public DxfUcs(string name, WW.Math.Point3D origin, Vector3D xAxis, Vector3D yAxis) { this.string_0 = name; this.point3D_0 = origin; this.vector3D_0 = xAxis; this.vector3D_1 = yAxis; }
private WW.Math.Geometry.Polyline3D method_14(GraphicsConfig graphicsConfig) { double num1 = 2.0 * System.Math.PI / (double)graphicsConfig.NoOfArcLineSegments; double double2 = this.double_2; double double3 = this.double_3; if (double3 <= double2) { double3 += 2.0 * System.Math.PI; } Matrix4D transform = this.Transform; Vector3D vector3D0 = this.vector3D_0; vector3D0.Normalize(); Vector3D vector3D = Vector3D.CrossProduct(this.vector3D_1, vector3D0); vector3D.Normalize(); double length = this.vector3D_0.GetLength(); double num2 = this.double_1 * length; WW.Math.Geometry.Polyline3D polyline3D = new WW.Math.Geometry.Polyline3D(); for (; double2 < double3; double2 += num1) { WW.Math.Point3D point = (WW.Math.Point3D)(length * System.Math.Cos(double2) * vector3D0 + num2 * System.Math.Sin(double2) * vector3D); polyline3D.Add(transform.Transform(point)); } polyline3D.Add(transform.Transform((WW.Math.Point3D)(length * System.Math.Cos(double3) * vector3D0 + num2 * System.Math.Sin(double3) * vector3D))); return(polyline3D); }
public override void TransformMe( TransformConfig config, Matrix4D matrix, CommandGroup undoGroup) { // ISSUE: object of a compiler-generated type is created // ISSUE: variable of a compiler-generated type DxfVertex3D.Class642 class642 = new DxfVertex3D.Class642(); // ISSUE: reference to a compiler-generated field class642.dxfVertex3D_0 = this; // ISSUE: reference to a compiler-generated field class642.point3D_0 = this.point3D_0; this.point3D_0 = matrix.Transform(this.point3D_0); if (undoGroup == null) { return; } // ISSUE: object of a compiler-generated type is created // ISSUE: reference to a compiler-generated method // ISSUE: reference to a compiler-generated method undoGroup.UndoStack.Push((ICommand) new Command((object)this, new System.Action(new DxfVertex3D.Class643() { class642_0 = class642, point3D_0 = this.point3D_0 }.method_0), new System.Action(class642.method_0))); }
private void method_0(object sender, KeyPressEventArgs e) { if (e.KeyChar != '\r' && e.KeyChar != '\t') { if (e.KeyChar != '\x001B') { return; } this.class13_0.Transaction.Rollback(); e.Handled = true; } else { DxfCircle.Class13.Class537 controlPoints = (DxfCircle.Class13.Class537) this.class13_0.ControlPoints; WW.Math.Point3D point3D1 = (WW.Math.Point3D)(WW.Math.Point2D) controlPoints.Get(0); WW.Math.Point3D point3D2 = (WW.Math.Point3D)(WW.Math.Point2D) controlPoints.Get(1); if (((DxfEntity.DefaultCreateInteractor) this.Interactor).ControlPointIndex < 1) { int num1 = (int)MessageBox.Show(Class881.DxfCircle_CreateInteractor_WinFormsDrawable_NoCenterPointMessage); } else if (!controlPoints.EnteredRadius.HasValue && (((DxfEntity.DefaultCreateInteractor) this.Interactor).ControlPointIndex < 2 || point3D1 == point3D2)) { int num2 = (int)MessageBox.Show(Class881.DxfCircle_CreateInteractor_WinFormsDrawable_NoControlPoint1OrRadiusMessage); } else if (controlPoints.method_0()) { this.class13_0.Transaction.Commit(); } e.Handled = true; } }
