// (C) Copyright David Abrahams 2000. // 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) #ifndef REVERSE_GRAPH_TT20070518_H_ # define REVERSE_GRAPH_TT20070518_H_ #include #include #include namespace boost { namespace detail { template struct choose_rev_edge_iter { }; template <> struct choose_rev_edge_iter { template struct bind_ { typedef typename graph_traits::edge_iterator type; }; }; template <> struct choose_rev_edge_iter { template struct bind_ { typedef void type; }; }; } // namespace detail template class reverse_graph { typedef reverse_graph Self; typedef graph_traits Traits; public: typedef BidirectionalGraph base_type; // Constructor reverse_graph(GraphRef g) : m_g(g) {} // Graph requirements typedef typename Traits::vertex_descriptor vertex_descriptor; typedef typename Traits::edge_descriptor edge_descriptor; typedef typename Traits::directed_category directed_category; typedef typename Traits::edge_parallel_category edge_parallel_category; typedef typename Traits::traversal_category traversal_category; // IncidenceGraph requirements typedef typename Traits::in_edge_iterator out_edge_iterator; typedef typename Traits::degree_size_type degree_size_type; // BidirectionalGraph requirements typedef typename Traits::out_edge_iterator in_edge_iterator; // AdjacencyGraph requirements typedef typename adjacency_iterator_generator::type adjacency_iterator; // VertexListGraph requirements typedef typename Traits::vertex_iterator vertex_iterator; // EdgeListGraph requirements enum { is_edge_list = is_convertible::value }; typedef detail::choose_rev_edge_iter ChooseEdgeIter; typedef typename ChooseEdgeIter:: template bind_::type edge_iterator; typedef typename Traits::vertices_size_type vertices_size_type; typedef typename Traits::edges_size_type edges_size_type; #ifndef BOOST_GRAPH_NO_BUNDLED_PROPERTIES // Bundled properties support template typename graph::detail::bundled_result::type& operator[](Descriptor x) { return m_g[x]; } template typename graph::detail::bundled_result::type const& operator[](Descriptor x) const { return m_g[x]; } #endif // BOOST_GRAPH_NO_BUNDLED_PROPERTIES static vertex_descriptor null_vertex() { return Traits::null_vertex(); } // would be private, but template friends aren't portable enough. // private: GraphRef m_g; }; #ifndef BOOST_GRAPH_NO_BUNDLED_PROPERTIES template struct vertex_bundle_type > : vertex_bundle_type { }; template struct edge_bundle_type > : edge_bundle_type { }; #endif // BOOST_GRAPH_NO_BUNDLED_PROPERTIES template struct property_map, Property> { typedef typename property_map::type type; typedef typename property_map::const_type const_type; }; template inline reverse_graph make_reverse_graph(const BidirectionalGraph& g) { return reverse_graph(g); } template inline reverse_graph make_reverse_graph(BidirectionalGraph& g) { return reverse_graph(g); } template std::pair::vertex_iterator, typename reverse_graph::vertex_iterator> vertices(const reverse_graph& g) { return vertices(g.m_g); } template std::pair::edge_iterator, typename reverse_graph::edge_iterator> edges(const reverse_graph& g) { return edges(g.m_g); } template inline std::pair::out_edge_iterator, typename reverse_graph::out_edge_iterator> out_edges(const typename reverse_graph::vertex_descriptor u, const reverse_graph& g) { return in_edges(u, g.m_g); } template inline typename reverse_graph::vertices_size_type num_vertices(const reverse_graph& g) { return num_vertices(g.m_g); } template inline typename reverse_graph::edges_size_type num_edges(const reverse_graph& g) { return num_edges(g.m_g); } template inline typename reverse_graph::degree_size_type out_degree(const typename reverse_graph::vertex_descriptor u, const reverse_graph& g) { return in_degree(u, g.m_g); } template inline std::pair::edge_descriptor, bool> edge(const typename reverse_graph::vertex_descriptor u, const typename reverse_graph::vertex_descriptor v, const reverse_graph& g) { return edge(v, u, g.m_g); } template inline std::pair::in_edge_iterator, typename reverse_graph::in_edge_iterator> in_edges(const typename reverse_graph::vertex_descriptor u, const reverse_graph& g) { return out_edges(u, g.m_g); } template inline std::pair::adjacency_iterator, typename reverse_graph::adjacency_iterator> adjacent_vertices(const typename reverse_graph::vertex_descriptor u, const reverse_graph& g) { typedef reverse_graph Graph; typename Graph::out_edge_iterator first, last; tie(first, last) = out_edges(u, g); typedef typename Graph::adjacency_iterator adjacency_iterator; return std::make_pair(adjacency_iterator(first, const_cast(&g)), adjacency_iterator(last, const_cast(&g))); } template inline typename reverse_graph::degree_size_type in_degree(const typename reverse_graph::vertex_descriptor u, const reverse_graph& g) { return out_degree(u, g.m_g); } template inline typename reverse_graph::vertex_descriptor source(const Edge& e, const reverse_graph& g) { return target(e, g.m_g); } template inline typename reverse_graph::vertex_descriptor target(const Edge& e, const reverse_graph& g) { return source(e, g.m_g); } template typename property_map::type get(Property p, reverse_graph& g) { return get(p, g.m_g); } template typename property_map::const_type get(Property p, const reverse_graph& g) { const BidirGraph& gref = g.m_g; // in case GRef is non-const return get(p, gref); } template typename property_traits< typename property_map::const_type >::value_type get(Property p, const reverse_graph& g, const Key& k) { return get(p, g.m_g, k); } template void put(Property p, const reverse_graph& g, const Key& k, const Value& val) { put(p, g.m_g, k, val); } template inline void set_property(const reverse_graph& g, Tag tag, const Value& value) { set_property(g.m_g, tag, value); } template inline typename graph_property::type get_property(const reverse_graph& g, Tag tag) { return get_property(g.m_g, tag); } } // namespace boost #endif