src/work/marci/experiment/graph_wrapper_st_ostream_op.h
author deba
Sat, 09 Apr 2005 19:27:48 +0000
changeset 1330 52ef02524468
parent 921 818510fa3d99
permissions -rw-r--r--
Heap concept moved to namespace concept.
     1 // -*- c++ -*-
     2 #ifndef LEMON_GRAPH_WRAPPER_H
     3 #define LEMON_GRAPH_WRAPPER_H
     4 
     5 #include <invalid.h>
     6 #include <iter_map.h>
     7 
     8 namespace lemon {
     9 
    10   // Graph wrappers
    11 
    12   /// \addtogroup gwrappers
    13   /// A main parts of LEMON are the different graph structures, 
    14   /// generic graph algorithms, graph concepts which couple these, and 
    15   /// graph wrappers. While the previous ones are more or less clear, the 
    16   /// latter notion needs further explanation.
    17   /// Graph wrappers are graph classes which serve for considering graph 
    18   /// structures in different ways. A short example makes the notion much 
    19   /// clearer. 
    20   /// Suppose that we have an instance \c g of a directed graph
    21   /// type say \c ListGraph and an algorithm 
    22   /// \code template<typename Graph> int algorithm(const Graph&); \endcode 
    23   /// is needed to run on the reversely oriented graph. 
    24   /// It may be expensive (in time or in memory usage) to copy 
    25   /// \c g with the reverse orientation. 
    26   /// Thus, a wrapper class
    27   /// \code template<typename Graph> class RevGraphWrapper; \endcode is used. 
    28   /// The code looks as follows
    29   /// \code
    30   /// ListGraph g;
    31   /// RevGraphWrapper<ListGraph> rgw(g);
    32   /// int result=algorithm(rgw);
    33   /// \endcode
    34   /// After running the algorithm, the original graph \c g 
    35   /// remains untouched. Thus the graph wrapper used above is to consider the 
    36   /// original graph with reverse orientation. 
    37   /// This techniques gives rise to an elegant code, and 
    38   /// based on stable graph wrappers, complex algorithms can be 
    39   /// implemented easily. 
    40   /// In flow, circulation and bipartite matching problems, the residual 
    41   /// graph is of particular importance. Combining a wrapper implementing 
    42   /// this, shortest path algorithms and minimum mean cycle algorithms, 
    43   /// a range of weighted and cardinality optimization algorithms can be 
    44   /// obtained. For lack of space, for other examples, 
    45   /// the interested user is referred to the detailed documentation of graph 
    46   /// wrappers. 
    47   /// The behavior of graph wrappers can be very different. Some of them keep 
    48   /// capabilities of the original graph while in other cases this would be 
    49   /// meaningless. This means that the concepts that they are a model of depend 
    50   /// on the graph wrapper, and the wrapped graph(s). 
    51   /// If an edge of \c rgw is deleted, this is carried out by 
    52   /// deleting the corresponding edge of \c g. But for a residual 
    53   /// graph, this operation has no sense. 
    54   /// Let we stand one more example here to simplify your work. 
    55   /// wrapper class
    56   /// \code template<typename Graph> class RevGraphWrapper; \endcode 
    57   /// has constructor 
    58   /// <tt> RevGraphWrapper(Graph& _g)</tt>. 
    59   /// This means that in a situation, 
    60   /// when a <tt> const ListGraph& </tt> reference to a graph is given, 
    61   /// then it have to be instantiated with <tt>Graph=const ListGraph</tt>.
    62   /// \code
    63   /// int algorithm1(const ListGraph& g) {
    64   ///   RevGraphWrapper<const ListGraph> rgw(g);
    65   ///   return algorithm2(rgw);
    66   /// }
    67   /// \endcode
    68 
    69   /// \addtogroup gwrappers
    70   /// @{
    71 
    72   ///Base type for the Graph Wrappers
    73 
    74   ///This is the base type for the Graph Wrappers.
    75   ///\todo Some more docs...
    76 
    77   template<typename Graph>
    78   class GraphWrapper {
    79   protected:
    80     Graph* graph;
    81   
    82   public:
    83     typedef Graph BaseGraph;
    84     typedef Graph ParentGraph;
    85 
    86 //     GraphWrapper() : graph(0) { }
    87     GraphWrapper(Graph& _graph) : graph(&_graph) { }
    88 //     void setGraph(Graph& _graph) { graph=&_graph; }
    89 //     Graph& getGraph() const { return *graph; }
    90  
    91 //    typedef typename Graph::Node Node;
    92     class Node : public Graph::Node {
    93       friend class GraphWrapper<Graph>;
    94     public:
    95       Node() { }
    96       Node(const typename Graph::Node& _n) : Graph::Node(_n) { }
    97       Node(const Invalid& i) : Graph::Node(i) { }
    98     };
    99     class NodeIt { 
   100       friend class GraphWrapper<Graph>;
   101       typename Graph::NodeIt n;
   102      public:
   103       NodeIt() { }
   104       NodeIt(const typename Graph::NodeIt& _n) : n(_n) { }
   105       NodeIt(const Invalid& i) : n(i) { }
   106       NodeIt(const GraphWrapper<Graph>& _G) : n(*(_G.graph)) { }
   107       operator Node() const { return Node(typename Graph::Node(n)); }
   108     };
   109 //    typedef typename Graph::Edge Edge;
   110     class Edge : public Graph::Edge {
   111       friend class GraphWrapper<Graph>;
   112     public:
   113       Edge() { }
   114       Edge(const typename Graph::Edge& _e) : Graph::Edge(_e) { }
   115       Edge(const Invalid& i) : Graph::Edge(i) { }
   116     };
   117     class OutEdgeIt { 
   118       friend class GraphWrapper<Graph>;
   119       typename Graph::OutEdgeIt e;
   120     public:
   121       OutEdgeIt() { }
   122       OutEdgeIt(const typename Graph::OutEdgeIt& _e) : e(_e) { }
   123       OutEdgeIt(const Invalid& i) : e(i) { }
   124       OutEdgeIt(const GraphWrapper<Graph>& _G, const Node& _n) : 
   125 	e(*(_G.graph), typename Graph::Node(_n)) { }
   126       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   127     };
   128     class InEdgeIt { 
   129       friend class GraphWrapper<Graph>;
   130       typename Graph::InEdgeIt e;
   131     public:
   132       InEdgeIt() { }
   133       InEdgeIt(const typename Graph::InEdgeIt& _e) : e(_e) { }
   134       InEdgeIt(const Invalid& i) : e(i) { }
   135       InEdgeIt(const GraphWrapper<Graph>& _G, const Node& _n) : 
   136 	e(*(_G.graph), typename Graph::Node(_n)) { }
   137       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   138     };
   139     //typedef typename Graph::SymEdgeIt SymEdgeIt;
   140     class EdgeIt { 
   141       friend class GraphWrapper<Graph>;
   142       typename Graph::EdgeIt e;
   143     public:
   144       EdgeIt() { }
   145       EdgeIt(const typename Graph::EdgeIt& _e) : e(_e) { }
   146       EdgeIt(const Invalid& i) : e(i) { }
   147       EdgeIt(const GraphWrapper<Graph>& _G) : e(*(_G.graph)) { }
   148       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   149     };
   150    
   151     NodeIt& first(NodeIt& i) const { 
   152       i=NodeIt(*this); return i;
   153     }
   154     OutEdgeIt& first(OutEdgeIt& i, const Node& p) const { 
   155       i=OutEdgeIt(*this, p); return i;
   156     }
   157     InEdgeIt& first(InEdgeIt& i, const Node& p) const { 
   158       i=InEdgeIt(*this, p); return i;
   159     }
   160     EdgeIt& first(EdgeIt& i) const { 
   161       i=EdgeIt(*this); return i;
   162     }
   163 
   164     NodeIt& next(NodeIt& i) const { graph->next(i.n); return i; }
   165     OutEdgeIt& next(OutEdgeIt& i) const { graph->next(i.e); return i; }
   166     InEdgeIt& next(InEdgeIt& i) const { graph->next(i.e); return i; }
   167     EdgeIt& next(EdgeIt& i) const { graph->next(i.e); return i; }    
   168 
   169     Node source(const Edge& e) const { 
   170       return Node(graph->source(static_cast<typename Graph::Edge>(e))); }
   171     Node target(const Edge& e) const { 
   172       return Node(graph->target(static_cast<typename Graph::Edge>(e))); }
   173 
   174     bool valid(const Node& n) const { 
   175       return graph->valid(static_cast<typename Graph::Node>(n)); }
   176     bool valid(const Edge& e) const { 
   177       return graph->valid(static_cast<typename Graph::Edge>(e)); }
   178 
   179     int nodeNum() const { return graph->nodeNum(); }
   180     int edgeNum() const { return graph->edgeNum(); }
   181   
   182     Node aNode(const OutEdgeIt& e) const { return Node(graph->aNode(e.e)); }
   183     Node aNode(const InEdgeIt& e) const { return Node(graph->aNode(e.e)); }
   184     Node bNode(const OutEdgeIt& e) const { return Node(graph->bNode(e.e)); }
   185     Node bNode(const InEdgeIt& e) const { return Node(graph->bNode(e.e)); }
   186   
   187     Node addNode() const { return Node(graph->addNode()); }
   188     Edge addEdge(const Node& source, const Node& target) const { 
   189       return Edge(graph->addEdge(source, target)); }
   190 
   191     void erase(const Node& i) const { graph->erase(i); }
   192     void erase(const Edge& i) const { graph->erase(i); }
   193   
   194     void clear() const { graph->clear(); }
   195     
   196     template<typename T> class NodeMap : public Graph::template NodeMap<T> { 
   197       typedef typename Graph::template NodeMap<T> Parent;
   198     public:
   199       NodeMap(const GraphWrapper<Graph>& _G) :  Parent(*(_G.graph)) { }
   200       NodeMap(const GraphWrapper<Graph>& _G, T a) : Parent(*(_G.graph), a) { }
   201     };
   202 
   203     template<typename T> class EdgeMap : public Graph::template EdgeMap<T> { 
   204       typedef typename Graph::template EdgeMap<T> Parent;
   205     public:
   206       EdgeMap(const GraphWrapper<Graph>& _G) : Parent(*(_G.graph)) { }
   207       EdgeMap(const GraphWrapper<Graph>& _G, T a) : Parent(*(_G.graph), a) { }
   208     };
   209   };
   210 
   211   /// A graph wrapper which reverses the orientation of the edges.
