コード例 #1
0
        /// <summary>
        /// Derives an .ipt from a .iam and saves it in the same directory.
        /// Returns resulting file name
        /// </summary>
        /// <param name="AssemblyFileName">Path to the target assembly file</param>
        /// <param name="OptionalProgramId">Optional program identifier (ie. FCAM, ACAD...) Saves as AssemblyFileName_OptionalProgramId.ipt</param>
        static public string DerivePartFromAssembly(string AssemblyFileName, string OptionalProgramId = "")
        {
            Application app;

            try
            {
                //get running application instance
                app         = GetInventorObject();
                app.Visible = true;

                //Create new empty part document to derive into
                Inventor.PartDocument doc = app.Documents.Add(DocumentTypeEnum.kPartDocumentObject) as PartDocument;

                //Create derived assembly definition from assembly file
                Inventor.DerivedAssemblyDefinition def = doc.ComponentDefinition.ReferenceComponents.DerivedAssemblyComponents.CreateDefinition(AssemblyFileName);

                //Derive from definition
                doc.ComponentDefinition.ReferenceComponents.DerivedAssemblyComponents.Add(def);

                //Save document with optional program use identifier
                doc.SaveAs($"{AssemblyFileName}_{OptionalProgramId}.ipt", false);

                string fileName = doc.FullFileName;

                doc.Close();

                return(fileName);
            }
            catch (Exception e)
            {
                throw new Exception("An error occured in the InventorHelperLib: " + e.Message);
            }

            finally
            {
                app = null;
            }

            return("");
        }
コード例 #2
0
        private void button1_Click(object sender, EventArgs e)
        {
            try
            {
                this.Hide();
                double h = 1, w = 1;
                if (m_Asm != null)
                {
                    CommandManager cmdMgr = invApp.CommandManager;
                    string         txt    = "";
                    //input = cmdMgr.UserInputEvents;
                    intEvts = cmdMgr.CreateInteractionEvents();
                    intEvts.InteractionDisabled = false;
                    sel = intEvts.SelectEvents;
                    sel.AddSelectionFilter(SelectionFilterEnum.kPartFaceFilter);
                    sel.OnSelect       += new SelectEventsSink_OnSelectEventHandler(select);
                    mouse               = intEvts.MouseEvents;
                    mouse.OnMouseClick += new MouseEventsSink_OnMouseClickEventHandler(selPt);
                    intEvts.Start();
                    intEvts.StatusBarText = "Выберите поверхность:";
                    //input.OnSelect += new UserInputEventsSink_OnSelectEventHandler(select);
                    //face = (Face)cmdMgr.Pick(SelectionFilterEnum.kPartFaceFilter, "Выберите поверхность:");
                    //input.OnSelect -= new UserInputEventsSink_OnSelectEventHandler(select);
                    flag = true;
                    while (flag)
                    {
                        invApp.UserInterfaceManager.DoEvents();
                    }
                    intEvts.Stop();
                    sel.OnSelect -= new SelectEventsSink_OnSelectEventHandler(select);
                    intEvts.MouseEvents.OnMouseClick -= new MouseEventsSink_OnMouseClickEventHandler(selPt);
                    List <string> tmp  = new List <string>();
                    string        name = comboBox1.Text;
                    m_Doc = (PartDocument)invApp.Documents.Add(DocumentTypeEnum.kPartDocumentObject, CreateVisible: false);
                    m_Doc.ComponentDefinition.BOMStructure = BOMStructureEnum.kPurchasedBOMStructure;
                    m_Doc.UnitsOfMeasure.LengthUnits       = UnitsTypeEnum.kMillimeterLengthUnits;
                    string filename = "";
                    for (int i = 0; i < attrXML.Count; i++)
                    {
                        if (attrXML[i].StartsWith("Name=" + name))
                        {
                            tmp.Add(attrXML[i]);
                            tmp.Add(valXML[i]);
                            i++;
                            while (i < attrXML.Count && attrXML[i].StartsWith("RowHeight="))
                            {
                                tmp.Add(attrXML[i]);
                                tmp.Add(valXML[i]);
                                i++;
                            }
                            break;
                        }
                    }
                    string nameStricker = "";
                    string strTmp       = tbl.substring(tmp[0], "PartNumber=");
                    nameStricker = strTmp;
                    if (strTmp != "")
                    {
                        m_Doc.PropertySets[3][2].Value = strTmp; filename += strTmp;
                    }
                    strTmp = tbl.substring(tmp[0], "Description=");
                    if (strTmp != "")
                    {
                        m_Doc.PropertySets[3][14].Value = strTmp;
                        filename += (filename == "") ? strTmp : "-" + strTmp;
                    }

