void backgroundWorker_DoWork(object sender, DoWorkEventArgs e) { BackgroundWorker worker = sender as BackgroundWorker; studyName = nameTextBox.Text; if (string.IsNullOrWhiteSpace(studyName)) { studyName = "Freq_Cantilever"; } analysisLabel.Invoke((MethodInvoker) delegate { analysisLabel.Visible = true; }); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Disposing of SW processes..."; }); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Visible = true; }); // manual cancelling of the analysis if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } DisposeSW(); resGrid.Invoke((MethodInvoker) delegate { resGrid.Rows.Clear(); resGrid.Refresh(); }); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } bwStudy.ReportProgress(5); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Launching SW..."; }); object processSW = System.Activator.CreateInstance(System.Type.GetTypeFromCLSID(Guid1)); swApp = (SldWorks)processSW; swApp.Visible = true; if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Loading Simulation library..."; }); // connecting Simulation to SW cwpath = swApp.GetExecutablePath() + @"\Simulation\cosworks.dll"; errCode = swApp.LoadAddIn(cwpath); if (errCode != 0 && errCode != 2) { MessageBox.Show("Failed to load Simulation library"); swApp.ExitApp(); DisposeSW(); Application.Exit(); } if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Creating cantilever..."; }); // opening cantilever model Part = swApp.OpenDoc6("G:\\Cantilever.SLDPRT", 1, 0, "", ref longstatus, ref longwarnings); if (Part == null) { MessageBox.Show("Failed to load cantilever model"); swApp.ExitApp(); Dispose(); Application.Exit(); } swDoc = swApp.IActiveDoc2; swDoc.ShowNamedView2("*Isometric", 7); swDoc.ViewZoomtofit2(); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } bwStudy.ReportProgress(10); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Check for Simulation readiness..."; }); // ready-check Simulation add-on CWAddinCallBack = (CwAddincallback)swApp.GetAddInObject("CosmosWorks.CosmosWorks"); if (CWAddinCallBack == null) { MessageBox.Show("Failed to open Simulation"); Application.Exit(); } // ready-check add-on object COSMOSWORKS = CWAddinCallBack.CosmosWorks; if (COSMOSWORKS == null) { MessageBox.Show("Failed to create CosmosWorks object"); Application.Exit(); } if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } bwStudy.ReportProgress(14); // connecting add-on to the document ActDoc = COSMOSWORKS.ActiveDoc; if (ActDoc == null) { MessageBox.Show("Failed to load document"); Application.Exit(); } bwStudy.ReportProgress(16); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Setting up an analysis..."; }); // creating a frequency analysis StudyMngr = ActDoc.StudyManager; if (StudyMngr == null) { MessageBox.Show("Failed to load analysis manager"); Application.Exit(); } if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } bwStudy.ReportProgress(18); // analysis creation Study = StudyMngr.CreateNewStudy3(studyName, (int)swsAnalysisStudyType_e.swsAnalysisStudyTypeFrequency, (int)swsMeshType_e.swsMeshTypeSolid, out errCode); if (Study == null) { MessageBox.Show("Failed to create a frequency analysis"); Application.Exit(); } // analysis settings CWOptions = Study.FrequencyStudyOptions; // finite element method solver // 1 - Automatic Solver Selection, 0 - Direct sparse solver, 2 - FFEPlus, 7 - Intel Direct Sparse Study.FrequencyStudyOptions.SolverType = SolverDict[solverIndex]; Study.FrequencyStudyOptions.NoOfFrequencies = freqNumber; if (CWOptions == null) { MessageBox.Show("No analysis settings"); } if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } bwStudy.ReportProgress(20); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Setting cantilever material..."; }); // using silicon as the material (don't know why) string matLib = swApp.GetExecutablePath() + @"\lang\english\sldmaterials\solidworks materials.sldmat"; SolidMgr = (CWSolidManager)Study.SolidManager; SolidComp = SolidMgr.GetComponentAt(0, out errCode); if (errCode == 0) { SolidBody = (CWSolidBody)SolidComp.GetSolidBodyAt(0, out errCode); errCode = (int)SolidBody.SetLibraryMaterial(matLib, "Silicon"); } else { MessageBox.Show("Failed to apply material"); Application.Exit(); } if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Adding restraints..."; }); // loading loads and restraints manager LBCMgr = Study.LoadsAndRestraintsManager; if (LBCMgr == null) { MessageBox.Show("Failed to load loads and restraints manager"); Application.Exit(); } bwStudy.ReportProgress(25); // face selection followed by applying restraints ISelectionMgr selectionMgr = (ISelectionMgr)swDoc.SelectionManager; bool isSelected = swDoc.Extension.SelectByRay(0.018229940747914952, 0.051969523507693793, 