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Don't fail environmental check if README.md exists (but .txt and no-suffix don't)
author Chris Cannam
date Tue, 30 Jul 2019 12:25:44 +0100
parents c530137014c0
children
rev   line source
Chris@16 1 //=======================================================================
Chris@16 2 // Copyright 1997-2001 University of Notre Dame.
Chris@16 3 // Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek
Chris@16 4 //
Chris@16 5 // Distributed under the Boost Software License, Version 1.0. (See
Chris@16 6 // accompanying file LICENSE_1_0.txt or copy at
Chris@16 7 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16 8 //=======================================================================
Chris@16 9 #ifndef BOOST_GRAPH_SGB_GRAPH_HPP
Chris@16 10 #define BOOST_GRAPH_SGB_GRAPH_HPP
Chris@16 11
Chris@16 12 #include <boost/config.hpp>
Chris@16 13 #include <boost/iterator.hpp>
Chris@16 14 #include <boost/operators.hpp>
Chris@16 15 #include <boost/property_map/property_map.hpp>
Chris@16 16 #include <boost/graph/graph_traits.hpp>
Chris@16 17 #include <boost/graph/properties.hpp>
Chris@16 18
Chris@16 19 // Thanks to Andreas Scherer for numerous suggestions and fixes!
Chris@16 20
Chris@16 21 // This file adapts a Stanford GraphBase (SGB) Graph pointer into a
Chris@16 22 // VertexListGraph. Note that a graph adaptor class is not needed,
Chris@16 23 // SGB's Graph* is used as is. The VertexListGraph concept is fulfilled by
Chris@16 24 // defining the appropriate non-member functions for Graph*.
Chris@16 25 //
Chris@16 26 // The PROTOTYPES change file extensions to SGB must be applied so
Chris@16 27 // that the SGB functions have real prototypes which are necessary for
Chris@16 28 // the C++ compiler. To apply the PROTOTYPES extensions, before you do
Chris@16 29 // "make tests install" for SGB do "ln -s PROTOTYPES/* ." to the SGB
Chris@16 30 // root directory (or just copy all the files from the PROTOTYPES
Chris@16 31 // directory to the SGB root directory).
Chris@16 32 //
Chris@16 33 extern "C" {
Chris@16 34 // We include all global definitions for the general stuff
Chris@16 35 // of The Stanford GraphBase and its various graph generator
Chris@16 36 // functions by reading all SGB headerfiles as in section 2 of
Chris@16 37 // the "test_sample" program.
Chris@16 38 #include <gb_graph.h> /* SGB data structures */
Chris@16 39 #include <gb_io.h> /* SGB input/output routines */
Chris@16 40 #include <gb_flip.h> /* random number generator */
Chris@16 41 #include <gb_dijk.h> /* routines for shortest paths */
Chris@16 42 #include <gb_basic.h> /* the basic graph operations */
Chris@16 43 #undef empty /* avoid name clash with C++ standard library */
Chris@16 44 inline Graph* empty( long n ) /* and provide workaround */
Chris@16 45 { return board(n,0L,0L,0L,2L,0L,0L); }
Chris@16 46 #include <gb_books.h> /* graphs based on literature */
Chris@16 47 #include <gb_econ.h> /* graphs based on economic data */
Chris@16 48 #include <gb_games.h> /* graphs based on football scores */
Chris@16 49 #include <gb_gates.h> /* graphs based on logic circuits */
