//======================================================================= // Copyright 1997, 1998, 1999, 2000 University of Notre Dame. // Copyright 2010 Thomas Claveirole // Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek, Thomas Claveirole // // 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 BOOST_GRAPH_ADJACENCY_LIST_HPP #define BOOST_GRAPH_ADJACENCY_LIST_HPP #include #include #include #include #include #if !defined BOOST_NO_SLIST # ifdef BOOST_SLIST_HEADER # include BOOST_SLIST_HEADER # else # include # endif #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { //=========================================================================== // Selectors for the VertexList and EdgeList template parameters of // adjacency_list, and the container_gen traits class which is used // to map the selectors to the container type used to implement the // graph. #if !defined BOOST_NO_SLIST struct slistS {}; #endif struct vecS { }; struct listS { }; struct setS { }; struct mapS { }; struct multisetS { }; struct multimapS { }; struct hash_setS { }; struct hash_mapS { }; struct hash_multisetS { }; struct hash_multimapS { }; template struct container_gen { }; template struct container_gen { typedef std::list type; }; #if !defined BOOST_NO_SLIST template struct container_gen { typedef BOOST_STD_EXTENSION_NAMESPACE::slist type; }; #endif template struct container_gen { typedef std::vector type; }; template struct container_gen { typedef std::set type; }; template struct container_gen { typedef std::set type; }; template struct container_gen { typedef std::multiset type; }; template struct container_gen { typedef std::multiset type; }; template struct container_gen { typedef boost::unordered_set type; }; template struct container_gen { typedef boost::unordered_set type; }; template struct container_gen { typedef boost::unordered_multiset type; }; template struct container_gen { typedef boost::unordered_multiset type; }; template struct parallel_edge_traits { }; template <> struct parallel_edge_traits { typedef allow_parallel_edge_tag type; }; template <> struct parallel_edge_traits { typedef allow_parallel_edge_tag type; }; #if !defined BOOST_NO_SLIST template <> struct parallel_edge_traits { typedef allow_parallel_edge_tag type; }; #endif template <> struct parallel_edge_traits { typedef disallow_parallel_edge_tag type; }; template <> struct parallel_edge_traits { typedef allow_parallel_edge_tag type; }; template <> struct parallel_edge_traits { typedef disallow_parallel_edge_tag type; }; // mapS is obsolete, replaced with setS template <> struct parallel_edge_traits { typedef disallow_parallel_edge_tag type; }; template <> struct parallel_edge_traits { typedef disallow_parallel_edge_tag type; }; template <> struct parallel_edge_traits { typedef allow_parallel_edge_tag type; }; template <> struct parallel_edge_traits { typedef allow_parallel_edge_tag type; }; namespace detail { template struct is_random_access { enum { value = false}; typedef mpl::false_ type; }; template <> struct is_random_access { enum { value = true }; typedef mpl::true_ type; }; } // namespace detail //=========================================================================== // The adjacency_list_traits class, which provides a way to access // some of the associated types of an adjacency_list type without // having to first create the adjacency_list type. This is useful // when trying to create interior vertex or edge properties who's // value type is a vertex or edge descriptor. template struct adjacency_list_traits { typedef typename detail::is_random_access::type is_rand_access; typedef typename DirectedS::is_bidir_t is_bidir; typedef typename DirectedS::is_directed_t is_directed; typedef typename mpl::if_::type >::type directed_category; typedef typename parallel_edge_traits::type edge_parallel_category; typedef std::size_t vertices_size_type; typedef void* vertex_ptr; typedef typename mpl::if_::type vertex_descriptor; typedef detail::edge_desc_impl edge_descriptor; private: // Logic to figure out the edges_size_type struct dummy {}; typedef typename container_gen::type EdgeContainer; typedef typename DirectedS::is_bidir_t BidirectionalT; typedef typename DirectedS::is_directed_t DirectedT; typedef typename mpl::and_::type >::type on_edge_storage; public: typedef typename mpl::if_::type edges_size_type; }; } // namespace boost #include namespace boost { //=========================================================================== // The adjacency_list class. // template class adjacency_list : public