private void worker_DoWork(object sender, System.ComponentModel.DoWorkEventArgs e)
{
bool init = true;
string stat = "initialising";
string stat2 = "opening Strand7 file";
worker.ReportProgress(0, new object[] { stat, stat2, init });
//#####################################################################################
int NumPoints = 0;
int NumColumns = 0;
int iErr;
iErr = St7.St7Init();
CheckiErr(iErr);
//##########################################
//########### CODE GOES HERE ###############
//##########################################
List <object> args = (List <object>)e.Argument;
string file = (string)args[0];
List <int> iList = (List <int>)args[1];
List <int> ResList_stress = (List <int>)args[2];
Solver sCase = (Solver)args[3];
bool optDeflections = (bool)args[4];
List <int> ResList_def = (List <int>)args[5];
double def_limit = (double)args[6];
//open file
try
{
iErr = St7.St7OpenFile(1, file, System.IO.Path.GetTempPath());
CheckiErr(iErr);
}
catch
{
iErr = St7.St7Release();
CheckiErr(iErr);
e.Cancel = true;
Environment.Exit(0);
return;
}
if (worker.CancellationPending)
{
iErr = St7.St7CloseFile(1);
CheckiErr(iErr);
iErr = St7.St7Release();
CheckiErr(iErr);
e.Cancel = true;
Environment.Exit(0);
return;
}
#region Set constants
//#############################################
//############## Set constants ################
//#############################################
double UtilMax = 0.99;
double DesignStress = 355;//157.9;//355/1.1;
double DampingUp = 0.6;
double DampingDown = 0.4;
int iter_max = 50;
string sBaseFile = "";
sBaseFile = System.IO.Path.Combine(System.IO.Path.GetDirectoryName(file), System.IO.Path.GetFileNameWithoutExtension(file));
StringBuilder sb = new StringBuilder(100);
StringBuilder sb_virtual = new StringBuilder(100);
string optFolder = System.IO.Path.Combine(System.IO.Path.GetDirectoryName(file), "Optimisation results");
System.IO.Directory.CreateDirectory(optFolder);
string sOutPath = System.IO.Path.Combine(optFolder, "Section changes.txt");
try { System.IO.File.Delete(sOutPath); }
catch { }
string sSt7LSAPath = sBaseFile + " - optimised.LSA";
string sSt7NLAPath = sBaseFile + " - optimised.NLA";
string sSt7FreqPath = sBaseFile + " - optimised.NFA";
string sSt7BucPath = sBaseFile + " - optimised.LBA";
string sSt7ResPath = "";
string sSt7OptimisedPath = sBaseFile + " - optimised.st7";
#region Section Properties
//##################################################
//############## Section Properties ################
//##################################################
string filePath = System.IO.Path.GetTempPath() + "Section_CSV.txt";
int changed = 0;
bool stress_satisfied = true;
List <double> D1 = new List <double>();
List <double> D2 = new List <double>();
List <double> D3 = new List <double>();
List <double> T1 = new List <double>();
List <double> T2 = new List <double>();
List <double> T3 = new List <double>();
List <double> A = new List <double>();
List <double> I11 = new List <double>();
List <double> I22 = new List <double>();
List <double> Z11 = new List <double>();
List <double> Z22 = new List <double>();
List <int> SType = new List <int>();
if (!System.IO.File.Exists(filePath))
{
MessageBox.Show("section data file does not exist.");
iErr = St7.St7CloseFile(1);
CheckiErr(iErr);
iErr = St7.St7Release();