public override void TransformMe( TransformConfig config, Matrix4D matrix, CommandGroup undoGroup) { // ISSUE: object of a compiler-generated type is created // ISSUE: variable of a compiler-generated type DxfRay.Class1056 class1056 = new DxfRay.Class1056(); // ISSUE: reference to a compiler-generated field class1056.dxfRay_0 = this; // ISSUE: reference to a compiler-generated field class1056.point3D_0 = this.point3D_0; // ISSUE: reference to a compiler-generated field class1056.vector3D_0 = this.vector3D_0; this.point3D_0 = matrix.Transform(this.point3D_0); this.vector3D_0 = matrix.Transform(this.vector3D_0).GetUnit(); if (undoGroup == null) { return; } // ISSUE: object of a compiler-generated type is created // ISSUE: reference to a compiler-generated method // ISSUE: reference to a compiler-generated method undoGroup.UndoStack.Push((ICommand) new Command((object)this, new System.Action(new DxfRay.Class1057() { class1056_0 = class1056, point3D_0 = this.point3D_0, vector3D_0 = this.vector3D_0 }.method_0), new System.Action(class1056.method_0))); }
public override void CopyFrom(DxfHandledObject from, CloneContext cloneContext) { base.CopyFrom(from, cloneContext); DxfVPort dxfVport = (DxfVPort)from; this.string_0 = dxfVport.string_0; this.point2D_0 = dxfVport.point2D_0; this.point2D_1 = dxfVport.point2D_1; this.point2D_2 = dxfVport.point2D_2; this.point2D_3 = dxfVport.point2D_3; this.vector2D_0 = dxfVport.vector2D_0; this.vector2D_1 = dxfVport.vector2D_1; this.vector3D_0 = dxfVport.vector3D_0; this.point3D_0 = dxfVport.point3D_0; this.double_0 = dxfVport.double_0; this.double_1 = dxfVport.double_1; this.double_2 = dxfVport.double_2; this.double_3 = dxfVport.double_3; this.double_4 = dxfVport.double_4; this.double_5 = dxfVport.double_5; this.double_6 = dxfVport.double_6; this.standardFlags_0 = dxfVport.standardFlags_0; this.ViewMode = dxfVport.viewMode_0; this.short_0 = dxfVport.short_0; this.short_1 = dxfVport.short_1; this.bool_0 = dxfVport.bool_0; this.bool_1 = dxfVport.bool_1; this.snapStyle_0 = dxfVport.snapStyle_0; this.short_2 = dxfVport.short_2; this.renderMode_0 = dxfVport.renderMode_0; this.bool_2 = dxfVport.bool_2; this.bool_3 = dxfVport.bool_3; this.Ucs = Class906.smethod_2(cloneContext, dxfVport.Ucs); this.orthographicType_0 = dxfVport.orthographicType_0; }
private void method_15( DrawContext.Wireframe context, Bitmap bitmap, out DxfRasterImage rasterImage, out Vector4D transformedOrigin, out Vector4D transformedXAxis, out Vector4D transformedYAxis) { GdiBitmap gdiBitmap = new GdiBitmap(bitmap); rasterImage = (DxfRasterImage) new DxfImage(); DxfImageDef imageDef = new DxfImageDef(context.Model); imageDef.SetBitmap((IBitmap)gdiBitmap); rasterImage.SetImageDef(imageDef, true); IClippingTransformer clippingTransformer = (IClippingTransformer)context.GetTransformer().Clone(); Matrix4D preTransform1 = Transformation4D.Translation((WW.Math.Vector3D) this.point3D_3); clippingTransformer.SetPreTransform(preTransform1); Matrix4D preTransform2 = Transformation4D.Scaling((this.point3D_2 - this.point3D_3).GetLength() / (double)bitmap.Width, (this.point3D_0 - this.point3D_3).GetLength() / (double)bitmap.Height, 1.0); clippingTransformer.SetPreTransform(preTransform2); Matrix4D matrix = clippingTransformer.Matrix; WW.Math.Point3D zero = WW.Math.Point3D.Zero; transformedOrigin = matrix.TransformTo4D(zero); transformedXAxis = matrix.TransformTo4D(zero + WW.Math.Vector3D.XAxis); transformedYAxis = matrix.TransformTo4D(zero + WW.Math.Vector3D.YAxis); }
