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Module output
' Function for the output of the calculated datas
Function fOutDataCalc1Hz(ByVal Datafile As String, ByVal calibration As Boolean) As Boolean
' Declaration
Dim i As Integer
Dim NameOutFile, key As String
Dim FileOut As New cFile_V3
Dim first As Boolean
Dim s As New System.Text.StringBuilder
' Initialise
first = True
ErgEntriesI = New Dictionary(Of tComp, CResult)
ErgEntryListI = New List(Of tComp)
ErgEntriesIU = New Dictionary(Of String, CResult)
ErgEntryListIU = New List(Of String)
ErgEntriesC = New Dictionary(Of tCompCali, CResult)
ErgEntryListC = New List(Of tCompCali)
GenErgOutData(calibration)
If HzOut = 1 Then
ConvTo1Hz(InputData(tComp.t), InputUndefData)
ConvTo1Hz(InputData)
ConvTo1Hz(CalcData)
End If
' Exit function if error is detected
If BWorker.CancellationPending And FileBlock Then
Return False
End If
' Write on GUI
fInfWarErrBW(5, False, "Writing output-file (*.csv)")
' Generate the file name
NameOutFile = ""
Select Case HzOut
Case 1
NameOutFile = OutFolder & fName(Datafile, False) & "_1Hz.csv"
Case 100
NameOutFile = OutFolder & fName(Datafile, False) & "_100Hz.csv"
End Select
' Anlegen der Datei
FileOut.OpenWrite(NameOutFile, , False)
' Filekopf
FileOut.WriteLine("Resultfile Programm " & AppName & " " & AppVers & " Comp " & AppDate)
FileOut.WriteLine("Datafile: ", Datafile)
FileOut.WriteLine("")
' Write the head
FileOut.WriteLine(ErgHead("InputData") + "," + ErgHead("InputUndefData") + "," + ErgHead("CalcData"))
' Write the units
FileOut.WriteLine(ErgUnits("InputData") + "," + ErgUnits("InputUndefData") + "," + ErgUnits("CalcData"))
' Write the data
For i = 0 To InputData.Item(tComp.t).Count - 1
For Each key In ErgEntryListI
If Not first Then s.Append(",")
s.Append(InputData(key)(i))
first = False
Next
For Each key In ErgEntryListIU
If Not first Then s.Append(",")
s.Append(InputUndefData(key)(i))
first = False
Next
For Each key In ErgEntryListC
If Not first Then s.Append(",")
s.Append(CalcData(key)(i))
first = False
Next
FileOut.WriteLine(s.ToString)
s.Clear()
first = True
Next i
' Close the file
FileOut.Close()
' Ausgabe bei blockierter Datei
If BWorker.CancellationPending And FileBlock Then
fInfWarErrBW(9, False, "Can´t write in file " & NameOutFile & ". File is blocked by another process!")
End If
Return True
End Function
' Function for the output of the result data
Function fOutCalcRes(ByVal Datafile() As String, ByVal calibration As Boolean) As Boolean
' Declaration
Dim i As Integer
Dim NameOutFile, key As String
Dim FileOut As New cFile_V3
Dim first As Boolean
Dim s As New System.Text.StringBuilder
' Initialise
first = True
ErgEntriesR = New Dictionary(Of tCompErg, CResult)
ErgEntryListR = New List(Of tCompErg)
ErgEntriesRU = New Dictionary(Of String, CResult)
ErgEntryListRU = New List(Of String)
GenErgOutRes(calibration)
' Exit function if error is detected
If BWorker.CancellationPending And FileBlock Then
Return False
End If
' Write on GUI
fInfWarErrBW(5, False, "Writing result-file (*.csv)")
' Generate the file name
NameOutFile = OutFolder & fName(JobFile, False) & "_MS_CAL.csv"
If Not calibration Then
NameOutFile = OutFolder & fName(JobFile, False) & "_MS_MEAS.csv"
End If
' Anlegen der Datei
FileOut.OpenWrite(NameOutFile, , False)
' Filekopf
FileOut.WriteLine("Resultfile Programm " & AppName & " " & AppVers & " Comp " & AppDate)
If calibration Then
FileOut.WriteLine("Datafile: ", Datafile(1))
Else
FileOut.WriteLine("Datafile LS1: ", Datafile(2))
FileOut.WriteLine("Datafile HS: ", Datafile(3))
FileOut.WriteLine("Datafile LS2: ", Datafile(4))
End If
FileOut.WriteLine("")
FileOut.WriteLine("Results")
FileOut.WriteLine("fv_veh:", fv_veh)
FileOut.WriteLine("fv_veh_opt2:", fv_veh_opt2)
FileOut.WriteLine("fv_pe:", fv_pe)
FileOut.WriteLine("beta_ame:", beta_ame)
FileOut.WriteLine("")
' Write the head
FileOut.WriteLine(ErgHead("ErgValues") + "," + ErgHead("ErgValuesUndef"))
' Write the units
FileOut.WriteLine(ErgUnits("ErgValues") + "," + ErgUnits("ErgValuesUndef"))
' Write the data
If calibration Then
For i = 0 To ErgValues.Item(tCompErg.SecID).Count - 1
