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Failed
tests / 03 testsuite-gcc 3/3 / simulation_libraries_msl31.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: 38]
==== Log /tmp/omc-rtest-unknown/simulation/libraries/msl31/Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos_temp9393/log-Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos
"true
"
""
"3.1"
OpenModelicaModelTesting.Kind.VerifiedSimulation
Modelica.Electrical.Analog.Examples.CauerLowPassSC
{"R4.Capacitor1.v","R5.Capacitor1.v","R8.Capacitor1.v","R9.Capacitor1.v","R1.Capacitor1.v","R2.Capacitor1.v","R3.Capacitor1.v","Rp1.Capacitor1.v","R7.Capacitor1.v","R10.Capacitor1.v","R11.Capacitor1.v","C3.v","C7.v","C1.v","C4.v","C8.v"}
Simulation options: startTime = 0.0, stopTime = 60.0, numberOfIntervals = 1500, tolerance = 1e-6, method = 'dassl', fileNamePrefix = 'Modelica.Electrical.Analog.Examples.CauerLowPassSC', options = '', outputFormat = 'mat', variableFilter = 'time|R4.Capacitor1.v|R5.Capacitor1.v|R8.Capacitor1.v|R9.Capacitor1.v|R1.Capacitor1.v|R2.Capacitor1.v|R3.Capacitor1.v|Rp1.Capacitor1.v|R7.Capacitor1.v|R10.Capacitor1.v|R11.Capacitor1.v|C3.v|C7.v|C1.v|C4.v|C8.v', cflags = '', simflags = ' -abortSlowSimulation -alarm=360 -emit_protected'
Result file: Modelica.Electrical.Analog.Examples.CauerLowPassSC_res.mat
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.
Files Equal!
[Modelica 3.1.0+maint.om/Electrical/Analog/Sources.mo:138:5-138:53:writable] Warning: Parameter V.V has no value, and is fixed during initialization (fixed=true), using available start value (start=1.0) as default value.
Warning: The initial conditions are not fully specified. For more information set -d=initialization. In OMEdit Tools->Options->Simulation->Show additional information from the initialization process, in OMNotebook call setCommandLineOptions("-d=initialization").
"true
"
""
Equation mismatch: diff says:
--- /tmp/omc-rtest-unknown/simulation/libraries/msl31/Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos_temp9393/equations-expected2024-01-13 02:57:02.749660708 +0000
+++ /tmp/omc-rtest-unknown/simulation/libraries/msl31/Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos_temp9393/equations-got2024-01-13 02:57:40.365660414 +0000
@@ -3,13 +3,59 @@
""
"3.1"
OpenModelicaModelTesting.Kind.VerifiedSimulation
Modelica.Electrical.Analog.Examples.CauerLowPassSC
{"R4.Capacitor1.v","R5.Capacitor1.v","R8.Capacitor1.v","R9.Capacitor1.v","R1.Capacitor1.v","R2.Capacitor1.v","R3.Capacitor1.v","Rp1.Capacitor1.v","R7.Capacitor1.v","R10.Capacitor1.v","R11.Capacitor1.v","C3.v","C7.v","C1.v","C4.v","C8.v"}
-Simulation options: startTime = 0.0, stopTime = 60.0, numberOfIntervals = 1500, tolerance = 1e-06, method = 'dassl', fileNamePrefix = 'Modelica.Electrical.Analog.Examples.CauerLowPassSC', options = '', outputFormat = 'mat', variableFilter = 'time|R4.Capacitor1.v|R5.Capacitor1.v|R8.Capacitor1.v|R9.Capacitor1.v|R1.Capacitor1.v|R2.Capacitor1.v|R3.Capacitor1.v|Rp1.Capacitor1.v|R7.Capacitor1.v|R10.Capacitor1.v|R11.Capacitor1.v|C3.v|C7.v|C1.v|C4.v|C8.v', cflags = '', simflags = ' -abortSlowSimulation -alarm=360 -emit_protected'
+Simulation options: startTime = 0.0, stopTime = 60.0, numberOfIntervals = 1500, tolerance = 1e-6, method = 'dassl', fileNamePrefix = 'Modelica.Electrical.Analog.Examples.CauerLowPassSC', options = '', outputFormat = 'mat', variableFilter = 'time|R4.Capacitor1.v|R5.Capacitor1.v|R8.Capacitor1.v|R9.Capacitor1.v|R1.Capacitor1.v|R2.Capacitor1.v|R3.Capacitor1.v|Rp1.Capacitor1.v|R7.Capacitor1.v|R10.Capacitor1.v|R11.Capacitor1.v|C3.v|C7.v|C1.v|C4.v|C8.v', cflags = '', simflags = ' -abortSlowSimulation -alarm=360 -emit_protected'
Result file: Modelica.Electrical.Analog.Examples.CauerLowPassSC_res.mat
-Messages: LOG_SUCCESS | info | The initialization finished successfully without homotopy method.
+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.
Files Equal!
[Modelica 3.1.0+maint.om/Electrical/Analog/Sources.mo:138:5-138:53:writable] Warning: Parameter V.V has no value, and is fixed during initialization (fixed=true), using available start value (start=1.0) as default value.
Warning: The initial conditions are not fully specified. For more information set -d=initialization. In OMEdit Tools->Options->Simulation->Show additional information from the initialization process, in OMNotebook call setCommandLineOptions("-d=initialization").
Equation mismatch: omc-diff says:
Failed 'U' 'T'
Line 10: 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/libraries/msl31/Modelica.Electrical.Analog.Examples.CauerLowPassSC.mos_temp9393, time: 38]