deba@1791: /* -*- C++ -*-
deba@1791:  *
alpar@1956:  * This file is a part of LEMON, a generic C++ optimization library
alpar@1956:  *
alpar@1956:  * Copyright (C) 2003-2006
alpar@1956:  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
alpar@1956:  * (Egervary Research Group on Combinatorial Optimization, EGRES).
deba@1791:  *
deba@1791:  * Permission to use, modify and distribute this software is granted
deba@1791:  * provided that this copyright notice appears in all copies. For
deba@1791:  * precise terms see the accompanying LICENSE file.
deba@1791:  *
deba@1791:  * This software is provided "AS IS" with no warranty of any kind,
deba@1791:  * express or implied, and with no claim as to its suitability for any
deba@1791:  * purpose.
deba@1791:  *
deba@1791:  */
deba@1791: 
deba@1791: #ifndef LEMON_GRAPH_EXTENDER_H
deba@1791: #define LEMON_GRAPH_EXTENDER_H
deba@1791: 
deba@1791: #include <lemon/invalid.h>
deba@1820: #include <lemon/error.h>
deba@1791: 
deba@1979: #include <lemon/bits/default_map.h>
deba@1979: 
deba@1791: namespace lemon {
deba@1791: 
deba@1979:   template <typename Base>
deba@1979:   class GraphExtender : public Base {
deba@1791:   public:
deba@1791: 
deba@1979:     typedef Base Parent;
deba@1791:     typedef GraphExtender Graph;
deba@1791: 
deba@1979:     // Base extensions
deba@1979: 
deba@1791:     typedef typename Parent::Node Node;
deba@1791:     typedef typename Parent::Edge Edge;
deba@1791: 
deba@1791:     int maxId(Node) const {
deba@1791:       return Parent::maxNodeId();
deba@1791:     }
deba@1791: 
deba@1791:     int maxId(Edge) const {
deba@1791:       return Parent::maxEdgeId();
deba@1791:     }
deba@1791: 
deba@1791:     Node fromId(int id, Node) const {
deba@1791:       return Parent::nodeFromId(id);
deba@1791:     }
deba@1791: 
deba@1791:     Edge fromId(int id, Edge) const {
deba@1791:       return Parent::edgeFromId(id);
deba@1791:     }
deba@1791: 
deba@1791:     Node oppositeNode(const Node &n, const Edge &e) const {
deba@1791:       if (n == Parent::source(e))
deba@1791: 	return Parent::target(e);
deba@1791:       else if(n==Parent::target(e))
deba@1791: 	return Parent::source(e);
deba@1791:       else
deba@1791: 	return INVALID;
deba@1791:     }
deba@1791: 
deba@1979:     // Alterable extension
deba@1791: 
deba@1979:     typedef AlterationNotifier<Node> NodeNotifier;
deba@1979:     typedef AlterationNotifier<Edge> EdgeNotifier;
deba@1979: 
deba@1979: 
deba@1979:   protected:
deba@1979: 
deba@1979:     mutable NodeNotifier node_notifier;
deba@1979:     mutable EdgeNotifier edge_notifier;
deba@1791: 
deba@1791:   public:
deba@1791: 
deba@1979:     NodeNotifier& getNotifier(Node) const {
deba@1979:       return node_notifier;
deba@1979:     }
deba@1979:     
deba@1979:     EdgeNotifier& getNotifier(Edge) const {
deba@1979:       return edge_notifier;
deba@1979:     }
deba@1979: 
deba@1979:     class NodeIt : public Node { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       NodeIt() {}
deba@1979: 
deba@1979:       NodeIt(Invalid i) : Node(i) { }
deba@1979: 
deba@1979:       explicit NodeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	_graph.first(*static_cast<Node*>(this));
deba@1979:       }
deba@1979: 
deba@1979:       NodeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: Node(node), graph(&_graph) {}
deba@1979: 
deba@1979:       NodeIt& operator++() { 
deba@1979: 	graph->next(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     class EdgeIt : public Edge { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       EdgeIt() { }
deba@1979: 
deba@1979:       EdgeIt(Invalid i) : Edge(i) { }
deba@1979: 
deba@1979:       explicit EdgeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	_graph.first(*static_cast<Edge*>(this));
deba@1979:       }
deba@1979: 
deba@1979:       EdgeIt(const Graph& _graph, const Edge& e) : 
deba@1979: 	Edge(e), graph(&_graph) { }
deba@1979: 
deba@1979:       EdgeIt& operator++() { 
deba@1979: 	graph->next(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     class OutEdgeIt : public Edge { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       OutEdgeIt() { }
deba@1979: 
deba@1979:       OutEdgeIt(Invalid i) : Edge(i) { }
deba@1979: 
deba@1979:       OutEdgeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: graph(&_graph) {
deba@1979: 	_graph.firstOut(*this, node);
deba@1979:       }
deba@1979: 
deba@1979:       OutEdgeIt(const Graph& _graph, const Edge& edge) 
deba@1979: 	: Edge(edge), graph(&_graph) {}
deba@1979: 
deba@1979:       OutEdgeIt& operator++() { 
deba@1979: 	graph->nextOut(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     class InEdgeIt : public Edge { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       InEdgeIt() { }
deba@1979: 
deba@1979:       InEdgeIt(Invalid i) : Edge(i) { }
deba@1979: 
deba@1979:       InEdgeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: graph(&_graph) {
deba@1979: 	_graph.firstIn(*this, node);
deba@1979:       }
deba@1979: 
deba@1979:       InEdgeIt(const Graph& _graph, const Edge& edge) : 
deba@1979: 	Edge(edge), graph(&_graph) {}
deba@1979: 
deba@1979:       InEdgeIt& operator++() { 
deba@1979: 	graph->nextIn(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979:     /// \brief Base node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the base node (ie. the source in this case) of the iterator
deba@1979:     Node baseNode(const OutEdgeIt &e) const {
deba@1979:       return Parent::source(e);
deba@1979:     }
deba@1979:     /// \brief Running node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the running node (ie. the target in this case) of the
deba@1979:     /// iterator
deba@1979:     Node runningNode(const OutEdgeIt &e) const {
deba@1979:       return Parent::target(e);
deba@1979:     }
deba@1979: 
deba@1979:     /// \brief Base node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the base node (ie. the target in this case) of the iterator
deba@1979:     Node baseNode(const InEdgeIt &e) const {
deba@1979:       return Parent::target(e);
deba@1979:     }
deba@1979:     /// \brief Running node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the running node (ie. the source in this case) of the
deba@1979:     /// iterator
deba@1979:     Node runningNode(const InEdgeIt &e) const {
deba@1979:       return Parent::source(e);
deba@1979:     }
deba@1979: 
deba@1979:     
deba@1979:     template <typename _Value>
deba@1979:     class NodeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, Node, _Value> > {
deba@1979:     public:
deba@1979:       typedef GraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, Node, _Value> > Parent;
deba@1979: 
deba@1979:       NodeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       NodeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979: 
deba@1979:       NodeMap& operator=(const NodeMap& cmap) {
deba@1979: 	return operator=<NodeMap>(cmap);
deba@1979:       }
deba@1979: 
deba@1979: 
deba@1979:       /// \brief Template assign operator.
deba@1979:       ///
deba@1979:       /// The given parameter should be conform to the ReadMap
deba@1979:       /// concecpt and could be indiced by the current item set of
deba@1979:       /// the NodeMap. In this case the value for each item
deba@1979:       /// is assigned by the value of the given ReadMap. 
