Changeset 1030:c8a41699e613 in lemon-0.x for src/lemon/concept/undir_graph.h
- Timestamp:
- 12/06/04 01:30:44 (20 years ago)
- Branch:
- default
- Phase:
- public
- Convert:
- svn:c9d7d8f5-90d6-0310-b91f-818b3a526b0e/lemon/trunk@1420
- File:
-
- 1 edited
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src/lemon/concept/undir_graph.h
r1022 r1030 18 18 */ 19 19 20 ///\ingroup concept20 ///\ingroup graph_concepts 21 21 ///\file 22 22 ///\brief Undirected graphs and components of. … … 31 31 namespace concept { 32 32 33 /// \todo to be done 33 /// \addtogroup graph_concepts 34 /// @{ 35 36 37 /// Skeleton class which describes an edge with direction in \ref 38 /// UndirGraph "undirected graph". 39 template <typename UndirEdge> 40 class UndirGraphEdge : public UndirEdge { 41 public: 42 43 /// \e 44 UndirGraphEdge() {} 45 46 /// \e 47 UndirGraphEdge(const UndirGraphEdge&) {} 48 49 /// \e 50 UndirGraphEdge(Invalid) {} 51 52 /// \brief Constructs a directed version of an undirected edge 53 /// 54 /// \param forward If \c true the direction of the contructed edge 55 /// is the same as the inherent direction of the \c undir_edge; if 56 /// \c false --- the opposite. 57 UndirGraphEdge(UndirEdge undir_edge, bool forward) { 58 ignore_unused_variable_warning(undir_edge); 59 ignore_unused_variable_warning(forward); 60 } 61 62 /// \e 63 UndirGraphEdge& operator=(UndirGraphEdge) { return *this; } 64 65 /// \e 66 bool operator==(UndirGraphEdge) const { return true; } 67 /// \e 68 bool operator!=(UndirGraphEdge) const { return false; } 69 70 /// \e 71 bool operator<(UndirGraphEdge) const { return false; } 72 73 template <typename Edge> 74 struct Constraints { 75 void constraints() { 76 /// \bug This should be is_base_and_derived ... 77 UndirEdge ue = e; 78 ue = e; 79 Edge forward(ue, true); 80 Edge backward(ue, false); 81 82 ignore_unused_variable_warning(forward); 83 ignore_unused_variable_warning(backward); 84 } 85 Edge e; 86 }; 87 }; 88 34 89 35 90 struct BaseIterableUndirGraphConcept { … … 44 99 void constraints() { 45 100 checkConcept<BaseIterableGraphComponent, Graph>(); 46 checkConcept<GraphItem<'u'>, UndirEdge >(); 47 48 /// \bug this should be base_and_derived: 49 UndirEdge ue = e; 50 ue = e; 51 101 checkConcept<GraphItem<>, UndirEdge>(); 102 checkConcept<UndirGraphEdge<UndirEdge>, Edge>(); 103 104 graph.first(ue); 105 graph.next(ue); 106 107 const_constraints(); 108 } 109 void const_constraints() { 52 110 Node n; 53 111 n = graph.target(ue); 54 112 n = graph.source(ue); 55 56 graph.first(ue); 57 graph.next(ue); 58 } 59 const Graph &graph; 113 n = graph.oppositeNode(n0, ue); 114 115 bool b; 116 b = graph.forward(e); 117 ignore_unused_variable_warning(b); 118 } 119 120 Graph graph; 60 121 Edge e; 122 Node n0; 123 UndirEdge ue; 61 124 }; 62 125 … … 77 140 typedef typename Graph::UndirEdge UndirEdge; 78 141 typedef typename Graph::UndirEdgeIt UndirEdgeIt; 79 typedef typename Graph:: UndirIncEdgeIt UndirIncEdgeIt;142 typedef typename Graph::IncEdgeIt IncEdgeIt; 80 143 81 144 checkConcept<GraphIterator<Graph, UndirEdge>, UndirEdgeIt>(); 82 checkConcept<GraphIncIterator<Graph, UndirEdge>, UndirIncEdgeIt>();145 checkConcept<GraphIncIterator<Graph, UndirEdge>, IncEdgeIt>(); 83 146 } 84 147 }; … … 146 209 }; 147 210 211 /// Class describing the concept of Undirected Graphs. 212 213 /// This class describes the common interface of all Undirected 214 /// Graphs. 215 /// 216 /// As all concept describing classes it provides only interface 217 /// without any sensible implementation. So any algorithm for 218 /// undirected graph should compile with this class, but it will not 219 /// run properly, of couse. 