boost/graph/distributed/st_connected.hpp
// Copyright (C) 2006 The Trustees of Indiana University. // Use, modification and distribution is subject to 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) // Authors: Douglas Gregor // Andrew Lumsdaine #ifndef BOOST_GRAPH_DISTRIBUTED_ST_CONNECTED_HPP #define BOOST_GRAPH_DISTRIBUTED_ST_CONNECTED_HPP #ifndef BOOST_GRAPH_USE_MPI #error "Parallel BGL files should not be included unless <boost/graph/use_mpi.hpp> has been included" #endif #include <boost/graph/graph_traits.hpp> #include <boost/graph/two_bit_color_map.hpp> #include <boost/graph/distributed/queue.hpp> #include <boost/pending/queue.hpp> #include <boost/graph/iteration_macros.hpp> #include <boost/graph/parallel/container_traits.hpp> #include <boost/property_map/property_map.hpp> #include <boost/property_map/parallel/parallel_property_maps.hpp> #include <boost/graph/parallel/algorithm.hpp> #include <utility> #include <boost/optional.hpp> namespace boost { namespace graph { namespace distributed { namespace detail { struct pair_and_or { std::pair<bool, bool> operator()(std::pair<bool, bool> x, std::pair<bool, bool> y) const { return std::pair<bool, bool>(x.first && y.first, x.second || y.second); } }; } // end namespace detail template<typename DistributedGraph, typename ColorMap, typename OwnerMap> bool st_connected(const DistributedGraph& g, typename graph_traits<DistributedGraph>::vertex_descriptor s, typename graph_traits<DistributedGraph>::vertex_descriptor t, ColorMap color, OwnerMap owner) { using boost::graph::parallel::process_group; using boost::graph::parallel::process_group_type; using boost::parallel::all_reduce; typedef typename property_traits<ColorMap>::value_type Color; typedef color_traits<Color> ColorTraits; typedef typename process_group_type<DistributedGraph>::type ProcessGroup; typedef typename ProcessGroup::process_id_type ProcessID; typedef typename graph_traits<DistributedGraph>::vertex_descriptor Vertex; // Set all vertices to white (unvisited) BGL_FORALL_VERTICES_T(v, g, DistributedGraph) put(color, v, ColorTraits::white()); // "color" plays the role of a color map, with no synchronization. set_property_map_role(vertex_color, color); color.set_consistency_model(0); // Vertices found from the source are grey put(color, s, ColorTraits::gray()); // Vertices found from the target are green put(color, t, ColorTraits::green()); ProcessGroup pg = process_group(g); ProcessID rank = process_id(pg); // Build a local queue queue<Vertex> Q; if (get(owner, s) == rank) Q.push(s); if (get(owner, t) == rank) Q.push(t); queue<Vertex> other_Q; while (true) { bool found = false; // Process all vertices in the local queue while (!found && !Q.empty()) { Vertex u = Q.top(); Q.pop(); Color u_color = get(color, u); BGL_FORALL_OUTEDGES_T(u, e, g, DistributedGraph) { Vertex v = target(e, g); Color v_color = get(color, v); if (v_color == ColorTraits::white()) { // We have not seen "v" before; mark it with the same color as u Color u_color = get(color, u); put(color, v, u_color); // Either push v into the local queue or send it off to its // owner. ProcessID v_owner = get(owner, v); if (v_owner == rank) other_Q.push(v); else send(pg, v_owner, 0, std::make_pair(v, u_color == ColorTraits::gray())); } else if (v_color != ColorTraits::black() && u_color != v_color) { // Colors have collided. We're done! found = true; break; } } // u is done, so mark it black put(color, u, ColorTraits::black()); } // Ensure that all transmitted messages have been received. synchronize(pg); // Move all of the send-to-self values into the local Q. other_Q.swap(Q); if (!found) { // Receive all messages while (optional<std::pair<ProcessID, int> > msg = probe(pg)) { std::pair<Vertex, bool> data; receive(pg, msg->first, msg->second, data); // Determine the colors of u and v, the source and target // vertices (v is local). Vertex v = data.first; Color v_color = get(color, v); Color u_color = data.second? ColorTraits::gray() : ColorTraits::green(); if (v_color == ColorTraits::white()) { // v had no color before, so give it u's color and push it // into the queue. Q.push(v); put(color, v, u_color); } else if (v_color != ColorTraits::black() && u_color != v_color) { // Colors have collided. We're done! found = true; break; } } } // Check if either all queues are empty or std::pair<bool, bool> results = all_reduce(pg, boost::parallel::detail::make_untracked_pair(Q.empty(), found), detail::pair_and_or()); // If someone found the answer, we're done! if (results.second) return true; // If all queues are empty, we're done. if (results.first) return false; } } template<typename DistributedGraph, typename ColorMap> inline bool st_connected(const DistributedGraph& g, typename graph_traits<DistributedGraph>::vertex_descriptor s, typename graph_traits<DistributedGraph>::vertex_descriptor t, ColorMap color) { return st_connected(g, s, t, color, get(vertex_owner, g)); } template<typename DistributedGraph> inline bool st_connected(const DistributedGraph& g, typename graph_traits<DistributedGraph>::vertex_descriptor s, typename graph_traits<DistributedGraph>::vertex_descriptor t) { return st_connected(g, s, t, make_two_bit_color_map(num_vertices(g), get(vertex_index, g))); } } } } // end namespace boost::graph::distributed #endif // BOOST_GRAPH_DISTRIBUTED_ST_CONNECTED_HPP