Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries/ --ompython_omhome=/usr IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics.conf.json loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/IBPSA 4.0.0-master/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo", uses=false) Using package ModelicaServices with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo) Using package Modelica with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo) Using package IBPSA with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/IBPSA 4.0.0-master/package.mo) Using package Complex with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo) Running command: translateModel(IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics,tolerance=1e-06,outputFormat="empty",numberOfIntervals=5000,variableFilter="",fileNamePrefix="IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics") translateModel(IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics,tolerance=1e-06,outputFormat="empty",numberOfIntervals=5000,variableFilter="",fileNamePrefix="IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics") [:1:1-1:32:writable] Error: Class GC_set_max_heap_size not found in scope (looking for a function or record). Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo): time 0.001007/0.001007, allocations: 183.4 kB / 7.799 MB, free: 2.441 MB / 5.871 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/IBPSA 4.0.0-master/package.mo): time 0.4426/0.4426, allocations: 90.85 MB / 99.07 MB, free: 14.92 MB / 90.72 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo): time 1.194/1.194, allocations: 221.4 MB / 342.8 MB, free: 5.125 MB / 282.7 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo): time 0.0009107/0.0009109, allocations: 91.98 kB / 415.5 MB, free: 6.438 MB / 330.7 MB Notification: Performance of FrontEnd - loaded program: time 9.318e-06/9.357e-06, allocations: 4 kB / 493.9 MB, free: 8.055 MB / 410.7 MB Notification: Performance of FrontEnd - Absyn->SCode: time 0.323/0.323, allocations: 72.3 MB / 0.5529 GB, free: 73.39 MB / 442.7 MB Notification: Performance of FrontEnd - scodeFlatten: time 0.7881/1.111, allocations: 464.1 MB / 1.006 GB, free: 194.2 MB / 0.6042 GB Notification: Performance of FrontEnd - mkProgramGraph: time 0.0002445/1.111, allocations: 112.9 kB / 1.006 GB, free: 194.2 MB / 0.6042 GB Notification: Performance of FrontEnd: time 99.59/100.7, allocations: 24.92 GB / 25.92 GB, free: 38.59 MB / 1.011 GB Notification: Performance of Transformations before backend: time 0.01825/100.7, allocations: 1.724 MB / 25.93 GB, free: 38.36 MB / 1.011 GB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 12889 * Number of variables: 12889 Notification: Performance of Generate backend data structure: time 0.2322/101, allocations: 58.95 MB / 25.98 GB, free: 15.38 MB / 1.011 GB Notification: Performance of prepare preOptimizeDAE: time 4.928e-05/101, allocations: 12.59 kB / 25.98 GB, free: 15.38 MB / 1.011 GB Notification: Performance of preOpt normalInlineFunction (simulation): time 0.0741/101, allocations: 9.189 MB / 25.99 GB, free: 10.94 MB / 1.011 GB Notification: Performance of preOpt evaluateParameters (simulation): time 0.3085/101.3, allocations: 108.5 MB / 26.1 GB, free: 5.41 MB / 1.026 GB Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.00474/101.3, allocations: 1.578 MB / 26.1 GB, free: 3.832 MB / 1.026 GB Notification: Performance of preOpt expandDerOperator (simulation): time 0.02638/101.4, allocations: 2.958 MB / 26.1 GB, free: 0.8945 MB / 1.026 GB Notification: Performance of preOpt removeEqualFunctionCalls (simulation): time 0.9472/102.3, allocations: 59.04 MB / 26.16 GB, free: 109.1 MB / 1.026 GB Notification: Performance of preOpt clockPartitioning (simulation): time 0.2224/102.5, allocations: 65.34 MB / 26.22 GB, free: 102.9 MB / 1.026 GB Notification: Performance of preOpt findStateOrder (simulation): time 0.005151/102.5, allocations: 154.9 kB / 26.22 GB, free: 102.9 MB / 1.026 GB Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.03086/102.6, allocations: 76.47 kB / 26.22 GB, free: 102.9 MB / 1.026 GB Notification: Performance of preOpt inlineArrayEqn (simulation): time 0.002723/102.6, allocations: 1.49 MB / 26.23 GB, free: 102.9 MB / 1.026 GB Notification: Performance of preOpt removeSimpleEquations (simulation): time 1.786/104.4, allocations: 388.7 MB / 26.61 GB, free: 61.82 MB / 1.058 GB Notification: Performance of preOpt comSubExp (simulation): time 0.07404/104.4, allocations: 28.49 MB / 26.63 GB, free: 61.62 MB / 1.058 GB Notification: Performance of preOpt resolveLoops (simulation): time 0.05927/104.5, allocations: 