utilmm: utilmm: undirected_dfs.hh Source File

00001 //=======================================================================
00002 // Copyright 2006 Sylvain Joyeux
00003 //   * added a terminator function to undirected_dfs_visit
00004 //   * specialize for use with undirected_graph<>
00005 //
00006 // Copyright 1997, 1998, 1999, 2000 University of Notre Dame.
00007 // Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek
00008 //
00009 // Distributed under the Boost Software License, Version 1.0. (See
00010 // accompanying file LICENSE_1_0.txt or copy at
00011 // http://www.boost.org/LICENSE_1_0.txt)
00012 //=======================================================================
00013 //
00014 #ifndef UTILMM_GRAPH_UNDIRECTED_DFS_HPP
00015 #define UTILMM_GRAPH_UNDIRECTED_DFS_HPP
00016 
00017 #include <boost/graph/depth_first_search.hpp>
00018 #include <vector>
00019 
00020 namespace utilmm {
00021   namespace detail {
00022     using namespace boost;
00023     struct nontruth2 {
00024         template<class T, class T2>
00025             bool operator()(const T&, const T2&) const { return false; }
00026     };
00027 
00028     template <typename IncidenceGraph, typename DFSVisitor, 
00029               typename VertexColorMap, typename EdgeColorMap,
00030               typename TerminatorFunc>
00031     void undir_dfv_impl_term
00032       (const IncidenceGraph& g,
00033        typename graph_traits<IncidenceGraph>::vertex_descriptor u, 
00034        DFSVisitor& vis,
00035        VertexColorMap vertex_color,
00036        EdgeColorMap edge_color,
00037        TerminatorFunc func = TerminatorFunc())
00038     {
00039       function_requires<IncidenceGraphConcept<IncidenceGraph> >();
00040       function_requires<DFSVisitorConcept<DFSVisitor, IncidenceGraph> >();
00041       typedef typename graph_traits<IncidenceGraph>::vertex_descriptor Vertex;
00042       typedef typename graph_traits<IncidenceGraph>::edge_descriptor Edge;
00043       function_requires<ReadWritePropertyMapConcept<VertexColorMap,Vertex> >();
00044       function_requires<ReadWritePropertyMapConcept<EdgeColorMap,Edge> >();
00045       typedef typename property_traits<VertexColorMap>::value_type ColorValue;
00046       typedef typename property_traits<EdgeColorMap>::value_type EColorValue;
00047       function_requires< ColorValueConcept<ColorValue> >();
00048       function_requires< ColorValueConcept<EColorValue> >();
00049       typedef color_traits<ColorValue> Color;
00050       typedef color_traits<EColorValue> EColor;
00051       typedef typename graph_traits<IncidenceGraph>::out_edge_iterator Iter;
00052       typedef std::pair<Vertex, std::pair<Iter, Iter> > VertexInfo;
00053 
00054       std::vector<VertexInfo> stack;
00055 
00056       put(vertex_color, u, Color::gray());
00057       vis.discover_vertex(u, g);
00058 
00059       Iter ei, ei_end;
00060       tie(ei, ei_end) = out_edges(u, g);
00061       if (func(u, g))
00062           stack.push_back(std::make_pair(u, std::make_pair(ei_end, ei_end)));
00063       else
00064           stack.push_back(std::make_pair(u, std::make_pair(ei, ei_end)));
00065 
00066       while (!stack.empty()) {
00067         VertexInfo& back = stack.back();
00068         u = back.first;
00069         tie(ei, ei_end) = back.second;
00070         stack.pop_back();
00071         while (ei != ei_end) {
00072           Vertex v = target(*ei, g);
00073           vis.examine_edge(*ei, g);
00074           ColorValue v_color = get(vertex_color, v);
00075           EColorValue uv_color = get(edge_color, *ei);
00076           put(edge_color, *ei, EColor::black());
00077           if (v_color == Color::white()) {
00078             vis.tree_edge(*ei, g);
00079             stack.push_back(std::make_pair(u, std::make_pair(++ei, ei_end)));
00080             u = v;
00081             put(vertex_color, u, Color::gray());
00082             vis.discover_vertex(u, g);
00083             tie(ei, ei_end) = out_edges(u, g);
00084             if (func(u, g))
00085                 ei = ei_end;
00086           } else if (v_color == Color::gray()) {
00087             if (uv_color == EColor::white()) vis.back_edge(*ei, g);
00088             ++ei;
00089           } else { // if (v_color == Color::black())
00090             vis.forward_or_cross_edge(*ei, g);
00091             ++ei;
00092           }
00093         }
00094         put(vertex_color, u, Color::black());
00095         vis.finish_vertex(u, g);
00096       }
00097     }
00098   } // namespace detail
00099 
00100   template <typename Graph, typename DFSVisitor, 
00101             typename VertexColorMap, typename EdgeColorMap, 
00102             typename Vertex>
00103   void
00104   undirected_dfs(const Graph& g, DFSVisitor vis, 
00105                  VertexColorMap vertex_color, EdgeColorMap edge_color,
00106                  Vertex start_vertex)
00107   {
