lemon-0.x: lemon/ugraph_adaptor.h@8acf212a5ed4 (annotated)

deba@1979	1	/* -- C++ --
deba@1979	2	*
deba@1979	3	* This file is a part of LEMON, a generic C++ optimization library
deba@1979	4	*
deba@1979	5	* Copyright (C) 2003-2006
deba@1979	6	* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
deba@1979	7	* (Egervary Research Group on Combinatorial Optimization, EGRES).
deba@1979	8	*
deba@1979	9	* Permission to use, modify and distribute this software is granted
deba@1979	10	* provided that this copyright notice appears in all copies. For
deba@1979	11	* precise terms see the accompanying LICENSE file.
deba@1979	12	*
deba@1979	13	* This software is provided "AS IS" with no warranty of any kind,
deba@1979	14	* express or implied, and with no claim as to its suitability for any
deba@1979	15	* purpose.
deba@1979	16	*
deba@1979	17	*/
deba@1979	18
deba@1979	19	#ifndef LEMON_UGRAPH_ADAPTOR_H
deba@1979	20	#define LEMON_UGRAPH_ADAPTOR_H
deba@1979	21
deba@1979	22	///\ingroup graph_adaptors
deba@1979	23	///\file
deba@1979	24	///\brief Several graph adaptors.
deba@1979	25	///
deba@1979	26	///This file contains several useful ugraph adaptor functions.
deba@1979	27	///
deba@1979	28	///\author Balazs Dezso
deba@1979	29
deba@1993	30	#include <lemon/bits/invalid.h>
deba@1979	31	#include <lemon/maps.h>
deba@1979	32
deba@1979	33	#include <lemon/bits/graph_adaptor_extender.h>
deba@1979	34
deba@1993	35	#include <lemon/bits/traits.h>
deba@1979	36
deba@1979	37	#include <iostream>
deba@1979	38
deba@1979	39	namespace lemon {
deba@1979	40
deba@1979	41	/// \ingroup graph_adaptors
deba@1979	42	///
deba@1979	43	/// \brief Base type for the Graph Adaptors
deba@1979	44	///
deba@1979	45	/// This is the base type for most of LEMON graph adaptors.
deba@1979	46	/// This class implements a trivial graph adaptor i.e. it only wraps the
deba@1979	47	/// functions and types of the graph. The purpose of this class is to
deba@1979	48	/// make easier implementing graph adaptors. E.g. if an adaptor is
deba@1979	49	/// considered which differs from the wrapped graph only in some of its
deba@1979	50	/// functions or types, then it can be derived from GraphAdaptor, and only
deba@1979	51	/// the differences should be implemented.
deba@1979	52	///
deba@1979	53	/// \author Balazs Dezso
deba@1979	54	template<typename _UGraph>
deba@1979	55	class UGraphAdaptorBase {
deba@1979	56	public:
deba@1979	57	typedef _UGraph Graph;
deba@1979	58	typedef Graph ParentGraph;
deba@1979	59
deba@1979	60	protected:
deba@1979	61	Graph* graph;
deba@1979	62
deba@1979	63	UGraphAdaptorBase() : graph(0) {}
deba@1979	64
deba@1979	65	void setGraph(Graph& _graph) { graph=&_graph; }
deba@1979	66
deba@1979	67	public:
deba@1979	68	UGraphAdaptorBase(Graph& _graph) : graph(&_graph) {}
deba@1979	69
deba@1979	70	typedef typename Graph::Node Node;
deba@1979	71	typedef typename Graph::Edge Edge;
deba@1979	72	typedef typename Graph::UEdge UEdge;
deba@1979	73
deba@1979	74	void first(Node& i) const { graph->first(i); }
deba@1979	75	void first(Edge& i) const { graph->first(i); }
deba@1979	76	void first(UEdge& i) const { graph->first(i); }
deba@1979	77	void firstIn(Edge& i, const Node& n) const { graph->firstIn(i, n); }
deba@1979	78	void firstOut(Edge& i, const Node& n ) const { graph->firstOut(i, n); }
deba@1979	79	void firstInc(UEdge &i, bool &d, const Node &n) const {
deba@1979	80	graph->firstInc(i, d, n);
deba@1979	81	}
deba@1979	82
deba@1979	83	void next(Node& i) const { graph->next(i); }
deba@1979	84	void next(Edge& i) const { graph->next(i); }
deba@1979	85	void next(UEdge& i) const { graph->next(i); }
deba@1979	86	void nextIn(Edge& i) const { graph->nextIn(i); }
deba@1979	87	void nextOut(Edge& i) const { graph->nextOut(i); }