deba@1979:       template <typename CMap>
deba@1979:       NodeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<Node, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	Node it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class EdgeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, Edge, _Value> > {
deba@1979:     public:
deba@1979:       typedef GraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, Edge, _Value> > Parent;
deba@1979: 
deba@1979:       EdgeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       EdgeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979: 
deba@1979:       EdgeMap& operator=(const EdgeMap& cmap) {
deba@1979: 	return operator=<EdgeMap>(cmap);
deba@1979:       }
deba@1979: 
deba@1979:       template <typename CMap>
deba@1979:       EdgeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<Edge, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	Edge it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     Node addNode() {
deba@1979:       Node node = Parent::addNode();
deba@1979:       getNotifier(Node()).add(node);
deba@1979:       return node;
deba@1979:     }
deba@1979:     
deba@1979:     Edge addEdge(const Node& from, const Node& to) {
deba@1979:       Edge edge = Parent::addEdge(from, to);
deba@1979:       getNotifier(Edge()).add(edge);
deba@1979:       return edge;
deba@1979:     }
deba@1979: 
deba@1979:     void clear() {
deba@1979:       getNotifier(Edge()).clear();
deba@1979:       getNotifier(Node()).clear();
deba@1979:       Parent::clear();
deba@1979:     }
deba@1979: 
deba@1979: 
deba@1979:     void erase(const Node& node) {
deba@1979:       Edge edge;
deba@1979:       Parent::firstOut(edge, node);
deba@1979:       while (edge != INVALID ) {
deba@1979: 	erase(edge);
deba@1979: 	Parent::firstOut(edge, node);
deba@1979:       } 
deba@1979: 
deba@1979:       Parent::firstIn(edge, node);
deba@1979:       while (edge != INVALID ) {
deba@1979: 	erase(edge);
deba@1979: 	Parent::firstIn(edge, node);
deba@1979:       }
deba@1979: 
deba@1979:       getNotifier(Node()).erase(node);
deba@1979:       Parent::erase(node);
deba@1979:     }
deba@1979:     
deba@1979:     void erase(const Edge& edge) {
deba@1979:       getNotifier(Edge()).erase(edge);
deba@1979:       Parent::erase(edge);
deba@1979:     }
deba@1979: 
deba@1979: 
deba@1979:     ~GraphExtender() {
deba@1979:       getNotifier(Edge()).clear();
deba@1979:       getNotifier(Node()).clear();
deba@1979:     }
deba@1979:   };
deba@1979: 
deba@1979:   template <typename Base>
deba@1979:   class UGraphBaseExtender : public Base {
deba@1979: 
deba@1979:   public:
deba@1979: 
deba@1979:     typedef Base Parent;
klao@1909:     typedef typename Parent::Edge UEdge;
deba@1791:     typedef typename Parent::Node Node;
deba@1791: 
deba@1979:     typedef True UndirectedTag;
deba@1979: 
klao@1909:     class Edge : public UEdge {
deba@1979:       friend class UGraphBaseExtender;
deba@1791: 
deba@1791:     protected:
deba@1791:       bool forward;
deba@1791: 
klao@1909:       Edge(const UEdge &ue, bool _forward) :
klao@1909:         UEdge(ue), forward(_forward) {}
deba@1791: 
deba@1791:     public:
deba@1791:       Edge() {}
deba@1791: 
deba@1791:       /// Invalid edge constructor
klao@1909:       Edge(Invalid i) : UEdge(i), forward(true) {}
deba@1791: 
deba@1791:       bool operator==(const Edge &that) const {
klao@1909: 	return forward==that.forward && UEdge(*this)==UEdge(that);
deba@1791:       }
deba@1791:       bool operator!=(const Edge &that) const {
klao@1909: 	return forward!=that.forward || UEdge(*this)!=UEdge(that);
deba@1791:       }
deba@1791:       bool operator<(const Edge &that) const {
deba@1791: 	return forward<that.forward ||
klao@1909: 	  (!(that.forward<forward) && UEdge(*this)<UEdge(that));
deba@1791:       }
deba@1791:     };
deba@1791: 
deba@1791: 
deba@1791: 
deba@1791:     using Parent::source;
deba@1791: 
deba@1791:     /// Source of the given Edge.
deba@1791:     Node source(const Edge &e) const {
deba@1791:       return e.forward ? Parent::source(e) : Parent::target(e);
deba@1791:     }
deba@1791: 
deba@1791:     using Parent::target;
deba@1791: 
deba@1791:     /// Target of the given Edge.
deba@1791:     Node target(const Edge &e) const {
deba@1791:       return e.forward ? Parent::target(e) : Parent::source(e);
deba@1791:     }
deba@1791: 
deba@1791:     /// \brief Directed edge from an undirected edge.
deba@1791:     ///
klao@1909:     /// Returns a directed edge corresponding to the specified UEdge.
deba@1791:     /// If the given bool is true the given undirected edge and the
deba@1791:     /// returned edge have the same source node.
klao@1909:     Edge direct(const UEdge &ue, bool d) const {
deba@1791:       return Edge(ue, d);
deba@1791:     }
deba@1791: 
deba@1791:     /// Returns whether the given directed edge is same orientation as the
deba@1791:     /// corresponding undirected edge.
deba@1791:     ///
deba@1791:     /// \todo reference to the corresponding point of the undirected graph
deba@1791:     /// concept. "What does the direction of an undirected edge mean?"
deba@1791:     bool direction(const Edge &e) const { return e.forward; }
deba@1791: 
deba@1791: 
deba@1791:     using Parent::first;
deba@1979:     using Parent::next;
deba@1979: 
deba@1791:     void first(Edge &e) const {
deba@1791:       Parent::first(e);
deba@1791:       e.forward=true;
deba@1791:     }
deba@1791: 
deba@1791:     void next(Edge &e) const {
deba@1791:       if( e.forward ) {
deba@1791: 	e.forward = false;
deba@1791:       }
deba@1791:       else {
deba@1791: 	Parent::next(e);
deba@1791: 	e.forward = true;
deba@1791:       }
deba@1791:     }
deba@1791: 
deba@1791:     void firstOut(Edge &e, const Node &n) const {
deba@1791:       Parent::firstIn(e,n);
klao@1909:       if( UEdge(e) != INVALID ) {
deba@1791: 	e.forward = false;
deba@1791:       }
deba@1791:       else {
deba@1791: 	Parent::firstOut(e,n);
deba@1791: 	e.forward = true;
deba@1791:       }
deba@1791:     }
deba@1791:     void nextOut(Edge &e) const {
deba@1791:       if( ! e.forward ) {
deba@1791: 	Node n = Parent::target(e);
deba@1791: 	Parent::nextIn(e);
klao@1909: 	if( UEdge(e) == INVALID ) {
deba@1791: 	  Parent::firstOut(e, n);
deba@1791: 	  e.forward = true;
deba@1791: 	}
deba@1791:       }
deba@1791:       else {
deba@1791: 	Parent::nextOut(e);
deba@1791:       }
deba@1791:     }
deba@1791: 
deba@1791:     void firstIn(Edge &e, const Node &n) const {
deba@1791:       Parent::firstOut(e,n);
klao@1909:       if( UEdge(e) != INVALID ) {
deba@1791: 	e.forward = false;
deba@1791:       }
deba@1791:       else {
deba@1791: 	Parent::firstIn(e,n);
deba@1791: 	e.forward = true;
deba@1791:       }
deba@1791:     }
deba@1791:     void nextIn(Edge &e) const {
deba@1791:       if( ! e.forward ) {
deba@1791: 	Node n = Parent::source(e);
deba@1791: 	Parent::nextOut(e);
klao@1909: 	if( UEdge(e) == INVALID ) {
deba@1791: 	  Parent::firstIn(e, n);
deba@1791: 	  e.forward = true;
deba@1791: 	}
deba@1791:       }
deba@1791:       else {
deba@1791: 	Parent::nextIn(e);
deba@1791:       }
deba@1791:     }
deba@1791: 
klao@1909:     void firstInc(UEdge &e, bool &d, const Node &n) const {
deba@1791:       d = true;
deba@1791:       Parent::firstOut(e, n);
deba@1791:       if (e != INVALID) return;
deba@1791:       d = false;
deba@1791:       Parent::firstIn(e, n);
deba@1791:     }
deba@1979: 
klao@1909:     void nextInc(UEdge &e, bool &d) const {
deba@1791:       if (d) {
deba@1791: 	Node s = Parent::source(e);
deba@1791: 	Parent::nextOut(e);
deba@1791: 	if (e != INVALID) return;
deba@1791: 	d = false;
deba@1791: 	Parent::firstIn(e, s);
deba@1791:       } else {
deba@1791: 	Parent::nextIn(e);
deba@1791:       }
deba@1791:     }
deba@1791: 