For Each key In ErgEntryListR
If Not first Then s.Append(",")
s.Append(ErgValues(key)(i))
first = False
Next
For Each key In ErgEntryListRU
If Not first Then s.Append(",")
s.Append(ErgValuesUndef(key)(i))
first = False
Next
FileOut.WriteLine(s.ToString)
s.Clear()
first = True
Next i
Else
For i = 0 To ErgValuesComp.Item(tCompErg.SecID).Count - 1
For Each key In ErgEntryListR
If Not first Then s.Append(",")
s.Append(ErgValuesComp(key)(i))
first = False
Next
For Each key In ErgEntryListRU
If Not first Then s.Append(",")
s.Append(ErgValuesUndefComp(key)(i))
first = False
Next
FileOut.WriteLine(s.ToString)
s.Clear()
first = True
Next i
End If
' Close the file
FileOut.Close()
' Ausgabe bei blockierter Datei
If BWorker.CancellationPending And FileBlock Then
fInfWarErrBW(9, False, "Can´t write in file " & NameOutFile & ". File is blocked by another process!")
End If
Return True
End Function
' Function for the output of the result data of the regression
Function fOutCalcResReg(ByVal Datafile() As String) As Boolean
' Declaration
Dim i As Integer
Dim NameOutFile, key As String
Dim FileOut As New cFile_V3
Dim first As Boolean
Dim s As New System.Text.StringBuilder
' Initialise
first = True
ErgEntriesReg = New Dictionary(Of tCompErgReg, CResult)
ErgEntryListReg = New List(Of tCompErgReg)
GenErgOutResReg()
' Exit function if error is detected
If BWorker.CancellationPending And FileBlock Then
Return False
End If
' Write on GUI
fInfWarErrBW(5, False, "Writing result-file (*.csv)")
' Generate the file name
NameOutFile = OutFolder & fName(JobFile, False) & "_CSE.csv"
' Anlegen der Datei
FileOut.OpenWrite(NameOutFile, , False)
' Filekopf
FileOut.WriteLine("Resultfile Programm " & AppName & " " & AppVers & " Comp " & AppDate)
FileOut.WriteLine("Datafile LS1: ", Datafile(2))
FileOut.WriteLine("Datafile HS: ", Datafile(3))
FileOut.WriteLine("Datafile LS2: ", Datafile(4))
FileOut.WriteLine("")
FileOut.WriteLine("Results")
FileOut.WriteLine("fv_veh:", fv_veh, "[-] calibration factor for vehicle speed")
FileOut.WriteLine("fv_veh_opt2:", fv_veh_opt2, "[-] calibration factor for vehicle speed (option2, only if (D)GPS option is used)")
FileOut.WriteLine("fv_pe:", fv_pe, "[-] calibration factor for air speed (position error)")
FileOut.WriteLine("fa_pe:", fa_pe, "[-] position error correction factor for measured air inflow angle (beta)")
FileOut.WriteLine("beta_ame:", beta_ame, "[°] calibration factor for beta (misalignment)")
FileOut.WriteLine("CdxA:", CdxA, "[m²] average CdxA before yaw angle correction")
FileOut.WriteLine("beta:", beta, "[°] average absolute yaw angle from high speed tests")
FileOut.WriteLine("delta_CdxA:", delta_CdxA, "[m²] correction of CdxA for yaw angle")
FileOut.WriteLine("CdxA(0):", CdxA0, "[m²] average CdxA for zero yaw angle")
FileOut.WriteLine("CdxA(0)_opt2:", CdxA0_opt2, "[m²] average CdxA for zero yaw angle (yaw angle correction performed before averaging of measurement sections)")
FileOut.WriteLine("")
FileOut.WriteLine("Validity criteria:")
If valid_t_tire Then
FileOut.WriteLine("Tire temp:", "Ok")
Else
FileOut.WriteLine("Tire temp:", "Invalid test - maximum variation of tire temperature exceeded")
End If
If valid_RRC Then
FileOut.WriteLine("RRC:", "Ok")
Else
FileOut.WriteLine("RRC:", "Invalid test - maximum deviation of RRCs between low speed tests exceeded")
End If
If valid_t_amb Then
FileOut.WriteLine("Ambient temp:", "Ok")
Else
FileOut.WriteLine("Ambient temp:", "Invalid test - variation of ambient temperature (at the vehicle) outside boundaries")
End If
FileOut.WriteLine("")
' Write the head
FileOut.WriteLine(ErgHead("ErgValuesReg"))
' Write the units
FileOut.WriteLine(ErgUnits("ErgValuesReg"))
' Write the data
For i = 0 To ErgValuesReg.Item(tCompErgReg.SecID).Count - 1
For Each key In ErgEntryListReg
If Not first Then s.Append(",")
s.Append(ErgValuesReg(key)(i))
first = False
Next
FileOut.WriteLine(s.ToString)
s.Clear()
first = True
Next i
' Close the file
FileOut.Close()
' Ausgabe bei blockierter Datei
If BWorker.CancellationPending And FileBlock Then
fInfWarErrBW(9, False, "Can´t write in file " & NameOutFile & ". File is blocked by another process!")
