//======================================================================= // Copyright 1997, 1998, 1999, 2000 University of Notre Dame. // Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek // // 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_PROPERTIES_HPP #define BOOST_GRAPH_PROPERTIES_HPP #include #include #include #include // Include the property map library and extensions in the BGL. #include #include #include #include #include #include #include #include #include #if BOOST_WORKAROUND(BOOST_MSVC, < 1300) // Stay out of the way of the concept checking class # define Graph Graph_ # define RandomAccessContainer RandomAccessContainer_ #endif namespace boost { enum default_color_type { white_color, gray_color, green_color, red_color, black_color }; template struct color_traits { static default_color_type white() { return white_color; } static default_color_type gray() { return gray_color; } static default_color_type green() { return green_color; } static default_color_type red() { return red_color; } static default_color_type black() { return black_color; } }; // These functions are now obsolete, replaced by color_traits. inline default_color_type white(default_color_type) { return white_color; } inline default_color_type gray(default_color_type) { return gray_color; } inline default_color_type green(default_color_type) { return green_color; } inline default_color_type red(default_color_type) { return red_color; } inline default_color_type black(default_color_type) { return black_color; } #ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION template <> struct property_traits { typedef default_color_type value_type; typedef std::ptrdiff_t key_type; typedef default_color_type& reference; typedef lvalue_property_map_tag category; }; // get/put already defined for T* #endif struct graph_property_tag { }; struct vertex_property_tag { }; struct edge_property_tag { }; #ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION // See examples/edge_property.cpp for how to use this. #define BOOST_INSTALL_PROPERTY(KIND, NAME) \ template <> struct property_kind { \ typedef KIND##_property_tag type; \ } #else #define BOOST_INSTALL_PROPERTY(KIND, NAME) \ template <> struct property_kind { \ typedef KIND##_property_tag type; \ } #endif #define BOOST_DEF_PROPERTY(KIND, NAME) \ enum KIND##_##NAME##_t { KIND##_##NAME }; \ BOOST_INSTALL_PROPERTY(KIND, NAME) BOOST_DEF_PROPERTY(vertex, all); BOOST_DEF_PROPERTY(edge, all); BOOST_DEF_PROPERTY(graph, all); BOOST_DEF_PROPERTY(vertex, index); BOOST_DEF_PROPERTY(vertex, index1); BOOST_DEF_PROPERTY(vertex, index2); BOOST_DEF_PROPERTY(vertex, root); BOOST_DEF_PROPERTY(edge, index); BOOST_DEF_PROPERTY(edge, name); BOOST_DEF_PROPERTY(edge, weight); BOOST_DEF_PROPERTY(edge, weight2); BOOST_DEF_PROPERTY(edge, color); BOOST_DEF_PROPERTY(vertex, name); BOOST_DEF_PROPERTY(graph, name); BOOST_DEF_PROPERTY(vertex, distance); BOOST_DEF_PROPERTY(vertex, distance2); BOOST_DEF_PROPERTY(vertex, color); BOOST_DEF_PROPERTY(vertex, degree); BOOST_DEF_PROPERTY(vertex, in_degree); BOOST_DEF_PROPERTY(vertex, out_degree); BOOST_DEF_PROPERTY(vertex, current_degree); BOOST_DEF_PROPERTY(vertex, priority); BOOST_DEF_PROPERTY(vertex, discover_time); BOOST_DEF_PROPERTY(vertex, finish_time); BOOST_DEF_PROPERTY(vertex, predecessor); BOOST_DEF_PROPERTY(vertex, rank); BOOST_DEF_PROPERTY(vertex, centrality); BOOST_DEF_PROPERTY(vertex, lowpoint); BOOST_DEF_PROPERTY(vertex, potential); BOOST_DEF_PROPERTY(vertex, update); BOOST_DEF_PROPERTY(vertex, underlying); BOOST_DEF_PROPERTY(edge, reverse); BOOST_DEF_PROPERTY(edge, capacity); BOOST_DEF_PROPERTY(edge, flow); BOOST_DEF_PROPERTY(edge, residual_capacity); BOOST_DEF_PROPERTY(edge, centrality); BOOST_DEF_PROPERTY(edge, discover_time); BOOST_DEF_PROPERTY(edge, update); BOOST_DEF_PROPERTY(edge, finished); BOOST_DEF_PROPERTY(edge, underlying); BOOST_DEF_PROPERTY(graph, visitor); // These tags are used for property bundles // BOOST_DEF_PROPERTY(graph, bundle); -- needed in graph_traits.hpp, so enum is defined there BOOST_INSTALL_PROPERTY(graph, bundle); BOOST_DEF_PROPERTY(vertex, bundle); BOOST_DEF_PROPERTY(edge, bundle); // These tags are used to denote the owners and local descriptors // for the vertices and edges of a distributed graph. BOOST_DEF_PROPERTY(vertex, global); BOOST_DEF_PROPERTY(vertex, owner); BOOST_DEF_PROPERTY(vertex, local); BOOST_DEF_PROPERTY(edge, global); BOOST_DEF_PROPERTY(edge, owner); BOOST_DEF_PROPERTY(edge, local); BOOST_DEF_PROPERTY(vertex, local_index); BOOST_DEF_PROPERTY(edge, local_index); #undef