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annotate DEPENDENCIES/generic/include/boost/graph/distributed/st_connected.hpp @ 125:34e428693f5d vext

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Vext -> Repoint
author Chris Cannam
date Thu, 14 Jun 2018 11:15:39 +0100
parents 2665513ce2d3
children
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Chris@16 1 // Copyright (C) 2006 The Trustees of Indiana University.
Chris@16 2
Chris@16 3 // Use, modification and distribution is subject to the Boost Software
Chris@16 4 // License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
Chris@16 5 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16 6
Chris@16 7 // Authors: Douglas Gregor
Chris@16 8 // Andrew Lumsdaine
Chris@16 9 #ifndef BOOST_GRAPH_DISTRIBUTED_ST_CONNECTED_HPP
Chris@16 10 #define BOOST_GRAPH_DISTRIBUTED_ST_CONNECTED_HPP
Chris@16 11
Chris@16 12 #ifndef BOOST_GRAPH_USE_MPI
Chris@16 13 #error "Parallel BGL files should not be included unless <boost/graph/use_mpi.hpp> has been included"
Chris@16 14 #endif
Chris@16 15
Chris@16 16 #include <boost/graph/graph_traits.hpp>
Chris@16 17 #include <boost/graph/two_bit_color_map.hpp>
Chris@16 18 #include <boost/graph/distributed/queue.hpp>
Chris@16 19 #include <boost/pending/queue.hpp>
Chris@16 20 #include <boost/graph/iteration_macros.hpp>
Chris@16 21 #include <boost/graph/parallel/container_traits.hpp>
Chris@16 22 #include <boost/property_map/property_map.hpp>
Chris@16 23 #include <boost/graph/parallel/algorithm.hpp>
Chris@16 24 #include <utility>
Chris@16 25 #include <boost/optional.hpp>
Chris@16 26
Chris@16 27 namespace boost { namespace graph { namespace distributed {
Chris@16 28
Chris@16 29 namespace detail {
Chris@16 30 struct pair_and_or
Chris@16 31 {
Chris@16 32 std::pair<bool, bool>
Chris@16 33 operator()(std::pair<bool, bool> x, std::pair<bool, bool> y) const
Chris@16 34 {
Chris@16 35 return std::pair<bool, bool>(x.first && y.first,
Chris@16 36 x.second || y.second);
Chris@16 37 }
Chris@16 38 };
Chris@16 39
Chris@16 40 } // end namespace detail
Chris@16 41
Chris@16 42 template<typename DistributedGraph, typename ColorMap, typename OwnerMap>
Chris@16 43 bool
Chris@16 44 st_connected(const DistributedGraph& g,
Chris@16 45 typename graph_traits<DistributedGraph>::vertex_descriptor s,
Chris@16 46 typename graph_traits<DistributedGraph>::vertex_descriptor t,
Chris@16 47 ColorMap color, OwnerMap owner)
Chris@16 48 {
Chris@16 49 using boost::graph::parallel::process_group;
Chris@16 50 using boost::graph::parallel::process_group_type;
Chris@16 51 using boost::parallel::all_reduce;
Chris@16 52
Chris@16 53 typedef typename property_traits<ColorMap>::value_type Color;
Chris@16 54 typedef color_traits<Color> ColorTraits;
Chris@16 55 typedef typename process_group_type<DistributedGraph>::type ProcessGroup;
Chris@16 56 typedef typename ProcessGroup::process_id_type ProcessID;
Chris@16 57 typedef typename graph_traits<DistributedGraph>::vertex_descriptor Vertex;
Chris@16 58
Chris@16 59 // Set all vertices to white (unvisited)
Chris@16 60 BGL_FORALL_VERTICES_T(v, g, DistributedGraph)
Chris@16 61 put(color, v, ColorTraits::white());
Chris@16 62
Chris@16 63 // "color" plays the role of a color map, with no synchronization.
Chris@16 64 set_property_map_role(vertex_color, color);
Chris@16 65 color.set_consistency_model(0);
Chris@16 66
Chris@16 67 // Vertices found from the source are grey
Chris@16 68 put(color, s, ColorTraits::gray());
Chris@16 69
Chris@16 70 // Vertices found from the target are green
Chris@16 71 put(color, t, ColorTraits::green());
Chris@16 72
Chris@16 73 ProcessGroup pg = process_group(g);
Chris@16 74 ProcessID rank = process_id(pg);
Chris@16 75
Chris@16 76 // Build a local queue
Chris@16 77 queue<Vertex> Q;
Chris@16 78 if (get(owner, s) == rank) Q.push(s);
Chris@16 79 if (get(owner, t) == rank) Q.push(t);
Chris@16 80
Chris@16 81 queue<Vertex> other_Q;
Chris@16 82
Chris@16 83 while (true) {
Chris@16 84 bool found = false;
Chris@16 85
Chris@16 86 // Process all vertices in the local queue
Chris@16 87 while (!found && !Q.empty()) {
Chris@16 88 Vertex u = Q.top(); Q.pop();
Chris@16 89 Color u_color = get(color, u);
Chris@16 90
Chris@16 91 BGL_FORALL_OUTEDGES_T(u, e, g, DistributedGraph) {
Chris@16 92 Vertex v = target(e, g);
Chris@16 93 Color v_color = get(color, v);
Chris@16 94 if (v_color == ColorTraits::white()) {
Chris@16 95 // We have not seen "v" before; mark it with the same color as u
Chris@16 96 Color u_color = get(color, u);
Chris@16 97 put(color, v, u_color);
Chris@16 98
Chris@16 99 // Either push v into the local queue or send it off to its
Chris@16 100 // owner.
