Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.conf.json
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo): time 0.0008157/0.0008157, allocations: 80.25 kB / 20.06 MB, free: 4.465 MB / 18.57 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo): time 0.0008013/0.0008013, allocations: 173.9 kB / 23.36 MB, free: 1.16 MB / 18.57 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo): time 0.9252/0.9252, allocations: 177.1 MB / 203.7 MB, free: 5.699 MB / 186.7 MB
"
[Timeout remaining time 179]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo): time 0.6987/0.6987, allocations: 116 MB / 376.2 MB, free: 4.168 MB / 346.7 MB
"
[Timeout remaining time 179]
Using package ThermofluidStream with version 1.3.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo)
Using package Modelica with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo)
Using package Complex with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo)
Using package ModelicaServices with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo)
Running command: translateModel(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint,tolerance=1e-06,outputFormat="mat",numberOfIntervals=100,variableFilter="CPUtime|EventCounter|NonlinearSystems.initialization.1..Calls|NonlinearSystems.initialization.1..Iterations|NonlinearSystems.initialization.1..Jacobians|NonlinearSystems.initialization.1..Residues|NonlinearSystems.initialization.2..Calls|NonlinearSystems.initialization.2..Iterations|NonlinearSystems.initialization.2..Jacobians|NonlinearSystems.initialization.2..Residues|Time|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.H0|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.MM|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.CO2.blow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.H0|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.MM|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.SingleGases.CO2.data.blow.2.|dp.L|dp.P|dp.P_nom|dp.TC|dp.adiabaticModel.eta_is|dp.adiabaticModel.h_in|dp.adiabaticModel.h_out|dp.adiabaticModel.h_out_is|dp.adiabaticModel.p_out|dp.adiabaticModel.s_in|dp.adiabaticModel.state_in.T|dp.adiabaticModel.state_in.p|dp.adiabaticModel.w_t|dp.adiabaticModel.w_t_is|dp.assertionLevel|dp.clip_p_out|dp.dh|dp.dp|dp.dp_fixed|dp.dp_nom|dp.dp_start|dp.dr_corr|dp.etaSpec|dp.eta_actual|dp.eta_fixed|dp.eta_is|dp.h_in|dp.h_out|dp.initM_flow|d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[Timeout 660]
"Notification: Performance of FrontEnd - Absyn->SCode: time 2.533e-05/2.533e-05, allocations: 2.312 kB / 0.5549 GB, free: 12.55 MB / 490.7 MB
Notification: Performance of NFInst.instantiate(ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint): time 1.234/1.234, allocations: 416.1 MB / 0.9612 GB, free: 0.9141 MB / 0.7761 GB
Notification: Performance of NFInst.instExpressions: time 0.03818/1.272, allocations: 23.46 MB / 0.9841 GB, free: 0.8906 MB / 0.7761 GB
Notification: Performance of NFInst.updateImplicitVariability: time 0.009638/1.282, allocations: 379.7 kB / 0.9845 GB, free: 0.8906 MB / 0.7761 GB
Notification: Performance of NFTyping.typeComponents: time 0.009682/1.292, allocations: 2.457 MB / 0.9869 GB, free: 0.8906 MB / 0.7761 GB
Notification: Performance of NFTyping.typeBindings: time 0.03238/1.324, allocations: 8.553 MB / 0.9952 GB, free: 15.49 MB / 0.7917 GB
Notification: Performance of NFTyping.typeClassSections: time 0.01707/1.341, allocations: 5.458 MB / 1.001 GB, free: 14.85 MB / 0.7917 GB
Notification: Performance of NFFlatten.flatten: time 0.02226/1.363, allocations: 11.65 MB / 1.012 GB, free: 12.27 MB / 0.7917 GB
Notification: Performance of NFFlatten.resolveConnections: time 0.00368/1.367, allocations: 0.6779 MB / 1.013 GB, free: 12.1 MB / 0.7917 GB
Notification: Performance of NFEvalConstants.evaluate: time 0.02384/1.391, allocations: 8.455 MB / 1.021 GB, free: 11.21 MB / 0.7917 GB
Notification: Performance of NFSimplifyModel.simplify: time 0.008523/1.399, allocations: 1.967 MB / 1.023 GB, free: 10.9 MB / 0.7917 GB
