Concept modification to resolve the item by its ID.
2 #ifndef LEMON_BIPARTITE_GRAPH_WRAPPER_H
3 #define LEMON_BIPARTITE_GRAPH_WRAPPER_H
7 ///\brief Several graph wrappers.
9 ///This file contains several useful graph wrapper functions.
11 ///\author Marton Makai
13 #include <lemon/invalid.h>
15 #include <lemon/graph_wrapper.h>
16 #include <for_each_macros.h>
20 /// \brief A wrapper for composing a bipartite graph from a graph
21 /// and from a node-map showing for any node which color class it belongs to.
23 /// A wrapper for composing a bipartite graph.
24 /// \c _graph have to be a reference to a graph of type \c Graph
25 /// and \c _s_false_t_true_map is an \c IterableBoolMap
26 /// reference containing the elements for the
27 /// color classes S and T. \c _graph is to be referred to an undirected
28 /// graph or a directed graph with edges oriented from S to T.
30 /// \author Marton Makai
31 template<typename Graph>
32 class BipartiteGraphWrapper : public GraphWrapper<Graph> {
34 typedef IterableBoolMap< typename Graph::template NodeMap<int> >
37 SFalseTTrueMap* s_false_t_true_map;
39 BipartiteGraphWrapper() : GraphWrapper<Graph>()/*,
40 S_CLASS(false), T_CLASS(true)*/ { }
41 void setSFalseTTrueMap(SFalseTTrueMap& _s_false_t_true_map) {
42 s_false_t_true_map=&_s_false_t_true_map;
47 //FIXME vhogy igy kellene, csak az en forditom nem eszi meg
48 static const bool S_CLASS;
49 static const bool T_CLASS;
51 /// This method is to reach the iterable maps of the bipartite graph or
52 /// bipartite graph wrapper.
53 const SFalseTTrueMap& sFalseTTrueMap() const {
54 return *s_false_t_true_map;
60 BipartiteGraphWrapper(Graph& _graph, SFalseTTrueMap& _s_false_t_true_map)
61 : GraphWrapper<Graph>(_graph),
62 s_false_t_true_map(&_s_false_t_true_map)/*,
63 S_CLASS(false), T_CLASS(true)*/ { }
64 typedef typename GraphWrapper<Graph>::Node Node;
65 //using GraphWrapper<Graph>::NodeIt;
66 typedef typename GraphWrapper<Graph>::Edge Edge;
67 //using GraphWrapper<Graph>::EdgeIt;
69 friend class ClassNodeIt;
71 friend class OutEdgeIt;
73 friend class InEdgeIt;
74 class ClassNodeIt : public Node {
75 friend class BipartiteGraphWrapper<Graph>;
77 const BipartiteGraphWrapper<Graph>* gw;
80 ClassNodeIt(Invalid i) : Node(i) { }
81 ClassNodeIt(const BipartiteGraphWrapper<Graph>& _gw, bool _class) :
83 _gw.s_false_t_true_map->first(*this, _class);
85 //FIXME needed in new concept, important here
86 ClassNodeIt(const BipartiteGraphWrapper<Graph>& _gw, const Node& n) :
88 ClassNodeIt& operator++() {
89 gw->s_false_t_true_map->next(*this);
97 // SNodeIt(const Invalid& i) : n(i) { }
98 // SNodeIt(const BipartiteGraphWrapper<Graph>& _G) {
99 // _G.s_false_t_true_map->first(n, false);
101 // operator Node() const { return n; }
107 // TNodeIt(const Invalid& i) : n(i) { }
108 // TNodeIt(const BipartiteGraphWrapper<Graph>& _G) {
109 // _G.s_false_t_true_map->first(n, true);
111 // operator Node() const { return n; }
114 // friend class BipartiteGraphWrapper<Graph>;
116 // typename Graph::OutEdgeIt e;
119 // OutEdgeIt(const Invalid& i) : e(i) { }
120 // OutEdgeIt(const BipartiteGraphWrapper<Graph>& _G, const Node& _n) {
121 // if (!(*(_G.s_false_t_true_map))[_n])
122 // e=typename Graph::OutEdgeIt(*(_G.graph), typename Graph::Node(_n));
126 // operator Edge() const { return Edge(typename Graph::Edge(e)); }
129 // friend class BipartiteGraphWrapper<Graph>;
131 // typename Graph::InEdgeIt e;
134 // InEdgeIt(const Invalid& i) : e(i) { }
135 // InEdgeIt(const BipartiteGraphWrapper<Graph>& _G, const Node& _n) {
136 // if ((*(_G.s_false_t_true_map))[_n])