BOOST_DEF_PROPERTY namespace detail { struct dummy_edge_property_selector { template struct bind_ { typedef identity_property_map type; typedef identity_property_map const_type; }; }; struct dummy_vertex_property_selector { template struct bind_ { typedef identity_property_map type; typedef identity_property_map const_type; }; }; } // namespace detail // Graph classes can either partially specialize property_map // or they can specialize these two selector classes. template struct edge_property_selector { typedef detail::dummy_edge_property_selector type; }; template struct vertex_property_selector { typedef detail::dummy_vertex_property_selector type; }; namespace detail { template struct return_void {typedef void type;}; template struct graph_tag_or_void { typedef void type; }; template struct graph_tag_or_void::type> { typedef typename Graph::graph_tag type; }; template struct edge_property_map { typedef typename edge_property_type::type Property; typedef typename graph_tag_or_void::type graph_tag; typedef typename edge_property_selector::type Selector; typedef typename Selector::template bind_ Bind; typedef typename Bind::type type; typedef typename Bind::const_type const_type; }; template class vertex_property_map { public: typedef typename vertex_property_type::type Property; typedef typename graph_tag_or_void::type graph_tag; typedef typename vertex_property_selector::type Selector; typedef typename Selector::template bind_ Bind; public: typedef typename Bind::type type; typedef typename Bind::const_type const_type; }; // This selects the kind of property map, whether is maps from // edges or from vertices. // // It is overly complicated because it's a workaround for // partial specialization. struct choose_vertex_property_map { template struct bind_ { typedef vertex_property_map type; }; }; struct choose_edge_property_map { template struct bind_ { typedef edge_property_map type; }; }; template struct property_map_kind_selector { // VC++ gets confused if this isn't defined, even though // this never gets used. typedef choose_vertex_property_map type; }; template <> struct property_map_kind_selector { typedef choose_vertex_property_map type; }; template <> struct property_map_kind_selector { typedef choose_edge_property_map type; }; } // namespace detail template struct property_map { // private: typedef typename property_kind::type Kind; typedef typename detail::property_map_kind_selector::type Selector; typedef typename Selector::template bind_ Bind; typedef typename Bind::type Map; public: typedef typename Map::type type; typedef typename Map::const_type const_type; }; // shortcut for accessing the value type of the property map template class property_map_value { typedef typename property_map::const_type PMap; public: typedef typename property_traits::value_type type; }; template class graph_property { public: typedef typename property_value< typename boost::graph_property_type::type, Property >::type type; }; template class vertex_property { public: typedef typename Graph::vertex_property_type type; }; template class edge_property { public: typedef typename Graph::edge_property_type type; }; template class degree_property_map : public put_get_helper::degree_size_type, degree_property_map > { public: typedef typename graph_traits::vertex_descriptor key_type; typedef typename graph_traits::degree_size_type value_type; typedef value_type reference; typedef readable_property_map_tag category; degree_property_map(const Graph& g) : m_g(g) { } value_type operator[](const key_type& v) const { return degree(v, m_g); } private: const Graph& m_g; }; template inline degree_property_map make_degree_map(const Graph& g) { return degree_property_map(g); } //======================================================================== // Iterator Property Map Generating Functions contributed by // Kevin Vanhorn. (see also the property map generating functions // in boost/property_map/property_map.hpp) #if !defined(BOOST_NO_STD_ITERATOR_TRAITS) // A helper function for creating a vertex property map out of a // random access iterator and the internal vertex index map from a // graph. template inline iterator_property_map< RandomAccessIterator, typename property_map::type, typename std::iterator_traits::value_type, typename std::iterator_traits::reference > make_iterator_vertex_map(RandomAccessIterator iter, const PropertyGraph& g) { return make_iterator_property_map(iter, get(vertex_index, g)); } // Use this next function when