deba@1979:     Node nodeFromId(int id) const {
deba@1979:       return Parent::nodeFromId(id);
deba@1979:     }
deba@1791: 
deba@1979:     Edge edgeFromId(int id) const {
deba@1979:       return direct(Parent::edgeFromId(id >> 1), bool(id & 1));
deba@1979:     }
deba@1791: 
deba@1979:     UEdge uEdgeFromId(int id) const {
deba@1979:       return Parent::edgeFromId(id >> 1);
deba@1979:     }
deba@1791: 
deba@1791:     int id(const Node &n) const {
deba@1791:       return Parent::id(n);
deba@1791:     }
deba@1791: 
klao@1909:     int id(const UEdge &e) const {
deba@1791:       return Parent::id(e);
deba@1791:     }
deba@1791: 
deba@1791:     int id(const Edge &e) const {
deba@1791:       return 2 * Parent::id(e) + int(e.forward);
deba@1791:     }
deba@1791: 
deba@1791:     int maxNodeId() const {
deba@1791:       return Parent::maxNodeId();
deba@1791:     }
deba@1791: 
deba@1791:     int maxEdgeId() const {
deba@1791:       return 2 * Parent::maxEdgeId() + 1;
deba@1791:     }
deba@1791: 
klao@1909:     int maxUEdgeId() const {
deba@1791:       return Parent::maxEdgeId();
deba@1791:     }
deba@1791: 
deba@1791: 
deba@1791:     int edgeNum() const {
deba@1791:       return 2 * Parent::edgeNum();
deba@1791:     }
deba@1791: 
klao@1909:     int uEdgeNum() const {
deba@1791:       return Parent::edgeNum();
deba@1791:     }
deba@1791: 
deba@1791:     Edge findEdge(Node source, Node target, Edge prev) const {
deba@1791:       if (prev == INVALID) {
klao@1909: 	UEdge edge = Parent::findEdge(source, target);
deba@1791: 	if (edge != INVALID) return direct(edge, true);
deba@1791: 	edge = Parent::findEdge(target, source);
deba@1791: 	if (edge != INVALID) return direct(edge, false);
deba@1791:       } else if (direction(prev)) {
klao@1909: 	UEdge edge = Parent::findEdge(source, target, prev);
deba@1791: 	if (edge != INVALID) return direct(edge, true);
deba@1791: 	edge = Parent::findEdge(target, source);
deba@1791: 	if (edge != INVALID) return direct(edge, false);	
deba@1791:       } else {
klao@1909: 	UEdge edge = Parent::findEdge(target, source, prev);
deba@1791: 	if (edge != INVALID) return direct(edge, false);	      
deba@1791:       }
deba@1791:       return INVALID;
deba@1791:     }
deba@1791: 
klao@1909:     UEdge findUEdge(Node source, Node target, UEdge prev) const {
deba@1791:       if (prev == INVALID) {
klao@1909: 	UEdge edge = Parent::findEdge(source, target);
deba@1791: 	if (edge != INVALID) return edge;
deba@1791: 	edge = Parent::findEdge(target, source);
deba@1791: 	if (edge != INVALID) return edge;
deba@1791:       } else if (Parent::source(prev) == source) {
klao@1909: 	UEdge edge = Parent::findEdge(source, target, prev);
deba@1791: 	if (edge != INVALID) return edge;
deba@1791: 	edge = Parent::findEdge(target, source);
deba@1791: 	if (edge != INVALID) return edge;	
deba@1791:       } else {
klao@1909: 	UEdge edge = Parent::findEdge(target, source, prev);
deba@1791: 	if (edge != INVALID) return edge;	      
deba@1791:       }
deba@1791:       return INVALID;
deba@1791:     }
deba@1979:   };
deba@1979: 
deba@1979: 
deba@1979:   template <typename Base> 
deba@1979:   class UGraphExtender : public Base {
deba@1979:   public:
deba@1979:     
deba@1979:     typedef Base Parent;
deba@1979:     typedef UGraphExtender Graph;
deba@1979: 
deba@1979:     typedef typename Parent::Node Node;
deba@1979:     typedef typename Parent::Edge Edge;
deba@1979:     typedef typename Parent::UEdge UEdge;
deba@1979: 
deba@1979:     // UGraph extension    
deba@1979: 
deba@1979:     int maxId(Node) const {
deba@1979:       return Parent::maxNodeId();
deba@1979:     }
deba@1979: 
deba@1979:     int maxId(Edge) const {
deba@1979:       return Parent::maxEdgeId();
deba@1979:     }
deba@1979: 
deba@1979:     int maxId(UEdge) const {
deba@1979:       return Parent::maxUEdgeId();
deba@1979:     }
deba@1979: 
deba@1979:     Node fromId(int id, Node) const {
deba@1979:       return Parent::nodeFromId(id);
deba@1979:     }
deba@1979: 
deba@1979:     Edge fromId(int id, Edge) const {
deba@1979:       return Parent::edgeFromId(id);
deba@1979:     }
deba@1979: 
deba@1979:     UEdge fromId(int id, UEdge) const {
deba@1979:       return Parent::uEdgeFromId(id);
deba@1979:     }
deba@1979: 
deba@1979:     Node oppositeNode(const Node &n, const UEdge &e) const {
deba@1979:       if( n == Parent::source(e))
deba@1979: 	return Parent::target(e);
deba@1979:       else if( n == Parent::target(e))
deba@1979: 	return Parent::source(e);
deba@1979:       else
deba@1979: 	return INVALID;
deba@1979:     }
deba@1979: 
deba@1979:     Edge oppositeEdge(const Edge &e) const {
deba@1979:       return Parent::direct(e, !Parent::direction(e));
deba@1979:     }
deba@1979: 
deba@1979:     using Parent::direct;
deba@1979:     Edge direct(const UEdge &ue, const Node &s) const {
deba@1979:       return Parent::direct(ue, Parent::source(ue) == s);
deba@1979:     }
deba@1979: 
deba@1979:     // Alterable extension
deba@1979: 
deba@1979:     typedef AlterationNotifier<Node> NodeNotifier;
deba@1979:     typedef AlterationNotifier<Edge> EdgeNotifier;
deba@1979:     typedef AlterationNotifier<UEdge> UEdgeNotifier;
deba@1979: 
deba@1979: 
deba@1979:   protected:
deba@1979: 
deba@1979:     mutable NodeNotifier node_notifier;
deba@1979:     mutable EdgeNotifier edge_notifier;
deba@1979:     mutable UEdgeNotifier uedge_notifier;
deba@1979: 
deba@1979:   public:
deba@1979: 
deba@1979:     NodeNotifier& getNotifier(Node) const {
deba@1979:       return node_notifier;
deba@1979:     }
deba@1979:     
deba@1979:     EdgeNotifier& getNotifier(Edge) const {
deba@1979:       return edge_notifier;
deba@1979:     }
deba@1979: 
deba@1979:     UEdgeNotifier& getNotifier(UEdge) const {
deba@1979:       return uedge_notifier;
deba@1979:     }
deba@1979: 
deba@1979: 
deba@1979: 
deba@1979:     class NodeIt : public Node { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       NodeIt() {}
deba@1979: 
deba@1979:       NodeIt(Invalid i) : Node(i) { }
deba@1979: 
deba@1979:       explicit NodeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	_graph.first(*static_cast<Node*>(this));
deba@1979:       }
deba@1979: 
deba@1979:       NodeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: Node(node), graph(&_graph) {}
deba@1979: 
deba@1979:       NodeIt& operator++() { 
deba@1979: 	graph->next(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     class EdgeIt : public Edge { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       EdgeIt() { }
deba@1979: 
deba@1979:       EdgeIt(Invalid i) : Edge(i) { }
deba@1979: 
deba@1979:       explicit EdgeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	_graph.first(*static_cast<Edge*>(this));
deba@1979:       }
deba@1979: 
deba@1979:       EdgeIt(const Graph& _graph, const Edge& e) : 
deba@1979: 	Edge(e), graph(&_graph) { }
deba@1979: 
deba@1979:       EdgeIt& operator++() { 
deba@1979: 	graph->next(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     class OutEdgeIt : public Edge { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       OutEdgeIt() { }
deba@1979: 
deba@1979:       OutEdgeIt(Invalid i) : Edge(i) { }
deba@1979: 
deba@1979:       OutEdgeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: graph(&_graph) {
deba@1979: 	_graph.firstOut(*this, node);
deba@1979:       }
deba@1979: 
deba@1979:       OutEdgeIt(const Graph& _graph, const Edge& edge) 
deba@1979: 	: Edge(edge), graph(&_graph) {}
deba@1979: 
deba@1979:       OutEdgeIt& operator++() { 
deba@1979: 	graph->nextOut(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     class InEdgeIt : public Edge { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       InEdgeIt() { }
deba@1979: 
deba@1979:       InEdgeIt(Invalid i) : Edge(i) { }
deba@1979: 
deba@1979:       InEdgeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: graph(&_graph) {
