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Added some common graph traits for all 2D triangulations

This commit is contained in:
Mael Rouxel-Labbé 2019-04-19 17:14:52 +02:00
parent 28a210837e
commit 09df9b5622
1 changed files with 679 additions and 0 deletions
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Triangulation_2/include/CGAL/boost/graph/graph_traits_2D_triangulation.h Normal file
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// Copyright (c) 2007, 2019 GeometryFactory (France). 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 Lesser 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: LGPL-3.0+
//
//
// Author(s) : Andreas Fabri, Fernando Cacciola
#ifndef CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS
#error CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS is not defined
#endif
#ifndef CGAL_2D_TRIANGULATION
#error CGAL_2D_TRIANGULATION is not defined
#endif
#ifndef CGAL_2D_TRIANGULATION_TEMPLATES
#error CGAL_2D_TRIANGULATION_TEMPLATES is not defined
#endif
#include <functional>
// include this to avoid a VC15 warning
#include <CGAL/boost/graph/named_function_params.h>
#include <CGAL/boost/graph/graph_traits_Triangulation_data_structure_2.h>
#include <boost/config.hpp>
#include <boost/iterator_adaptors.hpp>
#include <boost/graph/graph_traits.hpp>
#include <boost/graph/properties.hpp>
#include <CGAL/boost/graph/properties.h>
#include <CGAL/Iterator_range.h>
#include <CGAL/iterator.h>
// Small include guard is required for that class
#ifndef CGAL_GRAPH_TRAITS_2D_TRIANGULATION
#define CGAL_GRAPH_TRAITS_2D_TRIANGULATION
namespace CGAL {
namespace detail {
template <typename Tr>
struct T2_halfedge_descriptor
{
typedef typename Tr::Face_handle face_descriptor;
face_descriptor first;
int second;
operator std::pair<face_descriptor, int>() { return std::make_pair(first, second); }
T2_halfedge_descriptor() : first(), second(0) { }
T2_halfedge_descriptor(const typename Tr::Edge& e) : first(e.first), second(e.second) { }
T2_halfedge_descriptor(face_descriptor fd, int i) : first(fd), second(i) { }
friend std::size_t hash_value(const T2_halfedge_descriptor& h)
{
return hash_value(h.first);
}
bool operator==(const T2_halfedge_descriptor& other) const
{
return (first == other.first) && (second == other.second);
}
bool operator!=(const T2_halfedge_descriptor& other) const
{
return (first != other.first) || (second != other.second);
}
bool operator<(const T2_halfedge_descriptor& other) const
{
if(first < other.first) return true;
if(first > other.first) return false;
return second < other.second;
}
};
template <typename Tr>
class T2_vertex_id_map
: public boost::put_get_helper<int, T2_vertex_id_map<Tr> >
{
public:
typedef boost::readable_property_map_tag category;
typedef int value_type;
typedef int reference;
typedef typename Tr::Vertex_handle key_type;
T2_vertex_id_map() { }
long operator[](key_type vh) const { return vh->id(); }
};
template <typename Tr>
class T2_vertex_point_map
{
public:
typedef boost::lvalue_property_map_tag category;
typedef typename Tr::Point value_type;
typedef value_type& reference;
typedef typename Tr::Vertex_handle key_type;
friend reference get(T2_vertex_point_map<Tr>, key_type vh)
{
return vh->point();
}
friend void put(T2_vertex_point_map<Tr>, key_type vh, reference v)
{
vh->point() = v;
}
reference operator[](key_type vh) const { return vh->point(); }
};
template <typename Tr>
class T2_edge_id_map
: public boost::put_get_helper<int, T2_edge_id_map<Tr> >
{
public:
typedef boost::readable_property_map_tag category;
typedef int value_type;
typedef int reference;
typedef typename Tr::Edge key_type;
T2_edge_id_map() { }
long operator[](key_type e) const { return (3 * e.first.id()) + e.second; }
};
template <typename Tr>
class T2_edge_weight_map
: public boost::put_get_helper<typename Tr::Geom_traits::FT,
T2_edge_weight_map<Tr> >
{
private:
const Tr& tr;
public:
typedef boost::readable_property_map_tag category;
typedef typename Tr::Geom_traits::FT value_type;
typedef value_type reference;
typedef typename Tr::Edge key_type;
T2_edge_weight_map(const Tr& tr_) : tr(tr_) { }
value_type operator[](key_type e) const { return approximate_sqrt(tr.segment(e).squared_length()); }
};
template <typename Tr, typename Tag>
struct T2_property_map { };
template <typename Tr>
struct T2_property_map<Tr, boost::vertex_index_t>
{
typedef detail::T2_vertex_id_map<Tr> type;
typedef detail::T2_vertex_id_map<Tr> const_type;
};
template <typename Tr>
struct T2_property_map<Tr, boost::vertex_point_t>
{
typedef detail::T2_vertex_point_map<Tr> type;
typedef detail::T2_vertex_point_map<Tr> const_type;
};
template <typename Tr>
struct T2_property_map<Tr, boost::edge_index_t>
{
typedef detail::T2_edge_id_map<Tr> type;
typedef detail::T2_edge_id_map<Tr> const_type;
};
template <typename Tr>
struct T2_property_map<Tr, boost::edge_weight_t>
{
typedef detail::T2_edge_weight_map<Tr> type;