End If
Return True
End Function
' Generate the output dictionary (for calculate)
Private Sub GenErgOutData(Optional ByVal calibration As Boolean = True)
' Declaration
Dim sKV As New KeyValuePair(Of String, List(Of Double))
' Input data
AddToErg(tComp.t, fCompName(tComp.t), Units(tComp.t)(0), "InputData")
AddToErg(tComp.lati, fCompName(tComp.lati), Units(tComp.lati)(0), "InputData")
AddToErg(tComp.longi, fCompName(tComp.longi), Units(tComp.longi)(0), "InputData")
AddToErg(tComp.hdg, fCompName(tComp.hdg), Units(tComp.hdg)(0), "InputData")
AddToErg(tComp.v_veh_GPS, fCompName(tComp.v_veh_GPS), Units(tComp.v_veh_GPS)(0), "InputData")
AddToErg(tComp.v_veh_CAN, fCompName(tComp.v_veh_CAN), Units(tComp.v_veh_CAN)(0), "InputData")
AddToErg(tComp.vair_ar, fCompName(tComp.vair_ar), Units(tComp.vair_ar)(0), "InputData")
AddToErg(tComp.beta_ar, fCompName(tComp.beta_ar), Units(tComp.beta_ar)(0), "InputData")
AddToErg(tComp.n_eng, fCompName(tComp.n_eng), Units(tComp.n_eng)(0), "InputData")
AddToErg(tComp.tq_l, fCompName(tComp.tq_l), Units(tComp.tq_l)(0), "InputData")
AddToErg(tComp.tq_r, fCompName(tComp.tq_r), Units(tComp.tq_r)(0), "InputData")
AddToErg(tComp.t_amb_veh, fCompName(tComp.t_amb_veh), Units(tComp.t_amb_veh)(0), "InputData")
AddToErg(tComp.t_tire, fCompName(tComp.t_tire), Units(tComp.t_tire)(0), "InputData")
' Write optional parameters
If OptPar(0) Then AddToErg(tComp.trigger, fCompName(tComp.trigger), Units(tComp.trigger)(0), "InputData")
If OptPar(1) Then AddToErg(tComp.p_tire, fCompName(tComp.p_tire), Units(tComp.p_tire)(0), "InputData")
If OptPar(2) Then AddToErg(tComp.fc, fCompName(tComp.fc), Units(tComp.fc)(0), "InputData")
' Undefined input data
For Each sKV In InputUndefData
AddToErg(sKV.Key, sKV.Key, UnitsUndef(sKV.Key)(0), "InputUndefData")
Next
' Calculated data
AddToErg(tCompCali.zone_UTM, fCompName(tCompCali.zone_UTM), fCompUnit(tCompCali.zone_UTM), "CalcData")
AddToErg(tCompCali.lati_UTM, fCompName(tCompCali.lati_UTM), fCompUnit(tCompCali.lati_UTM), "CalcData")
AddToErg(tCompCali.longi_UTM, fCompName(tCompCali.longi_UTM), fCompUnit(tCompCali.longi_UTM), "CalcData")
AddToErg(tCompCali.SecID, fCompName(tCompCali.SecID), fCompUnit(tCompCali.SecID), "CalcData")
AddToErg(tCompCali.DirID, fCompName(tCompCali.DirID), fCompUnit(tCompCali.DirID), "CalcData")
AddToErg(tCompCali.lati_root, fCompName(tCompCali.lati_root), fCompUnit(tCompCali.lati_root), "CalcData")
AddToErg(tCompCali.longi_root, fCompName(tCompCali.longi_root), fCompUnit(tCompCali.longi_root), "CalcData")
AddToErg(tCompCali.dist_root, fCompName(tCompCali.dist_root), fCompUnit(tCompCali.dist_root), "CalcData")
AddToErg(tCompCali.slope_deg, fCompName(tCompCali.slope_deg), fCompUnit(tCompCali.slope_deg), "CalcData")
AddToErg(tCompCali.alt, fCompName(tCompCali.alt), fCompUnit(tCompCali.alt), "CalcData")