Notification: Performance of NFPackage.collectConstants: time 0.002191/1.402, allocations: 315.1 kB / 1.023 GB, free: 10.9 MB / 0.7917 GB
Notification: Performance of NFFlatten.collectFunctions: time 0.01859/1.42, allocations: 5.983 MB / 1.029 GB, free: 10.47 MB / 0.7917 GB
Notification: Performance of combineBinaries: time 0.01247/1.433, allocations: 9.233 MB / 1.038 GB, free: 6.215 MB / 0.7917 GB
Notification: Performance of replaceArrayConstructors: time 0.008531/1.441, allocations: 6.483 MB / 1.044 GB, free: 2.633 MB / 0.7917 GB
Notification: Performance of NFVerifyModel.verify: time 0.002752/1.444, allocations: 0.4959 MB / 1.045 GB, free: 2.633 MB / 0.7917 GB
Notification: Performance of FrontEnd: time 0.003403/1.447, allocations: 1.594 MB / 1.046 GB, free: 2.504 MB / 0.7917 GB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 888 (834)
 * Number of variables: 888 (888)
Notification: Performance of [SIM] Bindings: time 0.03793/1.485, allocations: 22.48 MB / 1.068 GB, free: 10.58 MB / 0.8073 GB
Notification: Performance of [SIM] FunctionAlias: time 0.009332/1.495, allocations: 4.039 MB / 1.072 GB, free: 9.527 MB / 0.8073 GB
Notification: Performance of [SIM] Early Inline: time 0.03318/1.528, allocations: 18.74 MB / 1.091 GB, free: 1.875 MB / 0.8073 GB
Notification: Performance of [SIM] Simplify 1: time 0.005411/1.533, allocations: 2.129 MB / 1.093 GB, free: 15.69 MB / 0.823 GB
Warning: NBAlias.setStartFixed: Alias set with conflicting unfixed start values detected. Use -d=dumprepl for more information.
Notification: Performance of [SIM] Alias: time 0.0301/1.563, allocations: 20.89 MB / 1.113 GB, free: 8.949 MB / 0.8386 GB
Notification: Performance of [SIM] Simplify 2: time 0.00287/1.566, allocations: 1.63 MB / 1.115 GB, free: 7.289 MB / 0.8386 GB
Notification: Performance of [SIM] Remove Stream: time 0.00129/1.568, allocations: 0.9603 MB / 1.116 GB, free: 6.277 MB / 0.8386 GB
Notification: Performance of [SIM] Detect States: time 0.005662/1.573, allocations: 3.689 MB / 1.119 GB, free: 2.578 MB / 0.8386 GB
Notification: Performance of [SIM] Events: time 0.00137/1.575, allocations: 0.7004 MB / 1.12 GB, free: 1.887 MB / 0.8386 GB
Notification: Performance of [SIM] Partitioning: time 0.007092/1.582, allocations: 5.473 MB / 1.125 GB, free: 12.14 MB / 0.8542 GB
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:645:5-645:69:writable] Warning: Variable $fDER_u of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:654:5-654:11:writable] Warning: Variable m of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:655:5-655:11:writable] Warning: Variable s of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:656:5-656:11:writable] Warning: Variable p of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:657:5-657:11:writable] Warning: Variable q of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:658:5-658:11:writable] Warning: Variable r of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:659:5-659:13:writable] Warning: Variable tol of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:654:5-654:11:writable] Warning: Variable $fDER_m of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:655:5-655:11:writable] Warning: Variable $fDER_s of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:656:5-656:11:writable] Warning: Variable $fDER_p of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:657:5-657:11:writable] Warning: Variable $fDER_q of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:658:5-658:11:writable] Warning: Variable $fDER_r of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:659:5-659:13:writable] Warning: Variable $fDER_tol of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/Math/Nonlinear.mo:645:5-645:69:writable] Warning: Variable u of the generated function $fDER0.Modelica.Math.Nonlinear.solveOneNonlinearEquation will be initialized to 0.0 because it could not be proven that it is always assigned before it is used.
