lemon/bpugraph_adaptor.h
author hegyi
Fri, 27 Oct 2006 15:19:33 +0000
changeset 2266 07b533060ec5
parent 2084 59769591eb60
child 2384 805c5a2a36dd
permissions -rw-r--r--
NEWS updated to Rel0.6 - according to Alpar's instruction, at last
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/* -*- C++ -*-
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 *
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 * This file is a part of LEMON, a generic C++ optimization library
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 *
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 * Copyright (C) 2003-2006
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 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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#ifndef LEMON_BPUGRAPH_ADAPTOR_H
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#define LEMON_BPUGRAPH_ADAPTOR_H
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#include <lemon/bits/invalid.h>
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#include <lemon/maps.h>
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#include <lemon/bits/graph_adaptor_extender.h>
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#include <lemon/bits/traits.h>
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#include <iostream>
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///\ingroup graph_adaptors
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///\file
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///\brief Several graph adaptors.
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///
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///This file contains several useful bpugraph adaptor functions.
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///
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///\author Balazs Dezso
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namespace lemon {
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  /// \ingroup graph_adaptors
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  ///
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  /// \brief Base type for the Bipartite Undirected Graph Adaptors
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  ///
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  /// This is the base type for most of LEMON bpugraph adaptors. 
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  /// This class implements a trivial graph adaptor i.e. it only wraps the 
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  /// functions and types of the graph. The purpose of this class is to 
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  /// make easier implementing graph adaptors. E.g. if an adaptor is 
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  /// considered which differs from the wrapped graph only in some of its 
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  /// functions or types, then it can be derived from BpUGraphAdaptor, and 
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  /// only the differences should be implemented.
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  ///
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  /// \author Balazs Dezso 
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  template<typename _BpUGraph>
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  class BpUGraphAdaptorBase {
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  public:
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    typedef _BpUGraph Graph;
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    typedef Graph ParentGraph;
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  protected:
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    Graph* graph;
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    BpUGraphAdaptorBase() : graph(0) {}
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    void setGraph(Graph& _graph) { graph = &_graph; }
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    Graph& getGraph() { return *graph; }
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    const Graph& getGraph() const { return *graph; }
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  public:
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    BpUGraphAdaptorBase(Graph& _graph) : graph(&_graph) {}
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    typedef typename Graph::Node Node;
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    typedef typename Graph::ANode ANode;
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    typedef typename Graph::BNode BNode;
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    typedef typename Graph::Edge Edge;
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    typedef typename Graph::UEdge UEdge;
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    void first(Node& i) const { graph->first(i); }
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    void firstANode(Node& i) const { graph->firstANode(i); }
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    void firstBNode(Node& i) const { graph->firstBNode(i); }
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    void first(Edge& i) const { graph->first(i); }
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    void first(UEdge& i) const { graph->first(i); }
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    void firstIn(Edge& i, const Node& n) const { graph->firstIn(i, n); }
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    void firstOut(Edge& i, const Node& n ) const { graph->firstOut(i, n); }
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    void firstInc(UEdge &i, bool &d, const Node &n) const {
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      graph->firstInc(i, d, n);
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    }
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    void firstFromANode(UEdge& i, const Node& n) const {
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      graph->firstFromANode(i, n);
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    }
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    void firstFromBNode(UEdge& i, const Node& n) const {
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      graph->firstFromBNode(i, n);
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    }
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    void next(Node& i) const { graph->next(i); }
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    void nextANode(Node& i) const { graph->nextANode(i); }
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    void nextBNode(Node& i) const { graph->nextBNode(i); }
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    void next(Edge& i) const { graph->next(i); }
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    void next(UEdge& i) const { graph->next(i); }
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    void nextIn(Edge& i) const { graph->nextIn(i); }
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    void nextOut(Edge& i) const { graph->nextOut(i); }
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    void nextInc(UEdge &i, bool &d) const { graph->nextInc(i, d); }
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    void nextFromANode(UEdge& i) const { graph->nextFromANode(i); }
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    void nextFromBNode(UEdge& i) const { graph->nextFromBNode(i); }
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    Node source(const UEdge& e) const { return graph->source(e); }
