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405 lines
13 KiB
C++
405 lines
13 KiB
C++
//=======================================================================
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// Copyright 1997, 1998, 1999, 2000 University of Notre Dame.
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// Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek
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//
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// Distributed under the Boost Software License, Version 1.0. (See
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// accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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//=======================================================================
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#ifndef BOOST_GRAPH_TRAITS_HPP
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#define BOOST_GRAPH_TRAITS_HPP
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#include <boost/config.hpp>
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#include <iterator>
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#include <utility> /* Primarily for std::pair */
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#include <boost/tuple/tuple.hpp>
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#include <boost/mpl/if.hpp>
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#include <boost/mpl/eval_if.hpp>
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#include <boost/mpl/bool.hpp>
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#include <boost/mpl/not.hpp>
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#include <boost/mpl/has_xxx.hpp>
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#include <boost/mpl/void.hpp>
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#include <boost/mpl/identity.hpp>
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#include <boost/type_traits/is_same.hpp>
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#include <boost/iterator/iterator_categories.hpp>
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#include <boost/iterator/iterator_adaptor.hpp>
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#include <boost/pending/property.hpp>
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#include <boost/detail/workaround.hpp>
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namespace boost {
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namespace detail {
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#define BOOST_GRAPH_MEMBER_OR_VOID(name) \
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BOOST_MPL_HAS_XXX_TRAIT_DEF(name) \
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template <typename T> struct BOOST_JOIN(get_member_, name) {typedef typename T::name type;}; \
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template <typename T> struct BOOST_JOIN(get_opt_member_, name): \
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boost::mpl::eval_if_c< \
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BOOST_JOIN(has_, name)<T>::value, \
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BOOST_JOIN(get_member_, name)<T>, \
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boost::mpl::identity<void> > \
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{};
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BOOST_GRAPH_MEMBER_OR_VOID(adjacency_iterator)
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BOOST_GRAPH_MEMBER_OR_VOID(out_edge_iterator)
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BOOST_GRAPH_MEMBER_OR_VOID(in_edge_iterator)
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BOOST_GRAPH_MEMBER_OR_VOID(vertex_iterator)
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BOOST_GRAPH_MEMBER_OR_VOID(edge_iterator)
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BOOST_GRAPH_MEMBER_OR_VOID(vertices_size_type)
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BOOST_GRAPH_MEMBER_OR_VOID(edges_size_type)
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BOOST_GRAPH_MEMBER_OR_VOID(degree_size_type)
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}
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template <typename G>
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struct graph_traits {
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#define BOOST_GRAPH_PULL_OPT_MEMBER(name) \
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typedef typename detail::BOOST_JOIN(get_opt_member_, name)<G>::type name;
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typedef typename G::vertex_descriptor vertex_descriptor;
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typedef typename G::edge_descriptor edge_descriptor;
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BOOST_GRAPH_PULL_OPT_MEMBER(adjacency_iterator)
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BOOST_GRAPH_PULL_OPT_MEMBER(out_edge_iterator)
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BOOST_GRAPH_PULL_OPT_MEMBER(in_edge_iterator)
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BOOST_GRAPH_PULL_OPT_MEMBER(vertex_iterator)
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BOOST_GRAPH_PULL_OPT_MEMBER(edge_iterator)
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typedef typename G::directed_category directed_category;
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typedef typename G::edge_parallel_category edge_parallel_category;
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typedef typename G::traversal_category traversal_category;
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BOOST_GRAPH_PULL_OPT_MEMBER(vertices_size_type)
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BOOST_GRAPH_PULL_OPT_MEMBER(edges_size_type)
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BOOST_GRAPH_PULL_OPT_MEMBER(degree_size_type)
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#undef BOOST_GRAPH_PULL_OPT_MEMBER
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static inline vertex_descriptor null_vertex();
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};
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template <typename G>
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inline typename graph_traits<G>::vertex_descriptor
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graph_traits<G>::null_vertex()
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{ return G::null_vertex(); }
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// directed_category tags
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struct directed_tag { };
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struct undirected_tag { };
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struct bidirectional_tag : public directed_tag { };
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namespace detail {
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inline bool is_directed(directed_tag) { return true; }
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inline bool is_directed(undirected_tag) { return false; }
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}
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/** Return true if the given graph is directed. */
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template <typename Graph>
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bool is_directed(const Graph&) {
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typedef typename graph_traits<Graph>::directed_category Cat;
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return detail::is_directed(Cat());
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}
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/** Return true if the given graph is undirected. */
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template <typename Graph>
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bool is_undirected(const Graph& g) {
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return !is_directed(g);
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}
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/** @name Directed/Undirected Graph Traits */
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//@{
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namespace graph_detail {
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template <typename Tag>
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struct is_directed_tag
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: mpl::bool_<is_convertible<Tag, directed_tag>::value>
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{ };
