boost_1_45_0/libs/graph/test/adjacency_matrix_test.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /* adjacency_matrix_test.cpp source file
  *
  * Copyright Cromwell D. Enage 2004
  *
  * 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)
  */

 /*
  * Defines the std::ios class and std::cout, its global output instance.
  */
 #include <iostream>

 /*
  * Defines the boost::property_map class template and the boost::get and
  * boost::put function templates.
  */
 #include <boost/property_map/property_map.hpp>

 /*
  * Defines the boost::graph_traits class template.
  */
 #include <boost/graph/graph_traits.hpp>

 /*
  * Defines the vertex and edge property tags.
  */
 #include <boost/graph/properties.hpp>

 /*
  * Defines the boost::adjacency_list class template and its associated
  * non-member function templates.
  */
 #include <boost/graph/adjacency_list.hpp>

 /*
  * Defines the boost::adjacency_matrix class template and its associated
  * non-member function templates.
  */
 #include <boost/graph/adjacency_matrix.hpp>

 #include <boost/test/minimal.hpp>

 #include <vector>
 #include <algorithm> // For std::sort
 #include <boost/type_traits/is_convertible.hpp>

 #include <boost/graph/iteration_macros.hpp>

 template<typename Graph1, typename Graph2>
 void run_test()
 {
    typedef typename boost::property_map<Graph1, boost::vertex_index_t>::type
            IndexMap1;
    typedef typename boost::property_map<Graph2, boost::vertex_index_t>::type
            IndexMap2;

    Graph1 g1(24);
    Graph2 g2(24);

