boost/graph/biconnected_components.hpp
// Copyright (c) Jeremy Siek 2001 // Copyright (c) Douglas Gregor 2004 // // 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) // NOTE: this final is generated by libs/graph/doc/biconnected_components.w #ifndef BOOST_GRAPH_BICONNECTED_COMPONENTS_HPP #define BOOST_GRAPH_BICONNECTED_COMPONENTS_HPP #include <stack> #include <vector> #include <algorithm> // for std::min and std::max #include <boost/config.hpp> #include <boost/limits.hpp> #include <boost/graph/graph_traits.hpp> #include <boost/graph/graph_concepts.hpp> #include <boost/property_map/property_map.hpp> #include <boost/graph/depth_first_search.hpp> #include <boost/graph/graph_utility.hpp> #include <boost/concept/assert.hpp> #include <boost/assert.hpp> namespace boost { namespace detail { template<typename ComponentMap, typename DiscoverTimeMap, typename LowPointMap, typename PredecessorMap, typename OutputIterator, typename Stack, typename ArticulationVector, typename IndexMap, typename DFSVisitor> struct biconnected_components_visitor : public dfs_visitor<> { biconnected_components_visitor (ComponentMap comp, std::size_t& c, std::size_t& children_of_root, DiscoverTimeMap dtm, std::size_t& dfs_time, LowPointMap lowpt, PredecessorMap pred, OutputIterator out, Stack& S, ArticulationVector& is_articulation_point, IndexMap index_map, DFSVisitor vis) : comp(comp), c(c), children_of_root(children_of_root), dtm(dtm), dfs_time(dfs_time), lowpt(lowpt), pred(pred), out(out), S(S), is_articulation_point(is_articulation_point), index_map(index_map), vis(vis) { } template <typename Vertex, typename Graph> void initialize_vertex(const Vertex& u, Graph& g) { put(pred, u, u); vis.initialize_vertex(u, g); } template <typename Vertex, typename Graph> void start_vertex(const Vertex& u, Graph& g) { children_of_root = 0; vis.start_vertex(u, g); } template <typename Vertex, typename Graph> void discover_vertex(const Vertex& u, Graph& g) { put(dtm, u, ++dfs_time); put(lowpt, u, get(dtm, u)); vis.discover_vertex(u, g); } template <typename Edge, typename Graph> void examine_edge(const Edge& e, Graph& g) { vis.examine_edge(e, g); } template <typename Edge, typename Graph> void tree_edge(const Edge& e, Graph& g) { typename boost::graph_traits<Graph>::vertex_descriptor src = source(e, g); typename boost::graph_traits<Graph>::vertex_descriptor tgt = target(e, g); S.push(e); put(pred, tgt, src); if ( get(pred, src) == src ) { ++children_of_root; } vis.tree_edge(e, g); } template <typename Edge, typename Graph> void back_edge(const Edge& e, Graph& g) { BOOST_USING_STD_MIN(); typename boost::graph_traits<Graph>::vertex_descriptor src = source(e, g); typename boost::graph_traits<Graph>::vertex_descriptor tgt = target(e, g); if ( tgt != get(pred, src) ) { S.push(e); put(lowpt, src, min BOOST_PREVENT_MACRO_SUBSTITUTION(get(lowpt, src), get(dtm, tgt))); } vis.back_edge(e, g); } template <typename Edge, typename Graph> void forward_or_cross_edge(const Edge& e, Graph& g) { vis.forward_or_cross_edge(e, g); } template <typename Vertex, typename Graph> void finish_vertex(const Vertex& u, Graph& g) { BOOST_USING_STD_MIN(); Vertex parent = get(pred, u); if (parent == u) { // Root of tree is special is_articulation_point[get(index_map, u)] = (children_of_root > 1); } else { put(lowpt, parent, min BOOST_PREVENT_MACRO_SUBSTITUTION(get(lowpt, parent), get(lowpt, u))); if ( get(lowpt, u) >= get(dtm, parent) ) { is_articulation_point[get(index_map, parent)] = true; while ( get(dtm, source(S.top(), g)) >= get(dtm, u) ) { put(comp, S.top(), c); S.pop(); } BOOST_ASSERT (source(S.top(), g) == parent); BOOST_ASSERT (target(S.top(), g) == u); put(comp, S.top(), c); S.pop(); ++c; } } if ( is_articulation_point[get(index_map, u)] ) { *out++ = u; } vis.finish_vertex(u, g); } ComponentMap comp; std::size_t& c; std::size_t& children_of_root; DiscoverTimeMap dtm; std::size_t& dfs_time; LowPointMap lowpt; PredecessorMap pred; OutputIterator out; Stack& S; ArticulationVector& is_articulation_point; IndexMap index_map; DFSVisitor vis; }; template<typename Graph, typename ComponentMap, typename OutputIterator, typename VertexIndexMap, typename DiscoverTimeMap, typename LowPointMap, typename PredecessorMap, typename DFSVisitor> std::pair<std::size_t, OutputIterator> biconnected_components_impl(const Graph & g, ComponentMap