Notification: Performance of FrontEnd - loaded program: time 8.451e-06/8.59e-06, allocations: 0 / 439.6 MB, free: 9.496 MB / 350.1 MB Notification: Performance of FrontEnd - Absyn->SCode: time 0.1586/0.1587, allocations: 78.98 MB / 0.5064 GB, free: 2.688 MB / 414.1 MB Notification: Performance of FrontEnd - scodeFlatten: time 4.278/4.436, allocations: 2.588 GB / 3.094 GB, free: 19.07 MB / 0.6544 GB Notification: Performance of FrontEnd - mkProgramGraph: time 0.0003483/4.437, allocations: 91.92 kB / 3.094 GB, free: 18.98 MB / 0.6544 GB [Modelica 3.2.2/Blocks/Tables.mo:335:5-341:46:writable] Error: Variable weaDat.absFilNam not found in scope Modelica.Blocks.Tables.CombiTable1Ds$weaDat$datRea. [Modelica 3.2.2/Blocks/Tables.mo:390:7-391:66:writable] Warning: Unused input variable tableAvailable in function .Modelica.Blocks.Tables.CombiTable1Ds$weaDat$datRea.getDerTableValue. [Modelica 3.2.2/Blocks/Tables.mo:363:7-364:66:writable] Warning: Unused input variable tableAvailable in function .Modelica.Blocks.Tables.CombiTable1Ds$weaDat$datRea.getTableValue. [Modelica 3.2.2/Blocks/Tables.mo:335:5-341:46:writable] Error: Variable weaDat.absFilNam not found in scope Modelica.Blocks.Tables.CombiTable1Ds$weaDat$datRea1. [Modelica 3.2.2/Blocks/Tables.mo:390:7-391:66:writable] Warning: Unused input variable tableAvailable in function .Modelica.Blocks.Tables.CombiTable1Ds$weaDat$datRea1.getDerTableValue. [Modelica 3.2.2/Blocks/Tables.mo:363:7-364:66:writable] Warning: Unused input variable tableAvailable in function .Modelica.Blocks.Tables.CombiTable1Ds$weaDat$datRea1.getTableValue. [Buildings latest/Examples/HydronicHeating/TwoRoomsWithStorage.mo:94:7-94:36:writable] Error: Type mismatch in array expression in component . matLayPar is of type record Buildings.HeatTransfer.Data.OpaqueConstructions.Generic$matLayFlo Integer(min = 1) nLay; record Buildings.HeatTransfer.Data.BaseClasses.Material Real(quantity = "Length", unit = "m") x; Real(quantity = "ThermalConductivity", unit = "W/(m.K)") k; Real(quantity = "SpecificHeatCapacity", unit = "J/(kg.K)") c; Real(quantity = "Density", unit = "kg/m3", displayUnit = "g/cm3", min = 0.0) d; Real(unit = "m2.K/W") R; Integer(min = 0) nStaRef; Integer(min = 1) nSta; Boolean steadyState; Real piRef; Real piMat; Real(min = 0.0) nStaReal; Real(quantity = "ThermodynamicTemperature", unit = "K", min = 0.0, start = 288.15, nominal = 300.0, displayUnit = "degC") TSol; Real(quantity = "ThermodynamicTemperature", unit = "K", min = 0.0, start = 288.15, nominal = 300.0, displayUnit = "degC") TLiq; Real(quantity = "SpecificEnergy", unit = "J/kg") LHea; Boolean ensureMonotonicity; Boolean phasechange; end Buildings.HeatTransfer.Data.BaseClasses.Material;[3] material; Real(unit = "m2.K/W") R; Integer(min = 1)[3] nSta; Real(quantity = "Emissivity", unit = "1") absIR_a; Real(quantity = "Emissivity", unit = "1") absIR_b; Real(quantity = "Emissivity", unit = "1") absSol_a; Real(quantity = "Emissivity", unit = "1") absSol_b; enumeration(VeryRough, Rough, Medium, MediumSmooth, Smooth, VerySmooth) roughness_a; end Buildings.HeatTransfer.Data.OpaqueConstructions.Generic$matLayFlo; while the elements [matLayFlo,matLayPar] are of type record Buildings.HeatTransfer.Data.OpaqueConstructions.Brick120 Integer(min = 1) nLay; record Buildings.HeatTransfer.Data.BaseClasses.Material Real(quantity = "Length", unit = "m") x; Real(quantity = "ThermalConductivity", unit = "W/(m.K)") k; Real(quantity = "SpecificHeatCapacity", unit = "J/(kg.K)") c; Real(quantity = "Density", unit = "kg/m3", displayUnit = "g/cm3", min = 0.0) d; Real(unit = "m2.K/W") R; Integer(min = 0) nStaRef; Integer(min = 1) nSta; Boolean steadyState; Real piRef; Real piMat; Real(min = 0.0) nStaReal; Real(quantity = "ThermodynamicTemperature", unit = "K", min = 0.0, start = 288.15, nominal = 300.0, displayUnit = "degC") TSol; Real(quantity = "ThermodynamicTemperature", unit = "K", min = 0.0, start = 288.15, nominal = 300.0, displayUnit = "degC") TLiq; Real(quantity = "SpecificEnergy", unit = "J/kg") LHea; Boolean ensureMonotonicity; Boolean phasechange; end Buildings.HeatTransfer.Data.BaseClasses.Material;[1] material; Real(unit = "m2.K/W") R; Integer(min = 1)[1] nSta; Real(quantity = "Emissivity", unit = "1") absIR_a; Real(quantity = "Emissivity", unit = "1") absIR_b; Real(quantity = "Emissivity", unit = "1") absSol_a; Real(quantity = "Emissivity", unit = "1") absSol_b; enumeration(VeryRough, Rough, Medium, MediumSmooth, Smooth, VerySmooth) roughness_a; end Buildings.HeatTransfer.Data.OpaqueConstructions.Brick120;. Error: Error occurred while flattening model Buildings.Examples.HydronicHeating.TwoRoomsWithStorage