typedef detail::T2_edge_weight_map<Tr> const_type;
};
} // namespace detail
} // namespace CGAL
namespace std {
#if defined(BOOST_MSVC)
# pragma warning(push)
# pragma warning(disable:4099) // For VC10 it is class hash
#endif
#ifndef CGAL_CFG_NO_STD_HASH
template < class Tr>
struct hash<CGAL::detail::T2_halfedge_descriptor<Tr> >
{
std::size_t operator()(const CGAL::detail::T2_halfedge_descriptor<Tr>& e) const
{
return hash_value(e);
}
};
#endif // CGAL_CFG_NO_STD_HASH
#if defined(BOOST_MSVC)
# pragma warning(pop)
#endif
} // namespace std
#endif // CGAL_GRAPH_TRAITS_2D_TRIANGULATION
namespace boost {
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
struct graph_traits< CGAL_2D_TRIANGULATION >
{
typedef CGAL_2D_TRIANGULATION Triangulation;
struct T2_graph_traversal_category :
public virtual bidirectional_graph_tag,
public virtual adjacency_graph_tag,
public virtual edge_list_graph_tag,
public virtual vertex_list_graph_tag { };
typedef typename Triangulation::Vertex_handle vertex_descriptor;
typedef CGAL::detail::T2_halfedge_descriptor<Triangulation> halfedge_descriptor;
typedef CGAL::detail::Edge<Triangulation, typename Triangulation::Edge> edge_descriptor;
typedef typename Triangulation::Face_handle face_descriptor;
typedef CGAL::Prevent_deref<typename Triangulation::All_vertices_iterator> vertex_iterator;
typedef typename Triangulation::All_halfedges_iterator halfedge_iterator;
typedef typename Triangulation::All_edges_iterator edge_iterator;
typedef CGAL::Prevent_deref<typename Triangulation::All_faces_iterator> face_iterator;
typedef CGAL::Counting_iterator<
CGAL::detail::Out_edge_circulator<
typename Triangulation::Edge_circulator,
edge_descriptor>,
edge_descriptor> out_edge_iterator;
typedef CGAL::Counting_iterator<
CGAL::detail::In_edge_circulator<
typename Triangulation::Edge_circulator,
edge_descriptor>,
edge_descriptor> in_edge_iterator;
typedef CGAL::Counting_iterator<typename Triangulation::Vertex_circulator> Incident_vertices_iterator;
typedef Incident_vertices_iterator adjacency_iterator;
typedef undirected_tag directed_category;
typedef disallow_parallel_edge_tag edge_parallel_category;
typedef T2_graph_traversal_category traversal_category;
typedef typename Triangulation::size_type size_type;
typedef size_type vertices_size_type;
typedef size_type halfedges_size_type;
typedef size_type edges_size_type;
typedef size_type faces_size_type;
typedef size_type degree_size_type;
// nulls
static vertex_descriptor null_vertex() { return vertex_descriptor(); }
static halfedge_descriptor null_halfedge() { return halfedge_descriptor(); }
static face_descriptor null_face() { return face_descriptor(); }
};
} // namespace boost
namespace CGAL {
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor
next(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor e,
const CGAL_2D_TRIANGULATION& g)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor halfedge_descriptor;
return halfedge_descriptor(e.first, g.ccw(e.second));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor
prev(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor e,
const CGAL_2D_TRIANGULATION& g)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor halfedge_descriptor;
return halfedge_descriptor(e.first, g.cw(e.second));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor
opposite(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor e,
const CGAL_2D_TRIANGULATION& g)
{
return g.mirror_edge(e);
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor
source(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_descriptor e,
const CGAL_2D_TRIANGULATION& g)
{
return e.first->vertex(g.ccw(e.second));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor
target(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_descriptor e,
const CGAL_2D_TRIANGULATION& g)
{
return e.first->vertex(g.cw(e.second));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor
source(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor e,
const CGAL_2D_TRIANGULATION& g)
{
return e.first->vertex(g.ccw(e.second));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor
target(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor e,
const CGAL_2D_TRIANGULATION& g)
{
return e.first->vertex(g.cw(e.second));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::face_descriptor
face(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor e,
const CGAL_2D_TRIANGULATION&)
{
return e.first;
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor
halfedge(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::face_descriptor f,
const CGAL_2D_TRIANGULATION&)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor halfedge_descriptor;
return halfedge_descriptor(f,0);
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor
halfedge(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor v,
const CGAL_2D_TRIANGULATION& g)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor halfedge_descriptor;