comp, OutputIterator out, VertexIndexMap index_map, DiscoverTimeMap dtm, LowPointMap lowpt, PredecessorMap pred, DFSVisitor dfs_vis) { typedef typename graph_traits<Graph>::vertex_descriptor vertex_t; typedef typename graph_traits<Graph>::edge_descriptor edge_t; BOOST_CONCEPT_ASSERT(( VertexListGraphConcept<Graph> )); BOOST_CONCEPT_ASSERT(( IncidenceGraphConcept<Graph> )); BOOST_CONCEPT_ASSERT(( WritablePropertyMapConcept<ComponentMap, edge_t> )); BOOST_CONCEPT_ASSERT(( ReadWritePropertyMapConcept<DiscoverTimeMap, vertex_t> )); BOOST_CONCEPT_ASSERT(( ReadWritePropertyMapConcept<LowPointMap, vertex_t > )); BOOST_CONCEPT_ASSERT(( ReadWritePropertyMapConcept<PredecessorMap, vertex_t> )); std::size_t num_components = 0; std::size_t children_of_root; std::size_t dfs_time = 0; std::stack<edge_t> S; std::vector<char> is_articulation_point(num_vertices(g)); biconnected_components_visitor<ComponentMap, DiscoverTimeMap, LowPointMap, PredecessorMap, OutputIterator, std::stack<edge_t>, std::vector<char>, VertexIndexMap, DFSVisitor> vis(comp, num_components, children_of_root, dtm, dfs_time, lowpt, pred, out, S, is_articulation_point, index_map, dfs_vis); depth_first_search(g, visitor(vis).vertex_index_map(index_map)); return std::pair<std::size_t, OutputIterator>(num_components, vis.out); } template <typename PredecessorMap> struct bicomp_dispatch3 { template<typename Graph, typename ComponentMap, typename OutputIterator, typename VertexIndexMap, typename DiscoverTimeMap, typename LowPointMap, class P, class T, class R> static std::pair<std::size_t, OutputIterator> apply (const Graph & g, ComponentMap comp, OutputIterator out, VertexIndexMap index_map, DiscoverTimeMap dtm, LowPointMap lowpt, const bgl_named_params<P, T, R>& params, PredecessorMap pred) { return biconnected_components_impl (g, comp, out, index_map, dtm, lowpt, pred, choose_param(get_param(params, graph_visitor), make_dfs_visitor(null_visitor()))); } }; template <> struct bicomp_dispatch3<param_not_found> { template<typename Graph, typename ComponentMap, typename OutputIterator, typename VertexIndexMap, typename DiscoverTimeMap, typename LowPointMap, class P, class T, class R> static std::pair<std::size_t, OutputIterator> apply (const Graph & g, ComponentMap comp, OutputIterator out, VertexIndexMap index_map, DiscoverTimeMap dtm, LowPointMap lowpt, const bgl_named_params<P, T, R>& params, param_not_found) { typedef typename graph_traits<Graph>::vertex_descriptor vertex_t; std::vector<vertex_t> pred(num_vertices(g)); vertex_t vert = graph_traits<Graph>::null_vertex(); return biconnected_components_impl (g, comp, out, index_map, dtm, lowpt, make_iterator_property_map(pred.begin(), index_map, vert), choose_param(get_param(params, graph_visitor), make_dfs_visitor(null_visitor()))); } }; template <typename LowPointMap> struct bicomp_dispatch2 { template<typename Graph, typename ComponentMap, typename OutputIterator, typename VertexIndexMap, typename DiscoverTimeMap, typename P, typename T, typename R> static std::pair<std::size_t, OutputIterator> apply (const Graph& g, ComponentMap comp, OutputIterator out, VertexIndexMap index_map, DiscoverTimeMap dtm, const bgl_named_params<P, T, R>& params, LowPointMap lowpt) { typedef typename get_param_type< vertex_predecessor_t, bgl_named_params<P,T,R> >::type dispatch_type; return bicomp_dispatch3<dispatch_type>::apply (g, comp, out, index_map, dtm, lowpt, params, get_param(params, vertex_predecessor)); } }; template <> struct bicomp_dispatch2<param_not_found> { template<typename Graph, typename ComponentMap, typename OutputIterator, typename VertexIndexMap, typename DiscoverTimeMap, typename P, typename T, typename R> static std::pair<std::size_t, OutputIterator> apply (const Graph& g, ComponentMap comp, OutputIterator out, VertexIndexMap index_map, DiscoverTimeMap dtm, const bgl_named_params<P, T, R>& params, param_not_found) { typedef typename graph_traits<Graph>::vertices_size_type vertices_size_type; std::vector<vertices_size_type> lowpt(num_vertices(g)); vertices_size_type vst(0); typedef typename get_param_type< vertex_predecessor_t, bgl_named_params<P,T,R> >::type dispatch_type; return bicomp_dispatch3<dispatch_type>::apply (g, comp, out, index_map, dtm, make_iterator_property_map(lowpt.begin(), index_map, vst), params, get_param(params, vertex_predecessor)); } }; template <typename DiscoverTimeMap> struct bicomp_dispatch1 { template<typename Graph, typename ComponentMap, typename OutputIterator, typename VertexIndexMap, class P, class T, class R> static std::pair<std::size_t, OutputIterator> apply(const Graph& g, ComponentMap comp, OutputIterator out, VertexIndexMap index_map, const bgl_named_params<P, T, R>& params, DiscoverTimeMap dtm) { typedef typename get_param_type< vertex_lowpoint_t, bgl_named_params<P,T,R> >::type dispatch_type; return bicomp_dispatch2<dispatch_type>::apply (g, comp, out, index_map, dtm, params, get_param(params, vertex_lowpoint)); } }; template <> struct bicomp_dispatch1<param_not_found> { template<typename Graph, typename ComponentMap, typename OutputIterator, typename VertexIndexMap, class P, class T, class R> static std::pair<std::size_t, OutputIterator> apply(const Graph& g, ComponentMap comp, OutputIterator out, VertexIndexMap index_map, const bgl_named_params<P, T, R>& params, param_not_found) { typedef typename graph_traits<Graph>::vertices_size_type vertices_size_type; std::vector<vertices_size_type> discover_time(num_vertices(g)); vertices_size_type vst(0); typedef typename get_param_type< vertex_lowpoint_t, bgl_named_params<P,T,R> >::type dispatch_type; return bicomp_dispatch2<dispatch_type>::apply (g, comp, out, index_map, make_iterator_property_map(discover_time.begin(), index_map, vst), params, get_param(params, vertex_lowpoint)); } }; } template<typename Graph, typename ComponentMap, typename OutputIterator, typename DiscoverTimeMap, typename LowPointMap> std::pair<std::size_t, OutputIterator> biconnected_components(const Graph& g, ComponentMap comp, OutputIterator out, DiscoverTimeMap dtm, LowPointMap lowpt) { typedef param_not_found dispatch_type; return detail::bicomp_dispatch3<dispatch_type>::apply (g, comp, out, get(vertex_index, g), dtm, lowpt, bgl_named_params<int, buffer_param_t>(0), param_not_found()); } template <typename Graph, typename ComponentMap, typename OutputIterator, typename P, typename T, typename R> std::pair<std::size_t, OutputIterator> biconnected_components(const Graph& g, ComponentMap comp, OutputIterator out, const bgl_named_params<P, T, R>& params) { typedef typename get_param_type< vertex_discover_time_t, bgl_named_params<P,T,R> >::type dispatch_type; return detail::bicomp_dispatch1<dispatch_type>::apply(g, comp, out, choose_const_pmap(get_param(params, vertex_index), g, vertex_index), params, get_param(params, vertex_discover_time)); } template < typename Graph, typename ComponentMap, typename OutputIterator> std::pair<std::size_t, OutputIterator> biconnected_components(const Graph& g, ComponentMap comp, OutputIterator out) { return biconnected_components(g, comp, out, bgl_named_params<int, buffer_param_t>(0)); } namespace graph_detail { struct dummy_output_iterator { typedef std::output_iterator_tag iterator_category; typedef void value_type; typedef void pointer; typedef void difference_type; struct reference { template<typename T> reference& operator=(const T&) { return *this; } }; reference operator*() const { return reference(); } dummy_output_iterator& operator++() { return *this; } dummy_output_iterator operator++(int) { return *this; } }; } // end namespace graph_detail template <typename Graph, typename ComponentMap, typename P, typename T, typename R> std::size_t biconnected_components(const Graph& g, ComponentMap comp, const bgl_named_params<P, T, R>& params) { return biconnected_components(g, comp, graph_detail::dummy_output_iterator(), params).first; } template <typename Graph, typename ComponentMap> std::size_t biconnected_components(const Graph& g, ComponentMap comp) { return biconnected_components(g, comp, graph_detail::dummy_output_iterator()).first; } template<typename Graph, typename OutputIterator, typename P, typename T, typename R> OutputIterator articulation_points(const Graph& g, OutputIterator out, const bgl_named_params<P, T, R>& params) { return biconnected_components(g, dummy_property_map(), out, params).second; } template<typename Graph, typename OutputIterator> OutputIterator articulation_points(const Graph& g, OutputIterator out) { return biconnected_components(g, dummy_property_map(), out, bgl_named_params<int, buffer_param_t>(0)).second; } } // namespace boost #endif /* BOOST_GRAPH_BICONNECTED_COMPONENTS_HPP */