00108     using namespace boost;
00109     function_requires<DFSVisitorConcept<DFSVisitor, Graph> >();
00110       function_requires<EdgeListGraphConcept<Graph> >();
00111 
00112     typedef typename property_traits<VertexColorMap>::value_type ColorValue;
00113     typedef color_traits<ColorValue> Color;
00114 
00115     typename graph_traits<Graph>::vertex_iterator ui, ui_end;
00116     for (tie(ui, ui_end) = vertices(g); ui != ui_end; ++ui) {
00117       put(vertex_color, *ui, Color::white());   vis.initialize_vertex(*ui, g);
00118     }
00119     typename graph_traits<Graph>::edge_iterator ei, ei_end;
00120     for (tie(ei, ei_end) = edges(g); ei != ei_end; ++ei)
00121       put(edge_color, *ei, Color::white());
00122 
00123     if (start_vertex != *vertices(g).first){ vis.start_vertex(start_vertex, g);
00124       detail::undir_dfv_impl_term(g, start_vertex, vis, vertex_color, edge_color, detail::nontruth2());
00125     }
00126 
00127     for (tie(ui, ui_end) = vertices(g); ui != ui_end; ++ui) {
00128       ColorValue u_color = get(vertex_color, *ui);
00129       if (u_color == Color::white()) {       vis.start_vertex(*ui, g);
00130         detail::undir_dfv_impl_term(g, *ui, vis, vertex_color, edge_color, detail::nontruth2());
00131       }
00132     }
00133   }
00134 
00135   template <typename Graph, typename DFSVisitor, typename VertexColorMap,
00136     typename EdgeColorMap>
00137   void
00138   undirected_dfs(const Graph& g, DFSVisitor vis, 
00139                  VertexColorMap vertex_color, EdgeColorMap edge_color)
00140   {
00141     using namespace boost;
00142     undirected_dfs(g, vis, vertex_color, edge_color, *vertices(g).first, detail::nontruth2());
00143   }
00144 
00145   namespace detail {
00146     template <typename VertexColorMap>
00147     struct udfs_dispatch {
00148 
00149       template <typename Graph, typename Vertex, 
00150                 typename DFSVisitor, typename EdgeColorMap,
00151                 typename P, typename T, typename R>
00152       static void
00153       apply(const Graph& g, DFSVisitor vis, Vertex start_vertex,
00154             const bgl_named_params<P, T, R>&,
00155             EdgeColorMap edge_color,
00156             VertexColorMap vertex_color)
00157       {
00158         undirected_dfs(g, vis, vertex_color, edge_color, start_vertex);
00159       }
00160     };
00161 
00162     template <>
00163     struct udfs_dispatch<boost::detail::error_property_not_found> {
00164       template <typename Graph, typename Vertex, typename DFSVisitor,
00165                 typename EdgeColorMap,
00166                 typename P, typename T, typename R>
00167       static void
00168       apply(const Graph& g, DFSVisitor vis, Vertex start_vertex,
00169             const bgl_named_params<P, T, R>& params,
00170             EdgeColorMap edge_color,
00171             boost::detail::error_property_not_found)
00172       {
00173         std::vector<default_color_type> color_vec(num_vertices(g));
00174         default_color_type c = white_color; // avoid warning about un-init
00175         undirected_dfs
00176           (g, vis, make_iterator_property_map
00177            (color_vec.begin(),
00178             choose_const_pmap(get_param(params, vertex_index),
00179                               g, vertex_index), c),
00180            edge_color,
00181            start_vertex);
00182       }
00183     };
00184 
00185   } // namespace detail
00186   
00187 
00188   // Named Parameter Variant
00189   template <typename Graph, typename P, typename T, typename R>
00190   void
00191   undirected_dfs(const Graph& g, 
00192                  const boost::bgl_named_params<P, T, R>& params)
00193   {
00194     using namespace boost;
00195     typedef typename property_value< bgl_named_params<P, T, R>, 
00196       vertex_color_t>::type C;
00197     detail::udfs_dispatch<C>::apply
00198       (g,
00199        choose_param(get_param(params, graph_visitor),
00200                     make_dfs_visitor(null_visitor())),
00201        choose_param(get_param(params, root_vertex_t()),
00202                     *vertices(g).first),
00203        params,
00204        get_param(params, edge_color),
00205        get_param(params, vertex_color)
00206        );
00207   }
00208   
00209 
00210   template <typename IncidenceGraph, typename DFSVisitor, 
00211     typename VertexColorMap, typename EdgeColorMap,
00212     typename TerminatorFunc>
00213   void undirected_depth_first_visit
00214     (const IncidenceGraph& g,
00215      typename boost::graph_traits<IncidenceGraph>::vertex_descriptor u, 
00216      DFSVisitor vis, VertexColorMap vertex_color, EdgeColorMap edge_color,
00217      TerminatorFunc func = TerminatorFunc())
00218   {
00219     detail::undir_dfv_impl_term(g, u, vis, vertex_color, edge_color, func);
00220   }
00221 
00222 
00223 } // namespace boost
00224 
00225 
00226 #endif