boost/graph/stanford_graph.hpp
//======================================================================= // Copyright 1997-2001 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_SGB_GRAPH_HPP #define BOOST_GRAPH_SGB_GRAPH_HPP #include <boost/config.hpp> #include <boost/operators.hpp> #include <boost/property_map/property_map.hpp> #include <boost/graph/graph_traits.hpp> #include <boost/graph/properties.hpp> // Thanks to Andreas Scherer for numerous suggestions and fixes! // This file adapts a Stanford GraphBase (SGB) Graph pointer into a // VertexListGraph. Note that a graph adaptor class is not needed, // SGB's Graph* is used as is. The VertexListGraph concept is fulfilled by // defining the appropriate non-member functions for Graph*. // // The PROTOTYPES change file extensions to SGB must be applied so // that the SGB functions have real prototypes which are necessary for // the C++ compiler. To apply the PROTOTYPES extensions, before you do // "make tests install" for SGB do "ln -s PROTOTYPES/* ." to the SGB // root directory (or just copy all the files from the PROTOTYPES // directory to the SGB root directory). // extern "C" { // We include all global definitions for the general stuff // of The Stanford GraphBase and its various graph generator // functions by reading all SGB headerfiles as in section 2 of // the "test_sample" program. #include <gb_graph.h> /* SGB data structures */ #include <gb_io.h> /* SGB input/output routines */ #include <gb_flip.h> /* random number generator */ #include <gb_dijk.h> /* routines for shortest paths */ #include <gb_basic.h> /* the basic graph operations */ #undef empty /* avoid name clash with C++ standard library */ inline Graph* empty(long n) /* and provide workaround */ { return board(n, 0L, 0L, 0L, 2L, 0L, 0L); } #include <gb_books.h> /* graphs based on literature */ #include <gb_econ.h> /* graphs based on economic data */ #include <gb_games.h> /* graphs based on football scores */ #undef ap /* avoid name clash with BGL parameter */ // ap ==> Vertex::u.I #include <gb_gates.h> /* graphs based on logic circuits */ #undef val /* avoid name clash with g++ headerfile stl_tempbuf.h */ // val ==> Vertex::x.I #include <gb_lisa.h> /* graphs based on Mona Lisa */ #include <gb_miles.h> /* graphs based on mileage data */ #include <gb_plane.h> /* planar graphs */ #include <gb_raman.h> /* Ramanujan graphs */ #include <gb_rand.h> /* random graphs */ #include <gb_roget.h> /* graphs based on Roget's Thesaurus */ #include <gb_save.h> /* we save results in ASCII format */ #include <gb_words.h> /* five-letter-word graphs */ #undef weight /* avoid name clash with BGL parameter */ // weight ==> Vertex::u.I } namespace boost { class sgb_edge; } class sgb_out_edge_iterator; class sgb_adj_iterator; class sgb_vertex_iterator; namespace boost { typedef Graph* sgb_graph_ptr; typedef const Graph* sgb_const_graph_ptr; struct sgb_traversal_tag : public virtual vertex_list_graph_tag, public virtual incidence_graph_tag, public virtual adjacency_graph_tag { }; template <> struct graph_traits< sgb_graph_ptr > { typedef Vertex* vertex_descriptor; typedef boost::sgb_edge edge_descriptor; typedef sgb_out_edge_iterator out_edge_iterator; typedef void in_edge_iterator; typedef sgb_adj_iterator adjacency_iterator; typedef sgb_vertex_iterator vertex_iterator; typedef void edge_iterator; typedef long