Chris@16 50 #undef val /* avoid name clash with g++ headerfile stl_tempbuf.h */
Chris@16 51 // val ==> Vertex::x.I
Chris@16 52 #include <gb_lisa.h> /* graphs based on Mona Lisa */
Chris@16 53 #include <gb_miles.h> /* graphs based on mileage data */
Chris@16 54 #include <gb_plane.h> /* planar graphs */
Chris@16 55 #include <gb_raman.h> /* Ramanujan graphs */
Chris@16 56 #include <gb_rand.h> /* random graphs */
Chris@16 57 #include <gb_roget.h> /* graphs based on Roget's Thesaurus */
Chris@16 58 #include <gb_save.h> /* we save results in ASCII format */
Chris@16 59 #include <gb_words.h> /* five-letter-word graphs */
Chris@16 60 #undef weight /* avoid name clash with BGL parameter */
Chris@16 61 // weight ==> Vertex::u.I
Chris@16 62 }
Chris@16 63
Chris@16 64 namespace boost {
Chris@16 65 class sgb_edge;
Chris@16 66 }
Chris@16 67
Chris@16 68 class sgb_out_edge_iterator;
Chris@16 69 class sgb_adj_iterator;
Chris@16 70 class sgb_vertex_iterator;
Chris@16 71
Chris@16 72 namespace boost {
Chris@16 73 typedef Graph* sgb_graph_ptr;
Chris@16 74 typedef const Graph* sgb_const_graph_ptr;
Chris@16 75
Chris@16 76 struct sgb_traversal_tag :
Chris@16 77 public virtual vertex_list_graph_tag,
Chris@16 78 public virtual incidence_graph_tag,
Chris@16 79 public virtual adjacency_graph_tag { };
Chris@16 80
Chris@16 81 template <> struct graph_traits<sgb_graph_ptr> {
Chris@16 82 typedef Vertex* vertex_descriptor;
Chris@16 83 typedef boost::sgb_edge edge_descriptor;
Chris@16 84 typedef sgb_out_edge_iterator out_edge_iterator;
Chris@16 85 typedef void in_edge_iterator;
Chris@16 86 typedef sgb_adj_iterator adjacency_iterator;
Chris@16 87 typedef sgb_vertex_iterator vertex_iterator;
Chris@16 88 typedef void edge_iterator;
Chris@16 89 typedef long vertices_size_type;
Chris@16 90 typedef long edge_size_type;
Chris@16 91 typedef long degree_size_type;
Chris@16 92 typedef directed_tag directed_category;
Chris@16 93 typedef sgb_traversal_tag traversal_category;
Chris@16 94 typedef allow_parallel_edge_tag edge_parallel_category;
Chris@16 95 };
Chris@16 96 template <> struct graph_traits<sgb_const_graph_ptr> {
Chris@16 97 typedef Vertex* vertex_descriptor;
Chris@16 98 typedef boost::sgb_edge edge_descriptor;
Chris@16 99 typedef sgb_out_edge_iterator out_edge_iterator;
Chris@16 100 typedef void in_edge_iterator;
Chris@16 101 typedef sgb_adj_iterator adjacency_iterator;
Chris@16 102 typedef sgb_vertex_iterator vertex_iterator;
Chris@16 103 typedef void edge_iterator;
Chris@16 104 typedef long vertices_size_type;
Chris@16 105 typedef long edge_size_type;
Chris@16 106 typedef long degree_size_type;
Chris@16 107 typedef directed_tag directed_category;
Chris@16 108 typedef sgb_traversal_tag traversal_category;
Chris@16 109 typedef allow_parallel_edge_tag edge_parallel_category;
Chris@16 110 };
Chris@16 111 }
Chris@16 112
Chris@16 113 namespace boost {
Chris@16 114
Chris@16 115 struct edge_length_t {
Chris@16 116 typedef edge_property_tag kind;
Chris@16 117 };
Chris@16 118
Chris@16 119 // We could just use Arc* as the edge descriptor type, but
Chris@16 120 // we want to add the source(e,g) function which requires
Chris@16 121 // that we carry along a pointer to the source vertex.