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    Node target(const UEdge& e) const { return graph->target(e); }
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    Node source(const Edge& e) const { return graph->source(e); }
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    Node target(const Edge& e) const { return graph->target(e); }
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    Node aNode(const UEdge& e) const { return graph->aNode(e); }
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    Node bNode(const UEdge& e) const { return graph->bNode(e); }
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    bool aNode(const Node& n) const { return graph->aNode(n); }
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    bool bNode(const Node& n) const { return graph->bNode(n); }
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    typedef NodeNumTagIndicator<Graph> NodeNumTag;
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    int nodeNum() const { return graph->nodeNum(); }
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    int aNodeNum() const { return graph->aNodeNum(); }
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    int bNodeNum() const { return graph->bNodeNum(); }
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    typedef EdgeNumTagIndicator<Graph> EdgeNumTag;
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    int edgeNum() const { return graph->edgeNum(); }
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    int uEdgeNum() const { return graph->uEdgeNum(); }
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    typedef FindEdgeTagIndicator<Graph> FindEdgeTag;
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    Edge findEdge(const Node& source, const Node& target, 
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		  const Edge& prev = INVALID) {
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      return graph->findEdge(source, target, prev);
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    }
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    UEdge findUEdge(const Node& source, const Node& target, 
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                    const UEdge& prev = INVALID) {
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      return graph->findUEdge(source, target, prev);
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    }
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    Node addANode() const { return graph->addANode(); }
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    Node addBNode() const { return graph->addBNode(); }
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    UEdge addEdge(const Node& source, const Node& target) const { 
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      return graph->addEdge(source, target); 
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    }
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    void erase(const Node& i) const { graph->erase(i); }
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    void erase(const UEdge& i) const { graph->erase(i); }
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    void clear() const { graph->clear(); }
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    bool direction(const Edge& e) const { return graph->direction(e); }
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    Edge direct(const UEdge& e, bool d) const { return graph->direct(e, d); }
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    int id(const Node& v) const { return graph->id(v); }
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    int id(const ANode& v) const { return graph->id(v); }
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    int id(const BNode& v) const { return graph->id(v); }
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    int id(const Edge& e) const { return graph->id(e); }
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    int id(const UEdge& e) const { return graph->id(e); }
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    Node fromNodeId(int id) const { return graph->fromNodeId(id); }
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    ANode nodeFromANodeId(int id) const { return graph->nodeFromANodeId(id); }
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    BNode nodeFromBNodeId(int id) const { return graph->nodeFromBNodeId(id); }
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    Edge fromEdgeId(int id) const { return graph->fromEdgeId(id); }
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    UEdge fromUEdgeId(int id) const { return graph->fromUEdgeId(id); }
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    int maxNodeId() const { return graph->maxNodeId(); }
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    int maxANodeId() const { return graph->maxANodeId(); }
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    int maxBNodeId() const { return graph->maxBNodeId(); }
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    int maxEdgeId() const { return graph->maxEdgeId(); }
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    int maxUEdgeId() const { return graph->maxEdgeId(); }
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    typedef typename ItemSetTraits<Graph, Node>::ItemNotifier NodeNotifier;
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    NodeNotifier& getNotifier(Node) const {
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      return graph->getNotifier(Node()); 
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    } 
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    typedef typename ItemSetTraits<Graph, ANode>::ItemNotifier ANodeNotifier;
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    ANodeNotifier& getNotifier(ANode) const {
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      return graph->getNotifier(ANode());
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    } 
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    typedef typename ItemSetTraits<Graph, BNode>::ItemNotifier BNodeNotifier;
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    BNodeNotifier& getNotifier(BNode) const {
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      return graph->getNotifier(BNode());
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    } 
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    typedef typename ItemSetTraits<Graph, Edge>::ItemNotifier EdgeNotifier;
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    EdgeNotifier& getNotifier(Edge) const {
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      return graph->getNotifier(Edge());
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    } 
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    typedef typename ItemSetTraits<Graph, UEdge>::ItemNotifier UEdgeNotifier;
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    UEdgeNotifier& getNotifier(UEdge) const {
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      return graph->getNotifier(UEdge());
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    } 
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    template <typename _Value>
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    class NodeMap : public Graph::template NodeMap<_Value> {
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    public:
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      typedef typename Graph::template NodeMap<_Value> Parent;
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      explicit NodeMap(const BpUGraphAdaptorBase<Graph>& ga) 