 boost::add_edge(boost::vertex(1, g1), boost::vertex(2, g1), g1);
    boost::add_edge(boost::vertex(1, g2), boost::vertex(2, g2), g2);
    boost::add_edge(boost::vertex(2, g1), boost::vertex(10, g1), g1);
    boost::add_edge(boost::vertex(2, g2), boost::vertex(10, g2), g2);
    boost::add_edge(boost::vertex(2, g1), boost::vertex(5, g1), g1);
    boost::add_edge(boost::vertex(2, g2), boost::vertex(5, g2), g2);
    boost::add_edge(boost::vertex(3, g1), boost::vertex(10, g1), g1);
    boost::add_edge(boost::vertex(3, g2), boost::vertex(10, g2), g2);
    boost::add_edge(boost::vertex(3, g1), boost::vertex(0, g1), g1);
    boost::add_edge(boost::vertex(3, g2), boost::vertex(0, g2), g2);
    boost::add_edge(boost::vertex(4, g1), boost::vertex(5, g1), g1);
    boost::add_edge(boost::vertex(4, g2), boost::vertex(5, g2), g2);
    boost::add_edge(boost::vertex(4, g1), boost::vertex(0, g1), g1);
    boost::add_edge(boost::vertex(4, g2), boost::vertex(0, g2), g2);
    boost::add_edge(boost::vertex(5, g1), boost::vertex(14, g1), g1);
    boost::add_edge(boost::vertex(5, g2), boost::vertex(14, g2), g2);
    boost::add_edge(boost::vertex(6, g1), boost::vertex(3, g1), g1);
    boost::add_edge(boost::vertex(6, g2), boost::vertex(3, g2), g2);
    boost::add_edge(boost::vertex(7, g1), boost::vertex(17, g1), g1);
    boost::add_edge(boost::vertex(7, g2), boost::vertex(17, g2), g2);
    boost::add_edge(boost::vertex(7, g1), boost::vertex(11, g1), g1);
    boost::add_edge(boost::vertex(7, g2), boost::vertex(11, g2), g2);
    boost::add_edge(boost::vertex(8, g1), boost::vertex(17, g1), g1);
    boost::add_edge(boost::vertex(8, g2), boost::vertex(17, g2), g2);
    boost::add_edge(boost::vertex(8, g1), boost::vertex(1, g1), g1);
    boost::add_edge(boost::vertex(8, g2), boost::vertex(1, g2), g2);
    boost::add_edge(boost::vertex(9, g1), boost::vertex(11, g1), g1);
    boost::add_edge(boost::vertex(9, g2), boost::vertex(11, g2), g2);
    boost::add_edge(boost::vertex(9, g1), boost::vertex(1, g1), g1);
    boost::add_edge(boost::vertex(9, g2), boost::vertex(1, g2), g2);
    boost::add_edge(boost::vertex(10, g1), boost::vertex(19, g1), g1);
    boost::add_edge(boost::vertex(10, g2), boost::vertex(19, g2), g2);
    boost::add_edge(boost::vertex(10, g1), boost::vertex(15, g1), g1);
    boost::add_edge(boost::vertex(10, g2), boost::vertex(15, g2), g2);
    boost::add_edge(boost::vertex(10, g1), boost::vertex(8, g1), g1);
    boost::add_edge(boost::vertex(10, g2), boost::vertex(8, g2), g2);
    boost::add_edge(boost::vertex(11, g1), boost::vertex(19, g1), g1);
    boost::add_edge(boost::vertex(11, g2), boost::vertex(19, g2), g2);
    boost::add_edge(boost::vertex(11, g1), boost::vertex(15, g1), g1);
    boost::add_edge(boost::vertex(11, g2), boost::vertex(15, g2), g2);
    boost::add_edge(boost::vertex(11, g1), boost::vertex(4, g1), g1);
    boost::add_edge(boost::vertex(11, g2), boost::vertex(4, g2), g2);
    boost::add_edge(boost::vertex(12, g1), boost::vertex(19, g1), g1);
    boost::add_edge(boost::vertex(12, g2), boost::vertex(19, g2), g2);
    boost::add_edge(boost::vertex(12, g1), boost::vertex(8, g1), g1);
    boost::add_edge(boost::vertex(12, g2), boost::vertex(8, g2), g2);
    boost::add_edge(boost::vertex(12, g1), boost::vertex(4, g1), g1);
    boost::add_edge(boost::vertex(12, g2), boost::vertex(4, g2), g2);
    boost::add_edge(boost::vertex(13, g1), boost::vertex(15, g1), g1);
    boost::add_edge(boost::vertex(13, g2), boost::vertex(15, g2), g2);
    boost::add_edge(boost::vertex(13, g1), boost::vertex(8, g1), g1);
    boost::add_edge(boost::vertex(13, g2), boost::vertex(8, g2), g2);
    boost::add_edge(boost::vertex(13, g1), boost::vertex(4, g1), g1);
    boost::add_edge(boost::vertex(13, g2), boost::vertex(4, g2), g2);
    boost::add_edge(boost::vertex(14, g1), boost::vertex(22, g1), g1);
    boost::add_edge(boost::vertex(14, g2), boost::vertex(22, g2), g2);
    boost::add_edge(boost::vertex(14, g1), boost::vertex(12, g1), g1);
    boost::add_edge(boost::vertex(14, g2), boost::vertex(12, g2), g2);
    boost::add_edge(boost::vertex(15, g1), boost::vertex(22, g1), g1);
    boost::add_edge(boost::vertex(15, g2), boost::vertex(22, g2), g2);
    boost::add_edge(boost::vertex(15, g1), boost::vertex(6, g1), g1);
    boost::add_edge(boost::vertex(15, g2), boost::vertex(6, g2), g2);
    boost::add_edge(boost::vertex(16, g1), boost::vertex(12, g1), g1);
    boost::add_edge(boost::vertex(16, g2), boost::vertex(12, g2), g2);
    boost::add_edge(boost::vertex(16, g1), boost::vertex(6, g1), g1);
    boost::add_edge(boost::vertex(16, g2), boost::vertex(6, g2), g2);
    boost::add_edge(boost::vertex(17, g1), boost::vertex(20, g1), g1);
    boost::add_edge(boost::vertex(17, g2), boost::vertex(20, g2), g2);
    boost::add_edge(boost::vertex(18, g1), boost::vertex(9, g1), g1);
    boost::add_edge(boost::vertex(18, g2), boost::vertex(9, g2), g2);
    boost::add_edge(boost::vertex(19, g1), boost::vertex(23, g1), g1);
    boost::add_edge(boost::vertex(19, g2), boost::vertex(23, g2), g2);
    boost::add_edge(boost::vertex(19, g1), boost::vertex(18, g1), g1);
    boost::add_edge(boost::vertex(19, g2), boost::vertex(18, g2), g2);
    boost::add_edge(boost::vertex(20, g1), boost::vertex(23, g1), g1);
    boost::add_edge(boost::vertex(20, g2), boost::vertex(23, g2), g2);
    boost::add_edge(boost::vertex(20, g1), boost::vertex(13, g1), g1);
    boost::add_edge(boost::vertex(20, g2), boost::vertex(13, g2), g2);
    boost::add_edge(boost::vertex(21, g1), boost::vertex(18, g1), g1);
    boost::add_edge(boost::vertex(21, g2), boost::vertex(18, g2), g2);
    boost::add_edge(boost::vertex(21, g1), boost::vertex(13, g1), g1);
    boost::add_edge(boost::vertex(21, g2), boost::vertex(13, g2), g2);
    boost::add_edge(boost::vertex(22, g1), boost::vertex(21, g1), g1);
    boost::add_edge(boost::vertex(22, g2), boost::vertex(21, g2), g2);
    boost::add_edge(boost::vertex(23, g1), boost::vertex(16, g1), g1);
    boost::add_edge(boost::vertex(23, g2), boost::vertex(16, g2), g2);