   212 
   213   /// A graph wrapper which reverses the orientation of the edges.
   214   template<typename Graph>
   215   class RevGraphWrapper : public GraphWrapper<Graph> {
   216   public:
   217 
   218     RevGraphWrapper(Graph& _graph) : GraphWrapper<Graph>(_graph) { }  
   219 
   220     typedef typename GraphWrapper<Graph>::Node Node;
   221     typedef typename GraphWrapper<Graph>::Edge Edge;
   222     //If Graph::OutEdgeIt is not defined
   223     //and we do not want to use RevGraphWrapper::InEdgeIt,
   224     //the typdef techinque does not work.
   225     //Unfortunately all the typedefs are instantiated in templates.
   226     //typedef typename GraphWrapper<Graph>::OutEdgeIt InEdgeIt;
   227     //typedef typename GraphWrapper<Graph>::InEdgeIt OutEdgeIt;
   228 
   229     class OutEdgeIt { 
   230       friend class GraphWrapper<Graph>;
   231       friend class RevGraphWrapper<Graph>;
   232       typename Graph::InEdgeIt e;
   233     public:
   234       OutEdgeIt() { }
   235       OutEdgeIt(const typename Graph::InEdgeIt& _e) : e(_e) { }
   236       OutEdgeIt(const Invalid& i) : e(i) { }
   237       OutEdgeIt(const RevGraphWrapper<Graph>& _G, const Node& _n) : 
   238 	e(*(_G.graph), typename Graph::Node(_n)) { }
   239       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   240     };
   241     class InEdgeIt { 
   242       friend class GraphWrapper<Graph>;
   243       friend class RevGraphWrapper<Graph>;
   244       typename Graph::OutEdgeIt e;
   245     public:
   246       InEdgeIt() { }
   247       InEdgeIt(const typename Graph::OutEdgeIt& _e) : e(_e) { }
   248       InEdgeIt(const Invalid& i) : e(i) { }
   249       InEdgeIt(const RevGraphWrapper<Graph>& _G, const Node& _n) : 
   250 	e(*(_G.graph), typename Graph::Node(_n)) { }
   251       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   252     };
   253 
   254     using GraphWrapper<Graph>::first;
   255     OutEdgeIt& first(OutEdgeIt& i, const Node& p) const { 
   256       i=OutEdgeIt(*this, p); return i;
   257     }
   258     InEdgeIt& first(InEdgeIt& i, const Node& p) const { 
   259       i=InEdgeIt(*this, p); return i;
   260     }
   261 
   262     using GraphWrapper<Graph>::next;
   263     OutEdgeIt& next(OutEdgeIt& i) const { this->graph->next(i.e); return i; }
   264     InEdgeIt& next(InEdgeIt& i) const { this->graph->next(i.e); return i; }
   265 
   266     Node aNode(const OutEdgeIt& e) const { 
   267       return Node(this->graph->aNode(e.e)); }
   268     Node aNode(const InEdgeIt& e) const { 
   269       return Node(this->graph->aNode(e.e)); }
   270     Node bNode(const OutEdgeIt& e) const { 
   271       return Node(this->graph->bNode(e.e)); }
   272     Node bNode(const InEdgeIt& e) const { 
   273       return Node(this->graph->bNode(e.e)); }
   274 
   275     Node source(const Edge& e) const { 
   276       return GraphWrapper<Graph>::target(e); }
   277     Node target(const Edge& e) const { 
   278       return GraphWrapper<Graph>::source(e); }
   279 
   280   };
   281 
   282   /// Wrapper for hiding nodes and edges from a graph.
   283   
   284   /// This wrapper shows a graph with filtered node-set and 
   285   /// edge-set. The quick brown fox iterator jumps over 
   286   /// the lazy dog nodes or edges if the values for them are false 
   287   /// in the bool maps. 
   288   template<typename Graph, typename NodeFilterMap, 
   289 	   typename EdgeFilterMap>
   290   class SubGraphWrapper : public GraphWrapper<Graph> {
   291   protected:
   292     NodeFilterMap* node_filter_map;
   293     EdgeFilterMap* edge_filter_map;
   294   public:
   295 
   296     SubGraphWrapper(Graph& _graph, NodeFilterMap& _node_filter_map, 
   297 		    EdgeFilterMap& _edge_filter_map) : 
   298       GraphWrapper<Graph>(_graph), node_filter_map(&_node_filter_map), 
   299       edge_filter_map(&_edge_filter_map) { }  
   300 
   301     typedef typename GraphWrapper<Graph>::Node Node;
   302     class NodeIt { 
   303       friend class GraphWrapper<Graph>;
   304       friend class SubGraphWrapper<Graph, NodeFilterMap, EdgeFilterMap>;
   305       typename Graph::NodeIt n;
   306      public:
   307       NodeIt() { }
   308       NodeIt(const typename Graph::NodeIt& _n) : n(_n) { }
   309       NodeIt(const Invalid& i) : n(i) { }
   310       NodeIt(const SubGraphWrapper<Graph, NodeFilterMap, EdgeFilterMap>& _G) : 
   311 	n(*(_G.graph)) { 
   312 	while (_G.graph->valid(n) && !(*(_G.node_filter_map))[n]) 
   313 	  _G.graph->next(n);
   314       }
   315       operator Node() const { return Node(typename Graph::Node(n)); }
   316     };
   317     typedef typename GraphWrapper<Graph>::Edge Edge;
   318     class OutEdgeIt { 
   319       friend class GraphWrapper<Graph>;
   320       friend class SubGraphWrapper<Graph, NodeFilterMap, EdgeFilterMap>;
   321       typename Graph::OutEdgeIt e;
   322     public:
   323       OutEdgeIt() { }
   324       OutEdgeIt(const typename Graph::OutEdgeIt& _e) : e(_e) { }
   325       OutEdgeIt(const Invalid& i) : e(i) { }
   326       OutEdgeIt(const SubGraphWrapper<Graph, NodeFilterMap, EdgeFilterMap>& _G, 
   327 		const Node& _n) : 
   328 	e(*(_G.graph), typename Graph::Node(_n)) { 
   329       	while (_G.graph->valid(e) && !(*(_G.edge_filter_map))[e]) 
   330 	  _G.graph->next(e);
   331       }
   332       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   333     };
   334     class InEdgeIt { 
   335       friend class GraphWrapper<Graph>;
   336       friend class SubGraphWrapper<Graph, NodeFilterMap, EdgeFilterMap>;
   337       typename Graph::InEdgeIt e;
   338     public:
   339       InEdgeIt() { }
   340       InEdgeIt(const typename Graph::InEdgeIt& _e) : e(_e) { }
   341       InEdgeIt(const Invalid& i) : e(i) { }
   342       InEdgeIt(const SubGraphWrapper<Graph, NodeFilterMap, EdgeFilterMap>& _G, 
   343 	       const Node& _n) : 
   344 	e(*(_G.graph), typename Graph::Node(_n)) { 
   345       	while (_G.graph->valid(e) && !(*(_G.edge_filter_map))[e]) 
   346 	  _G.graph->next(e);
   347       }
   348       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   349     };
   350     //typedef typename Graph::SymEdgeIt SymEdgeIt;
   351     class EdgeIt { 
   352       friend class GraphWrapper<Graph>;
   353       friend class SubGraphWrapper<Graph, NodeFilterMap, EdgeFilterMap>;
   354       typename Graph::EdgeIt e;
   355     public:
   356       EdgeIt() { }
   357       EdgeIt(const typename Graph::EdgeIt& _e) : e(_e) { }
   358       EdgeIt(const Invalid& i) : e(i) { }
   359       EdgeIt(const SubGraphWrapper<Graph, NodeFilterMap, EdgeFilterMap>& _G) : 
   360 	e(*(_G.graph)) { 
   361       	while (_G.graph->valid(e) && !(*(_G.edge_filter_map))[e]) 
   362 	  _G.graph->next(e);
   363       }
   364       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   365     };
   366 
   367     NodeIt& first(NodeIt& i) const { 
   368       i=NodeIt(*this); return i;
   369     }
   370     OutEdgeIt& first(OutEdgeIt& i, const Node& p) const { 
   371       i=OutEdgeIt(*this, p); return i;
   372     }
   373     InEdgeIt& first(InEdgeIt& i, const Node& p) const { 
   374       i=InEdgeIt(*this, p); return i;
   375     }
   376     EdgeIt& first(EdgeIt& i) const { 
   377       i=EdgeIt(*this); return i;
   378     }
   379     
   380     NodeIt& next(NodeIt& i) const {
   381       this->graph->next(i.n); 
   382       while (this->graph->valid(i) && !(*node_filter_map)[i.n]) { 
   383 	this->graph->next(i.n); }
   384       return i;
   385     }
   386     OutEdgeIt& next(OutEdgeIt& i) const {
   387       this->graph->next(i.e); 
   388       while (this->graph->valid(i) && !(*edge_filter_map)[i.e]) { 
   389 	this->graph->next(i.e); }
   390       return i;
   391     }
   392     InEdgeIt& next(InEdgeIt& i) const {
   393       this->graph->next(i.e); 
   394       while (this->graph->valid(i) && !(*edge_filter_map)[i.e]) { 
   395 	this->graph->next(i.e); }
   396       return i;
   397     }
   398     EdgeIt& next(EdgeIt& i) const {
   399       this->graph->next(i.e); 
   400       while (this->graph->valid(i) && !(*edge_filter_map)[i.e]) { 
   401 	this->graph->next(i.e); }
   402       return i;
   403     }
   404 
   405     Node aNode(const OutEdgeIt& e) const { 
   406       return Node(this->graph->aNode(e.e)); }
   407     Node aNode(const InEdgeIt& e) const { 
   408       return Node(this->graph->aNode(e.e)); }
   409     Node bNode(const OutEdgeIt& e) const { 
   410       return Node(this->graph->bNode(e.e)); }
   411     Node bNode(const InEdgeIt& e) const { 
   412       return Node(this->graph->bNode(e.e)); }
   413 
   414     ///\todo
   415     ///Some doki, please.
