==>IsSwitchingOccur() prevPhis[ 0]=7.812917, nextPhis[ 0]=7.843779 prevPhis[ 1]=-1.812917, nextPhis[ 1]=-1.843779 <==IsSwitchingOccur() T = 26.235000 Tnext = 26.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.240000 pESO->GetIndependentVar(): 26.240000 ==>IsSwitchingOccur() prevPhis[ 0]=7.843779, nextPhis[ 0]=7.874565 prevPhis[ 1]=-1.843779, nextPhis[ 1]=-1.874565 <==IsSwitchingOccur() T = 26.240000 Tnext = 26.245000 Time: 2.62400e+01 states: [ 1.63618e-01 2.38371e+00] derivs: [ 2.38348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.245000 pESO->GetIndependentVar(): 26.245000 ==>IsSwitchingOccur() prevPhis[ 0]=7.874565, nextPhis[ 0]=7.905277 prevPhis[ 1]=-1.874565, nextPhis[ 1]=-1.905277 <==IsSwitchingOccur() T = 26.245000 Tnext = 26.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.250000 pESO->GetIndependentVar(): 26.250000 ==>IsSwitchingOccur() prevPhis[ 0]=7.905277, nextPhis[ 0]=7.935914 prevPhis[ 1]=-1.905277, nextPhis[ 1]=-1.935914 <==IsSwitchingOccur() T = 26.250000 Tnext = 26.255000 Time: 2.62500e+01 states: [ 1.87401e-01 2.37371e+00] derivs: [ 2.37348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.255000 pESO->GetIndependentVar(): 26.255000 ==>IsSwitchingOccur() prevPhis[ 0]=7.935914, nextPhis[ 0]=7.966476 prevPhis[ 1]=-1.935914, nextPhis[ 1]=-1.966476 <==IsSwitchingOccur() T = 26.255000 Tnext = 26.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.260000 pESO->GetIndependentVar(): 26.260000 ==>IsSwitchingOccur() prevPhis[ 0]=7.966476, nextPhis[ 0]=7.996963 prevPhis[ 1]=-1.966476, nextPhis[ 1]=-1.996963 <==IsSwitchingOccur() T = 26.260000 Tnext = 26.265000 Time: 2.62600e+01 states: [ 2.11084e-01 2.36371e+00] derivs: [ 2.36348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.265000 pESO->GetIndependentVar(): 26.265000 ==>IsSwitchingOccur() prevPhis[ 0]=7.996963, nextPhis[ 0]=8.027375 prevPhis[ 1]=-1.996963, nextPhis[ 1]=-2.027375 <==IsSwitchingOccur() T = 26.265000 Tnext = 26.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.270000 pESO->GetIndependentVar(): 26.270000 ==>IsSwitchingOccur() prevPhis[ 0]=8.027375, nextPhis[ 0]=8.057712 prevPhis[ 1]=-2.027375, nextPhis[ 1]=-2.057712 <==IsSwitchingOccur() T = 26.270000 Tnext = 26.275000 Time: 2.62700e+01 states: [ 2.34667e-01 2.35371e+00] derivs: [ 2.35348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.275000 pESO->GetIndependentVar(): 26.275000 ==>IsSwitchingOccur() prevPhis[ 0]=8.057712, nextPhis[ 0]=8.087974 prevPhis[ 1]=-2.057712, nextPhis[ 1]=-2.087974 <==IsSwitchingOccur() T = 26.275000 Tnext = 26.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.280000 pESO->GetIndependentVar(): 26.280000 ==>IsSwitchingOccur() prevPhis[ 0]=8.087974, nextPhis[ 0]=8.118161 prevPhis[ 1]=-2.087974, nextPhis[ 1]=-2.118161 <==IsSwitchingOccur() T = 26.280000 Tnext = 26.285000 Time: 2.62800e+01 states: [ 2.58150e-01 2.34371e+00] derivs: [ 2.34348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.285000 pESO->GetIndependentVar(): 26.285000 ==>IsSwitchingOccur() prevPhis[ 0]=8.118161, nextPhis[ 0]=8.148272 prevPhis[ 1]=-2.118161, nextPhis[ 1]=-2.148272 <==IsSwitchingOccur() T = 26.285000 Tnext = 26.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.290000 pESO->GetIndependentVar(): 26.290000 ==>IsSwitchingOccur() prevPhis[ 0]=8.148272, nextPhis[ 0]=8.178309 prevPhis[ 1]=-2.148272, nextPhis[ 1]=-2.178309 <==IsSwitchingOccur() T = 26.290000 Tnext = 26.295000 Time: 2.62900e+01 states: [ 2.81533e-01 2.33371e+00] derivs: [ 2.33348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.295000 pESO->GetIndependentVar(): 26.295000 ==>IsSwitchingOccur() prevPhis[ 0]=8.178309, nextPhis[ 0]=8.208271 prevPhis[ 1]=-2.178309, nextPhis[ 1]=-2.208271 <==IsSwitchingOccur() T = 26.295000 Tnext = 26.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.300000 pESO->GetIndependentVar(): 26.300000 ==>IsSwitchingOccur() prevPhis[ 0]=8.208271, nextPhis[ 0]=8.238158 prevPhis[ 1]=-2.208271, nextPhis[ 1]=-2.238158 <==IsSwitchingOccur() T = 26.300000 Tnext = 26.305000 Time: 2.63000e+01 states: [ 3.04816e-01 2.32371e+00] derivs: [ 2.32348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.305000 pESO->GetIndependentVar(): 26.305000 ==>IsSwitchingOccur() prevPhis[ 0]=8.238158, nextPhis[ 0]=8.267970 prevPhis[ 1]=-2.238158, nextPhis[ 1]=-2.267970 <==IsSwitchingOccur() T = 26.305000 Tnext = 26.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.310000 pESO->GetIndependentVar(): 26.310000 ==>IsSwitchingOccur() prevPhis[ 0]=8.267970, nextPhis[ 0]=8.297707 prevPhis[ 1]=-2.267970, nextPhis[ 1]=-2.297707 <==IsSwitchingOccur() T = 26.310000 Tnext = 26.315000 Time: 2.63100e+01 states: [ 3.27999e-01 2.31371e+00] derivs: [ 2.31348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.315000 pESO->GetIndependentVar(): 26.315000 ==>IsSwitchingOccur() prevPhis[ 0]=8.297707, nextPhis[ 0]=8.327369 prevPhis[ 1]=-2.297707, nextPhis[ 1]=-2.327369 <==IsSwitchingOccur() T = 26.315000 Tnext = 26.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.320000 pESO->GetIndependentVar(): 26.320000 ==>IsSwitchingOccur() prevPhis[ 0]=8.327369, nextPhis[ 0]=8.356956 prevPhis[ 1]=-2.327369, nextPhis[ 1]=-2.356956 <==IsSwitchingOccur() T = 26.320000 Tnext = 26.325000 Time: 2.63200e+01 states: [ 3.51082e-01 2.30371e+00] derivs: [ 2.30348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.325000 pESO->GetIndependentVar(): 26.325000 ==>IsSwitchingOccur() prevPhis[ 0]=8.356956, nextPhis[ 0]=8.386468 prevPhis[ 1]=-2.356956, nextPhis[ 1]=-2.386468 <==IsSwitchingOccur() T = 26.325000 Tnext = 26.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.330000 pESO->GetIndependentVar(): 26.330000 ==>IsSwitchingOccur() prevPhis[ 0]=8.386468, nextPhis[ 0]=8.415904 prevPhis[ 1]=-2.386468, nextPhis[ 1]=-2.415904 <==IsSwitchingOccur() T = 26.330000 Tnext = 26.335000 Time: 2.63300e+01 states: [ 3.74064e-01 2.29371e+00] derivs: [ 2.29348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.335000 pESO->GetIndependentVar(): 26.335000 ==>IsSwitchingOccur() prevPhis[ 0]=8.415904, nextPhis[ 0]=8.445266 prevPhis[ 1]=-2.415904, nextPhis[ 1]=-2.445266 <==IsSwitchingOccur() T = 26.335000 Tnext = 26.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.340000 pESO->GetIndependentVar(): 26.340000 ==>IsSwitchingOccur() prevPhis[ 0]=8.445266, nextPhis[ 0]=8.474553 prevPhis[ 1]=-2.445266, nextPhis[ 1]=-2.474553 <==IsSwitchingOccur() T = 26.340000 Tnext = 26.345000 Time: 2.63400e+01 states: [ 3.96947e-01 2.28371e+00] derivs: [ 2.28348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.345000 pESO->GetIndependentVar(): 26.345000 ==>IsSwitchingOccur() prevPhis[ 0]=8.474553, nextPhis[ 0]=8.503765 prevPhis[ 1]=-2.474553, nextPhis[ 1]=-2.503765 <==IsSwitchingOccur() T = 26.345000 Tnext = 26.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.350000 pESO->GetIndependentVar(): 26.350000 ==>IsSwitchingOccur() prevPhis[ 0]=8.503765, nextPhis[ 0]=8.532902 prevPhis[ 1]=-2.503765, nextPhis[ 1]=-2.532902 <==IsSwitchingOccur() T = 26.350000 Tnext = 26.355000 Time: 2.63500e+01 states: [ 4.19730e-01 2.27371e+00] derivs: [ 2.27348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.355000 pESO->GetIndependentVar(): 26.355000 ==>IsSwitchingOccur() prevPhis[ 0]=8.532902, nextPhis[ 0]=8.561964 prevPhis[ 1]=-2.532902, nextPhis[ 1]=-2.561964 <==IsSwitchingOccur() T = 26.355000 Tnext = 26.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.360000 pESO->GetIndependentVar(): 26.360000 ==>IsSwitchingOccur() prevPhis[ 0]=8.561964, nextPhis[ 0]=8.590951 prevPhis[ 1]=-2.561964, nextPhis[ 1]=-2.590951 <==IsSwitchingOccur() T = 26.360000 Tnext = 26.365000 Time: 2.63600e+01 states: [ 4.42413e-01 2.26371e+00] derivs: [ 2.26348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.365000 pESO->GetIndependentVar(): 26.365000 ==>IsSwitchingOccur() prevPhis[ 0]=8.590951, nextPhis[ 0]=8.619863 prevPhis[ 1]=-2.590951, nextPhis[ 1]=-2.619863 <==IsSwitchingOccur() T = 26.365000 Tnext = 26.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.370000 pESO->GetIndependentVar(): 26.370000 ==>IsSwitchingOccur() prevPhis[ 0]=8.619863, nextPhis[ 0]=8.648700 prevPhis[ 1]=-2.619863, nextPhis[ 1]=-2.648700 <==IsSwitchingOccur() T = 26.370000 Tnext = 26.375000 Time: 2.63700e+01 states: [ 4.64996e-01 2.25371e+00] derivs: [ 2.25348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.375000 pESO->GetIndependentVar(): 26.375000 ==>IsSwitchingOccur() prevPhis[ 0]=8.648700, nextPhis[ 0]=8.677461 prevPhis[ 1]=-2.648700, nextPhis[ 1]=-2.677461 <==IsSwitchingOccur() T = 26.375000 Tnext = 26.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.380000 pESO->GetIndependentVar(): 26.380000 ==>IsSwitchingOccur() prevPhis[ 0]=8.677461, nextPhis[ 0]=8.706148 prevPhis[ 1]=-2.677461, nextPhis[ 1]=-2.706148 <==IsSwitchingOccur() T = 26.380000 Tnext = 26.385000 Time: 2.63800e+01 states: [ 4.87479e-01 2.24371e+00] derivs: [ 2.24348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.385000 pESO->GetIndependentVar(): 26.385000 ==>IsSwitchingOccur() prevPhis[ 0]=8.706148, nextPhis[ 0]=8.734760 prevPhis[ 1]=-2.706148, nextPhis[ 1]=-2.734760 <==IsSwitchingOccur() T = 26.385000 Tnext = 26.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.390000 pESO->GetIndependentVar(): 26.390000 ==>IsSwitchingOccur() prevPhis[ 0]=8.734760, nextPhis[ 0]=8.763297 prevPhis[ 1]=-2.734760, nextPhis[ 1]=-2.763297 <==IsSwitchingOccur() T = 26.390000 Tnext = 26.395000 Time: 2.63900e+01 states: [ 5.09862e-01 2.23371e+00] derivs: [ 2.23348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.395000 pESO->GetIndependentVar(): 26.395000 ==>IsSwitchingOccur() prevPhis[ 0]=8.763297, nextPhis[ 0]=8.791759 prevPhis[ 1]=-2.763297, nextPhis[ 1]=-2.791759 <==IsSwitchingOccur() T = 26.395000 Tnext = 26.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.400000 pESO->GetIndependentVar(): 26.400000 ==>IsSwitchingOccur() prevPhis[ 0]=8.791759, nextPhis[ 0]=8.820146 prevPhis[ 1]=-2.791759, nextPhis[ 1]=-2.820146 <==IsSwitchingOccur() T = 26.400000 Tnext = 26.405000 Time: 2.64000e+01 states: [ 5.32145e-01 2.22371e+00] derivs: [ 2.22348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.405000 pESO->GetIndependentVar(): 26.405000 ==>IsSwitchingOccur() prevPhis[ 0]=8.820146, nextPhis[ 0]=8.848458 prevPhis[ 1]=-2.820146, nextPhis[ 1]=-2.848458 <==IsSwitchingOccur() T = 26.405000 Tnext = 26.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.410000 pESO->GetIndependentVar(): 26.410000 ==>IsSwitchingOccur() prevPhis[ 0]=8.848458, nextPhis[ 0]=8.876695 prevPhis[ 1]=-2.848458, nextPhis[ 1]=-2.876695 <==IsSwitchingOccur() T = 26.410000 Tnext = 26.415000 Time: 2.64100e+01 states: [ 5.54328e-01 2.21371e+00] derivs: [ 2.21348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.415000 pESO->GetIndependentVar(): 26.415000 ==>IsSwitchingOccur() prevPhis[ 0]=8.876695, nextPhis[ 0]=8.904857 prevPhis[ 1]=-2.876695, nextPhis[ 1]=-2.904857 <==IsSwitchingOccur() T = 26.415000 Tnext = 26.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.420000 pESO->GetIndependentVar(): 26.420000 ==>IsSwitchingOccur() prevPhis[ 0]=8.904857, nextPhis[ 0]=8.932943 prevPhis[ 1]=-2.904857, nextPhis[ 1]=-2.932943 <==IsSwitchingOccur() T = 26.420000 Tnext = 26.425000 Time: 2.64200e+01 states: [ 5.76411e-01 2.20371e+00] derivs: [ 2.20348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.425000 pESO->GetIndependentVar(): 26.425000 ==>IsSwitchingOccur() prevPhis[ 0]=8.932943, nextPhis[ 0]=8.960955 prevPhis[ 1]=-2.932943, nextPhis[ 1]=-2.960955 <==IsSwitchingOccur() T = 26.425000 Tnext = 26.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.430000 pESO->GetIndependentVar(): 26.430000 ==>IsSwitchingOccur() prevPhis[ 0]=8.960955, nextPhis[ 0]=8.988892 prevPhis[ 1]=-2.960955, nextPhis[ 1]=-2.988892 <==IsSwitchingOccur() T = 26.430000 Tnext = 26.435000 Time: 2.64300e+01 states: [ 5.98394e-01 2.19371e+00] derivs: [ 2.19348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.435000 pESO->GetIndependentVar(): 26.435000 ==>IsSwitchingOccur() prevPhis[ 0]=8.988892, nextPhis[ 0]=9.016754 prevPhis[ 1]=-2.988892, nextPhis[ 1]=-3.016754 <==IsSwitchingOccur() T = 26.435000 Tnext = 26.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.440000 pESO->GetIndependentVar(): 26.440000 ==>IsSwitchingOccur() prevPhis[ 0]=9.016754, nextPhis[ 0]=9.044541 prevPhis[ 1]=-3.016754, nextPhis[ 1]=-3.044541 <==IsSwitchingOccur() T = 26.440000 Tnext = 26.445000 Time: 2.64400e+01 states: [ 6.20277e-01 2.18371e+00] derivs: [ 2.18348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.445000 pESO->GetIndependentVar(): 26.445000 ==>IsSwitchingOccur() prevPhis[ 0]=9.044541, nextPhis[ 0]=9.072253 prevPhis[ 1]=-3.044541, nextPhis[ 1]=-3.072253 <==IsSwitchingOccur() T = 26.445000 Tnext = 26.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.450000 pESO->GetIndependentVar(): 26.450000 ==>IsSwitchingOccur() prevPhis[ 0]=9.072253, nextPhis[ 0]=9.099890 prevPhis[ 1]=-3.072253, nextPhis[ 1]=-3.099890 <==IsSwitchingOccur() T = 26.450000 Tnext = 26.455000 Time: 2.64500e+01 states: [ 6.42060e-01 2.17371e+00] derivs: [ 2.17348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.455000 pESO->GetIndependentVar(): 26.455000 ==>IsSwitchingOccur() prevPhis[ 0]=9.099890, nextPhis[ 0]=9.127452 prevPhis[ 1]=-3.099890, nextPhis[ 1]=-3.127452 <==IsSwitchingOccur() T = 26.455000 Tnext = 26.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.460000 pESO->GetIndependentVar(): 26.460000 ==>IsSwitchingOccur() prevPhis[ 0]=9.127452, nextPhis[ 0]=9.154939 prevPhis[ 1]=-3.127452, nextPhis[ 1]=-3.154939 <==IsSwitchingOccur() T = 26.460000 Tnext = 26.465000 Time: 2.64600e+01 states: [ 6.63742e-01 2.16371e+00] derivs: [ 2.16348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.465000 pESO->GetIndependentVar(): 26.465000 ==>IsSwitchingOccur() prevPhis[ 0]=9.154939, nextPhis[ 0]=9.182350 prevPhis[ 1]=-3.154939, nextPhis[ 1]=-3.182350 <==IsSwitchingOccur() T = 26.465000 Tnext = 26.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.470000 pESO->GetIndependentVar(): 26.470000 ==>IsSwitchingOccur() prevPhis[ 0]=9.182350, nextPhis[ 0]=9.209687 prevPhis[ 1]=-3.182350, nextPhis[ 1]=-3.209687 <==IsSwitchingOccur() T = 26.470000 Tnext = 26.475000 Time: 2.64700e+01 states: [ 6.85325e-01 2.15371e+00] derivs: [ 2.15348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.475000 pESO->GetIndependentVar(): 26.475000 ==>IsSwitchingOccur() prevPhis[ 0]=9.209687, nextPhis[ 0]=9.236949 prevPhis[ 1]=-3.209687, nextPhis[ 1]=-3.236949 <==IsSwitchingOccur() T = 26.475000 Tnext = 26.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.480000 pESO->GetIndependentVar(): 26.480000 ==>IsSwitchingOccur() prevPhis[ 0]=9.236949, nextPhis[ 0]=9.264136 prevPhis[ 1]=-3.236949, nextPhis[ 1]=-3.264136 <==IsSwitchingOccur() T = 26.480000 Tnext = 26.485000 Time: 2.64800e+01 states: [ 7.06808e-01 2.14371e+00] derivs: [ 2.14348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.485000 pESO->GetIndependentVar(): 26.485000 ==>IsSwitchingOccur() prevPhis[ 0]=9.264136, nextPhis[ 0]=9.291248 prevPhis[ 1]=-3.264136, nextPhis[ 1]=-3.291248 <==IsSwitchingOccur() T = 26.485000 Tnext = 26.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.490000 pESO->GetIndependentVar(): 26.490000 ==>IsSwitchingOccur() prevPhis[ 0]=9.291248, nextPhis[ 0]=9.318285 prevPhis[ 1]=-3.291248, nextPhis[ 1]=-3.318285 <==IsSwitchingOccur() T = 26.490000 Tnext = 26.495000 Time: 2.64900e+01 states: [ 7.28191e-01 2.13371e+00] derivs: [ 2.13348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.495000 pESO->GetIndependentVar(): 26.495000 ==>IsSwitchingOccur() prevPhis[ 0]=9.318285, nextPhis[ 0]=9.345247 prevPhis[ 1]=-3.318285, nextPhis[ 1]=-3.345247 <==IsSwitchingOccur() T = 26.495000 Tnext = 26.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.500000 pESO->GetIndependentVar(): 26.500000 ==>IsSwitchingOccur() prevPhis[ 0]=9.345247, nextPhis[ 0]=9.372134 prevPhis[ 1]=-3.345247, nextPhis[ 1]=-3.372134 <==IsSwitchingOccur() T = 26.500000 Tnext = 26.505000 Time: 2.65000e+01 states: [ 7.49474e-01 2.12371e+00] derivs: [ 2.12348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.505000 pESO->GetIndependentVar(): 26.505000 ==>IsSwitchingOccur() prevPhis[ 0]=9.372134, nextPhis[ 0]=9.398946 prevPhis[ 1]=-3.372134, nextPhis[ 1]=-3.398946 <==IsSwitchingOccur() T = 26.505000 Tnext = 26.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.510000 pESO->GetIndependentVar(): 26.510000 ==>IsSwitchingOccur() prevPhis[ 0]=9.398946, nextPhis[ 0]=9.425683 prevPhis[ 1]=-3.398946, nextPhis[ 1]=-3.425683 <==IsSwitchingOccur() T = 26.510000 Tnext = 26.515000 Time: 2.65100e+01 states: [ 7.70657e-01 2.11371e+00] derivs: [ 2.11348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.515000 pESO->GetIndependentVar(): 26.515000 ==>IsSwitchingOccur() prevPhis[ 0]=9.425683, nextPhis[ 0]=9.452344 prevPhis[ 1]=-3.425683, nextPhis[ 1]=-3.452344 <==IsSwitchingOccur() T = 26.515000 Tnext = 26.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.520000 pESO->GetIndependentVar(): 26.520000 ==>IsSwitchingOccur() prevPhis[ 0]=9.452344, nextPhis[ 0]=9.478931 prevPhis[ 1]=-3.452344, nextPhis[ 1]=-3.478931 <==IsSwitchingOccur() T = 26.520000 Tnext = 26.525000 Time: 2.65200e+01 states: [ 7.91740e-01 2.10371e+00] derivs: [ 2.10348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.525000 pESO->GetIndependentVar(): 26.525000 ==>IsSwitchingOccur() prevPhis[ 0]=9.478931, nextPhis[ 0]=9.505443 prevPhis[ 1]=-3.478931, nextPhis[ 1]=-3.505443 <==IsSwitchingOccur() T = 26.525000 Tnext = 26.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.530000 pESO->GetIndependentVar(): 26.530000 ==>IsSwitchingOccur() prevPhis[ 0]=9.505443, nextPhis[ 0]=9.531880 prevPhis[ 1]=-3.505443, nextPhis[ 1]=-3.531880 <==IsSwitchingOccur() T = 26.530000 Tnext = 26.535000 Time: 2.65300e+01 states: [ 8.12723e-01 2.09371e+00] derivs: [ 2.09348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.535000 pESO->GetIndependentVar(): 26.535000 ==>IsSwitchingOccur() prevPhis[ 0]=9.531880, nextPhis[ 0]=9.558242 prevPhis[ 1]=-3.531880, nextPhis[ 1]=-3.558242 <==IsSwitchingOccur() T = 26.535000 Tnext = 26.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.540000 pESO->GetIndependentVar(): 26.540000 ==>IsSwitchingOccur() prevPhis[ 0]=9.558242, nextPhis[ 0]=9.584529 prevPhis[ 1]=-3.558242, nextPhis[ 1]=-3.584529 <==IsSwitchingOccur() T = 26.540000 Tnext = 26.545000 Time: 2.65400e+01 states: [ 8.33606e-01 2.08371e+00] derivs: [ 2.08348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.545000 pESO->GetIndependentVar(): 26.545000 ==>IsSwitchingOccur() prevPhis[ 0]=9.584529, nextPhis[ 0]=9.610741 prevPhis[ 1]=-3.584529, nextPhis[ 1]=-3.610741 <==IsSwitchingOccur() T = 26.545000 Tnext = 26.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.550000 pESO->GetIndependentVar(): 26.550000 ==>IsSwitchingOccur() prevPhis[ 0]=9.610741, nextPhis[ 0]=9.636878 prevPhis[ 1]=-3.610741, nextPhis[ 1]=-3.636878 <==IsSwitchingOccur() T = 26.550000 Tnext = 26.555000 Time: 2.65500e+01 states: [ 8.54389e-01 2.07371e+00] derivs: [ 2.07348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.555000 pESO->GetIndependentVar(): 26.555000 ==>IsSwitchingOccur() prevPhis[ 0]=9.636878, nextPhis[ 0]=9.662940 prevPhis[ 1]=-3.636878, nextPhis[ 1]=-3.662940 <==IsSwitchingOccur() T = 26.555000 Tnext = 26.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.560000 pESO->GetIndependentVar(): 26.560000 ==>IsSwitchingOccur() prevPhis[ 0]=9.662940, nextPhis[ 0]=9.688926 prevPhis[ 1]=-3.662940, nextPhis[ 1]=-3.688926 <==IsSwitchingOccur() T = 26.560000 Tnext = 26.565000 Time: 2.65600e+01 states: [ 8.75072e-01 2.06371e+00] derivs: [ 2.06348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.565000 pESO->GetIndependentVar(): 26.565000 ==>IsSwitchingOccur() prevPhis[ 0]=9.688926, nextPhis[ 0]=9.714838 prevPhis[ 1]=-3.688926, nextPhis[ 1]=-3.714838 <==IsSwitchingOccur() T = 26.565000 Tnext = 26.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.570000 pESO->GetIndependentVar(): 26.570000 ==>IsSwitchingOccur() prevPhis[ 0]=9.714838, nextPhis[ 0]=9.740675 prevPhis[ 1]=-3.714838, nextPhis[ 1]=-3.740675 <==IsSwitchingOccur() T = 26.570000 Tnext = 26.575000 Time: 2.65700e+01 states: [ 8.95655e-01 2.05371e+00] derivs: [ 2.05348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.575000 pESO->GetIndependentVar(): 26.575000 ==>IsSwitchingOccur() prevPhis[ 0]=9.740675, nextPhis[ 0]=9.766437 prevPhis[ 1]=-3.740675, nextPhis[ 1]=-3.766437 <==IsSwitchingOccur() T = 26.575000 Tnext = 26.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.580000 pESO->GetIndependentVar(): 26.580000 ==>IsSwitchingOccur() prevPhis[ 0]=9.766437, nextPhis[ 0]=9.792124 prevPhis[ 1]=-3.766437, nextPhis[ 1]=-3.792124 <==IsSwitchingOccur() T = 26.580000 Tnext = 26.585000 Time: 2.65800e+01 states: [ 9.16138e-01 2.04371e+00] derivs: [ 2.04348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.585000 pESO->GetIndependentVar(): 26.585000 ==>IsSwitchingOccur() prevPhis[ 0]=9.792124, nextPhis[ 0]=9.817736 prevPhis[ 1]=-3.792124, nextPhis[ 1]=-3.817736 <==IsSwitchingOccur() T = 26.585000 Tnext = 26.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.590000 pESO->GetIndependentVar(): 26.590000 ==>IsSwitchingOccur() prevPhis[ 0]=9.817736, nextPhis[ 0]=9.843273 prevPhis[ 1]=-3.817736, nextPhis[ 1]=-3.843273 <==IsSwitchingOccur() T = 26.590000 Tnext = 26.595000 Time: 2.65900e+01 states: [ 9.36521e-01 2.03371e+00] derivs: [ 2.03348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.595000 pESO->GetIndependentVar(): 26.595000 ==>IsSwitchingOccur() prevPhis[ 0]=9.843273, nextPhis[ 0]=9.868735 prevPhis[ 1]=-3.843273, nextPhis[ 1]=-3.868735 <==IsSwitchingOccur() T = 26.595000 Tnext = 26.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.600000 pESO->GetIndependentVar(): 26.600000 ==>IsSwitchingOccur() prevPhis[ 0]=9.868735, nextPhis[ 0]=9.894122 prevPhis[ 1]=-3.868735, nextPhis[ 1]=-3.894122 <==IsSwitchingOccur() T = 26.600000 Tnext = 26.605000 Time: 2.66000e+01 states: [ 9.56803e-01 2.02371e+00] derivs: [ 2.02348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.605000 pESO->GetIndependentVar(): 26.605000 ==>IsSwitchingOccur() prevPhis[ 0]=9.894122, nextPhis[ 0]=9.919433 prevPhis[ 1]=-3.894122, nextPhis[ 1]=-3.919433 <==IsSwitchingOccur() T = 26.605000 Tnext = 26.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.610000 pESO->GetIndependentVar(): 26.610000 ==>IsSwitchingOccur() prevPhis[ 0]=9.919433, nextPhis[ 0]=9.944670 prevPhis[ 1]=-3.919433, nextPhis[ 1]=-3.944670 <==IsSwitchingOccur() T = 26.610000 Tnext = 26.615000 Time: 2.66100e+01 states: [ 9.76986e-01 2.01371e+00] derivs: [ 2.01348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.615000 pESO->GetIndependentVar(): 26.615000 ==>IsSwitchingOccur() prevPhis[ 0]=9.944670, nextPhis[ 0]=9.969832 prevPhis[ 1]=-3.944670, nextPhis[ 1]=-3.969832 <==IsSwitchingOccur() T = 26.615000 Tnext = 26.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.620000 pESO->GetIndependentVar(): 26.620000 ==>IsSwitchingOccur() prevPhis[ 0]=9.969832, nextPhis[ 0]=9.994919 prevPhis[ 1]=-3.969832, nextPhis[ 1]=-3.994919 <==IsSwitchingOccur() T = 26.620000 Tnext = 26.625000 Time: 2.66200e+01 states: [ 9.97069e-01 2.00371e+00] derivs: [ 2.00348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.625000 pESO->GetIndependentVar(): 26.625000 ==>IsSwitchingOccur() prevPhis[ 0]=9.994919, nextPhis[ 0]=10.019931 prevPhis[ 1]=-3.994919, nextPhis[ 1]=-4.019931 <==IsSwitchingOccur() T = 26.625000 Tnext = 26.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.630000 pESO->GetIndependentVar(): 26.630000 ==>IsSwitchingOccur() prevPhis[ 0]=10.019931, nextPhis[ 0]=10.044868 prevPhis[ 1]=-4.019931, nextPhis[ 1]=-4.044868 <==IsSwitchingOccur() T = 26.630000 Tnext = 26.635000 Time: 2.66300e+01 states: [ 1.01705e+00 1.99371e+00] derivs: [ 1.99348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.635000 pESO->GetIndependentVar(): 26.635000 ==>IsSwitchingOccur() prevPhis[ 0]=10.044868, nextPhis[ 0]=10.069730 prevPhis[ 1]=-4.044868, nextPhis[ 1]=-4.069730 <==IsSwitchingOccur() T = 26.635000 Tnext = 26.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.640000 pESO->GetIndependentVar(): 26.640000 ==>IsSwitchingOccur() prevPhis[ 0]=10.069730, nextPhis[ 0]=10.094517 prevPhis[ 1]=-4.069730, nextPhis[ 1]=-4.094517 <==IsSwitchingOccur() T = 26.640000 Tnext = 26.645000 Time: 2.66400e+01 states: [ 1.03694e+00 1.98371e+00] derivs: [ 1.98348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.645000 pESO->GetIndependentVar(): 26.645000 ==>IsSwitchingOccur() prevPhis[ 0]=10.094517, nextPhis[ 0]=10.119229 prevPhis[ 1]=-4.094517, nextPhis[ 1]=-4.119229 <==IsSwitchingOccur() T = 26.645000 Tnext = 26.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.650000 pESO->GetIndependentVar(): 26.650000 ==>IsSwitchingOccur() prevPhis[ 0]=10.119229, nextPhis[ 0]=10.143865 prevPhis[ 1]=-4.119229, nextPhis[ 1]=-4.143865 <==IsSwitchingOccur() T = 26.650000 Tnext = 26.655000 Time: 2.66500e+01 states: [ 1.05672e+00 1.97371e+00] derivs: [ 1.97348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.655000 pESO->GetIndependentVar(): 26.655000 ==>IsSwitchingOccur() prevPhis[ 0]=10.143865, nextPhis[ 0]=10.168427 prevPhis[ 1]=-4.143865, nextPhis[ 1]=-4.168427 <==IsSwitchingOccur() T = 26.655000 Tnext = 26.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.660000 pESO->GetIndependentVar(): 26.660000 ==>IsSwitchingOccur() prevPhis[ 0]=10.168427, nextPhis[ 0]=10.192914 prevPhis[ 1]=-4.168427, nextPhis[ 1]=-4.192914 <==IsSwitchingOccur() T = 26.660000 Tnext = 26.665000 Time: 2.66600e+01 states: [ 1.07640e+00 1.96371e+00] derivs: [ 1.96348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.665000 pESO->GetIndependentVar(): 26.665000 ==>IsSwitchingOccur() prevPhis[ 0]=10.192914, nextPhis[ 0]=10.217326 prevPhis[ 1]=-4.192914, nextPhis[ 1]=-4.217326 <==IsSwitchingOccur() T = 26.665000 Tnext = 26.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.670000 pESO->GetIndependentVar(): 26.670000 ==>IsSwitchingOccur() prevPhis[ 0]=10.217326, nextPhis[ 0]=10.241663 prevPhis[ 1]=-4.217326, nextPhis[ 1]=-4.241663 <==IsSwitchingOccur() T = 26.670000 Tnext = 26.675000 Time: 2.66700e+01 states: [ 1.09598e+00 1.95371e+00] derivs: [ 1.95348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.675000 pESO->GetIndependentVar(): 26.675000 ==>IsSwitchingOccur() prevPhis[ 0]=10.241663, nextPhis[ 0]=10.265925 prevPhis[ 1]=-4.241663, nextPhis[ 1]=-4.265925 <==IsSwitchingOccur() T = 26.675000 Tnext = 26.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.680000 pESO->GetIndependentVar(): 26.680000 ==>IsSwitchingOccur() prevPhis[ 0]=10.265925, nextPhis[ 0]=10.290112 prevPhis[ 1]=-4.265925, nextPhis[ 1]=-4.290112 <==IsSwitchingOccur() T = 26.680000 Tnext = 26.685000 Time: 2.66800e+01 states: [ 1.11547e+00 1.94371e+00] derivs: [ 1.94348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.685000 pESO->GetIndependentVar(): 26.685000 ==>IsSwitchingOccur() prevPhis[ 0]=10.290112, nextPhis[ 0]=10.314224 prevPhis[ 1]=-4.290112, nextPhis[ 1]=-4.314224 <==IsSwitchingOccur() T = 26.685000 Tnext = 26.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.690000 pESO->GetIndependentVar(): 26.690000 ==>IsSwitchingOccur() prevPhis[ 0]=10.314224, nextPhis[ 0]=10.338261 prevPhis[ 1]=-4.314224, nextPhis[ 1]=-4.338261 <==IsSwitchingOccur() T = 26.690000 Tnext = 26.695000 Time: 2.66900e+01 states: [ 1.13485e+00 1.93371e+00] derivs: [ 1.93348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.695000 pESO->GetIndependentVar(): 26.695000 ==>IsSwitchingOccur() prevPhis[ 0]=10.338261, nextPhis[ 0]=10.362222 prevPhis[ 1]=-4.338261, nextPhis[ 1]=-4.362222 <==IsSwitchingOccur() T = 26.695000 Tnext = 26.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.700000 pESO->GetIndependentVar(): 26.700000 ==>IsSwitchingOccur() prevPhis[ 0]=10.362222, nextPhis[ 0]=10.386109 prevPhis[ 1]=-4.362222, nextPhis[ 1]=-4.386109 <==IsSwitchingOccur() T = 26.700000 Tnext = 26.705000 Time: 2.67000e+01 states: [ 1.15413e+00 1.92371e+00] derivs: [ 1.92348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.705000 pESO->GetIndependentVar(): 26.705000 ==>IsSwitchingOccur() prevPhis[ 0]=10.386109, nextPhis[ 0]=10.409921 prevPhis[ 1]=-4.386109, nextPhis[ 1]=-4.409921 <==IsSwitchingOccur() T = 26.705000 Tnext = 26.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.710000 pESO->GetIndependentVar(): 26.710000 ==>IsSwitchingOccur() prevPhis[ 0]=10.409921, nextPhis[ 0]=10.433658 prevPhis[ 1]=-4.409921, nextPhis[ 1]=-4.433658 <==IsSwitchingOccur() T = 26.710000 Tnext = 26.715000 Time: 2.67100e+01 states: [ 1.17332e+00 1.91371e+00] derivs: [ 1.91348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.715000 pESO->GetIndependentVar(): 26.715000 ==>IsSwitchingOccur() prevPhis[ 0]=10.433658, nextPhis[ 0]=10.457320 prevPhis[ 1]=-4.433658, nextPhis[ 1]=-4.457320 <==IsSwitchingOccur() T = 26.715000 Tnext = 26.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.720000 pESO->GetIndependentVar(): 26.720000 ==>IsSwitchingOccur() prevPhis[ 0]=10.457320, nextPhis[ 0]=10.480907 prevPhis[ 1]=-4.457320, nextPhis[ 1]=-4.480907 <==IsSwitchingOccur() T = 26.720000 Tnext = 26.725000 Time: 2.67200e+01 states: [ 1.19240e+00 1.90371e+00] derivs: [ 1.90348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.725000 pESO->GetIndependentVar(): 26.725000 ==>IsSwitchingOccur() prevPhis[ 0]=10.480907, nextPhis[ 0]=10.504419 prevPhis[ 1]=-4.480907, nextPhis[ 1]=-4.504419 <==IsSwitchingOccur() T = 26.725000 Tnext = 26.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.730000 pESO->GetIndependentVar(): 26.730000 ==>IsSwitchingOccur() prevPhis[ 0]=10.504419, nextPhis[ 0]=10.527856 prevPhis[ 1]=-4.504419, nextPhis[ 1]=-4.527856 <==IsSwitchingOccur() T = 26.730000 Tnext = 26.735000 Time: 2.67300e+01 states: [ 1.21138e+00 1.89371e+00] derivs: [ 1.89348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.735000 pESO->GetIndependentVar(): 26.735000 ==>IsSwitchingOccur() prevPhis[ 0]=10.527856, nextPhis[ 0]=10.551218 prevPhis[ 1]=-4.527856, nextPhis[ 1]=-4.551218 <==IsSwitchingOccur() T = 26.735000 Tnext = 26.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.740000 pESO->GetIndependentVar(): 26.740000 ==>IsSwitchingOccur() prevPhis[ 0]=10.551218, nextPhis[ 0]=10.574504 prevPhis[ 1]=-4.551218, nextPhis[ 1]=-4.574504 <==IsSwitchingOccur() T = 26.740000 Tnext = 26.745000 Time: 2.67400e+01 states: [ 1.23026e+00 1.88371e+00] derivs: [ 1.88348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.745000 pESO->GetIndependentVar(): 26.745000 ==>IsSwitchingOccur() prevPhis[ 0]=10.574504, nextPhis[ 0]=10.597716 prevPhis[ 1]=-4.574504, nextPhis[ 1]=-4.597716 <==IsSwitchingOccur() T = 26.745000 Tnext = 26.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.750000 pESO->GetIndependentVar(): 26.750000 ==>IsSwitchingOccur() prevPhis[ 0]=10.597716, nextPhis[ 0]=10.620853 prevPhis[ 1]=-4.597716, nextPhis[ 1]=-4.620853 <==IsSwitchingOccur() T = 26.750000 Tnext = 26.755000 Time: 2.67500e+01 states: [ 1.24905e+00 1.87371e+00] derivs: [ 1.87348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.755000 pESO->GetIndependentVar(): 26.755000 ==>IsSwitchingOccur() prevPhis[ 0]=10.620853, nextPhis[ 0]=10.643915 prevPhis[ 1]=-4.620853, nextPhis[ 1]=-4.643915 <==IsSwitchingOccur() T = 26.755000 Tnext = 26.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.760000 pESO->GetIndependentVar(): 26.760000 ==>IsSwitchingOccur() prevPhis[ 0]=10.643915, nextPhis[ 0]=10.666902 prevPhis[ 1]=-4.643915, nextPhis[ 1]=-4.666902 <==IsSwitchingOccur() T = 26.760000 Tnext = 26.765000 Time: 2.67600e+01 states: [ 1.26773e+00 1.86371e+00] derivs: [ 1.86348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.765000 pESO->GetIndependentVar(): 26.765000 ==>IsSwitchingOccur() prevPhis[ 0]=10.666902, nextPhis[ 0]=10.689814 prevPhis[ 1]=-4.666902, nextPhis[ 1]=-4.689814 <==IsSwitchingOccur() T = 26.765000 Tnext = 26.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.770000 pESO->GetIndependentVar(): 26.770000 ==>IsSwitchingOccur() prevPhis[ 0]=10.689814, nextPhis[ 0]=10.712651 prevPhis[ 1]=-4.689814, nextPhis[ 1]=-4.712651 <==IsSwitchingOccur() T = 26.770000 Tnext = 26.775000 Time: 2.67700e+01 states: [ 1.28631e+00 1.85371e+00] derivs: [ 1.85348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.775000 pESO->GetIndependentVar(): 26.775000 ==>IsSwitchingOccur() prevPhis[ 0]=10.712651, nextPhis[ 0]=10.735413 prevPhis[ 1]=-4.712651, nextPhis[ 1]=-4.735413 <==IsSwitchingOccur() T = 26.775000 Tnext = 26.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.780000 pESO->GetIndependentVar(): 26.780000 ==>IsSwitchingOccur() prevPhis[ 0]=10.735413, nextPhis[ 0]=10.758100 prevPhis[ 1]=-4.735413, nextPhis[ 1]=-4.758100 <==IsSwitchingOccur() T = 26.780000 Tnext = 26.785000 Time: 2.67800e+01 states: [ 1.30480e+00 1.84371e+00] derivs: [ 1.84348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.785000 pESO->GetIndependentVar(): 26.785000 ==>IsSwitchingOccur() prevPhis[ 0]=10.758100, nextPhis[ 0]=10.780712 prevPhis[ 1]=-4.758100, nextPhis[ 1]=-4.780712 <==IsSwitchingOccur() T = 26.785000 Tnext = 26.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.790000 pESO->GetIndependentVar(): 26.790000 ==>IsSwitchingOccur() prevPhis[ 0]=10.780712, nextPhis[ 0]=10.803248 prevPhis[ 1]=-4.780712, nextPhis[ 1]=-4.803248 <==IsSwitchingOccur() T = 26.790000 Tnext = 26.795000 Time: 2.67900e+01 states: [ 1.32318e+00 1.83371e+00] derivs: [ 1.83348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.795000 pESO->GetIndependentVar(): 26.795000 ==>IsSwitchingOccur() prevPhis[ 0]=10.803248, nextPhis[ 0]=10.825710 prevPhis[ 1]=-4.803248, nextPhis[ 1]=-4.825710 <==IsSwitchingOccur() T = 26.795000 Tnext = 26.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.800000 pESO->GetIndependentVar(): 26.800000 ==>IsSwitchingOccur() prevPhis[ 0]=10.825710, nextPhis[ 0]=10.848097 prevPhis[ 1]=-4.825710, nextPhis[ 1]=-4.848097 <==IsSwitchingOccur() T = 26.800000 Tnext = 26.805000 Time: 2.68000e+01 states: [ 1.34146e+00 1.82371e+00] derivs: [ 1.82348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.805000 pESO->GetIndependentVar(): 26.805000 ==>IsSwitchingOccur() prevPhis[ 0]=10.848097, nextPhis[ 0]=10.870409 prevPhis[ 1]=-4.848097, nextPhis[ 1]=-4.870409 <==IsSwitchingOccur() T = 26.805000 Tnext = 26.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.810000 pESO->GetIndependentVar(): 26.810000 ==>IsSwitchingOccur() prevPhis[ 0]=10.870409, nextPhis[ 0]=10.892646 prevPhis[ 1]=-4.870409, nextPhis[ 1]=-4.892646 <==IsSwitchingOccur() T = 26.810000 Tnext = 26.815000 Time: 2.68100e+01 states: [ 1.35964e+00 1.81371e+00] derivs: [ 1.81348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.815000 pESO->GetIndependentVar(): 26.815000 ==>IsSwitchingOccur() prevPhis[ 0]=10.892646, nextPhis[ 0]=10.914808 prevPhis[ 1]=-4.892646, nextPhis[ 1]=-4.914808 <==IsSwitchingOccur() T = 26.815000 Tnext = 26.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.820000 pESO->GetIndependentVar(): 26.820000 ==>IsSwitchingOccur() prevPhis[ 0]=10.914808, nextPhis[ 0]=10.936895 prevPhis[ 1]=-4.914808, nextPhis[ 1]=-4.936895 <==IsSwitchingOccur() T = 26.820000 Tnext = 26.825000 Time: 2.68200e+01 states: [ 1.37773e+00 1.80371e+00] derivs: [ 1.80348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.825000 pESO->GetIndependentVar(): 26.825000 ==>IsSwitchingOccur() prevPhis[ 0]=10.936895, nextPhis[ 0]=10.958907 prevPhis[ 1]=-4.936895, nextPhis[ 1]=-4.958907 <==IsSwitchingOccur() T = 26.825000 Tnext = 26.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.830000 pESO->GetIndependentVar(): 26.830000 ==>IsSwitchingOccur() prevPhis[ 0]=10.958907, nextPhis[ 0]=10.980844 prevPhis[ 1]=-4.958907, nextPhis[ 1]=-4.980844 <==IsSwitchingOccur() T = 26.830000 Tnext = 26.835000 Time: 2.68300e+01 states: [ 1.39571e+00 1.79371e+00] derivs: [ 1.79348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.835000 pESO->GetIndependentVar(): 26.835000 ==>IsSwitchingOccur() prevPhis[ 0]=10.980844, nextPhis[ 0]=11.002705 prevPhis[ 1]=-4.980844, nextPhis[ 1]=-5.002705 <==IsSwitchingOccur() T = 26.835000 Tnext = 26.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.840000 pESO->GetIndependentVar(): 26.840000 ==>IsSwitchingOccur() prevPhis[ 0]=11.002705, nextPhis[ 0]=11.024492 prevPhis[ 1]=-5.002705, nextPhis[ 1]=-5.024492 <==IsSwitchingOccur() T = 26.840000 Tnext = 26.845000 Time: 2.68400e+01 states: [ 1.41359e+00 1.78371e+00] derivs: [ 1.78348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.845000 pESO->GetIndependentVar(): 26.845000 ==>IsSwitchingOccur() prevPhis[ 0]=11.024492, nextPhis[ 0]=11.046204 prevPhis[ 1]=-5.024492, nextPhis[ 1]=-5.046204 <==IsSwitchingOccur() T = 26.845000 Tnext = 26.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.850000 pESO->GetIndependentVar(): 26.850000 ==>IsSwitchingOccur() prevPhis[ 0]=11.046204, nextPhis[ 0]=11.067841 prevPhis[ 1]=-5.046204, nextPhis[ 1]=-5.067841 <==IsSwitchingOccur() T = 26.850000 Tnext = 26.855000 Time: 2.68500e+01 states: [ 1.43138e+00 1.77371e+00] derivs: [ 1.77348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.855000 pESO->GetIndependentVar(): 26.855000 ==>IsSwitchingOccur() prevPhis[ 0]=11.067841, nextPhis[ 0]=11.089403 prevPhis[ 1]=-5.067841, nextPhis[ 1]=-5.089403 <==IsSwitchingOccur() T = 26.855000 Tnext = 26.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.860000 pESO->GetIndependentVar(): 26.860000 ==>IsSwitchingOccur() prevPhis[ 0]=11.089403, nextPhis[ 0]=11.110890 prevPhis[ 1]=-5.089403, nextPhis[ 1]=-5.110890 <==IsSwitchingOccur() T = 26.860000 Tnext = 26.865000 Time: 2.68600e+01 states: [ 1.44906e+00 1.76371e+00] derivs: [ 1.76348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.865000 pESO->GetIndependentVar(): 26.865000 ==>IsSwitchingOccur() prevPhis[ 0]=11.110890, nextPhis[ 0]=11.132302 prevPhis[ 1]=-5.110890, nextPhis[ 1]=-5.132302 <==IsSwitchingOccur() T = 26.865000 Tnext = 26.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.870000 pESO->GetIndependentVar(): 26.870000 ==>IsSwitchingOccur() prevPhis[ 0]=11.132302, nextPhis[ 0]=11.153639 prevPhis[ 1]=-5.132302, nextPhis[ 1]=-5.153639 <==IsSwitchingOccur() T = 26.870000 Tnext = 26.875000 Time: 2.68700e+01 states: [ 1.46664e+00 1.75371e+00] derivs: [ 1.75348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.875000 pESO->GetIndependentVar(): 26.875000 ==>IsSwitchingOccur() prevPhis[ 0]=11.153639, nextPhis[ 0]=11.174901 prevPhis[ 1]=-5.153639, nextPhis[ 1]=-5.174901 <==IsSwitchingOccur() T = 26.875000 Tnext = 26.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.880000 pESO->GetIndependentVar(): 26.880000 ==>IsSwitchingOccur() prevPhis[ 0]=11.174901, nextPhis[ 0]=11.196087 prevPhis[ 1]=-5.174901, nextPhis[ 1]=-5.196087 <==IsSwitchingOccur() T = 26.880000 Tnext = 26.885000 Time: 2.68800e+01 states: [ 1.48413e+00 1.74371e+00] derivs: [ 1.74348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.885000 pESO->GetIndependentVar(): 26.885000 ==>IsSwitchingOccur() prevPhis[ 0]=11.196087, nextPhis[ 0]=11.217199 prevPhis[ 1]=-5.196087, nextPhis[ 1]=-5.217199 <==IsSwitchingOccur() T = 26.885000 Tnext = 26.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.890000 pESO->GetIndependentVar(): 26.890000 ==>IsSwitchingOccur() prevPhis[ 0]=11.217199, nextPhis[ 0]=11.238236 prevPhis[ 1]=-5.217199, nextPhis[ 1]=-5.238236 <==IsSwitchingOccur() T = 26.890000 Tnext = 26.895000 Time: 2.68900e+01 states: [ 1.50151e+00 1.73371e+00] derivs: [ 1.73348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.895000 pESO->GetIndependentVar(): 26.895000 ==>IsSwitchingOccur() prevPhis[ 0]=11.238236, nextPhis[ 0]=11.259198 prevPhis[ 1]=-5.238236, nextPhis[ 1]=-5.259198 <==IsSwitchingOccur() T = 26.895000 Tnext = 26.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.900000 pESO->GetIndependentVar(): 26.900000 ==>IsSwitchingOccur() prevPhis[ 0]=11.259198, nextPhis[ 0]=11.280085 prevPhis[ 1]=-5.259198, nextPhis[ 1]=-5.280085 <==IsSwitchingOccur() T = 26.900000 Tnext = 26.905000 Time: 2.69000e+01 states: [ 1.51879e+00 1.72371e+00] derivs: [ 1.72348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.905000 pESO->GetIndependentVar(): 26.905000 ==>IsSwitchingOccur() prevPhis[ 0]=11.280085, nextPhis[ 0]=11.300897 prevPhis[ 1]=-5.280085, nextPhis[ 1]=-5.300897 <==IsSwitchingOccur() T = 26.905000 Tnext = 26.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.910000 pESO->GetIndependentVar(): 26.910000 ==>IsSwitchingOccur() prevPhis[ 0]=11.300897, nextPhis[ 0]=11.321634 prevPhis[ 1]=-5.300897, nextPhis[ 1]=-5.321634 <==IsSwitchingOccur() T = 26.910000 Tnext = 26.915000 Time: 2.69100e+01 states: [ 1.53597e+00 1.71371e+00] derivs: [ 1.71348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.915000 pESO->GetIndependentVar(): 26.915000 ==>IsSwitchingOccur() prevPhis[ 0]=11.321634, nextPhis[ 0]=11.342296 prevPhis[ 1]=-5.321634, nextPhis[ 1]=-5.342296 <==IsSwitchingOccur() T = 26.915000 Tnext = 26.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.920000 pESO->GetIndependentVar(): 26.920000 ==>IsSwitchingOccur() prevPhis[ 0]=11.342296, nextPhis[ 0]=11.362883 prevPhis[ 1]=-5.342296, nextPhis[ 1]=-5.362883 <==IsSwitchingOccur() T = 26.920000 Tnext = 26.925000 Time: 2.69200e+01 states: [ 1.55306e+00 1.70371e+00] derivs: [ 1.70348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.925000 pESO->GetIndependentVar(): 26.925000 ==>IsSwitchingOccur() prevPhis[ 0]=11.362883, nextPhis[ 0]=11.383394 prevPhis[ 1]=-5.362883, nextPhis[ 1]=-5.383394 <==IsSwitchingOccur() T = 26.925000 Tnext = 26.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.930000 pESO->GetIndependentVar(): 26.930000 ==>IsSwitchingOccur() prevPhis[ 0]=11.383394, nextPhis[ 0]=11.403831 prevPhis[ 1]=-5.383394, nextPhis[ 1]=-5.403831 <==IsSwitchingOccur() T = 26.930000 Tnext = 26.935000 Time: 2.69300e+01 states: [ 1.57004e+00 1.69371e+00] derivs: [ 1.69348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.935000 pESO->GetIndependentVar(): 26.935000 ==>IsSwitchingOccur() prevPhis[ 0]=11.403831, nextPhis[ 0]=11.424193 prevPhis[ 1]=-5.403831, nextPhis[ 1]=-5.424193 <==IsSwitchingOccur() T = 26.935000 Tnext = 26.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.940000 pESO->GetIndependentVar(): 26.940000 ==>IsSwitchingOccur() prevPhis[ 0]=11.424193, nextPhis[ 0]=11.444480 prevPhis[ 1]=-5.424193, nextPhis[ 1]=-5.444480 <==IsSwitchingOccur() T = 26.940000 Tnext = 26.945000 Time: 2.69400e+01 states: [ 1.58692e+00 1.68371e+00] derivs: [ 1.68348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.945000 pESO->GetIndependentVar(): 26.945000 ==>IsSwitchingOccur() prevPhis[ 0]=11.444480, nextPhis[ 0]=11.464692 prevPhis[ 1]=-5.444480, nextPhis[ 1]=-5.464692 <==IsSwitchingOccur() T = 26.945000 Tnext = 26.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.950000 pESO->GetIndependentVar(): 26.950000 ==>IsSwitchingOccur() prevPhis[ 0]=11.464692, nextPhis[ 0]=11.484829 prevPhis[ 1]=-5.464692, nextPhis[ 1]=-5.484829 <==IsSwitchingOccur() T = 26.950000 Tnext = 26.955000 Time: 2.69500e+01 states: [ 1.60371e+00 1.67371e+00] derivs: [ 1.67348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.955000 pESO->GetIndependentVar(): 26.955000 ==>IsSwitchingOccur() prevPhis[ 0]=11.484829, nextPhis[ 0]=11.504891 prevPhis[ 1]=-5.484829, nextPhis[ 1]=-5.504891 <==IsSwitchingOccur() T = 26.955000 Tnext = 26.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.960000 pESO->GetIndependentVar(): 26.960000 ==>IsSwitchingOccur() prevPhis[ 0]=11.504891, nextPhis[ 0]=11.524878 prevPhis[ 1]=-5.504891, nextPhis[ 1]=-5.524878 <==IsSwitchingOccur() T = 26.960000 Tnext = 26.965000 Time: 2.69600e+01 states: [ 1.62039e+00 1.66371e+00] derivs: [ 1.66348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.965000 pESO->GetIndependentVar(): 26.965000 ==>IsSwitchingOccur() prevPhis[ 0]=11.524878, nextPhis[ 0]=11.544790 prevPhis[ 1]=-5.524878, nextPhis[ 1]=-5.544790 <==IsSwitchingOccur() T = 26.965000 Tnext = 26.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.970000 pESO->GetIndependentVar(): 26.970000 ==>IsSwitchingOccur() prevPhis[ 0]=11.544790, nextPhis[ 0]=11.564626 prevPhis[ 1]=-5.544790, nextPhis[ 1]=-5.564626 <==IsSwitchingOccur() T = 26.970000 Tnext = 26.975000 Time: 2.69700e+01 states: [ 1.63697e+00 1.65371e+00] derivs: [ 1.65348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.975000 pESO->GetIndependentVar(): 26.975000 ==>IsSwitchingOccur() prevPhis[ 0]=11.564626, nextPhis[ 0]=11.584388 prevPhis[ 1]=-5.564626, nextPhis[ 1]=-5.584388 <==IsSwitchingOccur() T = 26.975000 Tnext = 26.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.980000 pESO->GetIndependentVar(): 26.980000 ==>IsSwitchingOccur() prevPhis[ 0]=11.584388, nextPhis[ 0]=11.604075 prevPhis[ 1]=-5.584388, nextPhis[ 1]=-5.604075 <==IsSwitchingOccur() T = 26.980000 Tnext = 26.985000 Time: 2.69800e+01 states: [ 1.65345e+00 1.64371e+00] derivs: [ 1.64348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.985000 pESO->GetIndependentVar(): 26.985000 ==>IsSwitchingOccur() prevPhis[ 0]=11.604075, nextPhis[ 0]=11.623687 prevPhis[ 1]=-5.604075, nextPhis[ 1]=-5.623687 <==IsSwitchingOccur() T = 26.985000 Tnext = 26.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.990000 pESO->GetIndependentVar(): 26.990000 ==>IsSwitchingOccur() prevPhis[ 0]=11.623687, nextPhis[ 0]=11.643224 prevPhis[ 1]=-5.623687, nextPhis[ 1]=-5.643224 <==IsSwitchingOccur() T = 26.990000 Tnext = 26.995000 Time: 2.69900e+01 states: [ 1.66984e+00 1.63371e+00] derivs: [ 1.63348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 26.995000 pESO->GetIndependentVar(): 26.995000 ==>IsSwitchingOccur() prevPhis[ 0]=11.643224, nextPhis[ 0]=11.662686 prevPhis[ 1]=-5.643224, nextPhis[ 1]=-5.662686 <==IsSwitchingOccur() T = 26.995000 Tnext = 27.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.000000 pESO->GetIndependentVar(): 27.000000 ==>IsSwitchingOccur() prevPhis[ 0]=11.662686, nextPhis[ 0]=11.682073 prevPhis[ 1]=-5.662686, nextPhis[ 1]=-5.682073 <==IsSwitchingOccur() T = 27.000000 Tnext = 27.005000 Time: 2.70000e+01 states: [ 1.68612e+00 1.62371e+00] derivs: [ 1.62348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.005000 pESO->GetIndependentVar(): 27.005000 ==>IsSwitchingOccur() prevPhis[ 0]=11.682073, nextPhis[ 0]=11.701385 prevPhis[ 1]=-5.682073, nextPhis[ 1]=-5.701385 <==IsSwitchingOccur() T = 27.005000 Tnext = 27.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.010000 pESO->GetIndependentVar(): 27.010000 ==>IsSwitchingOccur() prevPhis[ 0]=11.701385, nextPhis[ 0]=11.720622 prevPhis[ 1]=-5.701385, nextPhis[ 1]=-5.720622 <==IsSwitchingOccur() T = 27.010000 Tnext = 27.015000 Time: 2.70100e+01 states: [ 1.70230e+00 1.61371e+00] derivs: [ 1.61348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.015000 pESO->GetIndependentVar(): 27.015000 ==>IsSwitchingOccur() prevPhis[ 0]=11.720622, nextPhis[ 0]=11.739783 prevPhis[ 1]=-5.720622, nextPhis[ 1]=-5.739783 <==IsSwitchingOccur() T = 27.015000 Tnext = 27.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.020000 pESO->GetIndependentVar(): 27.020000 ==>IsSwitchingOccur() prevPhis[ 0]=11.739783, nextPhis[ 0]=11.758870 prevPhis[ 1]=-5.739783, nextPhis[ 1]=-5.758870 <==IsSwitchingOccur() T = 27.020000 Tnext = 27.025000 Time: 2.70200e+01 states: [ 1.71839e+00 1.60371e+00] derivs: [ 1.60348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.025000 pESO->GetIndependentVar(): 27.025000 ==>IsSwitchingOccur() prevPhis[ 0]=11.758870, nextPhis[ 0]=11.777882 prevPhis[ 1]=-5.758870, nextPhis[ 1]=-5.777882 <==IsSwitchingOccur() T = 27.025000 Tnext = 27.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.030000 pESO->GetIndependentVar(): 27.030000 ==>IsSwitchingOccur() prevPhis[ 0]=11.777882, nextPhis[ 0]=11.796819 prevPhis[ 1]=-5.777882, nextPhis[ 1]=-5.796819 <==IsSwitchingOccur() T = 27.030000 Tnext = 27.035000 Time: 2.70300e+01 states: [ 1.73437e+00 1.59371e+00] derivs: [ 1.59348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.035000 pESO->GetIndependentVar(): 27.035000 ==>IsSwitchingOccur() prevPhis[ 0]=11.796819, nextPhis[ 0]=11.815681 prevPhis[ 1]=-5.796819, nextPhis[ 1]=-5.815681 <==IsSwitchingOccur() T = 27.035000 Tnext = 27.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.040000 pESO->GetIndependentVar(): 27.040000 ==>IsSwitchingOccur() prevPhis[ 0]=11.815681, nextPhis[ 0]=11.834468 prevPhis[ 1]=-5.815681, nextPhis[ 1]=-5.834468 <==IsSwitchingOccur() T = 27.040000 Tnext = 27.045000 Time: 2.70400e+01 states: [ 1.75025e+00 1.58371e+00] derivs: [ 1.58348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.045000 pESO->GetIndependentVar(): 27.045000 ==>IsSwitchingOccur() prevPhis[ 0]=11.834468, nextPhis[ 0]=11.853180 prevPhis[ 1]=-5.834468, nextPhis[ 1]=-5.853180 <==IsSwitchingOccur() T = 27.045000 Tnext = 27.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.050000 pESO->GetIndependentVar(): 27.050000 ==>IsSwitchingOccur() prevPhis[ 0]=11.853180, nextPhis[ 0]=11.871817 prevPhis[ 1]=-5.853180, nextPhis[ 1]=-5.871817 <==IsSwitchingOccur() T = 27.050000 Tnext = 27.055000 Time: 2.70500e+01 states: [ 1.76604e+00 1.57371e+00] derivs: [ 1.57348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.055000 pESO->GetIndependentVar(): 27.055000 ==>IsSwitchingOccur() prevPhis[ 0]=11.871817, nextPhis[ 0]=11.890379 prevPhis[ 1]=-5.871817, nextPhis[ 1]=-5.890379 <==IsSwitchingOccur() T = 27.055000 Tnext = 27.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.060000 pESO->GetIndependentVar(): 27.060000 ==>IsSwitchingOccur() prevPhis[ 0]=11.890379, nextPhis[ 0]=11.908866 prevPhis[ 1]=-5.890379, nextPhis[ 1]=-5.908866 <==IsSwitchingOccur() T = 27.060000 Tnext = 27.065000 Time: 2.70600e+01 states: [ 1.78172e+00 1.56371e+00] derivs: [ 1.56348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.065000 pESO->GetIndependentVar(): 27.065000 ==>IsSwitchingOccur() prevPhis[ 0]=11.908866, nextPhis[ 0]=11.927277 prevPhis[ 1]=-5.908866, nextPhis[ 1]=-5.927277 <==IsSwitchingOccur() T = 27.065000 Tnext = 27.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.070000 pESO->GetIndependentVar(): 27.070000 ==>IsSwitchingOccur() prevPhis[ 0]=11.927277, nextPhis[ 0]=11.945614 prevPhis[ 1]=-5.927277, nextPhis[ 1]=-5.945614 <==IsSwitchingOccur() T = 27.070000 Tnext = 27.075000 Time: 2.70700e+01 states: [ 1.79730e+00 1.55371e+00] derivs: [ 1.55348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.075000 pESO->GetIndependentVar(): 27.075000 ==>IsSwitchingOccur() prevPhis[ 0]=11.945614, nextPhis[ 0]=11.963876 prevPhis[ 1]=-5.945614, nextPhis[ 1]=-5.963876 <==IsSwitchingOccur() T = 27.075000 Tnext = 27.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.080000 pESO->GetIndependentVar(): 27.080000 ==>IsSwitchingOccur() prevPhis[ 0]=11.963876, nextPhis[ 0]=11.982063 prevPhis[ 1]=-5.963876, nextPhis[ 1]=-5.982063 <==IsSwitchingOccur() T = 27.080000 Tnext = 27.085000 Time: 2.70800e+01 states: [ 1.81278e+00 1.54371e+00] derivs: [ 1.54348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.085000 pESO->GetIndependentVar(): 27.085000 ==>IsSwitchingOccur() prevPhis[ 0]=11.982063, nextPhis[ 0]=12.000175 prevPhis[ 1]=-5.982063, nextPhis[ 1]=-6.000175 <==IsSwitchingOccur() T = 27.085000 Tnext = 27.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.090000 pESO->GetIndependentVar(): 27.090000 ==>IsSwitchingOccur() prevPhis[ 0]=12.000175, nextPhis[ 0]=12.018212 prevPhis[ 1]=-6.000175, nextPhis[ 1]=-6.018212 <==IsSwitchingOccur() T = 27.090000 Tnext = 27.095000 Time: 2.70900e+01 states: [ 1.82817e+00 1.53371e+00] derivs: [ 1.53348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.095000 pESO->GetIndependentVar(): 27.095000 ==>IsSwitchingOccur() prevPhis[ 0]=12.018212, nextPhis[ 0]=12.036174 prevPhis[ 1]=-6.018212, nextPhis[ 1]=-6.036174 <==IsSwitchingOccur() T = 27.095000 Tnext = 27.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.100000 pESO->GetIndependentVar(): 27.100000 ==>IsSwitchingOccur() prevPhis[ 0]=12.036174, nextPhis[ 0]=12.054061 prevPhis[ 1]=-6.036174, nextPhis[ 1]=-6.054061 <==IsSwitchingOccur() T = 27.100000 Tnext = 27.105000 Time: 2.71000e+01 states: [ 1.84345e+00 1.52371e+00] derivs: [ 1.52348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.105000 pESO->GetIndependentVar(): 27.105000 ==>IsSwitchingOccur() prevPhis[ 0]=12.054061, nextPhis[ 0]=12.071873 prevPhis[ 1]=-6.054061, nextPhis[ 1]=-6.071873 <==IsSwitchingOccur() T = 27.105000 Tnext = 27.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.110000 pESO->GetIndependentVar(): 27.110000 ==>IsSwitchingOccur() prevPhis[ 0]=12.071873, nextPhis[ 0]=12.089609 prevPhis[ 1]=-6.071873, nextPhis[ 1]=-6.089609 <==IsSwitchingOccur() T = 27.110000 Tnext = 27.115000 Time: 2.71100e+01 states: [ 1.85863e+00 1.51371e+00] derivs: [ 1.51348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.115000 pESO->GetIndependentVar(): 27.115000 ==>IsSwitchingOccur() prevPhis[ 0]=12.089609, nextPhis[ 0]=12.107271 prevPhis[ 1]=-6.089609, nextPhis[ 1]=-6.107271 <==IsSwitchingOccur() T = 27.115000 Tnext = 27.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.120000 pESO->GetIndependentVar(): 27.120000 ==>IsSwitchingOccur() prevPhis[ 0]=12.107271, nextPhis[ 0]=12.124858 prevPhis[ 1]=-6.107271, nextPhis[ 1]=-6.124858 <==IsSwitchingOccur() T = 27.120000 Tnext = 27.125000 Time: 2.71200e+01 states: [ 1.87372e+00 1.50371e+00] derivs: [ 1.50348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.125000 pESO->GetIndependentVar(): 27.125000 ==>IsSwitchingOccur() prevPhis[ 0]=12.124858, nextPhis[ 0]=12.142370 prevPhis[ 1]=-6.124858, nextPhis[ 1]=-6.142370 <==IsSwitchingOccur() T = 27.125000 Tnext = 27.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.130000 pESO->GetIndependentVar(): 27.130000 ==>IsSwitchingOccur() prevPhis[ 0]=12.142370, nextPhis[ 0]=12.159807 prevPhis[ 1]=-6.142370, nextPhis[ 1]=-6.159807 <==IsSwitchingOccur() T = 27.130000 Tnext = 27.135000 Time: 2.71300e+01 states: [ 1.88870e+00 1.49371e+00] derivs: [ 1.49348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.135000 pESO->GetIndependentVar(): 27.135000 ==>IsSwitchingOccur() prevPhis[ 0]=12.159807, nextPhis[ 0]=12.177169 prevPhis[ 1]=-6.159807, nextPhis[ 1]=-6.177169 <==IsSwitchingOccur() T = 27.135000 Tnext = 27.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.140000 pESO->GetIndependentVar(): 27.140000 ==>IsSwitchingOccur() prevPhis[ 0]=12.177169, nextPhis[ 0]=12.194456 prevPhis[ 1]=-6.177169, nextPhis[ 1]=-6.194456 <==IsSwitchingOccur() T = 27.140000 Tnext = 27.145000 Time: 2.71400e+01 states: [ 1.90358e+00 1.48371e+00] derivs: [ 1.48348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.145000 pESO->GetIndependentVar(): 27.145000 ==>IsSwitchingOccur() prevPhis[ 0]=12.194456, nextPhis[ 0]=12.211668 prevPhis[ 1]=-6.194456, nextPhis[ 1]=-6.211668 <==IsSwitchingOccur() T = 27.145000 Tnext = 27.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.150000 pESO->GetIndependentVar(): 27.150000 ==>IsSwitchingOccur() prevPhis[ 0]=12.211668, nextPhis[ 0]=12.228805 prevPhis[ 1]=-6.211668, nextPhis[ 1]=-6.228805 <==IsSwitchingOccur() T = 27.150000 Tnext = 27.155000 Time: 2.71500e+01 states: [ 1.91836e+00 1.47371e+00] derivs: [ 1.47348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.155000 pESO->GetIndependentVar(): 27.155000 ==>IsSwitchingOccur() prevPhis[ 0]=12.228805, nextPhis[ 0]=12.245866 prevPhis[ 1]=-6.228805, nextPhis[ 1]=-6.245866 <==IsSwitchingOccur() T = 27.155000 Tnext = 27.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.160000 pESO->GetIndependentVar(): 27.160000 ==>IsSwitchingOccur() prevPhis[ 0]=12.245866, nextPhis[ 0]=12.262853 prevPhis[ 1]=-6.245866, nextPhis[ 1]=-6.262853 <==IsSwitchingOccur() T = 27.160000 Tnext = 27.165000 Time: 2.71600e+01 states: [ 1.93305e+00 1.46371e+00] derivs: [ 1.46348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.165000 pESO->GetIndependentVar(): 27.165000 ==>IsSwitchingOccur() prevPhis[ 0]=12.262853, nextPhis[ 0]=12.279765 prevPhis[ 1]=-6.262853, nextPhis[ 1]=-6.279765 <==IsSwitchingOccur() T = 27.165000 Tnext = 27.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.170000 pESO->GetIndependentVar(): 27.170000 ==>IsSwitchingOccur() prevPhis[ 0]=12.279765, nextPhis[ 0]=12.296602 prevPhis[ 1]=-6.279765, nextPhis[ 1]=-6.296602 <==IsSwitchingOccur() T = 27.170000 Tnext = 27.175000 Time: 2.71700e+01 states: [ 1.94763e+00 1.45371e+00] derivs: [ 1.45348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.175000 pESO->GetIndependentVar(): 27.175000 ==>IsSwitchingOccur() prevPhis[ 0]=12.296602, nextPhis[ 0]=12.313364 prevPhis[ 1]=-6.296602, nextPhis[ 1]=-6.313364 <==IsSwitchingOccur() T = 27.175000 Tnext = 27.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.180000 pESO->GetIndependentVar(): 27.180000 ==>IsSwitchingOccur() prevPhis[ 0]=12.313364, nextPhis[ 0]=12.330051 prevPhis[ 1]=-6.313364, nextPhis[ 1]=-6.330051 <==IsSwitchingOccur() T = 27.180000 Tnext = 27.185000 Time: 2.71800e+01 states: [ 1.96211e+00 1.44371e+00] derivs: [ 1.44348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.185000 pESO->GetIndependentVar(): 27.185000 ==>IsSwitchingOccur() prevPhis[ 0]=12.330051, nextPhis[ 0]=12.346663 prevPhis[ 1]=-6.330051, nextPhis[ 1]=-6.346663 <==IsSwitchingOccur() T = 27.185000 Tnext = 27.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.190000 pESO->GetIndependentVar(): 27.190000 ==>IsSwitchingOccur() prevPhis[ 0]=12.346663, nextPhis[ 0]=12.363200 prevPhis[ 1]=-6.346663, nextPhis[ 1]=-6.363200 <==IsSwitchingOccur() T = 27.190000 Tnext = 27.195000 Time: 2.71900e+01 states: [ 1.97650e+00 1.43371e+00] derivs: [ 1.43348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.195000 pESO->GetIndependentVar(): 27.195000 ==>IsSwitchingOccur() prevPhis[ 0]=12.363200, nextPhis[ 0]=12.379662 prevPhis[ 1]=-6.363200, nextPhis[ 1]=-6.379662 <==IsSwitchingOccur() T = 27.195000 Tnext = 27.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.200000 pESO->GetIndependentVar(): 27.200000 ==>IsSwitchingOccur() prevPhis[ 0]=12.379662, nextPhis[ 0]=12.396048 prevPhis[ 1]=-6.379662, nextPhis[ 1]=-6.396048 <==IsSwitchingOccur() T = 27.200000 Tnext = 27.205000 Time: 2.72000e+01 states: [ 1.99078e+00 1.42371e+00] derivs: [ 1.42348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.205000 pESO->GetIndependentVar(): 27.205000 ==>IsSwitchingOccur() prevPhis[ 0]=12.396048, nextPhis[ 0]=12.412360 prevPhis[ 1]=-6.396048, nextPhis[ 1]=-6.412360 <==IsSwitchingOccur() T = 27.205000 Tnext = 27.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.210000 pESO->GetIndependentVar(): 27.210000 ==>IsSwitchingOccur() prevPhis[ 0]=12.412360, nextPhis[ 0]=12.428597 prevPhis[ 1]=-6.412360, nextPhis[ 1]=-6.428597 <==IsSwitchingOccur() T = 27.210000 Tnext = 27.215000 Time: 2.72100e+01 states: [ 2.00496e+00 1.41371e+00] derivs: [ 1.41348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.215000 pESO->GetIndependentVar(): 27.215000 ==>IsSwitchingOccur() prevPhis[ 0]=12.428597, nextPhis[ 0]=12.444759 prevPhis[ 1]=-6.428597, nextPhis[ 1]=-6.444759 <==IsSwitchingOccur() T = 27.215000 Tnext = 27.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.220000 pESO->GetIndependentVar(): 27.220000 ==>IsSwitchingOccur() prevPhis[ 0]=12.444759, nextPhis[ 0]=12.460846 prevPhis[ 1]=-6.444759, nextPhis[ 1]=-6.460846 <==IsSwitchingOccur() T = 27.220000 Tnext = 27.225000 Time: 2.72200e+01 states: [ 2.01904e+00 1.40371e+00] derivs: [ 1.40348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.225000 pESO->GetIndependentVar(): 27.225000 ==>IsSwitchingOccur() prevPhis[ 0]=12.460846, nextPhis[ 0]=12.476858 prevPhis[ 1]=-6.460846, nextPhis[ 1]=-6.476858 <==IsSwitchingOccur() T = 27.225000 Tnext = 27.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.230000 pESO->GetIndependentVar(): 27.230000 ==>IsSwitchingOccur() prevPhis[ 0]=12.476858, nextPhis[ 0]=12.492795 prevPhis[ 1]=-6.476858, nextPhis[ 1]=-6.492795 <==IsSwitchingOccur() T = 27.230000 Tnext = 27.235000 Time: 2.72300e+01 states: [ 2.03303e+00 1.39371e+00] derivs: [ 1.39348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.235000 pESO->GetIndependentVar(): 27.235000 ==>IsSwitchingOccur() prevPhis[ 0]=12.492795, nextPhis[ 0]=12.508657 prevPhis[ 1]=-6.492795, nextPhis[ 1]=-6.508657 <==IsSwitchingOccur() T = 27.235000 Tnext = 27.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.240000 pESO->GetIndependentVar(): 27.240000 ==>IsSwitchingOccur() prevPhis[ 0]=12.508657, nextPhis[ 0]=12.524444 prevPhis[ 1]=-6.508657, nextPhis[ 1]=-6.524444 <==IsSwitchingOccur() T = 27.240000 Tnext = 27.245000 Time: 2.72400e+01 states: [ 2.04691e+00 1.38371e+00] derivs: [ 1.38348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.245000 pESO->GetIndependentVar(): 27.245000 ==>IsSwitchingOccur() prevPhis[ 0]=12.524444, nextPhis[ 0]=12.540155 prevPhis[ 1]=-6.524444, nextPhis[ 1]=-6.540155 <==IsSwitchingOccur() T = 27.245000 Tnext = 27.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.250000 pESO->GetIndependentVar(): 27.250000 ==>IsSwitchingOccur() prevPhis[ 0]=12.540155, nextPhis[ 0]=12.555792 prevPhis[ 1]=-6.540155, nextPhis[ 1]=-6.555792 <==IsSwitchingOccur() T = 27.250000 Tnext = 27.255000 Time: 2.72500e+01 states: [ 2.06069e+00 1.37371e+00] derivs: [ 1.37348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.255000 pESO->GetIndependentVar(): 27.255000 ==>IsSwitchingOccur() prevPhis[ 0]=12.555792, nextPhis[ 0]=12.571354 prevPhis[ 1]=-6.555792, nextPhis[ 1]=-6.571354 <==IsSwitchingOccur() T = 27.255000 Tnext = 27.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.260000 pESO->GetIndependentVar(): 27.260000 ==>IsSwitchingOccur() prevPhis[ 0]=12.571354, nextPhis[ 0]=12.586841 prevPhis[ 1]=-6.571354, nextPhis[ 1]=-6.586841 <==IsSwitchingOccur() T = 27.260000 Tnext = 27.265000 Time: 2.72600e+01 states: [ 2.07438e+00 1.36371e+00] derivs: [ 1.36348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.265000 pESO->GetIndependentVar(): 27.265000 ==>IsSwitchingOccur() prevPhis[ 0]=12.586841, nextPhis[ 0]=12.602253 prevPhis[ 1]=-6.586841, nextPhis[ 1]=-6.602253 <==IsSwitchingOccur() T = 27.265000 Tnext = 27.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.270000 pESO->GetIndependentVar(): 27.270000 ==>IsSwitchingOccur() prevPhis[ 0]=12.602253, nextPhis[ 0]=12.617590 prevPhis[ 1]=-6.602253, nextPhis[ 1]=-6.617590 <==IsSwitchingOccur() T = 27.270000 Tnext = 27.275000 Time: 2.72700e+01 states: [ 2.08796e+00 1.35371e+00] derivs: [ 1.35348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.275000 pESO->GetIndependentVar(): 27.275000 ==>IsSwitchingOccur() prevPhis[ 0]=12.617590, nextPhis[ 0]=12.632852 prevPhis[ 1]=-6.617590, nextPhis[ 1]=-6.632852 <==IsSwitchingOccur() T = 27.275000 Tnext = 27.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.280000 pESO->GetIndependentVar(): 27.280000 ==>IsSwitchingOccur() prevPhis[ 0]=12.632852, nextPhis[ 0]=12.648039 prevPhis[ 1]=-6.632852, nextPhis[ 1]=-6.648039 <==IsSwitchingOccur() T = 27.280000 Tnext = 27.285000 Time: 2.72800e+01 states: [ 2.10144e+00 1.34371e+00] derivs: [ 1.34348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.285000 pESO->GetIndependentVar(): 27.285000 ==>IsSwitchingOccur() prevPhis[ 0]=12.648039, nextPhis[ 0]=12.663151 prevPhis[ 1]=-6.648039, nextPhis[ 1]=-6.663151 <==IsSwitchingOccur() T = 27.285000 Tnext = 27.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.290000 pESO->GetIndependentVar(): 27.290000 ==>IsSwitchingOccur() prevPhis[ 0]=12.663151, nextPhis[ 0]=12.678187 prevPhis[ 1]=-6.663151, nextPhis[ 1]=-6.678187 <==IsSwitchingOccur() T = 27.290000 Tnext = 27.295000 Time: 2.72900e+01 states: [ 2.11483e+00 1.33371e+00] derivs: [ 1.33348e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.295000 pESO->GetIndependentVar(): 27.295000 ==>IsSwitchingOccur() prevPhis[ 0]=12.678187, nextPhis[ 0]=12.693145 prevPhis[ 1]=-6.678187, nextPhis[ 1]=-6.693145 <==IsSwitchingOccur() T = 27.295000 Tnext = 27.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.300000 pESO->GetIndependentVar(): 27.300000 ==>IsSwitchingOccur() prevPhis[ 0]=12.693145, nextPhis[ 0]=12.708028 prevPhis[ 1]=-6.693145, nextPhis[ 1]=-6.708028 <==IsSwitchingOccur() T = 27.300000 Tnext = 27.305000 Time: 2.73000e+01 states: [ 2.12811e+00 1.32371e+00] derivs: [ 1.32347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.305000 pESO->GetIndependentVar(): 27.305000 ==>IsSwitchingOccur() prevPhis[ 0]=12.708028, nextPhis[ 0]=12.722836 prevPhis[ 1]=-6.708028, nextPhis[ 1]=-6.722836 <==IsSwitchingOccur() T = 27.305000 Tnext = 27.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.310000 pESO->GetIndependentVar(): 27.310000 ==>IsSwitchingOccur() prevPhis[ 0]=12.722836, nextPhis[ 0]=12.737569 prevPhis[ 1]=-6.722836, nextPhis[ 1]=-6.737569 <==IsSwitchingOccur() T = 27.310000 Tnext = 27.315000 Time: 2.73100e+01 states: [ 2.14129e+00 1.31371e+00] derivs: [ 1.31347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.315000 pESO->GetIndependentVar(): 27.315000 ==>IsSwitchingOccur() prevPhis[ 0]=12.737569, nextPhis[ 0]=12.752227 prevPhis[ 1]=-6.737569, nextPhis[ 1]=-6.752227 <==IsSwitchingOccur() T = 27.315000 Tnext = 27.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.320000 pESO->GetIndependentVar(): 27.320000 ==>IsSwitchingOccur() prevPhis[ 0]=12.752227, nextPhis[ 0]=12.766809 prevPhis[ 1]=-6.752227, nextPhis[ 1]=-6.766809 <==IsSwitchingOccur() T = 27.320000 Tnext = 27.325000 Time: 2.73200e+01 states: [ 2.15437e+00 1.30371e+00] derivs: [ 1.30347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.325000 pESO->GetIndependentVar(): 27.325000 ==>IsSwitchingOccur() prevPhis[ 0]=12.766809, nextPhis[ 0]=12.781317 prevPhis[ 1]=-6.766809, nextPhis[ 1]=-6.781317 <==IsSwitchingOccur() T = 27.325000 Tnext = 27.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.330000 pESO->GetIndependentVar(): 27.330000 ==>IsSwitchingOccur() prevPhis[ 0]=12.781317, nextPhis[ 0]=12.795750 prevPhis[ 1]=-6.781317, nextPhis[ 1]=-6.795750 <==IsSwitchingOccur() T = 27.330000 Tnext = 27.335000 Time: 2.73300e+01 states: [ 2.16735e+00 1.29371e+00] derivs: [ 1.29347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.335000 pESO->GetIndependentVar(): 27.335000 ==>IsSwitchingOccur() prevPhis[ 0]=12.795750, nextPhis[ 0]=12.810108 prevPhis[ 1]=-6.795750, nextPhis[ 1]=-6.810108 <==IsSwitchingOccur() T = 27.335000 Tnext = 27.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.340000 pESO->GetIndependentVar(): 27.340000 ==>IsSwitchingOccur() prevPhis[ 0]=12.810108, nextPhis[ 0]=12.824391 prevPhis[ 1]=-6.810108, nextPhis[ 1]=-6.824391 <==IsSwitchingOccur() T = 27.340000 Tnext = 27.345000 Time: 2.73400e+01 states: [ 2.18023e+00 1.28371e+00] derivs: [ 1.28347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.345000 pESO->GetIndependentVar(): 27.345000 ==>IsSwitchingOccur() prevPhis[ 0]=12.824391, nextPhis[ 0]=12.838598 prevPhis[ 1]=-6.824391, nextPhis[ 1]=-6.838598 <==IsSwitchingOccur() T = 27.345000 Tnext = 27.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.350000 pESO->GetIndependentVar(): 27.350000 ==>IsSwitchingOccur() prevPhis[ 0]=12.838598, nextPhis[ 0]=12.852731 prevPhis[ 1]=-6.838598, nextPhis[ 1]=-6.852731 <==IsSwitchingOccur() T = 27.350000 Tnext = 27.355000 Time: 2.73500e+01 states: [ 2.19301e+00 1.27371e+00] derivs: [ 1.27347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.355000 pESO->GetIndependentVar(): 27.355000 ==>IsSwitchingOccur() prevPhis[ 0]=12.852731, nextPhis[ 0]=12.866789 prevPhis[ 1]=-6.852731, nextPhis[ 1]=-6.866789 <==IsSwitchingOccur() T = 27.355000 Tnext = 27.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.360000 pESO->GetIndependentVar(): 27.360000 ==>IsSwitchingOccur() prevPhis[ 0]=12.866789, nextPhis[ 0]=12.880772 prevPhis[ 1]=-6.866789, nextPhis[ 1]=-6.880772 <==IsSwitchingOccur() T = 27.360000 Tnext = 27.365000 Time: 2.73600e+01 states: [ 2.20569e+00 1.26371e+00] derivs: [ 1.26347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.365000 pESO->GetIndependentVar(): 27.365000 ==>IsSwitchingOccur() prevPhis[ 0]=12.880772, nextPhis[ 0]=12.894680 prevPhis[ 1]=-6.880772, nextPhis[ 1]=-6.894680 <==IsSwitchingOccur() T = 27.365000 Tnext = 27.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.370000 pESO->GetIndependentVar(): 27.370000 ==>IsSwitchingOccur() prevPhis[ 0]=12.894680, nextPhis[ 0]=12.908512 prevPhis[ 1]=-6.894680, nextPhis[ 1]=-6.908512 <==IsSwitchingOccur() T = 27.370000 Tnext = 27.375000 Time: 2.73700e+01 states: [ 2.21827e+00 1.25371e+00] derivs: [ 1.25347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.375000 pESO->GetIndependentVar(): 27.375000 ==>IsSwitchingOccur() prevPhis[ 0]=12.908512, nextPhis[ 0]=12.922270 prevPhis[ 1]=-6.908512, nextPhis[ 1]=-6.922270 <==IsSwitchingOccur() T = 27.375000 Tnext = 27.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.380000 pESO->GetIndependentVar(): 27.380000 ==>IsSwitchingOccur() prevPhis[ 0]=12.922270, nextPhis[ 0]=12.935953 prevPhis[ 1]=-6.922270, nextPhis[ 1]=-6.935953 <==IsSwitchingOccur() T = 27.380000 Tnext = 27.385000 Time: 2.73800e+01 states: [ 2.23075e+00 1.24371e+00] derivs: [ 1.24347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.385000 pESO->GetIndependentVar(): 27.385000 ==>IsSwitchingOccur() prevPhis[ 0]=12.935953, nextPhis[ 0]=12.949561 prevPhis[ 1]=-6.935953, nextPhis[ 1]=-6.949561 <==IsSwitchingOccur() T = 27.385000 Tnext = 27.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.390000 pESO->GetIndependentVar(): 27.390000 ==>IsSwitchingOccur() prevPhis[ 0]=12.949561, nextPhis[ 0]=12.963094 prevPhis[ 1]=-6.949561, nextPhis[ 1]=-6.963094 <==IsSwitchingOccur() T = 27.390000 Tnext = 27.395000 Time: 2.73900e+01 states: [ 2.24313e+00 1.23371e+00] derivs: [ 1.23347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.395000 pESO->GetIndependentVar(): 27.395000 ==>IsSwitchingOccur() prevPhis[ 0]=12.963094, nextPhis[ 0]=12.976551 prevPhis[ 1]=-6.963094, nextPhis[ 1]=-6.976551 <==IsSwitchingOccur() T = 27.395000 Tnext = 27.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.400000 pESO->GetIndependentVar(): 27.400000 ==>IsSwitchingOccur() prevPhis[ 0]=12.976551, nextPhis[ 0]=12.989934 prevPhis[ 1]=-6.976551, nextPhis[ 1]=-6.989934 <==IsSwitchingOccur() T = 27.400000 Tnext = 27.405000 Time: 2.74000e+01 states: [ 2.25541e+00 1.22371e+00] derivs: [ 1.22347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.405000 pESO->GetIndependentVar(): 27.405000 ==>IsSwitchingOccur() prevPhis[ 0]=12.989934, nextPhis[ 0]=13.003242 prevPhis[ 1]=-6.989934, nextPhis[ 1]=-7.003242 <==IsSwitchingOccur() T = 27.405000 Tnext = 27.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.410000 pESO->GetIndependentVar(): 27.410000 ==>IsSwitchingOccur() prevPhis[ 0]=13.003242, nextPhis[ 0]=13.016475 prevPhis[ 1]=-7.003242, nextPhis[ 1]=-7.016475 <==IsSwitchingOccur() T = 27.410000 Tnext = 27.415000 Time: 2.74100e+01 states: [ 2.26759e+00 1.21371e+00] derivs: [ 1.21347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.415000 pESO->GetIndependentVar(): 27.415000 ==>IsSwitchingOccur() prevPhis[ 0]=13.016475, nextPhis[ 0]=13.029633 prevPhis[ 1]=-7.016475, nextPhis[ 1]=-7.029633 <==IsSwitchingOccur() T = 27.415000 Tnext = 27.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.420000 pESO->GetIndependentVar(): 27.420000 ==>IsSwitchingOccur() prevPhis[ 0]=13.029633, nextPhis[ 0]=13.042716 prevPhis[ 1]=-7.029633, nextPhis[ 1]=-7.042716 <==IsSwitchingOccur() T = 27.420000 Tnext = 27.425000 Time: 2.74200e+01 states: [ 2.27967e+00 1.20371e+00] derivs: [ 1.20347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.425000 pESO->GetIndependentVar(): 27.425000 ==>IsSwitchingOccur() prevPhis[ 0]=13.042716, nextPhis[ 0]=13.055723 prevPhis[ 1]=-7.042716, nextPhis[ 1]=-7.055723 <==IsSwitchingOccur() T = 27.425000 Tnext = 27.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.430000 pESO->GetIndependentVar(): 27.430000 ==>IsSwitchingOccur() prevPhis[ 0]=13.055723, nextPhis[ 0]=13.068656 prevPhis[ 1]=-7.055723, nextPhis[ 1]=-7.068656 <==IsSwitchingOccur() T = 27.430000 Tnext = 27.435000 Time: 2.74300e+01 states: [ 2.29165e+00 1.19371e+00] derivs: [ 1.19347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.435000 pESO->GetIndependentVar(): 27.435000 ==>IsSwitchingOccur() prevPhis[ 0]=13.068656, nextPhis[ 0]=13.081514 prevPhis[ 1]=-7.068656, nextPhis[ 1]=-7.081514 <==IsSwitchingOccur() T = 27.435000 Tnext = 27.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.440000 pESO->GetIndependentVar(): 27.440000 ==>IsSwitchingOccur() prevPhis[ 0]=13.081514, nextPhis[ 0]=13.094297 prevPhis[ 1]=-7.081514, nextPhis[ 1]=-7.094297 <==IsSwitchingOccur() T = 27.440000 Tnext = 27.445000 Time: 2.74400e+01 states: [ 2.30353e+00 1.18371e+00] derivs: [ 1.18347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.445000 pESO->GetIndependentVar(): 27.445000 ==>IsSwitchingOccur() prevPhis[ 0]=13.094297, nextPhis[ 0]=13.107005 prevPhis[ 1]=-7.094297, nextPhis[ 1]=-7.107005 <==IsSwitchingOccur() T = 27.445000 Tnext = 27.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.450000 pESO->GetIndependentVar(): 27.450000 ==>IsSwitchingOccur() prevPhis[ 0]=13.107005, nextPhis[ 0]=13.119637 prevPhis[ 1]=-7.107005, nextPhis[ 1]=-7.119637 <==IsSwitchingOccur() T = 27.450000 Tnext = 27.455000 Time: 2.74500e+01 states: [ 2.31531e+00 1.17371e+00] derivs: [ 1.17347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.455000 pESO->GetIndependentVar(): 27.455000 ==>IsSwitchingOccur() prevPhis[ 0]=13.119637, nextPhis[ 0]=13.132195 prevPhis[ 1]=-7.119637, nextPhis[ 1]=-7.132195 <==IsSwitchingOccur() T = 27.455000 Tnext = 27.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.460000 pESO->GetIndependentVar(): 27.460000 ==>IsSwitchingOccur() prevPhis[ 0]=13.132195, nextPhis[ 0]=13.144678 prevPhis[ 1]=-7.132195, nextPhis[ 1]=-7.144678 <==IsSwitchingOccur() T = 27.460000 Tnext = 27.465000 Time: 2.74600e+01 states: [ 2.32699e+00 1.16371e+00] derivs: [ 1.16347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.465000 pESO->GetIndependentVar(): 27.465000 ==>IsSwitchingOccur() prevPhis[ 0]=13.144678, nextPhis[ 0]=13.157086 prevPhis[ 1]=-7.144678, nextPhis[ 1]=-7.157086 <==IsSwitchingOccur() T = 27.465000 Tnext = 27.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.470000 pESO->GetIndependentVar(): 27.470000 ==>IsSwitchingOccur() prevPhis[ 0]=13.157086, nextPhis[ 0]=13.169419 prevPhis[ 1]=-7.157086, nextPhis[ 1]=-7.169419 <==IsSwitchingOccur() T = 27.470000 Tnext = 27.475000 Time: 2.74700e+01 states: [ 2.33857e+00 1.15371e+00] derivs: [ 1.15347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.475000 pESO->GetIndependentVar(): 27.475000 ==>IsSwitchingOccur() prevPhis[ 0]=13.169419, nextPhis[ 0]=13.181676 prevPhis[ 1]=-7.169419, nextPhis[ 1]=-7.181676 <==IsSwitchingOccur() T = 27.475000 Tnext = 27.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.480000 pESO->GetIndependentVar(): 27.480000 ==>IsSwitchingOccur() prevPhis[ 0]=13.181676, nextPhis[ 0]=13.193859 prevPhis[ 1]=-7.181676, nextPhis[ 1]=-7.193859 <==IsSwitchingOccur() T = 27.480000 Tnext = 27.485000 Time: 2.74800e+01 states: [ 2.35005e+00 1.14371e+00] derivs: [ 1.14347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.485000 pESO->GetIndependentVar(): 27.485000 ==>IsSwitchingOccur() prevPhis[ 0]=13.193859, nextPhis[ 0]=13.205967 prevPhis[ 1]=-7.193859, nextPhis[ 1]=-7.205967 <==IsSwitchingOccur() T = 27.485000 Tnext = 27.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.490000 pESO->GetIndependentVar(): 27.490000 ==>IsSwitchingOccur() prevPhis[ 0]=13.205967, nextPhis[ 0]=13.218000 prevPhis[ 1]=-7.205967, nextPhis[ 1]=-7.218000 <==IsSwitchingOccur() T = 27.490000 Tnext = 27.495000 Time: 2.74900e+01 states: [ 2.36143e+00 1.13371e+00] derivs: [ 1.13347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.495000 pESO->GetIndependentVar(): 27.495000 ==>IsSwitchingOccur() prevPhis[ 0]=13.218000, nextPhis[ 0]=13.229958 prevPhis[ 1]=-7.218000, nextPhis[ 1]=-7.229958 <==IsSwitchingOccur() T = 27.495000 Tnext = 27.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.500000 pESO->GetIndependentVar(): 27.500000 ==>IsSwitchingOccur() prevPhis[ 0]=13.229958, nextPhis[ 0]=13.241841 prevPhis[ 1]=-7.229958, nextPhis[ 1]=-7.241841 <==IsSwitchingOccur() T = 27.500000 Tnext = 27.505000 Time: 2.75000e+01 states: [ 2.37271e+00 1.12371e+00] derivs: [ 1.12347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.505000 pESO->GetIndependentVar(): 27.505000 ==>IsSwitchingOccur() prevPhis[ 0]=13.241841, nextPhis[ 0]=13.253648 prevPhis[ 1]=-7.241841, nextPhis[ 1]=-7.253648 <==IsSwitchingOccur() T = 27.505000 Tnext = 27.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.510000 pESO->GetIndependentVar(): 27.510000 ==>IsSwitchingOccur() prevPhis[ 0]=13.253648, nextPhis[ 0]=13.265381 prevPhis[ 1]=-7.253648, nextPhis[ 1]=-7.265381 <==IsSwitchingOccur() T = 27.510000 Tnext = 27.515000 Time: 2.75100e+01 states: [ 2.38389e+00 1.11371e+00] derivs: [ 1.11347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.515000 pESO->GetIndependentVar(): 27.515000 ==>IsSwitchingOccur() prevPhis[ 0]=13.265381, nextPhis[ 0]=13.277039 prevPhis[ 1]=-7.265381, nextPhis[ 1]=-7.277039 <==IsSwitchingOccur() T = 27.515000 Tnext = 27.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.520000 pESO->GetIndependentVar(): 27.520000 ==>IsSwitchingOccur() prevPhis[ 0]=13.277039, nextPhis[ 0]=13.288622 prevPhis[ 1]=-7.277039, nextPhis[ 1]=-7.288622 <==IsSwitchingOccur() T = 27.520000 Tnext = 27.525000 Time: 2.75200e+01 states: [ 2.39497e+00 1.10371e+00] derivs: [ 1.10347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.525000 pESO->GetIndependentVar(): 27.525000 ==>IsSwitchingOccur() prevPhis[ 0]=13.288622, nextPhis[ 0]=13.300130 prevPhis[ 1]=-7.288622, nextPhis[ 1]=-7.300130 <==IsSwitchingOccur() T = 27.525000 Tnext = 27.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.530000 pESO->GetIndependentVar(): 27.530000 ==>IsSwitchingOccur() prevPhis[ 0]=13.300130, nextPhis[ 0]=13.311562 prevPhis[ 1]=-7.300130, nextPhis[ 1]=-7.311562 <==IsSwitchingOccur() T = 27.530000 Tnext = 27.535000 Time: 2.75300e+01 states: [ 2.40595e+00 1.09371e+00] derivs: [ 1.09347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.535000 pESO->GetIndependentVar(): 27.535000 ==>IsSwitchingOccur() prevPhis[ 0]=13.311562, nextPhis[ 0]=13.322920 prevPhis[ 1]=-7.311562, nextPhis[ 1]=-7.322920 <==IsSwitchingOccur() T = 27.535000 Tnext = 27.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.540000 pESO->GetIndependentVar(): 27.540000 ==>IsSwitchingOccur() prevPhis[ 0]=13.322920, nextPhis[ 0]=13.334203 prevPhis[ 1]=-7.322920, nextPhis[ 1]=-7.334203 <==IsSwitchingOccur() T = 27.540000 Tnext = 27.545000 Time: 2.75400e+01 states: [ 2.41683e+00 1.08371e+00] derivs: [ 1.08347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.545000 pESO->GetIndependentVar(): 27.545000 ==>IsSwitchingOccur() prevPhis[ 0]=13.334203, nextPhis[ 0]=13.345411 prevPhis[ 1]=-7.334203, nextPhis[ 1]=-7.345411 <==IsSwitchingOccur() T = 27.545000 Tnext = 27.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.550000 pESO->GetIndependentVar(): 27.550000 ==>IsSwitchingOccur() prevPhis[ 0]=13.345411, nextPhis[ 0]=13.356544 prevPhis[ 1]=-7.345411, nextPhis[ 1]=-7.356544 <==IsSwitchingOccur() T = 27.550000 Tnext = 27.555000 Time: 2.75500e+01 states: [ 2.42761e+00 1.07371e+00] derivs: [ 1.07347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.555000 pESO->GetIndependentVar(): 27.555000 ==>IsSwitchingOccur() prevPhis[ 0]=13.356544, nextPhis[ 0]=13.367601 prevPhis[ 1]=-7.356544, nextPhis[ 1]=-7.367601 <==IsSwitchingOccur() T = 27.555000 Tnext = 27.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.560000 pESO->GetIndependentVar(): 27.560000 ==>IsSwitchingOccur() prevPhis[ 0]=13.367601, nextPhis[ 0]=13.378584 prevPhis[ 1]=-7.367601, nextPhis[ 1]=-7.378584 <==IsSwitchingOccur() T = 27.560000 Tnext = 27.565000 Time: 2.75600e+01 states: [ 2.43829e+00 1.06371e+00] derivs: [ 1.06347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.565000 pESO->GetIndependentVar(): 27.565000 ==>IsSwitchingOccur() prevPhis[ 0]=13.378584, nextPhis[ 0]=13.389492 prevPhis[ 1]=-7.378584, nextPhis[ 1]=-7.389492 <==IsSwitchingOccur() T = 27.565000 Tnext = 27.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.570000 pESO->GetIndependentVar(): 27.570000 ==>IsSwitchingOccur() prevPhis[ 0]=13.389492, nextPhis[ 0]=13.400325 prevPhis[ 1]=-7.389492, nextPhis[ 1]=-7.400325 <==IsSwitchingOccur() T = 27.570000 Tnext = 27.575000 Time: 2.75700e+01 states: [ 2.44887e+00 1.05371e+00] derivs: [ 1.05347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.575000 pESO->GetIndependentVar(): 27.575000 ==>IsSwitchingOccur() prevPhis[ 0]=13.400325, nextPhis[ 0]=13.411083 prevPhis[ 1]=-7.400325, nextPhis[ 1]=-7.411083 <==IsSwitchingOccur() T = 27.575000 Tnext = 27.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.580000 pESO->GetIndependentVar(): 27.580000 ==>IsSwitchingOccur() prevPhis[ 0]=13.411083, nextPhis[ 0]=13.421765 prevPhis[ 1]=-7.411083, nextPhis[ 1]=-7.421765 <==IsSwitchingOccur() T = 27.580000 Tnext = 27.585000 Time: 2.75800e+01 states: [ 2.45935e+00 1.04371e+00] derivs: [ 1.04347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.585000 pESO->GetIndependentVar(): 27.585000 ==>IsSwitchingOccur() prevPhis[ 0]=13.421765, nextPhis[ 0]=13.432373 prevPhis[ 1]=-7.421765, nextPhis[ 1]=-7.432373 <==IsSwitchingOccur() T = 27.585000 Tnext = 27.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.590000 pESO->GetIndependentVar(): 27.590000 ==>IsSwitchingOccur() prevPhis[ 0]=13.432373, nextPhis[ 0]=13.442906 prevPhis[ 1]=-7.432373, nextPhis[ 1]=-7.442906 <==IsSwitchingOccur() T = 27.590000 Tnext = 27.595000 Time: 2.75900e+01 states: [ 2.46973e+00 1.03371e+00] derivs: [ 1.03347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.595000 pESO->GetIndependentVar(): 27.595000 ==>IsSwitchingOccur() prevPhis[ 0]=13.442906, nextPhis[ 0]=13.453364 prevPhis[ 1]=-7.442906, nextPhis[ 1]=-7.453364 <==IsSwitchingOccur() T = 27.595000 Tnext = 27.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.600000 pESO->GetIndependentVar(): 27.600000 ==>IsSwitchingOccur() prevPhis[ 0]=13.453364, nextPhis[ 0]=13.463747 prevPhis[ 1]=-7.453364, nextPhis[ 1]=-7.463747 <==IsSwitchingOccur() T = 27.600000 Tnext = 27.605000 Time: 2.76000e+01 states: [ 2.48001e+00 1.02371e+00] derivs: [ 1.02347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.605000 pESO->GetIndependentVar(): 27.605000 ==>IsSwitchingOccur() prevPhis[ 0]=13.463747, nextPhis[ 0]=13.474055 prevPhis[ 1]=-7.463747, nextPhis[ 1]=-7.474055 <==IsSwitchingOccur() T = 27.605000 Tnext = 27.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.610000 pESO->GetIndependentVar(): 27.610000 ==>IsSwitchingOccur() prevPhis[ 0]=13.474055, nextPhis[ 0]=13.484287 prevPhis[ 1]=-7.474055, nextPhis[ 1]=-7.484287 <==IsSwitchingOccur() T = 27.610000 Tnext = 27.615000 Time: 2.76100e+01 states: [ 2.49019e+00 1.01371e+00] derivs: [ 1.01347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.615000 pESO->GetIndependentVar(): 27.615000 ==>IsSwitchingOccur() prevPhis[ 0]=13.484287, nextPhis[ 0]=13.494445 prevPhis[ 1]=-7.484287, nextPhis[ 1]=-7.494445 <==IsSwitchingOccur() T = 27.615000 Tnext = 27.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.620000 pESO->GetIndependentVar(): 27.620000 ==>IsSwitchingOccur() prevPhis[ 0]=13.494445, nextPhis[ 0]=13.504528 prevPhis[ 1]=-7.494445, nextPhis[ 1]=-7.504528 <==IsSwitchingOccur() T = 27.620000 Tnext = 27.625000 Time: 2.76200e+01 states: [ 2.50027e+00 1.00371e+00] derivs: [ 1.00347e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.625000 pESO->GetIndependentVar(): 27.625000 ==>IsSwitchingOccur() prevPhis[ 0]=13.504528, nextPhis[ 0]=13.514536 prevPhis[ 1]=-7.504528, nextPhis[ 1]=-7.514536 <==IsSwitchingOccur() T = 27.625000 Tnext = 27.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.630000 pESO->GetIndependentVar(): 27.630000 ==>IsSwitchingOccur() prevPhis[ 0]=13.514536, nextPhis[ 0]=13.524469 prevPhis[ 1]=-7.514536, nextPhis[ 1]=-7.524469 <==IsSwitchingOccur() T = 27.630000 Tnext = 27.635000 Time: 2.76300e+01 states: [ 2.51025e+00 9.93711e-01] derivs: [ 9.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.635000 pESO->GetIndependentVar(): 27.635000 ==>IsSwitchingOccur() prevPhis[ 0]=13.524469, nextPhis[ 0]=13.534326 prevPhis[ 1]=-7.524469, nextPhis[ 1]=-7.534326 <==IsSwitchingOccur() T = 27.635000 Tnext = 27.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.640000 pESO->GetIndependentVar(): 27.640000 ==>IsSwitchingOccur() prevPhis[ 0]=13.534326, nextPhis[ 0]=13.544109 prevPhis[ 1]=-7.534326, nextPhis[ 1]=-7.544109 <==IsSwitchingOccur() T = 27.640000 Tnext = 27.645000 Time: 2.76400e+01 states: [ 2.52013e+00 9.83711e-01] derivs: [ 9.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.645000 pESO->GetIndependentVar(): 27.645000 ==>IsSwitchingOccur() prevPhis[ 0]=13.544109, nextPhis[ 0]=13.553817 prevPhis[ 1]=-7.544109, nextPhis[ 1]=-7.553817 <==IsSwitchingOccur() T = 27.645000 Tnext = 27.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.650000 pESO->GetIndependentVar(): 27.650000 ==>IsSwitchingOccur() prevPhis[ 0]=13.553817, nextPhis[ 0]=13.563450 prevPhis[ 1]=-7.553817, nextPhis[ 1]=-7.563450 <==IsSwitchingOccur() T = 27.650000 Tnext = 27.655000 Time: 2.76500e+01 states: [ 2.52991e+00 9.73711e-01] derivs: [ 9.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.655000 pESO->GetIndependentVar(): 27.655000 ==>IsSwitchingOccur() prevPhis[ 0]=13.563450, nextPhis[ 0]=13.573008 prevPhis[ 1]=-7.563450, nextPhis[ 1]=-7.573008 <==IsSwitchingOccur() T = 27.655000 Tnext = 27.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.660000 pESO->GetIndependentVar(): 27.660000 ==>IsSwitchingOccur() prevPhis[ 0]=13.573008, nextPhis[ 0]=13.582490 prevPhis[ 1]=-7.573008, nextPhis[ 1]=-7.582490 <==IsSwitchingOccur() T = 27.660000 Tnext = 27.665000 Time: 2.76600e+01 states: [ 2.53959e+00 9.63711e-01] derivs: [ 9.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.665000 pESO->GetIndependentVar(): 27.665000 ==>IsSwitchingOccur() prevPhis[ 0]=13.582490, nextPhis[ 0]=13.591898 prevPhis[ 1]=-7.582490, nextPhis[ 1]=-7.591898 <==IsSwitchingOccur() T = 27.665000 Tnext = 27.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.670000 pESO->GetIndependentVar(): 27.670000 ==>IsSwitchingOccur() prevPhis[ 0]=13.591898, nextPhis[ 0]=13.601231 prevPhis[ 1]=-7.591898, nextPhis[ 1]=-7.601231 <==IsSwitchingOccur() T = 27.670000 Tnext = 27.675000 Time: 2.76700e+01 states: [ 2.54917e+00 9.53711e-01] derivs: [ 9.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.675000 pESO->GetIndependentVar(): 27.675000 ==>IsSwitchingOccur() prevPhis[ 0]=13.601231, nextPhis[ 0]=13.610489 prevPhis[ 1]=-7.601231, nextPhis[ 1]=-7.610489 <==IsSwitchingOccur() T = 27.675000 Tnext = 27.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.680000 pESO->GetIndependentVar(): 27.680000 ==>IsSwitchingOccur() prevPhis[ 0]=13.610489, nextPhis[ 0]=13.619672 prevPhis[ 1]=-7.610489, nextPhis[ 1]=-7.619672 <==IsSwitchingOccur() T = 27.680000 Tnext = 27.685000 Time: 2.76800e+01 states: [ 2.55865e+00 9.43711e-01] derivs: [ 9.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.685000 pESO->GetIndependentVar(): 27.685000 ==>IsSwitchingOccur() prevPhis[ 0]=13.619672, nextPhis[ 0]=13.628779 prevPhis[ 1]=-7.619672, nextPhis[ 1]=-7.628779 <==IsSwitchingOccur() T = 27.685000 Tnext = 27.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.690000 pESO->GetIndependentVar(): 27.690000 ==>IsSwitchingOccur() prevPhis[ 0]=13.628779, nextPhis[ 0]=13.637812 prevPhis[ 1]=-7.628779, nextPhis[ 1]=-7.637812 <==IsSwitchingOccur() T = 27.690000 Tnext = 27.695000 Time: 2.76900e+01 states: [ 2.56803e+00 9.33711e-01] derivs: [ 9.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.695000 pESO->GetIndependentVar(): 27.695000 ==>IsSwitchingOccur() prevPhis[ 0]=13.637812, nextPhis[ 0]=13.646770 prevPhis[ 1]=-7.637812, nextPhis[ 1]=-7.646770 <==IsSwitchingOccur() T = 27.695000 Tnext = 27.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.700000 pESO->GetIndependentVar(): 27.700000 ==>IsSwitchingOccur() prevPhis[ 0]=13.646770, nextPhis[ 0]=13.655653 prevPhis[ 1]=-7.646770, nextPhis[ 1]=-7.655653 <==IsSwitchingOccur() T = 27.700000 Tnext = 27.705000 Time: 2.77000e+01 states: [ 2.57731e+00 9.23711e-01] derivs: [ 9.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.705000 pESO->GetIndependentVar(): 27.705000 ==>IsSwitchingOccur() prevPhis[ 0]=13.655653, nextPhis[ 0]=13.664461 prevPhis[ 1]=-7.655653, nextPhis[ 1]=-7.664461 <==IsSwitchingOccur() T = 27.705000 Tnext = 27.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.710000 pESO->GetIndependentVar(): 27.710000 ==>IsSwitchingOccur() prevPhis[ 0]=13.664461, nextPhis[ 0]=13.673194 prevPhis[ 1]=-7.664461, nextPhis[ 1]=-7.673194 <==IsSwitchingOccur() T = 27.710000 Tnext = 27.715000 Time: 2.77100e+01 states: [ 2.58649e+00 9.13711e-01] derivs: [ 9.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.715000 pESO->GetIndependentVar(): 27.715000 ==>IsSwitchingOccur() prevPhis[ 0]=13.673194, nextPhis[ 0]=13.681851 prevPhis[ 1]=-7.673194, nextPhis[ 1]=-7.681851 <==IsSwitchingOccur() T = 27.715000 Tnext = 27.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.720000 pESO->GetIndependentVar(): 27.720000 ==>IsSwitchingOccur() prevPhis[ 0]=13.681851, nextPhis[ 0]=13.690434 prevPhis[ 1]=-7.681851, nextPhis[ 1]=-7.690434 <==IsSwitchingOccur() T = 27.720000 Tnext = 27.725000 Time: 2.77200e+01 states: [ 2.59557e+00 9.03711e-01] derivs: [ 9.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.725000 pESO->GetIndependentVar(): 27.725000 ==>IsSwitchingOccur() prevPhis[ 0]=13.690434, nextPhis[ 0]=13.698942 prevPhis[ 1]=-7.690434, nextPhis[ 1]=-7.698942 <==IsSwitchingOccur() T = 27.725000 Tnext = 27.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.730000 pESO->GetIndependentVar(): 27.730000 ==>IsSwitchingOccur() prevPhis[ 0]=13.698942, nextPhis[ 0]=13.707375 prevPhis[ 1]=-7.698942, nextPhis[ 1]=-7.707375 <==IsSwitchingOccur() T = 27.730000 Tnext = 27.735000 Time: 2.77300e+01 states: [ 2.60455e+00 8.93711e-01] derivs: [ 8.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.735000 pESO->GetIndependentVar(): 27.735000 ==>IsSwitchingOccur() prevPhis[ 0]=13.707375, nextPhis[ 0]=13.715733 prevPhis[ 1]=-7.707375, nextPhis[ 1]=-7.715733 <==IsSwitchingOccur() T = 27.735000 Tnext = 27.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.740000 pESO->GetIndependentVar(): 27.740000 ==>IsSwitchingOccur() prevPhis[ 0]=13.715733, nextPhis[ 0]=13.724015 prevPhis[ 1]=-7.715733, nextPhis[ 1]=-7.724015 <==IsSwitchingOccur() T = 27.740000 Tnext = 27.745000 Time: 2.77400e+01 states: [ 2.61343e+00 8.83711e-01] derivs: [ 8.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.745000 pESO->GetIndependentVar(): 27.745000 ==>IsSwitchingOccur() prevPhis[ 0]=13.724015, nextPhis[ 0]=13.732223 prevPhis[ 1]=-7.724015, nextPhis[ 1]=-7.732223 <==IsSwitchingOccur() T = 27.745000 Tnext = 27.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.750000 pESO->GetIndependentVar(): 27.750000 ==>IsSwitchingOccur() prevPhis[ 0]=13.732223, nextPhis[ 0]=13.740356 prevPhis[ 1]=-7.732223, nextPhis[ 1]=-7.740356 <==IsSwitchingOccur() T = 27.750000 Tnext = 27.755000 Time: 2.77500e+01 states: [ 2.62221e+00 8.73711e-01] derivs: [ 8.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.755000 pESO->GetIndependentVar(): 27.755000 ==>IsSwitchingOccur() prevPhis[ 0]=13.740356, nextPhis[ 0]=13.748414 prevPhis[ 1]=-7.740356, nextPhis[ 1]=-7.748414 <==IsSwitchingOccur() T = 27.755000 Tnext = 27.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.760000 pESO->GetIndependentVar(): 27.760000 ==>IsSwitchingOccur() prevPhis[ 0]=13.748414, nextPhis[ 0]=13.756397 prevPhis[ 1]=-7.748414, nextPhis[ 1]=-7.756397 <==IsSwitchingOccur() T = 27.760000 Tnext = 27.765000 Time: 2.77600e+01 states: [ 2.63090e+00 8.63711e-01] derivs: [ 8.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.765000 pESO->GetIndependentVar(): 27.765000 ==>IsSwitchingOccur() prevPhis[ 0]=13.756397, nextPhis[ 0]=13.764304 prevPhis[ 1]=-7.756397, nextPhis[ 1]=-7.764304 <==IsSwitchingOccur() T = 27.765000 Tnext = 27.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.770000 pESO->GetIndependentVar(): 27.770000 ==>IsSwitchingOccur() prevPhis[ 0]=13.764304, nextPhis[ 0]=13.772137 prevPhis[ 1]=-7.764304, nextPhis[ 1]=-7.772137 <==IsSwitchingOccur() T = 27.770000 Tnext = 27.775000 Time: 2.77700e+01 states: [ 2.63948e+00 8.53711e-01] derivs: [ 8.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.775000 pESO->GetIndependentVar(): 27.775000 ==>IsSwitchingOccur() prevPhis[ 0]=13.772137, nextPhis[ 0]=13.779895 prevPhis[ 1]=-7.772137, nextPhis[ 1]=-7.779895 <==IsSwitchingOccur() T = 27.775000 Tnext = 27.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.780000 pESO->GetIndependentVar(): 27.780000 ==>IsSwitchingOccur() prevPhis[ 0]=13.779895, nextPhis[ 0]=13.787578 prevPhis[ 1]=-7.779895, nextPhis[ 1]=-7.787578 <==IsSwitchingOccur() T = 27.780000 Tnext = 27.785000 Time: 2.77800e+01 states: [ 2.64796e+00 8.43711e-01] derivs: [ 8.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.785000 pESO->GetIndependentVar(): 27.785000 ==>IsSwitchingOccur() prevPhis[ 0]=13.787578, nextPhis[ 0]=13.795186 prevPhis[ 1]=-7.787578, nextPhis[ 1]=-7.795186 <==IsSwitchingOccur() T = 27.785000 Tnext = 27.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.790000 pESO->GetIndependentVar(): 27.790000 ==>IsSwitchingOccur() prevPhis[ 0]=13.795186, nextPhis[ 0]=13.802719 prevPhis[ 1]=-7.795186, nextPhis[ 1]=-7.802719 <==IsSwitchingOccur() T = 27.790000 Tnext = 27.795000 Time: 2.77900e+01 states: [ 2.65634e+00 8.33711e-01] derivs: [ 8.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.795000 pESO->GetIndependentVar(): 27.795000 ==>IsSwitchingOccur() prevPhis[ 0]=13.802719, nextPhis[ 0]=13.810176 prevPhis[ 1]=-7.802719, nextPhis[ 1]=-7.810176 <==IsSwitchingOccur() T = 27.795000 Tnext = 27.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.800000 pESO->GetIndependentVar(): 27.800000 ==>IsSwitchingOccur() prevPhis[ 0]=13.810176, nextPhis[ 0]=13.817559 prevPhis[ 1]=-7.810176, nextPhis[ 1]=-7.817559 <==IsSwitchingOccur() T = 27.800000 Tnext = 27.805000 Time: 2.78000e+01 states: [ 2.66462e+00 8.23711e-01] derivs: [ 8.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.805000 pESO->GetIndependentVar(): 27.805000 ==>IsSwitchingOccur() prevPhis[ 0]=13.817559, nextPhis[ 0]=13.824867 prevPhis[ 1]=-7.817559, nextPhis[ 1]=-7.824867 <==IsSwitchingOccur() T = 27.805000 Tnext = 27.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.810000 pESO->GetIndependentVar(): 27.810000 ==>IsSwitchingOccur() prevPhis[ 0]=13.824867, nextPhis[ 0]=13.832100 prevPhis[ 1]=-7.824867, nextPhis[ 1]=-7.832100 <==IsSwitchingOccur() T = 27.810000 Tnext = 27.815000 Time: 2.78100e+01 states: [ 2.67280e+00 8.13711e-01] derivs: [ 8.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.815000 pESO->GetIndependentVar(): 27.815000 ==>IsSwitchingOccur() prevPhis[ 0]=13.832100, nextPhis[ 0]=13.839258 prevPhis[ 1]=-7.832100, nextPhis[ 1]=-7.839258 <==IsSwitchingOccur() T = 27.815000 Tnext = 27.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.820000 pESO->GetIndependentVar(): 27.820000 ==>IsSwitchingOccur() prevPhis[ 0]=13.839258, nextPhis[ 0]=13.846340 prevPhis[ 1]=-7.839258, nextPhis[ 1]=-7.846340 <==IsSwitchingOccur() T = 27.820000 Tnext = 27.825000 Time: 2.78200e+01 states: [ 2.68088e+00 8.03711e-01] derivs: [ 8.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.825000 pESO->GetIndependentVar(): 27.825000 ==>IsSwitchingOccur() prevPhis[ 0]=13.846340, nextPhis[ 0]=13.853348 prevPhis[ 1]=-7.846340, nextPhis[ 1]=-7.853348 <==IsSwitchingOccur() T = 27.825000 Tnext = 27.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.830000 pESO->GetIndependentVar(): 27.830000 ==>IsSwitchingOccur() prevPhis[ 0]=13.853348, nextPhis[ 0]=13.860281 prevPhis[ 1]=-7.853348, nextPhis[ 1]=-7.860281 <==IsSwitchingOccur() T = 27.830000 Tnext = 27.835000 Time: 2.78300e+01 states: [ 2.68886e+00 7.93711e-01] derivs: [ 7.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.835000 pESO->GetIndependentVar(): 27.835000 ==>IsSwitchingOccur() prevPhis[ 0]=13.860281, nextPhis[ 0]=13.867139 prevPhis[ 1]=-7.860281, nextPhis[ 1]=-7.867139 <==IsSwitchingOccur() T = 27.835000 Tnext = 27.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.840000 pESO->GetIndependentVar(): 27.840000 ==>IsSwitchingOccur() prevPhis[ 0]=13.867139, nextPhis[ 0]=13.873922 prevPhis[ 1]=-7.867139, nextPhis[ 1]=-7.873922 <==IsSwitchingOccur() T = 27.840000 Tnext = 27.845000 Time: 2.78400e+01 states: [ 2.69674e+00 7.83711e-01] derivs: [ 7.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.845000 pESO->GetIndependentVar(): 27.845000 ==>IsSwitchingOccur() prevPhis[ 0]=13.873922, nextPhis[ 0]=13.880629 prevPhis[ 1]=-7.873922, nextPhis[ 1]=-7.880629 <==IsSwitchingOccur() T = 27.845000 Tnext = 27.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.850000 pESO->GetIndependentVar(): 27.850000 ==>IsSwitchingOccur() prevPhis[ 0]=13.880629, nextPhis[ 0]=13.887262 prevPhis[ 1]=-7.880629, nextPhis[ 1]=-7.887262 <==IsSwitchingOccur() T = 27.850000 Tnext = 27.855000 Time: 2.78500e+01 states: [ 2.70452e+00 7.73711e-01] derivs: [ 7.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.855000 pESO->GetIndependentVar(): 27.855000 ==>IsSwitchingOccur() prevPhis[ 0]=13.887262, nextPhis[ 0]=13.893820 prevPhis[ 1]=-7.887262, nextPhis[ 1]=-7.893820 <==IsSwitchingOccur() T = 27.855000 Tnext = 27.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.860000 pESO->GetIndependentVar(): 27.860000 ==>IsSwitchingOccur() prevPhis[ 0]=13.893820, nextPhis[ 0]=13.900303 prevPhis[ 1]=-7.893820, nextPhis[ 1]=-7.900303 <==IsSwitchingOccur() T = 27.860000 Tnext = 27.865000 Time: 2.78600e+01 states: [ 2.71220e+00 7.63711e-01] derivs: [ 7.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.865000 pESO->GetIndependentVar(): 27.865000 ==>IsSwitchingOccur() prevPhis[ 0]=13.900303, nextPhis[ 0]=13.906711 prevPhis[ 1]=-7.900303, nextPhis[ 1]=-7.906711 <==IsSwitchingOccur() T = 27.865000 Tnext = 27.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.870000 pESO->GetIndependentVar(): 27.870000 ==>IsSwitchingOccur() prevPhis[ 0]=13.906711, nextPhis[ 0]=13.913043 prevPhis[ 1]=-7.906711, nextPhis[ 1]=-7.913043 <==IsSwitchingOccur() T = 27.870000 Tnext = 27.875000 Time: 2.78700e+01 states: [ 2.71978e+00 7.53711e-01] derivs: [ 7.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.875000 pESO->GetIndependentVar(): 27.875000 ==>IsSwitchingOccur() prevPhis[ 0]=13.913043, nextPhis[ 0]=13.919301 prevPhis[ 1]=-7.913043, nextPhis[ 1]=-7.919301 <==IsSwitchingOccur() T = 27.875000 Tnext = 27.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.880000 pESO->GetIndependentVar(): 27.880000 ==>IsSwitchingOccur() prevPhis[ 0]=13.919301, nextPhis[ 0]=13.925484 prevPhis[ 1]=-7.919301, nextPhis[ 1]=-7.925484 <==IsSwitchingOccur() T = 27.880000 Tnext = 27.885000 Time: 2.78800e+01 states: [ 2.72726e+00 7.43711e-01] derivs: [ 7.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.885000 pESO->GetIndependentVar(): 27.885000 ==>IsSwitchingOccur() prevPhis[ 0]=13.925484, nextPhis[ 0]=13.931592 prevPhis[ 1]=-7.925484, nextPhis[ 1]=-7.931592 <==IsSwitchingOccur() T = 27.885000 Tnext = 27.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.890000 pESO->GetIndependentVar(): 27.890000 ==>IsSwitchingOccur() prevPhis[ 0]=13.931592, nextPhis[ 0]=13.937625 prevPhis[ 1]=-7.931592, nextPhis[ 1]=-7.937625 <==IsSwitchingOccur() T = 27.890000 Tnext = 27.895000 Time: 2.78900e+01 states: [ 2.73464e+00 7.33711e-01] derivs: [ 7.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.895000 pESO->GetIndependentVar(): 27.895000 ==>IsSwitchingOccur() prevPhis[ 0]=13.937625, nextPhis[ 0]=13.943583 prevPhis[ 1]=-7.937625, nextPhis[ 1]=-7.943583 <==IsSwitchingOccur() T = 27.895000 Tnext = 27.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.900000 pESO->GetIndependentVar(): 27.900000 ==>IsSwitchingOccur() prevPhis[ 0]=13.943583, nextPhis[ 0]=13.949465 prevPhis[ 1]=-7.943583, nextPhis[ 1]=-7.949465 <==IsSwitchingOccur() T = 27.900000 Tnext = 27.905000 Time: 2.79000e+01 states: [ 2.74192e+00 7.23711e-01] derivs: [ 7.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.905000 pESO->GetIndependentVar(): 27.905000 ==>IsSwitchingOccur() prevPhis[ 0]=13.949465, nextPhis[ 0]=13.955273 prevPhis[ 1]=-7.949465, nextPhis[ 1]=-7.955273 <==IsSwitchingOccur() T = 27.905000 Tnext = 27.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.910000 pESO->GetIndependentVar(): 27.910000 ==>IsSwitchingOccur() prevPhis[ 0]=13.955273, nextPhis[ 0]=13.961006 prevPhis[ 1]=-7.955273, nextPhis[ 1]=-7.961006 <==IsSwitchingOccur() T = 27.910000 Tnext = 27.915000 Time: 2.79100e+01 states: [ 2.74910e+00 7.13711e-01] derivs: [ 7.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.915000 pESO->GetIndependentVar(): 27.915000 ==>IsSwitchingOccur() prevPhis[ 0]=13.961006, nextPhis[ 0]=13.966664 prevPhis[ 1]=-7.961006, nextPhis[ 1]=-7.966664 <==IsSwitchingOccur() T = 27.915000 Tnext = 27.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.920000 pESO->GetIndependentVar(): 27.920000 ==>IsSwitchingOccur() prevPhis[ 0]=13.966664, nextPhis[ 0]=13.972247 prevPhis[ 1]=-7.966664, nextPhis[ 1]=-7.972247 <==IsSwitchingOccur() T = 27.920000 Tnext = 27.925000 Time: 2.79200e+01 states: [ 2.75618e+00 7.03711e-01] derivs: [ 7.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.925000 pESO->GetIndependentVar(): 27.925000 ==>IsSwitchingOccur() prevPhis[ 0]=13.972247, nextPhis[ 0]=13.977754 prevPhis[ 1]=-7.972247, nextPhis[ 1]=-7.977754 <==IsSwitchingOccur() T = 27.925000 Tnext = 27.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.930000 pESO->GetIndependentVar(): 27.930000 ==>IsSwitchingOccur() prevPhis[ 0]=13.977754, nextPhis[ 0]=13.983187 prevPhis[ 1]=-7.977754, nextPhis[ 1]=-7.983187 <==IsSwitchingOccur() T = 27.930000 Tnext = 27.935000 Time: 2.79300e+01 states: [ 2.76316e+00 6.93711e-01] derivs: [ 6.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.935000 pESO->GetIndependentVar(): 27.935000 ==>IsSwitchingOccur() prevPhis[ 0]=13.983187, nextPhis[ 0]=13.988545 prevPhis[ 1]=-7.983187, nextPhis[ 1]=-7.988545 <==IsSwitchingOccur() T = 27.935000 Tnext = 27.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.940000 pESO->GetIndependentVar(): 27.940000 ==>IsSwitchingOccur() prevPhis[ 0]=13.988545, nextPhis[ 0]=13.993828 prevPhis[ 1]=-7.988545, nextPhis[ 1]=-7.993828 <==IsSwitchingOccur() T = 27.940000 Tnext = 27.945000 Time: 2.79400e+01 states: [ 2.77004e+00 6.83711e-01] derivs: [ 6.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.945000 pESO->GetIndependentVar(): 27.945000 ==>IsSwitchingOccur() prevPhis[ 0]=13.993828, nextPhis[ 0]=13.999036 prevPhis[ 1]=-7.993828, nextPhis[ 1]=-7.999036 <==IsSwitchingOccur() T = 27.945000 Tnext = 27.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.950000 pESO->GetIndependentVar(): 27.950000 ==>IsSwitchingOccur() prevPhis[ 0]=13.999036, nextPhis[ 0]=14.004168 prevPhis[ 1]=-7.999036, nextPhis[ 1]=-8.004168 <==IsSwitchingOccur() T = 27.950000 Tnext = 27.955000 Time: 2.79500e+01 states: [ 2.77682e+00 6.73711e-01] derivs: [ 6.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.955000 pESO->GetIndependentVar(): 27.955000 ==>IsSwitchingOccur() prevPhis[ 0]=14.004168, nextPhis[ 0]=14.009226 prevPhis[ 1]=-8.004168, nextPhis[ 1]=-8.009226 <==IsSwitchingOccur() T = 27.955000 Tnext = 27.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.960000 pESO->GetIndependentVar(): 27.960000 ==>IsSwitchingOccur() prevPhis[ 0]=14.009226, nextPhis[ 0]=14.014209 prevPhis[ 1]=-8.009226, nextPhis[ 1]=-8.014209 <==IsSwitchingOccur() T = 27.960000 Tnext = 27.965000 Time: 2.79600e+01 states: [ 2.78350e+00 6.63711e-01] derivs: [ 6.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.965000 pESO->GetIndependentVar(): 27.965000 ==>IsSwitchingOccur() prevPhis[ 0]=14.014209, nextPhis[ 0]=14.019117 prevPhis[ 1]=-8.014209, nextPhis[ 1]=-8.019117 <==IsSwitchingOccur() T = 27.965000 Tnext = 27.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.970000 pESO->GetIndependentVar(): 27.970000 ==>IsSwitchingOccur() prevPhis[ 0]=14.019117, nextPhis[ 0]=14.023950 prevPhis[ 1]=-8.019117, nextPhis[ 1]=-8.023950 <==IsSwitchingOccur() T = 27.970000 Tnext = 27.975000 Time: 2.79700e+01 states: [ 2.79008e+00 6.53711e-01] derivs: [ 6.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.975000 pESO->GetIndependentVar(): 27.975000 ==>IsSwitchingOccur() prevPhis[ 0]=14.023950, nextPhis[ 0]=14.028707 prevPhis[ 1]=-8.023950, nextPhis[ 1]=-8.028707 <==IsSwitchingOccur() T = 27.975000 Tnext = 27.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.980000 pESO->GetIndependentVar(): 27.980000 ==>IsSwitchingOccur() prevPhis[ 0]=14.028707, nextPhis[ 0]=14.033390 prevPhis[ 1]=-8.028707, nextPhis[ 1]=-8.033390 <==IsSwitchingOccur() T = 27.980000 Tnext = 27.985000 Time: 2.79800e+01 states: [ 2.79656e+00 6.43711e-01] derivs: [ 6.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.985000 pESO->GetIndependentVar(): 27.985000 ==>IsSwitchingOccur() prevPhis[ 0]=14.033390, nextPhis[ 0]=14.037998 prevPhis[ 1]=-8.033390, nextPhis[ 1]=-8.037998 <==IsSwitchingOccur() T = 27.985000 Tnext = 27.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.990000 pESO->GetIndependentVar(): 27.990000 ==>IsSwitchingOccur() prevPhis[ 0]=14.037998, nextPhis[ 0]=14.042531 prevPhis[ 1]=-8.037998, nextPhis[ 1]=-8.042531 <==IsSwitchingOccur() T = 27.990000 Tnext = 27.995000 Time: 2.79900e+01 states: [ 2.80294e+00 6.33711e-01] derivs: [ 6.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 27.995000 pESO->GetIndependentVar(): 27.995000 ==>IsSwitchingOccur() prevPhis[ 0]=14.042531, nextPhis[ 0]=14.046989 prevPhis[ 1]=-8.042531, nextPhis[ 1]=-8.046989 <==IsSwitchingOccur() T = 27.995000 Tnext = 28.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.000000 pESO->GetIndependentVar(): 28.000000 ==>IsSwitchingOccur() prevPhis[ 0]=14.046989, nextPhis[ 0]=14.051372 prevPhis[ 1]=-8.046989, nextPhis[ 1]=-8.051372 <==IsSwitchingOccur() T = 28.000000 Tnext = 28.005000 Time: 2.80000e+01 states: [ 2.80922e+00 6.23711e-01] derivs: [ 6.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.005000 pESO->GetIndependentVar(): 28.005000 ==>IsSwitchingOccur() prevPhis[ 0]=14.051372, nextPhis[ 0]=14.055679 prevPhis[ 1]=-8.051372, nextPhis[ 1]=-8.055679 <==IsSwitchingOccur() T = 28.005000 Tnext = 28.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.010000 pESO->GetIndependentVar(): 28.010000 ==>IsSwitchingOccur() prevPhis[ 0]=14.055679, nextPhis[ 0]=14.059912 prevPhis[ 1]=-8.055679, nextPhis[ 1]=-8.059912 <==IsSwitchingOccur() T = 28.010000 Tnext = 28.015000 Time: 2.80100e+01 states: [ 2.81540e+00 6.13711e-01] derivs: [ 6.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.015000 pESO->GetIndependentVar(): 28.015000 ==>IsSwitchingOccur() prevPhis[ 0]=14.059912, nextPhis[ 0]=14.064070 prevPhis[ 1]=-8.059912, nextPhis[ 1]=-8.064070 <==IsSwitchingOccur() T = 28.015000 Tnext = 28.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.020000 pESO->GetIndependentVar(): 28.020000 ==>IsSwitchingOccur() prevPhis[ 0]=14.064070, nextPhis[ 0]=14.068153 prevPhis[ 1]=-8.064070, nextPhis[ 1]=-8.068153 <==IsSwitchingOccur() T = 28.020000 Tnext = 28.025000 Time: 2.80200e+01 states: [ 2.82148e+00 6.03711e-01] derivs: [ 6.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.025000 pESO->GetIndependentVar(): 28.025000 ==>IsSwitchingOccur() prevPhis[ 0]=14.068153, nextPhis[ 0]=14.072161 prevPhis[ 1]=-8.068153, nextPhis[ 1]=-8.072161 <==IsSwitchingOccur() T = 28.025000 Tnext = 28.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.030000 pESO->GetIndependentVar(): 28.030000 ==>IsSwitchingOccur() prevPhis[ 0]=14.072161, nextPhis[ 0]=14.076093 prevPhis[ 1]=-8.072161, nextPhis[ 1]=-8.076093 <==IsSwitchingOccur() T = 28.030000 Tnext = 28.035000 Time: 2.80300e+01 states: [ 2.82746e+00 5.93711e-01] derivs: [ 5.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.035000 pESO->GetIndependentVar(): 28.035000 ==>IsSwitchingOccur() prevPhis[ 0]=14.076093, nextPhis[ 0]=14.079951 prevPhis[ 1]=-8.076093, nextPhis[ 1]=-8.079951 <==IsSwitchingOccur() T = 28.035000 Tnext = 28.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.040000 pESO->GetIndependentVar(): 28.040000 ==>IsSwitchingOccur() prevPhis[ 0]=14.079951, nextPhis[ 0]=14.083734 prevPhis[ 1]=-8.079951, nextPhis[ 1]=-8.083734 <==IsSwitchingOccur() T = 28.040000 Tnext = 28.045000 Time: 2.80400e+01 states: [ 2.83334e+00 5.83711e-01] derivs: [ 5.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.045000 pESO->GetIndependentVar(): 28.045000 ==>IsSwitchingOccur() prevPhis[ 0]=14.083734, nextPhis[ 0]=14.087442 prevPhis[ 1]=-8.083734, nextPhis[ 1]=-8.087442 <==IsSwitchingOccur() T = 28.045000 Tnext = 28.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.050000 pESO->GetIndependentVar(): 28.050000 ==>IsSwitchingOccur() prevPhis[ 0]=14.087442, nextPhis[ 0]=14.091075 prevPhis[ 1]=-8.087442, nextPhis[ 1]=-8.091075 <==IsSwitchingOccur() T = 28.050000 Tnext = 28.055000 Time: 2.80500e+01 states: [ 2.83912e+00 5.73711e-01] derivs: [ 5.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.055000 pESO->GetIndependentVar(): 28.055000 ==>IsSwitchingOccur() prevPhis[ 0]=14.091075, nextPhis[ 0]=14.094632 prevPhis[ 1]=-8.091075, nextPhis[ 1]=-8.094632 <==IsSwitchingOccur() T = 28.055000 Tnext = 28.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.060000 pESO->GetIndependentVar(): 28.060000 ==>IsSwitchingOccur() prevPhis[ 0]=14.094632, nextPhis[ 0]=14.098115 prevPhis[ 1]=-8.094632, nextPhis[ 1]=-8.098115 <==IsSwitchingOccur() T = 28.060000 Tnext = 28.065000 Time: 2.80600e+01 states: [ 2.84480e+00 5.63711e-01] derivs: [ 5.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.065000 pESO->GetIndependentVar(): 28.065000 ==>IsSwitchingOccur() prevPhis[ 0]=14.098115, nextPhis[ 0]=14.101523 prevPhis[ 1]=-8.098115, nextPhis[ 1]=-8.101523 <==IsSwitchingOccur() T = 28.065000 Tnext = 28.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.070000 pESO->GetIndependentVar(): 28.070000 ==>IsSwitchingOccur() prevPhis[ 0]=14.101523, nextPhis[ 0]=14.104856 prevPhis[ 1]=-8.101523, nextPhis[ 1]=-8.104856 <==IsSwitchingOccur() T = 28.070000 Tnext = 28.075000 Time: 2.80700e+01 states: [ 2.85038e+00 5.53711e-01] derivs: [ 5.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.075000 pESO->GetIndependentVar(): 28.075000 ==>IsSwitchingOccur() prevPhis[ 0]=14.104856, nextPhis[ 0]=14.108114 prevPhis[ 1]=-8.104856, nextPhis[ 1]=-8.108114 <==IsSwitchingOccur() T = 28.075000 Tnext = 28.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.080000 pESO->GetIndependentVar(): 28.080000 ==>IsSwitchingOccur() prevPhis[ 0]=14.108114, nextPhis[ 0]=14.111296 prevPhis[ 1]=-8.108114, nextPhis[ 1]=-8.111296 <==IsSwitchingOccur() T = 28.080000 Tnext = 28.085000 Time: 2.80800e+01 states: [ 2.85586e+00 5.43711e-01] derivs: [ 5.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.085000 pESO->GetIndependentVar(): 28.085000 ==>IsSwitchingOccur() prevPhis[ 0]=14.111296, nextPhis[ 0]=14.114404 prevPhis[ 1]=-8.111296, nextPhis[ 1]=-8.114404 <==IsSwitchingOccur() T = 28.085000 Tnext = 28.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.090000 pESO->GetIndependentVar(): 28.090000 ==>IsSwitchingOccur() prevPhis[ 0]=14.114404, nextPhis[ 0]=14.117437 prevPhis[ 1]=-8.114404, nextPhis[ 1]=-8.117437 <==IsSwitchingOccur() T = 28.090000 Tnext = 28.095000 Time: 2.80900e+01 states: [ 2.86124e+00 5.33711e-01] derivs: [ 5.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.095000 pESO->GetIndependentVar(): 28.095000 ==>IsSwitchingOccur() prevPhis[ 0]=14.117437, nextPhis[ 0]=14.120395 prevPhis[ 1]=-8.117437, nextPhis[ 1]=-8.120395 <==IsSwitchingOccur() T = 28.095000 Tnext = 28.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.100000 pESO->GetIndependentVar(): 28.100000 ==>IsSwitchingOccur() prevPhis[ 0]=14.120395, nextPhis[ 0]=14.123278 prevPhis[ 1]=-8.120395, nextPhis[ 1]=-8.123278 <==IsSwitchingOccur() T = 28.100000 Tnext = 28.105000 Time: 2.81000e+01 states: [ 2.86652e+00 5.23711e-01] derivs: [ 5.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.105000 pESO->GetIndependentVar(): 28.105000 ==>IsSwitchingOccur() prevPhis[ 0]=14.123278, nextPhis[ 0]=14.126086 prevPhis[ 1]=-8.123278, nextPhis[ 1]=-8.126086 <==IsSwitchingOccur() T = 28.105000 Tnext = 28.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.110000 pESO->GetIndependentVar(): 28.110000 ==>IsSwitchingOccur() prevPhis[ 0]=14.126086, nextPhis[ 0]=14.128818 prevPhis[ 1]=-8.126086, nextPhis[ 1]=-8.128818 <==IsSwitchingOccur() T = 28.110000 Tnext = 28.115000 Time: 2.81100e+01 states: [ 2.87170e+00 5.13711e-01] derivs: [ 5.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.115000 pESO->GetIndependentVar(): 28.115000 ==>IsSwitchingOccur() prevPhis[ 0]=14.128818, nextPhis[ 0]=14.131476 prevPhis[ 1]=-8.128818, nextPhis[ 1]=-8.131476 <==IsSwitchingOccur() T = 28.115000 Tnext = 28.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.120000 pESO->GetIndependentVar(): 28.120000 ==>IsSwitchingOccur() prevPhis[ 0]=14.131476, nextPhis[ 0]=14.134059 prevPhis[ 1]=-8.131476, nextPhis[ 1]=-8.134059 <==IsSwitchingOccur() T = 28.120000 Tnext = 28.125000 Time: 2.81200e+01 states: [ 2.87678e+00 5.03711e-01] derivs: [ 5.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.125000 pESO->GetIndependentVar(): 28.125000 ==>IsSwitchingOccur() prevPhis[ 0]=14.134059, nextPhis[ 0]=14.136567 prevPhis[ 1]=-8.134059, nextPhis[ 1]=-8.136567 <==IsSwitchingOccur() T = 28.125000 Tnext = 28.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.130000 pESO->GetIndependentVar(): 28.130000 ==>IsSwitchingOccur() prevPhis[ 0]=14.136567, nextPhis[ 0]=14.139000 prevPhis[ 1]=-8.136567, nextPhis[ 1]=-8.139000 <==IsSwitchingOccur() T = 28.130000 Tnext = 28.135000 Time: 2.81300e+01 states: [ 2.88176e+00 4.93711e-01] derivs: [ 4.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.135000 pESO->GetIndependentVar(): 28.135000 ==>IsSwitchingOccur() prevPhis[ 0]=14.139000, nextPhis[ 0]=14.141357 prevPhis[ 1]=-8.139000, nextPhis[ 1]=-8.141357 <==IsSwitchingOccur() T = 28.135000 Tnext = 28.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.140000 pESO->GetIndependentVar(): 28.140000 ==>IsSwitchingOccur() prevPhis[ 0]=14.141357, nextPhis[ 0]=14.143640 prevPhis[ 1]=-8.141357, nextPhis[ 1]=-8.143640 <==IsSwitchingOccur() T = 28.140000 Tnext = 28.145000 Time: 2.81400e+01 states: [ 2.88664e+00 4.83711e-01] derivs: [ 4.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.145000 pESO->GetIndependentVar(): 28.145000 ==>IsSwitchingOccur() prevPhis[ 0]=14.143640, nextPhis[ 0]=14.145848 prevPhis[ 1]=-8.143640, nextPhis[ 1]=-8.145848 <==IsSwitchingOccur() T = 28.145000 Tnext = 28.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.150000 pESO->GetIndependentVar(): 28.150000 ==>IsSwitchingOccur() prevPhis[ 0]=14.145848, nextPhis[ 0]=14.147981 prevPhis[ 1]=-8.145848, nextPhis[ 1]=-8.147981 <==IsSwitchingOccur() T = 28.150000 Tnext = 28.155000 Time: 2.81500e+01 states: [ 2.89142e+00 4.73711e-01] derivs: [ 4.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.155000 pESO->GetIndependentVar(): 28.155000 ==>IsSwitchingOccur() prevPhis[ 0]=14.147981, nextPhis[ 0]=14.150039 prevPhis[ 1]=-8.147981, nextPhis[ 1]=-8.150039 <==IsSwitchingOccur() T = 28.155000 Tnext = 28.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.160000 pESO->GetIndependentVar(): 28.160000 ==>IsSwitchingOccur() prevPhis[ 0]=14.150039, nextPhis[ 0]=14.152021 prevPhis[ 1]=-8.150039, nextPhis[ 1]=-8.152021 <==IsSwitchingOccur() T = 28.160000 Tnext = 28.165000 Time: 2.81600e+01 states: [ 2.89610e+00 4.63711e-01] derivs: [ 4.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.165000 pESO->GetIndependentVar(): 28.165000 ==>IsSwitchingOccur() prevPhis[ 0]=14.152021, nextPhis[ 0]=14.153929 prevPhis[ 1]=-8.152021, nextPhis[ 1]=-8.153929 <==IsSwitchingOccur() T = 28.165000 Tnext = 28.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.170000 pESO->GetIndependentVar(): 28.170000 ==>IsSwitchingOccur() prevPhis[ 0]=14.153929, nextPhis[ 0]=14.155762 prevPhis[ 1]=-8.153929, nextPhis[ 1]=-8.155762 <==IsSwitchingOccur() T = 28.170000 Tnext = 28.175000 Time: 2.81700e+01 states: [ 2.90068e+00 4.53711e-01] derivs: [ 4.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.175000 pESO->GetIndependentVar(): 28.175000 ==>IsSwitchingOccur() prevPhis[ 0]=14.155762, nextPhis[ 0]=14.157520 prevPhis[ 1]=-8.155762, nextPhis[ 1]=-8.157520 <==IsSwitchingOccur() T = 28.175000 Tnext = 28.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.180000 pESO->GetIndependentVar(): 28.180000 ==>IsSwitchingOccur() prevPhis[ 0]=14.157520, nextPhis[ 0]=14.159203 prevPhis[ 1]=-8.157520, nextPhis[ 1]=-8.159203 <==IsSwitchingOccur() T = 28.180000 Tnext = 28.185000 Time: 2.81800e+01 states: [ 2.90516e+00 4.43711e-01] derivs: [ 4.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.185000 pESO->GetIndependentVar(): 28.185000 ==>IsSwitchingOccur() prevPhis[ 0]=14.159203, nextPhis[ 0]=14.160810 prevPhis[ 1]=-8.159203, nextPhis[ 1]=-8.160810 <==IsSwitchingOccur() T = 28.185000 Tnext = 28.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.190000 pESO->GetIndependentVar(): 28.190000 ==>IsSwitchingOccur() prevPhis[ 0]=14.160810, nextPhis[ 0]=14.162343 prevPhis[ 1]=-8.160810, nextPhis[ 1]=-8.162343 <==IsSwitchingOccur() T = 28.190000 Tnext = 28.195000 Time: 2.81900e+01 states: [ 2.90954e+00 4.33711e-01] derivs: [ 4.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.195000 pESO->GetIndependentVar(): 28.195000 ==>IsSwitchingOccur() prevPhis[ 0]=14.162343, nextPhis[ 0]=14.163801 prevPhis[ 1]=-8.162343, nextPhis[ 1]=-8.163801 <==IsSwitchingOccur() T = 28.195000 Tnext = 28.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.200000 pESO->GetIndependentVar(): 28.200000 ==>IsSwitchingOccur() prevPhis[ 0]=14.163801, nextPhis[ 0]=14.165184 prevPhis[ 1]=-8.163801, nextPhis[ 1]=-8.165184 <==IsSwitchingOccur() T = 28.200000 Tnext = 28.205000 Time: 2.82000e+01 states: [ 2.91382e+00 4.23711e-01] derivs: [ 4.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.205000 pESO->GetIndependentVar(): 28.205000 ==>IsSwitchingOccur() prevPhis[ 0]=14.165184, nextPhis[ 0]=14.166492 prevPhis[ 1]=-8.165184, nextPhis[ 1]=-8.166492 <==IsSwitchingOccur() T = 28.205000 Tnext = 28.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.210000 pESO->GetIndependentVar(): 28.210000 ==>IsSwitchingOccur() prevPhis[ 0]=14.166492, nextPhis[ 0]=14.167725 prevPhis[ 1]=-8.166492, nextPhis[ 1]=-8.167725 <==IsSwitchingOccur() T = 28.210000 Tnext = 28.215000 Time: 2.82100e+01 states: [ 2.91800e+00 4.13711e-01] derivs: [ 4.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.215000 pESO->GetIndependentVar(): 28.215000 ==>IsSwitchingOccur() prevPhis[ 0]=14.167725, nextPhis[ 0]=14.168882 prevPhis[ 1]=-8.167725, nextPhis[ 1]=-8.168882 <==IsSwitchingOccur() T = 28.215000 Tnext = 28.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.220000 pESO->GetIndependentVar(): 28.220000 ==>IsSwitchingOccur() prevPhis[ 0]=14.168882, nextPhis[ 0]=14.169965 prevPhis[ 1]=-8.168882, nextPhis[ 1]=-8.169965 <==IsSwitchingOccur() T = 28.220000 Tnext = 28.225000 Time: 2.82200e+01 states: [ 2.92208e+00 4.03711e-01] derivs: [ 4.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.225000 pESO->GetIndependentVar(): 28.225000 ==>IsSwitchingOccur() prevPhis[ 0]=14.169965, nextPhis[ 0]=14.170973 prevPhis[ 1]=-8.169965, nextPhis[ 1]=-8.170973 <==IsSwitchingOccur() T = 28.225000 Tnext = 28.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.230000 pESO->GetIndependentVar(): 28.230000 ==>IsSwitchingOccur() prevPhis[ 0]=14.170973, nextPhis[ 0]=14.171906 prevPhis[ 1]=-8.170973, nextPhis[ 1]=-8.171906 <==IsSwitchingOccur() T = 28.230000 Tnext = 28.235000 Time: 2.82300e+01 states: [ 2.92606e+00 3.93711e-01] derivs: [ 3.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.235000 pESO->GetIndependentVar(): 28.235000 ==>IsSwitchingOccur() prevPhis[ 0]=14.171906, nextPhis[ 0]=14.172764 prevPhis[ 1]=-8.171906, nextPhis[ 1]=-8.172764 <==IsSwitchingOccur() T = 28.235000 Tnext = 28.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.240000 pESO->GetIndependentVar(): 28.240000 ==>IsSwitchingOccur() prevPhis[ 0]=14.172764, nextPhis[ 0]=14.173546 prevPhis[ 1]=-8.172764, nextPhis[ 1]=-8.173546 <==IsSwitchingOccur() T = 28.240000 Tnext = 28.245000 Time: 2.82400e+01 states: [ 2.92995e+00 3.83711e-01] derivs: [ 3.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.245000 pESO->GetIndependentVar(): 28.245000 ==>IsSwitchingOccur() prevPhis[ 0]=14.173546, nextPhis[ 0]=14.174254 prevPhis[ 1]=-8.173546, nextPhis[ 1]=-8.174254 <==IsSwitchingOccur() T = 28.245000 Tnext = 28.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.250000 pESO->GetIndependentVar(): 28.250000 ==>IsSwitchingOccur() prevPhis[ 0]=14.174254, nextPhis[ 0]=14.174887 prevPhis[ 1]=-8.174254, nextPhis[ 1]=-8.174887 <==IsSwitchingOccur() T = 28.250000 Tnext = 28.255000 Time: 2.82500e+01 states: [ 2.93373e+00 3.73711e-01] derivs: [ 3.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.255000 pESO->GetIndependentVar(): 28.255000 ==>IsSwitchingOccur() prevPhis[ 0]=14.174887, nextPhis[ 0]=14.175445 prevPhis[ 1]=-8.174887, nextPhis[ 1]=-8.175445 <==IsSwitchingOccur() T = 28.255000 Tnext = 28.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.260000 pESO->GetIndependentVar(): 28.260000 ==>IsSwitchingOccur() prevPhis[ 0]=14.175445, nextPhis[ 0]=14.175928 prevPhis[ 1]=-8.175445, nextPhis[ 1]=-8.175928 <==IsSwitchingOccur() T = 28.260000 Tnext = 28.265000 Time: 2.82600e+01 states: [ 2.93741e+00 3.63711e-01] derivs: [ 3.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.265000 pESO->GetIndependentVar(): 28.265000 ==>IsSwitchingOccur() prevPhis[ 0]=14.175928, nextPhis[ 0]=14.176335 prevPhis[ 1]=-8.175928, nextPhis[ 1]=-8.176335 <==IsSwitchingOccur() T = 28.265000 Tnext = 28.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.270000 pESO->GetIndependentVar(): 28.270000 ==>IsSwitchingOccur() prevPhis[ 0]=14.176335, nextPhis[ 0]=14.176668 prevPhis[ 1]=-8.176335, nextPhis[ 1]=-8.176668 <==IsSwitchingOccur() T = 28.270000 Tnext = 28.275000 Time: 2.82700e+01 states: [ 2.94099e+00 3.53711e-01] derivs: [ 3.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.275000 pESO->GetIndependentVar(): 28.275000 ==>IsSwitchingOccur() prevPhis[ 0]=14.176668, nextPhis[ 0]=14.176926 prevPhis[ 1]=-8.176668, nextPhis[ 1]=-8.176926 <==IsSwitchingOccur() T = 28.275000 Tnext = 28.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.280000 pESO->GetIndependentVar(): 28.280000 ==>IsSwitchingOccur() prevPhis[ 0]=14.176926, nextPhis[ 0]=14.177109 prevPhis[ 1]=-8.176926, nextPhis[ 1]=-8.177109 <==IsSwitchingOccur() T = 28.280000 Tnext = 28.285000 Time: 2.82800e+01 states: [ 2.94447e+00 3.43711e-01] derivs: [ 3.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.285000 pESO->GetIndependentVar(): 28.285000 ==>IsSwitchingOccur() prevPhis[ 0]=14.177109, nextPhis[ 0]=14.177217 prevPhis[ 1]=-8.177109, nextPhis[ 1]=-8.177217 <==IsSwitchingOccur() T = 28.285000 Tnext = 28.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.290000 pESO->GetIndependentVar(): 28.290000 ==>IsSwitchingOccur() prevPhis[ 0]=14.177217, nextPhis[ 0]=14.177249 prevPhis[ 1]=-8.177217, nextPhis[ 1]=-8.177249 <==IsSwitchingOccur() T = 28.290000 Tnext = 28.295000 Time: 2.82900e+01 states: [ 2.94785e+00 3.33711e-01] derivs: [ 3.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.295000 pESO->GetIndependentVar(): 28.295000 ==>IsSwitchingOccur() prevPhis[ 0]=14.177249, nextPhis[ 0]=14.177207 prevPhis[ 1]=-8.177249, nextPhis[ 1]=-8.177207 <==IsSwitchingOccur() T = 28.295000 Tnext = 28.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.300000 pESO->GetIndependentVar(): 28.300000 ==>IsSwitchingOccur() prevPhis[ 0]=14.177207, nextPhis[ 0]=14.177090 prevPhis[ 1]=-8.177207, nextPhis[ 1]=-8.177090 <==IsSwitchingOccur() T = 28.300000 Tnext = 28.305000 Time: 2.83000e+01 states: [ 2.95113e+00 3.23711e-01] derivs: [ 3.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.305000 pESO->GetIndependentVar(): 28.305000 ==>IsSwitchingOccur() prevPhis[ 0]=14.177090, nextPhis[ 0]=14.176898 prevPhis[ 1]=-8.177090, nextPhis[ 1]=-8.176898 <==IsSwitchingOccur() T = 28.305000 Tnext = 28.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.310000 pESO->GetIndependentVar(): 28.310000 ==>IsSwitchingOccur() prevPhis[ 0]=14.176898, nextPhis[ 0]=14.176631 prevPhis[ 1]=-8.176898, nextPhis[ 1]=-8.176631 <==IsSwitchingOccur() T = 28.310000 Tnext = 28.315000 Time: 2.83100e+01 states: [ 2.95431e+00 3.13711e-01] derivs: [ 3.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.315000 pESO->GetIndependentVar(): 28.315000 ==>IsSwitchingOccur() prevPhis[ 0]=14.176631, nextPhis[ 0]=14.176289 prevPhis[ 1]=-8.176631, nextPhis[ 1]=-8.176289 <==IsSwitchingOccur() T = 28.315000 Tnext = 28.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.320000 pESO->GetIndependentVar(): 28.320000 ==>IsSwitchingOccur() prevPhis[ 0]=14.176289, nextPhis[ 0]=14.175871 prevPhis[ 1]=-8.176289, nextPhis[ 1]=-8.175871 <==IsSwitchingOccur() T = 28.320000 Tnext = 28.325000 Time: 2.83200e+01 states: [ 2.95739e+00 3.03711e-01] derivs: [ 3.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.325000 pESO->GetIndependentVar(): 28.325000 ==>IsSwitchingOccur() prevPhis[ 0]=14.175871, nextPhis[ 0]=14.175379 prevPhis[ 1]=-8.175871, nextPhis[ 1]=-8.175379 <==IsSwitchingOccur() T = 28.325000 Tnext = 28.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.330000 pESO->GetIndependentVar(): 28.330000 ==>IsSwitchingOccur() prevPhis[ 0]=14.175379, nextPhis[ 0]=14.174812 prevPhis[ 1]=-8.175379, nextPhis[ 1]=-8.174812 <==IsSwitchingOccur() T = 28.330000 Tnext = 28.335000 Time: 2.83300e+01 states: [ 2.96037e+00 2.93711e-01] derivs: [ 2.