                    Func <string, double> conv = s =>
                    {
                        char rep = (separator == ',') ? '.' : ',';
                        return((s.IndexOf(separator) != -1) ? Convert.ToDouble(s) : Convert.ToDouble(s.Replace(rep, separator)));
                    };

                    strTmp = tbl.substring(tmp[0], "Height=");
                    if (strTmp != "")
                    {
                        h = conv(strTmp);
                    }
                    strTmp = tbl.substring(tmp[0], "Width=");
                    if (strTmp != "")
                    {
                        w = conv(strTmp);
                    }
                    strTmp = tbl.substring(tmp[0], "txt=");
                    if (strTmp != "")
                    {
                        txt = strTmp;
                    }
                    strTmp = tbl.substring(tmp[0], "Sort=");
                    if (strTmp != "")
                    {
                        m_Doc.PropertySets[1][4].Value = strTmp;
                    }
                    strTmp = tbl.substring(tmp[0], "Note=");
                    if (strTmp != "")
                    {
                        m_Doc.PropertySets[1][5].Value = strTmp;
                    }
                    strTmp = tbl.substring(tmp[0], "Triangle=");
                    if (strTmp == "False")
                    {
                        triangle = false;
                    }
                    else
                    {
                        triangle = true;
                    }
                    strTmp = tbl.substring(tmp[0], "Offset1=");
                    if (strTmp != "")
                    {
                        offset1 = conv(strTmp) / 10;
                    }
                    strTmp = tbl.substring(tmp[0], "Offset2=");
                    if (strTmp != "")
                    {
                        offset2 = conv(strTmp) / 10;
                    }
                    strTmp = tbl.substring(tmp[0], "Mirror=");
                    if (strTmp != "")
                    {
                        mirror = true;
                    }

                    if (face.SurfaceType == SurfaceTypeEnum.kPlaneSurface)
                    {
                        filename += "-" + w.ToString() + "x" + h.ToString();
                        if (!System.IO.File.Exists(path(m_Asm.FullFileName) + filename + ".ipt"))
                        {
                            Plane plane = (Plane)face.Geometry;
                            vecZ = plane.Normal;
                            if (!triangle)
                            {
                                planarSticker(ref m_Doc, h, w, txt);
                            }
                            else
                            {
                                triangleSticker(ref m_Doc, h, w, txt);
                            }
                        }
                    }
                    else if (face.SurfaceType == SurfaceTypeEnum.kCylinderSurface)
                    {
                        R         = Math.Round(((Cylinder)face.Geometry).Radius, 2);
                        filename += "-" + w.ToString() + "x" + h.ToString() + "x" + (R * 10).ToString();
                        if (!System.IO.File.Exists(path(m_Asm.FullFileName) + filename + ".ipt"))
                        {
                            if (this.radioButton1.Checked)
                            {
                                circleSticker(ref m_Doc, w, h, R, txt); filename += "(верт)";
                            }
                            else
                            {
                                circleSticker(ref m_Doc, h, w, R, txt);
                            }
                        }
                    }
                    filename = path(m_Asm.FullFileName) + filename + ".ipt";
                    if (!System.IO.File.Exists(filename))
                    {
                        m_Doc.SaveAs(filename, false);
                        Document tmp_Doc = invApp.Documents.Open(filename, false);
                        tmp_Doc.PropertySets[3][2].Value = nameStricker;
                        tmp_Doc.Save();
                        tmp_Doc.Close();
                        m_Doc.Close();
                    }

                    Inventor.Point pt = m_TG.CreatePoint();
                    //pos = m_TG.CreateMatrix();


                    //rot.SetCoordinateSystem(insPt, m_TG.CreateVector(YCoord: 1), m_TG.CreateVector(1) , m_TG.CreateVector(ZCoord: 1));

                    //pos.TransformBy(rot);
//                         if (face.SurfaceType == SurfaceTypeEnum.kPlaneSurface && !System.IO.File.Exists(filename))
//                         {