public override void TransformMe( TransformConfig config, Matrix4D matrix, CommandGroup undoGroup) { // ISSUE: object of a compiler-generated type is created // ISSUE: variable of a compiler-generated type DxfRasterImage.Class738 class738 = new DxfRasterImage.Class738(); // ISSUE: reference to a compiler-generated field class738.dxfRasterImage_0 = this; // ISSUE: reference to a compiler-generated field class738.point3D_0 = this.point3D_0; // ISSUE: reference to a compiler-generated field class738.vector3D_0 = this.vector3D_0; // ISSUE: reference to a compiler-generated field class738.vector3D_1 = this.vector3D_1; // ISSUE: reference to a compiler-generated field class738.point3D_1 = matrix.Transform(this.point3D_0); // ISSUE: reference to a compiler-generated field class738.vector3D_2 = matrix.Transform(this.vector3D_0); // ISSUE: reference to a compiler-generated field class738.vector3D_3 = matrix.Transform(this.vector3D_1); // ISSUE: reference to a compiler-generated field this.point3D_0 = class738.point3D_1; // ISSUE: reference to a compiler-generated field this.vector3D_0 = class738.vector3D_2; // ISSUE: reference to a compiler-generated field this.vector3D_1 = class738.vector3D_3; // ISSUE: reference to a compiler-generated method // ISSUE: reference to a compiler-generated method undoGroup?.UndoStack.Push((ICommand) new Command((object)this, new System.Action(class738.method_0), new System.Action(class738.method_1))); }
public override void CopyFrom(DxfHandledObject from, CloneContext cloneContext) { base.CopyFrom(from, cloneContext); DxfLayout dxfLayout = (DxfLayout)from; this.bool_0 = dxfLayout.bool_0; this.string_8 = dxfLayout.string_8; this.layoutOptions_0 = dxfLayout.layoutOptions_0; this.int_0 = dxfLayout.int_0; this.rectangle2D_1 = dxfLayout.rectangle2D_1; this.point3D_0 = dxfLayout.point3D_0; this.point3D_1 = dxfLayout.point3D_1; this.point3D_2 = dxfLayout.point3D_2; this.double_7 = dxfLayout.double_7; this.Ucs = Class906.smethod_2(cloneContext, dxfLayout.Ucs); this.orthographicType_0 = dxfLayout.orthographicType_0; DxfBlock ownerBlock = dxfLayout.OwnerBlock; if (ownerBlock != null && ownerBlock.BlockBegin != null) { this.OwnerBlock = Class906.smethod_0(cloneContext, ownerBlock, true); } foreach (DxfHandledObject dxfHandledObject in (DxfHandledObjectCollection <DxfViewport>)dxfLayout.dxfViewportCollection_0) { this.dxfViewportCollection_0.Add((DxfViewport)dxfHandledObject.Clone(cloneContext)); } this.LastActiveViewport = (DxfHandledObject)cloneContext.GetExistingClone((IGraphCloneable)dxfLayout.LastActiveViewport); switch (dxfLayout.Handle) { case 30: case 34: this.SetHandle(dxfLayout.Handle); break; } }
public override void CopyFrom(DxfHandledObject from, CloneContext cloneContext) { base.CopyFrom(from, cloneContext); DxfOle dxfOle = (DxfOle)from; this.qualityType_0 = dxfOle.Quality; this.int_0 = dxfOle.OleDataVersion; this.int_1 = dxfOle.UnknownLong; this.byte_0 = dxfOle.UnknownByte1; this.byte_1 = dxfOle.UnknownByte2; this.point3D_0 = dxfOle.UpperLeft; this.point3D_1 = dxfOle.UpperRight; this.point3D_2 = dxfOle.LowerRight; this.point3D_3 = dxfOle.LowerLeft; this.short_1 = dxfOle.HimetricWidth; this.short_2 = dxfOle.HimetricHeight; this.int_2 = dxfOle.OleItemVersion; this.int_3 = (int)dxfOle.Model.UniqueOleItemCounter(); this.aspect_0 = dxfOle.AdviseType; this.bool_2 = dxfOle.Moniker; this.aspect_1 = dxfOle.DrawAspect; this.string_0 = dxfOle.UserType; this.type_0 = dxfOle.OleObjectType; this.dxfOleXData_0 = dxfOle.dxfOleXData_0; this.byte_2 = dxfOle.OleData; }