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	: Parent(*ga.graph) {}
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      NodeMap(const BpUGraphAdaptorBase<Graph>& ga, const _Value& value)
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	: Parent(*ga.graph, value) {}
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      NodeMap& operator=(const NodeMap& cmap) {
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	return operator=<NodeMap>(cmap);
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      }
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      template <typename CMap>
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      NodeMap& operator=(const CMap& cmap) {
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        Parent::operator=(cmap);
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	return *this;
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      }
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    };
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    template <typename _Value>
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    class ANodeMap : public Graph::template ANodeMap<_Value> {
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    public:
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      typedef typename Graph::template ANodeMap<_Value> Parent;
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      explicit ANodeMap(const BpUGraphAdaptorBase& ga) 
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	: Parent(*ga.graph) {}
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      ANodeMap(const BpUGraphAdaptorBase& ga, const _Value& value)
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	: Parent(*ga.graph, value) {}
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      ANodeMap& operator=(const ANodeMap& cmap) {
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	return operator=<ANodeMap>(cmap);
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      }
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      template <typename CMap>
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      ANodeMap& operator=(const CMap& cmap) {
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        Parent::operator=(cmap);
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	return *this;
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      }
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    };
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    template <typename _Value>
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    class BNodeMap : public Graph::template BNodeMap<_Value> {
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    public:
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      typedef typename Graph::template BNodeMap<_Value> Parent;
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      explicit BNodeMap(const BpUGraphAdaptorBase<Graph>& ga) 
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	: Parent(*ga.graph) {}
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      BNodeMap(const BpUGraphAdaptorBase<Graph>& ga, const _Value& value)
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	: Parent(*ga.graph, value) {}
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      BNodeMap& operator=(const BNodeMap& cmap) {
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	return operator=<BNodeMap>(cmap);
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      }
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      template <typename CMap>
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      BNodeMap& operator=(const CMap& cmap) {
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        Parent::operator=(cmap);
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	return *this;
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      }
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    };
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    template <typename _Value>
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    class EdgeMap : public Graph::template EdgeMap<_Value> {
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    public:
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      typedef typename Graph::template EdgeMap<_Value> Parent;
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      explicit EdgeMap(const BpUGraphAdaptorBase<Graph>& ga) 
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	: Parent(*ga.graph) {}
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      EdgeMap(const BpUGraphAdaptorBase<Graph>& ga, const _Value& value)
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	: Parent(*ga.graph, value) {}
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      EdgeMap& operator=(const EdgeMap& cmap) {
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	return operator=<EdgeMap>(cmap);
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      }
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      template <typename CMap>
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      EdgeMap& operator=(const CMap& cmap) {
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        Parent::operator=(cmap);
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	return *this;
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      }
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    };
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    template <typename _Value>
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    class UEdgeMap : public Graph::template UEdgeMap<_Value> {
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    public:
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      typedef typename Graph::template UEdgeMap<_Value> Parent;
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      explicit UEdgeMap(const BpUGraphAdaptorBase<Graph>& ga) 
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	: Parent(*ga.graph) {}
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      UEdgeMap(const BpUGraphAdaptorBase<Graph>& ga, const _Value& value)
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	: Parent(*ga.graph, value) {}
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      UEdgeMap& operator=(const UEdgeMap& cmap) {
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	return operator=<UEdgeMap>(cmap);
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      }
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      template <typename CMap>
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      UEdgeMap& operator=(const CMap& cmap) {
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        Parent::operator=(cmap);
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	return *this;
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      }
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    };
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  };
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  /// \ingroup graph_adaptors
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  ///
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  /// \brief Trivial Bipartite Undirected Graph Adaptor
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  ///
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  /// Trivial Bipartite Undirected Graph Adaptor. It does not change
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  /// the functionality of the adapted graph.