                    //}

                    AssemblyComponentDefinition compDef = m_Asm.ComponentDefinition;
                    //pos.Cell[4, 1] = insPt.X; pos.Cell[4, 2] = insPt.Y; pos.Cell[4, 3] = insPt.Z;
                    rot = m_TG.CreateMatrix();
                    ComponentOccurrence occ = compDef.Occurrences.Add(filename, rot);
                    Vector vec1             = InvDoc.u.getAxis(face);
                    Vector vec2             = InvDoc.u.getAxis(occ);
                    if (!InvDoc.u.eq(vec1, vec2))
                    {
                        rot.SetToRotateTo(vec1, vec2);
                    }
                    //m_Asm.ComponentDefinition.WorkPoints.AddFixed(insPt);
                    vec = pt.VectorTo(insPt);
                    rot.SetTranslation(vec);
                    //rot.Cell[1, 4] = insPt.X; rot.Cell[2, 4] = insPt.Y; rot.Cell[3, 4] = insPt.Z;
                    //occ.Transformation = rot;
                    occ.SetTransformWithoutConstraints(rot);
                    //rot.SetToRotateTo(m_TG.CreateVector(ZCoord: 1), vecZ.AsVector(), m_TG.CreateVector(XCoord: 1));
                    //rot.SetTranslation(vec);
                    //return;
                    //Face face2 = occ.SurfaceBodies[1].Faces[5];
                    object fac = null;
                    occ.CreateGeometryProxy(((PartComponentDefinition)occ.Definition).WorkPlanes[3], out fac);
                    WorkPlaneProxy          face2 = (WorkPlaneProxy)fac;
                    PartComponentDefinition def   = (PartComponentDefinition)occ.Definition;
                    //Inventor.Point pt2 = def.WorkPoints[1].Point;
                    //pos.Invert();
                    //pt2.TransformBy(pos);
                    if (face.SurfaceType == SurfaceTypeEnum.kPlaneSurface)
                    {
                        compDef.Constraints.AddFlushConstraint(face, face2, 0);
                    }
                    else if (face.SurfaceType == SurfaceTypeEnum.kCylinderSurface)
                    {
                        //foreach (Face f in occ.SurfaceBodies[1].Faces)
                        //{
                        //    if (f.SurfaceType == SurfaceTypeEnum.kCylinderSurface)
                        //    {
                        //        if (Math.Round(((Cylinder)f.Geometry).Radius, 2) == R)
                        //        {
                        //            face2 = f; break;
                        //        }
                        //    }
                        //}
                        occ.CreateGeometryProxy(((PartComponentDefinition)occ.Definition).WorkAxes[2], out fac);
                        compDef.Constraints.AddMateConstraint((WorkAxisProxy)fac, face, 0, InferredTypeEnum.kInferredLine, InferredTypeEnum.kInferredLine);
                    }
                    //Matrix trans = m_TG.CreateMatrix();
                    //trans.SetTranslation(vec,true);
                    //occ.Transformation.Cell[1, 4] = insPt.X; occ.Transformation.Cell[2, 4] = insPt.Y; occ.Transformation.Cell[3, 4] = insPt.Z;

                    object face1 = null;

                    if (face.SurfaceType == SurfaceTypeEnum.kCylinderSurface)
                    {
                        if (offset1 > 0.05 && offset1 < 0.4)
                        {
                            //PartComponentDefinition pDef = ((PartDocument)((FaceProxy)face).ContainingOccurrence.Definition.Document).ComponentDefinition;
                            ((FaceProxy)face).ContainingOccurrence.CreateGeometryProxy(InvDoc.u.getPlane((FaceProxy)face), out fac);
                            //createProxy((FaceProxy)face, (int)(offset1 * 10), ref fac);
                            //occ.CreateGeometryProxy(((PartComponentDefinition)occ.Definition).WorkPlanes[(int)(offset1 * 10)], out fac);
                            face1   = fac;
                            offset1 = 0;
                        }
                        else /*if (offset1 != 0)*/
                        {
                            offset1 += w / 20;
                            ent      = (Edge)cmdMgr.Pick(SelectionFilterEnum.kPartEdgeCircularFilter, "Выберите торцевое ребро:");
                            if (ent.Faces[1].SurfaceType == SurfaceTypeEnum.kPlaneSurface)
                            {
                                face1 = ent.Faces[1];
                            }
                            else
                            {
                                face1 = ent.Faces[2];
                            }
                        }
//                         if (offset2 != 0)
//                         {
//                             offset2 += h / 20;
//                         }
                        //face1 = cmdMgr.Pick(SelectionFilterEnum.kPartEdgeCircularFilter, "Выберите тор"
                    }
                    else
                    {
                        if (offset1 > 0.05 && offset1 < 0.4)
                        {
                            createProxy((FaceProxy)face, (int)(offset1 * 10), ref fac);
                            //occ.CreateGeometryProxy(((PartComponentDefinition)occ.Definition).WorkPlanes[(int)(offset1 * 10)], out fac);
                            edge1   = fac;
                            offset1 = 0;
                        }
                        else /*if (offset1 != 0)*/
                        {
                            offset1 += h / 20;
                            edge1    = cmdMgr.Pick(SelectionFilterEnum.kAllEntitiesFilter, "Выберите ребро или плоскость:");
                        }
                    }
                    //face2 = occ.SurfaceBodies[1].Faces[2];
                    occ.CreateGeometryProxy(((PartComponentDefinition)occ.Definition).WorkPlanes[2], out fac);
                    face2 = (WorkPlaneProxy)fac;
                    MateConstraint mc = null; FlushConstraint fc = null;

