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b31fbc832d
Standard_EXPORT is added in declaration of virtual methods where it was missing, to allow creation of sub-classes in other DLLs. In some classes in OpenGl package Standard_EXPORT is added for all methods to make these classes usable in other DLLs.
135 lines
5.1 KiB
C++
135 lines
5.1 KiB
C++
// Created on: 2015-04-26
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// Created by: Denis BOGOLEPOV
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// Copyright (c) 2015 OPEN CASCADE SAS
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//
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// This file is part of Open CASCADE Technology software library.
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//
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// This library is free software; you can redistribute it and/or modify it under
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// the terms of the GNU Lesser General Public License version 2.1 as published
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// by the Free Software Foundation, with special exception defined in the file
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// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
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// distribution for complete text of the license and disclaimer of any warranty.
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//
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// Alternatively, this file may be used under the terms of Open CASCADE
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// commercial license or contractual agreement.
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#ifndef _BRepExtrema_SelfIntersection_HeaderFile
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#define _BRepExtrema_SelfIntersection_HeaderFile
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#include <BRepExtrema_OverlapTool.hxx>
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//! Tool class for detection of self-sections in the given shape.
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//! This class is based on BRepExtrema_OverlapTool and thus uses
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//! shape tessellation to detect incorrect mesh fragments (pairs
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//! of overlapped triangles belonging to different faces). Thus,
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//! a result depends critically on the quality of mesh generator
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//! (e.g., BREP mesh is not always a good choice, because it can
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//! contain gaps between adjacent face triangulations, which may
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//! not share vertices on common edge; thus false overlap can be
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//! detected). As a result, this tool can be used for relatively
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//! fast approximated test which provides sub-set of potentially
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//! overlapped faces.
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class BRepExtrema_SelfIntersection : public BRepExtrema_ElementFilter
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{
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friend class BRepExtrema_OverlapTool;
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public:
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//! Creates unitialized self-intersection tool.
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Standard_EXPORT BRepExtrema_SelfIntersection (const Standard_Real theTolerance = 0.0);
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//! Creates self-intersection tool for the given shape.
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Standard_EXPORT BRepExtrema_SelfIntersection (const TopoDS_Shape& theShape, const Standard_Real theTolerance = 0.0);
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public:
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//! Returns tolerance value used for self-intersection test.
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Standard_Real Tolerance() const
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{
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return myTolerance;
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}
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//! Sets tolerance value used for self-intersection test.
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void SetTolerance (const Standard_Real theTolerance)
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{
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myTolerance = theTolerance;
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}
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//! Loads shape for detection of self-intersections.
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Standard_EXPORT Standard_Boolean LoadShape (const TopoDS_Shape& theShape);
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//! Performs detection of self-intersections.
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Standard_EXPORT void Perform();
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//! True if the detection is completed.
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Standard_Boolean IsDone() const
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{
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return myOverlapTool.IsDone();
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}
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//! Returns set of IDs of overlapped sub-shapes (started from 0).
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const BRepExtrema_MapOfIntegerPackedMapOfInteger& OverlapElements() const
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{
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return myOverlapTool.OverlapSubShapes1();
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}
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//! Returns sub-shape from the shape for the given index (started from 0).
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const TopoDS_Face& GetSubShape (const Standard_Integer theID) const
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{
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return myFaceList.Value (theID);
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}
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//! Returns set of all the face triangles of the shape.
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const Handle(BRepExtrema_TriangleSet)& ElementSet() const
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{
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return myElementSet;
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}
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#ifdef OVERLAP_TOOL_OUTPUT_TRIANGLES
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//! Returns set of overlapped mesh elements (only triangles).
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const TColStd_PackedMapOfInteger& OverlapTriangles() const
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{
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return myOverlapTool.OverlapTriangles1();
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}
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#endif
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protected:
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//! Filter out correct adjacent mesh elements.
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Standard_EXPORT virtual BRepExtrema_ElementFilter::FilterResult PreCheckElements (const Standard_Integer theIndex1,
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const Standard_Integer theIndex2);
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//! Checks if the given triangles have only single common vertex.
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Standard_EXPORT BRepExtrema_ElementFilter::FilterResult isRegularSharedVertex (const BVH_Vec3d& theSharedVert,
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const BVH_Vec3d& theTrng1Vtxs1,
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const BVH_Vec3d& theTrng1Vtxs2,
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const BVH_Vec3d& theTrng2Vtxs1,
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const BVH_Vec3d& theTrng2Vtxs2);
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//! Checks if the given triangles have only single common edge.
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Standard_EXPORT BRepExtrema_ElementFilter::FilterResult isRegularSharedEdge (const BVH_Vec3d& theTrng1Vtxs0,
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const BVH_Vec3d& theTrng1Vtxs1,
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const BVH_Vec3d& theTrng1Vtxs2,
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const BVH_Vec3d& theTrng2Vtxs2);
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private:
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//! Self-intersection tolerance.
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Standard_Real myTolerance;
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//! Is the input shape inited?
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Standard_Boolean myIsInit;
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//! List of triangulated faces of the shape.
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BRepExtrema_ShapeList myFaceList;
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//! Set of all the face triangles of the shape.
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Handle(BRepExtrema_TriangleSet) myElementSet;
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//! Overlap tool used for self-intersection test.
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BRepExtrema_OverlapTool myOverlapTool;
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};
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#endif // _BRepExtrema_SelfIntersection_HeaderFile
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