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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& notifier(Node) const {
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return graph->notifier(Node());
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}
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typedef typename ItemSetTraits<Graph, ANode>::ItemNotifier ANodeNotifier;
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ANodeNotifier& notifier(ANode) const {
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return graph->notifier(ANode());
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}
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typedef typename ItemSetTraits<Graph, BNode>::ItemNotifier BNodeNotifier;
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BNodeNotifier& notifier(BNode) const {
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return graph->notifier(BNode());
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}
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typedef typename ItemSetTraits<Graph, Edge>::ItemNotifier EdgeNotifier;
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EdgeNotifier& notifier(Edge) const {
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return graph->notifier(Edge());
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}
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typedef typename ItemSetTraits<Graph, UEdge>::ItemNotifier UEdgeNotifier;
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UEdgeNotifier& notifier(UEdge) const {
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return graph->notifier(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);
|
deba@2031
|
292 |
return *this;
|
deba@2031
|
293 |
}
|
deba@2031
|
294 |
};
|
deba@2031
|
295 |
|
deba@2031
|
296 |
};
|
deba@2031
|
297 |
|
deba@2031
|
298 |
/// \ingroup graph_adaptors
|
deba@2040
|
299 |
///
|
deba@2040
|
300 |
/// \brief Trivial Bipartite Undirected Graph Adaptor
|
deba@2040
|
301 |
///
|
deba@2040
|
302 |
/// Trivial Bipartite Undirected Graph Adaptor. It does not change
|
deba@2040
|
303 |
/// the functionality of the adapted graph.
|
deba@2031
|
304 |
template <typename _BpUGraph>
|
deba@2031
|
305 |
class BpUGraphAdaptor
|
deba@2031
|
306 |
: public BpUGraphAdaptorExtender< BpUGraphAdaptorBase<_BpUGraph> > {
|
deba@2031
|
307 |
public:
|
deba@2031
|
308 |
typedef _BpUGraph Graph;
|
deba@2031
|
309 |
typedef BpUGraphAdaptorExtender<BpUGraphAdaptorBase<_BpUGraph> > Parent;
|
deba@2031
|
310 |
protected:
|
deba@2031
|
311 |
BpUGraphAdaptor() : Parent() {}
|
deba@2031
|
312 |
|
deba@2031
|
313 |
public:
|
deba@2031
|
314 |
explicit BpUGraphAdaptor(Graph& _graph) { setGraph(_graph); }
|
deba@2031
|
315 |
};
|
deba@2031
|
316 |
|
deba@2031
|
317 |
template <typename _BpUGraph>
|
deba@2031
|
318 |
class SwapBpUGraphAdaptorBase : public BpUGraphAdaptorBase<_BpUGraph> {
|
deba@2031
|
319 |
public:
|
deba@2031
|
320 |
|
deba@2031
|
321 |
typedef _BpUGraph Graph;
|
deba@2031
|
322 |
typedef BpUGraphAdaptorBase<_BpUGraph> Parent;
|
deba@2031
|
323 |
|
deba@2031
|
324 |
protected:
|
deba@2031
|
325 |
|
deba@2031
|
326 |
SwapBpUGraphAdaptorBase() {}
|
deba@2031
|
327 |
|
deba@2031
|
328 |
public:
|
deba@2031
|
329 |
|
deba@2031
|
330 |
typedef typename Parent::Node Node;
|
deba@2031
|
331 |
typedef typename Parent::BNode ANode;
|
deba@2031
|
332 |
typedef typename Parent::ANode BNode;
|
deba@2040
|
333 |
typedef typename Parent::Edge Edge;
|
deba@2040
|
334 |
typedef typename Parent::UEdge UEdge;
|
deba@2040
|
335 |
|
deba@2040
|
336 |
bool direction(const Edge& e) const { return !Parent::direction(e); }
|
deba@2040
|
337 |
Edge direct(const UEdge& e, bool b) const { return Parent::direct(e, !b); }
|
deba@2040
|
338 |
|
deba@2040
|
339 |
Node aNode(const UEdge& e) const { return Parent::bNode(e); }
|
deba@2040
|
340 |
Node bNode(const UEdge& e) const { return Parent::aNode(e); }
|
deba@2040
|
341 |
|
deba@2040
|
342 |
bool aNode(const Node& n) const { return Parent::bNode(n); }
|
deba@2040
|
343 |
bool bNode(const Node& n) const { return Parent::aNode(n); }
|
deba@2031
|
344 |
|
deba@2031
|
345 |
void firstANode(Node& i) const { Parent::firstBNode(i); }
|
deba@2031
|
346 |
void firstBNode(Node& i) const { Parent::firstANode(i); }
|
deba@2031
|
347 |
|
deba@2031
|
348 |
void nextANode(Node& i) const { Parent::nextBNode(i); }
|
deba@2031
|
349 |
void nextBNode(Node& i) const { Parent::nextANode(i); }
|
deba@2031
|
350 |
|
deba@2231
|
351 |
void firstFromANode(UEdge& i, const Node& n) const {
|
deba@2231
|
352 |
Parent::firstFromBNode(i, n);
|
deba@2231
|
353 |
}
|
deba@2231
|
354 |
void firstFromBNode(UEdge& i, const Node& n) const {
|
deba@2231
|
355 |
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@2384
|
374 |
ANodeNotifier& notifier(ANode) const {
|
deba@2384
|
375 |
return Parent::notifier(typename Parent::BNode());
|
deba@2031
|
376 |
}
|
deba@2031
|
377 |
|
deba@2031
|
378 |
typedef typename Parent::ANodeNotifier BNodeNotifier;
|
deba@2384
|
379 |
BNodeNotifier& notifier(BNode) const {
|
deba@2384
|
380 |
return Parent::notifier(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
|