220 /// 221 /// In LEMON undirected graphs also fulfill the concept of directed 222 /// graphs (\ref lemon::concept::Graph "Graph Concept"). For 223 /// explanation of this and more see also the page \ref undir_graphs, 224 /// a tutorial about undirected graphs. 225 148 226 class UndirGraph { 149 227 public: 228 229 /// Type describing a node in the graph 230 typedef GraphNode Node; 231 232 /// Type describing an undirected edge 233 typedef GraphItem<'u'> UndirEdge; 234 235 /// Type describing an UndirEdge with direction 236 #ifndef DOXYGEN 237 typedef UndirGraphEdge<UndirEdge> Edge; 238 #else 239 typedef UndirGraphEdge Edge; 240 #endif 241 242 /// Iterator type which iterates over all nodes 243 #ifndef DOXYGEN 244 typedef GraphIterator<UndirGraph, Node> NodeIt; 245 #else 246 typedef GraphIterator NodeIt; 247 #endif 248 249 /// Iterator type which iterates over all undirected edges 250 #ifndef DOXYGEN 251 typedef GraphIterator<UndirGraph, UndirEdge> UndirEdgeIt; 252 #else 253 typedef GraphIterator UndirEdgeIt; 254 #endif 255 256 /// Iterator type which iterates over all directed edges. 257 258 /// Iterator type which iterates over all edges (each undirected 259 /// edge occurs twice with both directions. 260 #ifndef DOXYGEN 261 typedef GraphIterator<UndirGraph, Edge> EdgeIt; 262 #else 263 typedef GraphIterator EdgeIt; 264 #endif 265 266 267 /// Iterator of undirected edges incident to a node 268 #ifndef DOXYGEN 269 typedef GraphIncIterator<UndirGraph, UndirEdge, 'u'> IncEdgeIt; 270 #else 271 typedef GraphIncIterator IncEdgeIt; 272 #endif 273 274 /// Iterator of edges incoming to a node 275 #ifndef DOXYGEN 276 typedef GraphIncIterator<UndirGraph, Edge, 'i'> InEdgeIt; 277 #else 278 typedef GraphIncIterator InEdgeIt; 279 #endif 280 281 /// Iterator of edges outgoing from a node 282 #ifndef DOXYGEN 283 typedef GraphIncIterator<UndirGraph, Edge, 'o'> OutEdgeIt; 284 #else 285 typedef GraphIncIterator OutEdgeIt; 286 #endif 287 288 /// NodeMap template 289 #ifdef DOXYGEN 290 typedef GraphMap NodeMap<T>; 291 #endif 292 293 /// UndirEdgeMap template 294 #ifdef DOXYGEN 295 typedef GraphMap UndirEdgeMap<T>; 296 #endif 297 298 /// EdgeMap template 299 #ifdef DOXYGEN 300 typedef GraphMap EdgeMap<T>; 301 #endif 302 303 template <typename T> 304 class NodeMap : public GraphMap<UndirGraph, Node, T> { 305 typedef GraphMap<UndirGraph, Node, T> Parent; 306 public: 307 308 explicit NodeMap(const UndirGraph &g) : Parent(g) {} 309 NodeMap(const UndirGraph &g, T t) : Parent(g, t) {} 310 }; 311 312 template <typename T> 313 class UndirEdgeMap : public GraphMap<UndirGraph, UndirEdge, T> { 314 typedef GraphMap<UndirGraph, UndirEdge, T> Parent; 315 public: 316 317 explicit UndirEdgeMap(const UndirGraph &g) : Parent(g) {} 318 UndirEdgeMap(const UndirGraph &g, T t) : Parent(g, t) {} 319 }; 320 321 template <typename T> 322 class EdgeMap : public GraphMap<UndirGraph, Edge, T> { 323 typedef GraphMap<UndirGraph, Edge, T> Parent; 324 public: 325 326 explicit EdgeMap(const UndirGraph &g) : Parent(g) {} 327 EdgeMap(const UndirGraph &g, T t) : Parent(g, t) {} 328 }; 329 330 /// Is the Edge oriented "forward"? 331 332 /// Returns whether the given directed edge is same orientation as 333 /// the corresponding undirected edge. 334 /// 335 /// \todo "What does the direction of an undirected edge mean?" 336 bool forward(Edge) const { return true; } 337 338 /// Opposite node on an edge 339 340 /// \return the opposite of the given Node on the given Edge 341 /// 342 /// \todo What should we do if given Node and Edge are not incident? 