137 // e=typename Graph::InEdgeIt(*(_G.graph), typename Graph::Node(_n));
141 // operator Edge() const { return Edge(typename Graph::Edge(e)); }
144 using GraphWrapper<Graph>::first;
145 ClassNodeIt& first(ClassNodeIt& n, bool _class) const {
146 n=ClassNodeIt(*this, _class); return n;
148 // SNodeIt& first(SNodeIt& n) const { n=SNodeIt(*this); return n; }
149 // TNodeIt& first(TNodeIt& n) const { n=TNodeIt(*this); return n; }
150 // OutEdgeIt& first(OutEdgeIt& i, const Node& p) const {
151 // i=OutEdgeIt(*this, p); return i;
153 // InEdgeIt& first(InEdgeIt& i, const Node& p) const {
154 // i=InEdgeIt(*this, p); return i;
157 // using GraphWrapper<Graph>::next;
158 // ClassNodeIt& next(ClassNodeIt& n) const {
159 // this->s_false_t_true_map->next(n.n); return n;
161 // SNodeIt& next(SNodeIt& n) const {
162 // this->s_false_t_true_map->next(n); return n;
164 // TNodeIt& next(TNodeIt& n) const {
165 // this->s_false_t_true_map->next(n); return n;
167 // OutEdgeIt& next(OutEdgeIt& i) const { this->graph->next(i.e); return i; }
168 // InEdgeIt& next(InEdgeIt& i) const { this->graph->next(i.e); return i; }
170 // Node source(const Edge& e) {
171 // if (!(*(this->s_false_t_true_map))[this->graph->source(e)])
172 // return Node(this->graph->source(e));
174 // return Node(this->graph->target(e));
176 // Node target(const Edge& e) {
177 // if (!(*(this->s_false_t_true_map))[this->graph->source(e)])
178 // return Node(this->graph->target(e));
180 // return Node(this->graph->source(e));
183 // Node aNode(const OutEdgeIt& e) const {
184 // return Node(this->graph->aNode(e.e));
186 // Node aNode(const InEdgeIt& e) const {
187 // return Node(this->graph->aNode(e.e));
189 // Node bNode(const OutEdgeIt& e) const {
190 // return Node(this->graph->bNode(e.e));
192 // Node bNode(const InEdgeIt& e) const {
193 // return Node(this->graph->bNode(e.e));
196 /// Returns true iff \c n is in S.
197 bool inSClass(const Node& n) const {
198 return !(*(this->s_false_t_true_map))[n];
201 /// Returns true iff \c n is in T.
202 bool inTClass(const Node& n) const {
203 return (*(this->s_false_t_true_map))[n];
209 const bool BipartiteGraphWrapper<G>::S_CLASS=false;
211 const bool BipartiteGraphWrapper<G>::T_CLASS=true;
213 /// \brief A bipartite graph template class
215 /// This class composes a bipartite graph over a directed or undirected
216 /// graph structure of type \c Graph.
217 /// \c _graph have to be a reference to a graph of type \c Graph
218 /// and \c _s_false_t_true_map is an \c IterableBoolMap
219 /// reference containing the elements for the
220 /// color classes S and T. \c _graph is to be referred to an undirected
221 /// graph or a directed graph with edges oriented from S to T.
223 ///\bug experimental. Do not use this while the bipartitemap augmentation
224 /// does not work well.
225 template<typename Graph>
226 class BipartiteGraph : public BipartiteGraphWrapper<Graph> {
227 // typedef IterableBoolMap< typename Graph::template NodeMap<int> >
229 typedef BipartiteGraphWrapper<Graph> Parent;
232 typename Graph::template NodeMap<int> bipartite_map;
233 typename Parent::SFalseTTrueMap s_false_t_true_map;
235 typedef typename Parent::Node Node;
236 typedef typename Parent::Edge Edge;
237 BipartiteGraph() : BipartiteGraphWrapper<Graph>(),
238 gr(), bipartite_map(gr, -1),
239 s_false_t_true_map(bipartite_map) {
240 Parent::setGraph(gr);
241 Parent::setSFalseTTrueMap(s_false_t_true_map);
244 /// the \c bool parameter which can be \c S_Class or \c T_Class shows
245 /// the color class where the new node is to be inserted.