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  template <typename _BpUGraph>
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  class BpUGraphAdaptor 
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    : public BpUGraphAdaptorExtender< BpUGraphAdaptorBase<_BpUGraph> > { 
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  public:
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    typedef _BpUGraph Graph;
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    typedef BpUGraphAdaptorExtender<BpUGraphAdaptorBase<_BpUGraph> > Parent;
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  protected:
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    BpUGraphAdaptor() : Parent() {}
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  public:
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    explicit BpUGraphAdaptor(Graph& _graph) { setGraph(_graph); }
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  };
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  template <typename _BpUGraph>
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  class SwapBpUGraphAdaptorBase : public BpUGraphAdaptorBase<_BpUGraph> {
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  public:
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    typedef _BpUGraph Graph;
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    typedef BpUGraphAdaptorBase<_BpUGraph> Parent;
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  protected:
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    SwapBpUGraphAdaptorBase() {}
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  public:
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    typedef typename Parent::Node Node;
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    typedef typename Parent::BNode ANode;
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    typedef typename Parent::ANode BNode;
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    typedef typename Parent::Edge Edge;
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    typedef typename Parent::UEdge UEdge;
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    bool direction(const Edge& e) const { return !Parent::direction(e); }
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    Edge direct(const UEdge& e, bool b) const { return Parent::direct(e, !b); }
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    Node aNode(const UEdge& e) const { return Parent::bNode(e); }
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    Node bNode(const UEdge& e) const { return Parent::aNode(e); }
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    bool aNode(const Node& n) const { return Parent::bNode(n); }
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    bool bNode(const Node& n) const { return Parent::aNode(n); }
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    void firstANode(Node& i) const { Parent::firstBNode(i); }
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    void firstBNode(Node& i) const { Parent::firstANode(i); }
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    void nextANode(Node& i) const { Parent::nextBNode(i); }
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    void nextBNode(Node& i) const { Parent::nextANode(i); }
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    void firstFromANode(UEdge& i, const Node& n) const {
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      Parent::firstFromBNode(i, n);
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    }
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    void firstFromBNode(UEdge& i, const Node& n) const {
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      Parent::firstFromANode(i, n);
deba@2231
   356
    }
deba@2231
   357
deba@2231
   358
    void nextFromANode(UEdge& i) const { Parent::nextFromBNode(i); }
deba@2231
   359
    void nextFromBNode(UEdge& i) const { Parent::nextFromANode(i); }
deba@2231
   360
deba@2031
   361
    int id(const ANode& v) const { return Parent::id(v); }
deba@2031
   362
    int id(const BNode& v) const { return Parent::id(v); }
deba@2031
   363
deba@2231
   364
    ANode nodeFromANodeId(int id) const { return Parent::nodeFromBNodeId(id); }
deba@2231
   365
    BNode nodeFromBNodeId(int id) const { return Parent::nodeFromANodeId(id); }
deba@2031
   366
deba@2031
   367