25.69 MB / 26.66 GB, free: 61.38 MB / 1.058 GB Notification: Performance of preOpt evalFunc (simulation): time 0.009378/104.5, allocations: 5.248 MB / 26.66 GB, free: 56.01 MB / 1.058 GB Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.001058/104.5, allocations: 405.6 kB / 26.66 GB, free: 55.94 MB / 1.058 GB Notification: Performance of pre-optimization done (n=2657): time 3.478e-05/104.5, allocations: 0 / 26.66 GB, free: 55.94 MB / 1.058 GB Notification: Performance of matching and sorting (n=2657): time 0.1808/104.7, allocations: 44.88 MB / 26.71 GB, free: 54.88 MB / 1.058 GB Notification: Performance of inlineWhenForInitialization (initialization): time 0.0008369/104.7, allocations: 0.8257 MB / 26.71 GB, free: 54.17 MB / 1.058 GB Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.2391/104.9, allocations: 70.2 MB / 26.78 GB, free: 51.9 MB / 1.058 GB Notification: Performance of collectPreVariables (initialization): time 0.01231/104.9, allocations: 77.27 kB / 26.78 GB, free: 51.87 MB / 1.058 GB Notification: Performance of collectInitialEqns (initialization): time 0.1455/105.1, allocations: 20.95 MB / 26.8 GB, free: 45.27 MB / 1.058 GB Notification: Performance of collectInitialBindings (initialization): time 0.1765/105.3, allocations: 9.012 MB / 26.81 GB, free: 39.31 MB / 1.058 GB Notification: Performance of simplifyInitialFunctions (initialization): time 0.01131/105.3, allocations: 1.656 kB / 26.81 GB, free: 39.31 MB / 1.058 GB Notification: Performance of setup shared object (initialization): time 6.36e-05/105.3, allocations: 301.1 kB / 26.81 GB, free: 39.02 MB / 1.058 GB Notification: Performance of preBalanceInitialSystem (initialization): time 0.05235/105.3, allocations: 19.59 MB / 26.83 GB, free: 36.25 MB / 1.058 GB Notification: Performance of partitionIndependentBlocks (initialization): time 1.247/106.6, allocations: 30.57 MB / 26.86 GB, free: 118.3 MB / 1.058 GB Notification: Performance of analyzeInitialSystem (initialization): time 0.07759/106.6, allocations: 26.85 MB / 26.88 GB, free: 117.8 MB / 1.058 GB Notification: Performance of solveInitialSystemEqSystem (initialization): time 0.0006073/106.7, allocations: 69.91 kB / 26.88 GB, free: 117.8 MB / 1.058 GB Notification: Performance of matching and sorting (n=4706) (initialization): time 0.2213/106.9, allocations: 62.32 MB / 26.94 GB, free: 116.4 MB / 1.058 GB Notification: Performance of prepare postOptimizeDAE: time 1.18/108.1, allocations: 375 MB / 27.31 GB, free: 238.4 MB / 1.261 GB Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.002435/108.1, allocations: 352.6 kB / 27.31 GB, free: 238.4 MB / 1.261 GB Notification: Performance of postOpt tearingSystem (initialization): time 0.04151/108.1, allocations: 15.84 MB / 27.32 GB, free: 237.2 MB / 1.261 GB Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.03212/108.1, allocations: 6.673 MB / 27.33 GB, free: 237.2 MB / 1.261 GB Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.1093/108.2, allocations: 122.5 MB / 27.45 GB, free: 159.8 MB / 1.261 GB Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.09612/108.3, allocations: 5.384 MB / 27.46 GB, free: 159.8 MB / 1.261 GB Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.01875/108.4, allocations: 1.478 MB / 27.46 GB, free: 159.8 MB / 1.261 GB Notification: Performance of prepare postOptimizeDAE: time 1.679e-05/108.4, allocations: 4.219 kB / 27.46 GB, free: 159.8 MB / 1.261 GB Notification: Performance of postOpt replaceHomotopyWithSimplified (initialization): time 0.1491/108.5, allocations: 56.39 MB / 27.51 GB, free: 158.5 MB / 1.261 GB Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.002569/108.5, allocations: 346.7 kB / 27.51 GB, free: 158.5 MB / 1.261 GB Notification: Performance of postOpt tearingSystem (initialization): time 0.04413/108.5, allocations: 16.38 MB / 27.53 GB, free: 157.3 MB / 1.261 GB Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.03506/108.6, allocations: 6.683 MB / 27.54 GB, free: 157.1 MB / 1.261 GB Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.1213/108.7, allocations: 124.4 MB / 27.66 GB, free: 77.73 MB / 1.261 GB Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.08911/108.8, allocations: 4.786 MB / 27.66 GB, free: 77.73 MB / 1.261 GB Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.0147/108.8, allocations: 1.471 MB / 27.66 GB, free: 77.73 MB / 1.261 GB Warning: Iteration variables with default zero start attribute in torn nonlinear equation system: borHolOneUTubSteSta.intHex[7].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[7].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[7].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[10].