vertices_size_type; typedef long edge_size_type; typedef long degree_size_type; typedef directed_tag directed_category; typedef sgb_traversal_tag traversal_category; typedef allow_parallel_edge_tag edge_parallel_category; /** Return a null descriptor */ static vertex_descriptor null_vertex() { return NULL; } }; template <> struct graph_traits< sgb_const_graph_ptr > { typedef Vertex* vertex_descriptor; typedef boost::sgb_edge edge_descriptor; typedef sgb_out_edge_iterator out_edge_iterator; typedef void in_edge_iterator; typedef sgb_adj_iterator adjacency_iterator; typedef sgb_vertex_iterator vertex_iterator; typedef void edge_iterator; typedef long vertices_size_type; typedef long edge_size_type; typedef long degree_size_type; typedef directed_tag directed_category; typedef sgb_traversal_tag traversal_category; typedef allow_parallel_edge_tag edge_parallel_category; /** Return a null descriptor */ static vertex_descriptor null_vertex() { return NULL; } }; } namespace boost { struct edge_length_t { typedef edge_property_tag kind; }; // We could just use Arc* as the edge descriptor type, but // we want to add the source(e,g) function which requires // that we carry along a pointer to the source vertex. class sgb_edge { typedef sgb_edge self; public: sgb_edge() : _arc(0), _src(0) {} sgb_edge(Arc* a, Vertex* s) : _arc(a), _src(s) {} friend Vertex* source(self e, sgb_const_graph_ptr) { return e._src; } friend Vertex* target(self e, sgb_const_graph_ptr) { return e._arc->tip; } friend bool operator==(const self& a, const self& b) { return a._arc == b._arc; } friend bool operator!=(const self& a, const self& b) { return a._arc != b._arc; } #if !defined(BOOST_NO_MEMBER_TEMPLATE_FRIENDS) template < class Ref > friend class sgb_edge_length_map; template < class Tag, class Ref > friend class sgb_edge_util_map; friend long get(edge_length_t, const sgb_graph_ptr&, const sgb_edge& key); friend long get( edge_length_t, const sgb_const_graph_ptr&, const sgb_edge& key); friend void put( edge_length_t, sgb_graph_ptr&, const sgb_edge& key, long value); protected: #endif Arc* _arc; Vertex* _src; }; } // namespace boost class sgb_out_edge_iterator : public boost::forward_iterator_helper< sgb_out_edge_iterator, boost::sgb_edge, std::ptrdiff_t, boost::sgb_edge*, boost::sgb_edge > { typedef sgb_out_edge_iterator self; public: sgb_out_edge_iterator() : _src(0), _arc(0) {} sgb_out_edge_iterator(Vertex* s, Arc* d) : _src(s), _arc(d) {} boost::sgb_edge operator*() { return boost::sgb_edge(_arc, _src); } self& operator++() { _arc = _arc->next; return *this; } friend bool operator==(const self& x, const self& y) { return x._arc == y._arc; } protected: Vertex* _src; Arc* _arc; }; class sgb_adj_iterator : public boost::forward_iterator_helper< sgb_adj_iterator, Vertex*, std::ptrdiff_t, Vertex**, Vertex* > { typedef sgb_adj_iterator self; public: sgb_adj_iterator() : _arc(0) {} sgb_adj_iterator(Arc* d) : _arc(d) {} Vertex* operator*() { return _arc->tip; } self& operator++() { _arc = _arc->next; return *this; } friend bool operator==(const self& x, const self& y) { return x._arc == y._arc; } protected: Arc* _arc; }; // The reason we have this instead of just using Vertex* is that we // want to use Vertex* as the vertex_descriptor instead of just // Vertex, which avoids problems with boost passing vertex descriptors // by value and how