deba@1979	88	void nextInc(UEdge &i, bool &d) const { graph->nextInc(i, d); }
deba@1979	89
deba@1979	90	Node source(const UEdge& e) const { return graph->source(e); }
deba@1979	91	Node target(const UEdge& e) const { return graph->target(e); }
deba@1979	92
deba@1979	93	Node source(const Edge& e) const { return graph->source(e); }
deba@1979	94	Node target(const Edge& e) const { return graph->target(e); }
deba@1979	95
deba@1979	96	typedef NodeNumTagIndicator<Graph> NodeNumTag;
deba@1979	97	int nodeNum() const { return graph->nodeNum(); }
deba@1979	98
deba@1979	99	typedef EdgeNumTagIndicator<Graph> EdgeNumTag;
deba@1979	100	int edgeNum() const { return graph->edgeNum(); }
deba@2031	101	int uEdgeNum() const { return graph->uEdgeNum(); }
deba@1979	102
deba@1979	103	typedef FindEdgeTagIndicator<Graph> FindEdgeTag;
deba@1979	104	Edge findEdge(const Node& source, const Node& target,
deba@1979	105	const Edge& prev = INVALID) {
deba@1979	106	return graph->findEdge(source, target, prev);
deba@1979	107	}
deba@1979	108	UEdge findUEdge(const Node& source, const Node& target,
deba@1979	109	const UEdge& prev = INVALID) {
deba@1979	110	return graph->findUEdge(source, target, prev);
deba@1979	111	}
deba@1979	112
deba@1979	113	Node addNode() const { return graph->addNode(); }
deba@1979	114	UEdge addEdge(const Node& source, const Node& target) const {
deba@1979	115	return graph->addEdge(source, target);
deba@1979	116	}
deba@1979	117
deba@1979	118	void erase(const Node& i) const { graph->erase(i); }
deba@2031	119	void erase(const UEdge& i) const { graph->erase(i); }
deba@1979	120
deba@1979	121	void clear() const { graph->clear(); }
deba@1979	122
deba@2031	123	bool direction(const Edge& e) const { return graph->direction(e); }
deba@2031	124	Edge direct(const UEdge& e, bool d) const { return graph->direct(e, d); }
deba@2031	125
deba@1979	126	int id(const Node& v) const { return graph->id(v); }
deba@2031	127	int id(const Edge& e) const { return graph->id(e); }
deba@1979	128	int id(const UEdge& e) const { return graph->id(e); }
deba@1979	129
deba@2031	130	Node fromNodeId(int id) const {
deba@2031	131	return graph->fromNodeId(id);
deba@2031	132	}
deba@2031	133
deba@2031	134	Edge fromEdgeId(int id) const {
deba@2031	135	return graph->fromEdgeId(id);
deba@2031	136	}
deba@2031	137
deba@2031	138	UEdge fromUEdgeId(int id) const {
deba@2031	139	return graph->fromUEdgeId(id);
deba@2031	140	}
deba@1991	141
deba@1991	142	int maxNodeId() const {
deba@1991	143	return graph->maxNodeId();
deba@1979	144	}
deba@1979	145
deba@1991	146	int maxEdgeId() const {
deba@1991	147	return graph->maxEdgeId();
deba@1979	148	}
deba@1979	149
deba@1991	150	int maxUEdgeId() const {
deba@1991	151	return graph->maxEdgeId();
deba@1979	152	}
deba@1979	153
deba@1991	154	typedef typename ItemSetTraits<Graph, Node>::ItemNotifier NodeNotifier;
deba@1991	155
deba@1991	156	NodeNotifier& getNotifier(Node) const {
deba@1991	157	return graph->getNotifier(Node());
deba@1991	158	}
deba@1991	159
deba@1991	160	typedef typename ItemSetTraits<Graph, Edge>::ItemNotifier EdgeNotifier;
deba@1991	161
deba@1991	162	EdgeNotifier& getNotifier(Edge) const {
deba@1991	163	return graph->getNotifier(Edge());
deba@1991	164	}
deba@1991	165
deba@1991	166	typedef typename ItemSetTraits<Graph, UEdge>::ItemNotifier UEdgeNotifier;
deba@1991	167
deba@1991	168	UEdgeNotifier& getNotifier(UEdge) const {
deba@1991	169	return graph->getNotifier(UEdge());
deba@1991	170	}
deba@1979	171
deba@1979	172	template <typename _Value>
deba@1979	173	class NodeMap : public Graph::template NodeMap<_Value> {
deba@1979	174	public:
deba@1979	175	typedef typename Graph::template NodeMap<_Value> Parent;
deba@1979	176	explicit NodeMap(const UGraphAdaptorBase<Graph>& ga)
deba@1979	177	: Parent(*ga.graph) {}