    int maxANodeId() const { return Parent::maxBNodeId(); }
deba@2031
   368
    int maxBNodeId() const { return Parent::maxANodeId(); }
deba@2031
   369
deba@2031
   370
    int aNodeNum() const { return Parent::bNodeNum(); }
deba@2031
   371
    int bNodeNum() const { return Parent::aNodeNum(); }
deba@2031
   372
deba@2031
   373
    typedef typename Parent::BNodeNotifier ANodeNotifier;
deba@2031
   374
    ANodeNotifier& getNotifier(ANode) const {
deba@2031
   375
      return Parent::getNotifier(typename Parent::BNode());
deba@2031
   376
    } 
deba@2031
   377
deba@2031
   378
    typedef typename Parent::ANodeNotifier BNodeNotifier;
deba@2031
   379
    BNodeNotifier& getNotifier(BNode) const {
deba@2031
   380
      return Parent::getNotifier(typename Parent::ANode());
deba@2031
   381
    } 
deba@2031
   382
deba@2031
   383
    template <typename _Value>
deba@2031
   384
    class ANodeMap : public Graph::template BNodeMap<_Value> {
deba@2031
   385
    public:
deba@2031
   386
      typedef typename Graph::template BNodeMap<_Value> Parent;
deba@2031
   387
      explicit ANodeMap(const SwapBpUGraphAdaptorBase& ga) 
deba@2031
   388
	: Parent(*ga.graph) {}
deba@2031
   389
      ANodeMap(const SwapBpUGraphAdaptorBase& ga, const _Value& value)
deba@2031
   390
	: Parent(*ga.graph, value) {}
deba@2031
   391
deba@2031
   392
      ANodeMap& operator=(const ANodeMap& cmap) {
deba@2031
   393
	return operator=<ANodeMap>(cmap);
deba@2031
   394
      }
deba@2031
   395
deba@2031
   396
      template <typename CMap>
deba@2031
   397
      ANodeMap& operator=(const CMap& cmap) {
deba@2031
   398
        Parent::operator=(cmap);
deba@2031
   399
	return *this;
deba@2031
   400
      }
deba@2031
   401
    };
deba@2031
   402
deba@2031
   403
    template <typename _Value>
deba@2031
   404
    class BNodeMap : public Graph::template ANodeMap<_Value> {
deba@2031
   405
    public:
deba@2031
   406
      typedef typename Graph::template ANodeMap<_Value> Parent;
deba@2031
   407
      explicit BNodeMap(const SwapBpUGraphAdaptorBase<Graph>& ga) 
deba@2031
   408
	: Parent(*ga.graph) {}
deba@2031
   409
      BNodeMap(const SwapBpUGraphAdaptorBase<Graph>& ga, const _Value& value)
deba@2031
   410
	: Parent(*ga.graph, value) {}
deba@2031
   411
deba@2031
   412
      BNodeMap& operator=(const BNodeMap& cmap) {
deba@2031
   413
	return operator=<BNodeMap>(cmap);
deba@2031
   414
      }
deba@2031
   415
deba@2031
   416
      template <typename CMap>
deba@2031
   417
      BNodeMap& operator=(const CMap& cmap) {
deba@2031
   418
        Parent::operator=(cmap);
deba@2031
   419
	return *this;
deba@2031
   420
      }
deba@2031
   421
    };
deba@2031
   422
    
deba@2031
   423
  };
deba@2031
   424
deba@2031
   425
  /// \ingroup graph_adaptors
deba@2031
   426
  ///
deba@2031
   427
  /// \brief Bipartite graph adaptor which swaps the two nodeset.
deba@2031
   428
  ///
deba@2031
   429
  /// Bipartite graph adaptor which swaps the two nodeset. The adaptor's
deba@2084
   430
  /// anode-set will be the original graph's bnode-set and the adaptor's
deba@2084
   431
  /// bnode-set will be the original graph's anode-set.
deba@2084
   432
  ///
deba@2084
   433
  /// As example look at an algorithm what can be sped up with the
deba@2084
   434
  /// swap bipartite undirected graph adaptor. If we want to find the
deba@2084
   435
  /// maximum matching in the bipartite graph then it will be not changed
deba@2084
   436
  /// if we swap the two nodesets. But the algorithm use the two nodeset
deba@2084
   437
  /// different way. If we swap the nodesets it provides different
deba@2084
   438
  /// running time. We run a test on random bipartite graphs with
deba@2084
   439
  /// different rate of the anode-set size and bnode-set size.
deba@2084
   440
  /// We always made graphs with 10000 nodes and 20000 edges and we
deba@2084
   441
  /// computed the maximum cardinality matching with the Hopcroft-Karp 
deba@2084
   442
  /// algorithm.
deba@2084
   443
  ///
deba@2084
   444
  /// The next diagram shows the running time of the tests. If the anode-set
deba@2084
   445
  /// is smaller than the bnode-set the running time is better than with 
deba@2084
   446
  /// the swapped graph. Other conclusion is that the running time
deba@2084
   447
  /// is greater when the two nodesets size are nearly equal. 