   416     void hide(const Node& n) const { node_filter_map->set(n, false); }
   417     ///\todo
   418     ///Some doki, please.
   419     void hide(const Edge& e) const { edge_filter_map->set(e, false); }
   420 
   421     ///\todo
   422     ///Some doki, please.
   423     void unHide(const Node& n) const { node_filter_map->set(n, true); }
   424     ///\todo
   425     ///Some doki, please.
   426     void unHide(const Edge& e) const { edge_filter_map->set(e, true); }
   427 
   428     ///\todo
   429     ///Some doki, please.
   430     bool hidden(const Node& n) const { return (*node_filter_map)[n]; }
   431     ///\todo
   432     ///Some doki, please.
   433     bool hidden(const Edge& e) const { return (*edge_filter_map)[e]; }
   434   };
   435 
   436   /// A wrapper for forgetting the orientation of a graph.
   437 
   438   /// A wrapper for getting an undirected graph by forgetting
   439   /// the orientation of a directed one.
   440   template<typename Graph>
   441   class UndirGraphWrapper : public GraphWrapper<Graph> {
   442   public:
   443     typedef typename GraphWrapper<Graph>::Node Node;
   444     typedef typename GraphWrapper<Graph>::NodeIt NodeIt;
   445     typedef typename GraphWrapper<Graph>::Edge Edge;
   446     typedef typename GraphWrapper<Graph>::EdgeIt EdgeIt;
   447 
   448     UndirGraphWrapper(Graph& _graph) : GraphWrapper<Graph>(_graph) { }  
   449 
   450     class OutEdgeIt {
   451       friend class UndirGraphWrapper<Graph>;
   452       bool out_or_in; //true iff out
   453       typename Graph::OutEdgeIt out;
   454       typename Graph::InEdgeIt in;
   455     public:
   456       OutEdgeIt() { }
   457       OutEdgeIt(const Invalid& i) : Edge(i) { }
   458       OutEdgeIt(const UndirGraphWrapper<Graph>& _G, const Node& _n) {
   459 	out_or_in=true; _G.graph->first(out, _n);
   460 	if (!(_G.graph->valid(out))) { out_or_in=false; _G.graph->first(in, _n);	}
   461       } 
   462       operator Edge() const { 
   463 	if (out_or_in) return Edge(out); else return Edge(in); 
   464       }
   465     };
   466 
   467 //FIXME InEdgeIt
   468     typedef OutEdgeIt InEdgeIt; 
   469 
   470     using GraphWrapper<Graph>::first;
   471 //     NodeIt& first(NodeIt& i) const { 
   472 //       i=NodeIt(*this); return i;
   473 //     }
   474     OutEdgeIt& first(OutEdgeIt& i, const Node& p) const { 
   475       i=OutEdgeIt(*this, p); return i;
   476     }
   477 //FIXME
   478 //     InEdgeIt& first(InEdgeIt& i, const Node& p) const { 
   479 //       i=InEdgeIt(*this, p); return i;
   480 //     }
   481 //     EdgeIt& first(EdgeIt& i) const { 
   482 //       i=EdgeIt(*this); return i;
   483 //     }
   484 
   485     using GraphWrapper<Graph>::next;
   486 //     NodeIt& next(NodeIt& n) const {
   487 //       GraphWrapper<Graph>::next(n);
   488 //       return n;
   489 //     }
   490     OutEdgeIt& next(OutEdgeIt& e) const {
   491       if (e.out_or_in) {
   492 	typename Graph::Node n=this->graph->source(e.out);
   493 	this->graph->next(e.out);
   494 	if (!this->graph->valid(e.out)) { 
   495 	  e.out_or_in=false; this->graph->first(e.in, n); }
   496       } else {
   497 	this->graph->next(e.in);
   498       }
   499       return e;
   500     }
   501     //FIXME InEdgeIt
   502 //     EdgeIt& next(EdgeIt& e) const {
   503 //       GraphWrapper<Graph>::next(n);
   504 // //      graph->next(e.e);
   505 //       return e;
   506 //     }
   507 
   508     Node aNode(const OutEdgeIt& e) const { 
   509       if (e.out_or_in) return this->graph->source(e); else 
   510 	return this->graph->target(e); }
   511     Node bNode(const OutEdgeIt& e) const { 
   512       if (e.out_or_in) return this->graph->target(e); else 
   513 	return this->graph->source(e); }
   514   };
   515   
   516   /// A wrapper for composing the residual graph for directed flow and circulation problems.
   517 
   518   /// A wrapper for composing the residual graph for directed flow and circulation problems.
