Running command: "" <> buildModelFMU(OpenHPL.Tests.HPSTThrottleValve,fileNamePrefix="OpenHPL_OpenHPL_Tests_HPSTThrottleValve",fmuType="me",version="2.0",platforms={"static"})
[<interactive>:1:1-1:32:writable] Error: Class GC_set_max_heap_size not found in scope <global scope> (looking for a function or record).
Notification: Performance of loadModel(OpenHPL): time 3.576/3.576, allocations: 257.8 MB / 264.8 MB, free: 15.97 MB / 218.7 MB
Notification: Performance of FrontEnd - loaded program: time 0.2403/3.817, allocations: 62.56 MB / 327.4 MB, free: 1.406 MB / 266.7 MB
Notification: Performance of FrontEnd - Absyn->SCode: time 0.423/4.24, allocations: 60.21 MB / 387.6 MB, free: 7.082 MB / 314.7 MB
Notification: Performance of FrontEnd - scodeFlatten: time 0.2954/4.535, allocations: 95.54 MB / 483.1 MB, free: 8.129 MB / 410.7 MB
Notification: Performance of FrontEnd - mkProgramGraph: time 0.0004/4.536, allocations: 87.95 kB / 483.2 MB, free: 8.043 MB / 410.7 MB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 121
 * Number of variables: 121
Notification: Performance of Generate backend data structure: time 0.1142/4.65, allocations: 17.77 MB / 0.4892 GB, free: 6.195 MB / 426.7 MB
Notification: Performance of prepare preOptimizeDAE: time 5.546e-05/4.65, allocations: 16 kB / 0.4892 GB, free: 6.18 MB / 426.7 MB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.0006314/4.65, allocations: 83.05 kB / 0.4893 GB, free: 6.098 MB / 426.7 MB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.001305/4.652, allocations: 424.8 kB / 0.4897 GB, free: 5.641 MB / 426.7 MB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.0001969/4.652, allocations: 88.39 kB / 0.4898 GB, free: 5.543 MB / 426.7 MB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.0001652/4.652, allocations: 31.91 kB / 0.4898 GB, free: 5.512 MB / 426.7 MB
Notification: Performance of preOpt removeEqualFunctionCalls (simulation): time 0.001982/4.654, allocations: 445.9 kB / 0.4903 GB, free: 5.078 MB / 426.7 MB
Notification: Performance of preOpt clockPartitioning (simulation): time 0.001606/4.656, allocations: 413.7 kB / 0.4907 GB, free: 4.668 MB / 426.7 MB
Notification: Performance of preOpt findStateOrder (simulation): time 3.064e-05/4.656, allocations: 0 / 0.4907 GB, free: 4.668 MB / 426.7 MB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 9.415e-05/4.656, allocations: 4 kB / 0.4907 GB, free: 4.664 MB / 426.7 MB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 2.328e-05/4.656, allocations: 12 kB / 0.4907 GB, free: 4.652 MB / 426.7 MB
Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.0113/4.667, allocations: 1.585 MB / 0.4922 GB, free: 3.016 MB / 426.7 MB
Notification: Performance of preOpt comSubExp (simulation): time 0.003618/4.671, allocations: 0.4887 MB / 0.4927 GB, free: 2.516 MB / 426.7 MB
Notification: Performance of preOpt resolveLoops (simulation): time 0.0008198/4.672, allocations: 197.3 kB / 0.4929 GB, free: 2.324 MB / 426.7 MB
Notification: Performance of preOpt evalFunc (simulation): time 0.001625/4.674, allocations: 0.8627 MB / 0.4937 GB, free: 1.277 MB / 426.7 MB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 4.448e-05/4.674, allocations: 39 kB / 0.4938 GB, free: 1.23 MB / 426.7 MB