246 Node addNode(bool b) {
247 Node n=Parent::graph->addNode();
248 bipartite_map.update();
249 //bipartite_map.set(n, -1);
250 s_false_t_true_map.insert(n, b);
254 /// A new edge is inserted.
255 ///\pre \c source have to be in \c S_Class and \c target in \c T_Class.
256 Edge addEdge(const Node& source, const Node& target) {
257 return Parent::graph->addEdge(source, target);
260 void erase(const Node& n) {
261 s_false_t_true_map.remove(n);
262 Parent::graph->erase(n);
264 void erase(const Edge& e) {
265 Parent::graph->erase(e);
269 FOR_EACH_LOC(typename Parent::EdgeIt, e, *this) erase(e);
270 FOR_EACH_LOC(typename Parent::NodeIt, n, *this) erase(n);
274 template<typename Graph, typename sIterableMap, typename tIterableMap>
275 class stGraphWrapper;
277 /// Easier stuff for bipartite graphs.
278 template<typename Graph>
279 class stBipartiteGraphWrapper : public
280 stGraphWrapper<Graph, typename Graph::SFalseTTrueMap,
281 typename Graph::SFalseTTrueMap> {
283 typedef stGraphWrapper<Graph, typename Graph::SFalseTTrueMap,
284 typename Graph::SFalseTTrueMap> Parent;
285 stBipartiteGraphWrapper(Graph& _graph) :
286 Parent(_graph, _graph.sFalseTTrueMap(), _graph.sFalseTTrueMap()) { }
289 // template<typename Graph>
291 // operator<<(std::ostream& os, const typename stGraphWrapper<Graph>::Node& i) {
292 // os << "(node: " << typename Graph::Node(i) << " spec: " << i.spec <<")";
295 // template<typename Graph>
297 // operator<<(std::ostream& os, const typename stGraphWrapper<Graph>::Edge& i) {
298 // os << "(edge: " << typename Graph::Edge(i) << " spec: " << i.spec <<
299 // " node: " << i.n << ")";
303 /// \brief A wrapper for adding extra nodes s and t to a bipartite graph
304 /// and edges from s to each node of S and form each node of T to t.
306 /// A wrapper for adding extra nodes s and t to a bipartite graph
307 /// and edges from s to each node of S and form each node of T to t.
308 /// This class is very useful to reduce some matching or more
309 /// generally, capacitataed b-matching problem to a flow problem.
310 /// According to the bipartite graph concepts the bipartite
311 /// graph have to be oriented from S to T.
313 /// \author Marton Makai
314 template<typename Graph, typename sIterableMap, typename tIterableMap>
315 class stGraphWrapper : public GraphWrapper<Graph> {
317 const sIterableMap* s_iterable_map;
318 const tIterableMap* t_iterable_map;
323 //0 normalis, 1 s, 2 t, ez az iteralasi sorrend,
324 //es a vege a false azaz (invalid, 3)
331 //0 normalis, 1 s->vmi, 2 vmi->t, ez a sorrend,
332 //invalid: (invalid, 3, invalid)
334 friend class OutEdgeIt;
336 //normalis pontbol (first, 0, invalid), ..., (invalid, 2, vmi), ... (invalid, 3, invalid)
337 //s-bol (invalid, 1, first), ... (invalid, 3, invalid)
338 //t-bol (invalid, 3, invalid)
340 friend class InEdgeIt;
342 //normalis pontbol (first, 0, invalid), ..., (invalid, 1, vmi), ... (invalid, 3, invalid)
343 //s-be (invalid, 3, invalid)
344 //t-be (invalid, 2, first), ... (invalid, 3, invalid)
347 //(first, 0, invalid) ...
350 //invalid, 3, invalid)
351 template <typename T> class NodeMap;
352 template <typename T> class EdgeMap;
354 // template <typename T> friend class NodeMap;
355 // template <typename T> friend class EdgeMap;
357 ///\todo FIXME ezt majd static-ra kell javitani
361 static const bool S_CLASS=false;
362 static const bool T_CLASS=true;
364 // \bug not too nice constructor.
