libs/graph/example/incremental_components.cpp
//======================================================================= // Copyright 1997, 1998, 1999, 2000 University of Notre Dame. // Copyright 2009 Trustees of Indiana University. // Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek, Michael Hansen // // 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 <iostream> #include <vector> #include <boost/foreach.hpp> #include <boost/graph/adjacency_list.hpp> #include <boost/graph/graph_utility.hpp> #include <boost/graph/incremental_components.hpp> #include <boost/pending/disjoint_sets.hpp> /* This example shows how to use the disjoint set data structure to compute the connected components of an undirected, changing graph. Sample output: An undirected graph: 0 <--> 1 4 1 <--> 0 4 2 <--> 5 3 <--> 4 <--> 1 0 5 <--> 2 representative[0] = 1 representative[1] = 1 representative[2] = 5 representative[3] = 3 representative[4] = 1 representative[5] = 5 component 0 contains: 4 1 0 component 1 contains: 3 component 2 contains: 5 2 */ using namespace boost; int main(int argc, char* argv[]) { typedef adjacency_list <vecS, vecS, undirectedS> Graph; typedef graph_traits<Graph>::vertex_descriptor Vertex; typedef graph_traits<Graph>::vertices_size_type VertexIndex; const int VERTEX_COUNT = 6; Graph graph(VERTEX_COUNT); std::vector<VertexIndex> rank(num_vertices(graph)); std::vector<Vertex> parent(num_vertices(graph)); typedef VertexIndex* Rank; typedef Vertex* Parent; disjoint_sets<Rank, Parent> ds(&rank[0], &parent[0]); initialize_incremental_components(graph, ds); incremental_components(graph, ds); graph_traits<Graph>::edge_descriptor edge; bool flag; boost::tie(edge, flag) = add_edge(0, 1, graph); ds.union_set(0,1); boost::tie(edge, flag) = add_edge(1, 4, graph); ds.union_set(1,4); boost::tie(edge, flag) = add_edge(4, 0, graph); ds.union_set(4,0); boost::tie(edge, flag) = add_edge(2, 5, graph); ds.union_set(2,5); std::cout << "An undirected graph:" << std::endl; print_graph(graph, get(boost::vertex_index, graph)); std::cout << std::endl; BOOST_FOREACH(Vertex current_vertex, vertices(graph)) { std::cout << "representative[" << current_vertex << "] = " << ds.find_set(current_vertex) << std::endl; } std::cout << std::endl; typedef component_index<VertexIndex> Components; // NOTE: Because we're using vecS for the graph type, we're // effectively using identity_property_map for a vertex index map. // If we were to use listS instead, the index map would need to be // explicitly passed to the component_index constructor. Components components(parent.begin(), parent.end()); // Iterate through the component indices BOOST_FOREACH(VertexIndex current_index, components) { std::cout << "component " << current_index << " contains: "; // Iterate through the child vertex indices for [current_index] BOOST_FOREACH(VertexIndex child_index, components[current_index]) { std::cout << child_index << " "; } std::cout << std::endl; } return (0); }