Notification: Performance of pre-optimization done (n=51): time 4.979e-06/4.674, allocations: 0 / 0.4938 GB, free: 1.23 MB / 426.7 MB
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OMCompiler/build/lib/omlibrary/OpenHPL 1.1.1/Waterway/Reservoir.mo:71:5-71:18:writable] Error: Model is structurally singular, error found sorting equations 
 24: der(tail.m) = 0.0;
20: tail.A = tail.H * (tail.w + 2.0 * tail.H * tan(0.0174532925199433 * tail.alpha));
22: tail.F_f = 0.0;
21: tail.m = data.rho * tail.A * tail.L;
33: turbine.Vdot = if turbine.WaterCompress then penstock.mdot / ((1.0 + data.beta * (penstock.p_o - data.p_a)) * data.rho) else penstock.mdot / data.rho;
7: control.y = control.offset + (if time < control.startTime then 0.0 else if time < control.startTime + control.duration then (time - control.startTime) * control.height / control.duration else control.height);
47: STThrottleValve.Mdot = STThrottleValve.mdot * STThrottleValve.v;
45: STThrottleValve.M = STThrottleValve.m * STThrottleValve.v;
50: STThrottleValve.F_g = STThrottleValve.m * data.g * STThrottleValve.cos_theta;
49: STThrottleValve.F_p = (intake.p_o - data.p_a) * STThrottleValve.A;
40: der(STThrottleValve.M) = STThrottleValve.Mdot + STThrottleValve.F;
39: der(STThrottleValve.m) = STThrottleValve.mdot;
48: STThrottleValve.F = STThrottleValve.F_p + (-STThrottleValve.F_f) - STThrottleValve.F_g;
41: STThrottleValve.m = if STThrottleValve.l <= STThrottleValve.L_t then data.rho * STThrottleValve.A_t * STThrottleValve.l else data.rho * (STThrottleValve.A_t * STThrottleValve.L_t + STThrottleValve.A * (STThrottleValve.l - STThrottleValve.L_t));
43: STThrottleValve.F_f = if STThrottleValve.l <= STThrottleValve.L_t then OpenHPL.Functions.DarcyFriction.Friction(STThrottleValve.v, STThrottleValve.D_t, STThrottleValve.l, data.rho, data.mu, STThrottleValve.p_eps) + 0.5 * STThrottleValve.A_t * STThrottleValve.phiSO * data.rho * abs(STThrottleValve.v) * STThrottleValve.v else if STThrottleValve.v >= 0.0 then OpenHPL.Functions.DarcyFriction.Friction(STThrottleValve.v, STThrottleValve.D_t, STThrottleValve.L_t, data.rho, data.mu, STThrottleValve.p_eps) + OpenHPL.Functions.DarcyFriction.Friction(STThrottleValve.v, STThrottleValve.D, STThrottleValve.l - STThrottleValve.L_t, data.rho, data.mu, STThrottleValve.p_eps) + 0.5 * STThrottleValve.A_t * STThrottleValve.phiSO * data.rho * abs(STThrottleValve.v) * STThrottleValve.v else OpenHPL.Functions.DarcyFriction.Friction(STThrottleValve.v, STThrottleValve.D_t, STThrottleValve.L_t, data.rho, data.mu, STThrottleValve.p_eps) + OpenHPL.Functions.DarcyFriction.Friction(STThrottleValve.v, STThrottleValve.D, STThrottleValve.l - STThrottleValve.L_t, data.rho, data.mu, STThrottleValve.p_eps) + 0.5 * STThrottleValve.A * STThrottleValve.phiSO * data.rho * abs(STThrottleValve.v) * STThrottleValve.v;
42: STThrottleValve.phiSO = if STThrottleValve.l <= STThrottleValve.L_t then 0.0 else if STThrottleValve.v >= 0.0 then OpenHPL.Functions.Fitting.FittingPhi(STThrottleValve.v, STThrottleValve.D_t, STThrottleValve.D, STThrottleValve.L, 90.0, data.rho, data.mu, data.p_eps, OpenHPL.Types.Fitting.Square) else OpenHPL.Functions.Fitting.FittingPhi(STThrottleValve.v, STThrottleValve.D, STThrottleValve.D_t, STThrottleValve.L, 90.0, data.rho, data.mu, data.p_eps, OpenHPL.Types.Fitting.Square);