    IndexMap1 index_map1 = boost::get(boost::vertex_index_t(), g1);
    IndexMap2 index_map2 = boost::get(boost::vertex_index_t(), g2);
    typename boost::graph_traits<Graph1>::vertex_iterator vi1, vend1;
    typename boost::graph_traits<Graph2>::vertex_iterator vi2, vend2;

    typename boost::graph_traits<Graph1>::adjacency_iterator ai1, aend1;
    typename boost::graph_traits<Graph2>::adjacency_iterator ai2, aend2;

    for (boost::tie(vi1, vend1) = boost::vertices(g1), boost::tie(vi2, vend2) =boost::vertices(g2); vi1 != vend1; ++vi1, ++vi2)
    {
       BOOST_CHECK(boost::get(index_map1, *vi1) == boost::get(index_map2, *vi2));

       for (boost::tie(ai1, aend1) = boost::adjacent_vertices(*vi1, g1),
              boost::tie(ai2, aend2) = boost::adjacent_vertices(*vi2, g2);
            ai1 != aend1;
            ++ai1, ++ai2)
       {
         BOOST_CHECK(boost::get(index_map1, *ai1) == boost::get(index_map2, *ai2));
       }
    }

    typename boost::graph_traits<Graph1>::out_edge_iterator ei1, eend1;
    typename boost::graph_traits<Graph2>::out_edge_iterator ei2, eend2;

    for (boost::tie(vi1, vend1) = boost::vertices(g1),
           boost::tie(vi2, vend2) = boost::vertices(g2); vi1 != vend1; ++vi1, ++vi2)
    {
       BOOST_CHECK(boost::get(index_map1, *vi1) == boost::get(index_map2, *vi2));

       for (boost::tie(ei1, eend1) = boost::out_edges(*vi1, g1),
              boost::tie(ei2, eend2) = boost::out_edges(*vi2, g2);
            ei1 != eend1;
            ++ei1, ++ei2)
       {
         BOOST_CHECK(boost::get(index_map1, boost::target(*ei1, g1)) == boost::get(index_map2, boost::target(*ei2, g2)));
       }
    }

    typename boost::graph_traits<Graph1>::in_edge_iterator iei1, ieend1;
    typename boost::graph_traits<Graph2>::in_edge_iterator iei2, ieend2;

    for (boost::tie(vi1, vend1) = boost::vertices(g1),
           boost::tie(vi2, vend2) = boost::vertices(g2); vi1 != vend1; ++vi1, ++vi2)
    {
       BOOST_CHECK(boost::get(index_map1, *vi1) == boost::get(index_map2, *vi2));

       for (boost::tie(iei1, ieend1) = boost::in_edges(*vi1, g1),
              boost::tie(iei2, ieend2) = boost::in_edges(*vi2, g2);
            iei1 != ieend1;
            ++iei1, ++iei2)
       {
         BOOST_CHECK(boost::get(index_map1, boost::target(*iei1, g1)) == boost::get(index_map2, boost::target(*iei2, g2)));
       }
    }