vertex_descriptor is known to be an // integer type, with values ranging from 0 to num_vertices(g). // template inline iterator_property_map< RandomAccessIterator, identity_property_map, typename std::iterator_traits::value_type, typename std::iterator_traits::reference > make_iterator_vertex_map(RandomAccessIterator iter) { return make_iterator_property_map(iter, identity_property_map()); } #endif template inline iterator_property_map< typename RandomAccessContainer::iterator, typename property_map::type, typename RandomAccessContainer::value_type, typename RandomAccessContainer::reference > make_container_vertex_map(RandomAccessContainer& c, const PropertyGraph& g) { BOOST_ASSERT(c.size() >= num_vertices(g)); return make_iterator_vertex_map(c.begin(), g); } template inline iterator_property_map< typename RandomAccessContainer::iterator, identity_property_map, typename RandomAccessContainer::value_type, typename RandomAccessContainer::reference > make_container_vertex_map(RandomAccessContainer& c) { return make_iterator_vertex_map(c.begin()); } #if defined (BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION) # define BOOST_GRAPH_NO_BUNDLED_PROPERTIES #endif #if BOOST_WORKAROUND(__SUNPRO_CC, BOOST_TESTED_AT(0x590)) && !defined (BOOST_GRAPH_NO_BUNDLED_PROPERTIES) // This compiler cannot define a partial specialization based on a // pointer-to-member type, as seen in boost/graph/subgraph.hpp line 985 (as of // trunk r53912) # define BOOST_GRAPH_NO_BUNDLED_PROPERTIES #endif #ifndef BOOST_GRAPH_NO_BUNDLED_PROPERTIES template struct bundle_property_map : put_get_helper > { typedef Descriptor key_type; typedef typename remove_const::type value_type; typedef T& reference; typedef lvalue_property_map_tag category; bundle_property_map() { } bundle_property_map(Graph* g_, T Bundle::* pm_) : g(g_), pm(pm_) {} reference operator[](key_type k) const { return (*g)[k].*pm; } private: Graph* g; T Bundle::* pm; }; namespace detail { template struct is_vertex_bundle : mpl::and_, mpl::and_ >, mpl::not_ > > > { }; } // Specialize the property map template to generate bundled property maps. template struct property_map { private: typedef graph_traits traits; typedef typename Graph::vertex_bundled vertex_bundled; typedef typename Graph::edge_bundled edge_bundled; typedef typename mpl::if_c<(detail::is_vertex_bundle::value), typename traits::vertex_descriptor, typename traits::edge_descriptor>::type descriptor; typedef typename mpl::if_c<(detail::is_vertex_bundle::value), vertex_bundled, edge_bundled>::type actual_bundle; public: typedef bundle_property_map type; typedef bundle_property_map const_type; }; #endif // These metafunctions help implement the process of determining the vertex // and edge properties of a graph. namespace graph_detail { template struct retagged_property { typedef typename Retag::type type; }; // Search the normalized PropList (as returned by retagged<>::type) for // the given bundle. Return the type error if no such bundle can be found. template struct retagged_bundle { typedef typename property_value::type Value; typedef typename mpl::if_< is_same, no_bundle, Value >::type type; }; template class normal_property { // Normalize the property into a property list. typedef detail::retag_property_list List; public: // Extract the normalized property and bundle types. typedef typename retagged_property::type property; typedef typename retagged_bundle::type bundle; }; template struct graph_prop : normal_property { }; template struct vertex_prop : normal_property { }; template struct edge_prop : normal_property { }; } // namespace graph_detail // NOTE: These functions are declared, but never defined since they need to // be overloaded by graph implementations. However, we need them to be // declared for the functions below. template typename graph_property::type& get_property(Graph& g, Tag); template typename graph_property::type const& get_property(Graph const& g, Tag); #ifndef BOOST_GRAPH_NO_BUNDLED_PROPERTIES // NOTE: This operation is a simple adaptor over the overloaded get_property // operations. template inline typename graph_property::type& get_property(Graph& g) { return get_property(g, graph_bundle); } template inline typename graph_property::type const& get_property(Graph const& g) { return get_property(g, graph_bundle); } #endif } // namespace boost #if BOOST_WORKAROUND(BOOST_MSVC, < 1300) // Stay out of the way of the concept checking class # undef Graph # undef RandomAccessIterator #endif #endif /* BOOST_GRAPH_PROPERTIES_HPPA */