CheckiErr(iErr);
e.Cancel = true;
Environment.Exit(0);
return;
}
using (var fs = System.IO.File.OpenRead(filePath))
using (var reader = new System.IO.StreamReader(fs))
{
while (!reader.EndOfStream)
{
var line = reader.ReadLine();
var values = line.Split(',');
D1.Add(Convert.ToDouble(values[0]));
D2.Add(Convert.ToDouble(values[1]));
D3.Add(Convert.ToDouble(values[2]));
T1.Add(Convert.ToDouble(values[3]));
T2.Add(Convert.ToDouble(values[4]));
T3.Add(Convert.ToDouble(values[5]));
A.Add(Convert.ToDouble(values[6]));
Z11.Add(Convert.ToDouble(values[7]));
Z22.Add(Convert.ToDouble(values[8]));
SType.Add(Convert.ToInt32(values[9]));
I11.Add(Convert.ToDouble(values[10]));
I22.Add(Convert.ToDouble(values[11]));
}
}
if (D1.Count == 0)
{
MessageBox.Show("No section properties found.");
Environment.Exit(0);
}
#endregion
int nSections = D1.Count;
int nBeams = new int();
int nNodes = new int();
iErr = St7.St7GetTotal(1, St7.tyBEAM, ref nBeams);
CheckiErr(iErr);
iErr = St7.St7GetTotal(1, St7.tyNODE, ref nNodes);
CheckiErr(iErr);
int[] NumProperties = new int[St7.kMaxEntityTotals];
int[] LastProperty = new int[St7.kMaxEntityTotals];
iErr = St7.St7GetTotalProperties(1, NumProperties, LastProperty);
CheckiErr(iErr);
int nProps = NumProperties[St7.ipBeamPropTotal]; //EDIT
double[] BeamResults = new double[St7.kMaxBeamResult];
double[] NodeResults = new double[St7.kMaxDisp];
double[] A_x = new double[nBeams];
double[] M_11 = new double[nBeams];
double[] M_22 = new double[nBeams];
if (nProps < 1)
{
MessageBox.Show("No beams sections available");
Environment.Exit(0);
return;
}
List <List <int> > propList = new List <List <int> >();
for (int p = 0; p < nProps; p++)
{
propList.Add(new List <int>());
}
if (iList.Count < 1)
{
int PropNum = 0;
for (int i = 1; i <= nProps; i++)
{
iErr = St7.St7GetPropertyNumByIndex(1, St7.tyBEAM, i, ref PropNum);
CheckiErr(iErr);
iList.Add(PropNum);
}
}
for (int i = 0; i < iList.Count; i++)
{
iList[i] = iList[i] - 1;
}
int[] CurrentSectArray = new int[nProps];
int[] NewSectArray = new int[nProps];
double[] NewSectArray_def = new double[nProps];
double[] inc = new double[nProps];
double[] incPrev = new double[nProps];
int virtual_case = 0;
//set beams to biggest sections (to avoid instabilities)
foreach (int i in iList)
{
CurrentSectArray[i] = nSections - 1;
}
if (worker.CancellationPending)
{
iErr = St7.St7CloseFile(1);
CheckiErr(iErr);
iErr = St7.St7Release();
CheckiErr(iErr);
e.Cancel = true;
Environment.Exit(0);
return;
}
stat2 = "setting initial sections";
worker.ReportProgress(0, new object[] { stat, stat2, init });
double[][] SectionDoubles = new double[nSections + 1][];
for (int i = 0; i < nSections; i++)
{
stat2 = "setting property " + i.ToString();
worker.ReportProgress(0, new object[] { stat, stat2, init });
SectionDoubles[i] = new double[] { D1[i], D2[i], D3[i], T1[i], T2[i], T3[i] };
}
foreach (int i in iList)
{
iErr = St7.St7SetBeamSectionGeometry(1, i + 1, SType[CurrentSectArray[i]], SectionDoubles[CurrentSectArray[i]]);
CheckiErr(iErr);
stat2 = "setting property " + i.ToString();
worker.ReportProgress(0, new object[] { stat, stat2, init });
iErr = St7.St7CalculateBeamSectionProperties(1, i + 1, St7.btFalse, St7.btFalse);
CheckiErr(iErr);
}
#endregion
if (worker.CancellationPending)
{
iErr = St7.St7CloseFile(1);
