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// Copyright 1997, 1998, 1999, 2000 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


#include <boost/config.hpp>
#include <iterator>
#include <boost/tuple/tuple.hpp>
#include <boost/mpl/if.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/iterator/iterator_categories.hpp>
#include <boost/iterator/iterator_adaptor.hpp>
#include <boost/detail/workaround.hpp>

namespace boost {

  template <typename G>
  struct graph_traits {
    typedef typename G::vertex_descriptor      vertex_descriptor;
    typedef typename G::edge_descriptor        edge_descriptor;
    typedef typename G::adjacency_iterator     adjacency_iterator;
    typedef typename G::out_edge_iterator      out_edge_iterator;
    typedef typename G::in_edge_iterator       in_edge_iterator;
    typedef typename G::vertex_iterator        vertex_iterator;
    typedef typename G::edge_iterator          edge_iterator;

    typedef typename G::directed_category      directed_category;
    typedef typename G::edge_parallel_category edge_parallel_category;
    typedef typename G::traversal_category     traversal_category;

    typedef typename G::vertices_size_type     vertices_size_type;
    typedef typename G::edges_size_type        edges_size_type;
    typedef typename G::degree_size_type       degree_size_type;

    static inline vertex_descriptor null_vertex();

  template <typename G>
  inline typename graph_traits<G>::vertex_descriptor
    return G::null_vertex();

  // directed_category tags
  struct directed_tag { };
  struct undirected_tag { };
  struct bidirectional_tag : public directed_tag { };

  namespace detail {
    inline bool is_directed(directed_tag) { return true; }
    inline bool is_directed(undirected_tag) { return false; }

  template <typename Graph>
  bool is_directed(const Graph&) { 
    typedef typename graph_traits<Graph>::directed_category Cat;
    return detail::is_directed(Cat());
  template <typename Graph>
  bool is_undirected(const Graph& g) { 
    return ! is_directed(g);

  // edge_parallel_category tags
  struct allow_parallel_edge_tag {};
  struct disallow_parallel_edge_tag {};

  namespace detail {
    inline bool allows_parallel(allow_parallel_edge_tag) { return true; }
    inline bool allows_parallel(disallow_parallel_edge_tag) { return false; }

  template <typename Graph>
  bool allows_parallel_edges(const Graph&) { 
    typedef typename graph_traits<Graph>::edge_parallel_category Cat;
    return detail::allows_parallel(Cat());

  // traversal_category tags
  struct incidence_graph_tag { };
  struct adjacency_graph_tag { };
  struct bidirectional_graph_tag : 
    public virtual incidence_graph_tag { };
  struct vertex_list_graph_tag { };
  struct edge_list_graph_tag { };
  struct adjacency_matrix_tag { };

  //?? not the right place ?? Lee
  typedef boost::forward_traversal_tag multi_pass_input_iterator_tag;

  template <typename G>
  struct edge_property_type {
    typedef typename G::edge_property_type type;
  template <typename G>
  struct vertex_property_type {
    typedef typename G::vertex_property_type type;
  template <typename G>
  struct graph_property_type {
    typedef typename G::graph_property_type type;

  struct no_vertex_bundle {};
  struct no_edge_bundle {};

  template<typename G>
  struct vertex_bundle_type
    typedef typename G::vertex_bundled type;

  template<typename G>
  struct edge_bundle_type
    typedef typename G::edge_bundled type;

  namespace graph { namespace detail {
    template<typename Graph, typename Descriptor>
    class bundled_result
      typedef typename graph_traits<Graph>::vertex_descriptor Vertex;
      typedef typename mpl::if_c<(is_same<Descriptor, Vertex>::value),
                                 edge_bundle_type<Graph> >::type bundler;

      typedef typename bundler::type type;
  } } // end namespace graph::detail
} // namespace boost

// Since pair is in namespace std, Koenig lookup will find source and
// target if they are also defined in namespace std.  This is illegal,
// but the alternative is to put source and target in the global
// namespace which causes name conflicts with other libraries (like
// SUIF).
namespace std {

  /* Some helper functions for dealing with pairs as edges */
  template <class T, class G>
  T source(pair<T,T> p, const G&) { return p.first; }

  template <class T, class G>
  T target(pair<T,T> p, const G&) { return p.second; }


#if defined(__GNUC__) && defined(__SGI_STL_PORT)
// For some reason g++ with STLport does not see the above definition
// of source() and target() unless we bring them into the boost
// namespace.
namespace boost {
  using std::source;
  using std::target;