Error: Internal error NBSorting.tarjan failed to sort system:
System Variables (57/61)
**************************
(1|1)          [DISC] (1) Boolean $SEV_3
(2|2)          [DSTA] (1) Real dp3.h_out (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5)
(3|3)          [DSTA] (1) Real dp3.p_out (start = 1e5, min = 0.0, max = 1e8, nominal = 1e6)
(4|4)          [DSTA] (1) final input Real dp3.adiabaticModel.state_in.p = dp3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6)
(5|5)          [DSTA] (1) final Real dp3.adiabaticModel.s_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.adiabaticModel.Medium.specificEntropy(dp3.adiabaticModel.state_in) (min = -1e7, max = 1e7, nominal = 1000.0)
(6|6)          [DSTA] (1) input Real dp3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6)
(7|7)          [DSTA] (1) final Real dp3.adiabaticModel.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.adiabaticModel.Medium.specificEnthalpy(dp3.adiabaticModel.state_in) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5)
(8|8)          [ALGB] (1) output Real dp3.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0)
(9|9)          [DSTA] (1) Real dp3.dh
(10|10)        [DSTA] (1) final Real dp3.adiabaticModel.w_t_is
(11|11)        [DSTA] (1) Real $FUN_9.T
(12|12)        [ALGB] (1) Real $FUN_11
(13|13)        [DSTA] (1) input Real dp3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0)
(14|14)        [ALGB] (1) Real $FUN_10
(15|15)        [DSTA] (1) final Real dp3.adiabaticModel.h_out_is = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.adiabaticModel.Medium.specificEnthalpy_psX(dp3.p_out, dp3.adiabaticModel.s_in, {}) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5)
(16|16)        [ALGB] (1) final Real dp3.adiabaticModel.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.adiabaticModel.Medium.pressure(dp3.adiabaticModel.state_in) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6)
(17|17)        [DSTA] (1) Real dp3.h_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.Medium.specificEnthalpy(dp3.inlet.state) (start = 212805.6215135368, min = -1e10, max = 1e10, nominal = 1e5)
(18|18)        [ALGB] (1) input Real sink3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0)
(19|19)        [ALGB] (1) Real $FUN_12.p
(20|20)        [ALGB] (1) Real source3.outlet.r
(21|21)        [DSTA] (1) final Real dp3.adiabaticModel.w_t
(22|22)        [ALGB] (1) Real dp3.outlet.r
(23|23)        [ALGB] (1) Real dp3.singularityRegime
(24|24)        [DSTA] (1) output Real source3.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6)
(25|25)        [DDER] (1) Real $DER.dp3.m_flow (StateSelect = avoid)
(26|26)        [ALGB] (1) input Real sink3.inlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6)
(27|27)        [DSTA] (1) final input Real dp3.adiabaticModel.state_in.T = dp3.inlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0)