CheckiErr(iErr);
iErr = St7.St7Release();
CheckiErr(iErr);
e.Cancel = true;
Environment.Exit(0);
return;
}
#region Set up List of beams for each property
//########################################################
//####### Set up List of beams for each property #########
//########################################################
int[] PropMapping = new int[nBeams];
int[] Prop_Count = new int[nBeams];
bool[] Eval_Beam = new bool[nBeams];
double[] BeamLength = new double[nBeams];
for (int i = 0; i < nBeams; i++)
{
int PropNum = 0;
iErr = St7.St7GetElementProperty(1, St7.tyBEAM, i + 1, ref PropNum);
CheckiErr(iErr);
PropMapping[i] = PropNum;
Prop_Count[PropNum - 1]++;
propList[PropNum - 1].Add(i);
foreach (int p in iList)
{
if (PropNum == p + 1)
{
Eval_Beam[i] = true; break;
}
}
iErr = St7.St7GetElementData(1, St7.tyBEAM, i + 1, ref BeamLength[i]);
CheckiErr(iErr);
}
#endregion
if (worker.CancellationPending)
{
iErr = St7.St7CloseFile(1);
CheckiErr(iErr);
iErr = St7.St7Release();
CheckiErr(iErr);
e.Cancel = true;
Environment.Exit(0);
return;
}
#region LOOP
//################################
//########### LOOP ###############
//################################
int[] units = new int[] { St7.luMILLIMETRE, St7.fuNEWTON, St7.suMEGAPASCAL, St7.muKILOGRAM, St7.tuCELSIUS, St7.euJOULE };
iErr = St7.St7ConvertUnits(1, units);
CheckiErr(iErr);
iErr = St7.St7SaveFileTo(1, optFolder + @"\iter 0.st7");
CheckiErr(iErr);
init = false;
for (int iter = 1; iter < iter_max; iter++)
{
string sOutPathVirtualStresses = System.IO.Path.Combine(optFolder, "virtual stresses" + iter.ToString() + ".txt");
sb_virtual.Append("TITLE Virtual stresses\n");
bool looping = true;
stat = "iteration: " + iter.ToString();
stat2 = "";
if (changed > 0)
{
stat2 = changed.ToString() + " changes in previous iteration";
}
worker.ReportProgress(0, new object[] { stat, stat2, init });
#region Analyse and Collect Results
//#############################################
//####### Analyse and Collect results #########
//#############################################
double[] BeamPos = new double[St7.kMaxBeamResult];
int NumPrimary = new int();
int NumSecondary = new int();
double Freq = 0;
double FreqReq = 5;
switch (sCase)
{
case Solver.linear:
iErr = St7.St7SetResultFileName(1, sSt7LSAPath);
CheckiErr(iErr);
iErr = St7.St7RunSolver(1, St7.stLinearStaticSolver, St7.smBackgroundRun, St7.btTrue);
CheckiErr(iErr);
sSt7ResPath = sSt7LSAPath;
break;
case Solver.nonlin:
iErr = St7.St7SetResultFileName(1, sSt7NLAPath);
CheckiErr(iErr);
iErr = St7.St7RunSolver(1, St7.stNonlinearStaticSolver, St7.smBackgroundRun, St7.btTrue);
CheckiErr(iErr);
sSt7ResPath = sSt7NLAPath;
break;
case Solver.frequency:
iErr = St7.St7SetResultFileName(1, sSt7FreqPath);
CheckiErr(iErr);
iErr = St7.St7RunSolver(1, St7.stNaturalFrequencySolver, St7.smProgressRun, St7.btTrue);
CheckiErr(iErr);
sSt7ResPath = sSt7FreqPath;
iErr = St7.St7OpenResultFile(1, sSt7ResPath, "", St7.btTrue, ref NumPrimary, ref NumSecondary);
CheckiErr(iErr);
double[] ModalRes = new double[10];
iErr = St7.St7GetModalResultsNFA(1, 1, ModalRes);
Freq = ModalRes[0];
iErr = St7.St7CloseResultFile(1);
CheckiErr(iErr);
break;
}
if (iter == 1)
{
if (ResList_stress.Count == 0)
{
for (int i = 1; i < NumPrimary + NumSecondary; i++)
{
ResList_stress.Add(i);