    // Test construction from a range of pairs
    std::vector<std::pair<int, int> > edge_pairs_g1;
    BGL_FORALL_EDGES_T(e, g1, Graph1) {
      edge_pairs_g1.push_back(
        std::make_pair(get(index_map1, source(e, g1)),
                       get(index_map1, target(e, g1))));
    }
    Graph2 g3(edge_pairs_g1.begin(), edge_pairs_g1.end(), num_vertices(g1));
    BOOST_CHECK(num_vertices(g1) == num_vertices(g3));
    std::vector<std::pair<int, int> > edge_pairs_g3;
    IndexMap2 index_map3 = boost::get(boost::vertex_index_t(), g3);
    BGL_FORALL_EDGES_T(e, g3, Graph2) {
      edge_pairs_g3.push_back(
        std::make_pair(get(index_map3, source(e, g3)),
                       get(index_map3, target(e, g3))));
    }
    // Normalize the edge pairs for comparison
    if (boost::is_convertible<typename boost::graph_traits<Graph1>::directed_category*, boost::undirected_tag*>::value || boost::is_convertible<typename boost::graph_traits<Graph2>::directed_category*, boost::undirected_tag*>::value) {
      for (size_t i = 0; i < edge_pairs_g1.size(); ++i) {
        if (edge_pairs_g1[i].first < edge_pairs_g1[i].second) {
          std::swap(edge_pairs_g1[i].first, edge_pairs_g1[i].second);
        }
      }
      for (size_t i = 0; i < edge_pairs_g3.size(); ++i) {
        if (edge_pairs_g3[i].first < edge_pairs_g3[i].second) {
          std::swap(edge_pairs_g3[i].first, edge_pairs_g3[i].second);
        }
      }
    }
    std::sort(edge_pairs_g1.begin(), edge_pairs_g1.end());
    std::sort(edge_pairs_g3.begin(), edge_pairs_g3.end());
    edge_pairs_g1.erase(std::unique(edge_pairs_g1.begin(), edge_pairs_g1.end()), edge_pairs_g1.end());
    edge_pairs_g3.erase(std::unique(edge_pairs_g3.begin(), edge_pairs_g3.end()), edge_pairs_g3.end());
    BOOST_CHECK(edge_pairs_g1 == edge_pairs_g3);
 }

 template <typename Graph>
 void test_remove_edges()
 {
     using namespace boost;

     // Build a 2-vertex graph
     Graph g(2);
     add_edge(vertex(0, g), vertex(1, g), g);
     BOOST_CHECK(num_vertices(g) == 2);
     BOOST_CHECK(num_edges(g) == 1);
     remove_edge(vertex(0, g), vertex(1, g), g);
     BOOST_CHECK(num_edges(g) == 0);

     // Make sure we don't decrement the edge count if the edge doesn't actually
     // exist.
     remove_edge(vertex(0, g), vertex(1, g), g);
     BOOST_CHECK(num_edges(g) == 0);
 }


 int test_main(int, char*[])
 {
         // Use setS to keep out edges in order, so they match the adjacency_matrix.
     typedef boost::adjacency_list<boost::setS, boost::vecS, boost::undirectedS>
             UGraph1;
     typedef boost::adjacency_matrix<boost::undirectedS>
             UGraph2;
     run_test<UGraph1, UGraph2>();

         // Use setS to keep out edges in order, so they match the adjacency_matrix.
     typedef boost::adjacency_list<boost::setS, boost::vecS,
                                     boost::bidirectionalS>
             BGraph1;
     typedef boost::adjacency_matrix<boost::directedS>
             BGraph2;
     run_test<BGraph1, BGraph2>();

     test_remove_edges<UGraph2>();
     test_remove_edges<BGraph2>();

     return 0;
 }
	/* adjacency_matrix_test.cpp source file
	*
	* Copyright Cromwell D. Enage 2004
	*
	* 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)
	*/