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.335000 pESO->GetIndependentVar(): 28.335000 ==>IsSwitchingOccur() prevPhis[ 0]=14.174812, nextPhis[ 0]=14.174170 prevPhis[ 1]=-8.174812, nextPhis[ 1]=-8.174170 <==IsSwitchingOccur() T = 28.335000 Tnext = 28.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.340000 pESO->GetIndependentVar(): 28.340000 ==>IsSwitchingOccur() prevPhis[ 0]=14.174170, nextPhis[ 0]=14.173453 prevPhis[ 1]=-8.174170, nextPhis[ 1]=-8.173453 <==IsSwitchingOccur() T = 28.340000 Tnext = 28.345000 Time: 2.83400e+01 states: [ 2.96325e+00 2.83711e-01] derivs: [ 2.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.345000 pESO->GetIndependentVar(): 28.345000 ==>IsSwitchingOccur() prevPhis[ 0]=14.173453, nextPhis[ 0]=14.172660 prevPhis[ 1]=-8.173453, nextPhis[ 1]=-8.172660 <==IsSwitchingOccur() T = 28.345000 Tnext = 28.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.350000 pESO->GetIndependentVar(): 28.350000 ==>IsSwitchingOccur() prevPhis[ 0]=14.172660, nextPhis[ 0]=14.171793 prevPhis[ 1]=-8.172660, nextPhis[ 1]=-8.171793 <==IsSwitchingOccur() T = 28.350000 Tnext = 28.355000 Time: 2.83500e+01 states: [ 2.96603e+00 2.73711e-01] derivs: [ 2.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.355000 pESO->GetIndependentVar(): 28.355000 ==>IsSwitchingOccur() prevPhis[ 0]=14.171793, nextPhis[ 0]=14.170851 prevPhis[ 1]=-8.171793, nextPhis[ 1]=-8.170851 <==IsSwitchingOccur() T = 28.355000 Tnext = 28.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.360000 pESO->GetIndependentVar(): 28.360000 ==>IsSwitchingOccur() prevPhis[ 0]=14.170851, nextPhis[ 0]=14.169834 prevPhis[ 1]=-8.170851, nextPhis[ 1]=-8.169834 <==IsSwitchingOccur() T = 28.360000 Tnext = 28.365000 Time: 2.83600e+01 states: [ 2.96871e+00 2.63711e-01] derivs: [ 2.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.365000 pESO->GetIndependentVar(): 28.365000 ==>IsSwitchingOccur() prevPhis[ 0]=14.169834, nextPhis[ 0]=14.168742 prevPhis[ 1]=-8.169834, nextPhis[ 1]=-8.168742 <==IsSwitchingOccur() T = 28.365000 Tnext = 28.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.370000 pESO->GetIndependentVar(): 28.370000 ==>IsSwitchingOccur() prevPhis[ 0]=14.168742, nextPhis[ 0]=14.167574 prevPhis[ 1]=-8.168742, nextPhis[ 1]=-8.167574 <==IsSwitchingOccur() T = 28.370000 Tnext = 28.375000 Time: 2.83700e+01 states: [ 2.97129e+00 2.53711e-01] derivs: [ 2.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.375000 pESO->GetIndependentVar(): 28.375000 ==>IsSwitchingOccur() prevPhis[ 0]=14.167574, nextPhis[ 0]=14.166332 prevPhis[ 1]=-8.167574, nextPhis[ 1]=-8.166332 <==IsSwitchingOccur() T = 28.375000 Tnext = 28.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.380000 pESO->GetIndependentVar(): 28.380000 ==>IsSwitchingOccur() prevPhis[ 0]=14.166332, nextPhis[ 0]=14.165015 prevPhis[ 1]=-8.166332, nextPhis[ 1]=-8.165015 <==IsSwitchingOccur() T = 28.380000 Tnext = 28.385000 Time: 2.83800e+01 states: [ 2.97377e+00 2.43711e-01] derivs: [ 2.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.385000 pESO->GetIndependentVar(): 28.385000 ==>IsSwitchingOccur() prevPhis[ 0]=14.165015, nextPhis[ 0]=14.163623 prevPhis[ 1]=-8.165015, nextPhis[ 1]=-8.163623 <==IsSwitchingOccur() T = 28.385000 Tnext = 28.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.390000 pESO->GetIndependentVar(): 28.390000 ==>IsSwitchingOccur() prevPhis[ 0]=14.163623, nextPhis[ 0]=14.162156 prevPhis[ 1]=-8.163623, nextPhis[ 1]=-8.162156 <==IsSwitchingOccur() T = 28.390000 Tnext = 28.395000 Time: 2.83900e+01 states: [ 2.97615e+00 2.33711e-01] derivs: [ 2.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.395000 pESO->GetIndependentVar(): 28.395000 ==>IsSwitchingOccur() prevPhis[ 0]=14.162156, nextPhis[ 0]=14.160613 prevPhis[ 1]=-8.162156, nextPhis[ 1]=-8.160613 <==IsSwitchingOccur() T = 28.395000 Tnext = 28.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.400000 pESO->GetIndependentVar(): 28.400000 ==>IsSwitchingOccur() prevPhis[ 0]=14.160613, nextPhis[ 0]=14.158996 prevPhis[ 1]=-8.160613, nextPhis[ 1]=-8.158996 <==IsSwitchingOccur() T = 28.400000 Tnext = 28.405000 Time: 2.84000e+01 states: [ 2.97843e+00 2.23711e-01] derivs: [ 2.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.405000 pESO->GetIndependentVar(): 28.405000 ==>IsSwitchingOccur() prevPhis[ 0]=14.158996, nextPhis[ 0]=14.157304 prevPhis[ 1]=-8.158996, nextPhis[ 1]=-8.157304 <==IsSwitchingOccur() T = 28.405000 Tnext = 28.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.410000 pESO->GetIndependentVar(): 28.410000 ==>IsSwitchingOccur() prevPhis[ 0]=14.157304, nextPhis[ 0]=14.155537 prevPhis[ 1]=-8.157304, nextPhis[ 1]=-8.155537 <==IsSwitchingOccur() T = 28.410000 Tnext = 28.415000 Time: 2.84100e+01 states: [ 2.98061e+00 2.13711e-01] derivs: [ 2.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.415000 pESO->GetIndependentVar(): 28.415000 ==>IsSwitchingOccur() prevPhis[ 0]=14.155537, nextPhis[ 0]=14.153695 prevPhis[ 1]=-8.155537, nextPhis[ 1]=-8.153695 <==IsSwitchingOccur() T = 28.415000 Tnext = 28.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.420000 pESO->GetIndependentVar(): 28.420000 ==>IsSwitchingOccur() prevPhis[ 0]=14.153695, nextPhis[ 0]=14.151778 prevPhis[ 1]=-8.153695, nextPhis[ 1]=-8.151778 <==IsSwitchingOccur() T = 28.420000 Tnext = 28.425000 Time: 2.84200e+01 states: [ 2.98269e+00 2.03711e-01] derivs: [ 2.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.425000 pESO->GetIndependentVar(): 28.425000 ==>IsSwitchingOccur() prevPhis[ 0]=14.151778, nextPhis[ 0]=14.149785 prevPhis[ 1]=-8.151778, nextPhis[ 1]=-8.149785 <==IsSwitchingOccur() T = 28.425000 Tnext = 28.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.430000 pESO->GetIndependentVar(): 28.430000 ==>IsSwitchingOccur() prevPhis[ 0]=14.149785, nextPhis[ 0]=14.147718 prevPhis[ 1]=-8.149785, nextPhis[ 1]=-8.147718 <==IsSwitchingOccur() T = 28.430000 Tnext = 28.435000 Time: 2.84300e+01 states: [ 2.98467e+00 1.93711e-01] derivs: [ 1.93468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.435000 pESO->GetIndependentVar(): 28.435000 ==>IsSwitchingOccur() prevPhis[ 0]=14.147718, nextPhis[ 0]=14.145576 prevPhis[ 1]=-8.147718, nextPhis[ 1]=-8.145576 <==IsSwitchingOccur() T = 28.435000 Tnext = 28.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.440000 pESO->GetIndependentVar(): 28.440000 ==>IsSwitchingOccur() prevPhis[ 0]=14.145576, nextPhis[ 0]=14.143359 prevPhis[ 1]=-8.145576, nextPhis[ 1]=-8.143359 <==IsSwitchingOccur() T = 28.440000 Tnext = 28.445000 Time: 2.84400e+01 states: [ 2.98655e+00 1.83711e-01] derivs: [ 1.83468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.445000 pESO->GetIndependentVar(): 28.445000 ==>IsSwitchingOccur() prevPhis[ 0]=14.143359, nextPhis[ 0]=14.141067 prevPhis[ 1]=-8.143359, nextPhis[ 1]=-8.141067 <==IsSwitchingOccur() T = 28.445000 Tnext = 28.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.450000 pESO->GetIndependentVar(): 28.450000 ==>IsSwitchingOccur() prevPhis[ 0]=14.141067, nextPhis[ 0]=14.138699 prevPhis[ 1]=-8.141067, nextPhis[ 1]=-8.138699 <==IsSwitchingOccur() T = 28.450000 Tnext = 28.455000 Time: 2.84500e+01 states: [ 2.98833e+00 1.73711e-01] derivs: [ 1.73468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.455000 pESO->GetIndependentVar(): 28.455000 ==>IsSwitchingOccur() prevPhis[ 0]=14.138699, nextPhis[ 0]=14.136257 prevPhis[ 1]=-8.138699, nextPhis[ 1]=-8.136257 <==IsSwitchingOccur() T = 28.455000 Tnext = 28.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.460000 pESO->GetIndependentVar(): 28.460000 ==>IsSwitchingOccur() prevPhis[ 0]=14.136257, nextPhis[ 0]=14.133740 prevPhis[ 1]=-8.136257, nextPhis[ 1]=-8.133740 <==IsSwitchingOccur() T = 28.460000 Tnext = 28.465000 Time: 2.84600e+01 states: [ 2.99001e+00 1.63711e-01] derivs: [ 1.63468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.465000 pESO->GetIndependentVar(): 28.465000 ==>IsSwitchingOccur() prevPhis[ 0]=14.133740, nextPhis[ 0]=14.131148 prevPhis[ 1]=-8.133740, nextPhis[ 1]=-8.131148 <==IsSwitchingOccur() T = 28.465000 Tnext = 28.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.470000 pESO->GetIndependentVar(): 28.470000 ==>IsSwitchingOccur() prevPhis[ 0]=14.131148, nextPhis[ 0]=14.128481 prevPhis[ 1]=-8.131148, nextPhis[ 1]=-8.128481 <==IsSwitchingOccur() T = 28.470000 Tnext = 28.475000 Time: 2.84700e+01 states: [ 2.99159e+00 1.53711e-01] derivs: [ 1.53468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.475000 pESO->GetIndependentVar(): 28.475000 ==>IsSwitchingOccur() prevPhis[ 0]=14.128481, nextPhis[ 0]=14.125738 prevPhis[ 1]=-8.128481, nextPhis[ 1]=-8.125738 <==IsSwitchingOccur() T = 28.475000 Tnext = 28.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.480000 pESO->GetIndependentVar(): 28.480000 ==>IsSwitchingOccur() prevPhis[ 0]=14.125738, nextPhis[ 0]=14.122921 prevPhis[ 1]=-8.125738, nextPhis[ 1]=-8.122921 <==IsSwitchingOccur() T = 28.480000 Tnext = 28.485000 Time: 2.84800e+01 states: [ 2.99307e+00 1.43711e-01] derivs: [ 1.43468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.485000 pESO->GetIndependentVar(): 28.485000 ==>IsSwitchingOccur() prevPhis[ 0]=14.122921, nextPhis[ 0]=14.120029 prevPhis[ 1]=-8.122921, nextPhis[ 1]=-8.120029 <==IsSwitchingOccur() T = 28.485000 Tnext = 28.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.490000 pESO->GetIndependentVar(): 28.490000 ==>IsSwitchingOccur() prevPhis[ 0]=14.120029, nextPhis[ 0]=14.117062 prevPhis[ 1]=-8.120029, nextPhis[ 1]=-8.117062 <==IsSwitchingOccur() T = 28.490000 Tnext = 28.495000 Time: 2.84900e+01 states: [ 2.99445e+00 1.33711e-01] derivs: [ 1.33468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.495000 pESO->GetIndependentVar(): 28.495000 ==>IsSwitchingOccur() prevPhis[ 0]=14.117062, nextPhis[ 0]=14.114020 prevPhis[ 1]=-8.117062, nextPhis[ 1]=-8.114020 <==IsSwitchingOccur() T = 28.495000 Tnext = 28.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.500000 pESO->GetIndependentVar(): 28.500000 ==>IsSwitchingOccur() prevPhis[ 0]=14.114020, nextPhis[ 0]=14.110902 prevPhis[ 1]=-8.114020, nextPhis[ 1]=-8.110902 <==IsSwitchingOccur() T = 28.500000 Tnext = 28.505000 Time: 2.85000e+01 states: [ 2.99573e+00 1.23711e-01] derivs: [ 1.23468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.505000 pESO->GetIndependentVar(): 28.505000 ==>IsSwitchingOccur() prevPhis[ 0]=14.110902, nextPhis[ 0]=14.107710 prevPhis[ 1]=-8.110902, nextPhis[ 1]=-8.107710 <==IsSwitchingOccur() T = 28.505000 Tnext = 28.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.510000 pESO->GetIndependentVar(): 28.510000 ==>IsSwitchingOccur() prevPhis[ 0]=14.107710, nextPhis[ 0]=14.104443 prevPhis[ 1]=-8.107710, nextPhis[ 1]=-8.104443 <==IsSwitchingOccur() T = 28.510000 Tnext = 28.515000 Time: 2.85100e+01 states: [ 2.99691e+00 1.13711e-01] derivs: [ 1.13468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.515000 pESO->GetIndependentVar(): 28.515000 ==>IsSwitchingOccur() prevPhis[ 0]=14.104443, nextPhis[ 0]=14.101101 prevPhis[ 1]=-8.104443, nextPhis[ 1]=-8.101101 <==IsSwitchingOccur() T = 28.515000 Tnext = 28.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.520000 pESO->GetIndependentVar(): 28.520000 ==>IsSwitchingOccur() prevPhis[ 0]=14.101101, nextPhis[ 0]=14.097684 prevPhis[ 1]=-8.101101, nextPhis[ 1]=-8.097684 <==IsSwitchingOccur() T = 28.520000 Tnext = 28.525000 Time: 2.85200e+01 states: [ 2.99799e+00 1.03711e-01] derivs: [ 1.03468e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.525000 pESO->GetIndependentVar(): 28.525000 ==>IsSwitchingOccur() prevPhis[ 0]=14.097684, nextPhis[ 0]=14.094192 prevPhis[ 1]=-8.097684, nextPhis[ 1]=-8.094192 <==IsSwitchingOccur() T = 28.525000 Tnext = 28.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.530000 pESO->GetIndependentVar(): 28.530000 ==>IsSwitchingOccur() prevPhis[ 0]=14.094192, nextPhis[ 0]=14.090624 prevPhis[ 1]=-8.094192, nextPhis[ 1]=-8.090624 <==IsSwitchingOccur() T = 28.530000 Tnext = 28.535000 Time: 2.85300e+01 states: [ 2.99897e+00 9.37111e-02] derivs: [ 9.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.535000 pESO->GetIndependentVar(): 28.535000 ==>IsSwitchingOccur() prevPhis[ 0]=14.090624, nextPhis[ 0]=14.086982 prevPhis[ 1]=-8.090624, nextPhis[ 1]=-8.086982 <==IsSwitchingOccur() T = 28.535000 Tnext = 28.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.540000 pESO->GetIndependentVar(): 28.540000 ==>IsSwitchingOccur() prevPhis[ 0]=14.086982, nextPhis[ 0]=14.083265 prevPhis[ 1]=-8.086982, nextPhis[ 1]=-8.083265 <==IsSwitchingOccur() T = 28.540000 Tnext = 28.545000 Time: 2.85400e+01 states: [ 2.99985e+00 8.37111e-02] derivs: [ 8.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.545000 pESO->GetIndependentVar(): 28.545000 ==>IsSwitchingOccur() prevPhis[ 0]=14.083265, nextPhis[ 0]=14.079473 prevPhis[ 1]=-8.083265, nextPhis[ 1]=-8.079473 <==IsSwitchingOccur() T = 28.545000 Tnext = 28.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.550000 pESO->GetIndependentVar(): 28.550000 ==>IsSwitchingOccur() prevPhis[ 0]=14.079473, nextPhis[ 0]=14.075606 prevPhis[ 1]=-8.079473, nextPhis[ 1]=-8.075606 <==IsSwitchingOccur() T = 28.550000 Tnext = 28.555000 Time: 2.85500e+01 states: [ 3.00063e+00 7.37111e-02] derivs: [ 7.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.555000 pESO->GetIndependentVar(): 28.555000 ==>IsSwitchingOccur() prevPhis[ 0]=14.075606, nextPhis[ 0]=14.071663 prevPhis[ 1]=-8.075606, nextPhis[ 1]=-8.071663 <==IsSwitchingOccur() T = 28.555000 Tnext = 28.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.560000 pESO->GetIndependentVar(): 28.560000 ==>IsSwitchingOccur() prevPhis[ 0]=14.071663, nextPhis[ 0]=14.067646 prevPhis[ 1]=-8.071663, nextPhis[ 1]=-8.067646 <==IsSwitchingOccur() T = 28.560000 Tnext = 28.565000 Time: 2.85600e+01 states: [ 3.00131e+00 6.37111e-02] derivs: [ 6.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.565000 pESO->GetIndependentVar(): 28.565000 ==>IsSwitchingOccur() prevPhis[ 0]=14.067646, nextPhis[ 0]=14.063554 prevPhis[ 1]=-8.067646, nextPhis[ 1]=-8.063554 <==IsSwitchingOccur() T = 28.565000 Tnext = 28.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.570000 pESO->GetIndependentVar(): 28.570000 ==>IsSwitchingOccur() prevPhis[ 0]=14.063554, nextPhis[ 0]=14.059387 prevPhis[ 1]=-8.063554, nextPhis[ 1]=-8.059387 <==IsSwitchingOccur() T = 28.570000 Tnext = 28.575000 Time: 2.85700e+01 states: [ 3.00189e+00 5.37111e-02] derivs: [ 5.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.575000 pESO->GetIndependentVar(): 28.575000 ==>IsSwitchingOccur() prevPhis[ 0]=14.059387, nextPhis[ 0]=14.055145 prevPhis[ 1]=-8.059387, nextPhis[ 1]=-8.055145 <==IsSwitchingOccur() T = 28.575000 Tnext = 28.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.580000 pESO->GetIndependentVar(): 28.580000 ==>IsSwitchingOccur() prevPhis[ 0]=14.055145, nextPhis[ 0]=14.050827 prevPhis[ 1]=-8.055145, nextPhis[ 1]=-8.050827 <==IsSwitchingOccur() T = 28.580000 Tnext = 28.585000 Time: 2.85800e+01 states: [ 3.00237e+00 4.37111e-02] derivs: [ 4.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.585000 pESO->GetIndependentVar(): 28.585000 ==>IsSwitchingOccur() prevPhis[ 0]=14.050827, nextPhis[ 0]=14.046435 prevPhis[ 1]=-8.050827, nextPhis[ 1]=-8.046435 <==IsSwitchingOccur() T = 28.585000 Tnext = 28.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.590000 pESO->GetIndependentVar(): 28.590000 ==>IsSwitchingOccur() prevPhis[ 0]=14.046435, nextPhis[ 0]=14.041968 prevPhis[ 1]=-8.046435, nextPhis[ 1]=-8.041968 <==IsSwitchingOccur() T = 28.590000 Tnext = 28.595000 Time: 2.85900e+01 states: [ 3.00275e+00 3.37111e-02] derivs: [ 3.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.595000 pESO->GetIndependentVar(): 28.595000 ==>IsSwitchingOccur() prevPhis[ 0]=14.041968, nextPhis[ 0]=14.037426 prevPhis[ 1]=-8.041968, nextPhis[ 1]=-8.037426 <==IsSwitchingOccur() T = 28.595000 Tnext = 28.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.600000 pESO->GetIndependentVar(): 28.600000 ==>IsSwitchingOccur() prevPhis[ 0]=14.037426, nextPhis[ 0]=14.032809 prevPhis[ 1]=-8.037426, nextPhis[ 1]=-8.032809 <==IsSwitchingOccur() T = 28.600000 Tnext = 28.605000 Time: 2.86000e+01 states: [ 3.00303e+00 2.37111e-02] derivs: [ 2.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.605000 pESO->GetIndependentVar(): 28.605000 ==>IsSwitchingOccur() prevPhis[ 0]=14.032809, nextPhis[ 0]=14.028116 prevPhis[ 1]=-8.032809, nextPhis[ 1]=-8.028116 <==IsSwitchingOccur() T = 28.605000 Tnext = 28.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.610000 pESO->GetIndependentVar(): 28.610000 ==>IsSwitchingOccur() prevPhis[ 0]=14.028116, nextPhis[ 0]=14.023349 prevPhis[ 1]=-8.028116, nextPhis[ 1]=-8.023349 <==IsSwitchingOccur() T = 28.610000 Tnext = 28.615000 Time: 2.86100e+01 states: [ 3.00321e+00 1.37111e-02] derivs: [ 1.34682e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.615000 pESO->GetIndependentVar(): 28.615000 ==>IsSwitchingOccur() prevPhis[ 0]=14.023349, nextPhis[ 0]=14.018507 prevPhis[ 1]=-8.023349, nextPhis[ 1]=-8.018507 <==IsSwitchingOccur() T = 28.615000 Tnext = 28.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.620000 pESO->GetIndependentVar(): 28.620000 ==>IsSwitchingOccur() prevPhis[ 0]=14.018507, nextPhis[ 0]=14.013590 prevPhis[ 1]=-8.018507, nextPhis[ 1]=-8.013590 <==IsSwitchingOccur() T = 28.620000 Tnext = 28.625000 Time: 2.86200e+01 states: [ 3.00329e+00 3.71109e-03] derivs: [ 3.46821e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.625000 pESO->GetIndependentVar(): 28.625000 ==>IsSwitchingOccur() prevPhis[ 0]=14.013590, nextPhis[ 0]=14.008598 prevPhis[ 1]=-8.013590, nextPhis[ 1]=-8.008598 <==IsSwitchingOccur() T = 28.625000 Tnext = 28.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.630000 pESO->GetIndependentVar(): 28.630000 ==>IsSwitchingOccur() prevPhis[ 0]=14.008598, nextPhis[ 0]=14.003531 prevPhis[ 1]=-8.008598, nextPhis[ 1]=-8.003531 <==IsSwitchingOccur() T = 28.630000 Tnext = 28.635000 Time: 2.86300e+01 states: [ 3.00327e+00 -6.28891e-03] derivs: [ -6.53179e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.635000 pESO->GetIndependentVar(): 28.635000 ==>IsSwitchingOccur() prevPhis[ 0]=14.003531, nextPhis[ 0]=13.998388 prevPhis[ 1]=-8.003531, nextPhis[ 1]=-7.998388 <==IsSwitchingOccur() T = 28.635000 Tnext = 28.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.640000 pESO->GetIndependentVar(): 28.640000 ==>IsSwitchingOccur() prevPhis[ 0]=13.998388, nextPhis[ 0]=13.993171 prevPhis[ 1]=-7.998388, nextPhis[ 1]=-7.993171 <==IsSwitchingOccur() T = 28.640000 Tnext = 28.645000 Time: 2.86400e+01 states: [ 3.00315e+00 -1.62889e-02] derivs: [ -1.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.645000 pESO->GetIndependentVar(): 28.645000 ==>IsSwitchingOccur() prevPhis[ 0]=13.993171, nextPhis[ 0]=13.987879 prevPhis[ 1]=-7.993171, nextPhis[ 1]=-7.987879 <==IsSwitchingOccur() T = 28.645000 Tnext = 28.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.650000 pESO->GetIndependentVar(): 28.650000 ==>IsSwitchingOccur() prevPhis[ 0]=13.987879, nextPhis[ 0]=13.982512 prevPhis[ 1]=-7.987879, nextPhis[ 1]=-7.982512 <==IsSwitchingOccur() T = 28.650000 Tnext = 28.655000 Time: 2.86500e+01 states: [ 3.00293e+00 -2.62889e-02] derivs: [ -2.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.655000 pESO->GetIndependentVar(): 28.655000 ==>IsSwitchingOccur() prevPhis[ 0]=13.982512, nextPhis[ 0]=13.977070 prevPhis[ 1]=-7.982512, nextPhis[ 1]=-7.977070 <==IsSwitchingOccur() T = 28.655000 Tnext = 28.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.660000 pESO->GetIndependentVar(): 28.660000 ==>IsSwitchingOccur() prevPhis[ 0]=13.977070, nextPhis[ 0]=13.971552 prevPhis[ 1]=-7.977070, nextPhis[ 1]=-7.971552 <==IsSwitchingOccur() T = 28.660000 Tnext = 28.665000 Time: 2.86600e+01 states: [ 3.00261e+00 -3.62889e-02] derivs: [ -3.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.665000 pESO->GetIndependentVar(): 28.665000 ==>IsSwitchingOccur() prevPhis[ 0]=13.971552, nextPhis[ 0]=13.965960 prevPhis[ 1]=-7.971552, nextPhis[ 1]=-7.965960 <==IsSwitchingOccur() T = 28.665000 Tnext = 28.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.670000 pESO->GetIndependentVar(): 28.670000 ==>IsSwitchingOccur() prevPhis[ 0]=13.965960, nextPhis[ 0]=13.960293 prevPhis[ 1]=-7.965960, nextPhis[ 1]=-7.960293 <==IsSwitchingOccur() T = 28.670000 Tnext = 28.675000 Time: 2.86700e+01 states: [ 3.00219e+00 -4.62889e-02] derivs: [ -4.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.675000 pESO->GetIndependentVar(): 28.675000 ==>IsSwitchingOccur() prevPhis[ 0]=13.960293, nextPhis[ 0]=13.954551 prevPhis[ 1]=-7.960293, nextPhis[ 1]=-7.954551 <==IsSwitchingOccur() T = 28.675000 Tnext = 28.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.680000 pESO->GetIndependentVar(): 28.680000 ==>IsSwitchingOccur() prevPhis[ 0]=13.954551, nextPhis[ 0]=13.948734 prevPhis[ 1]=-7.954551, nextPhis[ 1]=-7.948734 <==IsSwitchingOccur() T = 28.680000 Tnext = 28.685000 Time: 2.86800e+01 states: [ 3.00167e+00 -5.62889e-02] derivs: [ -5.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.685000 pESO->GetIndependentVar(): 28.685000 ==>IsSwitchingOccur() prevPhis[ 0]=13.948734, nextPhis[ 0]=13.942841 prevPhis[ 1]=-7.948734, nextPhis[ 1]=-7.942841 <==IsSwitchingOccur() T = 28.685000 Tnext = 28.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.690000 pESO->GetIndependentVar(): 28.690000 ==>IsSwitchingOccur() prevPhis[ 0]=13.942841, nextPhis[ 0]=13.936874 prevPhis[ 1]=-7.942841, nextPhis[ 1]=-7.936874 <==IsSwitchingOccur() T = 28.690000 Tnext = 28.695000 Time: 2.86900e+01 states: [ 3.00105e+00 -6.62889e-02] derivs: [ -6.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.695000 pESO->GetIndependentVar(): 28.695000 ==>IsSwitchingOccur() prevPhis[ 0]=13.936874, nextPhis[ 0]=13.930832 prevPhis[ 1]=-7.936874, nextPhis[ 1]=-7.930832 <==IsSwitchingOccur() T = 28.695000 Tnext = 28.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.700000 pESO->GetIndependentVar(): 28.700000 ==>IsSwitchingOccur() prevPhis[ 0]=13.930832, nextPhis[ 0]=13.924715 prevPhis[ 1]=-7.930832, nextPhis[ 1]=-7.924715 <==IsSwitchingOccur() T = 28.700000 Tnext = 28.705000 Time: 2.87000e+01 states: [ 3.00033e+00 -7.62889e-02] derivs: [ -7.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.705000 pESO->GetIndependentVar(): 28.705000 ==>IsSwitchingOccur() prevPhis[ 0]=13.924715, nextPhis[ 0]=13.918523 prevPhis[ 1]=-7.924715, nextPhis[ 1]=-7.918523 <==IsSwitchingOccur() T = 28.705000 Tnext = 28.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.710000 pESO->GetIndependentVar(): 28.710000 ==>IsSwitchingOccur() prevPhis[ 0]=13.918523, nextPhis[ 0]=13.912255 prevPhis[ 1]=-7.918523, nextPhis[ 1]=-7.912255 <==IsSwitchingOccur() T = 28.710000 Tnext = 28.715000 Time: 2.87100e+01 states: [ 2.99951e+00 -8.62889e-02] derivs: [ -8.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.715000 pESO->GetIndependentVar(): 28.715000 ==>IsSwitchingOccur() prevPhis[ 0]=13.912255, nextPhis[ 0]=13.905913 prevPhis[ 1]=-7.912255, nextPhis[ 1]=-7.905913 <==IsSwitchingOccur() T = 28.715000 Tnext = 28.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.720000 pESO->GetIndependentVar(): 28.720000 ==>IsSwitchingOccur() prevPhis[ 0]=13.905913, nextPhis[ 0]=13.899496 prevPhis[ 1]=-7.905913, nextPhis[ 1]=-7.899496 <==IsSwitchingOccur() T = 28.720000 Tnext = 28.725000 Time: 2.87200e+01 states: [ 2.99860e+00 -9.62889e-02] derivs: [ -9.65318e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.725000 pESO->GetIndependentVar(): 28.725000 ==>IsSwitchingOccur() prevPhis[ 0]=13.899496, nextPhis[ 0]=13.893004 prevPhis[ 1]=-7.899496, nextPhis[ 1]=-7.893004 <==IsSwitchingOccur() T = 28.725000 Tnext = 28.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.730000 pESO->GetIndependentVar(): 28.730000 ==>IsSwitchingOccur() prevPhis[ 0]=13.893004, nextPhis[ 0]=13.886437 prevPhis[ 1]=-7.893004, nextPhis[ 1]=-7.886437 <==IsSwitchingOccur() T = 28.730000 Tnext = 28.735000 Time: 2.87300e+01 states: [ 2.99758e+00 -1.06289e-01] derivs: [ -1.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.735000 pESO->GetIndependentVar(): 28.735000 ==>IsSwitchingOccur() prevPhis[ 0]=13.886437, nextPhis[ 0]=13.879795 prevPhis[ 1]=-7.886437, nextPhis[ 1]=-7.879795 <==IsSwitchingOccur() T = 28.735000 Tnext = 28.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.740000 pESO->GetIndependentVar(): 28.740000 ==>IsSwitchingOccur() prevPhis[ 0]=13.879795, nextPhis[ 0]=13.873077 prevPhis[ 1]=-7.879795, nextPhis[ 1]=-7.873077 <==IsSwitchingOccur() T = 28.740000 Tnext = 28.745000 Time: 2.87400e+01 states: [ 2.99646e+00 -1.16289e-01] derivs: [ -1.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.745000 pESO->GetIndependentVar(): 28.745000 ==>IsSwitchingOccur() prevPhis[ 0]=13.873077, nextPhis[ 0]=13.866285 prevPhis[ 1]=-7.873077, nextPhis[ 1]=-7.866285 <==IsSwitchingOccur() T = 28.745000 Tnext = 28.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.750000 pESO->GetIndependentVar(): 28.750000 ==>IsSwitchingOccur() prevPhis[ 0]=13.866285, nextPhis[ 0]=13.859418 prevPhis[ 1]=-7.866285, nextPhis[ 1]=-7.859418 <==IsSwitchingOccur() T = 28.750000 Tnext = 28.755000 Time: 2.87500e+01 states: [ 2.99524e+00 -1.26289e-01] derivs: [ -1.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.755000 pESO->GetIndependentVar(): 28.755000 ==>IsSwitchingOccur() prevPhis[ 0]=13.859418, nextPhis[ 0]=13.852476 prevPhis[ 1]=-7.859418, nextPhis[ 1]=-7.852476 <==IsSwitchingOccur() T = 28.755000 Tnext = 28.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.760000 pESO->GetIndependentVar(): 28.760000 ==>IsSwitchingOccur() prevPhis[ 0]=13.852476, nextPhis[ 0]=13.845459 prevPhis[ 1]=-7.852476, nextPhis[ 1]=-7.845459 <==IsSwitchingOccur() T = 28.760000 Tnext = 28.765000 Time: 2.87600e+01 states: [ 2.99392e+00 -1.36289e-01] derivs: [ -1.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.765000 pESO->GetIndependentVar(): 28.765000 ==>IsSwitchingOccur() prevPhis[ 0]=13.845459, nextPhis[ 0]=13.838366 prevPhis[ 1]=-7.845459, nextPhis[ 1]=-7.838366 <==IsSwitchingOccur() T = 28.765000 Tnext = 28.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.770000 pESO->GetIndependentVar(): 28.770000 ==>IsSwitchingOccur() prevPhis[ 0]=13.838366, nextPhis[ 0]=13.831199 prevPhis[ 1]=-7.838366, nextPhis[ 1]=-7.831199 <==IsSwitchingOccur() T = 28.770000 Tnext = 28.775000 Time: 2.87700e+01 states: [ 2.99250e+00 -1.46289e-01] derivs: [ -1.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.775000 pESO->GetIndependentVar(): 28.775000 ==>IsSwitchingOccur() prevPhis[ 0]=13.831199, nextPhis[ 0]=13.823957 prevPhis[ 1]=-7.831199, nextPhis[ 1]=-7.823957 <==IsSwitchingOccur() T = 28.775000 Tnext = 28.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.780000 pESO->GetIndependentVar(): 28.780000 ==>IsSwitchingOccur() prevPhis[ 0]=13.823957, nextPhis[ 0]=13.816640 prevPhis[ 1]=-7.823957, nextPhis[ 1]=-7.816640 <==IsSwitchingOccur() T = 28.780000 Tnext = 28.785000 Time: 2.87800e+01 states: [ 2.99098e+00 -1.56289e-01] derivs: [ -1.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.785000 pESO->GetIndependentVar(): 28.785000 ==>IsSwitchingOccur() prevPhis[ 0]=13.816640, nextPhis[ 0]=13.809248 prevPhis[ 1]=-7.816640, nextPhis[ 1]=-7.809248 <==IsSwitchingOccur() T = 28.785000 Tnext = 28.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.790000 pESO->GetIndependentVar(): 28.790000 ==>IsSwitchingOccur() prevPhis[ 0]=13.809248, nextPhis[ 0]=13.801780 prevPhis[ 1]=-7.809248, nextPhis[ 1]=-7.801780 <==IsSwitchingOccur() T = 28.790000 Tnext = 28.795000 Time: 2.87900e+01 states: [ 2.98936e+00 -1.66289e-01] derivs: [ -1.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.795000 pESO->GetIndependentVar(): 28.795000 ==>IsSwitchingOccur() prevPhis[ 0]=13.801780, nextPhis[ 0]=13.794238 prevPhis[ 1]=-7.801780, nextPhis[ 1]=-7.794238 <==IsSwitchingOccur() T = 28.795000 Tnext = 28.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.800000 pESO->GetIndependentVar(): 28.800000 ==>IsSwitchingOccur() prevPhis[ 0]=13.794238, nextPhis[ 0]=13.786621 prevPhis[ 1]=-7.794238, nextPhis[ 1]=-7.786621 <==IsSwitchingOccur() T = 28.800000 Tnext = 28.805000 Time: 2.88000e+01 states: [ 2.98764e+00 -1.76289e-01] derivs: [ -1.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.805000 pESO->GetIndependentVar(): 28.805000 ==>IsSwitchingOccur() prevPhis[ 0]=13.786621, nextPhis[ 0]=13.778929 prevPhis[ 1]=-7.786621, nextPhis[ 1]=-7.778929 <==IsSwitchingOccur() T = 28.805000 Tnext = 28.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.810000 pESO->GetIndependentVar(): 28.810000 ==>IsSwitchingOccur() prevPhis[ 0]=13.778929, nextPhis[ 0]=13.771162 prevPhis[ 1]=-7.778929, nextPhis[ 1]=-7.771162 <==IsSwitchingOccur() T = 28.810000 Tnext = 28.815000 Time: 2.88100e+01 states: [ 2.98582e+00 -1.86289e-01] derivs: [ -1.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.815000 pESO->GetIndependentVar(): 28.815000 ==>IsSwitchingOccur() prevPhis[ 0]=13.771162, nextPhis[ 0]=13.763319 prevPhis[ 1]=-7.771162, nextPhis[ 1]=-7.763319 <==IsSwitchingOccur() T = 28.815000 Tnext = 28.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.820000 pESO->GetIndependentVar(): 28.820000 ==>IsSwitchingOccur() prevPhis[ 0]=13.763319, nextPhis[ 0]=13.755402 prevPhis[ 1]=-7.763319, nextPhis[ 1]=-7.755402 <==IsSwitchingOccur() T = 28.820000 Tnext = 28.825000 Time: 2.88200e+01 states: [ 2.98390e+00 -1.96289e-01] derivs: [ -1.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.825000 pESO->GetIndependentVar(): 28.825000 ==>IsSwitchingOccur() prevPhis[ 0]=13.755402, nextPhis[ 0]=13.747410 prevPhis[ 1]=-7.755402, nextPhis[ 1]=-7.747410 <==IsSwitchingOccur() T = 28.825000 Tnext = 28.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.830000 pESO->GetIndependentVar(): 28.830000 ==>IsSwitchingOccur() prevPhis[ 0]=13.747410, nextPhis[ 0]=13.739343 prevPhis[ 1]=-7.747410, nextPhis[ 1]=-7.739343 <==IsSwitchingOccur() T = 28.830000 Tnext = 28.835000 Time: 2.88300e+01 states: [ 2.98188e+00 -2.06289e-01] derivs: [ -2.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.835000 pESO->GetIndependentVar(): 28.835000 ==>IsSwitchingOccur() prevPhis[ 0]=13.739343, nextPhis[ 0]=13.731201 prevPhis[ 1]=-7.739343, nextPhis[ 1]=-7.731201 <==IsSwitchingOccur() T = 28.835000 Tnext = 28.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.840000 pESO->GetIndependentVar(): 28.840000 ==>IsSwitchingOccur() prevPhis[ 0]=13.731201, nextPhis[ 0]=13.722984 prevPhis[ 1]=-7.731201, nextPhis[ 1]=-7.722984 <==IsSwitchingOccur() T = 28.840000 Tnext = 28.845000 Time: 2.88400e+01 states: [ 2.97976e+00 -2.16289e-01] derivs: [ -2.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.845000 pESO->GetIndependentVar(): 28.845000 ==>IsSwitchingOccur() prevPhis[ 0]=13.722984, nextPhis[ 0]=13.714691 prevPhis[ 1]=-7.722984, nextPhis[ 1]=-7.714691 <==IsSwitchingOccur() T = 28.845000 Tnext = 28.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.850000 pESO->GetIndependentVar(): 28.850000 ==>IsSwitchingOccur() prevPhis[ 0]=13.714691, nextPhis[ 0]=13.706324 prevPhis[ 1]=-7.714691, nextPhis[ 1]=-7.706324 <==IsSwitchingOccur() T = 28.850000 Tnext = 28.855000 Time: 2.88500e+01 states: [ 2.97754e+00 -2.26289e-01] derivs: [ -2.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.855000 pESO->GetIndependentVar(): 28.855000 ==>IsSwitchingOccur() prevPhis[ 0]=13.706324, nextPhis[ 0]=13.697882 prevPhis[ 1]=-7.706324, nextPhis[ 1]=-7.697882 <==IsSwitchingOccur() T = 28.855000 Tnext = 28.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.860000 pESO->GetIndependentVar(): 28.860000 ==>IsSwitchingOccur() prevPhis[ 0]=13.697882, nextPhis[ 0]=13.689365 prevPhis[ 1]=-7.697882, nextPhis[ 1]=-7.689365 <==IsSwitchingOccur() T = 28.860000 Tnext = 28.865000 Time: 2.88600e+01 states: [ 2.97522e+00 -2.36289e-01] derivs: [ -2.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.865000 pESO->GetIndependentVar(): 28.865000 ==>IsSwitchingOccur() prevPhis[ 0]=13.689365, nextPhis[ 0]=13.680773 prevPhis[ 1]=-7.689365, nextPhis[ 1]=-7.680773 <==IsSwitchingOccur() T = 28.865000 Tnext = 28.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.870000 pESO->GetIndependentVar(): 28.870000 ==>IsSwitchingOccur() prevPhis[ 0]=13.680773, nextPhis[ 0]=13.672105 prevPhis[ 1]=-7.680773, nextPhis[ 1]=-7.672105 <==IsSwitchingOccur() T = 28.870000 Tnext = 28.875000 Time: 2.88700e+01 states: [ 2.97280e+00 -2.46289e-01] derivs: [ -2.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.875000 pESO->GetIndependentVar(): 28.875000 ==>IsSwitchingOccur() prevPhis[ 0]=13.672105, nextPhis[ 0]=13.663363 prevPhis[ 1]=-7.672105, nextPhis[ 1]=-7.663363 <==IsSwitchingOccur() T = 28.875000 Tnext = 28.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.880000 pESO->GetIndependentVar(): 28.880000 ==>IsSwitchingOccur() prevPhis[ 0]=13.663363, nextPhis[ 0]=13.654546 prevPhis[ 1]=-7.663363, nextPhis[ 1]=-7.654546 <==IsSwitchingOccur() T = 28.880000 Tnext = 28.885000 Time: 2.88800e+01 states: [ 2.97028e+00 -2.56289e-01] derivs: [ -2.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.885000 pESO->GetIndependentVar(): 28.885000 ==>IsSwitchingOccur() prevPhis[ 0]=13.654546, nextPhis[ 0]=13.645654 prevPhis[ 1]=-7.654546, nextPhis[ 1]=-7.645654 <==IsSwitchingOccur() T = 28.885000 Tnext = 28.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.890000 pESO->GetIndependentVar(): 28.890000 ==>IsSwitchingOccur() prevPhis[ 0]=13.645654, nextPhis[ 0]=13.636687 prevPhis[ 1]=-7.645654, nextPhis[ 1]=-7.636687 <==IsSwitchingOccur() T = 28.890000 Tnext = 28.895000 Time: 2.88900e+01 states: [ 2.96766e+00 -2.66289e-01] derivs: [ -2.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.895000 pESO->GetIndependentVar(): 28.895000 ==>IsSwitchingOccur() prevPhis[ 0]=13.636687, nextPhis[ 0]=13.627644 prevPhis[ 1]=-7.636687, nextPhis[ 1]=-7.627644 <==IsSwitchingOccur() T = 28.895000 Tnext = 28.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.900000 pESO->GetIndependentVar(): 28.900000 ==>IsSwitchingOccur() prevPhis[ 0]=13.627644, nextPhis[ 0]=13.618527 prevPhis[ 1]=-7.627644, nextPhis[ 1]=-7.618527 <==IsSwitchingOccur() T = 28.900000 Tnext = 28.905000 Time: 2.89000e+01 states: [ 2.96494e+00 -2.76289e-01] derivs: [ -2.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.905000 pESO->GetIndependentVar(): 28.905000 ==>IsSwitchingOccur() prevPhis[ 0]=13.618527, nextPhis[ 0]=13.609335 prevPhis[ 1]=-7.618527, nextPhis[ 1]=-7.609335 <==IsSwitchingOccur() T = 28.905000 Tnext = 28.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.910000 pESO->GetIndependentVar(): 28.910000 ==>IsSwitchingOccur() prevPhis[ 0]=13.609335, nextPhis[ 0]=13.600068 prevPhis[ 1]=-7.609335, nextPhis[ 1]=-7.600068 <==IsSwitchingOccur() T = 28.910000 Tnext = 28.915000 Time: 2.89100e+01 states: [ 2.96212e+00 -2.86289e-01] derivs: [ -2.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.915000 pESO->GetIndependentVar(): 28.915000 ==>IsSwitchingOccur() prevPhis[ 0]=13.600068, nextPhis[ 0]=13.590726 prevPhis[ 1]=-7.600068, nextPhis[ 1]=-7.590726 <==IsSwitchingOccur() T = 28.915000 Tnext = 28.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.920000 pESO->GetIndependentVar(): 28.920000 ==>IsSwitchingOccur() prevPhis[ 0]=13.590726, nextPhis[ 0]=13.581308 prevPhis[ 1]=-7.590726, nextPhis[ 1]=-7.581308 <==IsSwitchingOccur() T = 28.920000 Tnext = 28.925000 Time: 2.89200e+01 states: [ 2.95920e+00 -2.96289e-01] derivs: [ -2.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.925000 pESO->GetIndependentVar(): 28.925000 ==>IsSwitchingOccur() prevPhis[ 0]=13.581308, nextPhis[ 0]=13.571816 prevPhis[ 1]=-7.581308, nextPhis[ 1]=-7.571816 <==IsSwitchingOccur() T = 28.925000 Tnext = 28.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.930000 pESO->GetIndependentVar(): 28.930000 ==>IsSwitchingOccur() prevPhis[ 0]=13.571816, nextPhis[ 0]=13.562249 prevPhis[ 1]=-7.571816, nextPhis[ 1]=-7.562249 <==IsSwitchingOccur() T = 28.930000 Tnext = 28.935000 Time: 2.89300e+01 states: [ 2.95618e+00 -3.06289e-01] derivs: [ -3.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.935000 pESO->GetIndependentVar(): 28.935000 ==>IsSwitchingOccur() prevPhis[ 0]=13.562249, nextPhis[ 0]=13.552607 prevPhis[ 1]=-7.562249, nextPhis[ 1]=-7.552607 <==IsSwitchingOccur() T = 28.935000 Tnext = 28.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.940000 pESO->GetIndependentVar(): 28.940000 ==>IsSwitchingOccur() prevPhis[ 0]=13.552607, nextPhis[ 0]=13.542890 prevPhis[ 1]=-7.552607, nextPhis[ 1]=-7.542890 <==IsSwitchingOccur() T = 28.940000 Tnext = 28.945000 Time: 2.89400e+01 states: [ 2.95306e+00 -3.16289e-01] derivs: [ -3.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.945000 pESO->GetIndependentVar(): 28.945000 ==>IsSwitchingOccur() prevPhis[ 0]=13.542890, nextPhis[ 0]=13.533098 prevPhis[ 1]=-7.542890, nextPhis[ 1]=-7.533098 <==IsSwitchingOccur() T = 28.945000 Tnext = 28.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.950000 pESO->GetIndependentVar(): 28.950000 ==>IsSwitchingOccur() prevPhis[ 0]=13.533098, nextPhis[ 0]=13.523230 prevPhis[ 1]=-7.533098, nextPhis[ 1]=-7.523230 <==IsSwitchingOccur() T = 28.950000 Tnext = 28.955000 Time: 2.89500e+01 states: [ 2.94984e+00 -3.26289e-01] derivs: [ -3.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.955000 pESO->GetIndependentVar(): 28.955000 ==>IsSwitchingOccur() prevPhis[ 0]=13.523230, nextPhis[ 0]=13.513288 prevPhis[ 1]=-7.523230, nextPhis[ 1]=-7.513288 <==IsSwitchingOccur() T = 28.955000 Tnext = 28.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.960000 pESO->GetIndependentVar(): 28.960000 ==>IsSwitchingOccur() prevPhis[ 0]=13.513288, nextPhis[ 0]=13.503271 prevPhis[ 1]=-7.513288, nextPhis[ 1]=-7.503271 <==IsSwitchingOccur() T = 28.960000 Tnext = 28.965000 Time: 2.89600e+01 states: [ 2.94652e+00 -3.36289e-01] derivs: [ -3.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.965000 pESO->GetIndependentVar(): 28.965000 ==>IsSwitchingOccur() prevPhis[ 0]=13.503271, nextPhis[ 0]=13.493179 prevPhis[ 1]=-7.503271, nextPhis[ 1]=-7.493179 <==IsSwitchingOccur() T = 28.965000 Tnext = 28.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.970000 pESO->GetIndependentVar(): 28.970000 ==>IsSwitchingOccur() prevPhis[ 0]=13.493179, nextPhis[ 0]=13.483012 prevPhis[ 1]=-7.493179, nextPhis[ 1]=-7.483012 <==IsSwitchingOccur() T = 28.970000 Tnext = 28.975000 Time: 2.89700e+01 states: [ 2.94310e+00 -3.46289e-01] derivs: [ -3.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.975000 pESO->GetIndependentVar(): 28.975000 ==>IsSwitchingOccur() prevPhis[ 0]=13.483012, nextPhis[ 0]=13.472769 prevPhis[ 1]=-7.483012, nextPhis[ 1]=-7.472769 <==IsSwitchingOccur() T = 28.975000 Tnext = 28.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.980000 pESO->GetIndependentVar(): 28.980000 ==>IsSwitchingOccur() prevPhis[ 0]=13.472769, nextPhis[ 0]=13.462452 prevPhis[ 1]=-7.472769, nextPhis[ 1]=-7.462452 <==IsSwitchingOccur() T = 28.980000 Tnext = 28.985000 Time: 2.89800e+01 states: [ 2.93958e+00 -3.56289e-01] derivs: [ -3.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.985000 pESO->GetIndependentVar(): 28.985000 ==>IsSwitchingOccur() prevPhis[ 0]=13.462452, nextPhis[ 0]=13.452060 prevPhis[ 1]=-7.462452, nextPhis[ 1]=-7.452060 <==IsSwitchingOccur() T = 28.985000 Tnext = 28.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.990000 pESO->GetIndependentVar(): 28.990000 ==>IsSwitchingOccur() prevPhis[ 0]=13.452060, nextPhis[ 0]=13.441593 prevPhis[ 1]=-7.452060, nextPhis[ 1]=-7.441593 <==IsSwitchingOccur() T = 28.990000 Tnext = 28.995000 Time: 2.89900e+01 states: [ 2.93596e+00 -3.66289e-01] derivs: [ -3.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 28.995000 pESO->GetIndependentVar(): 28.995000 ==>IsSwitchingOccur() prevPhis[ 0]=13.441593, nextPhis[ 0]=13.431051 prevPhis[ 1]=-7.441593, nextPhis[ 1]=-7.431051 <==IsSwitchingOccur() T = 28.995000 Tnext = 29.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.000000 pESO->GetIndependentVar(): 29.000000 ==>IsSwitchingOccur() prevPhis[ 0]=13.431051, nextPhis[ 0]=13.420433 prevPhis[ 1]=-7.431051, nextPhis[ 1]=-7.420433 <==IsSwitchingOccur() T = 29.000000 Tnext = 29.005000 Time: 2.90000e+01 states: [ 2.93224e+00 -3.76289e-01] derivs: [ -3.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.005000 pESO->GetIndependentVar(): 29.005000 ==>IsSwitchingOccur() prevPhis[ 0]=13.420433, nextPhis[ 0]=13.409741 prevPhis[ 1]=-7.420433, nextPhis[ 1]=-7.409741 <==IsSwitchingOccur() T = 29.005000 Tnext = 29.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.010000 pESO->GetIndependentVar(): 29.010000 ==>IsSwitchingOccur() prevPhis[ 0]=13.409741, nextPhis[ 0]=13.398974 prevPhis[ 1]=-7.409741, nextPhis[ 1]=-7.398974 <==IsSwitchingOccur() T = 29.010000 Tnext = 29.015000 Time: 2.90100e+01 states: [ 2.92842e+00 -3.86289e-01] derivs: [ -3.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.015000 pESO->GetIndependentVar(): 29.015000 ==>IsSwitchingOccur() prevPhis[ 0]=13.398974, nextPhis[ 0]=13.388132 prevPhis[ 1]=-7.398974, nextPhis[ 1]=-7.388132 <==IsSwitchingOccur() T = 29.015000 Tnext = 29.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.020000 pESO->GetIndependentVar(): 29.020000 ==>IsSwitchingOccur() prevPhis[ 0]=13.388132, nextPhis[ 0]=13.377215 prevPhis[ 1]=-7.388132, nextPhis[ 1]=-7.377215 <==IsSwitchingOccur() T = 29.020000 Tnext = 29.025000 Time: 2.90200e+01 states: [ 2.92450e+00 -3.96289e-01] derivs: [ -3.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.025000 pESO->GetIndependentVar(): 29.025000 ==>IsSwitchingOccur() prevPhis[ 0]=13.377215, nextPhis[ 0]=13.366222 prevPhis[ 1]=-7.377215, nextPhis[ 1]=-7.366222 <==IsSwitchingOccur() T = 29.025000 Tnext = 29.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.030000 pESO->GetIndependentVar(): 29.030000 ==>IsSwitchingOccur() prevPhis[ 0]=13.366222, nextPhis[ 0]=13.355155 prevPhis[ 1]=-7.366222, nextPhis[ 1]=-7.355155 <==IsSwitchingOccur() T = 29.030000 Tnext = 29.035000 Time: 2.90300e+01 states: [ 2.92048e+00 -4.06289e-01] derivs: [ -4.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.035000 pESO->GetIndependentVar(): 29.035000 ==>IsSwitchingOccur() prevPhis[ 0]=13.355155, nextPhis[ 0]=13.344013 prevPhis[ 1]=-7.355155, nextPhis[ 1]=-7.344013 <==IsSwitchingOccur() T = 29.035000 Tnext = 29.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.040000 pESO->GetIndependentVar(): 29.040000 ==>IsSwitchingOccur() prevPhis[ 0]=13.344013, nextPhis[ 0]=13.332796 prevPhis[ 1]=-7.344013, nextPhis[ 1]=-7.332796 <==IsSwitchingOccur() T = 29.040000 Tnext = 29.045000 Time: 2.90400e+01 states: [ 2.91636e+00 -4.16289e-01] derivs: [ -4.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.045000 pESO->GetIndependentVar(): 29.045000 ==>IsSwitchingOccur() prevPhis[ 0]=13.332796, nextPhis[ 0]=13.321504 prevPhis[ 1]=-7.332796, nextPhis[ 1]=-7.321504 <==IsSwitchingOccur() T = 29.045000 Tnext = 29.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.050000 pESO->GetIndependentVar(): 29.050000 ==>IsSwitchingOccur() prevPhis[ 0]=13.321504, nextPhis[ 0]=13.310137 prevPhis[ 1]=-7.321504, nextPhis[ 1]=-7.310137 <==IsSwitchingOccur() T = 29.050000 Tnext = 29.055000 Time: 2.90500e+01 states: [ 2.91214e+00 -4.26289e-01] derivs: [ -4.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.055000 pESO->GetIndependentVar(): 29.055000 ==>IsSwitchingOccur() prevPhis[ 0]=13.310137, nextPhis[ 0]=13.298694 prevPhis[ 1]=-7.310137, nextPhis[ 1]=-7.298694 <==IsSwitchingOccur() T = 29.055000 Tnext = 29.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.060000 pESO->GetIndependentVar(): 29.060000 ==>IsSwitchingOccur() prevPhis[ 0]=13.298694, nextPhis[ 0]=13.287177 prevPhis[ 1]=-7.298694, nextPhis[ 1]=-7.287177 <==IsSwitchingOccur() T = 29.060000 Tnext = 29.065000 Time: 2.90600e+01 states: [ 2.90782e+00 -4.36289e-01] derivs: [ -4.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.065000 pESO->GetIndependentVar(): 29.065000 ==>IsSwitchingOccur() prevPhis[ 0]=13.287177, nextPhis[ 0]=13.275585 prevPhis[ 1]=-7.287177, nextPhis[ 1]=-7.275585 <==IsSwitchingOccur() T = 29.065000 Tnext = 29.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.070000 pESO->GetIndependentVar(): 29.070000 ==>IsSwitchingOccur() prevPhis[ 0]=13.275585, nextPhis[ 0]=13.263918 prevPhis[ 1]=-7.275585, nextPhis[ 1]=-7.263918 <==IsSwitchingOccur() T = 29.070000 Tnext = 29.075000 Time: 2.90700e+01 states: [ 2.90340e+00 -4.46289e-01] derivs: [ -4.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.075000 pESO->GetIndependentVar(): 29.075000 ==>IsSwitchingOccur() prevPhis[ 0]=13.263918, nextPhis[ 0]=13.252176 prevPhis[ 1]=-7.263918, nextPhis[ 1]=-7.252176 <==IsSwitchingOccur() T = 29.075000 Tnext = 29.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.080000 pESO->GetIndependentVar(): 29.080000 ==>IsSwitchingOccur() prevPhis[ 0]=13.252176, nextPhis[ 0]=13.240358 prevPhis[ 1]=-7.252176, nextPhis[ 1]=-7.240358 <==IsSwitchingOccur() T = 29.080000 Tnext = 29.085000 Time: 2.90800e+01 states: [ 2.89888e+00 -4.56289e-01] derivs: [ -4.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.085000 pESO->GetIndependentVar(): 29.085000 ==>IsSwitchingOccur() prevPhis[ 0]=13.240358, nextPhis[ 0]=13.228466 prevPhis[ 1]=-7.240358, nextPhis[ 1]=-7.228466 <==IsSwitchingOccur() T = 29.085000 Tnext = 29.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.090000 pESO->GetIndependentVar(): 29.090000 ==>IsSwitchingOccur() prevPhis[ 0]=13.228466, nextPhis[ 0]=13.216499 prevPhis[ 1]=-7.228466, nextPhis[ 1]=-7.216499 <==IsSwitchingOccur() T = 29.090000 Tnext = 29.095000 Time: 2.90900e+01 states: [ 2.89426e+00 -4.66289e-01] derivs: [ -4.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.095000 pESO->GetIndependentVar(): 29.095000 ==>IsSwitchingOccur() prevPhis[ 0]=13.216499, nextPhis[ 0]=13.204457 prevPhis[ 1]=-7.216499, nextPhis[ 1]=-7.204457 <==IsSwitchingOccur() T = 29.095000 Tnext = 29.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.100000 pESO->GetIndependentVar(): 29.100000 ==>IsSwitchingOccur() prevPhis[ 0]=13.204457, nextPhis[ 0]=13.192340 prevPhis[ 1]=-7.204457, nextPhis[ 1]=-7.192340 <==IsSwitchingOccur() T = 29.100000 Tnext = 29.105000 Time: 2.91000e+01 states: [ 2.88954e+00 -4.76289e-01] derivs: [ -4.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.105000 pESO->GetIndependentVar(): 29.105000 ==>IsSwitchingOccur() prevPhis[ 0]=13.192340, nextPhis[ 0]=13.180147 prevPhis[ 1]=-7.192340, nextPhis[ 1]=-7.180147 <==IsSwitchingOccur() T = 29.105000 Tnext = 29.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.110000 pESO->GetIndependentVar(): 29.110000 ==>IsSwitchingOccur() prevPhis[ 0]=13.180147, nextPhis[ 0]=13.167880 prevPhis[ 1]=-7.180147, nextPhis[ 1]=-7.167880 <==IsSwitchingOccur() T = 29.110000 Tnext = 29.115000 Time: 2.91100e+01 states: [ 2.88472e+00 -4.86289e-01] derivs: [ -4.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.115000 pESO->GetIndependentVar(): 29.115000 ==>IsSwitchingOccur() prevPhis[ 0]=13.167880, nextPhis[ 0]=13.155538 prevPhis[ 1]=-7.167880, nextPhis[ 1]=-7.155538 <==IsSwitchingOccur() T = 29.115000 Tnext = 29.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.120000 pESO->GetIndependentVar(): 29.120000 ==>IsSwitchingOccur() prevPhis[ 0]=13.155538, nextPhis[ 0]=13.143121 prevPhis[ 1]=-7.155538, nextPhis[ 1]=-7.143121 <==IsSwitchingOccur() T = 29.120000 Tnext = 29.125000 Time: 2.91200e+01 states: [ 2.87980e+00 -4.96289e-01] derivs: [ -4.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.125000 pESO->GetIndependentVar(): 29.125000 ==>IsSwitchingOccur() prevPhis[ 0]=13.143121, nextPhis[ 0]=13.130629 prevPhis[ 1]=-7.143121, nextPhis[ 1]=-7.130629 <==IsSwitchingOccur() T = 29.125000 Tnext = 29.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.130000 pESO->GetIndependentVar(): 29.130000 ==>IsSwitchingOccur() prevPhis[ 0]=13.130629, nextPhis[ 0]=13.118061 prevPhis[ 1]=-7.130629, nextPhis[ 1]=-7.118061 <==IsSwitchingOccur() T = 29.130000 Tnext = 29.135000 Time: 2.91300e+01 states: [ 2.87478e+00 -5.06289e-01] derivs: [ -5.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.135000 pESO->GetIndependentVar(): 29.135000 ==>IsSwitchingOccur() prevPhis[ 0]=13.118061, nextPhis[ 0]=13.105419 prevPhis[ 1]=-7.118061, nextPhis[ 1]=-7.105419 <==IsSwitchingOccur() T = 29.135000 Tnext = 29.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.140000 pESO->GetIndependentVar(): 29.140000 ==>IsSwitchingOccur() prevPhis[ 0]=13.105419, nextPhis[ 0]=13.092702 prevPhis[ 1]=-7.105419, nextPhis[ 1]=-7.092702 <==IsSwitchingOccur() T = 29.140000 Tnext = 29.145000 Time: 2.91400e+01 states: [ 2.86966e+00 -5.16289e-01] derivs: [ -5.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.145000 pESO->GetIndependentVar(): 29.145000 ==>IsSwitchingOccur() prevPhis[ 0]=13.092702, nextPhis[ 0]=13.079910 prevPhis[ 1]=-7.092702, nextPhis[ 1]=-7.079910 <==IsSwitchingOccur() T = 29.145000 Tnext = 29.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.150000 pESO->GetIndependentVar(): 29.150000 ==>IsSwitchingOccur() prevPhis[ 0]=13.079910, nextPhis[ 0]=13.067043 prevPhis[ 1]=-7.079910, nextPhis[ 1]=-7.067043 <==IsSwitchingOccur() T = 29.150000 Tnext = 29.155000 Time: 2.91500e+01 states: [ 2.86444e+00 -5.26289e-01] derivs: [ -5.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.155000 pESO->GetIndependentVar(): 29.155000 ==>IsSwitchingOccur() prevPhis[ 0]=13.067043, nextPhis[ 0]=13.054101 prevPhis[ 1]=-7.067043, nextPhis[ 1]=-7.054101 <==IsSwitchingOccur() T = 29.155000 Tnext = 29.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.160000 pESO->GetIndependentVar(): 29.160000 ==>IsSwitchingOccur() prevPhis[ 0]=13.054101, nextPhis[ 0]=13.041083 prevPhis[ 1]=-7.054101, nextPhis[ 1]=-7.041083 <==IsSwitchingOccur() T = 29.160000 Tnext = 29.165000 Time: 2.91600e+01 states: [ 2.85912e+00 -5.36289e-01] derivs: [ -5.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.165000 pESO->GetIndependentVar(): 29.165000 ==>IsSwitchingOccur() prevPhis[ 0]=13.041083, nextPhis[ 0]=13.027991 prevPhis[ 1]=-7.041083, nextPhis[ 1]=-7.027991 <==IsSwitchingOccur() T = 29.165000 Tnext = 29.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.170000 pESO->GetIndependentVar(): 29.170000 ==>IsSwitchingOccur() prevPhis[ 0]=13.027991, nextPhis[ 0]=13.014824 prevPhis[ 1]=-7.027991, nextPhis[ 1]=-7.014824 <==IsSwitchingOccur() T = 29.170000 Tnext = 29.175000 Time: 2.91700e+01 states: [ 2.85370e+00 -5.46289e-01] derivs: [ -5.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.175000 pESO->GetIndependentVar(): 29.175000 ==>IsSwitchingOccur() prevPhis[ 0]=13.014824, nextPhis[ 0]=13.001582 prevPhis[ 1]=-7.014824, nextPhis[ 1]=-7.001582 <==IsSwitchingOccur() T = 29.175000 Tnext = 29.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.180000 pESO->GetIndependentVar(): 29.180000 ==>IsSwitchingOccur() prevPhis[ 0]=13.001582, nextPhis[ 0]=12.988265 prevPhis[ 1]=-7.001582, nextPhis[ 1]=-6.988265 <==IsSwitchingOccur() T = 29.180000 Tnext = 29.185000 Time: 2.91800e+01 states: [ 2.84818e+00 -5.56289e-01] derivs: [ -5.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.185000 pESO->GetIndependentVar(): 29.185000 ==>IsSwitchingOccur() prevPhis[ 0]=12.988265, nextPhis[ 0]=12.974872 prevPhis[ 1]=-6.988265, nextPhis[ 1]=-6.974872 <==IsSwitchingOccur() T = 29.185000 Tnext = 29.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.190000 pESO->GetIndependentVar(): 29.190000 ==>IsSwitchingOccur() prevPhis[ 0]=12.974872, nextPhis[ 0]=12.961405 prevPhis[ 1]=-6.974872, nextPhis[ 1]=-6.961405 <==IsSwitchingOccur() T = 29.190000 Tnext = 29.195000 Time: 2.91900e+01 states: [ 2.84256e+00 -5.66289e-01] derivs: [ -5.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.195000 pESO->GetIndependentVar(): 29.195000 ==>IsSwitchingOccur() prevPhis[ 0]=12.961405, nextPhis[ 0]=12.947863 prevPhis[ 1]=-6.961405, nextPhis[ 1]=-6.947863 <==IsSwitchingOccur() T = 29.195000 Tnext = 29.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.200000 pESO->GetIndependentVar(): 29.200000 ==>IsSwitchingOccur() prevPhis[ 0]=12.947863, nextPhis[ 0]=12.934246 prevPhis[ 1]=-6.947863, nextPhis[ 1]=-6.934246 <==IsSwitchingOccur() T = 29.200000 Tnext = 29.205000 Time: 2.92000e+01 states: [ 2.83684e+00 -5.76289e-01] derivs: [ -5.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.205000 pESO->GetIndependentVar(): 29.205000 ==>IsSwitchingOccur() prevPhis[ 0]=12.934246, nextPhis[ 0]=12.920554 prevPhis[ 1]=-6.934246, nextPhis[ 1]=-6.920554 <==IsSwitchingOccur() T = 29.205000 Tnext = 29.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.210000 pESO->GetIndependentVar(): 29.210000 ==>IsSwitchingOccur() prevPhis[ 0]=12.920554, nextPhis[ 0]=12.906786 prevPhis[ 1]=-6.920554, nextPhis[ 1]=-6.906786 <==IsSwitchingOccur() T = 29.210000 Tnext = 29.215000 Time: 2.92100e+01 states: [ 2.83103e+00 -5.86289e-01] derivs: [ -5.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.215000 pESO->GetIndependentVar(): 29.215000 ==>IsSwitchingOccur() prevPhis[ 0]=12.906786, nextPhis[ 0]=12.892944 prevPhis[ 1]=-6.906786, nextPhis[ 1]=-6.892944 <==IsSwitchingOccur() T = 29.215000 Tnext = 29.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.220000 pESO->GetIndependentVar(): 29.220000 ==>IsSwitchingOccur() prevPhis[ 0]=12.892944, nextPhis[ 0]=12.879027 prevPhis[ 1]=-6.892944, nextPhis[ 1]=-6.879027 <==IsSwitchingOccur() T = 29.220000 Tnext = 29.225000 Time: 2.92200e+01 states: [ 2.82511e+00 -5.96289e-01] derivs: [ -5.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.225000 pESO->GetIndependentVar(): 29.225000 ==>IsSwitchingOccur() prevPhis[ 0]=12.879027, nextPhis[ 0]=12.865035 prevPhis[ 1]=-6.879027, nextPhis[ 1]=-6.865035 <==IsSwitchingOccur() T = 29.225000 Tnext = 29.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.230000 pESO->GetIndependentVar(): 29.230000 ==>IsSwitchingOccur() prevPhis[ 0]=12.865035, nextPhis[ 0]=12.850968 prevPhis[ 1]=-6.865035, nextPhis[ 1]=-6.850968 <==IsSwitchingOccur() T = 29.230000 Tnext = 29.235000 Time: 2.92300e+01 states: [ 2.81909e+00 -6.06289e-01] derivs: [ -6.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.235000 pESO->GetIndependentVar(): 29.235000 ==>IsSwitchingOccur() prevPhis[ 0]=12.850968, nextPhis[ 0]=12.836825 prevPhis[ 1]=-6.850968, nextPhis[ 1]=-6.836825 <==IsSwitchingOccur() T = 29.235000 Tnext = 29.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.240000 pESO->GetIndependentVar(): 29.240000 ==>IsSwitchingOccur() prevPhis[ 0]=12.836825, nextPhis[ 0]=12.822608 prevPhis[ 1]=-6.836825, nextPhis[ 1]=-6.822608 <==IsSwitchingOccur() T = 29.240000 Tnext = 29.245000 Time: 2.92400e+01 states: [ 2.81297e+00 -6.16289e-01] derivs: [ -6.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.245000 pESO->GetIndependentVar(): 29.245000 ==>IsSwitchingOccur() prevPhis[ 0]=12.822608, nextPhis[ 0]=12.808316 prevPhis[ 1]=-6.822608, nextPhis[ 1]=-6.808316 <==IsSwitchingOccur() T = 29.245000 Tnext = 29.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.250000 pESO->GetIndependentVar(): 29.250000 ==>IsSwitchingOccur() prevPhis[ 0]=12.808316, nextPhis[ 0]=12.793949 prevPhis[ 1]=-6.808316, nextPhis[ 1]=-6.793949 <==IsSwitchingOccur() T = 29.250000 Tnext = 29.255000 Time: 2.92500e+01 states: [ 2.80675e+00 -6.26289e-01] derivs: [ -6.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.255000 pESO->GetIndependentVar(): 29.255000 ==>IsSwitchingOccur() prevPhis[ 0]=12.793949, nextPhis[ 0]=12.779507 prevPhis[ 1]=-6.793949, nextPhis[ 1]=-6.779507 <==IsSwitchingOccur() T = 29.255000 Tnext = 29.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.260000 pESO->GetIndependentVar(): 29.260000 ==>IsSwitchingOccur() prevPhis[ 0]=12.779507, nextPhis[ 0]=12.764989 prevPhis[ 1]=-6.779507, nextPhis[ 1]=-6.764989 <==IsSwitchingOccur() T = 29.260000 Tnext = 29.265000 Time: 2.92600e+01 states: [ 2.80043e+00 -6.36289e-01] derivs: [ -6.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.265000 pESO->GetIndependentVar(): 29.265000 ==>IsSwitchingOccur() prevPhis[ 0]=12.764989, nextPhis[ 0]=12.750397 prevPhis[ 1]=-6.764989, nextPhis[ 1]=-6.750397 <==IsSwitchingOccur() T = 29.265000 Tnext = 29.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.270000 pESO->GetIndependentVar(): 29.270000 ==>IsSwitchingOccur() prevPhis[ 0]=12.750397, nextPhis[ 0]=12.735730 prevPhis[ 1]=-6.750397, nextPhis[ 1]=-6.735730 <==IsSwitchingOccur() T = 29.270000 Tnext = 29.275000 Time: 2.92700e+01 states: [ 2.79401e+00 -6.46289e-01] derivs: [ -6.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.275000 pESO->GetIndependentVar(): 29.275000 ==>IsSwitchingOccur() prevPhis[ 0]=12.735730, nextPhis[ 0]=12.720988 prevPhis[ 1]=-6.735730, nextPhis[ 1]=-6.720988 <==IsSwitchingOccur() T = 29.275000 Tnext = 29.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.280000 pESO->GetIndependentVar(): 29.280000 ==>IsSwitchingOccur() prevPhis[ 0]=12.720988, nextPhis[ 0]=12.706171 prevPhis[ 1]=-6.720988, nextPhis[ 1]=-6.706171 <==IsSwitchingOccur() T = 29.280000 Tnext = 29.285000 Time: 2.92800e+01 states: [ 2.78749e+00 -6.56289e-01] derivs: [ -6.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.285000 pESO->GetIndependentVar(): 29.285000 ==>IsSwitchingOccur() prevPhis[ 0]=12.706171, nextPhis[ 0]=12.691279 prevPhis[ 1]=-6.706171, nextPhis[ 1]=-6.691279 <==IsSwitchingOccur() T = 29.285000 Tnext = 29.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.290000 pESO->GetIndependentVar(): 29.290000 ==>IsSwitchingOccur() prevPhis[ 0]=12.691279, nextPhis[ 0]=12.676311 prevPhis[ 1]=-6.691279, nextPhis[ 1]=-6.676311 <==IsSwitchingOccur() T = 29.290000 Tnext = 29.295000 Time: 2.92900e+01 states: [ 2.78087e+00 -6.66289e-01] derivs: [ -6.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.295000 pESO->GetIndependentVar(): 29.295000 ==>IsSwitchingOccur() prevPhis[ 0]=12.676311, nextPhis[ 0]=12.661269 prevPhis[ 1]=-6.676311, nextPhis[ 1]=-6.661269 <==IsSwitchingOccur() T = 29.295000 Tnext = 29.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.300000 pESO->GetIndependentVar(): 29.300000 ==>IsSwitchingOccur() prevPhis[ 0]=12.661269, nextPhis[ 0]=12.646152 prevPhis[ 1]=-6.661269, nextPhis[ 1]=-6.646152 <==IsSwitchingOccur() T = 29.300000 Tnext = 29.305000 Time: 2.93000e+01 states: [ 2.77415e+00 -6.76289e-01] derivs: [ -6.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.305000 pESO->GetIndependentVar(): 29.305000 ==>IsSwitchingOccur() prevPhis[ 0]=12.646152, nextPhis[ 0]=12.630960 prevPhis[ 1]=-6.646152, nextPhis[ 1]=-6.630960 <==IsSwitchingOccur() T = 29.305000 Tnext = 29.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.310000 pESO->GetIndependentVar(): 29.310000 ==>IsSwitchingOccur() prevPhis[ 0]=12.630960, nextPhis[ 0]=12.615693 prevPhis[ 1]=-6.630960, nextPhis[ 1]=-6.615693 <==IsSwitchingOccur() T = 29.310000 Tnext = 29.315000 Time: 2.93100e+01 states: [ 2.76733e+00 -6.86289e-01] derivs: [ -6.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.315000 pESO->GetIndependentVar(): 29.315000 ==>IsSwitchingOccur() prevPhis[ 0]=12.615693, nextPhis[ 0]=12.600350 prevPhis[ 1]=-6.615693, nextPhis[ 1]=-6.600350 <==IsSwitchingOccur() T = 29.315000 Tnext = 29.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.320000 pESO->GetIndependentVar(): 29.320000 ==>IsSwitchingOccur() prevPhis[ 0]=12.600350, nextPhis[ 0]=12.584933 prevPhis[ 1]=-6.600350, nextPhis[ 1]=-6.584933 <==IsSwitchingOccur() T = 29.320000 Tnext = 29.325000 Time: 2.93200e+01 states: [ 2.76041e+00 -6.96289e-01] derivs: [ -6.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.325000 pESO->GetIndependentVar(): 29.325000 ==>IsSwitchingOccur() prevPhis[ 0]=12.584933, nextPhis[ 0]=12.569441 prevPhis[ 1]=-6.584933, nextPhis[ 1]=-6.569441 <==IsSwitchingOccur() T = 29.325000 Tnext = 29.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.330000 pESO->GetIndependentVar(): 29.330000 ==>IsSwitchingOccur() prevPhis[ 0]=12.569441, nextPhis[ 0]=12.553874 prevPhis[ 1]=-6.569441, nextPhis[ 1]=-6.553874 <==IsSwitchingOccur() T = 29.330000 Tnext = 29.335000 Time: 2.93300e+01 states: [ 2.75339e+00 -7.06289e-01] derivs: [ -7.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.335000 pESO->GetIndependentVar(): 29.335000 ==>IsSwitchingOccur() prevPhis[ 0]=12.553874, nextPhis[ 0]=12.538232 prevPhis[ 1]=-6.553874, nextPhis[ 1]=-6.538232 <==IsSwitchingOccur() T = 29.335000 Tnext = 29.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.340000 pESO->GetIndependentVar(): 29.340000 ==>IsSwitchingOccur() prevPhis[ 0]=12.538232, nextPhis[ 0]=12.522514 prevPhis[ 1]=-6.538232, nextPhis[ 1]=-6.522514 <==IsSwitchingOccur() T = 29.340000 Tnext = 29.345000 Time: 2.93400e+01 states: [ 2.74627e+00 -7.16289e-01] derivs: [ -7.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.345000 pESO->GetIndependentVar(): 29.345000 ==>IsSwitchingOccur() prevPhis[ 0]=12.522514, nextPhis[ 0]=12.506722 prevPhis[ 1]=-6.522514, nextPhis[ 1]=-6.506722 <==IsSwitchingOccur() T = 29.345000 Tnext = 29.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.350000 pESO->GetIndependentVar(): 29.350000 ==>IsSwitchingOccur() prevPhis[ 0]=12.506722, nextPhis[ 0]=12.490855 prevPhis[ 1]=-6.506722, nextPhis[ 1]=-6.490855 <==IsSwitchingOccur() T = 29.350000 Tnext = 29.355000 Time: 2.93500e+01 states: [ 2.73905e+00 -7.26289e-01] derivs: [ -7.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.355000 pESO->GetIndependentVar(): 29.355000 ==>IsSwitchingOccur() prevPhis[ 0]=12.490855, nextPhis[ 0]=12.474913 prevPhis[ 1]=-6.490855, nextPhis[ 1]=-6.474913 <==IsSwitchingOccur() T = 29.355000 Tnext = 29.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.360000 pESO->GetIndependentVar(): 29.360000 ==>IsSwitchingOccur() prevPhis[ 0]=12.474913, nextPhis[ 0]=12.458896 prevPhis[ 1]=-6.474913, nextPhis[ 1]=-6.458896 <==IsSwitchingOccur() T = 29.360000 Tnext = 29.365000 Time: 2.93600e+01 states: [ 2.73173e+00 -7.36289e-01] derivs: [ -7.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.365000 pESO->GetIndependentVar(): 29.365000 ==>IsSwitchingOccur() prevPhis[ 0]=12.458896, nextPhis[ 0]=12.442803 prevPhis[ 1]=-6.458896, nextPhis[ 1]=-6.442803 <==IsSwitchingOccur() T = 29.365000 Tnext = 29.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.370000 pESO->GetIndependentVar(): 29.370000 ==>IsSwitchingOccur() prevPhis[ 0]=12.442803, nextPhis[ 0]=12.426636 prevPhis[ 1]=-6.442803, nextPhis[ 1]=-6.426636 <==IsSwitchingOccur() T = 29.370000 Tnext = 29.375000 Time: 2.93700e+01 states: [ 2.72431e+00 -7.46289e-01] derivs: [ -7.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.375000 pESO->GetIndependentVar(): 29.375000 ==>IsSwitchingOccur() prevPhis[ 0]=12.426636, nextPhis[ 0]=12.410394 prevPhis[ 1]=-6.426636, nextPhis[ 1]=-6.410394 <==IsSwitchingOccur() T = 29.375000 Tnext = 29.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.380000 pESO->GetIndependentVar(): 29.380000 ==>IsSwitchingOccur() prevPhis[ 0]=12.410394, nextPhis[ 0]=12.394077 prevPhis[ 1]=-6.410394, nextPhis[ 1]=-6.394077 <==IsSwitchingOccur() T = 29.380000 Tnext = 29.385000 Time: 2.93800e+01 states: [ 2.71679e+00 -7.56289e-01] derivs: [ -7.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.385000 pESO->GetIndependentVar(): 29.385000 ==>IsSwitchingOccur() prevPhis[ 0]=12.394077, nextPhis[ 0]=12.377685 prevPhis[ 1]=-6.394077, nextPhis[ 1]=-6.377685 <==IsSwitchingOccur() T = 29.385000 Tnext = 29.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.390000 pESO->GetIndependentVar(): 29.390000 ==>IsSwitchingOccur() prevPhis[ 0]=12.377685, nextPhis[ 0]=12.361218 prevPhis[ 1]=-6.377685, nextPhis[ 1]=-6.361218 <==IsSwitchingOccur() T = 29.390000 Tnext = 29.395000 Time: 2.93900e+01 states: [ 2.70917e+00 -7.66289e-01] derivs: [ -7.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.395000 pESO->GetIndependentVar(): 29.395000 ==>IsSwitchingOccur() prevPhis[ 0]=12.361218, nextPhis[ 0]=12.344675 prevPhis[ 1]=-6.361218, nextPhis[ 1]=-6.344675 <==IsSwitchingOccur() T = 29.395000 Tnext = 29.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.400000 pESO->GetIndependentVar(): 29.400000 ==>IsSwitchingOccur() prevPhis[ 0]=12.344675, nextPhis[ 0]=12.328058 prevPhis[ 1]=-6.344675, nextPhis[ 1]=-6.328058 <==IsSwitchingOccur() T = 29.400000 Tnext = 29.405000 Time: 2.94000e+01 states: [ 2.70145e+00 -7.76289e-01] derivs: [ -7.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.405000 pESO->GetIndependentVar(): 29.405000 ==>IsSwitchingOccur() prevPhis[ 0]=12.328058, nextPhis[ 0]=12.311366 prevPhis[ 1]=-6.328058, nextPhis[ 1]=-6.311366 <==IsSwitchingOccur() T = 29.405000 Tnext = 29.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.410000 pESO->GetIndependentVar(): 29.410000 ==>IsSwitchingOccur() prevPhis[ 0]=12.311366, nextPhis[ 0]=12.294599 prevPhis[ 1]=-6.311366, nextPhis[ 1]=-6.294599 <==IsSwitchingOccur() T = 29.410000 Tnext = 29.415000 Time: 2.94100e+01 states: [ 2.69363e+00 -7.86289e-01] derivs: [ -7.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.415000 pESO->GetIndependentVar(): 29.415000 ==>IsSwitchingOccur() prevPhis[ 0]=12.294599, nextPhis[ 0]=12.277757 prevPhis[ 1]=-6.294599, nextPhis[ 1]=-6.277757 <==IsSwitchingOccur() T = 29.415000 Tnext = 29.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.420000 pESO->GetIndependentVar(): 29.420000 ==>IsSwitchingOccur() prevPhis[ 0]=12.277757, nextPhis[ 0]=12.260839 prevPhis[ 1]=-6.277757, nextPhis[ 1]=-6.260839 <==IsSwitchingOccur() T = 29.420000 Tnext = 29.425000 Time: 2.94200e+01 states: [ 2.68571e+00 -7.96289e-01] derivs: [ -7.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.425000 pESO->GetIndependentVar(): 29.425000 ==>IsSwitchingOccur() prevPhis[ 0]=12.260839, nextPhis[ 0]=12.243847 prevPhis[ 1]=-6.260839, nextPhis[ 1]=-6.243847 <==IsSwitchingOccur() T = 29.425000 Tnext = 29.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.430000 pESO->GetIndependentVar(): 29.430000 ==>IsSwitchingOccur() prevPhis[ 0]=12.243847, nextPhis[ 0]=12.226780 prevPhis[ 1]=-6.243847, nextPhis[ 1]=-6.226780 <==IsSwitchingOccur() T = 29.430000 Tnext = 29.435000 Time: 2.94300e+01 states: [ 2.67769e+00 -8.06289e-01] derivs: [ -8.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.435000 pESO->GetIndependentVar(): 29.435000 ==>IsSwitchingOccur() prevPhis[ 0]=12.226780, nextPhis[ 0]=12.209638 prevPhis[ 1]=-6.226780, nextPhis[ 1]=-6.209638 <==IsSwitchingOccur() T = 29.435000 Tnext = 29.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.440000 pESO->GetIndependentVar(): 29.440000 ==>IsSwitchingOccur() prevPhis[ 0]=12.209638, nextPhis[ 0]=12.192421 prevPhis[ 1]=-6.209638, nextPhis[ 1]=-6.192421 <==IsSwitchingOccur() T = 29.440000 Tnext = 29.445000 Time: 2.94400e+01 states: [ 2.66957e+00 -8.16289e-01] derivs: [ -8.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.445000 pESO->GetIndependentVar(): 29.445000 ==>IsSwitchingOccur() prevPhis[ 0]=12.192421, nextPhis[ 0]=12.175128 prevPhis[ 1]=-6.192421, nextPhis[ 1]=-6.175128 <==IsSwitchingOccur() T = 29.445000 Tnext = 29.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.450000 pESO->GetIndependentVar(): 29.450000 ==>IsSwitchingOccur() prevPhis[ 0]=12.175128, nextPhis[ 0]=12.157761 prevPhis[ 1]=-6.175128, nextPhis[ 1]=-6.157761 <==IsSwitchingOccur() T = 29.450000 Tnext = 29.455000 Time: 2.94500e+01 states: [ 2.66135e+00 -8.26289e-01] derivs: [ -8.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.455000 pESO->GetIndependentVar(): 29.455000 ==>IsSwitchingOccur() prevPhis[ 0]=12.157761, nextPhis[ 0]=12.140319 prevPhis[ 1]=-6.157761, nextPhis[ 1]=-6.140319 <==IsSwitchingOccur() T = 29.455000 Tnext = 29.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.460000 pESO->GetIndependentVar(): 29.460000 ==>IsSwitchingOccur() prevPhis[ 0]=12.140319, nextPhis[ 0]=12.122802 prevPhis[ 1]=-6.140319, nextPhis[ 1]=-6.122802 <==IsSwitchingOccur() T = 29.460000 Tnext = 29.465000 Time: 2.94600e+01 states: [ 2.65303e+00 -8.36289e-01] derivs: [ -8.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.465000 pESO->GetIndependentVar(): 29.465000 ==>IsSwitchingOccur() prevPhis[ 0]=12.122802, nextPhis[ 0]=12.105210 prevPhis[ 1]=-6.122802, nextPhis[ 1]=-6.105210 <==IsSwitchingOccur() T = 29.465000 Tnext = 29.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.470000 pESO->GetIndependentVar(): 29.470000 ==>IsSwitchingOccur() prevPhis[ 0]=12.105210, nextPhis[ 0]=12.087542 prevPhis[ 1]=-6.105210, nextPhis[ 1]=-6.087542 <==IsSwitchingOccur() T = 29.470000 Tnext = 29.475000 Time: 2.94700e+01 states: [ 2.64461e+00 -8.46289e-01] derivs: [ -8.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.475000 pESO->GetIndependentVar(): 29.475000 ==>IsSwitchingOccur() prevPhis[ 0]=12.087542, nextPhis[ 0]=12.069800 prevPhis[ 1]=-6.087542, nextPhis[ 1]=-6.069800 <==IsSwitchingOccur() T = 29.475000 Tnext = 29.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.480000 pESO->GetIndependentVar(): 29.480000 ==>IsSwitchingOccur() prevPhis[ 0]=12.069800, nextPhis[ 0]=12.051983 prevPhis[ 1]=-6.069800, nextPhis[ 1]=-6.051983 <==IsSwitchingOccur() T = 29.480000 Tnext = 29.485000 Time: 2.94800e+01 states: [ 2.63609e+00 -8.56289e-01] derivs: [ -8.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.485000 pESO->GetIndependentVar(): 29.485000 ==>IsSwitchingOccur() prevPhis[ 0]=12.051983, nextPhis[ 0]=12.034091 prevPhis[ 1]=-6.051983, nextPhis[ 1]=-6.034091 <==IsSwitchingOccur() T = 29.485000 Tnext = 29.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.490000 pESO->GetIndependentVar(): 29.490000 ==>IsSwitchingOccur() prevPhis[ 0]=12.034091, nextPhis[ 0]=12.016124 prevPhis[ 1]=-6.034091, nextPhis[ 1]=-6.016124 <==IsSwitchingOccur() T = 29.490000 Tnext = 29.495000 Time: 2.94900e+01 states: [ 2.62747e+00 -8.66289e-01] derivs: [ -8.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.495000 pESO->GetIndependentVar(): 29.495000 ==>IsSwitchingOccur() prevPhis[ 0]=12.016124, nextPhis[ 0]=11.998082 prevPhis[ 1]=-6.016124, nextPhis[ 1]=-5.998082 <==IsSwitchingOccur() T = 29.495000 Tnext = 29.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.500000 pESO->GetIndependentVar(): 29.500000 ==>IsSwitchingOccur() prevPhis[ 0]=11.998082, nextPhis[ 0]=11.979964 prevPhis[ 1]=-5.998082, nextPhis[ 1]=-5.979964 <==IsSwitchingOccur() T = 29.500000 Tnext = 29.505000 Time: 2.95000e+01 states: [ 2.61875e+00 -8.76289e-01] derivs: [ -8.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.505000 pESO->GetIndependentVar(): 29.505000 ==>IsSwitchingOccur() prevPhis[ 0]=11.979964, nextPhis[ 0]=11.961772 prevPhis[ 1]=-5.979964, nextPhis[ 1]=-5.961772 <==IsSwitchingOccur() T = 29.505000 Tnext = 29.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.510000 pESO->GetIndependentVar(): 29.510000 ==>IsSwitchingOccur() prevPhis[ 0]=11.961772, nextPhis[ 0]=11.943505 prevPhis[ 1]=-5.961772, nextPhis[ 1]=-5.943505 <==IsSwitchingOccur() T = 29.510000 Tnext = 29.515000 Time: 2.95100e+01 states: [ 2.60993e+00 -8.86289e-01] derivs: [ -8.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.515000 pESO->GetIndependentVar(): 29.515000 ==>IsSwitchingOccur() prevPhis[ 0]=11.943505, nextPhis[ 0]=11.925163 prevPhis[ 1]=-5.943505, nextPhis[ 1]=-5.925163 <==IsSwitchingOccur() T = 29.515000 Tnext = 29.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.520000 pESO->GetIndependentVar(): 29.520000 ==>IsSwitchingOccur() prevPhis[ 0]=11.925163, nextPhis[ 0]=11.906746 prevPhis[ 1]=-5.925163, nextPhis[ 1]=-5.906746 <==IsSwitchingOccur() T = 29.520000 Tnext = 29.525000 Time: 2.95200e+01 states: [ 2.60101e+00 -8.96289e-01] derivs: [ -8.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.525000 pESO->GetIndependentVar(): 29.525000 ==>IsSwitchingOccur() prevPhis[ 0]=11.906746, nextPhis[ 0]=11.888253 prevPhis[ 1]=-5.906746, nextPhis[ 1]=-5.888253 <==IsSwitchingOccur() T = 29.525000 Tnext = 29.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.530000 pESO->GetIndependentVar(): 29.530000 ==>IsSwitchingOccur() prevPhis[ 0]=11.888253, nextPhis[ 0]=11.869686 prevPhis[ 1]=-5.888253, nextPhis[ 1]=-5.869686 <==IsSwitchingOccur() T = 29.530000 Tnext = 29.535000 Time: 2.95300e+01 states: [ 2.59199e+00 -9.06289e-01] derivs: [ -9.06532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.535000 pESO->GetIndependentVar(): 29.535000 ==>IsSwitchingOccur() prevPhis[ 0]=11.869686, nextPhis[ 0]=11.851044 prevPhis[ 1]=-5.869686, nextPhis[ 1]=-5.851044 <==IsSwitchingOccur() T = 29.535000 Tnext = 29.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.540000 pESO->GetIndependentVar(): 29.540000 ==>IsSwitchingOccur() prevPhis[ 0]=11.851044, nextPhis[ 0]=11.832327 prevPhis[ 1]=-5.851044, nextPhis[ 1]=-5.832327 <==IsSwitchingOccur() T = 29.540000 Tnext = 29.545000 Time: 2.95400e+01 states: [ 2.58287e+00 -9.16289e-01] derivs: [ -9.16532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.545000 pESO->GetIndependentVar(): 29.545000 ==>IsSwitchingOccur() prevPhis[ 0]=11.832327, nextPhis[ 0]=11.813535 prevPhis[ 1]=-5.832327, nextPhis[ 1]=-5.813535 <==IsSwitchingOccur() T = 29.545000 Tnext = 29.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.550000 pESO->GetIndependentVar(): 29.550000 ==>IsSwitchingOccur() prevPhis[ 0]=11.813535, nextPhis[ 0]=11.794667 prevPhis[ 1]=-5.813535, nextPhis[ 1]=-5.794667 <==IsSwitchingOccur() T = 29.550000 Tnext = 29.555000 Time: 2.95500e+01 states: [ 2.57365e+00 -9.26289e-01] derivs: [ -9.26532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.555000 pESO->GetIndependentVar(): 29.555000 ==>IsSwitchingOccur() prevPhis[ 0]=11.794667, nextPhis[ 0]=11.775725 prevPhis[ 1]=-5.794667, nextPhis[ 1]=-5.775725 <==IsSwitchingOccur() T = 29.555000 Tnext = 29.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.560000 pESO->GetIndependentVar(): 29.560000 ==>IsSwitchingOccur() prevPhis[ 0]=11.775725, nextPhis[ 0]=11.756708 prevPhis[ 1]=-5.775725, nextPhis[ 1]=-5.756708 <==IsSwitchingOccur() T = 29.560000 Tnext = 29.565000 Time: 2.95600e+01 states: [ 2.56433e+00 -9.36289e-01] derivs: [ -9.36532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.565000 pESO->GetIndependentVar(): 29.565000 ==>IsSwitchingOccur() prevPhis[ 0]=11.756708, nextPhis[ 0]=11.737616 prevPhis[ 1]=-5.756708, nextPhis[ 1]=-5.737616 <==IsSwitchingOccur() T = 29.565000 Tnext = 29.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.570000 pESO->GetIndependentVar(): 29.570000 ==>IsSwitchingOccur() prevPhis[ 0]=11.737616, nextPhis[ 0]=11.718449 prevPhis[ 1]=-5.737616, nextPhis[ 1]=-5.718449 <==IsSwitchingOccur() T = 29.570000 Tnext = 29.575000 Time: 2.95700e+01 states: [ 2.55491e+00 -9.46289e-01] derivs: [ -9.46532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.575000 pESO->GetIndependentVar(): 29.575000 ==>IsSwitchingOccur() prevPhis[ 0]=11.718449, nextPhis[ 0]=11.699206 prevPhis[ 1]=-5.718449, nextPhis[ 1]=-5.699206 <==IsSwitchingOccur() T = 29.575000 Tnext = 29.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.580000 pESO->GetIndependentVar(): 29.580000 ==>IsSwitchingOccur() prevPhis[ 0]=11.699206, nextPhis[ 0]=11.679889 prevPhis[ 1]=-5.699206, nextPhis[ 1]=-5.679889 <==IsSwitchingOccur() T = 29.580000 Tnext = 29.585000 Time: 2.95800e+01 states: [ 2.54539e+00 -9.56289e-01] derivs: [ -9.56532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.585000 pESO->GetIndependentVar(): 29.585000 ==>IsSwitchingOccur() prevPhis[ 0]=11.679889, nextPhis[ 0]=11.660497 prevPhis[ 1]=-5.679889, nextPhis[ 1]=-5.660497 <==IsSwitchingOccur() T = 29.585000 Tnext = 29.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.590000 pESO->GetIndependentVar(): 29.590000 ==>IsSwitchingOccur() prevPhis[ 0]=11.660497, nextPhis[ 0]=11.641030 prevPhis[ 1]=-5.660497, nextPhis[ 1]=-5.641030 <==IsSwitchingOccur() T = 29.590000 Tnext = 29.595000 Time: 2.95900e+01 states: [ 2.53577e+00 -9.66289e-01] derivs: [ -9.66532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.595000 pESO->GetIndependentVar(): 29.595000 ==>IsSwitchingOccur() prevPhis[ 0]=11.641030, nextPhis[ 0]=11.621488 prevPhis[ 1]=-5.641030, nextPhis[ 1]=-5.621488 <==IsSwitchingOccur() T = 29.595000 Tnext = 29.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.600000 pESO->GetIndependentVar(): 29.600000 ==>IsSwitchingOccur() prevPhis[ 0]=11.621488, nextPhis[ 0]=11.601870 prevPhis[ 1]=-5.621488, nextPhis[ 1]=-5.601870 <==IsSwitchingOccur() T = 29.600000 Tnext = 29.605000 Time: 2.96000e+01 states: [ 2.52605e+00 -9.76289e-01] derivs: [ -9.76532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.605000 pESO->GetIndependentVar(): 29.605000 ==>IsSwitchingOccur() prevPhis[ 0]=11.601870, nextPhis[ 0]=11.582178 prevPhis[ 1]=-5.601870, nextPhis[ 1]=-5.582178 <==IsSwitchingOccur() T = 29.605000 Tnext = 29.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.610000 pESO->GetIndependentVar(): 29.610000 ==>IsSwitchingOccur() prevPhis[ 0]=11.582178, nextPhis[ 0]=11.562411 prevPhis[ 1]=-5.582178, nextPhis[ 1]=-5.562411 <==IsSwitchingOccur() T = 29.610000 Tnext = 29.615000 Time: 2.96100e+01 states: [ 2.51623e+00 -9.86289e-01] derivs: [ -9.86532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.615000 pESO->GetIndependentVar(): 29.615000 ==>IsSwitchingOccur() prevPhis[ 0]=11.562411, nextPhis[ 0]=11.542569 prevPhis[ 1]=-5.562411, nextPhis[ 1]=-5.542569 <==IsSwitchingOccur() T = 29.615000 Tnext = 29.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.620000 pESO->GetIndependentVar(): 29.620000 ==>IsSwitchingOccur() prevPhis[ 0]=11.542569, nextPhis[ 0]=11.522652 prevPhis[ 1]=-5.542569, nextPhis[ 1]=-5.522652 <==IsSwitchingOccur() T = 29.620000 Tnext = 29.625000 Time: 2.96200e+01 states: [ 2.50631e+00 -9.96289e-01] derivs: [ -9.96532e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.625000 pESO->GetIndependentVar(): 29.625000 ==>IsSwitchingOccur() prevPhis[ 0]=11.522652, nextPhis[ 0]=11.502660 prevPhis[ 1]=-5.522652, nextPhis[ 1]=-5.502660 <==IsSwitchingOccur() T = 29.625000 Tnext = 29.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.630000 pESO->GetIndependentVar(): 29.630000 ==>IsSwitchingOccur() prevPhis[ 0]=11.502660, nextPhis[ 0]=11.482592 prevPhis[ 1]=-5.502660, nextPhis[ 1]=-5.482592 <==IsSwitchingOccur() T = 29.630000 Tnext = 29.635000 Time: 2.96300e+01 states: [ 2.49629e+00 -1.00629e+00] derivs: [ -1.00653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.635000 pESO->GetIndependentVar(): 29.635000 ==>IsSwitchingOccur() prevPhis[ 0]=11.482592, nextPhis[ 0]=11.462450 prevPhis[ 1]=-5.482592, nextPhis[ 1]=-5.462450 <==IsSwitchingOccur() T = 29.635000 Tnext = 29.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.640000 pESO->GetIndependentVar(): 29.640000 ==>IsSwitchingOccur() prevPhis[ 0]=11.462450, nextPhis[ 0]=11.442233 prevPhis[ 1]=-5.462450, nextPhis[ 1]=-5.442233 <==IsSwitchingOccur() T = 29.640000 Tnext = 29.645000 Time: 2.96400e+01 states: [ 2.48617e+00 -1.01629e+00] derivs: [ -1.01653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.645000 pESO->GetIndependentVar(): 29.645000 ==>IsSwitchingOccur() prevPhis[ 0]=11.442233, nextPhis[ 0]=11.421941 prevPhis[ 1]=-5.442233, nextPhis[ 1]=-5.421941 <==IsSwitchingOccur() T = 29.645000 Tnext = 29.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.650000 pESO->GetIndependentVar(): 29.650000 ==>IsSwitchingOccur() prevPhis[ 0]=11.421941, nextPhis[ 0]=11.401574 prevPhis[ 1]=-5.421941, nextPhis[ 1]=-5.401574 <==IsSwitchingOccur() T = 29.650000 Tnext = 29.655000 Time: 2.96500e+01 states: [ 2.47595e+00 -1.02629e+00] derivs: [ -1.02653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.655000 pESO->GetIndependentVar(): 29.655000 ==>IsSwitchingOccur() prevPhis[ 0]=11.401574, nextPhis[ 0]=11.381131 prevPhis[ 1]=-5.401574, nextPhis[ 1]=-5.381131 <==IsSwitchingOccur() T = 29.655000 Tnext = 29.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.660000 pESO->GetIndependentVar(): 29.660000 ==>IsSwitchingOccur() prevPhis[ 0]=11.381131, nextPhis[ 0]=11.360614 prevPhis[ 1]=-5.381131, nextPhis[ 1]=-5.360614 <==IsSwitchingOccur() T = 29.660000 Tnext = 29.665000 Time: 2.96600e+01 states: [ 2.46563e+00 -1.03629e+00] derivs: [ -1.03653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.665000 pESO->GetIndependentVar(): 29.665000 ==>IsSwitchingOccur() prevPhis[ 0]=11.360614, nextPhis[ 0]=11.340022 prevPhis[ 1]=-5.360614, nextPhis[ 1]=-5.340022 <==IsSwitchingOccur() T = 29.665000 Tnext = 29.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.670000 pESO->GetIndependentVar(): 29.670000 ==>IsSwitchingOccur() prevPhis[ 0]=11.340022, nextPhis[ 0]=11.319355 prevPhis[ 1]=-5.340022, nextPhis[ 1]=-5.319355 <==IsSwitchingOccur() T = 29.670000 Tnext = 29.675000 Time: 2.96700e+01 states: [ 2.45521e+00 -1.04629e+00] derivs: [ -1.04653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.675000 pESO->GetIndependentVar(): 29.675000 ==>IsSwitchingOccur() prevPhis[ 0]=11.319355, nextPhis[ 0]=11.298613 prevPhis[ 1]=-5.319355, nextPhis[ 1]=-5.298613 <==IsSwitchingOccur() T = 29.675000 Tnext = 29.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.680000 pESO->GetIndependentVar(): 29.680000 ==>IsSwitchingOccur() prevPhis[ 0]=11.298613, nextPhis[ 0]=11.277795 prevPhis[ 1]=-5.298613, nextPhis[ 1]=-5.277795 <==IsSwitchingOccur() T = 29.680000 Tnext = 29.685000 Time: 2.96800e+01 states: [ 2.44469e+00 -1.05629e+00] derivs: [ -1.05653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.685000 pESO->GetIndependentVar(): 29.685000 ==>IsSwitchingOccur() prevPhis[ 0]=11.277795, nextPhis[ 0]=11.256903 prevPhis[ 1]=-5.277795, nextPhis[ 1]=-5.256903 <==IsSwitchingOccur() T = 29.685000 Tnext = 29.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.690000 pESO->GetIndependentVar(): 29.690000 ==>IsSwitchingOccur() prevPhis[ 0]=11.256903, nextPhis[ 0]=11.235936 prevPhis[ 1]=-5.256903, nextPhis[ 1]=-5.235936 <==IsSwitchingOccur() T = 29.690000 Tnext = 29.695000 Time: 2.96900e+01 states: [ 2.43407e+00 -1.06629e+00] derivs: [ -1.06653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.695000 pESO->GetIndependentVar(): 29.695000 ==>IsSwitchingOccur() prevPhis[ 0]=11.235936, nextPhis[ 0]=11.214894 prevPhis[ 1]=-5.235936, nextPhis[ 1]=-5.214894 <==IsSwitchingOccur() T = 29.695000 Tnext = 29.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.700000 pESO->GetIndependentVar(): 29.700000 ==>IsSwitchingOccur() prevPhis[ 0]=11.214894, nextPhis[ 0]=11.193777 prevPhis[ 1]=-5.214894, nextPhis[ 1]=-5.193777 <==IsSwitchingOccur() T = 29.700000 Tnext = 29.705000 Time: 2.97000e+01 states: [ 2.42336e+00 -1.07629e+00] derivs: [ -1.07653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.705000 pESO->GetIndependentVar(): 29.705000 ==>IsSwitchingOccur() prevPhis[ 0]=11.193777, nextPhis[ 0]=11.172584 prevPhis[ 1]=-5.193777, nextPhis[ 1]=-5.172584 <==IsSwitchingOccur() T = 29.705000 Tnext = 29.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.710000 pESO->GetIndependentVar(): 29.710000 ==>IsSwitchingOccur() prevPhis[ 0]=11.172584, nextPhis[ 0]=11.151317 prevPhis[ 1]=-5.172584, nextPhis[ 1]=-5.151317 <==IsSwitchingOccur() T = 29.710000 Tnext = 29.715000 Time: 2.97100e+01 states: [ 2.41254e+00 -1.08629e+00] derivs: [ -1.08653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.715000 pESO->GetIndependentVar(): 29.715000 ==>IsSwitchingOccur() prevPhis[ 0]=11.151317, nextPhis[ 0]=11.129975 prevPhis[ 1]=-5.151317, nextPhis[ 1]=-5.129975 <==IsSwitchingOccur() T = 29.715000 Tnext = 29.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.720000 pESO->GetIndependentVar(): 29.720000 ==>IsSwitchingOccur() prevPhis[ 0]=11.129975, nextPhis[ 0]=11.108558 prevPhis[ 1]=-5.129975, nextPhis[ 1]=-5.108558 <==IsSwitchingOccur() T = 29.720000 Tnext = 29.725000 Time: 2.97200e+01 states: [ 2.40162e+00 -1.09629e+00] derivs: [ -1.09653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.725000 pESO->GetIndependentVar(): 29.725000 ==>IsSwitchingOccur() prevPhis[ 0]=11.108558, nextPhis[ 0]=11.087066 prevPhis[ 1]=-5.108558, nextPhis[ 1]=-5.087066 <==IsSwitchingOccur() T = 29.725000 Tnext = 29.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.730000 pESO->GetIndependentVar(): 29.730000 ==>IsSwitchingOccur() prevPhis[ 0]=11.087066, nextPhis[ 0]=11.065499 prevPhis[ 1]=-5.087066, nextPhis[ 1]=-5.065499 <==IsSwitchingOccur() T = 29.730000 Tnext = 29.735000 Time: 2.97300e+01 states: [ 2.39060e+00 -1.10629e+00] derivs: [ -1.10653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.735000 pESO->GetIndependentVar(): 29.735000 ==>IsSwitchingOccur() prevPhis[ 0]=11.065499, nextPhis[ 0]=11.043856 prevPhis[ 1]=-5.065499, nextPhis[ 1]=-5.043856 <==IsSwitchingOccur() T = 29.735000 Tnext = 29.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.740000 pESO->GetIndependentVar(): 29.740000 ==>IsSwitchingOccur() prevPhis[ 0]=11.043856, nextPhis[ 0]=11.022139 prevPhis[ 1]=-5.043856, nextPhis[ 1]=-5.022139 <==IsSwitchingOccur() T = 29.740000 Tnext = 29.745000 Time: 2.97400e+01 states: [ 2.37948e+00 -1.11629e+00] derivs: [ -1.11653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.745000 pESO->GetIndependentVar(): 29.745000 ==>IsSwitchingOccur() prevPhis[ 0]=11.022139, nextPhis[ 0]=11.000347 prevPhis[ 1]=-5.022139, nextPhis[ 1]=-5.000347 <==IsSwitchingOccur() T = 29.745000 Tnext = 29.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.750000 pESO->GetIndependentVar(): 29.750000 ==>IsSwitchingOccur() prevPhis[ 0]=11.000347, nextPhis[ 0]=10.978480 prevPhis[ 1]=-5.000347, nextPhis[ 1]=-4.978480 <==IsSwitchingOccur() T = 29.750000 Tnext = 29.755000 Time: 2.97500e+01 states: [ 2.36826e+00 -1.12629e+00] derivs: [ -1.12653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.755000 pESO->GetIndependentVar(): 29.755000 ==>IsSwitchingOccur() prevPhis[ 0]=10.978480, nextPhis[ 0]=10.956538 prevPhis[ 1]=-4.978480, nextPhis[ 1]=-4.956538 <==IsSwitchingOccur() T = 29.755000 Tnext = 29.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.760000 pESO->GetIndependentVar(): 29.760000 ==>IsSwitchingOccur() prevPhis[ 0]=10.956538, nextPhis[ 0]=10.934520 prevPhis[ 1]=-4.956538, nextPhis[ 1]=-4.934520 <==IsSwitchingOccur() T = 29.760000 Tnext = 29.765000 Time: 2.97600e+01 states: [ 2.35694e+00 -1.13629e+00] derivs: [ -1.13653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.765000 pESO->GetIndependentVar(): 29.765000 ==>IsSwitchingOccur() prevPhis[ 0]=10.934520, nextPhis[ 0]=10.912428 prevPhis[ 1]=-4.934520, nextPhis[ 1]=-4.912428 <==IsSwitchingOccur() T = 29.765000 Tnext = 29.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.770000 pESO->GetIndependentVar(): 29.770000 ==>IsSwitchingOccur() prevPhis[ 0]=10.912428, nextPhis[ 0]=10.890261 prevPhis[ 1]=-4.912428, nextPhis[ 1]=-4.890261 <==IsSwitchingOccur() T = 29.770000 Tnext = 29.775000 Time: 2.97700e+01 states: [ 2.34552e+00 -1.14629e+00] derivs: [ -1.14653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.775000 pESO->GetIndependentVar(): 29.775000 ==>IsSwitchingOccur() prevPhis[ 0]=10.890261, nextPhis[ 0]=10.868019 prevPhis[ 1]=-4.890261, nextPhis[ 1]=-4.868019 <==IsSwitchingOccur() T = 29.775000 Tnext = 29.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.780000 pESO->GetIndependentVar(): 29.780000 ==>IsSwitchingOccur() prevPhis[ 0]=10.868019, nextPhis[ 0]=10.845702 prevPhis[ 1]=-4.868019, nextPhis[ 1]=-4.845702 <==IsSwitchingOccur() T = 29.780000 Tnext = 29.785000 Time: 2.97800e+01 states: [ 2.33400e+00 -1.15629e+00] derivs: [ -1.15653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.785000 pESO->GetIndependentVar(): 29.785000 ==>IsSwitchingOccur() prevPhis[ 0]=10.845702, nextPhis[ 0]=10.823309 prevPhis[ 1]=-4.845702, nextPhis[ 1]=-4.823309 <==IsSwitchingOccur() T = 29.785000 Tnext = 29.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.790000 pESO->GetIndependentVar(): 29.790000 ==>IsSwitchingOccur() prevPhis[ 0]=10.823309, nextPhis[ 0]=10.800842 prevPhis[ 1]=-4.823309, nextPhis[ 1]=-4.800842 <==IsSwitchingOccur() T = 29.790000 Tnext = 29.795000 Time: 2.97900e+01 states: [ 2.32238e+00 -1.16629e+00] derivs: [ -1.16653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.795000 pESO->GetIndependentVar(): 29.795000 ==>IsSwitchingOccur() prevPhis[ 0]=10.800842, nextPhis[ 0]=10.778300 prevPhis[ 1]=-4.800842, nextPhis[ 1]=-4.778300 <==IsSwitchingOccur() T = 29.795000 Tnext = 29.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.800000 pESO->GetIndependentVar(): 29.800000 ==>IsSwitchingOccur() prevPhis[ 0]=10.778300, nextPhis[ 0]=10.755683 prevPhis[ 1]=-4.778300, nextPhis[ 1]=-4.755683 <==IsSwitchingOccur() T = 29.800000 Tnext = 29.805000 Time: 2.98000e+01 states: [ 2.31066e+00 -1.17629e+00] derivs: [ -1.17653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.805000 pESO->GetIndependentVar(): 29.805000 ==>IsSwitchingOccur() prevPhis[ 0]=10.755683, nextPhis[ 0]=10.732991 prevPhis[ 1]=-4.755683, nextPhis[ 1]=-4.732991 <==IsSwitchingOccur() T = 29.805000 Tnext = 29.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.810000 pESO->GetIndependentVar(): 29.810000 ==>IsSwitchingOccur() prevPhis[ 0]=10.732991, nextPhis[ 0]=10.710223 prevPhis[ 1]=-4.732991, nextPhis[ 1]=-4.710223 <==IsSwitchingOccur() T = 29.810000 Tnext = 29.815000 Time: 2.98100e+01 states: [ 2.29884e+00 -1.18629e+00] derivs: [ -1.18653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.815000 pESO->GetIndependentVar(): 29.815000 ==>IsSwitchingOccur() prevPhis[ 0]=10.710223, nextPhis[ 0]=10.687381 prevPhis[ 1]=-4.710223, nextPhis[ 1]=-4.687381 <==IsSwitchingOccur() T = 29.815000 Tnext = 29.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.820000 pESO->GetIndependentVar(): 29.820000 ==>IsSwitchingOccur() prevPhis[ 0]=10.687381, nextPhis[ 0]=10.664464 prevPhis[ 1]=-4.687381, nextPhis[ 1]=-4.664464 <==IsSwitchingOccur() T = 29.820000 Tnext = 29.825000 Time: 2.98200e+01 states: [ 2.28692e+00 -1.19629e+00] derivs: [ -1.19653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.825000 pESO->GetIndependentVar(): 29.825000 ==>IsSwitchingOccur() prevPhis[ 0]=10.664464, nextPhis[ 0]=10.641472 prevPhis[ 1]=-4.664464, nextPhis[ 1]=-4.641472 <==IsSwitchingOccur() T = 29.825000 Tnext = 29.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.830000 pESO->GetIndependentVar(): 29.830000 ==>IsSwitchingOccur() prevPhis[ 0]=10.641472, nextPhis[ 0]=10.618405 prevPhis[ 1]=-4.641472, nextPhis[ 1]=-4.618405 <==IsSwitchingOccur() T = 29.830000 Tnext = 29.835000 Time: 2.98300e+01 states: [ 2.27490e+00 -1.20629e+00] derivs: [ -1.20653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.835000 pESO->GetIndependentVar(): 29.835000 ==>IsSwitchingOccur() prevPhis[ 0]=10.618405, nextPhis[ 0]=10.595262 prevPhis[ 1]=-4.618405, nextPhis[ 1]=-4.595262 <==IsSwitchingOccur() T = 29.835000 Tnext = 29.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.840000 pESO->GetIndependentVar(): 29.840000 ==>IsSwitchingOccur() prevPhis[ 0]=10.595262, nextPhis[ 0]=10.572045 prevPhis[ 1]=-4.595262, nextPhis[ 1]=-4.572045 <==IsSwitchingOccur() T = 29.840000 Tnext = 29.845000 Time: 2.98400e+01 states: [ 2.26278e+00 -1.21629e+00] derivs: [ -1.21653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.845000 pESO->GetIndependentVar(): 29.845000 ==>IsSwitchingOccur() prevPhis[ 0]=10.572045, nextPhis[ 0]=10.548753 prevPhis[ 1]=-4.572045, nextPhis[ 1]=-4.548753 <==IsSwitchingOccur() T = 29.845000 Tnext = 29.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.850000 pESO->GetIndependentVar(): 29.850000 ==>IsSwitchingOccur() prevPhis[ 0]=10.548753, nextPhis[ 0]=10.525386 prevPhis[ 1]=-4.548753, nextPhis[ 1]=-4.525386 <==IsSwitchingOccur() T = 29.850000 Tnext = 29.855000 Time: 2.98500e+01 states: [ 2.25056e+00 -1.22629e+00] derivs: [ -1.22653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.855000 pESO->GetIndependentVar(): 29.855000 ==>IsSwitchingOccur() prevPhis[ 0]=10.525386, nextPhis[ 0]=10.501944 prevPhis[ 1]=-4.525386, nextPhis[ 1]=-4.501944 <==IsSwitchingOccur() T = 29.855000 Tnext = 29.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.860000 pESO->GetIndependentVar(): 29.860000 ==>IsSwitchingOccur() prevPhis[ 0]=10.501944, nextPhis[ 0]=10.478427 prevPhis[ 1]=-4.501944, nextPhis[ 1]=-4.478427 <==IsSwitchingOccur() T = 29.860000 Tnext = 29.865000 Time: 2.98600e+01 states: [ 2.23824e+00 -1.23629e+00] derivs: [ -1.23653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.865000 pESO->GetIndependentVar(): 29.865000 ==>IsSwitchingOccur() prevPhis[ 0]=10.478427, nextPhis[ 0]=10.454834 prevPhis[ 1]=-4.478427, nextPhis[ 1]=-4.454834 <==IsSwitchingOccur() T = 29.865000 Tnext = 29.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.870000 pESO->GetIndependentVar(): 29.870000 ==>IsSwitchingOccur() prevPhis[ 0]=10.454834, nextPhis[ 0]=10.431167 prevPhis[ 1]=-4.454834, nextPhis[ 1]=-4.431167 <==IsSwitchingOccur() T = 29.870000 Tnext = 29.875000 Time: 2.98700e+01 states: [ 2.22582e+00 -1.24629e+00] derivs: [ -1.24653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.875000 pESO->GetIndependentVar(): 29.875000 ==>IsSwitchingOccur() prevPhis[ 0]=10.431167, nextPhis[ 0]=10.407425 prevPhis[ 1]=-4.431167, nextPhis[ 1]=-4.407425 <==IsSwitchingOccur() T = 29.875000 Tnext = 29.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.880000 pESO->GetIndependentVar(): 29.880000 ==>IsSwitchingOccur() prevPhis[ 0]=10.407425, nextPhis[ 0]=10.383608 prevPhis[ 1]=-4.407425, nextPhis[ 1]=-4.383608 <==IsSwitchingOccur() T = 29.880000 Tnext = 29.885000 Time: 2.98800e+01 states: [ 2.21330e+00 -1.25629e+00] derivs: [ -1.25653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.885000 pESO->GetIndependentVar(): 29.885000 ==>IsSwitchingOccur() prevPhis[ 0]=10.383608, nextPhis[ 0]=10.359716 prevPhis[ 1]=-4.383608, nextPhis[ 1]=-4.359716 <==IsSwitchingOccur() T = 29.885000 Tnext = 29.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.890000 pESO->GetIndependentVar(): 29.890000 ==>IsSwitchingOccur() prevPhis[ 0]=10.359716, nextPhis[ 0]=10.335748 prevPhis[ 1]=-4.359716, nextPhis[ 1]=-4.335748 <==IsSwitchingOccur() T = 29.890000 Tnext = 29.895000 Time: 2.98900e+01 states: [ 2.20068e+00 -1.26629e+00] derivs: [ -1.26653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.895000 pESO->GetIndependentVar(): 29.895000 ==>IsSwitchingOccur() prevPhis[ 0]=10.335748, nextPhis[ 0]=10.311706 prevPhis[ 1]=-4.335748, nextPhis[ 1]=-4.311706 <==IsSwitchingOccur() T = 29.895000 Tnext = 29.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.900000 pESO->GetIndependentVar(): 29.900000 ==>IsSwitchingOccur() prevPhis[ 0]=10.311706, nextPhis[ 0]=10.287589 prevPhis[ 1]=-4.311706, nextPhis[ 1]=-4.287589 <==IsSwitchingOccur() T = 29.900000 Tnext = 29.905000 Time: 2.99000e+01 states: [ 2.18796e+00 -1.27629e+00] derivs: [ -1.27653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.905000 pESO->GetIndependentVar(): 29.905000 ==>IsSwitchingOccur() prevPhis[ 0]=10.287589, nextPhis[ 0]=10.263397 prevPhis[ 1]=-4.287589, nextPhis[ 1]=-4.263397 <==IsSwitchingOccur() T = 29.905000 Tnext = 29.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.910000 pESO->GetIndependentVar(): 29.910000 ==>IsSwitchingOccur() prevPhis[ 0]=10.263397, nextPhis[ 0]=10.239130 prevPhis[ 1]=-4.263397, nextPhis[ 1]=-4.239130 <==IsSwitchingOccur() T = 29.910000 Tnext = 29.915000 Time: 2.99100e+01 states: [ 2.17514e+00 -1.28629e+00] derivs: [ -1.28653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.915000 pESO->GetIndependentVar(): 29.915000 ==>IsSwitchingOccur() prevPhis[ 0]=10.239130, nextPhis[ 0]=10.214787 prevPhis[ 1]=-4.239130, nextPhis[ 1]=-4.214787 <==IsSwitchingOccur() T = 29.915000 Tnext = 29.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.920000 pESO->GetIndependentVar(): 29.920000 ==>IsSwitchingOccur() prevPhis[ 0]=10.214787, nextPhis[ 0]=10.190370 prevPhis[ 1]=-4.214787, nextPhis[ 1]=-4.190370 <==IsSwitchingOccur() T = 29.920000 Tnext = 29.925000 Time: 2.99200e+01 states: [ 2.16222e+00 -1.29629e+00] derivs: [ -1.29653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.925000 pESO->GetIndependentVar(): 29.925000 ==>IsSwitchingOccur() prevPhis[ 0]=10.190370, nextPhis[ 0]=10.165878 prevPhis[ 1]=-4.190370, nextPhis[ 1]=-4.165878 <==IsSwitchingOccur() T = 29.925000 Tnext = 29.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.930000 pESO->GetIndependentVar(): 29.930000 ==>IsSwitchingOccur() prevPhis[ 0]=10.165878, nextPhis[ 0]=10.141311 prevPhis[ 1]=-4.165878, nextPhis[ 1]=-4.141311 <==IsSwitchingOccur() T = 29.930000 Tnext = 29.935000 Time: 2.99300e+01 states: [ 2.14920e+00 -1.30629e+00] derivs: [ -1.30653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.935000 pESO->GetIndependentVar(): 29.935000 ==>IsSwitchingOccur() prevPhis[ 0]=10.141311, nextPhis[ 0]=10.116669 prevPhis[ 1]=-4.141311, nextPhis[ 1]=-4.116669 <==IsSwitchingOccur() T = 29.935000 Tnext = 29.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.940000 pESO->GetIndependentVar(): 29.940000 ==>IsSwitchingOccur() prevPhis[ 0]=10.116669, nextPhis[ 0]=10.091951 prevPhis[ 1]=-4.116669, nextPhis[ 1]=-4.091951 <==IsSwitchingOccur() T = 29.940000 Tnext = 29.945000 Time: 2.99400e+01 states: [ 2.13608e+00 -1.31629e+00] derivs: [ -1.31653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.945000 pESO->GetIndependentVar(): 29.945000 ==>IsSwitchingOccur() prevPhis[ 0]=10.091951, nextPhis[ 0]=10.067159 prevPhis[ 1]=-4.091951, nextPhis[ 1]=-4.067159 <==IsSwitchingOccur() T = 29.945000 Tnext = 29.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.950000 pESO->GetIndependentVar(): 29.950000 ==>IsSwitchingOccur() prevPhis[ 0]=10.067159, nextPhis[ 0]=10.042292 prevPhis[ 1]=-4.067159, nextPhis[ 1]=-4.042292 <==IsSwitchingOccur() T = 29.950000 Tnext = 29.955000 Time: 2.99500e+01 states: [ 2.12286e+00 -1.32629e+00] derivs: [ -1.32653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.955000 pESO->GetIndependentVar(): 29.955000 ==>IsSwitchingOccur() prevPhis[ 0]=10.042292, nextPhis[ 0]=10.017350 prevPhis[ 1]=-4.042292, nextPhis[ 1]=-4.017350 <==IsSwitchingOccur() T = 29.955000 Tnext = 29.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.960000 pESO->GetIndependentVar(): 29.960000 ==>IsSwitchingOccur() prevPhis[ 0]=10.017350, nextPhis[ 0]=9.992333 prevPhis[ 1]=-4.017350, nextPhis[ 1]=-3.992333 <==IsSwitchingOccur() T = 29.960000 Tnext = 29.965000 Time: 2.99600e+01 states: [ 2.10954e+00 -1.33629e+00] derivs: [ -1.33653e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.965000 pESO->GetIndependentVar(): 29.965000 ==>IsSwitchingOccur() prevPhis[ 0]=9.992333, nextPhis[ 0]=9.967245 prevPhis[ 1]=-3.992333, nextPhis[ 1]=-3.967245 <==IsSwitchingOccur() T = 29.965000 Tnext = 29.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.970000 pESO->GetIndependentVar(): 29.970000 ==>IsSwitchingOccur() prevPhis[ 0]=9.967245, nextPhis[ 0]=9.942081 prevPhis[ 1]=-3.967245, nextPhis[ 1]=-3.942081 <==IsSwitchingOccur() T = 29.970000 Tnext = 29.975000 Time: 2.99700e+01 states: [ 2.09612e+00 -1.34629e+00] derivs: [ -1.34652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.975000 pESO->GetIndependentVar(): 29.975000 ==>IsSwitchingOccur() prevPhis[ 0]=9.942081, nextPhis[ 0]=9.916843 prevPhis[ 1]=-3.942081, nextPhis[ 1]=-3.916843 <==IsSwitchingOccur() T = 29.975000 Tnext = 29.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.980000 pESO->GetIndependentVar(): 29.980000 ==>IsSwitchingOccur() prevPhis[ 0]=9.916843, nextPhis[ 0]=9.891530 prevPhis[ 1]=-3.916843, nextPhis[ 1]=-3.891530 <==IsSwitchingOccur() T = 29.980000 Tnext = 29.985000 Time: 2.99800e+01 states: [ 2.08261e+00 -1.35629e+00] derivs: [ -1.35652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.985000 pESO->GetIndependentVar(): 29.985000 ==>IsSwitchingOccur() prevPhis[ 0]=9.891530, nextPhis[ 0]=9.866142 prevPhis[ 1]=-3.891530, nextPhis[ 1]=-3.866142 <==IsSwitchingOccur() T = 29.985000 Tnext = 29.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.990000 pESO->GetIndependentVar(): 29.990000 ==>IsSwitchingOccur() prevPhis[ 0]=9.866142, nextPhis[ 0]=9.840679 prevPhis[ 1]=-3.866142, nextPhis[ 1]=-3.840679 <==IsSwitchingOccur() T = 29.990000 Tnext = 29.995000 Time: 2.99900e+01 states: [ 2.06899e+00 -1.36629e+00] derivs: [ -1.36652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 29.995000 pESO->GetIndependentVar(): 29.995000 ==>IsSwitchingOccur() prevPhis[ 0]=9.840679, nextPhis[ 0]=9.815141 prevPhis[ 1]=-3.840679, nextPhis[ 1]=-3.815141 <==IsSwitchingOccur() T = 29.995000 Tnext = 30.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.000000 pESO->GetIndependentVar(): 30.000000 ==>IsSwitchingOccur() prevPhis[ 0]=9.815141, nextPhis[ 0]=9.789528 prevPhis[ 1]=-3.815141, nextPhis[ 1]=-3.789528 <==IsSwitchingOccur() T = 30.000000 Tnext = 30.005000 Time: 3.00000e+01 states: [ 2.05527e+00 -1.37629e+00] derivs: [ -1.37652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.005000 pESO->GetIndependentVar(): 30.005000 ==>IsSwitchingOccur() prevPhis[ 0]=9.789528, nextPhis[ 0]=9.763840 prevPhis[ 1]=-3.789528, nextPhis[ 1]=-3.763840 <==IsSwitchingOccur() T = 30.005000 Tnext = 30.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.010000 pESO->GetIndependentVar(): 30.010000 ==>IsSwitchingOccur() prevPhis[ 0]=9.763840, nextPhis[ 0]=9.738077 prevPhis[ 1]=-3.763840, nextPhis[ 1]=-3.738077 <==IsSwitchingOccur() T = 30.010000 Tnext = 30.015000 Time: 3.00100e+01 states: [ 2.04146e+00 -1.38629e+00] derivs: [ -1.38652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.015000 pESO->GetIndependentVar(): 30.015000 ==>IsSwitchingOccur() prevPhis[ 0]=9.738077, nextPhis[ 0]=9.712238 prevPhis[ 1]=-3.738077, nextPhis[ 1]=-3.712238 <==IsSwitchingOccur() T = 30.015000 Tnext = 30.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.020000 pESO->GetIndependentVar(): 30.020000 ==>IsSwitchingOccur() prevPhis[ 0]=9.712238, nextPhis[ 0]=9.686325 prevPhis[ 1]=-3.712238, nextPhis[ 1]=-3.686325 <==IsSwitchingOccur() T = 30.020000 Tnext = 30.025000 Time: 3.00200e+01 states: [ 2.02754e+00 -1.39629e+00] derivs: [ -1.39652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.025000 pESO->GetIndependentVar(): 30.025000 ==>IsSwitchingOccur() prevPhis[ 0]=9.686325, nextPhis[ 0]=9.660337 prevPhis[ 1]=-3.686325, nextPhis[ 1]=-3.660337 <==IsSwitchingOccur() T = 30.025000 Tnext = 30.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.030000 pESO->GetIndependentVar(): 30.030000 ==>IsSwitchingOccur() prevPhis[ 0]=9.660337, nextPhis[ 0]=9.634274 prevPhis[ 1]=-3.660337, nextPhis[ 1]=-3.634274 <==IsSwitchingOccur() T = 30.030000 Tnext = 30.035000 Time: 3.00300e+01 states: [ 2.01352e+00 -1.40629e+00] derivs: [ -1.40652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.035000 pESO->GetIndependentVar(): 30.035000 ==>IsSwitchingOccur() prevPhis[ 0]=9.634274, nextPhis[ 0]=9.608136 prevPhis[ 1]=-3.634274, nextPhis[ 1]=-3.608136 <==IsSwitchingOccur() T = 30.035000 Tnext = 30.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.040000 pESO->GetIndependentVar(): 30.040000 ==>IsSwitchingOccur() prevPhis[ 0]=9.608136, nextPhis[ 0]=9.581923 prevPhis[ 1]=-3.608136, nextPhis[ 1]=-3.581923 <==IsSwitchingOccur() T = 30.040000 Tnext = 30.045000 Time: 3.00400e+01 states: [ 1.99940e+00 -1.41629e+00] derivs: [ -1.41652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.045000 pESO->GetIndependentVar(): 30.045000 ==>IsSwitchingOccur() prevPhis[ 0]=9.581923, nextPhis[ 0]=9.555635 prevPhis[ 1]=-3.581923, nextPhis[ 1]=-3.555635 <==IsSwitchingOccur() T = 30.045000 Tnext = 30.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.050000 pESO->GetIndependentVar(): 30.050000 ==>IsSwitchingOccur() prevPhis[ 0]=9.555635, nextPhis[ 0]=9.529272 prevPhis[ 1]=-3.555635, nextPhis[ 1]=-3.529272 <==IsSwitchingOccur() T = 30.050000 Tnext = 30.055000 Time: 3.00500e+01 states: [ 1.98519e+00 -1.42629e+00] derivs: [ -1.42652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.055000 pESO->GetIndependentVar(): 30.055000 ==>IsSwitchingOccur() prevPhis[ 0]=9.529272, nextPhis[ 0]=9.502834 prevPhis[ 1]=-3.529272, nextPhis[ 1]=-3.502834 <==IsSwitchingOccur() T = 30.055000 Tnext = 30.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.060000 pESO->GetIndependentVar(): 30.060000 ==>IsSwitchingOccur() prevPhis[ 0]=9.502834, nextPhis[ 0]=9.476320 prevPhis[ 1]=-3.502834, nextPhis[ 1]=-3.476320 <==IsSwitchingOccur() T = 30.060000 Tnext = 30.065000 Time: 3.00600e+01 states: [ 1.97087e+00 -1.43629e+00] derivs: [ -1.43652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.065000 pESO->GetIndependentVar(): 30.065000 ==>IsSwitchingOccur() prevPhis[ 0]=9.476320, nextPhis[ 0]=9.449732 prevPhis[ 1]=-3.476320, nextPhis[ 1]=-3.449732 <==IsSwitchingOccur() T = 30.065000 Tnext = 30.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.070000 pESO->GetIndependentVar(): 30.070000 ==>IsSwitchingOccur() prevPhis[ 0]=9.449732, nextPhis[ 0]=9.423069 prevPhis[ 1]=-3.449732, nextPhis[ 1]=-3.423069 <==IsSwitchingOccur() T = 30.070000 Tnext = 30.075000 Time: 3.00700e+01 states: [ 1.95645e+00 -1.44629e+00] derivs: [ -1.44652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.075000 pESO->GetIndependentVar(): 30.075000 ==>IsSwitchingOccur() prevPhis[ 0]=9.423069, nextPhis[ 0]=9.396331 prevPhis[ 1]=-3.423069, nextPhis[ 1]=-3.396331 <==IsSwitchingOccur() T = 30.075000 Tnext = 30.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.080000 pESO->GetIndependentVar(): 30.080000 ==>IsSwitchingOccur() prevPhis[ 0]=9.396331, nextPhis[ 0]=9.369518 prevPhis[ 1]=-3.396331, nextPhis[ 1]=-3.369518 <==IsSwitchingOccur() T = 30.080000 Tnext = 30.085000 Time: 3.00800e+01 states: [ 1.94194e+00 -1.45629e+00] derivs: [ -1.45652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.085000 pESO->GetIndependentVar(): 30.085000 ==>IsSwitchingOccur() prevPhis[ 0]=9.369518, nextPhis[ 0]=9.342630 prevPhis[ 1]=-3.369518, nextPhis[ 1]=-3.342630 <==IsSwitchingOccur() T = 30.085000 Tnext = 30.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.090000 pESO->GetIndependentVar(): 30.090000 ==>IsSwitchingOccur() prevPhis[ 0]=9.342630, nextPhis[ 0]=9.315667 prevPhis[ 1]=-3.342630, nextPhis[ 1]=-3.315667 <==IsSwitchingOccur() T = 30.090000 Tnext = 30.095000 Time: 3.00900e+01 states: [ 1.92732e+00 -1.46629e+00] derivs: [ -1.46652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.095000 pESO->GetIndependentVar(): 30.095000 ==>IsSwitchingOccur() prevPhis[ 0]=9.315667, nextPhis[ 0]=9.288629 prevPhis[ 1]=-3.315667, nextPhis[ 1]=-3.288629 <==IsSwitchingOccur() T = 30.095000 Tnext = 30.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.100000 pESO->GetIndependentVar(): 30.100000 ==>IsSwitchingOccur() prevPhis[ 0]=9.288629, nextPhis[ 0]=9.261516 prevPhis[ 1]=-3.288629, nextPhis[ 1]=-3.261516 <==IsSwitchingOccur() T = 30.100000 Tnext = 30.105000 Time: 3.01000e+01 states: [ 1.91260e+00 -1.47629e+00] derivs: [ -1.47652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.105000 pESO->GetIndependentVar(): 30.105000 ==>IsSwitchingOccur() prevPhis[ 0]=9.261516, nextPhis[ 0]=9.234327 prevPhis[ 1]=-3.261516, nextPhis[ 1]=-3.234327 <==IsSwitchingOccur() T = 30.105000 Tnext = 30.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.110000 pESO->GetIndependentVar(): 30.110000 ==>IsSwitchingOccur() prevPhis[ 0]=9.234327, nextPhis[ 0]=9.207064 prevPhis[ 1]=-3.234327, nextPhis[ 1]=-3.207064 <==IsSwitchingOccur() T = 30.110000 Tnext = 30.115000 Time: 3.01100e+01 states: [ 1.89778e+00 -1.48629e+00] derivs: [ -1.48652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.115000 pESO->GetIndependentVar(): 30.115000 ==>IsSwitchingOccur() prevPhis[ 0]=9.207064, nextPhis[ 0]=9.179726 prevPhis[ 1]=-3.207064, nextPhis[ 1]=-3.179726 <==IsSwitchingOccur() T = 30.115000 Tnext = 30.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.120000 pESO->GetIndependentVar(): 30.120000 ==>IsSwitchingOccur() prevPhis[ 0]=9.179726, nextPhis[ 0]=9.152313 prevPhis[ 1]=-3.179726, nextPhis[ 1]=-3.152313 <==IsSwitchingOccur() T = 30.120000 Tnext = 30.125000 Time: 3.01200e+01 states: [ 1.88287e+00 -1.49629e+00] derivs: [ -1.49652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.125000 pESO->GetIndependentVar(): 30.125000 ==>IsSwitchingOccur() prevPhis[ 0]=9.152313, nextPhis[ 0]=9.124825 prevPhis[ 1]=-3.152313, nextPhis[ 1]=-3.124825 <==IsSwitchingOccur() T = 30.125000 Tnext = 30.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.130000 pESO->GetIndependentVar(): 30.130000 ==>IsSwitchingOccur() prevPhis[ 0]=9.124825, nextPhis[ 0]=9.097262 prevPhis[ 1]=-3.124825, nextPhis[ 1]=-3.097262 <==IsSwitchingOccur() T = 30.130000 Tnext = 30.135000 Time: 3.01300e+01 states: [ 1.86785e+00 -1.50629e+00] derivs: [ -1.50652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.135000 pESO->GetIndependentVar(): 30.135000 ==>IsSwitchingOccur() prevPhis[ 0]=9.097262, nextPhis[ 0]=9.069624 prevPhis[ 1]=-3.097262, nextPhis[ 1]=-3.069624 <==IsSwitchingOccur() T = 30.135000 Tnext = 30.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.140000 pESO->GetIndependentVar(): 30.140000 ==>IsSwitchingOccur() prevPhis[ 0]=9.069624, nextPhis[ 0]=9.041911 prevPhis[ 1]=-3.069624, nextPhis[ 1]=-3.041911 <==IsSwitchingOccur() T = 30.140000 Tnext = 30.145000 Time: 3.01400e+01 states: [ 1.85273e+00 -1.51629e+00] derivs: [ -1.51652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.145000 pESO->GetIndependentVar(): 30.145000 ==>IsSwitchingOccur() prevPhis[ 0]=9.041911, nextPhis[ 0]=9.014123 prevPhis[ 1]=-3.041911, nextPhis[ 1]=-3.014123 <==IsSwitchingOccur() T = 30.145000 Tnext = 30.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.150000 pESO->GetIndependentVar(): 30.150000 ==>IsSwitchingOccur() prevPhis[ 0]=9.014123, nextPhis[ 0]=8.986259 prevPhis[ 1]=-3.014123, nextPhis[ 1]=-2.986259 <==IsSwitchingOccur() T = 30.150000 Tnext = 30.155000 Time: 3.01500e+01 states: [ 1.83752e+00 -1.52629e+00] derivs: [ -1.52652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.155000 pESO->GetIndependentVar(): 30.155000 ==>IsSwitchingOccur() prevPhis[ 0]=8.986259, nextPhis[ 0]=8.958321 prevPhis[ 1]=-2.986259, nextPhis[ 1]=-2.958321 <==IsSwitchingOccur() T = 30.155000 Tnext = 30.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.160000 pESO->GetIndependentVar(): 30.160000 ==>IsSwitchingOccur() prevPhis[ 0]=8.958321, nextPhis[ 0]=8.930308 prevPhis[ 1]=-2.958321, nextPhis[ 1]=-2.930308 <==IsSwitchingOccur() T = 30.160000 Tnext = 30.165000 Time: 3.01600e+01 states: [ 1.82220e+00 -1.53629e+00] derivs: [ -1.53652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.165000 pESO->GetIndependentVar(): 30.165000 ==>IsSwitchingOccur() prevPhis[ 0]=8.930308, nextPhis[ 0]=8.902220 prevPhis[ 1]=-2.930308, nextPhis[ 1]=-2.902220 <==IsSwitchingOccur() T = 30.165000 Tnext = 30.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.170000 pESO->GetIndependentVar(): 30.170000 ==>IsSwitchingOccur() prevPhis[ 0]=8.902220, nextPhis[ 0]=8.874057 prevPhis[ 1]=-2.902220, nextPhis[ 1]=-2.874057 <==IsSwitchingOccur() T = 30.170000 Tnext = 30.175000 Time: 3.01700e+01 states: [ 1.80678e+00 -1.54629e+00] derivs: [ -1.54652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.175000 pESO->GetIndependentVar(): 30.175000 ==>IsSwitchingOccur() prevPhis[ 0]=8.874057, nextPhis[ 0]=8.845819 prevPhis[ 1]=-2.874057, nextPhis[ 1]=-2.845819 <==IsSwitchingOccur() T = 30.175000 Tnext = 30.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.180000 pESO->GetIndependentVar(): 30.180000 ==>IsSwitchingOccur() prevPhis[ 0]=8.845819, nextPhis[ 0]=8.817506 prevPhis[ 1]=-2.845819, nextPhis[ 1]=-2.817506 <==IsSwitchingOccur() T = 30.180000 Tnext = 30.185000 Time: 3.01800e+01 states: [ 1.79126e+00 -1.55629e+00] derivs: [ -1.55652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.185000 pESO->GetIndependentVar(): 30.185000 ==>IsSwitchingOccur() prevPhis[ 0]=8.817506, nextPhis[ 0]=8.789118 prevPhis[ 1]=-2.817506, nextPhis[ 1]=-2.789118 <==IsSwitchingOccur() T = 30.185000 Tnext = 30.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.190000 pESO->GetIndependentVar(): 30.190000 ==>IsSwitchingOccur() prevPhis[ 0]=8.789118, nextPhis[ 0]=8.760655 prevPhis[ 1]=-2.789118, nextPhis[ 1]=-2.760655 <==IsSwitchingOccur() T = 30.190000 Tnext = 30.195000 Time: 3.01900e+01 states: [ 1.77565e+00 -1.56629e+00] derivs: [ -1.56652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.195000 pESO->GetIndependentVar(): 30.195000 ==>IsSwitchingOccur() prevPhis[ 0]=8.760655, nextPhis[ 0]=8.732116 prevPhis[ 1]=-2.760655, nextPhis[ 1]=-2.732116 <==IsSwitchingOccur() T = 30.195000 Tnext = 30.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.200000 pESO->GetIndependentVar(): 30.200000 ==>IsSwitchingOccur() prevPhis[ 0]=8.732116, nextPhis[ 0]=8.703503 prevPhis[ 1]=-2.732116, nextPhis[ 1]=-2.703503 <==IsSwitchingOccur() T = 30.200000 Tnext = 30.205000 Time: 3.02000e+01 states: [ 1.75993e+00 -1.57629e+00] derivs: [ -1.57652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.205000 pESO->GetIndependentVar(): 30.205000 ==>IsSwitchingOccur() prevPhis[ 0]=8.703503, nextPhis[ 0]=8.674815 prevPhis[ 1]=-2.703503, nextPhis[ 1]=-2.674815 <==IsSwitchingOccur() T = 30.205000 Tnext = 30.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.210000 pESO->GetIndependentVar(): 30.210000 ==>IsSwitchingOccur() prevPhis[ 0]=8.674815, nextPhis[ 0]=8.646052 prevPhis[ 1]=-2.674815, nextPhis[ 1]=-2.646052 <==IsSwitchingOccur() T = 30.210000 Tnext = 30.215000 Time: 3.02100e+01 states: [ 1.74411e+00 -1.58629e+00] derivs: [ -1.58652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.215000 pESO->GetIndependentVar(): 30.215000 ==>IsSwitchingOccur() prevPhis[ 0]=8.646052, nextPhis[ 0]=8.617214 prevPhis[ 1]=-2.646052, nextPhis[ 1]=-2.617214 <==IsSwitchingOccur() T = 30.215000 Tnext = 30.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.220000 pESO->GetIndependentVar(): 30.220000 ==>IsSwitchingOccur() prevPhis[ 0]=8.617214, nextPhis[ 0]=8.588301 prevPhis[ 1]=-2.617214, nextPhis[ 1]=-2.588301 <==IsSwitchingOccur() T = 30.220000 Tnext = 30.225000 Time: 3.02200e+01 states: [ 1.72820e+00 -1.59629e+00] derivs: [ -1.59652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.225000 pESO->GetIndependentVar(): 30.225000 ==>IsSwitchingOccur() prevPhis[ 0]=8.588301, nextPhis[ 0]=8.559313 prevPhis[ 1]=-2.588301, nextPhis[ 1]=-2.559313 <==IsSwitchingOccur() T = 30.225000 Tnext = 30.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.230000 pESO->GetIndependentVar(): 30.230000 ==>IsSwitchingOccur() prevPhis[ 0]=8.559313, nextPhis[ 0]=8.530250 prevPhis[ 1]=-2.559313, nextPhis[ 1]=-2.530250 <==IsSwitchingOccur() T = 30.230000 Tnext = 30.235000 Time: 3.02300e+01 states: [ 1.71218e+00 -1.60629e+00] derivs: [ -1.60652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.235000 pESO->GetIndependentVar(): 30.235000 ==>IsSwitchingOccur() prevPhis[ 0]=8.530250, nextPhis[ 0]=8.501112 prevPhis[ 1]=-2.530250, nextPhis[ 1]=-2.501112 <==IsSwitchingOccur() T = 30.235000 Tnext = 30.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.240000 pESO->GetIndependentVar(): 30.240000 ==>IsSwitchingOccur() prevPhis[ 0]=8.501112, nextPhis[ 0]=8.471898 prevPhis[ 1]=-2.501112, nextPhis[ 1]=-2.471898 <==IsSwitchingOccur() T = 30.240000 Tnext = 30.245000 Time: 3.02400e+01 states: [ 1.69606e+00 -1.61629e+00] derivs: [ -1.61652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.245000 pESO->GetIndependentVar(): 30.245000 ==>IsSwitchingOccur() prevPhis[ 0]=8.471898, nextPhis[ 0]=8.442610 prevPhis[ 1]=-2.471898, nextPhis[ 1]=-2.442610 <==IsSwitchingOccur() T = 30.245000 Tnext = 30.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.250000 pESO->GetIndependentVar(): 30.250000 ==>IsSwitchingOccur() prevPhis[ 0]=8.442610, nextPhis[ 0]=8.413247 prevPhis[ 1]=-2.442610, nextPhis[ 1]=-2.413247 <==IsSwitchingOccur() T = 30.250000 Tnext = 30.255000 Time: 3.02500e+01 states: [ 1.67985e+00 -1.62629e+00] derivs: [ -1.62652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.255000 pESO->GetIndependentVar(): 30.255000 ==>IsSwitchingOccur() prevPhis[ 0]=8.413247, nextPhis[ 0]=8.383809 prevPhis[ 1]=-2.413247, nextPhis[ 1]=-2.383809 <==IsSwitchingOccur() T = 30.255000 Tnext = 30.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.260000 pESO->GetIndependentVar(): 30.260000 ==>IsSwitchingOccur() prevPhis[ 0]=8.383809, nextPhis[ 0]=8.354296 prevPhis[ 1]=-2.383809, nextPhis[ 1]=-2.354296 <==IsSwitchingOccur() T = 30.260000 Tnext = 30.265000 Time: 3.02600e+01 states: [ 1.66353e+00 -1.63629e+00] derivs: [ -1.63652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.265000 pESO->GetIndependentVar(): 30.265000 ==>IsSwitchingOccur() prevPhis[ 0]=8.354296, nextPhis[ 0]=8.324708 prevPhis[ 1]=-2.354296, nextPhis[ 1]=-2.324708 <==IsSwitchingOccur() T = 30.265000 Tnext = 30.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.270000 pESO->GetIndependentVar(): 30.270000 ==>IsSwitchingOccur() prevPhis[ 0]=8.324708, nextPhis[ 0]=8.295045 prevPhis[ 1]=-2.324708, nextPhis[ 1]=-2.295045 <==IsSwitchingOccur() T = 30.270000 Tnext = 30.275000 Time: 3.02700e+01 states: [ 1.64711e+00 -1.64629e+00] derivs: [ -1.64652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.275000 pESO->GetIndependentVar(): 30.275000 ==>IsSwitchingOccur() prevPhis[ 0]=8.295045, nextPhis[ 0]=8.265307 prevPhis[ 1]=-2.295045, nextPhis[ 1]=-2.265307 <==IsSwitchingOccur() T = 30.275000 Tnext = 30.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.280000 pESO->GetIndependentVar(): 30.280000 ==>IsSwitchingOccur() prevPhis[ 0]=8.265307, nextPhis[ 0]=8.235494 prevPhis[ 1]=-2.265307, nextPhis[ 1]=-2.235494 <==IsSwitchingOccur() T = 30.280000 Tnext = 30.285000 Time: 3.02800e+01 states: [ 1.63059e+00 -1.65629e+00] derivs: [ -1.65652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.285000 pESO->GetIndependentVar(): 30.285000 ==>IsSwitchingOccur() prevPhis[ 0]=8.235494, nextPhis[ 0]=8.205605 prevPhis[ 1]=-2.235494, nextPhis[ 1]=-2.205605 <==IsSwitchingOccur() T = 30.285000 Tnext = 30.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.290000 pESO->GetIndependentVar(): 30.290000 ==>IsSwitchingOccur() prevPhis[ 0]=8.205605, nextPhis[ 0]=8.175642 prevPhis[ 1]=-2.205605, nextPhis[ 1]=-2.175642 <==IsSwitchingOccur() T = 30.290000 Tnext = 30.295000 Time: 3.02900e+01 states: [ 1.61398e+00 -1.66629e+00] derivs: [ -1.66652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.295000 pESO->GetIndependentVar(): 30.295000 ==>IsSwitchingOccur() prevPhis[ 0]=8.175642, nextPhis[ 0]=8.145604 prevPhis[ 1]=-2.175642, nextPhis[ 1]=-2.145604 <==IsSwitchingOccur() T = 30.295000 Tnext = 30.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.300000 pESO->GetIndependentVar(): 30.300000 ==>IsSwitchingOccur() prevPhis[ 0]=8.145604, nextPhis[ 0]=8.115491 prevPhis[ 1]=-2.145604, nextPhis[ 1]=-2.115491 <==IsSwitchingOccur() T = 30.300000 Tnext = 30.305000 Time: 3.03000e+01 states: [ 1.59726e+00 -1.67629e+00] derivs: [ -1.67652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.305000 pESO->GetIndependentVar(): 30.305000 ==>IsSwitchingOccur() prevPhis[ 0]=8.115491, nextPhis[ 0]=8.085303 prevPhis[ 1]=-2.115491, nextPhis[ 1]=-2.085303 <==IsSwitchingOccur() T = 30.305000 Tnext = 30.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.310000 pESO->GetIndependentVar(): 30.310000 ==>IsSwitchingOccur() prevPhis[ 0]=8.085303, nextPhis[ 0]=8.055040 prevPhis[ 1]=-2.085303, nextPhis[ 1]=-2.055040 <==IsSwitchingOccur() T = 30.310000 Tnext = 30.315000 Time: 3.03100e+01 states: [ 1.58044e+00 -1.68629e+00] derivs: [ -1.68652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.315000 pESO->GetIndependentVar(): 30.315000 ==>IsSwitchingOccur() prevPhis[ 0]=8.055040, nextPhis[ 0]=8.024702 prevPhis[ 1]=-2.055040, nextPhis[ 1]=-2.024702 <==IsSwitchingOccur() T = 30.315000 Tnext = 30.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.320000 pESO->GetIndependentVar(): 30.320000 ==>IsSwitchingOccur() prevPhis[ 0]=8.024702, nextPhis[ 0]=7.994289 prevPhis[ 1]=-2.024702, nextPhis[ 1]=-1.994289 <==IsSwitchingOccur() T = 30.320000 Tnext = 30.325000 Time: 3.03200e+01 states: [ 1.56353e+00 -1.69629e+00] derivs: [ -1.69652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.325000 pESO->GetIndependentVar(): 30.325000 ==>IsSwitchingOccur() prevPhis[ 0]=7.994289, nextPhis[ 0]=7.963801 prevPhis[ 1]=-1.994289, nextPhis[ 1]=-1.963801 <==IsSwitchingOccur() T = 30.325000 Tnext = 30.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.330000 pESO->GetIndependentVar(): 30.330000 ==>IsSwitchingOccur() prevPhis[ 0]=7.963801, nextPhis[ 0]=7.933237 prevPhis[ 1]=-1.963801, nextPhis[ 1]=-1.933237 <==IsSwitchingOccur() T = 30.330000 Tnext = 30.335000 Time: 3.03300e+01 states: [ 1.54651e+00 -1.70629e+00] derivs: [ -1.70652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.335000 pESO->GetIndependentVar(): 30.335000 ==>IsSwitchingOccur() prevPhis[ 0]=7.933237, nextPhis[ 0]=7.902599 prevPhis[ 1]=-1.933237, nextPhis[ 1]=-1.902599 <==IsSwitchingOccur() T = 30.335000 Tnext = 30.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.340000 pESO->GetIndependentVar(): 30.340000 ==>IsSwitchingOccur() prevPhis[ 0]=7.902599, nextPhis[ 0]=7.871886 prevPhis[ 1]=-1.902599, nextPhis[ 1]=-1.871886 <==IsSwitchingOccur() T = 30.340000 Tnext = 30.345000 Time: 3.03400e+01 states: [ 1.52939e+00 -1.71629e+00] derivs: [ -1.71652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.345000 pESO->GetIndependentVar(): 30.345000 ==>IsSwitchingOccur() prevPhis[ 0]=7.871886, nextPhis[ 0]=7.841098 prevPhis[ 1]=-1.871886, nextPhis[ 1]=-1.841098 <==IsSwitchingOccur() T = 30.345000 Tnext = 30.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.350000 pESO->GetIndependentVar(): 30.350000 ==>IsSwitchingOccur() prevPhis[ 0]=7.841098, nextPhis[ 0]=7.810235 prevPhis[ 1]=-1.841098, nextPhis[ 1]=-1.810235 <==IsSwitchingOccur() T = 30.350000 Tnext = 30.355000 Time: 3.03500e+01 states: [ 1.51217e+00 -1.72629e+00] derivs: [ -1.72652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.355000 pESO->GetIndependentVar(): 30.355000 ==>IsSwitchingOccur() prevPhis[ 0]=7.810235, nextPhis[ 0]=7.779297 prevPhis[ 1]=-1.810235, nextPhis[ 1]=-1.779297 <==IsSwitchingOccur() T = 30.355000 Tnext = 30.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.360000 pESO->GetIndependentVar(): 30.360000 ==>IsSwitchingOccur() prevPhis[ 0]=7.779297, nextPhis[ 0]=7.748284 prevPhis[ 1]=-1.779297, nextPhis[ 1]=-1.748284 <==IsSwitchingOccur() T = 30.360000 Tnext = 30.365000 Time: 3.03600e+01 states: [ 1.49486e+00 -1.73629e+00] derivs: [ -1.73652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.365000 pESO->GetIndependentVar(): 30.365000 ==>IsSwitchingOccur() prevPhis[ 0]=7.748284, nextPhis[ 0]=7.717196 prevPhis[ 1]=-1.748284, nextPhis[ 1]=-1.717196 <==IsSwitchingOccur() T = 30.365000 Tnext = 30.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.370000 pESO->GetIndependentVar(): 30.370000 ==>IsSwitchingOccur() prevPhis[ 0]=7.717196, nextPhis[ 0]=7.686032 prevPhis[ 1]=-1.717196, nextPhis[ 1]=-1.686032 <==IsSwitchingOccur() T = 30.370000 Tnext = 30.375000 Time: 3.03700e+01 states: [ 1.47744e+00 -1.74629e+00] derivs: [ -1.74652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.375000 pESO->GetIndependentVar(): 30.375000 ==>IsSwitchingOccur() prevPhis[ 0]=7.686032, nextPhis[ 0]=7.654794 prevPhis[ 1]=-1.686032, nextPhis[ 1]=-1.654794 <==IsSwitchingOccur() T = 30.375000 Tnext = 30.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.380000 pESO->GetIndependentVar(): 30.380000 ==>IsSwitchingOccur() prevPhis[ 0]=7.654794, nextPhis[ 0]=7.623481 prevPhis[ 1]=-1.654794, nextPhis[ 1]=-1.623481 <==IsSwitchingOccur() T = 30.380000 Tnext = 30.385000 Time: 3.03800e+01 states: [ 1.45992e+00 -1.75629e+00] derivs: [ -1.75652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.385000 pESO->GetIndependentVar(): 30.385000 ==>IsSwitchingOccur() prevPhis[ 0]=7.623481, nextPhis[ 0]=7.592093 prevPhis[ 1]=-1.623481, nextPhis[ 1]=-1.592093 <==IsSwitchingOccur() T = 30.385000 Tnext = 30.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.390000 pESO->GetIndependentVar(): 30.390000 ==>IsSwitchingOccur() prevPhis[ 0]=7.592093, nextPhis[ 0]=7.560630 prevPhis[ 1]=-1.592093, nextPhis[ 1]=-1.560630 <==IsSwitchingOccur() T = 30.390000 Tnext = 30.395000 Time: 3.03900e+01 states: [ 1.44231e+00 -1.76629e+00] derivs: [ -1.76652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.395000 pESO->GetIndependentVar(): 30.395000 ==>IsSwitchingOccur() prevPhis[ 0]=7.560630, nextPhis[ 0]=7.529092 prevPhis[ 1]=-1.560630, nextPhis[ 1]=-1.529092 <==IsSwitchingOccur() T = 30.395000 Tnext = 30.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.400000 pESO->GetIndependentVar(): 30.400000 ==>IsSwitchingOccur() prevPhis[ 0]=7.529092, nextPhis[ 0]=7.497479 prevPhis[ 1]=-1.529092, nextPhis[ 1]=-1.497479 <==IsSwitchingOccur() T = 30.400000 Tnext = 30.405000 Time: 3.04000e+01 states: [ 1.42459e+00 -1.77629e+00] derivs: [ -1.77652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.405000 pESO->GetIndependentVar(): 30.405000 ==>IsSwitchingOccur() prevPhis[ 0]=7.497479, nextPhis[ 0]=7.465791 prevPhis[ 1]=-1.497479, nextPhis[ 1]=-1.465791 <==IsSwitchingOccur() T = 30.405000 Tnext = 30.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.410000 pESO->GetIndependentVar(): 30.410000 ==>IsSwitchingOccur() prevPhis[ 0]=7.465791, nextPhis[ 0]=7.434028 prevPhis[ 1]=-1.465791, nextPhis[ 1]=-1.434028 <==IsSwitchingOccur() T = 30.410000 Tnext = 30.415000 Time: 3.04100e+01 states: [ 1.40677e+00 -1.78629e+00] derivs: [ -1.78652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.415000 pESO->GetIndependentVar(): 30.415000 ==>IsSwitchingOccur() prevPhis[ 0]=7.434028, nextPhis[ 0]=7.402189 prevPhis[ 1]=-1.434028, nextPhis[ 1]=-1.402189 <==IsSwitchingOccur() T = 30.415000 Tnext = 30.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.420000 pESO->GetIndependentVar(): 30.420000 ==>IsSwitchingOccur() prevPhis[ 0]=7.402189, nextPhis[ 0]=7.370276 prevPhis[ 1]=-1.402189, nextPhis[ 1]=-1.370276 <==IsSwitchingOccur() T = 30.420000 Tnext = 30.425000 Time: 3.04200e+01 states: [ 1.38886e+00 -1.79629e+00] derivs: [ -1.79652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.425000 pESO->GetIndependentVar(): 30.425000 ==>IsSwitchingOccur() prevPhis[ 0]=7.370276, nextPhis[ 0]=7.338288 prevPhis[ 1]=-1.370276, nextPhis[ 1]=-1.338288 <==IsSwitchingOccur() T = 30.425000 Tnext = 30.