// (C) Copyright 2007-2009 Andrew Sutton // // Use, modification and distribution are subject to the // Boost Software License, Version 1.0 (See accompanying file // LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt) #include #include #include #include #include #include #include using namespace std; using namespace boost; // useful types // number of vertices in the graph static const unsigned N = 5; template < typename Graph > struct vertex_vector { typedef graph_traits< Graph > traits; typedef vector< typename traits::vertex_descriptor > type; }; template < typename Graph > void build_graph(Graph& g, typename vertex_vector< Graph >::type& v) { // add vertices for (size_t i = 0; i < N; ++i) { v[i] = add_vertex(g); } // add edges add_edge(v[0], v[1], g); add_edge(v[1], v[2], g); add_edge(v[2], v[0], g); add_edge(v[3], v[4], g); add_edge(v[4], v[0], g); } template < typename Graph > void test_undirected() { typedef typename graph_traits< Graph >::vertex_descriptor Vertex; typedef typename graph_traits< Graph >::edge_descriptor Edge; typedef exterior_vertex_property< Graph, double > CentralityProperty; typedef typename CentralityProperty::container_type CentralityContainer; typedef typename CentralityProperty::map_type CentralityMap; typedef exterior_vertex_property< Graph, int > DistanceProperty; typedef typename DistanceProperty::matrix_type DistanceMatrix; typedef typename DistanceProperty::matrix_map_type DistanceMatrixMap; typedef constant_property_map< Edge, int > WeightMap; Graph g; vector< Vertex > v(N); build_graph(g, v); CentralityContainer centralities(num_vertices(g)); DistanceMatrix distances(num_vertices(g)); CentralityMap cm(centralities, g); DistanceMatrixMap dm(distances, g); WeightMap wm(1); floyd_warshall_all_pairs_shortest_paths(g, dm, weight_map(wm)); double geo1 = all_mean_geodesics(g, dm, cm); double geo2 = small_world_distance(g, cm); BOOST_ASSERT(cm[v[0]] == double(5) / 4); BOOST_ASSERT(cm[v[1]] == double(7) / 4); BOOST_ASSERT(cm[v[2]] == double(7) / 4); BOOST_ASSERT(cm[v[3]] == double(9) / 4); BOOST_ASSERT(cm[v[4]] == double(6) / 4); BOOST_ASSERT(geo1 == double(34) / 20); BOOST_ASSERT(geo1 == geo2); } template < typename Graph > void test_directed() { typedef typename graph_traits< Graph >::vertex_descriptor Vertex; typedef typename graph_traits< Graph >::edge_descriptor Edge; typedef exterior_vertex_property< Graph, double > CentralityProperty; typedef typename CentralityProperty::container_type CentralityContainer; typedef typename CentralityProperty::map_type CentralityMap; typedef exterior_vertex_property< Graph, int > DistanceProperty; typedef typename DistanceProperty::matrix_type DistanceMatrix; typedef typename DistanceProperty::matrix_map_type DistanceMatrixMap; typedef constant_property_map< Edge, int > WeightMap; Graph g; vector< Vertex > v(N); build_graph(g, v); CentralityContainer centralities(num_vertices(g)); DistanceMatrix distances(num_vertices(g)); CentralityMap cm(centralities, g); DistanceMatrixMap dm(distances, g); WeightMap wm(1); floyd_warshall_all_pairs_shortest_paths(g, dm, weight_map(wm)); double geo1 = all_mean_geodesics(g, dm, cm); double geo2 = small_world_distance(g, cm); double inf = numeric_values< double >::infinity(); BOOST_ASSERT(cm[v[0]] == inf); BOOST_ASSERT(cm[v[1]] == inf); BOOST_ASSERT(cm[v[2]] == inf); BOOST_ASSERT(cm[v[3]] == double(10) / 4); BOOST_ASSERT(cm[v[4]] == inf); BOOST_ASSERT(geo1 == inf); BOOST_ASSERT(geo1 == geo2); } int main(int, char*[]) { typedef undirected_graph<> Graph; typedef directed_graph<> Digraph; test_undirected< Graph >(); test_directed< Digraph >(); }