365 stGraphWrapper(Graph& _graph,
366 const sIterableMap& _s_iterable_map,
367 const tIterableMap& _t_iterable_map) :
368 GraphWrapper<Graph>(_graph),
369 s_iterable_map(&_s_iterable_map),
370 t_iterable_map(&_t_iterable_map),
372 T_NODE(INVALID, 2) { }
376 // operator<<(std::ostream& os, const /*typename stGraphWrapper<Graph>::*/Node& i);
377 // friend std::ostream&
378 // operator<<(std::ostream& os, const /*typename stGraphWrapper<Graph>::*/Node& i);
379 // friend std::ostream&
380 // operator<<(std::ostream& os, const /*typename stGraphWrapper<Graph>::*/Edge& i);
382 class Node : public Graph::Node {
384 friend class GraphWrapper<Graph>;
385 friend class stGraphWrapper<Graph, sIterableMap, tIterableMap>;
386 template <typename T> friend class NodeMap;
388 friend class OutEdgeIt;
389 friend class InEdgeIt;
394 Node(const typename Graph::Node& _n, int _spec=0) :
395 Graph::Node(_n), spec(_spec) { }
396 Node(const Invalid& i) : Graph::Node(i), spec(3) { }
397 friend bool operator==(const Node& u, const Node& v) {
398 return (u.spec==v.spec &&
399 static_cast<typename Graph::Node>(u)==
400 static_cast<typename Graph::Node>(v));
402 friend bool operator!=(const Node& u, const Node& v) {
403 return (v.spec!=u.spec ||
404 static_cast<typename Graph::Node>(u)!=
405 static_cast<typename Graph::Node>(v));
407 // template<typename G>
408 // friend std::ostream&
409 // operator<<(std::ostream& os, const typename stGraphWrapper<G>::Node& i);
410 friend std::ostream& operator<< (std::ostream& os, const Node& i);
411 int getSpec() const { return spec; }
415 friend class GraphWrapper<Graph>;
416 friend class stGraphWrapper<Graph, sIterableMap, tIterableMap>;
417 typename Graph::NodeIt n;
421 NodeIt(const typename Graph::NodeIt& _n, int _spec) :
422 n(_n), spec(_spec) { }
423 NodeIt(const Invalid& i) : n(i), spec(3) { }
424 NodeIt(const stGraphWrapper<Graph, sIterableMap, tIterableMap>& _G)
425 : n(*(_G.graph)), spec(0) {
426 if (!_G.graph->valid(n)) spec=1;
428 operator Node() const { return Node(n, spec); }
431 class Edge : public Graph::Edge {
432 friend class GraphWrapper<Graph>;
433 friend class stGraphWrapper<Graph, sIterableMap, tIterableMap>;
434 template <typename T> friend class EdgeMap;
436 typename Graph::Node n;
439 Edge(const typename Graph::Edge& _e, int _spec,
440 const typename Graph::Node& _n) :
441 Graph::Edge(_e), spec(_spec), n(_n) {
443 Edge(const Invalid& i) : Graph::Edge(i), spec(3), n(i) { }
444 friend bool operator==(const Edge& u, const Edge& v) {
445 return (u.spec==v.spec &&
446 static_cast<typename Graph::Edge>(u)==
447 static_cast<typename Graph::Edge>(v) &&
450 friend bool operator!=(const Edge& u, const Edge& v) {
451 return (v.spec!=u.spec ||
452 static_cast<typename Graph::Edge>(u)!=
453 static_cast<typename Graph::Edge>(v) ||
456 // template<typename G>
457 // friend std::ostream&
458 // operator<<(std::ostream& os, const typename stGraphWrapper<G>::Edge& i);
459 friend std::ostream& operator<< (std::ostream& os, const Edge& i);
460 int getSpec() const { return spec; }
461 typename Graph::Node getNode() const { return n; }
465 friend class GraphWrapper<Graph>;
466 friend class stGraphWrapper<Graph, sIterableMap, tIterableMap>;
467 typename Graph::OutEdgeIt e;
469 typename Graph::ClassNodeIt n;
472 OutEdgeIt(const typename Graph::OutEdgeIt& _e, int _spec,
473 const typename Graph::ClassNodeIt& _n) :
474 e(_e), spec(_spec), n(_n) {
476 OutEdgeIt(const Invalid& i) : e(i), spec(3), n(i) { }
477 OutEdgeIt(const stGraphWrapper<Graph, sIterableMap, tIterableMap>& _G,
481 if (_G.graph->inSClass(_n)) { //S, van normalis kiel
