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glm/test/external/boost/graph/planar_face_traversal.hpp

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//=======================================================================
// Copyright (c) Aaron Windsor 2007
//
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//=======================================================================
#ifndef __PLANAR_FACE_TRAVERSAL_HPP__
#define __PLANAR_FACE_TRAVERSAL_HPP__
#include <vector>
#include <boost/utility.hpp> //for next and prior
#include <boost/graph/graph_traits.hpp>
namespace boost
{
struct planar_face_traversal_visitor
{
void begin_traversal()
{}
void begin_face()
{}
template <typename Edge>
void next_edge(Edge)
{}
template <typename Vertex>
void next_vertex(Vertex)
{}
void end_face()
{}
void end_traversal()
{}
};
template<typename Graph,
typename PlanarEmbedding,
typename Visitor,
typename EdgeIndexMap>
void planar_face_traversal(const Graph& g,
PlanarEmbedding embedding,
Visitor& visitor, EdgeIndexMap em
)
{
typedef typename graph_traits<Graph>::vertex_descriptor vertex_t;
typedef typename graph_traits<Graph>::edge_descriptor edge_t;
typedef typename graph_traits<Graph>::vertex_iterator vertex_iterator_t;
typedef typename graph_traits<Graph>::edge_iterator edge_iterator_t;
typedef typename
property_traits<PlanarEmbedding>::value_type embedding_value_t;
typedef typename embedding_value_t::const_iterator embedding_iterator_t;
typedef typename
std::vector< std::set<vertex_t> > distinguished_edge_storage_t;
typedef typename
std::vector< std::map<vertex_t, edge_t> >
distinguished_edge_to_edge_storage_t;
typedef typename
boost::iterator_property_map
<typename distinguished_edge_storage_t::iterator, EdgeIndexMap>
distinguished_edge_map_t;
typedef typename
boost::iterator_property_map
<typename distinguished_edge_to_edge_storage_t::iterator, EdgeIndexMap>
distinguished_edge_to_edge_map_t;
distinguished_edge_storage_t visited_vector(num_edges(g));
distinguished_edge_to_edge_storage_t next_edge_vector(num_edges(g));
distinguished_edge_map_t visited(visited_vector.begin(), em);
distinguished_edge_to_edge_map_t next_edge(next_edge_vector.begin(), em);
vertex_iterator_t vi, vi_end;
typename std::vector<edge_t>::iterator ei, ei_end;
edge_iterator_t fi, fi_end;
embedding_iterator_t pi, pi_begin, pi_end;
visitor.begin_traversal();
// Initialize the next_edge property map. This map is initialized from the
// PlanarEmbedding so that get(next_edge, e)[v] is the edge that comes
// after e in the clockwise embedding around vertex v.
for(boost::tie(vi,vi_end) = vertices(g); vi != vi_end; ++vi)
{
vertex_t v(*vi);
pi_begin = embedding[v].begin();
pi_end = embedding[v].end();
for(pi = pi_begin; pi != pi_end; ++pi)
{
edge_t e(*pi);
std::map<vertex_t, edge_t> m = get(next_edge, e);
m[v] = boost::next(pi) == pi_end ? *pi_begin : *boost::next(pi);
put(next_edge, e, m);
}
}
// Take a copy of the edges in the graph here, since we want to accomodate
// face traversals that add edges to the graph (for triangulation, in
// particular) and don't want to use invalidated edge iterators.
// Also, while iterating over all edges in the graph, we single out
// any self-loops, which need some special treatment in the face traversal.
std::vector<edge_t> self_loops;
std::vector<edge_t> edges_cache;
std::vector<vertex_t> vertices_in_edge;
for(boost::tie(fi,fi_end) = edges(g); fi != fi_end; ++fi)
{
edge_t e(*fi);
edges_cache.push_back(e);
if (source(e,g) == target(e,g))
self_loops.push_back(e);
}
// Iterate over all edges in the graph
ei_end = edges_cache.end();
for(ei = edges_cache.begin(); ei != ei_end; ++ei)
{
edge_t e(*ei);
vertices_in_edge.clear();
vertices_in_edge.push_back(source(e,g));
vertices_in_edge.push_back(target(e,g));
typename std::vector<vertex_t>::iterator vi, vi_end;
vi_end = vertices_in_edge.end();
//Iterate over both vertices in the current edge
for(vi = vertices_in_edge.begin(); vi != vi_end; ++vi)
{
vertex_t v(*vi);
std::set<vertex_t> e_visited = get(visited, e);
typename std::set<vertex_t>::iterator e_visited_found
= e_visited.find(v);
if (e_visited_found == e_visited.end())
visitor.begin_face();
while (e_visited.find(v) == e_visited.end())
{
visitor.next_vertex(v);
visitor.next_edge(e);
e_visited.insert(v);
put(visited, e, e_visited);
v = source(e,g) == v ? target(e,g) : source(e,g);
e = get(next_edge, e)[v];
e_visited = get(visited, e);
}
if (e_visited_found == e_visited.end())
visitor.end_face();
}
}
// Iterate over all self-loops, visiting them once separately
// (they've already been visited once, this visitation is for
// the "inside" of the self-loop)
ei_end = self_loops.end();
for(ei = self_loops.begin(); ei != ei_end; ++ei)
{
visitor.begin_face();
visitor.next_edge(*ei);
visitor.next_vertex(source(*ei,g));
visitor.end_face();
}
visitor.end_traversal();
}
template<typename Graph, typename PlanarEmbedding, typename Visitor>
inline void planar_face_traversal(const Graph& g,
PlanarEmbedding embedding,
Visitor& visitor
)
{
planar_face_traversal(g, embedding, visitor, get(edge_index, g));
}
} //namespace boost
#endif //__PLANAR_FACE_TRAVERSAL_HPP__