private void button3_Click(object sender, EventArgs e) { // Connect to or start Solid Edge. YCC_solidedge.getEdgeApplication(ref SEApp, true); SolidEdgeAssembly.AssemblyDocument asydoc = (SolidEdgeAssembly.AssemblyDocument)SEApp.ActiveDocument; SolidEdgeAssembly.Occurrences occs = (SolidEdgeAssembly.Occurrences)asydoc.Occurrences; SolidEdgeAssembly.Occurrence occ = (SolidEdgeAssembly.Occurrence)occs.Item(2); Array MinRangePoint = Array.CreateInstance(typeof(double), 0); Array MaxRangePoint = Array.CreateInstance(typeof(double), 0); //object[] w = new object[3]; occ.GetRangeBox(ref MinRangePoint, ref MaxRangePoint); SolidEdgePart.PartDocument ps = (SolidEdgePart.PartDocument)occ.OccurrenceDocument; //SolidEdgePart.Models ms = (SolidEdgePart.Models)ps.Models.Item[1]; SolidEdgePart.Model m = (SolidEdgePart.Model)ps.Models.Item(1); SolidEdgeGeometry.Body b = (SolidEdgeGeometry.Body)m.Body; SolidEdgeGeometry.Edges ees = (SolidEdgeGeometry.Edges)b.Edges[SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll]; SolidEdgeGeometry.Edge ee = (SolidEdgeGeometry.Edge)ees.Item(1); //ee.GetRange(ref MinRangePoint, ref MaxRangePoint); b.GetRange(ref MinRangePoint, ref MaxRangePoint); }
static void CreateFaceRotateByGeometry(SolidEdgePart.PartDocument partDocument) { SolidEdgePart.Models models = null; SolidEdgePart.Model model = null; SolidEdgeGeometry.Body body = null; SolidEdgePart.FaceRotates faceRotates = null; SolidEdgePart.FaceRotate faceRotate = null; SolidEdgeGeometry.Faces faces = null; SolidEdgeGeometry.Face face = null; SolidEdgeGeometry.Edges edges = null; SolidEdgeGeometry.Edge edge = null; double angle = 0.5; // Get a reference to the models collection. models = partDocument.Models; model = models.Item(1); body = (SolidEdgeGeometry.Body)model.Body; faces = (SolidEdgeGeometry.Faces)body.Faces[SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll]; face = (SolidEdgeGeometry.Face)faces.Item(2); edges = (SolidEdgeGeometry.Edges)body.Edges[SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll]; edge = (SolidEdgeGeometry.Edge)edges.Item(5); faceRotates = model.FaceRotates; // Add face rotate. faceRotate = faceRotates.Add( face, SolidEdgePart.FaceRotateConstants.igFaceRotateByGeometry, SolidEdgePart.FaceRotateConstants.igFaceRotateRecreateBlends, null, null, edge, SolidEdgePart.FaceRotateConstants.igFaceRotateAxisEnd, angle); }
// In a real world scenario, you would want logic (or user input) to pick the desired // face, edge & *vertex. Here, we just grab the 1st we can find. *Vertex can be null. static void GetFaceEdgeVertexForModel( SolidEdgePart.Model model, out SolidEdgeGeometry.Face face, out SolidEdgeGeometry.Edge edge, out SolidEdgeGeometry.Vertex vertex) { SolidEdgeGeometry.Body body = null; SolidEdgeGeometry.Faces faces; SolidEdgeGeometry.Edges edges = null; // Get a reference to the model's body. body = (SolidEdgeGeometry.Body)model.Body; // Query for all faces in the body. faces = (SolidEdgeGeometry.Faces)body.Faces[SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll]; // Get a reference to the first face. face = (SolidEdgeGeometry.Face)faces.Item(1); // Get a reference to the face's Edges collection, edges = (SolidEdgeGeometry.Edges)face.Edges; // Get a reference to the first edge. edge = (SolidEdgeGeometry.Edge)edges.Item(1); // Not using vertex in this example. vertex = null; }
