Failed
openmodelica_dataReconciliation.Splitter.mos (from (result.xml))
Stacktrace
Output mismatch (see stdout for details)
Standard Output
+ Splitter ... equation mismatch [time: 19] ==== Log C:\Windows\TEMP/omc-rtest-OpenModelica/openmodelica/dataReconciliation/Splitter.mos_temp8015/log-Splitter.mos true "" true "Notification: Automatically loaded package Modelica 3.2.3 due to uses annotation from NewDataReconciliationSimpleTests. Notification: Automatically loaded package Complex 3.2.3 due to uses annotation from Modelica. Notification: Automatically loaded package ModelicaServices 3.2.3 due to uses annotation from Modelica. Notification: Automatically loaded package ThermoSysPro 3.2 due to uses annotation from NewDataReconciliationSimpleTests. " ModelInfo: NewDataReconciliationSimpleTests.Splitter ========================================================================== OrderedVariables (8) ======================================== 1: Y:VARIABLE() type: Real 2: a:VARIABLE() type: Real 3: y2:VARIABLE() type: Real 4: y1:VARIABLE() type: Real 5: y:VARIABLE() type: Real 6: Q2:VARIABLE(start = 0.97 uncertain=Uncertainty.refine) type: Real 7: Q1:VARIABLE(start = 1.05 uncertain=Uncertainty.refine) type: Real 8: Q:VARIABLE(start = 2.1 uncertain=Uncertainty.refine) type: Real OrderedEquation (8, 8) ======================================== 1/1 (1): Y = 2.0 [dynamic |0|0|0|0|] 2/2 (1): Q = Y [dynamic |0|0|0|0|] 3/3 (1): a = A [dynamic |0|0|0|0|] 4/4 (1): y1 = a * y [dynamic |0|0|0|0|] 5/5 (1): y = y1 + y2 [dynamic |0|0|0|0|] 6/6 (1): Q = y [dynamic |0|0|0|0|] 7/7 (1): Q1 = y1 [dynamic |0|0|0|0|] 8/8 (1): Q2 = y2 [dynamic |0|0|0|0|] Matching ======================================== 8 variables and equations var 1 is solved in eqn 1 var 2 is solved in eqn 3 var 3 is solved in eqn 5 var 4 is solved in eqn 4 var 5 is solved in eqn 6 var 6 is solved in eqn 8 var 7 is solved in eqn 7 var 8 is solved in eqn 2 Standard BLT of the original model:(8) ============================================================ 8: Q: (2/2): (1): Q = Y 7: Q1: (7/7): (1): Q1 = y1 6: Q2: (8/8): (1): Q2 = y2 5: y: (6/6): (1): Q = y 4: y1: (4/4): (1): y1 = a * y 3: y2: (5/5): (1): y = y1 + y2 2: a: (3/3): (1): a = A 1: Y: (1/1): (1): Y = 2.0 Variables of interest (3) ======================================== 1: Q2:VARIABLE(start = 0.97 uncertain=Uncertainty.refine) type: Real 2: Q1:VARIABLE(start = 1.05 uncertain=Uncertainty.refine) type: Real 3: Q:VARIABLE(start = 2.1 uncertain=Uncertainty.refine) type: Real Boundary conditions (1) ======================================== 1: Y:VARIABLE() type: Real Binding equations:(0) ============================================================ E-BLT: equations that compute the variables of interest:(3) ============================================================ 6: Q2: (8/8): (1): Q2 = y2 7: Q1: (7/7): (1): Q1 = y1 8: Q: (2/2): (1): Q = Y Extracting SET-C and SET-S from E-BLT Procedure is applied on each equation in the E-BLT ========================================================================== >>>6: Q2: (8/8): (1): Q2 = y2 3: y2: (5/5): (1): y = y1 + y2 4: y1: (4/4): (1): y1 = a * y 2: a: (3/3): (1): a = A 5: y: (6/6): (1): Q = y Procedure success >>>7: Q1: (7/7): (1): Q1 = y1 4: y1: (4/4): (1): y1 = a * y 2: a: (3/3): (1): a = A 5: y: (6/6): (1): Q = y Procedure success >>>8: Q: (2/2): (1): Q = Y Y is a boundary condition ---> exit procedure Procedure failed Extraction procedure failed for iteration count: 1, re-running with modified model ========================================================================== OrderedVariables (8) ======================================== 1: Y:VARIABLE() type: Real 2: a:VARIABLE() type: Real 3: y2:VARIABLE() type: Real 4: y1:VARIABLE() type: Real 5: y:VARIABLE() type: Real 6: Q2:VARIABLE(start = 0.97 uncertain=Uncertainty.refine) type: Real 7: Q1:VARIABLE(start = 1.05 uncertain=Uncertainty.refine) type: Real 8: Q:VARIABLE(start = 2.1 uncertain=Uncertainty.refine) type: Real OrderedEquation (8, 