dust3d/thirdparty/cgal/CGAL-4.13/include/CGAL/Width_polyhedron_3.h

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// Copyright (c) 1997-2000 ETH Zurich (Switzerland).
// All rights reserved.
//
// This file is part of CGAL (www.cgal.org).
// You can redistribute it and/or modify it under the terms of the GNU
// General Public License as published by the Free Software Foundation,
// either version 3 of the License, or (at your option) any later version.
//
// Licensees holding a valid commercial license may use this file in
// accordance with the commercial license agreement provided with the software.
//
// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
//
// $URL$
// $Id$
// SPDX-License-Identifier: GPL-3.0+
//
//
// Author(s) : Thomas Herrmann, Lutz Kettner
#ifndef CGAL_WIDTH_POLYHEDRON_3_H
#define CGAL_WIDTH_POLYHEDRON_3_H
#include <CGAL/license/Polytope_distance_d.h>
#include <CGAL/basic.h>
#include <CGAL/HalfedgeDS_vertex_base.h>
#include <CGAL/HalfedgeDS_halfedge_base.h>
#include <CGAL/HalfedgeDS_face_base.h>
#include <map>
#include <CGAL/width_assertions.h>
namespace CGAL {
template <class Refs, class Traits>
class Width_vertex_default_base
: public CGAL::HalfedgeDS_vertex_base<
Refs, Tag_true, typename Traits::Point_3> {
private:
typedef Traits WT;
typedef typename WT::RT RT;
WT tco;
public:
typedef typename Traits::Point_3 Point_3;
typedef CGAL::HalfedgeDS_vertex_base< Refs, Tag_true, Point_3> Vertex_base;
Width_vertex_default_base() {}
Width_vertex_default_base( const Point_3& p) : Vertex_base(p) {}
};
struct Width_polyhedron_items_3 {
template < class Refs, class Traits>
struct Vertex_wrapper {
typedef Width_vertex_default_base< Refs, Traits> Vertex;
};
template < class Refs, class Traits>
struct Halfedge_wrapper {
typedef CGAL::HalfedgeDS_halfedge_base< Refs> Halfedge;
};
template < class Refs, class Traits>
struct Face_wrapper {
typedef typename Traits::Plane_3 Plane;
typedef CGAL::HalfedgeDS_face_base< Refs, CGAL::Tag_true, Plane> Face;
};
};
namespace Width_3_internal {
template <class InputPolyhedron, class Width_Traits>
class Data_access {
public:
typedef InputPolyhedron Polyhedron;
typedef typename Polyhedron::Vertex Vertex;
typedef typename Polyhedron::Facet Facet;
typedef typename Polyhedron::Halfedge Halfedge;
typedef typename Polyhedron::Facet_handle Facet_handle;
typedef typename Polyhedron::Vertex_handle Vertex_handle;
typedef typename Polyhedron::Halfedge_handle Halfedge_handle;
typedef typename Polyhedron::Facet_const_handle Facet_const_handle;
typedef typename Polyhedron::Vertex_const_handle Vertex_const_handle;
typedef typename Polyhedron::Halfedge_const_handle Halfedge_const_handle;
typedef typename Polyhedron::Point_3 PolyPoint;
typedef typename Polyhedron::Plane_3 Plane;
typedef typename Polyhedron::Vertex_iterator Vertex_iterator;
typedef typename Polyhedron::Facet_iterator Facet_iterator;
typedef typename Polyhedron::Halfedge_iterator Halfedge_iterator;
typedef typename Width_Traits::RT RT;
private:
Width_Traits tco;
public:
Data_access() {}
~Data_access() {}
private:
//Precondition: Plane Equation already computed in a deterministic way
struct Facet_compare {
bool operator()(Facet_const_handle f,
Facet_const_handle g) const {
Width_Traits tco;
Plane fpp=f->plane();
Plane gpp=g->plane();
RT fa,fb,fc,fd,ga,gb,gc,gd;
tco.get_plane_coefficients(fpp,fa,fb,fc,fd);
tco.get_plane_coefficients(gpp,ga,gb,gc,gd);
return fa<ga
|| ( fa==ga && fb<gb )
|| ( fa==ga && fb==gb && fc<gc )
|| ( fa==ga && fb==gb && fc==gc && fd<gd );
}
};
//Precondition: Plane Equation already computed in a deterministic way
//and a facet is bounded by exactly 3 edges!
