// Created on: 1995-01-27 // Created by: Jacques GOUSSARD // Copyright (c) 1995-1999 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 _GeomInt_WLApprox_HeaderFile #define _GeomInt_WLApprox_HeaderFile #include #include #include #include #include #include #include #include #include #include #include class Standard_OutOfRange; class StdFail_NotDone; class Adaptor3d_HSurface; class Adaptor3d_HSurfaceTool; class IntSurf_Quadric; class IntSurf_QuadricTool; class IntPatch_WLine; class GeomInt_ThePrmPrmSvSurfacesOfWLApprox; class GeomInt_TheInt2SOfThePrmPrmSvSurfacesOfWLApprox; class GeomInt_TheImpPrmSvSurfacesOfWLApprox; class GeomInt_TheZerImpFuncOfTheImpPrmSvSurfacesOfWLApprox; class GeomInt_TheMultiLineOfWLApprox; class GeomInt_TheMultiLineToolOfWLApprox; class GeomInt_TheComputeLineOfWLApprox; class GeomInt_MyBSplGradientOfTheComputeLineOfWLApprox; class GeomInt_MyGradientbisOfTheComputeLineOfWLApprox; class GeomInt_TheComputeLineBezierOfWLApprox; class GeomInt_MyGradientOfTheComputeLineBezierOfWLApprox; class AppParCurves_MultiBSpCurve; struct Approx_Data { Approx_Data() : myBezierApprox(Standard_True), Xo(0.0), Yo(0.0), Zo(0.0), U1o(0.0), V1o(0.0), U2o(0.0), V2o(0.0), ApproxXYZ(Standard_True), ApproxU1V1(Standard_True), ApproxU2V2(Standard_True), indicemin(0), indicemax(0), myNbPntMax(30), parametrization(Approx_ChordLength) { } Standard_Boolean myBezierApprox; Standard_Real Xo, Yo, Zo, U1o, V1o, U2o, V2o; Standard_Boolean ApproxXYZ, ApproxU1V1, ApproxU2V2; Standard_Integer indicemin, indicemax, myNbPntMax; Approx_ParametrizationType parametrization; }; class GeomInt_WLApprox { public: DEFINE_STANDARD_ALLOC Standard_EXPORT GeomInt_WLApprox(); Standard_EXPORT void Perform (const Handle(Adaptor3d_HSurface)& Surf1, const Handle(Adaptor3d_HSurface)& Surf2, const Handle(IntPatch_WLine)& aLine, const Standard_Boolean ApproxXYZ = Standard_True, const Standard_Boolean ApproxU1V1 = Standard_True, const Standard_Boolean ApproxU2V2 = Standard_True, const Standard_Integer indicemin = 0, const Standard_Integer indicemax = 0); Standard_EXPORT void Perform (const Handle(IntPatch_WLine)& aLine, const Standard_Boolean ApproxXYZ = Standard_True, const Standard_Boolean ApproxU1V1 = Standard_True, const Standard_Boolean ApproxU2V2 = Standard_True, const Standard_Integer indicemin = 0, const Standard_Integer indicemax = 0); Standard_EXPORT void SetParameters (const Standard_Real Tol3d, const Standard_Real Tol2d, const Standard_Integer DegMin, const Standard_Integer DegMax, const Standard_Integer NbIterMax, const Standard_Integer NbPntMax = 30, const Standard_Boolean ApproxWithTangency = Standard_True, const Approx_ParametrizationType Parametrization = Approx_ChordLength); Standard_EXPORT void Perform(); Standard_EXPORT Standard_Real TolReached3d() const; Standard_EXPORT Standard_Real TolReached2d() const; Standard_EXPORT Standard_Boolean IsDone() const; Standard_EXPORT Standard_Integer NbMultiCurves() const; Standard_EXPORT const AppParCurves_MultiBSpCurve& Value (const Standard_Integer Index) const; protected: private: Standard_EXPORT void Perform (const IntSurf_Quadric& Surf1, const Handle(Adaptor3d_HSurface)& Surf2, const Handle(IntPatch_WLine)& aLine, const Standard_Boolean ApproxXYZ, const Standard_Boolean ApproxU1V1, const Standard_Boolean ApproxU2V2, const Standard_Integer indicemin, const Standard_Integer indicemax, const Standard_Boolean isTheQuadFirst); Standard_EXPORT void UpdateTolReached(); //! Fill data structure for intersection approximation. Standard_EXPORT void fillData(const Handle(IntPatch_WLine)& theLine); //! Prepare data structure for further computations. Standard_EXPORT void prepareDS(const Standard_Boolean theApproxXYZ, const Standard_Boolean theApproxU1V1, const Standard_Boolean theApproxU2V2, const Standard_Integer indicemin, const Standard_Integer indicemax); //! Build knot sequence. Standard_EXPORT void buildKnots(const Handle(IntPatch_WLine)& theline, const Standard_Address thePtrSVSurf); //! Build curve. Standard_EXPORT void buildCurve(const Handle(IntPatch_WLine)& theline, const Standard_Address thePtrSVSurf); GeomInt_TheComputeLineOfWLApprox myComputeLine; GeomInt_TheComputeLineBezierOfWLApprox myComputeLineBezier; Approx_MCurvesToBSpCurve myBezToBSpl; Standard_Boolean myWithTangency; Standard_Real myTol3d; Standard_Real myTol2d; Standard_Integer myDegMin; Standard_Integer myDegMax; Standard_Integer myNbIterMax; Standard_Real myTolReached3d; Standard_Real myTolReached2d; Approx_Data myData; NCollection_Vector myKnots; }; #endif // _GeomInt_WLApprox_HeaderFile