deba@1979: 	_graph.firstIn(*this, node);
deba@1979:       }
deba@1979: 
deba@1979:       InEdgeIt(const Graph& _graph, const Edge& edge) : 
deba@1979: 	Edge(edge), graph(&_graph) {}
deba@1979: 
deba@1979:       InEdgeIt& operator++() { 
deba@1979: 	graph->nextIn(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     class UEdgeIt : public Parent::UEdge { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979: 
deba@1979:       UEdgeIt() { }
deba@1979: 
deba@1979:       UEdgeIt(Invalid i) : UEdge(i) { }
deba@1979: 
deba@1979:       explicit UEdgeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	_graph.first(*static_cast<UEdge*>(this));
deba@1979:       }
deba@1979: 
deba@1979:       UEdgeIt(const Graph& _graph, const UEdge& e) : 
deba@1979: 	UEdge(e), graph(&_graph) { }
deba@1979: 
deba@1979:       UEdgeIt& operator++() { 
deba@1979: 	graph->next(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979:     class IncEdgeIt : public Parent::UEdge {
deba@1979:       friend class UGraphExtender;
deba@1979:       const Graph* graph;
deba@1979:       bool direction;
deba@1979:     public:
deba@1979: 
deba@1979:       IncEdgeIt() { }
deba@1979: 
deba@1979:       IncEdgeIt(Invalid i) : UEdge(i), direction(false) { }
deba@1979: 
deba@1979:       IncEdgeIt(const Graph& _graph, const Node &n) : graph(&_graph) {
deba@1979: 	_graph.firstInc(*this, direction, n);
deba@1979:       }
deba@1979: 
deba@1979:       IncEdgeIt(const Graph& _graph, const UEdge &ue, const Node &n)
deba@1979: 	: graph(&_graph), UEdge(ue) {
deba@1979: 	direction = (_graph.source(ue) == n);
deba@1979:       }
deba@1979: 
deba@1979:       IncEdgeIt& operator++() {
deba@1979: 	graph->nextInc(*this, direction);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979:     /// \brief Base node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the base node (ie. the source in this case) of the iterator
deba@1979:     Node baseNode(const OutEdgeIt &e) const {
deba@1979:       return Parent::source((Edge)e);
deba@1979:     }
deba@1979:     /// \brief Running node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the running node (ie. the target in this case) of the
deba@1979:     /// iterator
deba@1979:     Node runningNode(const OutEdgeIt &e) const {
deba@1979:       return Parent::target((Edge)e);
deba@1979:     }
deba@1979: 
deba@1979:     /// \brief Base node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the base node (ie. the target in this case) of the iterator
deba@1979:     Node baseNode(const InEdgeIt &e) const {
deba@1979:       return Parent::target((Edge)e);
deba@1979:     }
deba@1979:     /// \brief Running node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the running node (ie. the source in this case) of the
deba@1979:     /// iterator
deba@1979:     Node runningNode(const InEdgeIt &e) const {
deba@1979:       return Parent::source((Edge)e);
deba@1979:     }
deba@1979: 
deba@1979:     /// Base node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the base node of the iterator
deba@1979:     Node baseNode(const IncEdgeIt &e) const {
deba@1979:       return e.direction ? source(e) : target(e);
deba@1979:     }
deba@1979:     /// Running node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the running node of the iterator
deba@1979:     Node runningNode(const IncEdgeIt &e) const {
deba@1979:       return e.direction ? target(e) : source(e);
deba@1979:     }
deba@1979: 
deba@1979:     // Mappable extension
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class NodeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, Node, _Value> > {
deba@1979:     public:
deba@1979:       typedef UGraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, Node, _Value> > Parent;
deba@1979: 
deba@1979:       NodeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       NodeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979: 
deba@1979:       NodeMap& operator=(const NodeMap& cmap) {
deba@1979: 	return operator=<NodeMap>(cmap);
deba@1979:       }
deba@1979: 
deba@1979: 
deba@1979:       /// \brief Template assign operator.
deba@1979:       ///
deba@1979:       /// The given parameter should be conform to the ReadMap
deba@1979:       /// concecpt and could be indiced by the current item set of
deba@1979:       /// the NodeMap. In this case the value for each item
deba@1979:       /// is assigned by the value of the given ReadMap. 
deba@1979:       template <typename CMap>
deba@1979:       NodeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<Node, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	Node it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class EdgeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, Edge, _Value> > {
deba@1979:     public:
deba@1979:       typedef UGraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, Edge, _Value> > Parent;
deba@1979: 
deba@1979:       EdgeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       EdgeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979: 
deba@1979:       EdgeMap& operator=(const EdgeMap& cmap) {
deba@1979: 	return operator=<EdgeMap>(cmap);
deba@1979:       }
deba@1979: 
deba@1979:       template <typename CMap>
deba@1979:       EdgeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<Edge, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	Edge it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class UEdgeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, UEdge, _Value> > {
deba@1979:     public:
deba@1979:       typedef UGraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, UEdge, _Value> > Parent;
deba@1979: 
deba@1979:       UEdgeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       UEdgeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979: 
deba@1979:       UEdgeMap& operator=(const UEdgeMap& cmap) {
deba@1979: 	return operator=<UEdgeMap>(cmap);
deba@1979:       }
deba@1979: 
deba@1979:       template <typename CMap>
deba@1979:       UEdgeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<UEdge, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	UEdge it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979:     // Alteration extension
deba@1979: 
deba@1979:     Node addNode() {
deba@1979:       Node node = Parent::addNode();
deba@1979:       getNotifier(Node()).add(node);
deba@1979:       return node;
deba@1979:     }
deba@1979: 
deba@1979:     UEdge addEdge(const Node& from, const Node& to) {
deba@1979:       UEdge uedge = Parent::addEdge(from, to);
deba@1979:       getNotifier(UEdge()).add(uedge);
deba@1979:       getNotifier(Edge()).add(Parent::direct(uedge, true));
deba@1979:       getNotifier(Edge()).add(Parent::direct(uedge, false));
deba@1979:       return uedge;
deba@1979:     }
deba@1979:     
deba@1979:     void clear() {
deba@1979:       getNotifier(Edge()).clear();
deba@1979:       getNotifier(UEdge()).clear();
deba@1979:       getNotifier(Node()).clear();
deba@1979:       Parent::clear();
deba@1979:     }
deba@1979: 
deba@1979:     void erase(const Node& node) {
deba@1979:       Edge edge;
deba@1979:       Parent::firstOut(edge, node);
deba@1979:       while (edge != INVALID ) {
deba@1979: 	erase(edge);
deba@1979: 	Parent::firstOut(edge, node);
deba@1979:       } 
deba@1979: 
deba@1979:       Parent::firstIn(edge, node);
deba@1979:       while (edge != INVALID ) {
deba@1979: 	erase(edge);
deba@1979: 	Parent::firstIn(edge, node);
deba@1979:       }
deba@1979: 
deba@1979:       getNotifier(Node()).erase(node);
deba@1979:       Parent::erase(node);
deba@1979:     }
deba@1979: 
deba@1979:     void erase(const UEdge& uedge) {
deba@1979:       getNotifier(Edge()).erase(Parent::direct(uedge, true));
deba@1979:       getNotifier(Edge()).erase(Parent::direct(uedge, false));