   519   template<typename Graph, typename Number, 
   520 	   typename CapacityMap, typename FlowMap>
   521   class ResGraphWrapper : public GraphWrapper<Graph> {
   522   protected:
   523     const CapacityMap* capacity;
   524     FlowMap* flow;
   525   public:
   526 
   527     ResGraphWrapper(Graph& _graph, const CapacityMap& _capacity, 
   528 		    FlowMap& _flow) : 
   529       GraphWrapper<Graph>(_graph), capacity(&_capacity), flow(&_flow) { }
   530 
   531     class Edge; 
   532     class OutEdgeIt; 
   533     friend class Edge; 
   534     friend class OutEdgeIt; 
   535 
   536     typedef typename GraphWrapper<Graph>::Node Node;
   537     typedef typename GraphWrapper<Graph>::NodeIt NodeIt;
   538     class Edge : public Graph::Edge {
   539       friend class ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>;
   540     protected:
   541       bool forward; //true, iff forward
   542 //      typename Graph::Edge e;
   543     public:
   544       Edge() { }
   545       Edge(const typename Graph::Edge& _e, bool _forward) : 
   546 	Graph::Edge(_e), forward(_forward) { }
   547       Edge(const Invalid& i) : Graph::Edge(i), forward(false) { }
   548 //the unique invalid iterator
   549       friend bool operator==(const Edge& u, const Edge& v) { 
   550 	return (v.forward==u.forward && 
   551 		static_cast<typename Graph::Edge>(u)==
   552 		static_cast<typename Graph::Edge>(v));
   553       } 
   554       friend bool operator!=(const Edge& u, const Edge& v) { 
   555 	return (v.forward!=u.forward || 
   556 		static_cast<typename Graph::Edge>(u)!=
   557 		static_cast<typename Graph::Edge>(v));
   558       } 
   559     };
   560 
   561     class OutEdgeIt {
   562       friend class ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>;
   563     protected:
   564       typename Graph::OutEdgeIt out;
   565       typename Graph::InEdgeIt in;
   566       bool forward;
   567     public:
   568       OutEdgeIt() { }
   569       //FIXME
   570 //      OutEdgeIt(const Edge& e) : Edge(e) { }
   571       OutEdgeIt(const Invalid& i) : out(i), in(i), forward(false) { }
   572 //the unique invalid iterator
   573       OutEdgeIt(const ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>& resG, Node v) { 
   574 	forward=true;
   575 	resG.graph->first(out, v);
   576 	while( resG.graph->valid(out) && !(resG.resCap(*this)>0) ) { resG.graph->next(out); }
   577 	if (!resG.graph->valid(out)) {
   578 	  forward=false;
   579 	  resG.graph->first(in, v);
   580 	  while( resG.graph->valid(in) && !(resG.resCap(*this)>0) ) { resG.graph->next(in); }
   581 	}
   582       }
   583       operator Edge() const { 
   584 //	Edge e;
   585 //	e.forward=this->forward;
   586 //	if (this->forward) e=out; else e=in;
   587 //	return e;
   588 	if (this->forward) 
   589 	  return Edge(out, this->forward); 
   590 	else 
   591 	  return Edge(in, this->forward);
   592       }
   593     };
   594 
   595     class InEdgeIt {
   596       friend class ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>;
   597     protected:
   598       typename Graph::OutEdgeIt out;
   599       typename Graph::InEdgeIt in;
   600       bool forward;
   601     public:
   602       InEdgeIt() { }
   603       //FIXME
   604 //      OutEdgeIt(const Edge& e) : Edge(e) { }
   605       InEdgeIt(const Invalid& i) : out(i), in(i), forward(false) { }
   606 //the unique invalid iterator
   607       InEdgeIt(const ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>& resG, Node v) { 
   608 	forward=true;
   609 	resG.graph->first(in, v);
   610 	while( resG.graph->valid(in) && !(resG.resCap(*this)>0) ) { resG.graph->next(in); }
   611 	if (!resG.graph->valid(in)) {
   612 	  forward=false;
   613 	  resG.graph->first(out, v);
   614 	  while( resG.graph->valid(out) && !(resG.resCap(*this)>0) ) { resG.graph->next(out); }
   615 	}
   616       }
   617       operator Edge() const { 
   618 //	Edge e;
   619 //	e.forward=this->forward;
   620 //	if (this->forward) e=out; else e=in;
   621 //	return e;
   622 	if (this->forward) 
   623 	  return Edge(in, this->forward); 
   624 	else 
   625 	  return Edge(out, this->forward);
   626       }
   627     };
   628 
   629     class EdgeIt {
   630       friend class ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>;
   631     protected:
   632       typename Graph::EdgeIt e;
   633       bool forward;
   634     public:
   635       EdgeIt() { }
   636       EdgeIt(const Invalid& i) : e(i), forward(false) { }
   637       EdgeIt(const ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>& resG) { 
   638 	forward=true;
   639 	resG.graph->first(e);
   640 	while (resG.graph->valid(e) && !(resG.resCap(*this)>0)) resG.graph->next(e);
   641 	if (!resG.graph->valid(e)) {
   642 	  forward=false;
   643 	  resG.graph->first(e);
   644 	  while (resG.graph->valid(e) && !(resG.resCap(*this)>0)) resG.graph->next(e);
   645 	}
   646       }
   647       operator Edge() const { 
   648 	return Edge(e, this->forward);
   649       }
   650     };
   651 
   652     using GraphWrapper<Graph>::first;
   653 //     NodeIt& first(NodeIt& i) const { 
   654 //       i=NodeIt(*this); return i;
   655 //     }
   656     OutEdgeIt& first(OutEdgeIt& i, const Node& p) const { 
   657       i=OutEdgeIt(*this, p); return i;
   658     }
   659 //    FIXME not tested
   660     InEdgeIt& first(InEdgeIt& i, const Node& p) const { 
   661       i=InEdgeIt(*this, p); return i;
   662     }
   663     EdgeIt& first(EdgeIt& i) const { 
   664       i=EdgeIt(*this); return i;
   665     }
   666   
   667     using GraphWrapper<Graph>::next;
   668 //    NodeIt& next(NodeIt& n) const { GraphWrapper<Graph>::next(n); return n; }
   669     OutEdgeIt& next(OutEdgeIt& e) const { 
   670       if (e.forward) {
   671 	Node v=this->graph->aNode(e.out);
   672 	this->graph->next(e.out);
   673 	while( this->graph->valid(e.out) && !(resCap(e)>0) ) { 
   674 	  this->graph->next(e.out); }
   675 	if (!this->graph->valid(e.out)) {
   676 	  e.forward=false;
   677 	  this->graph->first(e.in, v); 
   678 	  while( this->graph->valid(e.in) && !(resCap(e)>0) ) { 
   679 	    this->graph->next(e.in); }
   680 	}
   681       } else {
   682 	this->graph->next(e.in);
   683 	while( this->graph->valid(e.in) && !(resCap(e)>0) ) { 
   684 	  this->graph->next(e.in); } 
   685       }
   686       return e;
   687     }
   688 //     FIXME Not tested
   689     InEdgeIt& next(InEdgeIt& e) const { 
   690       if (e.forward) {
   691 	Node v=this->graph->aNode(e.in);
   692 	this->graph->next(e.in);
   693 	while( this->graph->valid(e.in) && !(resCap(e)>0) ) { 
   694 	  this->graph->next(e.in); }
   695 	if (!this->graph->valid(e.in)) {
   696 	  e.forward=false;
   697 	  this->graph->first(e.out, v); 
   698 	  while( this->graph->valid(e.out) && !(resCap(e)>0) ) { 
   699 	    this->graph->next(e.out); }
   700 	}
   701       } else {
   702 	this->graph->next(e.out);
   703 	while( this->graph->valid(e.out) && !(resCap(e)>0) ) { 
   704 	  this->graph->next(e.out); } 
   705       }
   706       return e;
   707     }
   708     EdgeIt& next(EdgeIt& e) const {
   709       if (e.forward) {
   710 	this->graph->next(e.e);
   711 	while( this->graph->valid(e.e) && !(resCap(e)>0) ) { 
   712 	  this->graph->next(e.e); }
   713 	if (!this->graph->valid(e.e)) {
   714 	  e.forward=false;
   715 	  this->graph->first(e.e); 
   716 	  while( this->graph->valid(e.e) && !(resCap(e)>0) ) { 
   717 	    this->graph->next(e.e); }
   718 	}
   719       } else {
   720 	this->graph->next(e.e);
   721 	while( this->graph->valid(e.e) && !(resCap(e)>0) ) { 
   722 	  this->graph->next(e.e); } 
   723       }
   724       return e;
   725     }
   726 
   727     Node source(Edge e) const { 
   728       return ((e.forward) ? this->graph->source(e) : this->graph->target(e)); }
   729     Node target(Edge e) const { 
   730       return ((e.forward) ? this->graph->target(e) : this->graph->source(e)); }
   731 
   732     Node aNode(OutEdgeIt e) const { 
   733       return ((e.forward) ? this->graph->aNode(e.out) : 
   734 	      this->graph->aNode(e.in)); }
   735     Node bNode(OutEdgeIt e) const { 
   736       return ((e.forward) ? this->graph->bNode(e.out) : 
   737 	      this->graph->bNode(e.in)); }
   738 
   739     Node aNode(InEdgeIt e) const { 
   740       return ((e.forward) ? this->graph->aNode(e.in) : 
   741 	      this->graph->aNode(e.out)); }
   742     Node bNode(InEdgeIt e) const { 
   743       return ((e.forward) ? this->graph->bNode(e.in) : 
   744 	      this->graph->bNode(e.out)); }
   745 
   746 //    int nodeNum() const { return graph->nodeNum(); }
   747     //FIXME
   748     void edgeNum() const { }
   749     //int edgeNum() const { return graph->edgeNum(); }
   750 
   751 
   752 //    int id(Node v) const { return graph->id(v); }
   753 
   754     bool valid(Node n) const { return GraphWrapper<Graph>::valid(n); }
   755     bool valid(Edge e) const { 
   756       return this->graph->valid(e);
   757 	//return e.forward ? graph->valid(e.out) : graph->valid(e.in); 
   758     }
   759 
   760     void augment(const Edge& e, Number a) const {
   761       if (e.forward)  
   762 // 	flow->set(e.out, flow->get(e.out)+a);
   763 	flow->set(e, (*flow)[e]+a);
   764       else  
   765 // 	flow->set(e.in, flow->get(e.in)-a);
   766 	flow->set(e, (*flow)[e]-a);
   767     }
   768 
   769     Number resCap(const Edge& e) const { 
   770       if (e.forward) 
   771 //	return (capacity->get(e.out)-flow->get(e.out)); 
   772 	return ((*capacity)[e]-(*flow)[e]); 
   773       else 
   774 //	return (flow->get(e.in)); 
   775 	return ((*flow)[e]); 
   776     }
   777 
   778 //     Number resCap(typename Graph::OutEdgeIt out) const { 
   779 // //      return (capacity->get(out)-flow->get(out)); 
   780 //       return ((*capacity)[out]-(*flow)[out]); 
   781 //     }
   782     
   783 //     Number resCap(typename Graph::InEdgeIt in) const { 
   784 // //      return (flow->get(in)); 
   785 //       return ((*flow)[in]); 
   786 //     }
   787 
   788     template <typename T>
   789     class EdgeMap {
   790       typename Graph::template EdgeMap<T> forward_map, backward_map; 
   791     public:
   792       EdgeMap(const ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>& _G) : forward_map(*(_G.graph)), backward_map(*(_G.graph)) { }
   793       EdgeMap(const ResGraphWrapper<Graph, Number, CapacityMap, FlowMap>& _G, T a) : forward_map(*(_G.graph), a), backward_map(*(_G.graph), a) { }
   794       void set(Edge e, T a) { 
   795 	if (e.forward) 
   796 	  forward_map.set(e.out, a); 
   797 	else 
   798 	  backward_map.set(e.in, a); 
   799       }
   800       T operator[](Edge e) const { 
   801 	if (e.forward) 
   802 	  return forward_map[e.out]; 
   803 	else 
   804 	  return backward_map[e.in]; 
   805       }
   806 //       T get(Edge e) const { 
   807 // 	if (e.out_or_in) 
   808 // 	  return forward_map.get(e.out); 
   809 // 	else 
   810 // 	  return backward_map.get(e.in); 
   811 //       }
   812     };
   813   };
   814 
   815   /// ErasingFirstGraphWrapper for blocking flows.