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.430000 pESO->GetIndependentVar(): 30.430000 ==>IsSwitchingOccur() prevPhis[ 0]=7.338288, nextPhis[ 0]=7.306225 prevPhis[ 1]=-1.338288, nextPhis[ 1]=-1.306225 <==IsSwitchingOccur() T = 30.430000 Tnext = 30.435000 Time: 3.04300e+01 states: [ 1.37084e+00 -1.80629e+00] derivs: [ -1.80652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.435000 pESO->GetIndependentVar(): 30.435000 ==>IsSwitchingOccur() prevPhis[ 0]=7.306225, nextPhis[ 0]=7.274087 prevPhis[ 1]=-1.306225, nextPhis[ 1]=-1.274087 <==IsSwitchingOccur() T = 30.435000 Tnext = 30.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.440000 pESO->GetIndependentVar(): 30.440000 ==>IsSwitchingOccur() prevPhis[ 0]=7.274087, nextPhis[ 0]=7.241874 prevPhis[ 1]=-1.274087, nextPhis[ 1]=-1.241874 <==IsSwitchingOccur() T = 30.440000 Tnext = 30.445000 Time: 3.04400e+01 states: [ 1.35272e+00 -1.81629e+00] derivs: [ -1.81652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.445000 pESO->GetIndependentVar(): 30.445000 ==>IsSwitchingOccur() prevPhis[ 0]=7.241874, nextPhis[ 0]=7.209586 prevPhis[ 1]=-1.241874, nextPhis[ 1]=-1.209586 <==IsSwitchingOccur() T = 30.445000 Tnext = 30.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.450000 pESO->GetIndependentVar(): 30.450000 ==>IsSwitchingOccur() prevPhis[ 0]=7.209586, nextPhis[ 0]=7.177223 prevPhis[ 1]=-1.209586, nextPhis[ 1]=-1.177223 <==IsSwitchingOccur() T = 30.450000 Tnext = 30.455000 Time: 3.04500e+01 states: [ 1.33450e+00 -1.82629e+00] derivs: [ -1.82652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.455000 pESO->GetIndependentVar(): 30.455000 ==>IsSwitchingOccur() prevPhis[ 0]=7.177223, nextPhis[ 0]=7.144785 prevPhis[ 1]=-1.177223, nextPhis[ 1]=-1.144785 <==IsSwitchingOccur() T = 30.455000 Tnext = 30.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.460000 pESO->GetIndependentVar(): 30.460000 ==>IsSwitchingOccur() prevPhis[ 0]=7.144785, nextPhis[ 0]=7.112271 prevPhis[ 1]=-1.144785, nextPhis[ 1]=-1.112271 <==IsSwitchingOccur() T = 30.460000 Tnext = 30.465000 Time: 3.04600e+01 states: [ 1.31619e+00 -1.83629e+00] derivs: [ -1.83652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.465000 pESO->GetIndependentVar(): 30.465000 ==>IsSwitchingOccur() prevPhis[ 0]=7.112271, nextPhis[ 0]=7.079683 prevPhis[ 1]=-1.112271, nextPhis[ 1]=-1.079683 <==IsSwitchingOccur() T = 30.465000 Tnext = 30.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.470000 pESO->GetIndependentVar(): 30.470000 ==>IsSwitchingOccur() prevPhis[ 0]=7.079683, nextPhis[ 0]=7.047020 prevPhis[ 1]=-1.079683, nextPhis[ 1]=-1.047020 <==IsSwitchingOccur() T = 30.470000 Tnext = 30.475000 Time: 3.04700e+01 states: [ 1.29777e+00 -1.84629e+00] derivs: [ -1.84652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.475000 pESO->GetIndependentVar(): 30.475000 ==>IsSwitchingOccur() prevPhis[ 0]=7.047020, nextPhis[ 0]=7.014282 prevPhis[ 1]=-1.047020, nextPhis[ 1]=-1.014282 <==IsSwitchingOccur() T = 30.475000 Tnext = 30.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.480000 pESO->GetIndependentVar(): 30.480000 ==>IsSwitchingOccur() prevPhis[ 0]=7.014282, nextPhis[ 0]=6.981469 prevPhis[ 1]=-1.014282, nextPhis[ 1]=-0.981469 <==IsSwitchingOccur() T = 30.480000 Tnext = 30.485000 Time: 3.04800e+01 states: [ 1.27925e+00 -1.85629e+00] derivs: [ -1.85652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.485000 pESO->GetIndependentVar(): 30.485000 ==>IsSwitchingOccur() prevPhis[ 0]=6.981469, nextPhis[ 0]=6.948581 prevPhis[ 1]=-0.981469, nextPhis[ 1]=-0.948581 <==IsSwitchingOccur() T = 30.485000 Tnext = 30.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.490000 pESO->GetIndependentVar(): 30.490000 ==>IsSwitchingOccur() prevPhis[ 0]=6.948581, nextPhis[ 0]=6.915618 prevPhis[ 1]=-0.948581, nextPhis[ 1]=-0.915618 <==IsSwitchingOccur() T = 30.490000 Tnext = 30.495000 Time: 3.04900e+01 states: [ 1.26064e+00 -1.86629e+00] derivs: [ -1.86652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.495000 pESO->GetIndependentVar(): 30.495000 ==>IsSwitchingOccur() prevPhis[ 0]=6.915618, nextPhis[ 0]=6.882580 prevPhis[ 1]=-0.915618, nextPhis[ 1]=-0.882580 <==IsSwitchingOccur() T = 30.495000 Tnext = 30.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.500000 pESO->GetIndependentVar(): 30.500000 ==>IsSwitchingOccur() prevPhis[ 0]=6.882580, nextPhis[ 0]=6.849467 prevPhis[ 1]=-0.882580, nextPhis[ 1]=-0.849467 <==IsSwitchingOccur() T = 30.500000 Tnext = 30.505000 Time: 3.05000e+01 states: [ 1.24192e+00 -1.87629e+00] derivs: [ -1.87652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.505000 pESO->GetIndependentVar(): 30.505000 ==>IsSwitchingOccur() prevPhis[ 0]=6.849467, nextPhis[ 0]=6.816278 prevPhis[ 1]=-0.849467, nextPhis[ 1]=-0.816278 <==IsSwitchingOccur() T = 30.505000 Tnext = 30.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.510000 pESO->GetIndependentVar(): 30.510000 ==>IsSwitchingOccur() prevPhis[ 0]=6.816278, nextPhis[ 0]=6.783015 prevPhis[ 1]=-0.816278, nextPhis[ 1]=-0.783015 <==IsSwitchingOccur() T = 30.510000 Tnext = 30.515000 Time: 3.05100e+01 states: [ 1.22310e+00 -1.88629e+00] derivs: [ -1.88652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.515000 pESO->GetIndependentVar(): 30.515000 ==>IsSwitchingOccur() prevPhis[ 0]=6.783015, nextPhis[ 0]=6.749677 prevPhis[ 1]=-0.783015, nextPhis[ 1]=-0.749677 <==IsSwitchingOccur() T = 30.515000 Tnext = 30.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.520000 pESO->GetIndependentVar(): 30.520000 ==>IsSwitchingOccur() prevPhis[ 0]=6.749677, nextPhis[ 0]=6.716264 prevPhis[ 1]=-0.749677, nextPhis[ 1]=-0.716264 <==IsSwitchingOccur() T = 30.520000 Tnext = 30.525000 Time: 3.05200e+01 states: [ 1.20418e+00 -1.89629e+00] derivs: [ -1.89652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.525000 pESO->GetIndependentVar(): 30.525000 ==>IsSwitchingOccur() prevPhis[ 0]=6.716264, nextPhis[ 0]=6.682776 prevPhis[ 1]=-0.716264, nextPhis[ 1]=-0.682776 <==IsSwitchingOccur() T = 30.525000 Tnext = 30.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.530000 pESO->GetIndependentVar(): 30.530000 ==>IsSwitchingOccur() prevPhis[ 0]=6.682776, nextPhis[ 0]=6.649213 prevPhis[ 1]=-0.682776, nextPhis[ 1]=-0.649213 <==IsSwitchingOccur() T = 30.530000 Tnext = 30.535000 Time: 3.05300e+01 states: [ 1.18517e+00 -1.90629e+00] derivs: [ -1.90652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.535000 pESO->GetIndependentVar(): 30.535000 ==>IsSwitchingOccur() prevPhis[ 0]=6.649213, nextPhis[ 0]=6.615575 prevPhis[ 1]=-0.649213, nextPhis[ 1]=-0.615575 <==IsSwitchingOccur() T = 30.535000 Tnext = 30.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.540000 pESO->GetIndependentVar(): 30.540000 ==>IsSwitchingOccur() prevPhis[ 0]=6.615575, nextPhis[ 0]=6.581862 prevPhis[ 1]=-0.615575, nextPhis[ 1]=-0.581862 <==IsSwitchingOccur() T = 30.540000 Tnext = 30.545000 Time: 3.05400e+01 states: [ 1.16605e+00 -1.91629e+00] derivs: [ -1.91652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.545000 pESO->GetIndependentVar(): 30.545000 ==>IsSwitchingOccur() prevPhis[ 0]=6.581862, nextPhis[ 0]=6.548074 prevPhis[ 1]=-0.581862, nextPhis[ 1]=-0.548074 <==IsSwitchingOccur() T = 30.545000 Tnext = 30.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.550000 pESO->GetIndependentVar(): 30.550000 ==>IsSwitchingOccur() prevPhis[ 0]=6.548074, nextPhis[ 0]=6.514210 prevPhis[ 1]=-0.548074, nextPhis[ 1]=-0.514210 <==IsSwitchingOccur() T = 30.550000 Tnext = 30.555000 Time: 3.05500e+01 states: [ 1.14683e+00 -1.92629e+00] derivs: [ -1.92652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.555000 pESO->GetIndependentVar(): 30.555000 ==>IsSwitchingOccur() prevPhis[ 0]=6.514210, nextPhis[ 0]=6.480272 prevPhis[ 1]=-0.514210, nextPhis[ 1]=-0.480272 <==IsSwitchingOccur() T = 30.555000 Tnext = 30.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.560000 pESO->GetIndependentVar(): 30.560000 ==>IsSwitchingOccur() prevPhis[ 0]=6.480272, nextPhis[ 0]=6.446259 prevPhis[ 1]=-0.480272, nextPhis[ 1]=-0.446259 <==IsSwitchingOccur() T = 30.560000 Tnext = 30.565000 Time: 3.05600e+01 states: [ 1.12752e+00 -1.93629e+00] derivs: [ -1.93652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.565000 pESO->GetIndependentVar(): 30.565000 ==>IsSwitchingOccur() prevPhis[ 0]=6.446259, nextPhis[ 0]=6.412171 prevPhis[ 1]=-0.446259, nextPhis[ 1]=-0.412171 <==IsSwitchingOccur() T = 30.565000 Tnext = 30.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.570000 pESO->GetIndependentVar(): 30.570000 ==>IsSwitchingOccur() prevPhis[ 0]=6.412171, nextPhis[ 0]=6.378008 prevPhis[ 1]=-0.412171, nextPhis[ 1]=-0.378008 <==IsSwitchingOccur() T = 30.570000 Tnext = 30.575000 Time: 3.05700e+01 states: [ 1.10810e+00 -1.94629e+00] derivs: [ -1.94652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.575000 pESO->GetIndependentVar(): 30.575000 ==>IsSwitchingOccur() prevPhis[ 0]=6.378008, nextPhis[ 0]=6.343770 prevPhis[ 1]=-0.378008, nextPhis[ 1]=-0.343770 <==IsSwitchingOccur() T = 30.575000 Tnext = 30.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.580000 pESO->GetIndependentVar(): 30.580000 ==>IsSwitchingOccur() prevPhis[ 0]=6.343770, nextPhis[ 0]=6.309457 prevPhis[ 1]=-0.343770, nextPhis[ 1]=-0.309457 <==IsSwitchingOccur() T = 30.580000 Tnext = 30.585000 Time: 3.05800e+01 states: [ 1.08858e+00 -1.95629e+00] derivs: [ -1.95652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.585000 pESO->GetIndependentVar(): 30.585000 ==>IsSwitchingOccur() prevPhis[ 0]=6.309457, nextPhis[ 0]=6.275069 prevPhis[ 1]=-0.309457, nextPhis[ 1]=-0.275069 <==IsSwitchingOccur() T = 30.585000 Tnext = 30.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.590000 pESO->GetIndependentVar(): 30.590000 ==>IsSwitchingOccur() prevPhis[ 0]=6.275069, nextPhis[ 0]=6.240606 prevPhis[ 1]=-0.275069, nextPhis[ 1]=-0.240606 <==IsSwitchingOccur() T = 30.590000 Tnext = 30.595000 Time: 3.05900e+01 states: [ 1.06896e+00 -1.96629e+00] derivs: [ -1.96652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.595000 pESO->GetIndependentVar(): 30.595000 ==>IsSwitchingOccur() prevPhis[ 0]=6.240606, nextPhis[ 0]=6.206067 prevPhis[ 1]=-0.240606, nextPhis[ 1]=-0.206067 <==IsSwitchingOccur() T = 30.595000 Tnext = 30.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.600000 pESO->GetIndependentVar(): 30.600000 ==>IsSwitchingOccur() prevPhis[ 0]=6.206067, nextPhis[ 0]=6.171454 prevPhis[ 1]=-0.206067, nextPhis[ 1]=-0.171454 <==IsSwitchingOccur() T = 30.600000 Tnext = 30.605000 Time: 3.06000e+01 states: [ 1.04925e+00 -1.97629e+00] derivs: [ -1.97652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.605000 pESO->GetIndependentVar(): 30.605000 ==>IsSwitchingOccur() prevPhis[ 0]=6.171454, nextPhis[ 0]=6.136766 prevPhis[ 1]=-0.171454, nextPhis[ 1]=-0.136766 <==IsSwitchingOccur() T = 30.605000 Tnext = 30.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.610000 pESO->GetIndependentVar(): 30.610000 ==>IsSwitchingOccur() prevPhis[ 0]=6.136766, nextPhis[ 0]=6.102003 prevPhis[ 1]=-0.136766, nextPhis[ 1]=-0.102003 <==IsSwitchingOccur() T = 30.610000 Tnext = 30.615000 Time: 3.06100e+01 states: [ 1.02943e+00 -1.98629e+00] derivs: [ -1.98652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.615000 pESO->GetIndependentVar(): 30.615000 ==>IsSwitchingOccur() prevPhis[ 0]=6.102003, nextPhis[ 0]=6.067165 prevPhis[ 1]=-0.102003, nextPhis[ 1]=-0.067165 <==IsSwitchingOccur() T = 30.615000 Tnext = 30.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.620000 pESO->GetIndependentVar(): 30.620000 ==>IsSwitchingOccur() prevPhis[ 0]=6.067165, nextPhis[ 0]=6.032252 prevPhis[ 1]=-0.067165, nextPhis[ 1]=-0.032252 <==IsSwitchingOccur() T = 30.620000 Tnext = 30.625000 Time: 3.06200e+01 states: [ 1.00951e+00 -1.99629e+00] derivs: [ -1.99652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.625000 pESO->GetIndependentVar(): 30.625000 ==>IsSwitchingOccur() prevPhis[ 0]=6.032252, nextPhis[ 0]=5.997264 prevPhis[ 1]=-0.032252, nextPhis[ 1]=0.002736 <==IsSwitchingOccur() T = 30.625000 Tnext = 30.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.630000 pESO->GetIndependentVar(): 30.630000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997264, nextPhis[ 0]=5.962201 prevPhis[ 1]=0.002736, nextPhis[ 1]=0.037799 <==IsSwitchingOccur() T = 30.630000 Tnext = 30.635000 Time: 3.06300e+01 states: [ 9.89497e-01 -2.00629e+00] derivs: [ -2.00652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.635000 pESO->GetIndependentVar(): 30.635000 ==>IsSwitchingOccur() prevPhis[ 0]=5.962201, nextPhis[ 0]=5.927063 prevPhis[ 1]=0.037799, nextPhis[ 1]=0.072937 <==IsSwitchingOccur() T = 30.635000 Tnext = 30.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.640000 pESO->GetIndependentVar(): 30.640000 ==>IsSwitchingOccur() prevPhis[ 0]=5.927063, nextPhis[ 0]=5.891849 prevPhis[ 1]=0.072937, nextPhis[ 1]=0.108151 <==IsSwitchingOccur() T = 30.640000 Tnext = 30.645000 Time: 3.06400e+01 states: [ 9.69379e-01 -2.01629e+00] derivs: [ -2.01652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.645000 pESO->GetIndependentVar(): 30.645000 ==>IsSwitchingOccur() prevPhis[ 0]=5.891849, nextPhis[ 0]=5.856561 prevPhis[ 1]=0.108151, nextPhis[ 1]=0.143439 <==IsSwitchingOccur() T = 30.645000 Tnext = 30.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.650000 pESO->GetIndependentVar(): 30.650000 ==>IsSwitchingOccur() prevPhis[ 0]=5.856561, nextPhis[ 0]=5.821198 prevPhis[ 1]=0.143439, nextPhis[ 1]=0.178802 <==IsSwitchingOccur() T = 30.650000 Tnext = 30.655000 Time: 3.06500e+01 states: [ 9.49162e-01 -2.02629e+00] derivs: [ -2.02652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.655000 pESO->GetIndependentVar(): 30.655000 ==>IsSwitchingOccur() prevPhis[ 0]=5.821198, nextPhis[ 0]=5.785760 prevPhis[ 1]=0.178802, nextPhis[ 1]=0.214240 <==IsSwitchingOccur() T = 30.655000 Tnext = 30.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.660000 pESO->GetIndependentVar(): 30.660000 ==>IsSwitchingOccur() prevPhis[ 0]=5.785760, nextPhis[ 0]=5.750247 prevPhis[ 1]=0.214240, nextPhis[ 1]=0.249753 <==IsSwitchingOccur() T = 30.660000 Tnext = 30.665000 Time: 3.06600e+01 states: [ 9.28845e-01 -2.03629e+00] derivs: [ -2.03652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.665000 pESO->GetIndependentVar(): 30.665000 ==>IsSwitchingOccur() prevPhis[ 0]=5.750247, nextPhis[ 0]=5.714659 prevPhis[ 1]=0.249753, nextPhis[ 1]=0.285341 <==IsSwitchingOccur() T = 30.665000 Tnext = 30.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.670000 pESO->GetIndependentVar(): 30.670000 ==>IsSwitchingOccur() prevPhis[ 0]=5.714659, nextPhis[ 0]=5.678996 prevPhis[ 1]=0.285341, nextPhis[ 1]=0.321004 <==IsSwitchingOccur() T = 30.670000 Tnext = 30.675000 Time: 3.06700e+01 states: [ 9.08428e-01 -2.04629e+00] derivs: [ -2.04652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.675000 pESO->GetIndependentVar(): 30.675000 ==>IsSwitchingOccur() prevPhis[ 0]=5.678996, nextPhis[ 0]=5.643258 prevPhis[ 1]=0.321004, nextPhis[ 1]=0.356742 <==IsSwitchingOccur() T = 30.675000 Tnext = 30.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.680000 pESO->GetIndependentVar(): 30.680000 ==>IsSwitchingOccur() prevPhis[ 0]=5.643258, nextPhis[ 0]=5.607445 prevPhis[ 1]=0.356742, nextPhis[ 1]=0.392555 <==IsSwitchingOccur() T = 30.680000 Tnext = 30.685000 Time: 3.06800e+01 states: [ 8.87911e-01 -2.05629e+00] derivs: [ -2.05652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.685000 pESO->GetIndependentVar(): 30.685000 ==>IsSwitchingOccur() prevPhis[ 0]=5.607445, nextPhis[ 0]=5.571556 prevPhis[ 1]=0.392555, nextPhis[ 1]=0.428444 <==IsSwitchingOccur() T = 30.685000 Tnext = 30.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.690000 pESO->GetIndependentVar(): 30.690000 ==>IsSwitchingOccur() prevPhis[ 0]=5.571556, nextPhis[ 0]=5.535593 prevPhis[ 1]=0.428444, nextPhis[ 1]=0.464407 <==IsSwitchingOccur() T = 30.690000 Tnext = 30.695000 Time: 3.06900e+01 states: [ 8.67294e-01 -2.06629e+00] derivs: [ -2.06652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.695000 pESO->GetIndependentVar(): 30.695000 ==>IsSwitchingOccur() prevPhis[ 0]=5.535593, nextPhis[ 0]=5.499555 prevPhis[ 1]=0.464407, nextPhis[ 1]=0.500445 <==IsSwitchingOccur() T = 30.695000 Tnext = 30.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.700000 pESO->GetIndependentVar(): 30.700000 ==>IsSwitchingOccur() prevPhis[ 0]=5.499555, nextPhis[ 0]=5.463442 prevPhis[ 1]=0.500445, nextPhis[ 1]=0.536558 <==IsSwitchingOccur() T = 30.700000 Tnext = 30.705000 Time: 3.07000e+01 states: [ 8.46577e-01 -2.07629e+00] derivs: [ -2.07652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.705000 pESO->GetIndependentVar(): 30.705000 ==>IsSwitchingOccur() prevPhis[ 0]=5.463442, nextPhis[ 0]=5.427254 prevPhis[ 1]=0.536558, nextPhis[ 1]=0.572746 <==IsSwitchingOccur() T = 30.705000 Tnext = 30.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.710000 pESO->GetIndependentVar(): 30.710000 ==>IsSwitchingOccur() prevPhis[ 0]=5.427254, nextPhis[ 0]=5.390991 prevPhis[ 1]=0.572746, nextPhis[ 1]=0.609009 <==IsSwitchingOccur() T = 30.710000 Tnext = 30.715000 Time: 3.07100e+01 states: [ 8.25760e-01 -2.08629e+00] derivs: [ -2.08652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.715000 pESO->GetIndependentVar(): 30.715000 ==>IsSwitchingOccur() prevPhis[ 0]=5.390991, nextPhis[ 0]=5.354653 prevPhis[ 1]=0.609009, nextPhis[ 1]=0.645347 <==IsSwitchingOccur() T = 30.715000 Tnext = 30.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.720000 pESO->GetIndependentVar(): 30.720000 ==>IsSwitchingOccur() prevPhis[ 0]=5.354653, nextPhis[ 0]=5.318240 prevPhis[ 1]=0.645347, nextPhis[ 1]=0.681760 <==IsSwitchingOccur() T = 30.720000 Tnext = 30.725000 Time: 3.07200e+01 states: [ 8.04843e-01 -2.09629e+00] derivs: [ -2.09652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.725000 pESO->GetIndependentVar(): 30.725000 ==>IsSwitchingOccur() prevPhis[ 0]=5.318240, nextPhis[ 0]=5.281752 prevPhis[ 1]=0.681760, nextPhis[ 1]=0.718248 <==IsSwitchingOccur() T = 30.725000 Tnext = 30.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.730000 pESO->GetIndependentVar(): 30.730000 ==>IsSwitchingOccur() prevPhis[ 0]=5.281752, nextPhis[ 0]=5.245188 prevPhis[ 1]=0.718248, nextPhis[ 1]=0.754812 <==IsSwitchingOccur() T = 30.730000 Tnext = 30.735000 Time: 3.07300e+01 states: [ 7.83826e-01 -2.10629e+00] derivs: [ -2.10652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.735000 pESO->GetIndependentVar(): 30.735000 ==>IsSwitchingOccur() prevPhis[ 0]=5.245188, nextPhis[ 0]=5.208550 prevPhis[ 1]=0.754812, nextPhis[ 1]=0.791450 <==IsSwitchingOccur() T = 30.735000 Tnext = 30.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.740000 pESO->GetIndependentVar(): 30.740000 ==>IsSwitchingOccur() prevPhis[ 0]=5.208550, nextPhis[ 0]=5.171837 prevPhis[ 1]=0.791450, nextPhis[ 1]=0.828163 <==IsSwitchingOccur() T = 30.740000 Tnext = 30.745000 Time: 3.07400e+01 states: [ 7.62709e-01 -2.11629e+00] derivs: [ -2.11652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.745000 pESO->GetIndependentVar(): 30.745000 ==>IsSwitchingOccur() prevPhis[ 0]=5.171837, nextPhis[ 0]=5.135049 prevPhis[ 1]=0.828163, nextPhis[ 1]=0.864951 <==IsSwitchingOccur() T = 30.745000 Tnext = 30.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.750000 pESO->GetIndependentVar(): 30.750000 ==>IsSwitchingOccur() prevPhis[ 0]=5.135049, nextPhis[ 0]=5.098186 prevPhis[ 1]=0.864951, nextPhis[ 1]=0.901814 <==IsSwitchingOccur() T = 30.750000 Tnext = 30.755000 Time: 3.07500e+01 states: [ 7.41492e-01 -2.12629e+00] derivs: [ -2.12652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.755000 pESO->GetIndependentVar(): 30.755000 ==>IsSwitchingOccur() prevPhis[ 0]=5.098186, nextPhis[ 0]=5.061248 prevPhis[ 1]=0.901814, nextPhis[ 1]=0.938752 <==IsSwitchingOccur() T = 30.755000 Tnext = 30.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.760000 pESO->GetIndependentVar(): 30.760000 ==>IsSwitchingOccur() prevPhis[ 0]=5.061248, nextPhis[ 0]=5.024235 prevPhis[ 1]=0.938752, nextPhis[ 1]=0.975765 <==IsSwitchingOccur() T = 30.760000 Tnext = 30.765000 Time: 3.07600e+01 states: [ 7.20175e-01 -2.13629e+00] derivs: [ -2.13652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.765000 pESO->GetIndependentVar(): 30.765000 ==>IsSwitchingOccur() prevPhis[ 0]=5.024235, nextPhis[ 0]=4.987147 prevPhis[ 1]=0.975765, nextPhis[ 1]=1.012853 <==IsSwitchingOccur() T = 30.765000 Tnext = 30.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.770000 pESO->GetIndependentVar(): 30.770000 ==>IsSwitchingOccur() prevPhis[ 0]=4.987147, nextPhis[ 0]=4.949984 prevPhis[ 1]=1.012853, nextPhis[ 1]=1.050016 <==IsSwitchingOccur() T = 30.770000 Tnext = 30.775000 Time: 3.07700e+01 states: [ 6.98757e-01 -2.14629e+00] derivs: [ -2.14652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.775000 pESO->GetIndependentVar(): 30.775000 ==>IsSwitchingOccur() prevPhis[ 0]=4.949984, nextPhis[ 0]=4.912745 prevPhis[ 1]=1.050016, nextPhis[ 1]=1.087255 <==IsSwitchingOccur() T = 30.775000 Tnext = 30.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.780000 pESO->GetIndependentVar(): 30.780000 ==>IsSwitchingOccur() prevPhis[ 0]=4.912745, nextPhis[ 0]=4.875432 prevPhis[ 1]=1.087255, nextPhis[ 1]=1.124568 <==IsSwitchingOccur() T = 30.780000 Tnext = 30.785000 Time: 3.07800e+01 states: [ 6.77240e-01 -2.15629e+00] derivs: [ -2.15652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.785000 pESO->GetIndependentVar(): 30.785000 ==>IsSwitchingOccur() prevPhis[ 0]=4.875432, nextPhis[ 0]=4.838044 prevPhis[ 1]=1.124568, nextPhis[ 1]=1.161956 <==IsSwitchingOccur() T = 30.785000 Tnext = 30.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.790000 pESO->GetIndependentVar(): 30.790000 ==>IsSwitchingOccur() prevPhis[ 0]=4.838044, nextPhis[ 0]=4.800581 prevPhis[ 1]=1.161956, nextPhis[ 1]=1.199419 <==IsSwitchingOccur() T = 30.790000 Tnext = 30.795000 Time: 3.07900e+01 states: [ 6.55623e-01 -2.16629e+00] derivs: [ -2.16652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.795000 pESO->GetIndependentVar(): 30.795000 ==>IsSwitchingOccur() prevPhis[ 0]=4.800581, nextPhis[ 0]=4.763043 prevPhis[ 1]=1.199419, nextPhis[ 1]=1.236957 <==IsSwitchingOccur() T = 30.795000 Tnext = 30.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.800000 pESO->GetIndependentVar(): 30.800000 ==>IsSwitchingOccur() prevPhis[ 0]=4.763043, nextPhis[ 0]=4.725430 prevPhis[ 1]=1.236957, nextPhis[ 1]=1.274570 <==IsSwitchingOccur() T = 30.800000 Tnext = 30.805000 Time: 3.08000e+01 states: [ 6.33906e-01 -2.17629e+00] derivs: [ -2.17652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.805000 pESO->GetIndependentVar(): 30.805000 ==>IsSwitchingOccur() prevPhis[ 0]=4.725430, nextPhis[ 0]=4.687742 prevPhis[ 1]=1.274570, nextPhis[ 1]=1.312258 <==IsSwitchingOccur() T = 30.805000 Tnext = 30.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.810000 pESO->GetIndependentVar(): 30.810000 ==>IsSwitchingOccur() prevPhis[ 0]=4.687742, nextPhis[ 0]=4.649979 prevPhis[ 1]=1.312258, nextPhis[ 1]=1.350021 <==IsSwitchingOccur() T = 30.810000 Tnext = 30.815000 Time: 3.08100e+01 states: [ 6.12089e-01 -2.18629e+00] derivs: [ -2.18652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.815000 pESO->GetIndependentVar(): 30.815000 ==>IsSwitchingOccur() prevPhis[ 0]=4.649979, nextPhis[ 0]=4.612140 prevPhis[ 1]=1.350021, nextPhis[ 1]=1.387860 <==IsSwitchingOccur() T = 30.815000 Tnext = 30.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.820000 pESO->GetIndependentVar(): 30.820000 ==>IsSwitchingOccur() prevPhis[ 0]=4.612140, nextPhis[ 0]=4.574227 prevPhis[ 1]=1.387860, nextPhis[ 1]=1.425773 <==IsSwitchingOccur() T = 30.820000 Tnext = 30.825000 Time: 3.08200e+01 states: [ 5.90172e-01 -2.19629e+00] derivs: [ -2.19652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.825000 pESO->GetIndependentVar(): 30.825000 ==>IsSwitchingOccur() prevPhis[ 0]=4.574227, nextPhis[ 0]=4.536239 prevPhis[ 1]=1.425773, nextPhis[ 1]=1.463761 <==IsSwitchingOccur() T = 30.825000 Tnext = 30.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.830000 pESO->GetIndependentVar(): 30.830000 ==>IsSwitchingOccur() prevPhis[ 0]=4.536239, nextPhis[ 0]=4.498176 prevPhis[ 1]=1.463761, nextPhis[ 1]=1.501824 <==IsSwitchingOccur() T = 30.830000 Tnext = 30.835000 Time: 3.08300e+01 states: [ 5.68155e-01 -2.20629e+00] derivs: [ -2.20652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.835000 pESO->GetIndependentVar(): 30.835000 ==>IsSwitchingOccur() prevPhis[ 0]=4.498176, nextPhis[ 0]=4.460038 prevPhis[ 1]=1.501824, nextPhis[ 1]=1.539962 <==IsSwitchingOccur() T = 30.835000 Tnext = 30.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.840000 pESO->GetIndependentVar(): 30.840000 ==>IsSwitchingOccur() prevPhis[ 0]=4.460038, nextPhis[ 0]=4.421825 prevPhis[ 1]=1.539962, nextPhis[ 1]=1.578175 <==IsSwitchingOccur() T = 30.840000 Tnext = 30.845000 Time: 3.08400e+01 states: [ 5.46038e-01 -2.21629e+00] derivs: [ -2.21652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.845000 pESO->GetIndependentVar(): 30.845000 ==>IsSwitchingOccur() prevPhis[ 0]=4.421825, nextPhis[ 0]=4.383537 prevPhis[ 1]=1.578175, nextPhis[ 1]=1.616463 <==IsSwitchingOccur() T = 30.845000 Tnext = 30.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.850000 pESO->GetIndependentVar(): 30.850000 ==>IsSwitchingOccur() prevPhis[ 0]=4.383537, nextPhis[ 0]=4.345174 prevPhis[ 1]=1.616463, nextPhis[ 1]=1.654826 <==IsSwitchingOccur() T = 30.850000 Tnext = 30.855000 Time: 3.08500e+01 states: [ 5.23821e-01 -2.22629e+00] derivs: [ -2.22652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.855000 pESO->GetIndependentVar(): 30.855000 ==>IsSwitchingOccur() prevPhis[ 0]=4.345174, nextPhis[ 0]=4.306736 prevPhis[ 1]=1.654826, nextPhis[ 1]=1.693264 <==IsSwitchingOccur() T = 30.855000 Tnext = 30.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.860000 pESO->GetIndependentVar(): 30.860000 ==>IsSwitchingOccur() prevPhis[ 0]=4.306736, nextPhis[ 0]=4.268222 prevPhis[ 1]=1.693264, nextPhis[ 1]=1.731778 <==IsSwitchingOccur() T = 30.860000 Tnext = 30.865000 Time: 3.08600e+01 states: [ 5.01504e-01 -2.23629e+00] derivs: [ -2.23652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.865000 pESO->GetIndependentVar(): 30.865000 ==>IsSwitchingOccur() prevPhis[ 0]=4.268222, nextPhis[ 0]=4.229634 prevPhis[ 1]=1.731778, nextPhis[ 1]=1.770366 <==IsSwitchingOccur() T = 30.865000 Tnext = 30.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.870000 pESO->GetIndependentVar(): 30.870000 ==>IsSwitchingOccur() prevPhis[ 0]=4.229634, nextPhis[ 0]=4.190971 prevPhis[ 1]=1.770366, nextPhis[ 1]=1.809029 <==IsSwitchingOccur() T = 30.870000 Tnext = 30.875000 Time: 3.08700e+01 states: [ 4.79087e-01 -2.24629e+00] derivs: [ -2.24652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.875000 pESO->GetIndependentVar(): 30.875000 ==>IsSwitchingOccur() prevPhis[ 0]=4.190971, nextPhis[ 0]=4.152233 prevPhis[ 1]=1.809029, nextPhis[ 1]=1.847767 <==IsSwitchingOccur() T = 30.875000 Tnext = 30.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.880000 pESO->GetIndependentVar(): 30.880000 ==>IsSwitchingOccur() prevPhis[ 0]=4.152233, nextPhis[ 0]=4.113420 prevPhis[ 1]=1.847767, nextPhis[ 1]=1.886580 <==IsSwitchingOccur() T = 30.880000 Tnext = 30.885000 Time: 3.08800e+01 states: [ 4.56570e-01 -2.25629e+00] derivs: [ -2.25652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.885000 pESO->GetIndependentVar(): 30.885000 ==>IsSwitchingOccur() prevPhis[ 0]=4.113420, nextPhis[ 0]=4.074532 prevPhis[ 1]=1.886580, nextPhis[ 1]=1.925468 <==IsSwitchingOccur() T = 30.885000 Tnext = 30.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.890000 pESO->GetIndependentVar(): 30.890000 ==>IsSwitchingOccur() prevPhis[ 0]=4.074532, nextPhis[ 0]=4.035569 prevPhis[ 1]=1.925468, nextPhis[ 1]=1.964431 <==IsSwitchingOccur() T = 30.890000 Tnext = 30.895000 Time: 3.08900e+01 states: [ 4.33953e-01 -2.26629e+00] derivs: [ -2.26652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.895000 pESO->GetIndependentVar(): 30.895000 ==>IsSwitchingOccur() prevPhis[ 0]=4.035569, nextPhis[ 0]=3.996531 prevPhis[ 1]=1.964431, nextPhis[ 1]=2.003469 <==IsSwitchingOccur() T = 30.895000 Tnext = 30.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.900000 pESO->GetIndependentVar(): 30.900000 ==>IsSwitchingOccur() prevPhis[ 0]=3.996531, nextPhis[ 0]=3.957418 prevPhis[ 1]=2.003469, nextPhis[ 1]=2.042582 <==IsSwitchingOccur() T = 30.900000 Tnext = 30.905000 Time: 3.09000e+01 states: [ 4.11236e-01 -2.27629e+00] derivs: [ -2.27652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.905000 pESO->GetIndependentVar(): 30.905000 ==>IsSwitchingOccur() prevPhis[ 0]=3.957418, nextPhis[ 0]=3.918229 prevPhis[ 1]=2.042582, nextPhis[ 1]=2.081771 <==IsSwitchingOccur() T = 30.905000 Tnext = 30.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.910000 pESO->GetIndependentVar(): 30.910000 ==>IsSwitchingOccur() prevPhis[ 0]=3.918229, nextPhis[ 0]=3.878966 prevPhis[ 1]=2.081771, nextPhis[ 1]=2.121034 <==IsSwitchingOccur() T = 30.910000 Tnext = 30.915000 Time: 3.09100e+01 states: [ 3.88418e-01 -2.28629e+00] derivs: [ -2.28652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.915000 pESO->GetIndependentVar(): 30.915000 ==>IsSwitchingOccur() prevPhis[ 0]=3.878966, nextPhis[ 0]=3.839628 prevPhis[ 1]=2.121034, nextPhis[ 1]=2.160372 <==IsSwitchingOccur() T = 30.915000 Tnext = 30.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.920000 pESO->GetIndependentVar(): 30.920000 ==>IsSwitchingOccur() prevPhis[ 0]=3.839628, nextPhis[ 0]=3.800215 prevPhis[ 1]=2.160372, nextPhis[ 1]=2.199785 <==IsSwitchingOccur() T = 30.920000 Tnext = 30.925000 Time: 3.09200e+01 states: [ 3.65501e-01 -2.29629e+00] derivs: [ -2.29652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.925000 pESO->GetIndependentVar(): 30.925000 ==>IsSwitchingOccur() prevPhis[ 0]=3.800215, nextPhis[ 0]=3.760727 prevPhis[ 1]=2.199785, nextPhis[ 1]=2.239273 <==IsSwitchingOccur() T = 30.925000 Tnext = 30.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.930000 pESO->GetIndependentVar(): 30.930000 ==>IsSwitchingOccur() prevPhis[ 0]=3.760727, nextPhis[ 0]=3.721164 prevPhis[ 1]=2.239273, nextPhis[ 1]=2.278836 <==IsSwitchingOccur() T = 30.930000 Tnext = 30.935000 Time: 3.09300e+01 states: [ 3.42484e-01 -2.30629e+00] derivs: [ -2.30652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.935000 pESO->GetIndependentVar(): 30.935000 ==>IsSwitchingOccur() prevPhis[ 0]=3.721164, nextPhis[ 0]=3.681526 prevPhis[ 1]=2.278836, nextPhis[ 1]=2.318474 <==IsSwitchingOccur() T = 30.935000 Tnext = 30.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.940000 pESO->GetIndependentVar(): 30.940000 ==>IsSwitchingOccur() prevPhis[ 0]=3.681526, nextPhis[ 0]=3.641813 prevPhis[ 1]=2.318474, nextPhis[ 1]=2.358187 <==IsSwitchingOccur() T = 30.940000 Tnext = 30.945000 Time: 3.09400e+01 states: [ 3.19367e-01 -2.31629e+00] derivs: [ -2.31652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.945000 pESO->GetIndependentVar(): 30.945000 ==>IsSwitchingOccur() prevPhis[ 0]=3.641813, nextPhis[ 0]=3.602025 prevPhis[ 1]=2.358187, nextPhis[ 1]=2.397975 <==IsSwitchingOccur() T = 30.945000 Tnext = 30.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.950000 pESO->GetIndependentVar(): 30.950000 ==>IsSwitchingOccur() prevPhis[ 0]=3.602025, nextPhis[ 0]=3.562161 prevPhis[ 1]=2.397975, nextPhis[ 1]=2.437839 <==IsSwitchingOccur() T = 30.950000 Tnext = 30.955000 Time: 3.09500e+01 states: [ 2.96150e-01 -2.32629e+00] derivs: [ -2.32652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.955000 pESO->GetIndependentVar(): 30.955000 ==>IsSwitchingOccur() prevPhis[ 0]=3.562161, nextPhis[ 0]=3.522223 prevPhis[ 1]=2.437839, nextPhis[ 1]=2.477777 <==IsSwitchingOccur() T = 30.955000 Tnext = 30.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.960000 pESO->GetIndependentVar(): 30.960000 ==>IsSwitchingOccur() prevPhis[ 0]=3.522223, nextPhis[ 0]=3.482210 prevPhis[ 1]=2.477777, nextPhis[ 1]=2.517790 <==IsSwitchingOccur() T = 30.960000 Tnext = 30.965000 Time: 3.09600e+01 states: [ 2.72833e-01 -2.33629e+00] derivs: [ -2.33652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.965000 pESO->GetIndependentVar(): 30.965000 ==>IsSwitchingOccur() prevPhis[ 0]=3.482210, nextPhis[ 0]=3.442122 prevPhis[ 1]=2.517790, nextPhis[ 1]=2.557878 <==IsSwitchingOccur() T = 30.965000 Tnext = 30.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.970000 pESO->GetIndependentVar(): 30.970000 ==>IsSwitchingOccur() prevPhis[ 0]=3.442122, nextPhis[ 0]=3.401959 prevPhis[ 1]=2.557878, nextPhis[ 1]=2.598041 <==IsSwitchingOccur() T = 30.970000 Tnext = 30.975000 Time: 3.09700e+01 states: [ 2.49416e-01 -2.34629e+00] derivs: [ -2.34652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.975000 pESO->GetIndependentVar(): 30.975000 ==>IsSwitchingOccur() prevPhis[ 0]=3.401959, nextPhis[ 0]=3.361721 prevPhis[ 1]=2.598041, nextPhis[ 1]=2.638279 <==IsSwitchingOccur() T = 30.975000 Tnext = 30.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.980000 pESO->GetIndependentVar(): 30.980000 ==>IsSwitchingOccur() prevPhis[ 0]=3.361721, nextPhis[ 0]=3.321408 prevPhis[ 1]=2.638279, nextPhis[ 1]=2.678592 <==IsSwitchingOccur() T = 30.980000 Tnext = 30.985000 Time: 3.09800e+01 states: [ 2.25899e-01 -2.35629e+00] derivs: [ -2.35652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.985000 pESO->GetIndependentVar(): 30.985000 ==>IsSwitchingOccur() prevPhis[ 0]=3.321408, nextPhis[ 0]=3.281020 prevPhis[ 1]=2.678592, nextPhis[ 1]=2.718980 <==IsSwitchingOccur() T = 30.985000 Tnext = 30.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.990000 pESO->GetIndependentVar(): 30.990000 ==>IsSwitchingOccur() prevPhis[ 0]=3.281020, nextPhis[ 0]=3.240557 prevPhis[ 1]=2.718980, nextPhis[ 1]=2.759443 <==IsSwitchingOccur() T = 30.990000 Tnext = 30.995000 Time: 3.09900e+01 states: [ 2.02282e-01 -2.36629e+00] derivs: [ -2.36652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 30.995000 pESO->GetIndependentVar(): 30.995000 ==>IsSwitchingOccur() prevPhis[ 0]=3.240557, nextPhis[ 0]=3.200019 prevPhis[ 1]=2.759443, nextPhis[ 1]=2.799981 <==IsSwitchingOccur() T = 30.995000 Tnext = 31.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.000000 pESO->GetIndependentVar(): 31.000000 ==>IsSwitchingOccur() prevPhis[ 0]=3.200019, nextPhis[ 0]=3.159405 prevPhis[ 1]=2.799981, nextPhis[ 1]=2.840595 <==IsSwitchingOccur() T = 31.000000 Tnext = 31.005000 Time: 3.10000e+01 states: [ 1.78565e-01 -2.37629e+00] derivs: [ -2.37652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.005000 pESO->GetIndependentVar(): 31.005000 ==>IsSwitchingOccur() prevPhis[ 0]=3.159405, nextPhis[ 0]=3.118717 prevPhis[ 1]=2.840595, nextPhis[ 1]=2.881283 <==IsSwitchingOccur() T = 31.005000 Tnext = 31.010000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.010000 pESO->GetIndependentVar(): 31.010000 ==>IsSwitchingOccur() prevPhis[ 0]=3.118717, nextPhis[ 0]=3.077954 prevPhis[ 1]=2.881283, nextPhis[ 1]=2.922046 <==IsSwitchingOccur() T = 31.010000 Tnext = 31.015000 Time: 3.10100e+01 states: [ 1.54748e-01 -2.38629e+00] derivs: [ -2.38652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.015000 pESO->GetIndependentVar(): 31.015000 ==>IsSwitchingOccur() prevPhis[ 0]=3.077954, nextPhis[ 0]=3.037116 prevPhis[ 1]=2.922046, nextPhis[ 1]=2.962884 <==IsSwitchingOccur() T = 31.015000 Tnext = 31.020000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.020000 pESO->GetIndependentVar(): 31.020000 ==>IsSwitchingOccur() prevPhis[ 0]=3.037116, nextPhis[ 0]=2.996203 prevPhis[ 1]=2.962884, nextPhis[ 1]=3.003797 <==IsSwitchingOccur() T = 31.020000 Tnext = 31.025000 Time: 3.10200e+01 states: [ 1.30831e-01 -2.39629e+00] derivs: [ -2.39652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.025000 pESO->GetIndependentVar(): 31.025000 ==>IsSwitchingOccur() prevPhis[ 0]=2.996203, nextPhis[ 0]=2.955215 prevPhis[ 1]=3.003797, nextPhis[ 1]=3.044785 <==IsSwitchingOccur() T = 31.025000 Tnext = 31.030000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.030000 pESO->GetIndependentVar(): 31.030000 ==>IsSwitchingOccur() prevPhis[ 0]=2.955215, nextPhis[ 0]=2.914152 prevPhis[ 1]=3.044785, nextPhis[ 1]=3.085848 <==IsSwitchingOccur() T = 31.030000 Tnext = 31.035000 Time: 3.10300e+01 states: [ 1.06814e-01 -2.40629e+00] derivs: [ -2.40652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.035000 pESO->GetIndependentVar(): 31.035000 ==>IsSwitchingOccur() prevPhis[ 0]=2.914152, nextPhis[ 0]=2.873014 prevPhis[ 1]=3.085848, nextPhis[ 1]=3.126986 <==IsSwitchingOccur() T = 31.035000 Tnext = 31.040000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.040000 pESO->GetIndependentVar(): 31.040000 ==>IsSwitchingOccur() prevPhis[ 0]=2.873014, nextPhis[ 0]=2.831801 prevPhis[ 1]=3.126986, nextPhis[ 1]=3.168199 <==IsSwitchingOccur() T = 31.040000 Tnext = 31.045000 Time: 3.10400e+01 states: [ 8.26965e-02 -2.41629e+00] derivs: [ -2.41652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.045000 pESO->GetIndependentVar(): 31.045000 ==>IsSwitchingOccur() prevPhis[ 0]=2.831801, nextPhis[ 0]=2.790512 prevPhis[ 1]=3.168199, nextPhis[ 1]=3.209488 <==IsSwitchingOccur() T = 31.045000 Tnext = 31.050000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.050000 pESO->GetIndependentVar(): 31.050000 ==>IsSwitchingOccur() prevPhis[ 0]=2.790512, nextPhis[ 0]=2.749149 prevPhis[ 1]=3.209488, nextPhis[ 1]=3.250851 <==IsSwitchingOccur() T = 31.050000 Tnext = 31.055000 Time: 3.10500e+01 states: [ 5.84794e-02 -2.42629e+00] derivs: [ -2.42652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.055000 pESO->GetIndependentVar(): 31.055000 ==>IsSwitchingOccur() prevPhis[ 0]=2.749149, nextPhis[ 0]=2.707711 prevPhis[ 1]=3.250851, nextPhis[ 1]=3.292289 <==IsSwitchingOccur() T = 31.055000 Tnext = 31.060000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.060000 pESO->GetIndependentVar(): 31.060000 ==>IsSwitchingOccur() prevPhis[ 0]=2.707711, nextPhis[ 0]=2.666198 prevPhis[ 1]=3.292289, nextPhis[ 1]=3.333802 <==IsSwitchingOccur() T = 31.060000 Tnext = 31.065000 Time: 3.10600e+01 states: [ 3.41623e-02 -2.43629e+00] derivs: [ -2.43652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.065000 pESO->GetIndependentVar(): 31.065000 ==>IsSwitchingOccur() prevPhis[ 0]=2.666198, nextPhis[ 0]=2.624610 prevPhis[ 1]=3.333802, nextPhis[ 1]=3.375390 <==IsSwitchingOccur() T = 31.065000 Tnext = 31.070000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.070000 pESO->GetIndependentVar(): 31.070000 ==>IsSwitchingOccur() prevPhis[ 0]=2.624610, nextPhis[ 0]=2.582946 prevPhis[ 1]=3.375390, nextPhis[ 1]=3.417054 <==IsSwitchingOccur() T = 31.070000 Tnext = 31.075000 Time: 3.10700e+01 states: [ 9.74512e-03 -2.44629e+00] derivs: [ -2.44679e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.075000 pESO->GetIndependentVar(): 31.075000 ==>IsSwitchingOccur() prevPhis[ 0]=2.582946, nextPhis[ 0]=2.541208 prevPhis[ 1]=3.417054, nextPhis[ 1]=3.458792 <==IsSwitchingOccur() T = 31.075000 Tnext = 31.080000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.080000 pESO->GetIndependentVar(): 31.080000 ==>IsSwitchingOccur() prevPhis[ 0]=2.541208, nextPhis[ 0]=2.499395 prevPhis[ 1]=3.458792, nextPhis[ 1]=3.500605 <==IsSwitchingOccur() T = 31.080000 Tnext = 31.085000 Time: 3.10800e+01 states: [ -1.47721e-02 -2.45629e+00] derivs: [ -2.45679e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.085000 pESO->GetIndependentVar(): 31.085000 ==>IsSwitchingOccur() prevPhis[ 0]=2.499395, nextPhis[ 0]=2.457506 prevPhis[ 1]=3.500605, nextPhis[ 1]=3.542494 <==IsSwitchingOccur() T = 31.085000 Tnext = 31.090000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.090000 pESO->GetIndependentVar(): 31.090000 ==>IsSwitchingOccur() prevPhis[ 0]=2.457506, nextPhis[ 0]=2.415543 prevPhis[ 1]=3.542494, nextPhis[ 1]=3.584457 <==IsSwitchingOccur() T = 31.090000 Tnext = 31.095000 Time: 3.10900e+01 states: [ -3.93893e-02 -2.46629e+00] derivs: [ -2.46679e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.095000 pESO->GetIndependentVar(): 31.095000 ==>IsSwitchingOccur() prevPhis[ 0]=2.415543, nextPhis[ 0]=2.373505 prevPhis[ 1]=3.584457, nextPhis[ 1]=3.626495 <==IsSwitchingOccur() T = 31.095000 Tnext = 31.100000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.100000 pESO->GetIndependentVar(): 31.100000 ==>IsSwitchingOccur() prevPhis[ 0]=2.373505, nextPhis[ 0]=2.331392 prevPhis[ 1]=3.626495, nextPhis[ 1]=3.668608 <==IsSwitchingOccur() T = 31.100000 Tnext = 31.105000 Time: 3.11000e+01 states: [ -6.41064e-02 -2.47629e+00] derivs: [ -2.47652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.105000 pESO->GetIndependentVar(): 31.105000 ==>IsSwitchingOccur() prevPhis[ 0]=2.331392, nextPhis[ 0]=2.289204 prevPhis[ 1]=3.668608, nextPhis[ 1]=3.710796 <==IsSwitchingOccur() T = 31.105000 Tnext = 31.110000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.110000 pESO->GetIndependentVar(): 31.110000 ==>IsSwitchingOccur() prevPhis[ 0]=2.289204, nextPhis[ 0]=2.246941 prevPhis[ 1]=3.710796, nextPhis[ 1]=3.753059 <==IsSwitchingOccur() T = 31.110000 Tnext = 31.115000 Time: 3.11100e+01 states: [ -8.89235e-02 -2.48629e+00] derivs: [ -2.48652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.115000 pESO->GetIndependentVar(): 31.115000 ==>IsSwitchingOccur() prevPhis[ 0]=2.246941, nextPhis[ 0]=2.204602 prevPhis[ 1]=3.753059, nextPhis[ 1]=3.795398 <==IsSwitchingOccur() T = 31.115000 Tnext = 31.120000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.120000 pESO->GetIndependentVar(): 31.120000 ==>IsSwitchingOccur() prevPhis[ 0]=2.204602, nextPhis[ 0]=2.162189 prevPhis[ 1]=3.795398, nextPhis[ 1]=3.837811 <==IsSwitchingOccur() T = 31.120000 Tnext = 31.125000 Time: 3.11200e+01 states: [ -1.13841e-01 -2.49629e+00] derivs: [ -2.49652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.125000 pESO->GetIndependentVar(): 31.125000 ==>IsSwitchingOccur() prevPhis[ 0]=2.162189, nextPhis[ 0]=2.119701 prevPhis[ 1]=3.837811, nextPhis[ 1]=3.880299 <==IsSwitchingOccur() T = 31.125000 Tnext = 31.130000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.130000 pESO->GetIndependentVar(): 31.130000 ==>IsSwitchingOccur() prevPhis[ 0]=2.119701, nextPhis[ 0]=2.077138 prevPhis[ 1]=3.880299, nextPhis[ 1]=3.922862 <==IsSwitchingOccur() T = 31.130000 Tnext = 31.135000 Time: 3.11300e+01 states: [ -1.38858e-01 -2.50629e+00] derivs: [ -2.50652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.135000 pESO->GetIndependentVar(): 31.135000 ==>IsSwitchingOccur() prevPhis[ 0]=2.077138, nextPhis[ 0]=2.034500 prevPhis[ 1]=3.922862, nextPhis[ 1]=3.965500 <==IsSwitchingOccur() T = 31.135000 Tnext = 31.140000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.140000 pESO->GetIndependentVar(): 31.140000 ==>IsSwitchingOccur() prevPhis[ 0]=2.034500, nextPhis[ 0]=1.991787 prevPhis[ 1]=3.965500, nextPhis[ 1]=4.008213 <==IsSwitchingOccur() T = 31.140000 Tnext = 31.145000 Time: 3.11400e+01 states: [ -1.63975e-01 -2.51629e+00] derivs: [ -2.51652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.145000 pESO->GetIndependentVar(): 31.145000 ==>IsSwitchingOccur() prevPhis[ 0]=1.991787, nextPhis[ 0]=1.948999 prevPhis[ 1]=4.008213, nextPhis[ 1]=4.051001 <==IsSwitchingOccur() T = 31.145000 Tnext = 31.150000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.150000 pESO->GetIndependentVar(): 31.150000 ==>IsSwitchingOccur() prevPhis[ 0]=1.948999, nextPhis[ 0]=1.906136 prevPhis[ 1]=4.051001, nextPhis[ 1]=4.093864 <==IsSwitchingOccur() T = 31.150000 Tnext = 31.155000 Time: 3.11500e+01 states: [ -1.89192e-01 -2.52629e+00] derivs: [ -2.52652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.155000 pESO->GetIndependentVar(): 31.155000 ==>IsSwitchingOccur() prevPhis[ 0]=1.906136, nextPhis[ 0]=1.863198 prevPhis[ 1]=4.093864, nextPhis[ 1]=4.136802 <==IsSwitchingOccur() T = 31.155000 Tnext = 31.160000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.160000 pESO->GetIndependentVar(): 31.160000 ==>IsSwitchingOccur() prevPhis[ 0]=1.863198, nextPhis[ 0]=1.820184 prevPhis[ 1]=4.136802, nextPhis[ 1]=4.179816 <==IsSwitchingOccur() T = 31.160000 Tnext = 31.165000 Time: 3.11600e+01 states: [ -2.14509e-01 -2.53629e+00] derivs: [ -2.53652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.165000 pESO->GetIndependentVar(): 31.165000 ==>IsSwitchingOccur() prevPhis[ 0]=1.820184, nextPhis[ 0]=1.777096 prevPhis[ 1]=4.179816, nextPhis[ 1]=4.222904 <==IsSwitchingOccur() T = 31.165000 Tnext = 31.170000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.170000 pESO->GetIndependentVar(): 31.170000 ==>IsSwitchingOccur() prevPhis[ 0]=1.777096, nextPhis[ 0]=1.733933 prevPhis[ 1]=4.222904, nextPhis[ 1]=4.266067 <==IsSwitchingOccur() T = 31.170000 Tnext = 31.175000 Time: 3.11700e+01 states: [ -2.39926e-01 -2.54629e+00] derivs: [ -2.54652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.175000 pESO->GetIndependentVar(): 31.175000 ==>IsSwitchingOccur() prevPhis[ 0]=1.733933, nextPhis[ 0]=1.690695 prevPhis[ 1]=4.266067, nextPhis[ 1]=4.309305 <==IsSwitchingOccur() T = 31.175000 Tnext = 31.180000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.180000 pESO->GetIndependentVar(): 31.180000 ==>IsSwitchingOccur() prevPhis[ 0]=1.690695, nextPhis[ 0]=1.647382 prevPhis[ 1]=4.309305, nextPhis[ 1]=4.352618 <==IsSwitchingOccur() T = 31.180000 Tnext = 31.185000 Time: 3.11800e+01 states: [ -2.65443e-01 -2.55629e+00] derivs: [ -2.55652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.185000 pESO->GetIndependentVar(): 31.185000 ==>IsSwitchingOccur() prevPhis[ 0]=1.647382, nextPhis[ 0]=1.603994 prevPhis[ 1]=4.352618, nextPhis[ 1]=4.396006 <==IsSwitchingOccur() T = 31.185000 Tnext = 31.190000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.190000 pESO->GetIndependentVar(): 31.190000 ==>IsSwitchingOccur() prevPhis[ 0]=1.603994, nextPhis[ 0]=1.560531 prevPhis[ 1]=4.396006, nextPhis[ 1]=4.439469 <==IsSwitchingOccur() T = 31.190000 Tnext = 31.195000 Time: 3.11900e+01 states: [ -2.91060e-01 -2.56629e+00] derivs: [ -2.56652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.195000 pESO->GetIndependentVar(): 31.195000 ==>IsSwitchingOccur() prevPhis[ 0]=1.560531, nextPhis[ 0]=1.516993 prevPhis[ 1]=4.439469, nextPhis[ 1]=4.483007 <==IsSwitchingOccur() T = 31.195000 Tnext = 31.200000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.200000 pESO->GetIndependentVar(): 31.200000 ==>IsSwitchingOccur() prevPhis[ 0]=1.516993, nextPhis[ 0]=1.473380 prevPhis[ 1]=4.483007, nextPhis[ 1]=4.526620 <==IsSwitchingOccur() T = 31.200000 Tnext = 31.205000 Time: 3.12000e+01 states: [ -3.16777e-01 -2.57629e+00] derivs: [ -2.57652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.205000 pESO->GetIndependentVar(): 31.205000 ==>IsSwitchingOccur() prevPhis[ 0]=1.473380, nextPhis[ 0]=1.429691 prevPhis[ 1]=4.526620, nextPhis[ 1]=4.570309 <==IsSwitchingOccur() T = 31.205000 Tnext = 31.210000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.210000 pESO->GetIndependentVar(): 31.210000 ==>IsSwitchingOccur() prevPhis[ 0]=1.429691, nextPhis[ 0]=1.385928 prevPhis[ 1]=4.570309, nextPhis[ 1]=4.614072 <==IsSwitchingOccur() T = 31.210000 Tnext = 31.215000 Time: 3.12100e+01 states: [ -3.42594e-01 -2.58629e+00] derivs: [ -2.58652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.215000 pESO->GetIndependentVar(): 31.215000 ==>IsSwitchingOccur() prevPhis[ 0]=1.385928, nextPhis[ 0]=1.342090 prevPhis[ 1]=4.614072, nextPhis[ 1]=4.657910 <==IsSwitchingOccur() T = 31.215000 Tnext = 31.220000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.220000 pESO->GetIndependentVar(): 31.220000 ==>IsSwitchingOccur() prevPhis[ 0]=1.342090, nextPhis[ 0]=1.298177 prevPhis[ 1]=4.657910, nextPhis[ 1]=4.701823 <==IsSwitchingOccur() T = 31.220000 Tnext = 31.225000 Time: 3.12200e+01 states: [ -3.68511e-01 -2.59629e+00] derivs: [ -2.59652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.225000 pESO->GetIndependentVar(): 31.225000 ==>IsSwitchingOccur() prevPhis[ 0]=1.298177, nextPhis[ 0]=1.254189 prevPhis[ 1]=4.701823, nextPhis[ 1]=4.745811 <==IsSwitchingOccur() T = 31.225000 Tnext = 31.230000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.230000 pESO->GetIndependentVar(): 31.230000 ==>IsSwitchingOccur() prevPhis[ 0]=1.254189, nextPhis[ 0]=1.210126 prevPhis[ 1]=4.745811, nextPhis[ 1]=4.789874 <==IsSwitchingOccur() T = 31.230000 Tnext = 31.235000 Time: 3.12300e+01 states: [ -3.94528e-01 -2.60629e+00] derivs: [ -2.60652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.235000 pESO->GetIndependentVar(): 31.235000 ==>IsSwitchingOccur() prevPhis[ 0]=1.210126, nextPhis[ 0]=1.165988 prevPhis[ 1]=4.789874, nextPhis[ 1]=4.834012 <==IsSwitchingOccur() T = 31.235000 Tnext = 31.240000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.240000 pESO->GetIndependentVar(): 31.240000 ==>IsSwitchingOccur() prevPhis[ 0]=1.165988, nextPhis[ 0]=1.121775 prevPhis[ 1]=4.834012, nextPhis[ 1]=4.878225 <==IsSwitchingOccur() T = 31.240000 Tnext = 31.245000 Time: 3.12400e+01 states: [ -4.20645e-01 -2.61629e+00] derivs: [ -2.61652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.245000 pESO->GetIndependentVar(): 31.245000 ==>IsSwitchingOccur() prevPhis[ 0]=1.121775, nextPhis[ 0]=1.077487 prevPhis[ 1]=4.878225, nextPhis[ 1]=4.922513 <==IsSwitchingOccur() T = 31.245000 Tnext = 31.250000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.250000 pESO->GetIndependentVar(): 31.250000 ==>IsSwitchingOccur() prevPhis[ 0]=1.077487, nextPhis[ 0]=1.033124 prevPhis[ 1]=4.922513, nextPhis[ 1]=4.966876 <==IsSwitchingOccur() T = 31.250000 Tnext = 31.255000 Time: 3.12500e+01 states: [ -4.46863e-01 -2.62629e+00] derivs: [ -2.62652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.255000 pESO->GetIndependentVar(): 31.255000 ==>IsSwitchingOccur() prevPhis[ 0]=1.033124, nextPhis[ 0]=0.988685 prevPhis[ 1]=4.966876, nextPhis[ 1]=5.011315 <==IsSwitchingOccur() T = 31.255000 Tnext = 31.260000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.260000 pESO->GetIndependentVar(): 31.260000 ==>IsSwitchingOccur() prevPhis[ 0]=0.988685, nextPhis[ 0]=0.944172 prevPhis[ 1]=5.011315, nextPhis[ 1]=5.055828 <==IsSwitchingOccur() T = 31.260000 Tnext = 31.265000 Time: 3.12600e+01 states: [ -4.73180e-01 -2.63629e+00] derivs: [ -2.63652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.265000 pESO->GetIndependentVar(): 31.265000 ==>IsSwitchingOccur() prevPhis[ 0]=0.944172, nextPhis[ 0]=0.899584 prevPhis[ 1]=5.055828, nextPhis[ 1]=5.100416 <==IsSwitchingOccur() T = 31.265000 Tnext = 31.270000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.270000 pESO->GetIndependentVar(): 31.270000 ==>IsSwitchingOccur() prevPhis[ 0]=0.899584, nextPhis[ 0]=0.854921 prevPhis[ 1]=5.100416, nextPhis[ 1]=5.145079 <==IsSwitchingOccur() T = 31.270000 Tnext = 31.275000 Time: 3.12700e+01 states: [ -4.99597e-01 -2.64629e+00] derivs: [ -2.64652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.275000 pESO->GetIndependentVar(): 31.275000 ==>IsSwitchingOccur() prevPhis[ 0]=0.854921, nextPhis[ 0]=0.810183 prevPhis[ 1]=5.145079, nextPhis[ 1]=5.189817 <==IsSwitchingOccur() T = 31.275000 Tnext = 31.280000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.280000 pESO->GetIndependentVar(): 31.280000 ==>IsSwitchingOccur() prevPhis[ 0]=0.810183, nextPhis[ 0]=0.765370 prevPhis[ 1]=5.189817, nextPhis[ 1]=5.234630 <==IsSwitchingOccur() T = 31.280000 Tnext = 31.285000 Time: 3.12800e+01 states: [ -5.26114e-01 -2.65629e+00] derivs: [ -2.65652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.285000 pESO->GetIndependentVar(): 31.285000 ==>IsSwitchingOccur() prevPhis[ 0]=0.765370, nextPhis[ 0]=0.720482 prevPhis[ 1]=5.234630, nextPhis[ 1]=5.279518 <==IsSwitchingOccur() T = 31.285000 Tnext = 31.290000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.290000 pESO->GetIndependentVar(): 31.290000 ==>IsSwitchingOccur() prevPhis[ 0]=0.720482, nextPhis[ 0]=0.675519 prevPhis[ 1]=5.279518, nextPhis[ 1]=5.324481 <==IsSwitchingOccur() T = 31.290000 Tnext = 31.295000 Time: 3.12900e+01 states: [ -5.52731e-01 -2.66629e+00] derivs: [ -2.66652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.295000 pESO->GetIndependentVar(): 31.295000 ==>IsSwitchingOccur() prevPhis[ 0]=0.675519, nextPhis[ 0]=0.630481 prevPhis[ 1]=5.324481, nextPhis[ 1]=5.369519 <==IsSwitchingOccur() T = 31.295000 Tnext = 31.300000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.300000 pESO->GetIndependentVar(): 31.300000 ==>IsSwitchingOccur() prevPhis[ 0]=0.630481, nextPhis[ 0]=0.585367 prevPhis[ 1]=5.369519, nextPhis[ 1]=5.414633 <==IsSwitchingOccur() T = 31.300000 Tnext = 31.305000 Time: 3.13000e+01 states: [ -5.79448e-01 -2.67629e+00] derivs: [ -2.67652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.305000 pESO->GetIndependentVar(): 31.305000 ==>IsSwitchingOccur() prevPhis[ 0]=0.585367, nextPhis[ 0]=0.540179 prevPhis[ 1]=5.414633, nextPhis[ 1]=5.459821 <==IsSwitchingOccur() T = 31.305000 Tnext = 31.310000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.310000 pESO->GetIndependentVar(): 31.310000 ==>IsSwitchingOccur() prevPhis[ 0]=0.540179, nextPhis[ 0]=0.494916 prevPhis[ 1]=5.459821, nextPhis[ 1]=5.505084 <==IsSwitchingOccur() T = 31.310000 Tnext = 31.315000 Time: 3.13100e+01 states: [ -6.06265e-01 -2.68629e+00] derivs: [ -2.68652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.315000 pESO->GetIndependentVar(): 31.315000 ==>IsSwitchingOccur() prevPhis[ 0]=0.494916, nextPhis[ 0]=0.449578 prevPhis[ 1]=5.505084, nextPhis[ 1]=5.550422 <==IsSwitchingOccur() T = 31.315000 Tnext = 31.320000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.320000 pESO->GetIndependentVar(): 31.320000 ==>IsSwitchingOccur() prevPhis[ 0]=0.449578, nextPhis[ 0]=0.404165 prevPhis[ 1]=5.550422, nextPhis[ 1]=5.595835 <==IsSwitchingOccur() T = 31.320000 Tnext = 31.325000 Time: 3.13200e+01 states: [ -6.33182e-01 -2.69629e+00] derivs: [ -2.69652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.325000 pESO->GetIndependentVar(): 31.325000 ==>IsSwitchingOccur() prevPhis[ 0]=0.404165, nextPhis[ 0]=0.358677 prevPhis[ 1]=5.595835, nextPhis[ 1]=5.641323 <==IsSwitchingOccur() T = 31.325000 Tnext = 31.330000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.330000 pESO->GetIndependentVar(): 31.330000 ==>IsSwitchingOccur() prevPhis[ 0]=0.358677, nextPhis[ 0]=0.313114 prevPhis[ 1]=5.641323, nextPhis[ 1]=5.686886 <==IsSwitchingOccur() T = 31.330000 Tnext = 31.335000 Time: 3.13300e+01 states: [ -6.60199e-01 -2.70629e+00] derivs: [ -2.70652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.335000 pESO->GetIndependentVar(): 31.335000 ==>IsSwitchingOccur() prevPhis[ 0]=0.313114, nextPhis[ 0]=0.267476 prevPhis[ 1]=5.686886, nextPhis[ 1]=5.732524 <==IsSwitchingOccur() T = 31.335000 Tnext = 31.340000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.340000 pESO->GetIndependentVar(): 31.340000 ==>IsSwitchingOccur() prevPhis[ 0]=0.267476, nextPhis[ 0]=0.221763 prevPhis[ 1]=5.732524, nextPhis[ 1]=5.778237 <==IsSwitchingOccur() T = 31.340000 Tnext = 31.345000 Time: 3.13400e+01 states: [ -6.87316e-01 -2.71629e+00] derivs: [ -2.71652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.345000 pESO->GetIndependentVar(): 31.345000 ==>IsSwitchingOccur() prevPhis[ 0]=0.221763, nextPhis[ 0]=0.175974 prevPhis[ 1]=5.778237, nextPhis[ 1]=5.824026 <==IsSwitchingOccur() T = 31.345000 Tnext = 31.350000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.350000 pESO->GetIndependentVar(): 31.350000 ==>IsSwitchingOccur() prevPhis[ 0]=0.175974, nextPhis[ 0]=0.130111 prevPhis[ 1]=5.824026, nextPhis[ 1]=5.869889 <==IsSwitchingOccur() T = 31.350000 Tnext = 31.355000 Time: 3.13500e+01 states: [ -7.14533e-01 -2.72629e+00] derivs: [ -2.72652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.355000 pESO->GetIndependentVar(): 31.355000 ==>IsSwitchingOccur() prevPhis[ 0]=0.130111, nextPhis[ 0]=0.084173 prevPhis[ 1]=5.869889, nextPhis[ 1]=5.915827 <==IsSwitchingOccur() T = 31.355000 Tnext = 31.360000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.360000 pESO->GetIndependentVar(): 31.360000 ==>IsSwitchingOccur() prevPhis[ 0]=0.084173, nextPhis[ 0]=0.038160 prevPhis[ 1]=5.915827, nextPhis[ 1]=5.961840 <==IsSwitchingOccur() T = 31.360000 Tnext = 31.365000 Time: 3.13600e+01 states: [ -7.41850e-01 -2.73629e+00] derivs: [ -2.73652e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.365000 pESO->GetIndependentVar(): 31.365000 ==>IsSwitchingOccur() prevPhis[ 0]=0.038160, nextPhis[ 0]=-0.007928 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 31.365000 Phiest = -0.007928 Phiest < 0.0 it = 1 Test = 31.362500 Phiest = -0.031000 Phiest < 0.0 it = 2 Test = 31.361250 Phiest = -0.019461 Phiest < 0.0 it = 3 Test = 31.360625 Phiest = -0.013694 Phiest < 0.0 it = 4 Test = 31.360312 Phiest = -0.010811 Phiest < 0.0 it = 5 Test = 31.360156 Phiest = -0.009369 Phiest < 0.0 it = 6 Test = 31.360078 Phiest = -0.008649 Phiest < 0.0 it = 7 Test = 31.360039 Phiest = -0.008288 Switch time for phi[0] is 31.360039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.741957, -2.736328, 13.164446, 4.368784, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=43.862123 b=-9.209063 dts/dp=[4.762930, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [-0.741957, -2.736328, 13.164446, 4.368784, ] AllSensVars (befor 2-nd IC recalculation):[-0.741957, -2.736328, 13.164320, -5.157075, ] AllSensDers (befor 2-nd IC recalculation):[-2.736328, 1.000000, 4.368784, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[-0.741957, -2.736328, 13.164320, -5.157075, ] AllSensDers (after 2-nd IC recalculation):[-2.736328, 1.000000, -5.157075, -0.000000, ] <==RecalculateSensIC() T = 31.360000 Tnext = 31.365000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.365000 pESO->GetIndependentVar(): 31.365000 ==>IsSwitchingOccur() prevPhis[ 0]=0.037800, nextPhis[ 0]=0.001799 prevPhis[ 1]=5.962200, nextPhis[ 1]=5.998201 <==IsSwitchingOccur() T = 31.365000 Tnext = 31.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.370000 pESO->GetIndependentVar(): 31.370000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001799, nextPhis[ 0]=-0.034127 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 31.370000 Phiest = -0.034127 Phiest < 0.0 it = 1 Test = 31.367500 Phiest = -0.052062 Phiest < 0.0 it = 2 Test = 31.366250 Phiest = -0.043097 Phiest < 0.0 it = 3 Test = 31.365625 Phiest = -0.038613 Phiest < 0.0 it = 4 Test = 31.365312 Phiest = -0.036370 Phiest < 0.0 it = 5 Test = 31.365156 Phiest = -0.035249 Phiest < 0.0 it = 6 Test = 31.365078 Phiest = -0.034688 Phiest < 0.0 it = 7 Test = 31.365039 Phiest = -0.034407 Switch time for phi[0] is 31.365039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.755731, -2.731289, 13.138333, -5.157075, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=34.257924 b=-7.193787 dts/dp=[4.762154, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 31.365000 Tnext = 31.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.370000 pESO->GetIndependentVar(): 31.370000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001518, nextPhis[ 0]=-0.034407 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 31.370000 Phiest = -0.034407 Phiest < 0.0 it = 1 Test = 31.367500 Phiest = -0.052342 Phiest < 0.0 it = 2 Test = 31.366250 Phiest = -0.043377 Phiest < 0.0 it = 3 Test = 31.365625 Phiest = -0.038893 Phiest < 0.0 it = 4 Test = 31.365312 Phiest = -0.036651 Phiest < 0.0 it = 5 Test = 31.365156 Phiest = -0.035529 Phiest < 0.0 it = 6 Test = 31.365078 Phiest = -0.034968 Phiest < 0.0 it = 7 Test = 31.365039 Phiest = -0.034688 Switch time for phi[0] is 31.365039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.755838, -2.731250, 13.138132, -5.157075, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=34.257320 b=-7.193670 dts/dp=[4.762148, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 31.365000 Tnext = 31.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.370000 pESO->GetIndependentVar(): 31.370000 ==>IsSwitchingOccur() prevPhis[ 0]=0.001237, nextPhis[ 0]=-0.034688 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 31.370000 Phiest = -0.034688 Phiest < 0.0 it = 1 Test = 31.367500 Phiest = -0.052622 Phiest < 0.0 it = 2 Test = 31.366250 Phiest = -0.043658 Phiest < 0.0 it = 3 Test = 31.365625 Phiest = -0.039174 Phiest < 0.0 it = 4 Test = 31.365312 Phiest = -0.036931 Phiest < 0.0 it = 5 Test = 31.365156 Phiest = -0.035809 Phiest < 0.0 it = 6 Test = 31.365078 Phiest = -0.035249 Phiest < 0.0 it = 7 Test = 31.365039 Phiest = -0.034968 Switch time for phi[0] is 31.365039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.755944, -2.731211, 13.137930, -5.157075, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=34.256716 b=-7.193553 dts/dp=[4.762141, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 31.365000 Tnext = 31.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.370000 pESO->GetIndependentVar(): 31.370000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000956, nextPhis[ 0]=-0.034968 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 31.370000 Phiest = -0.034968 Phiest < 0.0 it = 1 Test = 31.367500 Phiest = -0.052902 Phiest < 0.0 it = 2 Test = 31.366250 Phiest = -0.043938 Phiest < 0.0 it = 3 Test = 31.365625 Phiest = -0.039454 Phiest < 0.0 it = 4 Test = 31.365312 Phiest = -0.037211 Phiest < 0.0 it = 5 Test = 31.365156 Phiest = -0.036090 Phiest < 0.0 it = 6 Test = 31.365078 Phiest = -0.035529 Phiest < 0.0 it = 7 Test = 31.365039 Phiest = -0.035249 Switch time for phi[0] is 31.365039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.756051, -2.731172, 13.137729, -5.157075, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=34.256111 b=-7.193436 dts/dp=[4.762135, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 31.365000 Tnext = 31.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.370000 pESO->GetIndependentVar(): 31.370000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000675, nextPhis[ 0]=-0.035249 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 31.370000 Phiest = -0.035249 Phiest < 0.0 it = 1 Test = 31.367500 Phiest = -0.053182 Phiest < 0.0 it = 2 Test = 31.366250 Phiest = -0.044218 Phiest < 0.0 it = 3 Test = 31.365625 Phiest = -0.039734 Phiest < 0.0 it = 4 Test = 31.365312 Phiest = -0.037492 Phiest < 0.0 it = 5 Test = 31.365156 Phiest = -0.036370 Phiest < 0.0 it = 6 Test = 31.365078 Phiest = -0.035809 Phiest < 0.0 it = 7 Test = 31.365039 Phiest = -0.035529 Switch time for phi[0] is 31.365039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.756158, -2.731133, 13.137527, -5.157075, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=34.255507 b=-7.193319 dts/dp=[4.762128, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 31.365000 Tnext = 31.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.370000 pESO->GetIndependentVar(): 31.370000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000394, nextPhis[ 0]=-0.035529 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 31.370000 Phiest = -0.035529 Phiest < 0.0 it = 1 Test = 31.367500 Phiest = -0.053462 Phiest < 0.0 it = 2 Test = 31.366250 Phiest = -0.044499 Phiest < 0.0 it = 3 Test = 31.365625 Phiest = -0.040015 Phiest < 0.0 it = 4 Test = 31.365312 Phiest = -0.037772 Phiest < 0.0 it = 5 Test = 31.365156 Phiest = -0.036651 Phiest < 0.0 it = 6 Test = 31.365078 Phiest = -0.036090 Phiest < 0.0 it = 7 Test = 31.365039 Phiest = -0.035809 Switch time for phi[0] is 31.365039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.756264, -2.731094, 13.137326, -5.157075, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=34.254903 b=-7.193202 dts/dp=[4.762122, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 31.365000 Tnext = 31.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.370000 pESO->GetIndependentVar(): 31.370000 ==>IsSwitchingOccur() prevPhis[ 0]=0.000113, nextPhis[ 0]=-0.035809 Index of changed phi: 0 <==IsSwitchingOccur() Switching is occured Find switch time for phi[0] it = 0 Test = 31.370000 Phiest = -0.035809 Phiest < 0.0 it = 1 Test = 31.367500 Phiest = -0.053743 Phiest < 0.0 it = 2 Test = 31.366250 Phiest = -0.044779 Phiest < 0.0 it = 3 Test = 31.365625 Phiest = -0.040295 Phiest < 0.0 it = 4 Test = 31.365312 Phiest = -0.038052 Phiest < 0.0 it = 5 Test = 31.365156 Phiest = -0.036931 Phiest < 0.0 it = 6 Test = 31.365078 Phiest = -0.036370 Phiest < 0.0 it = 7 Test = 31.365039 Phiest = -0.036090 Switch time for phi[0] is 31.365039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.756371, -2.731055, 13.137125, -5.157075, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=0.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=3.000000 dphi/dx[1]=1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=34.254298 b=-7.193084 dts/dp=[4.762115, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 31.365000 Tnext = 31.370000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.370000 pESO->GetIndependentVar(): 31.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.000168, nextPhis[ 0]=-0.036090 prevPhis[ 1]=6.000168, nextPhis[ 1]=6.036090 <==IsSwitchingOccur() T = 31.370000 Tnext = 31.375000 Time: 3.13700e+01 states: [ -7.70012e-01 -2.72605e+00] derivs: [ -2.72582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.375000 pESO->GetIndependentVar(): 31.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.036090, nextPhis[ 0]=-0.071937 prevPhis[ 1]=6.036090, nextPhis[ 1]=6.071937 <==IsSwitchingOccur() T = 31.375000 Tnext = 31.380000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.380000 pESO->GetIndependentVar(): 31.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.071937, nextPhis[ 0]=-0.107709 prevPhis[ 1]=6.071937, nextPhis[ 1]=6.107709 <==IsSwitchingOccur() T = 31.380000 Tnext = 31.385000 Time: 3.13800e+01 states: [ -7.97218e-01 -2.71605e+00] derivs: [ -2.71582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.385000 pESO->GetIndependentVar(): 31.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.107709, nextPhis[ 0]=-0.143406 prevPhis[ 1]=6.107709, nextPhis[ 1]=6.143406 <==IsSwitchingOccur() T = 31.385000 Tnext = 31.390000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.390000 pESO->GetIndependentVar(): 31.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.143406, nextPhis[ 0]=-0.179028 prevPhis[ 1]=6.143406, nextPhis[ 1]=6.179028 <==IsSwitchingOccur() T = 31.390000 Tnext = 31.395000 Time: 3.13900e+01 states: [ -8.24324e-01 -2.70605e+00] derivs: [ -2.70582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.395000 pESO->GetIndependentVar(): 31.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.179028, nextPhis[ 0]=-0.214575 prevPhis[ 1]=6.179028, nextPhis[ 1]=6.214575 <==IsSwitchingOccur() T = 31.395000 Tnext = 31.400000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.400000 pESO->GetIndependentVar(): 31.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.214575, nextPhis[ 0]=-0.250047 prevPhis[ 1]=6.214575, nextPhis[ 1]=6.250047 <==IsSwitchingOccur() T = 31.400000 Tnext = 31.405000 Time: 3.14000e+01 states: [ -8.51331e-01 -2.69605e+00] derivs: [ -2.69582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.405000 pESO->GetIndependentVar(): 31.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.250047, nextPhis[ 0]=-0.285444 prevPhis[ 1]=6.250047, nextPhis[ 1]=6.285444 <==IsSwitchingOccur() T = 31.405000 Tnext = 31.410000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.410000 pESO->GetIndependentVar(): 31.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.285444, nextPhis[ 0]=-0.320766 prevPhis[ 1]=6.285444, nextPhis[ 1]=6.320766 <==IsSwitchingOccur() T = 31.410000 Tnext = 31.415000 Time: 3.14100e+01 states: [ -8.78237e-01 -2.68605e+00] derivs: [ -2.68582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.415000 pESO->GetIndependentVar(): 31.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.320766, nextPhis[ 0]=-0.356013 prevPhis[ 1]=6.320766, nextPhis[ 1]=6.356013 <==IsSwitchingOccur() T = 31.415000 Tnext = 31.420000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.420000 pESO->GetIndependentVar(): 31.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.356013, nextPhis[ 0]=-0.391185 prevPhis[ 1]=6.356013, nextPhis[ 1]=6.391185 <==IsSwitchingOccur() T = 31.420000 Tnext = 31.425000 Time: 3.14200e+01 states: [ -9.05044e-01 -2.67605e+00] derivs: [ -2.67582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.425000 pESO->GetIndependentVar(): 31.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.391185, nextPhis[ 0]=-0.426282 prevPhis[ 1]=6.391185, nextPhis[ 1]=6.426282 <==IsSwitchingOccur() T = 31.425000 Tnext = 31.430000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.430000 pESO->GetIndependentVar(): 31.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.426282, nextPhis[ 0]=-0.461304 prevPhis[ 1]=6.426282, nextPhis[ 1]=6.461304 <==IsSwitchingOccur() T = 31.430000 Tnext = 31.435000 Time: 3.14300e+01 states: [ -9.31750e-01 -2.66605e+00] derivs: [ -2.66582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.435000 pESO->GetIndependentVar(): 31.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.461304, nextPhis[ 0]=-0.496251 prevPhis[ 1]=6.461304, nextPhis[ 1]=6.496251 <==IsSwitchingOccur() T = 31.435000 Tnext = 31.440000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.440000 pESO->GetIndependentVar(): 31.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.496251, nextPhis[ 0]=-0.531123 prevPhis[ 1]=6.496251, nextPhis[ 1]=6.531123 <==IsSwitchingOccur() T = 31.440000 Tnext = 31.445000 Time: 3.14400e+01 states: [ -9.58356e-01 -2.65605e+00] derivs: [ -2.65582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.445000 pESO->GetIndependentVar(): 31.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.531123, nextPhis[ 0]=-0.565920 prevPhis[ 1]=6.531123, nextPhis[ 1]=6.565920 <==IsSwitchingOccur() T = 31.445000 Tnext = 31.450000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.450000 pESO->GetIndependentVar(): 31.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.565920, nextPhis[ 0]=-0.600642 prevPhis[ 1]=6.565920, nextPhis[ 1]=6.600642 <==IsSwitchingOccur() T = 31.450000 Tnext = 31.455000 Time: 3.14500e+01 states: [ -9.84863e-01 -2.64605e+00] derivs: [ -2.64582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.455000 pESO->GetIndependentVar(): 31.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.600642, nextPhis[ 0]=-0.635290 prevPhis[ 1]=6.600642, nextPhis[ 1]=6.635290 <==IsSwitchingOccur() T = 31.455000 Tnext = 31.460000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.460000 pESO->GetIndependentVar(): 31.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.635290, nextPhis[ 0]=-0.669862 prevPhis[ 1]=6.635290, nextPhis[ 1]=6.669862 <==IsSwitchingOccur() T = 31.460000 Tnext = 31.465000 Time: 3.14600e+01 states: [ -1.01127e+00 -2.63605e+00] derivs: [ -2.63582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.465000 pESO->GetIndependentVar(): 31.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.669862, nextPhis[ 0]=-0.704359 prevPhis[ 1]=6.669862, nextPhis[ 1]=6.704359 <==IsSwitchingOccur() T = 31.465000 Tnext = 31.470000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.470000 pESO->GetIndependentVar(): 31.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.704359, nextPhis[ 0]=-0.738781 prevPhis[ 1]=6.704359, nextPhis[ 1]=6.738781 <==IsSwitchingOccur() T = 31.470000 Tnext = 31.475000 Time: 3.14700e+01 states: [ -1.03758e+00 -2.62605e+00] derivs: [ -2.62582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.475000 pESO->GetIndependentVar(): 31.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.738781, nextPhis[ 0]=-0.773128 prevPhis[ 1]=6.738781, nextPhis[ 1]=6.773128 <==IsSwitchingOccur() T = 31.475000 Tnext = 31.480000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.480000 pESO->GetIndependentVar(): 31.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.773128, nextPhis[ 0]=-0.807400 prevPhis[ 1]=6.773128, nextPhis[ 1]=6.807400 <==IsSwitchingOccur() T = 31.480000 Tnext = 31.485000 Time: 3.14800e+01 states: [ -1.06378e+00 -2.61605e+00] derivs: [ -2.61582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.485000 pESO->GetIndependentVar(): 31.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.807400, nextPhis[ 0]=-0.841597 prevPhis[ 1]=6.807400, nextPhis[ 1]=6.841597 <==IsSwitchingOccur() T = 31.485000 Tnext = 31.490000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.490000 pESO->GetIndependentVar(): 31.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.841597, nextPhis[ 0]=-0.875719 prevPhis[ 1]=6.841597, nextPhis[ 1]=6.875719 <==IsSwitchingOccur() T = 31.490000 Tnext = 31.495000 Time: 3.14900e+01 states: [ -1.08989e+00 -2.60605e+00] derivs: [ -2.60582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.495000 pESO->GetIndependentVar(): 31.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.875719, nextPhis[ 0]=-0.909766 prevPhis[ 1]=6.875719, nextPhis[ 1]=6.909766 <==IsSwitchingOccur() T = 31.495000 Tnext = 31.500000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.500000 pESO->GetIndependentVar(): 31.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.909766, nextPhis[ 0]=-0.943738 prevPhis[ 1]=6.909766, nextPhis[ 1]=6.943738 <==IsSwitchingOccur() T = 31.500000 Tnext = 31.505000 Time: 3.15000e+01 states: [ -1.11589e+00 -2.59605e+00] derivs: [ -2.59582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.505000 pESO->GetIndependentVar(): 31.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.943738, nextPhis[ 0]=-0.977635 prevPhis[ 1]=6.943738, nextPhis[ 1]=6.977635 <==IsSwitchingOccur() T = 31.505000 Tnext = 31.510000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.510000 pESO->GetIndependentVar(): 31.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.977635, nextPhis[ 0]=-1.011457 prevPhis[ 1]=6.977635, nextPhis[ 1]=7.011457 <==IsSwitchingOccur() T = 31.510000 Tnext = 31.515000 Time: 3.15100e+01 states: [ -1.14180e+00 -2.58605e+00] derivs: [ -2.58582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.515000 pESO->GetIndependentVar(): 31.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.011457, nextPhis[ 0]=-1.045204 prevPhis[ 1]=7.011457, nextPhis[ 1]=7.045204 <==IsSwitchingOccur() T = 31.515000 Tnext = 31.520000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.520000 pESO->GetIndependentVar(): 31.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.045204, nextPhis[ 0]=-1.078876 prevPhis[ 1]=7.045204, nextPhis[ 1]=7.078876 <==IsSwitchingOccur() T = 31.520000 Tnext = 31.525000 Time: 3.15200e+01 states: [ -1.16761e+00 -2.57605e+00] derivs: [ -2.57582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.525000 pESO->GetIndependentVar(): 31.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.078876, nextPhis[ 0]=-1.112473 prevPhis[ 1]=7.078876, nextPhis[ 1]=7.112473 <==IsSwitchingOccur() T = 31.525000 Tnext = 31.530000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.530000 pESO->GetIndependentVar(): 31.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.112473, nextPhis[ 0]=-1.145995 prevPhis[ 1]=7.112473, nextPhis[ 1]=7.145995 <==IsSwitchingOccur() T = 31.530000 Tnext = 31.535000 Time: 3.15300e+01 states: [ -1.19331e+00 -2.56605e+00] derivs: [ -2.56582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.535000 pESO->GetIndependentVar(): 31.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.145995, nextPhis[ 0]=-1.179442 prevPhis[ 1]=7.145995, nextPhis[ 1]=7.179442 <==IsSwitchingOccur() T = 31.535000 Tnext = 31.540000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.540000 pESO->GetIndependentVar(): 31.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.179442, nextPhis[ 0]=-1.212814 prevPhis[ 1]=7.179442, nextPhis[ 1]=7.212814 <==IsSwitchingOccur() T = 31.540000 Tnext = 31.545000 Time: 3.15400e+01 states: [ -1.21892e+00 -2.55605e+00] derivs: [ -2.55582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.545000 pESO->GetIndependentVar(): 31.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.212814, nextPhis[ 0]=-1.246111 prevPhis[ 1]=7.212814, nextPhis[ 1]=7.246111 <==IsSwitchingOccur() T = 31.545000 Tnext = 31.550000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.550000 pESO->GetIndependentVar(): 31.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.246111, nextPhis[ 0]=-1.279333 prevPhis[ 1]=7.246111, nextPhis[ 1]=7.279333 <==IsSwitchingOccur() T = 31.550000 Tnext = 31.555000 Time: 3.15500e+01 states: [ -1.24443e+00 -2.54605e+00] derivs: [ -2.54582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.555000 pESO->GetIndependentVar(): 31.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.279333, nextPhis[ 0]=-1.312480 prevPhis[ 1]=7.279333, nextPhis[ 1]=7.312480 <==IsSwitchingOccur() T = 31.555000 Tnext = 31.560000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.560000 pESO->GetIndependentVar(): 31.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.312480, nextPhis[ 0]=-1.345552 prevPhis[ 1]=7.312480, nextPhis[ 1]=7.345552 <==IsSwitchingOccur() T = 31.560000 Tnext = 31.565000 Time: 3.15600e+01 states: [ -1.26983e+00 -2.53605e+00] derivs: [ -2.53582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.565000 pESO->GetIndependentVar(): 31.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.345552, nextPhis[ 0]=-1.378549 prevPhis[ 1]=7.345552, nextPhis[ 1]=7.378549 <==IsSwitchingOccur() T = 31.565000 Tnext = 31.570000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.570000 pESO->GetIndependentVar(): 31.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.378549, nextPhis[ 0]=-1.411472 prevPhis[ 1]=7.378549, nextPhis[ 1]=7.411472 <==IsSwitchingOccur() T = 31.570000 Tnext = 31.575000 Time: 3.15700e+01 states: [ -1.29514e+00 -2.52605e+00] derivs: [ -2.52582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.575000 pESO->GetIndependentVar(): 31.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.411472, nextPhis[ 0]=-1.444319 prevPhis[ 1]=7.411472, nextPhis[ 1]=7.444319 <==IsSwitchingOccur() T = 31.575000 Tnext = 31.580000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.580000 pESO->GetIndependentVar(): 31.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.444319, nextPhis[ 0]=-1.477091 prevPhis[ 1]=7.444319, nextPhis[ 1]=7.477091 <==IsSwitchingOccur() T = 31.580000 Tnext = 31.585000 Time: 3.15800e+01 states: [ -1.32035e+00 -2.51605e+00] derivs: [ -2.51582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.585000 pESO->GetIndependentVar(): 31.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.477091, nextPhis[ 0]=-1.509788 prevPhis[ 1]=7.477091, nextPhis[ 1]=7.509788 <==IsSwitchingOccur() T = 31.585000 Tnext = 31.590000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.590000 pESO->GetIndependentVar(): 31.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.509788, nextPhis[ 0]=-1.542410 prevPhis[ 1]=7.509788, nextPhis[ 1]=7.542410 <==IsSwitchingOccur() T = 31.590000 Tnext = 31.595000 Time: 3.15900e+01 states: [ -1.34545e+00 -2.50605e+00] derivs: [ -2.50582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.595000 pESO->GetIndependentVar(): 31.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.542410, nextPhis[ 0]=-1.574957 prevPhis[ 1]=7.542410, nextPhis[ 1]=7.574957 <==IsSwitchingOccur() T = 31.595000 Tnext = 31.600000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.600000 pESO->GetIndependentVar(): 31.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.574957, nextPhis[ 0]=-1.607429 prevPhis[ 1]=7.574957, nextPhis[ 1]=7.607429 <==IsSwitchingOccur() T = 31.600000 Tnext = 31.605000 Time: 3.16000e+01 states: [ -1.37046e+00 -2.49605e+00] derivs: [ -2.49582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.605000 pESO->GetIndependentVar(): 31.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.607429, nextPhis[ 0]=-1.639826 prevPhis[ 1]=7.607429, nextPhis[ 1]=7.639826 <==IsSwitchingOccur() T = 31.605000 Tnext = 31.610000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.610000 pESO->GetIndependentVar(): 31.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.639826, nextPhis[ 0]=-1.672148 prevPhis[ 1]=7.639826, nextPhis[ 1]=7.672148 <==IsSwitchingOccur() T = 31.610000 Tnext = 31.615000 Time: 3.16100e+01 states: [ -1.39536e+00 -2.48605e+00] derivs: [ -2.48582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.615000 pESO->GetIndependentVar(): 31.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.672148, nextPhis[ 0]=-1.704395 prevPhis[ 1]=7.672148, nextPhis[ 1]=7.704395 <==IsSwitchingOccur() T = 31.615000 Tnext = 31.620000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.620000 pESO->GetIndependentVar(): 31.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.704395, nextPhis[ 0]=-1.736567 prevPhis[ 1]=7.704395, nextPhis[ 1]=7.736567 <==IsSwitchingOccur() T = 31.620000 Tnext = 31.625000 Time: 3.16200e+01 states: [ -1.42017e+00 -2.47605e+00] derivs: [ -2.47582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.625000 pESO->GetIndependentVar(): 31.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.736567, nextPhis[ 0]=-1.768664 prevPhis[ 1]=7.736567, nextPhis[ 1]=7.768664 <==IsSwitchingOccur() T = 31.625000 Tnext = 31.630000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.630000 pESO->GetIndependentVar(): 31.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.768664, nextPhis[ 0]=-1.800686 prevPhis[ 1]=7.768664, nextPhis[ 1]=7.800686 <==IsSwitchingOccur() T = 31.630000 Tnext = 31.635000 Time: 3.16300e+01 states: [ -1.44488e+00 -2.46605e+00] derivs: [ -2.46582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.635000 pESO->GetIndependentVar(): 31.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.800686, nextPhis[ 0]=-1.832633 prevPhis[ 1]=7.800686, nextPhis[ 1]=7.832633 <==IsSwitchingOccur() T = 31.635000 Tnext = 31.640000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.640000 pESO->GetIndependentVar(): 31.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.832633, nextPhis[ 0]=-1.864505 prevPhis[ 1]=7.832633, nextPhis[ 1]=7.864505 <==IsSwitchingOccur() T = 31.640000 Tnext = 31.645000 Time: 3.16400e+01 states: [ -1.46948e+00 -2.45605e+00] derivs: [ -2.45582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.645000 pESO->GetIndependentVar(): 31.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.864505, nextPhis[ 0]=-1.896302 prevPhis[ 1]=7.864505, nextPhis[ 1]=7.896302 <==IsSwitchingOccur() T = 31.645000 Tnext = 31.650000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.650000 pESO->GetIndependentVar(): 31.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.896302, nextPhis[ 0]=-1.928024 prevPhis[ 1]=7.896302, nextPhis[ 1]=7.928024 <==IsSwitchingOccur() T = 31.650000 Tnext = 31.655000 Time: 3.16500e+01 states: [ -1.49399e+00 -2.44605e+00] derivs: [ -2.44582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.655000 pESO->GetIndependentVar(): 31.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.928024, nextPhis[ 0]=-1.959671 prevPhis[ 1]=7.928024, nextPhis[ 1]=7.959671 <==IsSwitchingOccur() T = 31.655000 Tnext = 31.660000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.660000 pESO->GetIndependentVar(): 31.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.959671, nextPhis[ 0]=-1.991243 prevPhis[ 1]=7.959671, nextPhis[ 1]=7.991243 <==IsSwitchingOccur() T = 31.660000 Tnext = 31.665000 Time: 3.16600e+01 states: [ -1.51840e+00 -2.43605e+00] derivs: [ -2.43582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.665000 pESO->GetIndependentVar(): 31.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.991243, nextPhis[ 0]=-2.022740 prevPhis[ 1]=7.991243, nextPhis[ 1]=8.022740 <==IsSwitchingOccur() T = 31.665000 Tnext = 31.670000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.670000 pESO->GetIndependentVar(): 31.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.022740, nextPhis[ 0]=-2.054162 prevPhis[ 1]=8.022740, nextPhis[ 1]=8.054162 <==IsSwitchingOccur() T = 31.670000 Tnext = 31.675000 Time: 3.16700e+01 states: [ -1.54270e+00 -2.42605e+00] derivs: [ -2.42582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.675000 pESO->GetIndependentVar(): 31.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.054162, nextPhis[ 0]=-2.085509 prevPhis[ 1]=8.054162, nextPhis[ 1]=8.085509 <==IsSwitchingOccur() T = 31.675000 Tnext = 31.680000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.680000 pESO->GetIndependentVar(): 31.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.085509, nextPhis[ 0]=-2.116781 prevPhis[ 1]=8.085509, nextPhis[ 1]=8.116781 <==IsSwitchingOccur() T = 31.680000 Tnext = 31.685000 Time: 3.16800e+01 states: [ -1.56691e+00 -2.41605e+00] derivs: [ -2.41582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.685000 pESO->GetIndependentVar(): 31.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.116781, nextPhis[ 0]=-2.147978 prevPhis[ 1]=8.116781, nextPhis[ 1]=8.147978 <==IsSwitchingOccur() T = 31.685000 Tnext = 31.690000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.690000 pESO->GetIndependentVar(): 31.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.147978, nextPhis[ 0]=-2.179101 prevPhis[ 1]=8.147978, nextPhis[ 1]=8.179101 <==IsSwitchingOccur() T = 31.690000 Tnext = 31.695000 Time: 3.16900e+01 states: [ -1.59102e+00 -2.40605e+00] derivs: [ -2.40582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.695000 pESO->GetIndependentVar(): 31.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.179101, nextPhis[ 0]=-2.210148 prevPhis[ 1]=8.179101, nextPhis[ 1]=8.210148 <==IsSwitchingOccur() T = 31.695000 Tnext = 31.700000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.700000 pESO->GetIndependentVar(): 31.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.210148, nextPhis[ 0]=-2.241120 prevPhis[ 1]=8.210148, nextPhis[ 1]=8.241120 <==IsSwitchingOccur() T = 31.700000 Tnext = 31.705000 Time: 3.17000e+01 states: [ -1.61502e+00 -2.39605e+00] derivs: [ -2.39582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.705000 pESO->GetIndependentVar(): 31.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.241120, nextPhis[ 0]=-2.272017 prevPhis[ 1]=8.241120, nextPhis[ 1]=8.272017 <==IsSwitchingOccur() T = 31.705000 Tnext = 31.710000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.710000 pESO->GetIndependentVar(): 31.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.272017, nextPhis[ 0]=-2.302839 prevPhis[ 1]=8.272017, nextPhis[ 1]=8.302839 <==IsSwitchingOccur() T = 31.710000 Tnext = 31.715000 Time: 3.17100e+01 states: [ -1.63893e+00 -2.38605e+00] derivs: [ -2.38582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.715000 pESO->GetIndependentVar(): 31.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.302839, nextPhis[ 0]=-2.333586 prevPhis[ 1]=8.302839, nextPhis[ 1]=8.333586 <==IsSwitchingOccur() T = 31.715000 Tnext = 31.720000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.720000 pESO->GetIndependentVar(): 31.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.333586, nextPhis[ 0]=-2.364258 prevPhis[ 1]=8.333586, nextPhis[ 1]=8.364258 <==IsSwitchingOccur() T = 31.720000 Tnext = 31.725000 Time: 3.17200e+01 states: [ -1.66273e+00 -2.37605e+00] derivs: [ -2.37582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.725000 pESO->GetIndependentVar(): 31.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.364258, nextPhis[ 0]=-2.394855 prevPhis[ 1]=8.364258, nextPhis[ 1]=8.394855 <==IsSwitchingOccur() T = 31.725000 Tnext = 31.730000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.730000 pESO->GetIndependentVar(): 31.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.394855, nextPhis[ 0]=-2.425377 prevPhis[ 1]=8.394855, nextPhis[ 1]=8.425377 <==IsSwitchingOccur() T = 31.730000 Tnext = 31.735000 Time: 3.17300e+01 states: [ -1.68644e+00 -2.36605e+00] derivs: [ -2.36582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.735000 pESO->GetIndependentVar(): 31.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.425377, nextPhis[ 0]=-2.455824 prevPhis[ 1]=8.425377, nextPhis[ 1]=8.455824 <==IsSwitchingOccur() T = 31.735000 Tnext = 31.740000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.740000 pESO->GetIndependentVar(): 31.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.455824, nextPhis[ 0]=-2.486196 prevPhis[ 1]=8.455824, nextPhis[ 1]=8.486196 <==IsSwitchingOccur() T = 31.740000 Tnext = 31.745000 Time: 3.17400e+01 states: [ -1.71005e+00 -2.35605e+00] derivs: [ -2.35582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.745000 pESO->GetIndependentVar(): 31.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.486196, nextPhis[ 0]=-2.516493 prevPhis[ 1]=8.486196, nextPhis[ 1]=8.516493 <==IsSwitchingOccur() T = 31.745000 Tnext = 31.750000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.750000 pESO->GetIndependentVar(): 31.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.516493, nextPhis[ 0]=-2.546715 prevPhis[ 1]=8.516493, nextPhis[ 1]=8.546715 <==IsSwitchingOccur() T = 31.750000 Tnext = 31.755000 Time: 3.17500e+01 states: [ -1.73355e+00 -2.34605e+00] derivs: [ -2.34582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.755000 pESO->GetIndependentVar(): 31.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.546715, nextPhis[ 0]=-2.576862 prevPhis[ 1]=8.546715, nextPhis[ 1]=8.576862 <==IsSwitchingOccur() T = 31.755000 Tnext = 31.760000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.760000 pESO->GetIndependentVar(): 31.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.576862, nextPhis[ 0]=-2.606934 prevPhis[ 1]=8.576862, nextPhis[ 1]=8.606934 <==IsSwitchingOccur() T = 31.760000 Tnext = 31.765000 Time: 3.17600e+01 states: [ -1.75696e+00 -2.33605e+00] derivs: [ -2.33582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.765000 pESO->GetIndependentVar(): 31.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.606934, nextPhis[ 0]=-2.636931 prevPhis[ 1]=8.606934, nextPhis[ 1]=8.636931 <==IsSwitchingOccur() T = 31.765000 Tnext = 31.770000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.770000 pESO->GetIndependentVar(): 31.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.636931, nextPhis[ 0]=-2.666853 prevPhis[ 1]=8.636931, nextPhis[ 1]=8.666853 <==IsSwitchingOccur() T = 31.770000 Tnext = 31.775000 Time: 3.17700e+01 states: [ -1.78027e+00 -2.32605e+00] derivs: [ -2.32582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.775000 pESO->GetIndependentVar(): 31.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.666853, nextPhis[ 0]=-2.696700 prevPhis[ 1]=8.666853, nextPhis[ 1]=8.696700 <==IsSwitchingOccur() T = 31.775000 Tnext = 31.780000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.780000 pESO->GetIndependentVar(): 31.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.696700, nextPhis[ 0]=-2.726472 prevPhis[ 1]=8.696700, nextPhis[ 1]=8.726472 <==IsSwitchingOccur() T = 31.780000 Tnext = 31.785000 Time: 3.17800e+01 states: [ -1.80347e+00 -2.31605e+00] derivs: [ -2.31582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.785000 pESO->GetIndependentVar(): 31.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.726472, nextPhis[ 0]=-2.756169 prevPhis[ 1]=8.726472, nextPhis[ 1]=8.756169 <==IsSwitchingOccur() T = 31.785000 Tnext = 31.790000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.790000 pESO->GetIndependentVar(): 31.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.756169, nextPhis[ 0]=-2.785791 prevPhis[ 1]=8.756169, nextPhis[ 1]=8.785791 <==IsSwitchingOccur() T = 31.790000 Tnext = 31.795000 Time: 3.17900e+01 states: [ -1.82658e+00 -2.30605e+00] derivs: [ -2.30582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.795000 pESO->GetIndependentVar(): 31.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.785791, nextPhis[ 0]=-2.815338 prevPhis[ 1]=8.785791, nextPhis[ 1]=8.815338 <==IsSwitchingOccur() T = 31.795000 Tnext = 31.800000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.800000 pESO->GetIndependentVar(): 31.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.815338, nextPhis[ 0]=-2.844810 prevPhis[ 1]=8.815338, nextPhis[ 1]=8.844810 <==IsSwitchingOccur() T = 31.800000 Tnext = 31.805000 Time: 3.18000e+01 states: [ -1.84959e+00 -2.29605e+00] derivs: [ -2.29582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.805000 pESO->GetIndependentVar(): 31.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.844810, nextPhis[ 0]=-2.874207 prevPhis[ 1]=8.844810, nextPhis[ 1]=8.874207 <==IsSwitchingOccur() T = 31.805000 Tnext = 31.810000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.810000 pESO->GetIndependentVar(): 31.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.874207, nextPhis[ 0]=-2.903530 prevPhis[ 1]=8.874207, nextPhis[ 1]=8.903530 <==IsSwitchingOccur() T = 31.810000 Tnext = 31.815000 Time: 3.18100e+01 states: [ -1.87249e+00 -2.28605e+00] derivs: [ -2.28582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.815000 pESO->GetIndependentVar(): 31.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.903530, nextPhis[ 0]=-2.932777 prevPhis[ 1]=8.903530, nextPhis[ 1]=8.932777 <==IsSwitchingOccur() T = 31.815000 Tnext = 31.820000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.820000 pESO->GetIndependentVar(): 31.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.932777, nextPhis[ 0]=-2.961949 prevPhis[ 1]=8.932777, nextPhis[ 1]=8.961949 <==IsSwitchingOccur() T = 31.820000 Tnext = 31.825000 Time: 3.18200e+01 states: [ -1.89530e+00 -2.27605e+00] derivs: [ -2.27582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.825000 pESO->GetIndependentVar(): 31.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.961949, nextPhis[ 0]=-2.991046 prevPhis[ 1]=8.961949, nextPhis[ 1]=8.991046 <==IsSwitchingOccur() T = 31.825000 Tnext = 31.830000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.830000 pESO->GetIndependentVar(): 31.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.991046, nextPhis[ 0]=-3.020068 prevPhis[ 1]=8.991046, nextPhis[ 1]=9.020068 <==IsSwitchingOccur() T = 31.830000 Tnext = 31.835000 Time: 3.18300e+01 states: [ -1.91800e+00 -2.26605e+00] derivs: [ -2.26582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.835000 pESO->GetIndependentVar(): 31.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.020068, nextPhis[ 0]=-3.049015 prevPhis[ 1]=9.020068, nextPhis[ 1]=9.049015 <==IsSwitchingOccur() T = 31.835000 Tnext = 31.840000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.840000 pESO->GetIndependentVar(): 31.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.049015, nextPhis[ 0]=-3.077887 prevPhis[ 1]=9.049015, nextPhis[ 1]=9.077887 <==IsSwitchingOccur() T = 31.840000 Tnext = 31.845000 Time: 3.18400e+01 states: [ -1.94061e+00 -2.25605e+00] derivs: [ -2.25582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.845000 pESO->GetIndependentVar(): 31.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.077887, nextPhis[ 0]=-3.106684 prevPhis[ 1]=9.077887, nextPhis[ 1]=9.106684 <==IsSwitchingOccur() T = 31.845000 Tnext = 31.850000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.850000 pESO->GetIndependentVar(): 31.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.106684, nextPhis[ 0]=-3.135406 prevPhis[ 1]=9.106684, nextPhis[ 1]=9.135406 <==IsSwitchingOccur() T = 31.850000 Tnext = 31.855000 Time: 3.18500e+01 states: [ -1.96312e+00 -2.24605e+00] derivs: [ -2.24582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.855000 pESO->GetIndependentVar(): 31.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.135406, nextPhis[ 0]=-3.164053 prevPhis[ 1]=9.135406, nextPhis[ 1]=9.164053 <==IsSwitchingOccur() T = 31.855000 Tnext = 31.860000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.860000 pESO->GetIndependentVar(): 31.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.164053, nextPhis[ 0]=-3.192625 prevPhis[ 1]=9.164053, nextPhis[ 1]=9.192625 <==IsSwitchingOccur() T = 31.860000 Tnext = 31.865000 Time: 3.18600e+01 states: [ -1.98552e+00 -2.23605e+00] derivs: [ -2.23582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.865000 pESO->GetIndependentVar(): 31.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.192625, nextPhis[ 0]=-3.221122 prevPhis[ 1]=9.192625, nextPhis[ 1]=9.221122 <==IsSwitchingOccur() T = 31.865000 Tnext = 31.870000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.870000 pESO->GetIndependentVar(): 31.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.221122, nextPhis[ 0]=-3.249544 prevPhis[ 1]=9.221122, nextPhis[ 1]=9.249544 <==IsSwitchingOccur() T = 31.870000 Tnext = 31.875000 Time: 3.18700e+01 states: [ -2.00783e+00 -2.22605e+00] derivs: [ -2.22582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.875000 pESO->GetIndependentVar(): 31.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.249544, nextPhis[ 0]=-3.277891 prevPhis[ 1]=9.249544, nextPhis[ 1]=9.277891 <==IsSwitchingOccur() T = 31.875000 Tnext = 31.880000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.880000 pESO->GetIndependentVar(): 31.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.277891, nextPhis[ 0]=-3.306163 prevPhis[ 1]=9.277891, nextPhis[ 1]=9.306163 <==IsSwitchingOccur() T = 31.880000 Tnext = 31.885000 Time: 3.18800e+01 states: [ -2.03004e+00 -2.21605e+00] derivs: [ -2.21582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.885000 pESO->GetIndependentVar(): 31.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.306163, nextPhis[ 0]=-3.334360 prevPhis[ 1]=9.306163, nextPhis[ 1]=9.334360 <==IsSwitchingOccur() T = 31.885000 Tnext = 31.890000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.890000 pESO->GetIndependentVar(): 31.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.334360, nextPhis[ 0]=-3.362482 prevPhis[ 1]=9.334360, nextPhis[ 1]=9.362482 <==IsSwitchingOccur() T = 31.890000 Tnext = 31.895000 Time: 3.18900e+01 states: [ -2.05214e+00 -2.20605e+00] derivs: [ -2.20582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.895000 pESO->GetIndependentVar(): 31.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.362482, nextPhis[ 0]=-3.390529 prevPhis[ 1]=9.362482, nextPhis[ 1]=9.390529 <==IsSwitchingOccur() T = 31.895000 Tnext = 31.900000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.900000 pESO->GetIndependentVar(): 31.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.390529, nextPhis[ 0]=-3.418501 prevPhis[ 1]=9.390529, nextPhis[ 1]=9.418501 <==IsSwitchingOccur() T = 31.900000 Tnext = 31.905000 Time: 3.19000e+01 states: [ -2.07415e+00 -2.19605e+00] derivs: [ -2.19582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.905000 pESO->GetIndependentVar(): 31.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.418501, nextPhis[ 0]=-3.446398 prevPhis[ 1]=9.418501, nextPhis[ 1]=9.446398 <==IsSwitchingOccur() T = 31.905000 Tnext = 31.910000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.910000 pESO->GetIndependentVar(): 31.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.446398, nextPhis[ 0]=-3.474220 prevPhis[ 1]=9.446398, nextPhis[ 1]=9.474220 <==IsSwitchingOccur() T = 31.910000 Tnext = 31.915000 Time: 3.19100e+01 states: [ -2.09606e+00 -2.18605e+00] derivs: [ -2.18582e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.915000 pESO->GetIndependentVar(): 31.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.474220, nextPhis[ 0]=-3.501967 prevPhis[ 1]=9.474220, nextPhis[ 1]=9.501967 <==IsSwitchingOccur() T = 31.915000 Tnext = 31.920000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.920000 pESO->GetIndependentVar(): 31.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.501967, nextPhis[ 0]=-3.529635 prevPhis[ 1]=9.501967, nextPhis[ 1]=9.529635 <==IsSwitchingOccur() T = 31.920000 Tnext = 31.925000 Time: 3.19200e+01 states: [ -2.11786e+00 -2.17605e+00] derivs: [ -2.17581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.925000 pESO->GetIndependentVar(): 31.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.529635, nextPhis[ 0]=-3.557228 prevPhis[ 1]=9.529635, nextPhis[ 1]=9.557228 <==IsSwitchingOccur() T = 31.925000 Tnext = 31.930000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.930000 pESO->GetIndependentVar(): 31.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.557228, nextPhis[ 0]=-3.584746 prevPhis[ 1]=9.557228, nextPhis[ 1]=9.584746 <==IsSwitchingOccur() T = 31.930000 Tnext = 31.935000 Time: 3.19300e+01 states: [ -2.13956e+00 -2.16605e+00] derivs: [ -2.16581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.935000 pESO->GetIndependentVar(): 31.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.584746, nextPhis[ 0]=-3.612189 prevPhis[ 1]=9.584746, nextPhis[ 1]=9.612189 <==IsSwitchingOccur() T = 31.935000 Tnext = 31.940000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.940000 pESO->GetIndependentVar(): 31.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.612189, nextPhis[ 0]=-3.639557 prevPhis[ 1]=9.612189, nextPhis[ 1]=9.639557 <==IsSwitchingOccur() T = 31.940000 Tnext = 31.945000 Time: 3.19400e+01 states: [ -2.16117e+00 -2.15605e+00] derivs: [ -2.15581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.945000 pESO->GetIndependentVar(): 31.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.639557, nextPhis[ 0]=-3.666850 prevPhis[ 1]=9.639557, nextPhis[ 1]=9.666850 <==IsSwitchingOccur() T = 31.945000 Tnext = 31.950000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.950000 pESO->GetIndependentVar(): 31.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.666850, nextPhis[ 0]=-3.694068 prevPhis[ 1]=9.666850, nextPhis[ 1]=9.694068 <==IsSwitchingOccur() T = 31.950000 Tnext = 31.955000 Time: 3.19500e+01 states: [ -2.18267e+00 -2.14605e+00] derivs: [ -2.14581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.955000 pESO->GetIndependentVar(): 31.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.694068, nextPhis[ 0]=-3.721211 prevPhis[ 1]=9.694068, nextPhis[ 1]=9.721211 <==IsSwitchingOccur() T = 31.955000 Tnext = 31.960000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.960000 pESO->GetIndependentVar(): 31.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.721211, nextPhis[ 0]=-3.748279 prevPhis[ 1]=9.721211, nextPhis[ 1]=9.748279 <==IsSwitchingOccur() T = 31.960000 Tnext = 31.965000 Time: 3.19600e+01 states: [ -2.20407e+00 -2.13605e+00] derivs: [ -2.13581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.965000 pESO->GetIndependentVar(): 31.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.748279, nextPhis[ 0]=-3.775272 prevPhis[ 1]=9.748279, nextPhis[ 1]=9.775272 <==IsSwitchingOccur() T = 31.965000 Tnext = 31.970000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.970000 pESO->GetIndependentVar(): 31.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.775272, nextPhis[ 0]=-3.802190 prevPhis[ 1]=9.775272, nextPhis[ 1]=9.802190 <==IsSwitchingOccur() T = 31.970000 Tnext = 31.975000 Time: 3.19700e+01 states: [ -2.22538e+00 -2.12605e+00] derivs: [ -2.12581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.975000 pESO->GetIndependentVar(): 31.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.802190, nextPhis[ 0]=-3.829033 prevPhis[ 1]=9.802190, nextPhis[ 1]=9.829033 <==IsSwitchingOccur() T = 31.975000 Tnext = 31.980000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.980000 pESO->GetIndependentVar(): 31.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.829033, nextPhis[ 0]=-3.855801 prevPhis[ 1]=9.829033, nextPhis[ 1]=9.855801 <==IsSwitchingOccur() T = 31.980000 Tnext = 31.985000 Time: 3.19800e+01 states: [ -2.24658e+00 -2.11605e+00] derivs: [ -2.11581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.985000 pESO->GetIndependentVar(): 31.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.855801, nextPhis[ 0]=-3.882494 prevPhis[ 1]=9.855801, nextPhis[ 1]=9.882494 <==IsSwitchingOccur() T = 31.985000 Tnext = 31.990000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.990000 pESO->GetIndependentVar(): 31.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.882494, nextPhis[ 0]=-3.909112 prevPhis[ 1]=9.882494, nextPhis[ 1]=9.909112 <==IsSwitchingOccur() T = 31.990000 Tnext = 31.995000 Time: 3.19900e+01 states: [ -2.26769e+00 -2.10605e+00] derivs: [ -2.10581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 31.995000 pESO->GetIndependentVar(): 31.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.909112, nextPhis[ 0]=-3.935655 prevPhis[ 1]=9.909112, nextPhis[ 1]=9.935655 <==IsSwitchingOccur() T = 31.995000 Tnext = 32.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.000000 pESO->GetIndependentVar(): 32.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.935655, nextPhis[ 0]=-3.962123 prevPhis[ 1]=9.935655, nextPhis[ 1]=9.962123 <==IsSwitchingOccur() T = 32.000000 Tnext = 32.005000 Time: 3.20000e+01 states: [ -2.28869e+00 -2.09605e+00] derivs: [ -2.09581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.005000 pESO->GetIndependentVar(): 32.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.962123, nextPhis[ 0]=-3.988516 prevPhis[ 1]=9.962123, nextPhis[ 1]=9.988516 <==IsSwitchingOccur() T = 32.005000 Tnext = 32.010000 Time: 3.20050e+01 states: [ -2.29915e+00 -2.09105e+00] derivs: [ -2.09081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.010000 pESO->GetIndependentVar(): 32.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.988516, nextPhis[ 0]=-4.014834 prevPhis[ 1]=9.988516, nextPhis[ 1]=10.014834 <==IsSwitchingOccur() T = 32.010000 Tnext = 32.015000 Time: 3.20100e+01 states: [ -2.30959e+00 -2.08605e+00] derivs: [ -2.08581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.015000 pESO->GetIndependentVar(): 32.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.014834, nextPhis[ 0]=-4.041077 prevPhis[ 1]=10.014834, nextPhis[ 1]=10.041077 <==IsSwitchingOccur() T = 32.015000 Tnext = 32.020000 Time: 3.20150e+01 states: [ -2.32001e+00 -2.08105e+00] derivs: [ -2.08081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.020000 pESO->GetIndependentVar(): 32.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.041077, nextPhis[ 0]=-4.067245 prevPhis[ 1]=10.041077, nextPhis[ 1]=10.067245 <==IsSwitchingOccur() T = 32.020000 Tnext = 32.025000 Time: 3.20200e+01 states: [ -2.33040e+00 -2.07605e+00] derivs: [ -2.07581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.025000 pESO->GetIndependentVar(): 32.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.067245, nextPhis[ 0]=-4.093338 prevPhis[ 1]=10.067245, nextPhis[ 1]=10.093338 <==IsSwitchingOccur() T = 32.025000 Tnext = 32.030000 Time: 3.20250e+01 states: [ -2.34076e+00 -2.07105e+00] derivs: [ -2.07081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.030000 pESO->GetIndependentVar(): 32.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.093338, nextPhis[ 0]=-4.119356 prevPhis[ 1]=10.093338, nextPhis[ 1]=10.119356 <==IsSwitchingOccur() T = 32.030000 Tnext = 32.035000 Time: 3.20300e+01 states: [ -2.35110e+00 -2.06605e+00] derivs: [ -2.06581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.035000 pESO->GetIndependentVar(): 32.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.119356, nextPhis[ 0]=-4.145299 prevPhis[ 1]=10.119356, nextPhis[ 1]=10.145299 <==IsSwitchingOccur() T = 32.035000 Tnext = 32.040000 Time: 3.20350e+01 states: [ -2.36141e+00 -2.06105e+00] derivs: [ -2.06081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.040000 pESO->GetIndependentVar(): 32.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.145299, nextPhis[ 0]=-4.171166 prevPhis[ 1]=10.145299, nextPhis[ 1]=10.171166 <==IsSwitchingOccur() T = 32.040000 Tnext = 32.045000 Time: 3.20400e+01 states: [ -2.37170e+00 -2.05605e+00] derivs: [ -2.05581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.045000 pESO->GetIndependentVar(): 32.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.171166, nextPhis[ 0]=-4.196959 prevPhis[ 1]=10.171166, nextPhis[ 1]=10.196959 <==IsSwitchingOccur() T = 32.045000 Tnext = 32.050000 Time: 3.20450e+01 states: [ -2.38197e+00 -2.05105e+00] derivs: [ -2.05081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.050000 pESO->GetIndependentVar(): 32.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.196959, nextPhis[ 0]=-4.222677 prevPhis[ 1]=10.196959, nextPhis[ 1]=10.222677 <==IsSwitchingOccur() T = 32.050000 Tnext = 32.055000 Time: 3.20500e+01 states: [ -2.39221e+00 -2.04605e+00] derivs: [ -2.04581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.055000 pESO->GetIndependentVar(): 32.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.222677, nextPhis[ 0]=-4.248320 prevPhis[ 1]=10.222677, nextPhis[ 1]=10.248320 <==IsSwitchingOccur() T = 32.055000 Tnext = 32.060000 Time: 3.20550e+01 states: [ -2.40242e+00 -2.04105e+00] derivs: [ -2.04081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.060000 pESO->GetIndependentVar(): 32.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.248320, nextPhis[ 0]=-4.273888 prevPhis[ 1]=10.248320, nextPhis[ 1]=10.273888 <==IsSwitchingOccur() T = 32.060000 Tnext = 32.065000 Time: 3.20600e+01 states: [ -2.41261e+00 -2.03605e+00] derivs: [ -2.03581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.065000 pESO->GetIndependentVar(): 32.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.273888, nextPhis[ 0]=-4.299381 prevPhis[ 1]=10.273888, nextPhis[ 1]=10.299381 <==IsSwitchingOccur() T = 32.065000 Tnext = 32.070000 Time: 3.20650e+01 states: [ -2.42278e+00 -2.03105e+00] derivs: [ -2.03081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.070000 pESO->GetIndependentVar(): 32.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.299381, nextPhis[ 0]=-4.324799 prevPhis[ 1]=10.299381, nextPhis[ 1]=10.324799 <==IsSwitchingOccur() T = 32.070000 Tnext = 32.075000 Time: 3.20700e+01 states: [ -2.43291e+00 -2.02605e+00] derivs: [ -2.02581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.075000 pESO->GetIndependentVar(): 32.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.324799, nextPhis[ 0]=-4.350142 prevPhis[ 1]=10.324799, nextPhis[ 1]=10.350142 <==IsSwitchingOccur() T = 32.075000 Tnext = 32.080000 Time: 3.20750e+01 states: [ -2.44303e+00 -2.02105e+00] derivs: [ -2.02081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.080000 pESO->GetIndependentVar(): 32.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.350142, nextPhis[ 0]=-4.375410 prevPhis[ 1]=10.350142, nextPhis[ 1]=10.375410 <==IsSwitchingOccur() T = 32.080000 Tnext = 32.085000 Time: 3.20800e+01 states: [ -2.45312e+00 -2.01605e+00] derivs: [ -2.01581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.085000 pESO->GetIndependentVar(): 32.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.375410, nextPhis[ 0]=-4.400603 prevPhis[ 1]=10.375410, nextPhis[ 1]=10.400603 <==IsSwitchingOccur() T = 32.085000 Tnext = 32.090000 Time: 3.20850e+01 states: [ -2.46318e+00 -2.01105e+00] derivs: [ -2.01081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.090000 pESO->GetIndependentVar(): 32.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.400603, nextPhis[ 0]=-4.425721 prevPhis[ 1]=10.400603, nextPhis[ 1]=10.425721 <==IsSwitchingOccur() T = 32.090000 Tnext = 32.095000 Time: 3.20900e+01 states: [ -2.47322e+00 -2.00605e+00] derivs: [ -2.00581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.095000 pESO->GetIndependentVar(): 32.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.425721, nextPhis[ 0]=-4.450764 prevPhis[ 1]=10.425721, nextPhis[ 1]=10.450764 <==IsSwitchingOccur() T = 32.095000 Tnext = 32.100000 Time: 3.20950e+01 states: [ -2.48324e+00 -2.00105e+00] derivs: [ -2.00081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.100000 pESO->GetIndependentVar(): 32.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.450764, nextPhis[ 0]=-4.475732 prevPhis[ 1]=10.450764, nextPhis[ 1]=10.475732 <==IsSwitchingOccur() T = 32.100000 Tnext = 32.105000 Time: 3.21000e+01 states: [ -2.49323e+00 -1.99605e+00] derivs: [ -1.99581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.105000 pESO->GetIndependentVar(): 32.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.475732, nextPhis[ 0]=-4.500625 prevPhis[ 1]=10.475732, nextPhis[ 1]=10.500625 <==IsSwitchingOccur() T = 32.105000 Tnext = 32.110000 Time: 3.21050e+01 states: [ -2.50319e+00 -1.99105e+00] derivs: [ -1.99081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.110000 pESO->GetIndependentVar(): 32.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.500625, nextPhis[ 0]=-4.525443 prevPhis[ 1]=10.500625, nextPhis[ 1]=10.525443 <==IsSwitchingOccur() T = 32.110000 Tnext = 32.115000 Time: 3.21100e+01 states: [ -2.51313e+00 -1.98605e+00] derivs: [ -1.98581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.115000 pESO->GetIndependentVar(): 32.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.525443, nextPhis[ 0]=-4.550186 prevPhis[ 1]=10.525443, nextPhis[ 1]=10.550186 <==IsSwitchingOccur() T = 32.115000 Tnext = 32.120000 Time: 3.21150e+01 states: [ -2.52304e+00 -1.98105e+00] derivs: [ -1.98081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.120000 pESO->GetIndependentVar(): 32.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.550186, nextPhis[ 0]=-4.574854 prevPhis[ 1]=10.550186, nextPhis[ 1]=10.574854 <==IsSwitchingOccur() T = 32.120000 Tnext = 32.125000 Time: 3.21200e+01 states: [ -2.53293e+00 -1.97605e+00] derivs: [ -1.97581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.125000 pESO->GetIndependentVar(): 32.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.574854, nextPhis[ 0]=-4.599447 prevPhis[ 1]=10.574854, nextPhis[ 1]=10.599447 <==IsSwitchingOccur() T = 32.125000 Tnext = 32.130000 Time: 3.21250e+01 states: [ -2.54280e+00 -1.97105e+00] derivs: [ -1.97081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.130000 pESO->GetIndependentVar(): 32.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.599447, nextPhis[ 0]=-4.623965 prevPhis[ 1]=10.599447, nextPhis[ 1]=10.623965 <==IsSwitchingOccur() T = 32.130000 Tnext = 32.135000 Time: 3.21300e+01 states: [ -2.55264e+00 -1.96605e+00] derivs: [ -1.96581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.135000 pESO->GetIndependentVar(): 32.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.623965, nextPhis[ 0]=-4.648408 prevPhis[ 1]=10.623965, nextPhis[ 1]=10.648408 <==IsSwitchingOccur() T = 32.135000 Tnext = 32.140000 Time: 3.21350e+01 states: [ -2.56245e+00 -1.96105e+00] derivs: [ -1.96081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.140000 pESO->GetIndependentVar(): 32.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.648408, nextPhis[ 0]=-4.672776 prevPhis[ 1]=10.648408, nextPhis[ 1]=10.672776 <==IsSwitchingOccur() T = 32.140000 Tnext = 32.145000 Time: 3.21400e+01 states: [ -2.57224e+00 -1.95605e+00] derivs: [ -1.95581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.145000 pESO->GetIndependentVar(): 32.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.672776, nextPhis[ 0]=-4.697069 prevPhis[ 1]=10.672776, nextPhis[ 1]=10.697069 <==IsSwitchingOccur() T = 32.145000 Tnext = 32.150000 Time: 3.21450e+01 states: [ -2.58200e+00 -1.95105e+00] derivs: [ -1.95081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.150000 pESO->GetIndependentVar(): 32.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.697069, nextPhis[ 0]=-4.721287 prevPhis[ 1]=10.697069, nextPhis[ 1]=10.721287 <==IsSwitchingOccur() T = 32.150000 Tnext = 32.155000 Time: 3.21500e+01 states: [ -2.59174e+00 -1.94605e+00] derivs: [ -1.94581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.155000 pESO->GetIndependentVar(): 32.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.721287, nextPhis[ 0]=-4.745430 prevPhis[ 1]=10.721287, nextPhis[ 1]=10.745430 <==IsSwitchingOccur() T = 32.155000 Tnext = 32.160000 Time: 3.21550e+01 states: [ -2.60146e+00 -1.94105e+00] derivs: [ -1.94081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.160000 pESO->GetIndependentVar(): 32.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.745430, nextPhis[ 0]=-4.769498 prevPhis[ 1]=10.745430, nextPhis[ 1]=10.769498 <==IsSwitchingOccur() T = 32.160000 Tnext = 32.165000 Time: 3.21600e+01 states: [ -2.61115e+00 -1.93605e+00] derivs: [ -1.93581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.165000 pESO->GetIndependentVar(): 32.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.769498, nextPhis[ 0]=-4.793491 prevPhis[ 1]=10.769498, nextPhis[ 1]=10.793491 <==IsSwitchingOccur() T = 32.165000 Tnext = 32.170000 Time: 3.21650e+01 states: [ -2.62081e+00 -1.93105e+00] derivs: [ -1.93081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.170000 pESO->GetIndependentVar(): 32.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.793491, nextPhis[ 0]=-4.817408 prevPhis[ 1]=10.793491, nextPhis[ 1]=10.817408 <==IsSwitchingOccur() T = 32.170000 Tnext = 32.175000 Time: 3.21700e+01 states: [ -2.63045e+00 -1.92605e+00] derivs: [ -1.92581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.175000 pESO->GetIndependentVar(): 32.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.817408, nextPhis[ 0]=-4.841251 prevPhis[ 1]=10.817408, nextPhis[ 1]=10.841251 <==IsSwitchingOccur() T = 32.175000 Tnext = 32.180000 Time: 3.21750e+01 states: [ -2.64007e+00 -1.92105e+00] derivs: [ -1.92081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.180000 pESO->GetIndependentVar(): 32.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.841251, nextPhis[ 0]=-4.865019 prevPhis[ 1]=10.841251, nextPhis[ 1]=10.865019 <==IsSwitchingOccur() T = 32.180000 Tnext = 32.185000 Time: 3.21800e+01 states: [ -2.64965e+00 -1.91605e+00] derivs: [ -1.91581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.185000 pESO->GetIndependentVar(): 32.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.865019, nextPhis[ 0]=-4.888712 prevPhis[ 1]=10.865019, nextPhis[ 1]=10.888712 <==IsSwitchingOccur() T = 32.185000 Tnext = 32.190000 Time: 3.21850e+01 states: [ -2.65922e+00 -1.91105e+00] derivs: [ -1.91081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.190000 pESO->GetIndependentVar(): 32.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.888712, nextPhis[ 0]=-4.912330 prevPhis[ 1]=10.888712, nextPhis[ 1]=10.912330 <==IsSwitchingOccur() T = 32.190000 Tnext = 32.195000 Time: 3.21900e+01 states: [ -2.66876e+00 -1.90605e+00] derivs: [ -1.90581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.195000 pESO->GetIndependentVar(): 32.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.912330, nextPhis[ 0]=-4.935873 prevPhis[ 1]=10.912330, nextPhis[ 1]=10.935873 <==IsSwitchingOccur() T = 32.195000 Tnext = 32.200000 Time: 3.21950e+01 states: [ -2.67827e+00 -1.90105e+00] derivs: [ -1.90081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.200000 pESO->GetIndependentVar(): 32.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.935873, nextPhis[ 0]=-4.959341 prevPhis[ 1]=10.935873, nextPhis[ 1]=10.959341 <==IsSwitchingOccur() T = 32.200000 Tnext = 32.205000 Time: 3.22000e+01 states: [ -2.68776e+00 -1.89605e+00] derivs: [ -1.89581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.205000 pESO->GetIndependentVar(): 32.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.959341, nextPhis[ 0]=-4.982734 prevPhis[ 1]=10.959341, nextPhis[ 1]=10.982734 <==IsSwitchingOccur() T = 32.205000 Tnext = 32.210000 Time: 3.22050e+01 states: [ -2.69723e+00 -1.89105e+00] derivs: [ -1.89081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.210000 pESO->GetIndependentVar(): 32.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.982734, nextPhis[ 0]=-5.006052 prevPhis[ 1]=10.982734, nextPhis[ 1]=11.006052 <==IsSwitchingOccur() T = 32.210000 Tnext = 32.215000 Time: 3.22100e+01 states: [ -2.70667e+00 -1.88605e+00] derivs: [ -1.88581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.215000 pESO->GetIndependentVar(): 32.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.006052, nextPhis[ 0]=-5.029295 prevPhis[ 1]=11.006052, nextPhis[ 1]=11.029295 <==IsSwitchingOccur() T = 32.215000 Tnext = 32.220000 Time: 3.22150e+01 states: [ -2.71608e+00 -1.88105e+00] derivs: [ -1.88081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.220000 pESO->GetIndependentVar(): 32.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.029295, nextPhis[ 0]=-5.052463 prevPhis[ 1]=11.029295, nextPhis[ 1]=11.052463 <==IsSwitchingOccur() T = 32.220000 Tnext = 32.225000 Time: 3.22200e+01 states: [ -2.72547e+00 -1.87605e+00] derivs: [ -1.87581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.225000 pESO->GetIndependentVar(): 32.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.052463, nextPhis[ 0]=-5.075556 prevPhis[ 1]=11.052463, nextPhis[ 1]=11.075556 <==IsSwitchingOccur() T = 32.225000 Tnext = 32.230000 Time: 3.22250e+01 states: [ -2.73483e+00 -1.87105e+00] derivs: [ -1.87081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.230000 pESO->GetIndependentVar(): 32.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.075556, nextPhis[ 0]=-5.098574 prevPhis[ 1]=11.075556, nextPhis[ 1]=11.098574 <==IsSwitchingOccur() T = 32.230000 Tnext = 32.235000 Time: 3.22300e+01 states: [ -2.74417e+00 -1.86605e+00] derivs: [ -1.86581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.235000 pESO->GetIndependentVar(): 32.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.098574, nextPhis[ 0]=-5.121517 prevPhis[ 1]=11.098574, nextPhis[ 1]=11.121517 <==IsSwitchingOccur() T = 32.235000 Tnext = 32.240000 Time: 3.22350e+01 states: [ -2.75349e+00 -1.86105e+00] derivs: [ -1.86081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.240000 pESO->GetIndependentVar(): 32.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.121517, nextPhis[ 0]=-5.144385 prevPhis[ 1]=11.121517, nextPhis[ 1]=11.144385 <==IsSwitchingOccur() T = 32.240000 Tnext = 32.245000 Time: 3.22400e+01 states: [ -2.76278e+00 -1.85605e+00] derivs: [ -1.85581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.245000 pESO->GetIndependentVar(): 32.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.144385, nextPhis[ 0]=-5.167178 prevPhis[ 1]=11.144385, nextPhis[ 1]=11.167178 <==IsSwitchingOccur() T = 32.245000 Tnext = 32.250000 Time: 3.22450e+01 states: [ -2.77204e+00 -1.85105e+00] derivs: [ -1.85081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.250000 pESO->GetIndependentVar(): 32.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.167178, nextPhis[ 0]=-5.189896 prevPhis[ 1]=11.167178, nextPhis[ 1]=11.189896 <==IsSwitchingOccur() T = 32.250000 Tnext = 32.255000 Time: 3.22500e+01 states: [ -2.78128e+00 -1.84605e+00] derivs: [ -1.84581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.255000 pESO->GetIndependentVar(): 32.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.189896, nextPhis[ 0]=-5.212539 prevPhis[ 1]=11.189896, nextPhis[ 1]=11.212539 <==IsSwitchingOccur() T = 32.255000 Tnext = 32.260000 Time: 3.22550e+01 states: [ -2.79049e+00 -1.84105e+00] derivs: [ -1.84081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.260000 pESO->GetIndependentVar(): 32.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.212539, nextPhis[ 0]=-5.235107 prevPhis[ 1]=11.212539, nextPhis[ 1]=11.235107 <==IsSwitchingOccur() T = 32.260000 Tnext = 32.265000 Time: 3.22600e+01 states: [ -2.79968e+00 -1.83605e+00] derivs: [ -1.83581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.265000 pESO->GetIndependentVar(): 32.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.235107, nextPhis[ 0]=-5.257600 prevPhis[ 1]=11.235107, nextPhis[ 1]=11.257600 <==IsSwitchingOccur() T = 32.265000 Tnext = 32.270000 Time: 3.22650e+01 states: [ -2.80885e+00 -1.83105e+00] derivs: [ -1.83081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.270000 pESO->GetIndependentVar(): 32.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.257600, nextPhis[ 0]=-5.280018 prevPhis[ 1]=11.257600, nextPhis[ 1]=11.280018 <==IsSwitchingOccur() T = 32.270000 Tnext = 32.275000 Time: 3.22700e+01 states: [ -2.81799e+00 -1.82605e+00] derivs: [ -1.82581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.275000 pESO->GetIndependentVar(): 32.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.280018, nextPhis[ 0]=-5.302361 prevPhis[ 1]=11.280018, nextPhis[ 1]=11.302361 <==IsSwitchingOccur() T = 32.275000 Tnext = 32.280000 Time: 3.22750e+01 states: [ -2.82710e+00 -1.82105e+00] derivs: [ -1.82081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.280000 pESO->GetIndependentVar(): 32.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.302361, nextPhis[ 0]=-5.324629 prevPhis[ 1]=11.302361, nextPhis[ 1]=11.324629 <==IsSwitchingOccur() T = 32.280000 Tnext = 32.285000 Time: 3.22800e+01 states: [ -2.83619e+00 -1.81605e+00] derivs: [ -1.81581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.285000 pESO->GetIndependentVar(): 32.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.324629, nextPhis[ 0]=-5.346822 prevPhis[ 1]=11.324629, nextPhis[ 1]=11.346822 <==IsSwitchingOccur() T = 32.285000 Tnext = 32.290000 Time: 3.22850e+01 states: [ -2.84526e+00 -1.81105e+00] derivs: [ -1.81081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.290000 pESO->GetIndependentVar(): 32.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.346822, nextPhis[ 0]=-5.368940 prevPhis[ 1]=11.346822, nextPhis[ 1]=11.368940 <==IsSwitchingOccur() T = 32.290000 Tnext = 32.295000 Time: 3.22900e+01 states: [ -2.85430e+00 -1.80605e+00] derivs: [ -1.80581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.295000 pESO->GetIndependentVar(): 32.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.368940, nextPhis[ 0]=-5.390983 prevPhis[ 1]=11.368940, nextPhis[ 1]=11.390983 <==IsSwitchingOccur() T = 32.295000 Tnext = 32.300000 Time: 3.22950e+01 states: [ -2.86331e+00 -1.80105e+00] derivs: [ -1.80081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.300000 pESO->GetIndependentVar(): 32.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.390983, nextPhis[ 0]=-5.412951 prevPhis[ 1]=11.390983, nextPhis[ 1]=11.412951 <==IsSwitchingOccur() T = 32.300000 Tnext = 32.305000 Time: 3.23000e+01 states: [ -2.87230e+00 -1.79605e+00] derivs: [ -1.79581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.305000 pESO->GetIndependentVar(): 32.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.412951, nextPhis[ 0]=-5.434843 prevPhis[ 1]=11.412951, nextPhis[ 1]=11.434843 <==IsSwitchingOccur() T = 32.305000 Tnext = 32.310000 Time: 3.23050e+01 states: [ -2.88126e+00 -1.79105e+00] derivs: [ -1.79081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.310000 pESO->GetIndependentVar(): 32.