	/*
	* Defines the std::ios class and std::cout, its global output instance.
	*/
	#include <iostream>

	/*
	* Defines the boost::property_map class template and the boost::get and
	* boost::put function templates.
	*/
	#include <boost/property_map/property_map.hpp>

	/*
	* Defines the boost::graph_traits class template.
	*/
	#include <boost/graph/graph_traits.hpp>

	/*
	* Defines the vertex and edge property tags.
	*/
	#include <boost/graph/properties.hpp>

	/*
	* Defines the boost::adjacency_list class template and its associated
	* non-member function templates.
	*/
	#include <boost/graph/adjacency_list.hpp>

	/*
	* Defines the boost::adjacency_matrix class template and its associated
	* non-member function templates.
	*/
	#include <boost/graph/adjacency_matrix.hpp>

	#include <boost/test/minimal.hpp>

	#include <vector>
	#include <algorithm> // For std::sort
	#include <boost/type_traits/is_convertible.hpp>

	#include <boost/graph/iteration_macros.hpp>

	template<typename Graph1, typename Graph2>
	void run_test()
	{
	typedef typename boost::property_map<Graph1, boost::vertex_index_t>::type
	IndexMap1;
	typedef typename boost::property_map<Graph2, boost::vertex_index_t>::type
	IndexMap2;

	Graph1 g1(24);
	Graph2 g2(24);

