Failed
tests / 02 testsuite-gcc 2/3 / simulation_modelica_hpcom.Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos (from (result.xml))
Stacktrace
Output mismatch (see stdout for details)
Standard Output
+ Modelica.Electrical.Analog.Examples.CauerLowPassSC ... equation mismatch [time: 61] ==== Log /tmp/omc-rtest-unknown/simulation/modelica/hpcom/Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos_temp2660/log-Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos true "" true "" true "" true "" true "" readCalcTimesFromFile: No valid profiling-file found. Warning: The costs have been estimated. Maybe Modelica.Electrical.Analog.Examples.CauerLowPassSC_eqs_prof-file is missing. Using Modified Critical Path Scheduler for the DAE system Using Modified Critical Path Scheduler for the ODE system Using Modified Critical Path Scheduler for the ZeroFunc system HpcOm is still under construction. record SimulationResult resultFile = "Modelica.Electrical.Analog.Examples.CauerLowPassSC_res.mat", simulationOptions = "startTime = 0.0, stopTime = 60.0, numberOfIntervals = 1500, tolerance = 1e-6, method = 'dassl', fileNamePrefix = 'Modelica.Electrical.Analog.Examples.CauerLowPassSC', options = '', outputFormat = 'mat', variableFilter = '.*', cflags = '', simflags = ''", messages = "LOG_STDOUT | info | Using sparse solver for linear system 0, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 1, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 2, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 3, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 4, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 5, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 6, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 8, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 9, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 10, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 11, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 12, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 13, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 14, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 15, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 16, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 17, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 18, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 19, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 20, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 21, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | Using sparse solver for linear system 22, | | | | because density of 0.198 remains under threshold of 0.200. LOG_STDOUT | info | The maximum density for using sparse solvers can be specified | | | | using the runtime flag '<-lssMaxDensity=value>'. LOG_SUCCESS | info | The initialization finished successfully without homotopy method. LOG_SUCCESS | info | The simulation finished successfully. " end SimulationResult; "" {"Files Equal!"} "Warning: 'compareSimulationResults' is deprecated. It is recommended to use 'diffSimulationResults' instead. " Equation mismatch: diff says: --- /tmp/omc-rtest-unknown/simulation/modelica/hpcom/Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos_temp2660/equations-expected2024-01-13 02:52:48.199594525 +0000 +++ /tmp/omc-rtest-unknown/simulation/modelica/hpcom/Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos_temp2660/equations-got2024-01-13 02:53:49.152051298 +0000 @@ -14,12 +14,58 @@ Using Modified Critical Path Scheduler for the ODE system Using Modified Critical Path Scheduler for the ZeroFunc system HpcOm is still under construction. record SimulationResult resultFile = "Modelica.Electrical.Analog.Examples.CauerLowPassSC_res.mat", -simulationOptions = "startTime = 0.0, stopTime = 60.0, numberOfIntervals = 1500, tolerance = 1e-06, method = 'dassl', fileNamePrefix = 'Modelica.Electrical.Analog.Examples.CauerLowPassSC', options = '', outputFormat = 'mat', variableFilter = '.*', cflags = '', simflags = ''", -messages = "LOG_SUCCESS | info | The initialization finished successfully without homotopy method. +simulationOptions = "startTime = 0.0, stopTime = 60.0, numberOfIntervals = 1500, tolerance = 1e-6, method = 'dassl', fileNamePrefix = 'Modelica.Electrical.Analog.Examples.CauerLowPassSC', options = '', outputFormat = 'mat', variableFilter = '.*', cflags = '', simflags = ''", +messages = "LOG_STDOUT | info | Using sparse solver for linear system 0, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 1, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 2, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 3, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 4, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 5, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 6, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 8, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 9, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 10, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 11, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 12, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 13, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 14, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 15, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 16, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 17, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 18, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 19, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 20, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 21, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | Using sparse solver for linear system 22, +| | | | because density of 0.198 remains under threshold of 0.200. +LOG_STDOUT | info | The maximum density for using sparse solvers can be specified +| | | | using the runtime flag '<-lssMaxDensity=value>'. +LOG_SUCCESS | info | The initialization finished successfully without homotopy method. LOG_SUCCESS | info | The simulation finished successfully. " end SimulationResult; "" {"Files Equal!"} Equation mismatch: omc-diff says: Failed 'U' 'T' Line 20: Text differs: expected: messages = "LOG_SUCCESS | info | The initialization finished successfully without homotopy method. got: messages = "LOG_STDOUT | info | Using sparse solver for linear system == 1 out of 1 tests failed [simulation/modelica/hpcom/Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos_temp2660, time: 61]