public BoundingBox GetBoundingBox(bool accurate) { #if RHINO_SDK RhinoObject parent_object = ParentRhinoObject(); #endif if (accurate) { BoundingBox bbox = new BoundingBox(); Transform xf = new Transform(); #if RHINO_SDK // 3 July 2018 S. Baer (RH-46926) // When the object is non-const there is a good chance the geometry is // different than what is in the original parent object' geometry. Skip // using the parent's bbox getter when in this situation if (null != parent_object && !IsNonConst) { IntPtr ptr_parent_rhinoobject = parent_object.ConstPointer(); if (UnsafeNativeMethods.CRhinoObject_GetTightBoundingBox(ptr_parent_rhinoobject, ref bbox, ref xf, false)) { return(bbox); } } #endif AnnotationBase ann = this as AnnotationBase; if (ann != null) { return(ann.InternalGetBoundingBox()); } IntPtr ptr = ConstPointer(); return(UnsafeNativeMethods.ON_Geometry_GetTightBoundingBox(ptr, ref bbox, ref xf, false) ? bbox : BoundingBox.Empty); } else { BoundingBox rc = new BoundingBox(); #if RHINO_SDK if (null != parent_object && !IsNonConst) { IntPtr ptr_parent_rhinoobject = parent_object.ConstPointer(); if (UnsafeNativeMethods.CRhinoObject_BoundingBox(ptr_parent_rhinoobject, ref rc)) { return(rc); } } #endif AnnotationBase ann = this as AnnotationBase; if (ann != null) { return(ann.InternalGetBoundingBox()); } IntPtr ptr = ConstPointer(); UnsafeNativeMethods.ON_Geometry_BoundingBox(ptr, ref rc); return(rc); } }
internal static GeometryBase CreateGeometryHelper(IntPtr pGeometry, object parent, int subobject_index) { if (IntPtr.Zero == pGeometry) return null; int type = UnsafeNativeMethods.ON_Geometry_GetGeometryType(pGeometry); if (type < 0) return null; GeometryBase rc = null; switch (type) { case idxON_Curve: //1 rc = new Curve(pGeometry, parent, subobject_index); break; case idxON_NurbsCurve: //2 rc = new NurbsCurve(pGeometry, parent, subobject_index); break; case idxON_PolyCurve: // 3 rc = new PolyCurve(pGeometry, parent, subobject_index); break; case idxON_PolylineCurve: //4 rc = new PolylineCurve(pGeometry, parent, subobject_index); break; case idxON_ArcCurve: //5 rc = new ArcCurve(pGeometry, parent, subobject_index); break; case idxON_LineCurve: //6 rc = new LineCurve(pGeometry, parent, subobject_index); break; case idxON_Mesh: //7 rc = new Mesh(pGeometry, parent); break; case idxON_Point: //8 rc = new Point(pGeometry, parent); break; case idxON_TextDot: //9 rc = new TextDot(pGeometry, parent); break; case idxON_Surface: //10 rc = new Surface(pGeometry, parent); break; case idxON_Brep: //11 rc = new Brep(pGeometry, parent); break; case idxON_NurbsSurface: //12 rc = new NurbsSurface(pGeometry, parent); break; case idxON_RevSurface: //13 rc = new RevSurface(pGeometry, parent); break; case idxON_PlaneSurface: //14 rc = new PlaneSurface(pGeometry, parent); break; case idxON_ClippingPlaneSurface: //15 rc = new ClippingPlaneSurface(pGeometry, parent); break; case idxON_Annotation2: // 16 rc = new AnnotationBase(pGeometry, parent); break; case idxON_Hatch: // 17 rc = new Hatch(pGeometry, parent); break; case idxON_TextEntity2: //18 rc = new TextEntity(pGeometry, parent); break; case idxON_SumSurface: //19 rc = new SumSurface(pGeometry, parent); break; case idxON_BrepFace: //20 { int faceindex = -1; IntPtr pBrep = UnsafeNativeMethods.ON_BrepSubItem_Brep(pGeometry, ref faceindex); if (pBrep != IntPtr.Zero && faceindex >= 0) { Brep b = new Brep(pBrep, parent); rc = b.Faces[faceindex]; } } break; case