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twain3.0/3rdparty/boost_1_73_0/boost/graph/connected_components.hpp

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//
//=======================================================================
// Copyright 1997-2001 University of Notre Dame.
// Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek
//
// 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 BOOST_GRAPH_CONNECTED_COMPONENTS_HPP
#define BOOST_GRAPH_CONNECTED_COMPONENTS_HPP
#include <boost/config.hpp>
#include <boost/graph/depth_first_search.hpp>
#include <boost/graph/properties.hpp>
#include <boost/graph/graph_concepts.hpp>
#include <boost/graph/overloading.hpp>
#include <boost/graph/detail/mpi_include.hpp>
#include <boost/static_assert.hpp>
#include <boost/concept/assert.hpp>
namespace boost
{
namespace detail
{
// This visitor is used both in the connected_components algorithm
// and in the kosaraju strong components algorithm during the
// second DFS traversal.
template < class ComponentsMap >
class components_recorder : public dfs_visitor<>
{
typedef typename property_traits< ComponentsMap >::value_type comp_type;
public:
components_recorder(ComponentsMap c, comp_type& c_count)
: m_component(c), m_count(c_count)
{
}
template < class Vertex, class Graph > void start_vertex(Vertex, Graph&)
{
if (m_count == (std::numeric_limits< comp_type >::max)())
m_count = 0; // start counting components at zero
else
++m_count;
}
template < class Vertex, class Graph >
void discover_vertex(Vertex u, Graph&)
{
put(m_component, u, m_count);
}
protected:
ComponentsMap m_component;
comp_type& m_count;
};
} // namespace detail
// This function computes the connected components of an undirected
// graph using a single application of depth first search.
template < class Graph, class ComponentMap, class P, class T, class R >
inline typename property_traits< ComponentMap >::value_type
connected_components(const Graph& g, ComponentMap c,
const bgl_named_params< P, T, R >& params BOOST_GRAPH_ENABLE_IF_MODELS_PARM(
Graph, vertex_list_graph_tag))
{
if (num_vertices(g) == 0)
return 0;
typedef typename graph_traits< Graph >::vertex_descriptor Vertex;
BOOST_CONCEPT_ASSERT((WritablePropertyMapConcept< ComponentMap, Vertex >));
typedef typename boost::graph_traits< Graph >::directed_category directed;
BOOST_STATIC_ASSERT((boost::is_same< directed, undirected_tag >::value));
typedef typename property_traits< ComponentMap >::value_type comp_type;
// c_count initialized to "nil" (with nil represented by (max)())
comp_type c_count((std::numeric_limits< comp_type >::max)());
detail::components_recorder< ComponentMap > vis(c, c_count);
depth_first_search(g, params.visitor(vis));
return c_count + 1;
}
template < class Graph, class ComponentMap >
inline typename property_traits< ComponentMap >::value_type
connected_components(const Graph& g,
ComponentMap c BOOST_GRAPH_ENABLE_IF_MODELS_PARM(
Graph, vertex_list_graph_tag))
{
if (num_vertices(g) == 0)
return 0;
typedef typename graph_traits< Graph >::vertex_descriptor Vertex;
BOOST_CONCEPT_ASSERT((WritablePropertyMapConcept< ComponentMap, Vertex >));
// typedef typename boost::graph_traits<Graph>::directed_category directed;
// BOOST_STATIC_ASSERT((boost::is_same<directed, undirected_tag>::value));
typedef typename property_traits< ComponentMap >::value_type comp_type;
// c_count initialized to "nil" (with nil represented by (max)())
comp_type c_count((std::numeric_limits< comp_type >::max)());
detail::components_recorder< ComponentMap > vis(c, c_count);
depth_first_search(g, visitor(vis));
return c_count + 1;
}
} // namespace boost
#include BOOST_GRAPH_MPI_INCLUDE(< boost / graph / distributed / connected_components.hpp >)
#endif // BOOST_GRAPH_CONNECTED_COMPONENTS_HPP
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