}
}
if (ResList_def.Count == 0)
{
for (int i = 1; i < NumPrimary + NumSecondary; i++)
{
ResList_def.Add(i);
}
}
if (optDeflections)
{
iErr = St7.St7NewLoadCase(1, "Virtual Load");
CheckiErr(iErr);
iErr = St7.St7GetNumLoadCase(1, ref virtual_case);
CheckiErr(iErr);
iErr = St7.St7EnableLoadCase(1, virtual_case);
CheckiErr(iErr);
}
}
double def_max = 0;
int def_node = 0;
int def_case = 0;
bool def_exceeded = false;
//Collect beam stresses
if (!optDeflections)
{
//reset variables
for (int i = 0; i < nBeams; i++)
{
A_x[i] = 0;
M_11[i] = 0;
M_22[i] = 0;
}
iErr = St7.St7OpenResultFile(1, sSt7ResPath, "", St7.btTrue, ref NumPrimary, ref NumSecondary);
CheckiErr(iErr);
foreach (int ResCase in ResList_stress)
{
stat2 = "collecting stress results for case no " + ResCase.ToString();
worker.ReportProgress(0, new object[] { stat, stat2, init });
for (int i = 0; i < nBeams; i++)
{
if (Eval_Beam[i])
{
iErr = St7.St7GetBeamResultArray(1, St7.rtBeamForce, St7.stBeamLocal, i + 1, 1, ResCase, ref NumPoints, ref NumColumns, BeamPos, BeamResults);
CheckiErr(iErr);
double A_x_max = Math.Abs(BeamResults[St7.ipBeamAxialF]);
double M_11_max = Math.Abs(BeamResults[St7.ipBeamBM2]);
double M_22_max = Math.Abs(BeamResults[St7.ipBeamBM1]);
for (int j = 1; j < NumPoints; j++)
{
double A_x_max_j = Math.Abs(BeamResults[j * NumColumns + St7.ipBeamAxialF]);
double M_11_max_j = Math.Abs(BeamResults[j * NumColumns + St7.ipBeamBM2]);
double M_22_max_j = Math.Abs(BeamResults[j * NumColumns + St7.ipBeamBM1]);
if (A_x_max_j > A_x_max)
{
A_x_max = A_x_max_j;
}
if (M_11_max_j > M_11_max)
{
M_11_max = M_11_max_j;
}
if (M_22_max_j > M_22_max)
{
M_22_max = M_22_max_j;
}
}
A_x[i] = Math.Max(A_x_max, A_x[i]);
M_11[i] = Math.Max(M_11_max, M_11[i]);
M_22[i] = Math.Max(M_22_max, M_22[i]);
//iErr = St7.St7GetBeamResultArray(1, St7.rtBeamDisp, St7.stBeamLocal, i + 1, 3, ResCase, ref NumPoints, ref NumColumns, BeamPos, BeamResults);
}
}
}
iErr = St7.St7CloseResultFile(1);
CheckiErr(iErr);
}
//Collect beam virtual stresses
if (optDeflections)
{
double[] virtual_load = new double[3];
//collect worst case deflections
iErr = St7.St7OpenResultFile(1, sSt7ResPath, "", St7.btTrue, ref NumPrimary, ref NumSecondary);
CheckiErr(iErr);
foreach (int ResCase in ResList_def)
{
stat2 = "collecting deflection results for case no " + ResCase.ToString();
worker.ReportProgress(0, new object[] { stat, stat2, init });
for (int i = 0; i < nNodes; i++)
{
iErr = St7.St7GetNodeResult(1, St7.rtNodeDisp, i + 1, ResCase, NodeResults);
CheckiErr(iErr);
double dx = NodeResults[0];
double dy = NodeResults[1];
double dz = NodeResults[2];
double def = Math.Sqrt(dx * dx + dy * dy + dz * dz);
if (def > def_max)
{
def_max = def;
def_node = i + 1;
def_case = ResCase;
virtual_load[0] = dx / def;
virtual_load[1] = dy / def;
virtual_load[2] = dz / def;
}
}
stat2 = String.Format("max displacement is: {0:0.0}mm,\nload case number: {1}", def_max, def_case);
worker.ReportProgress(0, new object[] { stat, stat2, init });
}
iErr = St7.St7CloseResultFile(1);
CheckiErr(iErr);
//check if deflection limit exceeded
if (def_max > def_limit)
{
def_exceeded = true;
}
//apply unit force to worst case node
iErr = St7.St7SetNodeForce3(1, def_node, virtual_case, virtual_load);
CheckiErr(iErr);
//re-run solver
switch (sCase)
{