   816 
   817   /// ErasingFirstGraphWrapper for blocking flows.
   818   template<typename Graph, typename FirstOutEdgesMap>
   819   class ErasingFirstGraphWrapper : public GraphWrapper<Graph> {
   820   protected:
   821     FirstOutEdgesMap* first_out_edges;
   822   public:
   823     ErasingFirstGraphWrapper(Graph& _graph, 
   824 			     FirstOutEdgesMap& _first_out_edges) : 
   825       GraphWrapper<Graph>(_graph), first_out_edges(&_first_out_edges) { }  
   826 
   827     typedef typename GraphWrapper<Graph>::Node Node;
   828 //     class NodeIt { 
   829 //       friend class GraphWrapper<Graph>;
   830 //       friend class ErasingFirstGraphWrapper<Graph, FirstOutEdgesMap>;
   831 //       typename Graph::NodeIt n;
   832 //      public:
   833 //       NodeIt() { }
   834 //       NodeIt(const typename Graph::NodeIt& _n) : n(_n) { }
   835 //       NodeIt(const Invalid& i) : n(i) { }
   836 //       NodeIt(const ErasingFirstGraphWrapper<Graph, FirstOutEdgesMap>& _G) : 
   837 // 	n(*(_G.graph)) { }
   838 //       operator Node() const { return Node(typename Graph::Node(n)); }
   839 //     };
   840     typedef typename GraphWrapper<Graph>::Edge Edge;
   841     class OutEdgeIt { 
   842       friend class GraphWrapper<Graph>;
   843       friend class ErasingFirstGraphWrapper<Graph, FirstOutEdgesMap>;
   844 //      typedef typename Graph::OutEdgeIt GraphOutEdgeIt;
   845       typename Graph::OutEdgeIt e;
   846     public:
   847       OutEdgeIt() { }
   848       OutEdgeIt(const typename Graph::OutEdgeIt& _e) : e(_e) { }
   849       OutEdgeIt(const Invalid& i) : e(i) { }
   850       OutEdgeIt(const ErasingFirstGraphWrapper<Graph, FirstOutEdgesMap>& _G, 
   851 		const Node& _n) : 
   852 	e((*_G.first_out_edges)[_n]) { }
   853       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   854     };
   855     class InEdgeIt { 
   856       friend class GraphWrapper<Graph>;
   857       friend class ErasingFirstGraphWrapper<Graph, FirstOutEdgesMap>;
   858 //      typedef typename Graph::InEdgeIt GraphInEdgeIt;
   859       typename Graph::InEdgeIt e;
   860     public:
   861       InEdgeIt() { }
   862       InEdgeIt(const typename Graph::InEdgeIt& _e) : e(_e) { }
   863       InEdgeIt(const Invalid& i) : e(i) { }
   864       InEdgeIt(const ErasingFirstGraphWrapper<Graph, FirstOutEdgesMap>& _G, 
   865 	       const Node& _n) : 
   866 	e(*(_G.graph), typename Graph::Node(_n)) { }
   867       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   868     };
   869     //typedef typename Graph::SymEdgeIt SymEdgeIt;
   870     class EdgeIt { 
   871       friend class GraphWrapper<Graph>;
   872       friend class ErasingFirstGraphWrapper<Graph, FirstOutEdgesMap>;
   873 //      typedef typename Graph::EdgeIt GraphEdgeIt;
   874       typename Graph::EdgeIt e;
   875     public:
   876       EdgeIt() { }
   877       EdgeIt(const typename Graph::EdgeIt& _e) : e(_e) { }
   878       EdgeIt(const Invalid& i) : e(i) { }
   879       EdgeIt(const ErasingFirstGraphWrapper<Graph, FirstOutEdgesMap>& _G) : 
   880 	e(*(_G.graph)) { }
   881       operator Edge() const { return Edge(typename Graph::Edge(e)); }
   882     };
   883 
   884     using GraphWrapper<Graph>::first;
   885 //     NodeIt& first(NodeIt& i) const { 
   886 //       i=NodeIt(*this); return i;
   887 //     }
   888     OutEdgeIt& first(OutEdgeIt& i, const Node& p) const { 
   889       i=OutEdgeIt(*this, p); return i;
   890     }
   891     InEdgeIt& first(InEdgeIt& i, const Node& p) const { 
   892       i=InEdgeIt(*this, p); return i;
   893     }
   894     EdgeIt& first(EdgeIt& i) const { 
   895       i=EdgeIt(*this); return i;
   896     }
   897 
   898     using GraphWrapper<Graph>::next;
   899 //    NodeIt& next(NodeIt& i) const { graph->next(i.n); return i; }
   900     OutEdgeIt& next(OutEdgeIt& i) const { this->graph->next(i.e); return i; }
   901     InEdgeIt& next(InEdgeIt& i) const { this->graph->next(i.e); return i; }
   902     EdgeIt& next(EdgeIt& i) const { this->graph->next(i.e); return i; }    
   903     
   904     Node aNode(const OutEdgeIt& e) const { 
   905       return Node(this->graph->aNode(e.e)); }
   906     Node aNode(const InEdgeIt& e) const { 
   907       return Node(this->graph->aNode(e.e)); }
   908     Node bNode(const OutEdgeIt& e) const { 
   909       return Node(this->graph->bNode(e.e)); }
   910     Node bNode(const InEdgeIt& e) const { 
   911       return Node(this->graph->bNode(e.e)); }
   912 
   913     void erase(const OutEdgeIt& e) const {
   914       OutEdgeIt f=e;
   915       this->next(f);
   916       first_out_edges->set(this->source(e), f.e);
   917     }
   918   };
   919 
   920   /// A wrapper for composing a bipartite graph.
   921   /// \c _graph have to be a reference to a graph of type \c Graph 
   922   /// and \c _s_false_t_true_map is an \c IterableBoolMap 
   923   /// reference containing the elements for the 
   924   /// color classes S and T. \c _graph is to be referred to an undirected 
   925   /// graph or a directed graph with edges oriented from S to T.
   926   template<typename Graph> 
   927   class BipartiteGraphWrapper : public GraphWrapper<Graph> {
   928     typedef IterableBoolMap< typename Graph::template NodeMap<int> > 
   929     SFalseTTrueMap;
   930     SFalseTTrueMap* s_false_t_true_map;
   931 
   932   public:
   933     //marci
   934     //FIXME vhogy igy kellene, csak az en forditom nem eszi meg
   935     //static const bool S_CLASS=false;
   936     //static const bool T_CLASS=true;
   937     
   938     bool S_CLASS;
   939     bool T_CLASS;
   940 
   941     BipartiteGraphWrapper(Graph& _graph, SFalseTTrueMap& _s_false_t_true_map) 
   942       : GraphWrapper<Graph>(_graph), s_false_t_true_map(&_s_false_t_true_map), 
   943       S_CLASS(false), T_CLASS(true) { }
   944     typedef typename GraphWrapper<Graph>::Node Node;
   945     //using GraphWrapper<Graph>::NodeIt;
   946     typedef typename GraphWrapper<Graph>::Edge Edge;
   947     //using GraphWrapper<Graph>::EdgeIt;
   948     class ClassNodeIt;
   949     friend class ClassNodeIt;
   950     class OutEdgeIt;
   951     friend class OutEdgeIt;
   952     class InEdgeIt;
   953     friend class InEdgeIt;
   954     class ClassNodeIt {
   955       friend class BipartiteGraphWrapper<Graph>;
   956     protected:
   957       Node n;
   958     public:
   959       ClassNodeIt() { }
   960       ClassNodeIt(const Invalid& i) : n(i) { }
   961       ClassNodeIt(const BipartiteGraphWrapper<Graph>& _G, bool _class) { 
   962 	_G.s_false_t_true_map->first(n, _class); 
   963       }