AddToErg(tCompCali.v_veh_c, fCompName(tCompCali.v_veh_c), fCompUnit(tCompCali.v_veh_c), "CalcData")
AddToErg(tCompCali.dist, fCompName(tCompCali.dist), fCompUnit(tCompCali.dist), "CalcData")
AddToErg(tCompCali.vair_ic, fCompName(tCompCali.vair_ic), fCompUnit(tCompCali.vair_ic), "CalcData")
AddToErg(tCompCali.vair_uf, fCompName(tCompCali.vair_uf), fCompUnit(tCompCali.vair_uf), "CalcData")
AddToErg(tCompCali.vair_c, fCompName(tCompCali.vair_c), fCompUnit(tCompCali.vair_c), "CalcData")
AddToErg(tCompCali.beta_ic, fCompName(tCompCali.beta_ic), fCompUnit(tCompCali.beta_ic), "CalcData")
AddToErg(tCompCali.beta_uf, fCompName(tCompCali.beta_uf), fCompUnit(tCompCali.beta_uf), "CalcData")
AddToErg(tCompCali.beta_c, fCompName(tCompCali.beta_c), fCompUnit(tCompCali.beta_c), "CalcData")
AddToErg(tCompCali.vwind_ha, fCompName(tCompCali.vwind_ha), fCompUnit(tCompCali.vwind_ha), "CalcData")
AddToErg(tCompCali.vwind_c, fCompName(tCompCali.vwind_c), fCompUnit(tCompCali.vwind_c), "CalcData")
AddToErg(tCompCali.vwind_1s, fCompName(tCompCali.vwind_1s), fCompUnit(tCompCali.vwind_1s), "CalcData")
If Not calibration Then
AddToErg(tCompCali.omega_wh, fCompName(tCompCali.omega_wh), fCompUnit(tCompCali.omega_wh), "CalcData")
AddToErg(tCompCali.omega_p_wh, fCompName(tCompCali.omega_p_wh), fCompUnit(tCompCali.omega_p_wh), "CalcData")
AddToErg(tCompCali.tq_sum, fCompName(tCompCali.tq_sum), fCompUnit(tCompCali.tq_sum), "CalcData")
AddToErg(tCompCali.tq_sum_1s, fCompName(tCompCali.tq_sum_1s), fCompUnit(tCompCali.tq_sum_1s), "CalcData")
AddToErg(tCompCali.tq_sum_float, fCompName(tCompCali.tq_sum_float), fCompUnit(tCompCali.tq_sum_float), "CalcData")
AddToErg(tCompCali.t_float, fCompName(tCompCali.t_float), fCompUnit(tCompCali.t_float), "CalcData")
AddToErg(tCompCali.F_trac, fCompName(tCompCali.F_trac), fCompUnit(tCompCali.F_trac), "CalcData")
AddToErg(tCompCali.F_acc, fCompName(tCompCali.F_acc), fCompUnit(tCompCali.F_acc), "CalcData")
AddToErg(tCompCali.F_grd, fCompName(tCompCali.F_grd), fCompUnit(tCompCali.F_grd), "CalcData")
AddToErg(tCompCali.F_res, fCompName(tCompCali.F_res), fCompUnit(tCompCali.F_res), "CalcData")
AddToErg(tCompCali.v_veh_1s, fCompName(tCompCali.v_veh_1s), fCompUnit(tCompCali.v_veh_1s), "CalcData")
AddToErg(tCompCali.v_veh_acc, fCompName(tCompCali.v_veh_acc), fCompUnit(tCompCali.v_veh_acc), "CalcData")
AddToErg(tCompCali.a_veh_ave, fCompName(tCompCali.a_veh_ave), fCompUnit(tCompCali.a_veh_ave), "CalcData")
AddToErg(tCompCali.v_veh_float, fCompName(tCompCali.v_veh_float), fCompUnit(tCompCali.v_veh_float), "CalcData")
AddToErg(tCompCali.t_amp_stat, fCompName(tCompCali.t_amp_stat), fCompUnit(tCompCali.t_amp_stat), "CalcData")
AddToErg(tCompCali.p_amp_stat, fCompName(tCompCali.p_amp_stat), fCompUnit(tCompCali.p_amp_stat), "CalcData")