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.434843, nextPhis[ 0]=-5.456661 prevPhis[ 1]=11.434843, nextPhis[ 1]=11.456661 <==IsSwitchingOccur() T = 32.310000 Tnext = 32.315000 Time: 3.23100e+01 states: [ -2.89020e+00 -1.78605e+00] derivs: [ -1.78581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.315000 pESO->GetIndependentVar(): 32.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.456661, nextPhis[ 0]=-5.478404 prevPhis[ 1]=11.456661, nextPhis[ 1]=11.478404 <==IsSwitchingOccur() T = 32.315000 Tnext = 32.320000 Time: 3.23150e+01 states: [ -2.89912e+00 -1.78105e+00] derivs: [ -1.78081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.320000 pESO->GetIndependentVar(): 32.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.478404, nextPhis[ 0]=-5.500072 prevPhis[ 1]=11.478404, nextPhis[ 1]=11.500072 <==IsSwitchingOccur() T = 32.320000 Tnext = 32.325000 Time: 3.23200e+01 states: [ -2.90801e+00 -1.77605e+00] derivs: [ -1.77581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.325000 pESO->GetIndependentVar(): 32.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.500072, nextPhis[ 0]=-5.521665 prevPhis[ 1]=11.500072, nextPhis[ 1]=11.521665 <==IsSwitchingOccur() T = 32.325000 Tnext = 32.330000 Time: 3.23250e+01 states: [ -2.91687e+00 -1.77105e+00] derivs: [ -1.77081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.330000 pESO->GetIndependentVar(): 32.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.521665, nextPhis[ 0]=-5.543183 prevPhis[ 1]=11.521665, nextPhis[ 1]=11.543183 <==IsSwitchingOccur() T = 32.330000 Tnext = 32.335000 Time: 3.23300e+01 states: [ -2.92571e+00 -1.76605e+00] derivs: [ -1.76581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.335000 pESO->GetIndependentVar(): 32.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.543183, nextPhis[ 0]=-5.564626 prevPhis[ 1]=11.543183, nextPhis[ 1]=11.564626 <==IsSwitchingOccur() T = 32.335000 Tnext = 32.340000 Time: 3.23350e+01 states: [ -2.93452e+00 -1.76105e+00] derivs: [ -1.76081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.340000 pESO->GetIndependentVar(): 32.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.564626, nextPhis[ 0]=-5.585994 prevPhis[ 1]=11.564626, nextPhis[ 1]=11.585994 <==IsSwitchingOccur() T = 32.340000 Tnext = 32.345000 Time: 3.23400e+01 states: [ -2.94331e+00 -1.75605e+00] derivs: [ -1.75581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.345000 pESO->GetIndependentVar(): 32.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.585994, nextPhis[ 0]=-5.607287 prevPhis[ 1]=11.585994, nextPhis[ 1]=11.607287 <==IsSwitchingOccur() T = 32.345000 Tnext = 32.350000 Time: 3.23450e+01 states: [ -2.95208e+00 -1.75105e+00] derivs: [ -1.75081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.350000 pESO->GetIndependentVar(): 32.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.607287, nextPhis[ 0]=-5.628505 prevPhis[ 1]=11.607287, nextPhis[ 1]=11.628505 <==IsSwitchingOccur() T = 32.350000 Tnext = 32.355000 Time: 3.23500e+01 states: [ -2.96082e+00 -1.74605e+00] derivs: [ -1.74581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.355000 pESO->GetIndependentVar(): 32.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.628505, nextPhis[ 0]=-5.649648 prevPhis[ 1]=11.628505, nextPhis[ 1]=11.649648 <==IsSwitchingOccur() T = 32.355000 Tnext = 32.360000 Time: 3.23550e+01 states: [ -2.96953e+00 -1.74105e+00] derivs: [ -1.74081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.360000 pESO->GetIndependentVar(): 32.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.649648, nextPhis[ 0]=-5.670716 prevPhis[ 1]=11.649648, nextPhis[ 1]=11.670716 <==IsSwitchingOccur() T = 32.360000 Tnext = 32.365000 Time: 3.23600e+01 states: [ -2.97822e+00 -1.73605e+00] derivs: [ -1.73581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.365000 pESO->GetIndependentVar(): 32.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.670716, nextPhis[ 0]=-5.691709 prevPhis[ 1]=11.670716, nextPhis[ 1]=11.691709 <==IsSwitchingOccur() T = 32.365000 Tnext = 32.370000 Time: 3.23650e+01 states: [ -2.98688e+00 -1.73105e+00] derivs: [ -1.73081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.370000 pESO->GetIndependentVar(): 32.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.691709, nextPhis[ 0]=-5.712627 prevPhis[ 1]=11.691709, nextPhis[ 1]=11.712627 <==IsSwitchingOccur() T = 32.370000 Tnext = 32.375000 Time: 3.23700e+01 states: [ -2.99552e+00 -1.72605e+00] derivs: [ -1.72581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.375000 pESO->GetIndependentVar(): 32.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.712627, nextPhis[ 0]=-5.733470 prevPhis[ 1]=11.712627, nextPhis[ 1]=11.733470 <==IsSwitchingOccur() T = 32.375000 Tnext = 32.380000 Time: 3.23750e+01 states: [ -3.00414e+00 -1.72105e+00] derivs: [ -1.72081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.380000 pESO->GetIndependentVar(): 32.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.733470, nextPhis[ 0]=-5.754238 prevPhis[ 1]=11.733470, nextPhis[ 1]=11.754238 <==IsSwitchingOccur() T = 32.380000 Tnext = 32.385000 Time: 3.23800e+01 states: [ -3.01273e+00 -1.71605e+00] derivs: [ -1.71581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.385000 pESO->GetIndependentVar(): 32.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.754238, nextPhis[ 0]=-5.774931 prevPhis[ 1]=11.754238, nextPhis[ 1]=11.774931 <==IsSwitchingOccur() T = 32.385000 Tnext = 32.390000 Time: 3.23850e+01 states: [ -3.02129e+00 -1.71105e+00] derivs: [ -1.71081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.390000 pESO->GetIndependentVar(): 32.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.774931, nextPhis[ 0]=-5.795549 prevPhis[ 1]=11.774931, nextPhis[ 1]=11.795549 <==IsSwitchingOccur() T = 32.390000 Tnext = 32.395000 Time: 3.23900e+01 states: [ -3.02983e+00 -1.70605e+00] derivs: [ -1.70581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.395000 pESO->GetIndependentVar(): 32.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.795549, nextPhis[ 0]=-5.816092 prevPhis[ 1]=11.795549, nextPhis[ 1]=11.816092 <==IsSwitchingOccur() T = 32.395000 Tnext = 32.400000 Time: 3.23950e+01 states: [ -3.03835e+00 -1.70105e+00] derivs: [ -1.70081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.400000 pESO->GetIndependentVar(): 32.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.816092, nextPhis[ 0]=-5.836560 prevPhis[ 1]=11.816092, nextPhis[ 1]=11.836560 <==IsSwitchingOccur() T = 32.400000 Tnext = 32.405000 Time: 3.24000e+01 states: [ -3.04684e+00 -1.69605e+00] derivs: [ -1.69581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.405000 pESO->GetIndependentVar(): 32.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.836560, nextPhis[ 0]=-5.856953 prevPhis[ 1]=11.836560, nextPhis[ 1]=11.856953 <==IsSwitchingOccur() T = 32.405000 Tnext = 32.410000 Time: 3.24050e+01 states: [ -3.05530e+00 -1.69105e+00] derivs: [ -1.69081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.410000 pESO->GetIndependentVar(): 32.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.856953, nextPhis[ 0]=-5.877271 prevPhis[ 1]=11.856953, nextPhis[ 1]=11.877271 <==IsSwitchingOccur() T = 32.410000 Tnext = 32.415000 Time: 3.24100e+01 states: [ -3.06374e+00 -1.68605e+00] derivs: [ -1.68581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.415000 pESO->GetIndependentVar(): 32.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.877271, nextPhis[ 0]=-5.897514 prevPhis[ 1]=11.877271, nextPhis[ 1]=11.897514 <==IsSwitchingOccur() T = 32.415000 Tnext = 32.420000 Time: 3.24150e+01 states: [ -3.07215e+00 -1.68105e+00] derivs: [ -1.68081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.420000 pESO->GetIndependentVar(): 32.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.897514, nextPhis[ 0]=-5.917682 prevPhis[ 1]=11.897514, nextPhis[ 1]=11.917682 <==IsSwitchingOccur() T = 32.420000 Tnext = 32.425000 Time: 3.24200e+01 states: [ -3.08054e+00 -1.67605e+00] derivs: [ -1.67581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.425000 pESO->GetIndependentVar(): 32.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.917682, nextPhis[ 0]=-5.937775 prevPhis[ 1]=11.917682, nextPhis[ 1]=11.937775 <==IsSwitchingOccur() T = 32.425000 Tnext = 32.430000 Time: 3.24250e+01 states: [ -3.08891e+00 -1.67105e+00] derivs: [ -1.67081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.430000 pESO->GetIndependentVar(): 32.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.937775, nextPhis[ 0]=-5.957793 prevPhis[ 1]=11.937775, nextPhis[ 1]=11.957793 <==IsSwitchingOccur() T = 32.430000 Tnext = 32.435000 Time: 3.24300e+01 states: [ -3.09725e+00 -1.66605e+00] derivs: [ -1.66581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.435000 pESO->GetIndependentVar(): 32.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.957793, nextPhis[ 0]=-5.977735 prevPhis[ 1]=11.957793, nextPhis[ 1]=11.977735 <==IsSwitchingOccur() T = 32.435000 Tnext = 32.440000 Time: 3.24350e+01 states: [ -3.10556e+00 -1.66105e+00] derivs: [ -1.66081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.440000 pESO->GetIndependentVar(): 32.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.977735, nextPhis[ 0]=-5.997603 prevPhis[ 1]=11.977735, nextPhis[ 1]=11.997603 <==IsSwitchingOccur() T = 32.440000 Tnext = 32.445000 Time: 3.24400e+01 states: [ -3.11385e+00 -1.65605e+00] derivs: [ -1.65581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.445000 pESO->GetIndependentVar(): 32.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.997603, nextPhis[ 0]=-6.017396 prevPhis[ 1]=11.997603, nextPhis[ 1]=12.017396 <==IsSwitchingOccur() T = 32.445000 Tnext = 32.450000 Time: 3.24450e+01 states: [ -3.12211e+00 -1.65105e+00] derivs: [ -1.65081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.450000 pESO->GetIndependentVar(): 32.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.017396, nextPhis[ 0]=-6.037114 prevPhis[ 1]=12.017396, nextPhis[ 1]=12.037114 <==IsSwitchingOccur() T = 32.450000 Tnext = 32.455000 Time: 3.24500e+01 states: [ -3.13035e+00 -1.64605e+00] derivs: [ -1.64581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.455000 pESO->GetIndependentVar(): 32.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.037114, nextPhis[ 0]=-6.056757 prevPhis[ 1]=12.037114, nextPhis[ 1]=12.056757 <==IsSwitchingOccur() T = 32.455000 Tnext = 32.460000 Time: 3.24550e+01 states: [ -3.13857e+00 -1.64105e+00] derivs: [ -1.64081e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.460000 pESO->GetIndependentVar(): 32.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.056757, nextPhis[ 0]=-6.076325 prevPhis[ 1]=12.056757, nextPhis[ 1]=12.076325 <==IsSwitchingOccur() T = 32.460000 Tnext = 32.465000 Time: 3.24600e+01 states: [ -3.14676e+00 -1.63605e+00] derivs: [ -1.63581e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.465000 pESO->GetIndependentVar(): 32.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.076325, nextPhis[ 0]=-6.095816 prevPhis[ 1]=12.076325, nextPhis[ 1]=12.095816 <==IsSwitchingOccur() T = 32.465000 Tnext = 32.470000 Time: 3.24650e+01 states: [ -3.15492e+00 -1.63105e+00] derivs: [ -1.62976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.470000 pESO->GetIndependentVar(): 32.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.095816, nextPhis[ 0]=-6.115231 prevPhis[ 1]=12.095816, nextPhis[ 1]=12.115231 <==IsSwitchingOccur() T = 32.470000 Tnext = 32.475000 Time: 3.24700e+01 states: [ -3.16306e+00 -1.62605e+00] derivs: [ -1.62476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.475000 pESO->GetIndependentVar(): 32.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.115231, nextPhis[ 0]=-6.134572 prevPhis[ 1]=12.115231, nextPhis[ 1]=12.134572 <==IsSwitchingOccur() T = 32.475000 Tnext = 32.480000 Time: 3.24750e+01 states: [ -3.17117e+00 -1.62105e+00] derivs: [ -1.61976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.480000 pESO->GetIndependentVar(): 32.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.134572, nextPhis[ 0]=-6.153837 prevPhis[ 1]=12.134572, nextPhis[ 1]=12.153837 <==IsSwitchingOccur() T = 32.480000 Tnext = 32.485000 Time: 3.24800e+01 states: [ -3.17926e+00 -1.61605e+00] derivs: [ -1.61476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.485000 pESO->GetIndependentVar(): 32.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.153837, nextPhis[ 0]=-6.173027 prevPhis[ 1]=12.153837, nextPhis[ 1]=12.173027 <==IsSwitchingOccur() T = 32.485000 Tnext = 32.490000 Time: 3.24850e+01 states: [ -3.18732e+00 -1.61105e+00] derivs: [ -1.60976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.490000 pESO->GetIndependentVar(): 32.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.173027, nextPhis[ 0]=-6.192143 prevPhis[ 1]=12.173027, nextPhis[ 1]=12.192143 <==IsSwitchingOccur() T = 32.490000 Tnext = 32.495000 Time: 3.24900e+01 states: [ -3.19536e+00 -1.60605e+00] derivs: [ -1.60476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.495000 pESO->GetIndependentVar(): 32.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.192143, nextPhis[ 0]=-6.211183 prevPhis[ 1]=12.192143, nextPhis[ 1]=12.211183 <==IsSwitchingOccur() T = 32.495000 Tnext = 32.500000 Time: 3.24950e+01 states: [ -3.20338e+00 -1.60105e+00] derivs: [ -1.59976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.500000 pESO->GetIndependentVar(): 32.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.211183, nextPhis[ 0]=-6.230149 prevPhis[ 1]=12.211183, nextPhis[ 1]=12.230149 <==IsSwitchingOccur() T = 32.500000 Tnext = 32.505000 Time: 3.25000e+01 states: [ -3.21136e+00 -1.59605e+00] derivs: [ -1.59476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.505000 pESO->GetIndependentVar(): 32.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.230149, nextPhis[ 0]=-6.249039 prevPhis[ 1]=12.230149, nextPhis[ 1]=12.249039 <==IsSwitchingOccur() T = 32.505000 Tnext = 32.510000 Time: 3.25050e+01 states: [ -3.21933e+00 -1.59105e+00] derivs: [ -1.58976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.510000 pESO->GetIndependentVar(): 32.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.249039, nextPhis[ 0]=-6.267855 prevPhis[ 1]=12.249039, nextPhis[ 1]=12.267855 <==IsSwitchingOccur() T = 32.510000 Tnext = 32.515000 Time: 3.25100e+01 states: [ -3.22727e+00 -1.58605e+00] derivs: [ -1.58476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.515000 pESO->GetIndependentVar(): 32.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.267855, nextPhis[ 0]=-6.286595 prevPhis[ 1]=12.267855, nextPhis[ 1]=12.286595 <==IsSwitchingOccur() T = 32.515000 Tnext = 32.520000 Time: 3.25150e+01 states: [ -3.23518e+00 -1.58105e+00] derivs: [ -1.57976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.520000 pESO->GetIndependentVar(): 32.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.286595, nextPhis[ 0]=-6.305260 prevPhis[ 1]=12.286595, nextPhis[ 1]=12.305260 <==IsSwitchingOccur() T = 32.520000 Tnext = 32.525000 Time: 3.25200e+01 states: [ -3.24307e+00 -1.57605e+00] derivs: [ -1.57476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.525000 pESO->GetIndependentVar(): 32.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.305260, nextPhis[ 0]=-6.323851 prevPhis[ 1]=12.305260, nextPhis[ 1]=12.323851 <==IsSwitchingOccur() T = 32.525000 Tnext = 32.530000 Time: 3.25250e+01 states: [ -3.25093e+00 -1.57105e+00] derivs: [ -1.56976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.530000 pESO->GetIndependentVar(): 32.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.323851, nextPhis[ 0]=-6.342366 prevPhis[ 1]=12.323851, nextPhis[ 1]=12.342366 <==IsSwitchingOccur() T = 32.530000 Tnext = 32.535000 Time: 3.25300e+01 states: [ -3.25877e+00 -1.56605e+00] derivs: [ -1.56476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.535000 pESO->GetIndependentVar(): 32.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.342366, nextPhis[ 0]=-6.360807 prevPhis[ 1]=12.342366, nextPhis[ 1]=12.360807 <==IsSwitchingOccur() T = 32.535000 Tnext = 32.540000 Time: 3.25350e+01 states: [ -3.26658e+00 -1.56105e+00] derivs: [ -1.55976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.540000 pESO->GetIndependentVar(): 32.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.360807, nextPhis[ 0]=-6.379172 prevPhis[ 1]=12.360807, nextPhis[ 1]=12.379172 <==IsSwitchingOccur() T = 32.540000 Tnext = 32.545000 Time: 3.25400e+01 states: [ -3.27437e+00 -1.55605e+00] derivs: [ -1.55476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.545000 pESO->GetIndependentVar(): 32.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.379172, nextPhis[ 0]=-6.397463 prevPhis[ 1]=12.379172, nextPhis[ 1]=12.397463 <==IsSwitchingOccur() T = 32.545000 Tnext = 32.550000 Time: 3.25450e+01 states: [ -3.28214e+00 -1.55105e+00] derivs: [ -1.54976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.550000 pESO->GetIndependentVar(): 32.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.397463, nextPhis[ 0]=-6.415678 prevPhis[ 1]=12.397463, nextPhis[ 1]=12.415678 <==IsSwitchingOccur() T = 32.550000 Tnext = 32.555000 Time: 3.25500e+01 states: [ -3.28987e+00 -1.54605e+00] derivs: [ -1.54476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.555000 pESO->GetIndependentVar(): 32.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.415678, nextPhis[ 0]=-6.433818 prevPhis[ 1]=12.415678, nextPhis[ 1]=12.433818 <==IsSwitchingOccur() T = 32.555000 Tnext = 32.560000 Time: 3.25550e+01 states: [ -3.29759e+00 -1.54105e+00] derivs: [ -1.53976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.560000 pESO->GetIndependentVar(): 32.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.433818, nextPhis[ 0]=-6.451884 prevPhis[ 1]=12.433818, nextPhis[ 1]=12.451884 <==IsSwitchingOccur() T = 32.560000 Tnext = 32.565000 Time: 3.25600e+01 states: [ -3.30528e+00 -1.53605e+00] derivs: [ -1.53476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.565000 pESO->GetIndependentVar(): 32.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.451884, nextPhis[ 0]=-6.469874 prevPhis[ 1]=12.451884, nextPhis[ 1]=12.469874 <==IsSwitchingOccur() T = 32.565000 Tnext = 32.570000 Time: 3.25650e+01 states: [ -3.31294e+00 -1.53105e+00] derivs: [ -1.52976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.570000 pESO->GetIndependentVar(): 32.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.469874, nextPhis[ 0]=-6.487790 prevPhis[ 1]=12.469874, nextPhis[ 1]=12.487790 <==IsSwitchingOccur() T = 32.570000 Tnext = 32.575000 Time: 3.25700e+01 states: [ -3.32058e+00 -1.52605e+00] derivs: [ -1.52476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.575000 pESO->GetIndependentVar(): 32.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.487790, nextPhis[ 0]=-6.505630 prevPhis[ 1]=12.487790, nextPhis[ 1]=12.505630 <==IsSwitchingOccur() T = 32.575000 Tnext = 32.580000 Time: 3.25750e+01 states: [ -3.32819e+00 -1.52105e+00] derivs: [ -1.51976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.580000 pESO->GetIndependentVar(): 32.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.505630, nextPhis[ 0]=-6.523396 prevPhis[ 1]=12.505630, nextPhis[ 1]=12.523396 <==IsSwitchingOccur() T = 32.580000 Tnext = 32.585000 Time: 3.25800e+01 states: [ -3.33578e+00 -1.51605e+00] derivs: [ -1.51476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.585000 pESO->GetIndependentVar(): 32.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.523396, nextPhis[ 0]=-6.541086 prevPhis[ 1]=12.523396, nextPhis[ 1]=12.541086 <==IsSwitchingOccur() T = 32.585000 Tnext = 32.590000 Time: 3.25850e+01 states: [ -3.34334e+00 -1.51105e+00] derivs: [ -1.50976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.590000 pESO->GetIndependentVar(): 32.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.541086, nextPhis[ 0]=-6.558701 prevPhis[ 1]=12.541086, nextPhis[ 1]=12.558701 <==IsSwitchingOccur() T = 32.590000 Tnext = 32.595000 Time: 3.25900e+01 states: [ -3.35088e+00 -1.50605e+00] derivs: [ -1.50476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.595000 pESO->GetIndependentVar(): 32.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.558701, nextPhis[ 0]=-6.576242 prevPhis[ 1]=12.558701, nextPhis[ 1]=12.576242 <==IsSwitchingOccur() T = 32.595000 Tnext = 32.600000 Time: 3.25950e+01 states: [ -3.35840e+00 -1.50105e+00] derivs: [ -1.49976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.600000 pESO->GetIndependentVar(): 32.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.576242, nextPhis[ 0]=-6.593707 prevPhis[ 1]=12.576242, nextPhis[ 1]=12.593707 <==IsSwitchingOccur() T = 32.600000 Tnext = 32.605000 Time: 3.26000e+01 states: [ -3.36588e+00 -1.49605e+00] derivs: [ -1.49476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.605000 pESO->GetIndependentVar(): 32.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.593707, nextPhis[ 0]=-6.611098 prevPhis[ 1]=12.593707, nextPhis[ 1]=12.611098 <==IsSwitchingOccur() T = 32.605000 Tnext = 32.610000 Time: 3.26050e+01 states: [ -3.37335e+00 -1.49105e+00] derivs: [ -1.48976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.610000 pESO->GetIndependentVar(): 32.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.611098, nextPhis[ 0]=-6.628413 prevPhis[ 1]=12.611098, nextPhis[ 1]=12.628413 <==IsSwitchingOccur() T = 32.610000 Tnext = 32.615000 Time: 3.26100e+01 states: [ -3.38079e+00 -1.48605e+00] derivs: [ -1.48476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.615000 pESO->GetIndependentVar(): 32.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.628413, nextPhis[ 0]=-6.645654 prevPhis[ 1]=12.628413, nextPhis[ 1]=12.645654 <==IsSwitchingOccur() T = 32.615000 Tnext = 32.620000 Time: 3.26150e+01 states: [ -3.38820e+00 -1.48105e+00] derivs: [ -1.47976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.620000 pESO->GetIndependentVar(): 32.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.645654, nextPhis[ 0]=-6.662819 prevPhis[ 1]=12.645654, nextPhis[ 1]=12.662819 <==IsSwitchingOccur() T = 32.620000 Tnext = 32.625000 Time: 3.26200e+01 states: [ -3.39559e+00 -1.47605e+00] derivs: [ -1.47476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.625000 pESO->GetIndependentVar(): 32.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.662819, nextPhis[ 0]=-6.679909 prevPhis[ 1]=12.662819, nextPhis[ 1]=12.679909 <==IsSwitchingOccur() T = 32.625000 Tnext = 32.630000 Time: 3.26250e+01 states: [ -3.40295e+00 -1.47105e+00] derivs: [ -1.46976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.630000 pESO->GetIndependentVar(): 32.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.679909, nextPhis[ 0]=-6.696925 prevPhis[ 1]=12.679909, nextPhis[ 1]=12.696925 <==IsSwitchingOccur() T = 32.630000 Tnext = 32.635000 Time: 3.26300e+01 states: [ -3.41029e+00 -1.46605e+00] derivs: [ -1.46476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.635000 pESO->GetIndependentVar(): 32.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.696925, nextPhis[ 0]=-6.713865 prevPhis[ 1]=12.696925, nextPhis[ 1]=12.713865 <==IsSwitchingOccur() T = 32.635000 Tnext = 32.640000 Time: 3.26350e+01 states: [ -3.41760e+00 -1.46105e+00] derivs: [ -1.45976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.640000 pESO->GetIndependentVar(): 32.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.713865, nextPhis[ 0]=-6.730731 prevPhis[ 1]=12.713865, nextPhis[ 1]=12.730731 <==IsSwitchingOccur() T = 32.640000 Tnext = 32.645000 Time: 3.26400e+01 states: [ -3.42489e+00 -1.45605e+00] derivs: [ -1.45476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.645000 pESO->GetIndependentVar(): 32.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.730731, nextPhis[ 0]=-6.747521 prevPhis[ 1]=12.730731, nextPhis[ 1]=12.747521 <==IsSwitchingOccur() T = 32.645000 Tnext = 32.650000 Time: 3.26450e+01 states: [ -3.43216e+00 -1.45105e+00] derivs: [ -1.44976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.650000 pESO->GetIndependentVar(): 32.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.747521, nextPhis[ 0]=-6.764237 prevPhis[ 1]=12.747521, nextPhis[ 1]=12.764237 <==IsSwitchingOccur() T = 32.650000 Tnext = 32.655000 Time: 3.26500e+01 states: [ -3.43939e+00 -1.44605e+00] derivs: [ -1.44476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.655000 pESO->GetIndependentVar(): 32.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.764237, nextPhis[ 0]=-6.780877 prevPhis[ 1]=12.764237, nextPhis[ 1]=12.780877 <==IsSwitchingOccur() T = 32.655000 Tnext = 32.660000 Time: 3.26550e+01 states: [ -3.44661e+00 -1.44105e+00] derivs: [ -1.43976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.660000 pESO->GetIndependentVar(): 32.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.780877, nextPhis[ 0]=-6.797442 prevPhis[ 1]=12.780877, nextPhis[ 1]=12.797442 <==IsSwitchingOccur() T = 32.660000 Tnext = 32.665000 Time: 3.26600e+01 states: [ -3.45380e+00 -1.43605e+00] derivs: [ -1.43476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.665000 pESO->GetIndependentVar(): 32.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.797442, nextPhis[ 0]=-6.813933 prevPhis[ 1]=12.797442, nextPhis[ 1]=12.813933 <==IsSwitchingOccur() T = 32.665000 Tnext = 32.670000 Time: 3.26650e+01 states: [ -3.46096e+00 -1.43105e+00] derivs: [ -1.42976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.670000 pESO->GetIndependentVar(): 32.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.813933, nextPhis[ 0]=-6.830348 prevPhis[ 1]=12.813933, nextPhis[ 1]=12.830348 <==IsSwitchingOccur() T = 32.670000 Tnext = 32.675000 Time: 3.26700e+01 states: [ -3.46810e+00 -1.42605e+00] derivs: [ -1.42476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.675000 pESO->GetIndependentVar(): 32.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.830348, nextPhis[ 0]=-6.846689 prevPhis[ 1]=12.830348, nextPhis[ 1]=12.846689 <==IsSwitchingOccur() T = 32.675000 Tnext = 32.680000 Time: 3.26750e+01 states: [ -3.47521e+00 -1.42105e+00] derivs: [ -1.41976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.680000 pESO->GetIndependentVar(): 32.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.846689, nextPhis[ 0]=-6.862954 prevPhis[ 1]=12.846689, nextPhis[ 1]=12.862954 <==IsSwitchingOccur() T = 32.680000 Tnext = 32.685000 Time: 3.26800e+01 states: [ -3.48230e+00 -1.41605e+00] derivs: [ -1.41476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.685000 pESO->GetIndependentVar(): 32.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.862954, nextPhis[ 0]=-6.879145 prevPhis[ 1]=12.862954, nextPhis[ 1]=12.879145 <==IsSwitchingOccur() T = 32.685000 Tnext = 32.690000 Time: 3.26850e+01 states: [ -3.48936e+00 -1.41105e+00] derivs: [ -1.40976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.690000 pESO->GetIndependentVar(): 32.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.879145, nextPhis[ 0]=-6.895260 prevPhis[ 1]=12.879145, nextPhis[ 1]=12.895260 <==IsSwitchingOccur() T = 32.690000 Tnext = 32.695000 Time: 3.26900e+01 states: [ -3.49640e+00 -1.40605e+00] derivs: [ -1.40476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.695000 pESO->GetIndependentVar(): 32.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.895260, nextPhis[ 0]=-6.911300 prevPhis[ 1]=12.895260, nextPhis[ 1]=12.911300 <==IsSwitchingOccur() T = 32.695000 Tnext = 32.700000 Time: 3.26950e+01 states: [ -3.50342e+00 -1.40105e+00] derivs: [ -1.39976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.700000 pESO->GetIndependentVar(): 32.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.911300, nextPhis[ 0]=-6.927266 prevPhis[ 1]=12.911300, nextPhis[ 1]=12.927266 <==IsSwitchingOccur() T = 32.700000 Tnext = 32.705000 Time: 3.27000e+01 states: [ -3.51040e+00 -1.39605e+00] derivs: [ -1.39476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.705000 pESO->GetIndependentVar(): 32.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.927266, nextPhis[ 0]=-6.943156 prevPhis[ 1]=12.927266, nextPhis[ 1]=12.943156 <==IsSwitchingOccur() T = 32.705000 Tnext = 32.710000 Time: 3.27050e+01 states: [ -3.51737e+00 -1.39105e+00] derivs: [ -1.38976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.710000 pESO->GetIndependentVar(): 32.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.943156, nextPhis[ 0]=-6.958972 prevPhis[ 1]=12.943156, nextPhis[ 1]=12.958972 <==IsSwitchingOccur() T = 32.710000 Tnext = 32.715000 Time: 3.27100e+01 states: [ -3.52431e+00 -1.38605e+00] derivs: [ -1.38476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.715000 pESO->GetIndependentVar(): 32.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.958972, nextPhis[ 0]=-6.974712 prevPhis[ 1]=12.958972, nextPhis[ 1]=12.974712 <==IsSwitchingOccur() T = 32.715000 Tnext = 32.720000 Time: 3.27150e+01 states: [ -3.53122e+00 -1.38105e+00] derivs: [ -1.37976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.720000 pESO->GetIndependentVar(): 32.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.974712, nextPhis[ 0]=-6.990377 prevPhis[ 1]=12.974712, nextPhis[ 1]=12.990377 <==IsSwitchingOccur() T = 32.720000 Tnext = 32.725000 Time: 3.27200e+01 states: [ -3.53811e+00 -1.37605e+00] derivs: [ -1.37476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.725000 pESO->GetIndependentVar(): 32.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.990377, nextPhis[ 0]=-7.005968 prevPhis[ 1]=12.990377, nextPhis[ 1]=13.005968 <==IsSwitchingOccur() T = 32.725000 Tnext = 32.730000 Time: 3.27250e+01 states: [ -3.54497e+00 -1.37105e+00] derivs: [ -1.36976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.730000 pESO->GetIndependentVar(): 32.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.005968, nextPhis[ 0]=-7.021483 prevPhis[ 1]=13.005968, nextPhis[ 1]=13.021483 <==IsSwitchingOccur() T = 32.730000 Tnext = 32.735000 Time: 3.27300e+01 states: [ -3.55181e+00 -1.36605e+00] derivs: [ -1.36476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.735000 pESO->GetIndependentVar(): 32.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.021483, nextPhis[ 0]=-7.036924 prevPhis[ 1]=13.021483, nextPhis[ 1]=13.036924 <==IsSwitchingOccur() T = 32.735000 Tnext = 32.740000 Time: 3.27350e+01 states: [ -3.55862e+00 -1.36105e+00] derivs: [ -1.35976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.740000 pESO->GetIndependentVar(): 32.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.036924, nextPhis[ 0]=-7.052289 prevPhis[ 1]=13.036924, nextPhis[ 1]=13.052289 <==IsSwitchingOccur() T = 32.740000 Tnext = 32.745000 Time: 3.27400e+01 states: [ -3.56541e+00 -1.35605e+00] derivs: [ -1.35476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.745000 pESO->GetIndependentVar(): 32.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.052289, nextPhis[ 0]=-7.067580 prevPhis[ 1]=13.052289, nextPhis[ 1]=13.067580 <==IsSwitchingOccur() T = 32.745000 Tnext = 32.750000 Time: 3.27450e+01 states: [ -3.57218e+00 -1.35105e+00] derivs: [ -1.34976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.750000 pESO->GetIndependentVar(): 32.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.067580, nextPhis[ 0]=-7.082795 prevPhis[ 1]=13.067580, nextPhis[ 1]=13.082795 <==IsSwitchingOccur() T = 32.750000 Tnext = 32.755000 Time: 3.27500e+01 states: [ -3.57891e+00 -1.34605e+00] derivs: [ -1.34476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.755000 pESO->GetIndependentVar(): 32.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.082795, nextPhis[ 0]=-7.097935 prevPhis[ 1]=13.082795, nextPhis[ 1]=13.097935 <==IsSwitchingOccur() T = 32.755000 Tnext = 32.760000 Time: 3.27550e+01 states: [ -3.58563e+00 -1.34105e+00] derivs: [ -1.33976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.760000 pESO->GetIndependentVar(): 32.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.097935, nextPhis[ 0]=-7.113001 prevPhis[ 1]=13.097935, nextPhis[ 1]=13.113001 <==IsSwitchingOccur() T = 32.760000 Tnext = 32.765000 Time: 3.27600e+01 states: [ -3.59232e+00 -1.33605e+00] derivs: [ -1.33476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.765000 pESO->GetIndependentVar(): 32.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.113001, nextPhis[ 0]=-7.127991 prevPhis[ 1]=13.113001, nextPhis[ 1]=13.127991 <==IsSwitchingOccur() T = 32.765000 Tnext = 32.770000 Time: 3.27650e+01 states: [ -3.59898e+00 -1.33105e+00] derivs: [ -1.32976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.770000 pESO->GetIndependentVar(): 32.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.127991, nextPhis[ 0]=-7.142907 prevPhis[ 1]=13.127991, nextPhis[ 1]=13.142907 <==IsSwitchingOccur() T = 32.770000 Tnext = 32.775000 Time: 3.27700e+01 states: [ -3.60562e+00 -1.32605e+00] derivs: [ -1.32476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.775000 pESO->GetIndependentVar(): 32.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.142907, nextPhis[ 0]=-7.157747 prevPhis[ 1]=13.142907, nextPhis[ 1]=13.157747 <==IsSwitchingOccur() T = 32.775000 Tnext = 32.780000 Time: 3.27750e+01 states: [ -3.61223e+00 -1.32105e+00] derivs: [ -1.31976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.780000 pESO->GetIndependentVar(): 32.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.157747, nextPhis[ 0]=-7.172513 prevPhis[ 1]=13.157747, nextPhis[ 1]=13.172513 <==IsSwitchingOccur() T = 32.780000 Tnext = 32.785000 Time: 3.27800e+01 states: [ -3.61882e+00 -1.31605e+00] derivs: [ -1.31476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.785000 pESO->GetIndependentVar(): 32.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.172513, nextPhis[ 0]=-7.187203 prevPhis[ 1]=13.172513, nextPhis[ 1]=13.187203 <==IsSwitchingOccur() T = 32.785000 Tnext = 32.790000 Time: 3.27850e+01 states: [ -3.62538e+00 -1.31105e+00] derivs: [ -1.30976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.790000 pESO->GetIndependentVar(): 32.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.187203, nextPhis[ 0]=-7.201818 prevPhis[ 1]=13.187203, nextPhis[ 1]=13.201818 <==IsSwitchingOccur() T = 32.790000 Tnext = 32.795000 Time: 3.27900e+01 states: [ -3.63192e+00 -1.30605e+00] derivs: [ -1.30476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.795000 pESO->GetIndependentVar(): 32.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.201818, nextPhis[ 0]=-7.216359 prevPhis[ 1]=13.201818, nextPhis[ 1]=13.216359 <==IsSwitchingOccur() T = 32.795000 Tnext = 32.800000 Time: 3.27950e+01 states: [ -3.63843e+00 -1.30105e+00] derivs: [ -1.29976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.800000 pESO->GetIndependentVar(): 32.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.216359, nextPhis[ 0]=-7.230824 prevPhis[ 1]=13.216359, nextPhis[ 1]=13.230824 <==IsSwitchingOccur() T = 32.800000 Tnext = 32.805000 Time: 3.28000e+01 states: [ -3.64492e+00 -1.29605e+00] derivs: [ -1.29476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.805000 pESO->GetIndependentVar(): 32.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.230824, nextPhis[ 0]=-7.245215 prevPhis[ 1]=13.230824, nextPhis[ 1]=13.245215 <==IsSwitchingOccur() T = 32.805000 Tnext = 32.810000 Time: 3.28050e+01 states: [ -3.65139e+00 -1.29105e+00] derivs: [ -1.28976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.810000 pESO->GetIndependentVar(): 32.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.245215, nextPhis[ 0]=-7.259530 prevPhis[ 1]=13.245215, nextPhis[ 1]=13.259530 <==IsSwitchingOccur() T = 32.810000 Tnext = 32.815000 Time: 3.28100e+01 states: [ -3.65783e+00 -1.28605e+00] derivs: [ -1.28476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.815000 pESO->GetIndependentVar(): 32.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.259530, nextPhis[ 0]=-7.273771 prevPhis[ 1]=13.259530, nextPhis[ 1]=13.273771 <==IsSwitchingOccur() T = 32.815000 Tnext = 32.820000 Time: 3.28150e+01 states: [ -3.66424e+00 -1.28105e+00] derivs: [ -1.27976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.820000 pESO->GetIndependentVar(): 32.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.273771, nextPhis[ 0]=-7.287936 prevPhis[ 1]=13.273771, nextPhis[ 1]=13.287936 <==IsSwitchingOccur() T = 32.820000 Tnext = 32.825000 Time: 3.28200e+01 states: [ -3.67063e+00 -1.27605e+00] derivs: [ -1.27476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.825000 pESO->GetIndependentVar(): 32.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.287936, nextPhis[ 0]=-7.302026 prevPhis[ 1]=13.287936, nextPhis[ 1]=13.302026 <==IsSwitchingOccur() T = 32.825000 Tnext = 32.830000 Time: 3.28250e+01 states: [ -3.67699e+00 -1.27105e+00] derivs: [ -1.26976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.830000 pESO->GetIndependentVar(): 32.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.302026, nextPhis[ 0]=-7.316042 prevPhis[ 1]=13.302026, nextPhis[ 1]=13.316042 <==IsSwitchingOccur() T = 32.830000 Tnext = 32.835000 Time: 3.28300e+01 states: [ -3.68333e+00 -1.26605e+00] derivs: [ -1.26476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.835000 pESO->GetIndependentVar(): 32.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.316042, nextPhis[ 0]=-7.329982 prevPhis[ 1]=13.316042, nextPhis[ 1]=13.329982 <==IsSwitchingOccur() T = 32.835000 Tnext = 32.840000 Time: 3.28350e+01 states: [ -3.68964e+00 -1.26105e+00] derivs: [ -1.25976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.840000 pESO->GetIndependentVar(): 32.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.329982, nextPhis[ 0]=-7.343848 prevPhis[ 1]=13.329982, nextPhis[ 1]=13.343848 <==IsSwitchingOccur() T = 32.840000 Tnext = 32.845000 Time: 3.28400e+01 states: [ -3.69593e+00 -1.25605e+00] derivs: [ -1.25476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.845000 pESO->GetIndependentVar(): 32.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.343848, nextPhis[ 0]=-7.357638 prevPhis[ 1]=13.343848, nextPhis[ 1]=13.357638 <==IsSwitchingOccur() T = 32.845000 Tnext = 32.850000 Time: 3.28450e+01 states: [ -3.70219e+00 -1.25105e+00] derivs: [ -1.24976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.850000 pESO->GetIndependentVar(): 32.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.357638, nextPhis[ 0]=-7.371354 prevPhis[ 1]=13.357638, nextPhis[ 1]=13.371354 <==IsSwitchingOccur() T = 32.850000 Tnext = 32.855000 Time: 3.28500e+01 states: [ -3.70843e+00 -1.24605e+00] derivs: [ -1.24476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.855000 pESO->GetIndependentVar(): 32.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.371354, nextPhis[ 0]=-7.384994 prevPhis[ 1]=13.371354, nextPhis[ 1]=13.384994 <==IsSwitchingOccur() T = 32.855000 Tnext = 32.860000 Time: 3.28550e+01 states: [ -3.71465e+00 -1.24105e+00] derivs: [ -1.23976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.860000 pESO->GetIndependentVar(): 32.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.384994, nextPhis[ 0]=-7.398559 prevPhis[ 1]=13.384994, nextPhis[ 1]=13.398559 <==IsSwitchingOccur() T = 32.860000 Tnext = 32.865000 Time: 3.28600e+01 states: [ -3.72083e+00 -1.23605e+00] derivs: [ -1.23476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.865000 pESO->GetIndependentVar(): 32.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.398559, nextPhis[ 0]=-7.412050 prevPhis[ 1]=13.398559, nextPhis[ 1]=13.412050 <==IsSwitchingOccur() T = 32.865000 Tnext = 32.870000 Time: 3.28650e+01 states: [ -3.72700e+00 -1.23105e+00] derivs: [ -1.22976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.870000 pESO->GetIndependentVar(): 32.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.412050, nextPhis[ 0]=-7.425465 prevPhis[ 1]=13.412050, nextPhis[ 1]=13.425465 <==IsSwitchingOccur() T = 32.870000 Tnext = 32.875000 Time: 3.28700e+01 states: [ -3.73314e+00 -1.22605e+00] derivs: [ -1.22476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.875000 pESO->GetIndependentVar(): 32.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.425465, nextPhis[ 0]=-7.438806 prevPhis[ 1]=13.425465, nextPhis[ 1]=13.438806 <==IsSwitchingOccur() T = 32.875000 Tnext = 32.880000 Time: 3.28750e+01 states: [ -3.73925e+00 -1.22105e+00] derivs: [ -1.21976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.880000 pESO->GetIndependentVar(): 32.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.438806, nextPhis[ 0]=-7.452071 prevPhis[ 1]=13.438806, nextPhis[ 1]=13.452071 <==IsSwitchingOccur() T = 32.880000 Tnext = 32.885000 Time: 3.28800e+01 states: [ -3.74534e+00 -1.21605e+00] derivs: [ -1.21476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.885000 pESO->GetIndependentVar(): 32.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.452071, nextPhis[ 0]=-7.465262 prevPhis[ 1]=13.452071, nextPhis[ 1]=13.465262 <==IsSwitchingOccur() T = 32.885000 Tnext = 32.890000 Time: 3.28850e+01 states: [ -3.75140e+00 -1.21105e+00] derivs: [ -1.20976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.890000 pESO->GetIndependentVar(): 32.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.465262, nextPhis[ 0]=-7.478377 prevPhis[ 1]=13.465262, nextPhis[ 1]=13.478377 <==IsSwitchingOccur() T = 32.890000 Tnext = 32.895000 Time: 3.28900e+01 states: [ -3.75744e+00 -1.20605e+00] derivs: [ -1.20476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.895000 pESO->GetIndependentVar(): 32.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.478377, nextPhis[ 0]=-7.491417 prevPhis[ 1]=13.478377, nextPhis[ 1]=13.491417 <==IsSwitchingOccur() T = 32.895000 Tnext = 32.900000 Time: 3.28950e+01 states: [ -3.76345e+00 -1.20105e+00] derivs: [ -1.19976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.900000 pESO->GetIndependentVar(): 32.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.491417, nextPhis[ 0]=-7.504383 prevPhis[ 1]=13.491417, nextPhis[ 1]=13.504383 <==IsSwitchingOccur() T = 32.900000 Tnext = 32.905000 Time: 3.29000e+01 states: [ -3.76944e+00 -1.19605e+00] derivs: [ -1.19476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.905000 pESO->GetIndependentVar(): 32.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.504383, nextPhis[ 0]=-7.517273 prevPhis[ 1]=13.504383, nextPhis[ 1]=13.517273 <==IsSwitchingOccur() T = 32.905000 Tnext = 32.910000 Time: 3.29050e+01 states: [ -3.77541e+00 -1.19105e+00] derivs: [ -1.18976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.910000 pESO->GetIndependentVar(): 32.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.517273, nextPhis[ 0]=-7.530089 prevPhis[ 1]=13.517273, nextPhis[ 1]=13.530089 <==IsSwitchingOccur() T = 32.910000 Tnext = 32.915000 Time: 3.29100e+01 states: [ -3.78134e+00 -1.18605e+00] derivs: [ -1.18476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.915000 pESO->GetIndependentVar(): 32.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.530089, nextPhis[ 0]=-7.542829 prevPhis[ 1]=13.530089, nextPhis[ 1]=13.542829 <==IsSwitchingOccur() T = 32.915000 Tnext = 32.920000 Time: 3.29150e+01 states: [ -3.78726e+00 -1.18105e+00] derivs: [ -1.17976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.920000 pESO->GetIndependentVar(): 32.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.542829, nextPhis[ 0]=-7.555495 prevPhis[ 1]=13.542829, nextPhis[ 1]=13.555495 <==IsSwitchingOccur() T = 32.920000 Tnext = 32.925000 Time: 3.29200e+01 states: [ -3.79315e+00 -1.17605e+00] derivs: [ -1.17476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.925000 pESO->GetIndependentVar(): 32.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.555495, nextPhis[ 0]=-7.568085 prevPhis[ 1]=13.555495, nextPhis[ 1]=13.568085 <==IsSwitchingOccur() T = 32.925000 Tnext = 32.930000 Time: 3.29250e+01 states: [ -3.79901e+00 -1.17105e+00] derivs: [ -1.16976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.930000 pESO->GetIndependentVar(): 32.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.568085, nextPhis[ 0]=-7.580600 prevPhis[ 1]=13.568085, nextPhis[ 1]=13.580600 <==IsSwitchingOccur() T = 32.930000 Tnext = 32.935000 Time: 3.29300e+01 states: [ -3.80485e+00 -1.16605e+00] derivs: [ -1.16476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.935000 pESO->GetIndependentVar(): 32.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.580600, nextPhis[ 0]=-7.593041 prevPhis[ 1]=13.580600, nextPhis[ 1]=13.593041 <==IsSwitchingOccur() T = 32.935000 Tnext = 32.940000 Time: 3.29350e+01 states: [ -3.81066e+00 -1.16105e+00] derivs: [ -1.15976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.940000 pESO->GetIndependentVar(): 32.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.593041, nextPhis[ 0]=-7.605406 prevPhis[ 1]=13.593041, nextPhis[ 1]=13.605406 <==IsSwitchingOccur() T = 32.940000 Tnext = 32.945000 Time: 3.29400e+01 states: [ -3.81645e+00 -1.15605e+00] derivs: [ -1.15476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.945000 pESO->GetIndependentVar(): 32.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.605406, nextPhis[ 0]=-7.617697 prevPhis[ 1]=13.605406, nextPhis[ 1]=13.617697 <==IsSwitchingOccur() T = 32.945000 Tnext = 32.950000 Time: 3.29450e+01 states: [ -3.82221e+00 -1.15105e+00] derivs: [ -1.14976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.950000 pESO->GetIndependentVar(): 32.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.617697, nextPhis[ 0]=-7.629912 prevPhis[ 1]=13.617697, nextPhis[ 1]=13.629912 <==IsSwitchingOccur() T = 32.950000 Tnext = 32.955000 Time: 3.29500e+01 states: [ -3.82795e+00 -1.14605e+00] derivs: [ -1.14476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.955000 pESO->GetIndependentVar(): 32.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.629912, nextPhis[ 0]=-7.642053 prevPhis[ 1]=13.629912, nextPhis[ 1]=13.642053 <==IsSwitchingOccur() T = 32.955000 Tnext = 32.960000 Time: 3.29550e+01 states: [ -3.83367e+00 -1.14105e+00] derivs: [ -1.13976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.960000 pESO->GetIndependentVar(): 32.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.642053, nextPhis[ 0]=-7.654118 prevPhis[ 1]=13.642053, nextPhis[ 1]=13.654118 <==IsSwitchingOccur() T = 32.960000 Tnext = 32.965000 Time: 3.29600e+01 states: [ -3.83935e+00 -1.13605e+00] derivs: [ -1.13476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.965000 pESO->GetIndependentVar(): 32.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.654118, nextPhis[ 0]=-7.666108 prevPhis[ 1]=13.654118, nextPhis[ 1]=13.666108 <==IsSwitchingOccur() T = 32.965000 Tnext = 32.970000 Time: 3.29650e+01 states: [ -3.84502e+00 -1.13105e+00] derivs: [ -1.12976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.970000 pESO->GetIndependentVar(): 32.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.666108, nextPhis[ 0]=-7.678024 prevPhis[ 1]=13.666108, nextPhis[ 1]=13.678024 <==IsSwitchingOccur() T = 32.970000 Tnext = 32.975000 Time: 3.29700e+01 states: [ -3.85066e+00 -1.12605e+00] derivs: [ -1.12476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.975000 pESO->GetIndependentVar(): 32.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.678024, nextPhis[ 0]=-7.689864 prevPhis[ 1]=13.678024, nextPhis[ 1]=13.689864 <==IsSwitchingOccur() T = 32.975000 Tnext = 32.980000 Time: 3.29750e+01 states: [ -3.85627e+00 -1.12105e+00] derivs: [ -1.11976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.980000 pESO->GetIndependentVar(): 32.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.689864, nextPhis[ 0]=-7.701630 prevPhis[ 1]=13.689864, nextPhis[ 1]=13.701630 <==IsSwitchingOccur() T = 32.980000 Tnext = 32.985000 Time: 3.29800e+01 states: [ -3.86186e+00 -1.11605e+00] derivs: [ -1.11476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.985000 pESO->GetIndependentVar(): 32.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.701630, nextPhis[ 0]=-7.713320 prevPhis[ 1]=13.701630, nextPhis[ 1]=13.713320 <==IsSwitchingOccur() T = 32.985000 Tnext = 32.990000 Time: 3.29850e+01 states: [ -3.86742e+00 -1.11105e+00] derivs: [ -1.10976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.990000 pESO->GetIndependentVar(): 32.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.713320, nextPhis[ 0]=-7.724936 prevPhis[ 1]=13.713320, nextPhis[ 1]=13.724936 <==IsSwitchingOccur() T = 32.990000 Tnext = 32.995000 Time: 3.29900e+01 states: [ -3.87296e+00 -1.10605e+00] derivs: [ -1.10476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 32.995000 pESO->GetIndependentVar(): 32.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.724936, nextPhis[ 0]=-7.736476 prevPhis[ 1]=13.724936, nextPhis[ 1]=13.736476 <==IsSwitchingOccur() T = 32.995000 Tnext = 33.000000 Time: 3.29950e+01 states: [ -3.87847e+00 -1.10105e+00] derivs: [ -1.09976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.000000 pESO->GetIndependentVar(): 33.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.736476, nextPhis[ 0]=-7.747941 prevPhis[ 1]=13.736476, nextPhis[ 1]=13.747941 <==IsSwitchingOccur() T = 33.000000 Tnext = 33.005000 Time: 3.30000e+01 states: [ -3.88396e+00 -1.09605e+00] derivs: [ -1.09476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.005000 pESO->GetIndependentVar(): 33.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.747941, nextPhis[ 0]=-7.759332 prevPhis[ 1]=13.747941, nextPhis[ 1]=13.759332 <==IsSwitchingOccur() T = 33.005000 Tnext = 33.010000 Time: 3.30050e+01 states: [ -3.88943e+00 -1.09105e+00] derivs: [ -1.08976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.010000 pESO->GetIndependentVar(): 33.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.759332, nextPhis[ 0]=-7.770647 prevPhis[ 1]=13.759332, nextPhis[ 1]=13.770647 <==IsSwitchingOccur() T = 33.010000 Tnext = 33.015000 Time: 3.30100e+01 states: [ -3.89486e+00 -1.08605e+00] derivs: [ -1.08476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.015000 pESO->GetIndependentVar(): 33.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.770647, nextPhis[ 0]=-7.781888 prevPhis[ 1]=13.770647, nextPhis[ 1]=13.781888 <==IsSwitchingOccur() T = 33.015000 Tnext = 33.020000 Time: 3.30150e+01 states: [ -3.90028e+00 -1.08105e+00] derivs: [ -1.07976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.020000 pESO->GetIndependentVar(): 33.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.781888, nextPhis[ 0]=-7.793053 prevPhis[ 1]=13.781888, nextPhis[ 1]=13.793053 <==IsSwitchingOccur() T = 33.020000 Tnext = 33.025000 Time: 3.30200e+01 states: [ -3.90567e+00 -1.07605e+00] derivs: [ -1.07476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.025000 pESO->GetIndependentVar(): 33.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.793053, nextPhis[ 0]=-7.804144 prevPhis[ 1]=13.793053, nextPhis[ 1]=13.804144 <==IsSwitchingOccur() T = 33.025000 Tnext = 33.030000 Time: 3.30250e+01 states: [ -3.91103e+00 -1.07105e+00] derivs: [ -1.06976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.030000 pESO->GetIndependentVar(): 33.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.804144, nextPhis[ 0]=-7.815159 prevPhis[ 1]=13.804144, nextPhis[ 1]=13.815159 <==IsSwitchingOccur() T = 33.030000 Tnext = 33.035000 Time: 3.30300e+01 states: [ -3.91637e+00 -1.06605e+00] derivs: [ -1.06476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.035000 pESO->GetIndependentVar(): 33.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.815159, nextPhis[ 0]=-7.826099 prevPhis[ 1]=13.815159, nextPhis[ 1]=13.826099 <==IsSwitchingOccur() T = 33.035000 Tnext = 33.040000 Time: 3.30350e+01 states: [ -3.92168e+00 -1.06105e+00] derivs: [ -1.05976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.040000 pESO->GetIndependentVar(): 33.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.826099, nextPhis[ 0]=-7.836965 prevPhis[ 1]=13.826099, nextPhis[ 1]=13.836965 <==IsSwitchingOccur() T = 33.040000 Tnext = 33.045000 Time: 3.30400e+01 states: [ -3.92697e+00 -1.05605e+00] derivs: [ -1.05476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.045000 pESO->GetIndependentVar(): 33.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.836965, nextPhis[ 0]=-7.847755 prevPhis[ 1]=13.836965, nextPhis[ 1]=13.847755 <==IsSwitchingOccur() T = 33.045000 Tnext = 33.050000 Time: 3.30450e+01 states: [ -3.93223e+00 -1.05105e+00] derivs: [ -1.04976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.050000 pESO->GetIndependentVar(): 33.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.847755, nextPhis[ 0]=-7.858471 prevPhis[ 1]=13.847755, nextPhis[ 1]=13.858471 <==IsSwitchingOccur() T = 33.050000 Tnext = 33.055000 Time: 3.30500e+01 states: [ -3.93747e+00 -1.04605e+00] derivs: [ -1.04476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.055000 pESO->GetIndependentVar(): 33.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.858471, nextPhis[ 0]=-7.869111 prevPhis[ 1]=13.858471, nextPhis[ 1]=13.869111 <==IsSwitchingOccur() T = 33.055000 Tnext = 33.060000 Time: 3.30550e+01 states: [ -3.94269e+00 -1.04105e+00] derivs: [ -1.03976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.060000 pESO->GetIndependentVar(): 33.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.869111, nextPhis[ 0]=-7.879677 prevPhis[ 1]=13.869111, nextPhis[ 1]=13.879677 <==IsSwitchingOccur() T = 33.060000 Tnext = 33.065000 Time: 3.30600e+01 states: [ -3.94787e+00 -1.03605e+00] derivs: [ -1.03476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.065000 pESO->GetIndependentVar(): 33.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.879677, nextPhis[ 0]=-7.890167 prevPhis[ 1]=13.879677, nextPhis[ 1]=13.890167 <==IsSwitchingOccur() T = 33.065000 Tnext = 33.070000 Time: 3.30650e+01 states: [ -3.95304e+00 -1.03105e+00] derivs: [ -1.02976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.070000 pESO->GetIndependentVar(): 33.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.890167, nextPhis[ 0]=-7.900582 prevPhis[ 1]=13.890167, nextPhis[ 1]=13.900582 <==IsSwitchingOccur() T = 33.070000 Tnext = 33.075000 Time: 3.30700e+01 states: [ -3.95818e+00 -1.02605e+00] derivs: [ -1.02476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.075000 pESO->GetIndependentVar(): 33.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.900582, nextPhis[ 0]=-7.910923 prevPhis[ 1]=13.900582, nextPhis[ 1]=13.910923 <==IsSwitchingOccur() T = 33.075000 Tnext = 33.080000 Time: 3.30750e+01 states: [ -3.96329e+00 -1.02105e+00] derivs: [ -1.01976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.080000 pESO->GetIndependentVar(): 33.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.910923, nextPhis[ 0]=-7.921188 prevPhis[ 1]=13.910923, nextPhis[ 1]=13.921188 <==IsSwitchingOccur() T = 33.080000 Tnext = 33.085000 Time: 3.30800e+01 states: [ -3.96838e+00 -1.01605e+00] derivs: [ -1.01476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.085000 pESO->GetIndependentVar(): 33.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.921188, nextPhis[ 0]=-7.931379 prevPhis[ 1]=13.921188, nextPhis[ 1]=13.931379 <==IsSwitchingOccur() T = 33.085000 Tnext = 33.090000 Time: 3.30850e+01 states: [ -3.97344e+00 -1.01105e+00] derivs: [ -1.00976e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.090000 pESO->GetIndependentVar(): 33.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.931379, nextPhis[ 0]=-7.941494 prevPhis[ 1]=13.931379, nextPhis[ 1]=13.941494 <==IsSwitchingOccur() T = 33.090000 Tnext = 33.095000 Time: 3.30900e+01 states: [ -3.97848e+00 -1.00605e+00] derivs: [ -1.00476e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.095000 pESO->GetIndependentVar(): 33.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.941494, nextPhis[ 0]=-7.951535 prevPhis[ 1]=13.941494, nextPhis[ 1]=13.951535 <==IsSwitchingOccur() T = 33.095000 Tnext = 33.100000 Time: 3.30950e+01 states: [ -3.98349e+00 -1.00105e+00] derivs: [ -9.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.100000 pESO->GetIndependentVar(): 33.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.951535, nextPhis[ 0]=-7.961500 prevPhis[ 1]=13.951535, nextPhis[ 1]=13.961500 <==IsSwitchingOccur() T = 33.100000 Tnext = 33.105000 Time: 3.31000e+01 states: [ -3.98848e+00 -9.96055e-01] derivs: [ -9.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.105000 pESO->GetIndependentVar(): 33.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.961500, nextPhis[ 0]=-7.971390 prevPhis[ 1]=13.961500, nextPhis[ 1]=13.971390 <==IsSwitchingOccur() T = 33.105000 Tnext = 33.110000 Time: 3.31050e+01 states: [ -3.99345e+00 -9.91055e-01] derivs: [ -9.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.110000 pESO->GetIndependentVar(): 33.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.971390, nextPhis[ 0]=-7.981206 prevPhis[ 1]=13.971390, nextPhis[ 1]=13.981206 <==IsSwitchingOccur() T = 33.110000 Tnext = 33.115000 Time: 3.31100e+01 states: [ -3.99838e+00 -9.86055e-01] derivs: [ -9.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.115000 pESO->GetIndependentVar(): 33.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.981206, nextPhis[ 0]=-7.990946 prevPhis[ 1]=13.981206, nextPhis[ 1]=13.990946 <==IsSwitchingOccur() T = 33.115000 Tnext = 33.120000 Time: 3.31150e+01 states: [ -4.00330e+00 -9.81055e-01] derivs: [ -9.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.120000 pESO->GetIndependentVar(): 33.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.990946, nextPhis[ 0]=-8.000612 prevPhis[ 1]=13.990946, nextPhis[ 1]=14.000612 <==IsSwitchingOccur() T = 33.120000 Tnext = 33.125000 Time: 3.31200e+01 states: [ -4.00819e+00 -9.76055e-01] derivs: [ -9.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.125000 pESO->GetIndependentVar(): 33.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.000612, nextPhis[ 0]=-8.010202 prevPhis[ 1]=14.000612, nextPhis[ 1]=14.010202 <==IsSwitchingOccur() T = 33.125000 Tnext = 33.130000 Time: 3.31250e+01 states: [ -4.01305e+00 -9.71055e-01] derivs: [ -9.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.130000 pESO->GetIndependentVar(): 33.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.010202, nextPhis[ 0]=-8.019718 prevPhis[ 1]=14.010202, nextPhis[ 1]=14.019718 <==IsSwitchingOccur() T = 33.130000 Tnext = 33.135000 Time: 3.31300e+01 states: [ -4.01789e+00 -9.66055e-01] derivs: [ -9.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.135000 pESO->GetIndependentVar(): 33.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.019718, nextPhis[ 0]=-8.029158 prevPhis[ 1]=14.019718, nextPhis[ 1]=14.029158 <==IsSwitchingOccur() T = 33.135000 Tnext = 33.140000 Time: 3.31350e+01 states: [ -4.02270e+00 -9.61055e-01] derivs: [ -9.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.140000 pESO->GetIndependentVar(): 33.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.029158, nextPhis[ 0]=-8.038523 prevPhis[ 1]=14.029158, nextPhis[ 1]=14.038523 <==IsSwitchingOccur() T = 33.140000 Tnext = 33.145000 Time: 3.31400e+01 states: [ -4.02749e+00 -9.56055e-01] derivs: [ -9.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.145000 pESO->GetIndependentVar(): 33.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.038523, nextPhis[ 0]=-8.047814 prevPhis[ 1]=14.038523, nextPhis[ 1]=14.047814 <==IsSwitchingOccur() T = 33.145000 Tnext = 33.150000 Time: 3.31450e+01 states: [ -4.03225e+00 -9.51055e-01] derivs: [ -9.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.150000 pESO->GetIndependentVar(): 33.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.047814, nextPhis[ 0]=-8.057029 prevPhis[ 1]=14.047814, nextPhis[ 1]=14.057029 <==IsSwitchingOccur() T = 33.150000 Tnext = 33.155000 Time: 3.31500e+01 states: [ -4.03699e+00 -9.46055e-01] derivs: [ -9.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.155000 pESO->GetIndependentVar(): 33.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.057029, nextPhis[ 0]=-8.066170 prevPhis[ 1]=14.057029, nextPhis[ 1]=14.066170 <==IsSwitchingOccur() T = 33.155000 Tnext = 33.160000 Time: 3.31550e+01 states: [ -4.04171e+00 -9.41055e-01] derivs: [ -9.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.160000 pESO->GetIndependentVar(): 33.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.066170, nextPhis[ 0]=-8.075235 prevPhis[ 1]=14.066170, nextPhis[ 1]=14.075235 <==IsSwitchingOccur() T = 33.160000 Tnext = 33.165000 Time: 3.31600e+01 states: [ -4.04639e+00 -9.36055e-01] derivs: [ -9.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.165000 pESO->GetIndependentVar(): 33.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.075235, nextPhis[ 0]=-8.084225 prevPhis[ 1]=14.075235, nextPhis[ 1]=14.084225 <==IsSwitchingOccur() T = 33.165000 Tnext = 33.170000 Time: 3.31650e+01 states: [ -4.05106e+00 -9.31055e-01] derivs: [ -9.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.170000 pESO->GetIndependentVar(): 33.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.084225, nextPhis[ 0]=-8.093141 prevPhis[ 1]=14.084225, nextPhis[ 1]=14.093141 <==IsSwitchingOccur() T = 33.170000 Tnext = 33.175000 Time: 3.31700e+01 states: [ -4.05570e+00 -9.26055e-01] derivs: [ -9.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.175000 pESO->GetIndependentVar(): 33.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.093141, nextPhis[ 0]=-8.101981 prevPhis[ 1]=14.093141, nextPhis[ 1]=14.101981 <==IsSwitchingOccur() T = 33.175000 Tnext = 33.180000 Time: 3.31750e+01 states: [ -4.06031e+00 -9.21055e-01] derivs: [ -9.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.180000 pESO->GetIndependentVar(): 33.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.101981, nextPhis[ 0]=-8.110747 prevPhis[ 1]=14.101981, nextPhis[ 1]=14.110747 <==IsSwitchingOccur() T = 33.180000 Tnext = 33.185000 Time: 3.31800e+01 states: [ -4.06490e+00 -9.16055e-01] derivs: [ -9.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.185000 pESO->GetIndependentVar(): 33.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.110747, nextPhis[ 0]=-8.119437 prevPhis[ 1]=14.110747, nextPhis[ 1]=14.119437 <==IsSwitchingOccur() T = 33.185000 Tnext = 33.190000 Time: 3.31850e+01 states: [ -4.06946e+00 -9.11055e-01] derivs: [ -9.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.190000 pESO->GetIndependentVar(): 33.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.119437, nextPhis[ 0]=-8.128053 prevPhis[ 1]=14.119437, nextPhis[ 1]=14.128053 <==IsSwitchingOccur() T = 33.190000 Tnext = 33.195000 Time: 3.31900e+01 states: [ -4.07400e+00 -9.06055e-01] derivs: [ -9.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.195000 pESO->GetIndependentVar(): 33.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.128053, nextPhis[ 0]=-8.136593 prevPhis[ 1]=14.128053, nextPhis[ 1]=14.136593 <==IsSwitchingOccur() T = 33.195000 Tnext = 33.200000 Time: 3.31950e+01 states: [ -4.07851e+00 -9.01055e-01] derivs: [ -8.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.200000 pESO->GetIndependentVar(): 33.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.136593, nextPhis[ 0]=-8.145058 prevPhis[ 1]=14.136593, nextPhis[ 1]=14.145058 <==IsSwitchingOccur() T = 33.200000 Tnext = 33.205000 Time: 3.32000e+01 states: [ -4.08300e+00 -8.96055e-01] derivs: [ -8.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.205000 pESO->GetIndependentVar(): 33.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.145058, nextPhis[ 0]=-8.153449 prevPhis[ 1]=14.145058, nextPhis[ 1]=14.153449 <==IsSwitchingOccur() T = 33.205000 Tnext = 33.210000 Time: 3.32050e+01 states: [ -4.08746e+00 -8.91055e-01] derivs: [ -8.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.210000 pESO->GetIndependentVar(): 33.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.153449, nextPhis[ 0]=-8.161764 prevPhis[ 1]=14.153449, nextPhis[ 1]=14.161764 <==IsSwitchingOccur() T = 33.210000 Tnext = 33.215000 Time: 3.32100e+01 states: [ -4.09190e+00 -8.86055e-01] derivs: [ -8.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.215000 pESO->GetIndependentVar(): 33.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.161764, nextPhis[ 0]=-8.170005 prevPhis[ 1]=14.161764, nextPhis[ 1]=14.170005 <==IsSwitchingOccur() T = 33.215000 Tnext = 33.220000 Time: 3.32150e+01 states: [ -4.09632e+00 -8.81055e-01] derivs: [ -8.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.220000 pESO->GetIndependentVar(): 33.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.170005, nextPhis[ 0]=-8.178170 prevPhis[ 1]=14.170005, nextPhis[ 1]=14.178170 <==IsSwitchingOccur() T = 33.220000 Tnext = 33.225000 Time: 3.32200e+01 states: [ -4.10071e+00 -8.76055e-01] derivs: [ -8.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.225000 pESO->GetIndependentVar(): 33.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.178170, nextPhis[ 0]=-8.186261 prevPhis[ 1]=14.178170, nextPhis[ 1]=14.186261 <==IsSwitchingOccur() T = 33.225000 Tnext = 33.230000 Time: 3.32250e+01 states: [ -4.10507e+00 -8.71055e-01] derivs: [ -8.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.230000 pESO->GetIndependentVar(): 33.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.186261, nextPhis[ 0]=-8.194276 prevPhis[ 1]=14.186261, nextPhis[ 1]=14.194276 <==IsSwitchingOccur() T = 33.230000 Tnext = 33.235000 Time: 3.32300e+01 states: [ -4.10941e+00 -8.66055e-01] derivs: [ -8.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.235000 pESO->GetIndependentVar(): 33.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.194276, nextPhis[ 0]=-8.202216 prevPhis[ 1]=14.194276, nextPhis[ 1]=14.202216 <==IsSwitchingOccur() T = 33.235000 Tnext = 33.240000 Time: 3.32350e+01 states: [ -4.11372e+00 -8.61055e-01] derivs: [ -8.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.240000 pESO->GetIndependentVar(): 33.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.202216, nextPhis[ 0]=-8.210082 prevPhis[ 1]=14.202216, nextPhis[ 1]=14.210082 <==IsSwitchingOccur() T = 33.240000 Tnext = 33.245000 Time: 3.32400e+01 states: [ -4.11801e+00 -8.56055e-01] derivs: [ -8.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.245000 pESO->GetIndependentVar(): 33.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.210082, nextPhis[ 0]=-8.217872 prevPhis[ 1]=14.210082, nextPhis[ 1]=14.217872 <==IsSwitchingOccur() T = 33.245000 Tnext = 33.250000 Time: 3.32450e+01 states: [ -4.12227e+00 -8.51055e-01] derivs: [ -8.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.250000 pESO->GetIndependentVar(): 33.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.217872, nextPhis[ 0]=-8.225588 prevPhis[ 1]=14.217872, nextPhis[ 1]=14.225588 <==IsSwitchingOccur() T = 33.250000 Tnext = 33.255000 Time: 3.32500e+01 states: [ -4.12651e+00 -8.46055e-01] derivs: [ -8.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.255000 pESO->GetIndependentVar(): 33.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.225588, nextPhis[ 0]=-8.233228 prevPhis[ 1]=14.225588, nextPhis[ 1]=14.233228 <==IsSwitchingOccur() T = 33.255000 Tnext = 33.260000 Time: 3.32550e+01 states: [ -4.13072e+00 -8.41055e-01] derivs: [ -8.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.260000 pESO->GetIndependentVar(): 33.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.233228, nextPhis[ 0]=-8.240794 prevPhis[ 1]=14.233228, nextPhis[ 1]=14.240794 <==IsSwitchingOccur() T = 33.260000 Tnext = 33.265000 Time: 3.32600e+01 states: [ -4.13491e+00 -8.36055e-01] derivs: [ -8.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.265000 pESO->GetIndependentVar(): 33.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.240794, nextPhis[ 0]=-8.248284 prevPhis[ 1]=14.240794, nextPhis[ 1]=14.248284 <==IsSwitchingOccur() T = 33.265000 Tnext = 33.270000 Time: 3.32650e+01 states: [ -4.13908e+00 -8.31055e-01] derivs: [ -8.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.270000 pESO->GetIndependentVar(): 33.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.248284, nextPhis[ 0]=-8.255699 prevPhis[ 1]=14.248284, nextPhis[ 1]=14.255699 <==IsSwitchingOccur() T = 33.270000 Tnext = 33.275000 Time: 3.32700e+01 states: [ -4.14321e+00 -8.26055e-01] derivs: [ -8.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.275000 pESO->GetIndependentVar(): 33.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.255699, nextPhis[ 0]=-8.263040 prevPhis[ 1]=14.255699, nextPhis[ 1]=14.263040 <==IsSwitchingOccur() T = 33.275000 Tnext = 33.280000 Time: 3.32750e+01 states: [ -4.14733e+00 -8.21055e-01] derivs: [ -8.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.280000 pESO->GetIndependentVar(): 33.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.263040, nextPhis[ 0]=-8.270305 prevPhis[ 1]=14.263040, nextPhis[ 1]=14.270305 <==IsSwitchingOccur() T = 33.280000 Tnext = 33.285000 Time: 3.32800e+01 states: [ -4.15142e+00 -8.16055e-01] derivs: [ -8.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.285000 pESO->GetIndependentVar(): 33.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.270305, nextPhis[ 0]=-8.277496 prevPhis[ 1]=14.270305, nextPhis[ 1]=14.277496 <==IsSwitchingOccur() T = 33.285000 Tnext = 33.290000 Time: 3.32850e+01 states: [ -4.15548e+00 -8.11055e-01] derivs: [ -8.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.290000 pESO->GetIndependentVar(): 33.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.277496, nextPhis[ 0]=-8.284611 prevPhis[ 1]=14.277496, nextPhis[ 1]=14.284611 <==IsSwitchingOccur() T = 33.290000 Tnext = 33.295000 Time: 3.32900e+01 states: [ -4.15952e+00 -8.06055e-01] derivs: [ -8.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.295000 pESO->GetIndependentVar(): 33.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.284611, nextPhis[ 0]=-8.291652 prevPhis[ 1]=14.284611, nextPhis[ 1]=14.291652 <==IsSwitchingOccur() T = 33.295000 Tnext = 33.300000 Time: 3.32950e+01 states: [ -4.16353e+00 -8.01055e-01] derivs: [ -7.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.300000 pESO->GetIndependentVar(): 33.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.291652, nextPhis[ 0]=-8.298617 prevPhis[ 1]=14.291652, nextPhis[ 1]=14.298617 <==IsSwitchingOccur() T = 33.300000 Tnext = 33.305000 Time: 3.33000e+01 states: [ -4.16752e+00 -7.96055e-01] derivs: [ -7.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.305000 pESO->GetIndependentVar(): 33.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.298617, nextPhis[ 0]=-8.305507 prevPhis[ 1]=14.298617, nextPhis[ 1]=14.305507 <==IsSwitchingOccur() T = 33.305000 Tnext = 33.310000 Time: 3.33050e+01 states: [ -4.17148e+00 -7.91055e-01] derivs: [ -7.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.310000 pESO->GetIndependentVar(): 33.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.305507, nextPhis[ 0]=-8.312323 prevPhis[ 1]=14.305507, nextPhis[ 1]=14.312323 <==IsSwitchingOccur() T = 33.310000 Tnext = 33.315000 Time: 3.33100e+01 states: [ -4.17542e+00 -7.86055e-01] derivs: [ -7.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.315000 pESO->GetIndependentVar(): 33.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.312323, nextPhis[ 0]=-8.319063 prevPhis[ 1]=14.312323, nextPhis[ 1]=14.319063 <==IsSwitchingOccur() T = 33.315000 Tnext = 33.320000 Time: 3.33150e+01 states: [ -4.17934e+00 -7.81055e-01] derivs: [ -7.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.320000 pESO->GetIndependentVar(): 33.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.319063, nextPhis[ 0]=-8.325729 prevPhis[ 1]=14.319063, nextPhis[ 1]=14.325729 <==IsSwitchingOccur() T = 33.320000 Tnext = 33.325000 Time: 3.33200e+01 states: [ -4.18322e+00 -7.76055e-01] derivs: [ -7.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.325000 pESO->GetIndependentVar(): 33.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.325729, nextPhis[ 0]=-8.332319 prevPhis[ 1]=14.325729, nextPhis[ 1]=14.332319 <==IsSwitchingOccur() T = 33.325000 Tnext = 33.330000 Time: 3.33250e+01 states: [ -4.18709e+00 -7.71055e-01] derivs: [ -7.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.330000 pESO->GetIndependentVar(): 33.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.332319, nextPhis[ 0]=-8.338835 prevPhis[ 1]=14.332319, nextPhis[ 1]=14.338835 <==IsSwitchingOccur() T = 33.330000 Tnext = 33.335000 Time: 3.33300e+01 states: [ -4.19093e+00 -7.66055e-01] derivs: [ -7.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.335000 pESO->GetIndependentVar(): 33.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.338835, nextPhis[ 0]=-8.345275 prevPhis[ 1]=14.338835, nextPhis[ 1]=14.345275 <==IsSwitchingOccur() T = 33.335000 Tnext = 33.340000 Time: 3.33350e+01 states: [ -4.19474e+00 -7.61055e-01] derivs: [ -7.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.340000 pESO->GetIndependentVar(): 33.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.345275, nextPhis[ 0]=-8.351640 prevPhis[ 1]=14.345275, nextPhis[ 1]=14.351640 <==IsSwitchingOccur() T = 33.340000 Tnext = 33.345000 Time: 3.33400e+01 states: [ -4.19853e+00 -7.56055e-01] derivs: [ -7.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.345000 pESO->GetIndependentVar(): 33.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.351640, nextPhis[ 0]=-8.357931 prevPhis[ 1]=14.351640, nextPhis[ 1]=14.357931 <==IsSwitchingOccur() T = 33.345000 Tnext = 33.350000 Time: 3.33450e+01 states: [ -4.20229e+00 -7.51055e-01] derivs: [ -7.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.350000 pESO->GetIndependentVar(): 33.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.357931, nextPhis[ 0]=-8.364146 prevPhis[ 1]=14.357931, nextPhis[ 1]=14.364146 <==IsSwitchingOccur() T = 33.350000 Tnext = 33.355000 Time: 3.33500e+01 states: [ -4.20603e+00 -7.46055e-01] derivs: [ -7.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.355000 pESO->GetIndependentVar(): 33.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.364146, nextPhis[ 0]=-8.370287 prevPhis[ 1]=14.364146, nextPhis[ 1]=14.370287 <==IsSwitchingOccur() T = 33.355000 Tnext = 33.360000 Time: 3.33550e+01 states: [ -4.20974e+00 -7.41055e-01] derivs: [ -7.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.360000 pESO->GetIndependentVar(): 33.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.370287, nextPhis[ 0]=-8.376352 prevPhis[ 1]=14.370287, nextPhis[ 1]=14.376352 <==IsSwitchingOccur() T = 33.360000 Tnext = 33.365000 Time: 3.33600e+01 states: [ -4.21343e+00 -7.36055e-01] derivs: [ -7.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.365000 pESO->GetIndependentVar(): 33.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.376352, nextPhis[ 0]=-8.382343 prevPhis[ 1]=14.376352, nextPhis[ 1]=14.382343 <==IsSwitchingOccur() T = 33.365000 Tnext = 33.370000 Time: 3.33650e+01 states: [ -4.21710e+00 -7.31055e-01] derivs: [ -7.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.370000 pESO->GetIndependentVar(): 33.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.382343, nextPhis[ 0]=-8.388258 prevPhis[ 1]=14.382343, nextPhis[ 1]=14.388258 <==IsSwitchingOccur() T = 33.370000 Tnext = 33.375000 Time: 3.33700e+01 states: [ -4.22073e+00 -7.26055e-01] derivs: [ -7.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.375000 pESO->GetIndependentVar(): 33.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.388258, nextPhis[ 0]=-8.394098 prevPhis[ 1]=14.388258, nextPhis[ 1]=14.394098 <==IsSwitchingOccur() T = 33.375000 Tnext = 33.380000 Time: 3.33750e+01 states: [ -4.22435e+00 -7.21055e-01] derivs: [ -7.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.380000 pESO->GetIndependentVar(): 33.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.394098, nextPhis[ 0]=-8.399864 prevPhis[ 1]=14.394098, nextPhis[ 1]=14.399864 <==IsSwitchingOccur() T = 33.380000 Tnext = 33.385000 Time: 3.33800e+01 states: [ -4.22794e+00 -7.16055e-01] derivs: [ -7.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.385000 pESO->GetIndependentVar(): 33.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.399864, nextPhis[ 0]=-8.405554 prevPhis[ 1]=14.399864, nextPhis[ 1]=14.405554 <==IsSwitchingOccur() T = 33.385000 Tnext = 33.390000 Time: 3.33850e+01 states: [ -4.23150e+00 -7.11055e-01] derivs: [ -7.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.390000 pESO->GetIndependentVar(): 33.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.405554, nextPhis[ 0]=-8.411170 prevPhis[ 1]=14.405554, nextPhis[ 1]=14.411170 <==IsSwitchingOccur() T = 33.390000 Tnext = 33.395000 Time: 3.33900e+01 states: [ -4.23504e+00 -7.06055e-01] derivs: [ -7.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.395000 pESO->GetIndependentVar(): 33.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.411170, nextPhis[ 0]=-8.416710 prevPhis[ 1]=14.411170, nextPhis[ 1]=14.416710 <==IsSwitchingOccur() T = 33.395000 Tnext = 33.400000 Time: 3.33950e+01 states: [ -4.23855e+00 -7.01055e-01] derivs: [ -6.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.400000 pESO->GetIndependentVar(): 33.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.416710, nextPhis[ 0]=-8.422176 prevPhis[ 1]=14.416710, nextPhis[ 1]=14.422176 <==IsSwitchingOccur() T = 33.400000 Tnext = 33.405000 Time: 3.34000e+01 states: [ -4.24204e+00 -6.96055e-01] derivs: [ -6.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.405000 pESO->GetIndependentVar(): 33.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.422176, nextPhis[ 0]=-8.427566 prevPhis[ 1]=14.422176, nextPhis[ 1]=14.427566 <==IsSwitchingOccur() T = 33.405000 Tnext = 33.410000 Time: 3.34050e+01 states: [ -4.24550e+00 -6.91055e-01] derivs: [ -6.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.410000 pESO->GetIndependentVar(): 33.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.427566, nextPhis[ 0]=-8.432881 prevPhis[ 1]=14.427566, nextPhis[ 1]=14.432881 <==IsSwitchingOccur() T = 33.410000 Tnext = 33.415000 Time: 3.34100e+01 states: [ -4.24894e+00 -6.86055e-01] derivs: [ -6.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.415000 pESO->GetIndependentVar(): 33.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.432881, nextPhis[ 0]=-8.438122 prevPhis[ 1]=14.432881, nextPhis[ 1]=14.438122 <==IsSwitchingOccur() T = 33.415000 Tnext = 33.420000 Time: 3.34150e+01 states: [ -4.25236e+00 -6.81055e-01] derivs: [ -6.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.420000 pESO->GetIndependentVar(): 33.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.438122, nextPhis[ 0]=-8.443287 prevPhis[ 1]=14.438122, nextPhis[ 1]=14.443287 <==IsSwitchingOccur() T = 33.420000 Tnext = 33.425000 Time: 3.34200e+01 states: [ -4.25574e+00 -6.76055e-01] derivs: [ -6.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.425000 pESO->GetIndependentVar(): 33.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.443287, nextPhis[ 0]=-8.448378 prevPhis[ 1]=14.443287, nextPhis[ 1]=14.448378 <==IsSwitchingOccur() T = 33.425000 Tnext = 33.430000 Time: 3.34250e+01 states: [ -4.25911e+00 -6.71055e-01] derivs: [ -6.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.430000 pESO->GetIndependentVar(): 33.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.448378, nextPhis[ 0]=-8.453393 prevPhis[ 1]=14.448378, nextPhis[ 1]=14.453393 <==IsSwitchingOccur() T = 33.430000 Tnext = 33.435000 Time: 3.34300e+01 states: [ -4.26245e+00 -6.66055e-01] derivs: [ -6.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.435000 pESO->GetIndependentVar(): 33.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.453393, nextPhis[ 0]=-8.458334 prevPhis[ 1]=14.453393, nextPhis[ 1]=14.458334 <==IsSwitchingOccur() T = 33.435000 Tnext = 33.440000 Time: 3.34350e+01 states: [ -4.26576e+00 -6.61055e-01] derivs: [ -6.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.440000 pESO->GetIndependentVar(): 33.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.458334, nextPhis[ 0]=-8.463199 prevPhis[ 1]=14.458334, nextPhis[ 1]=14.463199 <==IsSwitchingOccur() T = 33.440000 Tnext = 33.445000 Time: 3.34400e+01 states: [ -4.26905e+00 -6.56055e-01] derivs: [ -6.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.445000 pESO->GetIndependentVar(): 33.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.463199, nextPhis[ 0]=-8.467989 prevPhis[ 1]=14.463199, nextPhis[ 1]=14.467989 <==IsSwitchingOccur() T = 33.445000 Tnext = 33.450000 Time: 3.34450e+01 states: [ -4.27231e+00 -6.51055e-01] derivs: [ -6.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.450000 pESO->GetIndependentVar(): 33.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.467989, nextPhis[ 0]=-8.472705 prevPhis[ 1]=14.467989, nextPhis[ 1]=14.472705 <==IsSwitchingOccur() T = 33.450000 Tnext = 33.455000 Time: 3.34500e+01 states: [ -4.27555e+00 -6.46055e-01] derivs: [ -6.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.455000 pESO->GetIndependentVar(): 33.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.472705, nextPhis[ 0]=-8.477345 prevPhis[ 1]=14.472705, nextPhis[ 1]=14.477345 <==IsSwitchingOccur() T = 33.455000 Tnext = 33.460000 Time: 3.34550e+01 states: [ -4.27876e+00 -6.41055e-01] derivs: [ -6.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.460000 pESO->GetIndependentVar(): 33.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.477345, nextPhis[ 0]=-8.481911 prevPhis[ 1]=14.477345, nextPhis[ 1]=14.481911 <==IsSwitchingOccur() T = 33.460000 Tnext = 33.465000 Time: 3.34600e+01 states: [ -4.28195e+00 -6.36055e-01] derivs: [ -6.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.465000 pESO->GetIndependentVar(): 33.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.481911, nextPhis[ 0]=-8.486401 prevPhis[ 1]=14.481911, nextPhis[ 1]=14.486401 <==IsSwitchingOccur() T = 33.465000 Tnext = 33.470000 Time: 3.34650e+01 states: [ -4.28512e+00 -6.31055e-01] derivs: [ -6.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.470000 pESO->GetIndependentVar(): 33.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.486401, nextPhis[ 0]=-8.490817 prevPhis[ 1]=14.486401, nextPhis[ 1]=14.490817 <==IsSwitchingOccur() T = 33.470000 Tnext = 33.475000 Time: 3.34700e+01 states: [ -4.28825e+00 -6.26055e-01] derivs: [ -6.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.475000 pESO->GetIndependentVar(): 33.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.490817, nextPhis[ 0]=-8.495157 prevPhis[ 1]=14.490817, nextPhis[ 1]=14.495157 <==IsSwitchingOccur() T = 33.475000 Tnext = 33.480000 Time: 3.34750e+01 states: [ -4.29137e+00 -6.21055e-01] derivs: [ -6.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.480000 pESO->GetIndependentVar(): 33.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.495157, nextPhis[ 0]=-8.499422 prevPhis[ 1]=14.495157, nextPhis[ 1]=14.499422 <==IsSwitchingOccur() T = 33.480000 Tnext = 33.485000 Time: 3.34800e+01 states: [ -4.29446e+00 -6.16055e-01] derivs: [ -6.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.485000 pESO->GetIndependentVar(): 33.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.499422, nextPhis[ 0]=-8.503613 prevPhis[ 1]=14.499422, nextPhis[ 1]=14.503613 <==IsSwitchingOccur() T = 33.485000 Tnext = 33.490000 Time: 3.34850e+01 states: [ -4.29752e+00 -6.11055e-01] derivs: [ -6.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.490000 pESO->GetIndependentVar(): 33.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.503613, nextPhis[ 0]=-8.507728 prevPhis[ 1]=14.503613, nextPhis[ 1]=14.507728 <==IsSwitchingOccur() T = 33.490000 Tnext = 33.495000 Time: 3.34900e+01 states: [ -4.30056e+00 -6.06055e-01] derivs: [ -6.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.495000 pESO->GetIndependentVar(): 33.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.507728, nextPhis[ 0]=-8.511769 prevPhis[ 1]=14.507728, nextPhis[ 1]=14.511769 <==IsSwitchingOccur() T = 33.495000 Tnext = 33.500000 Time: 3.34950e+01 states: [ -4.30357e+00 -6.01055e-01] derivs: [ -5.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.500000 pESO->GetIndependentVar(): 33.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.511769, nextPhis[ 0]=-8.515734 prevPhis[ 1]=14.511769, nextPhis[ 1]=14.515734 <==IsSwitchingOccur() T = 33.500000 Tnext = 33.505000 Time: 3.35000e+01 states: [ -4.30656e+00 -5.96055e-01] derivs: [ -5.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.505000 pESO->GetIndependentVar(): 33.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.515734, nextPhis[ 0]=-8.519624 prevPhis[ 1]=14.515734, nextPhis[ 1]=14.519624 <==IsSwitchingOccur() T = 33.505000 Tnext = 33.510000 Time: 3.35050e+01 states: [ -4.30952e+00 -5.91055e-01] derivs: [ -5.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.510000 pESO->GetIndependentVar(): 33.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.519624, nextPhis[ 0]=-8.523440 prevPhis[ 1]=14.519624, nextPhis[ 1]=14.523440 <==IsSwitchingOccur() T = 33.510000 Tnext = 33.515000 Time: 3.35100e+01 states: [ -4.31246e+00 -5.86055e-01] derivs: [ -5.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.515000 pESO->GetIndependentVar(): 33.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.523440, nextPhis[ 0]=-8.527180 prevPhis[ 1]=14.523440, nextPhis[ 1]=14.527180 <==IsSwitchingOccur() T = 33.515000 Tnext = 33.520000 Time: 3.35150e+01 states: [ -4.31538e+00 -5.81055e-01] derivs: [ -5.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.520000 pESO->GetIndependentVar(): 33.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.527180, nextPhis[ 0]=-8.530846 prevPhis[ 1]=14.527180, nextPhis[ 1]=14.530846 <==IsSwitchingOccur() T = 33.520000 Tnext = 33.525000 Time: 3.35200e+01 states: [ -4.31826e+00 -5.76055e-01] derivs: [ -5.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.525000 pESO->GetIndependentVar(): 33.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.530846, nextPhis[ 0]=-8.534436 prevPhis[ 1]=14.530846, nextPhis[ 1]=14.534436 <==IsSwitchingOccur() T = 33.525000 Tnext = 33.530000 Time: 3.35250e+01 states: [ -4.32113e+00 -5.71055e-01] derivs: [ -5.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.530000 pESO->GetIndependentVar(): 33.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.534436, nextPhis[ 0]=-8.537952 prevPhis[ 1]=14.534436, nextPhis[ 1]=14.537952 <==IsSwitchingOccur() T = 33.530000 Tnext = 33.535000 Time: 3.35300e+01 states: [ -4.32397e+00 -5.66055e-01] derivs: [ -5.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.535000 pESO->GetIndependentVar(): 33.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.537952, nextPhis[ 0]=-8.541392 prevPhis[ 1]=14.537952, nextPhis[ 1]=14.541392 <==IsSwitchingOccur() T = 33.535000 Tnext = 33.540000 Time: 3.35350e+01 states: [ -4.32678e+00 -5.61055e-01] derivs: [ -5.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.540000 pESO->GetIndependentVar(): 33.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.541392, nextPhis[ 0]=-8.544757 prevPhis[ 1]=14.541392, nextPhis[ 1]=14.544757 <==IsSwitchingOccur() T = 33.540000 Tnext = 33.545000 Time: 3.35400e+01 states: [ -4.32957e+00 -5.56055e-01] derivs: [ -5.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.545000 pESO->GetIndependentVar(): 33.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.544757, nextPhis[ 0]=-8.548048 prevPhis[ 1]=14.544757, nextPhis[ 1]=14.548048 <==IsSwitchingOccur() T = 33.545000 Tnext = 33.550000 Time: 3.35450e+01 states: [ -4.33233e+00 -5.51055e-01] derivs: [ -5.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.550000 pESO->GetIndependentVar(): 33.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.548048, nextPhis[ 0]=-8.551263 prevPhis[ 1]=14.548048, nextPhis[ 1]=14.551263 <==IsSwitchingOccur() T = 33.550000 Tnext = 33.555000 Time: 3.35500e+01 states: [ -4.33507e+00 -5.46055e-01] derivs: [ -5.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.555000 pESO->GetIndependentVar(): 33.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.551263, nextPhis[ 0]=-8.554404 prevPhis[ 1]=14.551263, nextPhis[ 1]=14.554404 <==IsSwitchingOccur() T = 33.555000 Tnext = 33.560000 Time: 3.35550e+01 states: [ -4.33778e+00 -5.41055e-01] derivs: [ -5.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.560000 pESO->GetIndependentVar(): 33.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.554404, nextPhis[ 0]=-8.557469 prevPhis[ 1]=14.554404, nextPhis[ 1]=14.557469 <==IsSwitchingOccur() T = 33.560000 Tnext = 33.565000 Time: 3.35600e+01 states: [ -4.34047e+00 -5.36055e-01] derivs: [ -5.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.565000 pESO->GetIndependentVar(): 33.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.557469, nextPhis[ 0]=-8.560460 prevPhis[ 1]=14.557469, nextPhis[ 1]=14.560460 <==IsSwitchingOccur() T = 33.565000 Tnext = 33.570000 Time: 3.35650e+01 states: [ -4.34314e+00 -5.31055e-01] derivs: [ -5.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.570000 pESO->GetIndependentVar(): 33.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.560460, nextPhis[ 0]=-8.563375 prevPhis[ 1]=14.560460, nextPhis[ 1]=14.563375 <==IsSwitchingOccur() T = 33.570000 Tnext = 33.575000 Time: 3.35700e+01 states: [ -4.34577e+00 -5.26055e-01] derivs: [ -5.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.575000 pESO->GetIndependentVar(): 33.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.563375, nextPhis[ 0]=-8.566215 prevPhis[ 1]=14.563375, nextPhis[ 1]=14.566215 <==IsSwitchingOccur() T = 33.575000 Tnext = 33.580000 Time: 3.35750e+01 states: [ -4.34839e+00 -5.21055e-01] derivs: [ -5.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.580000 pESO->GetIndependentVar(): 33.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.566215, nextPhis[ 0]=-8.568981 prevPhis[ 1]=14.566215, nextPhis[ 1]=14.568981 <==IsSwitchingOccur() T = 33.580000 Tnext = 33.585000 Time: 3.35800e+01 states: [ -4.35098e+00 -5.16055e-01] derivs: [ -5.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.585000 pESO->GetIndependentVar(): 33.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.568981, nextPhis[ 0]=-8.571671 prevPhis[ 1]=14.568981, nextPhis[ 1]=14.571671 <==IsSwitchingOccur() T = 33.585000 Tnext = 33.590000 Time: 3.35850e+01 states: [ -4.35354e+00 -5.11055e-01] derivs: [ -5.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.590000 pESO->GetIndependentVar(): 33.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.571671, nextPhis[ 0]=-8.574287 prevPhis[ 1]=14.571671, nextPhis[ 1]=14.574287 <==IsSwitchingOccur() T = 33.590000 Tnext = 33.595000 Time: 3.35900e+01 states: [ -4.35608e+00 -5.06055e-01] derivs: [ -5.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.595000 pESO->GetIndependentVar(): 33.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.574287, nextPhis[ 0]=-8.576827 prevPhis[ 1]=14.574287, nextPhis[ 1]=14.576827 <==IsSwitchingOccur() T = 33.595000 Tnext = 33.600000 Time: 3.35950e+01 states: [ -4.35859e+00 -5.01055e-01] derivs: [ -4.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.600000 pESO->GetIndependentVar(): 33.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.576827, nextPhis[ 0]=-8.579293 prevPhis[ 1]=14.576827, nextPhis[ 1]=14.579293 <==IsSwitchingOccur() T = 33.600000 Tnext = 33.605000 Time: 3.36000e+01 states: [ -4.36108e+00 -4.96055e-01] derivs: [ -4.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.605000 pESO->GetIndependentVar(): 33.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.579293, nextPhis[ 0]=-8.581683 prevPhis[ 1]=14.579293, nextPhis[ 1]=14.581683 <==IsSwitchingOccur() T = 33.605000 Tnext = 33.610000 Time: 3.36050e+01 states: [ -4.36354e+00 -4.91055e-01] derivs: [ -4.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.610000 pESO->GetIndependentVar(): 33.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.581683, nextPhis[ 0]=-8.583998 prevPhis[ 1]=14.581683, nextPhis[ 1]=14.583998 <==IsSwitchingOccur() T = 33.610000 Tnext = 33.615000 Time: 3.36100e+01 states: [ -4.36598e+00 -4.86055e-01] derivs: [ -4.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.615000 pESO->GetIndependentVar(): 33.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.583998, nextPhis[ 0]=-8.586239 prevPhis[ 1]=14.583998, nextPhis[ 1]=14.586239 <==IsSwitchingOccur() T = 33.615000 Tnext = 33.620000 Time: 3.36150e+01 states: [ -4.36839e+00 -4.81055e-01] derivs: [ -4.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.620000 pESO->GetIndependentVar(): 33.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.586239, nextPhis[ 0]=-8.588404 prevPhis[ 1]=14.586239, nextPhis[ 1]=14.588404 <==IsSwitchingOccur() T = 33.620000 Tnext = 33.625000 Time: 3.36200e+01 states: [ -4.37078e+00 -4.76055e-01] derivs: [ -4.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.625000 pESO->GetIndependentVar(): 33.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.588404, nextPhis[ 0]=-8.590495 prevPhis[ 1]=14.588404, nextPhis[ 1]=14.590495 <==IsSwitchingOccur() T = 33.625000 Tnext = 33.630000 Time: 3.36250e+01 states: [ -4.37315e+00 -4.71055e-01] derivs: [ -4.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.630000 pESO->GetIndependentVar(): 33.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.590495, nextPhis[ 0]=-8.592510 prevPhis[ 1]=14.590495, nextPhis[ 1]=14.592510 <==IsSwitchingOccur() T = 33.630000 Tnext = 33.635000 Time: 3.36300e+01 states: [ -4.37549e+00 -4.66055e-01] derivs: [ -4.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.635000 pESO->GetIndependentVar(): 33.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.592510, nextPhis[ 0]=-8.594451 prevPhis[ 1]=14.592510, nextPhis[ 1]=14.594451 <==IsSwitchingOccur() T = 33.635000 Tnext = 33.640000 Time: 3.36350e+01 states: [ -4.37780e+00 -4.61055e-01] derivs: [ -4.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.640000 pESO->GetIndependentVar(): 33.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.594451, nextPhis[ 0]=-8.596316 prevPhis[ 1]=14.594451, nextPhis[ 1]=14.596316 <==IsSwitchingOccur() T = 33.640000 Tnext = 33.645000 Time: 3.36400e+01 states: [ -4.38009e+00 -4.56055e-01] derivs: [ -4.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.645000 pESO->GetIndependentVar(): 33.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.596316, nextPhis[ 0]=-8.598106 prevPhis[ 1]=14.596316, nextPhis[ 1]=14.598106 <==IsSwitchingOccur() T = 33.645000 Tnext = 33.650000 Time: 3.36450e+01 states: [ -4.38235e+00 -4.51055e-01] derivs: [ -4.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.650000 pESO->GetIndependentVar(): 33.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.598106, nextPhis[ 0]=-8.599822 prevPhis[ 1]=14.598106, nextPhis[ 1]=14.599822 <==IsSwitchingOccur() T = 33.650000 Tnext = 33.655000 Time: 3.36500e+01 states: [ -4.38459e+00 -4.46055e-01] derivs: [ -4.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.655000 pESO->GetIndependentVar(): 33.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.599822, nextPhis[ 0]=-8.601462 prevPhis[ 1]=14.599822, nextPhis[ 1]=14.601462 <==IsSwitchingOccur() T = 33.655000 Tnext = 33.660000 Time: 3.36550e+01 states: [ -4.38680e+00 -4.41055e-01] derivs: [ -4.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.660000 pESO->GetIndependentVar(): 33.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.601462, nextPhis[ 0]=-8.603028 prevPhis[ 1]=14.601462, nextPhis[ 1]=14.603028 <==IsSwitchingOccur() T = 33.660000 Tnext = 33.665000 Time: 3.36600e+01 states: [ -4.38899e+00 -4.36055e-01] derivs: [ -4.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.665000 pESO->GetIndependentVar(): 33.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.603028, nextPhis[ 0]=-8.604518 prevPhis[ 1]=14.603028, nextPhis[ 1]=14.604518 <==IsSwitchingOccur() T = 33.665000 Tnext = 33.670000 Time: 3.36650e+01 states: [ -4.39115e+00 -4.31055e-01] derivs: [ -4.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.670000 pESO->GetIndependentVar(): 33.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.604518, nextPhis[ 0]=-8.605934 prevPhis[ 1]=14.604518, nextPhis[ 1]=14.605934 <==IsSwitchingOccur() T = 33.670000 Tnext = 33.675000 Time: 3.36700e+01 states: [ -4.39329e+00 -4.26055e-01] derivs: [ -4.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.675000 pESO->GetIndependentVar(): 33.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.605934, nextPhis[ 0]=-8.607274 prevPhis[ 1]=14.605934, nextPhis[ 1]=14.607274 <==IsSwitchingOccur() T = 33.675000 Tnext = 33.680000 Time: 3.36750e+01 states: [ -4.39541e+00 -4.21055e-01] derivs: [ -4.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.680000 pESO->GetIndependentVar(): 33.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.607274, nextPhis[ 0]=-8.608539 prevPhis[ 1]=14.607274, nextPhis[ 1]=14.608539 <==IsSwitchingOccur() T = 33.680000 Tnext = 33.685000 Time: 3.36800e+01 states: [ -4.39749e+00 -4.16055e-01] derivs: [ -4.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.685000 pESO->GetIndependentVar(): 33.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.608539, nextPhis[ 0]=-8.609730 prevPhis[ 1]=14.608539, nextPhis[ 1]=14.609730 <==IsSwitchingOccur() T = 33.685000 Tnext = 33.690000 Time: 3.36850e+01 states: [ -4.39956e+00 -4.11055e-01] derivs: [ -4.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.690000 pESO->GetIndependentVar(): 33.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.609730, nextPhis[ 0]=-8.610845 prevPhis[ 1]=14.609730, nextPhis[ 1]=14.610845 <==IsSwitchingOccur() T = 33.690000 Tnext = 33.695000 Time: 3.36900e+01 states: [ -4.40160e+00 -4.06055e-01] derivs: [ -4.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.695000 pESO->GetIndependentVar(): 33.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.610845, nextPhis[ 0]=-8.611886 prevPhis[ 1]=14.610845, nextPhis[ 1]=14.611886 <==IsSwitchingOccur() T = 33.695000 Tnext = 33.700000 Time: 3.36950e+01 states: [ -4.40361e+00 -4.01055e-01] derivs: [ -3.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.700000 pESO->GetIndependentVar(): 33.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.611886, nextPhis[ 0]=-8.612851 prevPhis[ 1]=14.611886, nextPhis[ 1]=14.612851 <==IsSwitchingOccur() T = 33.700000 Tnext = 33.705000 Time: 3.37000e+01 states: [ -4.40560e+00 -3.96055e-01] derivs: [ -3.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.705000 pESO->GetIndependentVar(): 33.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.612851, nextPhis[ 0]=-8.613742 prevPhis[ 1]=14.612851, nextPhis[ 1]=14.613742 <==IsSwitchingOccur() T = 33.705000 Tnext = 33.710000 Time: 3.37050e+01 states: [ -4.40756e+00 -3.91055e-01] derivs: [ -3.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.710000 pESO->GetIndependentVar(): 33.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.613742, nextPhis[ 0]=-8.614557 prevPhis[ 1]=14.613742, nextPhis[ 1]=14.614557 <==IsSwitchingOccur() T = 33.710000 Tnext = 33.715000 Time: 3.37100e+01 states: [ -4.40950e+00 -3.86055e-01] derivs: [ -3.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.715000 pESO->GetIndependentVar(): 33.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.614557, nextPhis[ 0]=-8.615297 prevPhis[ 1]=14.614557, nextPhis[ 1]=14.615297 <==IsSwitchingOccur() T = 33.715000 Tnext = 33.720000 Time: 3.37150e+01 states: [ -4.41141e+00 -3.81055e-01] derivs: [ -3.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.720000 pESO->GetIndependentVar(): 33.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.615297, nextPhis[ 0]=-8.615963 prevPhis[ 1]=14.615297, nextPhis[ 1]=14.615963 <==IsSwitchingOccur() T = 33.720000 Tnext = 33.725000 Time: 3.37200e+01 states: [ -4.41330e+00 -3.76055e-01] derivs: [ -3.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.725000 pESO->GetIndependentVar(): 33.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.615963, nextPhis[ 0]=-8.616553 prevPhis[ 1]=14.615963, nextPhis[ 1]=14.616553 <==IsSwitchingOccur() T = 33.725000 Tnext = 33.730000 Time: 3.37250e+01 states: [ -4.41517e+00 -3.71055e-01] derivs: [ -3.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.730000 pESO->GetIndependentVar(): 33.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.616553, nextPhis[ 0]=-8.617069 prevPhis[ 1]=14.616553, nextPhis[ 1]=14.617069 <==IsSwitchingOccur() T = 33.730000 Tnext = 33.735000 Time: 3.37300e+01 states: [ -4.41700e+00 -3.66055e-01] derivs: [ -3.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.735000 pESO->GetIndependentVar(): 33.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.617069, nextPhis[ 0]=-8.617509 prevPhis[ 1]=14.617069, nextPhis[ 1]=14.617509 <==IsSwitchingOccur() T = 33.735000 Tnext = 33.740000 Time: 3.37350e+01 states: [ -4.41882e+00 -3.61055e-01] derivs: [ -3.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.740000 pESO->GetIndependentVar(): 33.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.617509, nextPhis[ 0]=-8.617875 prevPhis[ 1]=14.617509, nextPhis[ 1]=14.617875 <==IsSwitchingOccur() T = 33.740000 Tnext = 33.745000 Time: 3.37400e+01 states: [ -4.42061e+00 -3.56055e-01] derivs: [ -3.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.745000 pESO->GetIndependentVar(): 33.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.617875, nextPhis[ 0]=-8.618165 prevPhis[ 1]=14.617875, nextPhis[ 1]=14.618165 <==IsSwitchingOccur() T = 33.745000 Tnext = 33.750000 Time: 3.37450e+01 states: [ -4.42237e+00 -3.51055e-01] derivs: [ -3.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.750000 pESO->GetIndependentVar(): 33.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.618165, nextPhis[ 0]=-8.618380 prevPhis[ 1]=14.618165, nextPhis[ 1]=14.618380 <==IsSwitchingOccur() T = 33.750000 Tnext = 33.755000 Time: 3.37500e+01 states: [ -4.42411e+00 -3.46055e-01] derivs: [ -3.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.755000 pESO->GetIndependentVar(): 33.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.618380, nextPhis[ 0]=-8.618521 prevPhis[ 1]=14.618380, nextPhis[ 1]=14.618521 <==IsSwitchingOccur() T = 33.755000 Tnext = 33.760000 Time: 3.37550e+01 states: [ -4.42582e+00 -3.41055e-01] derivs: [ -3.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.760000 pESO->GetIndependentVar(): 33.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.618521, nextPhis[ 0]=-8.618586 prevPhis[ 1]=14.618521, nextPhis[ 1]=14.618586 <==IsSwitchingOccur() T = 33.760000 Tnext = 33.765000 Time: 3.37600e+01 states: [ -4.42751e+00 -3.36055e-01] derivs: [ -3.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.765000 pESO->GetIndependentVar(): 33.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.618586, nextPhis[ 0]=-8.618577 prevPhis[ 1]=14.618586, nextPhis[ 1]=14.618577 <==IsSwitchingOccur() T = 33.765000 Tnext = 33.770000 Time: 3.37650e+01 states: [ -4.42917e+00 -3.31055e-01] derivs: [ -3.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.770000 pESO->GetIndependentVar(): 33.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.618577, nextPhis[ 0]=-8.618492 prevPhis[ 1]=14.618577, nextPhis[ 1]=14.618492 <==IsSwitchingOccur() T = 33.770000 Tnext = 33.775000 Time: 3.37700e+01 states: [ -4.43081e+00 -3.26055e-01] derivs: [ -3.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.775000 pESO->GetIndependentVar(): 33.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.618492, nextPhis[ 0]=-8.618333 prevPhis[ 1]=14.618492, nextPhis[ 1]=14.618333 <==IsSwitchingOccur() T = 33.775000 Tnext = 33.780000 Time: 3.37750e+01 states: [ -4.43243e+00 -3.21055e-01] derivs: [ -3.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.780000 pESO->GetIndependentVar(): 33.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.618333, nextPhis[ 0]=-8.618098 prevPhis[ 1]=14.618333, nextPhis[ 1]=14.618098 <==IsSwitchingOccur() T = 33.780000 Tnext = 33.785000 Time: 3.37800e+01 states: [ -4.43401e+00 -3.16055e-01] derivs: [ -3.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.785000 pESO->GetIndependentVar(): 33.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.618098, nextPhis[ 0]=-8.617788 prevPhis[ 1]=14.618098, nextPhis[ 1]=14.617788 <==IsSwitchingOccur() T = 33.785000 Tnext = 33.790000 Time: 3.37850e+01 states: [ -4.43558e+00 -3.11055e-01] derivs: [ -3.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.790000 pESO->GetIndependentVar(): 33.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.617788, nextPhis[ 0]=-8.617404 prevPhis[ 1]=14.617788, nextPhis[ 1]=14.617404 <==IsSwitchingOccur() T = 33.790000 Tnext = 33.795000 Time: 3.37900e+01 states: [ -4.43712e+00 -3.06055e-01] derivs: [ -3.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.795000 pESO->GetIndependentVar(): 33.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.617404, nextPhis[ 0]=-8.616944 prevPhis[ 1]=14.617404, nextPhis[ 1]=14.616944 <==IsSwitchingOccur() T = 33.795000 Tnext = 33.800000 Time: 3.37950e+01 states: [ -4.43863e+00 -3.01055e-01] derivs: [ -2.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.800000 pESO->GetIndependentVar(): 33.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.616944, nextPhis[ 0]=-8.616410 prevPhis[ 1]=14.616944, nextPhis[ 1]=14.616410 <==IsSwitchingOccur() T = 33.800000 Tnext = 33.805000 Time: 3.38000e+01 states: [ -4.44012e+00 -2.96055e-01] derivs: [ -2.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.805000 pESO->GetIndependentVar(): 33.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.616410, nextPhis[ 0]=-8.615800 prevPhis[ 1]=14.616410, nextPhis[ 1]=14.615800 <==IsSwitchingOccur() T = 33.805000 Tnext = 33.810000 Time: 3.38050e+01 states: [ -4.44158e+00 -2.91055e-01] derivs: [ -2.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.810000 pESO->GetIndependentVar(): 33.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.615800, nextPhis[ 0]=-8.615116 prevPhis[ 1]=14.615800, nextPhis[ 1]=14.615116 <==IsSwitchingOccur() T = 33.810000 Tnext = 33.815000 Time: 3.38100e+01 states: [ -4.44302e+00 -2.86055e-01] derivs: [ -2.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.815000 pESO->GetIndependentVar(): 33.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.615116, nextPhis[ 0]=-8.614356 prevPhis[ 1]=14.615116, nextPhis[ 1]=14.614356 <==IsSwitchingOccur() T = 33.815000 Tnext = 33.820000 Time: 3.38150e+01 states: [ -4.44443e+00 -2.81055e-01] derivs: [ -2.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.820000 pESO->GetIndependentVar(): 33.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.614356, nextPhis[ 0]=-8.613521 prevPhis[ 1]=14.614356, nextPhis[ 1]=14.613521 <==IsSwitchingOccur() T = 33.820000 Tnext = 33.825000 Time: 3.38200e+01 states: [ -4.44582e+00 -2.76055e-01] derivs: [ -2.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.825000 pESO->GetIndependentVar(): 33.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.613521, nextPhis[ 0]=-8.612612 prevPhis[ 1]=14.613521, nextPhis[ 1]=14.612612 <==IsSwitchingOccur() T = 33.825000 Tnext = 33.830000 Time: 3.38250e+01 states: [ -4.44719e+00 -2.71055e-01] derivs: [ -2.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.830000 pESO->GetIndependentVar(): 33.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.612612, nextPhis[ 0]=-8.611627 prevPhis[ 1]=14.612612, nextPhis[ 1]=14.611627 <==IsSwitchingOccur() T = 33.830000 Tnext = 33.835000 Time: 3.38300e+01 states: [ -4.44852e+00 -2.66055e-01] derivs: [ -2.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.835000 pESO->GetIndependentVar(): 33.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.611627, nextPhis[ 0]=-8.610568 prevPhis[ 1]=14.611627, nextPhis[ 1]=14.610568 <==IsSwitchingOccur() T = 33.835000 Tnext = 33.840000 Time: 3.38350e+01 states: [ -4.44984e+00 -2.61055e-01] derivs: [ -2.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.840000 pESO->GetIndependentVar(): 33.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.610568, nextPhis[ 0]=-8.609433 prevPhis[ 1]=14.610568, nextPhis[ 1]=14.609433 <==IsSwitchingOccur() T = 33.840000 Tnext = 33.845000 Time: 3.38400e+01 states: [ -4.45113e+00 -2.56055e-01] derivs: [ -2.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.845000 pESO->GetIndependentVar(): 33.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.609433, nextPhis[ 0]=-8.608223 prevPhis[ 1]=14.609433, nextPhis[ 1]=14.608223 <==IsSwitchingOccur() T = 33.845000 Tnext = 33.850000 Time: 3.38450e+01 states: [ -4.45239e+00 -2.51055e-01] derivs: [ -2.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.850000 pESO->GetIndependentVar(): 33.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.608223, nextPhis[ 0]=-8.606939 prevPhis[ 1]=14.608223, nextPhis[ 1]=14.606939 <==IsSwitchingOccur() T = 33.850000 Tnext = 33.855000 Time: 3.38500e+01 states: [ -4.45363e+00 -2.46055e-01] derivs: [ -2.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.855000 pESO->GetIndependentVar(): 33.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.606939, nextPhis[ 0]=-8.605579 prevPhis[ 1]=14.606939, nextPhis[ 1]=14.605579 <==IsSwitchingOccur() T = 33.855000 Tnext = 33.860000 Time: 3.38550e+01 states: [ -4.45484e+00 -2.41055e-01] derivs: [ -2.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.860000 pESO->GetIndependentVar(): 33.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.605579, nextPhis[ 0]=-8.604145 prevPhis[ 1]=14.605579, nextPhis[ 1]=14.604145 <==IsSwitchingOccur() T = 33.860000 Tnext = 33.865000 Time: 3.38600e+01 states: [ -4.45603e+00 -2.36055e-01] derivs: [ -2.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.865000 pESO->GetIndependentVar(): 33.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.604145, nextPhis[ 0]=-8.602635 prevPhis[ 1]=14.604145, nextPhis[ 1]=14.602635 <==IsSwitchingOccur() T = 33.865000 Tnext = 33.870000 Time: 3.38650e+01 states: [ -4.45719e+00 -2.31055e-01] derivs: [ -2.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.870000 pESO->GetIndependentVar(): 33.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.602635, nextPhis[ 0]=-8.601051 prevPhis[ 1]=14.602635, nextPhis[ 1]=14.601051 <==IsSwitchingOccur() T = 33.870000 Tnext = 33.875000 Time: 3.38700e+01 states: [ -4.45833e+00 -2.26055e-01] derivs: [ -2.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.875000 pESO->GetIndependentVar(): 33.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.601051, nextPhis[ 0]=-8.599391 prevPhis[ 1]=14.601051, nextPhis[ 1]=14.599391 <==IsSwitchingOccur() T = 33.875000 Tnext = 33.880000 Time: 3.38750e+01 states: [ -4.45945e+00 -2.21055e-01] derivs: [ -2.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.880000 pESO->GetIndependentVar(): 33.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.599391, nextPhis[ 0]=-8.597656 prevPhis[ 1]=14.599391, nextPhis[ 1]=14.597656 <==IsSwitchingOccur() T = 33.880000 Tnext = 33.885000 Time: 3.38800e+01 states: [ -4.46053e+00 -2.16055e-01] derivs: [ -2.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.885000 pESO->GetIndependentVar(): 33.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.597656, nextPhis[ 0]=-8.595847 prevPhis[ 1]=14.597656, nextPhis[ 1]=14.595847 <==IsSwitchingOccur() T = 33.885000 Tnext = 33.890000 Time: 3.38850e+01 states: [ -4.46160e+00 -2.11055e-01] derivs: [ -2.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.890000 pESO->GetIndependentVar(): 33.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.595847, nextPhis[ 0]=-8.593962 prevPhis[ 1]=14.595847, nextPhis[ 1]=14.593962 <==IsSwitchingOccur() T = 33.890000 Tnext = 33.895000 Time: 3.38900e+01 states: [ -4.46264e+00 -2.06055e-01] derivs: [ -2.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.895000 pESO->GetIndependentVar(): 33.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.593962, nextPhis[ 0]=-8.592003 prevPhis[ 1]=14.593962, nextPhis[ 1]=14.592003 <==IsSwitchingOccur() T = 33.895000 Tnext = 33.900000 Time: 3.38950e+01 states: [ -4.46365e+00 -2.01055e-01] derivs: [ -1.99763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.900000 pESO->GetIndependentVar(): 33.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.592003, nextPhis[ 0]=-8.589968 prevPhis[ 1]=14.592003, nextPhis[ 1]=14.589968 <==IsSwitchingOccur() T = 33.900000 Tnext = 33.905000 Time: 3.39000e+01 states: [ -4.46464e+00 -1.96054e-01] derivs: [ -1.94763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.905000 pESO->GetIndependentVar(): 33.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.589968, nextPhis[ 0]=-8.587859 prevPhis[ 1]=14.589968, nextPhis[ 1]=14.587859 <==IsSwitchingOccur() T = 33.905000 Tnext = 33.910000 Time: 3.39050e+01 states: [ -4.46560e+00 -1.91054e-01] derivs: [ -1.89763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.910000 pESO->GetIndependentVar(): 33.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.587859, nextPhis[ 0]=-8.585674 prevPhis[ 1]=14.587859, nextPhis[ 1]=14.585674 <==IsSwitchingOccur() T = 33.910000 Tnext = 33.915000 Time: 3.39100e+01 states: [ -4.46654e+00 -1.86054e-01] derivs: [ -1.84763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.915000 pESO->GetIndependentVar(): 33.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.585674, nextPhis[ 0]=-8.583414 prevPhis[ 1]=14.585674, nextPhis[ 1]=14.583414 <==IsSwitchingOccur() T = 33.915000 Tnext = 33.920000 Time: 3.39150e+01 states: [ -4.46745e+00 -1.81054e-01] derivs: [ -1.79763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.920000 pESO->GetIndependentVar(): 33.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.583414, nextPhis[ 0]=-8.581080 prevPhis[ 1]=14.583414, nextPhis[ 1]=14.581080 <==IsSwitchingOccur() T = 33.920000 Tnext = 33.925000 Time: 3.39200e+01 states: [ -4.46834e+00 -1.76054e-01] derivs: [ -1.74763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.925000 pESO->GetIndependentVar(): 33.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.581080, nextPhis[ 0]=-8.578670 prevPhis[ 1]=14.581080, nextPhis[ 1]=14.578670 <==IsSwitchingOccur() T = 33.925000 Tnext = 33.930000 Time: 3.39250e+01 states: [ -4.46921e+00 -1.71054e-01] derivs: [ -1.69763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.930000 pESO->GetIndependentVar(): 33.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.578670, nextPhis[ 0]=-8.576186 prevPhis[ 1]=14.578670, nextPhis[ 1]=14.576186 <==IsSwitchingOccur() T = 33.930000 Tnext = 33.935000 Time: 3.39300e+01 states: [ -4.47004e+00 -1.66054e-01] derivs: [ -1.64763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.935000 pESO->GetIndependentVar(): 33.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.576186, nextPhis[ 0]=-8.573626 prevPhis[ 1]=14.576186, nextPhis[ 1]=14.573626 <==IsSwitchingOccur() T = 33.935000 Tnext = 33.940000 Time: 3.39350e+01 states: [ -4.47086e+00 -1.61054e-01] derivs: [ -1.59763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.940000 pESO->GetIndependentVar(): 33.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.573626, nextPhis[ 0]=-8.570992 prevPhis[ 1]=14.573626, nextPhis[ 1]=14.570992 <==IsSwitchingOccur() T = 33.940000 Tnext = 33.945000 Time: 3.39400e+01 states: [ -4.47165e+00 -1.56054e-01] derivs: [ -1.54763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.945000 pESO->GetIndependentVar(): 33.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.570992, nextPhis[ 0]=-8.568282 prevPhis[ 1]=14.570992, nextPhis[ 1]=14.568282 <==IsSwitchingOccur() T = 33.945000 Tnext = 33.950000 Time: 3.39450e+01 states: [ -4.47241e+00 -1.51054e-01] derivs: [ -1.49763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.950000 pESO->GetIndependentVar(): 33.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.568282, nextPhis[ 0]=-8.565497 prevPhis[ 1]=14.568282, nextPhis[ 1]=14.565497 <==IsSwitchingOccur() T = 33.950000 Tnext = 33.955000 Time: 3.39500e+01 states: [ -4.47315e+00 -1.46054e-01] derivs: [ -1.44763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.955000 pESO->GetIndependentVar(): 33.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.565497, nextPhis[ 0]=-8.562638 prevPhis[ 1]=14.565497, nextPhis[ 1]=14.562638 <==IsSwitchingOccur() T = 33.955000 Tnext = 33.960000 Time: 3.39550e+01 states: [ -4.47386e+00 -1.41054e-01] derivs: [ -1.39763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.960000 pESO->GetIndependentVar(): 33.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.562638, nextPhis[ 0]=-8.559703 prevPhis[ 1]=14.562638, nextPhis[ 1]=14.559703 <==IsSwitchingOccur() T = 33.960000 Tnext = 33.965000 Time: 3.39600e+01 states: [ -4.47455e+00 -1.36054e-01] derivs: [ -1.34763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.965000 pESO->GetIndependentVar(): 33.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.559703, nextPhis[ 0]=-8.556694 prevPhis[ 1]=14.559703, nextPhis[ 1]=14.556694 <==IsSwitchingOccur() T = 33.965000 Tnext = 33.970000 Time: 3.39650e+01 states: [ -4.47521e+00 -1.31054e-01] derivs: [ -1.29763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.970000 pESO->GetIndependentVar(): 33.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.556694, nextPhis[ 0]=-8.553609 prevPhis[ 1]=14.556694, nextPhis[ 1]=14.553609 <==IsSwitchingOccur() T = 33.970000 Tnext = 33.975000 Time: 3.39700e+01 states: [ -4.47585e+00 -1.26054e-01] derivs: [ -1.24763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.975000 pESO->GetIndependentVar(): 33.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.553609, nextPhis[ 0]=-8.550450 prevPhis[ 1]=14.553609, nextPhis[ 1]=14.550450 <==IsSwitchingOccur() T = 33.975000 Tnext = 33.980000 Time: 3.39750e+01 states: [ -4.47647e+00 -1.21054e-01] derivs: [ -1.19763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.980000 pESO->GetIndependentVar(): 33.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.550450, nextPhis[ 0]=-8.547215 prevPhis[ 1]=14.550450, nextPhis[ 1]=14.547215 <==IsSwitchingOccur() T = 33.980000 Tnext = 33.985000 Time: 3.39800e+01 states: [ -4.47705e+00 -1.16054e-01] derivs: [ -1.14763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.985000 pESO->GetIndependentVar(): 33.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.547215, nextPhis[ 0]=-8.543905 prevPhis[ 1]=14.547215, nextPhis[ 1]=14.543905 <==IsSwitchingOccur() T = 33.985000 Tnext = 33.990000 Time: 3.39850e+01 states: [ -4.47762e+00 -1.11054e-01] derivs: [ -1.09763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.990000 pESO->GetIndependentVar(): 33.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.543905, nextPhis[ 0]=-8.540521 prevPhis[ 1]=14.543905, nextPhis[ 1]=14.540521 <==IsSwitchingOccur() T = 33.990000 Tnext = 33.995000 Time: 3.39900e+01 states: [ -4.47816e+00 -1.06054e-01] derivs: [ -1.04763e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 33.995000 pESO->GetIndependentVar(): 33.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.540521, nextPhis[ 0]=-8.537061 prevPhis[ 1]=14.540521, nextPhis[ 1]=14.537061 <==IsSwitchingOccur() T = 33.995000 Tnext = 34.000000 Time: 3.39950e+01 states: [ -4.47867e+00 -1.01054e-01] derivs: [ -9.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.000000 pESO->GetIndependentVar(): 34.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.537061, nextPhis[ 0]=-8.533527 prevPhis[ 1]=14.537061, nextPhis[ 1]=14.533527 <==IsSwitchingOccur() T = 34.000000 Tnext = 34.005000 Time: 3.40000e+01 states: [ -4.47916e+00 -9.60545e-02] derivs: [ -9.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.005000 pESO->GetIndependentVar(): 34.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.533527, nextPhis[ 0]=-8.529917 prevPhis[ 1]=14.533527, nextPhis[ 1]=14.529917 <==IsSwitchingOccur() T = 34.005000 Tnext = 34.010000 Time: 3.40050e+01 states: [ -4.47962e+00 -9.10545e-02] derivs: [ -8.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.010000 pESO->GetIndependentVar(): 34.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.529917, nextPhis[ 0]=-8.526233 prevPhis[ 1]=14.529917, nextPhis[ 1]=14.526233 <==IsSwitchingOccur() T = 34.010000 Tnext = 34.015000 Time: 3.40100e+01 states: [ -4.48006e+00 -8.60545e-02] derivs: [ -8.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.015000 pESO->GetIndependentVar(): 34.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.526233, nextPhis[ 0]=-8.522473 prevPhis[ 1]=14.526233, nextPhis[ 1]=14.522473 <==IsSwitchingOccur() T = 34.015000 Tnext = 34.020000 Time: 3.40150e+01 states: [ -4.48047e+00 -8.10545e-02] derivs: [ -7.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.020000 pESO->GetIndependentVar(): 34.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.522473, nextPhis[ 0]=-8.518638 prevPhis[ 1]=14.522473, nextPhis[ 1]=14.518638 <==IsSwitchingOccur() T = 34.020000 Tnext = 34.025000 Time: 3.40200e+01 states: [ -4.48086e+00 -7.60545e-02] derivs: [ -7.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.025000 pESO->GetIndependentVar(): 34.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.518638, nextPhis[ 0]=-8.514729 prevPhis[ 1]=14.518638, nextPhis[ 1]=14.514729 <==IsSwitchingOccur() T = 34.025000 Tnext = 34.030000 Time: 3.40250e+01 states: [ -4.48122e+00 -7.10545e-02] derivs: [ -6.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.030000 pESO->GetIndependentVar(): 34.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.514729, nextPhis[ 0]=-8.510744 prevPhis[ 1]=14.514729, nextPhis[ 1]=14.510744 <==IsSwitchingOccur() T = 34.030000 Tnext = 34.035000 Time: 3.40300e+01 states: [ -4.48156e+00 -6.60545e-02] derivs: [ -6.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.035000 pESO->GetIndependentVar(): 34.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.510744, nextPhis[ 0]=-8.506685 prevPhis[ 1]=14.510744, nextPhis[ 1]=14.506685 <==IsSwitchingOccur() T = 34.035000 Tnext = 34.040000 Time: 3.40350e+01 states: [ -4.48188e+00 -6.10545e-02] derivs: [ -5.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.040000 pESO->GetIndependentVar(): 34.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.506685, nextPhis[ 0]=-8.502550 prevPhis[ 1]=14.506685, nextPhis[ 1]=14.502550 <==IsSwitchingOccur() T = 34.040000 Tnext = 34.045000 Time: 3.40400e+01 states: [ -4.48217e+00 -5.60545e-02] derivs: [ -5.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.045000 pESO->GetIndependentVar(): 34.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.502550, nextPhis[ 0]=-8.498341 prevPhis[ 1]=14.502550, nextPhis[ 1]=14.498341 <==IsSwitchingOccur() T = 34.045000 Tnext = 34.050000 Time: 3.40450e+01 states: [ -4.48243e+00 -5.10545e-02] derivs: [ -4.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.050000 pESO->GetIndependentVar(): 34.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.498341, nextPhis[ 0]=-8.494056 prevPhis[ 1]=14.498341, nextPhis[ 1]=14.494056 <==IsSwitchingOccur() T = 34.050000 Tnext = 34.055000 Time: 3.40500e+01 states: [ -4.48267e+00 -4.60545e-02] derivs: [ -4.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.055000 pESO->GetIndependentVar(): 34.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.494056, nextPhis[ 0]=-8.489696 prevPhis[ 1]=14.494056, nextPhis[ 1]=14.489696 <==IsSwitchingOccur() T = 34.055000 Tnext = 34.060000 Time: 3.40550e+01 states: [ -4.48288e+00 -4.10545e-02] derivs: [ -3.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.060000 pESO->GetIndependentVar(): 34.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.489696, nextPhis[ 0]=-8.485262 prevPhis[ 1]=14.489696, nextPhis[ 1]=14.485262 <==IsSwitchingOccur() T = 34.060000 Tnext = 34.065000 Time: 3.40600e+01 states: [ -4.48307e+00 -3.60545e-02] derivs: [ -3.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.065000 pESO->GetIndependentVar(): 34.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.485262, nextPhis[ 0]=-8.480752 prevPhis[ 1]=14.485262, nextPhis[ 1]=14.480752 <==IsSwitchingOccur() T = 34.065000 Tnext = 34.070000 Time: 3.40650e+01 states: [ -4.48323e+00 -3.10545e-02] derivs: [ -2.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.070000 pESO->GetIndependentVar(): 34.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.480752, nextPhis[ 0]=-8.476168 prevPhis[ 1]=14.480752, nextPhis[ 1]=14.476168 <==IsSwitchingOccur() T = 34.070000 Tnext = 34.075000 Time: 3.40700e+01 states: [ -4.48337e+00 -2.60545e-02] derivs: [ -2.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.075000 pESO->GetIndependentVar(): 34.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.476168, nextPhis[ 0]=-8.471508 prevPhis[ 1]=14.476168, nextPhis[ 1]=14.471508 <==IsSwitchingOccur() T = 34.075000 Tnext = 34.080000 Time: 3.40750e+01 states: [ -4.48348e+00 -2.10545e-02] derivs: [ -1.97630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.080000 pESO->GetIndependentVar(): 34.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.471508, nextPhis[ 0]=-8.466774 prevPhis[ 1]=14.471508, nextPhis[ 1]=14.466774 <==IsSwitchingOccur() T = 34.080000 Tnext = 34.085000 Time: 3.40800e+01 states: [ -4.48357e+00 -1.60545e-02] derivs: [ -1.47630e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.085000 pESO->GetIndependentVar(): 34.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.466774, nextPhis[ 0]=-8.461964 prevPhis[ 1]=14.466774, nextPhis[ 1]=14.461964 <==IsSwitchingOccur() T = 34.085000 Tnext = 34.090000 Time: 3.40850e+01 states: [ -4.48364e+00 -1.10545e-02] derivs: [ -9.76304e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.090000 pESO->GetIndependentVar(): 34.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.461964, nextPhis[ 0]=-8.457079 prevPhis[ 1]=14.461964, nextPhis[ 1]=14.457079 <==IsSwitchingOccur() T = 34.090000 Tnext = 34.095000 Time: 3.40900e+01 states: [ -4.48367e+00 -6.05449e-03] derivs: [ -4.76304e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.095000 pESO->GetIndependentVar(): 34.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.457079, nextPhis[ 0]=-8.452120 prevPhis[ 1]=14.457079, nextPhis[ 1]=14.452120 <==IsSwitchingOccur() T = 34.095000 Tnext = 34.100000 Time: 3.40950e+01 states: [ -4.48369e+00 -1.05449e-03] derivs: [ 2.36961e-04 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.100000 pESO->GetIndependentVar(): 34.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.452120, nextPhis[ 0]=-8.447085 prevPhis[ 1]=14.452120, nextPhis[ 1]=14.447085 <==IsSwitchingOccur() T = 34.100000 Tnext = 34.105000 Time: 3.41000e+01 states: [ -4.48368e+00 3.94551e-03] derivs: [ 5.23696e-03 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.105000 pESO->GetIndependentVar(): 34.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.447085, nextPhis[ 0]=-8.441976 prevPhis[ 1]=14.447085, nextPhis[ 1]=14.441976 <==IsSwitchingOccur() T = 34.105000 Tnext = 34.110000 Time: 3.41050e+01 states: [ -4.48364e+00 8.94551e-03] derivs: [ 1.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.110000 pESO->GetIndependentVar(): 34.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.441976, nextPhis[ 0]=-8.436791 prevPhis[ 1]=14.441976, nextPhis[ 1]=14.436791 <==IsSwitchingOccur() T = 34.110000 Tnext = 34.115000 Time: 3.41100e+01 states: [ -4.48358e+00 1.39455e-02] derivs: [ 1.