   964       //FIXME needed in new concept, important here
   965       ClassNodeIt(const Node& _n) : n(_n) { }
   966       operator Node() const { return n; }
   967     };
   968 //     class SNodeIt {
   969 //       Node n;
   970 //     public:
   971 //       SNodeIt() { }
   972 //       SNodeIt(const Invalid& i) : n(i) { }
   973 //       SNodeIt(const BipartiteGraphWrapper<Graph>& _G) { 
   974 // 	_G.s_false_t_true_map->first(n, false); 
   975 //       }
   976 //       operator Node() const { return n; }
   977 //     };
   978 //     class TNodeIt {
   979 //       Node n;
   980 //     public:
   981 //       TNodeIt() { }
   982 //       TNodeIt(const Invalid& i) : n(i) { }
   983 //       TNodeIt(const BipartiteGraphWrapper<Graph>& _G) { 
   984 // 	_G.s_false_t_true_map->first(n, true); 
   985 //       }
   986 //       operator Node() const { return n; }
   987 //     };
   988     class OutEdgeIt { 
   989       friend class BipartiteGraphWrapper<Graph>;
   990     protected:
   991       typename Graph::OutEdgeIt e;
   992     public:
   993       OutEdgeIt() { }
   994       OutEdgeIt(const Invalid& i) : e(i) { }
   995       OutEdgeIt(const BipartiteGraphWrapper<Graph>& _G, const Node& _n) {
   996 	if (!(*(_G.s_false_t_true_map))[_n]) 
   997 	  e=typename Graph::OutEdgeIt(*(_G.graph), typename Graph::Node(_n));
   998 	else 
   999 	  e=INVALID;
  1000       }
  1001       operator Edge() const { return Edge(typename Graph::Edge(e)); }
  1002     };
  1003     class InEdgeIt { 
  1004       friend class BipartiteGraphWrapper<Graph>;
  1005     protected:
  1006       typename Graph::InEdgeIt e;
  1007     public:
  1008       InEdgeIt() { }
  1009       InEdgeIt(const Invalid& i) : e(i) { }
  1010       InEdgeIt(const BipartiteGraphWrapper<Graph>& _G, const Node& _n) {
  1011 	if ((*(_G.s_false_t_true_map))[_n]) 
  1012 	  e=typename Graph::InEdgeIt(*(_G.graph), typename Graph::Node(_n));
  1013 	else 
  1014 	  e=INVALID;
  1015       }
  1016       operator Edge() const { return Edge(typename Graph::Edge(e)); }
  1017     };
  1018 
  1019     using GraphWrapper<Graph>::first;
  1020     ClassNodeIt& first(ClassNodeIt& n, bool _class) const { 
  1021       n=ClassNodeIt(*this, _class) ; return n; }
  1022 //    SNodeIt& first(SNodeIt& n) const { n=SNodeIt(*this); return n; }
  1023 //    TNodeIt& first(TNodeIt& n) const { n=TNodeIt(*this); return n; }
  1024     OutEdgeIt& first(OutEdgeIt& i, const Node& p) const { 
  1025       i=OutEdgeIt(*this, p); return i;
  1026     }
  1027     InEdgeIt& first(InEdgeIt& i, const Node& p) const { 
  1028       i=InEdgeIt(*this, p); return i;
  1029     }
  1030 
  1031     using GraphWrapper<Graph>::next;
  1032     ClassNodeIt& next(ClassNodeIt& n) const { 
  1033       this->s_false_t_true_map->next(n.n); return n; 
  1034     }
  1035 //     SNodeIt& next(SNodeIt& n) const { 
  1036 //       this->s_false_t_true_map->next(n); return n; 
  1037 //     }
  1038 //     TNodeIt& next(TNodeIt& n) const { 
  1039 //       this->s_false_t_true_map->next(n); return n; 
  1040 //     }
  1041     OutEdgeIt& next(OutEdgeIt& i) const { this->graph->next(i.e); return i; }
  1042     InEdgeIt& next(InEdgeIt& i) const { this->graph->next(i.e); return i; }
  1043 
  1044     Node source(const Edge& e) { 
  1045       if (!(*(this->s_false_t_true_map))[this->graph->source(e)]) 
  1046 	return Node(this->graph->source(e));
  1047       else
  1048 	return Node(this->graph->target(e));	
  1049     }
  1050     Node target(const Edge& e) { 
  1051       if (!(*(this->s_false_t_true_map))[this->graph->source(e)]) 
  1052 	return Node(this->graph->target(e));
  1053       else
  1054 	return Node(this->graph->source(e));	
  1055     }
  1056 
  1057     Node aNode(const OutEdgeIt& e) const { 
  1058       return Node(this->graph->aNode(e.e)); 
  1059     }
  1060     Node aNode(const InEdgeIt& e) const { 
  1061       return Node(this->graph->aNode(e.e)); 
  1062     }
  1063     Node bNode(const OutEdgeIt& e) const { 
  1064       return Node(this->graph->bNode(e.e)); 
  1065     }
  1066     Node bNode(const InEdgeIt& e) const { 
  1067       return Node(this->graph->bNode(e.e)); 
  1068     }
  1069 
  1070     bool inSClass(const Node& n) const {
  1071       return !(*(this->s_false_t_true_map))[n];
  1072     }
  1073     bool inTClass(const Node& n) const {
  1074       return (*(this->s_false_t_true_map))[n];
  1075     }
  1076   };
  1077 
  1078 
  1079 
  1080 
  1081   /********************   S-T Graph Wrapper    ********************/
  1082 
  1083 
  1084 
  1085 
  1086 
  1087   template<typename Graph> class stGraphWrapper;
  1088 
  1089   template<typename Graph>
  1090   inline
  1091   std::ostream& 
  1092   operator<<(std::ostream& os,
  1093 	     typename stGraphWrapper<Graph>::Node const& i) { 
  1094     os << "(node: " << typename Graph::Node(i) << " spec: " << i.spec <<")";
  1095     return os; 
  1096   }
  1097 
  1098   template<typename Graph>
  1099   inline
  1100   std::ostream& 
  1101   operator<<(std::ostream& os,
  1102 	     typename stGraphWrapper<Graph>::Edge const& i) { 
  1103     os << "(edge: " << typename Graph::Edge(i) << " spec: " << i.spec
  1104        << " node: " << i.n << ")"; 
  1105     return os; 
  1106   }
  1107 
  1108 
  1109   /// experimentral, do not try it.
  1110   /// It eats a bipartite graph, oriented from S to T.
  1111   /// Such one can be made e.g. by the above wrapper.
  1112   template<typename Graph>
  1113   class stGraphWrapper : public GraphWrapper<Graph> {
  1114   public:
  1115     class Node; 
  1116     friend class Node;
  1117 //GN, int
  1118 //0 normalis, 1 s, 2, true, ez az iteralasi sorrend, 
  1119 //es a vege a false azaz (invalid, 3)    
  1120     class NodeIt;
  1121     friend class NodeIt;
  1122 //GNI, int
  1123     class Edge;
  1124     friend class Edge;
  1125 //GE, int, GN
  1126 //0 normalis, 1 s->vmi, 2 vmi->t, ez a sorrend,
  1127 //invalid: (invalid, 3, invalid)
  1128     class OutEdgeIt;
  1129     friend class OutEdgeIt;
  1130 //GO, int, GNI
  1131 //normalis pontbol (first, 0, invalid), ..., (invalid, 2, vmi), ... (invalid, 3, invalid)
  1132 //s-bol (invalid, 1, first), ... (invalid, 3, invalid)
  1133 //t-bol (invalid, 3, invalid)
  1134     class InEdgeIt;
  1135     friend class InEdgeIt;
  1136 //GI, int, GNI
  1137 //normalis pontbol (first, 0, invalid), ..., (invalid, 1, vmi), ... (invalid, 3, invalid)
  1138 //s-be (invalid, 3, invalid)
  1139 //t-be (invalid, 2, first), ... (invalid, 3, invalid)
  1140     class EdgeIt;
  1141     friend class EdgeIt;
  1142 //(first, 0, invalid) ...