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[10].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[10].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[9].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[9].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[9].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[8].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[8].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[8].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[6].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[6].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[6].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[5].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[5].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[5].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[4].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[4].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[4].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[3].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[3].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[3].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[1].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[1].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[1].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] borHolOneUTubSteSta.intHex[2].intResUTub.Rgb2.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHolOneUTubSteSta.intHex[2].Q1_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 1" type: Real [10] borHolOneUTubSteSta.intHex[2].Q2_flow:VARIABLE(unit = "W" ) "Heat flow rate into medium 2" type: Real [10] Warning: Iteration variables with default zero start attribute in torn nonlinear equation system: borHol2UTubSteSta.intHex[1].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[1].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[1].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[1].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[1].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[1].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[2].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[2].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[2].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[3].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[3].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[3].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[3].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[3].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[3].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[4].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[4].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[4].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[4].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[4].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[4].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[5].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[5].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[5].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[6].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[6].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[6].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[7].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[7].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[7].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[8].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[8].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[8].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[8].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[8].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[8].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[6].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[6].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[6].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[9].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[9].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[9].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[9].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[9].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[10].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[10].intRes2UTub.Rgg11.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[10].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[10].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[10].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[10].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[9].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[7].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[7].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[7].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[5].intRes2UTub.Rgg12.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[5].intRes2UTub.Rgg21.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[5].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[2].intRes2UTub.Rgg22.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[2].intRes2UTub.Rgg14.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] borHol2UTubSteSta.intHex[2].intRes2UTub.Rgg13.Q_flow:VARIABLE(unit = "W" ) "Heat flow rate from port_a -> port_b" type: Real [10] Notification: Model statistics after passing the back-end for initialization: * Number of independent subsystems: 1088 * Number of states: 0 () * Number of discrete variables: 0 () * Number of discrete states: 0 () * Top-level inputs: 0 Notification: Strong component statistics for initialization (3568): * Single equations (assignments): 3464 * Array equations: 0 * Algorithm blocks: 0 * Record equations: 40 * When equations: 0 * If-equations: 0 * Equation systems (linear and non-linear blocks): 0 * Torn equation systems: 64 * Mixed (continuous/discrete) equation systems: 0 Notification: Torn system details for strict tearing set: * Linear torn systems: 60 {(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3} * Non-linear torn systems: 4 {100 462,1 4,1 4,31 219} Notification: Performance of prepare postOptimizeDAE: time 0.02425/108.8, allocations: 1.235 MB / 27.66 GB, free: 77.15 MB / 1.261 GB Notification: Performance of postOpt lateInlineFunction (simulation): time 0.03889/108.9, allocations: 5.714 MB / 27.67 GB, free: 74.47 MB / 1.261 GB Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.1568/109, allocations: 49.26 MB / 27.72 GB, free: 60.99 MB / 1.261 GB Notification: Performance of postOpt inlineArrayEqn (simulation): time 0.0004995/109, allocations: 266.7 kB / 27.72 GB, free: 60.74 MB / 1.261 GB Notification: Performance of postOpt constantLinearSystem (simulation): time 0.0001732/109, allocations: 31.91 kB / 27.72 GB, free: 60.71 MB / 1.261 GB Notification: Performance of postOpt simplifysemiLinear (simulation): time 1.064/110.1, allocations: 42.49 MB / 27.76 GB, free: 288.4 MB / 1.261 GB Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.3453/110.4, allocations: 143.3 MB / 27.9 GB, free: 260.6 MB / 1.261 GB Notification: Performance of postOpt simplifyComplexFunction (simulation): time 0.0001691/110.4, allocations: 12.94 kB / 27.9 GB, free: 260.6 MB / 1.261 GB Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.02062/110.5, allocations: 3.948 MB / 27.9 GB, free: 260.6 MB / 1.261 GB Notification: Performance of postOpt tearingSystem (simulation): time 0.03696/110.5, allocations: 15.4 MB / 27.92 GB, free: 259.4 MB / 1.261 GB Notification: Performance of postOpt inputDerivativesUsed (simulation): time 0.006786/110.5, allocations: 309.1 kB / 27.92 GB, free: 259.4 MB / 1.261 GB Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 0.1097/110.6, allocations: 121.8 MB / 28.04 GB, free: 182.1 MB / 1.261 GB Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 1.619e-05/110.6, allocations: 20.47 kB / 28.04 GB, free: 182.1 MB / 1.261 GB Notification: Performance of postOpt detectJacobianSparsePattern (simulation): time 0.1855/110.8, allocations: 89.84 MB / 28.13 GB, free: 149.4 MB / 1.261 GB Notification: Performance of postOpt removeConstants (simulation): time 0.06104/110.9, allocations: 14.85 MB / 28.14 GB, free: 141.7 MB / 1.261 GB Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.03046/110.9, allocations: 149.8 kB / 28.14 GB, free: 141.7 MB / 1.261 GB Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.05871/110.9, allocations: 2.661 MB / 28.14 GB, free: 141.5 MB / 1.261 GB Notification: Performance of postOpt findZeroCrossings (simulation): time 0.006589/111, allocations: 1.315 MB / 28.14 GB, free: 141.3 MB / 1.261 GB Notification: Performance of postOpt collapseArrayExpressions (simulation): time 0.007003/111, allocations: 1.093 MB / 28.15 GB, free: 141.1 MB / 1.261 GB Notification: Performance of sort global known variables: time 0.9743/111.9, allocations: 57.5 MB / 28.2 GB, free: 277.8 MB / 1.261 GB Notification: Performance of remove unused functions: time 0.2177/112.2, allocations: 36.12 MB / 28.24 GB, free: 276.3 MB / 1.261 GB Notification: Model statistics after passing the back-end for simulation: * Number of independent subsystems: 58 * Number of states: 120 (borHolOneUTubDyn.intHex[1].vol1.dynBal.U,borHolOneUTubDyn.intHex[1].vol2.dynBal.U,borHolOneUTubDyn.intHex[1].