Chris@16 122 class sgb_edge {
Chris@16 123 typedef sgb_edge self;
Chris@16 124 public:
Chris@16 125 sgb_edge() : _arc(0), _src(0) { }
Chris@16 126 sgb_edge(Arc* a, Vertex* s) : _arc(a), _src(s) { }
Chris@16 127 friend Vertex* source(self e, sgb_const_graph_ptr) { return e._src; }
Chris@16 128 friend Vertex* target(self e, sgb_const_graph_ptr) { return e._arc->tip; }
Chris@16 129 friend bool operator==(const self& a, const self& b) {
Chris@16 130 return a._arc == b._arc; }
Chris@16 131 friend bool operator!=(const self& a, const self& b) {
Chris@16 132 return a._arc != b._arc; }
Chris@16 133 #if !defined(BOOST_NO_MEMBER_TEMPLATE_FRIENDS)
Chris@16 134 template <class Ref> friend class sgb_edge_length_map;
Chris@16 135 template <class Tag, class Ref> friend class sgb_edge_util_map;
Chris@16 136 friend long get(edge_length_t, const sgb_graph_ptr&, const sgb_edge& key);
Chris@16 137 friend long get(edge_length_t, const sgb_const_graph_ptr&, const sgb_edge& key);
Chris@16 138 friend void put(edge_length_t, sgb_graph_ptr&, const sgb_edge& key, long value);
Chris@16 139 protected:
Chris@16 140 #endif
Chris@16 141 Arc* _arc;
Chris@16 142 Vertex* _src;
Chris@16 143 };
Chris@16 144 } // namespace boost
Chris@16 145
Chris@16 146 class sgb_out_edge_iterator
Chris@16 147 : public boost::forward_iterator_helper<
Chris@16 148 sgb_out_edge_iterator, boost::sgb_edge,
Chris@16 149 std::ptrdiff_t, boost::sgb_edge*, boost::sgb_edge>
Chris@16 150 {
Chris@16 151 typedef sgb_out_edge_iterator self;
Chris@16 152 public:
Chris@16 153 sgb_out_edge_iterator() : _src(0), _arc(0) {}
Chris@16 154 sgb_out_edge_iterator(Vertex* s, Arc* d) : _src(s), _arc(d) {}
Chris@16 155 boost::sgb_edge operator*() { return boost::sgb_edge(_arc, _src); }
Chris@16 156 self& operator++() { _arc = _arc->next; return *this; }
Chris@16 157 friend bool operator==(const self& x, const self& y) {
Chris@16 158 return x._arc == y._arc; }
Chris@16 159 protected:
Chris@16 160 Vertex* _src;
Chris@16 161 Arc* _arc;
Chris@16 162 };
Chris@16 163
Chris@16 164 class sgb_adj_iterator
Chris@16 165 : public boost::forward_iterator_helper<
Chris@16 166 sgb_adj_iterator, Vertex*, std::ptrdiff_t, Vertex**,Vertex*>
Chris@16 167 {
Chris@16 168 typedef sgb_adj_iterator self;
Chris@16 169 public:
Chris@16 170 sgb_adj_iterator() : _arc(0) {}
Chris@16 171 sgb_adj_iterator(Arc* d) : _arc(d) {}
Chris@16 172 Vertex* operator*() { return _arc->tip; }
Chris@16 173 self& operator++() { _arc = _arc->next; return *this; }
Chris@16 174 friend bool operator==(const self& x, const self& y) {
Chris@16 175 return x._arc == y._arc; }
Chris@16 176 protected:
Chris@16 177 Arc* _arc;
Chris@16 178 };
Chris@16 179
Chris@16 180 // The reason we have this instead of just using Vertex* is that we
Chris@16 181 // want to use Vertex* as the vertex_descriptor instead of just
Chris@16 182 // Vertex, which avoids problems with boost passing vertex descriptors
Chris@16 183 // by value and how that interacts with the sgb_vertex_id_map.