  1143 //(invalid, 1, vmi)
  1144 //(invalid, 2, vmi)
  1145 //invalid, 3, invalid)
  1146     template <typename T> class NodeMap;
  1147     template <typename T, typename Parent> class EdgeMap;
  1148 
  1149 //    template <typename T> friend class NodeMap;
  1150 //    template <typename T> friend class EdgeMap;
  1151 
  1152     const Node S_NODE;
  1153     const Node T_NODE;
  1154 
  1155     static const bool S_CLASS=false;
  1156     static const bool T_CLASS=true;
  1157 
  1158     stGraphWrapper(Graph& _graph) : GraphWrapper<Graph>(_graph) , 
  1159 				    S_NODE(INVALID, 1), 
  1160 				    T_NODE(INVALID, 2) { }
  1161 
  1162     
  1163     class Node : public Graph::Node {
  1164     protected:
  1165       friend class GraphWrapper<Graph>;
  1166       friend class stGraphWrapper<Graph>;
  1167       template <typename T> friend class NodeMap;
  1168       friend class Edge;
  1169       friend class OutEdgeIt;
  1170       friend class InEdgeIt;
  1171       friend class EdgeIt;
  1172       int spec; 
  1173     public:
  1174       Node() { }
  1175       Node(const typename Graph::Node& _n, int _spec=0) : 
  1176 	Graph::Node(_n), spec(_spec) { }
  1177       Node(const Invalid& i) : Graph::Node(i), spec(3) { }
  1178       friend bool operator==(const Node& u, const Node& v) { 
  1179 	return (u.spec==v.spec && 
  1180 		static_cast<typename Graph::Node>(u)==
  1181 		static_cast<typename Graph::Node>(v));
  1182       } 
  1183       friend bool operator!=(const Node& u, const Node& v) { 
  1184 	return (v.spec!=u.spec || 
  1185 		static_cast<typename Graph::Node>(u)!=
  1186 		static_cast<typename Graph::Node>(v));
  1187       }
  1188       friend std::ostream& operator<< <Graph>(std::ostream& os, const Node& i);
  1189       int getSpec() const { return spec; }
  1190     };
  1191 
  1192     class NodeIt { 
  1193       friend class GraphWrapper<Graph>;
  1194       friend class stGraphWrapper<Graph>;
  1195       typename Graph::NodeIt n;
  1196       int spec; 
  1197      public:
  1198       NodeIt() { }
  1199       NodeIt(const typename Graph::NodeIt& _n, int _spec) : 
  1200 	n(_n), spec(_spec) { }
  1201       NodeIt(const Invalid& i) : n(i), spec(3) { }
  1202       NodeIt(const stGraphWrapper<Graph>& _G) : n(*(_G.graph)), spec(0) { 
  1203 	if (!_G.graph->valid(n)) spec=1;
  1204       }
  1205       operator Node() const { return Node(n, spec); }
  1206     };
  1207 
  1208     typedef NodeIt NodeIt;
  1209     typedef Node Node;
  1210 
  1211     class Edge : public Graph::Edge {
  1212       friend class GraphWrapper<Graph>;
  1213       friend class stGraphWrapper<Graph>;
  1214       template <typename T, typename Parent> friend class EdgeMap;
  1215       int spec;
  1216       typename Graph::Node n;
  1217     public:
  1218       Edge() { }
  1219       Edge(const typename Graph::Edge& _e, int _spec, 
  1220 	   const typename Graph::Node& _n) : 
  1221 	Graph::Edge(_e), spec(_spec), n(_n) { 
  1222       }
  1223       Edge(const Invalid& i) : Graph::Edge(i), spec(3), n(i) { }
  1224       friend bool operator==(const Edge& u, const Edge& v) { 
  1225 	return (u.spec==v.spec && 
  1226 		static_cast<typename Graph::Edge>(u)==
  1227 		static_cast<typename Graph::Edge>(v) && 
  1228 		u.n==v.n);
  1229       } 
  1230       friend bool operator!=(const Edge& u, const Edge& v) { 
  1231 	return (v.spec!=u.spec || 
  1232 		static_cast<typename Graph::Edge>(u)!=
  1233 		static_cast<typename Graph::Edge>(v) || 
  1234 		u.n!=v.n);
  1235       } 
  1236       friend std::ostream& operator<< <Graph>(std::ostream& os, const Edge& i);
  1237       int getSpec() const { return spec; }
  1238     };
  1239 
  1240     class OutEdgeIt { 
  1241       friend class GraphWrapper<Graph>;
  1242       friend class stGraphWrapper<Graph>;
  1243       typename Graph::OutEdgeIt e;
  1244       int spec;
  1245       typename Graph::ClassNodeIt n;
  1246     public:
  1247       OutEdgeIt() { }
  1248       OutEdgeIt(const typename Graph::OutEdgeIt& _e, int _spec, 
  1249 		const typename Graph::ClassNodeIt& _n) : 
  1250 	e(_e), spec(_spec), n(_n) { 
  1251       }
  1252       OutEdgeIt(const Invalid& i) : e(i), spec(3), n(i) { }
  1253       OutEdgeIt(const stGraphWrapper<Graph>& _G, const Node& _n) {
  1254 	switch (_n.spec) {
  1255 	  case 0 : 
  1256 	    if (_G.graph->inSClass(_n)) { //S, van normalis kiel 
  1257 	      e=typename Graph::OutEdgeIt(*(_G.graph), 
  1258 					  typename Graph::Node(_n)); 
  1259 	      spec=0;
  1260 	      n=INVALID;
  1261 	      if (!_G.graph->valid(e)) spec=3;
  1262 	    } else { //T, specko kiel van
  1263 	      e=INVALID;
  1264 	      spec=2;
  1265 	      n=_n;
  1266 	    }
  1267 	    break;
  1268 	  case 1:
  1269 	    e=INVALID;
  1270 	    spec=1;
  1271 	    _G.graph->first(n, S_CLASS); //s->vmi;
  1272 	    if (!_G.graph->valid(n)) spec=3; //Ha S ures
  1273 	    break;
  1274 	  case 2:
  1275 	    e=INVALID;
  1276 	    spec=3;
  1277 	    n=INVALID;
  1278 	    break;
  1279 	}
  1280       }
  1281       operator Edge() const { return Edge(e, spec, n); }
  1282     };
  1283 
  1284     class InEdgeIt { 
  1285       friend class GraphWrapper<Graph>;
  1286       friend class stGraphWrapper<Graph>;
  1287       typename Graph::InEdgeIt e;
  1288       int spec;
  1289       typename Graph::ClassNodeIt n;
  1290     public:
  1291       InEdgeIt() { }
  1292       InEdgeIt(const typename Graph::InEdgeIt& _e, int _spec, 
  1293 	       const typename Graph::ClassNodeIt& _n) : 
  1294 	e(_e), spec(_spec), n(_n) { 
  1295       }
  1296       InEdgeIt(const Invalid& i) : e(i), spec(3), n(i) { }
  1297       InEdgeIt(const stGraphWrapper<Graph>& _G, const Node& _n) {
  1298 	switch (_n.spec) {
  1299 	  case 0 : 
  1300 	    if (_G.graph->inTClass(_n)) { //T, van normalis beel 
  1301 	      e=typename Graph::InEdgeIt(*(_G.graph), 
  1302 					 typename Graph::Node(_n)); 
  1303 	      spec=0;
  1304 	      n=INVALID;
  1305 	      if (!_G.graph->valid(e)) spec=3;
  1306 	    } else { //S, specko beel van
  1307 	      e=INVALID;
  1308 	      spec=1;
  1309 	      n=_n;
  1310 	    }
  1311 	    break;
  1312 	  case 1:
  1313 	    e=INVALID;
  1314 	    spec=3;
  1315 	    n=INVALID;
  1316 	    break;
  1317 	  case 2:
  1318 	    e=INVALID;
  1319 	    spec=2;
  1320 	    _G.graph->first(n, T_CLASS); //vmi->t;
  1321 	    if (!_G.graph->valid(n)) spec=3; //Ha T ures
  1322 	    break;
  1323 	}
  1324       }
  1325       operator Edge() const { return Edge(e, spec, n); }
  1326     };
  1327 
  1328     class EdgeIt { 
  1329       friend class GraphWrapper<Graph>;
  1330       friend class stGraphWrapper<Graph>;
  1331       typename Graph::EdgeIt e;
  1332       int spec;
  1333       typename Graph::ClassNodeIt n;
  1334     public:
  1335       EdgeIt() { }
  1336       EdgeIt(const typename Graph::EdgeIt& _e, int _spec, 
  1337 	     const typename Graph::ClassNodeIt& _n) : 
  1338 	e(_e), spec(_spec), n(_n) { }
  1339       EdgeIt(const Invalid& i) : e(i), spec(3), n(i) { }
  1340       EdgeIt(const stGraphWrapper<Graph>& _G) : 
  1341 	e(*(_G.graph)), spec(0), n(INVALID) { 
  1342 	if (!_G.graph->valid(e)) {
  1343 	  spec=1;
  1344 	  _G.graph->first(n, S_CLASS);
  1345 	  if (!_G.graph->valid(n)) { //Ha S ures
  1346 	    spec=2;
  1347 	    _G.graph->first(n, T_CLASS);
  1348 	    if (!_G.graph->valid(n)) { //Ha T ures
  1349 	      spec=3;
  1350 	    }
  1351 	  }
  1352 	}
  1353       }
  1354       operator Edge() const { return Edge(e, spec, n); }
  1355     };
  1356    
  1357     NodeIt& first(NodeIt& i) const { 
  1358       i=NodeIt(*this); return i;
  1359     }
  1360     OutEdgeIt& first(OutEdgeIt& i, const Node& p) const { 
  1361       i=OutEdgeIt(*this, p); return i;
  1362     }
  1363     InEdgeIt& first(InEdgeIt& i, const Node& p) const { 
  1364       i=InEdgeIt(*this, p); return i;
  1365     }
  1366     EdgeIt& first(EdgeIt& i) const { 
  1367       i=EdgeIt(*this); return i;
  1368     }
  1369 
  1370     NodeIt& next(NodeIt& i) const { 
  1371       switch (i.spec) {
  1372 	case 0:
  1373 	  this->graph->next(i.n);
  1374 	  if (!this->graph->valid(i.n)) {
  1375 	    i.spec=1;
