Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr Buildings_maint.7.0.x_Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads.conf.json loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo", uses=false) 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/Modelica 3.2.3+maint.om/package.mo", uses=false) loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 7.0.3-maint.7.0.x/package.mo", uses=false) Using package Buildings with version 7.0.3 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 7.0.3-maint.7.0.x/package.mo) Using package Modelica with version 3.2.3 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/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) Using package ModelicaServices with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo) Running command: translateModel(Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads,tolerance=1e-06,outputFormat="empty",numberOfIntervals=5000,variableFilter="",fileNamePrefix="Buildings_maint.7.0.x_Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads") translateModel(Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads,tolerance=1e-06,outputFormat="empty",numberOfIntervals=5000,variableFilter="",fileNamePrefix="Buildings_maint.7.0.x_Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads") Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo): time 0.001222/0.001222, allocations: 107.5 kB / 16.42 MB, free: 6.5 MB / 14.72 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo): time 0.001213/0.001213, allocations: 188.9 kB / 17.35 MB, free: 5.754 MB / 14.72 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo): time 1.311/1.311, allocations: 205.1 MB / 223.2 MB, free: 12.23 MB / 190.1 MB Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 7.0.3-maint.7.0.x/package.mo): time 1.308/1.308, allocations: 251.7 MB / 0.51 GB, free: 412 kB / 430.1 MB Notification: Performance of FrontEnd - Absyn->SCode: time 1.888e-05/1.888e-05, allocations: 2.281 kB / 0.7264 GB, free: 4.754 MB / 0.5606 GB Notification: Performance of NFInst.instantiate(Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads): time 0.004242/0.004269, allocations: 3.248 MB / 0.7295 GB, free: 1.488 MB / 0.5606 GB Notification: Performance of NFInst.instExpressions: time 0.002768/0.007049, allocations: 1.871 MB / 0.7314 GB, free: 15.6 MB / 0.5762 GB Notification: Performance of NFInst.updateImplicitVariability: time 0.0002162/0.007277, allocations: 7.938 kB / 0.7314 GB, free: 15.59 MB / 0.5762 GB Notification: Performance of NFTyping.typeComponents: time 0.0008606/0.008145, allocations: 286.7 kB / 0.7317 GB, free: 15.32 MB / 0.5762 GB Notification: Performance of NFTyping.typeBindings: time 0.0004983/0.008652, allocations: 215 kB / 0.7319 GB, free: 15.11 MB / 0.5762 GB Notification: Performance of NFTyping.typeClassSections: time 0.0006856/0.009348, allocations: 291.3 kB / 0.7321 GB, free: 14.82 MB / 0.5762 GB Notification: Performance of NFFlatten.flatten: time 0.0005608/0.009916, allocations: 454.5 kB / 0.7326 GB, free: 14.38 MB / 0.5762 GB Notification: Performance of NFFlatten.resolveConnections: time 