0.0020000000000095497, -0.57738154519998097, -0.5772877120855483, -0.57738154519997897, 0.00085899699451767535, 2, false, 0, 0); if (isSelected) { object face_bind = selectionMgr.GetSelectedObject6(1, -1); object[] fixedpart = { face_bind }; CWBind = (CWRestraint)LBCMgr.AddRestraint(0, (fixedpart), null, out errCode); if (errCode != 0) { MessageBox.Show("Failed to add restraints"); Application.Exit(); } } if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } bwStudy.ReportProgress(35); swDoc.ClearSelection2(true); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Creating mesh object..."; }); swDoc.ClearSelection2(true); // mesh object options CWMesh = ((CWMesh)(Study.Mesh)); CWMesh.Quality = 1; CWMesh.UseJacobianCheckForSolids = 1; CWMesh.MesherType = 0; CWMesh.AutomaticTransition = 0; CWMesh.AutomaticLooping = 0; CWMesh.NumberOfLoops = 3; CWMesh.SaveSettingsWithoutMeshing = 0; CWMesh.Unit = 0; if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } bwStudy.ReportProgress(50); // create mesh object errCode = Study.CreateMesh(0, 13.3821, 0.669103); if (errCode != 0) { MessageBox.Show("Failed to create mesh object"); Application.Exit(); } if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysing..."; }); // start of analysis errCode = Study.RunAnalysis(); if (errCode != 0) { MessageBox.Show("Failed to start analysis"); Application.Exit(); } if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been stopped by user"; startBtn.Text = "Start analysis"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); e.Cancel = true; return; } bwStudy.ReportProgress(90); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Receiving results of analysis..."; }); // getting results CWResult = (CWResults)Study.Results; if (CWResult == null) { MessageBox.Show("Failed to receive results of analysis"); return; } double[] res = new double[10]; // getting results from the graph for (int i = 0; i < freqNumber; i++) { plot = CWResult.GetPlot("Amplitude" + (i + 1).ToString(), out errCode); if (plot == null) { MessageBox.Show("Failed to load an information from the graph"); return; } plot.SetComponentUnitAndValueByElem(9, 3, false); results = (object[])plot.GetMinMaxResultValues(out errCode); res[i] = Convert.ToDouble(results[3].ToString()); } for (int k = 0; k < freqNumber; k++) { resGrid.Invoke((MethodInvoker) delegate { int n = resGrid.Rows.Add(); resGrid.Rows[n].Cells[0].Value = k + 1; resGrid.Rows[n].Cells[1].Value = res[k]; }); } bwStudy.ReportProgress(100); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Done"; }); processNameLabel.Invoke((MethodInvoker) delegate { startBtn.Text = "Review results"; solverComboBox.Enabled = true; freqComboBox.Enabled = true; }); }
private void button_create_Geom_Click(object sender, RoutedEventArgs e) { #region a test example, not important m = 9; width = 8 / 1000.0; thickness = 1 / 1000.0; l1 = 30 / 1000.0; l2 = 16 / 1000.0; l3 = 21 / 1000.0; F1 = 1; F2 = 37; F3 = 49; l4 = l2; l1_ = l1 - 2 * width; l2_ = l2; l3_ = l3 + 2 * width; l4_ = l4; cell_length = l1 + l3; cell_height = l2 + width; #endregion Count = int.Parse(textBox_count.Text); Random randomSeed = new Random(); Random random_m = new Random(randomSeed.Next()); Random random_width = new Random(randomSeed.Next()); Random random_thickness = new Random(randomSeed.Next()); Random random_l1 = new Random(randomSeed.Next()); Random random_l2 = new Random(randomSeed.Next()); Random random_l3 = new Random(randomSeed.Next()); Random random_F1 = new Random(randomSeed.Next()); Random random_F2 = new Random(randomSeed.Next()); Random random_F3 = new Random(randomSeed.Next()); for (int j = 0; j < Count; j++) { Console.WriteLine(string.Format("---------------------------------now No.{0}", j)); #region generate random Data try { /* change to double * ran_m = random_m.Next(int.Parse(textBox_hm_cells_min.Text), int.Parse(textBox_hm_cellls_max.Text)); * ran_width = random_width.Next(int.Parse(textBox_width_min.Text), int.Parse(textBox_width_max.Text)); * ran_thickness = random_thickness.Next(int.Parse(textBox_thickness_min.Text), int.Parse(textBox_thickness_max.Text)); * ran_l1 = random_l1.Next(int.Parse(textBox_l1_min.Text), int.Parse(textBox_l1_max.Text)); * ran_l2 = random_l2.Next(int.Parse(textBox_l2_min.Text), int.Parse(textBox_l2_max.Text)); * ran_l3 = random_l3.Next(int.Parse(textBox_l3_min.Text), int.Parse(textBox_l3_max.Text)); * ran_F1 = random_F1.Next(int.Parse(textBox_F1_min.Text), int.Parse(textBox_F1_max.Text)); * ran_F2 = random_F2.Next(int.Parse(textBox_F2_min.Text), int.Parse(textBox_F2_max.Text)); * ran_F3 = random_F3.Next(int.Parse(textBox_F3_min.Text), int.Parse(textBox_F3_max.Text)); */ ran_m = random_m.Next(int.Parse(textBox_hm_cells_min.Text), int.Parse(textBox_hm_cellls_max.Text)); ran_width = random_width.NextDouble() * (int.Parse(textBox_width_max.Text) - int.Parse(textBox_width_min.Text)) + double.Parse(textBox_width_min.Text); ran_thickness = random_thickness.NextDouble() * (int.Parse(textBox_thickness_max.Text) - int.Parse(textBox_thickness_min.Text)) + double.Parse(textBox_thickness_min.Text); ran_l1 = random_l1.NextDouble() * (int.Parse(textBox_l1_max.Text) - int.Parse(textBox_l1_min.Text)) + double.Parse(textBox_l1_min.Text); ran_l2 = random_l2.NextDouble() * (int.Parse(textBox_l2_max.Text) - int.Parse(textBox_l2_min.Text)) + double.Parse(textBox_l2_min.Text); ran_l3 = random_l3.NextDouble() * (int.Parse(textBox_l3_max.Text) - int.Parse(textBox_l3_min.Text)) + double.Parse(textBox_l3_min.Text); ran_F1 = random_F1.NextDouble() * (int.Parse(textBox_F1_max.Text) - int.Parse(textBox_F1_min.Text)) + double.Parse(textBox_F1_min.Text); ran_F2 = random_F2.NextDouble() * (int.Parse(textBox_F2_max.Text) - int.Parse(textBox_F2_min.Text)) + double.Parse(textBox_F2_min.Text); ran_F3 = random_F3.NextDouble() * (int.Parse(textBox_F3_max.Text) - int.Parse(textBox_F3_min.Text)) + double.Parse(textBox_F3_min.Text); } catch (Exception) { Console.WriteLine("Input Format Error"); return; } m = ran_m; width = (double)(ran_width / 1000.0); thickness = (double)(ran_thickness / 1000.0); l1 = (double)(ran_l1 / 1000.0); l2 = (double)(ran_l2 / 1000.0); l3 = (double)(ran_l3 / 1000.0); F1 = (double)ran_F1; F2 = (double)ran_F2; F3 = (double)ran_F3; F3 = 0; l4 = l2; l1_ = l1 - 2 * width; l2_ = l2; l3_ = l3 + 2 * width; l4_ = l4; cell_length = l1 + l3; cell_height = l2 + width; #endregion Console.WriteLine(string.Format("{0},{1},{2},{3},{4},{5}", m, width, thickness, l1, l2, l3)); #region geometrie Console.WriteLine("Start creating new Germetrie"); try { swModel = swApp.NewPart(); } catch (Exception) { Console.WriteLine("starting SolidWorks"); try { swApp = (SldWorks)Marshal.GetActiveObject("SldWorks.Application"); } catch (Exception) { swApp = new SldWorks(); swApp.Visible = false; } //get MaterialLib strMaterialLib = swApp.GetExecutablePath() + "\\lang\\english\\sldmaterials\\solidworks materials.sldmat"; Console.WriteLine("SolidWorks successfully started"); j--; continue; } swModel.Extension.SelectByID("前视基准面", "PLANE", 0, 0, 0, false, 1, null); swModel.InsertSketch2(true); #region sketch for (int i = 0; i < m; i++) { if (i == 0) { swModel.SketchManager.CreateLine(0, 0, 0, l1 - width, 0, 0); swModel.SketchManager.CreateLine(l1 - width, 0, 0, l1 - width, -l2, 0); swModel.SketchManager.CreateLine(l1 - width, -l2, 0, l1 + l3 - width, -l2, 0); swModel.SketchManager.CreateLine(l1 + l3 - width, -l2, 0, l1 + l3 - width, 0, 0); swModel.SketchManager.CreateLine(0, 0, 0, 0, -width, 0); swModel.SketchManager.CreateLine(0, -width, 0, l1_, -width, 0); swModel.SketchManager.CreateLine(l1_, -width, 0, l1_, -(width + l2_), 0); swModel.SketchManager.CreateLine(l1_, -(width + l2_), 0, l1_ + l3_, -(width + l2_), 0); swModel.SketchManager.CreateLine(l1_ + l3_, -(width + l2_), 0, l1_ + l3_, -width, 0); } else { x_o = i * cell_length - width; y_o = 0; x_o_ = x_o + width; y_o_ = y_o - width; swModel.SketchManager.CreateLine(x_o, y_o, 0, x_o + l1, 0, 0); swModel.SketchManager.CreateLine(x_o + l1, 0, 0, x_o + l1, -l2, 0); swModel.SketchManager.CreateLine(x_o + l1, -l2, 0, x_o + l1 + l3, -l2, 0); swModel.SketchManager.CreateLine(x_o + l1 + l3, -l2, 0, x_o + l1 + l3, 0, 0); swModel.SketchManager.CreateLine(x_o_, y_o_, 0, x_o_ + l1_, y_o_, 0); swModel.SketchManager.CreateLine(x_o_ + l1_, y_o_, 0, x_o_ + l1_, y_o_ - l2_, 0); swModel.SketchManager.CreateLine(x_o_ + l1_, y_o_ - l2_, 0, x_o_ + l1_ + l3_, y_o_ - l2_, 0); swModel.SketchManager.CreateLine(x_o_ + l1_ + l3_, y_o_ - l2_, 0, x_o_ + l1_ + l3_, y_o_, 0); } } swModel.SketchManager.CreateLine(x_o_ + l1_ + l3_, y_o_, 0, x_o_ + l1_ + l3_, 0, 0); swModel.SketchManager.CreateLine(x_o_ + l1_ + l3_, 0, 0, x_o + l1 + l3, 0, 0); #endregion swModel.FeatureManager.FeatureExtrusion2( true, false, false, 0, 0, thickness, 0, false, false, false, false, 0, 0, false, false, false, false, true, true, true, 0, 0, true ); swModel.SaveAsSilent("D:\\TUD\\7.Semeter\\SA\\SA_code\\c#\\W_Form_analyse_get_TrainingDaten\\Geometrie.sldprt", true); swApp.CloseAllDocuments(true); swApp.OpenDoc("D:\\TUD\\7.Semeter\\SA\\SA_code\\c#\\W_Form_analyse_get_TrainingDaten\\Geometrie.sldprt", (int)swOpenDocOptions_e.swOpenDocOptions_Silent); Console.WriteLine("Geometrie success"); #endregion #region simulaiton string path_to_cosworks_dll = @"C:\Program Files\SOLIDWORKS Corp\SOLIDWORKS\Simulation\cosworks.dll"; errors = swApp.LoadAddIn(path_to_cosworks_dll); COSMOSObject = (CwAddincallback)swApp.GetAddInObject("SldWorks.Simulation"); try { COSMOSWORKS = (CosmosWorks)COSMOSObject.CosmosWorks; } catch (Exception) { Console.WriteLine("something wrong in Simulaiton Add In, start a new one"); continue; } COSMOSWORKS = COSMOSObject.CosmosWorks; //Get active document ActDoc = (CWModelDoc)COSMOSWORKS.ActiveDoc; //Create new static study StudyMngr = (CWStudyManager)ActDoc.StudyManager; Study = (CWStudy)StudyMngr.CreateNewStudy("static study", (int)swsAnalysisStudyType_e.swsAnalysisStudyTypeStatic, 0, out errCode); //Add materials SolidMgr = Study.SolidManager; SolidComp = SolidMgr.GetComponentAt(0, out errCode); SolidBody = SolidComp.GetSolidBodyAt(0, out errCode); intStatus = SolidBody.SetLibraryMaterial(strMaterialLib, "AISI 1020"); //fixed restraints LBCMgr = Study.LoadsAndRestraintsManager; swModel = (ModelDoc2)swApp.ActiveDoc; swModel.ShowNamedView2("", (int)swStandardViews_e.swIsometricView); selectionMgr = (SelectionMgr)swModel.SelectionManager; isSelected = swModel.Extension.SelectByID2("", "FACE", 0, -width / 2.0, thickness / 2.0, false, 0, null, 0); if (isSelected) { object selectedFace = (object)selectionMgr.GetSelectedObject6(1, -1); object[] fixedFaces = { selectedFace }; CWRestraint restraint = (CWRestraint)LBCMgr.AddRestraint((int)swsRestraintType_e.swsRestraintTypeFixed, fixedFaces, null, out errCode); } swModel.ClearSelection2(true); //add force selectionMgr = (SelectionMgr)swModel.SelectionManager; isSelected = swModel.Extension.SelectByID2("", "FACE", x_o + l1 + l3 + (width / 2.0), 0, thickness / 2.0, false, 0, null, 0); if (isSelected) { object selectedFace = (object)selectionMgr.GetSelectedObject6(1, -1); object[] forceAdd = { selectedFace }; selectionMgr = (SelectionMgr)swModel.SelectionManager; swModel.Extension.SelectByID2("", "FACE", x_o + l1 + l3 + width, -(l4 + width) / 2.0, thickness / 2.0, false, 0, null, 0); object selectedFaceToForceDir = (object)selectionMgr.GetSelectedObject6(1, -1); double[] distValue = null; double[] forceValue = null; double[] Force = { F2, F3, F1 }; cwForce = (CWForce)LBCMgr.AddForce3((int)swsForceType_e.swsForceTypeForceOrMoment, (int)swsSelectionType_e.swsSelectionFaceEdgeVertexPoint, 2, 0, 0, 0, (distValue), (forceValue), false, true, (int)swsBeamNonUniformLoadDef_e.swsTotalLoad, 0, 7, 0.0, Force, false, false, (forceAdd), (selectedFaceToForceDir), false, out errCode); //i have tried to figure out these arguments for one day, keep them and dont't change them. //the way to check cwForce : cwForce.GetForceComponentValues() //ForceComponet: [int b1, // 1 if x-direction hat Force-komponent, else 0 // int b2, // 1 if y-direction hat Force-komponent, else 0 // int b3, // 1 if z-direction hat Force-komponent, else 0 // double d1, // Force-komponent in x // double d2, // Force-komponent in y // double d3 // Force-komponent in z // ] //PS: the definition of xyz seems like not the same as the global XYZ system in SW. swModel.ClearSelection2(true); //meshing CWMesh CWMeshObj = default(CWMesh); CWMeshObj = Study.Mesh; CWMeshObj.MesherType = (int)swsMesherType_e.swsMesherTypeStandard; CWMeshObj.Quality = (int)swsMeshQuality_e.swsMeshQualityDraft; errCode = Study.CreateMesh(0, MeshEleSize, MeshTol); CWMeshObj = null; //run analysis errCode = Study.RunAnalysis(); if (errCode != 0) { Console.WriteLine(string.Format("RunAnalysis errCode = {0}", errCode)); Console.WriteLine(string.Format("RunAnalysis failed")); swApp.CloseAllDocuments(true); errors = swApp.UnloadAddIn(path_to_cosworks_dll); Console.WriteLine(string.Format("ready to start a new one")); continue; } Console.WriteLine("RunAnalysis successed, ready to get results"); //get results CWFeatobj = Study.Results; //get max von Mieses stress Stress = (object[])CWFeatobj.GetMinMaxStress((int)swsStressComponent_e.swsStressComponentVON, 0, 0, null, (int)swsStrengthUnit_e.swsStrengthUnitNewtonPerSquareMillimeter, out errCode); maxStress = (float)Stress[3]; //Stress: {node_with_minimum_stress, minimum_stress, node_with_maximum_stress, maximum_stress} Console.WriteLine(maxStress); /* * if (maxStress >= 351.6) * { * Console.WriteLine("out of yield stress, start a new example"); * errors = swApp.UnloadAddIn(path_to_cosworks_dll); * swApp.CloseAllDocuments(true); * j--; * continue; * } */ //get max URES displacement Disp = (object[])CWFeatobj.GetMinMaxDisplacement((int)swsDisplacementComponent_e.swsDisplacementComponentURES, 0, null, (int)swsLinearUnit_e.swsLinearUnitMillimeters, out errCode); maxDisp = (float)Disp[3]; //Disp: {node_with_minimum_displacement, minimum_displacement, node_with_maximum_displacement, maximum_displacement} CWFeatobj = null; Console.WriteLine(string.Format("max Displacement: {0:f4} mm", maxDisp)); //output to Excel exlSheet.Cells[j + 2, 1] = m; exlSheet.Cells[j + 2, 2] = width * 1000; exlSheet.Cells[j + 2, 3] = thickness * 1000; exlSheet.Cells[j + 2, 4] = l1 * 1000; exlSheet.Cells[j + 2, 5] = l2 * 1000; exlSheet.Cells[j + 2, 6] = l3 * 1000; exlSheet.Cells[j + 2, 7] = F1; exlSheet.Cells[j + 2, 8] = F2; exlSheet.Cells[j + 2, 9] = F3; exlSheet.Cells[j + 2, 10] = maxStress; exlSheet.Cells[j + 2, 11] = maxDisp; if (j % 5 == 0) { exlBook.Save();//C:\Users\Zhao\Documents\工作簿1.xlsx } errors = swApp.UnloadAddIn(path_to_cosworks_dll); swApp.CloseAllDocuments(true); } #endregion } exlBook.SaveCopyAs("D:\\TUD\\7.Semeter\\SA\\SA_code\\c#\\W_Form_analyse_get_TrainingDaten\\W_Form_simulationDaten_" + GetTimeStamp() + "_F3=0" + ".xlsx"); exlBook.Save();//C:\Users\zhaojie\Documents\工作簿1.xlsx exlApp.Quit(); }