static void Main(string[] args) { SolidEdgeFramework.Application application = null; SolidEdgeFramework.Documents documents = null; SolidEdgePart.PartDocument partDocument = null; SolidEdgePart.RefPlanes refPlanes = null; SolidEdgePart.RefPlane refPlane = null; SolidEdgePart.ProfileSets profileSets = null; SolidEdgePart.ProfileSet profileSet = null; SolidEdgePart.Profiles profiles = null; SolidEdgePart.Profile profile = null; SolidEdgeFrameworkSupport.Lines2d lines2d = null; SolidEdgeFrameworkSupport.Line2d line2d = null; SolidEdgeFrameworkSupport.Relations2d relations2d = null; SolidEdgeFrameworkSupport.Relation2d relation2d = null; SolidEdgePart.Models models = null; SolidEdgePart.Model model = null; List <SolidEdgePart.Profile> profileList = new List <SolidEdgePart.Profile>(); int status = 0; SolidEdgePart.ExtrudedProtrusions extrudedProtrusions = null; SolidEdgePart.ExtrudedProtrusion extrudedProtrusion = null; SolidEdgeGeometry.Edges edges = null; List <object> edgeList = new List <object>(); SolidEdgeGeometry.Faces faces = null; SolidEdgePart.Chamfers chamfers = null; SolidEdgePart.Chamfer chamfer = null; try { // Register with OLE to handle concurrency issues on the current thread. SolidEdgeCommunity.OleMessageFilter.Register(); // Connect to or start Solid Edge. application = SolidEdgeCommunity.SolidEdgeUtils.Connect(true, true); // Bring Solid Edge to the foreground. application.Activate(); // Get a reference to the documents collection. documents = application.Documents; // Create a new part document. partDocument = documents.AddPartDocument(); // Always a good idea to give SE a chance to breathe. application.DoIdle(); refPlanes = partDocument.RefPlanes; refPlane = refPlanes.Item(1); profileSets = partDocument.ProfileSets; profileSet = profileSets.Add(); profiles = profileSet.Profiles; profile = profiles.Add(refPlane); profileList.Add(profile); lines2d = profile.Lines2d; line2d = lines2d.AddBy2Points(0, 0, 0.06, 0); line2d = lines2d.AddBy2Points(0.06, 0, 0.06, 0.06); line2d = lines2d.AddBy2Points(0.06, 0.06, 0, 0.06); line2d = lines2d.AddBy2Points(0, 0.06, 0, 0); relations2d = (SolidEdgeFrameworkSupport.Relations2d)profile.Relations2d; relation2d = relations2d.AddKeypoint( Object1: lines2d.Item(1), Index1: (int)SolidEdgeConstants.KeypointIndexConstants.igLineEnd, Object2: lines2d.Item(2), Index2: (int)SolidEdgeConstants.KeypointIndexConstants.igLineStart); relation2d = relations2d.AddKeypoint( Object1: lines2d.Item(2), Index1: (int)SolidEdgeConstants.KeypointIndexConstants.igLineEnd, Object2: lines2d.Item(3), Index2: (int)SolidEdgeConstants.KeypointIndexConstants.igLineStart); relation2d = relations2d.AddKeypoint( Object1: lines2d.Item(3), Index1: (int)SolidEdgeConstants.KeypointIndexConstants.igLineEnd, Object2: lines2d.Item(4), Index2: (int)SolidEdgeConstants.KeypointIndexConstants.igLineStart); relation2d = relations2d.AddKeypoint( Object1: lines2d.Item(4), Index1: (int)SolidEdgeConstants.KeypointIndexConstants.igLineEnd, Object2: lines2d.Item(1), Index2: (int)SolidEdgeConstants.KeypointIndexConstants.igLineStart); // Make sure profile is closed. status = profile.End(SolidEdgePart.ProfileValidationType.igProfileClosed); if (status != 0) { throw new System.Exception("Profile not closed."); } models = partDocument.Models; model = models.AddFiniteExtrudedProtrusion( NumberOfProfiles: profileList.Count, ProfileArray: profileList.ToArray(), ProfilePlaneSide: SolidEdgePart.FeaturePropertyConstants.igRight, ExtrusionDistance: 0.02); profile.Visible = false; extrudedProtrusions = model.ExtrudedProtrusions; extrudedProtrusion = extrudedProtrusions.Item(1); //edges = (SolidEdgeGeometry.Edges)extrudedProtrusion.get_Edges( // SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll); //edgeList.Add(edges.Item(5)); //edgeList.Add(edges.Item(8)); faces = (SolidEdgeGeometry.Faces) extrudedProtrusion.get_Faces(SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll); chamfers = model.Chamfers; SolidEdgeGeometry.Face face = (SolidEdgeGeometry.Face)faces.Item(1); double setbackDistance1 = 0.009; double setbackDistance2 = 0.001; edges = (SolidEdgeGeometry.Edges)face.Edges; edgeList.Add(edges.Item(1)); chamfer = chamfers.AddUnequalSetback( ReferenceFace: face, NumberOfEdgeSets: edgeList.Count, EdgeSetArray: edgeList.ToArray(), SetbackDistance1: setbackDistance1, SetbackDistance2: setbackDistance2); // Switch to ISO view. application.StartCommand(SolidEdgeConstants.PartCommandConstants.PartViewISOView); } catch (System.Exception ex) { Console.WriteLine(ex.Message); } finally { SolidEdgeCommunity.OleMessageFilter.Unregister(); } }