AddToErg(tCompCali.rh_stat, fCompName(tCompCali.rh_stat), fCompUnit(tCompCali.rh_stat), "CalcData")
AddToErg(tCompCali.vair_c_sq, fCompName(tCompCali.vair_c_sq), fCompUnit(tCompCali.vair_c_sq), "CalcData")
End If
End Sub
' Generate the output dictionary (for results)
Private Sub GenErgOutRes(Optional ByVal calibration As Boolean = True)
' Result data
AddToErg(tCompErg.SecID, fCompName(tCompErg.SecID), fCompUnit(tCompErg.SecID), "ErgValues")
AddToErg(tCompErg.DirID, fCompName(tCompErg.DirID), fCompUnit(tCompErg.DirID), "ErgValues")
If Not calibration Then
AddToErg(tCompErg.RunID, fCompName(tCompErg.RunID), fCompUnit(tCompErg.RunID), "ErgValues")
AddToErg(tCompErg.HeadID, fCompName(tCompErg.HeadID), fCompUnit(tCompErg.HeadID), "ErgValues")
End If
AddToErg(tCompErg.delta_t, fCompName(tCompErg.delta_t), fCompUnit(tCompErg.delta_t), "ErgValues")
AddToErg(tCompErg.s_MSC, fCompName(tCompErg.s_MSC), fCompUnit(tCompErg.s_MSC), "ErgValues")
AddToErg(tCompErg.dist, fCompName(tCompErg.dist), fCompUnit(tCompErg.dist), "ErgValues")
AddToErg(tCompErg.v_MSC, fCompName(tCompErg.v_MSC), fCompUnit(tCompErg.v_MSC), "ErgValues")
AddToErg(tCompErg.v_MSC_GPS, fCompName(tCompErg.v_MSC_GPS), fCompUnit(tCompErg.v_MSC_GPS), "ErgValues")
AddToErg(tCompErg.v_veh_CAN, fCompName(tCompErg.v_veh_CAN), fCompUnit(tCompErg.v_veh_CAN), "ErgValues")
AddToErg(tCompErg.v_veh, fCompName(tCompErg.v_veh), fCompUnit(tCompErg.v_veh), "ErgValues")
AddToErg(tCompErg.vair_ar, fCompName(tCompErg.vair_ar), fCompUnit(tCompErg.vair_ar), "ErgValues")
AddToErg(tCompErg.vair_ic, fCompName(tCompErg.vair_ic), fCompUnit(tCompErg.vair_ic), "ErgValues")
AddToErg(tCompErg.vair_uf, fCompName(tCompErg.vair_uf), fCompUnit(tCompErg.vair_uf), "ErgValues")
AddToErg(tCompErg.beta_ar, fCompName(tCompErg.beta_ar), fCompUnit(tCompErg.beta_ar), "ErgValues")
AddToErg(tCompErg.beta_ic, fCompName(tCompErg.beta_ic), fCompUnit(tCompErg.beta_ic), "ErgValues")
AddToErg(tCompErg.beta_uf, fCompName(tCompErg.beta_uf), fCompUnit(tCompErg.beta_uf), "ErgValues")
AddToErg(tCompErg.valid, fCompName(tCompErg.valid), fCompUnit(tCompErg.valid), "ErgValues")
AddToErg(tCompErg.used, fCompName(tCompErg.used), fCompUnit(tCompErg.used), "ErgValues")
If Not calibration Then
AddToErg(tCompErg.val_User, fCompName(tCompErg.val_User), fCompUnit(tCompErg.val_User), "ErgValues")
AddToErg(tCompErg.val_vVeh_ave, fCompName(tCompErg.val_vVeh_ave), fCompUnit(tCompErg.val_vVeh_ave), "ErgValues")
AddToErg(tCompErg.val_vVeh_f, fCompName(tCompErg.val_vVeh_f), fCompUnit(tCompErg.val_vVeh_f), "ErgValues")
AddToErg(tCompErg.val_vVeh_1s, fCompName(tCompErg.val_vVeh_1s), fCompUnit(tCompErg.val_vVeh_1s), "ErgValues")
AddToErg(tCompErg.val_vWind, fCompName(tCompErg.val_vWind), fCompUnit(tCompErg.val_vWind), "ErgValues")