that interacts with the sgb_vertex_id_map. class sgb_vertex_iterator : public boost::forward_iterator_helper< sgb_vertex_iterator, Vertex*, std::ptrdiff_t, Vertex**, Vertex* > { typedef sgb_vertex_iterator self; public: sgb_vertex_iterator() : _v(0) {} sgb_vertex_iterator(Vertex* v) : _v(v) {} Vertex* operator*() { return _v; } self& operator++() { ++_v; return *this; } friend bool operator==(const self& x, const self& y) { return x._v == y._v; } protected: Vertex* _v; }; namespace boost { inline std::pair< sgb_vertex_iterator, sgb_vertex_iterator > vertices( sgb_const_graph_ptr g) { return std::make_pair(sgb_vertex_iterator(g->vertices), sgb_vertex_iterator(g->vertices + g->n)); } inline std::pair< sgb_out_edge_iterator, sgb_out_edge_iterator > out_edges( Vertex* u, sgb_const_graph_ptr) { return std::make_pair( sgb_out_edge_iterator(u, u->arcs), sgb_out_edge_iterator(u, 0)); } inline boost::graph_traits< sgb_graph_ptr >::degree_size_type out_degree( Vertex* u, sgb_const_graph_ptr g) { boost::graph_traits< sgb_graph_ptr >::out_edge_iterator i, i_end; boost::tie(i, i_end) = out_edges(u, g); return std::distance(i, i_end); } // in_edges? inline std::pair< sgb_adj_iterator, sgb_adj_iterator > adjacent_vertices( Vertex* u, sgb_const_graph_ptr) { return std::make_pair(sgb_adj_iterator(u->arcs), sgb_adj_iterator(0)); } inline long num_vertices(sgb_const_graph_ptr g) { return g->n; } inline long num_edges(sgb_const_graph_ptr g) { return g->m; } inline Vertex* vertex(long v, sgb_const_graph_ptr g) { return g->vertices + v; } // Various Property Maps // Vertex ID class sgb_vertex_id_map : public boost::put_get_helper< long, sgb_vertex_id_map > { public: typedef boost::readable_property_map_tag category; typedef long value_type; typedef long reference; typedef Vertex* key_type; sgb_vertex_id_map() : _g(0) {} sgb_vertex_id_map(sgb_graph_ptr g) : _g(g) {} long operator[](Vertex* v) const { return v - _g->vertices; } protected: sgb_graph_ptr _g; }; inline sgb_vertex_id_map get(vertex_index_t, sgb_graph_ptr g) { return sgb_vertex_id_map(g); } // Vertex Name class sgb_vertex_name_map : public boost::put_get_helper< char*, sgb_vertex_name_map > { public: typedef boost::readable_property_map_tag category; typedef char* value_type; typedef char* reference; typedef Vertex* key_type; char* operator[](Vertex* v) const { return v->name; } }; inline sgb_vertex_name_map get(vertex_name_t, sgb_graph_ptr) { return sgb_vertex_name_map(); } // Vertex Property Tags #define SGB_PROPERTY_TAG(KIND, TAG) \ template < class T > struct TAG##_property \ { \ typedef KIND##_property_tag kind; \ typedef T type; \ }; SGB_PROPERTY_TAG(vertex, u) SGB_PROPERTY_TAG(vertex, v) SGB_PROPERTY_TAG(vertex, w) SGB_PROPERTY_TAG(vertex, x) SGB_PROPERTY_TAG(vertex, y) SGB_PROPERTY_TAG(vertex, z) // Edge Property Tags SGB_PROPERTY_TAG(edge, a) SGB_PROPERTY_TAG(edge, b) // Various Utility Maps // helpers inline Vertex*& get_util(util& u, Vertex*) { return u.V; } inline Arc*& get_util(util& u, Arc*) { return u.A; } inline sgb_graph_ptr& get_util(util& u, sgb_graph_ptr) { return u.G; } inline char*& get_util(util& u, char*) { return u.S; } inline long& get_util(util& u, long) { return u.I; } #define SGB_GET_UTIL_FIELD(KIND, X) \ template < class T > inline T& get_util_field(KIND* k, X##_property< T >) \ { \ return get_util(k->X, T()); \ } SGB_GET_UTIL_FIELD(Vertex, u) SGB_GET_UTIL_FIELD(Vertex, v) SGB_GET_UTIL_FIELD(Vertex, w) SGB_GET_UTIL_FIELD(Vertex, x) SGB_GET_UTIL_FIELD(Vertex, y) SGB_GET_UTIL_FIELD(Vertex, z) SGB_GET_UTIL_FIELD(Arc, a) SGB_GET_UTIL_FIELD(Arc, b) // Vertex Utility Map template < class Tag, class Ref > class sgb_vertex_util_map : public boost::put_get_helper< Ref, sgb_vertex_util_map< Tag, Ref > > { Tag tag; public: explicit sgb_vertex_util_map(Tag tag = Tag()) : tag(tag) {} typedef boost::lvalue_property_map_tag category; typedef typename Tag::type value_type; typedef Vertex* key_type; typedef Ref reference; reference operator[](Vertex* v) const { return get_util_field(v, tag); } }; // Edge Utility Map template < class Tag, class Ref > class sgb_edge_util_map : public boost::put_get_helper< Ref, sgb_edge_util_map< Tag, Ref > > { Tag tag; public: explicit sgb_edge_util_map(Tag tag = Tag()) : tag(tag) {} typedef boost::lvalue_property_map_tag category; typedef typename Tag::type value_type; typedef Vertex* key_type; typedef Ref reference; reference operator[](const sgb_edge& e) const { return get_util_field(e._arc, tag); } }; template < class Tag > inline sgb_vertex_util_map< Tag, const typename Tag::type& > get_property_map( Tag, const sgb_graph_ptr& g, vertex_property_tag) { return sgb_vertex_util_map< Tag, const typename Tag::type& >(); } template < class Tag > inline sgb_vertex_util_map< Tag, typename Tag::type& > get_property_map( Tag, sgb_graph_ptr& g, vertex_property_tag) { return sgb_vertex_util_map< Tag, typename Tag::type& >(); } template < class Tag > inline sgb_edge_util_map< Tag, const typename Tag::type& > get_property_map( Tag, const sgb_graph_ptr& g, edge_property_tag) { return sgb_edge_util_map< Tag, const typename Tag::type& >(); } template < class Tag > inline sgb_edge_util_map< Tag, typename Tag::type& > get_property_map( Tag, sgb_graph_ptr& g, edge_property_tag) { return sgb_edge_util_map< Tag, typename Tag::type& >(); } // Edge Length Access template < class Ref > class sgb_edge_length_map : public boost::put_get_helper< Ref, sgb_edge_length_map< Ref > > { public: typedef boost::lvalue_property_map_tag category; typedef long value_type; typedef sgb_edge key_type; typedef Ref reference; reference operator[](const sgb_edge& e) const { return e._arc->len; } }; inline sgb_edge_length_map< const long& > get( edge_length_t, const sgb_graph_ptr&) { return sgb_edge_length_map< const long& >(); } inline sgb_edge_length_map< const long& > get( edge_length_t, const sgb_const_graph_ptr&) { return sgb_edge_length_map< const long& >(); } inline sgb_edge_length_map< long& > get(edge_length_t, sgb_graph_ptr&) { return sgb_edge_length_map< long& >(); } inline long get(edge_length_t, const sgb_graph_ptr&, const sgb_edge& key) { return key._arc->len; } inline long get(edge_length_t, const sgb_const_graph_ptr&, const sgb_edge& key) { return key._arc->len; } inline void put(edge_length_t, sgb_graph_ptr&, const sgb_edge& key, long value) { key._arc->len = value; } // Property Map Traits Classes template <> struct property_map< sgb_graph_ptr, edge_length_t > { typedef sgb_edge_length_map< long& > type; typedef sgb_edge_length_map< const long& > const_type; }; template <> struct property_map< sgb_graph_ptr, vertex_index_t > { typedef sgb_vertex_id_map type; typedef sgb_vertex_id_map const_type; }; template <> struct property_map< sgb_graph_ptr, vertex_name_t > { typedef sgb_vertex_name_map type; typedef sgb_vertex_name_map const_type; }; template <> struct property_map< sgb_const_graph_ptr, edge_length_t > { typedef sgb_edge_length_map< const long& > const_type; }; template <> struct property_map< sgb_const_graph_ptr, vertex_index_t > { typedef sgb_vertex_id_map const_type; }; template <> struct property_map< sgb_const_graph_ptr, vertex_name_t > { typedef sgb_vertex_name_map const_type; }; namespace detail { template < class Kind, class PropertyTag > struct sgb_choose_property_map { }; template < class PropertyTag > struct sgb_choose_property_map< vertex_property_tag, PropertyTag > { typedef typename PropertyTag::type value_type; typedef sgb_vertex_util_map< PropertyTag, value_type& > type; typedef sgb_vertex_util_map< PropertyTag, const value_type& > const_type; }; template < class PropertyTag > struct sgb_choose_property_map< edge_property_tag, PropertyTag > { typedef typename PropertyTag::type value_type; typedef sgb_edge_util_map< PropertyTag, value_type& > type; typedef sgb_edge_util_map< PropertyTag, const value_type& > const_type; }; } // namespace detail template < class PropertyTag > struct property_map< sgb_graph_ptr, PropertyTag > { typedef typename property_kind< PropertyTag >::type Kind; typedef detail::sgb_choose_property_map< Kind, PropertyTag > Choice; typedef typename Choice::type type; typedef typename Choice::const_type const_type; }; template < class PropertyTag > struct property_map< sgb_const_graph_ptr, PropertyTag > { typedef typename property_kind< PropertyTag >::type Kind; typedef detail::sgb_choose_property_map< Kind, PropertyTag > Choice; typedef typename Choice::const_type const_type; }; #define SGB_UTIL_ACCESSOR(KIND, X) \ template < class T > \ inline sgb_##KIND##_util_map< X##_property< T >, T& > get( \ X##_property< T >, sgb_graph_ptr&) \ { \ return sgb_##KIND##_util_map< X##_property< T >, T& >(); \ } \ template < class T > \ inline sgb_##KIND##_util_map< X##_property< T >, const T& > get( \ X##_property< T >, const sgb_graph_ptr&) \ { \ return sgb_##KIND##_util_map< X##_property< T >, const T& >(); \ } \ template < class T > \ inline sgb_##KIND##_util_map< X##_property< T >, const T& > get( \ X##_property< T >, const sgb_const_graph_ptr&) \ { \ return sgb_##KIND##_util_map< X##_property< T >, const T& >(); \ } \ template < class T, class Key > \ inline typename sgb_##KIND##_util_map< X##_property< T >, \ const T& >::value_type \ get(X##_property< T >, const sgb_graph_ptr&, const Key& key) \ { \ return sgb_##KIND##_util_map< X##_property< T >, const T& >()[key]; \ } \ template < class T, class Key > \ inline typename sgb_##KIND##_util_map< X##_property< T >, \ const T& >::value_type \ get(X##_property< T >, const sgb_const_graph_ptr&, const Key& key) \ { \ return sgb_##KIND##_util_map< X##_property< T >, const T& >()[key]; \ } \ template < class T, class Key, class Value > \ inline void put( \ X##_property< T >, sgb_graph_ptr&, const Key& key, const Value& value) \ { \ sgb_##KIND##_util_map< X##_property< T >, T& >()[key] = value; \ } SGB_UTIL_ACCESSOR(vertex, u) SGB_UTIL_ACCESSOR(vertex, v) SGB_UTIL_ACCESSOR(vertex, w) SGB_UTIL_ACCESSOR(vertex, x) SGB_UTIL_ACCESSOR(vertex, y) SGB_UTIL_ACCESSOR(vertex, z) SGB_UTIL_ACCESSOR(edge, a) SGB_UTIL_ACCESSOR(edge, b) } // namespace boost #endif // BOOST_GRAPH_SGB_GRAPH_HPP