Chris@16 184 class sgb_vertex_iterator
Chris@16 185 : public boost::forward_iterator_helper<
Chris@16 186 sgb_vertex_iterator, Vertex*, std::ptrdiff_t, Vertex**, Vertex*>
Chris@16 187 {
Chris@16 188 typedef sgb_vertex_iterator self;
Chris@16 189 public:
Chris@16 190 sgb_vertex_iterator() : _v(0) { }
Chris@16 191 sgb_vertex_iterator(Vertex* v) : _v(v) { }
Chris@16 192 Vertex* operator*() { return _v; }
Chris@16 193 self& operator++() { ++_v; return *this; }
Chris@16 194 friend bool operator==(const self& x, const self& y) {
Chris@16 195 return x._v == y._v; }
Chris@16 196 protected:
Chris@16 197 Vertex* _v;
Chris@16 198 };
Chris@16 199
Chris@16 200 namespace boost {
Chris@16 201
Chris@16 202 inline std::pair<sgb_vertex_iterator,sgb_vertex_iterator>
Chris@16 203 vertices(sgb_const_graph_ptr g)
Chris@16 204 {
Chris@16 205 return std::make_pair(sgb_vertex_iterator(g->vertices),
Chris@16 206 sgb_vertex_iterator(g->vertices + g->n));
Chris@16 207 }
Chris@16 208
Chris@16 209 inline std::pair<sgb_out_edge_iterator,sgb_out_edge_iterator>
Chris@16 210 out_edges(Vertex* u, sgb_const_graph_ptr)
Chris@16 211 {
Chris@16 212 return std::make_pair( sgb_out_edge_iterator(u, u->arcs),
Chris@16 213 sgb_out_edge_iterator(u, 0) );
Chris@16 214 }
Chris@16 215
Chris@16 216 inline boost::graph_traits<sgb_graph_ptr>::degree_size_type
Chris@16 217 out_degree(Vertex* u, sgb_const_graph_ptr g)
Chris@16 218 {
Chris@16 219 boost::graph_traits<sgb_graph_ptr>::out_edge_iterator i, i_end;
Chris@16 220 boost::tie(i, i_end) = out_edges(u, g);
Chris@16 221 return std::distance(i, i_end);
Chris@16 222 }
Chris@16 223
Chris@16 224 // in_edges?
Chris@16 225
Chris@16 226 inline std::pair<sgb_adj_iterator,sgb_adj_iterator>
Chris@16 227 adjacent_vertices(Vertex* u, sgb_const_graph_ptr)
Chris@16 228 {
Chris@16 229 return std::make_pair( sgb_adj_iterator(u->arcs),
Chris@16 230 sgb_adj_iterator(0) );
Chris@16 231 }
Chris@16 232
Chris@16 233 inline long num_vertices(sgb_const_graph_ptr g) { return g->n; }
Chris@16 234 inline long num_edges(sgb_const_graph_ptr g) { return g->m; }
Chris@16 235
Chris@16 236 inline Vertex* vertex(long v, sgb_const_graph_ptr g)
Chris@16 237 { return g->vertices + v; }
Chris@16 238
Chris@16 239 // Various Property Maps
Chris@16 240
Chris@16 241 // Vertex ID
Chris@16 242 class sgb_vertex_id_map
Chris@16 243 : public boost::put_get_helper<long, sgb_vertex_id_map>
Chris@16 244 {
Chris@16 245 public:
Chris@16 246 typedef boost::readable_property_map_tag category;
Chris@16 247 typedef long value_type;
Chris@16 248 typedef long reference;
Chris@16 249 typedef Vertex* key_type;
Chris@16 250 sgb_vertex_id_map() : _g(0) { }
Chris@16 251 sgb_vertex_id_map(sgb_graph_ptr g) : _g(g) { }
Chris@16 252 long operator[](Vertex* v) const { return v - _g->vertices; }
Chris@16 253 protected:
Chris@16 254 sgb_graph_ptr _g;
Chris@16 255 };