AddToErg(tCompErg.val_vWind_1s, fCompName(tCompErg.val_vWind_1s), fCompUnit(tCompErg.val_vWind_1s), "ErgValues")
AddToErg(tCompErg.val_tq_f, fCompName(tCompErg.val_tq_f), fCompUnit(tCompErg.val_tq_f), "ErgValues")
AddToErg(tCompErg.val_tq_1s, fCompName(tCompErg.val_tq_1s), fCompUnit(tCompErg.val_tq_1s), "ErgValues")
AddToErg(tCompErg.val_beta, fCompName(tCompErg.val_beta), fCompUnit(tCompErg.val_beta), "ErgValues")
AddToErg(tCompErg.val_dist, fCompName(tCompErg.val_dist), fCompUnit(tCompErg.val_dist), "ErgValues")
End If
AddToErg(tCompErg.vair, fCompName(tCompErg.vair), fCompUnit(tCompErg.vair), "ErgValues")
AddToErg(tCompErg.v_wind_ave, fCompName(tCompErg.v_wind_ave), fCompUnit(tCompErg.v_wind_ave), "ErgValues")
AddToErg(tCompErg.v_wind_1s, fCompName(tCompErg.v_wind_1s), fCompUnit(tCompErg.v_wind_1s), "ErgValues")
AddToErg(tCompErg.v_wind_1s_max, fCompName(tCompErg.v_wind_1s_max), fCompUnit(tCompErg.v_wind_1s_max), "ErgValues")
AddToErg(tCompErg.beta_ave, fCompName(tCompErg.beta_ave), fCompUnit(tCompErg.beta_ave), "ErgValues")
If Not calibration Then
AddToErg(tCompErg.beta_abs, fCompName(tCompErg.beta_abs), fCompUnit(tCompErg.beta_abs), "ErgValues")
AddToErg(tCompErg.v_air_sq, fCompName(tCompErg.v_air_sq), fCompUnit(tCompErg.v_air_sq), "ErgValues")
AddToErg(tCompErg.n_eng, fCompName(tCompErg.n_eng), fCompUnit(tCompErg.n_eng), "ErgValues")
AddToErg(tCompErg.omega_wh, fCompName(tCompErg.omega_wh), fCompUnit(tCompErg.omega_wh), "ErgValues")
AddToErg(tCompErg.omega_p_wh, fCompName(tCompErg.omega_p_wh), fCompUnit(tCompErg.omega_p_wh), "ErgValues")
AddToErg(tCompErg.tq_sum, fCompName(tCompErg.tq_sum), fCompUnit(tCompErg.tq_sum), "ErgValues")
AddToErg(tCompErg.tq_sum_1s, fCompName(tCompErg.tq_sum_1s), fCompUnit(tCompErg.tq_sum_1s), "ErgValues")
AddToErg(tCompErg.tq_sum_1s_max, fCompName(tCompErg.tq_sum_1s_max), fCompUnit(tCompErg.tq_sum_1s_max), "ErgValues")
AddToErg(tCompErg.tq_sum_1s_min, fCompName(tCompErg.tq_sum_1s_min), fCompUnit(tCompErg.tq_sum_1s_min), "ErgValues")
AddToErg(tCompErg.tq_sum_float, fCompName(tCompErg.tq_sum_float), fCompUnit(tCompErg.tq_sum_float), "ErgValues")
AddToErg(tCompErg.tq_sum_float_max, fCompName(tCompErg.tq_sum_float_max), fCompUnit(tCompErg.tq_sum_float_max), "ErgValues")
AddToErg(tCompErg.tq_sum_float_min, fCompName(tCompErg.tq_sum_float_min), fCompUnit(tCompErg.tq_sum_float_min), "ErgValues")
AddToErg(tCompErg.t_float, fCompName(tCompErg.t_float), fCompUnit(tCompErg.t_float), "ErgValues")
AddToErg(tCompErg.F_trac, fCompName(tCompErg.F_trac), fCompUnit(tCompErg.F_trac), "ErgValues")
AddToErg(tCompErg.F_acc, fCompName(tCompErg.F_acc), fCompUnit(tCompErg.F_acc), "ErgValues")
AddToErg(tCompErg.F_grd, fCompName(tCompErg.F_grd), fCompUnit(tCompErg.F_grd), "ErgValues")