(28|28)        [DSTA] (1) output Real source3.outlet.state.T (start = 500.0, min = 200.0, max = 6000.0, nominal = 500.0)
(29|29)        [ALGB] (1) Real dp3.pRatio = dp3.p_out / dp3.p_in
(30|30)        [ALGB] (1) Real $FUN_12.T
(31|31)        [ALGB] (1) output Real dp3.outlet.state.p (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6)
(32|32)        [ALGB] (1) Real sink3.r
(33|33)        [DSTA] (1) Real $FUN_9.p
(34|34)        [DSTA] (1) Real dp3.p_in = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.Medium.pressure(dp3.inlet.state) (start = 1e6, min = 0.0, max = 1e8, nominal = 1e6)
(35|35)        [DDER] (1) Real $DER.$FUN_9.T (StateSelect = avoid)
(36|36)        [DDER] (1) Real $DER.$FUN_9.p (StateSelect = avoid)
(37|37)        [DDER] (1) Real $DER.dp3.p_in (StateSelect = avoid)
(38|38)        [DDER] (1) output Real $DER.source3.outlet.state.T (StateSelect = avoid)
(39|39)        [DDER] (1) input Real $DER.dp3.inlet.state.T (StateSelect = avoid)
(40|40)        [DDER] (1) input Real $DER.dp3.inlet.state.p (StateSelect = avoid)
(41|41)        [DDER] (1) output Real $DER.source3.outlet.state.p (StateSelect = avoid)
(42|42)        [DDER] (1) final input Real $DER.dp3.adiabaticModel.state_in.p (StateSelect = avoid)
(43|43)        [DDER] (1) final input Real $DER.dp3.adiabaticModel.state_in.T (StateSelect = avoid)
(44|44)        [DDER] (1) final Real $DER.dp3.adiabaticModel.s_in (StateSelect = avoid)
(45|45)        [DDER] (1) Real $DER.dp3.p_out (StateSelect = avoid)
(46|46)        [DDER] (1) final Real $DER.dp3.adiabaticModel.h_in (StateSelect = avoid)
(47|47)        [DDER] (1) final Real $DER.dp3.adiabaticModel.h_out_is (StateSelect = avoid)
(48|48)        [DDER] (1) Real $DER.dp3.h_in (StateSelect = avoid)
(49|49)        [DDER] (1) Real $DER.dp3.h_out (StateSelect = avoid)
(50|50)        [DDER] (1) Real $DER.dp3.dh (StateSelect = avoid)
(51|51)        [DER-] (2) source3.Medium.ThermodynamicState $DER.$FUN_9
(52|53)        [DER-] (2) source3.outlet.Medium.ThermodynamicState $DER.source3.outlet.state
(53|55)        [DER-] (2) dp3.inlet.Medium.ThermodynamicState $DER.dp3.inlet.state
(54|57)        [DER-] (2) final dp3.adiabaticModel.Medium.ThermodynamicState $DER.dp3.adiabaticModel.state_in
(55|59)        [DDER] (1) final Real $DER.dp3.adiabaticModel.w_t_is (StateSelect = avoid)
(56|60)        [DDER] (1) final Real $DER.dp3.adiabaticModel.w_t (StateSelect = avoid)
(57|61)        [DSTA] (1) Real dp3.m_flow = dp3.m_flow (StateSelect = default)


System Equations (48/53)
**************************
(1|1)          [RECD] (2) dp3.outlet.state = $FUN_12 ($RES_SIM_381)
(2|3)          [SCAL] (1) dp3.p_out = dp3.p_in + dp3.dp_fixed ($RES_SIM_383)
(3|4)          [SCAL] (1) dp3.outlet.r = source3.outlet.r - $DER.dp3.m_flow * dp3.L ($RES_SIM_384)
(4|5)          [SCAL] (1) dp3.singularityRegime = if noEvent($FUN_10 > 2.220446049250313e-16 and $FUN_11 < 2.220446049250313e-16) then -1.0 else 0.0 ($RES_SIM_386)