	boost::add_edge(boost::vertex(1, g1), boost::vertex(2, g1), g1);
	boost::add_edge(boost::vertex(1, g2), boost::vertex(2, g2), g2);
	boost::add_edge(boost::vertex(2, g1), boost::vertex(10, g1), g1);
	boost::add_edge(boost::vertex(2, g2), boost::vertex(10, g2), g2);
	boost::add_edge(boost::vertex(2, g1), boost::vertex(5, g1), g1);
	boost::add_edge(boost::vertex(2, g2), boost::vertex(5, g2), g2);
	boost::add_edge(boost::vertex(3, g1), boost::vertex(10, g1), g1);
	boost::add_edge(boost::vertex(3, g2), boost::vertex(10, g2), g2);
	boost::add_edge(boost::vertex(3, g1), boost::vertex(0, g1), g1);
	boost::add_edge(boost::vertex(3, g2), boost::vertex(0, g2), g2);
	boost::add_edge(boost::vertex(4, g1), boost::vertex(5, g1), g1);
	boost::add_edge(boost::vertex(4, g2), boost::vertex(5, g2), g2);
	boost::add_edge(boost::vertex(4, g1), boost::vertex(0, g1), g1);
	boost::add_edge(boost::vertex(4, g2), boost::vertex(0, g2), g2);
	boost::add_edge(boost::vertex(5, g1), boost::vertex(14, g1), g1);
	boost::add_edge(boost::vertex(5, g2), boost::vertex(14, g2), g2);
	boost::add_edge(boost::vertex(6, g1), boost::vertex(3, g1), g1);
	boost::add_edge(boost::vertex(6, g2), boost::vertex(3, g2), g2);
	boost::add_edge(boost::vertex(7, g1), boost::vertex(17, g1), g1);
	boost::add_edge(boost::vertex(7, g2), boost::vertex(17, g2), g2);
	boost::add_edge(boost::vertex(7, g1), boost::vertex(11, g1), g1);
	boost::add_edge(boost::vertex(7, g2), boost::vertex(11, g2), g2);
	boost::add_edge(boost::vertex(8, g1), boost::vertex(17, g1), g1);
	boost::add_edge(boost::vertex(8, g2), boost::vertex(17, g2), g2);
	boost::add_edge(boost::vertex(8, g1), boost::vertex(1, g1), g1);
	boost::add_edge(boost::vertex(8, g2), boost::vertex(1, g2), g2);
	boost::add_edge(boost::vertex(9, g1), boost::vertex(11, g1), g1);
	boost::add_edge(boost::vertex(9, g2), boost::vertex(11, g2), g2);
	boost::add_edge(boost::vertex(9, g1), boost::vertex(1, g1), g1);
	boost::add_edge(boost::vertex(9, g2), boost::vertex(1, g2), g2);
	boost::add_edge(boost::vertex(10, g1), boost::vertex(19, g1), g1);
	boost::add_edge(boost::vertex(10, g2), boost::vertex(19, g2), g2);
	boost::add_edge(boost::vertex(10, g1), boost::vertex(15, g1), g1);
	boost::add_edge(boost::vertex(10, g2), boost::vertex(15, g2), g2);
	boost::add_edge(boost::vertex(10, g1), boost::vertex(8, g1), g1);
	boost::add_edge(boost::vertex(10, g2), boost::vertex(8, g2), g2);
	boost::add_edge(boost::vertex(11, g1), boost::vertex(19, g1), g1);
	boost::add_edge(boost::vertex(11, g2), boost::vertex(19, g2), g2);
	boost::add_edge(boost::vertex(11, g1), boost::vertex(15, g1), g1);
	boost::add_edge(boost::vertex(11, g2), boost::vertex(15, g2), g2);
	boost::add_edge(boost::vertex(11, g1), boost::vertex(4, g1), g1);
	boost::add_edge(boost::vertex(11, g2), boost::vertex(4, g2), g2);
	boost::add_edge(boost::vertex(12, g1), boost::vertex(19, g1), g1);
	boost::add_edge(boost::vertex(12, g2), boost::vertex(19, g2), g2);
	boost::add_edge(boost::vertex(12, g1), boost::vertex(8, g1), g1);
	boost::add_edge(boost::vertex(12, g2), boost::vertex(8, g2), g2);
	boost::add_edge(boost::vertex(12, g1), boost::vertex(4, g1), g1);
	boost::add_edge(boost::vertex(12, g2), boost::vertex(4, g2), g2);
	boost::add_edge(boost::vertex(13, g1), boost::vertex(15, g1), g1);
	boost::add_edge(boost::vertex(13, g2), boost::vertex(15, g2), g2);
	boost::add_edge(boost::vertex(13, g1), boost::vertex(8, g1), g1);
	boost::add_edge(boost::vertex(13, g2), boost::vertex(8, g2), g2);
	boost::add_edge(boost::vertex(13, g1), boost::vertex(4, g1), g1);
	boost::add_edge(boost::vertex(13, g2), boost::vertex(4, g2), g2);
	boost::add_edge(boost::vertex(14, g1), boost::vertex(22, g1), g1);
	boost::add_edge(boost::vertex(14, g2), boost::vertex(22, g2), g2);
	boost::add_edge(boost::vertex(14, g1), boost::vertex(12, g1), g1);
	boost::add_edge(boost::vertex(14, g2), boost::vertex(12, g2), g2);
	boost::add_edge(boost::vertex(15, g1), boost::vertex(22, g1), g1);
	boost::add_edge(boost::vertex(15, g2), boost::vertex(22, g2), g2);
	boost::add_edge(boost::vertex(15, g1), boost::vertex(6, g1), g1);
	boost::add_edge(boost::vertex(15, g2), boost::vertex(6, g2), g2);
	boost::add_edge(boost::vertex(16, g1), boost::vertex(12, g1), g1);
	boost::add_edge(boost::vertex(16, g2), boost::vertex(12, g2), g2);
	boost::add_edge(boost::vertex(16, g1), boost::vertex(6, g1), g1);
	boost::add_edge(boost::vertex(16, g2), boost::vertex(6, g2), g2);
	boost::add_edge(boost::vertex(17, g1), boost::vertex(20, g1), g1);
	boost::add_edge(boost::vertex(17, g2), boost::vertex(20, g2), g2);
	boost::add_edge(boost::vertex(18, g1), boost::vertex(9, g1), g1);
	boost::add_edge(boost::vertex(18, g2), boost::vertex(9, g2), g2);
	boost::add_edge(boost::vertex(19, g1), boost::vertex(23, g1), g1);
	boost::add_edge(boost::vertex(19, g2), boost::vertex(23, g2), g2);
	boost::add_edge(boost::vertex(19, g1), boost::vertex(18, g1), g1);
	boost::add_edge(boost::vertex(19, g2), boost::vertex(18, g2), g2);
	boost::add_edge(boost::vertex(20, g1), boost::vertex(23, g1), g1);
	boost::add_edge(boost::vertex(20, g2), boost::vertex(23, g2), g2);
	boost::add_edge(boost::vertex(20, g1), boost::vertex(13, g1), g1);
	boost::add_edge(boost::vertex(20, g2), boost::vertex(13, g2), g2);
	boost::add_edge(boost::vertex(21, g1), boost::vertex(18, g1), g1);
	boost::add_edge(boost::vertex(21, g2), boost::vertex(18, g2), g2);
	boost::add_edge(boost::vertex(21, g1), boost::vertex(13, g1), g1);
	boost::add_edge(boost::vertex(21, g2), boost::vertex(13, g2), g2);
	boost::add_edge(boost::vertex(22, g1), boost::vertex(21, g1), g1);
	boost::add_edge(boost::vertex(22, g2), boost::vertex(21, g2), g2);
	boost::add_edge(boost::vertex(23, g1), boost::vertex(16, g1), g1);
	boost::add_edge(boost::vertex(23, g2), boost::vertex(16, g2), g2);