private WW.Math.Geometry.Polyline3D method_18(int power, int noOfSplineLineParts) { WW.Math.Geometry.Polyline3D polyline3D = new WW.Math.Geometry.Polyline3D(this.Closed); int count = this.dxfVertex3DCollection_0.Count; if (count < power + 1) { return(this.method_17()); } BSplineD bsplineD = new BSplineD(power, count, this.Closed); double[] result = new double[power + 1]; double maxU = bsplineD.MaxU; int num1 = noOfSplineLineParts + 1; double num2 = maxU / (double)(num1 - 1); int num3 = 0; double u = 0.0; while (num3 < num1) { int knotSpanIndex = bsplineD.GetKnotSpanIndex(u); bsplineD.EvaluateBasisFunctions(knotSpanIndex, u, result); WW.Math.Point3D zero = WW.Math.Point3D.Zero; for (int index = 0; index < power + 1; ++index) { DxfVertex3D dxfVertex3D = this.dxfVertex3DCollection_0[(knotSpanIndex - power + index) % count]; zero += result[index] * (Vector3D)dxfVertex3D.Position; } polyline3D.Add(zero); ++num3; u += num2; } return(polyline3D); }
public override void TransformMe( TransformConfig config, Matrix4D matrix, CommandGroup undoGroup) { // ISSUE: object of a compiler-generated type is created // ISSUE: variable of a compiler-generated type DxfPoint.Class420 class420 = new DxfPoint.Class420(); // ISSUE: reference to a compiler-generated field class420.dxfPoint_0 = this; // ISSUE: reference to a compiler-generated field class420.point3D_0 = this.point3D_0; // ISSUE: reference to a compiler-generated field class420.vector3D_0 = this.vector3D_0; // ISSUE: reference to a compiler-generated field class420.double_0 = this.double_1; this.point3D_0 = matrix.Transform(this.point3D_0); this.vector3D_0 = matrix.Transform(this.vector3D_0); this.double_1 *= this.vector3D_0.GetLength(); this.vector3D_0.Normalize(); if (undoGroup == null) { return; } // ISSUE: object of a compiler-generated type is created // ISSUE: reference to a compiler-generated method // ISSUE: reference to a compiler-generated method undoGroup.UndoStack.Push((ICommand) new Command((object)this, new System.Action(new DxfPoint.Class421() { class420_0 = class420, point3D_0 = this.point3D_0, vector3D_0 = this.vector3D_0, double_0 = this.double_1 }.method_0), new System.Action(class420.method_0))); }
public Dxf3DFace(EntityColor color, WW.Math.Point3D p1, WW.Math.Point3D p2, WW.Math.Point3D p3) { this.Color = color; this.list_0.Add(p1); this.list_0.Add(p2); this.list_0.Add(p3); }
public override void CopyFrom(DxfHandledObject from, CloneContext cloneContext) { base.CopyFrom(from, cloneContext); DxfMText dxfMtext = (DxfMText)from; this.string_1 = dxfMtext.string_1; this.Style = Class906.GetTextStyle(cloneContext, dxfMtext.Style); this.point3D_0 = dxfMtext.point3D_0; this.double_1 = dxfMtext.double_1; this.double_2 = dxfMtext.double_2; this.double_3 = dxfMtext.double_3; this.attachmentPoint_0 = dxfMtext.attachmentPoint_0; this.drawingDirection_0 = dxfMtext.drawingDirection_0; this.vector3D_0 = dxfMtext.vector3D_0; this.vector3D_1 = dxfMtext.vector3D_1; this.lineSpacingStyle_0 = dxfMtext.lineSpacingStyle_0; this.double_4 = dxfMtext.double_4; this.backgroundFillFlags_0 = dxfMtext.backgroundFillFlags_0; if (dxfMtext.backgroundFillInfo_0 == null) { this.backgroundFillInfo_0 = (BackgroundFillInfo)null; } else { this.backgroundFillInfo_0 = dxfMtext.backgroundFillInfo_0.Clone(cloneContext); } }
public Dxf3DFace(WW.Math.Point3D p1, WW.Math.Point3D p2, WW.Math.Point3D p3, WW.Math.Point3D p4) { this.list_0.Add(p1); this.list_0.Add(p2); this.list_0.Add(p3); this.list_0.Add(p4); }