//                     if (offset2 < 0.4)
//                     {
//                         face1 = createProxy(occ, (int)(offset2 * 10)); //compDef.WorkPlanes[(int)(offset2*10)];
//                     }
                    //else if (offset2 != 0) offset2 += h / 20;
                    if (face.SurfaceType == SurfaceTypeEnum.kCylinderSurface)
                    {
                        fc = compDef.Constraints.AddFlushConstraint(face2, face1, offset1);
                    }
                    else
                    {
                        mc = compDef.Constraints.AddMateConstraint(face2, edge1, offset1);
                    }
//                     Inventor.Point ptmc = occ.RangeBox.MinPoint;
//                     SelectionFilterEnum [] f = {SelectionFilterEnum.kPartFaceFilter};
//                     ObjectsEnumerator en = compDef.FindUsingPoint(ptmc, ref f, 0.1);
                    if (/*en.Count < 3*/ InvDoc.u.intersPoint(compDef, occ, (FaceProxy)face))
                    {
                        if (mc != null)
                        {
                            mc.Offset.Value = -(double)mc.Offset.Value;
                        }
                        //else fc.Offset.Value = - (double)fc.Offset.Value;
                    }
                    if (offset2 > 0.05 && offset2 < 0.4)
                    {
                        createProxy((FaceProxy)face, (int)(offset2 * 10), ref fac);
                        //occ.CreateGeometryProxy(((PartComponentDefinition)face.ReferenceComponent.ReferencedDocumentDescriptor.ReferencedDocument.Definition).WorkPlanes[(int)(offset2 * 10)], out fac);
                        edge2   = fac;
                        offset2 = 0;
                    }
                    else /*if (offset2 != 0)*/
                    {
                        if (face.SurfaceType == SurfaceTypeEnum.kCylinderSurface)
                        {
                            offset2 += h / 20;
                        }
                        else
                        {
                            offset2 += w / 20;
                        }
                        edge2 = cmdMgr.Pick(SelectionFilterEnum.kAllEntitiesFilter, "Выберите ребро или плоскость:");
                    }

                    //face2 = occ.SurfaceBodies[1].Faces[1];
                    occ.CreateGeometryProxy(((PartComponentDefinition)occ.Definition).WorkPlanes[1], out fac);
                    face2 = (WorkPlaneProxy)fac;
                    mc    = compDef.Constraints.AddMateConstraint(face2, edge2, offset2);
                    if (mc.HealthStatus == HealthStatusEnum.kInconsistentHealth)
                    {
                        occ.Constraints[2].ConvertToFlushConstraint(occ.Constraints[2].EntityOne, occ.Constraints[2].EntityTwo, offset1);
                    }
                    //en = compDef.FindUsingPoint(ptmc, ref f, 0.1);
                    m_Asm.Update();
                    if (/*en.Count < 3*/ InvDoc.u.intersPoint(compDef, occ, (FaceProxy)face))
                    {
                        mc.Delete();
                        mc = compDef.Constraints.AddMateConstraint(face2, edge2, offset2);
                        m_Asm.Update();
                        if (InvDoc.u.intersPoint(compDef, occ, (FaceProxy)face))
                        {
                            //mc.Delete();
                            //mc = compDef.Constraints.AddMateConstraint(face2, edge1, -offset2);
                            double dist = Macros.StandardAddInServer.m_inventorApplication.MeasureTools.GetMinimumDistance(occ.RangeBox.MinPoint, edge2);
                            if (dist > offset2 * 2)
                            {
                                rot = m_TG.CreateMatrix();
                                Vector tr = occ.Transformation.Translation;
                                rot.SetToRotation(Math.PI, InvDoc.u.getAxis(occ), m_TG.CreatePoint(tr.X, tr.Y, tr.Z));
                                mc.Delete();
                                occ.Transformation = rot;
                                mc = compDef.Constraints.AddMateConstraint(face2, edge2, offset2);
                                if (InvDoc.u.intersPoint(compDef, occ, (FaceProxy)face))
                                {
                                    mc.Offset.Value = -(double)mc.Offset.Value;
                                }
                            }
                            else if (InvDoc.u.intersPoint(compDef, occ, (FaceProxy)face))
                            {
                                mc.Offset.Value = -(double)mc.Offset.Value;
                            }
                            m_Asm.Update();
                        }
                        //mc.Offset.Value = -(double)mc.Offset.Value;
                    }
                    //occ.Transformation = trans;
                }

                this.Close();
            }
            catch (Exception)
            {
                //MessageBox.Show(ex.ToString());
                this.Close();
            }
        }