deba@1979:       getNotifier(UEdge()).erase(uedge);
deba@1979:       Parent::erase(uedge);
deba@1979:     }
deba@1979: 
deba@1979:     ~UGraphExtender() {
deba@1979:       getNotifier(Edge()).clear();
deba@1979:       getNotifier(UEdge()).clear();
deba@1979:       getNotifier(Node()).clear();
deba@1979:     }
deba@1791: 
deba@1791:   };
deba@1791: 
deba@1820: 
deba@1979:   template <typename Base>
deba@1979:   class BpUGraphBaseExtender : public Base {
deba@1820:   public:
deba@1979:     typedef Base Parent;
deba@1979:     typedef BpUGraphBaseExtender Graph;
deba@1820: 
deba@1820:     typedef typename Parent::Node Node;
klao@1909:     typedef typename Parent::Edge UEdge;
deba@1820: 
deba@1979: 
deba@1820:     using Parent::first;
deba@1820:     using Parent::next;
deba@1820: 
deba@1820:     using Parent::id;
deba@1820: 
deba@1979:     class ANode : public Node {
deba@1979:       friend class BpUGraphBaseExtender;
deba@1979:     public:
deba@1979:       ANode() {}
deba@1979:       ANode(const Node& node) : Node(node) {
deba@1979: 	LEMON_ASSERT(Parent::aNode(node) || node == INVALID, 
deba@1979: 		     typename Parent::NodeSetError());
deba@1979:       }
deba@1979:       ANode(Invalid) : Node(INVALID) {}
deba@1979:     };
deba@1979: 
deba@1979:     void first(ANode& node) const {
deba@1979:       Parent::firstANode(static_cast<Node&>(node));
deba@1979:     }
deba@1979:     void next(ANode& node) const {
deba@1979:       Parent::nextANode(static_cast<Node&>(node));
deba@1979:     }
deba@1979: 
deba@1979:     int id(const ANode& node) const {
deba@1979:       return Parent::aNodeId(node);
deba@1979:     }
deba@1979: 
deba@1979:     class BNode : public Node {
deba@1979:       friend class BpUGraphBaseExtender;
deba@1979:     public:
deba@1979:       BNode() {}
deba@1979:       BNode(const Node& node) : Node(node) {
deba@1979: 	LEMON_ASSERT(Parent::bNode(node) || node == INVALID,
deba@1979: 		     typename Parent::NodeSetError());
deba@1979:       }
deba@1979:       BNode(Invalid) : Node(INVALID) {}
deba@1979:     };
deba@1979: 
deba@1979:     void first(BNode& node) const {
deba@1979:       Parent::firstBNode(static_cast<Node&>(node));
deba@1979:     }
deba@1979:     void next(BNode& node) const {
deba@1979:       Parent::nextBNode(static_cast<Node&>(node));
deba@1979:     }
deba@1979:   
deba@1979:     int id(const BNode& node) const {
deba@1979:       return Parent::aNodeId(node);
deba@1979:     }
deba@1979: 
klao@1909:     Node source(const UEdge& edge) const {
deba@1910:       return aNode(edge);
deba@1820:     }
klao@1909:     Node target(const UEdge& edge) const {
deba@1910:       return bNode(edge);
deba@1820:     }
deba@1820: 
klao@1909:     void firstInc(UEdge& edge, bool& direction, const Node& node) const {
deba@1910:       if (Parent::aNode(node)) {
deba@1910: 	Parent::firstOut(edge, node);
deba@1820: 	direction = true;
deba@1820:       } else {
deba@1910: 	Parent::firstIn(edge, node);
klao@1909: 	direction = static_cast<UEdge&>(edge) == INVALID;
deba@1820:       }
deba@1820:     }
klao@1909:     void nextInc(UEdge& edge, bool& direction) const {
deba@1820:       if (direction) {
deba@1910: 	Parent::nextOut(edge);
deba@1820:       } else {
deba@1910: 	Parent::nextIn(edge);
deba@1820: 	if (edge == INVALID) direction = true;
deba@1820:       }
deba@1820:     }
deba@1820: 
klao@1909:     int maxUEdgeId() const {
deba@1820:       return Parent::maxEdgeId();
deba@1820:     }
deba@1820: 
klao@1909:     UEdge uEdgeFromId(int id) const {
deba@1820:       return Parent::edgeFromId(id);
deba@1820:     }
deba@1820: 
klao@1909:     class Edge : public UEdge {
deba@1979:       friend class BpUGraphBaseExtender;
deba@1820:     protected:
deba@1820:       bool forward;
deba@1820: 
klao@1909:       Edge(const UEdge& edge, bool _forward)
klao@1909: 	: UEdge(edge), forward(_forward) {}
deba@1820: 
deba@1820:     public:
deba@1820:       Edge() {}
klao@1909:       Edge (Invalid) : UEdge(INVALID), forward(true) {}
deba@1820:       bool operator==(const Edge& i) const {
klao@1909: 	return UEdge::operator==(i) && forward == i.forward;
deba@1820:       }
deba@1820:       bool operator!=(const Edge& i) const {
klao@1909: 	return UEdge::operator!=(i) || forward != i.forward;
deba@1820:       }
deba@1820:       bool operator<(const Edge& i) const {
klao@1909: 	return UEdge::operator<(i) || 
klao@1909: 	  (!(i.forward<forward) && UEdge(*this)<UEdge(i));
deba@1820:       }
deba@1820:     };
deba@1820: 
deba@1820:     void first(Edge& edge) const {
klao@1909:       Parent::first(static_cast<UEdge&>(edge));
deba@1820:       edge.forward = true;
deba@1820:     }
deba@1820: 
deba@1820:     void next(Edge& edge) const {
deba@1820:       if (!edge.forward) {
klao@1909: 	Parent::next(static_cast<UEdge&>(edge));
deba@1820:       }
deba@1820:       edge.forward = !edge.forward;
deba@1820:     }
deba@1820: 
deba@1820:     void firstOut(Edge& edge, const Node& node) const {
deba@1910:       if (Parent::aNode(node)) {
deba@1910: 	Parent::firstOut(edge, node);
deba@1820: 	edge.forward = true;
deba@1820:       } else {
deba@1910: 	Parent::firstIn(edge, node);
klao@1909: 	edge.forward = static_cast<UEdge&>(edge) == INVALID;
deba@1820:       }
deba@1820:     }
deba@1820:     void nextOut(Edge& edge) const {
deba@1820:       if (edge.forward) {
deba@1910: 	Parent::nextOut(edge);
deba@1820:       } else {
deba@1910: 	Parent::nextIn(edge);
klao@1909:         edge.forward = static_cast<UEdge&>(edge) == INVALID;
deba@1820:       }
deba@1820:     }
deba@1820: 
deba@1820:     void firstIn(Edge& edge, const Node& node) const {
deba@1910:       if (Parent::bNode(node)) {
deba@1910: 	Parent::firstIn(edge, node);
deba@1820: 	edge.forward = true;	
deba@1820:       } else {
deba@1910: 	Parent::firstOut(edge, node);
klao@1909: 	edge.forward = static_cast<UEdge&>(edge) == INVALID;
deba@1820:       }
deba@1820:     }
deba@1820:     void nextIn(Edge& edge) const {
deba@1820:       if (edge.forward) {
deba@1910: 	Parent::nextIn(edge);
deba@1820:       } else {
deba@1910: 	Parent::nextOut(edge);
klao@1909: 	edge.forward = static_cast<UEdge&>(edge) == INVALID;
deba@1820:       }
deba@1820:     }
deba@1820: 
deba@1820:     Node source(const Edge& edge) const {
deba@1910:       return edge.forward ? Parent::aNode(edge) : Parent::bNode(edge);
deba@1820:     }
deba@1820:     Node target(const Edge& edge) const {
deba@1910:       return edge.forward ? Parent::bNode(edge) : Parent::aNode(edge);
deba@1820:     }
deba@1820: 
deba@1820:     int id(const Edge& edge) const {
deba@1820:       return (Parent::id(edge) << 1) + (edge.forward ? 0 : 1);
deba@1820:     }
deba@1820:     Edge edgeFromId(int id) const {
klao@1909:       return Edge(Parent::fromId(id >> 1, UEdge()), (id & 1) == 0);
deba@1820:     }
deba@1820:     int maxEdgeId() const {
klao@1909:       return (Parent::maxId(UEdge()) << 1) + 1;
deba@1820:     }
deba@1820: 
deba@1979:     bool direction(const Edge& edge) const {
deba@1979:       return edge.forward;
deba@1820:     }
deba@1820: 
deba@1979:     Edge direct(const UEdge& edge, bool direction) const {
deba@1979:       return Edge(edge, direction);
deba@1979:     }
deba@1979:   };
deba@1979: 
deba@1979:   template <typename Base>
deba@1979:   class BpUGraphExtender : public Base {
deba@1979:   public:
deba@1979:     typedef Base Parent;
deba@1979:     typedef BpUGraphExtender Graph;
deba@1979: 
deba@1979:     typedef typename Parent::Node Node;
deba@1979:     typedef typename Parent::BNode BNode;
deba@1979:     typedef typename Parent::ANode ANode;
deba@1979:     typedef typename Parent::Edge Edge;
deba@1979:     typedef typename Parent::UEdge UEdge;
deba@1979: 
deba@1979:     Node oppositeNode(const UEdge& edge, const Node& node) const {
deba@1979:       return source(edge) == node ? 