deba@1979	178	NodeMap(const UGraphAdaptorBase<Graph>& ga, const _Value& value)
deba@1979	179	: Parent(*ga.graph, value) {}
deba@1979	180
deba@1979	181	NodeMap& operator=(const NodeMap& cmap) {
deba@1979	182	return operator=<NodeMap>(cmap);
deba@1979	183	}
deba@1979	184
deba@1979	185	template <typename CMap>
deba@1979	186	NodeMap& operator=(const CMap& cmap) {
deba@2031	187	Parent::operator=(cmap);
deba@2031	188	return *this;
deba@1979	189	}
deba@2031	190
deba@1979	191	};
deba@1979	192
deba@1979	193	template <typename _Value>
deba@1979	194	class EdgeMap : public Graph::template EdgeMap<_Value> {
deba@1979	195	public:
deba@1979	196	typedef typename Graph::template EdgeMap<_Value> Parent;
deba@1979	197	explicit EdgeMap(const UGraphAdaptorBase<Graph>& ga)
deba@1979	198	: Parent(*ga.graph) {}
deba@1979	199	EdgeMap(const UGraphAdaptorBase<Graph>& ga, const _Value& value)
deba@1979	200	: Parent(*ga.graph, value) {}
deba@1979	201
deba@1979	202	EdgeMap& operator=(const EdgeMap& cmap) {
deba@1979	203	return operator=<EdgeMap>(cmap);
deba@1979	204	}
deba@1979	205
deba@1979	206	template <typename CMap>
deba@1979	207	EdgeMap& operator=(const CMap& cmap) {
deba@2031	208	Parent::operator=(cmap);
deba@1979	209	return *this;
deba@1979	210	}
deba@1979	211	};
deba@1979	212
deba@1979	213	template <typename _Value>
deba@1979	214	class UEdgeMap : public Graph::template UEdgeMap<_Value> {
deba@1979	215	public:
deba@1979	216	typedef typename Graph::template UEdgeMap<_Value> Parent;
deba@1979	217	explicit UEdgeMap(const UGraphAdaptorBase<Graph>& ga)
deba@1979	218	: Parent(*ga.graph) {}
deba@1979	219	UEdgeMap(const UGraphAdaptorBase<Graph>& ga, const _Value& value)
deba@1979	220	: Parent(*ga.graph, value) {}
deba@1979	221
deba@1979	222	UEdgeMap& operator=(const UEdgeMap& cmap) {
deba@1979	223	return operator=<UEdgeMap>(cmap);
deba@1979	224	}
deba@1979	225
deba@1979	226	template <typename CMap>
deba@1979	227	UEdgeMap& operator=(const CMap& cmap) {
deba@2031	228	Parent::operator=(cmap);
deba@2031	229	return *this;
deba@1979	230	}
deba@1979	231	};
deba@1979	232
deba@1979	233	};
deba@1979	234
deba@1979	235	/// \ingroup graph_adaptors
deba@1979	236	template <typename _UGraph>
deba@1979	237	class UGraphAdaptor
deba@1979	238	: public UGraphAdaptorExtender< UGraphAdaptorBase<_UGraph> > {
deba@1979	239	public:
deba@1979	240	typedef _UGraph Graph;
deba@1979	241	typedef UGraphAdaptorExtender<UGraphAdaptorBase<_UGraph> > Parent;
deba@1979	242	protected:
deba@1979	243	UGraphAdaptor() : Parent() {}
deba@1979	244
deba@1979	245	public:
deba@1979	246	explicit UGraphAdaptor(Graph& _graph) { setGraph(_graph); }
deba@1979	247	};
deba@1979	248
deba@1979	249	template <typename _UGraph, typename NodeFilterMap,
deba@1979	250	typename UEdgeFilterMap, bool checked = true>
deba@1979	251	class SubUGraphAdaptorBase : public UGraphAdaptorBase<_UGraph> {
deba@1979	252	public:
deba@1979	253	typedef _UGraph Graph;
deba@2031	254	typedef SubUGraphAdaptorBase Adaptor;
deba@1979	255	typedef UGraphAdaptorBase<_UGraph> Parent;
deba@1979	256	protected:
deba@1979	257
deba@1979	258	NodeFilterMap* node_filter_map;
deba@1979	259	UEdgeFilterMap* uedge_filter_map;
deba@1979	260
deba@1979	261	SubUGraphAdaptorBase()
deba@1979	262	: Parent(), node_filter_map(0), uedge_filter_map(0) { }
deba@1979	263
deba@1979	264	void setNodeFilterMap(NodeFilterMap& _node_filter_map) {
deba@1979	265	node_filter_map=&_node_filter_map;
deba@1979	266	}
deba@1979	267	void setUEdgeFilterMap(UEdgeFilterMap& _uedge_filter_map) {
deba@1979	268	uedge_filter_map=&_uedge_filter_map;
deba@1979	269	}
deba@1979	270
deba@1979	271	public:
deba@1979	272
deba@1979	273	typedef typename Parent::Node Node;
deba@1979	274	typedef typename Parent::Edge Edge;
deba@1979	275	typedef typename Parent::UEdge UEdge;