Chris@16 256 inline sgb_vertex_id_map get(vertex_index_t, sgb_graph_ptr g) {
Chris@16 257 return sgb_vertex_id_map(g);
Chris@16 258 }
Chris@16 259
Chris@16 260 // Vertex Name
Chris@16 261 class sgb_vertex_name_map
Chris@16 262 : public boost::put_get_helper<char*, sgb_vertex_name_map>
Chris@16 263 {
Chris@16 264 public:
Chris@16 265 typedef boost::readable_property_map_tag category;
Chris@16 266 typedef char* value_type;
Chris@16 267 typedef char* reference;
Chris@16 268 typedef Vertex* key_type;
Chris@16 269 char* operator[](Vertex* v) const { return v->name; }
Chris@16 270 };
Chris@16 271 inline sgb_vertex_name_map get(vertex_name_t, sgb_graph_ptr) {
Chris@16 272 return sgb_vertex_name_map();
Chris@16 273 }
Chris@16 274
Chris@16 275 // Vertex Property Tags
Chris@16 276 #define SGB_PROPERTY_TAG(KIND,TAG) \
Chris@16 277 template <class T> struct TAG##_property { \
Chris@16 278 typedef KIND##_property_tag kind; \
Chris@16 279 typedef T type; \
Chris@16 280 };
Chris@16 281 SGB_PROPERTY_TAG(vertex, u)
Chris@16 282 SGB_PROPERTY_TAG(vertex, v)
Chris@16 283 SGB_PROPERTY_TAG(vertex, w)
Chris@16 284 SGB_PROPERTY_TAG(vertex, x)
Chris@16 285 SGB_PROPERTY_TAG(vertex, y)
Chris@16 286 SGB_PROPERTY_TAG(vertex, z)
Chris@16 287
Chris@16 288 // Edge Property Tags
Chris@16 289 SGB_PROPERTY_TAG(edge, a)
Chris@16 290 SGB_PROPERTY_TAG(edge, b)
Chris@16 291
Chris@16 292 // Various Utility Maps
Chris@16 293
Chris@16 294 // helpers
Chris@16 295 inline Vertex*& get_util(util& u, Vertex*) { return u.V; }
Chris@16 296 inline Arc*& get_util(util& u, Arc*) { return u.A; }
Chris@16 297 inline sgb_graph_ptr& get_util(util& u, sgb_graph_ptr) { return u.G; }
Chris@16 298 inline char*& get_util(util& u, char*) { return u.S; }
Chris@16 299 inline long& get_util(util& u, long) { return u.I; }
Chris@16 300
Chris@16 301 #define SGB_GET_UTIL_FIELD(KIND,X) \
Chris@16 302 template <class T> \
Chris@16 303 inline T& get_util_field(KIND* k, X##_property<T>) { \
Chris@16 304 return get_util(k->X, T()); }
Chris@16 305
Chris@16 306 SGB_GET_UTIL_FIELD(Vertex, u)
Chris@16 307 SGB_GET_UTIL_FIELD(Vertex, v)
Chris@16 308 SGB_GET_UTIL_FIELD(Vertex, w)
Chris@16 309 SGB_GET_UTIL_FIELD(Vertex, x)
Chris@16 310 SGB_GET_UTIL_FIELD(Vertex, y)
Chris@16 311 SGB_GET_UTIL_FIELD(Vertex, z)
Chris@16 312
Chris@16 313 SGB_GET_UTIL_FIELD(Arc, a)
Chris@16 314 SGB_GET_UTIL_FIELD(Arc, b)
Chris@16 315
Chris@16 316 // Vertex Utility Map
Chris@16 317 template <class Tag, class Ref>
Chris@16 318 class sgb_vertex_util_map
Chris@16 319 : public boost::put_get_helper<Ref, sgb_vertex_util_map<Tag, Ref> >
Chris@16 320 {
Chris@16 321 Tag tag;
Chris@16 322 public:
Chris@16 323 explicit sgb_vertex_util_map(Tag tag = Tag()): tag(tag) {}
Chris@16 324 typedef boost::lvalue_property_map_tag category;
Chris@16 325 typedef typename Tag::type value_type;
Chris@16 326 typedef Vertex* key_type;