idxON_BrepEdge: // 21 { int edgeindex = -1; IntPtr pBrep = UnsafeNativeMethods.ON_BrepSubItem_Brep(pGeometry, ref edgeindex); if (pBrep != IntPtr.Zero && edgeindex >= 0) { Brep b = new Brep(pBrep, parent); rc = b.Edges[edgeindex]; } } break; case idxON_InstanceDefinition: // 22 rc = new InstanceDefinitionGeometry(pGeometry, parent); break; case idxON_InstanceReference: // 23 rc = new InstanceReferenceGeometry(pGeometry, parent); break; #if USING_V5_SDK case idxON_Extrusion: //24 rc = new Extrusion(pGeometry, parent); break; #endif case idxON_LinearDimension2: //25 rc = new LinearDimension(pGeometry, parent); break; case idxON_PointCloud: // 26 rc = new PointCloud(pGeometry, parent); break; case idxON_DetailView: // 27 rc = new DetailView(pGeometry, parent); break; case idxON_AngularDimension2: // 28 rc = new AngularDimension(pGeometry, parent); break; case idxON_RadialDimension2: // 29 rc = new RadialDimension(pGeometry, parent); break; case idxON_Leader: // 30 rc = new Leader(pGeometry, parent); break; case idxON_OrdinateDimension2: // 31 rc = new OrdinateDimension(pGeometry, parent); break; case idxON_Light: //32 rc = new Light(pGeometry, parent); break; case idxON_PointGrid: //33 rc = new Point3dGrid(pGeometry, parent); break; case idxON_MorphControl: //34 rc = new MorphControl(pGeometry, parent); break; case idxON_BrepLoop: //35 { int loopindex = -1; IntPtr pBrep = UnsafeNativeMethods.ON_BrepSubItem_Brep(pGeometry, ref loopindex); if (pBrep != IntPtr.Zero && loopindex >= 0) { Brep b = new Brep(pBrep, parent); rc = b.Loops[loopindex]; } } break; case idxON_BrepTrim: // 36 { int trimindex = -1; IntPtr pBrep = UnsafeNativeMethods.ON_BrepSubItem_Brep(pGeometry, ref trimindex); if (pBrep != IntPtr.Zero && trimindex >= 0) { Brep b = new Brep(pBrep, parent); rc = b.Trims[trimindex]; } } break; default: rc = new UnknownGeometry(pGeometry, parent, subobject_index); break; } return rc; }
internal static GeometryBase CreateGeometryHelper(IntPtr pGeometry, object parent, int subobject_index) { if (IntPtr.Zero == pGeometry) { return(null); } int type = UnsafeNativeMethods.ON_Geometry_GetGeometryType(pGeometry); if (type < 0) { return(null); } GeometryBase rc = null; switch (type) { case idxON_Curve: //1 rc = new Curve(pGeometry, parent, subobject_index); break; case idxON_NurbsCurve: //2 rc = new NurbsCurve(pGeometry, parent, subobject_index); break; case idxON_PolyCurve: // 3 rc = new PolyCurve(pGeometry, parent, subobject_index); break; case idxON_PolylineCurve: //4 rc = new PolylineCurve(pGeometry, parent, subobject_index); break; case idxON_ArcCurve: //5 rc = new ArcCurve(pGeometry, parent, subobject_index); break; case idxON_LineCurve: //6 rc = new LineCurve(pGeometry, parent, subobject_index); break; case idxON_Mesh: //7 rc = new Mesh(pGeometry, parent); break; case idxON_Point: //8 rc = new Point(pGeometry, parent); break; case idxON_TextDot: //9 rc = new TextDot(pGeometry, parent); break; case idxON_Surface: //10 rc = new Surface(pGeometry, parent); break; case idxON_Brep: //11 rc = new Brep(pGeometry, parent); break; case idxON_NurbsSurface: //12 rc = new NurbsSurface(pGeometry, parent); break; case idxON_RevSurface: //13 rc = new RevSurface(pGeometry, parent); break; case idxON_PlaneSurface: //14 rc = new PlaneSurface(pGeometry, parent); break; case idxON_ClippingPlaneSurface: //15 rc = new ClippingPlaneSurface(pGeometry, parent); break; case