Chris@16 101 ProcessID v_owner = get(owner, v);
Chris@16 102 if (v_owner == rank)
Chris@16 103 other_Q.push(v);
Chris@16 104 else
Chris@16 105 send(pg, v_owner, 0,
Chris@16 106 std::make_pair(v, u_color == ColorTraits::gray()));
Chris@16 107 } else if (v_color != ColorTraits::black() && u_color != v_color) {
Chris@16 108 // Colors have collided. We're done!
Chris@16 109 found = true;
Chris@16 110 break;
Chris@16 111 }
Chris@16 112 }
Chris@16 113
Chris@16 114 // u is done, so mark it black
Chris@16 115 put(color, u, ColorTraits::black());
Chris@16 116 }
Chris@16 117
Chris@16 118 // Ensure that all transmitted messages have been received.
Chris@16 119 synchronize(pg);
Chris@16 120
Chris@16 121 // Move all of the send-to-self values into the local Q.
Chris@16 122 other_Q.swap(Q);
Chris@16 123
Chris@16 124 if (!found) {
Chris@16 125 // Receive all messages
Chris@16 126 while (optional<std::pair<ProcessID, int> > msg = probe(pg)) {
Chris@16 127 std::pair<Vertex, bool> data;
Chris@16 128 receive(pg, msg->first, msg->second, data);
Chris@16 129
Chris@16 130 // Determine the colors of u and v, the source and target
Chris@16 131 // vertices (v is local).
Chris@16 132 Vertex v = data.first;
Chris@16 133 Color v_color = get(color, v);
Chris@16 134 Color u_color = data.second? ColorTraits::gray() : ColorTraits::green();
Chris@16 135 if (v_color == ColorTraits::white()) {
Chris@16 136 // v had no color before, so give it u's color and push it
Chris@16 137 // into the queue.
Chris@16 138 Q.push(v);
Chris@16 139 put(color, v, u_color);
Chris@16 140 } else if (v_color != ColorTraits::black() && u_color != v_color) {
Chris@16 141 // Colors have collided. We're done!
Chris@16 142 found = true;
Chris@16 143 break;
Chris@16 144 }
Chris@16 145 }
Chris@16 146 }
Chris@16 147
Chris@16 148 // Check if either all queues are empty or
Chris@16 149 std::pair<bool, bool> results = all_reduce(pg,
Chris@16 150 boost::parallel::detail::make_untracked_pair(Q.empty(), found),
Chris@16 151 detail::pair_and_or());
Chris@16 152
Chris@16 153 // If someone found the answer, we're done!
Chris@16 154 if (results.second)
Chris@16 155 return true;
Chris@16 156
Chris@16 157 // If all queues are empty, we're done.
Chris@16 158 if (results.first)
Chris@16 159 return false;
Chris@16 160 }
Chris@16 161 }
Chris@16 162
Chris@16 163 template<typename DistributedGraph, typename ColorMap>
Chris@16 164 inline bool
Chris@16 165 st_connected(const DistributedGraph& g,
Chris@16 166 typename graph_traits<DistributedGraph>::vertex_descriptor s,
Chris@16 167 typename graph_traits<DistributedGraph>::vertex_descriptor t,
Chris@16 168 ColorMap color)
Chris@16 169 {
Chris@16 170 return st_connected(g, s, t, color, get(vertex_owner, g));
Chris@16 171 }
Chris@16 172
Chris@16 173 template<typename DistributedGraph>
Chris@16 174 inline bool
Chris@16 175 st_connected(const DistributedGraph& g,
Chris@16 176 typename graph_traits<DistributedGraph>::vertex_descriptor s,
Chris@16 177 typename graph_traits<DistributedGraph>::vertex_descriptor t)
Chris@16 178 {
Chris@16 179 return st_connected(g, s, t,
Chris@16 180 make_two_bit_color_map(num_vertices(g),
Chris@16 181 get(vertex_index, g)));
Chris@16 182 }
Chris@16 183
Chris@16 184 } } } // end namespace boost::graph::distributed
Chris@16 185
Chris@16 186 #endif // BOOST_GRAPH_DISTRIBUTED_ST_CONNECTED_HPP