deba@1979: 	target(edge) : source(edge);
deba@1820:     }
deba@1820: 
deba@1979:     using Parent::direct;
deba@1979:     Edge direct(const UEdge& edge, const Node& node) const {
deba@1979:       return Edge(edge, node == Parent::source(edge));
deba@1820:     }
deba@1820: 
deba@1979:     Edge oppositeEdge(const Edge& edge) const {
deba@1979:       return Parent::direct(edge, !Parent::direction(edge));
deba@1979:     }
deba@1820: 
deba@1820: 
deba@1820:     int maxId(Node) const {
deba@1820:       return Parent::maxNodeId();
deba@1820:     }
deba@1910:     int maxId(BNode) const {
deba@1910:       return Parent::maxBNodeId();
deba@1820:     }
deba@1910:     int maxId(ANode) const {
deba@1910:       return Parent::maxANodeId();
deba@1820:     }
deba@1820:     int maxId(Edge) const {
deba@1979:       return Parent::maxEdgeId();
deba@1820:     }
klao@1909:     int maxId(UEdge) const {
deba@1979:       return Parent::maxUEdgeId();
deba@1820:     }
deba@1820: 
deba@1820: 
deba@1820:     Node fromId(int id, Node) const {
deba@1820:       return Parent::nodeFromId(id);
deba@1820:     }
deba@1910:     ANode fromId(int id, ANode) const {
deba@1910:       return Parent::fromANodeId(id);
deba@1820:     }
deba@1910:     BNode fromId(int id, BNode) const {
deba@1910:       return Parent::fromBNodeId(id);
deba@1820:     }
deba@1820:     Edge fromId(int id, Edge) const {
deba@1979:       return Parent::edgeFromId(id);
deba@1820:     }
klao@1909:     UEdge fromId(int id, UEdge) const {
deba@1979:       return Parent::uEdgeFromId(id);
deba@1979:     }  
deba@1979:   
deba@1979:     typedef AlterationNotifier<Node> NodeNotifier;
deba@1979:     typedef AlterationNotifier<BNode> BNodeNotifier;
deba@1979:     typedef AlterationNotifier<ANode> ANodeNotifier;
deba@1979:     typedef AlterationNotifier<Edge> EdgeNotifier;
deba@1979:     typedef AlterationNotifier<UEdge> UEdgeNotifier;
deba@1979: 
deba@1979:   protected:
deba@1979: 
deba@1979:     mutable NodeNotifier nodeNotifier;
deba@1979:     mutable BNodeNotifier bNodeNotifier;
deba@1979:     mutable ANodeNotifier aNodeNotifier;
deba@1979:     mutable EdgeNotifier edgeNotifier;
deba@1979:     mutable UEdgeNotifier uEdgeNotifier;
deba@1979: 
deba@1979:   public:
deba@1979: 
deba@1979:     NodeNotifier& getNotifier(Node) const {
deba@1979:       return nodeNotifier;
deba@1820:     }
deba@1820: 
deba@1979:     BNodeNotifier& getNotifier(BNode) const {
deba@1979:       return bNodeNotifier;
deba@1979:     }
deba@1979: 
deba@1979:     ANodeNotifier& getNotifier(ANode) const {
deba@1979:       return aNodeNotifier;
deba@1979:     }
deba@1979: 
deba@1979:     EdgeNotifier& getNotifier(Edge) const {
deba@1979:       return edgeNotifier;
deba@1979:     }
deba@1979: 
deba@1979:     UEdgeNotifier& getNotifier(UEdge) const {
deba@1979:       return uEdgeNotifier;
deba@1979:     }
deba@1979: 
deba@1979:     ~BpUGraphExtender() {
deba@1979:       getNotifier(UEdge()).clear();
deba@1979:       getNotifier(Edge()).clear();
deba@1979:       getNotifier(ANode()).clear();
deba@1979:       getNotifier(BNode()).clear();
deba@1979:       getNotifier(Node()).clear();
deba@1979:     }
deba@1979: 
deba@1979:   
deba@1979:     class NodeIt : public Node { 
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979:     
deba@1979:       NodeIt() { }
deba@1979:     
deba@1979:       NodeIt(Invalid i) : Node(INVALID) { }
deba@1979:     
deba@1979:       explicit NodeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	graph->first(static_cast<Node&>(*this));
deba@1979:       }
deba@1979: 
deba@1979:       NodeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: Node(node), graph(&_graph) { }
deba@1979:     
deba@1979:       NodeIt& operator++() { 
deba@1979: 	graph->next(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979:     class ANodeIt : public Node { 
deba@1979:       friend class BpUGraphExtender;
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979:     
deba@1979:       ANodeIt() { }
deba@1979:     
deba@1979:       ANodeIt(Invalid i) : Node(INVALID) { }
deba@1979:     
deba@1979:       explicit ANodeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	graph->firstANode(static_cast<Node&>(*this));
deba@1979:       }
deba@1979: 
deba@1979:       ANodeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: Node(node), graph(&_graph) {}
deba@1979:     
deba@1979:       ANodeIt& operator++() { 
deba@1979: 	graph->nextANode(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979:     class BNodeIt : public Node { 
deba@1979:       friend class BpUGraphExtender;
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979:     
deba@1979:       BNodeIt() { }
deba@1979:     
deba@1979:       BNodeIt(Invalid i) : Node(INVALID) { }
deba@1979:     
deba@1979:       explicit BNodeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	graph->firstBNode(static_cast<Node&>(*this));
deba@1979:       }
deba@1979: 
deba@1979:       BNodeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: Node(node), graph(&_graph) {}
deba@1979:     
deba@1979:       BNodeIt& operator++() { 
deba@1979: 	graph->nextBNode(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979:     class EdgeIt : public Edge { 
deba@1979:       friend class BpUGraphExtender;
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979:     
deba@1979:       EdgeIt() { }
deba@1979:     
deba@1979:       EdgeIt(Invalid i) : Edge(INVALID) { }
deba@1979:     
deba@1979:       explicit EdgeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	graph->first(static_cast<Edge&>(*this));
deba@1979:       }
deba@1979: 
deba@1979:       EdgeIt(const Graph& _graph, const Edge& edge) 
deba@1979: 	: Edge(edge), graph(&_graph) { }
deba@1979:     
deba@1979:       EdgeIt& operator++() { 
deba@1979: 	graph->next(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979:     class UEdgeIt : public UEdge { 
deba@1979:       friend class BpUGraphExtender;
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979:     
deba@1979:       UEdgeIt() { }
deba@1979:     
deba@1979:       UEdgeIt(Invalid i) : UEdge(INVALID) { }
deba@1979:     
deba@1979:       explicit UEdgeIt(const Graph& _graph) : graph(&_graph) {
deba@1979: 	graph->first(static_cast<UEdge&>(*this));
deba@1979:       }
deba@1979: 
deba@1979:       UEdgeIt(const Graph& _graph, const UEdge& edge) 
deba@1979: 	: UEdge(edge), graph(&_graph) { }
deba@1979:     
deba@1979:       UEdgeIt& operator++() { 
deba@1979: 	graph->next(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979:     class OutEdgeIt : public Edge { 
deba@1979:       friend class BpUGraphExtender;
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979:     
deba@1979:       OutEdgeIt() { }
deba@1979:     
deba@1979:       OutEdgeIt(Invalid i) : Edge(i) { }
deba@1979:     
deba@1979:       OutEdgeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: graph(&_graph) {