// another thread work void backgroundWorker_DoWork(object sender, DoWorkEventArgs e) { BackgroundWorker worker = sender as BackgroundWorker; // banning empty fields if (string.IsNullOrWhiteSpace(strBox.Text)) { MessageBox.Show("Enter force value", "Error", MessageBoxButtons.OK, MessageBoxIcon.Warning); return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Launching SolidWorks..."; }); // check for manual cancelling of analysis if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } // opening SW 2017 Guid Guid1 = new Guid("6B36082E-677B-49E8-BCB2-76698EBD2906"); object processSW = System.Activator.CreateInstance(System.Type.GetTypeFromCLSID(Guid1)); swApp = (SldWorks)processSW; swApp.Visible = true; processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Preparing Simulation..."; }); CosmosWorks COSMOSWORKS = default(CosmosWorks); CwAddincallback CWAddinCallBack = default(CwAddincallback); CWModelDoc ActDoc = default(CWModelDoc); CWStudyManager StudyMngr = default(CWStudyManager); CWStudy Study = default(CWStudy); CWStaticStudyOptions CWOptions = default(CWStaticStudyOptions); CWLoadsAndRestraintsManager LBCMgr = default(CWLoadsAndRestraintsManager); CWRestraint CWBind = default(CWRestraint); CWForce CWStr = default(CWForce); CWMesh CWMesh = default(CWMesh); CWResults CWResult = default(CWResults); CWPlot plot = default(CWPlot); ModelDoc2 Part = default(ModelDoc2); ModelDoc2 swDoc = null; int longstatus = 0; int longwarnings = 0; int errCode = 0; object[] results = null; // analysis name string study_name = studyNameBox.Text; if (string.IsNullOrWhiteSpace(study_name)) { study_name = "Static_beam"; } bwStudy.ReportProgress(5); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Creating beam model..."; }); // opening SLDPRT file containing beam model Part = swApp.OpenDoc6("C:\\Beam.SLDPRT", 1, 0, "", ref longstatus, ref longwarnings); if (Part == null) { MessageBox.Show("Failed to open model"); Application.Exit(); } string path_to_cosworks_dll = swApp.GetExecutablePath() + @"\Simulation\cosworks.dll"; longstatus = swApp.LoadAddIn(path_to_cosworks_dll); // isometric view swDoc = swApp.IActiveDoc2; swDoc.ShowNamedView2("*Isometric", 7); swDoc.ViewZoomtofit2(); bwStudy.ReportProgress(10); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Starting Simulation..."; }); // ready-check Simulation add-on CWAddinCallBack = (CwAddincallback)swApp.GetAddInObject("CosmosWorks.CosmosWorks"); if (CWAddinCallBack == null) { MessageBox.Show("Failed to start Simulation"); Application.Exit(); } bwStudy.ReportProgress(12); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } // ready-check add-on object COSMOSWORKS = CWAddinCallBack.CosmosWorks; if (COSMOSWORKS == null) { MessageBox.Show("Failed to create CosmosWorks object"); Application.Exit(); } bwStudy.ReportProgress(14); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } // connecting add-on to document ActDoc = COSMOSWORKS.ActiveDoc; if (ActDoc == null) { MessageBox.Show("Failed to connect to document"); Application.Exit(); } bwStudy.ReportProgress(16); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Creating analysis..."; }); // creating static analysis StudyMngr = ActDoc.StudyManager; if (StudyMngr == null) { MessageBox.Show("Failed to start analysis manager"); Application.Exit(); } bwStudy.ReportProgress(18); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } Study = StudyMngr.CreateNewStudy3(study_name, (int)swsAnalysisStudyType_e.swsAnalysisStudyTypeStatic, (int)swsMeshType_e.swsMeshTypeSolid, out errCode); if (Study == null) { MessageBox.Show("Failed to create static analysis"); Application.Exit(); } bwStudy.ReportProgress(20); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Adding attachment object..."; }); // loading indicator manager LBCMgr = Study.LoadsAndRestraintsManager; if (LBCMgr == null) { MessageBox.Show("Failed to load indicator manager"); Application.Exit(); } bwStudy.ReportProgress(25); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } // selecting face for attachment and adding it to indicator manager ISelectionMgr selectionMgr = (ISelectionMgr)swDoc.SelectionManager; bool isSelected = swDoc.Extension.SelectByRay(-0.023870052576342005, 0.064003232713616853, 0, -0.57738154519998108, -0.57728771208554841, -0.57738154519997897, 0.0037366684901689287, 2, true, 0, 0); if (isSelected) { object face_bind = selectionMgr.GetSelectedObject6(1, -1); object[] fixedpart = { face_bind }; CWBind = (CWRestraint)LBCMgr.AddRestraint(0, (fixedpart), null, out errCode); if (errCode != 0) { MessageBox.Show("Failed to add attachment object"); Application.Exit(); } } bwStudy.ReportProgress(35); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Adding force indicator..."; }); swDoc.ClearSelection2(true); isSelected = swDoc.Extension.SelectByRay(0.00094849719312151137, 0.029999999999915872, 0.97601905600942018, -0.57738154519998108, -0.57728771208554841, -0.57738154519997897, 0.0037366684901689287, 2, true, 0, 0); if (isSelected) { object face_force = selectionMgr.GetSelectedObject6(1, -1); object[] fixedpart = { face_force }; object[] DistanceValues = { }; object[] ForceValues = { }; object[] ComponentValues = { }; CWStr = (CWForce)LBCMgr.AddForce3(1, 0, -1, 0, 0, 0, DistanceValues, ForceValues, false, false, 0, 0, 0, Convert.ToInt32(strBox.Text), ComponentValues, false, false, (fixedpart), null, false, out errCode); if (errCode != 0) { MessageBox.Show("Failed to add force indicator"); Application.Exit(); } CWStr.ForceBeginEdit(); CWStr.Unit = 2; CWStr.ForceEndEdit(); } bwStudy.ReportProgress(50); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Creating mesh object..."; }); swDoc.ClearSelection2(true); // mesh object parameters CWMesh = ((CWMesh)(Study.Mesh)); CWMesh.Quality = 1; CWMesh.UseJacobianCheckForSolids = 1; CWMesh.MesherType = 0; CWMesh.AutomaticTransition = 0; CWMesh.AutomaticLooping = 0; CWMesh.NumberOfLoops = 3; CWMesh.SaveSettingsWithoutMeshing = 0; CWMesh.Unit = 0; bwStudy.ReportProgress(70); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } // creating mesh object errCode = Study.CreateMesh(0, 13.3821, 0.669103); if (errCode != 0) { MessageBox.Show("Failed to create mesh object"); Application.Exit(); } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Starting analysis..."; }); // starting analysis errCode = Study.RunAnalysis(); if (errCode != 0) { MessageBox.Show("Failed to start analysis"); Application.Exit(); } bwStudy.ReportProgress(90); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Receiving analysis results..."; }); // obtaining results CWResult = (CWResults)Study.Results; if (CWResult == null) { MessageBox.Show("Failed to receive results"); return; } // stress graph results plot = CWResult.GetPlot("Stress1", out errCode); if (plot == null) { MessageBox.Show("Failed to receive stress results"); return; } plot.SetComponentUnitAndValueByElem(9, 3, false); results = (object[])plot.GetMinMaxResultValues(out errCode); max_tens = Convert.ToDouble(results[3].ToString()); min_tens = Convert.ToDouble(results[1].ToString()); bwStudy.ReportProgress(93); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } // displacement graph results plot = CWResult.GetPlot("Displacement1", out errCode); if (plot == null) { MessageBox.Show("Failed to receive displacement results"); return; } plot.SetComponentUnitAndValueByElem(3, 0, false); results = (object[])plot.GetMinMaxResultValues(out errCode); max_move = Convert.ToDouble(results[3].ToString()); min_move = Convert.ToDouble(results[1].ToString()); bwStudy.ReportProgress(96); if (bwStudy.CancellationPending == true) { processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Analysis has been cancelled"; }); e.Cancel = true; return; } // strain graph results plot = CWResult.GetPlot("Strain1", out errCode); if (plot == null) { MessageBox.Show("Failed to receive strain results"); return; } plot.SetComponentUnitAndValueByElem(6, 3, false); results = (object[])plot.GetMinMaxResultValues(out errCode); bwStudy.ReportProgress(99); max_deform = Convert.ToDouble(results[3].ToString()); min_deform = Convert.ToDouble(results[1].ToString()); maxTensBox.Invoke((MethodInvoker) delegate { maxTensBox.Text = max_tens.ToString(); }); minTensBox.Invoke((MethodInvoker) delegate { minTensBox.Text = min_tens.ToString(); }); maxMoveBox.Invoke((MethodInvoker) delegate { maxMoveBox.Text = max_move.ToString(); }); minMoveBox.Invoke((MethodInvoker) delegate { minMoveBox.Text = min_move.ToString(); }); maxDeformBox.Invoke((MethodInvoker) delegate { maxDeformBox.Text = max_deform.ToString(); }); minDeformBox.Invoke((MethodInvoker) delegate { minDeformBox.Text = min_deform.ToString(); }); bwStudy.ReportProgress(100); processNameLabel.Invoke((MethodInvoker) delegate { processNameLabel.Text = "Done"; }); }
