libs/graph/example/bron_kerbosch_print_cliques.cpp
// (C) Copyright Andrew Sutton 2007 // // 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) //[code_bron_kerbosch_print_cliques #include <iostream> #include <boost/graph/undirected_graph.hpp> #include <boost/graph/bron_kerbosch_all_cliques.hpp> #include "helper.hpp" using namespace std; using namespace boost; // The clique_printer is a visitor that will print the vertices that comprise // a clique. Note that the vertices are not given in any specific order. template < typename OutputStream > struct clique_printer { clique_printer(OutputStream& stream) : os(stream) {} template < typename Clique, typename Graph > void clique(const Clique& c, const Graph& g) { // Iterate over the clique and print each vertex within it. typename Clique::const_iterator i, end = c.end(); for (i = c.begin(); i != end; ++i) { os << g[*i].name << " "; } os << endl; } OutputStream& os; }; // The Actor type stores the name of each vertex in the graph. struct Actor { string name; }; // Declare the graph type and its vertex and edge types. typedef undirected_graph< Actor > Graph; typedef graph_traits< Graph >::vertex_descriptor Vertex; typedef graph_traits< Graph >::edge_descriptor Edge; // The name map provides an abstract accessor for the names of // each vertex. This is used during graph creation. typedef property_map< Graph, string Actor::* >::type NameMap; int main(int argc, char* argv[]) { // Create the graph and and its name map accessor. Graph g; NameMap nm(get(&Actor::name, g)); // Read the graph from standard input. read_graph(g, nm, cin); // Instantiate the visitor for printing cliques clique_printer< ostream > vis(cout); // Use the Bron-Kerbosch algorithm to find all cliques, printing them // as they are found. bron_kerbosch_all_cliques(g, vis); return 0; } //]