deba@1979	276
deba@1979	277	void first(Node& i) const {
deba@1979	278	Parent::first(i);
deba@1979	279	while (i!=INVALID && !(*node_filter_map)[i]) Parent::next(i);
deba@1979	280	}
deba@1979	281
deba@1979	282	void first(Edge& i) const {
deba@1979	283	Parent::first(i);
deba@1979	284	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	285	\|\| !(*node_filter_map)[Parent::source(i)]
deba@1979	286	\|\| !(*node_filter_map)[Parent::target(i)])) Parent::next(i);
deba@1979	287	}
deba@1979	288
deba@1979	289	void first(UEdge& i) const {
deba@1979	290	Parent::first(i);
deba@1979	291	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	292	\|\| !(*node_filter_map)[Parent::source(i)]
deba@1979	293	\|\| !(*node_filter_map)[Parent::target(i)])) Parent::next(i);
deba@1979	294	}
deba@1979	295
deba@1979	296	void firstIn(Edge& i, const Node& n) const {
deba@1979	297	Parent::firstIn(i, n);
deba@1979	298	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	299	\|\| !(*node_filter_map)[Parent::source(i)])) Parent::nextIn(i);
deba@1979	300	}
deba@1979	301
deba@1979	302	void firstOut(Edge& i, const Node& n) const {
deba@1979	303	Parent::firstOut(i, n);
deba@1979	304	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	305	\|\| !(*node_filter_map)[Parent::target(i)])) Parent::nextOut(i);
deba@1979	306	}
deba@1979	307
deba@1979	308	void firstInc(UEdge& i, bool& d, const Node& n) const {
deba@1979	309	Parent::firstInc(i, d, n);
deba@1979	310	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	311	\|\| !(*node_filter_map)[Parent::target(i)])) Parent::nextInc(i, d);
deba@1979	312	}
deba@1979	313
deba@1979	314	void next(Node& i) const {
deba@1979	315	Parent::next(i);
deba@1979	316	while (i!=INVALID && !(*node_filter_map)[i]) Parent::next(i);
deba@1979	317	}
deba@1979	318
deba@1979	319	void next(Edge& i) const {
deba@1979	320	Parent::next(i);
deba@1979	321	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	322	\|\| !(*node_filter_map)[Parent::source(i)]
deba@1979	323	\|\| !(*node_filter_map)[Parent::target(i)])) Parent::next(i);
deba@1979	324	}
deba@1979	325
deba@1979	326	void next(UEdge& i) const {
deba@1979	327	Parent::next(i);
deba@1979	328	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	329	\|\| !(*node_filter_map)[Parent::source(i)]
deba@1979	330	\|\| !(*node_filter_map)[Parent::target(i)])) Parent::next(i);
deba@1979	331	}
deba@1979	332
deba@1979	333	void nextIn(Edge& i) const {
deba@1979	334	Parent::nextIn(i);
deba@1979	335	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	336	\|\| !(*node_filter_map)[Parent::source(i)])) Parent::nextIn(i);
deba@1979	337	}
deba@1979	338
deba@1979	339	void nextOut(Edge& i) const {
deba@1979	340	Parent::nextOut(i);
deba@1979	341	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	342	\|\| !(*node_filter_map)[Parent::target(i)])) Parent::nextOut(i);
deba@1979	343	}
deba@1979	344
deba@1979	345	void nextInc(UEdge& i, bool& d) const {
deba@1979	346	Parent::nextInc(i, d);
deba@1979	347	while (i!=INVALID && (!(*uedge_filter_map)[i]
deba@1979	348	\|\| !(*node_filter_map)[Parent::source(i)])) Parent::nextInc(i, d);
deba@1979	349	}
deba@1979	350
deba@1979	351	///\e
deba@1979	352
deba@1979	353	/// This function hides \c n in the graph, i.e. the iteration
deba@1979	354	/// jumps over it. This is done by simply setting the value of \c n
deba@1979	355	/// to be false in the corresponding node-map.
deba@1979	356	void hide(const Node& n) const { node_filter_map->set(n, false); }
deba@1979	357
deba@1979	358	///\e
deba@1979	359
deba@1979	360	/// This function hides \c e in the graph, i.e. the iteration
deba@1979	361	/// jumps over it. This is done by simply setting the value of \c e
deba@1979	362	/// to be false in the corresponding edge-map.