idxON_Annotation2: // 16 rc = new AnnotationBase(pGeometry, parent); break; case idxON_Hatch: // 17 rc = new Hatch(pGeometry, parent); break; case idxON_TextEntity2: //18 rc = new TextEntity(pGeometry, parent); break; case idxON_SumSurface: //19 rc = new SumSurface(pGeometry, parent); break; case idxON_BrepFace: //20 { int faceindex = -1; IntPtr pBrep = UnsafeNativeMethods.ON_BrepSubItem_Brep(pGeometry, ref faceindex); if (pBrep != IntPtr.Zero && faceindex >= 0) { Brep b = new Brep(pBrep, parent); rc = b.Faces[faceindex]; } } break; case idxON_BrepEdge: // 21 { int edgeindex = -1; IntPtr pBrep = UnsafeNativeMethods.ON_BrepSubItem_Brep(pGeometry, ref edgeindex); if (pBrep != IntPtr.Zero && edgeindex >= 0) { Brep b = new Brep(pBrep, parent); rc = b.Edges[edgeindex]; } } break; case idxON_InstanceDefinition: // 22 rc = new InstanceDefinitionGeometry(pGeometry, parent); break; case idxON_InstanceReference: // 23 rc = new InstanceReferenceGeometry(pGeometry, parent); break; #if USING_V5_SDK case idxON_Extrusion: //24 rc = new Extrusion(pGeometry, parent); break; #endif case idxON_LinearDimension2: //25 rc = new LinearDimension(pGeometry, parent); break; case idxON_PointCloud: // 26 rc = new PointCloud(pGeometry, parent); break; case idxON_DetailView: // 27 rc = new DetailView(pGeometry, parent); break; case idxON_AngularDimension2: // 28 rc = new AngularDimension(pGeometry, parent); break; case idxON_RadialDimension2: // 29 rc = new RadialDimension(pGeometry, parent); break; case idxON_Leader: // 30 rc = new Leader(pGeometry, parent); break; case idxON_OrdinateDimension2: // 31 rc = new OrdinateDimension(pGeometry, parent); break; case idxON_Light: //32 rc = new Light(pGeometry, parent); break; case idxON_PointGrid: //33 rc = new Point3dGrid(pGeometry, parent); break; case idxON_MorphControl: //34 rc = new MorphControl(pGeometry, parent); break; case idxON_BrepLoop: //35 { int loopindex = -1; IntPtr pBrep = UnsafeNativeMethods.ON_BrepSubItem_Brep(pGeometry, ref loopindex); if (pBrep != IntPtr.Zero && loopindex >= 0) { Brep b = new Brep(pBrep, parent); rc = b.Loops[loopindex]; } } break; case idxON_BrepTrim: // 36 { int trimindex = -1; IntPtr pBrep = UnsafeNativeMethods.ON_BrepSubItem_Brep(pGeometry, ref trimindex); if (pBrep != IntPtr.Zero && trimindex >= 0) { Brep b = new Brep(pBrep, parent); rc = b.Trims[trimindex]; } } break; default: rc = new UnknownGeometry(pGeometry, parent, subobject_index); break; } return(rc); }
/// <summary> /// Creates a Leader geometry object /// </summary> /// <param name="text"></param> /// <param name="plane"></param> /// <param name="dimstyle"></param> /// <param name="points"></param> /// <returns></returns> public static Leader Create(string text, Plane plane, DimensionStyle dimstyle, Point3d[] points) { return(CreateWithRichText(AnnotationBase.PlainTextToRtf(text), plane, dimstyle, points)); }
/// <summary> Create Text geometry or null if input is invalid </summary> /// <param name="text"></param> /// <param name="plane"></param> /// <param name="style"></param> /// <param name="wrapped"></param> /// <param name="rectWidth"></param> /// <param name="rotationRadians"></param> /// <returns></returns> public static TextEntity Create(string text, Plane plane, DimensionStyle style, bool wrapped, double rectWidth, double rotationRadians) { return(CreateWithRichText(AnnotationBase.PlainTextToRtf(text), plane, style, wrapped, rectWidth, rotationRadians)); }