482 e=typename Graph::OutEdgeIt(*(_G.graph),
483 typename Graph::Node(_n));
486 if (!_G.graph->valid(e)) spec=3;
487 } else { //T, specko kiel van
496 _G.graph->first(n, S_CLASS); //s->vmi;
497 if (!_G.graph->valid(n)) spec=3; //Ha S ures
506 operator Edge() const { return Edge(e, spec, n); }
510 friend class GraphWrapper<Graph>;
511 friend class stGraphWrapper<Graph, sIterableMap, tIterableMap>;
512 typename Graph::InEdgeIt e;
514 typename Graph::ClassNodeIt n;
517 InEdgeIt(const typename Graph::InEdgeIt& _e, int _spec,
518 const typename Graph::ClassNodeIt& _n) :
519 e(_e), spec(_spec), n(_n) {
521 InEdgeIt(const Invalid& i) : e(i), spec(3), n(i) { }
522 InEdgeIt(const stGraphWrapper<Graph, sIterableMap, tIterableMap>& _G,
526 if (_G.graph->inTClass(_n)) { //T, van normalis beel
527 e=typename Graph::InEdgeIt(*(_G.graph),
528 typename Graph::Node(_n));
531 if (!_G.graph->valid(e)) spec=3;
532 } else { //S, specko beel van
546 _G.graph->first(n, T_CLASS); //vmi->t;
547 if (!_G.graph->valid(n)) spec=3; //Ha T ures
551 operator Edge() const { return Edge(e, spec, n); }
555 friend class GraphWrapper<Graph>;
556 friend class stGraphWrapper<Graph, sIterableMap, tIterableMap>;
557 typename Graph::EdgeIt e;
559 typename Graph::ClassNodeIt n;
562 EdgeIt(const typename Graph::EdgeIt& _e, int _spec,
563 const typename Graph::ClassNodeIt& _n) :
564 e(_e), spec(_spec), n(_n) { }
565 EdgeIt(const Invalid& i) : e(i), spec(3), n(i) { }
566 EdgeIt(const stGraphWrapper<Graph, sIterableMap, tIterableMap>& _G) :
567 e(*(_G.graph)), spec(0), n(INVALID) {
568 if (!_G.graph->valid(e)) {
570 _G.graph->first(n, S_CLASS);
571 if (!_G.graph->valid(n)) { //Ha S ures
573 _G.graph->first(n, T_CLASS);
574 if (!_G.graph->valid(n)) { //Ha T ures
580 operator Edge() const { return Edge(e, spec, n); }
583 NodeIt& first(NodeIt& i) const {
584 i=NodeIt(*this); return i;
586 OutEdgeIt& first(OutEdgeIt& i, const Node& p) const {
587 i=OutEdgeIt(*this, p); return i;
589 InEdgeIt& first(InEdgeIt& i, const Node& p) const {
590 i=InEdgeIt(*this, p); return i;
592 EdgeIt& first(EdgeIt& i) const {
593 i=EdgeIt(*this); return i;
596 NodeIt& next(NodeIt& i) const {
599 this->graph->next(i.n);
600 if (!this->graph->valid(i.n)) {
613 OutEdgeIt& next(OutEdgeIt& i) const {
614 typename Graph::Node v;
616 case 0: //normal edge
617 v=this->graph->aNode(i.e);
618 this->graph->next(i.e);
619 if (!this->graph->valid(i.e)) { //Az igazi elek vegere ertunk
620 if (this->graph->inSClass(v)) { //S, nincs kiel
623 } else { //T, van kiel
630 this->graph->next(i.n);
631 if (!this->graph->valid(i.n)) i.spec=3;
640 InEdgeIt& next(InEdgeIt& i) const {
641 typename Graph::Node v;
643 case 0: //normal edge
644 v=this->graph->aNode(i.e);
645 this->graph->next(i.e);
646 if (!this->graph->valid(i.e)) { //Az igazi elek vegere ertunk
647 if (this->graph->inTClass(v)) { //S, nincs beel
650 } else { //S, van beel
661 this->graph->next(i.n);
662 if (!this->graph->valid(i.n)) i.spec=3;
668 EdgeIt& next(EdgeIt& i) const {
671 this->graph->next(i.e);
672 if (!this->graph->valid(i.e)) {
674 this->graph->first(i.n, S_CLASS);
675 if (!this->graph->valid(i.n)) {
677 this->graph->first(i.n, T_CLASS);
678 if (!this->graph->valid(i.n)) i.spec=3;
683 this->graph->next(i.n);
684 if (!this->graph->valid(i.n)) {
686 this->graph->first(i.n, T_CLASS);
687 if (!this->graph->valid(i.n)) i.spec=3;
691 this->graph->next(i.n);
692 if (!this->graph->valid(i.n)) i.spec=3;
698 Node source(const Edge& e) const {
701 return Node(this->graph->source(e));
712 Node target(const Edge& e) const {
715 return Node(this->graph->target(e));