8) ======================================== 1/1 (1): Q = 0.0 [binding |0|0|0|0|] 2/2 (1): Y = 2.0 [dynamic |0|0|0|0|] 3/3 (1): a = A [dynamic |0|0|0|0|] 4/4 (1): y1 = a * y [dynamic |0|0|0|0|] 5/5 (1): y = y1 + y2 [dynamic |0|0|0|0|] 6/6 (1): Q = y [dynamic |0|0|0|0|] 7/7 (1): Q1 = y1 [dynamic |0|0|0|0|] 8/8 (1): Q2 = y2 [dynamic |0|0|0|0|] Matching ======================================== 8 variables and equations var 1 is solved in eqn 2 var 2 is solved in eqn 3 var 3 is solved in eqn 5 var 4 is solved in eqn 4 var 5 is solved in eqn 6 var 6 is solved in eqn 8 var 7 is solved in eqn 7 var 8 is solved in eqn 1 Standard BLT of the original model:(8) ============================================================ 8: Q: (1/1): (1): Q = 0.0 7: Q1: (7/7): (1): Q1 = y1 6: Q2: (8/8): (1): Q2 = y2 5: y: (6/6): (1): Q = y 4: y1: (4/4): (1): y1 = a * y 3: y2: (5/5): (1): y = y1 + y2 2: a: (3/3): (1): a = A 1: Y: (2/2): (1): Y = 2.0 Variables of interest (3) ======================================== 1: Q2:VARIABLE(start = 0.97 uncertain=Uncertainty.refine) type: Real 2: Q1:VARIABLE(start = 1.05 uncertain=Uncertainty.refine) type: Real 3: Q:VARIABLE(start = 2.1 uncertain=Uncertainty.refine) type: Real Boundary conditions (1) ======================================== 1: Y:VARIABLE() type: Real Binding equations:(1) ============================================================ 8: Q: (1/1): (1): Q = 0.0 E-BLT: equations that compute the variables of interest:(2) ============================================================ 6: Q2: (8/8): (1): Q2 = y2 7: Q1: (7/7): (1): Q1 = y1 Extracting SET-C and SET-S from E-BLT Procedure is applied on each equation in the E-BLT ========================================================================== >>>6: Q2: (8/8): (1): Q2 = y2 3: y2: (5/5): (1): y = y1 + y2 4: y1: (4/4): (1): y1 = a * y 2: a: (3/3): (1): a = A 5: y: (6/6): (1): Q = y Procedure success >>>7: Q1: (7/7): (1): Q1 = y1 4: y1: (4/4): (1): y1 = a * y 2: a: (3/3): (1): a = A 5: y: (6/6): (1): Q = y Procedure success Extraction procedure is successfully completed in iteration count: 2 ========================================================================== Final set of equations after extraction algorithm ========================================================================== SET_C: {8, 7} SET_S: {6, 3, 4, 5} SET_C (2, 2) ======================================== 1/1 (1): Q2 = y2 [dynamic |0|0|0|0|] 2/2 (1): Q1 = y1 [dynamic |0|0|0|0|] SET_S (4, 4) ======================================== 1/1 (1): Q = y [dynamic |0|0|0|0|] 2/2 (1): a = A [dynamic |0|0|0|0|] 3/3 (1): y1 = a * y [dynamic |0|0|0|0|] 4/4 (1): y = y1 + y2 [dynamic |0|0|0|0|] Unknown variables in SET_S (4) ======================================== 1: a type: Real 2: y type: Real 3: y1 type: Real 4: y2 type: Real Parameters in SET_S (1) ======================================== 1: A:PARAM() = 0.5 type: Real Automatic Verification Steps of DataReconciliation Algorithm ========================================================================== knownVariables:{6, 7, 8} (3) ======================================== 1: Q2:VARIABLE(start = 0.97 uncertain=Uncertainty.refine) type: Real 2: Q1:VARIABLE(start = 1.05 uncertain=Uncertainty.refine) type: Real 3: Q:VARIABLE(start = 2.1 uncertain=Uncertainty.refine) type: Real -SET_C:{8, 7} -SET_S:{6, 3, 4, 5} Condition-1 "SET_C and SET_S must not have no equations in common" ========================================================================== -Passed Condition-2 "All variables of interest must be involved in SET_C or SET_S" ========================================================================== -Passed -SET_C has known variables:{7, 6} (2) ======================================== 1: Q1:VARIABLE(start = 1.05 uncertain=Uncertainty.refine) type: Real 2: Q2:VARIABLE(start = 0.97 uncertain=Uncertainty.refine) type: Real -SET_S has known variables:{8} (1) ======================================== 1: Q:VARIABLE(start = 2.1 uncertain=Uncertainty.refine) type: Real Condition-3 "SET_C equations must be