private void Button_generateFEM_Click(object sender, RoutedEventArgs e) { #region Variable definition int m; //how many cells int Count; // how many data double width, thickness, l1, l2, l3, F1, F2, F3; double l4, l1_, l2_, l3_, l4_, cell_length, cell_height; double x_o = 0.0; double y_o = 0.0; double x_o_ = 0.0; double y_o_ = 0.0; const double MeshEleSize = 2.0; const double MeshTol = 0.1; string strMaterialLib = null; object[] Disp = null; object[] Stress = null; ModelDoc2 swModel = null; SelectionMgr selectionMgr = null; CosmosWorks COSMOSWORKS = null; CwAddincallback COSMOSObject = default(CwAddincallback); CWModelDoc ActDoc = default(CWModelDoc); CWStudyManager StudyMngr = default(CWStudyManager); CWStudy Study = default(CWStudy); CWSolidManager SolidMgr = default(CWSolidManager); CWSolidBody SolidBody = default(CWSolidBody); CWSolidComponent SolidComp = default(CWSolidComponent); CWForce cwForce = default(CWForce); CWLoadsAndRestraintsManager LBCMgr = default(CWLoadsAndRestraintsManager); CWResults CWFeatobj = default(CWResults); bool isSelected; float maxDisp = 0.0f; float maxStress = 0.0f; int intStatus = 0; int errors = 0; int errCode = 0; int warnings = 0; int ran_m, ran_width, ran_thickness, ran_l1, ran_l2, ran_l3, ran_F1, ran_F2, ran_F3; Excel.Application exlApp; Excel.Workbook exlBook; Excel.Worksheet exlSheet; #endregion #region read data from UI try { m = int.Parse(textBox_hm_cells.Text); width = double.Parse(textBox_width.Text) / 1000.0; thickness = double.Parse(textBox_thickness.Text) / 1000.0; l1 = double.Parse(textBox_l1.Text) / 1000.0; l2 = double.Parse(textBox_l2.Text) / 1000.0; l3 = double.Parse(textBox_l3.Text) / 1000.0; F1 = double.Parse(textBox_F1.Text); F2 = double.Parse(textBox_F2.Text); F3 = double.Parse(textBox_F3.Text); } catch (Exception) { MessageBox.Show("input format error, check input data"); return; } l4 = l2; l1_ = l1 - 2 * width; l2_ = l2; l3_ = l3 + 2 * width; l4_ = l4; cell_length = l1 + l3; cell_height = l2 + width; #endregion #region geometrie Console.WriteLine("Start creating new Germetrie"); swModel = swApp.NewPart(); swModel.Extension.SelectByID("前视基准面", "PLANE", 0, 0, 0, false, 1, null); swModel.InsertSketch2(true); #region sketch for (int i = 0; i < m; i++) { if (i == 0) { swModel.SketchManager.CreateLine(0, 0, 0, l1 - width, 0, 0); swModel.SketchManager.CreateLine(l1 - width, 0, 0, l1 - width, -l2, 0); swModel.SketchManager.CreateLine(l1 - width, -l2, 0, l1 + l3 - width, -l2, 0); swModel.SketchManager.CreateLine(l1 + l3 - width, -l2, 0, l1 + l3 - width, 0, 0); swModel.SketchManager.CreateLine(0, 0, 0, 0, -width, 0); swModel.SketchManager.CreateLine(0, -width, 0, l1_, -width, 0); swModel.SketchManager.CreateLine(l1_, -width, 0, l1_, -(width + l2_), 0); swModel.SketchManager.CreateLine(l1_, -(width + l2_), 0, l1_ + l3_, -(width + l2_), 0); swModel.SketchManager.CreateLine(l1_ + l3_, -(width + l2_), 0, l1_ + l3_, -width, 0); } else { x_o = i * cell_length - width; y_o = 0; x_o_ = x_o + width; y_o_ = y_o - width; swModel.SketchManager.CreateLine(x_o, y_o, 0, x_o + l1, 0, 0); swModel.SketchManager.CreateLine(x_o + l1, 0, 0, x_o + l1, -l2, 0); swModel.SketchManager.CreateLine(x_o + l1, -l2, 0, x_o + l1 + l3, -l2, 0); swModel.SketchManager.CreateLine(x_o + l1 + l3, -l2, 0, x_o + l1 + l3, 0, 0); swModel.SketchManager.CreateLine(x_o_, y_o_, 0, x_o_ + l1_, y_o_, 0); swModel.SketchManager.CreateLine(x_o_ + l1_, y_o_, 0, x_o_ + l1_, y_o_ - l2_, 0); swModel.SketchManager.CreateLine(x_o_ + l1_, y_o_ - l2_, 0, x_o_ + l1_ + l3_, y_o_ - l2_, 0); swModel.SketchManager.CreateLine(x_o_ + l1_ + l3_, y_o_ - l2_, 0, x_o_ + l1_ + l3_, y_o_, 0); } } swModel.SketchManager.CreateLine(x_o_ + l1_ + l3_, y_o_, 0, x_o_ + l1_ + l3_, 0, 0); swModel.SketchManager.CreateLine(x_o_ + l1_ + l3_, 0, 0, x_o + l1 + l3, 0, 0); #endregion swModel.FeatureManager.FeatureExtrusion2( true, false, false, 0, 0, thickness, 0, false, false, false, false, 0, 0, false, false, false, false, true, true, true, 0, 0, true ); swModel.SaveAsSilent("D:\\TUD\\7.Semeter\\SA\\SA_code\\c#\\W_Form_analyse_FEM_NN_GUI\\Geometrie.sldprt", true); swApp.CloseAllDocuments(true); swApp.OpenDoc("D:\\TUD\\7.Semeter\\SA\\SA_code\\c#\\W_Form_analyse_FEM_NN_GUI\\Geometrie.sldprt", (int)swOpenDocOptions_e.swOpenDocOptions_Silent); Console.WriteLine("Geometrie success"); #endregion #region simulaiton string path_to_cosworks_dll = @"C:\Program Files\SOLIDWORKS Corp\SOLIDWORKS\Simulation\cosworks.dll"; errors = swApp.LoadAddIn(path_to_cosworks_dll); COSMOSObject = (CwAddincallback)swApp.GetAddInObject("SldWorks.Simulation"); try { COSMOSWORKS = (CosmosWorks)COSMOSObject.CosmosWorks; } catch (Exception) { Console.WriteLine("something wrong in Simulaiton Add In, start a new one"); swApp.CloseAllDocuments(true); return; } COSMOSWORKS = COSMOSObject.CosmosWorks; //Get active document