727 bool valid(const Node& n) const { return (n.spec<3); }
728 bool valid(const Edge& e) const { return (e.spec<3); }
730 int nodeNum() const { return this->graph->nodeNum()+2; }
731 int edgeNum() const {
732 return this->graph->edgeNum()+this->graph->nodeNum();
735 Node aNode(const OutEdgeIt& e) const { return source(e); }
736 Node aNode(const InEdgeIt& e) const { return target(e); }
737 Node bNode(const OutEdgeIt& e) const { return target(e); }
738 Node bNode(const InEdgeIt& e) const { return source(e); }
740 void addNode() const { }
741 void addEdge() const { }
743 // Node addNode() const { return Node(this->graph->addNode()); }
744 // Edge addEdge(const Node& source, const Node& target) const {
745 // return Edge(this->graph->addEdge(source, target)); }
747 // void erase(const Node& i) const { this->graph->erase(i); }
748 // void erase(const Edge& i) const { this->graph->erase(i); }
750 // void clear() const { this->graph->clear(); }
752 template<typename T> class NodeMap : public GraphWrapper<Graph>::template NodeMap<T> {
753 typedef typename GraphWrapper<Graph>::template NodeMap<T> Parent;
757 NodeMap(const stGraphWrapper<Graph, sIterableMap, tIterableMap>& _G) :
761 NodeMap(const stGraphWrapper<Graph, sIterableMap, tIterableMap>& _G, T a)
765 T operator[](const Node& n) const {
768 return Parent::operator[](n);
776 void set(const Node& n, T t) {
779 GraphWrapper<Graph>::template NodeMap<T>::set(n, t);
792 /// This class is to wrap a node-map of \c Graph and two variables
793 /// storing values for \c S_NODE and \c T_NODE to a node-map of
794 /// stGraphWrapper<Graph, sIterableMap, tIterableMap>.
795 template<typename NM> class NodeMapWrapper {
798 typedef typename NM::Value Value;
801 Value* s_value, t_value;
803 NodeMapWrapper(NM& _nm, Value& _s_value, Value& _t_value) :
804 nm(&_nm), s_value(&_s_value), t_value(&_t_value) { }
805 Value operator[](const Node& n) const {
806 switch (n.getSpec()) {
816 void set(const Node& n, Value t) {
817 switch (n.getSpec()) {
833 class EdgeMap : public GraphWrapper<Graph>::template EdgeMap<T> {
834 typedef typename GraphWrapper<Graph>::template EdgeMap<T> Parent;
836 typename GraphWrapper<Graph>::template NodeMap<T> node_value;
838 EdgeMap(const stGraphWrapper<Graph, sIterableMap, tIterableMap>& _G)
841 EdgeMap(const stGraphWrapper<Graph, sIterableMap, tIterableMap>& _G, T a)
843 node_value(_G, a) { }
844 T operator[](const Edge& e) const {
847 return Parent::operator[](e);
849 return node_value[e.n];
852 return node_value[e.n];
855 void set(const Edge& e, T t) {
861 node_value.set(e.n, t);
865 node_value.set(e.n, t);
871 /// This class is to wrap an edge-map and a node-map of \c Graph
872 /// to an edge-map of stGraphWrapper<Graph, sIterableMap, tIterableMap>.
873 template<typename EM, typename NM>
874 class EdgeMapWrapper {
877 typedef typename EM::Value Value;
882 EdgeMapWrapper(EM& _em, NM& _nm) : em(&_em), nm(&_nm) { }
883 Value operator[](const Edge& e) const {
884 switch (e.getSpec()) {
888 return (*nm)[e.getNode()];
891 return (*nm)[e.getNode()];
894 void set(const Edge& e, Value t) {
895 switch (e.getSpec()) {
900 nm->set(e.getNode(), t);
904 nm->set(e.getNode(), t);
911 // template<typename G>
913 operator<<(std::ostream& os, const /*typename stGraphWrapper<Graph>::*/Node& i) {
914 os << "(node: " << typename Graph::Node(i) << " spec: " << i.spec <<")";
917 // template<typename G>
919 operator<<(std::ostream& os, const /*typename stGraphWrapper<Graph>::*/Edge& i) {
920 os << "(edge: " << typename Graph::Edge(i) << " spec: " << i.spec <<
921 " node: " << i.n << ")";
932 #endif //LEMON_BIPARTITE_GRAPH_WRAPPER_H