static void Main(string[] args) { SolidEdgeFramework.Application application = null; SolidEdgeFramework.Documents documents = null; SolidEdgePart.PartDocument partDocument = null; SolidEdgePart.RefPlanes refPlanes = null; SolidEdgePart.RefPlane refPlane = null; SolidEdgePart.Models models = null; SolidEdgePart.Model model = null; SolidEdgeGeometry.Body body = null; SolidEdgePart.FaceRotates faceRotates = null; SolidEdgePart.FaceRotate faceRotate = null; SolidEdgeGeometry.Faces faces = null; SolidEdgeGeometry.Face face = null; SolidEdgeGeometry.Edges edges = null; SolidEdgeGeometry.Edge edge = null; SolidEdgeFramework.SelectSet selectSet = null; double angle = 0.5; try { // Register with OLE to handle concurrency issues on the current thread. SolidEdgeCommunity.OleMessageFilter.Register(); // Connect to or start Solid Edge. application = SolidEdgeCommunity.SolidEdgeUtils.Connect(true, true); // Get a reference to the documents collection. documents = application.Documents; // Create a new part document. partDocument = documents.AddPartDocument(); // Always a good idea to give SE a chance to breathe. application.DoIdle(); // Get a reference to the RefPlanes collection. refPlanes = partDocument.RefPlanes; // Get a reference to a RefPlane. refPlane = refPlanes.GetFrontPlane(); List <double[]> linesArray = new List <double[]>(); linesArray.Add(new double[] { 0, 0, 0.08, 0 }); linesArray.Add(new double[] { 0.08, 0, 0.08, 0.06 }); linesArray.Add(new double[] { 0.08, 0.06, 0.064, 0.06 }); linesArray.Add(new double[] { 0.064, 0.06, 0.064, 0.02 }); linesArray.Add(new double[] { 0.064, 0.02, 0.048, 0.02 }); linesArray.Add(new double[] { 0.048, 0.02, 0.048, 0.06 }); linesArray.Add(new double[] { 0.048, 0.06, 0.032, 0.06 }); linesArray.Add(new double[] { 0.032, 0.06, 0.032, 0.02 }); linesArray.Add(new double[] { 0.032, 0.02, 0.016, 0.02 }); linesArray.Add(new double[] { 0.016, 0.02, 0.016, 0.06 }); linesArray.Add(new double[] { 0.016, 0.06, 0, 0.06 }); linesArray.Add(new double[] { 0, 0.06, 0, 0 }); // Call helper method to create the actual geometry. PartHelper.CreateFiniteExtrudedProtrusion(partDocument, refPlane, linesArray.ToArray(), SolidEdgePart.FeaturePropertyConstants.igRight, 0.005); // Get a reference to the models collection. models = partDocument.Models; model = models.Item(1); body = (SolidEdgeGeometry.Body)model.Body; faces = (SolidEdgeGeometry.Faces)body.Faces[SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll]; face = (SolidEdgeGeometry.Face)faces.Item(2); edges = (SolidEdgeGeometry.Edges)body.Edges[SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll]; edge = (SolidEdgeGeometry.Edge)edges.Item(5); faceRotates = model.FaceRotates; // Add face rotate. faceRotate = faceRotates.Add( face, SolidEdgePart.FaceRotateConstants.igFaceRotateByGeometry, SolidEdgePart.FaceRotateConstants.igFaceRotateRecreateBlends, null, null, edge, SolidEdgePart.FaceRotateConstants.igFaceRotateAxisEnd, angle); // Get a reference to the ActiveSelectSet. selectSet = application.ActiveSelectSet; // Empty ActiveSelectSet. selectSet.RemoveAll(); // Add new FaceRotate to ActiveSelectSet. selectSet.Add(faceRotate); // Switch to ISO view. application.StartCommand(SolidEdgeConstants.PartCommandConstants.PartViewISOView); } catch (System.Exception ex) { Console.WriteLine(ex.Message); } finally { SolidEdgeCommunity.OleMessageFilter.Unregister(); } }