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::face_descriptor face_descriptor;
face_descriptor fd = v->face();
int i = fd->index(v);
return halfedge_descriptor(fd, g.ccw(i));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor
halfedge(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_descriptor e,
const CGAL_2D_TRIANGULATION&)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor halfedge_descriptor;
return halfedge_descriptor(e.first, e.second);
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_descriptor
edge(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor e,
const CGAL_2D_TRIANGULATION&)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_descriptor edge_descriptor;
return edge_descriptor(e.first, e.second);
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
std::pair<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_descriptor,
bool>
edge(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor u,
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor v,
const CGAL_2D_TRIANGULATION& g)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_descriptor edge_descriptor;
typename CGAL_2D_TRIANGULATION::Edge_circulator c = g.incident_edges(u), done(c);
if(c != 0) {
do {
// find the index of the other vertex of *c
int indv = 3 - c->first->index(u) - c->second;
if(c->first->vertex(indv) == v)
return std::make_pair(edge_descriptor(c->first, c->second), true);
} while (++c != done);
}
return std::make_pair(edge_descriptor(), false);
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
std::pair<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor,
bool>
halfedge(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor u,
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor v,
const CGAL_2D_TRIANGULATION& g)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_descriptor halfedge_descriptor;
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_descriptor edge_descriptor;
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::face_descriptor face_descriptor;
std::pair<edge_descriptor, bool> eb = edge(u, v, g);
if(!eb.second)
return std::make_pair(halfedge_descriptor(), false);
const edge_descriptor& e = eb.first;
if(e.first->vertex(g.ccw(e.first->index(u))) == v)
{
return std::make_pair(halfedge_descriptor(e.first, e.second), true);
}
else
{
face_descriptor nf = e.first->neighbor(e.second);
int idx = nf->index(e.first);
return std::make_pair(halfedge_descriptor(nf, idx), true);
}
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline Iterator_range<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_iterator>
vertices(const CGAL_2D_TRIANGULATION& g)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_iterator
Iter;
return make_range( Iter(g.all_vertices_begin()), Iter(g.all_vertices_end()) );
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline Iterator_range<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edge_iterator>
edges(const CGAL_2D_TRIANGULATION& g)
{
return make_range(g.all_edges_begin(), g.all_edges_end());
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline Iterator_range<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedge_iterator >
halfedges(const CGAL_2D_TRIANGULATION& g)
{
return make_range(g.all_halfedges_begin(), g.all_halfedges_end());
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline Iterator_range<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::face_iterator >
faces(const CGAL_2D_TRIANGULATION& g)
{
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::face_iterator
Iter;
return make_range( Iter(g.all_faces_begin()), Iter(g.all_faces_end()) );
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type
out_degree(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor u,
const CGAL_2D_TRIANGULATION& g)
{
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type deg = 0;
typename CGAL_2D_TRIANGULATION::Edge_circulator c = g.incident_edges(u), done(c);
if(c != 0)
{
do {
++deg;
} while (++c != done);
}
return deg;
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline Iterator_range<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::out_edge_iterator >
out_edges(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor u,
const CGAL_2D_TRIANGULATION& g)
{
typename CGAL_2D_TRIANGULATION::Edge_circulator ec(u, u->face());
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type out_deg = out_degree(u, g);
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >
::out_edge_iterator Iter;
return make_range(Iter(ec), Iter(ec, out_deg));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline Iterator_range<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::in_edge_iterator >
in_edges(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor u,
const CGAL_2D_TRIANGULATION& g)
{
typename CGAL_2D_TRIANGULATION::Edge_circulator ec(u, u->face());
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type out_deg = out_degree(u, g);
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >
::in_edge_iterator Iter;
return make_range(Iter(ec), Iter(ec,out_deg));
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline Iterator_range<typename boost::graph_traits< CGAL_2D_TRIANGULATION >::adjacency_iterator>
adjacent_vertices(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor u,
const CGAL_2D_TRIANGULATION& g)
{
typename CGAL_2D_TRIANGULATION::Vertex_circulator vc = out_edge_iterator(u, u.face());
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type out_deg = out_degree(u, g);
typedef typename boost::graph_traits< CGAL_2D_TRIANGULATION >::adjacency_iterator Iter;
return make_range( Iter(vc), Iter(vc,out_deg) );
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertices_size_type
num_vertices(const CGAL_2D_TRIANGULATION& g)
{
return g.tds().number_of_vertices();
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::edges_size_type
num_edges(const CGAL_2D_TRIANGULATION& g)
{
return g.tds().number_of_vertices() + g.tds().number_of_faces() - 2;
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::halfedges_size_type
num_halfedges(const CGAL_2D_TRIANGULATION& g)
{
return num_edges(g) * 2;
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::faces_size_type
num_faces(const CGAL_2D_TRIANGULATION& g)
{
return g.tds().number_of_faces();
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type
in_degree(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor u,
const CGAL_2D_TRIANGULATION& g)
{
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type deg = 0;
typename CGAL_2D_TRIANGULATION::Edge_circulator c = g.incident_edges(u), done(c);
if(c != 0)
{
do {
++deg;
} while (++c != done);
}
return deg;
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type
degree(typename boost::graph_traits< CGAL_2D_TRIANGULATION >::vertex_descriptor u,
const CGAL_2D_TRIANGULATION& g)
{
typename boost::graph_traits< CGAL_2D_TRIANGULATION >::degree_size_type deg = 0;
typename CGAL_2D_TRIANGULATION::Edge_circulator c = g.incident_edges(u), done(c);
if(c != 0)
{
do {
++deg;
} while (++c != done);
}
return deg;
}
// property maps
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline detail::T2_vertex_id_map< CGAL_2D_TRIANGULATION >
get(boost::vertex_index_t, const CGAL_2D_TRIANGULATION&)
{
detail::T2_vertex_id_map< CGAL_2D_TRIANGULATION > m;
return m;
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline detail::T2_vertex_point_map< CGAL_2D_TRIANGULATION >
get(boost::vertex_point_t, const CGAL_2D_TRIANGULATION&)
{
detail::T2_vertex_point_map< CGAL_2D_TRIANGULATION > m;
return m;
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline detail::T2_edge_id_map< CGAL_2D_TRIANGULATION >
get(boost::edge_index_t, const CGAL_2D_TRIANGULATION&)
{
detail::T2_edge_id_map< CGAL_2D_TRIANGULATION > m;
return m;
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
inline detail::T2_edge_weight_map< CGAL_2D_TRIANGULATION >
get(boost::edge_weight_t, const CGAL_2D_TRIANGULATION& g)
{
detail::T2_edge_weight_map< CGAL_2D_TRIANGULATION > m(g);
return m;
}
} // namespace CGAL
namespace boost {
// g++ 'enumeral_type' in template unification not implemented workaround
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS, class Tag>
struct property_map<CGAL_2D_TRIANGULATION, Tag>
{
typedef typename CGAL::detail::T2_property_map<CGAL_2D_TRIANGULATION, Tag> map_gen;
typedef typename map_gen::type type;
typedef typename map_gen::const_type const_type;
};
// see struct property_map in Polyehdron for an explanation
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS, class Tag>
struct property_map<const CGAL_2D_TRIANGULATION, Tag>
{
typedef typename CGAL::detail::T2_property_map<CGAL_2D_TRIANGULATION, Tag> map_gen;
typedef typename map_gen::type type;
typedef typename map_gen::const_type const_type;
};
} // namespace boost
namespace CGAL {
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS, class PropertyTag, class Key>
inline
typename boost::property_traits<
typename boost::property_map< CGAL_2D_TRIANGULATION, PropertyTag>::const_type>::value_type
get(PropertyTag p, const CGAL_2D_TRIANGULATION& g, const Key& key)
{
return get(get(p, g), key);
}
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS, class PropertyTag, class Key, class Value>
inline void
put(PropertyTag p, CGAL_2D_TRIANGULATION& g,
const Key& key, const Value& value)
{
typedef typename boost::property_map<CGAL_2D_TRIANGULATION, PropertyTag>::type Map;
Map pmap = get(p, g);
put(pmap, key, value);
}
} // namespace CGAL
namespace boost {
// What are those needed for ???
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
struct edge_property_type<CGAL_2D_TRIANGULATION >
{
typedef void type;
};
template < CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS >
struct vertex_property_type<CGAL_2D_TRIANGULATION >
{
typedef void type;
};
} // namespace boost
#undef CGAL_2D_TRIANGULATION_TEMPLATE_PARAMETERS
#undef CGAL_2D_TRIANGULATION
#undef CGAL_2D_TRIANGULATION_TEMPLATES