343 Node oppositeNode(Node, UndirEdge) const { return INVALID; } 344 345 /// First node of the undirected edge. 346 347 /// \return the first node of the given UndirEdge. 348 /// 349 /// Naturally undirectected edges don't have direction and thus 350 /// don't have source and target node. But we use these two methods 351 /// to query the two endnodes of the edge. The direction of the edge 352 /// which arises this way is called the inherent direction of the 353 /// undirected edge, and is used to define the "forward" direction 354 /// of the directed versions of the edges. 355 /// \sa forward 356 Node source(UndirEdge) const { return INVALID; } 357 358 /// Second node of the undirected edge. 359 Node target(UndirEdge) const { return INVALID; } 360 361 /// Source node of the directed edge. 362 Node source(Edge) const { return INVALID; } 363 364 /// Target node of the directed edge. 365 Node target(Edge) const { return INVALID; } 366 367 /// First node of the graph 368 369 /// \note This method is part of so called \ref 370 /// developpers_interface "Developpers' interface", so it shouldn't 371 /// be used in an end-user program. 372 void first(Node&) const {} 373 /// Next node of the graph 374 375 /// \note This method is part of so called \ref 376 /// developpers_interface "Developpers' interface", so it shouldn't 377 /// be used in an end-user program. 378 void next(Node&) const {} 379 380 /// First undirected edge of the graph 381 382 /// \note This method is part of so called \ref 383 /// developpers_interface "Developpers' interface", so it shouldn't 384 /// be used in an end-user program. 385 void first(UndirEdge&) const {} 386 /// Next undirected edge of the graph 387 388 /// \note This method is part of so called \ref 389 /// developpers_interface "Developpers' interface", so it shouldn't 390 /// be used in an end-user program. 391 void next(UndirEdge&) const {} 392 393 /// First directed edge of the graph 394 395 /// \note This method is part of so called \ref 396 /// developpers_interface "Developpers' interface", so it shouldn't 397 /// be used in an end-user program. 398 void first(Edge&) const {} 399 /// Next directed edge of the graph 400 401 /// \note This method is part of so called \ref 402 /// developpers_interface "Developpers' interface", so it shouldn't 403 /// be used in an end-user program. 404 void next(Edge&) const {} 405 406 /// First outgoing edge from a given node 407 408 /// \note This method is part of so called \ref 409 /// developpers_interface "Developpers' interface", so it shouldn't 410 /// be used in an end-user program. 411 void firstOut(Edge&, Node) const {} 412 /// Next outgoing edge to a node 413 414 /// \note This method is part of so called \ref 415 /// developpers_interface "Developpers' interface", so it shouldn't 416 /// be used in an end-user program. 417 void nextOut(Edge&) const {} 418 419 /// First incoming edge to a given node 420 421 /// \note This method is part of so called \ref 422 /// developpers_interface "Developpers' interface", so it shouldn't 423 /// be used in an end-user program. 424 void firstIn(Edge&, Node) const {} 425 /// Next incoming edge to a node 426 427 /// \note This method is part of so called \ref 428 /// developpers_interface "Developpers' interface", so it shouldn't 429 /// be used in an end-user program. 430 void nextIn(Edge&) const {} 431 150 432 151 433 template <typename Graph> … … 191 473 }; 192 474 475 /// @} 476 193 477 } 194 478
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