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[1].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[2].vol1.dynBal.U,borHolOneUTubDyn.intHex[2].vol2.dynBal.U,borHolOneUTubDyn.intHex[2].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[2].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[3].vol1.dynBal.U,borHolOneUTubDyn.intHex[3].vol2.dynBal.U,borHolOneUTubDyn.intHex[3].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[3].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[4].vol1.dynBal.U,borHolOneUTubDyn.intHex[4].vol2.dynBal.U,borHolOneUTubDyn.intHex[4].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[4].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[5].vol1.dynBal.U,borHolOneUTubDyn.intHex[5].vol2.dynBal.U,borHolOneUTubDyn.intHex[5].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[5].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[6].vol1.dynBal.U,borHolOneUTubDyn.intHex[6].vol2.dynBal.U,borHolOneUTubDyn.intHex[6].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[6].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[7].vol1.dynBal.U,borHolOneUTubDyn.intHex[7].vol2.dynBal.U,borHolOneUTubDyn.intHex[7].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[7].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[8].vol1.dynBal.U,borHolOneUTubDyn.intHex[8].vol2.dynBal.U,borHolOneUTubDyn.intHex[8].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[8].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[9].vol1.dynBal.U,borHolOneUTubDyn.intHex[9].vol2.dynBal.U,borHolOneUTubDyn.intHex[9].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[9].intResUTub.capFil2.T,borHolOneUTubDyn.intHex[10].vol1.dynBal.U,borHolOneUTubDyn.intHex[10].vol2.dynBal.U,borHolOneUTubDyn.intHex[10].intResUTub.capFil1.T,borHolOneUTubDyn.intHex[10].intResUTub.capFil2.T,borHol2UTubDyn.intHex[1].vol1.dynBal.U,borHol2UTubDyn.intHex[1].vol2.dynBal.U,borHol2UTubDyn.intHex[1].vol3.dynBal.U,borHol2UTubDyn.intHex[1].vol4.dynBal.U,borHol2UTubDyn.intHex[1].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[1].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[1].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[1].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[2].vol1.dynBal.U,borHol2UTubDyn.intHex[2].vol2.dynBal.U,borHol2UTubDyn.intHex[2].vol3.dynBal.U,borHol2UTubDyn.intHex[2].vol4.dynBal.U,borHol2UTubDyn.intHex[2].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[2].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[2].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[2].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[3].vol1.dynBal.U,borHol2UTubDyn.intHex[3].vol2.dynBal.U,borHol2UTubDyn.intHex[3].vol3.dynBal.U,borHol2UTubDyn.intHex[3].vol4.dynBal.U,borHol2UTubDyn.intHex[3].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[3].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[3].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[3].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[4].vol1.dynBal.U,borHol2UTubDyn.intHex[4].vol2.dynBal.U,borHol2UTubDyn.intHex[4].vol3.dynBal.U,borHol2UTubDyn.intHex[4].vol4.dynBal.U,borHol2UTubDyn.intHex[4].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[4].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[4].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[4].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[5].vol1.dynBal.U,borHol2UTubDyn.intHex[5].vol2.dynBal.U,borHol2UTubDyn.intHex[5].vol3.dynBal.U,borHol2UTubDyn.intHex[5].vol4.dynBal.U,borHol2UTubDyn.intHex[5].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[5].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[5].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[5].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[6].vol1.dynBal.U,borHol2UTubDyn.intHex[6].vol2.dynBal.U,borHol2UTubDyn.intHex[6].vol3.dynBal.U,borHol2UTubDyn.intHex[6].vol4.dynBal.U,borHol2UTubDyn.intHex[6].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[6].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[6].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[6].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[7].vol1.dynBal.U,borHol2UTubDyn.intHex[7].vol2.dynBal.U,borHol2UTubDyn.intHex[7].vol3.dynBal.U,borHol2UTubDyn.intHex[7].vol4.dynBal.U,borHol2UTubDyn.intHex[7].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[7].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[7].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[7].