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.115000 pESO->GetIndependentVar(): 34.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.436791, nextPhis[ 0]=-8.431531 prevPhis[ 1]=14.436791, nextPhis[ 1]=14.431531 <==IsSwitchingOccur() T = 34.115000 Tnext = 34.120000 Time: 3.41150e+01 states: [ -4.48349e+00 1.89455e-02] derivs: [ 2.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.120000 pESO->GetIndependentVar(): 34.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.431531, nextPhis[ 0]=-8.426197 prevPhis[ 1]=14.431531, nextPhis[ 1]=14.426197 <==IsSwitchingOccur() T = 34.120000 Tnext = 34.125000 Time: 3.41200e+01 states: [ -4.48338e+00 2.39455e-02] derivs: [ 2.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.125000 pESO->GetIndependentVar(): 34.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.426197, nextPhis[ 0]=-8.420787 prevPhis[ 1]=14.426197, nextPhis[ 1]=14.420787 <==IsSwitchingOccur() T = 34.125000 Tnext = 34.130000 Time: 3.41250e+01 states: [ -4.48324e+00 2.89455e-02] derivs: [ 3.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.130000 pESO->GetIndependentVar(): 34.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.420787, nextPhis[ 0]=-8.415303 prevPhis[ 1]=14.420787, nextPhis[ 1]=14.415303 <==IsSwitchingOccur() T = 34.130000 Tnext = 34.135000 Time: 3.41300e+01 states: [ -4.48308e+00 3.39455e-02] derivs: [ 3.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.135000 pESO->GetIndependentVar(): 34.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.415303, nextPhis[ 0]=-8.409743 prevPhis[ 1]=14.415303, nextPhis[ 1]=14.409743 <==IsSwitchingOccur() T = 34.135000 Tnext = 34.140000 Time: 3.41350e+01 states: [ -4.48290e+00 3.89455e-02] derivs: [ 4.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.140000 pESO->GetIndependentVar(): 34.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.409743, nextPhis[ 0]=-8.404109 prevPhis[ 1]=14.409743, nextPhis[ 1]=14.404109 <==IsSwitchingOccur() T = 34.140000 Tnext = 34.145000 Time: 3.41400e+01 states: [ -4.48268e+00 4.39455e-02] derivs: [ 4.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.145000 pESO->GetIndependentVar(): 34.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.404109, nextPhis[ 0]=-8.398399 prevPhis[ 1]=14.404109, nextPhis[ 1]=14.398399 <==IsSwitchingOccur() T = 34.145000 Tnext = 34.150000 Time: 3.41450e+01 states: [ -4.48245e+00 4.89455e-02] derivs: [ 5.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.150000 pESO->GetIndependentVar(): 34.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.398399, nextPhis[ 0]=-8.392614 prevPhis[ 1]=14.398399, nextPhis[ 1]=14.392614 <==IsSwitchingOccur() T = 34.150000 Tnext = 34.155000 Time: 3.41500e+01 states: [ -4.48219e+00 5.39455e-02] derivs: [ 5.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.155000 pESO->GetIndependentVar(): 34.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.392614, nextPhis[ 0]=-8.386755 prevPhis[ 1]=14.392614, nextPhis[ 1]=14.386755 <==IsSwitchingOccur() T = 34.155000 Tnext = 34.160000 Time: 3.41550e+01 states: [ -4.48190e+00 5.89455e-02] derivs: [ 6.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.160000 pESO->GetIndependentVar(): 34.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.386755, nextPhis[ 0]=-8.380820 prevPhis[ 1]=14.386755, nextPhis[ 1]=14.380820 <==IsSwitchingOccur() T = 34.160000 Tnext = 34.165000 Time: 3.41600e+01 states: [ -4.48159e+00 6.39455e-02] derivs: [ 6.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.165000 pESO->GetIndependentVar(): 34.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.380820, nextPhis[ 0]=-8.374811 prevPhis[ 1]=14.380820, nextPhis[ 1]=14.374811 <==IsSwitchingOccur() T = 34.165000 Tnext = 34.170000 Time: 3.41650e+01 states: [ -4.48125e+00 6.89455e-02] derivs: [ 7.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.170000 pESO->GetIndependentVar(): 34.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.374811, nextPhis[ 0]=-8.368726 prevPhis[ 1]=14.374811, nextPhis[ 1]=14.368726 <==IsSwitchingOccur() T = 34.170000 Tnext = 34.175000 Time: 3.41700e+01 states: [ -4.48089e+00 7.39455e-02] derivs: [ 7.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.175000 pESO->GetIndependentVar(): 34.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.368726, nextPhis[ 0]=-8.362567 prevPhis[ 1]=14.368726, nextPhis[ 1]=14.362567 <==IsSwitchingOccur() T = 34.175000 Tnext = 34.180000 Time: 3.41750e+01 states: [ -4.48050e+00 7.89455e-02] derivs: [ 8.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.180000 pESO->GetIndependentVar(): 34.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.362567, nextPhis[ 0]=-8.356332 prevPhis[ 1]=14.362567, nextPhis[ 1]=14.356332 <==IsSwitchingOccur() T = 34.180000 Tnext = 34.185000 Time: 3.41800e+01 states: [ -4.48009e+00 8.39455e-02] derivs: [ 8.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.185000 pESO->GetIndependentVar(): 34.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.356332, nextPhis[ 0]=-8.350022 prevPhis[ 1]=14.356332, nextPhis[ 1]=14.350022 <==IsSwitchingOccur() T = 34.185000 Tnext = 34.190000 Time: 3.41850e+01 states: [ -4.47966e+00 8.89455e-02] derivs: [ 9.02370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.190000 pESO->GetIndependentVar(): 34.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.350022, nextPhis[ 0]=-8.343638 prevPhis[ 1]=14.350022, nextPhis[ 1]=14.343638 <==IsSwitchingOccur() T = 34.190000 Tnext = 34.195000 Time: 3.41900e+01 states: [ -4.47919e+00 9.39455e-02] derivs: [ 9.52370e-02 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.195000 pESO->GetIndependentVar(): 34.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.343638, nextPhis[ 0]=-8.337178 prevPhis[ 1]=14.343638, nextPhis[ 1]=14.337178 <==IsSwitchingOccur() T = 34.195000 Tnext = 34.200000 Time: 3.41950e+01 states: [ -4.47871e+00 9.89455e-02] derivs: [ 1.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.200000 pESO->GetIndependentVar(): 34.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.337178, nextPhis[ 0]=-8.330644 prevPhis[ 1]=14.337178, nextPhis[ 1]=14.330644 <==IsSwitchingOccur() T = 34.200000 Tnext = 34.205000 Time: 3.42000e+01 states: [ -4.47820e+00 1.03946e-01] derivs: [ 1.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.205000 pESO->GetIndependentVar(): 34.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.330644, nextPhis[ 0]=-8.324034 prevPhis[ 1]=14.330644, nextPhis[ 1]=14.324034 <==IsSwitchingOccur() T = 34.205000 Tnext = 34.210000 Time: 3.42050e+01 states: [ -4.47766e+00 1.08946e-01] derivs: [ 1.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.210000 pESO->GetIndependentVar(): 34.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.324034, nextPhis[ 0]=-8.317350 prevPhis[ 1]=14.324034, nextPhis[ 1]=14.317350 <==IsSwitchingOccur() T = 34.210000 Tnext = 34.215000 Time: 3.42100e+01 states: [ -4.47710e+00 1.13946e-01] derivs: [ 1.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.215000 pESO->GetIndependentVar(): 34.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.317350, nextPhis[ 0]=-8.310590 prevPhis[ 1]=14.317350, nextPhis[ 1]=14.310590 <==IsSwitchingOccur() T = 34.215000 Tnext = 34.220000 Time: 3.42150e+01 states: [ -4.47651e+00 1.18946e-01] derivs: [ 1.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.220000 pESO->GetIndependentVar(): 34.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.310590, nextPhis[ 0]=-8.303755 prevPhis[ 1]=14.310590, nextPhis[ 1]=14.303755 <==IsSwitchingOccur() T = 34.220000 Tnext = 34.225000 Time: 3.42200e+01 states: [ -4.47590e+00 1.23946e-01] derivs: [ 1.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.225000 pESO->GetIndependentVar(): 34.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.303755, nextPhis[ 0]=-8.296846 prevPhis[ 1]=14.303755, nextPhis[ 1]=14.296846 <==IsSwitchingOccur() T = 34.225000 Tnext = 34.230000 Time: 3.42250e+01 states: [ -4.47526e+00 1.28946e-01] derivs: [ 1.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.230000 pESO->GetIndependentVar(): 34.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.296846, nextPhis[ 0]=-8.289861 prevPhis[ 1]=14.296846, nextPhis[ 1]=14.289861 <==IsSwitchingOccur() T = 34.230000 Tnext = 34.235000 Time: 3.42300e+01 states: [ -4.47460e+00 1.33946e-01] derivs: [ 1.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.235000 pESO->GetIndependentVar(): 34.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.289861, nextPhis[ 0]=-8.282802 prevPhis[ 1]=14.289861, nextPhis[ 1]=14.282802 <==IsSwitchingOccur() T = 34.235000 Tnext = 34.240000 Time: 3.42350e+01 states: [ -4.47392e+00 1.38946e-01] derivs: [ 1.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.240000 pESO->GetIndependentVar(): 34.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.282802, nextPhis[ 0]=-8.275667 prevPhis[ 1]=14.282802, nextPhis[ 1]=14.275667 <==IsSwitchingOccur() T = 34.240000 Tnext = 34.245000 Time: 3.42400e+01 states: [ -4.47320e+00 1.43946e-01] derivs: [ 1.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.245000 pESO->GetIndependentVar(): 34.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.275667, nextPhis[ 0]=-8.268458 prevPhis[ 1]=14.275667, nextPhis[ 1]=14.268458 <==IsSwitchingOccur() T = 34.245000 Tnext = 34.250000 Time: 3.42450e+01 states: [ -4.47247e+00 1.48946e-01] derivs: [ 1.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.250000 pESO->GetIndependentVar(): 34.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.268458, nextPhis[ 0]=-8.261173 prevPhis[ 1]=14.268458, nextPhis[ 1]=14.261173 <==IsSwitchingOccur() T = 34.250000 Tnext = 34.255000 Time: 3.42500e+01 states: [ -4.47171e+00 1.53946e-01] derivs: [ 1.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.255000 pESO->GetIndependentVar(): 34.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.261173, nextPhis[ 0]=-8.253813 prevPhis[ 1]=14.261173, nextPhis[ 1]=14.253813 <==IsSwitchingOccur() T = 34.255000 Tnext = 34.260000 Time: 3.42550e+01 states: [ -4.47092e+00 1.58946e-01] derivs: [ 1.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.260000 pESO->GetIndependentVar(): 34.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.253813, nextPhis[ 0]=-8.246379 prevPhis[ 1]=14.253813, nextPhis[ 1]=14.246379 <==IsSwitchingOccur() T = 34.260000 Tnext = 34.265000 Time: 3.42600e+01 states: [ -4.47011e+00 1.63946e-01] derivs: [ 1.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.265000 pESO->GetIndependentVar(): 34.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.246379, nextPhis[ 0]=-8.238869 prevPhis[ 1]=14.246379, nextPhis[ 1]=14.238869 <==IsSwitchingOccur() T = 34.265000 Tnext = 34.270000 Time: 3.42650e+01 states: [ -4.46927e+00 1.68946e-01] derivs: [ 1.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.270000 pESO->GetIndependentVar(): 34.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.238869, nextPhis[ 0]=-8.231285 prevPhis[ 1]=14.238869, nextPhis[ 1]=14.231285 <==IsSwitchingOccur() T = 34.270000 Tnext = 34.275000 Time: 3.42700e+01 states: [ -4.46841e+00 1.73946e-01] derivs: [ 1.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.275000 pESO->GetIndependentVar(): 34.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.231285, nextPhis[ 0]=-8.223625 prevPhis[ 1]=14.231285, nextPhis[ 1]=14.223625 <==IsSwitchingOccur() T = 34.275000 Tnext = 34.280000 Time: 3.42750e+01 states: [ -4.46752e+00 1.78946e-01] derivs: [ 1.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.280000 pESO->GetIndependentVar(): 34.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.223625, nextPhis[ 0]=-8.215891 prevPhis[ 1]=14.223625, nextPhis[ 1]=14.215891 <==IsSwitchingOccur() T = 34.280000 Tnext = 34.285000 Time: 3.42800e+01 states: [ -4.46661e+00 1.83946e-01] derivs: [ 1.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.285000 pESO->GetIndependentVar(): 34.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.215891, nextPhis[ 0]=-8.208081 prevPhis[ 1]=14.215891, nextPhis[ 1]=14.208081 <==IsSwitchingOccur() T = 34.285000 Tnext = 34.290000 Time: 3.42850e+01 states: [ -4.46568e+00 1.88946e-01] derivs: [ 1.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.290000 pESO->GetIndependentVar(): 34.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.208081, nextPhis[ 0]=-8.200196 prevPhis[ 1]=14.208081, nextPhis[ 1]=14.200196 <==IsSwitchingOccur() T = 34.290000 Tnext = 34.295000 Time: 3.42900e+01 states: [ -4.46471e+00 1.93946e-01] derivs: [ 1.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.295000 pESO->GetIndependentVar(): 34.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.200196, nextPhis[ 0]=-8.192237 prevPhis[ 1]=14.200196, nextPhis[ 1]=14.192237 <==IsSwitchingOccur() T = 34.295000 Tnext = 34.300000 Time: 3.42950e+01 states: [ -4.46373e+00 1.98946e-01] derivs: [ 2.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.300000 pESO->GetIndependentVar(): 34.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.192237, nextPhis[ 0]=-8.184202 prevPhis[ 1]=14.192237, nextPhis[ 1]=14.184202 <==IsSwitchingOccur() T = 34.300000 Tnext = 34.305000 Time: 3.43000e+01 states: [ -4.46272e+00 2.03946e-01] derivs: [ 2.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.305000 pESO->GetIndependentVar(): 34.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.184202, nextPhis[ 0]=-8.176093 prevPhis[ 1]=14.184202, nextPhis[ 1]=14.176093 <==IsSwitchingOccur() T = 34.305000 Tnext = 34.310000 Time: 3.43050e+01 states: [ -4.46168e+00 2.08946e-01] derivs: [ 2.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.310000 pESO->GetIndependentVar(): 34.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.176093, nextPhis[ 0]=-8.167908 prevPhis[ 1]=14.176093, nextPhis[ 1]=14.167908 <==IsSwitchingOccur() T = 34.310000 Tnext = 34.315000 Time: 3.43100e+01 states: [ -4.46062e+00 2.13946e-01] derivs: [ 2.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.315000 pESO->GetIndependentVar(): 34.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.167908, nextPhis[ 0]=-8.159649 prevPhis[ 1]=14.167908, nextPhis[ 1]=14.159649 <==IsSwitchingOccur() T = 34.315000 Tnext = 34.320000 Time: 3.43150e+01 states: [ -4.45953e+00 2.18946e-01] derivs: [ 2.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.320000 pESO->GetIndependentVar(): 34.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.159649, nextPhis[ 0]=-8.151314 prevPhis[ 1]=14.159649, nextPhis[ 1]=14.151314 <==IsSwitchingOccur() T = 34.320000 Tnext = 34.325000 Time: 3.43200e+01 states: [ -4.45842e+00 2.23946e-01] derivs: [ 2.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.325000 pESO->GetIndependentVar(): 34.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.151314, nextPhis[ 0]=-8.142904 prevPhis[ 1]=14.151314, nextPhis[ 1]=14.142904 <==IsSwitchingOccur() T = 34.325000 Tnext = 34.330000 Time: 3.43250e+01 states: [ -4.45728e+00 2.28946e-01] derivs: [ 2.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.330000 pESO->GetIndependentVar(): 34.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.142904, nextPhis[ 0]=-8.134420 prevPhis[ 1]=14.142904, nextPhis[ 1]=14.134420 <==IsSwitchingOccur() T = 34.330000 Tnext = 34.335000 Time: 3.43300e+01 states: [ -4.45612e+00 2.33946e-01] derivs: [ 2.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.335000 pESO->GetIndependentVar(): 34.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.134420, nextPhis[ 0]=-8.125860 prevPhis[ 1]=14.134420, nextPhis[ 1]=14.125860 <==IsSwitchingOccur() T = 34.335000 Tnext = 34.340000 Time: 3.43350e+01 states: [ -4.45494e+00 2.38946e-01] derivs: [ 2.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.340000 pESO->GetIndependentVar(): 34.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.125860, nextPhis[ 0]=-8.117226 prevPhis[ 1]=14.125860, nextPhis[ 1]=14.117226 <==IsSwitchingOccur() T = 34.340000 Tnext = 34.345000 Time: 3.43400e+01 states: [ -4.45372e+00 2.43946e-01] derivs: [ 2.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.345000 pESO->GetIndependentVar(): 34.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.117226, nextPhis[ 0]=-8.108516 prevPhis[ 1]=14.117226, nextPhis[ 1]=14.108516 <==IsSwitchingOccur() T = 34.345000 Tnext = 34.350000 Time: 3.43450e+01 states: [ -4.45249e+00 2.48946e-01] derivs: [ 2.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.350000 pESO->GetIndependentVar(): 34.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.108516, nextPhis[ 0]=-8.099731 prevPhis[ 1]=14.108516, nextPhis[ 1]=14.099731 <==IsSwitchingOccur() T = 34.350000 Tnext = 34.355000 Time: 3.43500e+01 states: [ -4.45123e+00 2.53946e-01] derivs: [ 2.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.355000 pESO->GetIndependentVar(): 34.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.099731, nextPhis[ 0]=-8.090872 prevPhis[ 1]=14.099731, nextPhis[ 1]=14.090872 <==IsSwitchingOccur() T = 34.355000 Tnext = 34.360000 Time: 3.43550e+01 states: [ -4.44994e+00 2.58946e-01] derivs: [ 2.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.360000 pESO->GetIndependentVar(): 34.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.090872, nextPhis[ 0]=-8.081937 prevPhis[ 1]=14.090872, nextPhis[ 1]=14.081937 <==IsSwitchingOccur() T = 34.360000 Tnext = 34.365000 Time: 3.43600e+01 states: [ -4.44863e+00 2.63946e-01] derivs: [ 2.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.365000 pESO->GetIndependentVar(): 34.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.081937, nextPhis[ 0]=-8.072928 prevPhis[ 1]=14.081937, nextPhis[ 1]=14.072928 <==IsSwitchingOccur() T = 34.365000 Tnext = 34.370000 Time: 3.43650e+01 states: [ -4.44729e+00 2.68946e-01] derivs: [ 2.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.370000 pESO->GetIndependentVar(): 34.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.072928, nextPhis[ 0]=-8.063843 prevPhis[ 1]=14.072928, nextPhis[ 1]=14.063843 <==IsSwitchingOccur() T = 34.370000 Tnext = 34.375000 Time: 3.43700e+01 states: [ -4.44593e+00 2.73946e-01] derivs: [ 2.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.375000 pESO->GetIndependentVar(): 34.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.063843, nextPhis[ 0]=-8.054684 prevPhis[ 1]=14.063843, nextPhis[ 1]=14.054684 <==IsSwitchingOccur() T = 34.375000 Tnext = 34.380000 Time: 3.43750e+01 states: [ -4.44454e+00 2.78946e-01] derivs: [ 2.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.380000 pESO->GetIndependentVar(): 34.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.054684, nextPhis[ 0]=-8.045449 prevPhis[ 1]=14.054684, nextPhis[ 1]=14.045449 <==IsSwitchingOccur() T = 34.380000 Tnext = 34.385000 Time: 3.43800e+01 states: [ -4.44313e+00 2.83946e-01] derivs: [ 2.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.385000 pESO->GetIndependentVar(): 34.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.045449, nextPhis[ 0]=-8.036139 prevPhis[ 1]=14.045449, nextPhis[ 1]=14.036139 <==IsSwitchingOccur() T = 34.385000 Tnext = 34.390000 Time: 3.43850e+01 states: [ -4.44169e+00 2.88946e-01] derivs: [ 2.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.390000 pESO->GetIndependentVar(): 34.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.036139, nextPhis[ 0]=-8.026755 prevPhis[ 1]=14.036139, nextPhis[ 1]=14.026755 <==IsSwitchingOccur() T = 34.390000 Tnext = 34.395000 Time: 3.43900e+01 states: [ -4.44023e+00 2.93946e-01] derivs: [ 2.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.395000 pESO->GetIndependentVar(): 34.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.026755, nextPhis[ 0]=-8.017295 prevPhis[ 1]=14.026755, nextPhis[ 1]=14.017295 <==IsSwitchingOccur() T = 34.395000 Tnext = 34.400000 Time: 3.43950e+01 states: [ -4.43875e+00 2.98946e-01] derivs: [ 3.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.400000 pESO->GetIndependentVar(): 34.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.017295, nextPhis[ 0]=-8.007761 prevPhis[ 1]=14.017295, nextPhis[ 1]=14.007761 <==IsSwitchingOccur() T = 34.400000 Tnext = 34.405000 Time: 3.44000e+01 states: [ -4.43724e+00 3.03946e-01] derivs: [ 3.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.405000 pESO->GetIndependentVar(): 34.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-8.007761, nextPhis[ 0]=-7.998151 prevPhis[ 1]=14.007761, nextPhis[ 1]=13.998151 <==IsSwitchingOccur() T = 34.405000 Tnext = 34.410000 Time: 3.44050e+01 states: [ -4.43570e+00 3.08946e-01] derivs: [ 3.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.410000 pESO->GetIndependentVar(): 34.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.998151, nextPhis[ 0]=-7.988467 prevPhis[ 1]=13.998151, nextPhis[ 1]=13.988467 <==IsSwitchingOccur() T = 34.410000 Tnext = 34.415000 Time: 3.44100e+01 states: [ -4.43414e+00 3.13946e-01] derivs: [ 3.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.415000 pESO->GetIndependentVar(): 34.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.988467, nextPhis[ 0]=-7.978707 prevPhis[ 1]=13.988467, nextPhis[ 1]=13.978707 <==IsSwitchingOccur() T = 34.415000 Tnext = 34.420000 Time: 3.44150e+01 states: [ -4.43255e+00 3.18946e-01] derivs: [ 3.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.420000 pESO->GetIndependentVar(): 34.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.978707, nextPhis[ 0]=-7.968872 prevPhis[ 1]=13.978707, nextPhis[ 1]=13.968872 <==IsSwitchingOccur() T = 34.420000 Tnext = 34.425000 Time: 3.44200e+01 states: [ -4.43094e+00 3.23946e-01] derivs: [ 3.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.425000 pESO->GetIndependentVar(): 34.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.968872, nextPhis[ 0]=-7.958963 prevPhis[ 1]=13.968872, nextPhis[ 1]=13.958963 <==IsSwitchingOccur() T = 34.425000 Tnext = 34.430000 Time: 3.44250e+01 states: [ -4.42930e+00 3.28946e-01] derivs: [ 3.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.430000 pESO->GetIndependentVar(): 34.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.958963, nextPhis[ 0]=-7.948978 prevPhis[ 1]=13.958963, nextPhis[ 1]=13.948978 <==IsSwitchingOccur() T = 34.430000 Tnext = 34.435000 Time: 3.44300e+01 states: [ -4.42764e+00 3.33946e-01] derivs: [ 3.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.435000 pESO->GetIndependentVar(): 34.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.948978, nextPhis[ 0]=-7.938919 prevPhis[ 1]=13.948978, nextPhis[ 1]=13.938919 <==IsSwitchingOccur() T = 34.435000 Tnext = 34.440000 Time: 3.44350e+01 states: [ -4.42595e+00 3.38946e-01] derivs: [ 3.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.440000 pESO->GetIndependentVar(): 34.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.938919, nextPhis[ 0]=-7.928784 prevPhis[ 1]=13.938919, nextPhis[ 1]=13.928784 <==IsSwitchingOccur() T = 34.440000 Tnext = 34.445000 Time: 3.44400e+01 states: [ -4.42424e+00 3.43946e-01] derivs: [ 3.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.445000 pESO->GetIndependentVar(): 34.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.928784, nextPhis[ 0]=-7.918575 prevPhis[ 1]=13.928784, nextPhis[ 1]=13.918575 <==IsSwitchingOccur() T = 34.445000 Tnext = 34.450000 Time: 3.44450e+01 states: [ -4.42251e+00 3.48946e-01] derivs: [ 3.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.450000 pESO->GetIndependentVar(): 34.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.918575, nextPhis[ 0]=-7.908290 prevPhis[ 1]=13.918575, nextPhis[ 1]=13.908290 <==IsSwitchingOccur() T = 34.450000 Tnext = 34.455000 Time: 3.44500e+01 states: [ -4.42075e+00 3.53946e-01] derivs: [ 3.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.455000 pESO->GetIndependentVar(): 34.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.908290, nextPhis[ 0]=-7.897930 prevPhis[ 1]=13.908290, nextPhis[ 1]=13.897930 <==IsSwitchingOccur() T = 34.455000 Tnext = 34.460000 Time: 3.44550e+01 states: [ -4.41896e+00 3.58946e-01] derivs: [ 3.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.460000 pESO->GetIndependentVar(): 34.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.897930, nextPhis[ 0]=-7.887496 prevPhis[ 1]=13.897930, nextPhis[ 1]=13.887496 <==IsSwitchingOccur() T = 34.460000 Tnext = 34.465000 Time: 3.44600e+01 states: [ -4.41715e+00 3.63946e-01] derivs: [ 3.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.465000 pESO->GetIndependentVar(): 34.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.887496, nextPhis[ 0]=-7.876986 prevPhis[ 1]=13.887496, nextPhis[ 1]=13.876986 <==IsSwitchingOccur() T = 34.465000 Tnext = 34.470000 Time: 3.44650e+01 states: [ -4.41531e+00 3.68946e-01] derivs: [ 3.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.470000 pESO->GetIndependentVar(): 34.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.876986, nextPhis[ 0]=-7.866402 prevPhis[ 1]=13.876986, nextPhis[ 1]=13.866402 <==IsSwitchingOccur() T = 34.470000 Tnext = 34.475000 Time: 3.44700e+01 states: [ -4.41345e+00 3.73946e-01] derivs: [ 3.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.475000 pESO->GetIndependentVar(): 34.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.866402, nextPhis[ 0]=-7.855742 prevPhis[ 1]=13.866402, nextPhis[ 1]=13.855742 <==IsSwitchingOccur() T = 34.475000 Tnext = 34.480000 Time: 3.44750e+01 states: [ -4.41156e+00 3.78946e-01] derivs: [ 3.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.480000 pESO->GetIndependentVar(): 34.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.855742, nextPhis[ 0]=-7.845008 prevPhis[ 1]=13.855742, nextPhis[ 1]=13.845008 <==IsSwitchingOccur() T = 34.480000 Tnext = 34.485000 Time: 3.44800e+01 states: [ -4.40965e+00 3.83946e-01] derivs: [ 3.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.485000 pESO->GetIndependentVar(): 34.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.845008, nextPhis[ 0]=-7.834198 prevPhis[ 1]=13.845008, nextPhis[ 1]=13.834198 <==IsSwitchingOccur() T = 34.485000 Tnext = 34.490000 Time: 3.44850e+01 states: [ -4.40771e+00 3.88946e-01] derivs: [ 3.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.490000 pESO->GetIndependentVar(): 34.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.834198, nextPhis[ 0]=-7.823313 prevPhis[ 1]=13.834198, nextPhis[ 1]=13.823313 <==IsSwitchingOccur() T = 34.490000 Tnext = 34.495000 Time: 3.44900e+01 states: [ -4.40575e+00 3.93946e-01] derivs: [ 3.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.495000 pESO->GetIndependentVar(): 34.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.823313, nextPhis[ 0]=-7.812354 prevPhis[ 1]=13.823313, nextPhis[ 1]=13.812354 <==IsSwitchingOccur() T = 34.495000 Tnext = 34.500000 Time: 3.44950e+01 states: [ -4.40377e+00 3.98946e-01] derivs: [ 4.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.500000 pESO->GetIndependentVar(): 34.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.812354, nextPhis[ 0]=-7.801319 prevPhis[ 1]=13.812354, nextPhis[ 1]=13.801319 <==IsSwitchingOccur() T = 34.500000 Tnext = 34.505000 Time: 3.45000e+01 states: [ -4.40175e+00 4.03946e-01] derivs: [ 4.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.505000 pESO->GetIndependentVar(): 34.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.801319, nextPhis[ 0]=-7.790210 prevPhis[ 1]=13.801319, nextPhis[ 1]=13.790210 <==IsSwitchingOccur() T = 34.505000 Tnext = 34.510000 Time: 3.45050e+01 states: [ -4.39972e+00 4.08946e-01] derivs: [ 4.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.510000 pESO->GetIndependentVar(): 34.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.790210, nextPhis[ 0]=-7.779025 prevPhis[ 1]=13.790210, nextPhis[ 1]=13.779025 <==IsSwitchingOccur() T = 34.510000 Tnext = 34.515000 Time: 3.45100e+01 states: [ -4.39766e+00 4.13946e-01] derivs: [ 4.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.515000 pESO->GetIndependentVar(): 34.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.779025, nextPhis[ 0]=-7.767766 prevPhis[ 1]=13.779025, nextPhis[ 1]=13.767766 <==IsSwitchingOccur() T = 34.515000 Tnext = 34.520000 Time: 3.45150e+01 states: [ -4.39557e+00 4.18946e-01] derivs: [ 4.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.520000 pESO->GetIndependentVar(): 34.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.767766, nextPhis[ 0]=-7.756431 prevPhis[ 1]=13.767766, nextPhis[ 1]=13.756431 <==IsSwitchingOccur() T = 34.520000 Tnext = 34.525000 Time: 3.45200e+01 states: [ -4.39346e+00 4.23946e-01] derivs: [ 4.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.525000 pESO->GetIndependentVar(): 34.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.756431, nextPhis[ 0]=-7.745021 prevPhis[ 1]=13.756431, nextPhis[ 1]=13.745021 <==IsSwitchingOccur() T = 34.525000 Tnext = 34.530000 Time: 3.45250e+01 states: [ -4.39132e+00 4.28946e-01] derivs: [ 4.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.530000 pESO->GetIndependentVar(): 34.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.745021, nextPhis[ 0]=-7.733537 prevPhis[ 1]=13.745021, nextPhis[ 1]=13.733537 <==IsSwitchingOccur() T = 34.530000 Tnext = 34.535000 Time: 3.45300e+01 states: [ -4.38916e+00 4.33946e-01] derivs: [ 4.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.535000 pESO->GetIndependentVar(): 34.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.733537, nextPhis[ 0]=-7.721977 prevPhis[ 1]=13.733537, nextPhis[ 1]=13.721977 <==IsSwitchingOccur() T = 34.535000 Tnext = 34.540000 Time: 3.45350e+01 states: [ -4.38697e+00 4.38946e-01] derivs: [ 4.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.540000 pESO->GetIndependentVar(): 34.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.721977, nextPhis[ 0]=-7.710343 prevPhis[ 1]=13.721977, nextPhis[ 1]=13.710343 <==IsSwitchingOccur() T = 34.540000 Tnext = 34.545000 Time: 3.45400e+01 states: [ -4.38476e+00 4.43946e-01] derivs: [ 4.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.545000 pESO->GetIndependentVar(): 34.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.710343, nextPhis[ 0]=-7.698633 prevPhis[ 1]=13.710343, nextPhis[ 1]=13.698633 <==IsSwitchingOccur() T = 34.545000 Tnext = 34.550000 Time: 3.45450e+01 states: [ -4.38253e+00 4.48946e-01] derivs: [ 4.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.550000 pESO->GetIndependentVar(): 34.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.698633, nextPhis[ 0]=-7.686849 prevPhis[ 1]=13.698633, nextPhis[ 1]=13.686849 <==IsSwitchingOccur() T = 34.550000 Tnext = 34.555000 Time: 3.45500e+01 states: [ -4.38026e+00 4.53946e-01] derivs: [ 4.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.555000 pESO->GetIndependentVar(): 34.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.686849, nextPhis[ 0]=-7.674989 prevPhis[ 1]=13.686849, nextPhis[ 1]=13.674989 <==IsSwitchingOccur() T = 34.555000 Tnext = 34.560000 Time: 3.45550e+01 states: [ -4.37798e+00 4.58946e-01] derivs: [ 4.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.560000 pESO->GetIndependentVar(): 34.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.674989, nextPhis[ 0]=-7.663054 prevPhis[ 1]=13.674989, nextPhis[ 1]=13.663054 <==IsSwitchingOccur() T = 34.560000 Tnext = 34.565000 Time: 3.45600e+01 states: [ -4.37567e+00 4.63946e-01] derivs: [ 4.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.565000 pESO->GetIndependentVar(): 34.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.663054, nextPhis[ 0]=-7.651045 prevPhis[ 1]=13.663054, nextPhis[ 1]=13.651045 <==IsSwitchingOccur() T = 34.565000 Tnext = 34.570000 Time: 3.45650e+01 states: [ -4.37333e+00 4.68946e-01] derivs: [ 4.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.570000 pESO->GetIndependentVar(): 34.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.651045, nextPhis[ 0]=-7.638960 prevPhis[ 1]=13.651045, nextPhis[ 1]=13.638960 <==IsSwitchingOccur() T = 34.570000 Tnext = 34.575000 Time: 3.45700e+01 states: [ -4.37097e+00 4.73946e-01] derivs: [ 4.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.575000 pESO->GetIndependentVar(): 34.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.638960, nextPhis[ 0]=-7.626801 prevPhis[ 1]=13.638960, nextPhis[ 1]=13.626801 <==IsSwitchingOccur() T = 34.575000 Tnext = 34.580000 Time: 3.45750e+01 states: [ -4.36858e+00 4.78946e-01] derivs: [ 4.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.580000 pESO->GetIndependentVar(): 34.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.626801, nextPhis[ 0]=-7.614566 prevPhis[ 1]=13.626801, nextPhis[ 1]=13.614566 <==IsSwitchingOccur() T = 34.580000 Tnext = 34.585000 Time: 3.45800e+01 states: [ -4.36617e+00 4.83946e-01] derivs: [ 4.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.585000 pESO->GetIndependentVar(): 34.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.614566, nextPhis[ 0]=-7.602257 prevPhis[ 1]=13.614566, nextPhis[ 1]=13.602257 <==IsSwitchingOccur() T = 34.585000 Tnext = 34.590000 Time: 3.45850e+01 states: [ -4.36373e+00 4.88946e-01] derivs: [ 4.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.590000 pESO->GetIndependentVar(): 34.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.602257, nextPhis[ 0]=-7.589872 prevPhis[ 1]=13.602257, nextPhis[ 1]=13.589872 <==IsSwitchingOccur() T = 34.590000 Tnext = 34.595000 Time: 3.45900e+01 states: [ -4.36127e+00 4.93946e-01] derivs: [ 4.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.595000 pESO->GetIndependentVar(): 34.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.589872, nextPhis[ 0]=-7.577412 prevPhis[ 1]=13.589872, nextPhis[ 1]=13.577412 <==IsSwitchingOccur() T = 34.595000 Tnext = 34.600000 Time: 3.45950e+01 states: [ -4.35879e+00 4.98946e-01] derivs: [ 5.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.600000 pESO->GetIndependentVar(): 34.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.577412, nextPhis[ 0]=-7.564878 prevPhis[ 1]=13.577412, nextPhis[ 1]=13.564878 <==IsSwitchingOccur() T = 34.600000 Tnext = 34.605000 Time: 3.46000e+01 states: [ -4.35627e+00 5.03946e-01] derivs: [ 5.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.605000 pESO->GetIndependentVar(): 34.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.564878, nextPhis[ 0]=-7.552268 prevPhis[ 1]=13.564878, nextPhis[ 1]=13.552268 <==IsSwitchingOccur() T = 34.605000 Tnext = 34.610000 Time: 3.46050e+01 states: [ -4.35374e+00 5.08946e-01] derivs: [ 5.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.610000 pESO->GetIndependentVar(): 34.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.552268, nextPhis[ 0]=-7.539584 prevPhis[ 1]=13.552268, nextPhis[ 1]=13.539584 <==IsSwitchingOccur() T = 34.610000 Tnext = 34.615000 Time: 3.46100e+01 states: [ -4.35118e+00 5.13946e-01] derivs: [ 5.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.615000 pESO->GetIndependentVar(): 34.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.539584, nextPhis[ 0]=-7.526824 prevPhis[ 1]=13.539584, nextPhis[ 1]=13.526824 <==IsSwitchingOccur() T = 34.615000 Tnext = 34.620000 Time: 3.46150e+01 states: [ -4.34859e+00 5.18946e-01] derivs: [ 5.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.620000 pESO->GetIndependentVar(): 34.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.526824, nextPhis[ 0]=-7.513989 prevPhis[ 1]=13.526824, nextPhis[ 1]=13.513989 <==IsSwitchingOccur() T = 34.620000 Tnext = 34.625000 Time: 3.46200e+01 states: [ -4.34598e+00 5.23946e-01] derivs: [ 5.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.625000 pESO->GetIndependentVar(): 34.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.513989, nextPhis[ 0]=-7.501080 prevPhis[ 1]=13.513989, nextPhis[ 1]=13.501080 <==IsSwitchingOccur() T = 34.625000 Tnext = 34.630000 Time: 3.46250e+01 states: [ -4.34334e+00 5.28946e-01] derivs: [ 5.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.630000 pESO->GetIndependentVar(): 34.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.501080, nextPhis[ 0]=-7.488095 prevPhis[ 1]=13.501080, nextPhis[ 1]=13.488095 <==IsSwitchingOccur() T = 34.630000 Tnext = 34.635000 Time: 3.46300e+01 states: [ -4.34068e+00 5.33946e-01] derivs: [ 5.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.635000 pESO->GetIndependentVar(): 34.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.488095, nextPhis[ 0]=-7.475036 prevPhis[ 1]=13.488095, nextPhis[ 1]=13.475036 <==IsSwitchingOccur() T = 34.635000 Tnext = 34.640000 Time: 3.46350e+01 states: [ -4.33799e+00 5.38946e-01] derivs: [ 5.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.640000 pESO->GetIndependentVar(): 34.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.475036, nextPhis[ 0]=-7.461901 prevPhis[ 1]=13.475036, nextPhis[ 1]=13.461901 <==IsSwitchingOccur() T = 34.640000 Tnext = 34.645000 Time: 3.46400e+01 states: [ -4.33528e+00 5.43946e-01] derivs: [ 5.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.645000 pESO->GetIndependentVar(): 34.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.461901, nextPhis[ 0]=-7.448692 prevPhis[ 1]=13.461901, nextPhis[ 1]=13.448692 <==IsSwitchingOccur() T = 34.645000 Tnext = 34.650000 Time: 3.46450e+01 states: [ -4.33255e+00 5.48946e-01] derivs: [ 5.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.650000 pESO->GetIndependentVar(): 34.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.448692, nextPhis[ 0]=-7.435407 prevPhis[ 1]=13.448692, nextPhis[ 1]=13.435407 <==IsSwitchingOccur() T = 34.650000 Tnext = 34.655000 Time: 3.46500e+01 states: [ -4.32978e+00 5.53946e-01] derivs: [ 5.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.655000 pESO->GetIndependentVar(): 34.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.435407, nextPhis[ 0]=-7.422047 prevPhis[ 1]=13.435407, nextPhis[ 1]=13.422047 <==IsSwitchingOccur() T = 34.655000 Tnext = 34.660000 Time: 3.46550e+01 states: [ -4.32700e+00 5.58946e-01] derivs: [ 5.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.660000 pESO->GetIndependentVar(): 34.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.422047, nextPhis[ 0]=-7.408613 prevPhis[ 1]=13.422047, nextPhis[ 1]=13.408613 <==IsSwitchingOccur() T = 34.660000 Tnext = 34.665000 Time: 3.46600e+01 states: [ -4.32419e+00 5.63946e-01] derivs: [ 5.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.665000 pESO->GetIndependentVar(): 34.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.408613, nextPhis[ 0]=-7.395103 prevPhis[ 1]=13.408613, nextPhis[ 1]=13.395103 <==IsSwitchingOccur() T = 34.665000 Tnext = 34.670000 Time: 3.46650e+01 states: [ -4.32135e+00 5.68946e-01] derivs: [ 5.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.670000 pESO->GetIndependentVar(): 34.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.395103, nextPhis[ 0]=-7.381519 prevPhis[ 1]=13.395103, nextPhis[ 1]=13.381519 <==IsSwitchingOccur() T = 34.670000 Tnext = 34.675000 Time: 3.46700e+01 states: [ -4.31849e+00 5.73946e-01] derivs: [ 5.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.675000 pESO->GetIndependentVar(): 34.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.381519, nextPhis[ 0]=-7.367859 prevPhis[ 1]=13.381519, nextPhis[ 1]=13.367859 <==IsSwitchingOccur() T = 34.675000 Tnext = 34.680000 Time: 3.46750e+01 states: [ -4.31560e+00 5.78946e-01] derivs: [ 5.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.680000 pESO->GetIndependentVar(): 34.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.367859, nextPhis[ 0]=-7.354125 prevPhis[ 1]=13.367859, nextPhis[ 1]=13.354125 <==IsSwitchingOccur() T = 34.680000 Tnext = 34.685000 Time: 3.46800e+01 states: [ -4.31269e+00 5.83946e-01] derivs: [ 5.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.685000 pESO->GetIndependentVar(): 34.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.354125, nextPhis[ 0]=-7.340315 prevPhis[ 1]=13.354125, nextPhis[ 1]=13.340315 <==IsSwitchingOccur() T = 34.685000 Tnext = 34.690000 Time: 3.46850e+01 states: [ -4.30975e+00 5.88946e-01] derivs: [ 5.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.690000 pESO->GetIndependentVar(): 34.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.340315, nextPhis[ 0]=-7.326430 prevPhis[ 1]=13.340315, nextPhis[ 1]=13.326430 <==IsSwitchingOccur() T = 34.690000 Tnext = 34.695000 Time: 3.46900e+01 states: [ -4.30679e+00 5.93946e-01] derivs: [ 5.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.695000 pESO->GetIndependentVar(): 34.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.326430, nextPhis[ 0]=-7.312471 prevPhis[ 1]=13.326430, nextPhis[ 1]=13.312471 <==IsSwitchingOccur() T = 34.695000 Tnext = 34.700000 Time: 3.46950e+01 states: [ -4.30381e+00 5.98946e-01] derivs: [ 6.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.700000 pESO->GetIndependentVar(): 34.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.312471, nextPhis[ 0]=-7.298436 prevPhis[ 1]=13.312471, nextPhis[ 1]=13.298436 <==IsSwitchingOccur() T = 34.700000 Tnext = 34.705000 Time: 3.47000e+01 states: [ -4.30079e+00 6.03946e-01] derivs: [ 6.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.705000 pESO->GetIndependentVar(): 34.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.298436, nextPhis[ 0]=-7.284327 prevPhis[ 1]=13.298436, nextPhis[ 1]=13.284327 <==IsSwitchingOccur() T = 34.705000 Tnext = 34.710000 Time: 3.47050e+01 states: [ -4.29776e+00 6.08946e-01] derivs: [ 6.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.710000 pESO->GetIndependentVar(): 34.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.284327, nextPhis[ 0]=-7.270142 prevPhis[ 1]=13.284327, nextPhis[ 1]=13.270142 <==IsSwitchingOccur() T = 34.710000 Tnext = 34.715000 Time: 3.47100e+01 states: [ -4.29470e+00 6.13946e-01] derivs: [ 6.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.715000 pESO->GetIndependentVar(): 34.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.270142, nextPhis[ 0]=-7.255883 prevPhis[ 1]=13.270142, nextPhis[ 1]=13.255883 <==IsSwitchingOccur() T = 34.715000 Tnext = 34.720000 Time: 3.47150e+01 states: [ -4.29161e+00 6.18946e-01] derivs: [ 6.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.720000 pESO->GetIndependentVar(): 34.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.255883, nextPhis[ 0]=-7.241548 prevPhis[ 1]=13.255883, nextPhis[ 1]=13.241548 <==IsSwitchingOccur() T = 34.720000 Tnext = 34.725000 Time: 3.47200e+01 states: [ -4.28850e+00 6.23946e-01] derivs: [ 6.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.725000 pESO->GetIndependentVar(): 34.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.241548, nextPhis[ 0]=-7.227138 prevPhis[ 1]=13.241548, nextPhis[ 1]=13.227138 <==IsSwitchingOccur() T = 34.725000 Tnext = 34.730000 Time: 3.47250e+01 states: [ -4.28536e+00 6.28946e-01] derivs: [ 6.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.730000 pESO->GetIndependentVar(): 34.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.227138, nextPhis[ 0]=-7.212654 prevPhis[ 1]=13.227138, nextPhis[ 1]=13.212654 <==IsSwitchingOccur() T = 34.730000 Tnext = 34.735000 Time: 3.47300e+01 states: [ -4.28220e+00 6.33946e-01] derivs: [ 6.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.735000 pESO->GetIndependentVar(): 34.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.212654, nextPhis[ 0]=-7.198094 prevPhis[ 1]=13.212654, nextPhis[ 1]=13.198094 <==IsSwitchingOccur() T = 34.735000 Tnext = 34.740000 Time: 3.47350e+01 states: [ -4.27901e+00 6.38946e-01] derivs: [ 6.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.740000 pESO->GetIndependentVar(): 34.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.198094, nextPhis[ 0]=-7.183460 prevPhis[ 1]=13.198094, nextPhis[ 1]=13.183460 <==IsSwitchingOccur() T = 34.740000 Tnext = 34.745000 Time: 3.47400e+01 states: [ -4.27580e+00 6.43946e-01] derivs: [ 6.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.745000 pESO->GetIndependentVar(): 34.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.183460, nextPhis[ 0]=-7.168750 prevPhis[ 1]=13.183460, nextPhis[ 1]=13.168750 <==IsSwitchingOccur() T = 34.745000 Tnext = 34.750000 Time: 3.47450e+01 states: [ -4.27257e+00 6.48946e-01] derivs: [ 6.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.750000 pESO->GetIndependentVar(): 34.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.168750, nextPhis[ 0]=-7.153966 prevPhis[ 1]=13.168750, nextPhis[ 1]=13.153966 <==IsSwitchingOccur() T = 34.750000 Tnext = 34.755000 Time: 3.47500e+01 states: [ -4.26930e+00 6.53946e-01] derivs: [ 6.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.755000 pESO->GetIndependentVar(): 34.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.153966, nextPhis[ 0]=-7.139106 prevPhis[ 1]=13.153966, nextPhis[ 1]=13.139106 <==IsSwitchingOccur() T = 34.755000 Tnext = 34.760000 Time: 3.47550e+01 states: [ -4.26602e+00 6.58946e-01] derivs: [ 6.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.760000 pESO->GetIndependentVar(): 34.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.139106, nextPhis[ 0]=-7.124171 prevPhis[ 1]=13.139106, nextPhis[ 1]=13.124171 <==IsSwitchingOccur() T = 34.760000 Tnext = 34.765000 Time: 3.47600e+01 states: [ -4.26271e+00 6.63946e-01] derivs: [ 6.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.765000 pESO->GetIndependentVar(): 34.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.124171, nextPhis[ 0]=-7.109162 prevPhis[ 1]=13.124171, nextPhis[ 1]=13.109162 <==IsSwitchingOccur() T = 34.765000 Tnext = 34.770000 Time: 3.47650e+01 states: [ -4.25937e+00 6.68946e-01] derivs: [ 6.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.770000 pESO->GetIndependentVar(): 34.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.109162, nextPhis[ 0]=-7.094077 prevPhis[ 1]=13.109162, nextPhis[ 1]=13.094077 <==IsSwitchingOccur() T = 34.770000 Tnext = 34.775000 Time: 3.47700e+01 states: [ -4.25601e+00 6.73946e-01] derivs: [ 6.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.775000 pESO->GetIndependentVar(): 34.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.094077, nextPhis[ 0]=-7.078918 prevPhis[ 1]=13.094077, nextPhis[ 1]=13.078918 <==IsSwitchingOccur() T = 34.775000 Tnext = 34.780000 Time: 3.47750e+01 states: [ -4.25262e+00 6.78946e-01] derivs: [ 6.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.780000 pESO->GetIndependentVar(): 34.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.078918, nextPhis[ 0]=-7.063683 prevPhis[ 1]=13.078918, nextPhis[ 1]=13.063683 <==IsSwitchingOccur() T = 34.780000 Tnext = 34.785000 Time: 3.47800e+01 states: [ -4.24921e+00 6.83946e-01] derivs: [ 6.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.785000 pESO->GetIndependentVar(): 34.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.063683, nextPhis[ 0]=-7.048374 prevPhis[ 1]=13.063683, nextPhis[ 1]=13.048374 <==IsSwitchingOccur() T = 34.785000 Tnext = 34.790000 Time: 3.47850e+01 states: [ -4.24577e+00 6.88946e-01] derivs: [ 6.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.790000 pESO->GetIndependentVar(): 34.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.048374, nextPhis[ 0]=-7.032989 prevPhis[ 1]=13.048374, nextPhis[ 1]=13.032989 <==IsSwitchingOccur() T = 34.790000 Tnext = 34.795000 Time: 3.47900e+01 states: [ -4.24231e+00 6.93946e-01] derivs: [ 6.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.795000 pESO->GetIndependentVar(): 34.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.032989, nextPhis[ 0]=-7.017529 prevPhis[ 1]=13.032989, nextPhis[ 1]=13.017529 <==IsSwitchingOccur() T = 34.795000 Tnext = 34.800000 Time: 3.47950e+01 states: [ -4.23882e+00 6.98946e-01] derivs: [ 7.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.800000 pESO->GetIndependentVar(): 34.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.017529, nextPhis[ 0]=-7.001995 prevPhis[ 1]=13.017529, nextPhis[ 1]=13.001995 <==IsSwitchingOccur() T = 34.800000 Tnext = 34.805000 Time: 3.48000e+01 states: [ -4.23531e+00 7.03946e-01] derivs: [ 7.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.805000 pESO->GetIndependentVar(): 34.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-7.001995, nextPhis[ 0]=-6.986385 prevPhis[ 1]=13.001995, nextPhis[ 1]=12.986385 <==IsSwitchingOccur() T = 34.805000 Tnext = 34.810000 Time: 3.48050e+01 states: [ -4.23178e+00 7.08946e-01] derivs: [ 7.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.810000 pESO->GetIndependentVar(): 34.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.986385, nextPhis[ 0]=-6.970701 prevPhis[ 1]=12.986385, nextPhis[ 1]=12.970701 <==IsSwitchingOccur() T = 34.810000 Tnext = 34.815000 Time: 3.48100e+01 states: [ -4.22822e+00 7.13946e-01] derivs: [ 7.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.815000 pESO->GetIndependentVar(): 34.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.970701, nextPhis[ 0]=-6.954941 prevPhis[ 1]=12.970701, nextPhis[ 1]=12.954941 <==IsSwitchingOccur() T = 34.815000 Tnext = 34.820000 Time: 3.48150e+01 states: [ -4.22463e+00 7.18946e-01] derivs: [ 7.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.820000 pESO->GetIndependentVar(): 34.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.954941, nextPhis[ 0]=-6.939106 prevPhis[ 1]=12.954941, nextPhis[ 1]=12.939106 <==IsSwitchingOccur() T = 34.820000 Tnext = 34.825000 Time: 3.48200e+01 states: [ -4.22102e+00 7.23946e-01] derivs: [ 7.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.825000 pESO->GetIndependentVar(): 34.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.939106, nextPhis[ 0]=-6.923197 prevPhis[ 1]=12.939106, nextPhis[ 1]=12.923197 <==IsSwitchingOccur() T = 34.825000 Tnext = 34.830000 Time: 3.48250e+01 states: [ -4.21738e+00 7.28946e-01] derivs: [ 7.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.830000 pESO->GetIndependentVar(): 34.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.923197, nextPhis[ 0]=-6.907212 prevPhis[ 1]=12.923197, nextPhis[ 1]=12.907212 <==IsSwitchingOccur() T = 34.830000 Tnext = 34.835000 Time: 3.48300e+01 states: [ -4.21372e+00 7.33946e-01] derivs: [ 7.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.835000 pESO->GetIndependentVar(): 34.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.907212, nextPhis[ 0]=-6.891153 prevPhis[ 1]=12.907212, nextPhis[ 1]=12.891153 <==IsSwitchingOccur() T = 34.835000 Tnext = 34.840000 Time: 3.48350e+01 states: [ -4.21003e+00 7.38946e-01] derivs: [ 7.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.840000 pESO->GetIndependentVar(): 34.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.891153, nextPhis[ 0]=-6.875018 prevPhis[ 1]=12.891153, nextPhis[ 1]=12.875018 <==IsSwitchingOccur() T = 34.840000 Tnext = 34.845000 Time: 3.48400e+01 states: [ -4.20632e+00 7.43946e-01] derivs: [ 7.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.845000 pESO->GetIndependentVar(): 34.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.875018, nextPhis[ 0]=-6.858809 prevPhis[ 1]=12.875018, nextPhis[ 1]=12.858809 <==IsSwitchingOccur() T = 34.845000 Tnext = 34.850000 Time: 3.48450e+01 states: [ -4.20258e+00 7.48946e-01] derivs: [ 7.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.850000 pESO->GetIndependentVar(): 34.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.858809, nextPhis[ 0]=-6.842524 prevPhis[ 1]=12.858809, nextPhis[ 1]=12.842524 <==IsSwitchingOccur() T = 34.850000 Tnext = 34.855000 Time: 3.48500e+01 states: [ -4.19882e+00 7.53946e-01] derivs: [ 7.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.855000 pESO->GetIndependentVar(): 34.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.842524, nextPhis[ 0]=-6.826164 prevPhis[ 1]=12.842524, nextPhis[ 1]=12.826164 <==IsSwitchingOccur() T = 34.855000 Tnext = 34.860000 Time: 3.48550e+01 states: [ -4.19504e+00 7.58946e-01] derivs: [ 7.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.860000 pESO->GetIndependentVar(): 34.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.826164, nextPhis[ 0]=-6.809730 prevPhis[ 1]=12.826164, nextPhis[ 1]=12.809730 <==IsSwitchingOccur() T = 34.860000 Tnext = 34.865000 Time: 3.48600e+01 states: [ -4.19123e+00 7.63946e-01] derivs: [ 7.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.865000 pESO->GetIndependentVar(): 34.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.809730, nextPhis[ 0]=-6.793220 prevPhis[ 1]=12.809730, nextPhis[ 1]=12.793220 <==IsSwitchingOccur() T = 34.865000 Tnext = 34.870000 Time: 3.48650e+01 states: [ -4.18739e+00 7.68946e-01] derivs: [ 7.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.870000 pESO->GetIndependentVar(): 34.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.793220, nextPhis[ 0]=-6.776636 prevPhis[ 1]=12.793220, nextPhis[ 1]=12.776636 <==IsSwitchingOccur() T = 34.870000 Tnext = 34.875000 Time: 3.48700e+01 states: [ -4.18353e+00 7.73946e-01] derivs: [ 7.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.875000 pESO->GetIndependentVar(): 34.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.776636, nextPhis[ 0]=-6.759976 prevPhis[ 1]=12.776636, nextPhis[ 1]=12.759976 <==IsSwitchingOccur() T = 34.875000 Tnext = 34.880000 Time: 3.48750e+01 states: [ -4.17964e+00 7.78946e-01] derivs: [ 7.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.880000 pESO->GetIndependentVar(): 34.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.759976, nextPhis[ 0]=-6.743242 prevPhis[ 1]=12.759976, nextPhis[ 1]=12.743242 <==IsSwitchingOccur() T = 34.880000 Tnext = 34.885000 Time: 3.48800e+01 states: [ -4.17573e+00 7.83946e-01] derivs: [ 7.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.885000 pESO->GetIndependentVar(): 34.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.743242, nextPhis[ 0]=-6.726432 prevPhis[ 1]=12.743242, nextPhis[ 1]=12.726432 <==IsSwitchingOccur() T = 34.885000 Tnext = 34.890000 Time: 3.48850e+01 states: [ -4.17179e+00 7.88946e-01] derivs: [ 7.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.890000 pESO->GetIndependentVar(): 34.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.726432, nextPhis[ 0]=-6.709547 prevPhis[ 1]=12.726432, nextPhis[ 1]=12.709547 <==IsSwitchingOccur() T = 34.890000 Tnext = 34.895000 Time: 3.48900e+01 states: [ -4.16783e+00 7.93946e-01] derivs: [ 7.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.895000 pESO->GetIndependentVar(): 34.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.709547, nextPhis[ 0]=-6.692588 prevPhis[ 1]=12.709547, nextPhis[ 1]=12.692588 <==IsSwitchingOccur() T = 34.895000 Tnext = 34.900000 Time: 3.48950e+01 states: [ -4.16384e+00 7.98946e-01] derivs: [ 8.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.900000 pESO->GetIndependentVar(): 34.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.692588, nextPhis[ 0]=-6.675553 prevPhis[ 1]=12.692588, nextPhis[ 1]=12.675553 <==IsSwitchingOccur() T = 34.900000 Tnext = 34.905000 Time: 3.49000e+01 states: [ -4.15983e+00 8.03946e-01] derivs: [ 8.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.905000 pESO->GetIndependentVar(): 34.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.675553, nextPhis[ 0]=-6.658444 prevPhis[ 1]=12.675553, nextPhis[ 1]=12.658444 <==IsSwitchingOccur() T = 34.905000 Tnext = 34.910000 Time: 3.49050e+01 states: [ -4.15580e+00 8.08946e-01] derivs: [ 8.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.910000 pESO->GetIndependentVar(): 34.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.658444, nextPhis[ 0]=-6.641259 prevPhis[ 1]=12.658444, nextPhis[ 1]=12.641259 <==IsSwitchingOccur() T = 34.910000 Tnext = 34.915000 Time: 3.49100e+01 states: [ -4.15173e+00 8.13946e-01] derivs: [ 8.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.915000 pESO->GetIndependentVar(): 34.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.641259, nextPhis[ 0]=-6.624000 prevPhis[ 1]=12.641259, nextPhis[ 1]=12.624000 <==IsSwitchingOccur() T = 34.915000 Tnext = 34.920000 Time: 3.49150e+01 states: [ -4.14765e+00 8.18946e-01] derivs: [ 8.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.920000 pESO->GetIndependentVar(): 34.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.624000, nextPhis[ 0]=-6.606665 prevPhis[ 1]=12.624000, nextPhis[ 1]=12.606665 <==IsSwitchingOccur() T = 34.920000 Tnext = 34.925000 Time: 3.49200e+01 states: [ -4.14354e+00 8.23946e-01] derivs: [ 8.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.925000 pESO->GetIndependentVar(): 34.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.606665, nextPhis[ 0]=-6.589255 prevPhis[ 1]=12.606665, nextPhis[ 1]=12.589255 <==IsSwitchingOccur() T = 34.925000 Tnext = 34.930000 Time: 3.49250e+01 states: [ -4.13940e+00 8.28946e-01] derivs: [ 8.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.930000 pESO->GetIndependentVar(): 34.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.589255, nextPhis[ 0]=-6.571771 prevPhis[ 1]=12.589255, nextPhis[ 1]=12.571771 <==IsSwitchingOccur() T = 34.930000 Tnext = 34.935000 Time: 3.49300e+01 states: [ -4.13524e+00 8.33946e-01] derivs: [ 8.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.935000 pESO->GetIndependentVar(): 34.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.571771, nextPhis[ 0]=-6.554211 prevPhis[ 1]=12.571771, nextPhis[ 1]=12.554211 <==IsSwitchingOccur() T = 34.935000 Tnext = 34.940000 Time: 3.49350e+01 states: [ -4.13105e+00 8.38946e-01] derivs: [ 8.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.940000 pESO->GetIndependentVar(): 34.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.554211, nextPhis[ 0]=-6.536577 prevPhis[ 1]=12.554211, nextPhis[ 1]=12.536577 <==IsSwitchingOccur() T = 34.940000 Tnext = 34.945000 Time: 3.49400e+01 states: [ -4.12684e+00 8.43946e-01] derivs: [ 8.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.945000 pESO->GetIndependentVar(): 34.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.536577, nextPhis[ 0]=-6.518867 prevPhis[ 1]=12.536577, nextPhis[ 1]=12.518867 <==IsSwitchingOccur() T = 34.945000 Tnext = 34.950000 Time: 3.49450e+01 states: [ -4.12260e+00 8.48946e-01] derivs: [ 8.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.950000 pESO->GetIndependentVar(): 34.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.518867, nextPhis[ 0]=-6.501083 prevPhis[ 1]=12.518867, nextPhis[ 1]=12.501083 <==IsSwitchingOccur() T = 34.950000 Tnext = 34.955000 Time: 3.49500e+01 states: [ -4.11834e+00 8.53946e-01] derivs: [ 8.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.955000 pESO->GetIndependentVar(): 34.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.501083, nextPhis[ 0]=-6.483223 prevPhis[ 1]=12.501083, nextPhis[ 1]=12.483223 <==IsSwitchingOccur() T = 34.955000 Tnext = 34.960000 Time: 3.49550e+01 states: [ -4.11406e+00 8.58946e-01] derivs: [ 8.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.960000 pESO->GetIndependentVar(): 34.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.483223, nextPhis[ 0]=-6.465288 prevPhis[ 1]=12.483223, nextPhis[ 1]=12.465288 <==IsSwitchingOccur() T = 34.960000 Tnext = 34.965000 Time: 3.49600e+01 states: [ -4.10974e+00 8.63946e-01] derivs: [ 8.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.965000 pESO->GetIndependentVar(): 34.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.465288, nextPhis[ 0]=-6.447279 prevPhis[ 1]=12.465288, nextPhis[ 1]=12.447279 <==IsSwitchingOccur() T = 34.965000 Tnext = 34.970000 Time: 3.49650e+01 states: [ -4.10541e+00 8.68946e-01] derivs: [ 8.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.970000 pESO->GetIndependentVar(): 34.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.447279, nextPhis[ 0]=-6.429194 prevPhis[ 1]=12.447279, nextPhis[ 1]=12.429194 <==IsSwitchingOccur() T = 34.970000 Tnext = 34.975000 Time: 3.49700e+01 states: [ -4.10105e+00 8.73946e-01] derivs: [ 8.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.975000 pESO->GetIndependentVar(): 34.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.429194, nextPhis[ 0]=-6.411035 prevPhis[ 1]=12.429194, nextPhis[ 1]=12.411035 <==IsSwitchingOccur() T = 34.975000 Tnext = 34.980000 Time: 3.49750e+01 states: [ -4.09666e+00 8.78946e-01] derivs: [ 8.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.980000 pESO->GetIndependentVar(): 34.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.411035, nextPhis[ 0]=-6.392800 prevPhis[ 1]=12.411035, nextPhis[ 1]=12.392800 <==IsSwitchingOccur() T = 34.980000 Tnext = 34.985000 Time: 3.49800e+01 states: [ -4.09225e+00 8.83946e-01] derivs: [ 8.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.985000 pESO->GetIndependentVar(): 34.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.392800, nextPhis[ 0]=-6.374491 prevPhis[ 1]=12.392800, nextPhis[ 1]=12.374491 <==IsSwitchingOccur() T = 34.985000 Tnext = 34.990000 Time: 3.49850e+01 states: [ -4.08781e+00 8.88946e-01] derivs: [ 8.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.990000 pESO->GetIndependentVar(): 34.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.374491, nextPhis[ 0]=-6.356106 prevPhis[ 1]=12.374491, nextPhis[ 1]=12.356106 <==IsSwitchingOccur() T = 34.990000 Tnext = 34.995000 Time: 3.49900e+01 states: [ -4.08335e+00 8.93946e-01] derivs: [ 8.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 34.995000 pESO->GetIndependentVar(): 34.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.356106, nextPhis[ 0]=-6.337646 prevPhis[ 1]=12.356106, nextPhis[ 1]=12.337646 <==IsSwitchingOccur() T = 34.995000 Tnext = 35.000000 Time: 3.49950e+01 states: [ -4.07886e+00 8.98946e-01] derivs: [ 9.00237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.000000 pESO->GetIndependentVar(): 35.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.337646, nextPhis[ 0]=-6.319112 prevPhis[ 1]=12.337646, nextPhis[ 1]=12.319112 <==IsSwitchingOccur() T = 35.000000 Tnext = 35.005000 Time: 3.50000e+01 states: [ -4.07435e+00 9.03946e-01] derivs: [ 9.05237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.005000 pESO->GetIndependentVar(): 35.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.319112, nextPhis[ 0]=-6.300502 prevPhis[ 1]=12.319112, nextPhis[ 1]=12.300502 <==IsSwitchingOccur() T = 35.005000 Tnext = 35.010000 Time: 3.50050e+01 states: [ -4.06982e+00 9.08946e-01] derivs: [ 9.10237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.010000 pESO->GetIndependentVar(): 35.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.300502, nextPhis[ 0]=-6.281818 prevPhis[ 1]=12.300502, nextPhis[ 1]=12.281818 <==IsSwitchingOccur() T = 35.010000 Tnext = 35.015000 Time: 3.50100e+01 states: [ -4.06525e+00 9.13946e-01] derivs: [ 9.15237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.015000 pESO->GetIndependentVar(): 35.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.281818, nextPhis[ 0]=-6.263058 prevPhis[ 1]=12.281818, nextPhis[ 1]=12.263058 <==IsSwitchingOccur() T = 35.015000 Tnext = 35.020000 Time: 3.50150e+01 states: [ -4.06067e+00 9.18946e-01] derivs: [ 9.20237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.020000 pESO->GetIndependentVar(): 35.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.263058, nextPhis[ 0]=-6.244224 prevPhis[ 1]=12.263058, nextPhis[ 1]=12.244224 <==IsSwitchingOccur() T = 35.020000 Tnext = 35.025000 Time: 3.50200e+01 states: [ -4.05606e+00 9.23946e-01] derivs: [ 9.25237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.025000 pESO->GetIndependentVar(): 35.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.244224, nextPhis[ 0]=-6.225314 prevPhis[ 1]=12.244224, nextPhis[ 1]=12.225314 <==IsSwitchingOccur() T = 35.025000 Tnext = 35.030000 Time: 3.50250e+01 states: [ -4.05142e+00 9.28946e-01] derivs: [ 9.30237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.030000 pESO->GetIndependentVar(): 35.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.225314, nextPhis[ 0]=-6.206329 prevPhis[ 1]=12.225314, nextPhis[ 1]=12.206329 <==IsSwitchingOccur() T = 35.030000 Tnext = 35.035000 Time: 3.50300e+01 states: [ -4.04676e+00 9.33946e-01] derivs: [ 9.35237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.035000 pESO->GetIndependentVar(): 35.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.206329, nextPhis[ 0]=-6.187270 prevPhis[ 1]=12.206329, nextPhis[ 1]=12.187270 <==IsSwitchingOccur() T = 35.035000 Tnext = 35.040000 Time: 3.50350e+01 states: [ -4.04207e+00 9.38946e-01] derivs: [ 9.40237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.040000 pESO->GetIndependentVar(): 35.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.187270, nextPhis[ 0]=-6.168135 prevPhis[ 1]=12.187270, nextPhis[ 1]=12.168135 <==IsSwitchingOccur() T = 35.040000 Tnext = 35.045000 Time: 3.50400e+01 states: [ -4.03736e+00 9.43946e-01] derivs: [ 9.45237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.045000 pESO->GetIndependentVar(): 35.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.168135, nextPhis[ 0]=-6.148926 prevPhis[ 1]=12.168135, nextPhis[ 1]=12.148926 <==IsSwitchingOccur() T = 35.045000 Tnext = 35.050000 Time: 3.50450e+01 states: [ -4.03262e+00 9.48946e-01] derivs: [ 9.50237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.050000 pESO->GetIndependentVar(): 35.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.148926, nextPhis[ 0]=-6.129641 prevPhis[ 1]=12.148926, nextPhis[ 1]=12.129641 <==IsSwitchingOccur() T = 35.050000 Tnext = 35.055000 Time: 3.50500e+01 states: [ -4.02786e+00 9.53946e-01] derivs: [ 9.55237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.055000 pESO->GetIndependentVar(): 35.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.129641, nextPhis[ 0]=-6.110281 prevPhis[ 1]=12.129641, nextPhis[ 1]=12.110281 <==IsSwitchingOccur() T = 35.055000 Tnext = 35.060000 Time: 3.50550e+01 states: [ -4.02308e+00 9.58946e-01] derivs: [ 9.60237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.060000 pESO->GetIndependentVar(): 35.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.110281, nextPhis[ 0]=-6.090847 prevPhis[ 1]=12.110281, nextPhis[ 1]=12.090847 <==IsSwitchingOccur() T = 35.060000 Tnext = 35.065000 Time: 3.50600e+01 states: [ -4.01826e+00 9.63946e-01] derivs: [ 9.65237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.065000 pESO->GetIndependentVar(): 35.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.090847, nextPhis[ 0]=-6.071337 prevPhis[ 1]=12.090847, nextPhis[ 1]=12.071337 <==IsSwitchingOccur() T = 35.065000 Tnext = 35.070000 Time: 3.50650e+01 states: [ -4.01343e+00 9.68946e-01] derivs: [ 9.70237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.070000 pESO->GetIndependentVar(): 35.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.071337, nextPhis[ 0]=-6.051753 prevPhis[ 1]=12.071337, nextPhis[ 1]=12.051753 <==IsSwitchingOccur() T = 35.070000 Tnext = 35.075000 Time: 3.50700e+01 states: [ -4.00857e+00 9.73946e-01] derivs: [ 9.75237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.075000 pESO->GetIndependentVar(): 35.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.051753, nextPhis[ 0]=-6.032093 prevPhis[ 1]=12.051753, nextPhis[ 1]=12.032093 <==IsSwitchingOccur() T = 35.075000 Tnext = 35.080000 Time: 3.50750e+01 states: [ -4.00368e+00 9.78946e-01] derivs: [ 9.80237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.080000 pESO->GetIndependentVar(): 35.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.032093, nextPhis[ 0]=-6.012359 prevPhis[ 1]=12.032093, nextPhis[ 1]=12.012359 <==IsSwitchingOccur() T = 35.080000 Tnext = 35.085000 Time: 3.50800e+01 states: [ -3.99877e+00 9.83946e-01] derivs: [ 9.85237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.085000 pESO->GetIndependentVar(): 35.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-6.012359, nextPhis[ 0]=-5.992549 prevPhis[ 1]=12.012359, nextPhis[ 1]=11.992549 <==IsSwitchingOccur() T = 35.085000 Tnext = 35.090000 Time: 3.50850e+01 states: [ -3.99383e+00 9.88946e-01] derivs: [ 9.90237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.090000 pESO->GetIndependentVar(): 35.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.992549, nextPhis[ 0]=-5.972664 prevPhis[ 1]=11.992549, nextPhis[ 1]=11.972664 <==IsSwitchingOccur() T = 35.090000 Tnext = 35.095000 Time: 3.50900e+01 states: [ -3.98887e+00 9.93946e-01] derivs: [ 9.95237e-01 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.095000 pESO->GetIndependentVar(): 35.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.972664, nextPhis[ 0]=-5.952705 prevPhis[ 1]=11.972664, nextPhis[ 1]=11.952705 <==IsSwitchingOccur() T = 35.095000 Tnext = 35.100000 Time: 3.50950e+01 states: [ -3.98388e+00 9.98946e-01] derivs: [ 1.00024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.100000 pESO->GetIndependentVar(): 35.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.952705, nextPhis[ 0]=-5.932670 prevPhis[ 1]=11.952705, nextPhis[ 1]=11.932670 <==IsSwitchingOccur() T = 35.100000 Tnext = 35.105000 Time: 3.51000e+01 states: [ -3.97887e+00 1.00395e+00] derivs: [ 1.00524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.105000 pESO->GetIndependentVar(): 35.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.932670, nextPhis[ 0]=-5.912561 prevPhis[ 1]=11.932670, nextPhis[ 1]=11.912561 <==IsSwitchingOccur() T = 35.105000 Tnext = 35.110000 Time: 3.51050e+01 states: [ -3.97384e+00 1.00895e+00] derivs: [ 1.01024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.110000 pESO->GetIndependentVar(): 35.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.912561, nextPhis[ 0]=-5.892376 prevPhis[ 1]=11.912561, nextPhis[ 1]=11.892376 <==IsSwitchingOccur() T = 35.110000 Tnext = 35.115000 Time: 3.51100e+01 states: [ -3.96877e+00 1.01395e+00] derivs: [ 1.01524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.115000 pESO->GetIndependentVar(): 35.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.892376, nextPhis[ 0]=-5.872117 prevPhis[ 1]=11.892376, nextPhis[ 1]=11.872117 <==IsSwitchingOccur() T = 35.115000 Tnext = 35.120000 Time: 3.51150e+01 states: [ -3.96369e+00 1.01895e+00] derivs: [ 1.02024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.120000 pESO->GetIndependentVar(): 35.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.872117, nextPhis[ 0]=-5.851782 prevPhis[ 1]=11.872117, nextPhis[ 1]=11.851782 <==IsSwitchingOccur() T = 35.120000 Tnext = 35.125000 Time: 3.51200e+01 states: [ -3.95858e+00 1.02395e+00] derivs: [ 1.02524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.125000 pESO->GetIndependentVar(): 35.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.851782, nextPhis[ 0]=-5.831372 prevPhis[ 1]=11.851782, nextPhis[ 1]=11.831372 <==IsSwitchingOccur() T = 35.125000 Tnext = 35.130000 Time: 3.51250e+01 states: [ -3.95344e+00 1.02895e+00] derivs: [ 1.03024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.130000 pESO->GetIndependentVar(): 35.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.831372, nextPhis[ 0]=-5.810888 prevPhis[ 1]=11.831372, nextPhis[ 1]=11.810888 <==IsSwitchingOccur() T = 35.130000 Tnext = 35.135000 Time: 3.51300e+01 states: [ -3.94828e+00 1.03395e+00] derivs: [ 1.03524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.135000 pESO->GetIndependentVar(): 35.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.810888, nextPhis[ 0]=-5.790328 prevPhis[ 1]=11.810888, nextPhis[ 1]=11.790328 <==IsSwitchingOccur() T = 35.135000 Tnext = 35.140000 Time: 3.51350e+01 states: [ -3.94309e+00 1.03895e+00] derivs: [ 1.04024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.140000 pESO->GetIndependentVar(): 35.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.790328, nextPhis[ 0]=-5.769694 prevPhis[ 1]=11.790328, nextPhis[ 1]=11.769694 <==IsSwitchingOccur() T = 35.140000 Tnext = 35.145000 Time: 3.51400e+01 states: [ -3.93788e+00 1.04395e+00] derivs: [ 1.04524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.145000 pESO->GetIndependentVar(): 35.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.769694, nextPhis[ 0]=-5.748984 prevPhis[ 1]=11.769694, nextPhis[ 1]=11.748984 <==IsSwitchingOccur() T = 35.145000 Tnext = 35.150000 Time: 3.51450e+01 states: [ -3.93264e+00 1.04895e+00] derivs: [ 1.05024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.150000 pESO->GetIndependentVar(): 35.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.748984, nextPhis[ 0]=-5.728200 prevPhis[ 1]=11.748984, nextPhis[ 1]=11.728200 <==IsSwitchingOccur() T = 35.150000 Tnext = 35.155000 Time: 3.51500e+01 states: [ -3.92738e+00 1.05395e+00] derivs: [ 1.05524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.155000 pESO->GetIndependentVar(): 35.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.728200, nextPhis[ 0]=-5.707340 prevPhis[ 1]=11.728200, nextPhis[ 1]=11.707340 <==IsSwitchingOccur() T = 35.155000 Tnext = 35.160000 Time: 3.51550e+01 states: [ -3.92210e+00 1.05895e+00] derivs: [ 1.06024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.160000 pESO->GetIndependentVar(): 35.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.707340, nextPhis[ 0]=-5.686405 prevPhis[ 1]=11.707340, nextPhis[ 1]=11.686405 <==IsSwitchingOccur() T = 35.160000 Tnext = 35.165000 Time: 3.51600e+01 states: [ -3.91678e+00 1.06395e+00] derivs: [ 1.06524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.165000 pESO->GetIndependentVar(): 35.165000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.686405, nextPhis[ 0]=-5.665396 prevPhis[ 1]=11.686405, nextPhis[ 1]=11.665396 <==IsSwitchingOccur() T = 35.165000 Tnext = 35.170000 Time: 3.51650e+01 states: [ -3.91145e+00 1.06895e+00] derivs: [ 1.07024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.170000 pESO->GetIndependentVar(): 35.170000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.665396, nextPhis[ 0]=-5.644311 prevPhis[ 1]=11.665396, nextPhis[ 1]=11.644311 <==IsSwitchingOccur() T = 35.170000 Tnext = 35.175000 Time: 3.51700e+01 states: [ -3.90609e+00 1.07395e+00] derivs: [ 1.07524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.175000 pESO->GetIndependentVar(): 35.175000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.644311, nextPhis[ 0]=-5.623152 prevPhis[ 1]=11.644311, nextPhis[ 1]=11.623152 <==IsSwitchingOccur() T = 35.175000 Tnext = 35.180000 Time: 3.51750e+01 states: [ -3.90070e+00 1.07895e+00] derivs: [ 1.08024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.180000 pESO->GetIndependentVar(): 35.180000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.623152, nextPhis[ 0]=-5.601917 prevPhis[ 1]=11.623152, nextPhis[ 1]=11.601917 <==IsSwitchingOccur() T = 35.180000 Tnext = 35.185000 Time: 3.51800e+01 states: [ -3.89529e+00 1.08395e+00] derivs: [ 1.08524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.185000 pESO->GetIndependentVar(): 35.185000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.601917, nextPhis[ 0]=-5.580608 prevPhis[ 1]=11.601917, nextPhis[ 1]=11.580608 <==IsSwitchingOccur() T = 35.185000 Tnext = 35.190000 Time: 3.51850e+01 states: [ -3.88985e+00 1.08895e+00] derivs: [ 1.09024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.190000 pESO->GetIndependentVar(): 35.190000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.580608, nextPhis[ 0]=-5.559223 prevPhis[ 1]=11.580608, nextPhis[ 1]=11.559223 <==IsSwitchingOccur() T = 35.190000 Tnext = 35.195000 Time: 3.51900e+01 states: [ -3.88439e+00 1.09395e+00] derivs: [ 1.09524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.195000 pESO->GetIndependentVar(): 35.195000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.559223, nextPhis[ 0]=-5.537763 prevPhis[ 1]=11.559223, nextPhis[ 1]=11.537763 <==IsSwitchingOccur() T = 35.195000 Tnext = 35.200000 Time: 3.51950e+01 states: [ -3.87890e+00 1.09895e+00] derivs: [ 1.10024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.200000 pESO->GetIndependentVar(): 35.200000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.537763, nextPhis[ 0]=-5.516229 prevPhis[ 1]=11.537763, nextPhis[ 1]=11.516229 <==IsSwitchingOccur() T = 35.200000 Tnext = 35.205000 Time: 3.52000e+01 states: [ -3.87339e+00 1.10395e+00] derivs: [ 1.10524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.205000 pESO->GetIndependentVar(): 35.205000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.516229, nextPhis[ 0]=-5.494619 prevPhis[ 1]=11.516229, nextPhis[ 1]=11.494619 <==IsSwitchingOccur() T = 35.205000 Tnext = 35.210000 Time: 3.52050e+01 states: [ -3.86785e+00 1.10895e+00] derivs: [ 1.11024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.210000 pESO->GetIndependentVar(): 35.210000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.494619, nextPhis[ 0]=-5.472935 prevPhis[ 1]=11.494619, nextPhis[ 1]=11.472935 <==IsSwitchingOccur() T = 35.210000 Tnext = 35.215000 Time: 3.52100e+01 states: [ -3.86229e+00 1.11395e+00] derivs: [ 1.11524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.215000 pESO->GetIndependentVar(): 35.215000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.472935, nextPhis[ 0]=-5.451175 prevPhis[ 1]=11.472935, nextPhis[ 1]=11.451175 <==IsSwitchingOccur() T = 35.215000 Tnext = 35.220000 Time: 3.52150e+01 states: [ -3.85671e+00 1.11895e+00] derivs: [ 1.12024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.220000 pESO->GetIndependentVar(): 35.220000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.451175, nextPhis[ 0]=-5.429341 prevPhis[ 1]=11.451175, nextPhis[ 1]=11.429341 <==IsSwitchingOccur() T = 35.220000 Tnext = 35.225000 Time: 3.52200e+01 states: [ -3.85110e+00 1.12395e+00] derivs: [ 1.12524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.225000 pESO->GetIndependentVar(): 35.225000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.429341, nextPhis[ 0]=-5.407431 prevPhis[ 1]=11.429341, nextPhis[ 1]=11.407431 <==IsSwitchingOccur() T = 35.225000 Tnext = 35.230000 Time: 3.52250e+01 states: [ -3.84546e+00 1.12895e+00] derivs: [ 1.13024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.230000 pESO->GetIndependentVar(): 35.230000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.407431, nextPhis[ 0]=-5.385446 prevPhis[ 1]=11.407431, nextPhis[ 1]=11.385446 <==IsSwitchingOccur() T = 35.230000 Tnext = 35.235000 Time: 3.52300e+01 states: [ -3.83980e+00 1.13395e+00] derivs: [ 1.13524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.235000 pESO->GetIndependentVar(): 35.235000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.385446, nextPhis[ 0]=-5.363387 prevPhis[ 1]=11.385446, nextPhis[ 1]=11.363387 <==IsSwitchingOccur() T = 35.235000 Tnext = 35.240000 Time: 3.52350e+01 states: [ -3.83411e+00 1.13895e+00] derivs: [ 1.14024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.240000 pESO->GetIndependentVar(): 35.240000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.363387, nextPhis[ 0]=-5.341252 prevPhis[ 1]=11.363387, nextPhis[ 1]=11.341252 <==IsSwitchingOccur() T = 35.240000 Tnext = 35.245000 Time: 3.52400e+01 states: [ -3.82840e+00 1.14395e+00] derivs: [ 1.14524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.245000 pESO->GetIndependentVar(): 35.245000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.341252, nextPhis[ 0]=-5.319043 prevPhis[ 1]=11.341252, nextPhis[ 1]=11.319043 <==IsSwitchingOccur() T = 35.245000 Tnext = 35.250000 Time: 3.52450e+01 states: [ -3.82266e+00 1.14895e+00] derivs: [ 1.15024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.250000 pESO->GetIndependentVar(): 35.250000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.319043, nextPhis[ 0]=-5.296758 prevPhis[ 1]=11.319043, nextPhis[ 1]=11.296758 <==IsSwitchingOccur() T = 35.250000 Tnext = 35.255000 Time: 3.52500e+01 states: [ -3.81690e+00 1.15395e+00] derivs: [ 1.15524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.255000 pESO->GetIndependentVar(): 35.255000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.296758, nextPhis[ 0]=-5.274398 prevPhis[ 1]=11.296758, nextPhis[ 1]=11.274398 <==IsSwitchingOccur() T = 35.255000 Tnext = 35.260000 Time: 3.52550e+01 states: [ -3.81111e+00 1.15895e+00] derivs: [ 1.16024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.260000 pESO->GetIndependentVar(): 35.260000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.274398, nextPhis[ 0]=-5.251964 prevPhis[ 1]=11.274398, nextPhis[ 1]=11.251964 <==IsSwitchingOccur() T = 35.260000 Tnext = 35.265000 Time: 3.52600e+01 states: [ -3.80530e+00 1.16395e+00] derivs: [ 1.16524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.265000 pESO->GetIndependentVar(): 35.265000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.251964, nextPhis[ 0]=-5.229454 prevPhis[ 1]=11.251964, nextPhis[ 1]=11.229454 <==IsSwitchingOccur() T = 35.265000 Tnext = 35.270000 Time: 3.52650e+01 states: [ -3.79947e+00 1.16895e+00] derivs: [ 1.17024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.270000 pESO->GetIndependentVar(): 35.270000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.229454, nextPhis[ 0]=-5.206870 prevPhis[ 1]=11.229454, nextPhis[ 1]=11.206870 <==IsSwitchingOccur() T = 35.270000 Tnext = 35.275000 Time: 3.52700e+01 states: [ -3.79361e+00 1.17395e+00] derivs: [ 1.17524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.275000 pESO->GetIndependentVar(): 35.275000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.206870, nextPhis[ 0]=-5.184210 prevPhis[ 1]=11.206870, nextPhis[ 1]=11.184210 <==IsSwitchingOccur() T = 35.275000 Tnext = 35.280000 Time: 3.52750e+01 states: [ -3.78772e+00 1.17895e+00] derivs: [ 1.18024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.280000 pESO->GetIndependentVar(): 35.280000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.184210, nextPhis[ 0]=-5.161476 prevPhis[ 1]=11.184210, nextPhis[ 1]=11.161476 <==IsSwitchingOccur() T = 35.280000 Tnext = 35.285000 Time: 3.52800e+01 states: [ -3.78181e+00 1.18395e+00] derivs: [ 1.18524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.285000 pESO->GetIndependentVar(): 35.285000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.161476, nextPhis[ 0]=-5.138666 prevPhis[ 1]=11.161476, nextPhis[ 1]=11.138666 <==IsSwitchingOccur() T = 35.285000 Tnext = 35.290000 Time: 3.52850e+01 states: [ -3.77587e+00 1.18895e+00] derivs: [ 1.19024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.290000 pESO->GetIndependentVar(): 35.290000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.138666, nextPhis[ 0]=-5.115781 prevPhis[ 1]=11.138666, nextPhis[ 1]=11.115781 <==IsSwitchingOccur() T = 35.290000 Tnext = 35.295000 Time: 3.52900e+01 states: [ -3.76991e+00 1.19395e+00] derivs: [ 1.19524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.295000 pESO->GetIndependentVar(): 35.295000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.115781, nextPhis[ 0]=-5.092822 prevPhis[ 1]=11.115781, nextPhis[ 1]=11.092822 <==IsSwitchingOccur() T = 35.295000 Tnext = 35.300000 Time: 3.52950e+01 states: [ -3.76392e+00 1.19895e+00] derivs: [ 1.20024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.300000 pESO->GetIndependentVar(): 35.300000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.092822, nextPhis[ 0]=-5.069787 prevPhis[ 1]=11.092822, nextPhis[ 1]=11.069787 <==IsSwitchingOccur() T = 35.300000 Tnext = 35.305000 Time: 3.53000e+01 states: [ -3.75791e+00 1.20395e+00] derivs: [ 1.20524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.305000 pESO->GetIndependentVar(): 35.305000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.069787, nextPhis[ 0]=-5.046678 prevPhis[ 1]=11.069787, nextPhis[ 1]=11.046678 <==IsSwitchingOccur() T = 35.305000 Tnext = 35.310000 Time: 3.53050e+01 states: [ -3.75187e+00 1.20895e+00] derivs: [ 1.21024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.310000 pESO->GetIndependentVar(): 35.310000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.046678, nextPhis[ 0]=-5.023493 prevPhis[ 1]=11.046678, nextPhis[ 1]=11.023493 <==IsSwitchingOccur() T = 35.310000 Tnext = 35.315000 Time: 3.53100e+01 states: [ -3.74581e+00 1.21395e+00] derivs: [ 1.21524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.315000 pESO->GetIndependentVar(): 35.315000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.023493, nextPhis[ 0]=-5.000234 prevPhis[ 1]=11.023493, nextPhis[ 1]=11.000234 <==IsSwitchingOccur() T = 35.315000 Tnext = 35.320000 Time: 3.53150e+01 states: [ -3.73973e+00 1.21895e+00] derivs: [ 1.22024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.320000 pESO->GetIndependentVar(): 35.320000 ==>IsSwitchingOccur() prevPhis[ 0]=-5.000234, nextPhis[ 0]=-4.976899 prevPhis[ 1]=11.000234, nextPhis[ 1]=10.976899 <==IsSwitchingOccur() T = 35.320000 Tnext = 35.325000 Time: 3.53200e+01 states: [ -3.73361e+00 1.22395e+00] derivs: [ 1.22524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.325000 pESO->GetIndependentVar(): 35.325000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.976899, nextPhis[ 0]=-4.953489 prevPhis[ 1]=10.976899, nextPhis[ 1]=10.953489 <==IsSwitchingOccur() T = 35.325000 Tnext = 35.330000 Time: 3.53250e+01 states: [ -3.72748e+00 1.22895e+00] derivs: [ 1.23024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.330000 pESO->GetIndependentVar(): 35.330000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.953489, nextPhis[ 0]=-4.930005 prevPhis[ 1]=10.953489, nextPhis[ 1]=10.930005 <==IsSwitchingOccur() T = 35.330000 Tnext = 35.335000 Time: 3.53300e+01 states: [ -3.72132e+00 1.23395e+00] derivs: [ 1.23524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.335000 pESO->GetIndependentVar(): 35.335000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.930005, nextPhis[ 0]=-4.906445 prevPhis[ 1]=10.930005, nextPhis[ 1]=10.906445 <==IsSwitchingOccur() T = 35.335000 Tnext = 35.340000 Time: 3.53350e+01 states: [ -3.71513e+00 1.23895e+00] derivs: [ 1.24024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.340000 pESO->GetIndependentVar(): 35.340000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.906445, nextPhis[ 0]=-4.882811 prevPhis[ 1]=10.906445, nextPhis[ 1]=10.882811 <==IsSwitchingOccur() T = 35.340000 Tnext = 35.345000 Time: 3.53400e+01 states: [ -3.70892e+00 1.24395e+00] derivs: [ 1.24524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.345000 pESO->GetIndependentVar(): 35.345000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.882811, nextPhis[ 0]=-4.859101 prevPhis[ 1]=10.882811, nextPhis[ 1]=10.859101 <==IsSwitchingOccur() T = 35.345000 Tnext = 35.350000 Time: 3.53450e+01 states: [ -3.70268e+00 1.24895e+00] derivs: [ 1.25024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.350000 pESO->GetIndependentVar(): 35.350000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.859101, nextPhis[ 0]=-4.835317 prevPhis[ 1]=10.859101, nextPhis[ 1]=10.835317 <==IsSwitchingOccur() T = 35.350000 Tnext = 35.355000 Time: 3.53500e+01 states: [ -3.69642e+00 1.25395e+00] derivs: [ 1.25524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.355000 pESO->GetIndependentVar(): 35.355000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.835317, nextPhis[ 0]=-4.811457 prevPhis[ 1]=10.835317, nextPhis[ 1]=10.811457 <==IsSwitchingOccur() T = 35.355000 Tnext = 35.360000 Time: 3.53550e+01 states: [ -3.69013e+00 1.25895e+00] derivs: [ 1.26024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.360000 pESO->GetIndependentVar(): 35.360000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.811457, nextPhis[ 0]=-4.787522 prevPhis[ 1]=10.811457, nextPhis[ 1]=10.787522 <==IsSwitchingOccur() T = 35.360000 Tnext = 35.365000 Time: 3.53600e+01 states: [ -3.68382e+00 1.26395e+00] derivs: [ 1.26524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.365000 pESO->GetIndependentVar(): 35.365000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.787522, nextPhis[ 0]=-4.763513 prevPhis[ 1]=10.787522, nextPhis[ 1]=10.763513 <==IsSwitchingOccur() T = 35.365000 Tnext = 35.370000 Time: 3.53650e+01 states: [ -3.67749e+00 1.26895e+00] derivs: [ 1.27024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.370000 pESO->GetIndependentVar(): 35.370000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.763513, nextPhis[ 0]=-4.739428 prevPhis[ 1]=10.763513, nextPhis[ 1]=10.739428 <==IsSwitchingOccur() T = 35.370000 Tnext = 35.375000 Time: 3.53700e+01 states: [ -3.67112e+00 1.27395e+00] derivs: [ 1.27524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.375000 pESO->GetIndependentVar(): 35.375000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.739428, nextPhis[ 0]=-4.715269 prevPhis[ 1]=10.739428, nextPhis[ 1]=10.715269 <==IsSwitchingOccur() T = 35.375000 Tnext = 35.380000 Time: 3.53750e+01 states: [ -3.66474e+00 1.27895e+00] derivs: [ 1.28024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.380000 pESO->GetIndependentVar(): 35.380000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.715269, nextPhis[ 0]=-4.691034 prevPhis[ 1]=10.715269, nextPhis[ 1]=10.691034 <==IsSwitchingOccur() T = 35.380000 Tnext = 35.385000 Time: 3.53800e+01 states: [ -3.65833e+00 1.28395e+00] derivs: [ 1.28524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.385000 pESO->GetIndependentVar(): 35.385000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.691034, nextPhis[ 0]=-4.666725 prevPhis[ 1]=10.691034, nextPhis[ 1]=10.666725 <==IsSwitchingOccur() T = 35.385000 Tnext = 35.390000 Time: 3.53850e+01 states: [ -3.65189e+00 1.28895e+00] derivs: [ 1.29024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.390000 pESO->GetIndependentVar(): 35.390000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.666725, nextPhis[ 0]=-4.642340 prevPhis[ 1]=10.666725, nextPhis[ 1]=10.642340 <==IsSwitchingOccur() T = 35.390000 Tnext = 35.395000 Time: 3.53900e+01 states: [ -3.64543e+00 1.29395e+00] derivs: [ 1.29524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.395000 pESO->GetIndependentVar(): 35.395000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.642340, nextPhis[ 0]=-4.617880 prevPhis[ 1]=10.642340, nextPhis[ 1]=10.617880 <==IsSwitchingOccur() T = 35.395000 Tnext = 35.400000 Time: 3.53950e+01 states: [ -3.63894e+00 1.29895e+00] derivs: [ 1.30024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.400000 pESO->GetIndependentVar(): 35.400000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.617880, nextPhis[ 0]=-4.593346 prevPhis[ 1]=10.617880, nextPhis[ 1]=10.593346 <==IsSwitchingOccur() T = 35.400000 Tnext = 35.405000 Time: 3.54000e+01 states: [ -3.63243e+00 1.30395e+00] derivs: [ 1.30524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.405000 pESO->GetIndependentVar(): 35.405000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.593346, nextPhis[ 0]=-4.568736 prevPhis[ 1]=10.593346, nextPhis[ 1]=10.568736 <==IsSwitchingOccur() T = 35.405000 Tnext = 35.410000 Time: 3.54050e+01 states: [ -3.62589e+00 1.30895e+00] derivs: [ 1.31024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.410000 pESO->GetIndependentVar(): 35.410000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.568736, nextPhis[ 0]=-4.544052 prevPhis[ 1]=10.568736, nextPhis[ 1]=10.544052 <==IsSwitchingOccur() T = 35.410000 Tnext = 35.415000 Time: 3.54100e+01 states: [ -3.61933e+00 1.31395e+00] derivs: [ 1.31524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.415000 pESO->GetIndependentVar(): 35.415000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.544052, nextPhis[ 0]=-4.519292 prevPhis[ 1]=10.544052, nextPhis[ 1]=10.519292 <==IsSwitchingOccur() T = 35.415000 Tnext = 35.420000 Time: 3.54150e+01 states: [ -3.61275e+00 1.31895e+00] derivs: [ 1.32024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.420000 pESO->GetIndependentVar(): 35.420000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.519292, nextPhis[ 0]=-4.494457 prevPhis[ 1]=10.519292, nextPhis[ 1]=10.494457 <==IsSwitchingOccur() T = 35.420000 Tnext = 35.425000 Time: 3.54200e+01 states: [ -3.60613e+00 1.32395e+00] derivs: [ 1.32524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.425000 pESO->GetIndependentVar(): 35.425000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.494457, nextPhis[ 0]=-4.469548 prevPhis[ 1]=10.494457, nextPhis[ 1]=10.469548 <==IsSwitchingOccur() T = 35.425000 Tnext = 35.430000 Time: 3.54250e+01 states: [ -3.59950e+00 1.32895e+00] derivs: [ 1.33024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.430000 pESO->GetIndependentVar(): 35.430000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.469548, nextPhis[ 0]=-4.444563 prevPhis[ 1]=10.469548, nextPhis[ 1]=10.444563 <==IsSwitchingOccur() T = 35.430000 Tnext = 35.435000 Time: 3.54300e+01 states: [ -3.59284e+00 1.33395e+00] derivs: [ 1.33524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.435000 pESO->GetIndependentVar(): 35.435000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.444563, nextPhis[ 0]=-4.419504 prevPhis[ 1]=10.444563, nextPhis[ 1]=10.419504 <==IsSwitchingOccur() T = 35.435000 Tnext = 35.440000 Time: 3.54350e+01 states: [ -3.58615e+00 1.33895e+00] derivs: [ 1.34024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.440000 pESO->GetIndependentVar(): 35.440000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.419504, nextPhis[ 0]=-4.394369 prevPhis[ 1]=10.419504, nextPhis[ 1]=10.394369 <==IsSwitchingOccur() T = 35.440000 Tnext = 35.445000 Time: 3.54400e+01 states: [ -3.57944e+00 1.34395e+00] derivs: [ 1.34524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.445000 pESO->GetIndependentVar(): 35.445000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.394369, nextPhis[ 0]=-4.369160 prevPhis[ 1]=10.394369, nextPhis[ 1]=10.369160 <==IsSwitchingOccur() T = 35.445000 Tnext = 35.450000 Time: 3.54450e+01 states: [ -3.57270e+00 1.34895e+00] derivs: [ 1.35024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.450000 pESO->GetIndependentVar(): 35.450000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.369160, nextPhis[ 0]=-4.343875 prevPhis[ 1]=10.369160, nextPhis[ 1]=10.343875 <==IsSwitchingOccur() T = 35.450000 Tnext = 35.455000 Time: 3.54500e+01 states: [ -3.56594e+00 1.35395e+00] derivs: [ 1.35524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.455000 pESO->GetIndependentVar(): 35.455000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.343875, nextPhis[ 0]=-4.318515 prevPhis[ 1]=10.343875, nextPhis[ 1]=10.318515 <==IsSwitchingOccur() T = 35.455000 Tnext = 35.460000 Time: 3.54550e+01 states: [ -3.55915e+00 1.35895e+00] derivs: [ 1.36024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.460000 pESO->GetIndependentVar(): 35.460000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.318515, nextPhis[ 0]=-4.293081 prevPhis[ 1]=10.318515, nextPhis[ 1]=10.293081 <==IsSwitchingOccur() T = 35.460000 Tnext = 35.465000 Time: 3.54600e+01 states: [ -3.55234e+00 1.36395e+00] derivs: [ 1.36524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.465000 pESO->GetIndependentVar(): 35.465000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.293081, nextPhis[ 0]=-4.267571 prevPhis[ 1]=10.293081, nextPhis[ 1]=10.267571 <==IsSwitchingOccur() T = 35.465000 Tnext = 35.470000 Time: 3.54650e+01 states: [ -3.54551e+00 1.36895e+00] derivs: [ 1.37024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.470000 pESO->GetIndependentVar(): 35.470000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.267571, nextPhis[ 0]=-4.241987 prevPhis[ 1]=10.267571, nextPhis[ 1]=10.241987 <==IsSwitchingOccur() T = 35.470000 Tnext = 35.475000 Time: 3.54700e+01 states: [ -3.53864e+00 1.37395e+00] derivs: [ 1.37524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.475000 pESO->GetIndependentVar(): 35.475000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.241987, nextPhis[ 0]=-4.216327 prevPhis[ 1]=10.241987, nextPhis[ 1]=10.216327 <==IsSwitchingOccur() T = 35.475000 Tnext = 35.480000 Time: 3.54750e+01 states: [ -3.53176e+00 1.37895e+00] derivs: [ 1.38024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.480000 pESO->GetIndependentVar(): 35.480000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.216327, nextPhis[ 0]=-4.190593 prevPhis[ 1]=10.216327, nextPhis[ 1]=10.190593 <==IsSwitchingOccur() T = 35.480000 Tnext = 35.485000 Time: 3.54800e+01 states: [ -3.52485e+00 1.38395e+00] derivs: [ 1.38524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.485000 pESO->GetIndependentVar(): 35.485000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.190593, nextPhis[ 0]=-4.164783 prevPhis[ 1]=10.190593, nextPhis[ 1]=10.164783 <==IsSwitchingOccur() T = 35.485000 Tnext = 35.490000 Time: 3.54850e+01 states: [ -3.51791e+00 1.38895e+00] derivs: [ 1.39024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.490000 pESO->GetIndependentVar(): 35.490000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.164783, nextPhis[ 0]=-4.138898 prevPhis[ 1]=10.164783, nextPhis[ 1]=10.138898 <==IsSwitchingOccur() T = 35.490000 Tnext = 35.495000 Time: 3.54900e+01 states: [ -3.51095e+00 1.39395e+00] derivs: [ 1.39524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.495000 pESO->GetIndependentVar(): 35.495000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.138898, nextPhis[ 0]=-4.112939 prevPhis[ 1]=10.138898, nextPhis[ 1]=10.112939 <==IsSwitchingOccur() T = 35.495000 Tnext = 35.500000 Time: 3.54950e+01 states: [ -3.50396e+00 1.39895e+00] derivs: [ 1.40024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.500000 pESO->GetIndependentVar(): 35.500000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.112939, nextPhis[ 0]=-4.086904 prevPhis[ 1]=10.112939, nextPhis[ 1]=10.086904 <==IsSwitchingOccur() T = 35.500000 Tnext = 35.505000 Time: 3.55000e+01 states: [ -3.49695e+00 1.40395e+00] derivs: [ 1.40524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.505000 pESO->GetIndependentVar(): 35.505000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.086904, nextPhis[ 0]=-4.060795 prevPhis[ 1]=10.086904, nextPhis[ 1]=10.060795 <==IsSwitchingOccur() T = 35.505000 Tnext = 35.510000 Time: 3.55050e+01 states: [ -3.48991e+00 1.40895e+00] derivs: [ 1.41024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.510000 pESO->GetIndependentVar(): 35.510000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.060795, nextPhis[ 0]=-4.034610 prevPhis[ 1]=10.060795, nextPhis[ 1]=10.034610 <==IsSwitchingOccur() T = 35.510000 Tnext = 35.515000 Time: 3.55100e+01 states: [ -3.48285e+00 1.41395e+00] derivs: [ 1.41524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.515000 pESO->GetIndependentVar(): 35.515000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.034610, nextPhis[ 0]=-4.008351 prevPhis[ 1]=10.034610, nextPhis[ 1]=10.008351 <==IsSwitchingOccur() T = 35.515000 Tnext = 35.520000 Time: 3.55150e+01 states: [ -3.47577e+00 1.41895e+00] derivs: [ 1.42024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.520000 pESO->GetIndependentVar(): 35.520000 ==>IsSwitchingOccur() prevPhis[ 0]=-4.008351, nextPhis[ 0]=-3.982016 prevPhis[ 1]=10.008351, nextPhis[ 1]=9.982016 <==IsSwitchingOccur() T = 35.520000 Tnext = 35.525000 Time: 3.55200e+01 states: [ -3.46865e+00 1.42395e+00] derivs: [ 1.42524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.525000 pESO->GetIndependentVar(): 35.525000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.982016, nextPhis[ 0]=-3.955606 prevPhis[ 1]=9.982016, nextPhis[ 1]=9.955606 <==IsSwitchingOccur() T = 35.525000 Tnext = 35.530000 Time: 3.55250e+01 states: [ -3.46152e+00 1.42895e+00] derivs: [ 1.43024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.530000 pESO->GetIndependentVar(): 35.530000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.955606, nextPhis[ 0]=-3.929122 prevPhis[ 1]=9.955606, nextPhis[ 1]=9.929122 <==IsSwitchingOccur() T = 35.530000 Tnext = 35.535000 Time: 3.55300e+01 states: [ -3.45436e+00 1.43395e+00] derivs: [ 1.43524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.535000 pESO->GetIndependentVar(): 35.535000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.929122, nextPhis[ 0]=-3.902562 prevPhis[ 1]=9.929122, nextPhis[ 1]=9.902562 <==IsSwitchingOccur() T = 35.535000 Tnext = 35.540000 Time: 3.55350e+01 states: [ -3.44717e+00 1.43895e+00] derivs: [ 1.44024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.540000 pESO->GetIndependentVar(): 35.540000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.902562, nextPhis[ 0]=-3.875928 prevPhis[ 1]=9.902562, nextPhis[ 1]=9.875928 <==IsSwitchingOccur() T = 35.540000 Tnext = 35.545000 Time: 3.55400e+01 states: [ -3.43996e+00 1.44395e+00] derivs: [ 1.44524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.545000 pESO->GetIndependentVar(): 35.545000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.875928, nextPhis[ 0]=-3.849218 prevPhis[ 1]=9.875928, nextPhis[ 1]=9.849218 <==IsSwitchingOccur() T = 35.545000 Tnext = 35.550000 Time: 3.55450e+01 states: [ -3.43272e+00 1.44895e+00] derivs: [ 1.45024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.550000 pESO->GetIndependentVar(): 35.550000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.849218, nextPhis[ 0]=-3.822434 prevPhis[ 1]=9.849218, nextPhis[ 1]=9.822434 <==IsSwitchingOccur() T = 35.550000 Tnext = 35.555000 Time: 3.55500e+01 states: [ -3.42546e+00 1.45395e+00] derivs: [ 1.45524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.555000 pESO->GetIndependentVar(): 35.555000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.822434, nextPhis[ 0]=-3.795574 prevPhis[ 1]=9.822434, nextPhis[ 1]=9.795574 <==IsSwitchingOccur() T = 35.555000 Tnext = 35.560000 Time: 3.55550e+01 states: [ -3.41817e+00 1.45895e+00] derivs: [ 1.46024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.560000 pESO->GetIndependentVar(): 35.560000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.795574, nextPhis[ 0]=-3.768639 prevPhis[ 1]=9.795574, nextPhis[ 1]=9.768639 <==IsSwitchingOccur() T = 35.560000 Tnext = 35.565000 Time: 3.55600e+01 states: [ -3.41086e+00 1.46395e+00] derivs: [ 1.46524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.565000 pESO->GetIndependentVar(): 35.565000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.768639, nextPhis[ 0]=-3.741630 prevPhis[ 1]=9.768639, nextPhis[ 1]=9.741630 <==IsSwitchingOccur() T = 35.565000 Tnext = 35.570000 Time: 3.55650e+01 states: [ -3.40353e+00 1.46895e+00] derivs: [ 1.47024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.570000 pESO->GetIndependentVar(): 35.570000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.741630, nextPhis[ 0]=-3.714545 prevPhis[ 1]=9.741630, nextPhis[ 1]=9.714545 <==IsSwitchingOccur() T = 35.570000 Tnext = 35.575000 Time: 3.55700e+01 states: [ -3.39616e+00 1.47395e+00] derivs: [ 1.47524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.575000 pESO->GetIndependentVar(): 35.575000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.714545, nextPhis[ 0]=-3.687386 prevPhis[ 1]=9.714545, nextPhis[ 1]=9.687386 <==IsSwitchingOccur() T = 35.575000 Tnext = 35.580000 Time: 3.55750e+01 states: [ -3.38878e+00 1.47895e+00] derivs: [ 1.48024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.580000 pESO->GetIndependentVar(): 35.580000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.687386, nextPhis[ 0]=-3.660151 prevPhis[ 1]=9.687386, nextPhis[ 1]=9.660151 <==IsSwitchingOccur() T = 35.580000 Tnext = 35.585000 Time: 3.55800e+01 states: [ -3.38137e+00 1.48395e+00] derivs: [ 1.48524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.585000 pESO->GetIndependentVar(): 35.585000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.660151, nextPhis[ 0]=-3.632842 prevPhis[ 1]=9.660151, nextPhis[ 1]=9.632842 <==IsSwitchingOccur() T = 35.585000 Tnext = 35.590000 Time: 3.55850e+01 states: [ -3.37393e+00 1.48895e+00] derivs: [ 1.49024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.590000 pESO->GetIndependentVar(): 35.590000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.632842, nextPhis[ 0]=-3.605457 prevPhis[ 1]=9.632842, nextPhis[ 1]=9.605457 <==IsSwitchingOccur() T = 35.590000 Tnext = 35.595000 Time: 3.55900e+01 states: [ -3.36647e+00 1.49395e+00] derivs: [ 1.49524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.595000 pESO->GetIndependentVar(): 35.595000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.605457, nextPhis[ 0]=-3.577997 prevPhis[ 1]=9.605457, nextPhis[ 1]=9.577997 <==IsSwitchingOccur() T = 35.595000 Tnext = 35.600000 Time: 3.55950e+01 states: [ -3.35898e+00 1.49895e+00] derivs: [ 1.50024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.600000 pESO->GetIndependentVar(): 35.600000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.577997, nextPhis[ 0]=-3.550463 prevPhis[ 1]=9.577997, nextPhis[ 1]=9.550463 <==IsSwitchingOccur() T = 35.600000 Tnext = 35.605000 Time: 3.56000e+01 states: [ -3.35147e+00 1.50395e+00] derivs: [ 1.50524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.605000 pESO->GetIndependentVar(): 35.605000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.550463, nextPhis[ 0]=-3.522853 prevPhis[ 1]=9.550463, nextPhis[ 1]=9.522853 <==IsSwitchingOccur() T = 35.605000 Tnext = 35.610000 Time: 3.56050e+01 states: [ -3.34393e+00 1.50895e+00] derivs: [ 1.51024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.610000 pESO->GetIndependentVar(): 35.610000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.522853, nextPhis[ 0]=-3.495169 prevPhis[ 1]=9.522853, nextPhis[ 1]=9.495169 <==IsSwitchingOccur() T = 35.610000 Tnext = 35.615000 Time: 3.56100e+01 states: [ -3.33637e+00 1.51395e+00] derivs: [ 1.51524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.615000 pESO->GetIndependentVar(): 35.615000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.495169, nextPhis[ 0]=-3.467409 prevPhis[ 1]=9.495169, nextPhis[ 1]=9.467409 <==IsSwitchingOccur() T = 35.615000 Tnext = 35.620000 Time: 3.56150e+01 states: [ -3.32878e+00 1.51895e+00] derivs: [ 1.52024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.620000 pESO->GetIndependentVar(): 35.620000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.467409, nextPhis[ 0]=-3.439574 prevPhis[ 1]=9.467409, nextPhis[ 1]=9.439574 <==IsSwitchingOccur() T = 35.620000 Tnext = 35.625000 Time: 3.56200e+01 states: [ -3.32117e+00 1.52395e+00] derivs: [ 1.52524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.625000 pESO->GetIndependentVar(): 35.625000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.439574, nextPhis[ 0]=-3.411665 prevPhis[ 1]=9.439574, nextPhis[ 1]=9.411665 <==IsSwitchingOccur() T = 35.625000 Tnext = 35.630000 Time: 3.56250e+01 states: [ -3.31354e+00 1.52895e+00] derivs: [ 1.53024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.630000 pESO->GetIndependentVar(): 35.630000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.411665, nextPhis[ 0]=-3.383680 prevPhis[ 1]=9.411665, nextPhis[ 1]=9.383680 <==IsSwitchingOccur() T = 35.630000 Tnext = 35.635000 Time: 3.56300e+01 states: [ -3.30588e+00 1.53395e+00] derivs: [ 1.53524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.635000 pESO->GetIndependentVar(): 35.635000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.383680, nextPhis[ 0]=-3.355621 prevPhis[ 1]=9.383680, nextPhis[ 1]=9.355621 <==IsSwitchingOccur() T = 35.635000 Tnext = 35.640000 Time: 3.56350e+01 states: [ -3.29819e+00 1.53895e+00] derivs: [ 1.54024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.640000 pESO->GetIndependentVar(): 35.640000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.355621, nextPhis[ 0]=-3.327486 prevPhis[ 1]=9.355621, nextPhis[ 1]=9.327486 <==IsSwitchingOccur() T = 35.640000 Tnext = 35.645000 Time: 3.56400e+01 states: [ -3.29048e+00 1.54395e+00] derivs: [ 1.54524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.645000 pESO->GetIndependentVar(): 35.645000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.327486, nextPhis[ 0]=-3.299277 prevPhis[ 1]=9.327486, nextPhis[ 1]=9.299277 <==IsSwitchingOccur() T = 35.645000 Tnext = 35.650000 Time: 3.56450e+01 states: [ -3.28274e+00 1.54895e+00] derivs: [ 1.55024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.650000 pESO->GetIndependentVar(): 35.650000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.299277, nextPhis[ 0]=-3.270992 prevPhis[ 1]=9.299277, nextPhis[ 1]=9.270992 <==IsSwitchingOccur() T = 35.650000 Tnext = 35.655000 Time: 3.56500e+01 states: [ -3.27498e+00 1.55395e+00] derivs: [ 1.55524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.655000 pESO->GetIndependentVar(): 35.655000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.270992, nextPhis[ 0]=-3.242632 prevPhis[ 1]=9.270992, nextPhis[ 1]=9.242632 <==IsSwitchingOccur() T = 35.655000 Tnext = 35.660000 Time: 3.56550e+01 states: [ -3.26719e+00 1.55895e+00] derivs: [ 1.56024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.660000 pESO->GetIndependentVar(): 35.660000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.242632, nextPhis[ 0]=-3.214198 prevPhis[ 1]=9.242632, nextPhis[ 1]=9.214198 <==IsSwitchingOccur() T = 35.660000 Tnext = 35.665000 Time: 3.56600e+01 states: [ -3.25938e+00 1.56395e+00] derivs: [ 1.56524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.665000 pESO->GetIndependentVar(): 35.665000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.214198, nextPhis[ 0]=-3.185688 prevPhis[ 1]=9.214198, nextPhis[ 1]=9.185688 <==IsSwitchingOccur() T = 35.665000 Tnext = 35.670000 Time: 3.56650e+01 states: [ -3.25154e+00 1.56895e+00] derivs: [ 1.57024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.670000 pESO->GetIndependentVar(): 35.670000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.185688, nextPhis[ 0]=-3.157104 prevPhis[ 1]=9.185688, nextPhis[ 1]=9.157104 <==IsSwitchingOccur() T = 35.670000 Tnext = 35.675000 Time: 3.56700e+01 states: [ -3.24368e+00 1.57395e+00] derivs: [ 1.57524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.675000 pESO->GetIndependentVar(): 35.675000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.157104, nextPhis[ 0]=-3.128444 prevPhis[ 1]=9.157104, nextPhis[ 1]=9.128444 <==IsSwitchingOccur() T = 35.675000 Tnext = 35.680000 Time: 3.56750e+01 states: [ -3.23580e+00 1.57895e+00] derivs: [ 1.58024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.680000 pESO->GetIndependentVar(): 35.680000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.128444, nextPhis[ 0]=-3.099710 prevPhis[ 1]=9.128444, nextPhis[ 1]=9.099710 <==IsSwitchingOccur() T = 35.680000 Tnext = 35.685000 Time: 3.56800e+01 states: [ -3.22789e+00 1.58395e+00] derivs: [ 1.58524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.685000 pESO->GetIndependentVar(): 35.685000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.099710, nextPhis[ 0]=-3.070900 prevPhis[ 1]=9.099710, nextPhis[ 1]=9.070900 <==IsSwitchingOccur() T = 35.685000 Tnext = 35.690000 Time: 3.56850e+01 states: [ -3.21995e+00 1.58895e+00] derivs: [ 1.59024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.690000 pESO->GetIndependentVar(): 35.690000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.070900, nextPhis[ 0]=-3.042015 prevPhis[ 1]=9.070900, nextPhis[ 1]=9.042015 <==IsSwitchingOccur() T = 35.690000 Tnext = 35.695000 Time: 3.56900e+01 states: [ -3.21199e+00 1.59395e+00] derivs: [ 1.59524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.695000 pESO->GetIndependentVar(): 35.695000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.042015, nextPhis[ 0]=-3.013056 prevPhis[ 1]=9.042015, nextPhis[ 1]=9.013056 <==IsSwitchingOccur() T = 35.695000 Tnext = 35.700000 Time: 3.56950e+01 states: [ -3.20400e+00 1.59895e+00] derivs: [ 1.60024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.700000 pESO->GetIndependentVar(): 35.700000 ==>IsSwitchingOccur() prevPhis[ 0]=-3.013056, nextPhis[ 0]=-2.984021 prevPhis[ 1]=9.013056, nextPhis[ 1]=8.984021 <==IsSwitchingOccur() T = 35.700000 Tnext = 35.705000 Time: 3.57000e+01 states: [ -3.19599e+00 1.60395e+00] derivs: [ 1.60524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.705000 pESO->GetIndependentVar(): 35.705000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.984021, nextPhis[ 0]=-2.954912 prevPhis[ 1]=8.984021, nextPhis[ 1]=8.954912 <==IsSwitchingOccur() T = 35.705000 Tnext = 35.710000 Time: 3.57050e+01 states: [ -3.18795e+00 1.60895e+00] derivs: [ 1.61024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.710000 pESO->GetIndependentVar(): 35.710000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.954912, nextPhis[ 0]=-2.925727 prevPhis[ 1]=8.954912, nextPhis[ 1]=8.925727 <==IsSwitchingOccur() T = 35.710000 Tnext = 35.715000 Time: 3.57100e+01 states: [ -3.17989e+00 1.61395e+00] derivs: [ 1.61524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.715000 pESO->GetIndependentVar(): 35.715000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.925727, nextPhis[ 0]=-2.896468 prevPhis[ 1]=8.925727, nextPhis[ 1]=8.896468 <==IsSwitchingOccur() T = 35.715000 Tnext = 35.720000 Time: 3.57150e+01 states: [ -3.17180e+00 1.61895e+00] derivs: [ 1.62024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.720000 pESO->GetIndependentVar(): 35.720000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.896468, nextPhis[ 0]=-2.867133 prevPhis[ 1]=8.896468, nextPhis[ 1]=8.867133 <==IsSwitchingOccur() T = 35.720000 Tnext = 35.725000 Time: 3.57200e+01 states: [ -3.16369e+00 1.62395e+00] derivs: [ 1.62524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.725000 pESO->GetIndependentVar(): 35.725000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.867133, nextPhis[ 0]=-2.837723 prevPhis[ 1]=8.867133, nextPhis[ 1]=8.837723 <==IsSwitchingOccur() T = 35.725000 Tnext = 35.730000 Time: 3.57250e+01 states: [ -3.15556e+00 1.62895e+00] derivs: [ 1.63024e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.730000 pESO->GetIndependentVar(): 35.730000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.837723, nextPhis[ 0]=-2.808239 prevPhis[ 1]=8.837723, nextPhis[ 1]=8.808239 <==IsSwitchingOccur() T = 35.730000 Tnext = 35.735000 Time: 3.57300e+01 states: [ -3.14739e+00 1.63395e+00] derivs: [ 1.63524e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.735000 pESO->GetIndependentVar(): 35.735000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.808239, nextPhis[ 0]=-2.778682 prevPhis[ 1]=8.808239, nextPhis[ 1]=8.778682 <==IsSwitchingOccur() T = 35.735000 Tnext = 35.740000 Time: 3.57350e+01 states: [ -3.13921e+00 1.63895e+00] derivs: [ 1.63919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.740000 pESO->GetIndependentVar(): 35.740000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.778682, nextPhis[ 0]=-2.749050 prevPhis[ 1]=8.778682, nextPhis[ 1]=8.749050 <==IsSwitchingOccur() T = 35.740000 Tnext = 35.745000 Time: 3.57400e+01 states: [ -3.13100e+00 1.64395e+00] derivs: [ 1.64419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.745000 pESO->GetIndependentVar(): 35.745000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.749050, nextPhis[ 0]=-2.719343 prevPhis[ 1]=8.749050, nextPhis[ 1]=8.719343 <==IsSwitchingOccur() T = 35.745000 Tnext = 35.750000 Time: 3.57450e+01 states: [ -3.12276e+00 1.64895e+00] derivs: [ 1.64919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.750000 pESO->GetIndependentVar(): 35.750000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.719343, nextPhis[ 0]=-2.689561 prevPhis[ 1]=8.719343, nextPhis[ 1]=8.689561 <==IsSwitchingOccur() T = 35.750000 Tnext = 35.755000 Time: 3.57500e+01 states: [ -3.11450e+00 1.65395e+00] derivs: [ 1.65419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.755000 pESO->GetIndependentVar(): 35.755000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.689561, nextPhis[ 0]=-2.659704 prevPhis[ 1]=8.689561, nextPhis[ 1]=8.659704 <==IsSwitchingOccur() T = 35.755000 Tnext = 35.760000 Time: 3.57550e+01 states: [ -3.10622e+00 1.65895e+00] derivs: [ 1.65919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.760000 pESO->GetIndependentVar(): 35.760000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.659704, nextPhis[ 0]=-2.629772 prevPhis[ 1]=8.659704, nextPhis[ 1]=8.629772 <==IsSwitchingOccur() T = 35.760000 Tnext = 35.765000 Time: 3.57600e+01 states: [ -3.09791e+00 1.66395e+00] derivs: [ 1.66419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.765000 pESO->GetIndependentVar(): 35.765000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.629772, nextPhis[ 0]=-2.599765 prevPhis[ 1]=8.629772, nextPhis[ 1]=8.599765 <==IsSwitchingOccur() T = 35.765000 Tnext = 35.770000 Time: 3.57650e+01 states: [ -3.08957e+00 1.66895e+00] derivs: [ 1.66919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.770000 pESO->GetIndependentVar(): 35.770000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.599765, nextPhis[ 0]=-2.569682 prevPhis[ 1]=8.599765, nextPhis[ 1]=8.569682 <==IsSwitchingOccur() T = 35.770000 Tnext = 35.775000 Time: 3.57700e+01 states: [ -3.08121e+00 1.67395e+00] derivs: [ 1.67419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.775000 pESO->GetIndependentVar(): 35.775000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.569682, nextPhis[ 0]=-2.539525 prevPhis[ 1]=8.569682, nextPhis[ 1]=8.539525 <==IsSwitchingOccur() T = 35.775000 Tnext = 35.780000 Time: 3.57750e+01 states: [ -3.07282e+00 1.67895e+00] derivs: [ 1.67919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.780000 pESO->GetIndependentVar(): 35.780000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.539525, nextPhis[ 0]=-2.509293 prevPhis[ 1]=8.539525, nextPhis[ 1]=8.509293 <==IsSwitchingOccur() T = 35.780000 Tnext = 35.785000 Time: 3.57800e+01 states: [ -3.06441e+00 1.68395e+00] derivs: [ 1.68419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.785000 pESO->GetIndependentVar(): 35.785000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.509293, nextPhis[ 0]=-2.478986 prevPhis[ 1]=8.509293, nextPhis[ 1]=8.478986 <==IsSwitchingOccur() T = 35.785000 Tnext = 35.790000 Time: 3.57850e+01 states: [ -3.05598e+00 1.68895e+00] derivs: [ 1.68919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.790000 pESO->GetIndependentVar(): 35.790000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.478986, nextPhis[ 0]=-2.448604 prevPhis[ 1]=8.478986, nextPhis[ 1]=8.448604 <==IsSwitchingOccur() T = 35.790000 Tnext = 35.795000 Time: 3.57900e+01 states: [ -3.04752e+00 1.69395e+00] derivs: [ 1.69419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.795000 pESO->GetIndependentVar(): 35.795000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.448604, nextPhis[ 0]=-2.418147 prevPhis[ 1]=8.448604, nextPhis[ 1]=8.418147 <==IsSwitchingOccur() T = 35.795000 Tnext = 35.800000 Time: 3.57950e+01 states: [ -3.03903e+00 1.69895e+00] derivs: [ 1.69919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.800000 pESO->GetIndependentVar(): 35.800000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.418147, nextPhis[ 0]=-2.387615 prevPhis[ 1]=8.418147, nextPhis[ 1]=8.387615 <==IsSwitchingOccur() T = 35.800000 Tnext = 35.805000 Time: 3.58000e+01 states: [ -3.03052e+00 1.70395e+00] derivs: [ 1.70419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.805000 pESO->GetIndependentVar(): 35.805000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.387615, nextPhis[ 0]=-2.357008 prevPhis[ 1]=8.387615, nextPhis[ 1]=8.357008 <==IsSwitchingOccur() T = 35.805000 Tnext = 35.810000 Time: 3.58050e+01 states: [ -3.02198e+00 1.70895e+00] derivs: [ 1.70919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.810000 pESO->GetIndependentVar(): 35.810000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.357008, nextPhis[ 0]=-2.326326 prevPhis[ 1]=8.357008, nextPhis[ 1]=8.326326 <==IsSwitchingOccur() T = 35.810000 Tnext = 35.815000 Time: 3.58100e+01 states: [ -3.01342e+00 1.71395e+00] derivs: [ 1.71419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.815000 pESO->GetIndependentVar(): 35.815000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.326326, nextPhis[ 0]=-2.295569 prevPhis[ 1]=8.326326, nextPhis[ 1]=8.295569 <==IsSwitchingOccur() T = 35.815000 Tnext = 35.820000 Time: 3.58150e+01 states: [ -3.00484e+00 1.71895e+00] derivs: [ 1.71919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.820000 pESO->GetIndependentVar(): 35.820000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.295569, nextPhis[ 0]=-2.264737 prevPhis[ 1]=8.295569, nextPhis[ 1]=8.264737 <==IsSwitchingOccur() T = 35.820000 Tnext = 35.825000 Time: 3.58200e+01 states: [ -2.99623e+00 1.72395e+00] derivs: [ 1.72419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.825000 pESO->GetIndependentVar(): 35.825000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.264737, nextPhis[ 0]=-2.233830 prevPhis[ 1]=8.264737, nextPhis[ 1]=8.233830 <==IsSwitchingOccur() T = 35.825000 Tnext = 35.830000 Time: 3.58250e+01 states: [ -2.98759e+00 1.72895e+00] derivs: [ 1.72919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.830000 pESO->GetIndependentVar(): 35.830000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.233830, nextPhis[ 0]=-2.202848 prevPhis[ 1]=8.233830, nextPhis[ 1]=8.202848 <==IsSwitchingOccur() T = 35.830000 Tnext = 35.835000 Time: 3.58300e+01 states: [ -2.97893e+00 1.73395e+00] derivs: [ 1.73419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.835000 pESO->GetIndependentVar(): 35.835000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.202848, nextPhis[ 0]=-2.171791 prevPhis[ 1]=8.202848, nextPhis[ 1]=8.171791 <==IsSwitchingOccur() T = 35.835000 Tnext = 35.840000 Time: 3.58350e+01 states: [ -2.97025e+00 1.73895e+00] derivs: [ 1.73919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.840000 pESO->GetIndependentVar(): 35.840000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.171791, nextPhis[ 0]=-2.140659 prevPhis[ 1]=8.171791, nextPhis[ 1]=8.140659 <==IsSwitchingOccur() T = 35.840000 Tnext = 35.845000 Time: 3.58400e+01 states: [ -2.96153e+00 1.74395e+00] derivs: [ 1.74419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.845000 pESO->GetIndependentVar(): 35.845000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.140659, nextPhis[ 0]=-2.109452 prevPhis[ 1]=8.140659, nextPhis[ 1]=8.109452 <==IsSwitchingOccur() T = 35.845000 Tnext = 35.850000 Time: 3.58450e+01 states: [ -2.95280e+00 1.74895e+00] derivs: [ 1.74919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.850000 pESO->GetIndependentVar(): 35.850000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.109452, nextPhis[ 0]=-2.078170 prevPhis[ 1]=8.109452, nextPhis[ 1]=8.078170 <==IsSwitchingOccur() T = 35.850000 Tnext = 35.855000 Time: 3.58500e+01 states: [ -2.94404e+00 1.75395e+00] derivs: [ 1.75419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.855000 pESO->GetIndependentVar(): 35.855000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.078170, nextPhis[ 0]=-2.046813 prevPhis[ 1]=8.078170, nextPhis[ 1]=8.046813 <==IsSwitchingOccur() T = 35.855000 Tnext = 35.860000 Time: 3.58550e+01 states: [ -2.93525e+00 1.75895e+00] derivs: [ 1.75919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.860000 pESO->GetIndependentVar(): 35.860000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.046813, nextPhis[ 0]=-2.015381 prevPhis[ 1]=8.046813, nextPhis[ 1]=8.015381 <==IsSwitchingOccur() T = 35.860000 Tnext = 35.865000 Time: 3.58600e+01 states: [ -2.92644e+00 1.76395e+00] derivs: [ 1.76419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.865000 pESO->GetIndependentVar(): 35.865000 ==>IsSwitchingOccur() prevPhis[ 0]=-2.015381, nextPhis[ 0]=-1.983874 prevPhis[ 1]=8.015381, nextPhis[ 1]=7.983874 <==IsSwitchingOccur() T = 35.865000 Tnext = 35.870000 Time: 3.58650e+01 states: [ -2.91761e+00 1.76895e+00] derivs: [ 1.76919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.870000 pESO->GetIndependentVar(): 35.870000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.983874, nextPhis[ 0]=-1.952292 prevPhis[ 1]=7.983874, nextPhis[ 1]=7.952292 <==IsSwitchingOccur() T = 35.870000 Tnext = 35.875000 Time: 3.58700e+01 states: [ -2.90875e+00 1.77395e+00] derivs: [ 1.77419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.875000 pESO->GetIndependentVar(): 35.875000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.952292, nextPhis[ 0]=-1.920635 prevPhis[ 1]=7.952292, nextPhis[ 1]=7.920635 <==IsSwitchingOccur() T = 35.875000 Tnext = 35.880000 Time: 3.58750e+01 states: [ -2.89986e+00 1.77895e+00] derivs: [ 1.77919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.880000 pESO->GetIndependentVar(): 35.880000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.920635, nextPhis[ 0]=-1.888903 prevPhis[ 1]=7.920635, nextPhis[ 1]=7.888903 <==IsSwitchingOccur() T = 35.880000 Tnext = 35.885000 Time: 3.58800e+01 states: [ -2.89095e+00 1.78395e+00] derivs: [ 1.78419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.885000 pESO->GetIndependentVar(): 35.885000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.888903, nextPhis[ 0]=-1.857096 prevPhis[ 1]=7.888903, nextPhis[ 1]=7.857096 <==IsSwitchingOccur() T = 35.885000 Tnext = 35.890000 Time: 3.58850e+01 states: [ -2.88201e+00 1.78895e+00] derivs: [ 1.78919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.890000 pESO->GetIndependentVar(): 35.890000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.857096, nextPhis[ 0]=-1.825214 prevPhis[ 1]=7.857096, nextPhis[ 1]=7.825214 <==IsSwitchingOccur() T = 35.890000 Tnext = 35.895000 Time: 3.58900e+01 states: [ -2.87305e+00 1.79395e+00] derivs: [ 1.79419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.895000 pESO->GetIndependentVar(): 35.895000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.825214, nextPhis[ 0]=-1.793256 prevPhis[ 1]=7.825214, nextPhis[ 1]=7.793256 <==IsSwitchingOccur() T = 35.895000 Tnext = 35.900000 Time: 3.58950e+01 states: [ -2.86407e+00 1.79895e+00] derivs: [ 1.79919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.900000 pESO->GetIndependentVar(): 35.900000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.793256, nextPhis[ 0]=-1.761224 prevPhis[ 1]=7.793256, nextPhis[ 1]=7.761224 <==IsSwitchingOccur() T = 35.900000 Tnext = 35.905000 Time: 3.59000e+01 states: [ -2.85506e+00 1.80395e+00] derivs: [ 1.80419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.905000 pESO->GetIndependentVar(): 35.905000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.761224, nextPhis[ 0]=-1.729117 prevPhis[ 1]=7.761224, nextPhis[ 1]=7.729117 <==IsSwitchingOccur() T = 35.905000 Tnext = 35.910000 Time: 3.59050e+01 states: [ -2.84602e+00 1.80895e+00] derivs: [ 1.80919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.910000 pESO->GetIndependentVar(): 35.910000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.729117, nextPhis[ 0]=-1.696935 prevPhis[ 1]=7.729117, nextPhis[ 1]=7.696935 <==IsSwitchingOccur() T = 35.910000 Tnext = 35.915000 Time: 3.59100e+01 states: [ -2.83696e+00 1.81395e+00] derivs: [ 1.81419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.915000 