Chris@16 327 typedef Ref reference;
Chris@16 328 reference operator[](Vertex* v) const {
Chris@16 329 return get_util_field(v, tag);
Chris@16 330 }
Chris@16 331 };
Chris@16 332
Chris@16 333 // Edge Utility Map
Chris@16 334 template <class Tag, class Ref>
Chris@16 335 class sgb_edge_util_map
Chris@16 336 : public boost::put_get_helper<Ref, sgb_edge_util_map<Tag, Ref> >
Chris@16 337 {
Chris@16 338 Tag tag;
Chris@16 339 public:
Chris@16 340 explicit sgb_edge_util_map(Tag tag = Tag()): tag(tag) {}
Chris@16 341 typedef boost::lvalue_property_map_tag category;
Chris@16 342 typedef typename Tag::type value_type;
Chris@16 343 typedef Vertex* key_type;
Chris@16 344 typedef Ref reference;
Chris@16 345 reference operator[](const sgb_edge& e) const {
Chris@16 346 return get_util_field(e._arc, tag);
Chris@16 347 }
Chris@16 348 };
Chris@16 349
Chris@16 350
Chris@16 351 template <class Tag>
Chris@16 352 inline sgb_vertex_util_map<Tag, const typename Tag::type&>
Chris@16 353 get_property_map(Tag, const sgb_graph_ptr& g, vertex_property_tag) {
Chris@16 354 return sgb_vertex_util_map<Tag, const typename Tag::type&>();
Chris@16 355 }
Chris@16 356 template <class Tag>
Chris@16 357 inline sgb_vertex_util_map<Tag, typename Tag::type&>
Chris@16 358 get_property_map(Tag, sgb_graph_ptr& g, vertex_property_tag) {
Chris@16 359 return sgb_vertex_util_map<Tag, typename Tag::type&>();
Chris@16 360 }
Chris@16 361
Chris@16 362 template <class Tag>
Chris@16 363 inline sgb_edge_util_map<Tag, const typename Tag::type&>
Chris@16 364 get_property_map(Tag, const sgb_graph_ptr& g, edge_property_tag) {
Chris@16 365 return sgb_edge_util_map<Tag, const typename Tag::type&>();
Chris@16 366 }
Chris@16 367 template <class Tag>
Chris@16 368 inline sgb_edge_util_map<Tag, typename Tag::type&>
Chris@16 369 get_property_map(Tag, sgb_graph_ptr& g, edge_property_tag) {
Chris@16 370 return sgb_edge_util_map<Tag, typename Tag::type&>();
Chris@16 371 }
Chris@16 372
Chris@16 373
Chris@16 374 // Edge Length Access
Chris@16 375 template <class Ref>
Chris@16 376 class sgb_edge_length_map
Chris@16 377 : public boost::put_get_helper<Ref, sgb_edge_length_map<Ref> >
Chris@16 378 {
Chris@16 379 public:
Chris@16 380 typedef boost::lvalue_property_map_tag category;
Chris@16 381 typedef long value_type;
Chris@16 382 typedef sgb_edge key_type;
Chris@16 383 typedef Ref reference;
Chris@16 384 reference operator[](const sgb_edge& e) const {
Chris@16 385 return e._arc->len;
Chris@16 386 }
Chris@16 387 };
Chris@16 388
Chris@16 389 inline sgb_edge_length_map<const long&>
Chris@16 390 get(edge_length_t, const sgb_graph_ptr&) {
Chris@16 391 return sgb_edge_length_map<const long&>();
Chris@16 392 }
Chris@16 393 inline sgb_edge_length_map<const long&>
Chris@16 394 get(edge_length_t, const sgb_const_graph_ptr&) {
Chris@16 395 return sgb_edge_length_map<const long&>();
Chris@16 396 }