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[8].vol1.dynBal.U,borHol2UTubDyn.intHex[8].vol2.dynBal.U,borHol2UTubDyn.intHex[8].vol3.dynBal.U,borHol2UTubDyn.intHex[8].vol4.dynBal.U,borHol2UTubDyn.intHex[8].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[8].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[8].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[8].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[9].vol1.dynBal.U,borHol2UTubDyn.intHex[9].vol2.dynBal.U,borHol2UTubDyn.intHex[9].vol3.dynBal.U,borHol2UTubDyn.intHex[9].vol4.dynBal.U,borHol2UTubDyn.intHex[9].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[9].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[9].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[9].intRes2UTub.capFil4.T,borHol2UTubDyn.intHex[10].vol1.dynBal.U,borHol2UTubDyn.intHex[10].vol2.dynBal.U,borHol2UTubDyn.intHex[10].vol3.dynBal.U,borHol2UTubDyn.intHex[10].vol4.dynBal.U,borHol2UTubDyn.intHex[10].intRes2UTub.capFil1.T,borHol2UTubDyn.intHex[10].intRes2UTub.capFil2.T,borHol2UTubDyn.intHex[10].intRes2UTub.capFil3.T,borHol2UTubDyn.intHex[10].intRes2UTub.capFil4.T) * Number of discrete variables: 0 () * Number of discrete states: 0 () * Top-level inputs: 0 Notification: Strong component statistics for simulation (1693): * Single equations (assignments): 1605 * Array equations: 0 * Algorithm blocks: 0 * Record equations: 24 * When equations: 0 * If-equations: 0 * Equation systems (linear and non-linear blocks): 0 * Torn equation systems: 64 * Mixed (continuous/discrete) equation systems: 0 Notification: Torn system details for strict tearing set: * Linear torn systems: 60 {(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3,(1,100.0%) 3} * Non-linear torn systems: 4 {31 219,100 462,1 4,1 4} Notification: Performance of Backend phase and start with SimCode phase: time 0.01542/112.2, allocations: 4.591 MB / 28.24 GB, free: 275 MB / 1.261 GB Notification: Performance of simCode: created initialization part: time 0.1763/112.3, allocations: 91.05 MB / 28.33 GB, free: 259.1 MB / 1.261 GB Notification: Performance of simCode: created event and clocks part: time 6.228e-05/112.3, allocations: 40.09 kB / 28.33 GB, free: 259.1 MB / 1.261 GB Notification: Performance of simCode: created simulation system equations: time 0.05015/112.4, allocations: 26.51 MB / 28.36 GB, free: 252.8 MB / 1.261 GB Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.1794/112.6, allocations: 30.32 MB / 28.39 GB, free: 252.1 MB / 1.261 GB Notification: Performance of simCode: created linear, non-linear and system jacobian parts: time 0.4425/113, allocations: 143 MB / 28.53 GB, free: 158.3 MB / 1.261 GB Notification: Performance of simCode: all other stuff during SimCode phase: time 0.1566/113.2, allocations: 55.37 MB / 28.58 GB, free: 128.8 MB / 1.261 GB Notification: Performance of SimCode: time 1.643e-06/113.2, allocations: 1.781 kB / 28.58 GB, free: 128.8 MB / 1.261 GB Notification: Performance of Templates: time 8.046/121.2, allocations: 1.42 GB / 30 GB, free: 197.6 MB / 1.261 GB make -j1 -f IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics.makefile make -j1 -f IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics.makefile clang -fPIC -O0 -falign-functions -march=native "-I/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/Resources/C-Sources" -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=IBPSA_latest_IBPSA_Fluid_Geothermal_Borefields_BaseClasses_Boreholes_Examples_BoreholeDynamics -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=182 -DOMC_NUM_NONLINEAR_SYSTEMS=10 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics.o IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics.c clang -fPIC -O0 -falign-functions -march=native "-I/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/Resources/C-Sources" -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=IBPSA_latest_IBPSA_Fluid_Geothermal_Borefields_BaseClasses_Boreholes_Examples_BoreholeDynamics -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=182 -DOMC_NUM_NONLINEAR_SYSTEMS=10 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics_functions.o IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics_functions.c IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics_functions.c:2131:59: error: cannot take the address of an rvalue of type 'real_array_t' (aka 'struct base_array_s') copy_real_array_data(add_alloc_scalar_real_array(_TBor, &mul_alloc_real_matrix_product_smart(_R0, _QPip_flow)), &_TFlu); ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 1 error generated. make: *** [: IBPSA_latest_IBPSA.Fluid.Geothermal.Borefields.BaseClasses.Boreholes.Examples.BoreholeDynamics_functions.o] Error 1