AddToErg(tCompErg.F_res, fCompName(tCompErg.F_res), fCompUnit(tCompErg.F_res), "ErgValues")
AddToErg(tCompErg.F_res_ref, fCompName(tCompErg.F_res_ref), fCompUnit(tCompErg.F_res_ref), "ErgValues")
AddToErg(tCompErg.v_veh_1s, fCompName(tCompErg.v_veh_1s), fCompUnit(tCompErg.v_veh_1s), "ErgValues")
AddToErg(tCompErg.v_veh_1s_max, fCompName(tCompErg.v_veh_1s_max), fCompUnit(tCompErg.v_veh_1s_max), "ErgValues")
AddToErg(tCompErg.v_veh_1s_min, fCompName(tCompErg.v_veh_1s_min), fCompUnit(tCompErg.v_veh_1s_min), "ErgValues")
AddToErg(tCompErg.v_veh_ave, fCompName(tCompErg.v_veh_ave), fCompUnit(tCompErg.v_veh_ave), "ErgValues")
AddToErg(tCompErg.a_veh_ave, fCompName(tCompErg.a_veh_ave), fCompUnit(tCompErg.a_veh_ave), "ErgValues")
AddToErg(tCompErg.v_veh_float, fCompName(tCompErg.v_veh_float), fCompUnit(tCompErg.v_veh_float), "ErgValues")
AddToErg(tCompErg.v_veh_float_max, fCompName(tCompErg.v_veh_float_max), fCompUnit(tCompErg.v_veh_float_max), "ErgValues")
AddToErg(tCompErg.v_veh_float_min, fCompName(tCompErg.v_veh_float_min), fCompUnit(tCompErg.v_veh_float_min), "ErgValues")
AddToErg(tCompErg.t_amb_veh, fCompName(tCompErg.t_amb_veh), fCompUnit(tCompErg.t_amb_veh), "ErgValues")
AddToErg(tCompErg.t_amb_stat, fCompName(tCompErg.t_amb_stat), fCompUnit(tCompErg.t_amb_stat), "ErgValues")
AddToErg(tCompErg.p_amb_stat, fCompName(tCompErg.p_amb_stat), fCompUnit(tCompErg.p_amb_stat), "ErgValues")
AddToErg(tCompErg.rh_stat, fCompName(tCompErg.rh_stat), fCompUnit(tCompErg.rh_stat), "ErgValues")
AddToErg(tCompErg.vp_H2O, fCompName(tCompErg.vp_H2O), fCompUnit(tCompErg.vp_H2O), "ErgValues")
AddToErg(tCompErg.rho_air, fCompName(tCompErg.rho_air), fCompUnit(tCompErg.rho_air), "ErgValues")
AddToErg(tCompErg.t_tire, fCompName(tCompErg.t_tire), fCompUnit(tCompErg.t_tire), "ErgValues")
AddToErg(tCompErg.p_tire, fCompName(tCompErg.p_tire), fCompUnit(tCompErg.p_tire), "ErgValues")
AddToErg(tCompErg.F0_ref_singleDS, fCompName(tCompErg.F0_ref_singleDS), fCompUnit(tCompErg.F0_ref_singleDS), "ErgValues")
AddToErg(tCompErg.F2_ref_singleDS, fCompName(tCompErg.F2_ref_singleDS), fCompUnit(tCompErg.F2_ref_singleDS), "ErgValues")
AddToErg(tCompErg.F0_singleDS, fCompName(tCompErg.F0_singleDS), fCompUnit(tCompErg.F0_singleDS), "ErgValues")
AddToErg(tCompErg.CdxA_singleDS, fCompName(tCompErg.CdxA_singleDS), fCompUnit(tCompErg.CdxA_singleDS), "ErgValues")
AddToErg(tCompErg.RRC_singleDS, fCompName(tCompErg.RRC_singleDS), fCompUnit(tCompErg.RRC_singleDS), "ErgValues")
End If
' Undefined input data
If calibration Then
For Each sKV In InputUndefData
AddToErg(sKV.Key, sKV.Key, UnitsUndef(sKV.Key)(0), "ErgValuesUndef")
Next
Else
For Each sKV In ErgValuesUndefComp
AddToErg(sKV.Key, sKV.Key, UnitsErgUndefComp(sKV.Key)(0), "ErgValuesUndef")
Next
End If
End Sub
' Generate the output dictionary (for regression results)