detail::adj_list_gen< adjacency_list, VertexListS, OutEdgeListS, DirectedS, VertexProperty, EdgeProperty, GraphProperty, EdgeListS>::type, // Support for named vertices public graph::maybe_named_graph< adjacency_list, typename adjacency_list_traits::vertex_descriptor, VertexProperty> { public: typedef GraphProperty graph_property_type; typedef typename lookup_one_property::type graph_bundled; typedef VertexProperty vertex_property_type; typedef typename lookup_one_property::type vertex_bundled; typedef EdgeProperty edge_property_type; typedef typename lookup_one_property::type edge_bundled; private: typedef adjacency_list self; typedef typename detail::adj_list_gen< self, VertexListS, OutEdgeListS, DirectedS, vertex_property_type, edge_property_type, GraphProperty, EdgeListS >::type Base; public: typedef typename Base::stored_vertex stored_vertex; typedef typename Base::vertices_size_type vertices_size_type; typedef typename Base::edges_size_type edges_size_type; typedef typename Base::degree_size_type degree_size_type; typedef typename Base::vertex_descriptor vertex_descriptor; typedef typename Base::edge_descriptor edge_descriptor; typedef OutEdgeListS out_edge_list_selector; typedef VertexListS vertex_list_selector; typedef DirectedS directed_selector; typedef EdgeListS edge_list_selector; adjacency_list(const GraphProperty& p = GraphProperty()) : m_property(new graph_property_type(p)) { } adjacency_list(const adjacency_list& x) : Base(x), m_property(new graph_property_type(*x.m_property)) { } adjacency_list& operator=(const adjacency_list& x) { // TBD: probably should give the strong guarantee if (&x != this) { Base::operator=(x); // Copy/swap the ptr since we can't just assign it... property_ptr p(new graph_property_type(*x.m_property)); m_property.swap(p); } return *this; } // Required by Mutable Graph adjacency_list(vertices_size_type num_vertices, const GraphProperty& p = GraphProperty()) : Base(num_vertices), m_property(new graph_property_type(p)) { } #if !defined(BOOST_MSVC) || BOOST_MSVC >= 1300 // Required by Iterator Constructible Graph template adjacency_list(EdgeIterator first, EdgeIterator last, vertices_size_type n, edges_size_type = 0, const GraphProperty& p = GraphProperty()) : Base(n, first, last), m_property(new graph_property_type(p)) { } template adjacency_list(EdgeIterator first, EdgeIterator last, EdgePropertyIterator ep_iter, vertices_size_type n, edges_size_type = 0, const GraphProperty& p = GraphProperty()) : Base(n, first, last, ep_iter), m_property(new graph_property_type(p)) { } #endif void swap(adjacency_list& x) { // Is there a more efficient way to do this? adjacency_list tmp(x); x = *this; *this = tmp; } void clear() { this->clearing_graph(); Base::clear(); } #ifndef BOOST_GRAPH_NO_BUNDLED_PROPERTIES // Directly access a vertex or edge bundle vertex_bundled& operator[](vertex_descriptor v) { return get(vertex_bundle, *this)[v]; } const vertex_bundled& operator[](vertex_descriptor v) const { return get(vertex_bundle, *this)[v]; } edge_bundled& operator[](edge_descriptor e) { return get(edge_bundle, *this)[e]; } const edge_bundled& operator[](edge_descriptor e) const { return get(edge_bundle, *this)[e]; } graph_bundled& operator[](graph_bundle_t) { return get_property(*this); } graph_bundled const& operator[](graph_bundle_t) const { return get_property(*this); } #endif // protected: (would be protected if friends were more portable) typedef scoped_ptr property_ptr; property_ptr m_property; }; #define ADJLIST_PARAMS \ typename OEL, typename VL, typename D, typename VP, typename EP, \ typename GP, typename EL #define ADJLIST adjacency_list template inline void set_property(ADJLIST& g, Tag tag, Value const& value) { get_property_value(*g.m_property, tag) = value; } template inline typename graph_property::type& get_property(ADJLIST& g, Tag tag) { return get_property_value(*g.m_property, tag); } template inline typename graph_property::type const& get_property(ADJLIST const& g, Tag tag) { return get_property_value(*g.m_property, tag); } // dwa 09/25/00 - needed to be more explicit so reverse_graph would work. template inline Vertex source(const detail::edge_base& e, const adjacency_list&) { return e.m_source; } template inline Vertex target(const detail::edge_base& e, const adjacency_list&) { return e.m_target; } // Mutability Traits template struct graph_mutability_traits { typedef mutable_property_graph_tag category; }; // Can't remove vertices from adjacency lists with VL==vecS template struct graph_mutability_traits< adjacency_list > { typedef add_only_property_graph_tag category; }; #undef ADJLIST_PARAMS #undef ADJLIST } // namespace boost #endif // BOOST_GRAPH_ADJACENCY_LIST_HPP