deba@1979	363	void hide(const UEdge& e) const { uedge_filter_map->set(e, false); }
deba@1979	364
deba@1979	365	///\e
deba@1979	366
deba@1979	367	/// The value of \c n is set to be true in the node-map which stores
deba@1979	368	/// hide information. If \c n was hidden previuosly, then it is shown
deba@1979	369	/// again
deba@1979	370	void unHide(const Node& n) const { node_filter_map->set(n, true); }
deba@1979	371
deba@1979	372	///\e
deba@1979	373
deba@1979	374	/// The value of \c e is set to be true in the edge-map which stores
deba@1979	375	/// hide information. If \c e was hidden previuosly, then it is shown
deba@1979	376	/// again
deba@1979	377	void unHide(const UEdge& e) const { uedge_filter_map->set(e, true); }
deba@1979	378
deba@1979	379	/// Returns true if \c n is hidden.
deba@1979	380
deba@1979	381	///\e
deba@1979	382	///
deba@1979	383	bool hidden(const Node& n) const { return !(*node_filter_map)[n]; }
deba@1979	384
deba@1979	385	/// Returns true if \c n is hidden.
deba@1979	386
deba@1979	387	///\e
deba@1979	388	///
deba@1979	389	bool hidden(const UEdge& e) const { return !(*uedge_filter_map)[e]; }
deba@1979	390
deba@1979	391	typedef False NodeNumTag;
deba@1979	392	typedef False EdgeNumTag;
deba@1991	393
deba@1991	394	typedef FindEdgeTagIndicator<Graph> FindEdgeTag;
deba@1991	395	Edge findEdge(const Node& source, const Node& target,
deba@1991	396	const Edge& prev = INVALID) {
deba@1991	397	if (!(node_filter_map)[source] \|\| !(node_filter_map)[target]) {
deba@1991	398	return INVALID;
deba@1991	399	}
deba@1991	400	Edge edge = Parent::findEdge(source, target, prev);
deba@1991	401	while (edge != INVALID && !(*uedge_filter_map)[edge]) {
deba@1991	402	edge = Parent::findEdge(source, target, edge);
deba@1991	403	}
deba@1991	404	return edge;
deba@1991	405	}
deba@1991	406	UEdge findUEdge(const Node& source, const Node& target,
deba@1991	407	const UEdge& prev = INVALID) {
deba@1991	408	if (!(node_filter_map)[source] \|\| !(node_filter_map)[target]) {
deba@1991	409	return INVALID;
deba@1991	410	}
deba@1991	411	UEdge uedge = Parent::findUEdge(source, target, prev);
deba@1991	412	while (uedge != INVALID && !(*uedge_filter_map)[uedge]) {
deba@1991	413	uedge = Parent::findUEdge(source, target, uedge);
deba@1991	414	}
deba@1991	415	return uedge;
deba@1991	416	}
deba@2031	417
deba@2031	418	template <typename _Value>
deba@2031	419	class NodeMap
deba@2031	420	: public SubMapExtender<Adaptor,
deba@2031	421	typename Parent::template NodeMap<_Value> >
deba@2031	422	{
deba@2031	423	public:
deba@2031	424	typedef Adaptor Graph;
deba@2031	425	typedef SubMapExtender<Adaptor, typename Parent::
deba@2031	426	template NodeMap<_Value> > Parent;
deba@2031	427
deba@2031	428	NodeMap(const Graph& graph)
deba@2031	429	: Parent(graph) {}
deba@2031	430	NodeMap(const Graph& graph, const _Value& value)
deba@2031	431	: Parent(graph, value) {}
deba@2031	432
deba@2031	433	NodeMap& operator=(const NodeMap& cmap) {
deba@2031	434	return operator=<NodeMap>(cmap);
deba@2031	435	}
deba@2031	436
deba@2031	437	template <typename CMap>
deba@2031	438	NodeMap& operator=(const CMap& cmap) {
deba@2031	439	Parent::operator=(cmap);
deba@2031	440	return *this;
deba@2031	441	}
deba@2031	442	};
deba@2031	443
deba@2031	444	template <typename _Value>
deba@2031	445	class EdgeMap
deba@2031	446	: public SubMapExtender<Adaptor,
deba@2031	447	typename Parent::template EdgeMap<_Value> >
deba@2031	448	{
deba@2031	449	public:
deba@2031	450	typedef Adaptor Graph;
deba@2031	451	typedef SubMapExtender<Adaptor, typename Parent::
deba@2031	452	template EdgeMap<_Value> > Parent;
deba@2031	453
deba@2031	454	EdgeMap(const Graph& graph)
deba@2031	455	: Parent(graph) {}
deba@2031	456	EdgeMap(const Graph& graph, const _Value& value)
deba@2031	457	: Parent(graph, value) {}
deba@2031	458
deba@2031	459	EdgeMap& operator=(const EdgeMap& cmap) {
deba@2031	460	return operator=<EdgeMap>(cmap);
deba@2031	461	}
deba@2031	462
deba@2031	463	template <typename CMap>
deba@2031	464	EdgeMap& operator=(const CMap& cmap) {
deba@2031	465	Parent::operator=(cmap);
deba@2031	466	return *this;
deba@2031	467	}
deba@2031	468	};
deba@2031	469
deba@2031	470	template <typename _Value>
deba@2031	471	class UEdgeMap
deba@2031	472	: public SubMapExtender<Adaptor,
deba@2031	473	typename Parent::template UEdgeMap<_Value> >
deba@2031	474	{
deba@2031	475	public:
deba@2031	476	typedef Adaptor Graph;
deba@2031	477	typedef SubMapExtender<Adaptor, typename Parent::
deba@2031	478	template UEdgeMap<_Value> > Parent;
deba@2031	479
deba@2031	480	UEdgeMap(const Graph& graph)
deba@2031	481	: Parent(graph) {}
deba@2031	482	UEdgeMap(const Graph& graph, const _Value& value)
deba@2031	483	: Parent(graph, value) {}
deba@2031	484
deba@2031	485	UEdgeMap& operator=(const UEdgeMap& cmap) {
deba@2031	486	return operator=<UEdgeMap>(cmap);
deba@2031	487	}
deba@2031	488
deba@2031	489	template <typename CMap>
deba@2031	490	UEdgeMap& operator=(const CMap& cmap) {
deba@2031	491	Parent::operator=(cmap);
deba@2031	492	return *this;
deba@2031	493	}
deba@2031	494	};
deba@2031	495
deba@1979	496	};
deba@1979	497
deba@1979	498	template <typename _UGraph, typename NodeFilterMap, typename UEdgeFilterMap>
deba@1979	499	class SubUGraphAdaptorBase<_UGraph, NodeFilterMap, UEdgeFilterMap, false>
deba@1979	500	: public UGraphAdaptorBase<_UGraph> {
deba@1979	501	public:
deba@1979	502	typedef _UGraph Graph;
deba@2031	503	typedef SubUGraphAdaptorBase Adaptor;
deba@1979	504	typedef UGraphAdaptorBase<_UGraph> Parent;
deba@1979	505	protected:
deba@1979	506	NodeFilterMap* node_filter_map;
deba@1979	507	UEdgeFilterMap* uedge_filter_map;
deba@1979	508	SubUGraphAdaptorBase() : Parent(),
deba@1979	509	node_filter_map(0), uedge_filter_map(0) { }
deba@1979	510
deba@1979	511	void setNodeFilterMap(NodeFilterMap& _node_filter_map) {
deba@1979	512	node_filter_map=&_node_filter_map;
deba@1979	513	}
deba@1979	514	void setUEdgeFilterMap(UEdgeFilterMap& _uedge_filter_map) {
deba@1979	515	uedge_filter_map=&_uedge_filter_map;
deba@1979	516	}
deba@1979	517
deba@1979	518	public:
deba@1979	519
deba@1979	520	typedef typename Parent::Node Node;
deba@1979	521	typedef typename Parent::Edge Edge;
deba@1979	522	typedef typename Parent::UEdge UEdge;
deba@1979	523
deba@1979	524	void first(Node& i) const {
deba@1979	525	Parent::first(i);
deba@1979	526	while (i!=INVALID && !(*node_filter_map)[i]) Parent::next(i);
deba@1979	527	}
deba@1979	528
deba@1979	529	void first(Edge& i) const {
deba@1979	530	Parent::first(i);
deba@1979	531	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::next(i);
deba@1979	532	}
deba@1979	533
deba@1979	534	void first(UEdge& i) const {
deba@1979	535	Parent::first(i);
deba@1979	536	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::next(i);
deba@1979	537	}
deba@1979	538
deba@1979	539	void firstIn(Edge& i, const Node& n) const {
deba@1979	540	Parent::firstIn(i, n);
deba@1979	541	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::nextIn(i);
deba@1979	542	}
deba@1979	543
deba@1979	544	void firstOut(Edge& i, const Node& n) const {
deba@1979	545	Parent::firstOut(i, n);
deba@1979	546	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::nextOut(i);
deba@1979	547	}
deba@1979	548
deba@1979	549	void firstInc(UEdge& i, bool& d, const Node& n) const {
deba@1979	550	Parent::firstInc(i, d, n);
deba@1979	551	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::nextInc(i, d);
deba@1979	552	}
deba@1979	553
deba@1979	554	void next(Node& i) const {
deba@1979	555	Parent::next(i);
deba@1979	556	while (i!=INVALID && !(*node_filter_map)[i]) Parent::next(i);
deba@1979	557	}
deba@1979	558	void next(Edge& i) const {
deba@1979	559	Parent::next(i);
deba@1979	560	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::next(i);
deba@1979	561	}
deba@1979	562	void next(UEdge& i) const {
deba@1979	563	Parent::next(i);
deba@1979	564	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::next(i);
deba@1979	565	}
deba@1979	566	void nextIn(Edge& i) const {
deba@1979	567	Parent::nextIn(i);
deba@1979	568	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::nextIn(i);
deba@1979	569	}
deba@1979	570
deba@1979	571	void nextOut(Edge& i) const {
deba@1979	572	Parent::nextOut(i);
deba@1979	573	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::nextOut(i);
deba@1979	574	}
deba@1979	575	void nextInc(UEdge& i, bool& d) const {
deba@1979	576	Parent::nextInc(i, d);
deba@1979	577	while (i!=INVALID && !(*uedge_filter_map)[i]) Parent::nextInc(i, d);
deba@1979	578	}
deba@1979	579
deba@1979	580	///\e
deba@1979	581
deba@1979	582	/// This function hides \c n in the graph, i.e. the iteration
deba@1979	583	/// jumps over it. This is done by simply setting the value of \c n
deba@1979	584	/// to be false in the corresponding node-map.
