[<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).
Warning: Requested package Modelica of version 3.2.2, but this package was already loaded with version 3.2.1. You might experience problems if these versions are incompatible.
Notification: Performance of loadModel(Buildings): time 2.868/2.868, allocations: 320.9 MB / 327.9 MB, free: 5.566 MB / 266.7 MB
Notification: Performance of FrontEnd - loaded program: time 0.4054/3.274, allocations: 75.72 MB / 403.6 MB, free: 0.5664 MB / 314.7 MB
Notification: Performance of FrontEnd - Absyn->SCode: time 0.1754/3.449, allocations: 73.39 MB / 477 MB, free: 7.035 MB / 394.7 MB
Notification: Performance of FrontEnd - scodeFlatten: time 0.4949/3.944, allocations: 108.4 MB / 0.5717 GB, free: 11.91 MB / 458.7 MB
Notification: Performance of FrontEnd - mkProgramGraph: time 0.000288/3.944, allocations: 76.03 kB / 0.5717 GB, free: 11.87 MB / 458.7 MB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 1839
 * Number of variables: 1839
Notification: Performance of Generate backend data structure: time 0.2599/4.204, allocations: 72.24 MB / 0.6423 GB, free: 12.46 MB / 0.5105 GB
Notification: Performance of prepare preOptimizeDAE: time 5.139e-05/4.204, allocations: 8 kB / 0.6423 GB, free: 12.45 MB / 0.5105 GB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.002106/4.206, allocations: 0.622 MB / 0.6429 GB, free: 11.82 MB / 0.5105 GB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.007313/4.214, allocations: 1.9 MB / 0.6448 GB, free: 10.03 MB / 0.5105 GB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 6.132e-05/4.214, allocations: 16.47 kB / 0.6448 GB, free: 10.01 MB / 0.5105 GB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.00123/4.215, allocations: 385 kB / 0.6451 GB, free: 9.637 MB / 0.5105 GB
Notification: Performance of preOpt removeEqualFunctionCalls (simulation): time 0.004222/4.219, allocations: 1.734 MB / 0.6468 GB, free: 8.211 MB / 0.5105 GB
Error: An independent subset of the model has imbalanced number of equations (1806) and variables (78).
variables:
integrator.y
integrator.u
TSam.y
TSam.u
TSam.firstTrigger
TSam.sampleTrigger
err.y
err.u2
err.u1
to_degC.y
to_degC.u
PCon.y
PCon.u2
PCon.u1
POffSet.y
TOut.y
notEventDay.y
notEventDay.u
dayType.skipIDayIncrement
dayType.sampleTrigger
dayType.iDay
dayType.y[2]
dayType.y[1]
tri.pulsStart
tri.y
baseLoad.TOut
baseLoad.TOut_in_internal
baseLoad.idxSam
baseLoad.intTOutLast
baseLoad.intTOut
baseLoad.EHisAve
baseLoad.EActAve
baseLoad._storeHistory
baseLoad._typeOfDay[12]
baseLoad._typeOfDay[11]
baseLoad._typeOfDay[10]
baseLoad._typeOfDay[9]
baseLoad._typeOfDay[8]
baseLoad._typeOfDay[7]
baseLoad._typeOfDay[6]
baseLoad._typeOfDay[5]
baseLoad._typeOfDay[4]
baseLoad._typeOfDay[3]
baseLoad._typeOfDay[2]
baseLoad._typeOfDay[1]
baseLoad.iSam[12]
baseLoad.iSam[11]
baseLoad.iSam[10]
baseLoad.iSam[9]
baseLoad.iSam[8]
baseLoad.iSam[7]
baseLoad.iSam[6]
baseLoad.iSam[5]
baseLoad.iSam[4]
baseLoad.iSam[3]
baseLoad.iSam[2]
baseLoad.iSam[1]
baseLoad.tLast
baseLoad.ELast
baseLoad.sampleTrigger
baseLoad.PAve
baseLoad.adj
baseLoad.storeHistory
baseLoad.typeOfDay[2]
baseLoad.typeOfDay[1]
baseLoad.PPre[12]
baseLoad.PPre[11]
baseLoad.PPre[10]
baseLoad.PPre[9]
baseLoad.PPre[8]
baseLoad.PPre[7]
baseLoad.PPre[6]
baseLoad.PPre[5]
baseLoad.PPre[4]
baseLoad.PPre[3]
baseLoad.PPre[2]
baseLoad.PPre[1]
baseLoad.ECon
equations:
1 : baseLoad.sampleTrigger = sample(1, baseLoad.samStart, 3600.0)
2 : der(baseLoad.intTOut) = baseLoad.TOut_in_internal
3 : algorithm
  when baseLoad.sampleTrigger then
    baseLoad._storeHistory := if not pre(baseLoad._storeHistory) and not Buildings.Controls.Predictors.ElectricalLoad$baseLoad.isMidNight(time) then false else baseLoad.storeHistory;