	IndexMap1 index_map1 = boost::get(boost::vertex_index_t(), g1);
	IndexMap2 index_map2 = boost::get(boost::vertex_index_t(), g2);
	typename boost::graph_traits<Graph1>::vertex_iterator vi1, vend1;
	typename boost::graph_traits<Graph2>::vertex_iterator vi2, vend2;

	typename boost::graph_traits<Graph1>::adjacency_iterator ai1, aend1;
	typename boost::graph_traits<Graph2>::adjacency_iterator ai2, aend2;

	for (boost::tie(vi1, vend1) = boost::vertices(g1), boost::tie(vi2, vend2) =boost::vertices(g2); vi1 != vend1; ++vi1, ++vi2)
	{
	BOOST_CHECK(boost::get(index_map1, vi1) == boost::get(index_map2, vi2));

	for (boost::tie(ai1, aend1) = boost::adjacent_vertices(*vi1, g1),
	boost::tie(ai2, aend2) = boost::adjacent_vertices(*vi2, g2);
	ai1 != aend1;
	++ai1, ++ai2)
	{
	BOOST_CHECK(boost::get(index_map1, ai1) == boost::get(index_map2, ai2));
	}
	}

	typename boost::graph_traits<Graph1>::out_edge_iterator ei1, eend1;
	typename boost::graph_traits<Graph2>::out_edge_iterator ei2, eend2;

	for (boost::tie(vi1, vend1) = boost::vertices(g1),
	boost::tie(vi2, vend2) = boost::vertices(g2); vi1 != vend1; ++vi1, ++vi2)
	{
	BOOST_CHECK(boost::get(index_map1, vi1) == boost::get(index_map2, vi2));

	for (boost::tie(ei1, eend1) = boost::out_edges(*vi1, g1),
	boost::tie(ei2, eend2) = boost::out_edges(*vi2, g2);
	ei1 != eend1;
	++ei1, ++ei2)
	{
	BOOST_CHECK(boost::get(index_map1, boost::target(ei1, g1)) == boost::get(index_map2, boost::target(ei2, g2)));
	}
	}

	typename boost::graph_traits<Graph1>::in_edge_iterator iei1, ieend1;
	typename boost::graph_traits<Graph2>::in_edge_iterator iei2, ieend2;

	for (boost::tie(vi1, vend1) = boost::vertices(g1),
	boost::tie(vi2, vend2) = boost::vertices(g2); vi1 != vend1; ++vi1, ++vi2)
	{
	BOOST_CHECK(boost::get(index_map1, vi1) == boost::get(index_map2, vi2));

	for (boost::tie(iei1, ieend1) = boost::in_edges(*vi1, g1),
	boost::tie(iei2, ieend2) = boost::in_edges(*vi2, g2);
	iei1 != ieend1;
	++iei1, ++iei2)
	{
	BOOST_CHECK(boost::get(index_map1, boost::target(iei1, g1)) == boost::get(index_map2, boost::target(iei2, g2)));
	}
	}