deba@1979: 	graph->firstOut(*this, node);
deba@1979:       }
deba@1979:     
deba@1979:       OutEdgeIt(const Graph& _graph, const Edge& edge) 
deba@1979: 	: Edge(edge), graph(&_graph) {}
deba@1979:     
deba@1979:       OutEdgeIt& operator++() { 
deba@1979: 	graph->nextOut(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979:     class InEdgeIt : public Edge { 
deba@1979:       friend class BpUGraphExtender;
deba@1979:       const Graph* graph;
deba@1979:     public:
deba@1979:     
deba@1979:       InEdgeIt() { }
deba@1979:     
deba@1979:       InEdgeIt(Invalid i) : Edge(i) { }
deba@1979:     
deba@1979:       InEdgeIt(const Graph& _graph, const Node& node) 
deba@1979: 	: graph(&_graph) {
deba@1979: 	graph->firstIn(*this, node);
deba@1979:       }
deba@1979:     
deba@1979:       InEdgeIt(const Graph& _graph, const Edge& edge) : 
deba@1979: 	Edge(edge), graph(&_graph) {}
deba@1979:     
deba@1979:       InEdgeIt& operator++() { 
deba@1979: 	graph->nextIn(*this);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979: 
deba@1979:     };
deba@1979:   
deba@1979:     /// \brief Base node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the base node (ie. the source in this case) of the iterator
deba@1979:     Node baseNode(const OutEdgeIt &e) const {
deba@1979:       return Parent::source((Edge&)e);
deba@1979:     }
deba@1979:     /// \brief Running node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the running node (ie. the target in this case) of the
deba@1979:     /// iterator
deba@1979:     Node runningNode(const OutEdgeIt &e) const {
deba@1979:       return Parent::target((Edge&)e);
deba@1979:     }
deba@1979:   
deba@1979:     /// \brief Base node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the base node (ie. the target in this case) of the iterator
deba@1979:     Node baseNode(const InEdgeIt &e) const {
deba@1979:       return Parent::target((Edge&)e);
deba@1979:     }
deba@1979:     /// \brief Running node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the running node (ie. the source in this case) of the
deba@1979:     /// iterator
deba@1979:     Node runningNode(const InEdgeIt &e) const {
deba@1979:       return Parent::source((Edge&)e);
deba@1979:     }
deba@1979:   
deba@1979:     class IncEdgeIt : public Parent::UEdge { 
deba@1979:       friend class BpUGraphExtender;
deba@1979:       const Graph* graph;
deba@1979:       bool direction;
deba@1979:     public:
deba@1979:     
deba@1979:       IncEdgeIt() { }
deba@1979:     
deba@1979:       IncEdgeIt(Invalid i) : UEdge(i), direction(true) { }
deba@1979:     
deba@1979:       IncEdgeIt(const Graph& _graph, const Node &n) : graph(&_graph) {
deba@1979: 	graph->firstInc(*this, direction, n);
deba@1979:       }
deba@1979: 
deba@1979:       IncEdgeIt(const Graph& _graph, const UEdge &ue, const Node &n)
deba@1979: 	: graph(&_graph), UEdge(ue) {
deba@1979: 	direction = (graph->source(ue) == n);
deba@1979:       }
deba@1979: 
deba@1979:       IncEdgeIt& operator++() {
deba@1979: 	graph->nextInc(*this, direction);
deba@1979: 	return *this; 
deba@1979:       }
deba@1979:     };
deba@1979:   
deba@1979: 
deba@1979:     /// Base node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the base node of the iterator
deba@1979:     Node baseNode(const IncEdgeIt &e) const {
deba@1979:       return e.direction ? source(e) : target(e);
deba@1979:     }
deba@1979: 
deba@1979:     /// Running node of the iterator
deba@1979:     ///
deba@1979:     /// Returns the running node of the iterator
deba@1979:     Node runningNode(const IncEdgeIt &e) const {
deba@1979:       return e.direction ? target(e) : source(e);
deba@1979:     }
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class ANodeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, ANode, _Value> > {
deba@1979:     public:
deba@1979:       typedef BpUGraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, ANode, _Value> > 
deba@1979:       Parent;
deba@1979:     
deba@1979:       ANodeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       ANodeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979:     
deba@1979:       ANodeMap& operator=(const ANodeMap& cmap) {
deba@1979: 	return operator=<ANodeMap>(cmap);
deba@1979:       }
deba@1979:     
deba@1979: 
deba@1979:       /// \brief Template assign operator.
deba@1979:       ///
deba@1979:       /// The given parameter should be conform to the ReadMap
deba@1979:       /// concept and could be indiced by the current item set of
deba@1979:       /// the ANodeMap. In this case the value for each item
deba@1979:       /// is assigned by the value of the given ReadMap. 
deba@1979:       template <typename CMap>
deba@1979:       ANodeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<ANode, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	ANode it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979:     
deba@1979:     };
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class BNodeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, BNode, _Value> > {
deba@1979:     public:
deba@1979:       typedef BpUGraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, BNode, _Value> > 
deba@1979:       Parent;
deba@1979:     
deba@1979:       BNodeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       BNodeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979:     
deba@1979:       BNodeMap& operator=(const BNodeMap& cmap) {
deba@1979: 	return operator=<BNodeMap>(cmap);
deba@1979:       }
deba@1979:     
deba@1979: 
deba@1979:       /// \brief Template assign operator.
deba@1979:       ///
deba@1979:       /// The given parameter should be conform to the ReadMap
deba@1979:       /// concept and could be indiced by the current item set of
deba@1979:       /// the BNodeMap. In this case the value for each item
deba@1979:       /// is assigned by the value of the given ReadMap. 
deba@1979:       template <typename CMap>
deba@1979:       BNodeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<BNode, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	BNode it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979:     
deba@1979:     };
deba@1979: 
deba@1979:   protected:
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class NodeMapBase : public NodeNotifier::ObserverBase {
deba@1979:     public:
deba@1979:       typedef BpUGraphExtender Graph;
deba@1979: 
deba@1979:       typedef Node Key;
deba@1979:       typedef _Value Value;
deba@1979: 
deba@1979:       /// The reference type of the map;
deba@1979:       typedef typename BNodeMap<_Value>::Reference Reference;
deba@1979:       /// The pointer type of the map;
deba@1979:       typedef typename BNodeMap<_Value>::Pointer Pointer;
deba@1979:       
deba@1979:       /// The const value type of the map.