Chris@16 397 inline sgb_edge_length_map<long&>
Chris@16 398 get(edge_length_t, sgb_graph_ptr&) {
Chris@16 399 return sgb_edge_length_map<long&>();
Chris@16 400 }
Chris@16 401 inline long
Chris@16 402 get(edge_length_t, const sgb_graph_ptr&, const sgb_edge& key) {
Chris@16 403 return key._arc->len;
Chris@16 404 }
Chris@16 405 inline long
Chris@16 406 get(edge_length_t, const sgb_const_graph_ptr&, const sgb_edge& key) {
Chris@16 407 return key._arc->len;
Chris@16 408 }
Chris@16 409 inline void
Chris@16 410 put(edge_length_t, sgb_graph_ptr&, const sgb_edge& key, long value)
Chris@16 411 {
Chris@16 412 key._arc->len = value;
Chris@16 413 }
Chris@16 414
Chris@16 415 // Property Map Traits Classes
Chris@16 416 template <>
Chris@16 417 struct property_map<sgb_graph_ptr, edge_length_t> {
Chris@16 418 typedef sgb_edge_length_map<long&> type;
Chris@16 419 typedef sgb_edge_length_map<const long&> const_type;
Chris@16 420 };
Chris@16 421 template <>
Chris@16 422 struct property_map<sgb_graph_ptr, vertex_index_t> {
Chris@16 423 typedef sgb_vertex_id_map type;
Chris@16 424 typedef sgb_vertex_id_map const_type;
Chris@16 425 };
Chris@16 426 template <>
Chris@16 427 struct property_map<sgb_graph_ptr, vertex_name_t> {
Chris@16 428 typedef sgb_vertex_name_map type;
Chris@16 429 typedef sgb_vertex_name_map const_type;
Chris@16 430 };
Chris@16 431
Chris@16 432 template <>
Chris@16 433 struct property_map<sgb_const_graph_ptr, edge_length_t> {
Chris@16 434 typedef sgb_edge_length_map<const long&> const_type;
Chris@16 435 };
Chris@16 436 template <>
Chris@16 437 struct property_map<sgb_const_graph_ptr, vertex_index_t> {
Chris@16 438 typedef sgb_vertex_id_map const_type;
Chris@16 439 };
Chris@16 440 template <>
Chris@16 441 struct property_map<sgb_const_graph_ptr, vertex_name_t> {
Chris@16 442 typedef sgb_vertex_name_map const_type;
Chris@16 443 };
Chris@16 444
Chris@16 445
Chris@16 446 namespace detail {
Chris@16 447 template <class Kind, class PropertyTag>
Chris@16 448 struct sgb_choose_property_map { };
Chris@16 449 template <class PropertyTag>
Chris@16 450 struct sgb_choose_property_map<vertex_property_tag, PropertyTag> {
Chris@16 451 typedef typename PropertyTag::type value_type;
Chris@16 452 typedef sgb_vertex_util_map<PropertyTag, value_type&> type;
Chris@16 453 typedef sgb_vertex_util_map<PropertyTag, const value_type&> const_type;
Chris@16 454 };
Chris@16 455 template <class PropertyTag>
Chris@16 456 struct sgb_choose_property_map<edge_property_tag, PropertyTag> {
Chris@16 457 typedef typename PropertyTag::type value_type;
Chris@16 458 typedef sgb_edge_util_map<PropertyTag, value_type&> type;
Chris@16 459 typedef sgb_edge_util_map<PropertyTag, const value_type&> const_type;
Chris@16 460 };
Chris@16 461 } // namespace detail
Chris@16 462 template <class PropertyTag>
Chris@16 463 struct property_map<sgb_graph_ptr, PropertyTag> {