pESO->GetIndependentVar(): 35.915000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.696935, nextPhis[ 0]=-1.664678 prevPhis[ 1]=7.696935, nextPhis[ 1]=7.664678 <==IsSwitchingOccur() T = 35.915000 Tnext = 35.920000 Time: 3.59150e+01 states: [ -2.82787e+00 1.81895e+00] derivs: [ 1.81919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.920000 pESO->GetIndependentVar(): 35.920000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.664678, nextPhis[ 0]=-1.632346 prevPhis[ 1]=7.664678, nextPhis[ 1]=7.632346 <==IsSwitchingOccur() T = 35.920000 Tnext = 35.925000 Time: 3.59200e+01 states: [ -2.81876e+00 1.82395e+00] derivs: [ 1.82419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.925000 pESO->GetIndependentVar(): 35.925000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.632346, nextPhis[ 0]=-1.599939 prevPhis[ 1]=7.632346, nextPhis[ 1]=7.599939 <==IsSwitchingOccur() T = 35.925000 Tnext = 35.930000 Time: 3.59250e+01 states: [ -2.80963e+00 1.82895e+00] derivs: [ 1.82919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.930000 pESO->GetIndependentVar(): 35.930000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.599939, nextPhis[ 0]=-1.567457 prevPhis[ 1]=7.599939, nextPhis[ 1]=7.567457 <==IsSwitchingOccur() T = 35.930000 Tnext = 35.935000 Time: 3.59300e+01 states: [ -2.80047e+00 1.83395e+00] derivs: [ 1.83419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.935000 pESO->GetIndependentVar(): 35.935000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.567457, nextPhis[ 0]=-1.534900 prevPhis[ 1]=7.567457, nextPhis[ 1]=7.534900 <==IsSwitchingOccur() T = 35.935000 Tnext = 35.940000 Time: 3.59350e+01 states: [ -2.79128e+00 1.83895e+00] derivs: [ 1.83919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.940000 pESO->GetIndependentVar(): 35.940000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.534900, nextPhis[ 0]=-1.502268 prevPhis[ 1]=7.534900, nextPhis[ 1]=7.502268 <==IsSwitchingOccur() T = 35.940000 Tnext = 35.945000 Time: 3.59400e+01 states: [ -2.78207e+00 1.84395e+00] derivs: [ 1.84419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.945000 pESO->GetIndependentVar(): 35.945000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.502268, nextPhis[ 0]=-1.469561 prevPhis[ 1]=7.502268, nextPhis[ 1]=7.469561 <==IsSwitchingOccur() T = 35.945000 Tnext = 35.950000 Time: 3.59450e+01 states: [ -2.77284e+00 1.84895e+00] derivs: [ 1.84919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.950000 pESO->GetIndependentVar(): 35.950000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.469561, nextPhis[ 0]=-1.436779 prevPhis[ 1]=7.469561, nextPhis[ 1]=7.436779 <==IsSwitchingOccur() T = 35.950000 Tnext = 35.955000 Time: 3.59500e+01 states: [ -2.76357e+00 1.85395e+00] derivs: [ 1.85419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.955000 pESO->GetIndependentVar(): 35.955000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.436779, nextPhis[ 0]=-1.403922 prevPhis[ 1]=7.436779, nextPhis[ 1]=7.403922 <==IsSwitchingOccur() T = 35.955000 Tnext = 35.960000 Time: 3.59550e+01 states: [ -2.75429e+00 1.85895e+00] derivs: [ 1.85919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.960000 pESO->GetIndependentVar(): 35.960000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.403922, nextPhis[ 0]=-1.370990 prevPhis[ 1]=7.403922, nextPhis[ 1]=7.370990 <==IsSwitchingOccur() T = 35.960000 Tnext = 35.965000 Time: 3.59600e+01 states: [ -2.74498e+00 1.86395e+00] derivs: [ 1.86419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.965000 pESO->GetIndependentVar(): 35.965000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.370990, nextPhis[ 0]=-1.337983 prevPhis[ 1]=7.370990, nextPhis[ 1]=7.337983 <==IsSwitchingOccur() T = 35.965000 Tnext = 35.970000 Time: 3.59650e+01 states: [ -2.73564e+00 1.86895e+00] derivs: [ 1.86919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.970000 pESO->GetIndependentVar(): 35.970000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.337983, nextPhis[ 0]=-1.304901 prevPhis[ 1]=7.337983, nextPhis[ 1]=7.304901 <==IsSwitchingOccur() T = 35.970000 Tnext = 35.975000 Time: 3.59700e+01 states: [ -2.72628e+00 1.87395e+00] derivs: [ 1.87419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.975000 pESO->GetIndependentVar(): 35.975000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.304901, nextPhis[ 0]=-1.271744 prevPhis[ 1]=7.304901, nextPhis[ 1]=7.271744 <==IsSwitchingOccur() T = 35.975000 Tnext = 35.980000 Time: 3.59750e+01 states: [ -2.71690e+00 1.87895e+00] derivs: [ 1.87919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.980000 pESO->GetIndependentVar(): 35.980000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.271744, nextPhis[ 0]=-1.238512 prevPhis[ 1]=7.271744, nextPhis[ 1]=7.238512 <==IsSwitchingOccur() T = 35.980000 Tnext = 35.985000 Time: 3.59800e+01 states: [ -2.70749e+00 1.88395e+00] derivs: [ 1.88419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.985000 pESO->GetIndependentVar(): 35.985000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.238512, nextPhis[ 0]=-1.205205 prevPhis[ 1]=7.238512, nextPhis[ 1]=7.205205 <==IsSwitchingOccur() T = 35.985000 Tnext = 35.990000 Time: 3.59850e+01 states: [ -2.69805e+00 1.88895e+00] derivs: [ 1.88919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.990000 pESO->GetIndependentVar(): 35.990000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.205205, nextPhis[ 0]=-1.171823 prevPhis[ 1]=7.205205, nextPhis[ 1]=7.171823 <==IsSwitchingOccur() T = 35.990000 Tnext = 35.995000 Time: 3.59900e+01 states: [ -2.68859e+00 1.89395e+00] derivs: [ 1.89419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 35.995000 pESO->GetIndependentVar(): 35.995000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.171823, nextPhis[ 0]=-1.138366 prevPhis[ 1]=7.171823, nextPhis[ 1]=7.138366 <==IsSwitchingOccur() T = 35.995000 Tnext = 36.000000 Time: 3.59950e+01 states: [ -2.67910e+00 1.89895e+00] derivs: [ 1.89919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.000000 pESO->GetIndependentVar(): 36.000000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.138366, nextPhis[ 0]=-1.104834 prevPhis[ 1]=7.138366, nextPhis[ 1]=7.104834 <==IsSwitchingOccur() T = 36.000000 Tnext = 36.005000 Time: 3.60000e+01 states: [ -2.66959e+00 1.90395e+00] derivs: [ 1.90419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.005000 pESO->GetIndependentVar(): 36.005000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.104834, nextPhis[ 0]=-1.071227 prevPhis[ 1]=7.104834, nextPhis[ 1]=7.071227 <==IsSwitchingOccur() T = 36.005000 Tnext = 36.010000 Time: 3.60050e+01 states: [ -2.66006e+00 1.90895e+00] derivs: [ 1.90919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.010000 pESO->GetIndependentVar(): 36.010000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.071227, nextPhis[ 0]=-1.037545 prevPhis[ 1]=7.071227, nextPhis[ 1]=7.037545 <==IsSwitchingOccur() T = 36.010000 Tnext = 36.015000 Time: 3.60100e+01 states: [ -2.65050e+00 1.91395e+00] derivs: [ 1.91419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.015000 pESO->GetIndependentVar(): 36.015000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.037545, nextPhis[ 0]=-1.003787 prevPhis[ 1]=7.037545, nextPhis[ 1]=7.003787 <==IsSwitchingOccur() T = 36.015000 Tnext = 36.020000 Time: 3.60150e+01 states: [ -2.64091e+00 1.91895e+00] derivs: [ 1.91919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.020000 pESO->GetIndependentVar(): 36.020000 ==>IsSwitchingOccur() prevPhis[ 0]=-1.003787, nextPhis[ 0]=-0.969955 prevPhis[ 1]=7.003787, nextPhis[ 1]=6.969955 <==IsSwitchingOccur() T = 36.020000 Tnext = 36.025000 Time: 3.60200e+01 states: [ -2.63130e+00 1.92395e+00] derivs: [ 1.92419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.025000 pESO->GetIndependentVar(): 36.025000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.969955, nextPhis[ 0]=-0.936048 prevPhis[ 1]=6.969955, nextPhis[ 1]=6.936048 <==IsSwitchingOccur() T = 36.025000 Tnext = 36.030000 Time: 3.60250e+01 states: [ -2.62166e+00 1.92895e+00] derivs: [ 1.92919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.030000 pESO->GetIndependentVar(): 36.030000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.936048, nextPhis[ 0]=-0.902066 prevPhis[ 1]=6.936048, nextPhis[ 1]=6.902066 <==IsSwitchingOccur() T = 36.030000 Tnext = 36.035000 Time: 3.60300e+01 states: [ -2.61200e+00 1.93395e+00] derivs: [ 1.93419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.035000 pESO->GetIndependentVar(): 36.035000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.902066, nextPhis[ 0]=-0.868009 prevPhis[ 1]=6.902066, nextPhis[ 1]=6.868009 <==IsSwitchingOccur() T = 36.035000 Tnext = 36.040000 Time: 3.60350e+01 states: [ -2.60232e+00 1.93895e+00] derivs: [ 1.93919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.040000 pESO->GetIndependentVar(): 36.040000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.868009, nextPhis[ 0]=-0.833877 prevPhis[ 1]=6.868009, nextPhis[ 1]=6.833877 <==IsSwitchingOccur() T = 36.040000 Tnext = 36.045000 Time: 3.60400e+01 states: [ -2.59261e+00 1.94395e+00] derivs: [ 1.94419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.045000 pESO->GetIndependentVar(): 36.045000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.833877, nextPhis[ 0]=-0.799670 prevPhis[ 1]=6.833877, nextPhis[ 1]=6.799670 <==IsSwitchingOccur() T = 36.045000 Tnext = 36.050000 Time: 3.60450e+01 states: [ -2.58287e+00 1.94895e+00] derivs: [ 1.94919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.050000 pESO->GetIndependentVar(): 36.050000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.799670, nextPhis[ 0]=-0.765388 prevPhis[ 1]=6.799670, nextPhis[ 1]=6.765388 <==IsSwitchingOccur() T = 36.050000 Tnext = 36.055000 Time: 3.60500e+01 states: [ -2.57311e+00 1.95395e+00] derivs: [ 1.95419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.055000 pESO->GetIndependentVar(): 36.055000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.765388, nextPhis[ 0]=-0.731031 prevPhis[ 1]=6.765388, nextPhis[ 1]=6.731031 <==IsSwitchingOccur() T = 36.055000 Tnext = 36.060000 Time: 3.60550e+01 states: [ -2.56333e+00 1.95895e+00] derivs: [ 1.95919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.060000 pESO->GetIndependentVar(): 36.060000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.731031, nextPhis[ 0]=-0.696599 prevPhis[ 1]=6.731031, nextPhis[ 1]=6.696599 <==IsSwitchingOccur() T = 36.060000 Tnext = 36.065000 Time: 3.60600e+01 states: [ -2.55351e+00 1.96395e+00] derivs: [ 1.96419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.065000 pESO->GetIndependentVar(): 36.065000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.696599, nextPhis[ 0]=-0.662092 prevPhis[ 1]=6.696599, nextPhis[ 1]=6.662092 <==IsSwitchingOccur() T = 36.065000 Tnext = 36.070000 Time: 3.60650e+01 states: [ -2.54368e+00 1.96895e+00] derivs: [ 1.96919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.070000 pESO->GetIndependentVar(): 36.070000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.662092, nextPhis[ 0]=-0.627510 prevPhis[ 1]=6.662092, nextPhis[ 1]=6.627510 <==IsSwitchingOccur() T = 36.070000 Tnext = 36.075000 Time: 3.60700e+01 states: [ -2.53382e+00 1.97395e+00] derivs: [ 1.97419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.075000 pESO->GetIndependentVar(): 36.075000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.627510, nextPhis[ 0]=-0.592853 prevPhis[ 1]=6.627510, nextPhis[ 1]=6.592853 <==IsSwitchingOccur() T = 36.075000 Tnext = 36.080000 Time: 3.60750e+01 states: [ -2.52393e+00 1.97895e+00] derivs: [ 1.97919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.080000 pESO->GetIndependentVar(): 36.080000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.592853, nextPhis[ 0]=-0.558121 prevPhis[ 1]=6.592853, nextPhis[ 1]=6.558121 <==IsSwitchingOccur() T = 36.080000 Tnext = 36.085000 Time: 3.60800e+01 states: [ -2.51402e+00 1.98395e+00] derivs: [ 1.98419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.085000 pESO->GetIndependentVar(): 36.085000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.558121, nextPhis[ 0]=-0.523314 prevPhis[ 1]=6.558121, nextPhis[ 1]=6.523314 <==IsSwitchingOccur() T = 36.085000 Tnext = 36.090000 Time: 3.60850e+01 states: [ -2.50409e+00 1.98895e+00] derivs: [ 1.98919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.090000 pESO->GetIndependentVar(): 36.090000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.523314, nextPhis[ 0]=-0.488432 prevPhis[ 1]=6.523314, nextPhis[ 1]=6.488432 <==IsSwitchingOccur() T = 36.090000 Tnext = 36.095000 Time: 3.60900e+01 states: [ -2.49413e+00 1.99395e+00] derivs: [ 1.99419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.095000 pESO->GetIndependentVar(): 36.095000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.488432, nextPhis[ 0]=-0.453475 prevPhis[ 1]=6.488432, nextPhis[ 1]=6.453475 <==IsSwitchingOccur() T = 36.095000 Tnext = 36.100000 Time: 3.60950e+01 states: [ -2.48414e+00 1.99895e+00] derivs: [ 1.99919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.100000 pESO->GetIndependentVar(): 36.100000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.453475, nextPhis[ 0]=-0.418443 prevPhis[ 1]=6.453475, nextPhis[ 1]=6.418443 <==IsSwitchingOccur() T = 36.100000 Tnext = 36.105000 Time: 3.61000e+01 states: [ -2.47413e+00 2.00395e+00] derivs: [ 2.00419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.105000 pESO->GetIndependentVar(): 36.105000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.418443, nextPhis[ 0]=-0.383336 prevPhis[ 1]=6.418443, nextPhis[ 1]=6.383336 <==IsSwitchingOccur() T = 36.105000 Tnext = 36.110000 Time: 3.61050e+01 states: [ -2.46409e+00 2.00895e+00] derivs: [ 2.00919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.110000 pESO->GetIndependentVar(): 36.110000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.383336, nextPhis[ 0]=-0.348154 prevPhis[ 1]=6.383336, nextPhis[ 1]=6.348154 <==IsSwitchingOccur() T = 36.110000 Tnext = 36.115000 Time: 3.61100e+01 states: [ -2.45403e+00 2.01395e+00] derivs: [ 2.01419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.115000 pESO->GetIndependentVar(): 36.115000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.348154, nextPhis[ 0]=-0.312897 prevPhis[ 1]=6.348154, nextPhis[ 1]=6.312897 <==IsSwitchingOccur() T = 36.115000 Tnext = 36.120000 Time: 3.61150e+01 states: [ -2.44395e+00 2.01895e+00] derivs: [ 2.01919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.120000 pESO->GetIndependentVar(): 36.120000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.312897, nextPhis[ 0]=-0.277565 prevPhis[ 1]=6.312897, nextPhis[ 1]=6.277565 <==IsSwitchingOccur() T = 36.120000 Tnext = 36.125000 Time: 3.61200e+01 states: [ -2.43384e+00 2.02395e+00] derivs: [ 2.02419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.125000 pESO->GetIndependentVar(): 36.125000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.277565, nextPhis[ 0]=-0.242158 prevPhis[ 1]=6.277565, nextPhis[ 1]=6.242158 <==IsSwitchingOccur() T = 36.125000 Tnext = 36.130000 Time: 3.61250e+01 states: [ -2.42370e+00 2.02895e+00] derivs: [ 2.02919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.130000 pESO->GetIndependentVar(): 36.130000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.242158, nextPhis[ 0]=-0.206676 prevPhis[ 1]=6.242158, nextPhis[ 1]=6.206676 <==IsSwitchingOccur() T = 36.130000 Tnext = 36.135000 Time: 3.61300e+01 states: [ -2.41354e+00 2.03395e+00] derivs: [ 2.03419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.135000 pESO->GetIndependentVar(): 36.135000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.206676, nextPhis[ 0]=-0.171118 prevPhis[ 1]=6.206676, nextPhis[ 1]=6.171118 <==IsSwitchingOccur() T = 36.135000 Tnext = 36.140000 Time: 3.61350e+01 states: [ -2.40335e+00 2.03895e+00] derivs: [ 2.03919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.140000 pESO->GetIndependentVar(): 36.140000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.171118, nextPhis[ 0]=-0.135486 prevPhis[ 1]=6.171118, nextPhis[ 1]=6.135486 <==IsSwitchingOccur() T = 36.140000 Tnext = 36.145000 Time: 3.61400e+01 states: [ -2.39314e+00 2.04395e+00] derivs: [ 2.04419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.145000 pESO->GetIndependentVar(): 36.145000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.135486, nextPhis[ 0]=-0.099779 prevPhis[ 1]=6.135486, nextPhis[ 1]=6.099779 <==IsSwitchingOccur() T = 36.145000 Tnext = 36.150000 Time: 3.61450e+01 states: [ -2.38291e+00 2.04895e+00] derivs: [ 2.04919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.150000 pESO->GetIndependentVar(): 36.150000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.099779, nextPhis[ 0]=-0.063997 prevPhis[ 1]=6.099779, nextPhis[ 1]=6.063997 <==IsSwitchingOccur() T = 36.150000 Tnext = 36.155000 Time: 3.61500e+01 states: [ -2.37265e+00 2.05395e+00] derivs: [ 2.05419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.155000 pESO->GetIndependentVar(): 36.155000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.063997, nextPhis[ 0]=-0.028140 prevPhis[ 1]=6.063997, nextPhis[ 1]=6.028140 <==IsSwitchingOccur() T = 36.155000 Tnext = 36.160000 Time: 3.61550e+01 states: [ -2.36236e+00 2.05895e+00] derivs: [ 2.05919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.160000 pESO->GetIndependentVar(): 36.160000 ==>IsSwitchingOccur() prevPhis[ 0]=-0.028140, nextPhis[ 0]=0.007792 prevPhis[ 1]=6.028140, nextPhis[ 1]=5.992208 <==IsSwitchingOccur() T = 36.160000 Tnext = 36.165000 Time: 3.61600e+01 states: [ -2.35205e+00 2.06395e+00] derivs: [ 2.06419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.165000 pESO->GetIndependentVar(): 36.165000 ==>IsSwitchingOccur() prevPhis[ 0]=0.007792, nextPhis[ 0]=0.043799 prevPhis[ 1]=5.992208, nextPhis[ 1]=5.956201 <==IsSwitchingOccur() T = 36.165000 Tnext = 36.170000 Time: 3.61650e+01 states: [ -2.34172e+00 2.06895e+00] derivs: [ 2.06919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.170000 pESO->GetIndependentVar(): 36.170000 ==>IsSwitchingOccur() prevPhis[ 0]=0.043799, nextPhis[ 0]=0.079881 prevPhis[ 1]=5.956201, nextPhis[ 1]=5.920119 <==IsSwitchingOccur() T = 36.170000 Tnext = 36.175000 Time: 3.61700e+01 states: [ -2.33135e+00 2.07395e+00] derivs: [ 2.07419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.175000 pESO->GetIndependentVar(): 36.175000 ==>IsSwitchingOccur() prevPhis[ 0]=0.079881, nextPhis[ 0]=0.116038 prevPhis[ 1]=5.920119, nextPhis[ 1]=5.883962 <==IsSwitchingOccur() T = 36.175000 Tnext = 36.180000 Time: 3.61750e+01 states: [ -2.32097e+00 2.07895e+00] derivs: [ 2.07919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.180000 pESO->GetIndependentVar(): 36.180000 ==>IsSwitchingOccur() prevPhis[ 0]=0.116038, nextPhis[ 0]=0.152270 prevPhis[ 1]=5.883962, nextPhis[ 1]=5.847730 <==IsSwitchingOccur() T = 36.180000 Tnext = 36.185000 Time: 3.61800e+01 states: [ -2.31056e+00 2.08395e+00] derivs: [ 2.08419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.185000 pESO->GetIndependentVar(): 36.185000 ==>IsSwitchingOccur() prevPhis[ 0]=0.152270, nextPhis[ 0]=0.188577 prevPhis[ 1]=5.847730, nextPhis[ 1]=5.811423 <==IsSwitchingOccur() T = 36.185000 Tnext = 36.190000 Time: 3.61850e+01 states: [ -2.30012e+00 2.08895e+00] derivs: [ 2.08919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.190000 pESO->GetIndependentVar(): 36.190000 ==>IsSwitchingOccur() prevPhis[ 0]=0.188577, nextPhis[ 0]=0.224959 prevPhis[ 1]=5.811423, nextPhis[ 1]=5.775041 <==IsSwitchingOccur() T = 36.190000 Tnext = 36.195000 Time: 3.61900e+01 states: [ -2.28966e+00 2.09395e+00] derivs: [ 2.09419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.195000 pESO->GetIndependentVar(): 36.195000 ==>IsSwitchingOccur() prevPhis[ 0]=0.224959, nextPhis[ 0]=0.261416 prevPhis[ 1]=5.775041, nextPhis[ 1]=5.738584 <==IsSwitchingOccur() T = 36.195000 Tnext = 36.200000 Time: 3.61950e+01 states: [ -2.27918e+00 2.09895e+00] derivs: [ 2.09919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.200000 pESO->GetIndependentVar(): 36.200000 ==>IsSwitchingOccur() prevPhis[ 0]=0.261416, nextPhis[ 0]=0.297948 prevPhis[ 1]=5.738584, nextPhis[ 1]=5.702052 <==IsSwitchingOccur() T = 36.200000 Tnext = 36.205000 Time: 3.62000e+01 states: [ -2.26867e+00 2.10395e+00] derivs: [ 2.10419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.205000 pESO->GetIndependentVar(): 36.205000 ==>IsSwitchingOccur() prevPhis[ 0]=0.297948, nextPhis[ 0]=0.334555 prevPhis[ 1]=5.702052, nextPhis[ 1]=5.665445 <==IsSwitchingOccur() T = 36.205000 Tnext = 36.210000 Time: 3.62050e+01 states: [ -2.25813e+00 2.10895e+00] derivs: [ 2.10919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.210000 pESO->GetIndependentVar(): 36.210000 ==>IsSwitchingOccur() prevPhis[ 0]=0.334555, nextPhis[ 0]=0.371237 prevPhis[ 1]=5.665445, nextPhis[ 1]=5.628763 <==IsSwitchingOccur() T = 36.210000 Tnext = 36.215000 Time: 3.62100e+01 states: [ -2.24757e+00 2.11395e+00] derivs: [ 2.11419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.215000 pESO->GetIndependentVar(): 36.215000 ==>IsSwitchingOccur() prevPhis[ 0]=0.371237, nextPhis[ 0]=0.407994 prevPhis[ 1]=5.628763, nextPhis[ 1]=5.592006 <==IsSwitchingOccur() T = 36.215000 Tnext = 36.220000 Time: 3.62150e+01 states: [ -2.23698e+00 2.11895e+00] derivs: [ 2.11919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.220000 pESO->GetIndependentVar(): 36.220000 ==>IsSwitchingOccur() prevPhis[ 0]=0.407994, nextPhis[ 0]=0.444826 prevPhis[ 1]=5.592006, nextPhis[ 1]=5.555174 <==IsSwitchingOccur() T = 36.220000 Tnext = 36.225000 Time: 3.62200e+01 states: [ -2.22637e+00 2.12395e+00] derivs: [ 2.12419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.225000 pESO->GetIndependentVar(): 36.225000 ==>IsSwitchingOccur() prevPhis[ 0]=0.444826, nextPhis[ 0]=0.481733 prevPhis[ 1]=5.555174, nextPhis[ 1]=5.518267 <==IsSwitchingOccur() T = 36.225000 Tnext = 36.230000 Time: 3.62250e+01 states: [ -2.21574e+00 2.12895e+00] derivs: [ 2.12919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.230000 pESO->GetIndependentVar(): 36.230000 ==>IsSwitchingOccur() prevPhis[ 0]=0.481733, nextPhis[ 0]=0.518715 prevPhis[ 1]=5.518267, nextPhis[ 1]=5.481285 <==IsSwitchingOccur() T = 36.230000 Tnext = 36.235000 Time: 3.62300e+01 states: [ -2.20508e+00 2.13395e+00] derivs: [ 2.13419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.235000 pESO->GetIndependentVar(): 36.235000 ==>IsSwitchingOccur() prevPhis[ 0]=0.518715, nextPhis[ 0]=0.555772 prevPhis[ 1]=5.481285, nextPhis[ 1]=5.444228 <==IsSwitchingOccur() T = 36.235000 Tnext = 36.240000 Time: 3.62350e+01 states: [ -2.19439e+00 2.13895e+00] derivs: [ 2.13919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.240000 pESO->GetIndependentVar(): 36.240000 ==>IsSwitchingOccur() prevPhis[ 0]=0.555772, nextPhis[ 0]=0.592904 prevPhis[ 1]=5.444228, nextPhis[ 1]=5.407096 <==IsSwitchingOccur() T = 36.240000 Tnext = 36.245000 Time: 3.62400e+01 states: [ -2.18368e+00 2.14395e+00] derivs: [ 2.14419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.245000 pESO->GetIndependentVar(): 36.245000 ==>IsSwitchingOccur() prevPhis[ 0]=0.592904, nextPhis[ 0]=0.630111 prevPhis[ 1]=5.407096, nextPhis[ 1]=5.369889 <==IsSwitchingOccur() T = 36.245000 Tnext = 36.250000 Time: 3.62450e+01 states: [ -2.17294e+00 2.14895e+00] derivs: [ 2.14919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.250000 pESO->GetIndependentVar(): 36.250000 ==>IsSwitchingOccur() prevPhis[ 0]=0.630111, nextPhis[ 0]=0.667393 prevPhis[ 1]=5.369889, nextPhis[ 1]=5.332607 <==IsSwitchingOccur() T = 36.250000 Tnext = 36.255000 Time: 3.62500e+01 states: [ -2.16218e+00 2.15395e+00] derivs: [ 2.15419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.255000 pESO->GetIndependentVar(): 36.255000 ==>IsSwitchingOccur() prevPhis[ 0]=0.667393, nextPhis[ 0]=0.704751 prevPhis[ 1]=5.332607, nextPhis[ 1]=5.295249 <==IsSwitchingOccur() T = 36.255000 Tnext = 36.260000 Time: 3.62550e+01 states: [ -2.15140e+00 2.15895e+00] derivs: [ 2.15919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.260000 pESO->GetIndependentVar(): 36.260000 ==>IsSwitchingOccur() prevPhis[ 0]=0.704751, nextPhis[ 0]=0.742183 prevPhis[ 1]=5.295249, nextPhis[ 1]=5.257817 <==IsSwitchingOccur() T = 36.260000 Tnext = 36.265000 Time: 3.62600e+01 states: [ -2.14059e+00 2.16395e+00] derivs: [ 2.16419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.265000 pESO->GetIndependentVar(): 36.265000 ==>IsSwitchingOccur() prevPhis[ 0]=0.742183, nextPhis[ 0]=0.779690 prevPhis[ 1]=5.257817, nextPhis[ 1]=5.220310 <==IsSwitchingOccur() T = 36.265000 Tnext = 36.270000 Time: 3.62650e+01 states: [ -2.12975e+00 2.16895e+00] derivs: [ 2.16919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.270000 pESO->GetIndependentVar(): 36.270000 ==>IsSwitchingOccur() prevPhis[ 0]=0.779690, nextPhis[ 0]=0.817272 prevPhis[ 1]=5.220310, nextPhis[ 1]=5.182728 <==IsSwitchingOccur() T = 36.270000 Tnext = 36.275000 Time: 3.62700e+01 states: [ -2.11889e+00 2.17395e+00] derivs: [ 2.17419e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.275000 pESO->GetIndependentVar(): 36.275000 ==>IsSwitchingOccur() prevPhis[ 0]=0.817272, nextPhis[ 0]=0.854929 prevPhis[ 1]=5.182728, nextPhis[ 1]=5.145071 <==IsSwitchingOccur() T = 36.275000 Tnext = 36.280000 Time: 3.62750e+01 states: [ -2.10801e+00 2.17895e+00] derivs: [ 2.17919e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.280000 pESO->GetIndependentVar(): 36.280000 ==>IsSwitchingOccur() prevPhis[ 0]=0.854929, nextPhis[ 0]=0.892657 prevPhis[ 1]=5.145071, nextPhis[ 1]=5.107343 <==IsSwitchingOccur() T = 36.280000 Tnext = 36.285000 Time: 3.62800e+01 states: [ -2.09710e+00 2.18395e+00] derivs: [ 2.18418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.285000 pESO->GetIndependentVar(): 36.285000 ==>IsSwitchingOccur() prevPhis[ 0]=0.892657, nextPhis[ 0]=0.930460 prevPhis[ 1]=5.107343, nextPhis[ 1]=5.069540 <==IsSwitchingOccur() T = 36.285000 Tnext = 36.290000 Time: 3.62850e+01 states: [ -2.08616e+00 2.18895e+00] derivs: [ 2.18918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.290000 pESO->GetIndependentVar(): 36.290000 ==>IsSwitchingOccur() prevPhis[ 0]=0.930460, nextPhis[ 0]=0.968338 prevPhis[ 1]=5.069540, nextPhis[ 1]=5.031662 <==IsSwitchingOccur() T = 36.290000 Tnext = 36.295000 Time: 3.62900e+01 states: [ -2.07520e+00 2.19395e+00] derivs: [ 2.19418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.295000 pESO->GetIndependentVar(): 36.295000 ==>IsSwitchingOccur() prevPhis[ 0]=0.968338, nextPhis[ 0]=1.006291 prevPhis[ 1]=5.031662, nextPhis[ 1]=4.993709 <==IsSwitchingOccur() T = 36.295000 Tnext = 36.300000 Time: 3.62950e+01 states: [ -2.06422e+00 2.19895e+00] derivs: [ 2.19918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.300000 pESO->GetIndependentVar(): 36.300000 ==>IsSwitchingOccur() prevPhis[ 0]=1.006291, nextPhis[ 0]=1.044318 prevPhis[ 1]=4.993709, nextPhis[ 1]=4.955682 <==IsSwitchingOccur() T = 36.300000 Tnext = 36.305000 Time: 3.63000e+01 states: [ -2.05321e+00 2.20395e+00] derivs: [ 2.20418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.305000 pESO->GetIndependentVar(): 36.305000 ==>IsSwitchingOccur() prevPhis[ 0]=1.044318, nextPhis[ 0]=1.082421 prevPhis[ 1]=4.955682, nextPhis[ 1]=4.917579 <==IsSwitchingOccur() T = 36.305000 Tnext = 36.310000 Time: 3.63050e+01 states: [ -2.04217e+00 2.20895e+00] derivs: [ 2.20918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.310000 pESO->GetIndependentVar(): 36.310000 ==>IsSwitchingOccur() prevPhis[ 0]=1.082421, nextPhis[ 0]=1.120599 prevPhis[ 1]=4.917579, nextPhis[ 1]=4.879401 <==IsSwitchingOccur() T = 36.310000 Tnext = 36.315000 Time: 3.63100e+01 states: [ -2.03112e+00 2.21395e+00] derivs: [ 2.21418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.315000 pESO->GetIndependentVar(): 36.315000 ==>IsSwitchingOccur() prevPhis[ 0]=1.120599, nextPhis[ 0]=1.158852 prevPhis[ 1]=4.879401, nextPhis[ 1]=4.841148 <==IsSwitchingOccur() T = 36.315000 Tnext = 36.320000 Time: 3.63150e+01 states: [ -2.02003e+00 2.21895e+00] derivs: [ 2.21918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.320000 pESO->GetIndependentVar(): 36.320000 ==>IsSwitchingOccur() prevPhis[ 0]=1.158852, nextPhis[ 0]=1.197180 prevPhis[ 1]=4.841148, nextPhis[ 1]=4.802820 <==IsSwitchingOccur() T = 36.320000 Tnext = 36.325000 Time: 3.63200e+01 states: [ -2.00892e+00 2.22395e+00] derivs: [ 2.22418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.325000 pESO->GetIndependentVar(): 36.325000 ==>IsSwitchingOccur() prevPhis[ 0]=1.197180, nextPhis[ 0]=1.235583 prevPhis[ 1]=4.802820, nextPhis[ 1]=4.764417 <==IsSwitchingOccur() T = 36.325000 Tnext = 36.330000 Time: 3.63250e+01 states: [ -1.99779e+00 2.22895e+00] derivs: [ 2.22918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.330000 pESO->GetIndependentVar(): 36.330000 ==>IsSwitchingOccur() prevPhis[ 0]=1.235583, nextPhis[ 0]=1.274061 prevPhis[ 1]=4.764417, nextPhis[ 1]=4.725939 <==IsSwitchingOccur() T = 36.330000 Tnext = 36.335000 Time: 3.63300e+01 states: [ -1.98663e+00 2.23395e+00] derivs: [ 2.23418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.335000 pESO->GetIndependentVar(): 36.335000 ==>IsSwitchingOccur() prevPhis[ 0]=1.274061, nextPhis[ 0]=1.312614 prevPhis[ 1]=4.725939, nextPhis[ 1]=4.687386 <==IsSwitchingOccur() T = 36.335000 Tnext = 36.340000 Time: 3.63350e+01 states: [ -1.97544e+00 2.23895e+00] derivs: [ 2.23918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.340000 pESO->GetIndependentVar(): 36.340000 ==>IsSwitchingOccur() prevPhis[ 0]=1.312614, nextPhis[ 0]=1.351242 prevPhis[ 1]=4.687386, nextPhis[ 1]=4.648758 <==IsSwitchingOccur() T = 36.340000 Tnext = 36.345000 Time: 3.63400e+01 states: [ -1.96423e+00 2.24395e+00] derivs: [ 2.24418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.345000 pESO->GetIndependentVar(): 36.345000 ==>IsSwitchingOccur() prevPhis[ 0]=1.351242, nextPhis[ 0]=1.389945 prevPhis[ 1]=4.648758, nextPhis[ 1]=4.610055 <==IsSwitchingOccur() T = 36.345000 Tnext = 36.350000 Time: 3.63450e+01 states: [ -1.95300e+00 2.24895e+00] derivs: [ 2.24918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.350000 pESO->GetIndependentVar(): 36.350000 ==>IsSwitchingOccur() prevPhis[ 0]=1.389945, nextPhis[ 0]=1.428723 prevPhis[ 1]=4.610055, nextPhis[ 1]=4.571277 <==IsSwitchingOccur() T = 36.350000 Tnext = 36.355000 Time: 3.63500e+01 states: [ -1.94174e+00 2.25395e+00] derivs: [ 2.25418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.355000 pESO->GetIndependentVar(): 36.355000 ==>IsSwitchingOccur() prevPhis[ 0]=1.428723, nextPhis[ 0]=1.467576 prevPhis[ 1]=4.571277, nextPhis[ 1]=4.532424 <==IsSwitchingOccur() T = 36.355000 Tnext = 36.360000 Time: 3.63550e+01 states: [ -1.93046e+00 2.25895e+00] derivs: [ 2.25918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.360000 pESO->GetIndependentVar(): 36.360000 ==>IsSwitchingOccur() prevPhis[ 0]=1.467576, nextPhis[ 0]=1.506504 prevPhis[ 1]=4.532424, nextPhis[ 1]=4.493496 <==IsSwitchingOccur() T = 36.360000 Tnext = 36.365000 Time: 3.63600e+01 states: [ -1.91915e+00 2.26395e+00] derivs: [ 2.26418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.365000 pESO->GetIndependentVar(): 36.365000 ==>IsSwitchingOccur() prevPhis[ 0]=1.506504, nextPhis[ 0]=1.545507 prevPhis[ 1]=4.493496, nextPhis[ 1]=4.454493 <==IsSwitchingOccur() T = 36.365000 Tnext = 36.370000 Time: 3.63650e+01 states: [ -1.90781e+00 2.26895e+00] derivs: [ 2.26918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.370000 pESO->GetIndependentVar(): 36.370000 ==>IsSwitchingOccur() prevPhis[ 0]=1.545507, nextPhis[ 0]=1.584585 prevPhis[ 1]=4.454493, nextPhis[ 1]=4.415415 <==IsSwitchingOccur() T = 36.370000 Tnext = 36.375000 Time: 3.63700e+01 states: [ -1.89645e+00 2.27395e+00] derivs: [ 2.27418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.375000 pESO->GetIndependentVar(): 36.375000 ==>IsSwitchingOccur() prevPhis[ 0]=1.584585, nextPhis[ 0]=1.623738 prevPhis[ 1]=4.415415, nextPhis[ 1]=4.376262 <==IsSwitchingOccur() T = 36.375000 Tnext = 36.380000 Time: 3.63750e+01 states: [ -1.88507e+00 2.27895e+00] derivs: [ 2.27918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.380000 pESO->GetIndependentVar(): 36.380000 ==>IsSwitchingOccur() prevPhis[ 0]=1.623738, nextPhis[ 0]=1.662966 prevPhis[ 1]=4.376262, nextPhis[ 1]=4.337034 <==IsSwitchingOccur() T = 36.380000 Tnext = 36.385000 Time: 3.63800e+01 states: [ -1.87366e+00 2.28395e+00] derivs: [ 2.28418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.385000 pESO->GetIndependentVar(): 36.385000 ==>IsSwitchingOccur() prevPhis[ 0]=1.662966, nextPhis[ 0]=1.702269 prevPhis[ 1]=4.337034, nextPhis[ 1]=4.297731 <==IsSwitchingOccur() T = 36.385000 Tnext = 36.390000 Time: 3.63850e+01 states: [ -1.86223e+00 2.28895e+00] derivs: [ 2.28918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.390000 pESO->GetIndependentVar(): 36.390000 ==>IsSwitchingOccur() prevPhis[ 0]=1.702269, nextPhis[ 0]=1.741647 prevPhis[ 1]=4.297731, nextPhis[ 1]=4.258353 <==IsSwitchingOccur() T = 36.390000 Tnext = 36.395000 Time: 3.63900e+01 states: [ -1.85077e+00 2.29395e+00] derivs: [ 2.29418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.395000 pESO->GetIndependentVar(): 36.395000 ==>IsSwitchingOccur() prevPhis[ 0]=1.741647, nextPhis[ 0]=1.781100 prevPhis[ 1]=4.258353, nextPhis[ 1]=4.218900 <==IsSwitchingOccur() T = 36.395000 Tnext = 36.400000 Time: 3.63950e+01 states: [ -1.83928e+00 2.29895e+00] derivs: [ 2.29918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.400000 pESO->GetIndependentVar(): 36.400000 ==>IsSwitchingOccur() prevPhis[ 0]=1.781100, nextPhis[ 0]=1.820628 prevPhis[ 1]=4.218900, nextPhis[ 1]=4.179372 <==IsSwitchingOccur() T = 36.400000 Tnext = 36.405000 Time: 3.64000e+01 states: [ -1.82777e+00 2.30395e+00] derivs: [ 2.30418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.405000 pESO->GetIndependentVar(): 36.405000 ==>IsSwitchingOccur() prevPhis[ 0]=1.820628, nextPhis[ 0]=1.860231 prevPhis[ 1]=4.179372, nextPhis[ 1]=4.139769 <==IsSwitchingOccur() T = 36.405000 Tnext = 36.410000 Time: 3.64050e+01 states: [ -1.81624e+00 2.30895e+00] derivs: [ 2.30918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.410000 pESO->GetIndependentVar(): 36.410000 ==>IsSwitchingOccur() prevPhis[ 0]=1.860231, nextPhis[ 0]=1.899909 prevPhis[ 1]=4.139769, nextPhis[ 1]=4.100091 <==IsSwitchingOccur() T = 36.410000 Tnext = 36.415000 Time: 3.64100e+01 states: [ -1.80468e+00 2.31395e+00] derivs: [ 2.31418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.415000 pESO->GetIndependentVar(): 36.415000 ==>IsSwitchingOccur() prevPhis[ 0]=1.899909, nextPhis[ 0]=1.939662 prevPhis[ 1]=4.100091, nextPhis[ 1]=4.060338 <==IsSwitchingOccur() T = 36.415000 Tnext = 36.420000 Time: 3.64150e+01 states: [ -1.79309e+00 2.31895e+00] derivs: [ 2.31918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.420000 pESO->GetIndependentVar(): 36.420000 ==>IsSwitchingOccur() prevPhis[ 0]=1.939662, nextPhis[ 0]=1.979490 prevPhis[ 1]=4.060338, nextPhis[ 1]=4.020510 <==IsSwitchingOccur() T = 36.420000 Tnext = 36.425000 Time: 3.64200e+01 states: [ -1.78149e+00 2.32395e+00] derivs: [ 2.32418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.425000 pESO->GetIndependentVar(): 36.425000 ==>IsSwitchingOccur() prevPhis[ 0]=1.979490, nextPhis[ 0]=2.019393 prevPhis[ 1]=4.020510, nextPhis[ 1]=3.980607 <==IsSwitchingOccur() T = 36.425000 Tnext = 36.430000 Time: 3.64250e+01 states: [ -1.76985e+00 2.32895e+00] derivs: [ 2.32918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.430000 pESO->GetIndependentVar(): 36.430000 ==>IsSwitchingOccur() prevPhis[ 0]=2.019393, nextPhis[ 0]=2.059370 prevPhis[ 1]=3.980607, nextPhis[ 1]=3.940630 <==IsSwitchingOccur() T = 36.430000 Tnext = 36.435000 Time: 3.64300e+01 states: [ -1.75819e+00 2.33395e+00] derivs: [ 2.33418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.435000 pESO->GetIndependentVar(): 36.435000 ==>IsSwitchingOccur() prevPhis[ 0]=2.059370, nextPhis[ 0]=2.099423 prevPhis[ 1]=3.940630, nextPhis[ 1]=3.900577 <==IsSwitchingOccur() T = 36.435000 Tnext = 36.440000 Time: 3.64350e+01 states: [ -1.74651e+00 2.33895e+00] derivs: [ 2.33918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.440000 pESO->GetIndependentVar(): 36.440000 ==>IsSwitchingOccur() prevPhis[ 0]=2.099423, nextPhis[ 0]=2.139551 prevPhis[ 1]=3.900577, nextPhis[ 1]=3.860449 <==IsSwitchingOccur() T = 36.440000 Tnext = 36.445000 Time: 3.64400e+01 states: [ -1.73480e+00 2.34395e+00] derivs: [ 2.34418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.445000 pESO->GetIndependentVar(): 36.445000 ==>IsSwitchingOccur() prevPhis[ 0]=2.139551, nextPhis[ 0]=2.179754 prevPhis[ 1]=3.860449, nextPhis[ 1]=3.820246 <==IsSwitchingOccur() T = 36.445000 Tnext = 36.450000 Time: 3.64450e+01 states: [ -1.72306e+00 2.34895e+00] derivs: [ 2.34918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.450000 pESO->GetIndependentVar(): 36.450000 ==>IsSwitchingOccur() prevPhis[ 0]=2.179754, nextPhis[ 0]=2.220032 prevPhis[ 1]=3.820246, nextPhis[ 1]=3.779968 <==IsSwitchingOccur() T = 36.450000 Tnext = 36.455000 Time: 3.64500e+01 states: [ -1.71130e+00 2.35395e+00] derivs: [ 2.35418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.455000 pESO->GetIndependentVar(): 36.455000 ==>IsSwitchingOccur() prevPhis[ 0]=2.220032, nextPhis[ 0]=2.260385 prevPhis[ 1]=3.779968, nextPhis[ 1]=3.739615 <==IsSwitchingOccur() T = 36.455000 Tnext = 36.460000 Time: 3.64550e+01 states: [ -1.69952e+00 2.35895e+00] derivs: [ 2.35918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.460000 pESO->GetIndependentVar(): 36.460000 ==>IsSwitchingOccur() prevPhis[ 0]=2.260385, nextPhis[ 0]=2.300813 prevPhis[ 1]=3.739615, nextPhis[ 1]=3.699187 <==IsSwitchingOccur() T = 36.460000 Tnext = 36.465000 Time: 3.64600e+01 states: [ -1.68771e+00 2.36395e+00] derivs: [ 2.36418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.465000 pESO->GetIndependentVar(): 36.465000 ==>IsSwitchingOccur() prevPhis[ 0]=2.300813, nextPhis[ 0]=2.341316 prevPhis[ 1]=3.699187, nextPhis[ 1]=3.658684 <==IsSwitchingOccur() T = 36.465000 Tnext = 36.470000 Time: 3.64650e+01 states: [ -1.67588e+00 2.36895e+00] derivs: [ 2.36918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.470000 pESO->GetIndependentVar(): 36.470000 ==>IsSwitchingOccur() prevPhis[ 0]=2.341316, nextPhis[ 0]=2.381894 prevPhis[ 1]=3.658684, nextPhis[ 1]=3.618106 <==IsSwitchingOccur() T = 36.470000 Tnext = 36.475000 Time: 3.64700e+01 states: [ -1.66402e+00 2.37395e+00] derivs: [ 2.37418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.475000 pESO->GetIndependentVar(): 36.475000 ==>IsSwitchingOccur() prevPhis[ 0]=2.381894, nextPhis[ 0]=2.422547 prevPhis[ 1]=3.618106, nextPhis[ 1]=3.577453 <==IsSwitchingOccur() T = 36.475000 Tnext = 36.480000 Time: 3.64750e+01 states: [ -1.65213e+00 2.37895e+00] derivs: [ 2.37918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.480000 pESO->GetIndependentVar(): 36.480000 ==>IsSwitchingOccur() prevPhis[ 0]=2.422547, nextPhis[ 0]=2.463275 prevPhis[ 1]=3.577453, nextPhis[ 1]=3.536725 <==IsSwitchingOccur() T = 36.480000 Tnext = 36.485000 Time: 3.64800e+01 states: [ -1.64022e+00 2.38395e+00] derivs: [ 2.38418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.485000 pESO->GetIndependentVar(): 36.485000 ==>IsSwitchingOccur() prevPhis[ 0]=2.463275, nextPhis[ 0]=2.504078 prevPhis[ 1]=3.536725, nextPhis[ 1]=3.495922 <==IsSwitchingOccur() T = 36.485000 Tnext = 36.490000 Time: 3.64850e+01 states: [ -1.62829e+00 2.38895e+00] derivs: [ 2.38918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.490000 pESO->GetIndependentVar(): 36.490000 ==>IsSwitchingOccur() prevPhis[ 0]=2.504078, nextPhis[ 0]=2.544956 prevPhis[ 1]=3.495922, nextPhis[ 1]=3.455044 <==IsSwitchingOccur() T = 36.490000 Tnext = 36.495000 Time: 3.64900e+01 states: [ -1.61633e+00 2.39395e+00] derivs: [ 2.39418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.495000 pESO->GetIndependentVar(): 36.495000 ==>IsSwitchingOccur() prevPhis[ 0]=2.544956, nextPhis[ 0]=2.585909 prevPhis[ 1]=3.455044, nextPhis[ 1]=3.414091 <==IsSwitchingOccur() T = 36.495000 Tnext = 36.500000 Time: 3.64950e+01 states: [ -1.60435e+00 2.39895e+00] derivs: [ 2.39918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.500000 pESO->GetIndependentVar(): 36.500000 ==>IsSwitchingOccur() prevPhis[ 0]=2.585909, nextPhis[ 0]=2.626937 prevPhis[ 1]=3.414091, nextPhis[ 1]=3.373063 <==IsSwitchingOccur() T = 36.500000 Tnext = 36.505000 Time: 3.65000e+01 states: [ -1.59234e+00 2.40395e+00] derivs: [ 2.40418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.505000 pESO->GetIndependentVar(): 36.505000 ==>IsSwitchingOccur() prevPhis[ 0]=2.626937, nextPhis[ 0]=2.668040 prevPhis[ 1]=3.373063, nextPhis[ 1]=3.331960 <==IsSwitchingOccur() T = 36.505000 Tnext = 36.510000 Time: 3.65050e+01 states: [ -1.58030e+00 2.40895e+00] derivs: [ 2.40918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.510000 pESO->GetIndependentVar(): 36.510000 ==>IsSwitchingOccur() prevPhis[ 0]=2.668040, nextPhis[ 0]=2.709218 prevPhis[ 1]=3.331960, nextPhis[ 1]=3.290782 <==IsSwitchingOccur() T = 36.510000 Tnext = 36.515000 Time: 3.65100e+01 states: [ -1.56824e+00 2.41395e+00] derivs: [ 2.41418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.515000 pESO->GetIndependentVar(): 36.515000 ==>IsSwitchingOccur() prevPhis[ 0]=2.709218, nextPhis[ 0]=2.750471 prevPhis[ 1]=3.290782, nextPhis[ 1]=3.249529 <==IsSwitchingOccur() T = 36.515000 Tnext = 36.520000 Time: 3.65150e+01 states: [ -1.55616e+00 2.41895e+00] derivs: [ 2.41918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.520000 pESO->GetIndependentVar(): 36.520000 ==>IsSwitchingOccur() prevPhis[ 0]=2.750471, nextPhis[ 0]=2.791799 prevPhis[ 1]=3.249529, nextPhis[ 1]=3.208201 <==IsSwitchingOccur() T = 36.520000 Tnext = 36.525000 Time: 3.65200e+01 states: [ -1.54405e+00 2.42395e+00] derivs: [ 2.42418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.525000 pESO->GetIndependentVar(): 36.525000 ==>IsSwitchingOccur() prevPhis[ 0]=2.791799, nextPhis[ 0]=2.833202 prevPhis[ 1]=3.208201, nextPhis[ 1]=3.166798 <==IsSwitchingOccur() T = 36.525000 Tnext = 36.530000 Time: 3.65250e+01 states: [ -1.53191e+00 2.42895e+00] derivs: [ 2.42918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.530000 pESO->GetIndependentVar(): 36.530000 ==>IsSwitchingOccur() prevPhis[ 0]=2.833202, nextPhis[ 0]=2.874680 prevPhis[ 1]=3.166798, nextPhis[ 1]=3.125320 <==IsSwitchingOccur() T = 36.530000 Tnext = 36.535000 Time: 3.65300e+01 states: [ -1.51976e+00 2.43395e+00] derivs: [ 2.43418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.535000 pESO->GetIndependentVar(): 36.535000 ==>IsSwitchingOccur() prevPhis[ 0]=2.874680, nextPhis[ 0]=2.916233 prevPhis[ 1]=3.125320, nextPhis[ 1]=3.083767 <==IsSwitchingOccur() T = 36.535000 Tnext = 36.540000 Time: 3.65350e+01 states: [ -1.50757e+00 2.43895e+00] derivs: [ 2.43918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.540000 pESO->GetIndependentVar(): 36.540000 ==>IsSwitchingOccur() prevPhis[ 0]=2.916233, nextPhis[ 0]=2.957861 prevPhis[ 1]=3.083767, nextPhis[ 1]=3.042139 <==IsSwitchingOccur() T = 36.540000 Tnext = 36.545000 Time: 3.65400e+01 states: [ -1.49536e+00 2.44395e+00] derivs: [ 2.44418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.545000 pESO->GetIndependentVar(): 36.545000 ==>IsSwitchingOccur() prevPhis[ 0]=2.957861, nextPhis[ 0]=2.999564 prevPhis[ 1]=3.042139, nextPhis[ 1]=3.000436 <==IsSwitchingOccur() T = 36.545000 Tnext = 36.550000 Time: 3.65450e+01 states: [ -1.48313e+00 2.44895e+00] derivs: [ 2.44918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.550000 pESO->GetIndependentVar(): 36.550000 ==>IsSwitchingOccur() prevPhis[ 0]=2.999564, nextPhis[ 0]=3.041342 prevPhis[ 1]=3.000436, nextPhis[ 1]=2.958658 <==IsSwitchingOccur() T = 36.550000 Tnext = 36.555000 Time: 3.65500e+01 states: [ -1.47087e+00 2.45395e+00] derivs: [ 2.45418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.555000 pESO->GetIndependentVar(): 36.555000 ==>IsSwitchingOccur() prevPhis[ 0]=3.041342, nextPhis[ 0]=3.083195 prevPhis[ 1]=2.958658, nextPhis[ 1]=2.916805 <==IsSwitchingOccur() T = 36.555000 Tnext = 36.560000 Time: 3.65550e+01 states: [ -1.45858e+00 2.45895e+00] derivs: [ 2.45918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.560000 pESO->GetIndependentVar(): 36.560000 ==>IsSwitchingOccur() prevPhis[ 0]=3.083195, nextPhis[ 0]=3.125122 prevPhis[ 1]=2.916805, nextPhis[ 1]=2.874878 <==IsSwitchingOccur() T = 36.560000 Tnext = 36.565000 Time: 3.65600e+01 states: [ -1.44627e+00 2.46395e+00] derivs: [ 2.46418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.565000 pESO->GetIndependentVar(): 36.565000 ==>IsSwitchingOccur() prevPhis[ 0]=3.125122, nextPhis[ 0]=3.167125 prevPhis[ 1]=2.874878, nextPhis[ 1]=2.832875 <==IsSwitchingOccur() T = 36.565000 Tnext = 36.570000 Time: 3.65650e+01 states: [ -1.43394e+00 2.46895e+00] derivs: [ 2.46918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.570000 pESO->GetIndependentVar(): 36.570000 ==>IsSwitchingOccur() prevPhis[ 0]=3.167125, nextPhis[ 0]=3.209203 prevPhis[ 1]=2.832875, nextPhis[ 1]=2.790797 <==IsSwitchingOccur() T = 36.570000 Tnext = 36.575000 Time: 3.65700e+01 states: [ -1.42158e+00 2.47395e+00] derivs: [ 2.47418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.575000 pESO->GetIndependentVar(): 36.575000 ==>IsSwitchingOccur() prevPhis[ 0]=3.209203, nextPhis[ 0]=3.251356 prevPhis[ 1]=2.790797, nextPhis[ 1]=2.748644 <==IsSwitchingOccur() T = 36.575000 Tnext = 36.580000 Time: 3.65750e+01 states: [ -1.40920e+00 2.47895e+00] derivs: [ 2.47918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.580000 pESO->GetIndependentVar(): 36.580000 ==>IsSwitchingOccur() prevPhis[ 0]=3.251356, nextPhis[ 0]=3.293584 prevPhis[ 1]=2.748644, nextPhis[ 1]=2.706416 <==IsSwitchingOccur() T = 36.580000 Tnext = 36.585000 Time: 3.65800e+01 states: [ -1.39679e+00 2.48395e+00] derivs: [ 2.48418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.585000 pESO->GetIndependentVar(): 36.585000 ==>IsSwitchingOccur() prevPhis[ 0]=3.293584, nextPhis[ 0]=3.335887 prevPhis[ 1]=2.706416, nextPhis[ 1]=2.664113 <==IsSwitchingOccur() T = 36.585000 Tnext = 36.590000 Time: 3.65850e+01 states: [ -1.38435e+00 2.48895e+00] derivs: [ 2.48918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.590000 pESO->GetIndependentVar(): 36.590000 ==>IsSwitchingOccur() prevPhis[ 0]=3.335887, nextPhis[ 0]=3.378265 prevPhis[ 1]=2.664113, nextPhis[ 1]=2.621735 <==IsSwitchingOccur() T = 36.590000 Tnext = 36.595000 Time: 3.65900e+01 states: [ -1.37189e+00 2.49395e+00] derivs: [ 2.49418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.595000 pESO->GetIndependentVar(): 36.595000 ==>IsSwitchingOccur() prevPhis[ 0]=3.378265, nextPhis[ 0]=3.420718 prevPhis[ 1]=2.621735, nextPhis[ 1]=2.579282 <==IsSwitchingOccur() T = 36.595000 Tnext = 36.600000 Time: 3.65950e+01 states: [ -1.35941e+00 2.49895e+00] derivs: [ 2.49918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.600000 pESO->GetIndependentVar(): 36.600000 ==>IsSwitchingOccur() prevPhis[ 0]=3.420718, nextPhis[ 0]=3.463246 prevPhis[ 1]=2.579282, nextPhis[ 1]=2.536754 <==IsSwitchingOccur() T = 36.600000 Tnext = 36.605000 Time: 3.66000e+01 states: [ -1.34690e+00 2.50395e+00] derivs: [ 2.50418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.605000 pESO->GetIndependentVar(): 36.605000 ==>IsSwitchingOccur() prevPhis[ 0]=3.463246, nextPhis[ 0]=3.505849 prevPhis[ 1]=2.536754, nextPhis[ 1]=2.494151 <==IsSwitchingOccur() T = 36.605000 Tnext = 36.610000 Time: 3.66050e+01 states: [ -1.33437e+00 2.50895e+00] derivs: [ 2.50918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.610000 pESO->GetIndependentVar(): 36.610000 ==>IsSwitchingOccur() prevPhis[ 0]=3.505849, nextPhis[ 0]=3.548527 prevPhis[ 1]=2.494151, nextPhis[ 1]=2.451473 <==IsSwitchingOccur() T = 36.610000 Tnext = 36.615000 Time: 3.66100e+01 states: [ -1.32181e+00 2.51395e+00] derivs: [ 2.51418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.615000 pESO->GetIndependentVar(): 36.615000 ==>IsSwitchingOccur() prevPhis[ 0]=3.548527, nextPhis[ 0]=3.591280 prevPhis[ 1]=2.451473, nextPhis[ 1]=2.408720 <==IsSwitchingOccur() T = 36.615000 Tnext = 36.620000 Time: 3.66150e+01 states: [ -1.30922e+00 2.51895e+00] derivs: [ 2.51918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.620000 pESO->GetIndependentVar(): 36.620000 ==>IsSwitchingOccur() prevPhis[ 0]=3.591280, nextPhis[ 0]=3.634108 prevPhis[ 1]=2.408720, nextPhis[ 1]=2.365892 <==IsSwitchingOccur() T = 36.620000 Tnext = 36.625000 Time: 3.66200e+01 states: [ -1.29661e+00 2.52395e+00] derivs: [ 2.52418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.625000 pESO->GetIndependentVar(): 36.625000 ==>IsSwitchingOccur() prevPhis[ 0]=3.634108, nextPhis[ 0]=3.677011 prevPhis[ 1]=2.365892, nextPhis[ 1]=2.322989 <==IsSwitchingOccur() T = 36.625000 Tnext = 36.630000 Time: 3.66250e+01 states: [ -1.28398e+00 2.52895e+00] derivs: [ 2.52918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.630000 pESO->GetIndependentVar(): 36.630000 ==>IsSwitchingOccur() prevPhis[ 0]=3.677011, nextPhis[ 0]=3.719989 prevPhis[ 1]=2.322989, nextPhis[ 1]=2.280011 <==IsSwitchingOccur() T = 36.630000 Tnext = 36.635000 Time: 3.66300e+01 states: [ -1.27132e+00 2.53395e+00] derivs: [ 2.53418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.635000 pESO->GetIndependentVar(): 36.635000 ==>IsSwitchingOccur() prevPhis[ 0]=3.719989, nextPhis[ 0]=3.763042 prevPhis[ 1]=2.280011, nextPhis[ 1]=2.236958 <==IsSwitchingOccur() T = 36.635000 Tnext = 36.640000 Time: 3.66350e+01 states: [ -1.25863e+00 2.53895e+00] derivs: [ 2.53918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.640000 pESO->GetIndependentVar(): 36.640000 ==>IsSwitchingOccur() prevPhis[ 0]=3.763042, nextPhis[ 0]=3.806170 prevPhis[ 1]=2.236958, nextPhis[ 1]=2.193830 <==IsSwitchingOccur() T = 36.640000 Tnext = 36.645000 Time: 3.66400e+01 states: [ -1.24593e+00 2.54395e+00] derivs: [ 2.54418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.645000 pESO->GetIndependentVar(): 36.645000 ==>IsSwitchingOccur() prevPhis[ 0]=3.806170, nextPhis[ 0]=3.849373 prevPhis[ 1]=2.193830, nextPhis[ 1]=2.150627 <==IsSwitchingOccur() T = 36.645000 Tnext = 36.650000 Time: 3.66450e+01 states: [ -1.23319e+00 2.54895e+00] derivs: [ 2.54918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.650000 pESO->GetIndependentVar(): 36.650000 ==>IsSwitchingOccur() prevPhis[ 0]=3.849373, nextPhis[ 0]=3.892651 prevPhis[ 1]=2.150627, nextPhis[ 1]=2.107349 <==IsSwitchingOccur() T = 36.650000 Tnext = 36.655000 Time: 3.66500e+01 states: [ -1.22043e+00 2.55395e+00] derivs: [ 2.55418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.655000 pESO->GetIndependentVar(): 36.655000 ==>IsSwitchingOccur() prevPhis[ 0]=3.892651, nextPhis[ 0]=3.936004 prevPhis[ 1]=2.107349, nextPhis[ 1]=2.063996 <==IsSwitchingOccur() T = 36.655000 Tnext = 36.660000 Time: 3.66550e+01 states: [ -1.20765e+00 2.55895e+00] derivs: [ 2.55918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.660000 pESO->GetIndependentVar(): 36.660000 ==>IsSwitchingOccur() prevPhis[ 0]=3.936004, nextPhis[ 0]=3.979432 prevPhis[ 1]=2.063996, nextPhis[ 1]=2.020568 <==IsSwitchingOccur() T = 36.660000 Tnext = 36.665000 Time: 3.66600e+01 states: [ -1.19484e+00 2.56395e+00] derivs: [ 2.56418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.665000 pESO->GetIndependentVar(): 36.665000 ==>IsSwitchingOccur() prevPhis[ 0]=3.979432, nextPhis[ 0]=4.022935 prevPhis[ 1]=2.020568, nextPhis[ 1]=1.977065 <==IsSwitchingOccur() T = 36.665000 Tnext = 36.670000 Time: 3.66650e+01 states: [ -1.18200e+00 2.56895e+00] derivs: [ 2.56918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.670000 pESO->GetIndependentVar(): 36.670000 ==>IsSwitchingOccur() prevPhis[ 0]=4.022935, nextPhis[ 0]=4.066513 prevPhis[ 1]=1.977065, nextPhis[ 1]=1.933487 <==IsSwitchingOccur() T = 36.670000 Tnext = 36.675000 Time: 3.66700e+01 states: [ -1.16914e+00 2.57395e+00] derivs: [ 2.57418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.675000 pESO->GetIndependentVar(): 36.675000 ==>IsSwitchingOccur() prevPhis[ 0]=4.066513, nextPhis[ 0]=4.110166 prevPhis[ 1]=1.933487, nextPhis[ 1]=1.889834 <==IsSwitchingOccur() T = 36.675000 Tnext = 36.680000 Time: 3.66750e+01 states: [ -1.15626e+00 2.57895e+00] derivs: [ 2.57918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.680000 pESO->GetIndependentVar(): 36.680000 ==>IsSwitchingOccur() prevPhis[ 0]=4.110166, nextPhis[ 0]=4.153894 prevPhis[ 1]=1.889834, nextPhis[ 1]=1.846106 <==IsSwitchingOccur() T = 36.680000 Tnext = 36.685000 Time: 3.66800e+01 states: [ -1.14335e+00 2.58395e+00] derivs: [ 2.58418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.685000 pESO->GetIndependentVar(): 36.685000 ==>IsSwitchingOccur() prevPhis[ 0]=4.153894, nextPhis[ 0]=4.197697 prevPhis[ 1]=1.846106, nextPhis[ 1]=1.802303 <==IsSwitchingOccur() T = 36.685000 Tnext = 36.690000 Time: 3.66850e+01 states: [ -1.13042e+00 2.58895e+00] derivs: [ 2.58918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.690000 pESO->GetIndependentVar(): 36.690000 ==>IsSwitchingOccur() prevPhis[ 0]=4.197697, nextPhis[ 0]=4.241574 prevPhis[ 1]=1.802303, nextPhis[ 1]=1.758426 <==IsSwitchingOccur() T = 36.690000 Tnext = 36.695000 Time: 3.66900e+01 states: [ -1.11746e+00 2.59395e+00] derivs: [ 2.59418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.695000 pESO->GetIndependentVar(): 36.695000 ==>IsSwitchingOccur() prevPhis[ 0]=4.241574, nextPhis[ 0]=4.285527 prevPhis[ 1]=1.758426, nextPhis[ 1]=1.714473 <==IsSwitchingOccur() T = 36.695000 Tnext = 36.700000 Time: 3.66950e+01 states: [ -1.10447e+00 2.59895e+00] derivs: [ 2.59918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.700000 pESO->GetIndependentVar(): 36.700000 ==>IsSwitchingOccur() prevPhis[ 0]=4.285527, nextPhis[ 0]=4.329555 prevPhis[ 1]=1.714473, nextPhis[ 1]=1.670445 <==IsSwitchingOccur() T = 36.700000 Tnext = 36.705000 Time: 3.67000e+01 states: [ -1.09146e+00 2.60395e+00] derivs: [ 2.60418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.705000 pESO->GetIndependentVar(): 36.705000 ==>IsSwitchingOccur() prevPhis[ 0]=4.329555, nextPhis[ 0]=4.373658 prevPhis[ 1]=1.670445, nextPhis[ 1]=1.626342 <==IsSwitchingOccur() T = 36.705000 Tnext = 36.710000 Time: 3.67050e+01 states: [ -1.07843e+00 2.60895e+00] derivs: [ 2.60918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.710000 pESO->GetIndependentVar(): 36.710000 ==>IsSwitchingOccur() prevPhis[ 0]=4.373658, nextPhis[ 0]=4.417836 prevPhis[ 1]=1.626342, nextPhis[ 1]=1.582164 <==IsSwitchingOccur() T = 36.710000 Tnext = 36.715000 Time: 3.67100e+01 states: [ -1.06537e+00 2.61395e+00] derivs: [ 2.61418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.715000 pESO->GetIndependentVar(): 36.715000 ==>IsSwitchingOccur() prevPhis[ 0]=4.417836, nextPhis[ 0]=4.462089 prevPhis[ 1]=1.582164, nextPhis[ 1]=1.537911 <==IsSwitchingOccur() T = 36.715000 Tnext = 36.720000 Time: 3.67150e+01 states: [ -1.05229e+00 2.61895e+00] derivs: [ 2.61918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.720000 pESO->GetIndependentVar(): 36.720000 ==>IsSwitchingOccur() prevPhis[ 0]=4.462089, nextPhis[ 0]=4.506417 prevPhis[ 1]=1.537911, nextPhis[ 1]=1.493583 <==IsSwitchingOccur() T = 36.720000 Tnext = 36.725000 Time: 3.67200e+01 states: [ -1.03918e+00 2.62395e+00] derivs: [ 2.62418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.725000 pESO->GetIndependentVar(): 36.725000 ==>IsSwitchingOccur() prevPhis[ 0]=4.506417, nextPhis[ 0]=4.550820 prevPhis[ 1]=1.493583, nextPhis[ 1]=1.449180 <==IsSwitchingOccur() T = 36.725000 Tnext = 36.730000 Time: 3.67250e+01 states: [ -1.02604e+00 2.62895e+00] derivs: [ 2.62918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.730000 pESO->GetIndependentVar(): 36.730000 ==>IsSwitchingOccur() prevPhis[ 0]=4.550820, nextPhis[ 0]=4.595298 prevPhis[ 1]=1.449180, nextPhis[ 1]=1.404702 <==IsSwitchingOccur() T = 36.730000 Tnext = 36.735000 Time: 3.67300e+01 states: [ -1.01288e+00 2.63395e+00] derivs: [ 2.63418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.735000 pESO->GetIndependentVar(): 36.735000 ==>IsSwitchingOccur() prevPhis[ 0]=4.595298, nextPhis[ 0]=4.639851 prevPhis[ 1]=1.404702, nextPhis[ 1]=1.360149 <==IsSwitchingOccur() T = 36.735000 Tnext = 36.740000 Time: 3.67350e+01 states: [ -9.99698e-01 2.63895e+00] derivs: [ 2.63918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.740000 pESO->GetIndependentVar(): 36.740000 ==>IsSwitchingOccur() prevPhis[ 0]=4.639851, nextPhis[ 0]=4.684479 prevPhis[ 1]=1.360149, nextPhis[ 1]=1.315521 <==IsSwitchingOccur() T = 36.740000 Tnext = 36.745000 Time: 3.67400e+01 states: [ -9.86489e-01 2.64395e+00] derivs: [ 2.64418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.745000 pESO->GetIndependentVar(): 36.745000 ==>IsSwitchingOccur() prevPhis[ 0]=4.684479, nextPhis[ 0]=4.729182 prevPhis[ 1]=1.315521, nextPhis[ 1]=1.270818 <==IsSwitchingOccur() T = 36.745000 Tnext = 36.750000 Time: 3.67450e+01 states: [ -9.73255e-01 2.64895e+00] derivs: [ 2.64918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.750000 pESO->GetIndependentVar(): 36.750000 ==>IsSwitchingOccur() prevPhis[ 0]=4.729182, nextPhis[ 0]=4.773960 prevPhis[ 1]=1.270818, nextPhis[ 1]=1.226040 <==IsSwitchingOccur() T = 36.750000 Tnext = 36.755000 Time: 3.67500e+01 states: [ -9.59995e-01 2.65395e+00] derivs: [ 2.65418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.755000 pESO->GetIndependentVar(): 36.755000 ==>IsSwitchingOccur() prevPhis[ 0]=4.773960, nextPhis[ 0]=4.818813 prevPhis[ 1]=1.226040, nextPhis[ 1]=1.181187 <==IsSwitchingOccur() T = 36.755000 Tnext = 36.760000 Time: 3.67550e+01 states: [ -9.46711e-01 2.65895e+00] derivs: [ 2.65918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.760000 pESO->GetIndependentVar(): 36.760000 ==>IsSwitchingOccur() prevPhis[ 0]=4.818813, nextPhis[ 0]=4.863741 prevPhis[ 1]=1.181187, nextPhis[ 1]=1.136259 <==IsSwitchingOccur() T = 36.760000 Tnext = 36.765000 Time: 3.67600e+01 states: [ -9.33402e-01 2.66395e+00] derivs: [ 2.66418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.765000 pESO->GetIndependentVar(): 36.765000 ==>IsSwitchingOccur() prevPhis[ 0]=4.863741, nextPhis[ 0]=4.908744 prevPhis[ 1]=1.136259, nextPhis[ 1]=1.091256 <==IsSwitchingOccur() T = 36.765000 Tnext = 36.770000 Time: 3.67650e+01 states: [ -9.20067e-01 2.66895e+00] derivs: [ 2.66918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.770000 pESO->GetIndependentVar(): 36.770000 ==>IsSwitchingOccur() prevPhis[ 0]=4.908744, nextPhis[ 0]=4.953822 prevPhis[ 1]=1.091256, nextPhis[ 1]=1.046178 <==IsSwitchingOccur() T = 36.770000 Tnext = 36.775000 Time: 3.67700e+01 states: [ -9.06708e-01 2.67395e+00] derivs: [ 2.67418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.775000 pESO->GetIndependentVar(): 36.775000 ==>IsSwitchingOccur() prevPhis[ 0]=4.953822, nextPhis[ 0]=4.998975 prevPhis[ 1]=1.046178, nextPhis[ 1]=1.001025 <==IsSwitchingOccur() T = 36.775000 Tnext = 36.780000 Time: 3.67750e+01 states: [ -8.93324e-01 2.67895e+00] derivs: [ 2.67918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.780000 pESO->GetIndependentVar(): 36.780000 ==>IsSwitchingOccur() prevPhis[ 0]=4.998975, nextPhis[ 0]=5.044203 prevPhis[ 1]=1.001025, nextPhis[ 1]=0.955797 <==IsSwitchingOccur() T = 36.780000 Tnext = 36.785000 Time: 3.67800e+01 states: [ -8.79914e-01 2.68395e+00] derivs: [ 2.68418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.785000 pESO->GetIndependentVar(): 36.785000 ==>IsSwitchingOccur() prevPhis[ 0]=5.044203, nextPhis[ 0]=5.089506 prevPhis[ 1]=0.955797, nextPhis[ 1]=0.910494 <==IsSwitchingOccur() T = 36.785000 Tnext = 36.790000 Time: 3.67850e+01 states: [ -8.66480e-01 2.68895e+00] derivs: [ 2.68918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.790000 pESO->GetIndependentVar(): 36.790000 ==>IsSwitchingOccur() prevPhis[ 0]=5.089506, nextPhis[ 0]=5.134884 prevPhis[ 1]=0.910494, nextPhis[ 1]=0.865116 <==IsSwitchingOccur() T = 36.790000 Tnext = 36.795000 Time: 3.67900e+01 states: [ -8.53021e-01 2.69395e+00] derivs: [ 2.69418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.795000 pESO->GetIndependentVar(): 36.795000 ==>IsSwitchingOccur() prevPhis[ 0]=5.134884, nextPhis[ 0]=5.180337 prevPhis[ 1]=0.865116, nextPhis[ 1]=0.819663 <==IsSwitchingOccur() T = 36.795000 Tnext = 36.800000 Time: 3.67950e+01 states: [ -8.39536e-01 2.69895e+00] derivs: [ 2.69918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.800000 pESO->GetIndependentVar(): 36.800000 ==>IsSwitchingOccur() prevPhis[ 0]=5.180337, nextPhis[ 0]=5.225865 prevPhis[ 1]=0.819663, nextPhis[ 1]=0.774135 <==IsSwitchingOccur() T = 36.800000 Tnext = 36.805000 Time: 3.68000e+01 states: [ -8.26027e-01 2.70395e+00] derivs: [ 2.70418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.805000 pESO->GetIndependentVar(): 36.805000 ==>IsSwitchingOccur() prevPhis[ 0]=5.225865, nextPhis[ 0]=5.271468 prevPhis[ 1]=0.774135, nextPhis[ 1]=0.728532 <==IsSwitchingOccur() T = 36.805000 Tnext = 36.810000 Time: 3.68050e+01 states: [ -8.12493e-01 2.70895e+00] derivs: [ 2.70918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.810000 pESO->GetIndependentVar(): 36.810000 ==>IsSwitchingOccur() prevPhis[ 0]=5.271468, nextPhis[ 0]=5.317146 prevPhis[ 1]=0.728532, nextPhis[ 1]=0.682854 <==IsSwitchingOccur() T = 36.810000 Tnext = 36.815000 Time: 3.68100e+01 states: [ -7.98933e-01 2.71395e+00] derivs: [ 2.71418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.815000 pESO->GetIndependentVar(): 36.815000 ==>IsSwitchingOccur() prevPhis[ 0]=5.317146, nextPhis[ 0]=5.362899 prevPhis[ 1]=0.682854, nextPhis[ 1]=0.637101 <==IsSwitchingOccur() T = 36.815000 Tnext = 36.820000 Time: 3.68150e+01 states: [ -7.85349e-01 2.71895e+00] derivs: [ 2.71918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.820000 pESO->GetIndependentVar(): 36.820000 ==>IsSwitchingOccur() prevPhis[ 0]=5.362899, nextPhis[ 0]=5.408727 prevPhis[ 1]=0.637101, nextPhis[ 1]=0.591273 <==IsSwitchingOccur() T = 36.820000 Tnext = 36.825000 Time: 3.68200e+01 states: [ -7.71740e-01 2.72395e+00] derivs: [ 2.72418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.825000 pESO->GetIndependentVar(): 36.825000 ==>IsSwitchingOccur() prevPhis[ 0]=5.408727, nextPhis[ 0]=5.454629 prevPhis[ 1]=0.591273, nextPhis[ 1]=0.545371 <==IsSwitchingOccur() T = 36.825000 Tnext = 36.830000 Time: 3.68250e+01 states: [ -7.58105e-01 2.72895e+00] derivs: [ 2.72918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.830000 pESO->GetIndependentVar(): 36.830000 ==>IsSwitchingOccur() prevPhis[ 0]=5.454629, nextPhis[ 0]=5.500607 prevPhis[ 1]=0.545371, nextPhis[ 1]=0.499393 <==IsSwitchingOccur() T = 36.830000 Tnext = 36.835000 Time: 3.68300e+01 states: [ -7.44446e-01 2.73395e+00] derivs: [ 2.73418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.835000 pESO->GetIndependentVar(): 36.835000 ==>IsSwitchingOccur() prevPhis[ 0]=5.500607, nextPhis[ 0]=5.546660 prevPhis[ 1]=0.499393, nextPhis[ 1]=0.453340 <==IsSwitchingOccur() T = 36.835000 Tnext = 36.840000 Time: 3.68350e+01 states: [ -7.30762e-01 2.73895e+00] derivs: [ 2.73918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.840000 pESO->GetIndependentVar(): 36.840000 ==>IsSwitchingOccur() prevPhis[ 0]=5.546660, nextPhis[ 0]=5.592788 prevPhis[ 1]=0.453340, nextPhis[ 1]=0.407212 <==IsSwitchingOccur() T = 36.840000 Tnext = 36.845000 Time: 3.68400e+01 states: [ -7.17052e-01 2.74395e+00] derivs: [ 2.74418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.845000 pESO->GetIndependentVar(): 36.845000 ==>IsSwitchingOccur() prevPhis[ 0]=5.592788, nextPhis[ 0]=5.638991 prevPhis[ 1]=0.407212, nextPhis[ 1]=0.361009 <==IsSwitchingOccur() T = 36.845000 Tnext = 36.850000 Time: 3.68450e+01 states: [ -7.03318e-01 2.74895e+00] derivs: [ 2.74918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.850000 pESO->GetIndependentVar(): 36.850000 ==>IsSwitchingOccur() prevPhis[ 0]=5.638991, nextPhis[ 0]=5.685269 prevPhis[ 1]=0.361009, nextPhis[ 1]=0.314731 <==IsSwitchingOccur() T = 36.850000 Tnext = 36.855000 Time: 3.68500e+01 states: [ -6.89559e-01 2.75395e+00] derivs: [ 2.75418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.855000 pESO->GetIndependentVar(): 36.855000 ==>IsSwitchingOccur() prevPhis[ 0]=5.685269, nextPhis[ 0]=5.731622 prevPhis[ 1]=0.314731, nextPhis[ 1]=0.268378 <==IsSwitchingOccur() T = 36.855000 Tnext = 36.860000 Time: 3.68550e+01 states: [ -6.75774e-01 2.75895e+00] derivs: [ 2.75918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.860000 pESO->GetIndependentVar(): 36.860000 ==>IsSwitchingOccur() prevPhis[ 0]=5.731622, nextPhis[ 0]=5.778050 prevPhis[ 1]=0.268378, nextPhis[ 1]=0.221950 <==IsSwitchingOccur() T = 36.860000 Tnext = 36.865000 Time: 3.68600e+01 states: [ -6.61965e-01 2.76395e+00] derivs: [ 2.76418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.865000 pESO->GetIndependentVar(): 36.865000 ==>IsSwitchingOccur() prevPhis[ 0]=5.778050, nextPhis[ 0]=5.824553 prevPhis[ 1]=0.221950, nextPhis[ 1]=0.175447 <==IsSwitchingOccur() T = 36.865000 Tnext = 36.870000 Time: 3.68650e+01 states: [ -6.48131e-01 2.76895e+00] derivs: [ 2.76918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.870000 pESO->GetIndependentVar(): 36.870000 ==>IsSwitchingOccur() prevPhis[ 0]=5.824553, nextPhis[ 0]=5.871131 prevPhis[ 1]=0.175447, nextPhis[ 1]=0.128869 <==IsSwitchingOccur() T = 36.870000 Tnext = 36.875000 Time: 3.68700e+01 states: [ -6.34271e-01 2.77395e+00] derivs: [ 2.77418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.875000 pESO->GetIndependentVar(): 36.875000 ==>IsSwitchingOccur() prevPhis[ 0]=5.871131, nextPhis[ 0]=5.917784 prevPhis[ 1]=0.128869, nextPhis[ 1]=0.082216 <==IsSwitchingOccur() T = 36.875000 Tnext = 36.880000 Time: 3.68750e+01 states: [ -6.20387e-01 2.77895e+00] derivs: [ 2.77918e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.880000 pESO->GetIndependentVar(): 36.880000 ==>IsSwitchingOccur() prevPhis[ 0]=5.917784, nextPhis[ 0]=5.964512 prevPhis[ 1]=0.082216, nextPhis[ 1]=0.035488 <==IsSwitchingOccur() T = 36.880000 Tnext = 36.885000 Time: 3.68800e+01 states: [ -6.06478e-01 2.78395e+00] derivs: [ 2.78418e+00 1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.964512, nextPhis[ 0]=6.011315 prevPhis[ 1]=0.035488, nextPhis[ 1]=-0.011315 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.011315 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.034745 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.023027 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.017170 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.014242 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.012779 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.012047 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.011681 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.606369, 2.783985, -15.304349, -5.157075, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=52.070122 b=-9.352033 dts/dp=[5.567786, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 1-st IC recalculation): [-0.606369, 2.783985, -15.304349, -5.157075, ] AllSensVars (befor 2-nd IC recalculation):[-0.606369, 2.783985, -15.304201, 5.978497, ] AllSensDers (befor 2-nd IC recalculation):[2.783985, -1.000000, -5.157076, -0.000000, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() AllSensVars (after 2-nd IC recalculation):[-0.606369, 2.783985, -15.304201, 5.978497, ] AllSensDers (after 2-nd IC recalculation):[2.783985, -1.000000, 5.978497, -0.000000, ] <==RecalculateSensIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.964877, nextPhis[ 0]=6.001593 prevPhis[ 1]=0.035123, nextPhis[ 1]=-0.001593 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.001593 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.019923 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.010761 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.006178 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.003886 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.002740 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.002167 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.001880 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.606260, 2.783946, -15.303968, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.933407 b=-7.351757 dts/dp=[5.567840, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.965165, nextPhis[ 0]=6.001880 prevPhis[ 1]=0.034835, nextPhis[ 1]=-0.001880 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.001880 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.020209 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.011047 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.006465 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.004172 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.003026 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.002453 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.002167 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.606152, 2.783907, -15.303734, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.932706 b=-7.351640 dts/dp=[5.567833, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.965452, nextPhis[ 0]=6.002167 prevPhis[ 1]=0.034548, nextPhis[ 1]=-0.002167 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.002167 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.020496 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.011334 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.006751 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.004459 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.003313 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.002740 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.002453 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.606043, 2.783867, -15.303501, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.932006 b=-7.351523 dts/dp=[5.567827, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.965739, nextPhis[ 0]=6.002453 prevPhis[ 1]=0.034261, nextPhis[ 1]=-0.002453 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.002453 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.020782 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.011620 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.007038 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.004746 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.003599 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.003026 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.002740 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605934, 2.783828, -15.303267, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.931305 b=-7.351406 dts/dp=[5.567820, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.966026, nextPhis[ 0]=6.002740 prevPhis[ 1]=0.033974, nextPhis[ 1]=-0.002740 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.002740 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.021068 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.011907 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.007324 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.005032 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.003886 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.003313 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.003026 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605825, 2.783789, -15.303034, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.930604 b=-7.351289 dts/dp=[5.567814, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.966313, nextPhis[ 0]=6.003026 prevPhis[ 1]=0.033687, nextPhis[ 1]=-0.003026 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.003026 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.021355 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.012193 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.007611 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.005319 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.004173 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.003599 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.003313 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605717, 2.783750, -15.302800, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.929904 b=-7.351171 dts/dp=[5.567807, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.966600, nextPhis[ 0]=6.003313 prevPhis[ 1]=0.033400, nextPhis[ 1]=-0.003313 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.003313 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.021641 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.012480 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.007897 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.005605 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.004459 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.003886 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.003599 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605608, 2.783711, -15.302567, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.929203 b=-7.351054 dts/dp=[5.567800, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.966888, nextPhis[ 0]=6.003599 prevPhis[ 1]=0.033112, nextPhis[ 1]=-0.003599 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.003599 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.021927 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.012766 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.008184 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.005892 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.004746 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.004173 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.003886 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605499, 2.783672, -15.302333, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.928503 b=-7.350937 dts/dp=[5.567794, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.967175, nextPhis[ 0]=6.003886 prevPhis[ 1]=0.032825, nextPhis[ 1]=-0.003886 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.003886 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.022213 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.013053 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.008470 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.006178 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.005032 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.004459 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.004173 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605390, 2.783633, -15.302100, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.927802 b=-7.350820 dts/dp=[5.567787, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.967462, nextPhis[ 0]=6.004173 prevPhis[ 1]=0.032538, nextPhis[ 1]=-0.004173 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.004173 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.022500 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.013339 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.008757 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.006465 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.005319 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.004746 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.004459 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605282, 2.783594, -15.301866, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.927101 b=-7.350703 dts/dp=[5.567781, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.967749, nextPhis[ 0]=6.004459 prevPhis[ 1]=0.032251, nextPhis[ 1]=-0.004459 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.004459 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.022786 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.013625 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.009043 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.006751 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.005605 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.005032 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.004746 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605173, 2.783555, -15.301632, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.926401 b=-7.350586 dts/dp=[5.567774, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.968036, nextPhis[ 0]=6.004746 prevPhis[ 1]=0.031964, nextPhis[ 1]=-0.004746 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.004746 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.023072 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.013912 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.009330 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.007038 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.005892 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.005319 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.005032 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.605064, 2.783516, -15.301399, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.925700 b=-7.350468 dts/dp=[5.567768, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.968323, nextPhis[ 0]=6.005032 prevPhis[ 1]=0.031677, nextPhis[ 1]=-0.005032 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.005032 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.023358 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.014198 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.009616 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.007324 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.006178 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.005605 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.005319 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604956, 2.783477, -15.301165, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.925000 b=-7.350351 dts/dp=[5.567761, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.968610, nextPhis[ 0]=6.005319 prevPhis[ 1]=0.031390, nextPhis[ 1]=-0.005319 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.005319 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.023645 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.014485 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.009902 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.007611 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.006465 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.005892 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.005605 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604847, 2.783438, -15.300932, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.924299 b=-7.350234 dts/dp=[5.567755, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.968897, nextPhis[ 0]=6.005605 prevPhis[ 1]=0.031103, nextPhis[ 1]=-0.005605 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.005605 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.023931 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.014771 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.010189 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.007897 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.006751 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.006178 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.005892 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604738, 2.783399, -15.300698, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.923598 b=-7.350117 dts/dp=[5.567748, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.969185, nextPhis[ 0]=6.005892 prevPhis[ 1]=0.030815, nextPhis[ 1]=-0.005892 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.005892 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.024217 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.015057 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.010475 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.008184 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.007038 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.006465 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.006178 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604629, 2.783360, -15.300465, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.922898 b=-7.350000 dts/dp=[5.567742, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.969472, nextPhis[ 0]=6.006178 prevPhis[ 1]=0.030528, nextPhis[ 1]=-0.006178 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.006178 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.024503 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.015344 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.010762 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.008470 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.007324 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.006751 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.006465 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604521, 2.783321, -15.300231, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.922197 b=-7.349882 dts/dp=[5.567735, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.969759, nextPhis[ 0]=6.006465 prevPhis[ 1]=0.030241, nextPhis[ 1]=-0.006465 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.006465 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.024790 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.015630 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.011048 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.008757 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.007611 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.007038 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.006751 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604412, 2.783282, -15.299998, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.921497 b=-7.349765 dts/dp=[5.567728, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.970046, nextPhis[ 0]=6.006751 prevPhis[ 1]=0.029954, nextPhis[ 1]=-0.006751 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.006751 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.025076 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.015916 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.011335 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.009043 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.007897 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.007324 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.007038 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604303, 2.783242, -15.299764, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.920796 b=-7.349648 dts/dp=[5.567722, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.970333, nextPhis[ 0]=6.007038 prevPhis[ 1]=0.029667, nextPhis[ 1]=-0.007038 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.007038 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.025362 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.016203 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.011621 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.009330 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.008184 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.007611 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.007324 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604194, 2.783203, -15.299531, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.920095 b=-7.349531 dts/dp=[5.567715, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.970620, nextPhis[ 0]=6.007324 prevPhis[ 1]=0.029380, nextPhis[ 1]=-0.007324 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.007324 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.025648 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.016489 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.011908 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.009616 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.008470 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.007897 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.007611 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.604086, 2.783164, -15.299297, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.919395 b=-7.349414 dts/dp=[5.567709, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.970907, nextPhis[ 0]=6.007611 prevPhis[ 1]=0.029093, nextPhis[ 1]=-0.007611 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.007611 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.025934 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.016775 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.012194 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.009903 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.008757 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.008184 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.007897 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603977, 2.783125, -15.299064, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.918694 b=-7.349296 dts/dp=[5.567702, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.971194, nextPhis[ 0]=6.007897 prevPhis[ 1]=0.028806, nextPhis[ 1]=-0.007897 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.007897 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.026221 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.017062 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.012480 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.010189 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.009043 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.008470 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.008184 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603868, 2.783086, -15.298830, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.917994 b=-7.349179 dts/dp=[5.567696, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.971481, nextPhis[ 0]=6.008184 prevPhis[ 1]=0.028519, nextPhis[ 1]=-0.008184 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.008184 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.026507 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.017348 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.012767 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.010476 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.009330 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.008757 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.008470 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603760, 2.783047, -15.298597, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.917293 b=-7.349062 dts/dp=[5.567689, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.971768, nextPhis[ 0]=6.008470 prevPhis[ 1]=0.028232, nextPhis[ 1]=-0.008470 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.008470 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.026793 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.017635 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.013053 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.010762 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.009616 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.009043 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.008757 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603651, 2.783008, -15.298363, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.916592 b=-7.348945 dts/dp=[5.567683, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.972055, nextPhis[ 0]=6.008757 prevPhis[ 1]=0.027945, nextPhis[ 1]=-0.008757 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.008757 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.027079 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.017921 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.013340 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.011048 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.009903 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.009330 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.009043 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603542, 2.782969, -15.298129, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.915892 b=-7.348828 dts/dp=[5.567676, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.972343, nextPhis[ 0]=6.009043 prevPhis[ 1]=0.027657, nextPhis[ 1]=-0.009043 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.009043 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.027365 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.018207 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.013626 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.011335 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.010189 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.009616 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.009330 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603433, 2.782930, -15.297896, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.915191 b=-7.348711 dts/dp=[5.567669, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.972630, nextPhis[ 0]=6.009330 prevPhis[ 1]=0.027370, nextPhis[ 1]=-0.009330 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.009330 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.027652 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.018494 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.013913 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.011621 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.010476 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.009903 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.009616 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603325, 2.782891, -15.297662, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.914491 b=-7.348593 dts/dp=[5.567663, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.972917, nextPhis[ 0]=6.009616 prevPhis[ 1]=0.027083, nextPhis[ 1]=-0.009616 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.009616 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.027938 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.018780 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.014199 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.011908 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.010762 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.010189 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.009903 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603216, 2.782852, -15.297429, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.913790 b=-7.348476 dts/dp=[5.567656, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.973204, nextPhis[ 0]=6.009903 prevPhis[ 1]=0.026796, nextPhis[ 1]=-0.009903 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.009903 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.028224 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.019066 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.014485 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.012194 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.011049 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.010476 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.010189 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.603107, 2.782813, -15.297195, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.913089 b=-7.348359 dts/dp=[5.567650, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.973491, nextPhis[ 0]=6.010189 prevPhis[ 1]=0.026509, nextPhis[ 1]=-0.010189 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.010189 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.028510 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.019352 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.014772 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.012481 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.011335 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.010762 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.010476 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602999, 2.782774, -15.296962, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.912389 b=-7.348242 dts/dp=[5.567643, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.973778, nextPhis[ 0]=6.010476 prevPhis[ 1]=0.026222, nextPhis[ 1]=-0.010476 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.010476 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.028796 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.019639 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.015058 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.012767 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.011621 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.011049 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.010762 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602890, 2.782735, -15.296728, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.911688 b=-7.348125 dts/dp=[5.567637, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974065, nextPhis[ 0]=6.010762 prevPhis[ 1]=0.025935, nextPhis[ 1]=-0.010762 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.010762 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.029082 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.019925 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.015344 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.013053 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.011908 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.011335 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.011049 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602781, 2.782696, -15.296495, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.910987 b=-7.348007 dts/dp=[5.567630, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974352, nextPhis[ 0]=6.011049 prevPhis[ 1]=0.025648, nextPhis[ 1]=-0.011049 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.011049 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.029369 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.020211 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.015631 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.013340 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.012194 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.011621 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.011335 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602673, 2.782657, -15.296261, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.910287 b=-7.347890 dts/dp=[5.567624, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974639, nextPhis[ 0]=6.011335 prevPhis[ 1]=0.025361, nextPhis[ 1]=-0.011335 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.011335 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.029655 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.020498 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.015917 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.013626 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.012481 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.011908 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.011621 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602564, 2.782617, -15.296028, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.909586 b=-7.347773 dts/dp=[5.567617, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.974926, nextPhis[ 0]=6.011621 prevPhis[ 1]=0.025074, nextPhis[ 1]=-0.011621 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.011621 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.029941 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.020784 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.016204 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.013913 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.012767 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.012194 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.011908 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602455, 2.782578, -15.295794, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.908886 b=-7.347656 dts/dp=[5.567610, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975213, nextPhis[ 0]=6.011908 prevPhis[ 1]=0.024787, nextPhis[ 1]=-0.011908 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.011908 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.030227 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.021070 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.016490 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.014199 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.013054 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.012481 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.012194 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602346, 2.782539, -15.295561, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.908185 b=-7.347539 dts/dp=[5.567604, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975500, nextPhis[ 0]=6.012194 prevPhis[ 1]=0.024500, nextPhis[ 1]=-0.012194 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.012194 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.030513 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.021357 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.016776 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.014485 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.013340 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.012767 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.012481 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602238, 2.782500, -15.295327, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.907484 b=-7.347421 dts/dp=[5.567597, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.975787, nextPhis[ 0]=6.012481 prevPhis[ 1]=0.024213, nextPhis[ 1]=-0.012481 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.012481 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.030799 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.021643 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.017063 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.014772 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.013626 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.013054 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.012767 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602129, 2.782461, -15.295093, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.906784 b=-7.347304 dts/dp=[5.567591, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976074, nextPhis[ 0]=6.012767 prevPhis[ 1]=0.023926, nextPhis[ 1]=-0.012767 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.012767 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.031085 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.021929 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.017349 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.015058 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.013913 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.013340 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.013054 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.602020, 2.782422, -15.294860, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.906083 b=-7.347187 dts/dp=[5.567584, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976361, nextPhis[ 0]=6.013054 prevPhis[ 1]=0.023639, nextPhis[ 1]=-0.013054 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.013054 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.031372 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.022215 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.017635 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.015345 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.014199 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.013626 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.013340 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601912, 2.782383, -15.294626, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.905383 b=-7.347070 dts/dp=[5.567578, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976648, nextPhis[ 0]=6.013340 prevPhis[ 1]=0.023352, nextPhis[ 1]=-0.013340 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.013340 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.031658 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.022502 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.017922 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.015631 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.014486 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.013913 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.013626 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601803, 2.782344, -15.294393, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.904682 b=-7.346953 dts/dp=[5.567571, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.976935, nextPhis[ 0]=6.013626 prevPhis[ 1]=0.023065, nextPhis[ 1]=-0.013626 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.013626 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.031944 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.022788 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.018208 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.015917 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.014772 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.014199 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.013913 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601694, 2.782305, -15.294159, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.903981 b=-7.346836 dts/dp=[5.567565, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977222, nextPhis[ 0]=6.013913 prevPhis[ 1]=0.022778, nextPhis[ 1]=-0.013913 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.013913 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.032230 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.023074 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.018494 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.016204 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.015058 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.014486 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.014199 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601586, 2.782266, -15.293926, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.903281 b=-7.346718 dts/dp=[5.567558, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977509, nextPhis[ 0]=6.014199 prevPhis[ 1]=0.022491, nextPhis[ 1]=-0.014199 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.014199 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.032516 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.023360 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.018781 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.016490 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.015345 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.014772 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.014486 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601477, 2.782227, -15.293692, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.902580 b=-7.346601 dts/dp=[5.567551, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.977796, nextPhis[ 0]=6.014486 prevPhis[ 1]=0.022204, nextPhis[ 1]=-0.014486 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.014486 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.032802 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.023647 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.019067 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.016776 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.015631 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.015058 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.014772 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601368, 2.782188, -15.293459, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.901880 b=-7.346484 dts/dp=[5.567545, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978083, nextPhis[ 0]=6.014772 prevPhis[ 1]=0.021917, nextPhis[ 1]=-0.014772 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.014772 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.033088 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.023933 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.019353 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.017063 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.015917 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.015345 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.015058 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601260, 2.782149, -15.293225, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.901179 b=-7.346367 dts/dp=[5.567538, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978370, nextPhis[ 0]=6.015058 prevPhis[ 1]=0.021630, nextPhis[ 1]=-0.015058 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.015058 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.033374 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.024219 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.019640 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.017349 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.016204 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.015631 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.015345 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601151, 2.782110, -15.292992, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.900478 b=-7.346250 dts/dp=[5.567532, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978657, nextPhis[ 0]=6.015345 prevPhis[ 1]=0.021343, nextPhis[ 1]=-0.015345 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.015345 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.033660 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.024505 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.019926 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.017636 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.016490 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.015917 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.015631 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.601042, 2.782071, -15.292758, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.899778 b=-7.346132 dts/dp=[5.567525, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.978944, nextPhis[ 0]=6.015631 prevPhis[ 1]=0.021056, nextPhis[ 1]=-0.015631 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.015631 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.033946 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.024792 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.020212 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.017922 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.016777 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.016204 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.015917 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600934, 2.782032, -15.292525, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.899077 b=-7.346015 dts/dp=[5.567519, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979231, nextPhis[ 0]=6.015917 prevPhis[ 1]=0.020769, nextPhis[ 1]=-0.015917 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.015917 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.034233 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.025078 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.020499 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.018208 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.017063 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.016490 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.016204 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600825, 2.781992, -15.292291, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.898377 b=-7.345898 dts/dp=[5.567512, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979518, nextPhis[ 0]=6.016204 prevPhis[ 1]=0.020482, nextPhis[ 1]=-0.016204 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.016204 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.034519 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.025364 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.020785 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.018495 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.017349 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.016777 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.016490 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600716, 2.781953, -15.292058, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.897676 b=-7.345781 dts/dp=[5.567506, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.979805, nextPhis[ 0]=6.016490 prevPhis[ 1]=0.020195, nextPhis[ 1]=-0.016490 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.016490 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.034805 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.025650 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.021071 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.018781 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.017636 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.017063 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.016777 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600608, 2.781914, -15.291824, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.896975 b=-7.345664 dts/dp=[5.567499, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980092, nextPhis[ 0]=6.016777 prevPhis[ 1]=0.019908, nextPhis[ 1]=-0.016777 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.016777 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.035091 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.025936 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.021357 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.019067 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.017922 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.017349 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.017063 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600499, 2.781875, -15.291590, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.896275 b=-7.345546 dts/dp=[5.567492, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980379, nextPhis[ 0]=6.017063 prevPhis[ 1]=0.019621, nextPhis[ 1]=-0.017063 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.017063 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.035377 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.026223 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.021644 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.019353 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.018208 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.017636 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.017349 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600390, 2.781836, -15.291357, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.895574 b=-7.345429 dts/dp=[5.567486, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980665, nextPhis[ 0]=6.017349 prevPhis[ 1]=0.019335, nextPhis[ 1]=-0.017349 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.017349 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.035663 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.026509 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.021930 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.019640 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.018495 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.017922 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.017636 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600282, 2.781797, -15.291123, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.894874 b=-7.345312 dts/dp=[5.567479, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.980952, nextPhis[ 0]=6.017636 prevPhis[ 1]=0.019048, nextPhis[ 1]=-0.017636 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.017636 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.035949 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.026795 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.022216 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.019926 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.018781 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.018208 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.017922 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600173, 2.781758, -15.290890, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.894173 b=-7.345195 dts/dp=[5.567473, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981239, nextPhis[ 0]=6.017922 prevPhis[ 1]=0.018761, nextPhis[ 1]=-0.017922 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.017922 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.036235 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.027081 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.022502 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.020212 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.019067 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.018495 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.018208 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.600064, 2.781719, -15.290656, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.893472 b=-7.345078 dts/dp=[5.567466, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981526, nextPhis[ 0]=6.018208 prevPhis[ 1]=0.018474, nextPhis[ 1]=-0.018208 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.018208 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.036521 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.027367 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.022789 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.020499 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.019354 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.018781 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.018495 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599956, 2.781680, -15.290423, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.892772 b=-7.344961 dts/dp=[5.567460, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.981813, nextPhis[ 0]=6.018495 prevPhis[ 1]=0.018187, nextPhis[ 1]=-0.018495 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.018495 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.036807 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.027654 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.023075 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.020785 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.019640 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.019067 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.018781 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599847, 2.781641, -15.290189, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.892071 b=-7.344843 dts/dp=[5.567453, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982100, nextPhis[ 0]=6.018781 prevPhis[ 1]=0.017900, nextPhis[ 1]=-0.018781 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.018781 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.037093 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.027940 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.023361 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.021071 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.019926 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.019354 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.019067 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599738, 2.781602, -15.289956, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.891370 b=-7.344726 dts/dp=[5.567447, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982387, nextPhis[ 0]=6.019067 prevPhis[ 1]=0.017613, nextPhis[ 1]=-0.019067 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.019067 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.037379 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.028226 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.023647 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.021358 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.020212 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.019640 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.019354 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599630, 2.781563, -15.289722, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.890670 b=-7.344609 dts/dp=[5.567440, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982674, nextPhis[ 0]=6.019354 prevPhis[ 1]=0.017326, nextPhis[ 1]=-0.019354 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.019354 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.037665 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.028512 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.023934 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.021644 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.020499 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.019926 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.019640 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599521, 2.781524, -15.289489, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.889969 b=-7.344492 dts/dp=[5.567433, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.982961, nextPhis[ 0]=6.019640 prevPhis[ 1]=0.017039, nextPhis[ 1]=-0.019640 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.019640 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.037951 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.028798 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.024220 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.021930 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.020785 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.020212 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.019926 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599412, 2.781485, -15.289255, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.889269 b=-7.344375 dts/dp=[5.567427, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983248, nextPhis[ 0]=6.019926 prevPhis[ 1]=0.016752, nextPhis[ 1]=-0.019926 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.019926 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.038237 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.029084 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.024506 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.022216 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.021071 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.020499 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.020212 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599304, 2.781446, -15.289022, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.888568 b=-7.344257 dts/dp=[5.567420, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983535, nextPhis[ 0]=6.020212 prevPhis[ 1]=0.016465, nextPhis[ 1]=-0.020212 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.020212 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.038523 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.029371 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.024792 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.022503 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.021358 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.020785 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.020499 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599195, 2.781407, -15.288788, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.887867 b=-7.344140 dts/dp=[5.567414, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.983821, nextPhis[ 0]=6.020499 prevPhis[ 1]=0.016179, nextPhis[ 1]=-0.020499 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.020499 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.038809 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.029657 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.025079 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.022789 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.021644 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.021071 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.020785 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.599086, 2.781367, -15.288554, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.887167 b=-7.344023 dts/dp=[5.567407, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984108, nextPhis[ 0]=6.020785 prevPhis[ 1]=0.015892, nextPhis[ 1]=-0.020785 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.020785 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.039095 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.029943 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.025365 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.023075 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.021930 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.021358 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.021071 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598978, 2.781328, -15.288321, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.886466 b=-7.343906 dts/dp=[5.567401, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984395, nextPhis[ 0]=6.021071 prevPhis[ 1]=0.015605, nextPhis[ 1]=-0.021071 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.021071 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.039381 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.030229 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.025651 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.023361 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.022216 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.021644 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.021358 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598869, 2.781289, -15.288087, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.885766 b=-7.343789 dts/dp=[5.567394, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984682, nextPhis[ 0]=6.021358 prevPhis[ 1]=0.015318, nextPhis[ 1]=-0.021358 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.021358 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.039667 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.030515 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.025937 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.023648 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.022503 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.021930 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.021644 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598760, 2.781250, -15.287854, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.885065 b=-7.343671 dts/dp=[5.567388, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.984969, nextPhis[ 0]=6.021644 prevPhis[ 1]=0.015031, nextPhis[ 1]=-0.021644 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.021644 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.039953 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.030801 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.026223 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.023934 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.022789 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.022216 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.021930 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598652, 2.781211, -15.287620, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.884364 b=-7.343554 dts/dp=[5.567381, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985256, nextPhis[ 0]=6.021930 prevPhis[ 1]=0.014744, nextPhis[ 1]=-0.021930 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.021930 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.040239 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.031087 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.026510 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.024220 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.023075 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.022503 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.022216 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598543, 2.781172, -15.287387, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.883664 b=-7.343437 dts/dp=[5.567374, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985543, nextPhis[ 0]=6.022216 prevPhis[ 1]=0.014457, nextPhis[ 1]=-0.022216 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.022216 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.040525 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.031374 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.026796 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.024506 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.023361 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.022789 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.022503 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598435, 2.781133, -15.287153, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.882963 b=-7.343320 dts/dp=[5.567368, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.985829, nextPhis[ 0]=6.022503 prevPhis[ 1]=0.014171, nextPhis[ 1]=-0.022503 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.022503 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.040811 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.031660 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.027082 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.024793 