// Created on: 1992-08-26 // Created by: Christophe MARION // Copyright (c) 1992-1999 Matra Datavision // Copyright (c) 1999-2014 OPEN CASCADE SAS // // This file is part of Open CASCADE Technology software library. // // This library is free software; you can redistribute it and/or modify it under // the terms of the GNU Lesser General Public License version 2.1 as published // by the Free Software Foundation, with special exception defined in the file // OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT // distribution for complete text of the license and disclaimer of any warranty. // // Alternatively, this file may be used under the terms of Open CASCADE // commercial license or contractual agreement. #ifndef _HLRBRep_Intersector_HeaderFile #define _HLRBRep_Intersector_HeaderFile #include #include #include #include #include #include #include #include #include #include class StdFail_UndefinedDerivative; class gp_Lin; class IntRes2d_IntersectionPoint; class IntCurveSurface_IntersectionPoint; class IntRes2d_IntersectionSegment; class IntCurveSurface_IntersectionSegment; //! The Intersector computes 2D intersections of the //! projections of 3D curves. //! //! It can also computes the intersection of a 3D line //! and a surface. class HLRBRep_Intersector { public: DEFINE_STANDARD_ALLOC Standard_EXPORT HLRBRep_Intersector(); //! Performs the auto intersection of an edge. The //! edge domain is cutted at start with da1*(b-a) and //! at end with db1*(b-a). Standard_EXPORT void Perform (const Standard_Address A1, const Standard_Real da1, const Standard_Real db1); //! Performs the intersection between the two edges. //! The edges domains are cutted at start with //! da*(b-a) and at end with db*(b-a). Standard_EXPORT void Perform (const Standard_Integer nA, const Standard_Address A1, const Standard_Real da1, const Standard_Real db1, const Standard_Integer nB, const Standard_Address A2, const Standard_Real da2, const Standard_Real db2, const Standard_Boolean NoBound); //! Create a single IntersectionPoint (U on A1) (V on A2) //! The point is middle on both curves. Standard_EXPORT void SimulateOnePoint (const Standard_Address A1, const Standard_Real U, const Standard_Address A2, const Standard_Real V); Standard_EXPORT void Load (Standard_Address& A); Standard_EXPORT void Perform (const gp_Lin& L, const Standard_Real P); Standard_EXPORT Standard_Boolean IsDone() const; Standard_EXPORT Standard_Integer NbPoints() const; Standard_EXPORT const IntRes2d_IntersectionPoint& Point (const Standard_Integer N) const; Standard_EXPORT const IntCurveSurface_IntersectionPoint& CSPoint (const Standard_Integer N) const; Standard_EXPORT Standard_Integer NbSegments() const; Standard_EXPORT const IntRes2d_IntersectionSegment& Segment (const Standard_Integer N) const; Standard_EXPORT const IntCurveSurface_IntersectionSegment& CSSegment (const Standard_Integer N) const; Standard_EXPORT void Destroy(); ~HLRBRep_Intersector() { Destroy(); } protected: private: IntRes2d_IntersectionPoint mySinglePoint; Standard_Integer myTypePerform; HLRBRep_CInter myIntersector; HLRBRep_InterCSurf myCSIntersector; Standard_Address mySurface; HLRBRep_ThePolyhedronOfInterCSurf* myPolyhedron; }; #endif // _HLRBRep_Intersector_HeaderFile