deba@1979:       typedef const Value ConstValue;
deba@1979:       /// The const reference type of the map;
deba@1979:       typedef typename BNodeMap<_Value>::ConstReference ConstReference;
deba@1979:       /// The pointer type of the map;
deba@1979:       typedef typename BNodeMap<_Value>::ConstPointer ConstPointer;
deba@1979: 
deba@1979:       typedef True ReferenceMapTag;
deba@1979: 
deba@1979:       NodeMapBase(const Graph& _g) 
deba@1979: 	: graph(&_g), bNodeMap(_g), aNodeMap(_g) {
deba@1979: 	NodeNotifier::ObserverBase::attach(_g.getNotifier(Node()));
deba@1979:       }
deba@1979:       NodeMapBase(const Graph& _g, const _Value& _v) 
deba@1979: 	: graph(&_g), bNodeMap(_g, _v), 
deba@1979: 	  aNodeMap(_g, _v) {
deba@1979: 	NodeNotifier::ObserverBase::attach(_g.getNotifier(Node()));
deba@1979:       }
deba@1979: 
deba@1979:       virtual ~NodeMapBase() {      
deba@1979: 	if (NodeNotifier::ObserverBase::attached()) {
deba@1979:           NodeNotifier::ObserverBase::detach();
deba@1979: 	}
deba@1979:       }
deba@1979:     
deba@1979:       ConstReference operator[](const Key& node) const {
deba@1979: 	if (Parent::aNode(node)) {
deba@1979: 	  return aNodeMap[node];
deba@1979: 	} else {
deba@1979: 	  return bNodeMap[node];
deba@1979: 	}
deba@1979:       } 
deba@1979: 
deba@1979:       Reference operator[](const Key& node) {
deba@1979: 	if (Parent::aNode(node)) {
deba@1979: 	  return aNodeMap[node];
deba@1979: 	} else {
deba@1979: 	  return bNodeMap[node];
deba@1979: 	}
deba@1979:       }
deba@1979: 
deba@1979:       void set(const Key& node, const Value& value) {
deba@1979: 	if (Parent::aNode(node)) {
deba@1979: 	  aNodeMap.set(node, value);
deba@1979: 	} else {
deba@1979: 	  bNodeMap.set(node, value);
deba@1979: 	}
deba@1979:       }
deba@1979: 
deba@1979:     protected:
deba@1979:       
deba@1979:       virtual void add(const Node&) {}
deba@1979:       virtual void add(const std::vector<Node>&) {}
deba@1979:       virtual void erase(const Node&) {}
deba@1979:       virtual void erase(const std::vector<Node>&) {}
deba@1979:       virtual void clear() {}
deba@1979:       virtual void build() {}
deba@1979: 
deba@1979:       const Graph* getGraph() const { return graph; }
deba@1979:       
deba@1979:     private:
deba@1979:       const Graph* graph;
deba@1979:       BNodeMap<_Value> bNodeMap;
deba@1979:       ANodeMap<_Value> aNodeMap;
deba@1979:     };
deba@1979:     
deba@1979:   public:
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class NodeMap 
deba@1979:       : public IterableMapExtender<NodeMapBase<_Value> > {
deba@1979:     public:
deba@1979:       typedef BpUGraphExtender Graph;
deba@1979:       typedef IterableMapExtender< NodeMapBase<_Value> > Parent;
deba@1979:     
deba@1979:       NodeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       NodeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979:     
deba@1979:       NodeMap& operator=(const NodeMap& cmap) {
deba@1979: 	return operator=<NodeMap>(cmap);
deba@1979:       }
deba@1979:     
deba@1979: 
deba@1979:       /// \brief Template assign operator.
deba@1979:       ///
deba@1979:       /// The given parameter should be conform to the ReadMap
deba@1979:       /// concept and could be indiced by the current item set of
deba@1979:       /// the NodeMap. In this case the value for each item
deba@1979:       /// is assigned by the value of the given ReadMap. 
deba@1979:       template <typename CMap>
deba@1979:       NodeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<Node, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	Node it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979:     
deba@1979:     };
deba@1979: 
deba@1979: 
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class EdgeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, Edge, _Value> > {
deba@1979:     public:
deba@1979:       typedef BpUGraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, Edge, _Value> > Parent;
deba@1979:     
deba@1979:       EdgeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       EdgeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979:     
deba@1979:       EdgeMap& operator=(const EdgeMap& cmap) {
deba@1979: 	return operator=<EdgeMap>(cmap);
deba@1979:       }
deba@1979:     
deba@1979:       template <typename CMap>
deba@1979:       EdgeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<Edge, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	Edge it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979:     template <typename _Value>
deba@1979:     class UEdgeMap 
deba@1979:       : public IterableMapExtender<DefaultMap<Graph, UEdge, _Value> > {
deba@1979:     public:
deba@1979:       typedef BpUGraphExtender Graph;
deba@1979:       typedef IterableMapExtender<DefaultMap<Graph, UEdge, _Value> > 
deba@1979:       Parent;
deba@1979:     
deba@1979:       UEdgeMap(const Graph& _g) 
deba@1979: 	: Parent(_g) {}
deba@1979:       UEdgeMap(const Graph& _g, const _Value& _v) 
deba@1979: 	: Parent(_g, _v) {}
deba@1979:     
deba@1979:       UEdgeMap& operator=(const UEdgeMap& cmap) {
deba@1979: 	return operator=<UEdgeMap>(cmap);
deba@1979:       }
deba@1979:     
deba@1979:       template <typename CMap>
deba@1979:       UEdgeMap& operator=(const CMap& cmap) {
deba@1979: 	checkConcept<concept::ReadMap<UEdge, _Value>, CMap>();
deba@1979: 	const typename Parent::Graph* graph = Parent::getGraph();
deba@1979: 	UEdge it;
deba@1979: 	for (graph->first(it); it != INVALID; graph->next(it)) {
deba@1979: 	  Parent::set(it, cmap[it]);
deba@1979: 	}
deba@1979: 	return *this;
deba@1979:       }
deba@1979:     };
deba@1979: 
deba@1979:   
deba@1979:     Node addANode() {
deba@1979:       Node node = Parent::addANode();
deba@1979:       getNotifier(ANode()).add(node);
deba@1979:       getNotifier(Node()).add(node);
deba@1979:       return node;
deba@1979:     }
deba@1979: 
deba@1979:     Node addBNode() {
deba@1979:       Node node = Parent::addBNode();
deba@1979:       getNotifier(BNode()).add(node);
deba@1979:       getNotifier(Node()).add(node);
deba@1979:       return node;
deba@1979:     }
deba@1979:   
deba@1979:     UEdge addEdge(const Node& source, const Node& target) {
deba@1979:       UEdge uedge = Parent::addEdge(source, target);
deba@1979:       getNotifier(UEdge()).add(uedge);
deba@1979:     
deba@1979:       std::vector<Edge> edges;
deba@1979:       edges.push_back(direct(uedge, true));
deba@1979:       edges.push_back(direct(uedge, false));
deba@1979:       getNotifier(Edge()).add(edges);
deba@1979:     
deba@1979:       return uedge;
deba@1979:     }
deba@1979: 
deba@1979:     void clear() {
deba@1979:       getNotifier(Edge()).clear();
deba@1979:       getNotifier(UEdge()).clear();
deba@1979:       getNotifier(Node()).clear();
deba@1979:       getNotifier(BNode()).clear();
deba@1979:       getNotifier(ANode()).clear();
deba@1979:       Parent::clear();
deba@1979:     }
deba@1979: 
deba@1979:     void erase(const Node& node) {
deba@1979:       UEdge uedge;
deba@1979:       bool dir;
deba@1979:       Parent::firstInc(uedge, dir, node);
deba@1979:       while (uedge != INVALID ) {
deba@1979: 	erase(uedge);
deba@1979: 	Parent::firstInc(uedge, dir, node);
deba@1979:       } 
deba@1979: 
deba@1979:       getNotifier(Node()).erase(node);
deba@1979:       Parent::erase(node);
deba@1979:     }
deba@1979:     
deba@1979:     void erase(const UEdge& uedge) {
deba@1979:       std::vector<Edge> edges;
deba@1979:       edges.push_back(direct(uedge, true));
deba@1979:       edges.push_back(direct(uedge, false));
deba@1979:       getNotifier(Edge()).erase(edges);
deba@1979:       getNotifier(UEdge()).erase(uedge);
deba@1979:       Parent::erase(uedge);
deba@1979:     }
deba@1979: 
deba@1979: 
deba@1979:     ~BpUGraphExtender() {
deba@1979:       getNotifier(Edge()).clear();
deba@1979:       getNotifier(UEdge()).clear();
deba@1979:       getNotifier(Node()).clear();
deba@1979:       getNotifier(BNode()).clear();
deba@1979:       getNotifier(ANode()).clear();
deba@1979:     }
deba@1979: 
deba@1979: 
deba@1820:   };
deba@1820: 
deba@1791: }
deba@1791: 
deba@1791: #endif // LEMON_UNDIR_GRAPH_EXTENDER_H