deba@2084
   448
  ///
deba@2084
   449
  /// \image html swap_test.png
deba@2084
   450
  /// \image latex swap_test.eps "Swapping nodesets" width=\textwidth
deba@2084
   451
  /// 
deba@2084
   452
  /// The next part shows how can we swap the two nodeset:
deba@2084
   453
  ///
deba@2084
   454
  ///\code
deba@2084
   455
  /// typedef SwapBpUGraphAdaptor<BpUGraph> SBpUGraph;
deba@2084
   456
  /// SBpUGraph sbpugraph(bpugraph);
deba@2084
   457
  /// MaxBipartiteMatching<SBpUGraph> sbpumatch(sbpugraph);
deba@2084
   458
  ///\endcode
deba@2031
   459
  template <typename _BpUGraph>
deba@2031
   460
  class SwapBpUGraphAdaptor 
deba@2031
   461
    : public BpUGraphAdaptorExtender<SwapBpUGraphAdaptorBase<_BpUGraph> > { 
deba@2031
   462
  public:
deba@2031
   463
deba@2031
   464
    typedef _BpUGraph Graph;
deba@2031
   465
    typedef BpUGraphAdaptorExtender<SwapBpUGraphAdaptorBase<_BpUGraph> > 
deba@2031
   466
    Parent;
deba@2031
   467
deba@2031
   468
  protected:
deba@2031
   469
    SwapBpUGraphAdaptor() : Parent() {}
deba@2031
   470
deba@2031
   471
  public:
deba@2031
   472
deba@2084
   473
    /// \brief Construct a swapped graph.
deba@2084
   474
    ///
deba@2084
   475
    /// Construct a swapped graph.
deba@2031
   476
    explicit SwapBpUGraphAdaptor(Graph& _graph) { setGraph(_graph); }
deba@2031
   477
deba@2031
   478
  };
deba@2031
   479
deba@2031
   480
deba@2040
   481
  template <typename _BpUGraph, 
deba@2040
   482
            typename _ANMatchingMap, typename _BNMatchingMap>
deba@2040
   483
  class MatchingBpUGraphAdaptorBase 
deba@2040
   484
    : public BpUGraphAdaptorBase<const _BpUGraph>
deba@2040
   485
  {
deba@2040
   486
  public:
deba@2040
   487
    
deba@2040
   488
    typedef _BpUGraph Graph;
deba@2040
   489
    typedef _ANMatchingMap ANodeMatchingMap;
deba@2040
   490
    typedef _BNMatchingMap BNodeMatchingMap;
deba@2040
   491
deba@2040
   492
    typedef BpUGraphAdaptorBase<const _BpUGraph> Parent;
deba@2040
   493
deba@2040
   494
  protected:
deba@2040
   495
    
deba@2040
   496
    MatchingBpUGraphAdaptorBase() {}
deba@2040
   497
deba@2040
   498
    void setANodeMatchingMap(ANodeMatchingMap& _anode_matching) {
deba@2040
   499
      anode_matching = &_anode_matching;
deba@2040
   500
    }
deba@2040
   501
deba@2040
   502
    void setBNodeMatchingMap(BNodeMatchingMap& _bnode_matching) {
deba@2040
   503
      bnode_matching = &_bnode_matching;
deba@2040
   504
    }
deba@2040
   505
deba@2040
   506
  public:
deba@2040
   507
deba@2040
   508
    typedef typename Parent::Node Node;
deba@2040
   509
    typedef typename Parent::Edge Edge;
deba@2040
   510
deba@2040
   511
    void firstOut(Edge& edge, const Node& node) const {
deba@2040
   512
      if (Parent::aNode(node)) {
deba@2040
   513
        Parent::firstOut(edge, node);
deba@2040
   514
        if (edge != INVALID && (*anode_matching)[node] == edge) {
deba@2040
   515
          Parent::nextOut(edge);
deba@2040
   516
        }
deba@2040
   517
      } else {
deba@2040
   518
        edge = (*bnode_matching)[node] != INVALID ?
deba@2040
   519
          Parent::direct((*bnode_matching)[node], false) : INVALID;
deba@2040
   520
      }
deba@2040
   521
    }
deba@2040
   522
deba@2040
   523
    void nextOut(Edge& edge) const {
deba@2040
   524
      if (Parent::aNode(Parent::source(edge))) {
deba@2040
   525
        Parent::nextOut(edge);
deba@2040
   526
        if (edge != INVALID && (*anode_matching)[Parent::aNode(edge)] == edge) {
deba@2040
   527
          Parent::nextOut(edge);
deba@2040
   528
        }
deba@2040
   529
      } else {
deba@2040
   530
        edge = INVALID;
deba@2040
   531
      }
deba@2040
   532
    }
deba@2040
   533
 
deba@2040
   534
    void firstIn(Edge& edge, const Node& node) const {
deba@2040
   535
      if (Parent::aNode(node)) {
deba@2040
   536
        edge = (*bnode_matching)[node] != INVALID ?