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} // namespace graph_detail
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template <typename Graph>
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struct is_directed_graph
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: graph_detail::is_directed_tag<
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typename graph_traits<Graph>::directed_category
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>
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{ };
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template <typename Graph>
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struct is_undirected_graph
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: mpl::not_< is_directed_graph<Graph> >
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{ };
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//@}
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// edge_parallel_category tags
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struct allow_parallel_edge_tag { };
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struct disallow_parallel_edge_tag { };
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namespace detail {
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inline bool allows_parallel(allow_parallel_edge_tag) { return true; }
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inline bool allows_parallel(disallow_parallel_edge_tag) { return false; }
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}
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template <typename Graph>
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bool allows_parallel_edges(const Graph&) {
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typedef typename graph_traits<Graph>::edge_parallel_category Cat;
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return detail::allows_parallel(Cat());
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}
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/** @name Parallel Edges Traits */
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//@{
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/**
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* The is_multigraph metafunction returns true if the graph allows
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* parallel edges. Technically, a multigraph is a simple graph that
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* allows parallel edges, but since there are no traits for the allowance
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* or disallowance of loops, this is a moot point.
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*/
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template <typename Graph>
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struct is_multigraph
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: mpl::bool_<
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is_same<
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typename graph_traits<Graph>::edge_parallel_category,
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allow_parallel_edge_tag
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>::value
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>
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{ };
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//@}
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// traversal_category tags
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struct incidence_graph_tag { };
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struct adjacency_graph_tag { };
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struct bidirectional_graph_tag : virtual incidence_graph_tag { };
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struct vertex_list_graph_tag { };
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struct edge_list_graph_tag { };
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struct adjacency_matrix_tag { };
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// Parallel traversal_category tags
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struct distributed_graph_tag { };
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struct distributed_vertex_list_graph_tag { };
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struct distributed_edge_list_graph_tag { };
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#define BOOST_GRAPH_SEQUENTIAL_TRAITS_DEFINES_DISTRIBUTED_TAGS // Disable these from external versions of PBGL
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/** @name Traversal Category Traits
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* These traits classify graph types by their supported methods of
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* vertex and edge traversal.
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*/
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//@{
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template <typename Graph>
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struct is_incidence_graph
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: mpl::bool_<
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is_convertible<
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typename graph_traits<Graph>::traversal_category,
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incidence_graph_tag
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>::value
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>
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{ };
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template <typename Graph>
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struct is_bidirectional_graph
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: mpl::bool_<
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is_convertible<
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typename graph_traits<Graph>::traversal_category,
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bidirectional_graph_tag
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>::value
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>
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{ };
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template <typename Graph>
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struct is_vertex_list_graph
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: mpl::bool_<
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is_convertible<
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typename graph_traits<Graph>::traversal_category,
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vertex_list_graph_tag
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>::value
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>
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{ };
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template <typename Graph>
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struct is_edge_list_graph
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: mpl::bool_<
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is_convertible<
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typename graph_traits<Graph>::traversal_category,
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edge_list_graph_tag
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>::value
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>
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{ };
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template <typename Graph>
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struct is_adjacency_matrix
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: mpl::bool_<
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is_convertible<
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typename graph_traits<Graph>::traversal_category,
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adjacency_matrix_tag
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>::value
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>
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{ };
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//@}
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/** @name Directed Graph Traits
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* These metafunctions are used to fully classify directed vs. undirected
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* graphs. Recall that an undirected graph is also bidirectional, but it
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* cannot be both undirected and directed at the same time.
