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create/src/Mod/MeshPart/App/CurveProjector.h

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/***************************************************************************
* Copyright (c) Juergen Riegel <juergen.riegel@web.de> *
* *
* This file is part of the FreeCAD CAx development system. *
* *
* This library is free software; you can redistribute it and/or *
* modify it under the terms of the GNU Library General Public *
* License as published by the Free Software Foundation; either *
* version 2 of the License, or (at your option) any later version. *
* *
* This library is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU Library General Public License for more details. *
* *
* You should have received a copy of the GNU Library General Public *
* License along with this library; see the file COPYING.LIB. If not, *
* write to the Free Software Foundation, Inc., 59 Temple Place, *
* Suite 330, Boston, MA 02111-1307, USA *
* *
***************************************************************************/
#ifndef _CurveProjector_h_
#define _CurveProjector_h_
#ifdef FC_USE_GTS
# include <gts.h>
#endif
#include <gp_Pln.hxx>
#include <Base/Vector3D.h>
class TopoDS_Edge;
class TopoDS_Shape;
#include <TopoDS_Edge.hxx>
#include <Mod/Mesh/App/Mesh.h>
namespace MeshCore
{
class MeshKernel;
class MeshGeomFacet;
class MeshFacetGrid;
};
using MeshCore::MeshKernel;
using MeshCore::MeshGeomFacet;
namespace MeshPart
{
/** The father of all projection algorithms
*/
class MeshPartExport CurveProjector
{
public:
CurveProjector(const TopoDS_Shape &aShape, const MeshKernel &pMesh);
virtual ~CurveProjector() {}
struct FaceSplitEdge
{
unsigned long ulFaceIndex;
Base::Vector3f p1,p2;
};
template<class T>
struct TopoDSLess : public std::binary_function<T, T, bool> {
bool operator()(const T& x, const T& y) const {
return x.HashCode(INT_MAX-1) < y.HashCode(INT_MAX-1);
}
};
typedef std::map<TopoDS_Edge, std::vector<FaceSplitEdge>,TopoDSLess<TopoDS_Edge> > result_type;
result_type &result(void) {return mvEdgeSplitPoints;}
void writeIntersectionPointsToFile(const char *name="export_pts.asc");
protected:
virtual void Do()=0;
const TopoDS_Shape &_Shape;
const MeshKernel &_Mesh;
result_type mvEdgeSplitPoints;
};
/** Project by intersection face planes with the curve
*/
class MeshPartExport CurveProjectorShape: public CurveProjector
{
public:
CurveProjectorShape(const TopoDS_Shape &aShape, const MeshKernel &pMesh);
virtual ~CurveProjectorShape() {}
void projectCurve(const TopoDS_Edge& aEdge,
std::vector<FaceSplitEdge> &vSplitEdges);
bool findStartPoint(const MeshKernel &MeshK,const Base::Vector3f &Pnt,Base::Vector3f &Rslt,unsigned long &FaceIndex);
protected:
virtual void Do();
};
/** Project by projecting a sampled curve to the mesh
*/
class MeshPartExport CurveProjectorSimple: public CurveProjector
{
public:
CurveProjectorSimple(const TopoDS_Shape &aShape, const MeshKernel &pMesh);
virtual ~CurveProjectorSimple() {}
/// helper to discredicice a Edge...
void GetSampledCurves( const TopoDS_Edge& aEdge, std::vector<Base::Vector3f>& rclPoints, unsigned long ulNbOfPoints = 30);
void projectCurve(const TopoDS_Edge& aEdge,
const std::vector<Base::Vector3f> &rclPoints,
std::vector<FaceSplitEdge> &vSplitEdges);
bool findStartPoint(const MeshKernel &MeshK,const Base::Vector3f &Pnt,Base::Vector3f &Rslt,unsigned long &FaceIndex);
protected:
virtual void Do();
};
/** Project by projecting a sampled curve to the mesh
*/
class MeshPartExport CurveProjectorWithToolMesh: public CurveProjector
{
public:
struct LineSeg {
Base::Vector3f p;
Base::Vector3f n;
};
CurveProjectorWithToolMesh(const TopoDS_Shape &aShape, const MeshKernel &pMesh,MeshKernel &rToolMesh);
virtual ~CurveProjectorWithToolMesh() {}
void makeToolMesh(const TopoDS_Edge& aEdge,std::vector<MeshGeomFacet> &cVAry );
MeshKernel &ToolMesh;
protected:
virtual void Do();
};
/**
* The MeshProjection class projects a shape onto a mesh.
* @author Werner Mayer
*/
class MeshPartExport MeshProjection
{
public:
/// Helper class
struct SplitEdge
{
unsigned long uE0, uE1; /**< start and endpoint of an edge */
Base::Vector3f cPt; /**< Point on edge (\a uE0, \a uE1) */
};
struct PolyLine
{
std::vector<Base::Vector3f> points;
};
/// Construction
MeshProjection(const MeshKernel& rMesh);
/// Destruction
~MeshProjection();
void discretize(const TopoDS_Edge& aEdge, std::vector<Base::Vector3f>& polyline, std::size_t minPoints=2) const;
/**
* Searches all edges that intersect with the projected curve \a aShape. Therefore \a aShape must
* contain shapes of type TopoDS_Edge, other shape types are ignored. A possible solution is
* taken if the distance between the curve point and the projected point is <= \a fMaxDist.
*/
void projectToMesh (const TopoDS_Shape &aShape, float fMaxDist, std::vector<PolyLine>& rPolyLines) const;
/**
* Project all edges of the shape onto the mesh using parallel projection.
*/
void projectParallelToMesh (const TopoDS_Shape &aShape, const Base::Vector3f& dir, std::vector<PolyLine>& rPolyLines) const;
/**
* Cuts the mesh at the curve defined by \a aShape. This method call @ref projectToMesh() to get the
* split the facet at the found points. @see projectToMesh() for more details.
*/
void splitMeshByShape (const TopoDS_Shape &aShape, float fMaxDist) const;
protected:
void projectEdgeToEdge(const TopoDS_Edge &aCurve, float fMaxDist, const MeshCore::MeshFacetGrid& rGrid,
std::vector<SplitEdge>& rSplitEdges) const;
private:
const MeshKernel& _rcMesh;
};
} // namespace MeshPart
#endif
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