0.0003446/0.01027, allocations: 196.3 kB / 0.7328 GB, free: 14.18 MB / 0.5762 GB Notification: Performance of NFEvalConstants.evaluate: time 0.0002414/0.01052, allocations: 159.4 kB / 0.7329 GB, free: 14.03 MB / 0.5762 GB Notification: Performance of NFSimplifyModel.simplify: time 0.0002856/0.01081, allocations: 159.4 kB / 0.7331 GB, free: 13.87 MB / 0.5762 GB Notification: Performance of NFPackage.collectConstants: time 3.795e-05/0.01086, allocations: 20 kB / 0.7331 GB, free: 13.85 MB / 0.5762 GB Notification: Performance of NFFlatten.collectFunctions: time 0.0003531/0.01122, allocations: 215.5 kB / 0.7333 GB, free: 13.64 MB / 0.5762 GB Notification: Performance of combineBinaries: time 0.0003223/0.01155, allocations: 431.6 kB / 0.7337 GB, free: 13.21 MB / 0.5762 GB Notification: Performance of replaceArrayConstructors: time 0.0001714/0.01173, allocations: 272.4 kB / 0.734 GB, free: 12.95 MB / 0.5762 GB Notification: Performance of NFVerifyModel.verify: time 5.563e-05/0.01179, allocations: 39.88 kB / 0.734 GB, free: 12.91 MB / 0.5762 GB Notification: Performance of FrontEnd: time 2.843e-05/0.01182, allocations: 4 kB / 0.734 GB, free: 12.9 MB / 0.5762 GB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 68 (52) * Number of variables: 68 (47) Notification: Performance of Bindings: time 0.001109/0.01293, allocations: 1.208 MB / 0.7352 GB, free: 11.59 MB / 0.5762 GB Notification: Performance of FunctionAlias: time 0.0001262/0.01307, allocations: 79.81 kB / 0.7353 GB, free: 11.51 MB / 0.5762 GB Notification: Performance of Early Inline: time 0.0008822/0.01396, allocations: 0.8974 MB / 0.7361 GB, free: 10.58 MB / 0.5762 GB Notification: Performance of simplify1: time 0.000102/0.01407, allocations: 83.86 kB / 0.7362 GB, free: 10.5 MB / 0.5762 GB Notification: Performance of Alias: time 0.0008301/0.0149, allocations: 0.7909 MB / 0.737 GB, free: 9.578 MB / 0.5762 GB Notification: Performance of simplify2: time 9.673e-05/0.01501, allocations: 75.91 kB / 0.7371 GB, free: 9.504 MB / 0.5762 GB Notification: Performance of Events: time 0.0001263/0.01514, allocations: 87.83 kB / 0.7371 GB, free: 9.418 MB / 0.5762 GB Notification: Performance of Detect States: time 0.0002655/0.01541, allocations: 235.1 kB / 0.7374 GB, free: 9.176 MB / 0.5762 GB Notification: Performance of Partitioning: time 0.0003287/0.01575, allocations: 324.6 kB / 0.7377 GB, free: 8.82 MB / 0.5762 GB Error: Internal error NBSlice.fillDependencyArray failed because number of flattened indices 1 for dependency source.terminal.v[2] could not be divided by the body size 2 without rest. Error: Internal error NBAdjacency.Matrix.createPseudo failed for: [ARRY] (2) source.S = {source.terminal.v[1] * source.terminal.i[1] + source.terminal.v[2] * source.terminal.i[2], source.terminal.v[2] * source.terminal.i[1] - source.terminal.v[1] * source.terminal.i[2]} ($RES_BND_48) Error: Internal error NBAdjacency.Matrix.create failed to create adjacency matrix for system: System Variables (35/59) ************************** (1) [ALGB] (1) Real line.R_actual (2) [ALGB] (2) Real[2] dynRC.v = dynRC.terminal.v (start = {120.0, 0.0}) (3) [ALGB] (2) Real[2] source.S = Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads.source.PhaseSystem.phasePowers_vi(source.terminal.v, source.terminal.i) (4) [ALGB] (4) Real[2, 2] $FUN_1 (5) [ALGB] (2) flow Real[2] dynRL.terminal.i (start = {0.0 for $i1 in 1:2}) (6) [ALGB] (2) Real[2] line.terminal_n.v (7) [DISC] (1) Boolean $SEV_1 (8) [ALGB] (2) Real[2] source.terminal.v (9) [ALGB] (2) Real[2] dynRC.terminal.v (10) [ALGB] (2) Real[2] dynRC.i = dynRC.terminal.i (start = {0.0 for $i1 in 1:2}) (11) [ALGB] (1) Real[1] source.terminal.theta (12) [ALGB] (2) Real[2] dynRL.terminal.v (13) [ALGB] (2) flow Real[2] line.terminal_n.i (start = {0.0 for $i1 in 1:2}) (14) [ALGB] (2) flow Real[2] source.terminal.i (start = {0.0 for $i1 in 1:2}) (15) [ALGB] (1) Real[1] line.terminal_n.theta (16) [ALGB] (2) Real[2] line.terminal_p.v (17) [ALGB] (2) Real[2] dynRL.v = dynRL.terminal.v (start = {120.0, 0.0}) (18) [ALGB] (1) Real line.LossPower (19) [DER-] (1) Real $DER.dynRC.theRef (20) [ALGB] (1) Real[1] line.terminal_p.theta (21) [ALGB] (1) Real[1] dynRL.terminal.theta (22) [ALGB] (1) protected Real dynRC.omega (23) [ALGB] (2) protected Real[2] dynRC.Y (24) [ALGB] (2) Real[2] dynRL.i = dynRL.terminal.i (start = {0.0 for $i1 in 1:2}) (25) [ALGB] (2) flow Real[2] line.terminal_p.i (start = {0.0 for $i1 in 1:2}) (26) [ALGB] (1) Real[1] dynRC.terminal.theta (27) [ALGB] (2) Real[2] dynRC.S = Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads.dynRC.PhaseSystem.phasePowers_vi(dynRC.v, -dynRC.i) (28) [DER-] (2) Real[2] $DER.dynRL.psi (29) [DER-] (1) Real $DER.dynRL.theRef (30) [ALGB] (2) protected Real[2] dynRL.Z (31) [ALGB] (2) flow Real[2] dynRC.terminal.i (start = {0.0 for $i1 in 1:2}) (32) [ALGB] (1) protected Real dynRL.omega (33) [ALGB] (2) Real[2] dynRL.S = Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads.dynRL.PhaseSystem.phasePowers_vi(dynRL.v, -dynRL.i) (34) [ALGB] (1) Real source.phi = Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads.source.PhaseSystem.phase(source.terminal.v) - Buildings.Electrical.AC.OnePhase.Loads.Examples.DynamicLoads.source.PhaseSystem.phase(-source.terminal.i) (35) [DER-] (2) Real[2] $DER.dynRC.q System Equations (40/59) ************************** (1) [SCAL] (1) dynRL.Z[2] = -(14400.0 * ((1.0 - dynRL.pf ^ 2.0) / ((1.0 - dynRL.pf ^ 2.0) * (1.0 - dynRL.pf ^ 2.0) + 1e-6) ^ 0.25)) / (dynRL.P_nominal / dynRL.pf) ($RES_SIM_10) (2) [SCAL] (1) dynRL.Z[1] = -(14400.0 * dynRL.pf) / (dynRL.P_nominal / dynRL.pf) ($RES_SIM_11) (3) [SCAL] (1) dynRL.omega = $DER.dynRL.theRef ($RES_SIM_12) (4) [SCAL] (1) dynRL.theRef = dynRL.terminal.theta[1] ($RES_SIM_13) (5) [SCAL] (1) dynRC.Y[1] = -6.944444444444444e-5 * dynRC.pf * (dynRC.P_nominal / dynRC.pf) ($RES_SIM_30) (6) [ARRY] (2) line.terminal_p.i = -line.terminal_n.i ($RES_SIM_15) (7) [SCAL] (1) dynRC.omega = $DER.dynRC.theRef ($RES_SIM_31) (8) [SCAL] (1) line.R_actual = ((line.M + ((-273.15) + line.T)) * line.R) / (line.M + ((-273.15) + line.T_ref)) ($RES_SIM_16) (9) [SCAL] (1) dynRC.theRef = dynRC.terminal.theta[1] ($RES_SIM_32) (10) [ARRY] (2) source.terminal.v = {source.V * cos(source.phiSou), source.V * sin(source.phiSou)} ($RES_SIM_33) (11) [ARRY] (1) line.terminal_p.theta = line.terminal_n.theta ($RES_SIM_18) (12) [SCAL] (1) line.LossPower = line.R_actual * (line.terminal_p.i[1] ^ 2.0 + line.terminal_p.i[2] ^ 2.0) ($RES_SIM_19) (13) [SCAL] (1) source.terminal.theta[1] = 6.283185307179586 * source.f * time ($RES_SIM_35) (14) [SCAL] (1) dynRL.terminal.i[2] + line.terminal_p.i[2] + dynRC.terminal.i[2] = 0.0 ($RES_SIM_36) (15) [SCAL] (1) dynRL.terminal.i[1] + line.terminal_p.i[1] + dynRC.terminal.i[1] = 0.0 ($RES_SIM_37) (16) [SCAL] (1) dynRL.terminal.v[2] = dynRC.terminal.v[2] ($RES_SIM_38) (17) [SCAL] (1) dynRL.terminal.v[2] = line.terminal_p.v[2] ($RES_SIM_39) (18) [ARRY] (2) source.S = {source.terminal.v[1] * source.terminal.i[1] + source.terminal.v[2] * source.terminal.i[2], source.terminal.v[2] * source.terminal.i[1] - source.terminal.v[1] * source.terminal.i[2]} ($RES_BND_48) (19) [SCAL] (1) source.phi = atan2(source.terminal.v[2], source.terminal.v[1]) - atan2((-source.terminal.i)[2], (-source.terminal.i)[1]) ($RES_BND_49) (20) [SCAL] (1) $SEV_1 = line.R_actual >= 0.0 ($RES_EVT_64) (21) [ARRY] (2) line.terminal_p.v - line.terminal_n.v = line.terminal_p.i * $FUN_1 ($RES_SIM_20) (22) [ARRY] (4) $FUN_1 = diagonal(fill(1.0, 2) .* line.R_actual) ($RES_$AUX_62) (23) [SCAL] (1) dynRL.terminal.v[1] = dynRC.terminal.v[1] ($RES_SIM_40) (24) [SCAL] (1) dynRL.terminal.v[1] = line.terminal_p.v[1] ($RES_SIM_41) (25) [ARRY] (2) dynRC.omega * {-dynRC.q[2], dynRC.q[1]} + $DER.dynRC.q + dynRC.Y[1] * dynRC.v = dynRC.i ($RES_SIM_27) (26) [SCAL] (1) dynRL.terminal.theta[1] = dynRC.terminal.theta[1] ($RES_SIM_42) (27) [ARRY] (2) dynRC.q = (dynRC.Y[2] * {dynRC.v[1], dynRC.v[2]}) / dynRC.omega ($RES_SIM_28) (28) [SCAL] (1) dynRL.terminal.theta[1] = line.terminal_p.theta[1] ($RES_SIM_43) (29) [SCAL] (1) dynRC.Y[2] = -6.944444444444444e-5 * ((1.0 - dynRC.pf ^ 2.0) / ((1.0 - dynRC.pf ^ 2.0) * (1.0 - dynRC.pf ^ 2.0) + 1e-6) ^ 0.25) * (dynRC.P_nominal / dynRC.pf) ($RES_SIM_29) (30) [FOR-] (2) ($RES_SIM_44) (30) [----] for $i1 in 1:2 loop (30) [----] [SCAL] (1) source.terminal.i[$i1] + line.terminal_n.i[$i1] = 0.0 ($RES_SIM_45) (30) [----] end for; (31) [ARRY] (2) dynRC.v = dynRC.terminal.v ($RES_BND_50) (32) [ARRY] (2) dynRC.i = dynRC.terminal.i ($RES_BND_51) (33) [ARRY] (2) source.terminal.v = line.terminal_n.v ($RES_SIM_46) (34) [ARRY] (2) dynRC.S = {dynRC.v[1] * (-dynRC.i)[1] + dynRC.v[2] * (-dynRC.i)[2], dynRC.v[2] * (-dynRC.i)[1] - dynRC.v[1] * (-dynRC.i)[2]} ($RES_BND_52) (35) [ARRY] (1) source.terminal.theta = line.terminal_n.theta ($RES_SIM_47) (36) [ARRY] (2) dynRL.v = dynRL.terminal.v ($RES_BND_54) (37) [ARRY] (2) dynRL.omega * {-dynRL.psi[2], dynRL.psi[1]} + $DER.dynRL.psi + dynRL.Z[1] * dynRL.i = dynRL.v ($RES_SIM_9) (38) [ARRY] (2) dynRL.i = dynRL.terminal.i ($RES_BND_55) (39) [ARRY] (2) dynRL.psi = (dynRL.Z[2] * {dynRL.i[1], dynRL.i[2]}) / dynRL.omega ($RES_SIM_8) (40) [ARRY] (2) dynRL.S = {dynRL.v[1] * (-dynRL.i)[1] + dynRL.v[2] * (-dynRL.i)[2], dynRL.v[2] * (-dynRL.i)[1] - dynRL.v[1] * (-dynRL.i)[2]} ($RES_BND_56)