Chris@16 464 typedef typename property_kind<PropertyTag>::type Kind;
Chris@16 465 typedef detail::sgb_choose_property_map<Kind, PropertyTag> Choice;
Chris@16 466 typedef typename Choice::type type;
Chris@16 467 typedef typename Choice::const_type const_type;
Chris@16 468 };
Chris@16 469 template <class PropertyTag>
Chris@16 470 struct property_map<sgb_const_graph_ptr, PropertyTag> {
Chris@16 471 typedef typename property_kind<PropertyTag>::type Kind;
Chris@16 472 typedef detail::sgb_choose_property_map<Kind, PropertyTag> Choice;
Chris@16 473 typedef typename Choice::const_type const_type;
Chris@16 474 };
Chris@16 475
Chris@16 476 #define SGB_UTIL_ACCESSOR(KIND,X) \
Chris@16 477 template <class T> \
Chris@16 478 inline sgb_##KIND##_util_map< X##_property<T>, T&> \
Chris@16 479 get(X##_property<T>, sgb_graph_ptr&) { \
Chris@16 480 return sgb_##KIND##_util_map< X##_property<T>, T&>(); \
Chris@16 481 } \
Chris@16 482 template <class T> \
Chris@16 483 inline sgb_##KIND##_util_map< X##_property<T>, const T&> \
Chris@16 484 get(X##_property<T>, const sgb_graph_ptr&) { \
Chris@16 485 return sgb_##KIND##_util_map< X##_property<T>, const T&>(); \
Chris@16 486 } \
Chris@16 487 template <class T> \
Chris@16 488 inline sgb_##KIND##_util_map< X##_property<T>, const T&> \
Chris@16 489 get(X##_property<T>, const sgb_const_graph_ptr&) { \
Chris@16 490 return sgb_##KIND##_util_map< X##_property<T>, const T&>(); \
Chris@16 491 } \
Chris@16 492 template <class T, class Key> \
Chris@16 493 inline typename \
Chris@16 494 sgb_##KIND##_util_map< X##_property<T>, const T&>::value_type \
Chris@16 495 get(X##_property<T>, const sgb_graph_ptr&, const Key& key) { \
Chris@16 496 return sgb_##KIND##_util_map< X##_property<T>, const T&>()[key]; \
Chris@16 497 } \
Chris@16 498 template <class T, class Key> \
Chris@16 499 inline typename \
Chris@16 500 sgb_##KIND##_util_map< X##_property<T>, const T&>::value_type \
Chris@16 501 get(X##_property<T>, const sgb_const_graph_ptr&, const Key& key) { \
Chris@16 502 return sgb_##KIND##_util_map< X##_property<T>, const T&>()[key]; \
Chris@16 503 } \
Chris@16 504 template <class T, class Key, class Value> \
Chris@16 505 inline void \
Chris@16 506 put(X##_property<T>, sgb_graph_ptr&, const Key& key, const Value& value) { \
Chris@16 507 sgb_##KIND##_util_map< X##_property<T>, T&>()[key] = value; \
Chris@16 508 }
Chris@16 509
Chris@16 510
Chris@16 511 SGB_UTIL_ACCESSOR(vertex, u)
Chris@16 512 SGB_UTIL_ACCESSOR(vertex, v)
Chris@16 513 SGB_UTIL_ACCESSOR(vertex, w)
Chris@16 514 SGB_UTIL_ACCESSOR(vertex, x)
Chris@16 515 SGB_UTIL_ACCESSOR(vertex, y)
Chris@16 516 SGB_UTIL_ACCESSOR(vertex, z)
Chris@16 517
Chris@16 518 SGB_UTIL_ACCESSOR(edge, a)
Chris@16 519 SGB_UTIL_ACCESSOR(edge, b)
Chris@16 520
Chris@16 521 } // namespace boost
Chris@16 522
Chris@16 523 #endif // BOOST_GRAPH_SGB_GRAPH_HPP