(5|6)          [SCAL] (1) dp3.m_flow = (dp3.dh * energyFlowSource1.E_flow) / (4.930380657631324e-32 + dp3.dh ^ 2.0) ($RES_SIM_388)
(6|7)          [SCAL] (1) $SEV_3 = dp3.p_out >= dp3.adiabaticModel.p_in ($RES_EVT_1137)
(7|8)          [SCAL] (1) dp3.outlet.state.T = sink3.inlet.state.T ($RES_SIM_623)
(8|9)          [SCAL] (1) dp3.outlet.state.p = sink3.inlet.state.p ($RES_SIM_624)
(9|10)         [SCAL] (1) dp3.p_in = dp3.inlet.state.p ($RES_AUX_903)
(10|11)        [SCAL] (1) source3.outlet.state.T = dp3.inlet.state.T ($RES_SIM_626)
(11|12)        [SCAL] (1) dp3.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), dp3.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_904)
(12|13)        [SCAL] (1) source3.outlet.state.p = dp3.inlet.state.p ($RES_SIM_627)
(13|14)        [SCAL] (1) $FUN_10 = abs(energyFlowSource1.E_flow) ($RES_AUX_1052)
(14|15)        [SCAL] (1) dp3.adiabaticModel.p_in = dp3.adiabaticModel.state_in.p ($RES_AUX_905)
(15|16)        [SCAL] (1) $FUN_11 = abs(dp3.dh) ($RES_AUX_1051)
(16|17)        [SCAL] (1) dp3.adiabaticModel.s_in = (if noEvent(dp3.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (((-7.04827944) + 626.411601 / dp3.adiabaticModel.state_in.T + 5.30172524 * log(dp3.adiabaticModel.state_in.T) + dp3.adiabaticModel.state_in.T * (0.002503813816 + dp3.adiabaticModel.state_in.T * ((-1.063654364e-7) + dp3.adiabaticModel.state_in.T * ((-2.563329593333333e-10) + 7.1241945025e-14 * dp3.adiabaticModel.state_in.T)))) - 24718.2527 / (dp3.adiabaticModel.state_in.T * dp3.adiabaticModel.state_in.T)) else 188.9244822140674 * (((-26.52669281) + 1788.791477 / dp3.adiabaticModel.state_in.T + 8.29152319 * log(dp3.adiabaticModel.state_in.T) + dp3.adiabaticModel.state_in.T * ((-9.22315678e-5) + dp3.adiabaticModel.state_in.T * (2.43183844e-9 + dp3.adiabaticModel.state_in.T * ((-6.303511039999999e-13) + 1.5825091474999999e-16 * dp3.adiabaticModel.state_in.T)))) - 58848.12095 / (dp3.adiabaticModel.state_in.T * dp3.adiabaticModel.state_in.T))) - 188.9244822140674 * log(9.869232667160129e-6 * dp3.adiabaticModel.state_in.p) ($RES_AUX_906)
(17|18)        [SCAL] (1) dp3.adiabaticModel.h_in = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), dp3.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_907)
(18|19)        [SCAL] (1) dp3.pRatio = dp3.p_out / dp3.p_in ($RES_BND_693)
(19|20)        [SCAL] (1) dp3.adiabaticModel.h_out_is = ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.adiabaticModel.Medium.T_ps(dp3.p_out, dp3.adiabaticModel.s_in), true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0) ($RES_AUX_908)
(20|21)        [SCAL] (1) dp3.adiabaticModel.w_t_is = dp3.adiabaticModel.h_out_is - dp3.adiabaticModel.h_in ($RES_SIM_400)
(21|22)        [SCAL] (1) $DER.dp3.m_flow * sink3.L = dp3.outlet.r - sink3.r ($RES_SIM_401)
(22|23)        [SCAL] (1) dp3.dh = dp3.h_out - dp3.h_in ($RES_SIM_390)
(23|24)        [RECD] (2) source3.outlet.state = $FUN_9 ($RES_SIM_402)