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*/
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//@{
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template <typename Graph>
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struct is_directed_unidirectional_graph
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: mpl::and_<
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is_directed_graph<Graph>, mpl::not_< is_bidirectional_graph<Graph> >
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>
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{ };
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template <typename Graph>
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struct is_directed_bidirectional_graph
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: mpl::and_<
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is_directed_graph<Graph>, is_bidirectional_graph<Graph>
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>
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{ };
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//@}
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//?? not the right place ?? Lee
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typedef boost::forward_traversal_tag multi_pass_input_iterator_tag;
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namespace detail {
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BOOST_MPL_HAS_XXX_TRAIT_DEF(graph_property_type)
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BOOST_MPL_HAS_XXX_TRAIT_DEF(edge_property_type)
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BOOST_MPL_HAS_XXX_TRAIT_DEF(vertex_property_type)
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template <typename G> struct get_graph_property_type {typedef typename G::graph_property_type type;};
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template <typename G> struct get_edge_property_type {typedef typename G::edge_property_type type;};
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template <typename G> struct get_vertex_property_type {typedef typename G::vertex_property_type type;};
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}
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template <typename G>
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struct graph_property_type
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: boost::mpl::eval_if<detail::has_graph_property_type<G>,
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detail::get_graph_property_type<G>,
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no_property> {};
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template <typename G>
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struct edge_property_type
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: boost::mpl::eval_if<detail::has_edge_property_type<G>,
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detail::get_edge_property_type<G>,
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no_property> {};
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template <typename G>
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struct vertex_property_type
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: boost::mpl::eval_if<detail::has_vertex_property_type<G>,
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detail::get_vertex_property_type<G>,
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no_property> {};
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template<typename G>
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struct graph_bundle_type {
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typedef typename G::graph_bundled type;
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};
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template<typename G>
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struct vertex_bundle_type {
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typedef typename G::vertex_bundled type;
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};
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template<typename G>
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struct edge_bundle_type {
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typedef typename G::edge_bundled type;
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};
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namespace graph { namespace detail {
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template<typename Graph, typename Descriptor>
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class bundled_result {
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typedef typename graph_traits<Graph>::vertex_descriptor Vertex;
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typedef typename mpl::if_c<(is_same<Descriptor, Vertex>::value),
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vertex_bundle_type<Graph>,
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edge_bundle_type<Graph> >::type bundler;
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public:
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typedef typename bundler::type type;
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};
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template<typename Graph>
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class bundled_result<Graph, graph_bundle_t> {
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typedef typename graph_traits<Graph>::vertex_descriptor Vertex;
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typedef graph_bundle_type<Graph> bundler;
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public:
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typedef typename bundler::type type;
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};
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} } // namespace graph::detail
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namespace graph_detail {
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// A helper metafunction for determining whether or not a type is
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// bundled.
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template <typename T>
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struct is_no_bundle : mpl::bool_<is_same<T, no_property>::value>
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{ };
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} // namespace graph_detail
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/** @name Graph Property Traits
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* These metafunctions (along with those above), can be used to access the
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* vertex and edge properties (bundled or otherwise) of vertices and
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* edges.
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*/
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//@{
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template<typename Graph>
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struct has_graph_property
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: mpl::not_<
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typename detail::is_no_property<
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typename graph_property_type<Graph>::type
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>::type
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>::type
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{ };
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template<typename Graph>
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struct has_bundled_graph_property
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: mpl::not_<
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graph_detail::is_no_bundle<typename graph_bundle_type<Graph>::type>
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>
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{ };
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template <typename Graph>
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struct has_vertex_property
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: mpl::not_<
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typename detail::is_no_property<typename vertex_property_type<Graph>::type>
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>::type
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{ };
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template <typename Graph>
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struct has_bundled_vertex_property
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: mpl::not_<
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graph_detail::is_no_bundle<typename vertex_bundle_type<Graph>::type>
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>
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{ };
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template <typename Graph>
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struct has_edge_property
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: mpl::not_<
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typename detail::is_no_property<typename edge_property_type<Graph>::type>
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>::type
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{ };
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template <typename Graph>
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struct has_bundled_edge_property
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: mpl::not_<
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graph_detail::is_no_bundle<typename edge_bundle_type<Graph>::type>
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>
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{ };
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//@}
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} // namespace boost
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// Since pair is in namespace std, Koenig lookup will find source and
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// target if they are also defined in namespace std. This is illegal,
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// but the alternative is to put source and target in the global
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// namespace which causes name conflicts with other libraries (like
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// SUIF).
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namespace std {
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/* Some helper functions for dealing with pairs as edges */
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template <class T, class G>
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T source(pair<T,T> p, const G&) { return p.first; }
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template <class T, class G>
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T target(pair<T,T> p, const G&) { return p.second; }
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}
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#if defined(__GNUC__) && defined(__SGI_STL_PORT)
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// For some reason g++ with STLport does not see the above definition
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// of source() and target() unless we bring them into the boost
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// namespace.
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namespace boost {
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using std::source;
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using std::target;
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}
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#endif
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#endif // BOOST_GRAPH_TRAITS_HPP
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