46: STThrottleValve.v = STThrottleValve.Vdot / STThrottleValve.A;
44: STThrottleValve.mdot = data.rho * STThrottleValve.Vdot;
9: intake.Vdot = intake.mdot / data.rho;
51: STThrottleValve.mdot = intake.mdot - penstock.mdot;
28: penstock.v = penstock.Vdot / penstock.A_;
5: der(reservoir.m) = 0.0;
1: reservoir.A = reservoir.H * (reservoir.w + 2.0 * reservoir.H * tan(0.0174532925199433 * reservoir.alpha));
3: reservoir.F_f = 0.0;
2: reservoir.m = data.rho * reservoir.A * reservoir.L;
10: intake.v = intake.Vdot / intake.A_;
6: intake.Vdot = data.rho;
4: 0.0 = reservoir.A * (data.p_a - intake.p_i) + data.g * data.rho * reservoir.A * reservoir.H - reservoir.F_f;
11: intake.M = data.rho * intake.L * intake.Vdot;
12: intake.F_f = OpenHPL.Functions.DarcyFriction.Friction(intake.v, intake.D_, intake.L, data.rho, data.mu, intake.p_eps);
27: penstock.Vdot = penstock.mdot / data.rho;
29: penstock.M = data.rho * penstock.L * penstock.Vdot;
30: penstock.F_f = OpenHPL.Functions.DarcyFriction.Friction(penstock.v, penstock.D_, penstock.L, data.rho, data.mu, penstock.p_eps);
13: der(intake.M) = data.rho * intake.Vdot ^ 2.0 * (1.0 / intake.A_i + -1.0 / intake.A_o) + intake.p_i * intake.A_i + intake.m * data.g * intake.cos_theta + (-intake.F_f) - intake.p_o * intake.A_o;
34: turbine.dp = turbine.Vdot ^ 2.0 * data.p_a / (turbine.C_v_ * control.y) ^ 2.0;
31: der(penstock.M) = data.rho * penstock.Vdot ^ 2.0 * (1.0 / penstock.A_i + -1.0 / penstock.A_o) + intake.p_o * penstock.A_i + penstock.m * data.g * penstock.cos_theta + (-penstock.F_f) - penstock.p_o * penstock.A_o;
23: 0.0 = tail.A * (data.p_a - discharge.p_o) + data.g * data.rho * tail.A * tail.H - tail.F_f;
35: turbine.dp = penstock.p_o - discharge.p_i;
17: discharge.M = data.rho * discharge.L * discharge.Vdot;
19: der(discharge.M) = data.rho * discharge.Vdot ^ 2.0 * (1.0 / discharge.A_i + -1.0 / discharge.A_o) + discharge.p_i * discharge.A_i + discharge.m * data.g * discharge.cos_theta + (-discharge.F_f) - discharge.p_o * discharge.A_o;
15: discharge.Vdot = penstock.mdot / data.rho;
18: discharge.F_f = OpenHPL.Functions.DarcyFriction.Friction(discharge.v, discharge.D_, discharge.L, data.rho, data.mu, discharge.p_eps);
16: discharge.v = discharge.Vdot / discharge.A_;
 for variables 
 tail.Vdot_i(28), tail.H(26), tail.m(29), discharge.Vdot(31), penstock.F_f(23), intake.M(42), STThrottleValve.Vdot(1), STThrottleValve.F(9), STThrottleValve.F_f(5), STThrottleValve.mdot(13), STThrottleValve.l(8), STThrottleValve.phiSO(3), STThrottleValve.F_g(4), STThrottleValve.m(12), STThrottleValve.M(11), STThrottleValve.v(7), STThrottleValve.Mdot(10), intake.p_o(40), STThrottleValve.h(2), penstock.mdot(25), reservoir.F_f(48), control.y(46), intake.F_f(43), intake.Vdot(38), reservoir.H(47), reservoir.Vdot_i(49), reservoir.m(50), intake.mdot(45), intake.dp(39), penstock.M(22), penstock.v(24), penstock.p_o(21), intake.v(44), discharge.M(35), turbine.Vdot(15), tail.A(30), turbine.dp(17), discharge.p_i(34), tail.F_f(27), discharge.p_o(33), discharge.v(37), discharge.F_f(36), turbine.Kdot_i_tr(16)
Error: Internal error Transformation Module PFPlusExt index Reduction Method Pantelides failed!
Error: Internal error SimCode: The model OpenHPL.Tests.HPSTThrottleValve could not be translated to FMU