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.023648 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.023075 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.022789 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598326, 2.781094, -15.286920, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.882263 b=-7.343203 dts/dp=[5.567361, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986116, nextPhis[ 0]=6.022789 prevPhis[ 1]=0.013884, nextPhis[ 1]=-0.022789 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.022789 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.041097 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.031946 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.027368 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.025079 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.023934 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.023361 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.023075 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598217, 2.781055, -15.286686, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.881562 b=-7.343086 dts/dp=[5.567355, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986403, nextPhis[ 0]=6.023075 prevPhis[ 1]=0.013597, nextPhis[ 1]=-0.023075 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.023075 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.041383 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.032232 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.027654 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.025365 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.024220 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.023648 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.023361 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598109, 2.781016, -15.286453, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.880861 b=-7.342968 dts/dp=[5.567348, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986690, nextPhis[ 0]=6.023361 prevPhis[ 1]=0.013310, nextPhis[ 1]=-0.023361 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.023361 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.041669 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.032518 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.027941 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.025651 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.024506 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.023934 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.023648 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.598000, 2.780977, -15.286219, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.880161 b=-7.342851 dts/dp=[5.567342, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.986977, nextPhis[ 0]=6.023648 prevPhis[ 1]=0.013023, nextPhis[ 1]=-0.023648 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.023648 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.041955 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.032804 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.028227 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.025937 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.024793 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.024220 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.023934 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597891, 2.780938, -15.285986, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.879460 b=-7.342734 dts/dp=[5.567335, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987264, nextPhis[ 0]=6.023934 prevPhis[ 1]=0.012736, nextPhis[ 1]=-0.023934 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.023934 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.042241 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.033090 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.028513 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.026224 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.025079 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.024506 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.024220 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597783, 2.780899, -15.285752, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.878760 b=-7.342617 dts/dp=[5.567328, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987550, nextPhis[ 0]=6.024220 prevPhis[ 1]=0.012450, nextPhis[ 1]=-0.024220 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.024220 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.042527 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.033376 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.028799 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.026510 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.025365 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.024793 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.024506 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597674, 2.780860, -15.285519, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.878059 b=-7.342500 dts/dp=[5.567322, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.987837, nextPhis[ 0]=6.024506 prevPhis[ 1]=0.012163, nextPhis[ 1]=-0.024506 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.024506 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.042813 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.033662 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.029085 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.026796 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.025651 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.025079 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.024793 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597565, 2.780821, -15.285285, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.877358 b=-7.342382 dts/dp=[5.567315, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988124, nextPhis[ 0]=6.024793 prevPhis[ 1]=0.011876, nextPhis[ 1]=-0.024793 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.024793 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.043099 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.033949 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.029371 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.027082 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.025938 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.025365 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.025079 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597457, 2.780782, -15.285051, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.876658 b=-7.342265 dts/dp=[5.567309, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988411, nextPhis[ 0]=6.025079 prevPhis[ 1]=0.011589, nextPhis[ 1]=-0.025079 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.025079 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.043385 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.034235 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.029658 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.027368 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.026224 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.025651 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.025365 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597348, 2.780742, -15.284818, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.875957 b=-7.342148 dts/dp=[5.567302, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988698, nextPhis[ 0]=6.025365 prevPhis[ 1]=0.011302, nextPhis[ 1]=-0.025365 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.025365 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.043671 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.034521 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.029944 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.027655 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.026510 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.025938 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.025651 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597240, 2.780703, -15.284584, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.875257 b=-7.342031 dts/dp=[5.567296, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.988985, nextPhis[ 0]=6.025651 prevPhis[ 1]=0.011015, nextPhis[ 1]=-0.025651 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.025651 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.043956 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.034807 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.030230 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.027941 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.026796 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.026224 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.025938 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597131, 2.780664, -15.284351, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.874556 b=-7.341914 dts/dp=[5.567289, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989271, nextPhis[ 0]=6.025938 prevPhis[ 1]=0.010729, nextPhis[ 1]=-0.025938 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.025938 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.044242 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.035093 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.030516 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.028227 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.027082 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.026510 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.026224 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.597022, 2.780625, -15.284117, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.873855 b=-7.341797 dts/dp=[5.567283, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989558, nextPhis[ 0]=6.026224 prevPhis[ 1]=0.010442, nextPhis[ 1]=-0.026224 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.026224 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.044528 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.035379 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.030802 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.028513 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.027368 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.026796 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.026510 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596914, 2.780586, -15.283884, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.873155 b=-7.341679 dts/dp=[5.567276, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.989845, nextPhis[ 0]=6.026510 prevPhis[ 1]=0.010155, nextPhis[ 1]=-0.026510 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.026510 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.044814 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.035665 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.031088 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.028799 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.027655 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.027082 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.026796 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596805, 2.780547, -15.283650, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.872454 b=-7.341562 dts/dp=[5.567269, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990132, nextPhis[ 0]=6.026796 prevPhis[ 1]=0.009868, nextPhis[ 1]=-0.026796 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.026796 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.045100 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.035951 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.031374 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.029085 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.027941 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.027368 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.027082 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596697, 2.780508, -15.283417, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.871753 b=-7.341445 dts/dp=[5.567263, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990418, nextPhis[ 0]=6.027082 prevPhis[ 1]=0.009582, nextPhis[ 1]=-0.027082 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.027082 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.045386 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.036237 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.031661 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.029372 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.028227 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.027655 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.027368 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596588, 2.780469, -15.283183, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.871053 b=-7.341328 dts/dp=[5.567256, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990705, nextPhis[ 0]=6.027368 prevPhis[ 1]=0.009295, nextPhis[ 1]=-0.027368 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.027368 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.045672 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.036523 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.031947 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.029658 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.028513 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.027941 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.027655 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596479, 2.780430, -15.282950, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.870352 b=-7.341211 dts/dp=[5.567250, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.990992, nextPhis[ 0]=6.027655 prevPhis[ 1]=0.009008, nextPhis[ 1]=-0.027655 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.027655 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.045958 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.036809 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.032233 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.029944 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.028799 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.028227 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.027941 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596371, 2.780391, -15.282716, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.869652 b=-7.341093 dts/dp=[5.567243, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991279, nextPhis[ 0]=6.027941 prevPhis[ 1]=0.008721, nextPhis[ 1]=-0.027941 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.027941 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.046244 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.037095 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.032519 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.030230 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.029086 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.028513 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.028227 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596262, 2.780352, -15.282483, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.868951 b=-7.340976 dts/dp=[5.567237, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991566, nextPhis[ 0]=6.028227 prevPhis[ 1]=0.008434, nextPhis[ 1]=-0.028227 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.028227 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.046530 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.037381 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.032805 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.030516 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.029372 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.028799 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.028513 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596154, 2.780313, -15.282249, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.868250 b=-7.340859 dts/dp=[5.567230, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.991852, nextPhis[ 0]=6.028513 prevPhis[ 1]=0.008148, nextPhis[ 1]=-0.028513 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.028513 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.046815 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.037667 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.033091 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.030802 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.029658 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.029086 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.028799 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.596045, 2.780274, -15.282015, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.867550 b=-7.340742 dts/dp=[5.567223, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992139, nextPhis[ 0]=6.028799 prevPhis[ 1]=0.007861, nextPhis[ 1]=-0.028799 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.028799 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.047101 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.037953 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.033377 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.031088 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.029944 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.029372 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.029086 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595936, 2.780235, -15.281782, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.866849 b=-7.340625 dts/dp=[5.567217, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992426, nextPhis[ 0]=6.029086 prevPhis[ 1]=0.007574, nextPhis[ 1]=-0.029086 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.029086 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.047387 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.038239 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.033663 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.031375 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.030230 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.029658 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.029372 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595828, 2.780196, -15.281548, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.866149 b=-7.340507 dts/dp=[5.567210, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992713, nextPhis[ 0]=6.029372 prevPhis[ 1]=0.007287, nextPhis[ 1]=-0.029372 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.029372 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.047673 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.038525 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.033949 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.031661 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.030516 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.029944 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.029658 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595719, 2.780157, -15.281315, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.865448 b=-7.340390 dts/dp=[5.567204, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.992999, nextPhis[ 0]=6.029658 prevPhis[ 1]=0.007001, nextPhis[ 1]=-0.029658 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.029658 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.047959 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.038811 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.034235 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.031947 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.030802 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.030230 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.029944 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595610, 2.780117, -15.281081, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.864747 b=-7.340273 dts/dp=[5.567197, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993286, nextPhis[ 0]=6.029944 prevPhis[ 1]=0.006714, nextPhis[ 1]=-0.029944 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.029944 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.048245 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.039097 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.034521 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.032233 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.031088 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.030516 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.030230 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595502, 2.780078, -15.280848, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.864047 b=-7.340156 dts/dp=[5.567191, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993573, nextPhis[ 0]=6.030230 prevPhis[ 1]=0.006427, nextPhis[ 1]=-0.030230 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.030230 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.048531 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.039383 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.034808 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.032519 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.031375 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.030802 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.030516 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595393, 2.780039, -15.280614, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.863346 b=-7.340039 dts/dp=[5.567184, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.993859, nextPhis[ 0]=6.030516 prevPhis[ 1]=0.006141, nextPhis[ 1]=-0.030516 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.030516 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.048816 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.039669 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.035094 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.032805 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.031661 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.031089 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.030802 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595285, 2.780000, -15.280381, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.862646 b=-7.339922 dts/dp=[5.567177, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994146, nextPhis[ 0]=6.030802 prevPhis[ 1]=0.005854, nextPhis[ 1]=-0.030802 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.030802 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.049102 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.039955 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.035380 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.033091 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.031947 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.031375 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.031089 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595176, 2.779961, -15.280147, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.861945 b=-7.339804 dts/dp=[5.567171, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994433, nextPhis[ 0]=6.031089 prevPhis[ 1]=0.005567, nextPhis[ 1]=-0.031089 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.031089 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.049388 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.040241 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.035666 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.033377 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.032233 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.031661 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.031375 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.595068, 2.779922, -15.279914, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.861244 b=-7.339687 dts/dp=[5.567164, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.994720, nextPhis[ 0]=6.031375 prevPhis[ 1]=0.005280, nextPhis[ 1]=-0.031375 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.031375 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.049674 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.040527 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.035952 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.033663 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.032519 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.031947 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.031661 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594959, 2.779883, -15.279680, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.860544 b=-7.339570 dts/dp=[5.567158, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995006, nextPhis[ 0]=6.031661 prevPhis[ 1]=0.004994, nextPhis[ 1]=-0.031661 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.031661 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.049960 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.040813 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.036238 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.033949 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.032805 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.032233 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.031947 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594850, 2.779844, -15.279447, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.859843 b=-7.339453 dts/dp=[5.567151, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995293, nextPhis[ 0]=6.031947 prevPhis[ 1]=0.004707, nextPhis[ 1]=-0.031947 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.031947 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.050246 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.041099 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.036524 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.034236 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.033091 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.032519 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.032233 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594742, 2.779805, -15.279213, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.859143 b=-7.339336 dts/dp=[5.567145, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995580, nextPhis[ 0]=6.032233 prevPhis[ 1]=0.004420, nextPhis[ 1]=-0.032233 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.032233 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.050531 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.041385 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.036810 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.034522 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.033377 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.032805 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.032519 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594633, 2.779766, -15.278980, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.858442 b=-7.339218 dts/dp=[5.567138, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.995866, nextPhis[ 0]=6.032519 prevPhis[ 1]=0.004134, nextPhis[ 1]=-0.032519 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.032519 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.050817 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.041671 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.037096 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.034808 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.033663 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.033091 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.032805 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594525, 2.779727, -15.278746, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.857741 b=-7.339101 dts/dp=[5.567131, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996153, nextPhis[ 0]=6.032805 prevPhis[ 1]=0.003847, nextPhis[ 1]=-0.032805 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.032805 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.051103 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.041957 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.037382 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.035094 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.033950 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.033377 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.033091 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594416, 2.779688, -15.278512, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.857041 b=-7.338984 dts/dp=[5.567125, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996440, nextPhis[ 0]=6.033091 prevPhis[ 1]=0.003560, nextPhis[ 1]=-0.033091 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.033091 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.051389 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.042243 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.037668 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.035380 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.034236 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.033663 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.033377 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594307, 2.779649, -15.278279, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.856340 b=-7.338867 dts/dp=[5.567118, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.996726, nextPhis[ 0]=6.033377 prevPhis[ 1]=0.003274, nextPhis[ 1]=-0.033377 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.033377 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.051675 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.042529 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.037954 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.035666 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.034522 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.033950 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.033663 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594199, 2.779610, -15.278045, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.855639 b=-7.338750 dts/dp=[5.567112, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997013, nextPhis[ 0]=6.033663 prevPhis[ 1]=0.002987, nextPhis[ 1]=-0.033663 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.033663 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.051960 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.042815 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.038240 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.035952 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.034808 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.034236 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.033950 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.594090, 2.779571, -15.277812, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.854939 b=-7.338632 dts/dp=[5.567105, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997300, nextPhis[ 0]=6.033950 prevPhis[ 1]=0.002700, nextPhis[ 1]=-0.033950 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.033950 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.052246 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.043101 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.038526 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.036238 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.035094 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.034522 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.034236 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593982, 2.779532, -15.277578, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.854238 b=-7.338515 dts/dp=[5.567099, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997586, nextPhis[ 0]=6.034236 prevPhis[ 1]=0.002414, nextPhis[ 1]=-0.034236 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.034236 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.052532 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.043387 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.038812 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.036524 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.035380 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.034808 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.034522 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593873, 2.779492, -15.277345, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.853538 b=-7.338398 dts/dp=[5.567092, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.997873, nextPhis[ 0]=6.034522 prevPhis[ 1]=0.002127, nextPhis[ 1]=-0.034522 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.034522 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.052818 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.043673 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.039098 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.036810 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.035666 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.035094 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.034808 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593765, 2.779453, -15.277111, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.852837 b=-7.338281 dts/dp=[5.567085, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998160, nextPhis[ 0]=6.034808 prevPhis[ 1]=0.001840, nextPhis[ 1]=-0.034808 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.034808 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.053104 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.043958 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.039384 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.037096 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.035952 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.035380 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.035094 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593656, 2.779414, -15.276878, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.852136 b=-7.338164 dts/dp=[5.567079, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998446, nextPhis[ 0]=6.035094 prevPhis[ 1]=0.001554, nextPhis[ 1]=-0.035094 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.035094 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.053389 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.044244 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.039670 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.037382 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.036238 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.035666 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.035380 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593547, 2.779375, -15.276644, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.851436 b=-7.338047 dts/dp=[5.567072, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.998733, nextPhis[ 0]=6.035380 prevPhis[ 1]=0.001267, nextPhis[ 1]=-0.035380 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.035380 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.053675 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.044530 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.039956 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.037668 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.036524 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.035952 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.035666 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593439, 2.779336, -15.276411, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.850735 b=-7.337929 dts/dp=[5.567066, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999020, nextPhis[ 0]=6.035666 prevPhis[ 1]=0.000980, nextPhis[ 1]=-0.035666 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.035666 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.053961 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.044816 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.040242 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.037954 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.036810 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.036238 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.035952 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593330, 2.779297, -15.276177, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.850035 b=-7.337812 dts/dp=[5.567059, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999306, nextPhis[ 0]=6.035952 prevPhis[ 1]=0.000694, nextPhis[ 1]=-0.035952 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.035952 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.054247 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.045102 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.040528 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.038240 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.037096 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.036524 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.036238 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593222, 2.779258, -15.275944, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.849334 b=-7.337695 dts/dp=[5.567053, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999593, nextPhis[ 0]=6.036238 prevPhis[ 1]=0.000407, nextPhis[ 1]=-0.036238 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.036238 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.054532 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.045388 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.040814 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.038526 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.037382 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.036810 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.036524 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593113, 2.779219, -15.275710, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.848633 b=-7.337578 dts/dp=[5.567046, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=5.999880, nextPhis[ 0]=6.036524 prevPhis[ 1]=0.000120, nextPhis[ 1]=-0.036524 Index of changed phi: 1 <==IsSwitchingOccur() Switching is occured Find switch time for phi[1] it = 0 Test = 36.885000 Phiest = -0.036524 Phiest < 0.0 it = 1 Test = 36.882500 Phiest = -0.054818 Phiest < 0.0 it = 2 Test = 36.881250 Phiest = -0.045674 Phiest < 0.0 it = 3 Test = 36.880625 Phiest = -0.041100 Phiest < 0.0 it = 4 Test = 36.880313 Phiest = -0.038812 Phiest < 0.0 it = 5 Test = 36.880156 Phiest = -0.037668 Phiest < 0.0 it = 6 Test = 36.880078 Phiest = -0.037096 Phiest < 0.0 it = 7 Test = 36.880039 Phiest = -0.036810 Switch time for phi[1] is 36.880039 Index Array size: 1 ==>RecalculateSensIC() AllSensVars:[-0.593005, 2.779180, -15.275476, 5.978497, ] Nx: 2 Np: 1 ==>Calculate_dphi_by_dp() dphi/dp[0]=1.000000 <==Calculate_dphi_by_dp() ==>Calculate_dphi_by_dx() dphi/dx[0]=-3.000000 dphi/dx[1]=-1.000000 <==Calculate_dphi_by_dx() ==>Calculate_dphi_by_dts() dphi/dts=0.000000 <==Calculate_dphi_by_dts() a=40.847933 b=-7.337461 dts/dp=[5.567039, ] ==>CallNLASolverToRecalculateIC() sf obtained pICSolver created pICSolver->Initialize(); <==CallNLASolverToRecalculateIC() T = 36.880000 Tnext = 36.885000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.885000 pESO->GetIndependentVar(): 36.885000 ==>IsSwitchingOccur() prevPhis[ 0]=6.000166, nextPhis[ 0]=6.036810 prevPhis[ 1]=-0.000166, nextPhis[ 1]=-0.036810 <==IsSwitchingOccur() T = 36.885000 Tnext = 36.890000 Time: 3.68850e+01 states: [ -5.79123e-01 2.77418e+00] derivs: [ 2.77395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.890000 pESO->GetIndependentVar(): 36.890000 ==>IsSwitchingOccur() prevPhis[ 0]=6.036810, nextPhis[ 0]=6.073379 prevPhis[ 1]=-0.036810, nextPhis[ 1]=-0.073379 <==IsSwitchingOccur() T = 36.890000 Tnext = 36.895000 Time: 3.68900e+01 states: [ -5.65267e-01 2.76918e+00] derivs: [ 2.76895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.895000 pESO->GetIndependentVar(): 36.895000 ==>IsSwitchingOccur() prevPhis[ 0]=6.073379, nextPhis[ 0]=6.109873 prevPhis[ 1]=-0.073379, nextPhis[ 1]=-0.109873 <==IsSwitchingOccur() T = 36.895000 Tnext = 36.900000 Time: 3.68950e+01 states: [ -5.51436e-01 2.76418e+00] derivs: [ 2.76395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.900000 pESO->GetIndependentVar(): 36.900000 ==>IsSwitchingOccur() prevPhis[ 0]=6.109873, nextPhis[ 0]=6.146292 prevPhis[ 1]=-0.109873, nextPhis[ 1]=-0.146292 <==IsSwitchingOccur() T = 36.900000 Tnext = 36.905000 Time: 3.69000e+01 states: [ -5.37629e-01 2.75918e+00] derivs: [ 2.75895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.905000 pESO->GetIndependentVar(): 36.905000 ==>IsSwitchingOccur() prevPhis[ 0]=6.146292, nextPhis[ 0]=6.182636 prevPhis[ 1]=-0.146292, nextPhis[ 1]=-0.182636 <==IsSwitchingOccur() T = 36.905000 Tnext = 36.910000 Time: 3.69050e+01 states: [ -5.23848e-01 2.75418e+00] derivs: [ 2.75395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.910000 pESO->GetIndependentVar(): 36.910000 ==>IsSwitchingOccur() prevPhis[ 0]=6.182636, nextPhis[ 0]=6.218905 prevPhis[ 1]=-0.182636, nextPhis[ 1]=-0.218905 <==IsSwitchingOccur() T = 36.910000 Tnext = 36.915000 Time: 3.69100e+01 states: [ -5.10092e-01 2.74918e+00] derivs: [ 2.74895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.915000 pESO->GetIndependentVar(): 36.915000 ==>IsSwitchingOccur() prevPhis[ 0]=6.218905, nextPhis[ 0]=6.255099 prevPhis[ 1]=-0.218905, nextPhis[ 1]=-0.255099 <==IsSwitchingOccur() T = 36.915000 Tnext = 36.920000 Time: 3.69150e+01 states: [ -4.96360e-01 2.74418e+00] derivs: [ 2.74395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.920000 pESO->GetIndependentVar(): 36.920000 ==>IsSwitchingOccur() prevPhis[ 0]=6.255099, nextPhis[ 0]=6.291218 prevPhis[ 1]=-0.255099, nextPhis[ 1]=-0.291218 <==IsSwitchingOccur() T = 36.920000 Tnext = 36.925000 Time: 3.69200e+01 states: [ -4.82654e-01 2.73918e+00] derivs: [ 2.73895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.925000 pESO->GetIndependentVar(): 36.925000 ==>IsSwitchingOccur() prevPhis[ 0]=6.291218, nextPhis[ 0]=6.327261 prevPhis[ 1]=-0.291218, nextPhis[ 1]=-0.327261 <==IsSwitchingOccur() T = 36.925000 Tnext = 36.930000 Time: 3.69250e+01 states: [ -4.68973e-01 2.73418e+00] derivs: [ 2.73395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.930000 pESO->GetIndependentVar(): 36.930000 ==>IsSwitchingOccur() prevPhis[ 0]=6.327261, nextPhis[ 0]=6.363230 prevPhis[ 1]=-0.327261, nextPhis[ 1]=-0.363230 <==IsSwitchingOccur() T = 36.930000 Tnext = 36.935000 Time: 3.69300e+01 states: [ -4.55317e-01 2.72918e+00] derivs: [ 2.72895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.935000 pESO->GetIndependentVar(): 36.935000 ==>IsSwitchingOccur() prevPhis[ 0]=6.363230, nextPhis[ 0]=6.399124 prevPhis[ 1]=-0.363230, nextPhis[ 1]=-0.399124 <==IsSwitchingOccur() T = 36.935000 Tnext = 36.940000 Time: 3.69350e+01 states: [ -4.41685e-01 2.72418e+00] derivs: [ 2.72395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.940000 pESO->GetIndependentVar(): 36.940000 ==>IsSwitchingOccur() prevPhis[ 0]=6.399124, nextPhis[ 0]=6.434943 prevPhis[ 1]=-0.399124, nextPhis[ 1]=-0.434943 <==IsSwitchingOccur() T = 36.940000 Tnext = 36.945000 Time: 3.69400e+01 states: [ -4.28079e-01 2.71918e+00] derivs: [ 2.71895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.945000 pESO->GetIndependentVar(): 36.945000 ==>IsSwitchingOccur() prevPhis[ 0]=6.434943, nextPhis[ 0]=6.470687 prevPhis[ 1]=-0.434943, nextPhis[ 1]=-0.470687 <==IsSwitchingOccur() T = 36.945000 Tnext = 36.950000 Time: 3.69450e+01 states: [ -4.14498e-01 2.71418e+00] derivs: [ 2.71395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.950000 pESO->GetIndependentVar(): 36.950000 ==>IsSwitchingOccur() prevPhis[ 0]=6.470687, nextPhis[ 0]=6.506356 prevPhis[ 1]=-0.470687, nextPhis[ 1]=-0.506356 <==IsSwitchingOccur() T = 36.950000 Tnext = 36.955000 Time: 3.69500e+01 states: [ -4.00941e-01 2.70918e+00] derivs: [ 2.70895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.955000 pESO->GetIndependentVar(): 36.955000 ==>IsSwitchingOccur() prevPhis[ 0]=6.506356, nextPhis[ 0]=6.541950 prevPhis[ 1]=-0.506356, nextPhis[ 1]=-0.541950 <==IsSwitchingOccur() T = 36.955000 Tnext = 36.960000 Time: 3.69550e+01 states: [ -3.87410e-01 2.70418e+00] derivs: [ 2.70395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.960000 pESO->GetIndependentVar(): 36.960000 ==>IsSwitchingOccur() prevPhis[ 0]=6.541950, nextPhis[ 0]=6.577469 prevPhis[ 1]=-0.541950, nextPhis[ 1]=-0.577469 <==IsSwitchingOccur() T = 36.960000 Tnext = 36.965000 Time: 3.69600e+01 states: [ -3.73904e-01 2.69918e+00] derivs: [ 2.69895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.965000 pESO->GetIndependentVar(): 36.965000 ==>IsSwitchingOccur() prevPhis[ 0]=6.577469, nextPhis[ 0]=6.612913 prevPhis[ 1]=-0.577469, nextPhis[ 1]=-0.612913 <==IsSwitchingOccur() T = 36.965000 Tnext = 36.970000 Time: 3.69650e+01 states: [ -3.60422e-01 2.69418e+00] derivs: [ 2.69395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.970000 pESO->GetIndependentVar(): 36.970000 ==>IsSwitchingOccur() prevPhis[ 0]=6.612913, nextPhis[ 0]=6.648282 prevPhis[ 1]=-0.612913, nextPhis[ 1]=-0.648282 <==IsSwitchingOccur() T = 36.970000 Tnext = 36.975000 Time: 3.69700e+01 states: [ -3.46966e-01 2.68918e+00] derivs: [ 2.68895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.975000 pESO->GetIndependentVar(): 36.975000 ==>IsSwitchingOccur() prevPhis[ 0]=6.648282, nextPhis[ 0]=6.683576 prevPhis[ 1]=-0.648282, nextPhis[ 1]=-0.683576 <==IsSwitchingOccur() T = 36.975000 Tnext = 36.980000 Time: 3.69750e+01 states: [ -3.33535e-01 2.68418e+00] derivs: [ 2.68395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.980000 pESO->GetIndependentVar(): 36.980000 ==>IsSwitchingOccur() prevPhis[ 0]=6.683576, nextPhis[ 0]=6.718795 prevPhis[ 1]=-0.683576, nextPhis[ 1]=-0.718795 <==IsSwitchingOccur() T = 36.980000 Tnext = 36.985000 Time: 3.69800e+01 states: [ -3.20128e-01 2.67918e+00] derivs: [ 2.67895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.985000 pESO->GetIndependentVar(): 36.985000 ==>IsSwitchingOccur() prevPhis[ 0]=6.718795, nextPhis[ 0]=6.753939 prevPhis[ 1]=-0.718795, nextPhis[ 1]=-0.753939 <==IsSwitchingOccur() T = 36.985000 Tnext = 36.990000 Time: 3.69850e+01 states: [ -3.06747e-01 2.67418e+00] derivs: [ 2.67395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.990000 pESO->GetIndependentVar(): 36.990000 ==>IsSwitchingOccur() prevPhis[ 0]=6.753939, nextPhis[ 0]=6.789007 prevPhis[ 1]=-0.753939, nextPhis[ 1]=-0.789007 <==IsSwitchingOccur() T = 36.990000 Tnext = 36.995000 Time: 3.69900e+01 states: [ -2.93391e-01 2.66918e+00] derivs: [ 2.66895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 36.995000 pESO->GetIndependentVar(): 36.995000 ==>IsSwitchingOccur() prevPhis[ 0]=6.789007, nextPhis[ 0]=6.824001 prevPhis[ 1]=-0.789007, nextPhis[ 1]=-0.824001 <==IsSwitchingOccur() T = 36.995000 Tnext = 37.000000 Time: 3.69950e+01 states: [ -2.80060e-01 2.66418e+00] derivs: [ 2.66395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.000000 pESO->GetIndependentVar(): 37.000000 ==>IsSwitchingOccur() prevPhis[ 0]=6.824001, nextPhis[ 0]=6.858920 prevPhis[ 1]=-0.824001, nextPhis[ 1]=-0.858920 <==IsSwitchingOccur() T = 37.000000 Tnext = 37.005000 Time: 3.70000e+01 states: [ -2.66753e-01 2.65918e+00] derivs: [ 2.65895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.005000 pESO->GetIndependentVar(): 37.005000 ==>IsSwitchingOccur() prevPhis[ 0]=6.858920, nextPhis[ 0]=6.893764 prevPhis[ 1]=-0.858920, nextPhis[ 1]=-0.893764 <==IsSwitchingOccur() T = 37.005000 Tnext = 37.010000 Time: 3.70050e+01 states: [ -2.53472e-01 2.65418e+00] derivs: [ 2.65395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.010000 pESO->GetIndependentVar(): 37.010000 ==>IsSwitchingOccur() prevPhis[ 0]=6.893764, nextPhis[ 0]=6.928533 prevPhis[ 1]=-0.893764, nextPhis[ 1]=-0.928533 <==IsSwitchingOccur() T = 37.010000 Tnext = 37.015000 Time: 3.70100e+01 states: [ -2.40216e-01 2.64918e+00] derivs: [ 2.64895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.015000 pESO->GetIndependentVar(): 37.015000 ==>IsSwitchingOccur() prevPhis[ 0]=6.928533, nextPhis[ 0]=6.963227 prevPhis[ 1]=-0.928533, nextPhis[ 1]=-0.963227 <==IsSwitchingOccur() T = 37.015000 Tnext = 37.020000 Time: 3.70150e+01 states: [ -2.26984e-01 2.64418e+00] derivs: [ 2.64395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.020000 pESO->GetIndependentVar(): 37.020000 ==>IsSwitchingOccur() prevPhis[ 0]=6.963227, nextPhis[ 0]=6.997846 prevPhis[ 1]=-0.963227, nextPhis[ 1]=-0.997846 <==IsSwitchingOccur() T = 37.020000 Tnext = 37.025000 Time: 3.70200e+01 states: [ -2.13778e-01 2.63918e+00] derivs: [ 2.63895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.025000 pESO->GetIndependentVar(): 37.025000 ==>IsSwitchingOccur() prevPhis[ 0]=6.997846, nextPhis[ 0]=7.032390 prevPhis[ 1]=-0.997846, nextPhis[ 1]=-1.032390 <==IsSwitchingOccur() T = 37.025000 Tnext = 37.030000 Time: 3.70250e+01 states: [ -2.00597e-01 2.63418e+00] derivs: [ 2.63395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.030000 pESO->GetIndependentVar(): 37.030000 ==>IsSwitchingOccur() prevPhis[ 0]=7.032390, nextPhis[ 0]=7.066859 prevPhis[ 1]=-1.032390, nextPhis[ 1]=-1.066859 <==IsSwitchingOccur() T = 37.030000 Tnext = 37.035000 Time: 3.70300e+01 states: [ -1.87440e-01 2.62918e+00] derivs: [ 2.62895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.035000 pESO->GetIndependentVar(): 37.035000 ==>IsSwitchingOccur() prevPhis[ 0]=7.066859, nextPhis[ 0]=7.101253 prevPhis[ 1]=-1.066859, nextPhis[ 1]=-1.101253 <==IsSwitchingOccur() T = 37.035000 Tnext = 37.040000 Time: 3.70350e+01 states: [ -1.74309e-01 2.62418e+00] derivs: [ 2.62395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.040000 pESO->GetIndependentVar(): 37.040000 ==>IsSwitchingOccur() prevPhis[ 0]=7.101253, nextPhis[ 0]=7.135572 prevPhis[ 1]=-1.101253, nextPhis[ 1]=-1.135572 <==IsSwitchingOccur() T = 37.040000 Tnext = 37.045000 Time: 3.70400e+01 states: [ -1.61203e-01 2.61918e+00] derivs: [ 2.61895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.045000 pESO->GetIndependentVar(): 37.045000 ==>IsSwitchingOccur() prevPhis[ 0]=7.135572, nextPhis[ 0]=7.169816 prevPhis[ 1]=-1.135572, nextPhis[ 1]=-1.169816 <==IsSwitchingOccur() T = 37.045000 Tnext = 37.050000 Time: 3.70450e+01 states: [ -1.48121e-01 2.61418e+00] derivs: [ 2.61395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.050000 pESO->GetIndependentVar(): 37.050000 ==>IsSwitchingOccur() prevPhis[ 0]=7.169816, nextPhis[ 0]=7.203984 prevPhis[ 1]=-1.169816, nextPhis[ 1]=-1.203984 <==IsSwitchingOccur() T = 37.050000 Tnext = 37.055000 Time: 3.70500e+01 states: [ -1.35065e-01 2.60918e+00] derivs: [ 2.60895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.055000 pESO->GetIndependentVar(): 37.055000 ==>IsSwitchingOccur() prevPhis[ 0]=7.203984, nextPhis[ 0]=7.238078 prevPhis[ 1]=-1.203984, nextPhis[ 1]=-1.238078 <==IsSwitchingOccur() T = 37.055000 Tnext = 37.060000 Time: 3.70550e+01 states: [ -1.22034e-01 2.60418e+00] derivs: [ 2.60395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.060000 pESO->GetIndependentVar(): 37.060000 ==>IsSwitchingOccur() prevPhis[ 0]=7.238078, nextPhis[ 0]=7.272097 prevPhis[ 1]=-1.238078, nextPhis[ 1]=-1.272097 <==IsSwitchingOccur() T = 37.060000 Tnext = 37.065000 Time: 3.70600e+01 states: [ -1.09028e-01 2.59918e+00] derivs: [ 2.59895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.065000 pESO->GetIndependentVar(): 37.065000 ==>IsSwitchingOccur() prevPhis[ 0]=7.272097, nextPhis[ 0]=7.306041 prevPhis[ 1]=-1.272097, nextPhis[ 1]=-1.306041 <==IsSwitchingOccur() T = 37.065000 Tnext = 37.070000 Time: 3.70650e+01 states: [ -9.60462e-02 2.59418e+00] derivs: [ 2.59395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.070000 pESO->GetIndependentVar(): 37.070000 ==>IsSwitchingOccur() prevPhis[ 0]=7.306041, nextPhis[ 0]=7.339910 prevPhis[ 1]=-1.306041, nextPhis[ 1]=-1.339910 <==IsSwitchingOccur() T = 37.070000 Tnext = 37.075000 Time: 3.70700e+01 states: [ -8.30899e-02 2.58918e+00] derivs: [ 2.58895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.075000 pESO->GetIndependentVar(): 37.075000 ==>IsSwitchingOccur() prevPhis[ 0]=7.339910, nextPhis[ 0]=7.373704 prevPhis[ 1]=-1.339910, nextPhis[ 1]=-1.373704 <==IsSwitchingOccur() T = 37.075000 Tnext = 37.080000 Time: 3.70750e+01 states: [ -7.01586e-02 2.58418e+00] derivs: [ 2.58395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.080000 pESO->GetIndependentVar(): 37.080000 ==>IsSwitchingOccur() prevPhis[ 0]=7.373704, nextPhis[ 0]=7.407423 prevPhis[ 1]=-1.373704, nextPhis[ 1]=-1.407423 <==IsSwitchingOccur() T = 37.080000 Tnext = 37.085000 Time: 3.70800e+01 states: [ -5.72523e-02 2.57918e+00] derivs: [ 2.57895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.085000 pESO->GetIndependentVar(): 37.085000 ==>IsSwitchingOccur() prevPhis[ 0]=7.407423, nextPhis[ 0]=7.441067 prevPhis[ 1]=-1.407423, nextPhis[ 1]=-1.441067 <==IsSwitchingOccur() T = 37.085000 Tnext = 37.090000 Time: 3.70850e+01 states: [ -4.43710e-02 2.57418e+00] derivs: [ 2.57395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.090000 pESO->GetIndependentVar(): 37.090000 ==>IsSwitchingOccur() prevPhis[ 0]=7.441067, nextPhis[ 0]=7.474636 prevPhis[ 1]=-1.441067, nextPhis[ 1]=-1.474636 <==IsSwitchingOccur() T = 37.090000 Tnext = 37.095000 Time: 3.70900e+01 states: [ -3.15147e-02 2.56918e+00] derivs: [ 2.56895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.095000 pESO->GetIndependentVar(): 37.095000 ==>IsSwitchingOccur() prevPhis[ 0]=7.474636, nextPhis[ 0]=7.508130 prevPhis[ 1]=-1.474636, nextPhis[ 1]=-1.508130 <==IsSwitchingOccur() T = 37.095000 Tnext = 37.100000 Time: 3.70950e+01 states: [ -1.86835e-02 2.56418e+00] derivs: [ 2.56368e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.100000 pESO->GetIndependentVar(): 37.100000 ==>IsSwitchingOccur() prevPhis[ 0]=7.508130, nextPhis[ 0]=7.541548 prevPhis[ 1]=-1.508130, nextPhis[ 1]=-1.541548 <==IsSwitchingOccur() T = 37.100000 Tnext = 37.105000 Time: 3.71000e+01 states: [ -5.87726e-03 2.55918e+00] derivs: [ 2.55868e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.105000 pESO->GetIndependentVar(): 37.105000 ==>IsSwitchingOccur() prevPhis[ 0]=7.541548, nextPhis[ 0]=7.574892 prevPhis[ 1]=-1.541548, nextPhis[ 1]=-1.574892 <==IsSwitchingOccur() T = 37.105000 Tnext = 37.110000 Time: 3.71050e+01 states: [ 6.90397e-03 2.55418e+00] derivs: [ 2.55368e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.110000 pESO->GetIndependentVar(): 37.110000 ==>IsSwitchingOccur() prevPhis[ 0]=7.574892, nextPhis[ 0]=7.608161 prevPhis[ 1]=-1.574892, nextPhis[ 1]=-1.608161 <==IsSwitchingOccur() T = 37.110000 Tnext = 37.115000 Time: 3.71100e+01 states: [ 1.96602e-02 2.54918e+00] derivs: [ 2.54868e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.115000 pESO->GetIndependentVar(): 37.115000 ==>IsSwitchingOccur() prevPhis[ 0]=7.608161, nextPhis[ 0]=7.641354 prevPhis[ 1]=-1.608161, nextPhis[ 1]=-1.641354 <==IsSwitchingOccur() T = 37.115000 Tnext = 37.120000 Time: 3.71150e+01 states: [ 3.23914e-02 2.54418e+00] derivs: [ 2.54368e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.120000 pESO->GetIndependentVar(): 37.120000 ==>IsSwitchingOccur() prevPhis[ 0]=7.641354, nextPhis[ 0]=7.674473 prevPhis[ 1]=-1.641354, nextPhis[ 1]=-1.674473 <==IsSwitchingOccur() T = 37.120000 Tnext = 37.125000 Time: 3.71200e+01 states: [ 4.50977e-02 2.53918e+00] derivs: [ 2.53868e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.125000 pESO->GetIndependentVar(): 37.125000 ==>IsSwitchingOccur() prevPhis[ 0]=7.674473, nextPhis[ 0]=7.707517 prevPhis[ 1]=-1.674473, nextPhis[ 1]=-1.707517 <==IsSwitchingOccur() T = 37.125000 Tnext = 37.130000 Time: 3.71250e+01 states: [ 5.77790e-02 2.53418e+00] derivs: [ 2.53395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.130000 pESO->GetIndependentVar(): 37.130000 ==>IsSwitchingOccur() prevPhis[ 0]=7.707517, nextPhis[ 0]=7.740486 prevPhis[ 1]=-1.707517, nextPhis[ 1]=-1.740486 <==IsSwitchingOccur() T = 37.130000 Tnext = 37.135000 Time: 3.71300e+01 states: [ 7.04353e-02 2.52918e+00] derivs: [ 2.52895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.135000 pESO->GetIndependentVar(): 37.135000 ==>IsSwitchingOccur() prevPhis[ 0]=7.740486, nextPhis[ 0]=7.773380 prevPhis[ 1]=-1.740486, nextPhis[ 1]=-1.773380 <==IsSwitchingOccur() T = 37.135000 Tnext = 37.140000 Time: 3.71350e+01 states: [ 8.30666e-02 2.52418e+00] derivs: [ 2.52395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.140000 pESO->GetIndependentVar(): 37.140000 ==>IsSwitchingOccur() prevPhis[ 0]=7.773380, nextPhis[ 0]=7.806199 prevPhis[ 1]=-1.773380, nextPhis[ 1]=-1.806199 <==IsSwitchingOccur() T = 37.140000 Tnext = 37.145000 Time: 3.71400e+01 states: [ 9.56729e-02 2.51918e+00] derivs: [ 2.51895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.145000 pESO->GetIndependentVar(): 37.145000 ==>IsSwitchingOccur() prevPhis[ 0]=7.806199, nextPhis[ 0]=7.838943 prevPhis[ 1]=-1.806199, nextPhis[ 1]=-1.838943 <==IsSwitchingOccur() T = 37.145000 Tnext = 37.150000 Time: 3.71450e+01 states: [ 1.08254e-01 2.51418e+00] derivs: [ 2.51395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.150000 pESO->GetIndependentVar(): 37.150000 ==>IsSwitchingOccur() prevPhis[ 0]=7.838943, nextPhis[ 0]=7.871611 prevPhis[ 1]=-1.838943, nextPhis[ 1]=-1.871611 <==IsSwitchingOccur() T = 37.150000 Tnext = 37.155000 Time: 3.71500e+01 states: [ 1.20810e-01 2.50918e+00] derivs: [ 2.50895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.155000 pESO->GetIndependentVar(): 37.155000 ==>IsSwitchingOccur() prevPhis[ 0]=7.871611, nextPhis[ 0]=7.904205 prevPhis[ 1]=-1.871611, nextPhis[ 1]=-1.904205 <==IsSwitchingOccur() T = 37.155000 Tnext = 37.160000 Time: 3.71550e+01 states: [ 1.33342e-01 2.50418e+00] derivs: [ 2.50395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.160000 pESO->GetIndependentVar(): 37.160000 ==>IsSwitchingOccur() prevPhis[ 0]=7.904205, nextPhis[ 0]=7.936724 prevPhis[ 1]=-1.904205, nextPhis[ 1]=-1.936724 <==IsSwitchingOccur() T = 37.160000 Tnext = 37.165000 Time: 3.71600e+01 states: [ 1.45848e-01 2.49918e+00] derivs: [ 2.49895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.165000 pESO->GetIndependentVar(): 37.165000 ==>IsSwitchingOccur() prevPhis[ 0]=7.936724, nextPhis[ 0]=7.969168 prevPhis[ 1]=-1.936724, nextPhis[ 1]=-1.969168 <==IsSwitchingOccur() T = 37.165000 Tnext = 37.170000 Time: 3.71650e+01 states: [ 1.58329e-01 2.49418e+00] derivs: [ 2.49395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.170000 pESO->GetIndependentVar(): 37.170000 ==>IsSwitchingOccur() prevPhis[ 0]=7.969168, nextPhis[ 0]=8.001537 prevPhis[ 1]=-1.969168, nextPhis[ 1]=-2.001537 <==IsSwitchingOccur() T = 37.170000 Tnext = 37.175000 Time: 3.71700e+01 states: [ 1.70786e-01 2.48918e+00] derivs: [ 2.48895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.175000 pESO->GetIndependentVar(): 37.175000 ==>IsSwitchingOccur() prevPhis[ 0]=8.001537, nextPhis[ 0]=8.033831 prevPhis[ 1]=-2.001537, nextPhis[ 1]=-2.033831 <==IsSwitchingOccur() T = 37.175000 Tnext = 37.180000 Time: 3.71750e+01 states: [ 1.83217e-01 2.48418e+00] derivs: [ 2.48395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.180000 pESO->GetIndependentVar(): 37.180000 ==>IsSwitchingOccur() prevPhis[ 0]=8.033831, nextPhis[ 0]=8.066050 prevPhis[ 1]=-2.033831, nextPhis[ 1]=-2.066050 <==IsSwitchingOccur() T = 37.180000 Tnext = 37.185000 Time: 3.71800e+01 states: [ 1.95623e-01 2.47918e+00] derivs: [ 2.47895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.185000 pESO->GetIndependentVar(): 37.185000 ==>IsSwitchingOccur() prevPhis[ 0]=8.066050, nextPhis[ 0]=8.098194 prevPhis[ 1]=-2.066050, nextPhis[ 1]=-2.098194 <==IsSwitchingOccur() T = 37.185000 Tnext = 37.190000 Time: 3.71850e+01 states: [ 2.08005e-01 2.47418e+00] derivs: [ 2.47395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.190000 pESO->GetIndependentVar(): 37.190000 ==>IsSwitchingOccur() prevPhis[ 0]=8.098194, nextPhis[ 0]=8.130263 prevPhis[ 1]=-2.098194, nextPhis[ 1]=-2.130263 <==IsSwitchingOccur() T = 37.190000 Tnext = 37.195000 Time: 3.71900e+01 states: [ 2.20361e-01 2.46918e+00] derivs: [ 2.46895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.195000 pESO->GetIndependentVar(): 37.195000 ==>IsSwitchingOccur() prevPhis[ 0]=8.130263, nextPhis[ 0]=8.162257 prevPhis[ 1]=-2.130263, nextPhis[ 1]=-2.162257 <==IsSwitchingOccur() T = 37.195000 Tnext = 37.200000 Time: 3.71950e+01 states: [ 2.32692e-01 2.46418e+00] derivs: [ 2.46395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.200000 pESO->GetIndependentVar(): 37.200000 ==>IsSwitchingOccur() prevPhis[ 0]=8.162257, nextPhis[ 0]=8.194176 prevPhis[ 1]=-2.162257, nextPhis[ 1]=-2.194176 <==IsSwitchingOccur() T = 37.200000 Tnext = 37.205000 Time: 3.72000e+01 states: [ 2.44999e-01 2.45918e+00] derivs: [ 2.45895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.205000 pESO->GetIndependentVar(): 37.205000 ==>IsSwitchingOccur() prevPhis[ 0]=8.194176, nextPhis[ 0]=8.226020 prevPhis[ 1]=-2.194176, nextPhis[ 1]=-2.226020 <==IsSwitchingOccur() T = 37.205000 Tnext = 37.210000 Time: 3.72050e+01 states: [ 2.57280e-01 2.45418e+00] derivs: [ 2.45395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.210000 pESO->GetIndependentVar(): 37.210000 ==>IsSwitchingOccur() prevPhis[ 0]=8.226020, nextPhis[ 0]=8.257789 prevPhis[ 1]=-2.226020, nextPhis[ 1]=-2.257789 <==IsSwitchingOccur() T = 37.210000 Tnext = 37.215000 Time: 3.72100e+01 states: [ 2.69536e-01 2.44918e+00] derivs: [ 2.44895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.215000 pESO->GetIndependentVar(): 37.215000 ==>IsSwitchingOccur() prevPhis[ 0]=8.257789, nextPhis[ 0]=8.289482 prevPhis[ 1]=-2.257789, nextPhis[ 1]=-2.289482 <==IsSwitchingOccur() T = 37.215000 Tnext = 37.220000 Time: 3.72150e+01 states: [ 2.81767e-01 2.44418e+00] derivs: [ 2.44395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.220000 pESO->GetIndependentVar(): 37.220000 ==>IsSwitchingOccur() prevPhis[ 0]=8.289482, nextPhis[ 0]=8.321101 prevPhis[ 1]=-2.289482, nextPhis[ 1]=-2.321101 <==IsSwitchingOccur() T = 37.220000 Tnext = 37.225000 Time: 3.72200e+01 states: [ 2.93974e-01 2.43918e+00] derivs: [ 2.43895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.225000 pESO->GetIndependentVar(): 37.225000 ==>IsSwitchingOccur() prevPhis[ 0]=8.321101, nextPhis[ 0]=8.352645 prevPhis[ 1]=-2.321101, nextPhis[ 1]=-2.352645 <==IsSwitchingOccur() T = 37.225000 Tnext = 37.230000 Time: 3.72250e+01 states: [ 3.06155e-01 2.43418e+00] derivs: [ 2.43395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.230000 pESO->GetIndependentVar(): 37.230000 ==>IsSwitchingOccur() prevPhis[ 0]=8.352645, nextPhis[ 0]=8.384114 prevPhis[ 1]=-2.352645, nextPhis[ 1]=-2.384114 <==IsSwitchingOccur() T = 37.230000 Tnext = 37.235000 Time: 3.72300e+01 states: [ 3.18311e-01 2.42918e+00] derivs: [ 2.42895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.235000 pESO->GetIndependentVar(): 37.235000 ==>IsSwitchingOccur() prevPhis[ 0]=8.384114, nextPhis[ 0]=8.415508 prevPhis[ 1]=-2.384114, nextPhis[ 1]=-2.415508 <==IsSwitchingOccur() T = 37.235000 Tnext = 37.240000 Time: 3.72350e+01 states: [ 3.30443e-01 2.42418e+00] derivs: [ 2.42395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.240000 pESO->GetIndependentVar(): 37.240000 ==>IsSwitchingOccur() prevPhis[ 0]=8.415508, nextPhis[ 0]=8.446827 prevPhis[ 1]=-2.415508, nextPhis[ 1]=-2.446827 <==IsSwitchingOccur() T = 37.240000 Tnext = 37.245000 Time: 3.72400e+01 states: [ 3.42549e-01 2.41918e+00] derivs: [ 2.41895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.245000 pESO->GetIndependentVar(): 37.245000 ==>IsSwitchingOccur() prevPhis[ 0]=8.446827, nextPhis[ 0]=8.478071 prevPhis[ 1]=-2.446827, nextPhis[ 1]=-2.478071 <==IsSwitchingOccur() T = 37.245000 Tnext = 37.250000 Time: 3.72450e+01 states: [ 3.54630e-01 2.41418e+00] derivs: [ 2.41395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.250000 pESO->GetIndependentVar(): 37.250000 ==>IsSwitchingOccur() prevPhis[ 0]=8.478071, nextPhis[ 0]=8.509240 prevPhis[ 1]=-2.478071, nextPhis[ 1]=-2.509240 <==IsSwitchingOccur() T = 37.250000 Tnext = 37.255000 Time: 3.72500e+01 states: [ 3.66687e-01 2.40918e+00] derivs: [ 2.40895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.255000 pESO->GetIndependentVar(): 37.255000 ==>IsSwitchingOccur() prevPhis[ 0]=8.509240, nextPhis[ 0]=8.540334 prevPhis[ 1]=-2.509240, nextPhis[ 1]=-2.540334 <==IsSwitchingOccur() T = 37.255000 Tnext = 37.260000 Time: 3.72550e+01 states: [ 3.78718e-01 2.40418e+00] derivs: [ 2.40395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.260000 pESO->GetIndependentVar(): 37.260000 ==>IsSwitchingOccur() prevPhis[ 0]=8.540334, nextPhis[ 0]=8.571353 prevPhis[ 1]=-2.540334, nextPhis[ 1]=-2.571353 <==IsSwitchingOccur() T = 37.260000 Tnext = 37.265000 Time: 3.72600e+01 states: [ 3.90724e-01 2.39918e+00] derivs: [ 2.39895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.265000 pESO->GetIndependentVar(): 37.265000 ==>IsSwitchingOccur() prevPhis[ 0]=8.571353, nextPhis[ 0]=8.602297 prevPhis[ 1]=-2.571353, nextPhis[ 1]=-2.602297 <==IsSwitchingOccur() T = 37.265000 Tnext = 37.270000 Time: 3.72650e+01 states: [ 4.02706e-01 2.39418e+00] derivs: [ 2.39395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.270000 pESO->GetIndependentVar(): 37.270000 ==>IsSwitchingOccur() prevPhis[ 0]=8.602297, nextPhis[ 0]=8.633166 prevPhis[ 1]=-2.602297, nextPhis[ 1]=-2.633166 <==IsSwitchingOccur() T = 37.270000 Tnext = 37.275000 Time: 3.72700e+01 states: [ 4.14662e-01 2.38918e+00] derivs: [ 2.38895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.275000 pESO->GetIndependentVar(): 37.275000 ==>IsSwitchingOccur() prevPhis[ 0]=8.633166, nextPhis[ 0]=8.663960 prevPhis[ 1]=-2.633166, nextPhis[ 1]=-2.663960 <==IsSwitchingOccur() T = 37.275000 Tnext = 37.280000 Time: 3.72750e+01 states: [ 4.26593e-01 2.38418e+00] derivs: [ 2.38395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.280000 pESO->GetIndependentVar(): 37.280000 ==>IsSwitchingOccur() prevPhis[ 0]=8.663960, nextPhis[ 0]=8.694678 prevPhis[ 1]=-2.663960, nextPhis[ 1]=-2.694678 <==IsSwitchingOccur() T = 37.280000 Tnext = 37.285000 Time: 3.72800e+01 states: [ 4.38499e-01 2.37918e+00] derivs: [ 2.37895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.285000 pESO->GetIndependentVar(): 37.285000 ==>IsSwitchingOccur() prevPhis[ 0]=8.694678, nextPhis[ 0]=8.725322 prevPhis[ 1]=-2.694678, nextPhis[ 1]=-2.725322 <==IsSwitchingOccur() T = 37.285000 Tnext = 37.290000 Time: 3.72850e+01 states: [ 4.50381e-01 2.37418e+00] derivs: [ 2.37395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.290000 pESO->GetIndependentVar(): 37.290000 ==>IsSwitchingOccur() prevPhis[ 0]=8.725322, nextPhis[ 0]=8.755891 prevPhis[ 1]=-2.725322, nextPhis[ 1]=-2.755891 <==IsSwitchingOccur() T = 37.290000 Tnext = 37.295000 Time: 3.72900e+01 states: [ 4.62237e-01 2.36918e+00] derivs: [ 2.36895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.295000 pESO->GetIndependentVar(): 37.295000 ==>IsSwitchingOccur() prevPhis[ 0]=8.755891, nextPhis[ 0]=8.786385 prevPhis[ 1]=-2.755891, nextPhis[ 1]=-2.786385 <==IsSwitchingOccur() T = 37.295000 Tnext = 37.300000 Time: 3.72950e+01 states: [ 4.74068e-01 2.36418e+00] derivs: [ 2.36395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.300000 pESO->GetIndependentVar(): 37.300000 ==>IsSwitchingOccur() prevPhis[ 0]=8.786385, nextPhis[ 0]=8.816804 prevPhis[ 1]=-2.786385, nextPhis[ 1]=-2.816804 <==IsSwitchingOccur() T = 37.300000 Tnext = 37.305000 Time: 3.73000e+01 states: [ 4.85875e-01 2.35918e+00] derivs: [ 2.35895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.305000 pESO->GetIndependentVar(): 37.305000 ==>IsSwitchingOccur() prevPhis[ 0]=8.816804, nextPhis[ 0]=8.847148 prevPhis[ 1]=-2.816804, nextPhis[ 1]=-2.847148 <==IsSwitchingOccur() T = 37.305000 Tnext = 37.310000 Time: 3.73050e+01 states: [ 4.97656e-01 2.35418e+00] derivs: [ 2.35395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.310000 pESO->GetIndependentVar(): 37.310000 ==>IsSwitchingOccur() prevPhis[ 0]=8.847148, nextPhis[ 0]=8.877417 prevPhis[ 1]=-2.847148, nextPhis[ 1]=-2.877417 <==IsSwitchingOccur() T = 37.310000 Tnext = 37.315000 Time: 3.73100e+01 states: [ 5.09412e-01 2.34918e+00] derivs: [ 2.34895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.315000 pESO->GetIndependentVar(): 37.315000 ==>IsSwitchingOccur() prevPhis[ 0]=8.877417, nextPhis[ 0]=8.907611 prevPhis[ 1]=-2.877417, nextPhis[ 1]=-2.907611 <==IsSwitchingOccur() T = 37.315000 Tnext = 37.320000 Time: 3.73150e+01 states: [ 5.21144e-01 2.34418e+00] derivs: [ 2.34395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.320000 pESO->GetIndependentVar(): 37.320000 ==>IsSwitchingOccur() prevPhis[ 0]=8.907611, nextPhis[ 0]=8.937730 prevPhis[ 1]=-2.907611, nextPhis[ 1]=-2.937730 <==IsSwitchingOccur() T = 37.320000 Tnext = 37.325000 Time: 3.73200e+01 states: [ 5.32850e-01 2.33918e+00] derivs: [ 2.33895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.325000 pESO->GetIndependentVar(): 37.325000 ==>IsSwitchingOccur() prevPhis[ 0]=8.937730, nextPhis[ 0]=8.967774 prevPhis[ 1]=-2.937730, nextPhis[ 1]=-2.967774 <==IsSwitchingOccur() T = 37.325000 Tnext = 37.330000 Time: 3.73250e+01 states: [ 5.44531e-01 2.33418e+00] derivs: [ 2.33395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.330000 pESO->GetIndependentVar(): 37.330000 ==>IsSwitchingOccur() prevPhis[ 0]=8.967774, nextPhis[ 0]=8.997743 prevPhis[ 1]=-2.967774, nextPhis[ 1]=-2.997743 <==IsSwitchingOccur() T = 37.330000 Tnext = 37.335000 Time: 3.73300e+01 states: [ 5.56188e-01 2.32918e+00] derivs: [ 2.32895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.335000 pESO->GetIndependentVar(): 37.335000 ==>IsSwitchingOccur() prevPhis[ 0]=8.997743, nextPhis[ 0]=9.027637 prevPhis[ 1]=-2.997743, nextPhis[ 1]=-3.027637 <==IsSwitchingOccur() T = 37.335000 Tnext = 37.340000 Time: 3.73350e+01 states: [ 5.67819e-01 2.32418e+00] derivs: [ 2.32395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.340000 pESO->GetIndependentVar(): 37.340000 ==>IsSwitchingOccur() prevPhis[ 0]=9.027637, nextPhis[ 0]=9.057456 prevPhis[ 1]=-3.027637, nextPhis[ 1]=-3.057456 <==IsSwitchingOccur() T = 37.340000 Tnext = 37.345000 Time: 3.73400e+01 states: [ 5.79425e-01 2.31918e+00] derivs: [ 2.31895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.345000 pESO->GetIndependentVar(): 37.345000 ==>IsSwitchingOccur() prevPhis[ 0]=9.057456, nextPhis[ 0]=9.087199 prevPhis[ 1]=-3.057456, nextPhis[ 1]=-3.087199 <==IsSwitchingOccur() T = 37.345000 Tnext = 37.350000 Time: 3.73450e+01 states: [ 5.91006e-01 2.31418e+00] derivs: [ 2.31395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.350000 pESO->GetIndependentVar(): 37.350000 ==>IsSwitchingOccur() prevPhis[ 0]=9.087199, nextPhis[ 0]=9.116868 prevPhis[ 1]=-3.087199, nextPhis[ 1]=-3.116868 <==IsSwitchingOccur() T = 37.350000 Tnext = 37.355000 Time: 3.73500e+01 states: [ 6.02563e-01 2.30918e+00] derivs: [ 2.30895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.355000 pESO->GetIndependentVar(): 37.355000 ==>IsSwitchingOccur() prevPhis[ 0]=9.116868, nextPhis[ 0]=9.146462 prevPhis[ 1]=-3.116868, nextPhis[ 1]=-3.146462 <==IsSwitchingOccur() T = 37.355000 Tnext = 37.360000 Time: 3.73550e+01 states: [ 6.14094e-01 2.30418e+00] derivs: [ 2.30395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.360000 pESO->GetIndependentVar(): 37.360000 ==>IsSwitchingOccur() prevPhis[ 0]=9.146462, nextPhis[ 0]=9.175981 prevPhis[ 1]=-3.146462, nextPhis[ 1]=-3.175981 <==IsSwitchingOccur() T = 37.360000 Tnext = 37.365000 Time: 3.73600e+01 states: [ 6.25600e-01 2.29918e+00] derivs: [ 2.29895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.365000 pESO->GetIndependentVar(): 37.365000 ==>IsSwitchingOccur() prevPhis[ 0]=9.175981, nextPhis[ 0]=9.205425 prevPhis[ 1]=-3.175981, nextPhis[ 1]=-3.205425 <==IsSwitchingOccur() T = 37.365000 Tnext = 37.370000 Time: 3.73650e+01 states: [ 6.37082e-01 2.29418e+00] derivs: [ 2.29395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.370000 pESO->GetIndependentVar(): 37.370000 ==>IsSwitchingOccur() prevPhis[ 0]=9.205425, nextPhis[ 0]=9.234794 prevPhis[ 1]=-3.205425, nextPhis[ 1]=-3.234794 <==IsSwitchingOccur() T = 37.370000 Tnext = 37.375000 Time: 3.73700e+01 states: [ 6.48538e-01 2.28918e+00] derivs: [ 2.28895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.375000 pESO->GetIndependentVar(): 37.375000 ==>IsSwitchingOccur() prevPhis[ 0]=9.234794, nextPhis[ 0]=9.264088 prevPhis[ 1]=-3.234794, nextPhis[ 1]=-3.264088 <==IsSwitchingOccur() T = 37.375000 Tnext = 37.380000 Time: 3.73750e+01 states: [ 6.59969e-01 2.28418e+00] derivs: [ 2.28395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.380000 pESO->GetIndependentVar(): 37.380000 ==>IsSwitchingOccur() prevPhis[ 0]=9.264088, nextPhis[ 0]=9.293307 prevPhis[ 1]=-3.264088, nextPhis[ 1]=-3.293307 <==IsSwitchingOccur() T = 37.380000 Tnext = 37.385000 Time: 3.73800e+01 states: [ 6.71376e-01 2.27918e+00] derivs: [ 2.27895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.385000 pESO->GetIndependentVar(): 37.385000 ==>IsSwitchingOccur() prevPhis[ 0]=9.293307, nextPhis[ 0]=9.322451 prevPhis[ 1]=-3.293307, nextPhis[ 1]=-3.322451 <==IsSwitchingOccur() T = 37.385000 Tnext = 37.390000 Time: 3.73850e+01 states: [ 6.82757e-01 2.27418e+00] derivs: [ 2.27395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.390000 pESO->GetIndependentVar(): 37.390000 ==>IsSwitchingOccur() prevPhis[ 0]=9.322451, nextPhis[ 0]=9.351520 prevPhis[ 1]=-3.322451, nextPhis[ 1]=-3.351520 <==IsSwitchingOccur() T = 37.390000 Tnext = 37.395000 Time: 3.73900e+01 states: [ 6.94113e-01 2.26918e+00] derivs: [ 2.26895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.395000 pESO->GetIndependentVar(): 37.395000 ==>IsSwitchingOccur() prevPhis[ 0]=9.351520, nextPhis[ 0]=9.380514 prevPhis[ 1]=-3.351520, nextPhis[ 1]=-3.380514 <==IsSwitchingOccur() T = 37.395000 Tnext = 37.400000 Time: 3.73950e+01 states: [ 7.05445e-01 2.26418e+00] derivs: [ 2.26395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.400000 pESO->GetIndependentVar(): 37.400000 ==>IsSwitchingOccur() prevPhis[ 0]=9.380514, nextPhis[ 0]=9.409433 prevPhis[ 1]=-3.380514, nextPhis[ 1]=-3.409433 <==IsSwitchingOccur() T = 37.400000 Tnext = 37.405000 Time: 3.74000e+01 states: [ 7.16751e-01 2.25918e+00] derivs: [ 2.25895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.405000 pESO->GetIndependentVar(): 37.405000 ==>IsSwitchingOccur() prevPhis[ 0]=9.409433, nextPhis[ 0]=9.438277 prevPhis[ 1]=-3.409433, nextPhis[ 1]=-3.438277 <==IsSwitchingOccur() T = 37.405000 Tnext = 37.410000 Time: 3.74050e+01 states: [ 7.28032e-01 2.25418e+00] derivs: [ 2.25395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.410000 pESO->GetIndependentVar(): 37.410000 ==>IsSwitchingOccur() prevPhis[ 0]=9.438277, nextPhis[ 0]=9.467045 prevPhis[ 1]=-3.438277, nextPhis[ 1]=-3.467045 <==IsSwitchingOccur() T = 37.410000 Tnext = 37.415000 Time: 3.74100e+01 states: [ 7.39288e-01 2.24918e+00] derivs: [ 2.24895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.415000 pESO->GetIndependentVar(): 37.415000 ==>IsSwitchingOccur() prevPhis[ 0]=9.467045, nextPhis[ 0]=9.495739 prevPhis[ 1]=-3.467045, nextPhis[ 1]=-3.495739 <==IsSwitchingOccur() T = 37.415000 Tnext = 37.420000 Time: 3.74150e+01 states: [ 7.50520e-01 2.24418e+00] derivs: [ 2.24395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.420000 pESO->GetIndependentVar(): 37.420000 ==>IsSwitchingOccur() prevPhis[ 0]=9.495739, nextPhis[ 0]=9.524358 prevPhis[ 1]=-3.495739, nextPhis[ 1]=-3.524358 <==IsSwitchingOccur() T = 37.420000 Tnext = 37.425000 Time: 3.74200e+01 states: [ 7.61726e-01 2.23918e+00] derivs: [ 2.23895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.425000 pESO->GetIndependentVar(): 37.425000 ==>IsSwitchingOccur() prevPhis[ 0]=9.524358, nextPhis[ 0]=9.552902 prevPhis[ 1]=-3.524358, nextPhis[ 1]=-3.552902 <==IsSwitchingOccur() T = 37.425000 Tnext = 37.430000 Time: 3.74250e+01 states: [ 7.72907e-01 2.23418e+00] derivs: [ 2.23395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.430000 pESO->GetIndependentVar(): 37.430000 ==>IsSwitchingOccur() prevPhis[ 0]=9.552902, nextPhis[ 0]=9.581371 prevPhis[ 1]=-3.552902, nextPhis[ 1]=-3.581371 <==IsSwitchingOccur() T = 37.430000 Tnext = 37.435000 Time: 3.74300e+01 states: [ 7.84064e-01 2.22918e+00] derivs: [ 2.22895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.435000 pESO->GetIndependentVar(): 37.435000 ==>IsSwitchingOccur() prevPhis[ 0]=9.581371, nextPhis[ 0]=9.609765 prevPhis[ 1]=-3.581371, nextPhis[ 1]=-3.609765 <==IsSwitchingOccur() T = 37.435000 Tnext = 37.440000 Time: 3.74350e+01 states: [ 7.95195e-01 2.22418e+00] derivs: [ 2.22395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.440000 pESO->GetIndependentVar(): 37.440000 ==>IsSwitchingOccur() prevPhis[ 0]=9.609765, nextPhis[ 0]=9.638084 prevPhis[ 1]=-3.609765, nextPhis[ 1]=-3.638084 <==IsSwitchingOccur() T = 37.440000 Tnext = 37.445000 Time: 3.74400e+01 states: [ 8.06301e-01 2.21918e+00] derivs: [ 2.21895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.445000 pESO->GetIndependentVar(): 37.445000 ==>IsSwitchingOccur() prevPhis[ 0]=9.638084, nextPhis[ 0]=9.666328 prevPhis[ 1]=-3.638084, nextPhis[ 1]=-3.666328 <==IsSwitchingOccur() T = 37.445000 Tnext = 37.450000 Time: 3.74450e+01 states: [ 8.17383e-01 2.21418e+00] derivs: [ 2.21395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.450000 pESO->GetIndependentVar(): 37.450000 ==>IsSwitchingOccur() prevPhis[ 0]=9.666328, nextPhis[ 0]=9.694497 prevPhis[ 1]=-3.666328, nextPhis[ 1]=-3.694497 <==IsSwitchingOccur() T = 37.450000 Tnext = 37.455000 Time: 3.74500e+01 states: [ 8.28439e-01 2.20918e+00] derivs: [ 2.20895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.455000 pESO->GetIndependentVar(): 37.455000 ==>IsSwitchingOccur() prevPhis[ 0]=9.694497, nextPhis[ 0]=9.722591 prevPhis[ 1]=-3.694497, nextPhis[ 1]=-3.722591 <==IsSwitchingOccur() T = 37.455000 Tnext = 37.460000 Time: 3.74550e+01 states: [ 8.39470e-01 2.20418e+00] derivs: [ 2.20395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.460000 pESO->GetIndependentVar(): 37.460000 ==>IsSwitchingOccur() prevPhis[ 0]=9.722591, nextPhis[ 0]=9.750610 prevPhis[ 1]=-3.722591, nextPhis[ 1]=-3.750610 <==IsSwitchingOccur() T = 37.460000 Tnext = 37.465000 Time: 3.74600e+01 states: [ 8.50477e-01 2.19918e+00] derivs: [ 2.19895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.465000 pESO->GetIndependentVar(): 37.465000 ==>IsSwitchingOccur() prevPhis[ 0]=9.750610, nextPhis[ 0]=9.778554 prevPhis[ 1]=-3.750610, nextPhis[ 1]=-3.778554 <==IsSwitchingOccur() T = 37.465000 Tnext = 37.470000 Time: 3.74650e+01 states: [ 8.61458e-01 2.19418e+00] derivs: [ 2.19395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.470000 pESO->GetIndependentVar(): 37.470000 ==>IsSwitchingOccur() prevPhis[ 0]=9.778554, nextPhis[ 0]=9.806423 prevPhis[ 1]=-3.778554, nextPhis[ 1]=-3.806423 <==IsSwitchingOccur() T = 37.470000 Tnext = 37.475000 Time: 3.74700e+01 states: [ 8.72414e-01 2.18918e+00] derivs: [ 2.18895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.475000 pESO->GetIndependentVar(): 37.475000 ==>IsSwitchingOccur() prevPhis[ 0]=9.806423, nextPhis[ 0]=9.834216 prevPhis[ 1]=-3.806423, nextPhis[ 1]=-3.834216 <==IsSwitchingOccur() T = 37.475000 Tnext = 37.480000 Time: 3.74750e+01 states: [ 8.83345e-01 2.18418e+00] derivs: [ 2.18395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.480000 pESO->GetIndependentVar(): 37.480000 ==>IsSwitchingOccur() prevPhis[ 0]=9.834216, nextPhis[ 0]=9.861935 prevPhis[ 1]=-3.834216, nextPhis[ 1]=-3.861935 <==IsSwitchingOccur() T = 37.480000 Tnext = 37.485000 Time: 3.74800e+01 states: [ 8.94252e-01 2.17918e+00] derivs: [ 2.17895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.485000 pESO->GetIndependentVar(): 37.485000 ==>IsSwitchingOccur() prevPhis[ 0]=9.861935, nextPhis[ 0]=9.889579 prevPhis[ 1]=-3.861935, nextPhis[ 1]=-3.889579 <==IsSwitchingOccur() T = 37.485000 Tnext = 37.490000 Time: 3.74850e+01 states: [ 9.05133e-01 2.17418e+00] derivs: [ 2.17395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.490000 pESO->GetIndependentVar(): 37.490000 ==>IsSwitchingOccur() prevPhis[ 0]=9.889579, nextPhis[ 0]=9.917148 prevPhis[ 1]=-3.889579, nextPhis[ 1]=-3.917148 <==IsSwitchingOccur() T = 37.490000 Tnext = 37.495000 Time: 3.74900e+01 states: [ 9.15989e-01 2.16918e+00] derivs: [ 2.16895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.495000 pESO->GetIndependentVar(): 37.495000 ==>IsSwitchingOccur() prevPhis[ 0]=9.917148, nextPhis[ 0]=9.944642 prevPhis[ 1]=-3.917148, nextPhis[ 1]=-3.944642 <==IsSwitchingOccur() T = 37.495000 Tnext = 37.500000 Time: 3.74950e+01 states: [ 9.26821e-01 2.16418e+00] derivs: [ 2.16395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.500000 pESO->GetIndependentVar(): 37.500000 ==>IsSwitchingOccur() prevPhis[ 0]=9.944642, nextPhis[ 0]=9.972061 prevPhis[ 1]=-3.944642, nextPhis[ 1]=-3.972061 <==IsSwitchingOccur() T = 37.500000 Tnext = 37.505000 Time: 3.75000e+01 states: [ 9.37627e-01 2.15918e+00] derivs: [ 2.15895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.505000 pESO->GetIndependentVar(): 37.505000 ==>IsSwitchingOccur() prevPhis[ 0]=9.972061, nextPhis[ 0]=9.999405 prevPhis[ 1]=-3.972061, nextPhis[ 1]=-3.999405 <==IsSwitchingOccur() T = 37.505000 Tnext = 37.510000 Time: 3.75050e+01 states: [ 9.48408e-01 2.15418e+00] derivs: [ 2.15395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.510000 pESO->GetIndependentVar(): 37.510000 ==>IsSwitchingOccur() prevPhis[ 0]=9.999405, nextPhis[ 0]=10.026674 prevPhis[ 1]=-3.999405, nextPhis[ 1]=-4.026674 <==IsSwitchingOccur() T = 37.510000 Tnext = 37.515000 Time: 3.75100e+01 states: [ 9.59165e-01 2.14918e+00] derivs: [ 2.14895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.515000 pESO->GetIndependentVar(): 37.515000 ==>IsSwitchingOccur() prevPhis[ 0]=10.026674, nextPhis[ 0]=10.053868 prevPhis[ 1]=-4.026674, nextPhis[ 1]=-4.053868 <==IsSwitchingOccur() T = 37.515000 Tnext = 37.520000 Time: 3.75150e+01 states: [ 9.69896e-01 2.14418e+00] derivs: [ 2.14395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.520000 pESO->GetIndependentVar(): 37.520000 ==>IsSwitchingOccur() prevPhis[ 0]=10.053868, nextPhis[ 0]=10.080987 prevPhis[ 1]=-4.053868, nextPhis[ 1]=-4.080987 <==IsSwitchingOccur() T = 37.520000 Tnext = 37.525000 Time: 3.75200e+01 states: [ 9.80602e-01 2.13918e+00] derivs: [ 2.13895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.525000 pESO->GetIndependentVar(): 37.525000 ==>IsSwitchingOccur() prevPhis[ 0]=10.080987, nextPhis[ 0]=10.108031 prevPhis[ 1]=-4.080987, nextPhis[ 1]=-4.108031 <==IsSwitchingOccur() T = 37.525000 Tnext = 37.530000 Time: 3.75250e+01 states: [ 9.91284e-01 2.13418e+00] derivs: [ 2.13395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.530000 pESO->GetIndependentVar(): 37.530000 ==>IsSwitchingOccur() prevPhis[ 0]=10.108031, nextPhis[ 0]=10.135000 prevPhis[ 1]=-4.108031, nextPhis[ 1]=-4.135000 <==IsSwitchingOccur() T = 37.530000 Tnext = 37.535000 Time: 3.75300e+01 states: [ 1.00194e+00 2.12918e+00] derivs: [ 2.12895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.535000 pESO->GetIndependentVar(): 37.535000 ==>IsSwitchingOccur() prevPhis[ 0]=10.135000, nextPhis[ 0]=10.161894 prevPhis[ 1]=-4.135000, nextPhis[ 1]=-4.161894 <==IsSwitchingOccur() T = 37.535000 Tnext = 37.540000 Time: 3.75350e+01 states: [ 1.01257e+00 2.12418e+00] derivs: [ 2.12395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.540000 pESO->GetIndependentVar(): 37.540000 ==>IsSwitchingOccur() prevPhis[ 0]=10.161894, nextPhis[ 0]=10.188712 prevPhis[ 1]=-4.161894, nextPhis[ 1]=-4.188712 <==IsSwitchingOccur() T = 37.540000 Tnext = 37.545000 Time: 3.75400e+01 states: [ 1.02318e+00 2.11918e+00] derivs: [ 2.11895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.545000 pESO->GetIndependentVar(): 37.545000 ==>IsSwitchingOccur() prevPhis[ 0]=10.188712, nextPhis[ 0]=10.215456 prevPhis[ 1]=-4.188712, nextPhis[ 1]=-4.215456 <==IsSwitchingOccur() T = 37.545000 Tnext = 37.550000 Time: 3.75450e+01 states: [ 1.03376e+00 2.11418e+00] derivs: [ 2.11395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.550000 pESO->GetIndependentVar(): 37.550000 ==>IsSwitchingOccur() prevPhis[ 0]=10.215456, nextPhis[ 0]=10.242125 prevPhis[ 1]=-4.215456, nextPhis[ 1]=-4.242125 <==IsSwitchingOccur() T = 37.550000 Tnext = 37.555000 Time: 3.75500e+01 states: [ 1.04432e+00 2.10918e+00] derivs: [ 2.10895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.555000 pESO->GetIndependentVar(): 37.555000 ==>IsSwitchingOccur() prevPhis[ 0]=10.242125, nextPhis[ 0]=10.268719 prevPhis[ 1]=-4.242125, nextPhis[ 1]=-4.268719 <==IsSwitchingOccur() T = 37.555000 Tnext = 37.560000 Time: 3.75550e+01 states: [ 1.05485e+00 2.10418e+00] derivs: [ 2.10395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.560000 pESO->GetIndependentVar(): 37.560000 ==>IsSwitchingOccur() prevPhis[ 0]=10.268719, nextPhis[ 0]=10.295238 prevPhis[ 1]=-4.268719, nextPhis[ 1]=-4.295238 <==IsSwitchingOccur() T = 37.560000 Tnext = 37.565000 Time: 3.75600e+01 states: [ 1.06535e+00 2.09918e+00] derivs: [ 2.09895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.565000 pESO->GetIndependentVar(): 37.565000 ==>IsSwitchingOccur() prevPhis[ 0]=10.295238, nextPhis[ 0]=10.321682 prevPhis[ 1]=-4.295238, nextPhis[ 1]=-4.321682 <==IsSwitchingOccur() T = 37.565000 Tnext = 37.570000 Time: 3.75650e+01 states: [ 1.07583e+00 2.09418e+00] derivs: [ 2.09395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.570000 pESO->GetIndependentVar(): 37.570000 ==>IsSwitchingOccur() prevPhis[ 0]=10.321682, nextPhis[ 0]=10.348051 prevPhis[ 1]=-4.321682, nextPhis[ 1]=-4.348051 <==IsSwitchingOccur() T = 37.570000 Tnext = 37.575000 Time: 3.75700e+01 states: [ 1.08629e+00 2.08918e+00] derivs: [ 2.08895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.575000 pESO->GetIndependentVar(): 37.575000 ==>IsSwitchingOccur() prevPhis[ 0]=10.348051, nextPhis[ 0]=10.374345 prevPhis[ 1]=-4.348051, nextPhis[ 1]=-4.374345 <==IsSwitchingOccur() T = 37.575000 Tnext = 37.580000 Time: 3.75750e+01 states: [ 1.09672e+00 2.08418e+00] derivs: [ 2.08395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.580000 pESO->GetIndependentVar(): 37.580000 ==>IsSwitchingOccur() prevPhis[ 0]=10.374345, nextPhis[ 0]=10.400564 prevPhis[ 1]=-4.374345, nextPhis[ 1]=-4.400564 <==IsSwitchingOccur() T = 37.580000 Tnext = 37.585000 Time: 3.75800e+01 states: [ 1.10713e+00 2.07918e+00] derivs: [ 2.07895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.585000 pESO->GetIndependentVar(): 37.585000 ==>IsSwitchingOccur() prevPhis[ 0]=10.400564, nextPhis[ 0]=10.426708 prevPhis[ 1]=-4.400564, nextPhis[ 1]=-4.426708 <==IsSwitchingOccur() T = 37.585000 Tnext = 37.590000 Time: 3.75850e+01 states: [ 1.11751e+00 2.07418e+00] derivs: [ 2.07395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.590000 pESO->GetIndependentVar(): 37.590000 ==>IsSwitchingOccur() prevPhis[ 0]=10.426708, nextPhis[ 0]=10.452777 prevPhis[ 1]=-4.426708, nextPhis[ 1]=-4.452777 <==IsSwitchingOccur() T = 37.590000 Tnext = 37.595000 Time: 3.75900e+01 states: [ 1.12787e+00 2.06918e+00] derivs: [ 2.06895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.595000 pESO->GetIndependentVar(): 37.595000 ==>IsSwitchingOccur() prevPhis[ 0]=10.452777, nextPhis[ 0]=10.478771 prevPhis[ 1]=-4.452777, nextPhis[ 1]=-4.478771 <==IsSwitchingOccur() T = 37.595000 Tnext = 37.600000 Time: 3.75950e+01 states: [ 1.13820e+00 2.06418e+00] derivs: [ 2.06395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.600000 pESO->GetIndependentVar(): 37.600000 ==>IsSwitchingOccur() prevPhis[ 0]=10.478771, nextPhis[ 0]=10.504690 prevPhis[ 1]=-4.478771, nextPhis[ 1]=-4.504690 <==IsSwitchingOccur() T = 37.600000 Tnext = 37.605000 Time: 3.76000e+01 states: [ 1.14850e+00 2.05918e+00] derivs: [ 2.05895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.605000 pESO->GetIndependentVar(): 37.605000 ==>IsSwitchingOccur() prevPhis[ 0]=10.504690, nextPhis[ 0]=10.530533 prevPhis[ 1]=-4.504690, nextPhis[ 1]=-4.530533 <==IsSwitchingOccur() T = 37.605000 Tnext = 37.610000 Time: 3.76050e+01 states: [ 1.15878e+00 2.05418e+00] derivs: [ 2.05395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.610000 pESO->GetIndependentVar(): 37.610000 ==>IsSwitchingOccur() prevPhis[ 0]=10.530533, nextPhis[ 0]=10.556302 prevPhis[ 1]=-4.530533, nextPhis[ 1]=-4.556302 <==IsSwitchingOccur() T = 37.610000 Tnext = 37.615000 Time: 3.76100e+01 states: [ 1.16904e+00 2.04918e+00] derivs: [ 2.04895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.615000 pESO->GetIndependentVar(): 37.615000 ==>IsSwitchingOccur() prevPhis[ 0]=10.556302, nextPhis[ 0]=10.581996 prevPhis[ 1]=-4.556302, nextPhis[ 1]=-4.581996 <==IsSwitchingOccur() T = 37.615000 Tnext = 37.620000 Time: 3.76150e+01 states: [ 1.17927e+00 2.04418e+00] derivs: [ 2.04395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.620000 pESO->GetIndependentVar(): 37.620000 ==>IsSwitchingOccur() prevPhis[ 0]=10.581996, nextPhis[ 0]=10.607615 prevPhis[ 1]=-4.581996, nextPhis[ 1]=-4.607615 <==IsSwitchingOccur() T = 37.620000 Tnext = 37.625000 Time: 3.76200e+01 states: [ 1.18948e+00 2.03918e+00] derivs: [ 2.03895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.625000 pESO->GetIndependentVar(): 37.625000 ==>IsSwitchingOccur() prevPhis[ 0]=10.607615, nextPhis[ 0]=10.633159 prevPhis[ 1]=-4.607615, nextPhis[ 1]=-4.633159 <==IsSwitchingOccur() T = 37.625000 Tnext = 37.630000 Time: 3.76250e+01 states: [ 1.19966e+00 2.03418e+00] derivs: [ 2.03395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.630000 pESO->GetIndependentVar(): 37.630000 ==>IsSwitchingOccur() prevPhis[ 0]=10.633159, nextPhis[ 0]=10.658628 prevPhis[ 1]=-4.633159, nextPhis[ 1]=-4.658628 <==IsSwitchingOccur() T = 37.630000 Tnext = 37.635000 Time: 3.76300e+01 states: [ 1.20982e+00 2.02918e+00] derivs: [ 2.02895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.635000 pESO->GetIndependentVar(): 37.635000 ==>IsSwitchingOccur() prevPhis[ 0]=10.658628, nextPhis[ 0]=10.684022 prevPhis[ 1]=-4.658628, nextPhis[ 1]=-4.684022 <==IsSwitchingOccur() T = 37.635000 Tnext = 37.640000 Time: 3.76350e+01 states: [ 1.21995e+00 2.02418e+00] derivs: [ 2.02395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.640000 pESO->GetIndependentVar(): 37.640000 ==>IsSwitchingOccur() prevPhis[ 0]=10.684022, nextPhis[ 0]=10.709341 prevPhis[ 1]=-4.684022, nextPhis[ 1]=-4.709341 <==IsSwitchingOccur() T = 37.640000 Tnext = 37.645000 Time: 3.76400e+01 states: [ 1.23005e+00 2.01918e+00] derivs: [ 2.01895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.645000 pESO->GetIndependentVar(): 37.645000 ==>IsSwitchingOccur() prevPhis[ 0]=10.709341, nextPhis[ 0]=10.734585 prevPhis[ 1]=-4.709341, nextPhis[ 1]=-4.734585 <==IsSwitchingOccur() T = 37.645000 Tnext = 37.650000 Time: 3.76450e+01 states: [ 1.24013e+00 2.01418e+00] derivs: [ 2.01395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.650000 pESO->GetIndependentVar(): 37.650000 ==>IsSwitchingOccur() prevPhis[ 0]=10.734585, nextPhis[ 0]=10.759754 prevPhis[ 1]=-4.734585, nextPhis[ 1]=-4.759754 <==IsSwitchingOccur() T = 37.650000 Tnext = 37.655000 Time: 3.76500e+01 states: [ 1.25019e+00 2.00918e+00] derivs: [ 2.00895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.655000 pESO->GetIndependentVar(): 37.655000 ==>IsSwitchingOccur() prevPhis[ 0]=10.759754, nextPhis[ 0]=10.784848 prevPhis[ 1]=-4.759754, nextPhis[ 1]=-4.784848 <==IsSwitchingOccur() T = 37.655000 Tnext = 37.660000 Time: 3.76550e+01 states: [ 1.26022e+00 2.00418e+00] derivs: [ 2.00395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.660000 pESO->GetIndependentVar(): 37.660000 ==>IsSwitchingOccur() prevPhis[ 0]=10.784848, nextPhis[ 0]=10.809867 prevPhis[ 1]=-4.784848, nextPhis[ 1]=-4.809867 <==IsSwitchingOccur() T = 37.660000 Tnext = 37.665000 Time: 3.76600e+01 states: [ 1.27023e+00 1.99918e+00] derivs: [ 1.99895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.665000 pESO->GetIndependentVar(): 37.665000 ==>IsSwitchingOccur() prevPhis[ 0]=10.809867, nextPhis[ 0]=10.834811 prevPhis[ 1]=-4.809867, nextPhis[ 1]=-4.834811 <==IsSwitchingOccur() T = 37.665000 Tnext = 37.670000 Time: 3.76650e+01 states: [ 1.28021e+00 1.99418e+00] derivs: [ 1.99395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.670000 pESO->GetIndependentVar(): 37.670000 ==>IsSwitchingOccur() prevPhis[ 0]=10.834811, nextPhis[ 0]=10.859680 prevPhis[ 1]=-4.834811, nextPhis[ 1]=-4.859680 <==IsSwitchingOccur() T = 37.670000 Tnext = 37.675000 Time: 3.76700e+01 states: [ 1.29017e+00 1.98918e+00] derivs: [ 1.98895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.675000 pESO->GetIndependentVar(): 37.675000 ==>IsSwitchingOccur() prevPhis[ 0]=10.859680, nextPhis[ 0]=10.884473 prevPhis[ 1]=-4.859680, nextPhis[ 1]=-4.884473 <==IsSwitchingOccur() T = 37.675000 Tnext = 37.680000 Time: 3.76750e+01 states: [ 1.30010e+00 1.98418e+00] derivs: [ 1.98395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.680000 pESO->GetIndependentVar(): 37.680000 ==>IsSwitchingOccur() prevPhis[ 0]=10.884473, nextPhis[ 0]=10.909192 prevPhis[ 1]=-4.884473, nextPhis[ 1]=-4.909192 <==IsSwitchingOccur() T = 37.680000 Tnext = 37.685000 Time: 3.76800e+01 states: [ 1.31000e+00 1.97918e+00] derivs: [ 1.97895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.685000 pESO->GetIndependentVar(): 37.685000 ==>IsSwitchingOccur() prevPhis[ 0]=10.909192, nextPhis[ 0]=10.933836 prevPhis[ 1]=-4.909192, nextPhis[ 1]=-4.933836 <==IsSwitchingOccur() T = 37.685000 Tnext = 37.690000 Time: 3.76850e+01 states: [ 1.31989e+00 1.97418e+00] derivs: [ 1.97395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.690000 pESO->GetIndependentVar(): 37.690000 ==>IsSwitchingOccur() prevPhis[ 0]=10.933836, nextPhis[ 0]=10.958405 prevPhis[ 1]=-4.933836, nextPhis[ 1]=-4.958405 <==IsSwitchingOccur() T = 37.690000 Tnext = 37.695000 Time: 3.76900e+01 states: [ 1.32974e+00 1.96918e+00] derivs: [ 1.96895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.695000 pESO->GetIndependentVar(): 37.695000 ==>IsSwitchingOccur() prevPhis[ 0]=10.958405, nextPhis[ 0]=10.982899 prevPhis[ 1]=-4.958405, nextPhis[ 1]=-4.982899 <==IsSwitchingOccur() T = 37.695000 Tnext = 37.700000 Time: 3.76950e+01 states: [ 1.33957e+00 1.96418e+00] derivs: [ 1.96395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.700000 pESO->GetIndependentVar(): 37.700000 ==>IsSwitchingOccur() prevPhis[ 0]=10.982899, nextPhis[ 0]=11.007318 prevPhis[ 1]=-4.982899, nextPhis[ 1]=-5.007318 <==IsSwitchingOccur() T = 37.700000 Tnext = 37.705000 Time: 3.77000e+01 states: [ 1.34938e+00 1.95918e+00] derivs: [ 1.95895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.705000 pESO->GetIndependentVar(): 37.705000 ==>IsSwitchingOccur() prevPhis[ 0]=11.007318, nextPhis[ 0]=11.031662 prevPhis[ 1]=-5.007318, nextPhis[ 1]=-5.031662 <==IsSwitchingOccur() T = 37.705000 Tnext = 37.710000 Time: 3.77050e+01 states: [ 1.35916e+00 1.95418e+00] derivs: [ 1.95395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.710000 pESO->GetIndependentVar(): 37.710000 ==>IsSwitchingOccur() prevPhis[ 0]=11.031662, nextPhis[ 0]=11.055931 prevPhis[ 1]=-5.031662, nextPhis[ 1]=-5.055931 <==IsSwitchingOccur() T = 37.710000 Tnext = 37.715000 Time: 3.77100e+01 states: [ 1.36892e+00 1.94918e+00] derivs: [ 1.94895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.715000 pESO->GetIndependentVar(): 37.715000 ==>IsSwitchingOccur() prevPhis[ 0]=11.055931, nextPhis[ 0]=11.080125 prevPhis[ 1]=-5.055931, nextPhis[ 1]=-5.080125 <==IsSwitchingOccur() T = 37.715000 Tnext = 37.720000 Time: 3.77150e+01 states: [ 1.37865e+00 1.94418e+00] derivs: [ 1.94395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.720000 pESO->GetIndependentVar(): 37.720000 ==>IsSwitchingOccur() prevPhis[ 0]=11.080125, nextPhis[ 0]=11.104244 prevPhis[ 1]=-5.080125, nextPhis[ 1]=-5.104244 <==IsSwitchingOccur() T = 37.720000 Tnext = 37.725000 Time: 3.77200e+01 states: [ 1.38835e+00 1.93918e+00] derivs: [ 1.93895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.725000 pESO->GetIndependentVar(): 37.725000 ==>IsSwitchingOccur() prevPhis[ 0]=11.104244, nextPhis[ 0]=11.128288 prevPhis[ 1]=-5.104244, nextPhis[ 1]=-5.128288 <==IsSwitchingOccur() T = 37.725000 Tnext = 37.730000 Time: 3.77250e+01 states: [ 1.39804e+00 1.93418e+00] derivs: [ 1.93395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.730000 pESO->GetIndependentVar(): 37.730000 ==>IsSwitchingOccur() prevPhis[ 0]=11.128288, nextPhis[ 0]=11.152257 prevPhis[ 1]=-5.128288, nextPhis[ 1]=-5.152257 <==IsSwitchingOccur() T = 37.730000 Tnext = 37.735000 Time: 3.77300e+01 states: [ 1.40769e+00 1.92918e+00] derivs: [ 1.92895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.735000 pESO->GetIndependentVar(): 37.735000 ==>IsSwitchingOccur() prevPhis[ 0]=11.152257, nextPhis[ 0]=11.176151 prevPhis[ 1]=-5.152257, nextPhis[ 1]=-5.176151 <==IsSwitchingOccur() T = 37.735000 Tnext = 37.740000 Time: 3.77350e+01 states: [ 1.41732e+00 1.92418e+00] derivs: [ 1.92395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.740000 pESO->GetIndependentVar(): 37.740000 ==>IsSwitchingOccur() prevPhis[ 0]=11.176151, nextPhis[ 0]=11.199969 prevPhis[ 1]=-5.176151, nextPhis[ 1]=-5.199969 <==IsSwitchingOccur() T = 37.740000 Tnext = 37.745000 Time: 3.77400e+01 states: [ 1.42693e+00 1.91918e+00] derivs: [ 1.91895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.745000 pESO->GetIndependentVar(): 37.745000 ==>IsSwitchingOccur() prevPhis[ 0]=11.199969, nextPhis[ 0]=11.223713 prevPhis[ 1]=-5.199969, nextPhis[ 1]=-5.223713 <==IsSwitchingOccur() T = 37.745000 Tnext = 37.750000 Time: 3.77450e+01 states: [ 1.43651e+00 1.91418e+00] derivs: [ 1.91395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.750000 pESO->GetIndependentVar(): 37.750000 ==>IsSwitchingOccur() prevPhis[ 0]=11.223713, nextPhis[ 0]=11.247382 prevPhis[ 1]=-5.223713, nextPhis[ 1]=-5.247382 <==IsSwitchingOccur() T = 37.750000 Tnext = 37.755000 Time: 3.77500e+01 states: [ 1.44607e+00 1.90918e+00] derivs: [ 1.90895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.755000 pESO->GetIndependentVar(): 37.755000 ==>IsSwitchingOccur() prevPhis[ 0]=11.247382, nextPhis[ 0]=11.270976 prevPhis[ 1]=-5.247382, nextPhis[ 1]=-5.270976 <==IsSwitchingOccur() T = 37.755000 Tnext = 37.760000 Time: 3.77550e+01 states: [ 1.45560e+00 1.90418e+00] derivs: [ 1.90395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.760000 pESO->GetIndependentVar(): 37.760000 ==>IsSwitchingOccur() prevPhis[ 0]=11.270976, nextPhis[ 0]=11.294495 prevPhis[ 1]=-5.270976, nextPhis[ 1]=-5.294495 <==IsSwitchingOccur() T = 37.760000 Tnext = 37.765000 Time: 3.77600e+01 states: [ 1.46511e+00 1.89918e+00] derivs: [ 1.89895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.765000 pESO->GetIndependentVar(): 37.765000 ==>IsSwitchingOccur() prevPhis[ 0]=11.294495, nextPhis[ 0]=11.317939 prevPhis[ 1]=-5.294495, nextPhis[ 1]=-5.317939 <==IsSwitchingOccur() T = 37.765000 Tnext = 37.770000 Time: 3.77650e+01 states: [ 1.47459e+00 1.89418e+00] derivs: [ 1.89395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.770000 pESO->GetIndependentVar(): 37.770000 ==>IsSwitchingOccur() prevPhis[ 0]=11.317939, nextPhis[ 0]=11.341308 prevPhis[ 1]=-5.317939, nextPhis[ 1]=-5.341308 <==IsSwitchingOccur() T = 37.770000 Tnext = 37.775000 Time: 3.77700e+01 states: [ 1.48404e+00 1.88918e+00] derivs: [ 1.88895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.775000 pESO->GetIndependentVar(): 37.775000 ==>IsSwitchingOccur() prevPhis[ 0]=11.341308, nextPhis[ 0]=11.364602 prevPhis[ 1]=-5.341308, nextPhis[ 1]=-5.364602 <==IsSwitchingOccur() T = 37.775000 Tnext = 37.780000 Time: 3.77750e+01 states: [ 1.49347e+00 1.88418e+00] derivs: [ 1.88395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.780000 pESO->GetIndependentVar(): 37.780000 ==>IsSwitchingOccur() prevPhis[ 0]=11.364602, nextPhis[ 0]=11.387821 prevPhis[ 1]=-5.364602, nextPhis[ 1]=-5.387821 <==IsSwitchingOccur() T = 37.780000 Tnext = 37.785000 Time: 3.77800e+01 states: [ 1.50288e+00 1.87918e+00] derivs: [ 1.87895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.785000 pESO->GetIndependentVar(): 37.785000 ==>IsSwitchingOccur() prevPhis[ 0]=11.387821, nextPhis[ 0]=11.410965 prevPhis[ 1]=-5.387821, nextPhis[ 1]=-5.410965 <==IsSwitchingOccur() T = 37.785000 Tnext = 37.790000 Time: 3.77850e+01 states: [ 1.51226e+00 1.87418e+00] derivs: [ 1.87395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.790000 pESO->GetIndependentVar(): 37.790000 ==>IsSwitchingOccur() prevPhis[ 0]=11.410965, nextPhis[ 0]=11.434034 prevPhis[ 1]=-5.410965, nextPhis[ 1]=-5.434034 <==IsSwitchingOccur() T = 37.790000 Tnext = 37.795000 Time: 3.77900e+01 states: [ 1.52162e+00 1.86918e+00] derivs: [ 1.86895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.795000 pESO->GetIndependentVar(): 37.795000 ==>IsSwitchingOccur() prevPhis[ 0]=11.434034, nextPhis[ 0]=11.457028 prevPhis[ 1]=-5.434034, nextPhis[ 1]=-5.457028 <==IsSwitchingOccur() T = 37.795000 Tnext = 37.800000 Time: 3.77950e+01 states: [ 1.53095e+00 1.86418e+00] derivs: [ 1.86395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.800000 pESO->GetIndependentVar(): 37.800000 ==>IsSwitchingOccur() prevPhis[ 0]=11.457028, nextPhis[ 0]=11.479947 prevPhis[ 1]=-5.457028, nextPhis[ 1]=-5.479947 <==IsSwitchingOccur() T = 37.800000 Tnext = 37.805000 Time: 3.78000e+01 states: [ 1.54026e+00 1.85918e+00] derivs: [ 1.85895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.805000 pESO->GetIndependentVar(): 37.805000 ==>IsSwitchingOccur() prevPhis[ 0]=11.479947, nextPhis[ 0]=11.502790 prevPhis[ 1]=-5.479947, nextPhis[ 1]=-5.502790 <==IsSwitchingOccur() T = 37.805000 Tnext = 37.810000 Time: 3.78050e+01 states: [ 1.54954e+00 1.85418e+00] derivs: [ 1.85395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.810000 pESO->GetIndependentVar(): 37.810000 ==>IsSwitchingOccur() prevPhis[ 0]=11.502790, nextPhis[ 0]=11.525559 prevPhis[ 1]=-5.502790, nextPhis[ 1]=-5.525559 <==IsSwitchingOccur() T = 37.810000 Tnext = 37.815000 Time: 3.78100e+01 states: [ 1.55879e+00 1.84918e+00] derivs: [ 1.84895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.815000 pESO->GetIndependentVar(): 37.815000 ==>IsSwitchingOccur() prevPhis[ 0]=11.525559, nextPhis[ 0]=11.548253 prevPhis[ 1]=-5.525559, nextPhis[ 1]=-5.548253 <==IsSwitchingOccur() T = 37.815000 Tnext = 37.820000 Time: 3.78150e+01 states: [ 1.56802e+00 1.84418e+00] derivs: [ 1.84395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.820000 pESO->GetIndependentVar(): 37.820000 ==>IsSwitchingOccur() prevPhis[ 0]=11.548253, nextPhis[ 0]=11.570872 prevPhis[ 1]=-5.548253, nextPhis[ 1]=-5.570872 <==IsSwitchingOccur() T = 37.820000 Tnext = 37.825000 Time: 3.78200e+01 states: [ 1.57723e+00 1.83918e+00] derivs: [ 1.83895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.825000 pESO->GetIndependentVar(): 37.825000 ==>IsSwitchingOccur() prevPhis[ 0]=11.570872, nextPhis[ 0]=11.593416 prevPhis[ 1]=-5.570872, nextPhis[ 1]=-5.593416 <==IsSwitchingOccur() T = 37.825000 Tnext = 37.830000 Time: 3.78250e+01 states: [ 1.58641e+00 1.83418e+00] derivs: [ 1.83395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.830000 pESO->GetIndependentVar(): 37.830000 ==>IsSwitchingOccur() prevPhis[ 0]=11.593416, nextPhis[ 0]=11.615885 prevPhis[ 1]=-5.593416, nextPhis[ 1]=-5.615885 <==IsSwitchingOccur() T = 37.830000 Tnext = 37.835000 Time: 3.78300e+01 states: [ 1.59557e+00 1.82918e+00] derivs: [ 1.82895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.835000 pESO->GetIndependentVar(): 37.835000 ==>IsSwitchingOccur() prevPhis[ 0]=11.615885, nextPhis[ 0]=11.638279 prevPhis[ 1]=-5.615885, nextPhis[ 1]=-5.638279 <==IsSwitchingOccur() T = 37.835000 Tnext = 37.840000 Time: 3.78350e+01 states: [ 1.60470e+00 1.82418e+00] derivs: [ 1.82395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.840000 pESO->GetIndependentVar(): 37.840000 ==>IsSwitchingOccur() prevPhis[ 0]=11.638279, nextPhis[ 0]=11.660598 prevPhis[ 1]=-5.638279, nextPhis[ 1]=-5.660598 <==IsSwitchingOccur() T = 37.840000 Tnext = 37.845000 Time: 3.78400e+01 states: [ 1.61381e+00 1.81918e+00] derivs: [ 1.81895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.845000 pESO->GetIndependentVar(): 37.845000 ==>IsSwitchingOccur() prevPhis[ 0]=11.660598, nextPhis[ 0]=11.682842 prevPhis[ 1]=-5.660598, nextPhis[ 1]=-5.682842 <==IsSwitchingOccur() T = 37.845000 Tnext = 37.850000 Time: 3.78450e+01 states: [ 1.62289e+00 1.81418e+00] derivs: [ 1.81395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.850000 pESO->GetIndependentVar(): 37.850000 ==>IsSwitchingOccur() prevPhis[ 0]=11.682842, nextPhis[ 0]=11.705011 prevPhis[ 1]=-5.682842, nextPhis[ 1]=-5.705011 <==IsSwitchingOccur() T = 37.850000 Tnext = 37.855000 Time: 3.78500e+01 states: [ 1.63194e+00 1.80918e+00] derivs: [ 1.80895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.855000 pESO->GetIndependentVar(): 37.855000 ==>IsSwitchingOccur() prevPhis[ 0]=11.705011, nextPhis[ 0]=11.727105 prevPhis[ 1]=-5.705011, nextPhis[ 1]=-5.727105 <==IsSwitchingOccur() T = 37.855000 Tnext = 37.860000 Time: 3.78550e+01 states: [ 1.64097e+00 1.80418e+00] derivs: [ 1.80395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.860000 pESO->GetIndependentVar(): 37.860000 ==>IsSwitchingOccur() prevPhis[ 0]=11.727105, nextPhis[ 0]=11.749124 prevPhis[ 1]=-5.727105, nextPhis[ 1]=-5.749124 <==IsSwitchingOccur() T = 37.860000 Tnext = 37.865000 Time: 3.78600e+01 states: [ 1.64998e+00 1.79918e+00] derivs: [ 1.79895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.865000 pESO->GetIndependentVar(): 37.865000 ==>IsSwitchingOccur() prevPhis[ 0]=11.749124, nextPhis[ 0]=11.771068 prevPhis[ 1]=-5.749124, nextPhis[ 1]=-5.771068 <==IsSwitchingOccur() T = 37.865000 Tnext = 37.870000 Time: 3.78650e+01 states: [ 1.65896e+00 1.79418e+00] derivs: [ 1.79395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.870000 pESO->GetIndependentVar(): 37.870000 ==>IsSwitchingOccur() prevPhis[ 0]=11.771068, nextPhis[ 0]=11.792936 prevPhis[ 1]=-5.771068, nextPhis[ 1]=-5.792936 <==IsSwitchingOccur() T = 37.870000 Tnext = 37.875000 Time: 3.78700e+01 states: [ 1.66792e+00 1.78918e+00] derivs: [ 1.78895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.875000 pESO->GetIndependentVar(): 37.875000 ==>IsSwitchingOccur() prevPhis[ 0]=11.792936, nextPhis[ 0]=11.814730 prevPhis[ 1]=-5.792936, nextPhis[ 1]=-5.814730 <==IsSwitchingOccur() T = 37.875000 Tnext = 37.880000 Time: 3.78750e+01 states: [ 1.67685e+00 1.78418e+00] derivs: [ 1.78395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.880000 pESO->GetIndependentVar(): 37.880000 ==>IsSwitchingOccur() prevPhis[ 0]=11.814730, nextPhis[ 0]=11.836449 prevPhis[ 1]=-5.814730, nextPhis[ 1]=-5.836449 <==IsSwitchingOccur() T = 37.880000 Tnext = 37.885000 Time: 3.78800e+01 states: [ 1.68576e+00 1.77918e+00] derivs: [ 1.77895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.885000 pESO->GetIndependentVar(): 37.885000 ==>IsSwitchingOccur() prevPhis[ 0]=11.836449, nextPhis[ 0]=11.858093 prevPhis[ 1]=-5.836449, nextPhis[ 1]=-5.858093 <==IsSwitchingOccur() T = 37.885000 Tnext = 37.890000 Time: 3.78850e+01 states: [ 1.69464e+00 1.77418e+00] derivs: [ 1.77395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.890000 pESO->GetIndependentVar(): 37.890000 ==>IsSwitchingOccur() prevPhis[ 0]=11.858093, nextPhis[ 0]=11.879662 prevPhis[ 1]=-5.858093, nextPhis[ 1]=-5.879662 <==IsSwitchingOccur() T = 37.890000 Tnext = 37.895000 Time: 3.78900e+01 states: [ 1.70349e+00 1.76918e+00] derivs: [ 1.76895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.895000 pESO->GetIndependentVar(): 37.895000 ==>IsSwitchingOccur() prevPhis[ 0]=11.879662, nextPhis[ 0]=11.901156 prevPhis[ 1]=-5.879662, nextPhis[ 1]=-5.901156 <==IsSwitchingOccur() T = 37.895000 Tnext = 37.900000 Time: 3.78950e+01 states: [ 1.71233e+00 1.76418e+00] derivs: [ 1.76395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.900000 pESO->GetIndependentVar(): 37.900000 ==>IsSwitchingOccur() prevPhis[ 0]=11.901156, nextPhis[ 0]=11.922575 prevPhis[ 1]=-5.901156, nextPhis[ 1]=-5.922575 <==IsSwitchingOccur() T = 37.900000 Tnext = 37.905000 Time: 3.79000e+01 states: [ 1.72113e+00 1.75918e+00] derivs: [ 1.75895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.905000 pESO->GetIndependentVar(): 37.905000 ==>IsSwitchingOccur() prevPhis[ 0]=11.922575, nextPhis[ 0]=11.943919 prevPhis[ 1]=-5.922575, nextPhis[ 1]=-5.943919 <==IsSwitchingOccur() T = 37.905000 Tnext = 37.910000 Time: 3.79050e+01 states: [ 1.72991e+00 1.75418e+00] derivs: [ 1.75395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.910000 pESO->GetIndependentVar(): 37.910000 ==>IsSwitchingOccur() prevPhis[ 0]=11.943919, nextPhis[ 0]=11.965188 prevPhis[ 1]=-5.943919, nextPhis[ 1]=-5.965188 <==IsSwitchingOccur() T = 37.910000 Tnext = 37.915000 Time: 3.79100e+01 states: [ 1.73867e+00 1.74918e+00] derivs: [ 1.74895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.915000 pESO->GetIndependentVar(): 37.915000 ==>IsSwitchingOccur() prevPhis[ 0]=11.965188, nextPhis[ 0]=11.986382 prevPhis[ 1]=-5.965188, nextPhis[ 1]=-5.986382 <==IsSwitchingOccur() T = 37.915000 Tnext = 37.920000 Time: 3.79150e+01 states: [ 1.74740e+00 1.74418e+00] derivs: [ 1.74395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.920000 pESO->GetIndependentVar(): 37.920000 ==>IsSwitchingOccur() prevPhis[ 0]=11.986382, nextPhis[ 0]=12.007501 prevPhis[ 1]=-5.986382, nextPhis[ 1]=-6.007501 <==IsSwitchingOccur() T = 37.920000 Tnext = 37.925000 Time: 3.79200e+01 states: [ 1.75611e+00 1.73918e+00] derivs: [ 1.73895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.925000 pESO->GetIndependentVar(): 37.925000 ==>IsSwitchingOccur() prevPhis[ 0]=12.007501, nextPhis[ 0]=12.028545 prevPhis[ 1]=-6.007501, nextPhis[ 1]=-6.028545 <==IsSwitchingOccur() T = 37.925000 Tnext = 37.930000 Time: 3.79250e+01 states: [ 1.76479e+00 1.73418e+00] derivs: [ 1.73395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.930000 pESO->GetIndependentVar(): 37.930000 ==>IsSwitchingOccur() prevPhis[ 0]=12.028545, nextPhis[ 0]=12.049514 prevPhis[ 1]=-6.028545, nextPhis[ 1]=-6.049514 <==IsSwitchingOccur() T = 37.930000 Tnext = 37.935000 Time: 3.79300e+01 states: [ 1.77344e+00 1.72918e+00] derivs: [ 1.72895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.935000 pESO->GetIndependentVar(): 37.935000 ==>IsSwitchingOccur() prevPhis[ 0]=12.049514, nextPhis[ 0]=12.070407 prevPhis[ 1]=-6.049514, nextPhis[ 1]=-6.070407 <==IsSwitchingOccur() T = 37.935000 Tnext = 37.940000 Time: 3.79350e+01 states: [ 1.78208e+00 1.72418e+00] derivs: [ 1.72395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.940000 pESO->GetIndependentVar(): 37.940000 ==>IsSwitchingOccur() prevPhis[ 0]=12.070407, nextPhis[ 0]=12.091226 prevPhis[ 1]=-6.070407, nextPhis[ 1]=-6.091226 <==IsSwitchingOccur() T = 37.940000 Tnext = 37.945000 Time: 3.79400e+01 states: [ 1.79068e+00 1.71918e+00] derivs: [ 1.71895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.945000 pESO->GetIndependentVar(): 37.945000 ==>IsSwitchingOccur() prevPhis[ 0]=12.091226, nextPhis[ 0]=12.111970 prevPhis[ 1]=-6.091226, nextPhis[ 1]=-6.111970 <==IsSwitchingOccur() T = 37.945000 Tnext = 37.950000 Time: 3.79450e+01 states: [ 1.79926e+00 1.71418e+00] derivs: [ 1.71395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.950000 pESO->GetIndependentVar(): 37.950000 ==>IsSwitchingOccur() prevPhis[ 0]=12.111970, nextPhis[ 0]=12.132639 prevPhis[ 1]=-6.111970, nextPhis[ 1]=-6.132639 <==IsSwitchingOccur() T = 37.950000 Tnext = 37.955000 Time: 3.79500e+01 states: [ 1.80782e+00 1.70918e+00] derivs: [ 1.70895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.955000 pESO->GetIndependentVar(): 37.955000 ==>IsSwitchingOccur() prevPhis[ 0]=12.132639, nextPhis[ 0]=12.153233 prevPhis[ 1]=-6.132639, nextPhis[ 1]=-6.153233 <==IsSwitchingOccur() T = 37.955000 Tnext = 37.960000 Time: 3.79550e+01 states: [ 1.81635e+00 1.70418e+00] derivs: [ 1.70395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.960000 pESO->GetIndependentVar(): 37.960000 ==>IsSwitchingOccur() prevPhis[ 0]=12.153233, nextPhis[ 0]=12.173752 prevPhis[ 1]=-6.153233, nextPhis[ 1]=-6.173752 <==IsSwitchingOccur() T = 37.960000 Tnext = 37.965000 Time: 3.79600e+01 states: [ 1.82486e+00 1.69918e+00] derivs: [ 1.69895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.965000 pESO->GetIndependentVar(): 37.965000 ==>IsSwitchingOccur() prevPhis[ 0]=12.173752, nextPhis[ 0]=12.194196 prevPhis[ 1]=-6.173752, nextPhis[ 1]=-6.194196 <==IsSwitchingOccur() T = 37.965000 Tnext = 37.970000 Time: 3.79650e+01 states: [ 1.83334e+00 1.69418e+00] derivs: [ 1.69395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.970000 pESO->GetIndependentVar(): 37.970000 ==>IsSwitchingOccur() prevPhis[ 0]=12.194196, nextPhis[ 0]=12.214565 prevPhis[ 1]=-6.194196, nextPhis[ 1]=-6.214565 <==IsSwitchingOccur() T = 37.970000 Tnext = 37.975000 Time: 3.79700e+01 states: [ 1.84179e+00 1.68918e+00] derivs: [ 1.68895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.975000 pESO->GetIndependentVar(): 37.975000 ==>IsSwitchingOccur() prevPhis[ 0]=12.214565, nextPhis[ 0]=12.234859 prevPhis[ 1]=-6.214565, nextPhis[ 1]=-6.234859 <==IsSwitchingOccur() T = 37.975000 Tnext = 37.980000 Time: 3.79750e+01 states: [ 1.85023e+00 1.68418e+00] derivs: [ 1.68395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.980000 pESO->GetIndependentVar(): 37.980000 ==>IsSwitchingOccur() prevPhis[ 0]=12.234859, nextPhis[ 0]=12.255078 prevPhis[ 1]=-6.234859, nextPhis[ 1]=-6.255078 <==IsSwitchingOccur() T = 37.980000 Tnext = 37.985000 Time: 3.79800e+01 states: [ 1.85863e+00 1.67918e+00] derivs: [ 1.67895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.985000 pESO->GetIndependentVar(): 37.985000 ==>IsSwitchingOccur() prevPhis[ 0]=12.255078, nextPhis[ 0]=12.275222 prevPhis[ 1]=-6.255078, nextPhis[ 1]=-6.275222 <==IsSwitchingOccur() T = 37.985000 Tnext = 37.990000 Time: 3.79850e+01 states: [ 1.86701e+00 1.67418e+00] derivs: [ 1.67395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.990000 pESO->GetIndependentVar(): 37.990000 ==>IsSwitchingOccur() prevPhis[ 0]=12.275222, nextPhis[ 0]=12.295291 prevPhis[ 1]=-6.275222, nextPhis[ 1]=-6.295291 <==IsSwitchingOccur() T = 37.990000 Tnext = 37.995000 Time: 3.79900e+01 states: [ 1.87537e+00 1.66918e+00] derivs: [ 1.66895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 37.995000 pESO->GetIndependentVar(): 37.995000 ==>IsSwitchingOccur() prevPhis[ 0]=12.295291, nextPhis[ 0]=12.315285 prevPhis[ 1]=-6.295291, nextPhis[ 1]=-6.315285 <==IsSwitchingOccur() T = 37.995000 Tnext = 38.000000 Time: 3.79950e+01 states: [ 1.88370e+00 1.66418e+00] derivs: [ 1.66395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.000000 pESO->GetIndependentVar(): 38.000000 ==>IsSwitchingOccur() prevPhis[ 0]=12.315285, nextPhis[ 0]=12.335203 prevPhis[ 1]=-6.315285, nextPhis[ 1]=-6.335203 <==IsSwitchingOccur() T = 38.000000 Tnext = 38.005000 Time: 3.80000e+01 states: [ 1.89201e+00 1.65918e+00] derivs: [ 1.65895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.005000 pESO->GetIndependentVar(): 38.005000 ==>IsSwitchingOccur() prevPhis[ 0]=12.335203, nextPhis[ 0]=12.355047 prevPhis[ 1]=-6.335203, nextPhis[ 1]=-6.355047 <==IsSwitchingOccur() T = 38.005000 Tnext = 38.010000 Time: 3.80050e+01 states: [ 1.90029e+00 1.65418e+00] derivs: [ 1.65395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.010000 pESO->GetIndependentVar(): 38.010000 ==>IsSwitchingOccur() prevPhis[ 0]=12.355047, nextPhis[ 0]=12.374816 prevPhis[ 1]=-6.355047, nextPhis[ 1]=-6.374816 <==IsSwitchingOccur() T = 38.010000 Tnext = 38.015000 Time: 3.80100e+01 states: [ 1.90855e+00 1.64918e+00] derivs: [ 1.64895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.015000 pESO->GetIndependentVar(): 38.015000 ==>IsSwitchingOccur() prevPhis[ 0]=12.374816, nextPhis[ 0]=12.394510 prevPhis[ 1]=-6.374816, nextPhis[ 1]=-6.394510 <==IsSwitchingOccur() T = 38.015000 Tnext = 38.020000 Time: 3.80150e+01 states: [ 1.91678e+00 1.64418e+00] derivs: [ 1.64395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.020000 pESO->GetIndependentVar(): 38.020000 ==>IsSwitchingOccur() prevPhis[ 0]=12.394510, nextPhis[ 0]=12.414129 prevPhis[ 1]=-6.394510, nextPhis[ 1]=-6.414129 <==IsSwitchingOccur() T = 38.020000 Tnext = 38.025000 Time: 3.80200e+01 states: [ 1.92498e+00 1.63918e+00] derivs: [ 1.63895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.025000 pESO->GetIndependentVar(): 38.025000 ==>IsSwitchingOccur() prevPhis[ 0]=12.414129, nextPhis[ 0]=12.433673 prevPhis[ 1]=-6.414129, nextPhis[ 1]=-6.433673 <==IsSwitchingOccur() T = 38.025000 Tnext = 38.030000 Time: 3.80250e+01 states: [ 1.93316e+00 1.63418e+00] derivs: [ 1.63395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.030000 pESO->GetIndependentVar(): 38.030000 ==>IsSwitchingOccur() prevPhis[ 0]=12.433673, nextPhis[ 0]=12.453142 prevPhis[ 1]=-6.433673, nextPhis[ 1]=-6.453142 <==IsSwitchingOccur() T = 38.030000 Tnext = 38.035000 Time: 3.80300e+01 states: [ 1.94132e+00 1.62918e+00] derivs: [ 1.62895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.035000 pESO->GetIndependentVar(): 38.035000 ==>IsSwitchingOccur() prevPhis[ 0]=12.453142, nextPhis[ 0]=12.472536 prevPhis[ 1]=-6.453142, nextPhis[ 1]=-6.472536 <==IsSwitchingOccur() T = 38.035000 Tnext = 38.040000 Time: 3.80350e+01 states: [ 1.94945e+00 1.62418e+00] derivs: [ 1.62395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.040000 pESO->GetIndependentVar(): 38.040000 ==>IsSwitchingOccur() prevPhis[ 0]=12.472536, nextPhis[ 0]=12.491855 prevPhis[ 1]=-6.472536, nextPhis[ 1]=-6.491855 <==IsSwitchingOccur() T = 38.040000 Tnext = 38.045000 Time: 3.80400e+01 states: [ 1.95756e+00 1.61918e+00] derivs: [ 1.61895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.045000 pESO->GetIndependentVar(): 38.045000 ==>IsSwitchingOccur() prevPhis[ 0]=12.491855, nextPhis[ 0]=12.511099 prevPhis[ 1]=-6.491855, nextPhis[ 1]=-6.511099 <==IsSwitchingOccur() T = 38.045000 Tnext = 38.050000 Time: 3.80450e+01 states: [ 1.96564e+00 1.61418e+00] derivs: [ 1.61395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.050000 pESO->GetIndependentVar(): 38.050000 ==>IsSwitchingOccur() prevPhis[ 0]=12.511099, nextPhis[ 0]=12.530268 prevPhis[ 1]=-6.511099, nextPhis[ 1]=-6.530268 <==IsSwitchingOccur() T = 38.050000 Tnext = 38.055000 Time: 3.80500e+01 states: [ 1.97370e+00 1.60918e+00] derivs: [ 1.60895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.055000 pESO->GetIndependentVar(): 38.055000 ==>IsSwitchingOccur() prevPhis[ 0]=12.530268, nextPhis[ 0]=12.549362 prevPhis[ 1]=-6.530268, nextPhis[ 1]=-6.549362 <==IsSwitchingOccur() T = 38.055000 Tnext = 38.060000 Time: 3.80550e+01 states: [ 1.98173e+00 1.60418e+00] derivs: [ 1.60395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.060000 pESO->GetIndependentVar(): 38.060000 ==>IsSwitchingOccur() prevPhis[ 0]=12.549362, nextPhis[ 0]=12.568381 prevPhis[ 1]=-6.549362, nextPhis[ 1]=-6.568381 <==IsSwitchingOccur() T = 38.060000 Tnext = 38.065000 Time: 3.80600e+01 states: [ 1.98973e+00 1.59918e+00] derivs: [ 1.59895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.065000 pESO->GetIndependentVar(): 38.065000 ==>IsSwitchingOccur() prevPhis[ 0]=12.568381, nextPhis[ 0]=12.587324 prevPhis[ 1]=-6.568381, nextPhis[ 1]=-6.587324 <==IsSwitchingOccur() T = 38.065000 Tnext = 38.070000 Time: 3.80650e+01 states: [ 1.99771e+00 1.59418e+00] derivs: [ 1.59395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.070000 pESO->GetIndependentVar(): 38.070000 ==>IsSwitchingOccur() prevPhis[ 0]=12.587324, nextPhis[ 0]=12.606193 prevPhis[ 1]=-6.587324, nextPhis[ 1]=-6.606193 <==IsSwitchingOccur() T = 38.070000 Tnext = 38.075000 Time: 3.80700e+01 states: [ 2.00567e+00 1.58918e+00] derivs: [ 1.58895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.075000 pESO->GetIndependentVar(): 38.075000 ==>IsSwitchingOccur() prevPhis[ 0]=12.606193, nextPhis[ 0]=12.624987 prevPhis[ 1]=-6.606193, nextPhis[ 1]=-6.624987 <==IsSwitchingOccur() T = 38.075000 Tnext = 38.080000 Time: 3.80750e+01 states: [ 2.01360e+00 1.58418e+00] derivs: [ 1.58395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.080000 pESO->GetIndependentVar(): 38.080000 ==>IsSwitchingOccur() prevPhis[ 0]=12.624987, nextPhis[ 0]=12.643706 prevPhis[ 1]=-6.624987, nextPhis[ 1]=-6.643706 <==IsSwitchingOccur() T = 38.080000 Tnext = 38.085000 Time: 3.80800e+01 states: [ 2.02151e+00 1.57918e+00] derivs: [ 1.57895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.085000 pESO->GetIndependentVar(): 38.085000 ==>IsSwitchingOccur() prevPhis[ 0]=12.643706, nextPhis[ 0]=12.662350 prevPhis[ 1]=-6.643706, nextPhis[ 1]=-6.662350 <==IsSwitchingOccur() T = 38.085000 Tnext = 38.090000 Time: 3.80850e+01 states: [ 2.02939e+00 1.57418e+00] derivs: [ 1.57395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.090000 pESO->GetIndependentVar(): 38.090000 ==>IsSwitchingOccur() prevPhis[ 0]=12.662350, nextPhis[ 0]=12.680919 prevPhis[ 1]=-6.662350, nextPhis[ 1]=-6.680919 <==IsSwitchingOccur() T = 38.090000 Tnext = 38.095000 Time: 3.80900e+01 states: [ 2.03725e+00 1.56918e+00] derivs: [ 1.56895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.095000 pESO->GetIndependentVar(): 38.095000 ==>IsSwitchingOccur() prevPhis[ 0]=12.680919, nextPhis[ 0]=12.699413 prevPhis[ 1]=-6.680919, nextPhis[ 1]=-6.699413 <==IsSwitchingOccur() T = 38.095000 Tnext = 38.100000 Time: 3.80950e+01 states: [ 2.04508e+00 1.56418e+00] derivs: [ 1.56395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.100000 pESO->GetIndependentVar(): 38.100000 ==>IsSwitchingOccur() prevPhis[ 0]=12.699413, nextPhis[ 0]=12.717832 prevPhis[ 1]=-6.699413, nextPhis[ 1]=-6.717832 <==IsSwitchingOccur() T = 38.100000 Tnext = 38.105000 Time: 3.81000e+01 states: [ 2.05288e+00 1.55918e+00] derivs: [ 1.55895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.105000 pESO->GetIndependentVar(): 38.105000 ==>IsSwitchingOccur() prevPhis[ 0]=12.717832, nextPhis[ 0]=12.736176 prevPhis[ 1]=-6.717832, nextPhis[ 1]=-6.736176 <==IsSwitchingOccur() T = 38.105000 Tnext = 38.110000 Time: 3.81050e+01 states: [ 2.06067e+00 1.55418e+00] derivs: [ 1.55395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.110000 pESO->GetIndependentVar(): 38.110000 ==>IsSwitchingOccur() prevPhis[ 0]=12.736176, nextPhis[ 0]=12.754445 prevPhis[ 1]=-6.736176, nextPhis[ 1]=-6.754445 <==IsSwitchingOccur() T = 38.110000 Tnext = 38.115000 Time: 3.81100e+01 states: [ 2.06842e+00 1.54918e+00] derivs: [ 1.54895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.115000 pESO->GetIndependentVar(): 38.115000 ==>IsSwitchingOccur() prevPhis[ 0]=12.754445, nextPhis[ 0]=12.772639 prevPhis[ 1]=-6.754445, nextPhis[ 1]=-6.772639 <==IsSwitchingOccur() T = 38.115000 Tnext = 38.120000 Time: 3.81150e+01 states: [ 2.07615e+00 1.54418e+00] derivs: [ 1.54395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.120000 pESO->GetIndependentVar(): 38.120000 ==>IsSwitchingOccur() prevPhis[ 0]=12.772639, nextPhis[ 0]=12.790758 prevPhis[ 1]=-6.772639, nextPhis[ 1]=-6.790758 <==IsSwitchingOccur() T = 38.120000 Tnext = 38.125000 Time: 3.81200e+01 states: [ 2.08386e+00 1.53918e+00] derivs: [ 1.53895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.125000 pESO->GetIndependentVar(): 38.125000 ==>IsSwitchingOccur() prevPhis[ 0]=12.790758, nextPhis[ 0]=12.808802 prevPhis[ 1]=-6.790758, nextPhis[ 1]=-6.808802 <==IsSwitchingOccur() T = 38.125000 Tnext = 38.130000 Time: 3.81250e+01 states: [ 2.09154e+00 1.53418e+00] derivs: [ 1.53395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.130000 pESO->GetIndependentVar(): 38.130000 ==>IsSwitchingOccur() prevPhis[ 0]=12.808802, nextPhis[ 0]=12.826770 prevPhis[ 1]=-6.808802, nextPhis[ 1]=-6.826770 <==IsSwitchingOccur() T = 38.130000 Tnext = 38.135000 Time: 3.81300e+01 states: [ 2.09920e+00 1.52918e+00] derivs: [ 1.52895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.135000 pESO->GetIndependentVar(): 38.135000 ==>IsSwitchingOccur() prevPhis[ 0]=12.826770, nextPhis[ 0]=12.844664 prevPhis[ 1]=-6.826770, nextPhis[ 1]=-6.844664 <==IsSwitchingOccur() T = 38.135000 Tnext = 38.140000 Time: 3.81350e+01 states: [ 2.10683e+00 1.52418e+00] derivs: [ 1.52395e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.140000 pESO->GetIndependentVar(): 38.140000 ==>IsSwitchingOccur() prevPhis[ 0]=12.844664, nextPhis[ 0]=12.862483 prevPhis[ 1]=-6.844664, nextPhis[ 1]=-6.862483 <==IsSwitchingOccur() T = 38.140000 Tnext = 38.145000 Time: 3.81400e+01 states: [ 2.11443e+00 1.51918e+00] derivs: [ 1.51895e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.145000 pESO->GetIndependentVar(): 38.145000 ==>IsSwitchingOccur() prevPhis[ 0]=12.862483, nextPhis[ 0]=12.880223 prevPhis[ 1]=-6.862483, nextPhis[ 1]=-6.880223 <==IsSwitchingOccur() T = 38.145000 Tnext = 38.150000 Time: 3.81450e+01 states: [ 2.12201e+00 1.51418e+00] derivs: [ 1.51394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.150000 pESO->GetIndependentVar(): 38.150000 ==>IsSwitchingOccur() prevPhis[ 0]=12.880223, nextPhis[ 0]=12.897888 prevPhis[ 1]=-6.880223, nextPhis[ 1]=-6.897888 <==IsSwitchingOccur() T = 38.150000 Tnext = 38.155000 Time: 3.81500e+01 states: [ 2.12957e+00 1.50918e+00] derivs: [ 1.50894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.155000 