  1376 	  }
  1377 	  break;
  1378 	case 1:
  1379 	  i.spec=2;
  1380 	  break;
  1381 	case 2:
  1382 	  i.spec=3;
  1383 	  break;
  1384       }
  1385       return i; 
  1386     }
  1387     OutEdgeIt& next(OutEdgeIt& i) const { 
  1388       typename Graph::Node v;
  1389       switch (i.spec) {
  1390 	case 0: //normal edge
  1391 	  v=this->graph->aNode(i.e);
  1392 	  this->graph->next(i.e);
  1393 	  if (!this->graph->valid(i.e)) { //Az igazi elek vegere ertunk
  1394 	    if (this->graph->inSClass(v)) { //S, nincs kiel
  1395 	      i.spec=3;
  1396 	      i.n=INVALID;
  1397 	    } else { //T, van kiel
  1398 	      i.spec=2; 
  1399 	      i.n=v;
  1400 	    }
  1401 	  }
  1402 	  break;
  1403 	case 1: //s->vmi
  1404 	  this->graph->next(i.n);
  1405 	  if (!this->graph->valid(i.n)) i.spec=3;
  1406 	  break;
  1407 	case 2: //vmi->t
  1408 	  i.spec=3;
  1409 	  i.n=INVALID;
  1410 	  break;
  1411       }
  1412       return i; 
  1413     }
  1414     InEdgeIt& next(InEdgeIt& i) const { 
  1415       typename Graph::Node v;
  1416       switch (i.spec) {
  1417 	case 0: //normal edge
  1418 	  v=this->graph->aNode(i.e);
  1419 	  this->graph->next(i.e);
  1420 	  if (!this->graph->valid(i.e)) { //Az igazi elek vegere ertunk
  1421 	    if (this->graph->inTClass(v)) { //S, nincs beel
  1422 	      i.spec=3;
  1423 	      i.n=INVALID;
  1424 	    } else { //S, van beel
  1425 	      i.spec=1; 
  1426 	      i.n=v;
  1427 	    }
  1428 	  }
  1429 	  break;
  1430 	case 1: //s->vmi
  1431 	  i.spec=3;
  1432 	  i.n=INVALID;
  1433 	  break;
  1434 	case 2: //vmi->t
  1435 	  this->graph->next(i.n);
  1436 	  if (!this->graph->valid(i.n)) i.spec=3;
  1437 	  break;
  1438       }
  1439       return i; 
  1440     }
  1441 
  1442     EdgeIt& next(EdgeIt& i) const { 
  1443       switch (i.spec) {
  1444 	case 0:
  1445 	  this->graph->next(i.e);
  1446 	  if (!this->graph->valid(i.e)) { 
  1447 	    i.spec=1;
  1448 	    this->graph->first(i.n, S_CLASS);
  1449 	    if (!this->graph->valid(i.n)) {
  1450 	      i.spec=2;
  1451 	      this->graph->first(i.n, T_CLASS);
  1452 	      if (!this->graph->valid(i.n)) i.spec=3;
  1453 	    }
  1454 	  }
  1455 	  break;
  1456 	case 1:
  1457 	  this->graph->next(i.n);
  1458 	  if (!this->graph->valid(i.n)) {
  1459 	    i.spec=2;
  1460 	    this->graph->first(i.n, T_CLASS);
  1461 	    if (!this->graph->valid(i.n)) i.spec=3;
  1462 	  }
  1463 	  break;
  1464 	case 2:
  1465 	  this->graph->next(i.n);
  1466 	  if (!this->graph->valid(i.n)) i.spec=3;
  1467 	  break;
  1468       }
  1469       return i; 
  1470     }    
  1471 
  1472     Node source(const Edge& e) const { 
  1473       switch (e.spec) {
  1474       case 0: 
  1475 	return Node(this->graph->source(e));
  1476 	break;
  1477       case 1:
  1478 	return S_NODE;
  1479 	break;
  1480       case 2:
  1481       default:
  1482 	return Node(e.n);
  1483 	break;
  1484       }
  1485     }
  1486     Node target(const Edge& e) const { 
  1487       switch (e.spec) {
  1488       case 0: 
  1489 	return Node(this->graph->target(e));
  1490 	break;
  1491       case 1:
  1492 	return Node(e.n);
  1493 	break;
  1494       case 2:
  1495       default:
  1496 	return T_NODE;
  1497 	break;
  1498       }
  1499     }
  1500 
  1501     bool valid(const Node& n) const { return (n.spec<3); }
  1502     bool valid(const Edge& e) const { return (e.spec<3); }
  1503 
  1504     int nodeNum() const { return this->graph->nodeNum()+2; }
  1505     int edgeNum() const { 
  1506       return this->graph->edgeNum()+this->graph->nodeNum(); 
  1507     }
  1508   
  1509     Node aNode(const OutEdgeIt& e) const { return source(e); }
  1510     Node aNode(const InEdgeIt& e) const { return target(e); }
  1511     Node bNode(const OutEdgeIt& e) const { return target(e); }
  1512     Node bNode(const InEdgeIt& e) const { return source(e); }
  1513 
  1514     void addNode() const { }
  1515     void addEdge() const { }
  1516     
  1517 //    Node addNode() const { return Node(this->graph->addNode()); }
  1518 //    Edge addEdge(const Node& source, const Node& target) const { 
  1519 //      return Edge(this->graph->addEdge(source, target)); }
  1520 
  1521 //    void erase(const Node& i) const { this->graph->erase(i); }
  1522 //    void erase(const Edge& i) const { this->graph->erase(i); }
  1523   
  1524 //    void clear() const { this->graph->clear(); }
  1525     
  1526     template<typename T> class NodeMap : public GraphWrapper<Graph>::template NodeMap<T> { 
  1527       typedef typename GraphWrapper<Graph>::template NodeMap<T> Parent;
  1528       T s_value, t_value;
  1529     public:
  1530       NodeMap(const stGraphWrapper<Graph>& _G) :  Parent(_G), 
  1531 						  s_value(), 
  1532 						  t_value() { }
  1533       NodeMap(const stGraphWrapper<Graph>& _G, T a) : Parent(_G, a), 
  1534 						      s_value(a), 
  1535 						      t_value(a) { }
  1536       T operator[](const Node& n) const { 
  1537 	switch (n.spec) {
  1538 	case 0: 
  1539 	  return Parent::operator[](n);
  1540 	  break;
  1541 	case 1:
  1542 	  return s_value;
  1543 	  break;
  1544 	case 2: 
  1545 	default:
  1546 	  return t_value;
  1547 	  break;
  1548 	}
  1549       }
  1550       void set(const Node& n, T t) { 
  1551 	switch (n.spec) {
  1552 	case 0: 
  1553 	  GraphWrapper<Graph>::template NodeMap<T>::set(n, t);
  1554 	  break;
  1555 	case 1:
  1556 	  s_value=t;
  1557 	  break;
  1558 	case 2:
  1559 	default:
  1560 	  t_value=t;
  1561 	  break;
  1562 	}
  1563       }
  1564     };
  1565 
  1566     template<typename T, 
  1567 	     typename Parent=
  1568 	     typename GraphWrapper<Graph>::template EdgeMap<T> > 
  1569     class EdgeMap : public Parent { 
  1570       //typedef typename GraphWrapper<Graph>::template EdgeMap<T> Parent;
  1571       typename GraphWrapper<Graph>::template NodeMap<T> node_value;
  1572     public:
  1573       EdgeMap(const stGraphWrapper<Graph>& _G) : Parent(_G), 
  1574 						 node_value(_G) { }
  1575       EdgeMap(const stGraphWrapper<Graph>& _G, T a) : Parent(_G, a), 
  1576 						      node_value(_G, a) { }
  1577       T operator[](const Edge& e) const { 
  1578 	switch (e.spec) {
  1579 	case 0: 
  1580 	  return Parent::operator[](e);
  1581 	  break;
  1582 	case 1:
  1583 	  return node_value[e.n];
  1584 	  break;
  1585 	case 2:
  1586 	default:
  1587 	  return node_value[e.n];
  1588 	  break;
  1589 	}
  1590       }
  1591       void set(const Edge& e, T t) { 
  1592 	switch (e.spec) {
  1593 	case 0: 
  1594 	  Parent::set(e, t);
  1595 	  break;
  1596 	case 1:
  1597 	  node_value.set(e.n, t);
  1598 	  break;
  1599 	case 2:
  1600 	default:
  1601 	  node_value.set(e.n, t);
  1602 	  break;
  1603 	}
  1604       }
  1605     };
  1606 
  1607 //     template<typename T> class EdgeMap : public GraphWrapper<Graph>::template EdgeMap<T> { 
  1608 //       typedef typename GraphWrapper<Graph>::template EdgeMap<T> Parent;
  1609 //       typename GraphWrapper<Graph>::template NodeMap<T> node_value;
  1610 //     public:
  1611 //       EdgeMap(const stGraphWrapper<Graph>& _G) : Parent(_G), 
  1612 // 						 node_value(_G) { }
  1613 //       EdgeMap(const stGraphWrapper<Graph>& _G, T a) : Parent(_G, a), 
  1614 // 						      node_value(_G, a) { }
  1615 //       T operator[](const Edge& e) const { 
  1616 // 	switch (e.spec) {
  1617 // 	case 0: 
  1618 // 	  return Parent::operator[](e);
  1619 // 	  break;
  1620 // 	case 1:
  1621 // 	  return node_value[e.n];
  1622 // 	  break;
  1623 // 	case 2:
  1624 // 	default:
  1625 // 	  return node_value[e.n];
  1626 // 	  break;
  1627 // 	}
  1628 //       }
  1629 //       void set(const Edge& e, T t) { 
  1630 // 	switch (e.spec) {
  1631 // 	case 0: 
  1632 // 	  GraphWrapper<Graph>::template EdgeMap<T>::set(e, t);
  1633 // 	  break;
  1634 // 	case 1:
  1635 // 	  node_value.set(e.n, t);
  1636 // 	  break;
  1637 // 	case 2:
  1638 // 	default:
  1639 // 	  node_value.set(e.n, t);
  1640 // 	  break;
  1641 // 	}
  1642 //       }
  1643 //     };
  1644 
  1645   };
  1646 
  1647   ///@}
  1648 
  1649 } //namespace lemon
  1650 
  1651 
  1652 #endif //LEMON_GRAPH_WRAPPER_H
  1653