deba@2040
   537
          Parent::direct((*anode_matching)[node], false) : INVALID;
deba@2040
   538
      } else {
deba@2040
   539
        Parent::firstIn(edge, node);
deba@2040
   540
        if (edge != INVALID && (*bnode_matching)[node] == edge) {
deba@2040
   541
          Parent::nextIn(edge);
deba@2040
   542
        }
deba@2040
   543
      }
deba@2040
   544
    }
deba@2040
   545
deba@2040
   546
    void nextIn(Edge& edge) const {
deba@2040
   547
      if (Parent::aNode(Parent::target(edge))) {
deba@2040
   548
        edge = INVALID;
deba@2040
   549
      } else {
deba@2040
   550
        Parent::nextIn(edge);
deba@2040
   551
        if (edge != INVALID && (*bnode_matching)[Parent::bNode(edge)] == edge) {
deba@2040
   552
          Parent::nextIn(edge);
deba@2040
   553
        }
deba@2040
   554
      }
deba@2040
   555
    } 
deba@2040
   556
deba@2040
   557
  private:
deba@2040
   558
    ANodeMatchingMap* anode_matching;
deba@2040
   559
    BNodeMatchingMap* bnode_matching;
deba@2040
   560
  };
deba@2040
   561
deba@2040
   562
deba@2040
   563
  /// \ingroup graph_adaptors
deba@2040
   564
  ///
deba@2040
   565
  /// \brief Bipartite graph adaptor to implement matching algorithms.
deba@2040
   566
  ///
deba@2040
   567
  /// Bipartite graph adaptor to implement matchings. It implements
deba@2040
   568
  /// the residual graph of the matching.
deba@2040
   569
  template <typename _BpUGraph, 
deba@2231
   570
            typename _ANMatchingMap = 
deba@2231
   571
            typename _BpUGraph::template ANodeMap<typename _BpUGraph::UEdge>, 
deba@2231
   572
            typename _BNMatchingMap =
deba@2231
   573
            typename _BpUGraph::template BNodeMap<typename _BpUGraph::UEdge> >
deba@2040
   574
  class MatchingBpUGraphAdaptor 
deba@2040
   575
    : public BpUGraphAdaptorExtender<
deba@2040
   576
    MatchingBpUGraphAdaptorBase<_BpUGraph, _ANMatchingMap, _BNMatchingMap> > 
deba@2040
   577
  { 
deba@2040
   578
  public:
deba@2040
   579
deba@2040
   580
    typedef _BpUGraph BpUGraph;
deba@2040
   581
    typedef _BpUGraph Graph;
deba@2040
   582
    typedef _ANMatchingMap ANodeMatchingMap;
deba@2040
   583
    typedef _BNMatchingMap BNodeMatchingMap;
deba@2040
   584
    typedef BpUGraphAdaptorExtender<
deba@2040
   585
      MatchingBpUGraphAdaptorBase<BpUGraph, 
deba@2040
   586
                                  ANodeMatchingMap, BNodeMatchingMap> > 
deba@2040
   587
    Parent;
deba@2040
   588
deba@2040
   589
  protected:
deba@2040
   590
    MatchingBpUGraphAdaptor() : Parent() {}
deba@2040
   591
deba@2040
   592
  public:
deba@2040
   593
deba@2040
   594
    MatchingBpUGraphAdaptor(const Graph& _graph, 
deba@2040
   595
                            ANodeMatchingMap& _anode_matching,
deba@2040
   596
                            BNodeMatchingMap& _bnode_matching) {
deba@2040
   597
      setGraph(_graph);
deba@2040
   598
      setANodeMatchingMap(_anode_matching);
deba@2040
   599
      setBNodeMatchingMap(_bnode_matching);
deba@2040
   600
    }
deba@2040
   601
deba@2040
   602
  };
deba@2040
   603
deba@2031
   604
}
deba@2031
   605
deba@2031
   606
#endif