ActDoc = (CWModelDoc)COSMOSWORKS.ActiveDoc; //Create new static study StudyMngr = (CWStudyManager)ActDoc.StudyManager; Study = (CWStudy)StudyMngr.CreateNewStudy("static study", (int)swsAnalysisStudyType_e.swsAnalysisStudyTypeStatic, 0, out errCode); //Add materials //get MaterialLib strMaterialLib = swApp.GetExecutablePath() + "\\lang\\english\\sldmaterials\\solidworks materials.sldmat"; SolidMgr = Study.SolidManager; SolidComp = SolidMgr.GetComponentAt(0, out errCode); SolidBody = SolidComp.GetSolidBodyAt(0, out errCode); intStatus = SolidBody.SetLibraryMaterial(strMaterialLib, "AISI 1020"); //fixed restraints LBCMgr = Study.LoadsAndRestraintsManager; swModel = (ModelDoc2)swApp.ActiveDoc; swModel.ShowNamedView2("", (int)swStandardViews_e.swIsometricView); selectionMgr = (SelectionMgr)swModel.SelectionManager; isSelected = swModel.Extension.SelectByID2("", "FACE", 0, -width / 2.0, thickness / 2.0, false, 0, null, 0); if (isSelected) { object selectedFace = (object)selectionMgr.GetSelectedObject6(1, -1); object[] fixedFaces = { selectedFace }; CWRestraint restraint = (CWRestraint)LBCMgr.AddRestraint((int)swsRestraintType_e.swsRestraintTypeFixed, fixedFaces, null, out errCode); } swModel.ClearSelection2(true); //add force selectionMgr = (SelectionMgr)swModel.SelectionManager; isSelected = swModel.Extension.SelectByID2("", "FACE", x_o + l1 + l3 + (width / 2.0), 0, thickness / 2.0, false, 0, null, 0); if (isSelected) { object selectedFace = (object)selectionMgr.GetSelectedObject6(1, -1); object[] forceAdd = { selectedFace }; selectionMgr = (SelectionMgr)swModel.SelectionManager; swModel.Extension.SelectByID2("", "FACE", x_o + l1 + l3 + width, -(l4 + width) / 2.0, thickness / 2.0, false, 0, null, 0); object selectedFaceToForceDir = (object)selectionMgr.GetSelectedObject6(1, -1); double[] distValue = null; double[] forceValue = null; double[] Force = { F2, F3, F1 }; cwForce = (CWForce)LBCMgr.AddForce3((int)swsForceType_e.swsForceTypeForceOrMoment, (int)swsSelectionType_e.swsSelectionFaceEdgeVertexPoint, 2, 0, 0, 0, (distValue), (forceValue), false, true, (int)swsBeamNonUniformLoadDef_e.swsTotalLoad, 0, 7, 0.0, Force, false, false, (forceAdd), (selectedFaceToForceDir), false, out errCode); //i have tried to figure out these arguments for one day, keep them and dont't change them. //the way to check cwForce : cwForce.GetForceComponentValues() //ForceComponet: [int b1, // 1 if x-direction hat Force-komponent, else 0 // int b2, // 1 if y-direction hat Force-komponent, else 0 // int b3, // 1 if z-direction hat Force-komponent, else 0 // double d1, // Force-komponent in x // double d2, // Force-komponent in y // double d3 // Force-komponent in z // ] //PS: the definition of xyz seems like not the same as the global XYZ system in SW. swModel.ClearSelection2(true); //meshing CWMesh CWMeshObj = default(CWMesh); CWMeshObj = Study.Mesh; CWMeshObj.MesherType = (int)swsMesherType_e.swsMesherTypeStandard; CWMeshObj.Quality = (int)swsMeshQuality_e.swsMeshQualityDraft; errCode = Study.CreateMesh(0, MeshEleSize, MeshTol); CWMeshObj = null; //run analysis errCode = Study.RunAnalysis(); if (errCode != 0) { Console.WriteLine(string.Format("RunAnalysis errCode = {0}", errCode)); Console.WriteLine(string.Format("RunAnalysis failed")); errors = swApp.UnloadAddIn(path_to_cosworks_dll); swApp.CloseAllDocuments(true); Console.WriteLine(string.Format("please start a new one")); return; } Console.WriteLine("RunAnalysis successed, ready to get results"); //get results CWFeatobj = Study.Results; //get max von Mieses stress Stress = (object[])CWFeatobj.GetMinMaxStress((int)swsStressComponent_e.swsStressComponentVON, 0, 0, null, (int)swsStrengthUnit_e.swsStrengthUnitNewtonPerSquareMillimeter, out errCode); maxStress = (float)Stress[3]; //Stress: {node_with_minimum_stress, minimum_stress, node_with_maximum_stress, maximum_stress} Console.WriteLine(maxStress); if (maxStress >= 351.6) { Console.WriteLine("out of yield stress, start a new example"); errors = swApp.UnloadAddIn(path_to_cosworks_dll); swApp.CloseAllDocuments(true); textBox_FEM_result.Text = "out of yield stress"; return; } //get max URES displacement Disp = (object[])CWFeatobj.GetMinMaxDisplacement((int)swsDisplacementComponent_e.swsDisplacementComponentURES, 0, null, (int)swsLinearUnit_e.swsLinearUnitMillimeters, out errCode); maxDisp = (float)Disp[3]; //Disp: {node_with_minimum_displacement, minimum_displacement, node_with_maximum_displacement, maximum_displacement} CWFeatobj = null; Console.WriteLine(string.Format("max Displacement: {0:f4} mm", maxDisp)); textBox_FEM_result.Text = maxDisp.ToString(); } else { Console.WriteLine("not selected"); } #endregion errors = swApp.UnloadAddIn(path_to_cosworks_dll); swApp.CloseAllDocuments(true); }