case Solver.linear:
iErr = St7.St7SetResultFileName(1, sSt7LSAPath);
CheckiErr(iErr);
iErr = St7.St7RunSolver(1, St7.stLinearStaticSolver, St7.smBackgroundRun, St7.btTrue);
CheckiErr(iErr);
sSt7ResPath = sSt7LSAPath;
break;
case Solver.nonlin:
iErr = St7.St7SetResultFileName(1, sSt7NLAPath);
CheckiErr(iErr);
iErr = St7.St7RunSolver(1, St7.stNonlinearStaticSolver, St7.smBackgroundRun, St7.btTrue);
CheckiErr(iErr);
sSt7ResPath = sSt7NLAPath;
break;
case Solver.frequency:
iErr = St7.St7SetResultFileName(1, sSt7FreqPath);
CheckiErr(iErr);
iErr = St7.St7RunSolver(1, St7.stNaturalFrequencySolver, St7.smProgressRun, St7.btTrue);
CheckiErr(iErr);
sSt7ResPath = sSt7FreqPath;
iErr = St7.St7OpenResultFile(1, sSt7ResPath, "", St7.btTrue, ref NumPrimary, ref NumSecondary);
CheckiErr(iErr);
double[] ModalRes = new double[10];
iErr = St7.St7GetModalResultsNFA(1, 1, ModalRes);
Freq = ModalRes[0];
iErr = St7.St7CloseResultFile(1);
CheckiErr(iErr);
break;
}
//delete unit force on worst case node
iErr = St7.St7SetNodeForce3(1, def_node, virtual_case, new double[] { 0, 0, 0 });
CheckiErr(iErr);
//collect beam results
int[] ResList_virtual = new int[] { def_case, virtual_case };
iErr = St7.St7OpenResultFile(1, sSt7ResPath, "", St7.btTrue, ref NumPrimary, ref NumSecondary);
CheckiErr(iErr);
//reset variables
for (int i = 0; i < nBeams; i++)
{
A_x[i] = 1;
M_11[i] = 1;
M_22[i] = 1;
}
foreach (int ResCase in ResList_virtual)
{
stat2 = "collecting virtual results for case no " + ResCase.ToString();
worker.ReportProgress(0, new object[] { stat, stat2, init });
for (int i = 0; i < nBeams; i++)
{
if (Eval_Beam[i])
{
iErr = St7.St7GetBeamResultArray(1, St7.rtBeamForce, St7.stBeamLocal, i + 1, 8, ResCase, ref NumPoints, ref NumColumns, BeamPos, BeamResults);
CheckiErr(iErr);
double A_x_addition = Math.Abs(BeamResults[St7.ipBeamAxialF]);
double M_11_addition = Math.Abs(BeamResults[St7.ipBeamBM2]);
double M_22_addition = Math.Abs(BeamResults[St7.ipBeamBM1]);
for (int j = 1; j < NumPoints; j++)
{
A_x_addition += Math.Abs(BeamResults[j * NumColumns + St7.ipBeamAxialF]);
M_11_addition += Math.Abs(BeamResults[j * NumColumns + St7.ipBeamBM2]);
M_22_addition += Math.Abs(BeamResults[j * NumColumns + St7.ipBeamBM1]);
}
//Multiply for sensitivity
A_x[i] *= (A_x_addition / NumPoints);
M_11[i] *= (M_11_addition / NumPoints);
M_22[i] *= (M_22_addition / NumPoints);
}
}
}
iErr = St7.St7CloseResultFile(1);
CheckiErr(iErr);
}
#endregion
if (worker.CancellationPending)
{
iErr = St7.St7CloseFile(1);
CheckiErr(iErr);
iErr = St7.St7Release();
CheckiErr(iErr);
e.Cancel = true;
Environment.Exit(0);
//return;
}
#region Set best section
//##################################
//####### Set best section #########
//##################################
changed = 0;
double[] stressA = new double[nBeams];
stress_satisfied = true;
foreach (int i in iList)
{
NewSectArray[i] = 0; NewSectArray_def[i] = 0;
}
#region calculate stresses (true and virtual)
if ((sCase == Solver.linear || sCase == Solver.nonlin) && !optDeflections)
{
for (int i = 0; i < nBeams; i++)
{
if (Eval_Beam[i])
{
for (int j = NewSectArray[PropMapping[i] - 1]; j < nSections; j++)
{
stressA[i] = A_x[i] / A[j] + M_11[i] / Z11[j] + M_22[i] / Z22[j];
if (stressA[i] < UtilMax * DesignStress)
{
NewSectArray[PropMapping[i] - 1] = j;
break;
}