public override bool ProcessMouseButtonUp( CanonicalMouseEventArgs e, InteractionContext context) { this.int_2 = this.method_1(context, e.Position); bool isActive = this.IsActive; if (this.IsActive) { if (this.int_0 > 0) { // ISSUE: object of a compiler-generated type is created // ISSUE: variable of a compiler-generated type DxfEntity.EditInteractor.Class16 class16 = new DxfEntity.EditInteractor.Class16(); // ISSUE: reference to a compiler-generated field class16.editInteractor_0 = this; int int1 = this.int_1; WW.Math.Point3D point3D0 = this.point3D_0; WW.Math.Point3D newOcsPoint = this.Entity.Transform.GetInverse().Transform(this.GetWcsPosition(e, context)); // ISSUE: reference to a compiler-generated field class16.action_0 = this.CreateDoAction(int1, newOcsPoint); // ISSUE: reference to a compiler-generated field class16.action_1 = this.CreateUndoAction(int1, point3D0); // ISSUE: reference to a compiler-generated method // ISSUE: reference to a compiler-generated method this.OnCommandCreated(new CommandEventArgs((ICommand) new WW.Actions.Command((object)this.Entity, new System.Action(class16.method_0), new System.Action(class16.method_1)))); this.Deactivate(); } else { ++this.int_0; } } return(isActive); }
protected override WW.Math.Point3D ProcessWcsPosition( InteractionContext context, WW.Math.Point3D p) { p = base.ProcessWcsPosition(context, p); p = DxfLine.CreateInteractor.SnapHorizontalOrVertical((DxfEntity.Interactor) this, p, context, this.ControlPointIndex); return(p); }
public override void CopyFrom(DxfHandledObject from, CloneContext cloneContext) { base.CopyFrom(from, cloneContext); DxfRay dxfRay = (DxfRay)from; this.point3D_0 = dxfRay.point3D_0; this.vector3D_0 = dxfRay.vector3D_0; }
public void SetValue(object owner, WW.Math.Point3D value) { DxfCircle dxfCircle = (DxfCircle)owner; Vector3D vector3D = value - dxfCircle.point3D_0; vector3D.Z = 0.0; dxfCircle.double_1 = vector3D.GetLength(); }
public bool method_0() { WW.Math.Point3D point3D1 = (WW.Math.Point3D)(WW.Math.Point2D) this.point3D_0[0]; WW.Math.Point3D point3D2 = (WW.Math.Point3D)(WW.Math.Point2D) this.point3D_0[1]; this.dxfCircle_0.point3D_0 = point3D1; this.dxfCircle_0.double_1 = !this.nullable_0.HasValue ? (point3D2 - point3D1).GetLength() : this.nullable_0.Value; return(true); }
public DxfVertex3D(WW.Math.Point3D position) { if (double.IsNaN(position.X) || double.IsNaN(position.Y) || double.IsNaN(position.Z)) { throw new DxfException("One of the vertex components is not a number (nan)."); } this.point3D_0 = position; }
public DxfVertex3D(double x, double y, double z) { if (double.IsNaN(x) || double.IsNaN(y) || double.IsNaN(z)) { throw new DxfException("One of the vertex components is not a number (nan)."); } this.point3D_0 = new WW.Math.Point3D(x, y, z); }
public override void CopyFrom(DxfHandledObject from, CloneContext cloneContext) { base.CopyFrom(from, cloneContext); DxfXLine dxfXline = (DxfXLine)from; this.point3D_0 = dxfXline.point3D_0; this.vector3D_0 = dxfXline.vector3D_0; }
public DxfInsertBase(DxfBlock block, WW.Math.Point3D insertionPoint) { this.Block = block; this.insertionPoint = insertionPoint; this.activeDxfHandledObjectCollection_0.Added += new ItemEventHandler <DxfAttribute>(this.method_15); this.activeDxfHandledObjectCollection_0.Set += new ItemSetEventHandler <DxfAttribute>(this.method_14); this.activeDxfHandledObjectCollection_0.Removed += new ItemEventHandler <DxfAttribute>(this.method_13); this.AttributesSeqEnd.vmethod_2((IDxfHandledObject)this); }