    baseLoad._typeOfDay := Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getTypeOfDays(time, {baseLoad.typeOfDay[1], baseLoad.typeOfDay[2]}, 3600.0, 12);
    baseLoad.idxSam := Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(-1 + baseLoad.iSam[1], 24);
    if baseLoad._storeHistory or pre(baseLoad._storeHistory) then
      if time - baseLoad.tLast > 1e-05 then
        baseLoad.iHis[pre(baseLoad._typeOfDay[1]),baseLoad.idxSam] := Buildings.Controls.Predictors.ElectricalLoad$baseLoad.incrementIndex(baseLoad.iHis[pre(baseLoad._typeOfDay[1]),baseLoad.idxSam], 10);
        if baseLoad.iHis[pre(baseLoad._typeOfDay[1]),baseLoad.idxSam] == 10 then
          baseLoad.historyComplete[pre(baseLoad._typeOfDay[1]),baseLoad.idxSam] := true;
        end if;
        baseLoad.PAve := (baseLoad.ECon - baseLoad.ELast) / (time - baseLoad.tLast);
        baseLoad.P[pre(baseLoad._typeOfDay[1]),baseLoad.idxSam,baseLoad.iHis[pre(baseLoad._typeOfDay[1]),baseLoad.idxSam]] := baseLoad.PAve;
        baseLoad.T[pre(baseLoad._typeOfDay[1]),baseLoad.idxSam,baseLoad.iHis[pre(baseLoad._typeOfDay[1]),baseLoad.idxSam]] := (baseLoad.intTOut - baseLoad.intTOutLast) / (time - baseLoad.tLast);
      end if;
    end if;
    baseLoad.ELast := baseLoad.ECon;
    baseLoad.intTOutLast := baseLoad.intTOut;
    baseLoad.tLast := time;
    if baseLoad.predictionModel == Buildings.Controls.Predictors.Types.PredictionModel.WeatherRegression then
      for m in 1:12 loop
        baseLoad.PPre[m] := Buildings.Controls.Predictors.BaseClasses.weatherRegression({baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],1], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],2], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],3], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],4], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],5], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],6], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],7], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],8], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],9], baseLoad.P[baseLoad._typeOfDay[m],baseLoad.iSam[m],10]}, if baseLoad.historyComplete[baseLoad._typeOfDay[m],baseLoad.iSam[m]] then 10 else baseLoad.iHis[baseLoad._typeOfDay[m],baseLoad.iSam[m]], if m == 1 then baseLoad.TOut_in_internal else baseLoad.TOutFut_in_internal[-1 + m], {baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],1], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],2], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],3], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],4], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],5], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],6], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],7], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],8], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],9], baseLoad.T[baseLoad._typeOfDay[m],baseLoad.iSam[m],10]});
      end for;
    else
      baseLoad.PPre := {0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0};
      assert(false, "Wrong value for prediction model.");
    end if;
    if baseLoad._storeHistory or pre(baseLoad._storeHistory) then
      baseLoad.PPreHis[baseLoad._typeOfDay[1],Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(1 + baseLoad.idxSam, 24)] := baseLoad.PPre[1];
      baseLoad.PPreHisSet[baseLoad._typeOfDay[1],Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(1 + baseLoad.idxSam, 24)] := baseLoad.iHis[baseLoad._typeOfDay[1],baseLoad.iSam[1]] > 0;
    end if;
    baseLoad.EHisAve := 0.0;
    baseLoad.EActAve := 0.0;
    for i in -4:-2 loop