else if (j == (nSections - 1))
{
NewSectArray[PropMapping[i] - 1] = j;
if (stressA[i] > UtilMax * DesignStress)
{
stress_satisfied = false;
}
break;
}
}
}
}
}
else if (optDeflections) //average stress based for deflections
{
// virtual stresses
#region virtual stresses
double Factor = def_limit / def_max;
double stressAverage = 0;
double total_deflection = 0;
double[] stressVirtual = new double[nBeams];
double[] deflectionVirtual = new double[nBeams];
//Calculate current deflection
for (int i = 0; i < nBeams; i++)
{
int iSect = CurrentSectArray[PropMapping[i] - 1];
deflectionVirtual[i] = Optimisation.Deflection(A_x[i], M_11[i], M_22[i], A[iSect], I11[iSect], I22[iSect], BeamLength[i]);
total_deflection += deflectionVirtual[i];
}
//MessageBox.Show(String.Format("Predicted deflection: {0:0.00}mm, \nActual deflection: {1:0.00}mm",total_deflection,def_max));
//Factor *= total_deflection / def_max;
//Calculate current stress average
for (int i = 0; i < nBeams; i++)
{
if (Eval_Beam[i])
{
int iSect = CurrentSectArray[PropMapping[i] - 1];
stressVirtual[i] = Optimisation.Stress(A_x[i], M_11[i], M_22[i], A[iSect], I11[iSect], I22[iSect], BeamLength[i]);
stressAverage += stressVirtual[i];
}
}
stressAverage = stressAverage / nBeams;
for (int i = 0; i < nBeams; i++)
{
sb_virtual.Append((i + 1).ToString() + " " + stressVirtual[i].ToString() + " " + stressVirtual[i].ToString() + "\n");
}
double stressAverage_test = 0;
foreach (int p in iList)
{
foreach (int i in propList[p])
{
if (Eval_Beam[i])
{
int iSect = CurrentSectArray[p];
stressVirtual[i] = Optimisation.Stress(A_x[i], M_11[i], M_22[i], A[iSect], I11[iSect], I22[iSect], BeamLength[i]);
stressAverage_test += stressVirtual[i];
}
}
}
stressAverage = stressAverage / nBeams;
//choose new sections
for (int i = 0; i < nBeams; i++)
{
if (Eval_Beam[i])
{
for (int j = 0; j < nSections; j++)
{
stressVirtual[i] = Optimisation.Stress(A_x[i], M_11[i], M_22[i], A[j], I11[j], I22[j], BeamLength[i]);
if (stressVirtual[i] < (stressAverage * Math.Pow(Factor, 1.5)))
{
NewSectArray_def[PropMapping[i] - 1] += j;
break;
}
else if (j == (nSections - 1))
{
NewSectArray_def[PropMapping[i] - 1] += j;
break;
}
}
}
}
for (int p = 0; p < nProps; p++)
{
if (Prop_Count[p] > 0)
{
NewSectArray_def[p] /= Prop_Count[p];
NewSectArray[p] = Convert.ToInt32(NewSectArray_def[p]);
}
}
//Calculate new stress average
for (int i = 0; i < nBeams; i++)
{
if (Eval_Beam[i])
{
int iSect = NewSectArray[PropMapping[i] - 1];
stressVirtual[i] = Optimisation.Stress(A_x[i], M_11[i], M_22[i], A[iSect], I11[iSect], I22[iSect], BeamLength[i]);
stressAverage += stressVirtual[i];
}
}
stressAverage = stressAverage / nBeams;
for (int i = 0; i < nBeams; i++)
{
sb_virtual.Append((i + 1).ToString() + " " + stressVirtual[i].ToString() + " " + stressVirtual[i].ToString() + "\n");
}
#endregion virtual stresses
}
else
{
double stressAverage = 0;
for (int i = 0; i < nBeams; i++)
{
if (Eval_Beam[i])
{
//stressA[i] = A_x[i] / A[CurrentSectArray[PropList[i] - 1]] + M_11[i] / Z11[CurrentSectArray[PropList[i] - 1]] + M_22[i] / Z22[CurrentSectArray[PropList[i] - 1]];
stressA[i] = A_x[i] / A[CurrentSectArray[PropMapping[i] - 1]] + M_11[i] / Z11[CurrentSectArray[PropMapping[i] - 1]] / 2 + M_22[i] / Z22[CurrentSectArray[PropMapping[i] - 1]] / 2;
stressAverage += stressA[i];
