//======================================================================= // Copyright 2001 Jeremy G. Siek, Andrew Lumsdaine, Lie-Quan Lee, // Copyright 2004 Douglas Gregor // Copyright (C) 2006-2008 // 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 #include #include #include #include #ifdef BOOST_NO_EXCEPTIONS void boost::throw_exception(std::exception const& ex) { std::cout << ex.what() << std::endl; abort(); } #endif using namespace boost; using boost::graph::distributed::mpi_process_group; // Set up the vertex names enum vertex_id_t { u, v, w, x, y, z, N }; char vertex_names[] = { 'u', 'v', 'w', 'x', 'y', 'z' }; template char get_vertex_name(Vertex v, const Graph& g) { return vertex_names[g.distribution().global(owner(v), local(v))]; } struct printing_dfs_visitor { template void initialize_vertex(Vertex v, const Graph& g) { vertex_event("initialize_vertex", v, g); } template void start_vertex(Vertex v, const Graph& g) { vertex_event("start_vertex", v, g); } template void discover_vertex(Vertex v, const Graph& g) { vertex_event("discover_vertex", v, g); } template void examine_edge(Edge e, const Graph& g) { edge_event("examine_edge", e, g); } template void tree_edge(Edge e, const Graph& g) { edge_event("tree_edge", e, g); } template void back_edge(Edge e, const Graph& g) { edge_event("back_edge", e, g); } template void forward_or_cross_edge(Edge e, const Graph& g) { edge_event("forward_or_cross_edge", e, g); } template void finish_vertex(Vertex v, const Graph& g) { vertex_event("finish_vertex", v, g); } private: template void vertex_event(const char* name, Vertex v, const Graph& g) { std::cerr << "#" << process_id(g.process_group()) << ": " << name << "(" << get_vertex_name(v, g) << ": " << local(v) << "@" << owner(v) << ")\n"; } template void edge_event(const char* name, Edge e, const Graph& g) { std::cerr << "#" << process_id(g.process_group()) << ": " << name << "(" << get_vertex_name(source(e, g), g) << ": " << local(source(e, g)) << "@" << owner(source(e, g)) << ", " << get_vertex_name(target(e, g), g) << ": " << local(target(e, g)) << "@" << owner(target(e, g)) << ")\n"; } }; void test_distributed_dfs() { typedef adjacency_list, undirectedS, // Vertex properties property > Graph; typedef graph_traits::vertex_descriptor vertex_descriptor; // Specify the edges in the graph typedef std::pair E; E edge_array[] = { E(u, v), E(u, w), E(u, x), E(x, v), E(y, x), E(v, y), E(w, y), E(w, z), E(z, z) }; Graph g(edge_array, edge_array + sizeof(edge_array) / sizeof(E), N); std::vector parent(num_vertices(g)); std::vector explore(num_vertices(g)); boost::graph::tsin_depth_first_visit (g, vertex(u, g), printing_dfs_visitor(), get(vertex_color, g), make_iterator_property_map(parent.begin(), get(vertex_index, g)), make_iterator_property_map(explore.begin(), get(vertex_index, g)), get(vertex_index, g)); #if 0 std::size_t correct_parents1[N] = {u, u, y, y, v, w}; std::size_t correct_parents2[N] = {u, u, y, v, x, w}; #endif for (std::size_t i = 0; i < N; ++i) { vertex_descriptor v = vertex(i, g); if (owner(v) == process_id(g.process_group())) { std::cout << "parent(" << get_vertex_name(v, g) << ") = " << get_vertex_name(parent[v.local], g) << std::endl; } } if (false) { depth_first_visit(g, vertex(u, g), printing_dfs_visitor()); } } int test_main(int argc, char* argv[]) { mpi::environment env(argc, argv); test_distributed_dfs(); return 0; }