(24|26)        [SCAL] (1) source3.L * (-$DER.dp3.m_flow) = source3.outlet.r ($RES_SIM_403)
(25|27)        [RECD] (2) dp3.adiabaticModel.state_in = dp3.inlet.state ($RES_BND_867)
(26|29)        [SCAL] (1) dp3.adiabaticModel.w_t = if $SEV_3 then dp3.adiabaticModel.w_t_is / dp3.eta_fixed else dp3.adiabaticModel.w_t_is * dp3.eta_fixed ($RES_SIM_396)
(27|30)        [SCAL] (1) $FUN_12.T = ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.Medium.T_h(dp3.h_out) ($RES_SIM_1077)
(28|31)        [SCAL] (1) $FUN_12.p = dp3.p_out ($RES_SIM_1076)
(29|32)        [SCAL] (1) $FUN_9.T = source3.T0_par ($RES_SIM_1075)
(30|33)        [SCAL] (1) dp3.adiabaticModel.w_t = dp3.h_out - dp3.adiabaticModel.h_in ($RES_SIM_399)
(31|34)        [SCAL] (1) $FUN_9.p = source3.p0_par ($RES_SIM_1074)
(32|35)        [SCAL] (1) $DER.$FUN_9.T = 0.0 ($RES_SIM_1152)
(33|36)        [SCAL] (1) $DER.dp3.adiabaticModel.w_t = $DER.dp3.h_out - $DER.dp3.adiabaticModel.h_in ($RES_SIM_1153)
(34|37)        [SCAL] (1) $DER.dp3.p_out = $DER.dp3.p_in ($RES_SIM_1154)
(35|38)        [SCAL] (1) $DER.$FUN_9.p = 0.0 ($RES_SIM_1155)
(36|39)        [SCAL] (1) $DER.dp3.m_flow = (($DER.dp3.dh * energyFlowSource1.E_flow) * (4.930380657631324e-32 + dp3.dh ^ 2.0) - (2.0 * dp3.dh * $DER.dp3.dh) * dp3.dh * energyFlowSource1.E_flow) / (4.930380657631324e-32 + dp3.dh ^ 2.0) ^ 2.0 ($RES_SIM_1156)
(37|40)        [SCAL] (1) $DER.dp3.p_in = $DER.dp3.inlet.state.p ($RES_SIM_1157)
(38|41)        [SCAL] (1) $DER.source3.outlet.state.T = $DER.dp3.inlet.state.T ($RES_SIM_1158)
(39|42)        [SCAL] (1) $DER.dp3.h_in = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), dp3.inlet.state.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.dp3.inlet.state.T, 0.0) ($RES_SIM_1159)
(40|43)        [SCAL] (1) $DER.source3.outlet.state.p = $DER.dp3.inlet.state.p ($RES_SIM_1160)
(41|44)        [SCAL] (1) $DER.dp3.adiabaticModel.s_in = (if noEvent(dp3.adiabaticModel.state_in.T < 1000.0) then 188.9244822140674 * (((24718.2527 * ($DER.dp3.adiabaticModel.state_in.T * dp3.adiabaticModel.state_in.T + dp3.adiabaticModel.state_in.T * $DER.dp3.adiabaticModel.state_in.T)) / (dp3.adiabaticModel.state_in.T * dp3.adiabaticModel.state_in.T) ^ 2.0 + 5.30172524 * ((1/dp3.adiabaticModel.state_in.T) * $DER.dp3.adiabaticModel.state_in.T) + ($DER.dp3.adiabaticModel.state_in.T * (0.002503813816 + dp3.adiabaticModel.state_in.T * ((-1.063654364e-7) + dp3.adiabaticModel.state_in.T * ((-2.563329593333333e-10) + 7.1241945025e-14 * dp3.adiabaticModel.state_in.T))) + dp3.adiabaticModel.state_in.T * ($DER.dp3.adiabaticModel.state_in.T * ((-1.063654364e-7) + dp3.adiabaticModel.state_in.T * ((-2.563329593333333e-10) + 7.1241945025e-14 * dp3.adiabaticModel.state_in.T)) + dp3.adiabaticModel.state_in.T * ($DER.dp3.adiabaticModel.state_in.T * ((-2.563329593333333e-10) + 7.1241945025e-14 * dp3.adiabaticModel.state_in.T) + dp3.adiabaticModel.state_in.T * (7.1241945025e-14 * $DER.dp3.adiabaticModel.state_in.T))))) - (626.411601 * $DER.dp3.adiabaticModel.state_in.T) / dp3.adiabaticModel.state_in.T ^ 2.0) else 188.9244822140674 * (((58848.12095 * ($DER.dp3.adiabaticModel.state_in.T * dp3.adiabaticModel.state_in.T + dp3.adiabaticModel.state_in.T * $DER.dp3.adiabaticModel.state_in.T)) / (dp3.adiabaticModel.state_in.T * dp3.adiabaticModel.state_in.T) ^ 2.0 + 8.29152319 * ((1/dp3.adiabaticModel.state_in.T) * $DER.dp3.adiabaticModel.state_in.T) + ($DER.dp3.adiabaticModel.state_in.T * ((-9.22315678e-5) + dp3.adiabaticModel.state_in.T * (2.43183844e-9 + dp3.adiabaticModel.state_in.T * ((-6.303511039999999e-13) + 1.5825091474999999e-16 * dp3.adiabaticModel.state_in.T))) + dp3.adiabaticModel.state_in.T * ($DER.dp3.adiabaticModel.state_in.T * (2.43183844e-9 + dp3.adiabaticModel.state_in.T * ((-6.303511039999999e-13) + 1.5825091474999999e-16 * dp3.adiabaticModel.state_in.T)) + dp3.adiabaticModel.state_in.T * ($DER.dp3.adiabaticModel.state_in.T * ((-6.303511039999999e-13) + 1.5825091474999999e-16 * dp3.adiabaticModel.state_in.T) + dp3.adiabaticModel.state_in.T * (1.5825091474999999e-16 * $DER.dp3.adiabaticModel.state_in.T))))) - (1788.791477 * $DER.dp3.adiabaticModel.state_in.T) / dp3.adiabaticModel.state_in.T ^ 2.0)) - 188.9244822140674 * ((1/(9.869232667160129e-6 * dp3.adiabaticModel.state_in.p)) * (9.869232667160129e-6 * $DER.dp3.adiabaticModel.state_in.p)) ($RES_SIM_1161)
(42|45)        [SCAL] (1) $DER.dp3.adiabaticModel.h_in = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), dp3.adiabaticModel.state_in.T, true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $DER.dp3.adiabaticModel.state_in.T, 0.0) ($RES_SIM_1162)
(43|46)        [SCAL] (1) $DER.dp3.adiabaticModel.h_out_is = $fDER0.ThermofluidStream.Media.myMedia.IdealGases.Common.Functions.h_T(ThermofluidStream.Media.myMedia.IdealGases.Common.DataRecord(\"CO2\", 0.0440095, -8.941478544405185e6, 212805.6215135368, 1000.0, {49436.5054, -626.411601, 5.30172524, 0.002503813816, -2.127308728e-7, -7.68998878e-10, 2.849677801e-13}, {-45281.9846, -7.04827944}, {117696.2419, -1788.791477, 8.29152319, -9.22315678e-5, 4.86367688e-9, -1.891053312e-12, 6.330036589999999e-16}, {-39083.5059, -26.52669281}, 188.9244822140674), ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.adiabaticModel.Medium.T_ps(dp3.p_out, dp3.adiabaticModel.s_in), true, ThermofluidStream.Media.myMedia.Interfaces.Choices.ReferenceEnthalpy.ZeroAt0K, 0.0, $fDER0.ThermofluidStream.Idealized.Tests.Processes.Adiabatic.Setpoint.dp3.adiabaticModel.Medium.T_ps(dp3.p_out, dp3.adiabaticModel.s_in, $DER.dp3.p_out, $DER.dp3.adiabaticModel.s_in), 0.0) ($RES_SIM_1163)
(44|47)        [SCAL] (1) $DER.dp3.adiabaticModel.w_t_is = $DER.dp3.adiabaticModel.h_out_is - $DER.dp3.adiabaticModel.h_in ($RES_SIM_1164)
(45|48)        [SCAL] (1) $DER.dp3.dh = $DER.dp3.h_out - $DER.dp3.h_in ($RES_SIM_1165)