deba@1979	585	void hide(const Node& n) const { node_filter_map->set(n, false); }
deba@1979	586
deba@1979	587	///\e
deba@1979	588
deba@1979	589	/// This function hides \c e in the graph, i.e. the iteration
deba@1979	590	/// jumps over it. This is done by simply setting the value of \c e
deba@1979	591	/// to be false in the corresponding edge-map.
deba@1979	592	void hide(const UEdge& e) const { uedge_filter_map->set(e, false); }
deba@1979	593
deba@1979	594	///\e
deba@1979	595
deba@1979	596	/// The value of \c n is set to be true in the node-map which stores
deba@1979	597	/// hide information. If \c n was hidden previuosly, then it is shown
deba@1979	598	/// again
deba@1979	599	void unHide(const Node& n) const { node_filter_map->set(n, true); }
deba@1979	600
deba@1979	601	///\e
deba@1979	602
deba@1979	603	/// The value of \c e is set to be true in the edge-map which stores
deba@1979	604	/// hide information. If \c e was hidden previuosly, then it is shown
deba@1979	605	/// again
deba@1979	606	void unHide(const UEdge& e) const { uedge_filter_map->set(e, true); }
deba@1979	607
deba@1979	608	/// Returns true if \c n is hidden.
deba@1979	609
deba@1979	610	///\e
deba@1979	611	///
deba@1979	612	bool hidden(const Node& n) const { return !(*node_filter_map)[n]; }
deba@1979	613
deba@1979	614	/// Returns true if \c n is hidden.
deba@1979	615
deba@1979	616	///\e
deba@1979	617	///
deba@1979	618	bool hidden(const UEdge& e) const { return !(*uedge_filter_map)[e]; }
deba@1979	619
deba@1979	620	typedef False NodeNumTag;
deba@1979	621	typedef False EdgeNumTag;
deba@1991	622
deba@1991	623	typedef FindEdgeTagIndicator<Graph> FindEdgeTag;
deba@1991	624	Edge findEdge(const Node& source, const Node& target,
deba@1991	625	const Edge& prev = INVALID) {
deba@1991	626	Edge edge = Parent::findEdge(source, target, prev);
deba@1991	627	while (edge != INVALID && !(*uedge_filter_map)[edge]) {
deba@1991	628	edge = Parent::findEdge(source, target, edge);
deba@1991	629	}
deba@1991	630	return edge;
deba@1991	631	}
deba@1991	632	UEdge findUEdge(const Node& source, const Node& target,
deba@1991	633	const UEdge& prev = INVALID) {
deba@1991	634	UEdge uedge = Parent::findUEdge(source, target, prev);
deba@1991	635	while (uedge != INVALID && !(*uedge_filter_map)[uedge]) {
deba@1991	636	uedge = Parent::findUEdge(source, target, uedge);
deba@1991	637	}
deba@1991	638	return uedge;
deba@1991	639	}
deba@2031	640
deba@2031	641	template <typename _Value>
deba@2031	642	class NodeMap
deba@2031	643	: public SubMapExtender<Adaptor,
deba@2031	644	typename Parent::template NodeMap<_Value> >
deba@2031	645	{
deba@2031	646	public:
deba@2031	647	typedef Adaptor Graph;
deba@2031	648	typedef SubMapExtender<Adaptor, typename Parent::
deba@2031	649	template NodeMap<_Value> > Parent;
deba@2031	650
deba@2031	651	NodeMap(const Graph& graph)
deba@2031	652	: Parent(graph) {}
deba@2031	653	NodeMap(const Graph& graph, const _Value& value)
deba@2031	654	: Parent(graph, value) {}
deba@2031	655
deba@2031	656	NodeMap& operator=(const NodeMap& cmap) {
deba@2031	657	return operator=<NodeMap>(cmap);
deba@2031	658	}
deba@2031	659
deba@2031	660	template <typename CMap>
deba@2031	661	NodeMap& operator=(const CMap& cmap) {
deba@2031	662	Parent::operator=(cmap);
deba@2031	663	return *this;
deba@2031	664	}
deba@2031	665	};
deba@2031	666
deba@2031	667	template <typename _Value>
deba@2031	668	class EdgeMap
deba@2031	669	: public SubMapExtender<Adaptor,