static void Main(string[] args) { SolidEdgeFramework.Application application = null; SolidEdgeFramework.Documents documents = null; SolidEdgePart.SheetMetalDocument sheetMetalDocument = null; SolidEdgePart.Models models = null; SolidEdgePart.Model model = null; SolidEdgePart.FlatPatternModels flatPatternModels = null; SolidEdgePart.FlatPatternModel flatPatternModel = null; SolidEdgeGeometry.Body body = null; SolidEdgeGeometry.Faces faces; SolidEdgeGeometry.Face face = null; SolidEdgeGeometry.Edges edges = null; SolidEdgeGeometry.Edge edge = null; SolidEdgeGeometry.Vertex vertex = null; bool useFlatPattern = true; bool flatPatternIsUpToDate = false; string outFile = null; try { // Register with OLE to handle concurrency issues on the current thread. SolidEdgeCommunity.OleMessageFilter.Register(); // Connect to Solid Edge, application = SolidEdgeCommunity.SolidEdgeUtils.Connect(false); // Get a reference to the Documents collection. documents = application.Documents; // Get a refernce to the active sheetmetal document. sheetMetalDocument = application.GetActiveDocument <SolidEdgePart.SheetMetalDocument>(false); if (sheetMetalDocument == null) { throw new System.Exception("No active document."); } // Get a reference to the Models collection, models = sheetMetalDocument.Models; // Check for geometry. if (models.Count == 0) { throw new System.Exception("No geometry defined."); } // Get a reference to the one and only model. model = models.Item(1); // Get a reference to the FlatPatternModels collection, flatPatternModels = sheetMetalDocument.FlatPatternModels; // Observation: SaveAsFlatDXFEx() will fail if useFlatPattern is specified and // flatPatternModels.Count = 0. // The following code will turn off the useFlatPattern switch if flatPatternModels.Count = 0. if (useFlatPattern) { if (flatPatternModels.Count > 0) { for (int i = 1; i <= flatPatternModels.Count; i++) { flatPatternModel = flatPatternModels.Item(i); flatPatternIsUpToDate = flatPatternModel.IsUpToDate; // If we find one that is up to date, call it good and bail. if (flatPatternIsUpToDate) { break; } } if (flatPatternIsUpToDate == false) { // Flat patterns exist but are out of date. useFlatPattern = false; } } else { // Can't use flat pattern if none exist. useFlatPattern = false; } } // In a real world scenario, you would want logic (or user input) to pick the desired // face, edge & *vertex. Here, we just grab the 1st we can find. *Vertex can be null. // Get a reference to the model's body. body = (SolidEdgeGeometry.Body)model.Body; // Query for all faces in the body. faces = (SolidEdgeGeometry.Faces)body.Faces[SolidEdgeGeometry.FeatureTopologyQueryTypeConstants.igQueryAll]; // Get a reference to the first face. face = (SolidEdgeGeometry.Face)faces.Item(1); // Get a reference to the face's Edges collection, edges = (SolidEdgeGeometry.Edges)face.Edges; // Get a reference to the first edge. edge = (SolidEdgeGeometry.Edge)edges.Item(1); // Not using vertex in this example. vertex = null; outFile = System.IO.Path.ChangeExtension(sheetMetalDocument.FullName, ".dxf"); // Observation: If .par or .psm is specified in outFile, SE will open the file. // Even if useFlatPattern = true, it's a good idea to specify defaults for face, edge & vertex. // I've seen where outFile of .dxf would work but .psm would fail if the defaults were null; models.SaveAsFlatDXFEx(outFile, face, edge, vertex, useFlatPattern); if (useFlatPattern) { Console.WriteLine("Saved '{0}' using Flat Pattern.", outFile); } else { Console.WriteLine("Saved '{0}' without using Flat Pattern.", outFile); } } catch (System.Exception ex) { Console.WriteLine(ex.Message); } finally { SolidEdgeCommunity.OleMessageFilter.Unregister(); } }