public void Set(int index, WW.Math.Point3D value) { this.point3D_0[index] = value; if (index < 0) { return; } this.method_0(); }
public void CopyFrom(DxfMLine.Segment from, CloneContext cloneContext) { this.point3D_0 = from.point3D_0; this.vector3D_0 = from.vector3D_0; this.vector3D_1 = from.vector3D_1; foreach (DxfMLine.Segment.Element element in from.list_0) { this.list_0.Add(element.Clone(cloneContext)); } }
public override void CopyFrom(DxfHandledObject from, CloneContext cloneContext) { base.CopyFrom(from, cloneContext); DxfCircle dxfCircle = (DxfCircle)from; this.point3D_0 = dxfCircle.point3D_0; this.double_1 = dxfCircle.double_1; this.vector3D_0 = dxfCircle.vector3D_0; this.double_2 = dxfCircle.double_2; }
private WW.Math.Point3D[,] method_21( int power, int mNoOfSplineLineParts, int nNoOfSplineLineParts) { int mcontrolPointCount = (int)this.MControlPointCount; int ncontrolPointCount = (int)this.NControlPointCount; bool closedInMdirection = this.ClosedInMDirection; BSplineD bsplineD1 = new BSplineD(power, mcontrolPointCount, closedInMdirection); double maxU1 = bsplineD1.MaxU; int length1 = mNoOfSplineLineParts + 1; double num1 = maxU1 / (double)(length1 - 1); BSplineD bsplineD2 = new BSplineD(power, ncontrolPointCount, this.ClosedInNDirection); double maxU2 = bsplineD2.MaxU; int length2 = nNoOfSplineLineParts + 1; double num2 = maxU2 / (double)(length2 - 1); double[] result1 = new double[power + 1]; double[] result2 = new double[power + 1]; WW.Math.Point3D[,] point3DArray = new WW.Math.Point3D[length1, length2]; int index1 = 0; double u1 = 0.0; while (index1 < length1) { int knotSpanIndex1 = bsplineD1.GetKnotSpanIndex(u1); bsplineD1.EvaluateBasisFunctions(knotSpanIndex1, u1, result1); int index2 = 0; double u2 = 0.0; while (index2 < length2) { int knotSpanIndex2 = bsplineD2.GetKnotSpanIndex(u2); bsplineD2.EvaluateBasisFunctions(knotSpanIndex2, u2, result2); WW.Math.Point3D zero1 = WW.Math.Point3D.Zero; for (int index3 = 0; index3 < power + 1; ++index3) { int num3 = (knotSpanIndex1 - power + index3) % mcontrolPointCount * ncontrolPointCount; Vector3D zero2 = Vector3D.Zero; for (int index4 = 0; index4 < power + 1; ++index4) { int num4 = (knotSpanIndex2 - power + index4) % ncontrolPointCount; DxfVertex3D dxfVertex3D = this.dxfHandledObjectCollection_1[num3 + num4]; zero2 += result2[index4] * (Vector3D)dxfVertex3D.Position; } zero1 += result1[index3] * zero2; } point3DArray[index1, index2] = zero1; ++index2; u2 += num2; } ++index1; u1 += num1; } return(point3DArray); }
public Segment( WW.Math.Point3D position, WW.Math.Vector3D direction, WW.Math.Vector3D miterDirection, DxfMLine.Segment.Element[] elements) { this.point3D_0 = position; this.vector3D_0 = direction; this.vector3D_1 = miterDirection; this.list_0.AddRange((IEnumerable <DxfMLine.Segment.Element>)elements); }
protected virtual System.Action CreateUndoAction( int controlPointIndex, WW.Math.Point3D originalOcsPoint) { // ISSUE: object of a compiler-generated type is created // ISSUE: reference to a compiler-generated method return(new System.Action(new DxfEntity.EditInteractor.Class18() { int_0 = controlPointIndex, point3D_0 = originalOcsPoint, editInteractor_0 = this }.method_0)); }