//======================================================================= // Copyright (c) 2018 Yi Ji // // 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) // //======================================================================= #include #include #include #include #include using namespace boost; typedef property > EdgeProperty; typedef adjacency_list my_graph; int main(int argc, const char * argv[]) { graph_traits::vertex_iterator vi, vi_end; const int n_vertices = 18; my_graph g(n_vertices); // vertices can be refered by integers because my_graph use vector to store them add_edge(1, 2, EdgeProperty(5), g); add_edge(0, 4, EdgeProperty(1), g); add_edge(1, 5, EdgeProperty(4), g); add_edge(2, 6, EdgeProperty(1), g); add_edge(3, 7, EdgeProperty(4), g); add_edge(4, 5, EdgeProperty(7), g); add_edge(6, 7, EdgeProperty(5), g); add_edge(4, 8, EdgeProperty(2), g); add_edge(5, 9, EdgeProperty(5), g); add_edge(6, 10, EdgeProperty(6), g); add_edge(7, 11, EdgeProperty(5), g); add_edge(10, 11, EdgeProperty(4), g); add_edge(8, 13, EdgeProperty(4), g); add_edge(9, 14, EdgeProperty(4), g); add_edge(10, 15, EdgeProperty(7), g); add_edge(11, 16, EdgeProperty(6), g); add_edge(14, 15, EdgeProperty(6), g); add_edge(12, 13, EdgeProperty(2), g); add_edge(16, 17, EdgeProperty(5), g); // print the ascii graph into terminal (better to use fixed-width font) // this graph has a maximum cardinality matching of size 8 // but maximum weighted matching is of size 7 std::vector ascii_graph_weighted; ascii_graph_weighted.push_back(" 5 "); ascii_graph_weighted.push_back(" A B---C D "); ascii_graph_weighted.push_back(" 1\\ 7 /4 1\\ 5 /4 "); ascii_graph_weighted.push_back(" E---F G---H "); ascii_graph_weighted.push_back(" 2| |5 6| |5 "); ascii_graph_weighted.push_back(" I J K---L "); ascii_graph_weighted.push_back(" 4/ 3\\ 7/ 4 \\6 "); ascii_graph_weighted.push_back(" M---N O---P Q---R "); ascii_graph_weighted.push_back(" 2 6 5 "); // our maximum weighted matching and result std::cout << "In the following graph:" << std::endl << std::endl; for(std::vector::iterator itr = ascii_graph_weighted.begin(); itr != ascii_graph_weighted.end(); ++itr) std::cout << *itr << std::endl; std::cout << std::endl; std::vector::vertex_descriptor> mate1(n_vertices), mate2(n_vertices); maximum_weighted_matching(g, &mate1[0]); std::cout << "Found a weighted matching:" << std::endl; std::cout << "Matching size is " << matching_size(g, &mate1[0]) << ", total weight is " << matching_weight_sum(g, &mate1[0]) << std::endl; std::cout << std::endl; std::cout << "The matching is:" << std::endl; for (boost::tie(vi,vi_end) = vertices(g); vi != vi_end; ++vi) if (mate1[*vi] != graph_traits::null_vertex() && *vi < mate1[*vi]) std::cout << "{" << *vi << ", " << mate1[*vi] << "}" << std::endl; std::cout << std::endl; // now we check the correctness by compare the weight sum to a brute-force matching result // note that two matchings may be different because of multiple optimal solutions brute_force_maximum_weighted_matching(g, &mate2[0]); std::cout << "Found a weighted matching by brute-force searching:" << std::endl; std::cout << "Matching size is " << matching_size(g, &mate2[0]) << ", total weight is " << matching_weight_sum(g, &mate2[0]) << std::endl; std::cout << std::endl; std::cout << "The brute-force matching is:" << std::endl; for (boost::tie(vi,vi_end) = vertices(g); vi != vi_end; ++vi) if (mate2[*vi] != graph_traits::null_vertex() && *vi < mate2[*vi]) std::cout << "{" << *vi << ", " << mate2[*vi] << "}" << std::endl; std::cout << std::endl; assert(matching_weight_sum(g, &mate1[0]) == matching_weight_sum(g, &mate2[0])); return 0; }