pESO->GetIndependentVar(): 38.155000 ==>IsSwitchingOccur() prevPhis[ 0]=12.897888, nextPhis[ 0]=12.915478 prevPhis[ 1]=-6.897888, nextPhis[ 1]=-6.915478 <==IsSwitchingOccur() T = 38.155000 Tnext = 38.160000 Time: 3.81550e+01 states: [ 2.13710e+00 1.50418e+00] derivs: [ 1.50394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.160000 pESO->GetIndependentVar(): 38.160000 ==>IsSwitchingOccur() prevPhis[ 0]=12.915478, nextPhis[ 0]=12.932993 prevPhis[ 1]=-6.915478, nextPhis[ 1]=-6.932993 <==IsSwitchingOccur() T = 38.160000 Tnext = 38.165000 Time: 3.81600e+01 states: [ 2.14460e+00 1.49918e+00] derivs: [ 1.49894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.165000 pESO->GetIndependentVar(): 38.165000 ==>IsSwitchingOccur() prevPhis[ 0]=12.932993, nextPhis[ 0]=12.950433 prevPhis[ 1]=-6.932993, nextPhis[ 1]=-6.950433 <==IsSwitchingOccur() T = 38.165000 Tnext = 38.170000 Time: 3.81650e+01 states: [ 2.15208e+00 1.49418e+00] derivs: [ 1.49394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.170000 pESO->GetIndependentVar(): 38.170000 ==>IsSwitchingOccur() prevPhis[ 0]=12.950433, nextPhis[ 0]=12.967797 prevPhis[ 1]=-6.950433, nextPhis[ 1]=-6.967797 <==IsSwitchingOccur() T = 38.170000 Tnext = 38.175000 Time: 3.81700e+01 states: [ 2.15954e+00 1.48918e+00] derivs: [ 1.48894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.175000 pESO->GetIndependentVar(): 38.175000 ==>IsSwitchingOccur() prevPhis[ 0]=12.967797, nextPhis[ 0]=12.985087 prevPhis[ 1]=-6.967797, nextPhis[ 1]=-6.985087 <==IsSwitchingOccur() T = 38.175000 Tnext = 38.180000 Time: 3.81750e+01 states: [ 2.16697e+00 1.48418e+00] derivs: [ 1.48394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.180000 pESO->GetIndependentVar(): 38.180000 ==>IsSwitchingOccur() prevPhis[ 0]=12.985087, nextPhis[ 0]=13.002302 prevPhis[ 1]=-6.985087, nextPhis[ 1]=-7.002302 <==IsSwitchingOccur() T = 38.180000 Tnext = 38.185000 Time: 3.81800e+01 states: [ 2.17437e+00 1.47918e+00] derivs: [ 1.47894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.185000 pESO->GetIndependentVar(): 38.185000 ==>IsSwitchingOccur() prevPhis[ 0]=13.002302, nextPhis[ 0]=13.019442 prevPhis[ 1]=-7.002302, nextPhis[ 1]=-7.019442 <==IsSwitchingOccur() T = 38.185000 Tnext = 38.190000 Time: 3.81850e+01 states: [ 2.18175e+00 1.47418e+00] derivs: [ 1.47394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.190000 pESO->GetIndependentVar(): 38.190000 ==>IsSwitchingOccur() prevPhis[ 0]=13.019442, nextPhis[ 0]=13.036507 prevPhis[ 1]=-7.019442, nextPhis[ 1]=-7.036507 <==IsSwitchingOccur() T = 38.190000 Tnext = 38.195000 Time: 3.81900e+01 states: [ 2.18911e+00 1.46918e+00] derivs: [ 1.46894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.195000 pESO->GetIndependentVar(): 38.195000 ==>IsSwitchingOccur() prevPhis[ 0]=13.036507, nextPhis[ 0]=13.053497 prevPhis[ 1]=-7.036507, nextPhis[ 1]=-7.053497 <==IsSwitchingOccur() T = 38.195000 Tnext = 38.200000 Time: 3.81950e+01 states: [ 2.19644e+00 1.46418e+00] derivs: [ 1.46394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.200000 pESO->GetIndependentVar(): 38.200000 ==>IsSwitchingOccur() prevPhis[ 0]=13.053497, nextPhis[ 0]=13.070411 prevPhis[ 1]=-7.053497, nextPhis[ 1]=-7.070411 <==IsSwitchingOccur() T = 38.200000 Tnext = 38.205000 Time: 3.82000e+01 states: [ 2.20374e+00 1.45918e+00] derivs: [ 1.45894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.205000 pESO->GetIndependentVar(): 38.205000 ==>IsSwitchingOccur() prevPhis[ 0]=13.070411, nextPhis[ 0]=13.087251 prevPhis[ 1]=-7.070411, nextPhis[ 1]=-7.087251 <==IsSwitchingOccur() T = 38.205000 Tnext = 38.210000 Time: 3.82050e+01 states: [ 2.21102e+00 1.45418e+00] derivs: [ 1.45394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.210000 pESO->GetIndependentVar(): 38.210000 ==>IsSwitchingOccur() prevPhis[ 0]=13.087251, nextPhis[ 0]=13.104016 prevPhis[ 1]=-7.087251, nextPhis[ 1]=-7.104016 <==IsSwitchingOccur() T = 38.210000 Tnext = 38.215000 Time: 3.82100e+01 states: [ 2.21828e+00 1.44918e+00] derivs: [ 1.44894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.215000 pESO->GetIndependentVar(): 38.215000 ==>IsSwitchingOccur() prevPhis[ 0]=13.104016, nextPhis[ 0]=13.120706 prevPhis[ 1]=-7.104016, nextPhis[ 1]=-7.120706 <==IsSwitchingOccur() T = 38.215000 Tnext = 38.220000 Time: 3.82150e+01 states: [ 2.22551e+00 1.44418e+00] derivs: [ 1.44394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.220000 pESO->GetIndependentVar(): 38.220000 ==>IsSwitchingOccur() prevPhis[ 0]=13.120706, nextPhis[ 0]=13.137321 prevPhis[ 1]=-7.120706, nextPhis[ 1]=-7.137321 <==IsSwitchingOccur() T = 38.220000 Tnext = 38.225000 Time: 3.82200e+01 states: [ 2.23271e+00 1.43918e+00] derivs: [ 1.43894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.225000 pESO->GetIndependentVar(): 38.225000 ==>IsSwitchingOccur() prevPhis[ 0]=13.137321, nextPhis[ 0]=13.153861 prevPhis[ 1]=-7.137321, nextPhis[ 1]=-7.153861 <==IsSwitchingOccur() T = 38.225000 Tnext = 38.230000 Time: 3.82250e+01 states: [ 2.23989e+00 1.43418e+00] derivs: [ 1.43394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.230000 pESO->GetIndependentVar(): 38.230000 ==>IsSwitchingOccur() prevPhis[ 0]=13.153861, nextPhis[ 0]=13.170325 prevPhis[ 1]=-7.153861, nextPhis[ 1]=-7.170325 <==IsSwitchingOccur() T = 38.230000 Tnext = 38.235000 Time: 3.82300e+01 states: [ 2.24705e+00 1.42918e+00] derivs: [ 1.42894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.235000 pESO->GetIndependentVar(): 38.235000 ==>IsSwitchingOccur() prevPhis[ 0]=13.170325, nextPhis[ 0]=13.186715 prevPhis[ 1]=-7.170325, nextPhis[ 1]=-7.186715 <==IsSwitchingOccur() T = 38.235000 Tnext = 38.240000 Time: 3.82350e+01 states: [ 2.25418e+00 1.42418e+00] derivs: [ 1.42394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.240000 pESO->GetIndependentVar(): 38.240000 ==>IsSwitchingOccur() prevPhis[ 0]=13.186715, nextPhis[ 0]=13.203030 prevPhis[ 1]=-7.186715, nextPhis[ 1]=-7.203030 <==IsSwitchingOccur() T = 38.240000 Tnext = 38.245000 Time: 3.82400e+01 states: [ 2.26128e+00 1.41918e+00] derivs: [ 1.41894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.245000 pESO->GetIndependentVar(): 38.245000 ==>IsSwitchingOccur() prevPhis[ 0]=13.203030, nextPhis[ 0]=13.219270 prevPhis[ 1]=-7.203030, nextPhis[ 1]=-7.219270 <==IsSwitchingOccur() T = 38.245000 Tnext = 38.250000 Time: 3.82450e+01 states: [ 2.26836e+00 1.41418e+00] derivs: [ 1.41394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.250000 pESO->GetIndependentVar(): 38.250000 ==>IsSwitchingOccur() prevPhis[ 0]=13.219270, nextPhis[ 0]=13.235435 prevPhis[ 1]=-7.219270, nextPhis[ 1]=-7.235435 <==IsSwitchingOccur() T = 38.250000 Tnext = 38.255000 Time: 3.82500e+01 states: [ 2.27542e+00 1.40918e+00] derivs: [ 1.40894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.255000 pESO->GetIndependentVar(): 38.255000 ==>IsSwitchingOccur() prevPhis[ 0]=13.235435, nextPhis[ 0]=13.251525 prevPhis[ 1]=-7.235435, nextPhis[ 1]=-7.251525 <==IsSwitchingOccur() T = 38.255000 Tnext = 38.260000 Time: 3.82550e+01 states: [ 2.28245e+00 1.40418e+00] derivs: [ 1.40394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.260000 pESO->GetIndependentVar(): 38.260000 ==>IsSwitchingOccur() prevPhis[ 0]=13.251525, nextPhis[ 0]=13.267540 prevPhis[ 1]=-7.251525, nextPhis[ 1]=-7.267540 <==IsSwitchingOccur() T = 38.260000 Tnext = 38.265000 Time: 3.82600e+01 states: [ 2.28945e+00 1.39918e+00] derivs: [ 1.39894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.265000 pESO->GetIndependentVar(): 38.265000 ==>IsSwitchingOccur() prevPhis[ 0]=13.267540, nextPhis[ 0]=13.283479 prevPhis[ 1]=-7.267540, nextPhis[ 1]=-7.283479 <==IsSwitchingOccur() T = 38.265000 Tnext = 38.270000 Time: 3.82650e+01 states: [ 2.29643e+00 1.39418e+00] derivs: [ 1.39394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.270000 pESO->GetIndependentVar(): 38.270000 ==>IsSwitchingOccur() prevPhis[ 0]=13.283479, nextPhis[ 0]=13.299344 prevPhis[ 1]=-7.283479, nextPhis[ 1]=-7.299344 <==IsSwitchingOccur() T = 38.270000 Tnext = 38.275000 Time: 3.82700e+01 states: [ 2.30339e+00 1.38918e+00] derivs: [ 1.38894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.275000 pESO->GetIndependentVar(): 38.275000 ==>IsSwitchingOccur() prevPhis[ 0]=13.299344, nextPhis[ 0]=13.315134 prevPhis[ 1]=-7.299344, nextPhis[ 1]=-7.315134 <==IsSwitchingOccur() T = 38.275000 Tnext = 38.280000 Time: 3.82750e+01 states: [ 2.31032e+00 1.38418e+00] derivs: [ 1.38394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.280000 pESO->GetIndependentVar(): 38.280000 ==>IsSwitchingOccur() prevPhis[ 0]=13.315134, nextPhis[ 0]=13.330849 prevPhis[ 1]=-7.315134, nextPhis[ 1]=-7.330849 <==IsSwitchingOccur() T = 38.280000 Tnext = 38.285000 Time: 3.82800e+01 states: [ 2.31722e+00 1.37918e+00] derivs: [ 1.37894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.285000 pESO->GetIndependentVar(): 38.285000 ==>IsSwitchingOccur() prevPhis[ 0]=13.330849, nextPhis[ 0]=13.346489 prevPhis[ 1]=-7.330849, nextPhis[ 1]=-7.346489 <==IsSwitchingOccur() T = 38.285000 Tnext = 38.290000 Time: 3.82850e+01 states: [ 2.32410e+00 1.37418e+00] derivs: [ 1.37394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.290000 pESO->GetIndependentVar(): 38.290000 ==>IsSwitchingOccur() prevPhis[ 0]=13.346489, nextPhis[ 0]=13.362054 prevPhis[ 1]=-7.346489, nextPhis[ 1]=-7.362054 <==IsSwitchingOccur() T = 38.290000 Tnext = 38.295000 Time: 3.82900e+01 states: [ 2.33096e+00 1.36918e+00] derivs: [ 1.36894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.295000 pESO->GetIndependentVar(): 38.295000 ==>IsSwitchingOccur() prevPhis[ 0]=13.362054, nextPhis[ 0]=13.377543 prevPhis[ 1]=-7.362054, nextPhis[ 1]=-7.377543 <==IsSwitchingOccur() T = 38.295000 Tnext = 38.300000 Time: 3.82950e+01 states: [ 2.33779e+00 1.36418e+00] derivs: [ 1.36394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.300000 pESO->GetIndependentVar(): 38.300000 ==>IsSwitchingOccur() prevPhis[ 0]=13.377543, nextPhis[ 0]=13.392958 prevPhis[ 1]=-7.377543, nextPhis[ 1]=-7.392958 <==IsSwitchingOccur() T = 38.300000 Tnext = 38.305000 Time: 3.83000e+01 states: [ 2.34459e+00 1.35918e+00] derivs: [ 1.35894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.305000 pESO->GetIndependentVar(): 38.305000 ==>IsSwitchingOccur() prevPhis[ 0]=13.392958, nextPhis[ 0]=13.408298 prevPhis[ 1]=-7.392958, nextPhis[ 1]=-7.408298 <==IsSwitchingOccur() T = 38.305000 Tnext = 38.310000 Time: 3.83050e+01 states: [ 2.35137e+00 1.35418e+00] derivs: [ 1.35394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.310000 pESO->GetIndependentVar(): 38.310000 ==>IsSwitchingOccur() prevPhis[ 0]=13.408298, nextPhis[ 0]=13.423563 prevPhis[ 1]=-7.408298, nextPhis[ 1]=-7.423563 <==IsSwitchingOccur() T = 38.310000 Tnext = 38.315000 Time: 3.83100e+01 states: [ 2.35813e+00 1.34918e+00] derivs: [ 1.34894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.315000 pESO->GetIndependentVar(): 38.315000 ==>IsSwitchingOccur() prevPhis[ 0]=13.423563, nextPhis[ 0]=13.438753 prevPhis[ 1]=-7.423563, nextPhis[ 1]=-7.438753 <==IsSwitchingOccur() T = 38.315000 Tnext = 38.320000 Time: 3.83150e+01 states: [ 2.36486e+00 1.34418e+00] derivs: [ 1.34394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.320000 pESO->GetIndependentVar(): 38.320000 ==>IsSwitchingOccur() prevPhis[ 0]=13.438753, nextPhis[ 0]=13.453868 prevPhis[ 1]=-7.438753, nextPhis[ 1]=-7.453868 <==IsSwitchingOccur() T = 38.320000 Tnext = 38.325000 Time: 3.83200e+01 states: [ 2.37156e+00 1.33918e+00] derivs: [ 1.33894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.325000 pESO->GetIndependentVar(): 38.325000 ==>IsSwitchingOccur() prevPhis[ 0]=13.453868, nextPhis[ 0]=13.468908 prevPhis[ 1]=-7.453868, nextPhis[ 1]=-7.468908 <==IsSwitchingOccur() T = 38.325000 Tnext = 38.330000 Time: 3.83250e+01 states: [ 2.37824e+00 1.33418e+00] derivs: [ 1.33394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.330000 pESO->GetIndependentVar(): 38.330000 ==>IsSwitchingOccur() prevPhis[ 0]=13.468908, nextPhis[ 0]=13.483872 prevPhis[ 1]=-7.468908, nextPhis[ 1]=-7.483872 <==IsSwitchingOccur() T = 38.330000 Tnext = 38.335000 Time: 3.83300e+01 states: [ 2.38490e+00 1.32918e+00] derivs: [ 1.32894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.335000 pESO->GetIndependentVar(): 38.335000 ==>IsSwitchingOccur() prevPhis[ 0]=13.483872, nextPhis[ 0]=13.498762 prevPhis[ 1]=-7.483872, nextPhis[ 1]=-7.498762 <==IsSwitchingOccur() T = 38.335000 Tnext = 38.340000 Time: 3.83350e+01 states: [ 2.39153e+00 1.32418e+00] derivs: [ 1.32394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.340000 pESO->GetIndependentVar(): 38.340000 ==>IsSwitchingOccur() prevPhis[ 0]=13.498762, nextPhis[ 0]=13.513577 prevPhis[ 1]=-7.498762, nextPhis[ 1]=-7.513577 <==IsSwitchingOccur() T = 38.340000 Tnext = 38.345000 Time: 3.83400e+01 states: [ 2.39813e+00 1.31918e+00] derivs: [ 1.31894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.345000 pESO->GetIndependentVar(): 38.345000 ==>IsSwitchingOccur() prevPhis[ 0]=13.513577, nextPhis[ 0]=13.528317 prevPhis[ 1]=-7.513577, nextPhis[ 1]=-7.528317 <==IsSwitchingOccur() T = 38.345000 Tnext = 38.350000 Time: 3.83450e+01 states: [ 2.40471e+00 1.31418e+00] derivs: [ 1.31394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.350000 pESO->GetIndependentVar(): 38.350000 ==>IsSwitchingOccur() prevPhis[ 0]=13.528317, nextPhis[ 0]=13.542982 prevPhis[ 1]=-7.528317, nextPhis[ 1]=-7.542982 <==IsSwitchingOccur() T = 38.350000 Tnext = 38.355000 Time: 3.83500e+01 states: [ 2.41127e+00 1.30918e+00] derivs: [ 1.30894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.355000 pESO->GetIndependentVar(): 38.355000 ==>IsSwitchingOccur() prevPhis[ 0]=13.542982, nextPhis[ 0]=13.557572 prevPhis[ 1]=-7.542982, nextPhis[ 1]=-7.557572 <==IsSwitchingOccur() T = 38.355000 Tnext = 38.360000 Time: 3.83550e+01 states: [ 2.41780e+00 1.30418e+00] derivs: [ 1.30394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.360000 pESO->GetIndependentVar(): 38.360000 ==>IsSwitchingOccur() prevPhis[ 0]=13.557572, nextPhis[ 0]=13.572086 prevPhis[ 1]=-7.557572, nextPhis[ 1]=-7.572086 <==IsSwitchingOccur() T = 38.360000 Tnext = 38.365000 Time: 3.83600e+01 states: [ 2.42430e+00 1.29918e+00] derivs: [ 1.29894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.365000 pESO->GetIndependentVar(): 38.365000 ==>IsSwitchingOccur() prevPhis[ 0]=13.572086, nextPhis[ 0]=13.586526 prevPhis[ 1]=-7.572086, nextPhis[ 1]=-7.586526 <==IsSwitchingOccur() T = 38.365000 Tnext = 38.370000 Time: 3.83650e+01 states: [ 2.43078e+00 1.29418e+00] derivs: [ 1.29394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.370000 pESO->GetIndependentVar(): 38.370000 ==>IsSwitchingOccur() prevPhis[ 0]=13.586526, nextPhis[ 0]=13.600891 prevPhis[ 1]=-7.586526, nextPhis[ 1]=-7.600891 <==IsSwitchingOccur() T = 38.370000 Tnext = 38.375000 Time: 3.83700e+01 states: [ 2.43724e+00 1.28918e+00] derivs: [ 1.28894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.375000 pESO->GetIndependentVar(): 38.375000 ==>IsSwitchingOccur() prevPhis[ 0]=13.600891, nextPhis[ 0]=13.615181 prevPhis[ 1]=-7.600891, nextPhis[ 1]=-7.615181 <==IsSwitchingOccur() T = 38.375000 Tnext = 38.380000 Time: 3.83750e+01 states: [ 2.44367e+00 1.28418e+00] derivs: [ 1.28394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.380000 pESO->GetIndependentVar(): 38.380000 ==>IsSwitchingOccur() prevPhis[ 0]=13.615181, nextPhis[ 0]=13.629396 prevPhis[ 1]=-7.615181, nextPhis[ 1]=-7.629396 <==IsSwitchingOccur() T = 38.380000 Tnext = 38.385000 Time: 3.83800e+01 states: [ 2.45007e+00 1.27918e+00] derivs: [ 1.27894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.385000 pESO->GetIndependentVar(): 38.385000 ==>IsSwitchingOccur() prevPhis[ 0]=13.629396, nextPhis[ 0]=13.643536 prevPhis[ 1]=-7.629396, nextPhis[ 1]=-7.643536 <==IsSwitchingOccur() T = 38.385000 Tnext = 38.390000 Time: 3.83850e+01 states: [ 2.45645e+00 1.27418e+00] derivs: [ 1.27394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.390000 pESO->GetIndependentVar(): 38.390000 ==>IsSwitchingOccur() prevPhis[ 0]=13.643536, nextPhis[ 0]=13.657600 prevPhis[ 1]=-7.643536, nextPhis[ 1]=-7.657600 <==IsSwitchingOccur() T = 38.390000 Tnext = 38.395000 Time: 3.83900e+01 states: [ 2.46281e+00 1.26918e+00] derivs: [ 1.26894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.395000 pESO->GetIndependentVar(): 38.395000 ==>IsSwitchingOccur() prevPhis[ 0]=13.657600, nextPhis[ 0]=13.671590 prevPhis[ 1]=-7.657600, nextPhis[ 1]=-7.671590 <==IsSwitchingOccur() T = 38.395000 Tnext = 38.400000 Time: 3.83950e+01 states: [ 2.46914e+00 1.26418e+00] derivs: [ 1.26394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.400000 pESO->GetIndependentVar(): 38.400000 ==>IsSwitchingOccur() prevPhis[ 0]=13.671590, nextPhis[ 0]=13.685505 prevPhis[ 1]=-7.671590, nextPhis[ 1]=-7.685505 <==IsSwitchingOccur() T = 38.400000 Tnext = 38.405000 Time: 3.84000e+01 states: [ 2.47544e+00 1.25918e+00] derivs: [ 1.25894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.405000 pESO->GetIndependentVar(): 38.405000 ==>IsSwitchingOccur() prevPhis[ 0]=13.685505, nextPhis[ 0]=13.699345 prevPhis[ 1]=-7.685505, nextPhis[ 1]=-7.699345 <==IsSwitchingOccur() T = 38.405000 Tnext = 38.410000 Time: 3.84050e+01 states: [ 2.48172e+00 1.25418e+00] derivs: [ 1.25394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.410000 pESO->GetIndependentVar(): 38.410000 ==>IsSwitchingOccur() prevPhis[ 0]=13.699345, nextPhis[ 0]=13.713110 prevPhis[ 1]=-7.699345, nextPhis[ 1]=-7.713110 <==IsSwitchingOccur() T = 38.410000 Tnext = 38.415000 Time: 3.84100e+01 states: [ 2.48798e+00 1.24918e+00] derivs: [ 1.24894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.415000 pESO->GetIndependentVar(): 38.415000 ==>IsSwitchingOccur() prevPhis[ 0]=13.713110, nextPhis[ 0]=13.726800 prevPhis[ 1]=-7.713110, nextPhis[ 1]=-7.726800 <==IsSwitchingOccur() T = 38.415000 Tnext = 38.420000 Time: 3.84150e+01 states: [ 2.49421e+00 1.24418e+00] derivs: [ 1.24394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.420000 pESO->GetIndependentVar(): 38.420000 ==>IsSwitchingOccur() prevPhis[ 0]=13.726800, nextPhis[ 0]=13.740415 prevPhis[ 1]=-7.726800, nextPhis[ 1]=-7.740415 <==IsSwitchingOccur() T = 38.420000 Tnext = 38.425000 Time: 3.84200e+01 states: [ 2.50041e+00 1.23918e+00] derivs: [ 1.23894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.425000 pESO->GetIndependentVar(): 38.425000 ==>IsSwitchingOccur() prevPhis[ 0]=13.740415, nextPhis[ 0]=13.753954 prevPhis[ 1]=-7.740415, nextPhis[ 1]=-7.753954 <==IsSwitchingOccur() T = 38.425000 Tnext = 38.430000 Time: 3.84250e+01 states: [ 2.50659e+00 1.23418e+00] derivs: [ 1.23394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.430000 pESO->GetIndependentVar(): 38.430000 ==>IsSwitchingOccur() prevPhis[ 0]=13.753954, nextPhis[ 0]=13.767419 prevPhis[ 1]=-7.753954, nextPhis[ 1]=-7.767419 <==IsSwitchingOccur() T = 38.430000 Tnext = 38.435000 Time: 3.84300e+01 states: [ 2.51275e+00 1.22918e+00] derivs: [ 1.22894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.435000 pESO->GetIndependentVar(): 38.435000 ==>IsSwitchingOccur() prevPhis[ 0]=13.767419, nextPhis[ 0]=13.780809 prevPhis[ 1]=-7.767419, nextPhis[ 1]=-7.780809 <==IsSwitchingOccur() T = 38.435000 Tnext = 38.440000 Time: 3.84350e+01 states: [ 2.51888e+00 1.22418e+00] derivs: [ 1.22394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.440000 pESO->GetIndependentVar(): 38.440000 ==>IsSwitchingOccur() prevPhis[ 0]=13.780809, nextPhis[ 0]=13.794124 prevPhis[ 1]=-7.780809, nextPhis[ 1]=-7.794124 <==IsSwitchingOccur() T = 38.440000 Tnext = 38.445000 Time: 3.84400e+01 states: [ 2.52498e+00 1.21918e+00] derivs: [ 1.21894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.445000 pESO->GetIndependentVar(): 38.445000 ==>IsSwitchingOccur() prevPhis[ 0]=13.794124, nextPhis[ 0]=13.807364 prevPhis[ 1]=-7.794124, nextPhis[ 1]=-7.807364 <==IsSwitchingOccur() T = 38.445000 Tnext = 38.450000 Time: 3.84450e+01 states: [ 2.53106e+00 1.21418e+00] derivs: [ 1.21394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.450000 pESO->GetIndependentVar(): 38.450000 ==>IsSwitchingOccur() prevPhis[ 0]=13.807364, nextPhis[ 0]=13.820529 prevPhis[ 1]=-7.807364, nextPhis[ 1]=-7.820529 <==IsSwitchingOccur() T = 38.450000 Tnext = 38.455000 Time: 3.84500e+01 states: [ 2.53712e+00 1.20918e+00] derivs: [ 1.20894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.455000 pESO->GetIndependentVar(): 38.455000 ==>IsSwitchingOccur() prevPhis[ 0]=13.820529, nextPhis[ 0]=13.833618 prevPhis[ 1]=-7.820529, nextPhis[ 1]=-7.833618 <==IsSwitchingOccur() T = 38.455000 Tnext = 38.460000 Time: 3.84550e+01 states: [ 2.54315e+00 1.20418e+00] derivs: [ 1.20394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.460000 pESO->GetIndependentVar(): 38.460000 ==>IsSwitchingOccur() prevPhis[ 0]=13.833618, nextPhis[ 0]=13.846633 prevPhis[ 1]=-7.833618, nextPhis[ 1]=-7.846633 <==IsSwitchingOccur() T = 38.460000 Tnext = 38.465000 Time: 3.84600e+01 states: [ 2.54915e+00 1.19918e+00] derivs: [ 1.19894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.465000 pESO->GetIndependentVar(): 38.465000 ==>IsSwitchingOccur() prevPhis[ 0]=13.846633, nextPhis[ 0]=13.859573 prevPhis[ 1]=-7.846633, nextPhis[ 1]=-7.859573 <==IsSwitchingOccur() T = 38.465000 Tnext = 38.470000 Time: 3.84650e+01 states: [ 2.55513e+00 1.19418e+00] derivs: [ 1.19394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.470000 pESO->GetIndependentVar(): 38.470000 ==>IsSwitchingOccur() prevPhis[ 0]=13.859573, nextPhis[ 0]=13.872438 prevPhis[ 1]=-7.859573, nextPhis[ 1]=-7.872438 <==IsSwitchingOccur() T = 38.470000 Tnext = 38.475000 Time: 3.84700e+01 states: [ 2.56109e+00 1.18918e+00] derivs: [ 1.18894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.475000 pESO->GetIndependentVar(): 38.475000 ==>IsSwitchingOccur() prevPhis[ 0]=13.872438, nextPhis[ 0]=13.885228 prevPhis[ 1]=-7.872438, nextPhis[ 1]=-7.885228 <==IsSwitchingOccur() T = 38.475000 Tnext = 38.480000 Time: 3.84750e+01 states: [ 2.56702e+00 1.18418e+00] derivs: [ 1.18394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.480000 pESO->GetIndependentVar(): 38.480000 ==>IsSwitchingOccur() prevPhis[ 0]=13.885228, nextPhis[ 0]=13.897943 prevPhis[ 1]=-7.885228, nextPhis[ 1]=-7.897943 <==IsSwitchingOccur() T = 38.480000 Tnext = 38.485000 Time: 3.84800e+01 states: [ 2.57292e+00 1.17918e+00] derivs: [ 1.17894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.485000 pESO->GetIndependentVar(): 38.485000 ==>IsSwitchingOccur() prevPhis[ 0]=13.897943, nextPhis[ 0]=13.910583 prevPhis[ 1]=-7.897943, nextPhis[ 1]=-7.910583 <==IsSwitchingOccur() T = 38.485000 Tnext = 38.490000 Time: 3.84850e+01 states: [ 2.57880e+00 1.17418e+00] derivs: [ 1.17394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.490000 pESO->GetIndependentVar(): 38.490000 ==>IsSwitchingOccur() prevPhis[ 0]=13.910583, nextPhis[ 0]=13.923147 prevPhis[ 1]=-7.910583, nextPhis[ 1]=-7.923147 <==IsSwitchingOccur() T = 38.490000 Tnext = 38.495000 Time: 3.84900e+01 states: [ 2.58466e+00 1.16918e+00] derivs: [ 1.16894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.495000 pESO->GetIndependentVar(): 38.495000 ==>IsSwitchingOccur() prevPhis[ 0]=13.923147, nextPhis[ 0]=13.935637 prevPhis[ 1]=-7.923147, nextPhis[ 1]=-7.935637 <==IsSwitchingOccur() T = 38.495000 Tnext = 38.500000 Time: 3.84950e+01 states: [ 2.59049e+00 1.16418e+00] derivs: [ 1.16394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.500000 pESO->GetIndependentVar(): 38.500000 ==>IsSwitchingOccur() prevPhis[ 0]=13.935637, nextPhis[ 0]=13.948052 prevPhis[ 1]=-7.935637, nextPhis[ 1]=-7.948052 <==IsSwitchingOccur() T = 38.500000 Tnext = 38.505000 Time: 3.85000e+01 states: [ 2.59629e+00 1.15918e+00] derivs: [ 1.15894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.505000 pESO->GetIndependentVar(): 38.505000 ==>IsSwitchingOccur() prevPhis[ 0]=13.948052, nextPhis[ 0]=13.960392 prevPhis[ 1]=-7.948052, nextPhis[ 1]=-7.960392 <==IsSwitchingOccur() T = 38.505000 Tnext = 38.510000 Time: 3.85050e+01 states: [ 2.60207e+00 1.15418e+00] derivs: [ 1.15394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.510000 pESO->GetIndependentVar(): 38.510000 ==>IsSwitchingOccur() prevPhis[ 0]=13.960392, nextPhis[ 0]=13.972657 prevPhis[ 1]=-7.960392, nextPhis[ 1]=-7.972657 <==IsSwitchingOccur() T = 38.510000 Tnext = 38.515000 Time: 3.85100e+01 states: [ 2.60783e+00 1.14918e+00] derivs: [ 1.14894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.515000 pESO->GetIndependentVar(): 38.515000 ==>IsSwitchingOccur() prevPhis[ 0]=13.972657, nextPhis[ 0]=13.984847 prevPhis[ 1]=-7.972657, nextPhis[ 1]=-7.984847 <==IsSwitchingOccur() T = 38.515000 Tnext = 38.520000 Time: 3.85150e+01 states: [ 2.61356e+00 1.14418e+00] derivs: [ 1.14394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.520000 pESO->GetIndependentVar(): 38.520000 ==>IsSwitchingOccur() prevPhis[ 0]=13.984847, nextPhis[ 0]=13.996961 prevPhis[ 1]=-7.984847, nextPhis[ 1]=-7.996961 <==IsSwitchingOccur() T = 38.520000 Tnext = 38.525000 Time: 3.85200e+01 states: [ 2.61926e+00 1.13918e+00] derivs: [ 1.13894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.525000 pESO->GetIndependentVar(): 38.525000 ==>IsSwitchingOccur() prevPhis[ 0]=13.996961, nextPhis[ 0]=14.009001 prevPhis[ 1]=-7.996961, nextPhis[ 1]=-8.009001 <==IsSwitchingOccur() T = 38.525000 Tnext = 38.530000 Time: 3.85250e+01 states: [ 2.62494e+00 1.13418e+00] derivs: [ 1.13394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.530000 pESO->GetIndependentVar(): 38.530000 ==>IsSwitchingOccur() prevPhis[ 0]=14.009001, nextPhis[ 0]=14.020966 prevPhis[ 1]=-8.009001, nextPhis[ 1]=-8.020966 <==IsSwitchingOccur() T = 38.530000 Tnext = 38.535000 Time: 3.85300e+01 states: [ 2.63060e+00 1.12918e+00] derivs: [ 1.12894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.535000 pESO->GetIndependentVar(): 38.535000 ==>IsSwitchingOccur() prevPhis[ 0]=14.020966, nextPhis[ 0]=14.032856 prevPhis[ 1]=-8.020966, nextPhis[ 1]=-8.032856 <==IsSwitchingOccur() T = 38.535000 Tnext = 38.540000 Time: 3.85350e+01 states: [ 2.63623e+00 1.12418e+00] derivs: [ 1.12394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.540000 pESO->GetIndependentVar(): 38.540000 ==>IsSwitchingOccur() prevPhis[ 0]=14.032856, nextPhis[ 0]=14.044671 prevPhis[ 1]=-8.032856, nextPhis[ 1]=-8.044671 <==IsSwitchingOccur() T = 38.540000 Tnext = 38.545000 Time: 3.85400e+01 states: [ 2.64183e+00 1.11918e+00] derivs: [ 1.11894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.545000 pESO->GetIndependentVar(): 38.545000 ==>IsSwitchingOccur() prevPhis[ 0]=14.044671, nextPhis[ 0]=14.056411 prevPhis[ 1]=-8.044671, nextPhis[ 1]=-8.056411 <==IsSwitchingOccur() T = 38.545000 Tnext = 38.550000 Time: 3.85450e+01 states: [ 2.64741e+00 1.11418e+00] derivs: [ 1.11394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.550000 pESO->GetIndependentVar(): 38.550000 ==>IsSwitchingOccur() prevPhis[ 0]=14.056411, nextPhis[ 0]=14.068075 prevPhis[ 1]=-8.056411, nextPhis[ 1]=-8.068075 <==IsSwitchingOccur() T = 38.550000 Tnext = 38.555000 Time: 3.85500e+01 states: [ 2.65297e+00 1.10918e+00] derivs: [ 1.10894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.555000 pESO->GetIndependentVar(): 38.555000 ==>IsSwitchingOccur() prevPhis[ 0]=14.068075, nextPhis[ 0]=14.079665 prevPhis[ 1]=-8.068075, nextPhis[ 1]=-8.079665 <==IsSwitchingOccur() T = 38.555000 Tnext = 38.560000 Time: 3.85550e+01 states: [ 2.65850e+00 1.10418e+00] derivs: [ 1.10394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.560000 pESO->GetIndependentVar(): 38.560000 ==>IsSwitchingOccur() prevPhis[ 0]=14.079665, nextPhis[ 0]=14.091180 prevPhis[ 1]=-8.079665, nextPhis[ 1]=-8.091180 <==IsSwitchingOccur() T = 38.560000 Tnext = 38.565000 Time: 3.85600e+01 states: [ 2.66400e+00 1.09918e+00] derivs: [ 1.09894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.565000 pESO->GetIndependentVar(): 38.565000 ==>IsSwitchingOccur() prevPhis[ 0]=14.091180, nextPhis[ 0]=14.102620 prevPhis[ 1]=-8.091180, nextPhis[ 1]=-8.102620 <==IsSwitchingOccur() T = 38.565000 Tnext = 38.570000 Time: 3.85650e+01 states: [ 2.66948e+00 1.09418e+00] derivs: [ 1.09394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.570000 pESO->GetIndependentVar(): 38.570000 ==>IsSwitchingOccur() prevPhis[ 0]=14.102620, nextPhis[ 0]=14.113985 prevPhis[ 1]=-8.102620, nextPhis[ 1]=-8.113985 <==IsSwitchingOccur() T = 38.570000 Tnext = 38.575000 Time: 3.85700e+01 states: [ 2.67493e+00 1.08918e+00] derivs: [ 1.08894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.575000 pESO->GetIndependentVar(): 38.575000 ==>IsSwitchingOccur() prevPhis[ 0]=14.113985, nextPhis[ 0]=14.125275 prevPhis[ 1]=-8.113985, nextPhis[ 1]=-8.125275 <==IsSwitchingOccur() T = 38.575000 Tnext = 38.580000 Time: 3.85750e+01 states: [ 2.68036e+00 1.08418e+00] derivs: [ 1.08394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.580000 pESO->GetIndependentVar(): 38.580000 ==>IsSwitchingOccur() prevPhis[ 0]=14.125275, nextPhis[ 0]=14.136490 prevPhis[ 1]=-8.125275, nextPhis[ 1]=-8.136490 <==IsSwitchingOccur() T = 38.580000 Tnext = 38.585000 Time: 3.85800e+01 states: [ 2.68577e+00 1.07918e+00] derivs: [ 1.07894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.585000 pESO->GetIndependentVar(): 38.585000 ==>IsSwitchingOccur() prevPhis[ 0]=14.136490, nextPhis[ 0]=14.147629 prevPhis[ 1]=-8.136490, nextPhis[ 1]=-8.147629 <==IsSwitchingOccur() T = 38.585000 Tnext = 38.590000 Time: 3.85850e+01 states: [ 2.69115e+00 1.07418e+00] derivs: [ 1.07394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.590000 pESO->GetIndependentVar(): 38.590000 ==>IsSwitchingOccur() prevPhis[ 0]=14.147629, nextPhis[ 0]=14.158694 prevPhis[ 1]=-8.147629, nextPhis[ 1]=-8.158694 <==IsSwitchingOccur() T = 38.590000 Tnext = 38.595000 Time: 3.85900e+01 states: [ 2.69650e+00 1.06918e+00] derivs: [ 1.06894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.595000 pESO->GetIndependentVar(): 38.595000 ==>IsSwitchingOccur() prevPhis[ 0]=14.158694, nextPhis[ 0]=14.169684 prevPhis[ 1]=-8.158694, nextPhis[ 1]=-8.169684 <==IsSwitchingOccur() T = 38.595000 Tnext = 38.600000 Time: 3.85950e+01 states: [ 2.70183e+00 1.06418e+00] derivs: [ 1.06394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.600000 pESO->GetIndependentVar(): 38.600000 ==>IsSwitchingOccur() prevPhis[ 0]=14.169684, nextPhis[ 0]=14.180599 prevPhis[ 1]=-8.169684, nextPhis[ 1]=-8.180599 <==IsSwitchingOccur() T = 38.600000 Tnext = 38.605000 Time: 3.86000e+01 states: [ 2.70714e+00 1.05918e+00] derivs: [ 1.05894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.605000 pESO->GetIndependentVar(): 38.605000 ==>IsSwitchingOccur() prevPhis[ 0]=14.180599, nextPhis[ 0]=14.191439 prevPhis[ 1]=-8.180599, nextPhis[ 1]=-8.191439 <==IsSwitchingOccur() T = 38.605000 Tnext = 38.610000 Time: 3.86050e+01 states: [ 2.71242e+00 1.05418e+00] derivs: [ 1.05394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.610000 pESO->GetIndependentVar(): 38.610000 ==>IsSwitchingOccur() prevPhis[ 0]=14.191439, nextPhis[ 0]=14.202204 prevPhis[ 1]=-8.191439, nextPhis[ 1]=-8.202204 <==IsSwitchingOccur() T = 38.610000 Tnext = 38.615000 Time: 3.86100e+01 states: [ 2.71767e+00 1.04918e+00] derivs: [ 1.04894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.615000 pESO->GetIndependentVar(): 38.615000 ==>IsSwitchingOccur() prevPhis[ 0]=14.202204, nextPhis[ 0]=14.212893 prevPhis[ 1]=-8.202204, nextPhis[ 1]=-8.212893 <==IsSwitchingOccur() T = 38.615000 Tnext = 38.620000 Time: 3.86150e+01 states: [ 2.72290e+00 1.04418e+00] derivs: [ 1.04394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.620000 pESO->GetIndependentVar(): 38.620000 ==>IsSwitchingOccur() prevPhis[ 0]=14.212893, nextPhis[ 0]=14.223508 prevPhis[ 1]=-8.212893, nextPhis[ 1]=-8.223508 <==IsSwitchingOccur() T = 38.620000 Tnext = 38.625000 Time: 3.86200e+01 states: [ 2.72811e+00 1.03918e+00] derivs: [ 1.03894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.625000 pESO->GetIndependentVar(): 38.625000 ==>IsSwitchingOccur() prevPhis[ 0]=14.223508, nextPhis[ 0]=14.234048 prevPhis[ 1]=-8.223508, nextPhis[ 1]=-8.234048 <==IsSwitchingOccur() T = 38.625000 Tnext = 38.630000 Time: 3.86250e+01 states: [ 2.73329e+00 1.03418e+00] derivs: [ 1.03394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.630000 pESO->GetIndependentVar(): 38.630000 ==>IsSwitchingOccur() prevPhis[ 0]=14.234048, nextPhis[ 0]=14.244513 prevPhis[ 1]=-8.234048, nextPhis[ 1]=-8.244513 <==IsSwitchingOccur() T = 38.630000 Tnext = 38.635000 Time: 3.86300e+01 states: [ 2.73844e+00 1.02918e+00] derivs: [ 1.02894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.635000 pESO->GetIndependentVar(): 38.635000 ==>IsSwitchingOccur() prevPhis[ 0]=14.244513, nextPhis[ 0]=14.254903 prevPhis[ 1]=-8.244513, nextPhis[ 1]=-8.254903 <==IsSwitchingOccur() T = 38.635000 Tnext = 38.640000 Time: 3.86350e+01 states: [ 2.74357e+00 1.02418e+00] derivs: [ 1.02394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.640000 pESO->GetIndependentVar(): 38.640000 ==>IsSwitchingOccur() prevPhis[ 0]=14.254903, nextPhis[ 0]=14.265218 prevPhis[ 1]=-8.254903, nextPhis[ 1]=-8.265218 <==IsSwitchingOccur() T = 38.640000 Tnext = 38.645000 Time: 3.86400e+01 states: [ 2.74868e+00 1.01918e+00] derivs: [ 1.01894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.645000 pESO->GetIndependentVar(): 38.645000 ==>IsSwitchingOccur() prevPhis[ 0]=14.265218, nextPhis[ 0]=14.275457 prevPhis[ 1]=-8.265218, nextPhis[ 1]=-8.275457 <==IsSwitchingOccur() T = 38.645000 Tnext = 38.650000 Time: 3.86450e+01 states: [ 2.75376e+00 1.01418e+00] derivs: [ 1.01394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.650000 pESO->GetIndependentVar(): 38.650000 ==>IsSwitchingOccur() prevPhis[ 0]=14.275457, nextPhis[ 0]=14.285622 prevPhis[ 1]=-8.275457, nextPhis[ 1]=-8.285622 <==IsSwitchingOccur() T = 38.650000 Tnext = 38.655000 Time: 3.86500e+01 states: [ 2.75881e+00 1.00918e+00] derivs: [ 1.00894e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.655000 pESO->GetIndependentVar(): 38.655000 ==>IsSwitchingOccur() prevPhis[ 0]=14.285622, nextPhis[ 0]=14.295712 prevPhis[ 1]=-8.285622, nextPhis[ 1]=-8.295712 <==IsSwitchingOccur() T = 38.655000 Tnext = 38.660000 Time: 3.86550e+01 states: [ 2.76384e+00 1.00418e+00] derivs: [ 1.00394e+00 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.660000 pESO->GetIndependentVar(): 38.660000 ==>IsSwitchingOccur() prevPhis[ 0]=14.295712, nextPhis[ 0]=14.305727 prevPhis[ 1]=-8.295712, nextPhis[ 1]=-8.305727 <==IsSwitchingOccur() T = 38.660000 Tnext = 38.665000 Time: 3.86600e+01 states: [ 2.76885e+00 9.99180e-01] derivs: [ 9.98937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.665000 pESO->GetIndependentVar(): 38.665000 ==>IsSwitchingOccur() prevPhis[ 0]=14.305727, nextPhis[ 0]=14.315667 prevPhis[ 1]=-8.305727, nextPhis[ 1]=-8.315667 <==IsSwitchingOccur() T = 38.665000 Tnext = 38.670000 Time: 3.86650e+01 states: [ 2.77383e+00 9.94180e-01] derivs: [ 9.93937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.670000 pESO->GetIndependentVar(): 38.670000 ==>IsSwitchingOccur() prevPhis[ 0]=14.315667, nextPhis[ 0]=14.325532 prevPhis[ 1]=-8.315667, nextPhis[ 1]=-8.325532 <==IsSwitchingOccur() T = 38.670000 Tnext = 38.675000 Time: 3.86700e+01 states: [ 2.77878e+00 9.89180e-01] derivs: [ 9.88937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.675000 pESO->GetIndependentVar(): 38.675000 ==>IsSwitchingOccur() prevPhis[ 0]=14.325532, nextPhis[ 0]=14.335322 prevPhis[ 1]=-8.325532, nextPhis[ 1]=-8.335322 <==IsSwitchingOccur() T = 38.675000 Tnext = 38.680000 Time: 3.86750e+01 states: [ 2.78371e+00 9.84180e-01] derivs: [ 9.83937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.680000 pESO->GetIndependentVar(): 38.680000 ==>IsSwitchingOccur() prevPhis[ 0]=14.335322, nextPhis[ 0]=14.345036 prevPhis[ 1]=-8.335322, nextPhis[ 1]=-8.345036 <==IsSwitchingOccur() T = 38.680000 Tnext = 38.685000 Time: 3.86800e+01 states: [ 2.78862e+00 9.79180e-01] derivs: [ 9.78937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.685000 pESO->GetIndependentVar(): 38.685000 ==>IsSwitchingOccur() prevPhis[ 0]=14.345036, nextPhis[ 0]=14.354676 prevPhis[ 1]=-8.345036, nextPhis[ 1]=-8.354676 <==IsSwitchingOccur() T = 38.685000 Tnext = 38.690000 Time: 3.86850e+01 states: [ 2.79350e+00 9.74180e-01] derivs: [ 9.73937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.690000 pESO->GetIndependentVar(): 38.690000 ==>IsSwitchingOccur() prevPhis[ 0]=14.354676, nextPhis[ 0]=14.364241 prevPhis[ 1]=-8.354676, nextPhis[ 1]=-8.364241 <==IsSwitchingOccur() T = 38.690000 Tnext = 38.695000 Time: 3.86900e+01 states: [ 2.79835e+00 9.69180e-01] derivs: [ 9.68937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.695000 pESO->GetIndependentVar(): 38.695000 ==>IsSwitchingOccur() prevPhis[ 0]=14.364241, nextPhis[ 0]=14.373731 prevPhis[ 1]=-8.364241, nextPhis[ 1]=-8.373731 <==IsSwitchingOccur() T = 38.695000 Tnext = 38.700000 Time: 3.86950e+01 states: [ 2.80318e+00 9.64180e-01] derivs: [ 9.63937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.700000 pESO->GetIndependentVar(): 38.700000 ==>IsSwitchingOccur() prevPhis[ 0]=14.373731, nextPhis[ 0]=14.383146 prevPhis[ 1]=-8.373731, nextPhis[ 1]=-8.383146 <==IsSwitchingOccur() T = 38.700000 Tnext = 38.705000 Time: 3.87000e+01 states: [ 2.80799e+00 9.59180e-01] derivs: [ 9.58937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.705000 pESO->GetIndependentVar(): 38.705000 ==>IsSwitchingOccur() prevPhis[ 0]=14.383146, nextPhis[ 0]=14.392486 prevPhis[ 1]=-8.383146, nextPhis[ 1]=-8.392486 <==IsSwitchingOccur() T = 38.705000 Tnext = 38.710000 Time: 3.87050e+01 states: [ 2.81277e+00 9.54180e-01] derivs: [ 9.53937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.710000 pESO->GetIndependentVar(): 38.710000 ==>IsSwitchingOccur() prevPhis[ 0]=14.392486, nextPhis[ 0]=14.401750 prevPhis[ 1]=-8.392486, nextPhis[ 1]=-8.401750 <==IsSwitchingOccur() T = 38.710000 Tnext = 38.715000 Time: 3.87100e+01 states: [ 2.81752e+00 9.49180e-01] derivs: [ 9.48937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.715000 pESO->GetIndependentVar(): 38.715000 ==>IsSwitchingOccur() prevPhis[ 0]=14.401750, nextPhis[ 0]=14.410940 prevPhis[ 1]=-8.401750, nextPhis[ 1]=-8.410940 <==IsSwitchingOccur() T = 38.715000 Tnext = 38.720000 Time: 3.87150e+01 states: [ 2.82225e+00 9.44180e-01] derivs: [ 9.43937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.720000 pESO->GetIndependentVar(): 38.720000 ==>IsSwitchingOccur() prevPhis[ 0]=14.410940, nextPhis[ 0]=14.420055 prevPhis[ 1]=-8.410940, nextPhis[ 1]=-8.420055 <==IsSwitchingOccur() T = 38.720000 Tnext = 38.725000 Time: 3.87200e+01 states: [ 2.82696e+00 9.39180e-01] derivs: [ 9.38937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.725000 pESO->GetIndependentVar(): 38.725000 ==>IsSwitchingOccur() prevPhis[ 0]=14.420055, nextPhis[ 0]=14.429095 prevPhis[ 1]=-8.420055, nextPhis[ 1]=-8.429095 <==IsSwitchingOccur() T = 38.725000 Tnext = 38.730000 Time: 3.87250e+01 states: [ 2.83164e+00 9.34180e-01] derivs: [ 9.33937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.730000 pESO->GetIndependentVar(): 38.730000 ==>IsSwitchingOccur() prevPhis[ 0]=14.429095, nextPhis[ 0]=14.438060 prevPhis[ 1]=-8.429095, nextPhis[ 1]=-8.438060 <==IsSwitchingOccur() T = 38.730000 Tnext = 38.735000 Time: 3.87300e+01 states: [ 2.83629e+00 9.29180e-01] derivs: [ 9.28937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.735000 pESO->GetIndependentVar(): 38.735000 ==>IsSwitchingOccur() prevPhis[ 0]=14.438060, nextPhis[ 0]=14.446950 prevPhis[ 1]=-8.438060, nextPhis[ 1]=-8.446950 <==IsSwitchingOccur() T = 38.735000 Tnext = 38.740000 Time: 3.87350e+01 states: [ 2.84092e+00 9.24180e-01] derivs: [ 9.23937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.740000 pESO->GetIndependentVar(): 38.740000 ==>IsSwitchingOccur() prevPhis[ 0]=14.446950, nextPhis[ 0]=14.455765 prevPhis[ 1]=-8.446950, nextPhis[ 1]=-8.455765 <==IsSwitchingOccur() T = 38.740000 Tnext = 38.745000 Time: 3.87400e+01 states: [ 2.84553e+00 9.19180e-01] derivs: [ 9.18937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.745000 pESO->GetIndependentVar(): 38.745000 ==>IsSwitchingOccur() prevPhis[ 0]=14.455765, nextPhis[ 0]=14.464504 prevPhis[ 1]=-8.455765, nextPhis[ 1]=-8.464504 <==IsSwitchingOccur() T = 38.745000 Tnext = 38.750000 Time: 3.87450e+01 states: [ 2.85011e+00 9.14180e-01] derivs: [ 9.13937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.750000 pESO->GetIndependentVar(): 38.750000 ==>IsSwitchingOccur() prevPhis[ 0]=14.464504, nextPhis[ 0]=14.473169 prevPhis[ 1]=-8.464504, nextPhis[ 1]=-8.473169 <==IsSwitchingOccur() T = 38.750000 Tnext = 38.755000 Time: 3.87500e+01 states: [ 2.85466e+00 9.09180e-01] derivs: [ 9.08937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.755000 pESO->GetIndependentVar(): 38.755000 ==>IsSwitchingOccur() prevPhis[ 0]=14.473169, nextPhis[ 0]=14.481759 prevPhis[ 1]=-8.473169, nextPhis[ 1]=-8.481759 <==IsSwitchingOccur() T = 38.755000 Tnext = 38.760000 Time: 3.87550e+01 states: [ 2.85919e+00 9.04180e-01] derivs: [ 9.03937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.760000 pESO->GetIndependentVar(): 38.760000 ==>IsSwitchingOccur() prevPhis[ 0]=14.481759, nextPhis[ 0]=14.490274 prevPhis[ 1]=-8.481759, nextPhis[ 1]=-8.490274 <==IsSwitchingOccur() T = 38.760000 Tnext = 38.765000 Time: 3.87600e+01 states: [ 2.86370e+00 8.99180e-01] derivs: [ 8.98937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.765000 pESO->GetIndependentVar(): 38.765000 ==>IsSwitchingOccur() prevPhis[ 0]=14.490274, nextPhis[ 0]=14.498714 prevPhis[ 1]=-8.490274, nextPhis[ 1]=-8.498714 <==IsSwitchingOccur() T = 38.765000 Tnext = 38.770000 Time: 3.87650e+01 states: [ 2.86818e+00 8.94180e-01] derivs: [ 8.93937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.770000 pESO->GetIndependentVar(): 38.770000 ==>IsSwitchingOccur() prevPhis[ 0]=14.498714, nextPhis[ 0]=14.507079 prevPhis[ 1]=-8.498714, nextPhis[ 1]=-8.507079 <==IsSwitchingOccur() T = 38.770000 Tnext = 38.775000 Time: 3.87700e+01 states: [ 2.87263e+00 8.89180e-01] derivs: [ 8.88937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.775000 pESO->GetIndependentVar(): 38.775000 ==>IsSwitchingOccur() prevPhis[ 0]=14.507079, nextPhis[ 0]=14.515368 prevPhis[ 1]=-8.507079, nextPhis[ 1]=-8.515368 <==IsSwitchingOccur() T = 38.775000 Tnext = 38.780000 Time: 3.87750e+01 states: [ 2.87706e+00 8.84180e-01] derivs: [ 8.83937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.780000 pESO->GetIndependentVar(): 38.780000 ==>IsSwitchingOccur() prevPhis[ 0]=14.515368, nextPhis[ 0]=14.523583 prevPhis[ 1]=-8.515368, nextPhis[ 1]=-8.523583 <==IsSwitchingOccur() T = 38.780000 Tnext = 38.785000 Time: 3.87800e+01 states: [ 2.88147e+00 8.79180e-01] derivs: [ 8.78937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.785000 pESO->GetIndependentVar(): 38.785000 ==>IsSwitchingOccur() prevPhis[ 0]=14.523583, nextPhis[ 0]=14.531723 prevPhis[ 1]=-8.523583, nextPhis[ 1]=-8.531723 <==IsSwitchingOccur() T = 38.785000 Tnext = 38.790000 Time: 3.87850e+01 states: [ 2.88585e+00 8.74180e-01] derivs: [ 8.73937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.790000 pESO->GetIndependentVar(): 38.790000 ==>IsSwitchingOccur() prevPhis[ 0]=14.531723, nextPhis[ 0]=14.539788 prevPhis[ 1]=-8.531723, nextPhis[ 1]=-8.539788 <==IsSwitchingOccur() T = 38.790000 Tnext = 38.795000 Time: 3.87900e+01 states: [ 2.89020e+00 8.69180e-01] derivs: [ 8.68937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.795000 pESO->GetIndependentVar(): 38.795000 ==>IsSwitchingOccur() prevPhis[ 0]=14.539788, nextPhis[ 0]=14.547778 prevPhis[ 1]=-8.539788, nextPhis[ 1]=-8.547778 <==IsSwitchingOccur() T = 38.795000 Tnext = 38.800000 Time: 3.87950e+01 states: [ 2.89453e+00 8.64180e-01] derivs: [ 8.63937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.800000 pESO->GetIndependentVar(): 38.800000 ==>IsSwitchingOccur() prevPhis[ 0]=14.547778, nextPhis[ 0]=14.555693 prevPhis[ 1]=-8.547778, nextPhis[ 1]=-8.555693 <==IsSwitchingOccur() T = 38.800000 Tnext = 38.805000 Time: 3.88000e+01 states: [ 2.89884e+00 8.59180e-01] derivs: [ 8.58937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.805000 pESO->GetIndependentVar(): 38.805000 ==>IsSwitchingOccur() prevPhis[ 0]=14.555693, nextPhis[ 0]=14.563532 prevPhis[ 1]=-8.555693, nextPhis[ 1]=-8.563532 <==IsSwitchingOccur() T = 38.805000 Tnext = 38.810000 Time: 3.88050e+01 states: [ 2.90312e+00 8.54180e-01] derivs: [ 8.53937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.810000 pESO->GetIndependentVar(): 38.810000 ==>IsSwitchingOccur() prevPhis[ 0]=14.563532, nextPhis[ 0]=14.571297 prevPhis[ 1]=-8.563532, nextPhis[ 1]=-8.571297 <==IsSwitchingOccur() T = 38.810000 Tnext = 38.815000 Time: 3.88100e+01 states: [ 2.90737e+00 8.49180e-01] derivs: [ 8.48937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.815000 pESO->GetIndependentVar(): 38.815000 ==>IsSwitchingOccur() prevPhis[ 0]=14.571297, nextPhis[ 0]=14.578987 prevPhis[ 1]=-8.571297, nextPhis[ 1]=-8.578987 <==IsSwitchingOccur() T = 38.815000 Tnext = 38.820000 Time: 3.88150e+01 states: [ 2.91160e+00 8.44180e-01] derivs: [ 8.43937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.820000 pESO->GetIndependentVar(): 38.820000 ==>IsSwitchingOccur() prevPhis[ 0]=14.578987, nextPhis[ 0]=14.586602 prevPhis[ 1]=-8.578987, nextPhis[ 1]=-8.586602 <==IsSwitchingOccur() T = 38.820000 Tnext = 38.825000 Time: 3.88200e+01 states: [ 2.91581e+00 8.39180e-01] derivs: [ 8.38937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.825000 pESO->GetIndependentVar(): 38.825000 ==>IsSwitchingOccur() prevPhis[ 0]=14.586602, nextPhis[ 0]=14.594142 prevPhis[ 1]=-8.586602, nextPhis[ 1]=-8.594142 <==IsSwitchingOccur() T = 38.825000 Tnext = 38.830000 Time: 3.88250e+01 states: [ 2.91999e+00 8.34180e-01] derivs: [ 8.33937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.830000 pESO->GetIndependentVar(): 38.830000 ==>IsSwitchingOccur() prevPhis[ 0]=14.594142, nextPhis[ 0]=14.601607 prevPhis[ 1]=-8.594142, nextPhis[ 1]=-8.601607 <==IsSwitchingOccur() T = 38.830000 Tnext = 38.835000 Time: 3.88300e+01 states: [ 2.92414e+00 8.29180e-01] derivs: [ 8.28937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.835000 pESO->GetIndependentVar(): 38.835000 ==>IsSwitchingOccur() prevPhis[ 0]=14.601607, nextPhis[ 0]=14.608997 prevPhis[ 1]=-8.601607, nextPhis[ 1]=-8.608997 <==IsSwitchingOccur() T = 38.835000 Tnext = 38.840000 Time: 3.88350e+01 states: [ 2.92827e+00 8.24180e-01] derivs: [ 8.23937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.840000 pESO->GetIndependentVar(): 38.840000 ==>IsSwitchingOccur() prevPhis[ 0]=14.608997, nextPhis[ 0]=14.616311 prevPhis[ 1]=-8.608997, nextPhis[ 1]=-8.616311 <==IsSwitchingOccur() T = 38.840000 Tnext = 38.845000 Time: 3.88400e+01 states: [ 2.93238e+00 8.19180e-01] derivs: [ 8.18937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.845000 pESO->GetIndependentVar(): 38.845000 ==>IsSwitchingOccur() prevPhis[ 0]=14.616311, nextPhis[ 0]=14.623551 prevPhis[ 1]=-8.616311, nextPhis[ 1]=-8.623551 <==IsSwitchingOccur() T = 38.845000 Tnext = 38.850000 Time: 3.88450e+01 states: [ 2.93646e+00 8.14180e-01] derivs: [ 8.13937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.850000 pESO->GetIndependentVar(): 38.850000 ==>IsSwitchingOccur() prevPhis[ 0]=14.623551, nextPhis[ 0]=14.630716 prevPhis[ 1]=-8.623551, nextPhis[ 1]=-8.630716 <==IsSwitchingOccur() T = 38.850000 Tnext = 38.855000 Time: 3.88500e+01 states: [ 2.94051e+00 8.09180e-01] derivs: [ 8.08937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.855000 pESO->GetIndependentVar(): 38.855000 ==>IsSwitchingOccur() prevPhis[ 0]=14.630716, nextPhis[ 0]=14.637806 prevPhis[ 1]=-8.630716, nextPhis[ 1]=-8.637806 <==IsSwitchingOccur() T = 38.855000 Tnext = 38.860000 Time: 3.88550e+01 states: [ 2.94454e+00 8.04180e-01] derivs: [ 8.03937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.860000 pESO->GetIndependentVar(): 38.860000 ==>IsSwitchingOccur() prevPhis[ 0]=14.637806, nextPhis[ 0]=14.644821 prevPhis[ 1]=-8.637806, nextPhis[ 1]=-8.644821 <==IsSwitchingOccur() T = 38.860000 Tnext = 38.865000 Time: 3.88600e+01 states: [ 2.94855e+00 7.99180e-01] derivs: [ 7.98937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.865000 pESO->GetIndependentVar(): 38.865000 ==>IsSwitchingOccur() prevPhis[ 0]=14.644821, nextPhis[ 0]=14.651761 prevPhis[ 1]=-8.644821, nextPhis[ 1]=-8.651761 <==IsSwitchingOccur() T = 38.865000 Tnext = 38.870000 Time: 3.88650e+01 states: [ 2.95253e+00 7.94180e-01] derivs: [ 7.93937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.870000 pESO->GetIndependentVar(): 38.870000 ==>IsSwitchingOccur() prevPhis[ 0]=14.651761, nextPhis[ 0]=14.658625 prevPhis[ 1]=-8.651761, nextPhis[ 1]=-8.658625 <==IsSwitchingOccur() T = 38.870000 Tnext = 38.875000 Time: 3.88700e+01 states: [ 2.95648e+00 7.89180e-01] derivs: [ 7.88937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.875000 pESO->GetIndependentVar(): 38.875000 ==>IsSwitchingOccur() prevPhis[ 0]=14.658625, nextPhis[ 0]=14.665415 prevPhis[ 1]=-8.658625, nextPhis[ 1]=-8.665415 <==IsSwitchingOccur() T = 38.875000 Tnext = 38.880000 Time: 3.88750e+01 states: [ 2.96041e+00 7.84180e-01] derivs: [ 7.83937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.880000 pESO->GetIndependentVar(): 38.880000 ==>IsSwitchingOccur() prevPhis[ 0]=14.665415, nextPhis[ 0]=14.672130 prevPhis[ 1]=-8.665415, nextPhis[ 1]=-8.672130 <==IsSwitchingOccur() T = 38.880000 Tnext = 38.885000 Time: 3.88800e+01 states: [ 2.96432e+00 7.79180e-01] derivs: [ 7.78937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.885000 pESO->GetIndependentVar(): 38.885000 ==>IsSwitchingOccur() prevPhis[ 0]=14.672130, nextPhis[ 0]=14.678770 prevPhis[ 1]=-8.672130, nextPhis[ 1]=-8.678770 <==IsSwitchingOccur() T = 38.885000 Tnext = 38.890000 Time: 3.88850e+01 states: [ 2.96820e+00 7.74180e-01] derivs: [ 7.73937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.890000 pESO->GetIndependentVar(): 38.890000 ==>IsSwitchingOccur() prevPhis[ 0]=14.678770, nextPhis[ 0]=14.685335 prevPhis[ 1]=-8.678770, nextPhis[ 1]=-8.685335 <==IsSwitchingOccur() T = 38.890000 Tnext = 38.895000 Time: 3.88900e+01 states: [ 2.97205e+00 7.69180e-01] derivs: [ 7.68937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.895000 pESO->GetIndependentVar(): 38.895000 ==>IsSwitchingOccur() prevPhis[ 0]=14.685335, nextPhis[ 0]=14.691825 prevPhis[ 1]=-8.685335, nextPhis[ 1]=-8.691825 <==IsSwitchingOccur() T = 38.895000 Tnext = 38.900000 Time: 3.88950e+01 states: [ 2.97588e+00 7.64180e-01] derivs: [ 7.63937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.900000 pESO->GetIndependentVar(): 38.900000 ==>IsSwitchingOccur() prevPhis[ 0]=14.691825, nextPhis[ 0]=14.698239 prevPhis[ 1]=-8.691825, nextPhis[ 1]=-8.698239 <==IsSwitchingOccur() T = 38.900000 Tnext = 38.905000 Time: 3.89000e+01 states: [ 2.97969e+00 7.59180e-01] derivs: [ 7.58937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.905000 pESO->GetIndependentVar(): 38.905000 ==>IsSwitchingOccur() prevPhis[ 0]=14.698239, nextPhis[ 0]=14.704579 prevPhis[ 1]=-8.698239, nextPhis[ 1]=-8.704579 <==IsSwitchingOccur() T = 38.905000 Tnext = 38.910000 Time: 3.89050e+01 states: [ 2.98347e+00 7.54180e-01] derivs: [ 7.53937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.910000 pESO->GetIndependentVar(): 38.910000 ==>IsSwitchingOccur() prevPhis[ 0]=14.704579, nextPhis[ 0]=14.710844 prevPhis[ 1]=-8.704579, nextPhis[ 1]=-8.710844 <==IsSwitchingOccur() T = 38.910000 Tnext = 38.915000 Time: 3.89100e+01 states: [ 2.98722e+00 7.49180e-01] derivs: [ 7.48937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.915000 pESO->GetIndependentVar(): 38.915000 ==>IsSwitchingOccur() prevPhis[ 0]=14.710844, nextPhis[ 0]=14.717034 prevPhis[ 1]=-8.710844, nextPhis[ 1]=-8.717034 <==IsSwitchingOccur() T = 38.915000 Tnext = 38.920000 Time: 3.89150e+01 states: [ 2.99095e+00 7.44180e-01] derivs: [ 7.43937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.920000 pESO->GetIndependentVar(): 38.920000 ==>IsSwitchingOccur() prevPhis[ 0]=14.717034, nextPhis[ 0]=14.723149 prevPhis[ 1]=-8.717034, nextPhis[ 1]=-8.723149 <==IsSwitchingOccur() T = 38.920000 Tnext = 38.925000 Time: 3.89200e+01 states: [ 2.99466e+00 7.39180e-01] derivs: [ 7.38937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.925000 pESO->GetIndependentVar(): 38.925000 ==>IsSwitchingOccur() prevPhis[ 0]=14.723149, nextPhis[ 0]=14.729189 prevPhis[ 1]=-8.723149, nextPhis[ 1]=-8.729189 <==IsSwitchingOccur() T = 38.925000 Tnext = 38.930000 Time: 3.89250e+01 states: [ 2.99834e+00 7.34180e-01] derivs: [ 7.33937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.930000 pESO->GetIndependentVar(): 38.930000 ==>IsSwitchingOccur() prevPhis[ 0]=14.729189, nextPhis[ 0]=14.735154 prevPhis[ 1]=-8.729189, nextPhis[ 1]=-8.735154 <==IsSwitchingOccur() T = 38.930000 Tnext = 38.935000 Time: 3.89300e+01 states: [ 3.00199e+00 7.29180e-01] derivs: [ 7.28937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.935000 pESO->GetIndependentVar(): 38.935000 ==>IsSwitchingOccur() prevPhis[ 0]=14.735154, nextPhis[ 0]=14.741043 prevPhis[ 1]=-8.735154, nextPhis[ 1]=-8.741043 <==IsSwitchingOccur() T = 38.935000 Tnext = 38.940000 Time: 3.89350e+01 states: [ 3.00562e+00 7.24180e-01] derivs: [ 7.23937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.940000 pESO->GetIndependentVar(): 38.940000 ==>IsSwitchingOccur() prevPhis[ 0]=14.741043, nextPhis[ 0]=14.746858 prevPhis[ 1]=-8.741043, nextPhis[ 1]=-8.746858 <==IsSwitchingOccur() T = 38.940000 Tnext = 38.945000 Time: 3.89400e+01 states: [ 3.00923e+00 7.19180e-01] derivs: [ 7.18937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.945000 pESO->GetIndependentVar(): 38.945000 ==>IsSwitchingOccur() prevPhis[ 0]=14.746858, nextPhis[ 0]=14.752598 prevPhis[ 1]=-8.746858, nextPhis[ 1]=-8.752598 <==IsSwitchingOccur() T = 38.945000 Tnext = 38.950000 Time: 3.89450e+01 states: [ 3.01281e+00 7.14180e-01] derivs: [ 7.13937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.950000 pESO->GetIndependentVar(): 38.950000 ==>IsSwitchingOccur() prevPhis[ 0]=14.752598, nextPhis[ 0]=14.758263 prevPhis[ 1]=-8.752598, nextPhis[ 1]=-8.758263 <==IsSwitchingOccur() T = 38.950000 Tnext = 38.955000 Time: 3.89500e+01 states: [ 3.01636e+00 7.09180e-01] derivs: [ 7.08937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.955000 pESO->GetIndependentVar(): 38.955000 ==>IsSwitchingOccur() prevPhis[ 0]=14.758263, nextPhis[ 0]=14.763853 prevPhis[ 1]=-8.758263, nextPhis[ 1]=-8.763853 <==IsSwitchingOccur() T = 38.955000 Tnext = 38.960000 Time: 3.89550e+01 states: [ 3.01989e+00 7.04180e-01] derivs: [ 7.03937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.960000 pESO->GetIndependentVar(): 38.960000 ==>IsSwitchingOccur() prevPhis[ 0]=14.763853, nextPhis[ 0]=14.769368 prevPhis[ 1]=-8.763853, nextPhis[ 1]=-8.769368 <==IsSwitchingOccur() T = 38.960000 Tnext = 38.965000 Time: 3.89600e+01 states: [ 3.02340e+00 6.99180e-01] derivs: [ 6.98937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.965000 pESO->GetIndependentVar(): 38.965000 ==>IsSwitchingOccur() prevPhis[ 0]=14.769368, nextPhis[ 0]=14.774807 prevPhis[ 1]=-8.769368, nextPhis[ 1]=-8.774807 <==IsSwitchingOccur() T = 38.965000 Tnext = 38.970000 Time: 3.89650e+01 states: [ 3.02688e+00 6.94180e-01] derivs: [ 6.93937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.970000 pESO->GetIndependentVar(): 38.970000 ==>IsSwitchingOccur() prevPhis[ 0]=14.774807, nextPhis[ 0]=14.780172 prevPhis[ 1]=-8.774807, nextPhis[ 1]=-8.780172 <==IsSwitchingOccur() T = 38.970000 Tnext = 38.975000 Time: 3.89700e+01 states: [ 3.03033e+00 6.89180e-01] derivs: [ 6.88937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.975000 pESO->GetIndependentVar(): 38.975000 ==>IsSwitchingOccur() prevPhis[ 0]=14.780172, nextPhis[ 0]=14.785462 prevPhis[ 1]=-8.780172, nextPhis[ 1]=-8.785462 <==IsSwitchingOccur() T = 38.975000 Tnext = 38.980000 Time: 3.89750e+01 states: [ 3.03376e+00 6.84180e-01] derivs: [ 6.83937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.980000 pESO->GetIndependentVar(): 38.980000 ==>IsSwitchingOccur() prevPhis[ 0]=14.785462, nextPhis[ 0]=14.790677 prevPhis[ 1]=-8.785462, nextPhis[ 1]=-8.790677 <==IsSwitchingOccur() T = 38.980000 Tnext = 38.985000 Time: 3.89800e+01 states: [ 3.03717e+00 6.79180e-01] derivs: [ 6.78937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.985000 pESO->GetIndependentVar(): 38.985000 ==>IsSwitchingOccur() prevPhis[ 0]=14.790677, nextPhis[ 0]=14.795817 prevPhis[ 1]=-8.790677, nextPhis[ 1]=-8.795817 <==IsSwitchingOccur() T = 38.985000 Tnext = 38.990000 Time: 3.89850e+01 states: [ 3.04055e+00 6.74180e-01] derivs: [ 6.73937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.990000 pESO->GetIndependentVar(): 38.990000 ==>IsSwitchingOccur() prevPhis[ 0]=14.795817, nextPhis[ 0]=14.800882 prevPhis[ 1]=-8.795817, nextPhis[ 1]=-8.800882 <==IsSwitchingOccur() T = 38.990000 Tnext = 38.995000 Time: 3.89900e+01 states: [ 3.04390e+00 6.69180e-01] derivs: [ 6.68937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 38.995000 pESO->GetIndependentVar(): 38.995000 ==>IsSwitchingOccur() prevPhis[ 0]=14.800882, nextPhis[ 0]=14.805871 prevPhis[ 1]=-8.800882, nextPhis[ 1]=-8.805871 <==IsSwitchingOccur() T = 38.995000 Tnext = 39.000000 Time: 3.89950e+01 states: [ 3.04723e+00 6.64180e-01] derivs: [ 6.63937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.000000 pESO->GetIndependentVar(): 39.000000 ==>IsSwitchingOccur() prevPhis[ 0]=14.805871, nextPhis[ 0]=14.810786 prevPhis[ 1]=-8.805871, nextPhis[ 1]=-8.810786 <==IsSwitchingOccur() T = 39.000000 Tnext = 39.005000 Time: 3.90000e+01 states: [ 3.05054e+00 6.59180e-01] derivs: [ 6.58937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.005000 pESO->GetIndependentVar(): 39.005000 ==>IsSwitchingOccur() prevPhis[ 0]=14.810786, nextPhis[ 0]=14.815626 prevPhis[ 1]=-8.810786, nextPhis[ 1]=-8.815626 <==IsSwitchingOccur() T = 39.005000 Tnext = 39.010000 Time: 3.90050e+01 states: [ 3.05382e+00 6.54180e-01] derivs: [ 6.53937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.010000 pESO->GetIndependentVar(): 39.010000 ==>IsSwitchingOccur() prevPhis[ 0]=14.815626, nextPhis[ 0]=14.820391 prevPhis[ 1]=-8.815626, nextPhis[ 1]=-8.820391 <==IsSwitchingOccur() T = 39.010000 Tnext = 39.015000 Time: 3.90100e+01 states: [ 3.05707e+00 6.49180e-01] derivs: [ 6.48937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.015000 pESO->GetIndependentVar(): 39.015000 ==>IsSwitchingOccur() prevPhis[ 0]=14.820391, nextPhis[ 0]=14.825081 prevPhis[ 1]=-8.820391, nextPhis[ 1]=-8.825081 <==IsSwitchingOccur() T = 39.015000 Tnext = 39.020000 Time: 3.90150e+01 states: [ 3.06030e+00 6.44180e-01] derivs: [ 6.43937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.020000 pESO->GetIndependentVar(): 39.020000 ==>IsSwitchingOccur() prevPhis[ 0]=14.825081, nextPhis[ 0]=14.829696 prevPhis[ 1]=-8.825081, nextPhis[ 1]=-8.829696 <==IsSwitchingOccur() T = 39.020000 Tnext = 39.025000 Time: 3.90200e+01 states: [ 3.06351e+00 6.39180e-01] derivs: [ 6.38937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.025000 pESO->GetIndependentVar(): 39.025000 ==>IsSwitchingOccur() prevPhis[ 0]=14.829696, nextPhis[ 0]=14.834236 prevPhis[ 1]=-8.829696, nextPhis[ 1]=-8.834236 <==IsSwitchingOccur() T = 39.025000 Tnext = 39.030000 Time: 3.90250e+01 states: [ 3.06669e+00 6.34180e-01] derivs: [ 6.33937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.030000 pESO->GetIndependentVar(): 39.030000 ==>IsSwitchingOccur() prevPhis[ 0]=14.834236, nextPhis[ 0]=14.838700 prevPhis[ 1]=-8.834236, nextPhis[ 1]=-8.838700 <==IsSwitchingOccur() T = 39.030000 Tnext = 39.035000 Time: 3.90300e+01 states: [ 3.06984e+00 6.29180e-01] derivs: [ 6.28937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.035000 pESO->GetIndependentVar(): 39.035000 ==>IsSwitchingOccur() prevPhis[ 0]=14.838700, nextPhis[ 0]=14.843090 prevPhis[ 1]=-8.838700, nextPhis[ 1]=-8.843090 <==IsSwitchingOccur() T = 39.035000 Tnext = 39.040000 Time: 3.90350e+01 states: [ 3.07297e+00 6.24180e-01] derivs: [ 6.23937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.040000 pESO->GetIndependentVar(): 39.040000 ==>IsSwitchingOccur() prevPhis[ 0]=14.843090, nextPhis[ 0]=14.847405 prevPhis[ 1]=-8.843090, nextPhis[ 1]=-8.847405 <==IsSwitchingOccur() T = 39.040000 Tnext = 39.045000 Time: 3.90400e+01 states: [ 3.07608e+00 6.19180e-01] derivs: [ 6.18937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.045000 pESO->GetIndependentVar(): 39.045000 ==>IsSwitchingOccur() prevPhis[ 0]=14.847405, nextPhis[ 0]=14.851645 prevPhis[ 1]=-8.847405, nextPhis[ 1]=-8.851645 <==IsSwitchingOccur() T = 39.045000 Tnext = 39.050000 Time: 3.90450e+01 states: [ 3.07915e+00 6.14180e-01] derivs: [ 6.13937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.050000 pESO->GetIndependentVar(): 39.050000 ==>IsSwitchingOccur() prevPhis[ 0]=14.851645, nextPhis[ 0]=14.855810 prevPhis[ 1]=-8.851645, nextPhis[ 1]=-8.855810 <==IsSwitchingOccur() T = 39.050000 Tnext = 39.055000 Time: 3.90500e+01 states: [ 3.08221e+00 6.09180e-01] derivs: [ 6.08937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.055000 pESO->GetIndependentVar(): 39.055000 ==>IsSwitchingOccur() prevPhis[ 0]=14.855810, nextPhis[ 0]=14.859900 prevPhis[ 1]=-8.855810, nextPhis[ 1]=-8.859900 <==IsSwitchingOccur() T = 39.055000 Tnext = 39.060000 Time: 3.90550e+01 states: [ 3.08524e+00 6.04180e-01] derivs: [ 6.03937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.060000 pESO->GetIndependentVar(): 39.060000 ==>IsSwitchingOccur() prevPhis[ 0]=14.859900, nextPhis[ 0]=14.863914 prevPhis[ 1]=-8.859900, nextPhis[ 1]=-8.863914 <==IsSwitchingOccur() T = 39.060000 Tnext = 39.065000 Time: 3.90600e+01 states: [ 3.08824e+00 5.99180e-01] derivs: [ 5.98937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.065000 pESO->GetIndependentVar(): 39.065000 ==>IsSwitchingOccur() prevPhis[ 0]=14.863914, nextPhis[ 0]=14.867854 prevPhis[ 1]=-8.863914, nextPhis[ 1]=-8.867854 <==IsSwitchingOccur() T = 39.065000 Tnext = 39.070000 Time: 3.90650e+01 states: [ 3.09122e+00 5.94180e-01] derivs: [ 5.93937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.070000 pESO->GetIndependentVar(): 39.070000 ==>IsSwitchingOccur() prevPhis[ 0]=14.867854, nextPhis[ 0]=14.871719 prevPhis[ 1]=-8.867854, nextPhis[ 1]=-8.871719 <==IsSwitchingOccur() T = 39.070000 Tnext = 39.075000 Time: 3.90700e+01 states: [ 3.09418e+00 5.89180e-01] derivs: [ 5.88937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.075000 pESO->GetIndependentVar(): 39.075000 ==>IsSwitchingOccur() prevPhis[ 0]=14.871719, nextPhis[ 0]=14.875509 prevPhis[ 1]=-8.871719, nextPhis[ 1]=-8.875509 <==IsSwitchingOccur() T = 39.075000 Tnext = 39.080000 Time: 3.90750e+01 states: [ 3.09711e+00 5.84180e-01] derivs: [ 5.83937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.080000 pESO->GetIndependentVar(): 39.080000 ==>IsSwitchingOccur() prevPhis[ 0]=14.875509, nextPhis[ 0]=14.879224 prevPhis[ 1]=-8.875509, nextPhis[ 1]=-8.879224 <==IsSwitchingOccur() T = 39.080000 Tnext = 39.085000 Time: 3.90800e+01 states: [ 3.10001e+00 5.79180e-01] derivs: [ 5.78937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.085000 pESO->GetIndependentVar(): 39.085000 ==>IsSwitchingOccur() prevPhis[ 0]=14.879224, nextPhis[ 0]=14.882864 prevPhis[ 1]=-8.879224, nextPhis[ 1]=-8.882864 <==IsSwitchingOccur() T = 39.085000 Tnext = 39.090000 Time: 3.90850e+01 states: [ 3.10289e+00 5.74180e-01] derivs: [ 5.73937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.090000 pESO->GetIndependentVar(): 39.090000 ==>IsSwitchingOccur() prevPhis[ 0]=14.882864, nextPhis[ 0]=14.886428 prevPhis[ 1]=-8.882864, nextPhis[ 1]=-8.886428 <==IsSwitchingOccur() T = 39.090000 Tnext = 39.095000 Time: 3.90900e+01 states: [ 3.10575e+00 5.69180e-01] derivs: [ 5.68937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.095000 pESO->GetIndependentVar(): 39.095000 ==>IsSwitchingOccur() prevPhis[ 0]=14.886428, nextPhis[ 0]=14.889918 prevPhis[ 1]=-8.886428, nextPhis[ 1]=-8.889918 <==IsSwitchingOccur() T = 39.095000 Tnext = 39.100000 Time: 3.90950e+01 states: [ 3.10858e+00 5.64180e-01] derivs: [ 5.63937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.100000 pESO->GetIndependentVar(): 39.100000 ==>IsSwitchingOccur() prevPhis[ 0]=14.889918, nextPhis[ 0]=14.893333 prevPhis[ 1]=-8.889918, nextPhis[ 1]=-8.893333 <==IsSwitchingOccur() T = 39.100000 Tnext = 39.105000 Time: 3.91000e+01 states: [ 3.11138e+00 5.59180e-01] derivs: [ 5.58937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.105000 pESO->GetIndependentVar(): 39.105000 ==>IsSwitchingOccur() prevPhis[ 0]=14.893333, nextPhis[ 0]=14.896673 prevPhis[ 1]=-8.893333, nextPhis[ 1]=-8.896673 <==IsSwitchingOccur() T = 39.105000 Tnext = 39.110000 Time: 3.91050e+01 states: [ 3.11416e+00 5.54180e-01] derivs: [ 5.53937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.110000 pESO->GetIndependentVar(): 39.110000 ==>IsSwitchingOccur() prevPhis[ 0]=14.896673, nextPhis[ 0]=14.899938 prevPhis[ 1]=-8.896673, nextPhis[ 1]=-8.899938 <==IsSwitchingOccur() T = 39.110000 Tnext = 39.115000 Time: 3.91100e+01 states: [ 3.11692e+00 5.49180e-01] derivs: [ 5.48937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.115000 pESO->GetIndependentVar(): 39.115000 ==>IsSwitchingOccur() prevPhis[ 0]=14.899938, nextPhis[ 0]=14.903128 prevPhis[ 1]=-8.899938, nextPhis[ 1]=-8.903128 <==IsSwitchingOccur() T = 39.115000 Tnext = 39.120000 Time: 3.91150e+01 states: [ 3.11965e+00 5.44180e-01] derivs: [ 5.43937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.120000 pESO->GetIndependentVar(): 39.120000 ==>IsSwitchingOccur() prevPhis[ 0]=14.903128, nextPhis[ 0]=14.906243 prevPhis[ 1]=-8.903128, nextPhis[ 1]=-8.906243 <==IsSwitchingOccur() T = 39.120000 Tnext = 39.125000 Time: 3.91200e+01 states: [ 3.12235e+00 5.39180e-01] derivs: [ 5.38937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.125000 pESO->GetIndependentVar(): 39.125000 ==>IsSwitchingOccur() prevPhis[ 0]=14.906243, nextPhis[ 0]=14.909282 prevPhis[ 1]=-8.906243, nextPhis[ 1]=-8.909282 <==IsSwitchingOccur() T = 39.125000 Tnext = 39.130000 Time: 3.91250e+01 states: [ 3.12503e+00 5.34180e-01] derivs: [ 5.33937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.130000 pESO->GetIndependentVar(): 39.130000 ==>IsSwitchingOccur() prevPhis[ 0]=14.909282, nextPhis[ 0]=14.912247 prevPhis[ 1]=-8.909282, nextPhis[ 1]=-8.912247 <==IsSwitchingOccur() T = 39.130000 Tnext = 39.135000 Time: 3.91300e+01 states: [ 3.12769e+00 5.29180e-01] derivs: [ 5.28937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.135000 pESO->GetIndependentVar(): 39.135000 ==>IsSwitchingOccur() prevPhis[ 0]=14.912247, nextPhis[ 0]=14.915137 prevPhis[ 1]=-8.912247, nextPhis[ 1]=-8.915137 <==IsSwitchingOccur() T = 39.135000 Tnext = 39.140000 Time: 3.91350e+01 states: [ 3.13032e+00 5.24180e-01] derivs: [ 5.23937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.140000 pESO->GetIndependentVar(): 39.140000 ==>IsSwitchingOccur() prevPhis[ 0]=14.915137, nextPhis[ 0]=14.917952 prevPhis[ 1]=-8.915137, nextPhis[ 1]=-8.917952 <==IsSwitchingOccur() T = 39.140000 Tnext = 39.145000 Time: 3.91400e+01 states: [ 3.13292e+00 5.19180e-01] derivs: [ 5.18937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.145000 pESO->GetIndependentVar(): 39.145000 ==>IsSwitchingOccur() prevPhis[ 0]=14.917952, nextPhis[ 0]=14.920692 prevPhis[ 1]=-8.917952, nextPhis[ 1]=-8.920692 <==IsSwitchingOccur() T = 39.145000 Tnext = 39.150000 Time: 3.91450e+01 states: [ 3.13550e+00 5.14180e-01] derivs: [ 5.13937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.150000 pESO->GetIndependentVar(): 39.150000 ==>IsSwitchingOccur() prevPhis[ 0]=14.920692, nextPhis[ 0]=14.923357 prevPhis[ 1]=-8.920692, nextPhis[ 1]=-8.923357 <==IsSwitchingOccur() T = 39.150000 Tnext = 39.155000 Time: 3.91500e+01 states: [ 3.13806e+00 5.09180e-01] derivs: [ 5.08937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.155000 pESO->GetIndependentVar(): 39.155000 ==>IsSwitchingOccur() prevPhis[ 0]=14.923357, nextPhis[ 0]=14.925946 prevPhis[ 1]=-8.923357, nextPhis[ 1]=-8.925946 <==IsSwitchingOccur() T = 39.155000 Tnext = 39.160000 Time: 3.91550e+01 states: [ 3.14059e+00 5.04180e-01] derivs: [ 5.03937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.160000 pESO->GetIndependentVar(): 39.160000 ==>IsSwitchingOccur() prevPhis[ 0]=14.925946, nextPhis[ 0]=14.928461 prevPhis[ 1]=-8.925946, nextPhis[ 1]=-8.928461 <==IsSwitchingOccur() T = 39.160000 Tnext = 39.165000 Time: 3.91600e+01 states: [ 3.14309e+00 4.99180e-01] derivs: [ 4.98937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.165000 pESO->GetIndependentVar(): 39.165000 ==>IsSwitchingOccur() prevPhis[ 0]=14.928461, nextPhis[ 0]=14.930901 prevPhis[ 1]=-8.928461, nextPhis[ 1]=-8.930901 <==IsSwitchingOccur() T = 39.165000 Tnext = 39.170000 Time: 3.91650e+01 states: [ 3.14557e+00 4.94180e-01] derivs: [ 4.93937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.170000 pESO->GetIndependentVar(): 39.170000 ==>IsSwitchingOccur() prevPhis[ 0]=14.930901, nextPhis[ 0]=14.933266 prevPhis[ 1]=-8.930901, nextPhis[ 1]=-8.933266 <==IsSwitchingOccur() T = 39.170000 Tnext = 39.175000 Time: 3.91700e+01 states: [ 3.14803e+00 4.89180e-01] derivs: [ 4.88937e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.175000 pESO->GetIndependentVar(): 39.175000 ==>IsSwitchingOccur() prevPhis[ 0]=14.933266, nextPhis[ 0]=14.935553 prevPhis[ 1]=-8.933266, nextPhis[ 1]=-8.935553 <==IsSwitchingOccur() T = 39.175000 Tnext = 39.180000 Time: 3.91750e+01 states: [ 3.15046e+00 4.84180e-01] derivs: [ 4.82889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.180000 pESO->GetIndependentVar(): 39.180000 ==>IsSwitchingOccur() prevPhis[ 0]=14.935553, nextPhis[ 0]=14.937766 prevPhis[ 1]=-8.935553, nextPhis[ 1]=-8.937766 <==IsSwitchingOccur() T = 39.180000 Tnext = 39.185000 Time: 3.91800e+01 states: [ 3.15286e+00 4.79180e-01] derivs: [ 4.77889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.185000 pESO->GetIndependentVar(): 39.185000 ==>IsSwitchingOccur() prevPhis[ 0]=14.937766, nextPhis[ 0]=14.939903 prevPhis[ 1]=-8.937766, nextPhis[ 1]=-8.939903 <==IsSwitchingOccur() T = 39.185000 Tnext = 39.190000 Time: 3.91850e+01 states: [ 3.15524e+00 4.74180e-01] derivs: [ 4.72889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.190000 pESO->GetIndependentVar(): 39.190000 ==>IsSwitchingOccur() prevPhis[ 0]=14.939903, nextPhis[ 0]=14.941965 prevPhis[ 1]=-8.939903, nextPhis[ 1]=-8.941965 <==IsSwitchingOccur() T = 39.190000 Tnext = 39.195000 Time: 3.91900e+01 states: [ 3.15760e+00 4.69180e-01] derivs: [ 4.67889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.195000 pESO->GetIndependentVar(): 39.195000 ==>IsSwitchingOccur() prevPhis[ 0]=14.941965, nextPhis[ 0]=14.943953 prevPhis[ 1]=-8.941965, nextPhis[ 1]=-8.943953 <==IsSwitchingOccur() T = 39.195000 Tnext = 39.200000 Time: 3.91950e+01 states: [ 3.15992e+00 4.64180e-01] derivs: [ 4.62889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.200000 pESO->GetIndependentVar(): 39.200000 ==>IsSwitchingOccur() prevPhis[ 0]=14.943953, nextPhis[ 0]=14.945865 prevPhis[ 1]=-8.943953, nextPhis[ 1]=-8.945865 <==IsSwitchingOccur() T = 39.200000 Tnext = 39.205000 Time: 3.92000e+01 states: [ 3.16223e+00 4.59180e-01] derivs: [ 4.57889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.205000 pESO->GetIndependentVar(): 39.205000 ==>IsSwitchingOccur() prevPhis[ 0]=14.945865, nextPhis[ 0]=14.947702 prevPhis[ 1]=-8.945865, nextPhis[ 1]=-8.947702 <==IsSwitchingOccur() T = 39.205000 Tnext = 39.210000 Time: 3.92050e+01 states: [ 3.16451e+00 4.54180e-01] derivs: [ 4.52889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.210000 pESO->GetIndependentVar(): 39.210000 ==>IsSwitchingOccur() prevPhis[ 0]=14.947702, nextPhis[ 0]=14.949464 prevPhis[ 1]=-8.947702, nextPhis[ 1]=-8.949464 <==IsSwitchingOccur() T = 39.210000 Tnext = 39.215000 Time: 3.92100e+01 states: [ 3.16676e+00 4.49180e-01] derivs: [ 4.47889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.215000 pESO->GetIndependentVar(): 39.215000 ==>IsSwitchingOccur() prevPhis[ 0]=14.949464, nextPhis[ 0]=14.951152 prevPhis[ 1]=-8.949464, nextPhis[ 1]=-8.951152 <==IsSwitchingOccur() T = 39.215000 Tnext = 39.220000 Time: 3.92150e+01 states: [ 3.16899e+00 4.44180e-01] derivs: [ 4.42889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.220000 pESO->GetIndependentVar(): 39.220000 ==>IsSwitchingOccur() prevPhis[ 0]=14.951152, nextPhis[ 0]=14.952764 prevPhis[ 1]=-8.951152, nextPhis[ 1]=-8.952764 <==IsSwitchingOccur() T = 39.220000 Tnext = 39.225000 Time: 3.92200e+01 states: [ 3.17119e+00 4.39180e-01] derivs: [ 4.37889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.225000 pESO->GetIndependentVar(): 39.225000 ==>IsSwitchingOccur() prevPhis[ 0]=14.952764, nextPhis[ 0]=14.954301 prevPhis[ 1]=-8.952764, nextPhis[ 1]=-8.954301 <==IsSwitchingOccur() T = 39.225000 Tnext = 39.230000 Time: 3.92250e+01 states: [ 3.17337e+00 4.34180e-01] derivs: [ 4.32889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.230000 pESO->GetIndependentVar(): 39.230000 ==>IsSwitchingOccur() prevPhis[ 0]=14.954301, nextPhis[ 0]=14.955764 prevPhis[ 1]=-8.954301, nextPhis[ 1]=-8.955764 <==IsSwitchingOccur() T = 39.230000 Tnext = 39.235000 Time: 3.92300e+01 states: [ 3.17553e+00 4.29180e-01] derivs: [ 4.27889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.235000 pESO->GetIndependentVar(): 39.235000 ==>IsSwitchingOccur() prevPhis[ 0]=14.955764, nextPhis[ 0]=14.957151 prevPhis[ 1]=-8.955764, nextPhis[ 1]=-8.957151 <==IsSwitchingOccur() T = 39.235000 Tnext = 39.240000 Time: 3.92350e+01 states: [ 3.17766e+00 4.24180e-01] derivs: [ 4.22889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.240000 pESO->GetIndependentVar(): 39.240000 ==>IsSwitchingOccur() prevPhis[ 0]=14.957151, nextPhis[ 0]=14.958463 prevPhis[ 1]=-8.957151, nextPhis[ 1]=-8.958463 <==IsSwitchingOccur() T = 39.240000 Tnext = 39.245000 Time: 3.92400e+01 states: [ 3.17976e+00 4.19180e-01] derivs: [ 4.17889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.245000 pESO->GetIndependentVar(): 39.245000 ==>IsSwitchingOccur() prevPhis[ 0]=14.958463, nextPhis[ 0]=14.959701 prevPhis[ 1]=-8.958463, nextPhis[ 1]=-8.959701 <==IsSwitchingOccur() T = 39.245000 Tnext = 39.250000 Time: 3.92450e+01 states: [ 3.18184e+00 4.14180e-01] derivs: [ 4.12889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.250000 pESO->GetIndependentVar(): 39.250000 ==>IsSwitchingOccur() prevPhis[ 0]=14.959701, nextPhis[ 0]=14.960863 prevPhis[ 1]=-8.959701, nextPhis[ 1]=-8.960863 <==IsSwitchingOccur() T = 39.250000 Tnext = 39.255000 Time: 3.92500e+01 states: [ 3.18389e+00 4.09180e-01] derivs: [ 4.07889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.255000 pESO->GetIndependentVar(): 39.255000 ==>IsSwitchingOccur() prevPhis[ 0]=14.960863, nextPhis[ 0]=14.961950 prevPhis[ 1]=-8.960863, nextPhis[ 1]=-8.961950 <==IsSwitchingOccur() T = 39.255000 Tnext = 39.260000 Time: 3.92550e+01 states: [ 3.18592e+00 4.04180e-01] derivs: [ 4.02889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.260000 pESO->GetIndependentVar(): 39.260000 ==>IsSwitchingOccur() prevPhis[ 0]=14.961950, nextPhis[ 0]=14.962963 prevPhis[ 1]=-8.961950, nextPhis[ 1]=-8.962963 <==IsSwitchingOccur() T = 39.260000 Tnext = 39.265000 Time: 3.92600e+01 states: [ 3.18793e+00 3.99180e-01] derivs: [ 3.97889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.265000 pESO->GetIndependentVar(): 39.265000 ==>IsSwitchingOccur() prevPhis[ 0]=14.962963, nextPhis[ 0]=14.963900 prevPhis[ 1]=-8.962963, nextPhis[ 1]=-8.963900 <==IsSwitchingOccur() T = 39.265000 Tnext = 39.270000 Time: 3.92650e+01 states: [ 3.18991e+00 3.94180e-01] derivs: [ 3.92889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.270000 pESO->GetIndependentVar(): 39.270000 ==>IsSwitchingOccur() prevPhis[ 0]=14.963900, nextPhis[ 0]=14.964762 prevPhis[ 1]=-8.963900, nextPhis[ 1]=-8.964762 <==IsSwitchingOccur() T = 39.270000 Tnext = 39.275000 Time: 3.92700e+01 states: [ 3.19186e+00 3.89180e-01] derivs: [ 3.87889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.275000 pESO->GetIndependentVar(): 39.275000 ==>IsSwitchingOccur() prevPhis[ 0]=14.964762, nextPhis[ 0]=14.965549 prevPhis[ 1]=-8.964762, nextPhis[ 1]=-8.965549 <==IsSwitchingOccur() T = 39.275000 Tnext = 39.280000 Time: 3.92750e+01 states: [ 3.19379e+00 3.84180e-01] derivs: [ 3.82889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.280000 pESO->GetIndependentVar(): 39.280000 ==>IsSwitchingOccur() prevPhis[ 0]=14.965549, nextPhis[ 0]=14.966262 prevPhis[ 1]=-8.965549, nextPhis[ 1]=-8.966262 <==IsSwitchingOccur() T = 39.280000 Tnext = 39.285000 Time: 3.92800e+01 states: [ 3.19569e+00 3.79180e-01] derivs: [ 3.77889e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.285000 pESO->GetIndependentVar(): 39.285000 ==>IsSwitchingOccur() prevPhis[ 0]=14.966262, nextPhis[ 0]=14.966899 prevPhis[ 1]=-8.966262, nextPhis[ 1]=-8.966899 <==IsSwitchingOccur() T = 39.285000 Tnext = 39.290000 Time: 3.92850e+01 states: [ 3.19757e+00 3.74180e-01] derivs: [ 3.72888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.290000 pESO->GetIndependentVar(): 39.290000 ==>IsSwitchingOccur() prevPhis[ 0]=14.966899, nextPhis[ 0]=14.967461 prevPhis[ 1]=-8.966899, nextPhis[ 1]=-8.967461 <==IsSwitchingOccur() T = 39.290000 Tnext = 39.295000 Time: 3.92900e+01 states: [ 3.19943e+00 3.69180e-01] derivs: [ 3.67888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.295000 pESO->GetIndependentVar(): 39.295000 ==>IsSwitchingOccur() prevPhis[ 0]=14.967461, nextPhis[ 0]=14.967949 prevPhis[ 1]=-8.967461, nextPhis[ 1]=-8.967949 <==IsSwitchingOccur() T = 39.295000 Tnext = 39.300000 Time: 3.92950e+01 states: [ 3.20126e+00 3.64180e-01] derivs: [ 3.62888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.300000 pESO->GetIndependentVar(): 39.300000 ==>IsSwitchingOccur() prevPhis[ 0]=14.967949, nextPhis[ 0]=14.968361 prevPhis[ 1]=-8.967949, nextPhis[ 1]=-8.968361 <==IsSwitchingOccur() T = 39.300000 Tnext = 39.305000 Time: 3.93000e+01 states: [ 3.20306e+00 3.59180e-01] derivs: [ 3.57888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.305000 pESO->GetIndependentVar(): 39.305000 ==>IsSwitchingOccur() prevPhis[ 0]=14.968361, nextPhis[ 0]=14.968698 prevPhis[ 1]=-8.968361, nextPhis[ 1]=-8.968698 <==IsSwitchingOccur() T = 39.305000 Tnext = 39.310000 Time: 3.93050e+01 states: [ 3.20484e+00 3.54180e-01] derivs: [ 3.52888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.310000 pESO->GetIndependentVar(): 39.310000 ==>IsSwitchingOccur() prevPhis[ 0]=14.968698, nextPhis[ 0]=14.968961 prevPhis[ 1]=-8.968698, nextPhis[ 1]=-8.968961 <==IsSwitchingOccur() T = 39.310000 Tnext = 39.315000 Time: 3.93100e+01 states: [ 3.20659e+00 3.49180e-01] derivs: [ 3.47888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.315000 pESO->GetIndependentVar(): 39.315000 ==>IsSwitchingOccur() prevPhis[ 0]=14.968961, nextPhis[ 0]=14.969148 prevPhis[ 1]=-8.968961, nextPhis[ 1]=-8.969148 <==IsSwitchingOccur() T = 39.315000 Tnext = 39.320000 Time: 3.93150e+01 states: [ 3.20832e+00 3.44180e-01] derivs: [ 3.42888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.320000 pESO->GetIndependentVar(): 39.320000 ==>IsSwitchingOccur() prevPhis[ 0]=14.969148, nextPhis[ 0]=14.969260 prevPhis[ 1]=-8.969148, nextPhis[ 1]=-8.969260 <==IsSwitchingOccur() T = 39.320000 Tnext = 39.325000 Time: 3.93200e+01 states: [ 3.21003e+00 3.39180e-01] derivs: [ 3.37888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.325000 pESO->GetIndependentVar(): 39.325000 ==>IsSwitchingOccur() prevPhis[ 0]=14.969260, nextPhis[ 0]=14.969298 prevPhis[ 1]=-8.969260, nextPhis[ 1]=-8.969298 <==IsSwitchingOccur() T = 39.325000 Tnext = 39.330000 Time: 3.93250e+01 states: [ 3.21171e+00 3.34180e-01] derivs: [ 3.32888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.330000 pESO->GetIndependentVar(): 39.330000 ==>IsSwitchingOccur() prevPhis[ 0]=14.969298, nextPhis[ 0]=14.969260 prevPhis[ 1]=-8.969298, nextPhis[ 1]=-8.969260 <==IsSwitchingOccur() T = 39.330000 Tnext = 39.335000 Time: 3.93300e+01 states: [ 3.21336e+00 3.29180e-01] derivs: [ 3.27888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.335000 pESO->GetIndependentVar(): 39.335000 ==>IsSwitchingOccur() prevPhis[ 0]=14.969260, nextPhis[ 0]=14.969147 prevPhis[ 1]=-8.969260, nextPhis[ 1]=-8.969147 <==IsSwitchingOccur() T = 39.335000 Tnext = 39.340000 Time: 3.93350e+01 states: [ 3.21499e+00 3.24180e-01] derivs: [ 3.22888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.340000 pESO->GetIndependentVar(): 39.340000 ==>IsSwitchingOccur() prevPhis[ 0]=14.969147, nextPhis[ 0]=14.968959 prevPhis[ 1]=-8.969147, nextPhis[ 1]=-8.968959 <==IsSwitchingOccur() T = 39.340000 Tnext = 39.345000 Time: 3.93400e+01 states: [ 3.21659e+00 3.19180e-01] derivs: [ 3.17888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.345000 pESO->GetIndependentVar(): 39.345000 ==>IsSwitchingOccur() prevPhis[ 0]=14.968959, nextPhis[ 0]=14.968697 prevPhis[ 1]=-8.968959, nextPhis[ 1]=-8.968697 <==IsSwitchingOccur() T = 39.345000 Tnext = 39.350000 Time: 3.93450e+01 states: [ 3.21817e+00 3.14180e-01] derivs: [ 3.12888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.350000 pESO->GetIndependentVar(): 39.350000 ==>IsSwitchingOccur() prevPhis[ 0]=14.968697, nextPhis[ 0]=14.968359 prevPhis[ 1]=-8.968697, nextPhis[ 1]=-8.968359 <==IsSwitchingOccur() T = 39.350000 Tnext = 39.355000 Time: 3.93500e+01 states: [ 3.21973e+00 3.09180e-01] derivs: [ 3.07888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.355000 pESO->GetIndependentVar(): 39.355000 ==>IsSwitchingOccur() prevPhis[ 0]=14.968359, nextPhis[ 0]=14.967946 prevPhis[ 1]=-8.968359, nextPhis[ 1]=-8.967946 <==IsSwitchingOccur() T = 39.355000 Tnext = 39.360000 Time: 3.93550e+01 states: [ 3.22126e+00 3.04180e-01] derivs: [ 3.02888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.360000 pESO->GetIndependentVar(): 39.360000 ==>IsSwitchingOccur() prevPhis[ 0]=14.967946, nextPhis[ 0]=14.967459 prevPhis[ 1]=-8.967946, nextPhis[ 1]=-8.967459 <==IsSwitchingOccur() T = 39.360000 Tnext = 39.365000 Time: 3.93600e+01 states: [ 3.22276e+00 2.99180e-01] derivs: [ 2.97888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.365000 pESO->GetIndependentVar(): 39.365000 ==>IsSwitchingOccur() prevPhis[ 0]=14.967459, nextPhis[ 0]=14.966896 prevPhis[ 1]=-8.967459, nextPhis[ 1]=-8.966896 <==IsSwitchingOccur() T = 39.365000 Tnext = 39.370000 Time: 3.93650e+01 states: [ 3.22424e+00 2.94180e-01] derivs: [ 2.92888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.370000 pESO->GetIndependentVar(): 39.370000 ==>IsSwitchingOccur() prevPhis[ 0]=14.966896, nextPhis[ 0]=14.966258 prevPhis[ 1]=-8.966896, nextPhis[ 1]=-8.966258 <==IsSwitchingOccur() T = 39.370000 Tnext = 39.375000 Time: 3.93700e+01 states: [ 3.22569e+00 2.89180e-01] derivs: [ 2.87888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.375000 pESO->GetIndependentVar(): 39.375000 ==>IsSwitchingOccur() prevPhis[ 0]=14.966258, nextPhis[ 0]=14.965546 prevPhis[ 1]=-8.966258, nextPhis[ 1]=-8.965546 <==IsSwitchingOccur() T = 39.375000 Tnext = 39.380000 Time: 3.93750e+01 states: [ 3.22712e+00 2.84180e-01] derivs: [ 2.82888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.380000 pESO->GetIndependentVar(): 39.380000 ==>IsSwitchingOccur() prevPhis[ 0]=14.965546, nextPhis[ 0]=14.964758 prevPhis[ 1]=-8.965546, nextPhis[ 1]=-8.964758 <==IsSwitchingOccur() T = 39.380000 Tnext = 39.385000 Time: 3.93800e+01 states: [ 3.22853e+00 2.79180e-01] derivs: [ 2.77888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.385000 pESO->GetIndependentVar(): 39.385000 ==>IsSwitchingOccur() prevPhis[ 0]=14.964758, nextPhis[ 0]=14.963895 prevPhis[ 1]=-8.964758, nextPhis[ 1]=-8.963895 <==IsSwitchingOccur() T = 39.385000 Tnext = 39.390000 Time: 3.93850e+01 states: [ 3.22991e+00 2.74180e-01] derivs: [ 2.72888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.390000 pESO->GetIndependentVar(): 39.390000 ==>IsSwitchingOccur() prevPhis[ 0]=14.963895, nextPhis[ 0]=14.962958 prevPhis[ 1]=-8.963895, nextPhis[ 1]=-8.962958 <==IsSwitchingOccur() T = 39.390000 Tnext = 39.395000 Time: 3.93900e+01 states: [ 3.23126e+00 2.69180e-01] derivs: [ 2.67888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.395000 pESO->GetIndependentVar(): 39.395000 ==>IsSwitchingOccur() prevPhis[ 0]=14.962958, nextPhis[ 0]=14.961945 prevPhis[ 1]=-8.962958, nextPhis[ 1]=-8.961945 <==IsSwitchingOccur() T = 39.395000 Tnext = 39.400000 Time: 3.93950e+01 states: [ 3.23259e+00 2.64180e-01] derivs: [ 2.62888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.400000 pESO->GetIndependentVar(): 39.400000 ==>IsSwitchingOccur() prevPhis[ 0]=14.961945, nextPhis[ 0]=14.960857 prevPhis[ 1]=-8.961945, nextPhis[ 1]=-8.960857 <==IsSwitchingOccur() T = 39.400000 Tnext = 39.405000 Time: 3.94000e+01 states: [ 3.23389e+00 2.59180e-01] derivs: [ 2.57888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.405000 pESO->GetIndependentVar(): 39.405000 ==>IsSwitchingOccur() prevPhis[ 0]=14.960857, nextPhis[ 0]=14.959694 prevPhis[ 1]=-8.960857, nextPhis[ 1]=-8.959694 <==IsSwitchingOccur() T = 39.405000 Tnext = 39.410000 Time: 3.94050e+01 states: [ 3.23517e+00 2.54180e-01] derivs: [ 2.52888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.410000 pESO->GetIndependentVar(): 39.410000 ==>IsSwitchingOccur() prevPhis[ 0]=14.959694, nextPhis[ 0]=14.958457 prevPhis[ 1]=-8.959694, nextPhis[ 1]=-8.958457 <==IsSwitchingOccur() T = 39.410000 Tnext = 39.415000 Time: 3.94100e+01 states: [ 3.23643e+00 2.49180e-01] derivs: [ 2.47888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.415000 pESO->GetIndependentVar(): 39.415000 ==>IsSwitchingOccur() prevPhis[ 0]=14.958457, nextPhis[ 0]=14.957144 prevPhis[ 1]=-8.958457, nextPhis[ 1]=-8.957144 <==IsSwitchingOccur() T = 39.415000 Tnext = 39.420000 Time: 3.94150e+01 states: [ 3.23765e+00 2.44180e-01] derivs: [ 2.42888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.420000 pESO->GetIndependentVar(): 39.420000 ==>IsSwitchingOccur() prevPhis[ 0]=14.957144, nextPhis[ 0]=14.955756 prevPhis[ 1]=-8.957144, nextPhis[ 1]=-8.955756 <==IsSwitchingOccur() T = 39.420000 Tnext = 39.425000 Time: 3.94200e+01 states: [ 3.23886e+00 2.39180e-01] derivs: [ 2.37888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.425000 pESO->GetIndependentVar(): 39.425000 ==>IsSwitchingOccur() prevPhis[ 0]=14.955756, nextPhis[ 0]=14.954294 prevPhis[ 1]=-8.955756, nextPhis[ 1]=-8.954294 <==IsSwitchingOccur() T = 39.425000 Tnext = 39.430000 Time: 3.94250e+01 states: [ 3.24004e+00 2.34180e-01] derivs: [ 2.32888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.430000 pESO->GetIndependentVar(): 39.430000 ==>IsSwitchingOccur() prevPhis[ 0]=14.954294, nextPhis[ 0]=14.952756 prevPhis[ 1]=-8.954294, nextPhis[ 1]=-8.952756 <==IsSwitchingOccur() T = 39.430000 Tnext = 39.435000 Time: 3.94300e+01 states: [ 3.24119e+00 2.29180e-01] derivs: [ 2.27888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.435000 pESO->GetIndependentVar(): 39.435000 ==>IsSwitchingOccur() prevPhis[ 0]=14.952756, nextPhis[ 0]=14.951143 prevPhis[ 1]=-8.952756, nextPhis[ 1]=-8.951143 <==IsSwitchingOccur() T = 39.435000 Tnext = 39.440000 Time: 3.94350e+01 states: [ 3.24232e+00 2.24180e-01] derivs: [ 2.22888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.440000 pESO->GetIndependentVar(): 39.440000 ==>IsSwitchingOccur() prevPhis[ 0]=14.951143, nextPhis[ 0]=14.949456 prevPhis[ 1]=-8.951143, nextPhis[ 1]=-8.949456 <==IsSwitchingOccur() T = 39.440000 Tnext = 39.445000 Time: 3.94400e+01 states: [ 3.24343e+00 2.19180e-01] derivs: [ 2.17888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.445000 pESO->GetIndependentVar(): 39.445000 ==>IsSwitchingOccur() prevPhis[ 0]=14.949456, nextPhis[ 0]=14.947693 prevPhis[ 1]=-8.949456, nextPhis[ 1]=-8.947693 <==IsSwitchingOccur() T = 39.445000 Tnext = 39.450000 Time: 3.94450e+01 states: [ 3.24450e+00 2.14180e-01] derivs: [ 2.12888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.450000 pESO->GetIndependentVar(): 39.450000 ==>IsSwitchingOccur() prevPhis[ 0]=14.947693, nextPhis[ 0]=14.945855 prevPhis[ 1]=-8.947693, nextPhis[ 1]=-8.945855 <==IsSwitchingOccur() T = 39.450000 Tnext = 39.455000 Time: 3.94500e+01 states: [ 3.24556e+00 2.09180e-01] derivs: [ 2.07888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.455000 pESO->GetIndependentVar(): 39.455000 ==>IsSwitchingOccur() prevPhis[ 0]=14.945855, nextPhis[ 0]=14.943943 prevPhis[ 1]=-8.945855, nextPhis[ 1]=-8.943943 <==IsSwitchingOccur() T = 39.455000 Tnext = 39.460000 Time: 3.94550e+01 states: [ 3.24659e+00 2.04180e-01] derivs: [ 2.02888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.460000 pESO->GetIndependentVar(): 39.460000 ==>IsSwitchingOccur() prevPhis[ 0]=14.943943, nextPhis[ 0]=14.941955 prevPhis[ 1]=-8.943943, nextPhis[ 1]=-8.941955 <==IsSwitchingOccur() T = 39.460000 Tnext = 39.465000 Time: 3.94600e+01 states: [ 3.24759e+00 1.99180e-01] derivs: [ 1.97888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.465000 pESO->GetIndependentVar(): 39.465000 ==>IsSwitchingOccur() prevPhis[ 0]=14.941955, nextPhis[ 0]=14.939892 prevPhis[ 1]=-8.941955, nextPhis[ 1]=-8.939892 <==IsSwitchingOccur() T = 39.465000 Tnext = 39.470000 Time: 3.94650e+01 states: [ 3.24857e+00 1.94180e-01] derivs: [ 1.92888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.470000 pESO->GetIndependentVar(): 39.470000 ==>IsSwitchingOccur() prevPhis[ 0]=14.939892, nextPhis[ 0]=14.937754 prevPhis[ 1]=-8.939892, nextPhis[ 1]=-8.937754 <==IsSwitchingOccur() T = 39.470000 Tnext = 39.475000 Time: 3.94700e+01 states: [ 3.24952e+00 1.89180e-01] derivs: [ 1.87888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.475000 pESO->GetIndependentVar(): 39.475000 ==>IsSwitchingOccur() prevPhis[ 0]=14.937754, nextPhis[ 0]=14.935542 prevPhis[ 1]=-8.937754, nextPhis[ 1]=-8.935542 <==IsSwitchingOccur() T = 39.475000 Tnext = 39.480000 Time: 3.94750e+01 states: [ 3.25045e+00 1.84180e-01] derivs: [ 1.82888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.480000 pESO->GetIndependentVar(): 39.480000 ==>IsSwitchingOccur() prevPhis[ 0]=14.935542, nextPhis[ 0]=14.933254 prevPhis[ 1]=-8.935542, nextPhis[ 1]=-8.933254 <==IsSwitchingOccur() T = 39.480000 Tnext = 39.485000 Time: 3.94800e+01 states: [ 3.25136e+00 1.79180e-01] derivs: [ 1.77888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.485000 pESO->GetIndependentVar(): 39.485000 ==>IsSwitchingOccur() prevPhis[ 0]=14.933254, nextPhis[ 0]=14.930891 prevPhis[ 1]=-8.933254, nextPhis[ 1]=-8.930891 <==IsSwitchingOccur() T = 39.485000 Tnext = 39.490000 Time: 3.94850e+01 states: [ 3.25224e+00 1.74180e-01] derivs: [ 1.72888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.490000 pESO->GetIndependentVar(): 39.490000 ==>IsSwitchingOccur() prevPhis[ 0]=14.930891, nextPhis[ 0]=14.928454 prevPhis[ 1]=-8.930891, nextPhis[ 1]=-8.928454 <==IsSwitchingOccur() T = 39.490000 Tnext = 39.495000 Time: 3.94900e+01 states: [ 3.25309e+00 1.69180e-01] derivs: [ 1.67888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.495000 pESO->GetIndependentVar(): 39.495000 ==>IsSwitchingOccur() prevPhis[ 0]=14.928454, nextPhis[ 0]=14.925941 prevPhis[ 1]=-8.928454, nextPhis[ 1]=-8.925941 <==IsSwitchingOccur() T = 39.495000 Tnext = 39.500000 Time: 3.94950e+01 states: [ 3.25392e+00 1.64180e-01] derivs: [ 1.62888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.500000 pESO->GetIndependentVar(): 39.500000 ==>IsSwitchingOccur() prevPhis[ 0]=14.925941, nextPhis[ 0]=14.923353 prevPhis[ 1]=-8.925941, nextPhis[ 1]=-8.923353 <==IsSwitchingOccur() T = 39.500000 Tnext = 39.505000 Time: 3.95000e+01 states: [ 3.25472e+00 1.59180e-01] derivs: [ 1.57888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.505000 pESO->GetIndependentVar(): 39.505000 ==>IsSwitchingOccur() prevPhis[ 0]=14.923353, nextPhis[ 0]=14.920691 prevPhis[ 1]=-8.923353, nextPhis[ 1]=-8.920691 <==IsSwitchingOccur() T = 39.505000 Tnext = 39.510000 Time: 3.95050e+01 states: [ 3.25550e+00 1.54180e-01] derivs: [ 1.52888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.510000 pESO->GetIndependentVar(): 39.510000 ==>IsSwitchingOccur() prevPhis[ 0]=14.920691, nextPhis[ 0]=14.917953 prevPhis[ 1]=-8.920691, nextPhis[ 1]=-8.917953 <==IsSwitchingOccur() T = 39.510000 Tnext = 39.515000 Time: 3.95100e+01 states: [ 3.25626e+00 1.49180e-01] derivs: [ 1.47888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.515000 pESO->GetIndependentVar(): 39.515000 ==>IsSwitchingOccur() prevPhis[ 0]=14.917953, nextPhis[ 0]=14.915140 prevPhis[ 1]=-8.917953, nextPhis[ 1]=-8.915140 <==IsSwitchingOccur() T = 39.515000 Tnext = 39.520000 Time: 3.95150e+01 states: [ 3.25699e+00 1.44180e-01] derivs: [ 1.42888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.520000 pESO->GetIndependentVar(): 39.520000 ==>IsSwitchingOccur() prevPhis[ 0]=14.915140, nextPhis[ 0]=14.912253 prevPhis[ 1]=-8.915140, nextPhis[ 1]=-8.912253 <==IsSwitchingOccur() T = 39.520000 Tnext = 39.525000 Time: 3.95200e+01 states: [ 3.25769e+00 1.39180e-01] derivs: [ 1.37888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.525000 pESO->GetIndependentVar(): 39.525000 ==>IsSwitchingOccur() prevPhis[ 0]=14.912253, nextPhis[ 0]=14.909290 prevPhis[ 1]=-8.912253, nextPhis[ 1]=-8.909290 <==IsSwitchingOccur() T = 39.525000 Tnext = 39.530000 Time: 3.95250e+01 states: [ 3.25837e+00 1.34180e-01] derivs: [ 1.32888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.530000 pESO->GetIndependentVar(): 39.530000 ==>IsSwitchingOccur() prevPhis[ 0]=14.909290, nextPhis[ 0]=14.906252 prevPhis[ 1]=-8.909290, nextPhis[ 1]=-8.906252 <==IsSwitchingOccur() T = 39.530000 Tnext = 39.535000 Time: 3.95300e+01 states: [ 3.25902e+00 1.29180e-01] derivs: [ 1.27888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.535000 pESO->GetIndependentVar(): 39.535000 ==>IsSwitchingOccur() prevPhis[ 0]=14.906252, nextPhis[ 0]=14.903139 prevPhis[ 1]=-8.906252, nextPhis[ 1]=-8.903139 <==IsSwitchingOccur() T = 39.535000 Tnext = 39.540000 Time: 3.95350e+01 states: [ 3.25965e+00 1.24180e-01] derivs: [ 1.22888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.540000 pESO->GetIndependentVar(): 39.540000 ==>IsSwitchingOccur() prevPhis[ 0]=14.903139, nextPhis[ 0]=14.899952 prevPhis[ 1]=-8.903139, nextPhis[ 1]=-8.899952 <==IsSwitchingOccur() T = 39.540000 Tnext = 39.545000 Time: 3.95400e+01 states: [ 3.26026e+00 1.19180e-01] derivs: [ 1.17888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.545000 pESO->GetIndependentVar(): 39.545000 ==>IsSwitchingOccur() prevPhis[ 0]=14.899952, nextPhis[ 0]=14.896689 prevPhis[ 1]=-8.899952, nextPhis[ 1]=-8.896689 <==IsSwitchingOccur() T = 39.545000 Tnext = 39.550000 Time: 3.95450e+01 states: [ 3.26084e+00 1.14180e-01] derivs: [ 1.12888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.550000 pESO->GetIndependentVar(): 39.550000 ==>IsSwitchingOccur() prevPhis[ 0]=14.896689, nextPhis[ 0]=14.893351 prevPhis[ 1]=-8.896689, nextPhis[ 1]=-8.893351 <==IsSwitchingOccur() T = 39.550000 Tnext = 39.555000 Time: 3.95500e+01 states: [ 3.26139e+00 1.09180e-01] derivs: [ 1.07888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.555000 pESO->GetIndependentVar(): 39.555000 ==>IsSwitchingOccur() prevPhis[ 0]=14.893351, nextPhis[ 0]=14.889939 prevPhis[ 1]=-8.893351, nextPhis[ 1]=-8.889939 <==IsSwitchingOccur() T = 39.555000 Tnext = 39.560000 Time: 3.95550e+01 states: [ 3.26192e+00 1.04180e-01] derivs: [ 1.02888e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.560000 pESO->GetIndependentVar(): 39.560000 ==>IsSwitchingOccur() prevPhis[ 0]=14.889939, nextPhis[ 0]=14.886451 prevPhis[ 1]=-8.889939, nextPhis[ 1]=-8.886451 <==IsSwitchingOccur() T = 39.560000 Tnext = 39.565000 Time: 3.95600e+01 states: [ 3.26242e+00 9.91799e-02] derivs: [ 9.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.565000 pESO->GetIndependentVar(): 39.565000 ==>IsSwitchingOccur() prevPhis[ 0]=14.886451, nextPhis[ 0]=14.882888 prevPhis[ 1]=-8.886451, nextPhis[ 1]=-8.882888 <==IsSwitchingOccur() T = 39.565000 Tnext = 39.570000 Time: 3.95650e+01 states: [ 3.26290e+00 9.41799e-02] derivs: [ 9.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.570000 pESO->GetIndependentVar(): 39.570000 ==>IsSwitchingOccur() prevPhis[ 0]=14.882888, nextPhis[ 0]=14.879251 prevPhis[ 1]=-8.882888, nextPhis[ 1]=-8.879251 <==IsSwitchingOccur() T = 39.570000 Tnext = 39.575000 Time: 3.95700e+01 states: [ 3.26336e+00 8.91799e-02] derivs: [ 8.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.575000 pESO->GetIndependentVar(): 39.575000 ==>IsSwitchingOccur() prevPhis[ 0]=14.879251, nextPhis[ 0]=14.875538 prevPhis[ 1]=-8.879251, nextPhis[ 1]=-8.875538 <==IsSwitchingOccur() T = 39.575000 Tnext = 39.580000 Time: 3.95750e+01 states: [ 3.26379e+00 8.41799e-02] derivs: [ 8.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.580000 pESO->GetIndependentVar(): 39.580000 ==>IsSwitchingOccur() prevPhis[ 0]=14.875538, nextPhis[ 0]=14.871750 prevPhis[ 1]=-8.875538, nextPhis[ 1]=-8.871750 <==IsSwitchingOccur() T = 39.580000 Tnext = 39.585000 Time: 3.95800e+01 states: [ 3.26419e+00 7.91799e-02] derivs: [ 7.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.585000 pESO->GetIndependentVar(): 39.585000 ==>IsSwitchingOccur() prevPhis[ 0]=14.871750, nextPhis[ 0]=14.867888 prevPhis[ 1]=-8.871750, nextPhis[ 1]=-8.867888 <==IsSwitchingOccur() T = 39.585000 Tnext = 39.590000 Time: 3.95850e+01 states: [ 3.26457e+00 7.41799e-02] derivs: [ 7.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.590000 pESO->GetIndependentVar(): 39.590000 ==>IsSwitchingOccur() prevPhis[ 0]=14.867888, nextPhis[ 0]=14.863950 prevPhis[ 1]=-8.867888, nextPhis[ 1]=-8.863950 <==IsSwitchingOccur() T = 39.590000 Tnext = 39.595000 Time: 3.95900e+01 states: [ 3.26492e+00 6.91799e-02] derivs: [ 6.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.595000 pESO->GetIndependentVar(): 39.595000 ==>IsSwitchingOccur() prevPhis[ 0]=14.863950, nextPhis[ 0]=14.859937 prevPhis[ 1]=-8.863950, nextPhis[ 1]=-8.859937 <==IsSwitchingOccur() T = 39.595000 Tnext = 39.600000 Time: 3.95950e+01 states: [ 3.26525e+00 6.41799e-02] derivs: [ 6.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.600000 pESO->GetIndependentVar(): 39.600000 ==>IsSwitchingOccur() prevPhis[ 0]=14.859937, nextPhis[ 0]=14.855849 prevPhis[ 1]=-8.859937, nextPhis[ 1]=-8.855849 <==IsSwitchingOccur() T = 39.600000 Tnext = 39.605000 Time: 3.96000e+01 states: [ 3.26556e+00 5.91799e-02] derivs: [ 5.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.605000 pESO->GetIndependentVar(): 39.605000 ==>IsSwitchingOccur() prevPhis[ 0]=14.855849, nextPhis[ 0]=14.851687 prevPhis[ 1]=-8.855849, nextPhis[ 1]=-8.851687 <==IsSwitchingOccur() T = 39.605000 Tnext = 39.610000 Time: 3.96050e+01 states: [ 3.26584e+00 5.41799e-02] derivs: [ 5.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.610000 pESO->GetIndependentVar(): 39.610000 ==>IsSwitchingOccur() prevPhis[ 0]=14.851687, nextPhis[ 0]=14.847449 prevPhis[ 1]=-8.851687, nextPhis[ 1]=-8.847449 <==IsSwitchingOccur() T = 39.610000 Tnext = 39.615000 Time: 3.96100e+01 states: [ 3.26609e+00 4.91799e-02] derivs: [ 4.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.615000 pESO->GetIndependentVar(): 39.615000 ==>IsSwitchingOccur() prevPhis[ 0]=14.847449, nextPhis[ 0]=14.843136 prevPhis[ 1]=-8.847449, nextPhis[ 1]=-8.843136 <==IsSwitchingOccur() T = 39.615000 Tnext = 39.620000 Time: 3.96150e+01 states: [ 3.26632e+00 4.41799e-02] derivs: [ 4.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.620000 pESO->GetIndependentVar(): 39.620000 ==>IsSwitchingOccur() prevPhis[ 0]=14.843136, nextPhis[ 0]=14.838749 prevPhis[ 1]=-8.843136, nextPhis[ 1]=-8.838749 <==IsSwitchingOccur() T = 39.620000 Tnext = 39.625000 Time: 3.96200e+01 states: [ 3.26652e+00 3.91799e-02] derivs: [ 3.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.625000 pESO->GetIndependentVar(): 39.625000 ==>IsSwitchingOccur() prevPhis[ 0]=14.838749, nextPhis[ 0]=14.834286 prevPhis[ 1]=-8.838749, nextPhis[ 1]=-8.834286 <==IsSwitchingOccur() T = 39.625000 Tnext = 39.630000 Time: 3.96250e+01 states: [ 3.26670e+00 3.41799e-02] derivs: [ 3.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.630000 pESO->GetIndependentVar(): 39.630000 ==>IsSwitchingOccur() prevPhis[ 0]=14.834286, nextPhis[ 0]=14.829748 prevPhis[ 1]=-8.834286, nextPhis[ 1]=-8.829748 <==IsSwitchingOccur() T = 39.630000 Tnext = 39.635000 Time: 3.96300e+01 states: [ 3.26686e+00 2.91799e-02] derivs: [ 2.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.635000 pESO->GetIndependentVar(): 39.635000 ==>IsSwitchingOccur() prevPhis[ 0]=14.829748, nextPhis[ 0]=14.825136 prevPhis[ 1]=-8.829748, nextPhis[ 1]=-8.825136 <==IsSwitchingOccur() T = 39.635000 Tnext = 39.640000 Time: 3.96350e+01 states: [ 3.26699e+00 2.41799e-02] derivs: [ 2.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.640000 pESO->GetIndependentVar(): 39.640000 ==>IsSwitchingOccur() prevPhis[ 0]=14.825136, nextPhis[ 0]=14.820448 prevPhis[ 1]=-8.825136, nextPhis[ 1]=-8.820448 <==IsSwitchingOccur() T = 39.640000 Tnext = 39.645000 Time: 3.96400e+01 states: [ 3.26709e+00 1.91799e-02] derivs: [ 1.78885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.645000 pESO->GetIndependentVar(): 39.645000 ==>IsSwitchingOccur() prevPhis[ 0]=14.820448, nextPhis[ 0]=14.815685 prevPhis[ 1]=-8.820448, nextPhis[ 1]=-8.815685 <==IsSwitchingOccur() T = 39.645000 Tnext = 39.650000 Time: 3.96450e+01 states: [ 3.26717e+00 1.41799e-02] derivs: [ 1.28885e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.650000 pESO->GetIndependentVar(): 39.650000 ==>IsSwitchingOccur() prevPhis[ 0]=14.815685, nextPhis[ 0]=14.810848 prevPhis[ 1]=-8.815685, nextPhis[ 1]=-8.810848 <==IsSwitchingOccur() T = 39.650000 Tnext = 39.655000 Time: 3.96500e+01 states: [ 3.26722e+00 9.17994e-03] derivs: [ 7.88849e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.655000 pESO->GetIndependentVar(): 39.655000 ==>IsSwitchingOccur() prevPhis[ 0]=14.810848, nextPhis[ 0]=14.805935 prevPhis[ 1]=-8.810848, nextPhis[ 1]=-8.805935 <==IsSwitchingOccur() T = 39.655000 Tnext = 39.660000 Time: 3.96550e+01 states: [ 3.26725e+00 4.17994e-03] derivs: [ 2.88849e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.660000 pESO->GetIndependentVar(): 39.660000 ==>IsSwitchingOccur() prevPhis[ 0]=14.805935, nextPhis[ 0]=14.800947 prevPhis[ 1]=-8.805935, nextPhis[ 1]=-8.800947 <==IsSwitchingOccur() T = 39.660000 Tnext = 39.665000 Time: 3.96600e+01 states: [ 3.26726e+00 -8.20056e-04] derivs: [ -2.11151e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.665000 pESO->GetIndependentVar(): 39.665000 ==>IsSwitchingOccur() prevPhis[ 0]=14.800947, nextPhis[ 0]=14.795884 prevPhis[ 1]=-8.800947, nextPhis[ 1]=-8.795884 <==IsSwitchingOccur() T = 39.665000 Tnext = 39.670000 Time: 3.96650e+01 states: [ 3.26723e+00 -5.82006e-03] derivs: [ -7.11151e-03 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.670000 pESO->GetIndependentVar(): 39.670000 ==>IsSwitchingOccur() prevPhis[ 0]=14.795884, nextPhis[ 0]=14.790747 prevPhis[ 1]=-8.795884, nextPhis[ 1]=-8.790747 <==IsSwitchingOccur() T = 39.670000 Tnext = 39.675000 Time: 3.96700e+01 states: [ 3.26719e+00 -1.08201e-02] derivs: [ -1.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.675000 pESO->GetIndependentVar(): 39.675000 ==>IsSwitchingOccur() prevPhis[ 0]=14.790747, nextPhis[ 0]=14.785534 prevPhis[ 1]=-8.790747, nextPhis[ 1]=-8.785534 <==IsSwitchingOccur() T = 39.675000 Tnext = 39.680000 Time: 3.96750e+01 states: [ 3.26712e+00 -1.58201e-02] derivs: [ -1.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.680000 pESO->GetIndependentVar(): 39.680000 ==>IsSwitchingOccur() prevPhis[ 0]=14.785534, nextPhis[ 0]=14.780246 prevPhis[ 1]=-8.785534, nextPhis[ 1]=-8.780246 <==IsSwitchingOccur() T = 39.680000 Tnext = 39.685000 Time: 3.96800e+01 states: [ 3.26702e+00 -2.08201e-02] derivs: [ -2.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.685000 pESO->GetIndependentVar(): 39.685000 ==>IsSwitchingOccur() prevPhis[ 0]=14.780246, nextPhis[ 0]=14.774884 prevPhis[ 1]=-8.780246, nextPhis[ 1]=-8.774884 <==IsSwitchingOccur() T = 39.685000 Tnext = 39.690000 Time: 3.96850e+01 states: [ 3.26690e+00 -2.58201e-02] derivs: [ -2.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.690000 pESO->GetIndependentVar(): 39.690000 ==>IsSwitchingOccur() prevPhis[ 0]=14.774884, nextPhis[ 0]=14.769446 prevPhis[ 1]=-8.774884, nextPhis[ 1]=-8.769446 <==IsSwitchingOccur() T = 39.690000 Tnext = 39.695000 Time: 3.96900e+01 states: [ 3.26676e+00 -3.08201e-02] derivs: [ -3.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.695000 pESO->GetIndependentVar(): 39.695000 ==>IsSwitchingOccur() prevPhis[ 0]=14.769446, nextPhis[ 0]=14.763933 prevPhis[ 1]=-8.769446, nextPhis[ 1]=-8.763933 <==IsSwitchingOccur() T = 39.695000 Tnext = 39.700000 Time: 3.96950e+01 states: [ 3.26658e+00 -3.58201e-02] derivs: [ -3.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.700000 pESO->GetIndependentVar(): 39.700000 ==>IsSwitchingOccur() prevPhis[ 0]=14.763933, nextPhis[ 0]=14.758346 prevPhis[ 1]=-8.763933, nextPhis[ 1]=-8.758346 <==IsSwitchingOccur() T = 39.700000 Tnext = 39.705000 Time: 3.97000e+01 states: [ 3.26639e+00 -4.08201e-02] derivs: [ -4.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.705000 pESO->GetIndependentVar(): 39.705000 ==>IsSwitchingOccur() prevPhis[ 0]=14.758346, nextPhis[ 0]=14.752683 prevPhis[ 1]=-8.758346, nextPhis[ 1]=-8.752683 <==IsSwitchingOccur() T = 39.705000 Tnext = 39.710000 Time: 3.97050e+01 states: [ 3.26617e+00 -4.58201e-02] derivs: [ -4.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.710000 pESO->GetIndependentVar(): 39.710000 ==>IsSwitchingOccur() prevPhis[ 0]=14.752683, nextPhis[ 0]=14.746945 prevPhis[ 1]=-8.752683, nextPhis[ 1]=-8.746945 <==IsSwitchingOccur() T = 39.710000 Tnext = 39.715000 Time: 3.97100e+01 states: [ 3.26592e+00 -5.08201e-02] derivs: [ -5.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.715000 pESO->GetIndependentVar(): 39.715000 ==>IsSwitchingOccur() prevPhis[ 0]=14.746945, nextPhis[ 0]=14.741133 prevPhis[ 1]=-8.746945, nextPhis[ 1]=-8.741133 <==IsSwitchingOccur() T = 39.715000 Tnext = 39.720000 Time: 3.97150e+01 states: [ 3.26565e+00 -5.58201e-02] derivs: [ -5.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.720000 pESO->GetIndependentVar(): 39.720000 ==>IsSwitchingOccur() prevPhis[ 0]=14.741133, nextPhis[ 0]=14.735245 prevPhis[ 1]=-8.741133, nextPhis[ 1]=-8.735245 <==IsSwitchingOccur() T = 39.720000 Tnext = 39.725000 Time: 3.97200e+01 states: [ 3.26535e+00 -6.08201e-02] derivs: [ -6.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.725000 pESO->GetIndependentVar(): 39.725000 ==>IsSwitchingOccur() prevPhis[ 0]=14.735245, nextPhis[ 0]=14.729282 prevPhis[ 1]=-8.735245, nextPhis[ 1]=-8.729282 <==IsSwitchingOccur() T = 39.725000 Tnext = 39.730000 Time: 3.97250e+01 states: [ 3.26503e+00 -6.58201e-02] derivs: [ -6.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.730000 pESO->GetIndependentVar(): 39.730000 ==>IsSwitchingOccur() prevPhis[ 0]=14.729282, nextPhis[ 0]=14.723244 prevPhis[ 1]=-8.729282, nextPhis[ 1]=-8.723244 <==IsSwitchingOccur() T = 39.730000 Tnext = 39.735000 Time: 3.97300e+01 states: [ 3.26469e+00 -7.08201e-02] derivs: [ -7.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.735000 pESO->GetIndependentVar(): 39.735000 ==>IsSwitchingOccur() prevPhis[ 0]=14.723244, nextPhis[ 0]=14.717132 prevPhis[ 1]=-8.723244, nextPhis[ 1]=-8.717132 <==IsSwitchingOccur() T = 39.735000 Tnext = 39.740000 Time: 3.97350e+01 states: [ 3.26432e+00 -7.58201e-02] derivs: [ -7.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.740000 pESO->GetIndependentVar(): 39.740000 ==>IsSwitchingOccur() prevPhis[ 0]=14.717132, nextPhis[ 0]=14.710944 prevPhis[ 1]=-8.717132, nextPhis[ 1]=-8.710944 <==IsSwitchingOccur() T = 39.740000 Tnext = 39.745000 Time: 3.97400e+01 states: [ 3.26392e+00 -8.08201e-02] derivs: [ -8.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.745000 pESO->GetIndependentVar(): 39.745000 ==>IsSwitchingOccur() prevPhis[ 0]=14.710944, nextPhis[ 0]=14.704681 prevPhis[ 1]=-8.710944, nextPhis[ 1]=-8.704681 <==IsSwitchingOccur() T = 39.745000 Tnext = 39.750000 Time: 3.97450e+01 states: [ 3.26350e+00 -8.58201e-02] derivs: [ -8.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.750000 pESO->GetIndependentVar(): 39.750000 ==>IsSwitchingOccur() prevPhis[ 0]=14.704681, nextPhis[ 0]=14.698344 prevPhis[ 1]=-8.704681, nextPhis[ 1]=-8.698344 <==IsSwitchingOccur() T = 39.750000 Tnext = 39.755000 Time: 3.97500e+01 states: [ 3.26305e+00 -9.08201e-02] derivs: [ -9.21115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.755000 pESO->GetIndependentVar(): 39.755000 ==>IsSwitchingOccur() prevPhis[ 0]=14.698344, nextPhis[ 0]=14.691931 prevPhis[ 1]=-8.698344, nextPhis[ 1]=-8.691931 <==IsSwitchingOccur() T = 39.755000 Tnext = 39.760000 Time: 3.97550e+01 states: [ 3.26258e+00 -9.58201e-02] derivs: [ -9.71115e-02 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.760000 pESO->GetIndependentVar(): 39.760000 ==>IsSwitchingOccur() prevPhis[ 0]=14.691931, nextPhis[ 0]=14.685443 prevPhis[ 1]=-8.691931, nextPhis[ 1]=-8.685443 <==IsSwitchingOccur() T = 39.760000 Tnext = 39.765000 Time: 3.97600e+01 states: [ 3.26209e+00 -1.00820e-01] derivs: [ -1.02112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.765000 pESO->GetIndependentVar(): 39.765000 ==>IsSwitchingOccur() prevPhis[ 0]=14.685443, nextPhis[ 0]=14.678881 prevPhis[ 1]=-8.685443, nextPhis[ 1]=-8.678881 <==IsSwitchingOccur() T = 39.765000 Tnext = 39.770000 Time: 3.97650e+01 states: [ 3.26157e+00 -1.05820e-01] derivs: [ -1.07112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.770000 pESO->GetIndependentVar(): 39.770000 ==>IsSwitchingOccur() prevPhis[ 0]=14.678881, nextPhis[ 0]=14.672243 prevPhis[ 1]=-8.678881, nextPhis[ 1]=-8.672243 <==IsSwitchingOccur() T = 39.770000 Tnext = 39.775000 Time: 3.97700e+01 states: [ 3.26102e+00 -1.10820e-01] derivs: [ -1.12112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.775000 pESO->GetIndependentVar(): 39.775000 ==>IsSwitchingOccur() prevPhis[ 0]=14.672243, nextPhis[ 0]=14.665530 prevPhis[ 1]=-8.672243, nextPhis[ 1]=-8.665530 <==IsSwitchingOccur() T = 39.775000 Tnext = 39.780000 Time: 3.97750e+01 states: [ 3.26045e+00 -1.15820e-01] derivs: [ -1.17112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.780000 pESO->GetIndependentVar(): 39.780000 ==>IsSwitchingOccur() prevPhis[ 0]=14.665530, nextPhis[ 0]=14.658743 prevPhis[ 1]=-8.665530, nextPhis[ 1]=-8.658743 <==IsSwitchingOccur() T = 39.780000 Tnext = 39.785000 Time: 3.97800e+01 states: [ 3.25985e+00 -1.20820e-01] derivs: [ -1.22112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.785000 pESO->GetIndependentVar(): 39.785000 ==>IsSwitchingOccur() prevPhis[ 0]=14.658743, nextPhis[ 0]=14.651880 prevPhis[ 1]=-8.658743, nextPhis[ 1]=-8.651880 <==IsSwitchingOccur() T = 39.785000 Tnext = 39.790000 Time: 3.97850e+01 states: [ 3.25923e+00 -1.25820e-01] derivs: [ -1.27112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.790000 pESO->GetIndependentVar(): 39.790000 ==>IsSwitchingOccur() prevPhis[ 0]=14.651880, nextPhis[ 0]=14.644942 prevPhis[ 1]=-8.651880, nextPhis[ 1]=-8.644942 <==IsSwitchingOccur() T = 39.790000 Tnext = 39.795000 Time: 3.97900e+01 states: [ 3.25859e+00 -1.30820e-01] derivs: [ -1.32112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.795000 pESO->GetIndependentVar(): 39.795000 ==>IsSwitchingOccur() prevPhis[ 0]=14.644942, nextPhis[ 0]=14.637929 prevPhis[ 1]=-8.644942, nextPhis[ 1]=-8.637929 <==IsSwitchingOccur() T = 39.795000 Tnext = 39.800000 Time: 3.97950e+01 states: [ 3.25792e+00 -1.35820e-01] derivs: [ -1.37112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.800000 pESO->GetIndependentVar(): 39.800000 ==>IsSwitchingOccur() prevPhis[ 0]=14.637929, nextPhis[ 0]=14.630842 prevPhis[ 1]=-8.637929, nextPhis[ 1]=-8.630842 <==IsSwitchingOccur() T = 39.800000 Tnext = 39.805000 Time: 3.98000e+01 states: [ 3.25722e+00 -1.40820e-01] derivs: [ -1.42112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.805000 pESO->GetIndependentVar(): 39.805000 ==>IsSwitchingOccur() prevPhis[ 0]=14.630842, nextPhis[ 0]=14.623679 prevPhis[ 1]=-8.630842, nextPhis[ 1]=-8.623679 <==IsSwitchingOccur() T = 39.805000 Tnext = 39.810000 Time: 3.98050e+01 states: [ 3.25650e+00 -1.45820e-01] derivs: [ -1.47112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.810000 pESO->GetIndependentVar(): 39.810000 ==>IsSwitchingOccur() prevPhis[ 0]=14.623679, nextPhis[ 0]=14.616441 prevPhis[ 1]=-8.623679, nextPhis[ 1]=-8.616441 <==IsSwitchingOccur() T = 39.810000 Tnext = 39.815000 Time: 3.98100e+01 states: [ 3.25575e+00 -1.50820e-01] derivs: [ -1.52112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.815000 pESO->GetIndependentVar(): 39.815000 ==>IsSwitchingOccur() prevPhis[ 0]=14.616441, nextPhis[ 0]=14.609129 prevPhis[ 1]=-8.616441, nextPhis[ 1]=-8.609129 <==IsSwitchingOccur() T = 39.815000 Tnext = 39.820000 Time: 3.98150e+01 states: [ 3.25498e+00 -1.55820e-01] derivs: [ -1.57112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.820000 pESO->GetIndependentVar(): 39.820000 ==>IsSwitchingOccur() prevPhis[ 0]=14.609129, nextPhis[ 0]=14.601741 prevPhis[ 1]=-8.609129, nextPhis[ 1]=-8.601741 <==IsSwitchingOccur() T = 39.820000 Tnext = 39.825000 Time: 3.98200e+01 states: [ 3.25419e+00 -1.60820e-01] derivs: [ -1.62112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.825000 pESO->GetIndependentVar(): 39.825000 ==>IsSwitchingOccur() prevPhis[ 0]=14.601741, nextPhis[ 0]=14.594278 prevPhis[ 1]=-8.601741, nextPhis[ 1]=-8.594278 <==IsSwitchingOccur() T = 39.825000 Tnext = 39.830000 Time: 3.98250e+01 states: [ 3.25337e+00 -1.65820e-01] derivs: [ -1.67112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.830000 pESO->GetIndependentVar(): 39.830000 ==>IsSwitchingOccur() prevPhis[ 0]=14.594278, nextPhis[ 0]=14.586741 prevPhis[ 1]=-8.594278, nextPhis[ 1]=-8.586741 <==IsSwitchingOccur() T = 39.830000 Tnext = 39.835000 Time: 3.98300e+01 states: [ 3.25252e+00 -1.70820e-01] derivs: [ -1.72112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.835000 pESO->GetIndependentVar(): 39.835000 ==>IsSwitchingOccur() prevPhis[ 0]=14.586741, nextPhis[ 0]=14.579128 prevPhis[ 1]=-8.586741, nextPhis[ 1]=-8.579128 <==IsSwitchingOccur() T = 39.835000 Tnext = 39.840000 Time: 3.98350e+01 states: [ 3.25165e+00 -1.75820e-01] derivs: [ -1.77112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.840000 pESO->GetIndependentVar(): 39.840000 ==>IsSwitchingOccur() prevPhis[ 0]=14.579128, nextPhis[ 0]=14.571440 prevPhis[ 1]=-8.579128, nextPhis[ 1]=-8.571440 <==IsSwitchingOccur() T = 39.840000 Tnext = 39.845000 Time: 3.98400e+01 states: [ 3.25075e+00 -1.80820e-01] derivs: [ -1.82112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.845000 pESO->GetIndependentVar(): 39.845000 ==>IsSwitchingOccur() prevPhis[ 0]=14.571440, nextPhis[ 0]=14.563678 prevPhis[ 1]=-8.571440, nextPhis[ 1]=-8.563678 <==IsSwitchingOccur() T = 39.845000 Tnext = 39.850000 Time: 3.98450e+01 states: [ 3.24983e+00 -1.85820e-01] derivs: [ -1.87112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.850000 pESO->GetIndependentVar(): 39.850000 ==>IsSwitchingOccur() prevPhis[ 0]=14.563678, nextPhis[ 0]=14.555840 prevPhis[ 1]=-8.563678, nextPhis[ 1]=-8.555840 <==IsSwitchingOccur() T = 39.850000 Tnext = 39.855000 Time: 3.98500e+01 states: [ 3.24889e+00 -1.90820e-01] derivs: [ -1.92112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.855000 pESO->GetIndependentVar(): 39.855000 ==>IsSwitchingOccur() prevPhis[ 0]=14.555840, nextPhis[ 0]=14.547927 prevPhis[ 1]=-8.555840, nextPhis[ 1]=-8.547927 <==IsSwitchingOccur() T = 39.855000 Tnext = 39.860000 Time: 3.98550e+01 states: [ 3.24792e+00 -1.95820e-01] derivs: [ -1.97112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.860000 pESO->GetIndependentVar(): 39.860000 ==>IsSwitchingOccur() prevPhis[ 0]=14.547927, nextPhis[ 0]=14.539939 prevPhis[ 1]=-8.547927, nextPhis[ 1]=-8.539939 <==IsSwitchingOccur() T = 39.860000 Tnext = 39.865000 Time: 3.98600e+01 states: [ 3.24692e+00 -2.00820e-01] derivs: [ -2.02112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.865000 pESO->GetIndependentVar(): 39.865000 ==>IsSwitchingOccur() prevPhis[ 0]=14.539939, nextPhis[ 0]=14.531877 prevPhis[ 1]=-8.539939, nextPhis[ 1]=-8.531877 <==IsSwitchingOccur() T = 39.865000 Tnext = 39.870000 Time: 3.98650e+01 states: [ 3.24590e+00 -2.05820e-01] derivs: [ -2.07112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.870000 pESO->GetIndependentVar(): 39.870000 ==>IsSwitchingOccur() prevPhis[ 0]=14.531877, nextPhis[ 0]=14.523739 prevPhis[ 1]=-8.531877, nextPhis[ 1]=-8.523739 <==IsSwitchingOccur() T = 39.870000 Tnext = 39.875000 Time: 3.98700e+01 states: [ 3.24485e+00 -2.10820e-01] derivs: [ -2.12112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.875000 pESO->GetIndependentVar(): 39.875000 ==>IsSwitchingOccur() prevPhis[ 0]=14.523739, nextPhis[ 0]=14.515526 prevPhis[ 1]=-8.523739, nextPhis[ 1]=-8.515526 <==IsSwitchingOccur() T = 39.875000 Tnext = 39.880000 Time: 3.98750e+01 states: [ 3.24378e+00 -2.15820e-01] derivs: [ -2.17112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.880000 pESO->GetIndependentVar(): 39.880000 ==>IsSwitchingOccur() prevPhis[ 0]=14.515526, nextPhis[ 0]=14.507239 prevPhis[ 1]=-8.515526, nextPhis[ 1]=-8.507239 <==IsSwitchingOccur() T = 39.880000 Tnext = 39.885000 Time: 3.98800e+01 states: [ 3.24269e+00 -2.20820e-01] derivs: [ -2.22112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.885000 pESO->GetIndependentVar(): 39.885000 ==>IsSwitchingOccur() prevPhis[ 0]=14.507239, nextPhis[ 0]=14.498876 prevPhis[ 1]=-8.507239, nextPhis[ 1]=-8.498876 <==IsSwitchingOccur() T = 39.885000 Tnext = 39.890000 Time: 3.98850e+01 states: [ 3.24157e+00 -2.25820e-01] derivs: [ -2.27112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.890000 pESO->GetIndependentVar(): 39.890000 ==>IsSwitchingOccur() prevPhis[ 0]=14.498876, nextPhis[ 0]=14.490438 prevPhis[ 1]=-8.498876, nextPhis[ 1]=-8.490438 <==IsSwitchingOccur() T = 39.890000 Tnext = 39.895000 Time: 3.98900e+01 states: [ 3.24042e+00 -2.30820e-01] derivs: [ -2.32112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.895000 pESO->GetIndependentVar(): 39.895000 ==>IsSwitchingOccur() prevPhis[ 0]=14.490438, nextPhis[ 0]=14.481926 prevPhis[ 1]=-8.490438, nextPhis[ 1]=-8.481926 <==IsSwitchingOccur() T = 39.895000 Tnext = 39.900000 Time: 3.98950e+01 states: [ 3.23925e+00 -2.35820e-01] derivs: [ -2.37112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.900000 pESO->GetIndependentVar(): 39.900000 ==>IsSwitchingOccur() prevPhis[ 0]=14.481926, nextPhis[ 0]=14.473338 prevPhis[ 1]=-8.481926, nextPhis[ 1]=-8.473338 <==IsSwitchingOccur() T = 39.900000 Tnext = 39.905000 Time: 3.99000e+01 states: [ 3.23805e+00 -2.40820e-01] derivs: [ -2.42112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.905000 pESO->GetIndependentVar(): 39.905000 ==>IsSwitchingOccur() prevPhis[ 0]=14.473338, nextPhis[ 0]=14.464675 prevPhis[ 1]=-8.473338, nextPhis[ 1]=-8.464675 <==IsSwitchingOccur() T = 39.905000 Tnext = 39.910000 Time: 3.99050e+01 states: [ 3.23683e+00 -2.45820e-01] derivs: [ -2.47112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.910000 pESO->GetIndependentVar(): 39.910000 ==>IsSwitchingOccur() prevPhis[ 0]=14.464675, nextPhis[ 0]=14.455938 prevPhis[ 1]=-8.464675, nextPhis[ 1]=-8.455938 <==IsSwitchingOccur() T = 39.910000 Tnext = 39.915000 Time: 3.99100e+01 states: [ 3.23559e+00 -2.50820e-01] derivs: [ -2.52112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.915000 pESO->GetIndependentVar(): 39.915000 ==>IsSwitchingOccur() prevPhis[ 0]=14.455938, nextPhis[ 0]=14.447125 prevPhis[ 1]=-8.455938, nextPhis[ 1]=-8.447125 <==IsSwitchingOccur() T = 39.915000 Tnext = 39.920000 Time: 3.99150e+01 states: [ 3.23431e+00 -2.55820e-01] derivs: [ -2.57112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.920000 pESO->GetIndependentVar(): 39.920000 ==>IsSwitchingOccur() prevPhis[ 0]=14.447125, nextPhis[ 0]=14.438237 prevPhis[ 1]=-8.447125, nextPhis[ 1]=-8.438237 <==IsSwitchingOccur() T = 39.920000 Tnext = 39.925000 Time: 3.99200e+01 states: [ 3.23302e+00 -2.60820e-01] derivs: [ -2.62112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.925000 pESO->GetIndependentVar(): 39.925000 ==>IsSwitchingOccur() prevPhis[ 0]=14.438237, nextPhis[ 0]=14.429274 prevPhis[ 1]=-8.438237, nextPhis[ 1]=-8.429274 <==IsSwitchingOccur() T = 39.925000 Tnext = 39.930000 Time: 3.99250e+01 states: [ 3.23170e+00 -2.65820e-01] derivs: [ -2.67112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.930000 pESO->GetIndependentVar(): 39.930000 ==>IsSwitchingOccur() prevPhis[ 0]=14.429274, nextPhis[ 0]=14.420237 prevPhis[ 1]=-8.429274, nextPhis[ 1]=-8.420237 <==IsSwitchingOccur() T = 39.930000 Tnext = 39.935000 Time: 3.99300e+01 states: [ 3.23035e+00 -2.70820e-01] derivs: [ -2.72112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.935000 pESO->GetIndependentVar(): 39.935000 ==>IsSwitchingOccur() prevPhis[ 0]=14.420237, nextPhis[ 0]=14.411124 prevPhis[ 1]=-8.420237, nextPhis[ 1]=-8.411124 <==IsSwitchingOccur() T = 39.935000 Tnext = 39.940000 Time: 3.99350e+01 states: [ 3.22898e+00 -2.75820e-01] derivs: [ -2.77112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.940000 pESO->GetIndependentVar(): 39.940000 ==>IsSwitchingOccur() prevPhis[ 0]=14.411124, nextPhis[ 0]=14.401936 prevPhis[ 1]=-8.411124, nextPhis[ 1]=-8.401936 <==IsSwitchingOccur() T = 39.940000 Tnext = 39.945000 Time: 3.99400e+01 states: [ 3.22759e+00 -2.80820e-01] derivs: [ -2.82112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.945000 pESO->GetIndependentVar(): 39.945000 ==>IsSwitchingOccur() prevPhis[ 0]=14.401936, nextPhis[ 0]=14.392674 prevPhis[ 1]=-8.401936, nextPhis[ 1]=-8.392674 <==IsSwitchingOccur() T = 39.945000 Tnext = 39.950000 Time: 3.99450e+01 states: [ 3.22616e+00 -2.85820e-01] derivs: [ -2.87112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.950000 pESO->GetIndependentVar(): 39.950000 ==>IsSwitchingOccur() prevPhis[ 0]=14.392674, nextPhis[ 0]=14.383336 prevPhis[ 1]=-8.392674, nextPhis[ 1]=-8.383336 <==IsSwitchingOccur() T = 39.950000 Tnext = 39.955000 Time: 3.99500e+01 states: [ 3.22472e+00 -2.90820e-01] derivs: [ -2.92112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.955000 pESO->GetIndependentVar(): 39.955000 ==>IsSwitchingOccur() prevPhis[ 0]=14.383336, nextPhis[ 0]=14.373923 prevPhis[ 1]=-8.383336, nextPhis[ 1]=-8.373923 <==IsSwitchingOccur() T = 39.955000 Tnext = 39.960000 Time: 3.99550e+01 states: [ 3.22325e+00 -2.95820e-01] derivs: [ -2.97112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.960000 pESO->GetIndependentVar(): 39.960000 ==>IsSwitchingOccur() prevPhis[ 0]=14.373923, nextPhis[ 0]=14.364436 prevPhis[ 1]=-8.373923, nextPhis[ 1]=-8.364436 <==IsSwitchingOccur() T = 39.960000 Tnext = 39.965000 Time: 3.99600e+01 states: [ 3.22175e+00 -3.00820e-01] derivs: [ -3.02112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.965000 pESO->GetIndependentVar(): 39.965000 ==>IsSwitchingOccur() prevPhis[ 0]=14.364436, nextPhis[ 0]=14.354873 prevPhis[ 1]=-8.364436, nextPhis[ 1]=-8.354873 <==IsSwitchingOccur() T = 39.965000 Tnext = 39.970000 Time: 3.99650e+01 states: [ 3.22023e+00 -3.05820e-01] derivs: [ -3.07112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.970000 pESO->GetIndependentVar(): 39.970000 ==>IsSwitchingOccur() prevPhis[ 0]=14.354873, nextPhis[ 0]=14.345235 prevPhis[ 1]=-8.354873, nextPhis[ 1]=-8.345235 <==IsSwitchingOccur() T = 39.970000 Tnext = 39.975000 Time: 3.99700e+01 states: [ 3.21869e+00 -3.10820e-01] derivs: [ -3.12112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.975000 pESO->GetIndependentVar(): 39.975000 ==>IsSwitchingOccur() prevPhis[ 0]=14.345235, nextPhis[ 0]=14.335523 prevPhis[ 1]=-8.345235, nextPhis[ 1]=-8.335523 <==IsSwitchingOccur() T = 39.975000 Tnext = 39.980000 Time: 3.99750e+01 states: [ 3.21711e+00 -3.15820e-01] derivs: [ -3.17112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.980000 pESO->GetIndependentVar(): 39.980000 ==>IsSwitchingOccur() prevPhis[ 0]=14.335523, nextPhis[ 0]=14.325735 prevPhis[ 1]=-8.335523, nextPhis[ 1]=-8.325735 <==IsSwitchingOccur() T = 39.980000 Tnext = 39.985000 Time: 3.99800e+01 states: [ 3.21552e+00 -3.20820e-01] derivs: [ -3.22112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.985000 pESO->GetIndependentVar(): 39.985000 ==>IsSwitchingOccur() prevPhis[ 0]=14.325735, nextPhis[ 0]=14.315872 prevPhis[ 1]=-8.325735, nextPhis[ 1]=-8.315872 <==IsSwitchingOccur() T = 39.985000 Tnext = 39.990000 Time: 3.99850e+01 states: [ 3.21390e+00 -3.25820e-01] derivs: [ -3.27112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.990000 pESO->GetIndependentVar(): 39.990000 ==>IsSwitchingOccur() prevPhis[ 0]=14.315872, nextPhis[ 0]=14.305934 prevPhis[ 1]=-8.315872, nextPhis[ 1]=-8.305934 <==IsSwitchingOccur() T = 39.990000 Tnext = 39.995000 Time: 3.99900e+01 states: [ 3.21225e+00 -3.30820e-01] derivs: [ -3.32112e-01 -1.00000e+00] Save current state Set saved state getParam(pSubordinateSolverParameters, T): 39.995000 pESO->GetIndependentVar(): 39.995000 ==>IsSwitchingOccur() prevPhis[ 0]=14.305934, nextPhis[ 0]=14.295922 prevPhis[ 1]=-8.305934, nextPhis[ 1]=-8.295922 <==IsSwitchingOccur() T = 39.995000 Tnext = 40.000000 Save current state Set saved state getParam(pSubordinateSolverParameters, T): 40.000000 pESO->GetIndependentVar(): 40.000000 ==>IsSwitchingOccur() prevPhis[ 0]=14.295922, nextPhis[ 0]=14.285834 prevPhis[ 1]=-8.295922, nextPhis[ 1]=-8.285834 <==IsSwitchingOccur() <==Solve() ==================== (3.3774342660824566, 5.978496858022186) virtual Diana::MemoryReportingInterface::~MemoryReportingInterface() (DianaReporting.cpp:105) ==>~PetriMetaSensSolver() <==~PetriMetaSensSolver() virtual ExampleESO::~ExampleESO() (Example.cpp:59) XercesInitializer::~XercesInitializer() (DianaXmlDAESO.cpp:68)