	// Test construction from a range of pairs
	std::vector<std::pair<int, int> > edge_pairs_g1;
	BGL_FORALL_EDGES_T(e, g1, Graph1) {
	edge_pairs_g1.push_back(
	std::make_pair(get(index_map1, source(e, g1)),
	get(index_map1, target(e, g1))));
	}
	Graph2 g3(edge_pairs_g1.begin(), edge_pairs_g1.end(), num_vertices(g1));
	BOOST_CHECK(num_vertices(g1) == num_vertices(g3));
	std::vector<std::pair<int, int> > edge_pairs_g3;
	IndexMap2 index_map3 = boost::get(boost::vertex_index_t(), g3);
	BGL_FORALL_EDGES_T(e, g3, Graph2) {
	edge_pairs_g3.push_back(
	std::make_pair(get(index_map3, source(e, g3)),
	get(index_map3, target(e, g3))));
	}
	// Normalize the edge pairs for comparison
	if (boost::is_convertible<typename boost::graph_traits<Graph1>::directed_category, boost::undirected_tag>::value \|\| boost::is_convertible<typename boost::graph_traits<Graph2>::directed_category, boost::undirected_tag>::value) {
	for (size_t i = 0; i < edge_pairs_g1.size(); ++i) {
	if (edge_pairs_g1[i].first < edge_pairs_g1[i].second) {
	std::swap(edge_pairs_g1[i].first, edge_pairs_g1[i].second);
	}
	}
	for (size_t i = 0; i < edge_pairs_g3.size(); ++i) {
	if (edge_pairs_g3[i].first < edge_pairs_g3[i].second) {
	std::swap(edge_pairs_g3[i].first, edge_pairs_g3[i].second);
	}
	}
	}
	std::sort(edge_pairs_g1.begin(), edge_pairs_g1.end());
	std::sort(edge_pairs_g3.begin(), edge_pairs_g3.end());
	edge_pairs_g1.erase(std::unique(edge_pairs_g1.begin(), edge_pairs_g1.end()), edge_pairs_g1.end());
	edge_pairs_g3.erase(std::unique(edge_pairs_g3.begin(), edge_pairs_g3.end()), edge_pairs_g3.end());
	BOOST_CHECK(edge_pairs_g1 == edge_pairs_g3);
	}

	template <typename Graph>
	void test_remove_edges()
	{
	using namespace boost;

	// Build a 2-vertex graph
	Graph g(2);
	add_edge(vertex(0, g), vertex(1, g), g);
	BOOST_CHECK(num_vertices(g) == 2);
	BOOST_CHECK(num_edges(g) == 1);
	remove_edge(vertex(0, g), vertex(1, g), g);
	BOOST_CHECK(num_edges(g) == 0);

	// Make sure we don't decrement the edge count if the edge doesn't actually
	// exist.
	remove_edge(vertex(0, g), vertex(1, g), g);
	BOOST_CHECK(num_edges(g) == 0);
	}


	int test_main(int, char*[])
	{
	// Use setS to keep out edges in order, so they match the adjacency_matrix.
	typedef boost::adjacency_list<boost::setS, boost::vecS, boost::undirectedS>
	UGraph1;
	typedef boost::adjacency_matrix<boost::undirectedS>
	UGraph2;
	run_test<UGraph1, UGraph2>();

	// Use setS to keep out edges in order, so they match the adjacency_matrix.
	typedef boost::adjacency_list<boost::setS, boost::vecS,
	boost::bidirectionalS>
	BGraph1;
	typedef boost::adjacency_matrix<boost::directedS>
	BGraph2;
	run_test<BGraph1, BGraph2>();

	test_remove_edges<UGraph2>();
	test_remove_edges<BGraph2>();

	return 0;
	}