strictly less than Variable of Interest" ========================================================================== -Passed -SET_C contains:2 equations < 3 known variables Condition-4 "SET_S should contain all intermediate variables involved in SET_C" ========================================================================== -SET_C has intermediate variables:{4, 3} (2) ======================================== 1: y1:VARIABLE() type: Real 2: y2:VARIABLE() type: Real -SET_S has intermediate variables involved in SET_C:{4, 3} (2) ======================================== 1: y1:VARIABLE() type: Real 2: y2:VARIABLE() type: Real -Passed Condition-5 "SET_S should be square" ========================================================================== -Passed Set_S has 4 equations and 4 variables record SimulationResult resultFile = "", simulationOptions = "startTime = 0.0, stopTime = 1.0, numberOfIntervals = 500, tolerance = 1e-6, method = 'dassl', fileNamePrefix = 'NewDataReconciliationSimpleTests.Splitter', options = '', outputFormat = 'mat', variableFilter = '.*', cflags = '', simflags = '-reconcile -sx=./NewDataReconciliationSimpleTests/resources/DataReconciliationSimpleTests.Splitter_Inputs.csv -eps=0.0023 -lv=LOG_JAC'", messages = "Simulation execution failed for model: NewDataReconciliationSimpleTests.Splitter LOG_SUCCESS | info | The initialization finished successfully without homotopy method. LOG_SUCCESS | info | The simulation finished successfully. LOG_STDOUT | info | DataReconciliation Starting! LOG_STDOUT | info | NewDataReconciliationSimpleTests.Splitter LOG_STDOUT | error | Measurement input file path not found ./NewDataReconciliationSimpleTests/resources/DataReconciliationSimpleTests.Splitter_Inputs.csv. " end SimulationResult; "" '' Equation mismatch: diff says: --- "C:\\Windows\\TEMP/omc-rtest-OpenModelica/openmodelica/dataReconciliation/Splitter.mos_temp8015/equations-expected"2024-04-28 16:38:57.565559800 +0200 +++ "C:\\Windows\\TEMP/omc-rtest-OpenModelica/openmodelica/dataReconciliation/Splitter.mos_temp8015/equations-got"2024-04-28 16:39:16.943561900 +0200 @@ -289,15 +289,16 @@ ========================================================================== -Passed Set_S has 4 equations and 4 variables record SimulationResult -resultFile = "econcile", -simulationOptions = "startTime = 0.0, stopTime = 1.0, numberOfIntervals = 500, tolerance = 1e-06, method = 'dassl', fileNamePrefix = 'NewDataReconciliationSimpleTests.Splitter', options = '', outputFormat = 'mat', variableFilter = '.*', cflags = '', simflags = '-reconcile -sx=./NewDataReconciliationSimpleTests/resources/DataReconciliationSimpleTests.Splitter_Inputs.csv -eps=0.0023 -lv=LOG_JAC'", -messages = "LOG_SUCCESS | info | The initialization finished successfully without homotopy method. +resultFile = "", +simulationOptions = "startTime = 0.0, stopTime = 1.0, numberOfIntervals = 500, tolerance = 1e-6, method = 'dassl', fileNamePrefix = 'NewDataReconciliationSimpleTests.Splitter', options = '', outputFormat = 'mat', variableFilter = '.*', cflags = '', simflags = '-reconcile -sx=./NewDataReconciliationSimpleTests/resources/DataReconciliationSimpleTests.Splitter_Inputs.csv -eps=0.0023 -lv=LOG_JAC'", +messages = "Simulation execution failed for model: NewDataReconciliationSimpleTests.Splitter +LOG_SUCCESS | info | The initialization finished successfully without homotopy method. LOG_SUCCESS | info | The simulation finished successfully. LOG_STDOUT | info | DataReconciliation Starting! LOG_STDOUT | info | NewDataReconciliationSimpleTests.Splitter -LOG_STDOUT | info | DataReconciliation Completed! +LOG_STDOUT | error | Measurement input file path not found ./NewDataReconciliationSimpleTests/resources/DataReconciliationSimpleTests.Splitter_Inputs.csv. " end SimulationResult; "" '' Equation mismatch: omc-diff says: ----Failed 'e' '"' Line 294: Text differs: expected: resultFile = "econcile", got: resultFile = "", == 1 out of 1 tests failed [openmodelica/dataReconciliation/Splitter.mos_temp8015, time: 20]