(46|49)        [RECD] (2) $DER.source3.outlet.state = $DER.$FUN_9 ($RES_SIM_1166)
(47|51)        [RECD] (2) $DER.dp3.adiabaticModel.state_in = $DER.dp3.inlet.state ($RES_SIM_1167)
(48|53)        [SCAL] (1) $DER.dp3.adiabaticModel.w_t = if $SEV_3 then ($DER.dp3.adiabaticModel.w_t_is * dp3.eta_fixed) / dp3.eta_fixed ^ 2.0 else $DER.dp3.adiabaticModel.w_t_is * dp3.eta_fixed ($RES_SIM_1168)


===================
  Scalar Matching
===================

variable to equation
**********************
	var 1 --> eqn 7
	var 2 --> eqn 23
	var 3 --> eqn 3
	var 4 --> eqn 17
	var 5 --> eqn 46
	var 6 --> eqn 10
	var 7 --> eqn 21
	var 8 --> eqn 2
	var 9 --> eqn 6
	var 10 --> eqn 29
	var 11 --> eqn 32
	var 12 --> eqn 16
	var 13 --> eqn 11
	var 14 --> eqn 14
	var 15 --> eqn 20
	var 16 --> eqn 15
	var 17 --> eqn 12
	var 18 --> eqn 8
	var 19 --> eqn 31
	var 20 --> eqn 26
	var 21 --> eqn 33
	var 22 --> eqn 22
	var 23 --> eqn 5
	var 24 --> eqn 13
	var 25 --> eqn 4
	var 26 --> eqn 9
	var 27 --> eqn 18
	var 28 --> eqn -1
	var 29 --> eqn 19
	var 30 --> eqn 30
	var 31 --> eqn 1
	var 32 --> eqn -1
	var 33 --> eqn 34
	var 34 --> eqn -1
	var 35 --> eqn 35
	var 36 --> eqn 38
	var 37 --> eqn 37
	var 38 --> eqn -1
	var 39 --> eqn 41
	var 40 --> eqn 40
	var 41 --> eqn 43
	var 42 --> eqn -1
	var 43 --> eqn 44
	var 44 --> eqn -1
	var 45 --> eqn -1
	var 46 --> eqn 45
	var 47 --> eqn 47
	var 48 --> eqn 42
	var 49 --> eqn 48
	var 50 --> eqn 39
	var 51 --> eqn 49
	var 52 --> eqn 50
	var 53 --> eqn -1
	var 54 --> eqn -1
	var 55 --> eqn -1
	var 56 --> eqn -1
	var 57 --> eqn 51
	var 58 --> eqn 52
	var 59 --> eqn 53
	var 60 --> eqn 36
	var 61 --> eqn -1

equation to variable
**********************
	eqn 1 --> var 31
	eqn 2 --> var 8
	eqn 3 --> var 3
	eqn 4 --> var 25
	eqn 5 --> var 23
	eqn 6 --> var 9
	eqn 7 --> var 1
	eqn 8 --> var 18
	eqn 9 --> var 26
	eqn 10 --> var 6
	eqn 11 --> var 13
	eqn 12 --> var 17
	eqn 13 --> var 24
	eqn 14 --> var 14
	eqn 15 --> var 16
	eqn 16 --> var 12
	eqn 17 --> var 4
	eqn 18 --> var 27
	eqn 19 --> var 29
	eqn 20 --> var 15
	eqn 21 --> var 7
	eqn 22 --> var 22
	eqn 23 --> var 2
	eqn 24 --> var -1
	eqn 25 --> var -1
	eqn 26 --> var 20
	eqn 27 --> var -1
	eqn 28 --> var -1
	eqn 29 --> var 10
	eqn 30 --> var 30
	eqn 31 --> var 19
	eqn 32 --> var 11
	eqn 33 --> var 21
	eqn 34 --> var 33
	eqn 35 --> var 35
	eqn 36 --> var 60
	eqn 37 --> var 37
	eqn 38 --> var 36
	eqn 39 --> var 50
	eqn 40 --> var 40
	eqn 41 --> var 39
	eqn 42 --> var 48
	eqn 43 --> var 41
	eqn 44 --> var 43
	eqn 45 --> var 46
	eqn 46 --> var 5
	eqn 47 --> var 47
	eqn 48 --> var 49
	eqn 49 --> var 51
	eqn 50 --> var 52
	eqn 51 --> var 57
	eqn 52 --> var 58
	eqn 53 --> var 59
"
[Timeout remaining time 658]
[Calling sys.exit(0), Time elapsed: 4.192402151413262]
Failed to read output from testmodel.py, exit status != 0:
1.6779244169592857 1.686614918 0.236291261
Calling exit ...
<OMPython.OMCSessionZMQ object at 0x76e0e2889b20>