}
}
stressAverage = stressAverage / nBeams;
for (int i = 0; i < nBeams; i++)
{
if (Eval_Beam[i])
{
for (int j = NewSectArray[PropMapping[i] - 1]; j < nSections; j++)
{
//stressA[i] = A_x[i] / A[j] + M_11[i] / Z11[j] + M_22[i] / Z22[j];
stressA[i] = A_x[i] / A[j] + M_11[i] / Z11[j] / 2 + M_22[i] / Z22[j] / 2;
if (stressA[i] < stressAverage * Freq / FreqReq)
{
NewSectArray[PropMapping[i] - 1] = j;
break;
}
else if (j == (nSections - 1))
{
NewSectArray[PropMapping[i] - 1] = j;
break;
}
}
}
}
}
#endregion
foreach (int i in iList)
{
incPrev[i] = inc[i];
if ((NewSectArray[i] - CurrentSectArray[i]) > 0)
{
inc[i] = (NewSectArray[i] - CurrentSectArray[i]) * DampingUp;// DampingUp * (NewSectArray[i] - CurrentSectArray[i]);
}
else if ((NewSectArray[i] - CurrentSectArray[i]) < 0)
{
if (iter < 15)
{
inc[i] = (NewSectArray[i] - CurrentSectArray[i]) * DampingDown; // DampingDown * (NewSectArray[i] - CurrentSectArray[i]);
}
else
{
inc[i] = 0;
}
}
else
{
inc[i] = 0;
}
//int updatedSect = CurrentSectArray[i] + Convert.ToInt32(inc[i]);
//CurrentSectArray_double[i] += inc[i];
if (inc[i] != 0)
{
CurrentSectArray[i] += Convert.ToInt32(inc[i]);
//CurrentSectArray[i] = updatedSect;
//CurrentSectArray[i] = Convert.ToInt32(CurrentSectArray_double[i]);
iErr = St7.St7SetBeamSectionGeometry(1, i + 1, SType[CurrentSectArray[i]], SectionDoubles[CurrentSectArray[i]]);
CheckiErr(iErr);
iErr = St7.St7CalculateBeamSectionProperties(1, i + 1, St7.btFalse, St7.btFalse);
CheckiErr(iErr);
changed++;
if (inc[i] != -incPrev[i])
{
looping = false;
}
}
sb.Append(CurrentSectArray[i].ToString() + ",");
}
System.IO.File.AppendAllText(sOutPath, sb.ToString() + System.Environment.NewLine);
sb.Clear();
System.IO.File.AppendAllText(sOutPathVirtualStresses, sb_virtual.ToString() + System.Environment.NewLine);
sb_virtual.Clear();
#endregion
iErr = St7.St7SaveFileTo(1, optFolder + @"\iter " + iter.ToString() + ".st7");
CheckiErr(iErr);
if (worker.CancellationPending)
{
iErr = St7.St7CloseFile(1);
CheckiErr(iErr);
iErr = St7.St7Release();
CheckiErr(iErr);
Environment.Exit(0);
}
if (looping)
{
DampingDown = 0.4;
}
if (changed == 0)
{
break;
}
}
#endregion
foreach (int i in iList)
{
string sPropertyName = D1[CurrentSectArray[i]].ToString() + " x " + D2[CurrentSectArray[i]].ToString() + " x " + T1[CurrentSectArray[i]].ToString() + " x " + T2[CurrentSectArray[i]].ToString();
iErr = St7.St7SetPropertyName(1, St7.tyBEAM, i + 1, sPropertyName);
}
iErr = St7.St7SaveFileTo(1, optFolder + @"/Optimised.st7");
CheckiErr(iErr);
iErr = St7.St7SaveFileTo(1, sSt7OptimisedPath);
CheckiErr(iErr);
iErr = St7.St7CloseFile(1);
CheckiErr(iErr);
//##########################################
//############ END OF CODE #################
//##########################################
iErr = St7.St7Release();
CheckiErr(iErr);
//#####################################################################################
stat = "complete";
stat2 = "";
init = false;
worker.ReportProgress(0, new object[] { stat, stat2, init });
if (!stress_satisfied)
{
MessageBox.Show("Warning: One or more beams are still overstressed!");
}
else if (changed == 0)
{
MessageBox.Show("Section sizing has converged!");
}
else
{
MessageBox.Show("Section sizing has NOT converged. Maximum number of iterations reached.");
}
Environment.Exit(0);
}