      if Modelica.Math.BooleanVectors.allTrue({baseLoad.PPreHisSet[baseLoad._typeOfDay[1],Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(baseLoad.iSam[1] + -4, 24)], baseLoad.PPreHisSet[baseLoad._typeOfDay[1],Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(baseLoad.iSam[1] + -3, 24)], baseLoad.PPreHisSet[baseLoad._typeOfDay[1],Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(baseLoad.iSam[1] + -2, 24)]}) then
        baseLoad.EHisAve := baseLoad.EHisAve + 3600.0 * baseLoad.PPreHis[baseLoad._typeOfDay[1],Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(1 + baseLoad.idxSam + i, 24)];
        baseLoad.EActAve := baseLoad.EActAve + 3600.0 * baseLoad.P[baseLoad._typeOfDay[1],Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(1 + baseLoad.idxSam + i, 24),baseLoad.iHis[baseLoad._typeOfDay[1],Buildings.Controls.Predictors.ElectricalLoad$baseLoad.getIndex(1 + baseLoad.idxSam + i, 24)]];
      else
        baseLoad.EHisAve := 0.0;
        baseLoad.EActAve := 0.0;
      end if;
    end for;
    if baseLoad.EHisAve > 1e-15 or baseLoad.EHisAve < -1e-15 then
      baseLoad.adj := min(baseLoad.maxAdjFac, max(baseLoad.minAdjFac, baseLoad.EActAve / baseLoad.EHisAve));
    else
      baseLoad.adj := 1.0;
    end if;
    baseLoad.PPre[:] := {baseLoad.PPre[1] * baseLoad.adj, baseLoad.PPre[2] * baseLoad.adj, baseLoad.PPre[3] * baseLoad.adj, baseLoad.PPre[4] * baseLoad.adj, baseLoad.PPre[5] * baseLoad.adj, baseLoad.PPre[6] * baseLoad.adj, baseLoad.PPre[7] * baseLoad.adj, baseLoad.PPre[8] * baseLoad.adj, baseLoad.PPre[9] * baseLoad.adj, baseLoad.PPre[10] * baseLoad.adj, baseLoad.PPre[11] * baseLoad.adj, baseLoad.PPre[12] * baseLoad.adj};
    for i in 1:12 loop
      baseLoad.iSam[i] := Buildings.Controls.Predictors.ElectricalLoad$baseLoad.incrementIndex(baseLoad.iSam[i], 24);
    end for;
  end when;

4 : tri.y = time >= tri.pulsStart and time < tri.pulsStart + tri.Twidth
5 : dayType.y[1] = dayType.days[1 + mod(-1 + dayType.iDay, 7)]
6 : dayType.y[2] = dayType.days[1 + mod(dayType.iDay, 7)]
7 : dayType.sampleTrigger = sample(3, dayType.firstSample, dayType.samplePeriod)
8 : notEventDay.y = not notEventDay.u
9 : TOut.y = TOut.offset + (if time < TOut.startTime then 0.0 else if time < TOut.startTime + TOut.duration then (time - TOut.startTime) * TOut.height / TOut.duration else TOut.height)
10 : POffSet.y = POffSet.k
11 : PCon.y = PCon.k1 * PCon.u1 + PCon.k2 * PCon.u2
12 : to_degC.y = -273.15 + to_degC.u
13 : err.y = err.k1 * err.u1 + err.k2 * err.u2
14 : TSam.sampleTrigger = sample(4, TSam.startTime, TSam.samplePeriod)
15 : der(integrator.y) = integrator.k * integrator.u
16 : baseLoad.TOut = baseLoad.TOut_in_internal
17 : PCon.u1 = POffSet.y
18 : TOut.y = TSam.u
19 : TSam.y = baseLoad.TOut
20 : TSam.y = to_degC.u
21 : PCon.y = err.u2
22 : PCon.y = integrator.u
23 : baseLoad.ECon = integrator.y
24 : PCon.u2 = to_degC.y
25 : baseLoad.PPre[1] = err.u1
26 : notEventDay.u = tri.y
27 : baseLoad.storeHistory = notEventDay.y
28 : baseLoad.typeOfDay[1] = dayType.y[1]
29 : baseLoad.typeOfDay[2] = dayType.y[2]
30 : when TSam.sampleTrigger then
  TSam.firstTrigger := time <= TSam.startTime + 0.5 * TSam.samplePeriod;
end when;
31 : when {TSam.sampleTrigger, initial()} then
  TSam.y := TSam.u;
end when;
32 : when dayType.sampleTrigger then
  dayType.skipIDayIncrement := false;
end when;
33 : when dayType.sampleTrigger then
  dayType.iDay := if pre(dayType.skipIDayIncrement) then pre(dayType.iDay) else 1 + mod(pre(dayType.iDay), 7);
end when;
34 : when sample(2, tri.startTime, tri.period) then
  tri.pulsStart := time;
end when;
Notification: Performance of preOpt clockPartitioning (simulation) <failed>: time 0.00505/4.224, allocations: 2.538 MB / 0.6493 GB, free: 5.617 MB / 0.5105 GB
Error: pre-optimization module clockPartitioning (simulation) failed.
Error: Internal error SimCode: The model Buildings.Controls.Predictors.Validation.LinearInputDayOfAdjustment could not be translated to FMU