Private Sub GenErgOutResReg()
' Result data
AddToErg(tCompErgReg.SecID, fCompName(tCompErgReg.SecID), fCompUnit(tCompErgReg.SecID), "ErgValuesReg")
AddToErg(tCompErgReg.DirID, fCompName(tCompErgReg.DirID), fCompUnit(tCompErgReg.DirID), "ErgValuesReg")
AddToErg(tCompErgReg.F2_ref, fCompName(tCompErgReg.F2_ref), fCompUnit(tCompErgReg.F2_ref), "ErgValuesReg")
AddToErg(tCompErgReg.F2_LS1_ref, fCompName(tCompErgReg.F2_LS1_ref), fCompUnit(tCompErgReg.F2_LS1_ref), "ErgValuesReg")
AddToErg(tCompErgReg.F2_LS2_ref, fCompName(tCompErgReg.F2_LS2_ref), fCompUnit(tCompErgReg.F2_LS2_ref), "ErgValuesReg")
AddToErg(tCompErgReg.F0_ref, fCompName(tCompErgReg.F0_ref), fCompUnit(tCompErgReg.F0_ref), "ErgValuesReg")
AddToErg(tCompErgReg.F0, fCompName(tCompErgReg.F0), fCompUnit(tCompErgReg.F0), "ErgValuesReg")
AddToErg(tCompErgReg.F0_LS1_ref, fCompName(tCompErgReg.F0_LS1_ref), fCompUnit(tCompErgReg.F0_LS1_ref), "ErgValuesReg")
AddToErg(tCompErgReg.F0_LS1, fCompName(tCompErgReg.F0_LS1), fCompUnit(tCompErgReg.F0_LS1), "ErgValuesReg")
AddToErg(tCompErgReg.F0_LS2_ref, fCompName(tCompErgReg.F0_LS2_ref), fCompUnit(tCompErgReg.F0_LS2_ref), "ErgValuesReg")
AddToErg(tCompErgReg.F0_LS2, fCompName(tCompErgReg.F0_LS2), fCompUnit(tCompErgReg.F0_LS2), "ErgValuesReg")
AddToErg(tCompErgReg.CdxA, fCompName(tCompErgReg.CdxA), fCompUnit(tCompErgReg.CdxA), "ErgValuesReg")
AddToErg(tCompErgReg.CdxA0, fCompName(tCompErgReg.CdxA0), fCompUnit(tCompErgReg.CdxA0), "ErgValuesReg")
AddToErg(tCompErgReg.delta_CdxA, fCompName(tCompErgReg.delta_CdxA), fCompUnit(tCompErgReg.delta_CdxA), "ErgValuesReg")
AddToErg(tCompErgReg.beta_abs_HS, fCompName(tCompErgReg.beta_abs_HS), fCompUnit(tCompErgReg.beta_abs_HS), "ErgValuesReg")
AddToErg(tCompErgReg.roh_air_LS, fCompName(tCompErgReg.roh_air_LS), fCompUnit(tCompErgReg.roh_air_LS), "ErgValuesReg")
AddToErg(tCompErgReg.RRC, fCompName(tCompErgReg.RRC), fCompUnit(tCompErgReg.RRC), "ErgValuesReg")
AddToErg(tCompErgReg.RRC_LS1, fCompName(tCompErgReg.RRC_LS1), fCompUnit(tCompErgReg.RRC_LS1), "ErgValuesReg")
AddToErg(tCompErgReg.RRC_LS2, fCompName(tCompErgReg.RRC_LS2), fCompUnit(tCompErgReg.RRC_LS2), "ErgValuesReg")
AddToErg(tCompErgReg.RRC_valid, fCompName(tCompErgReg.RRC_valid), fCompUnit(tCompErgReg.RRC_valid), "ErgValuesReg")
AddToErg(tCompErgReg.t_tire_LS_min, fCompName(tCompErgReg.t_tire_LS_min), fCompUnit(tCompErgReg.t_tire_LS_min), "ErgValuesReg")
AddToErg(tCompErgReg.t_tire_LS_max, fCompName(tCompErgReg.t_tire_LS_max), fCompUnit(tCompErgReg.t_tire_LS_max), "ErgValuesReg")
AddToErg(tCompErgReg.t_tire_HS_min, fCompName(tCompErgReg.t_tire_HS_min), fCompUnit(tCompErgReg.t_tire_HS_min), "ErgValuesReg")
AddToErg(tCompErgReg.t_tire_HS_max, fCompName(tCompErgReg.t_tire_HS_max), fCompUnit(tCompErgReg.t_tire_HS_max), "ErgValuesReg")
End Sub
End Module