struct Halfedge_compare {
bool operator()(Halfedge_const_handle e,
Halfedge_const_handle h) const {
Width_Traits tco;
PolyPoint etail=e->opposite()->vertex()->point();
PolyPoint ehead=e->vertex()->point();
PolyPoint htail=h->opposite()->vertex()->point();
PolyPoint hhead=h->vertex()->point();
RT etx,ety,etz,eth,ehx,ehy,ehz,ehh;
tco.get_point_coordinates(etail,etx,ety,etz,eth);
tco.get_point_coordinates(ehead,ehx,ehy,ehz,ehh);
RT htx,hty,htz,hth,hhx,hhy,hhz,hhh;
tco.get_point_coordinates(htail,htx,hty,htz,hth);
tco.get_point_coordinates(hhead,hhx,hhy,hhz,hhh);
return (etx*hth <htx*eth ||
( etx*hth==htx*eth && ety*hth <hty*eth ) ||
( etx*hth==htx*eth && ety*hth==hty*eth && etz*hth <htz*eth ) ||
( etx*hth==htx*eth && ety*hth==hty*eth && etz*hth==htz*eth
&& ehx*hhh <hhx*ehh ) ||
( etx*hth==htx*eth && ety*hth==hty*eth && etz*hth==htz*eth
&& ehx*hhh==hhx*ehh && ehy*hhh <hhy*ehh ) ||
( etx*hth==htx*eth && ety*hth==hty*eth && etz*hth==htz*eth
&& ehx*hhh==hhx*ehh && ehy*hhh==hhy*ehh && ehz*hhh<hhz*ehh )
);
}
};
std::map< Facet_const_handle,
std::vector<Vertex_handle>,
Facet_compare>
antipodal_vertices;
std::map< Halfedge_const_handle,
bool,
Halfedge_compare>
visited_halfedges;
std::map< Halfedge_const_handle,
bool,
Halfedge_compare>
impassable_halfedges;
public:
bool is_visited(Halfedge_handle& e) const {
typename std::map < Halfedge_const_handle, bool,
Halfedge_compare > ::const_iterator it;
it=visited_halfedges.find(e);
CGAL_assertion(it!=visited_halfedges.end());
DEBUGENDL(VISITED_CHECK,"Visited flag value of edge "
<<e->opposite()->vertex()->point()
<<" --> ",e->vertex()->point()<<": "<<it->second);
return it->second;
}
void set_visited_flag(Halfedge_handle& e, bool val) {
DEBUGENDL(VISITED_CHECK,"Set visited flag to: ",val);
visited_halfedges[e]=val;
}
bool is_impassable(Halfedge_handle& e) const {
typename std::map < Halfedge_const_handle,
bool,
Halfedge_compare > ::const_iterator it;
it=impassable_halfedges.find(e);
CGAL_assertion(it!=impassable_halfedges.end());
DEBUGENDL(IMPASSABLE_CHECK,"Impassable flag value of edge ",
e->opposite()->vertex()->point()
<<" --> "<<e->vertex()->point()<<": "<<it->second);
return it->second;
}
void set_impassable_flag(Halfedge_handle& e, bool val) {
DEBUGENDL(IMPASSABLE_CHECK,"Set impassable flag to: ",val);
impassable_halfedges[e]=val;
}
void set_antipodal_vertices(Facet_handle& f,
std::vector<Vertex_handle>& V) {
antipodal_vertices[f]=V;
}
void get_antipodal_vertices(Facet_handle& f,
std::vector<Vertex_handle>& res) const {
typename std::map< Facet_const_handle,
std::vector<Vertex_handle>, Facet_compare>::const_iterator it;
it=antipodal_vertices.find(f);
CGAL_assertion(it!=antipodal_vertices.end());
res=it->second;
}
#if !(defined(CGAL_KERNEL_NO_ASSERTIONS) || defined(CGAL_NO_ASSERTIONS) \
|| defined(NDEBUG))
int size_of_impassable() {
return(int(impassable_halfedges.size()));
}
int size_of_visited() {
return(int(visited_halfedges.size()));
}
int size_of_antipodal_vertices() {
return (int(antipodal_vertices.size()));
}
#endif
};
} // namespace Width_3_internal
} //namespace CGAL
#endif //WIDTH_POLYHEDRON_3_H