deba@2031	670	typename Parent::template EdgeMap<_Value> >
deba@2031	671	{
deba@2031	672	public:
deba@2031	673	typedef Adaptor Graph;
deba@2031	674	typedef SubMapExtender<Adaptor, typename Parent::
deba@2031	675	template EdgeMap<_Value> > Parent;
deba@2031	676
deba@2031	677	EdgeMap(const Graph& graph)
deba@2031	678	: Parent(graph) {}
deba@2031	679	EdgeMap(const Graph& graph, const _Value& value)
deba@2031	680	: Parent(graph, value) {}
deba@2031	681
deba@2031	682	EdgeMap& operator=(const EdgeMap& cmap) {
deba@2031	683	return operator=<EdgeMap>(cmap);
deba@2031	684	}
deba@2031	685
deba@2031	686	template <typename CMap>
deba@2031	687	EdgeMap& operator=(const CMap& cmap) {
deba@2031	688	Parent::operator=(cmap);
deba@2031	689	return *this;
deba@2031	690	}
deba@2031	691	};
deba@2031	692
deba@2031	693	template <typename _Value>
deba@2031	694	class UEdgeMap
deba@2031	695	: public SubMapExtender<Adaptor,
deba@2031	696	typename Parent::template UEdgeMap<_Value> >
deba@2031	697	{
deba@2031	698	public:
deba@2031	699	typedef Adaptor Graph;
deba@2031	700	typedef SubMapExtender<Adaptor, typename Parent::
deba@2031	701	template UEdgeMap<_Value> > Parent;
deba@2031	702
deba@2031	703	UEdgeMap(const Graph& graph)
deba@2031	704	: Parent(graph) {}
deba@2031	705	UEdgeMap(const Graph& graph, const _Value& value)
deba@2031	706	: Parent(graph, value) {}
deba@2031	707
deba@2031	708	UEdgeMap& operator=(const UEdgeMap& cmap) {
deba@2031	709	return operator=<UEdgeMap>(cmap);
deba@2031	710	}
deba@2031	711
deba@2031	712	template <typename CMap>
deba@2031	713	UEdgeMap& operator=(const CMap& cmap) {
deba@2031	714	Parent::operator=(cmap);
deba@2031	715	return *this;
deba@2031	716	}
deba@2031	717	};
deba@1979	718	};
deba@1979	719
deba@1979	720	/// \ingroup graph_adaptors
deba@1979	721	///
deba@1979	722	/// \brief A graph adaptor for hiding nodes and edges from an undirected
deba@1979	723	/// graph.
deba@1979	724	///
deba@1979	725	/// SubUGraphAdaptor shows the undirected graph with filtered node-set and
deba@1979	726	/// edge-set. If the \c checked parameter is true then it filters the edgeset
deba@1979	727	/// to do not get invalid edges without source or target.
deba@1979	728	///
deba@1979	729	/// If the \c checked template parameter is false then we have to note that
deba@1979	730	/// the node-iterator cares only the filter on the node-set, and the
deba@1979	731	/// edge-iterator cares only the filter on the edge-set.
deba@1979	732	/// This way the edge-map
deba@1979	733	/// should filter all edges which's source or target is filtered by the
deba@1979	734	/// node-filter.
deba@1979	735	///
deba@1979	736	/// Note that \c n is of type \c SubGA::NodeIt, but it can be converted to
deba@1979	737	/// \c Graph::Node that is why \c g.id(n) can be applied.
deba@1979	738	///
deba@1979	739	template<typename _UGraph, typename NodeFilterMap,
deba@1979	740	typename UEdgeFilterMap, bool checked = true>
deba@1979	741	class SubUGraphAdaptor :
deba@1979	742	public UGraphAdaptorExtender<
deba@1979	743	SubUGraphAdaptorBase<_UGraph, NodeFilterMap, UEdgeFilterMap, checked> > {
deba@1979	744	public:
deba@1979	745	typedef _UGraph Graph;
deba@1979	746	typedef UGraphAdaptorExtender<
deba@1979	747	SubUGraphAdaptorBase<_UGraph, NodeFilterMap, UEdgeFilterMap> > Parent;
deba@1979	748	protected:
deba@1979	749	SubUGraphAdaptor() { }
deba@1979	750	public:
deba@1979	751	SubUGraphAdaptor(Graph& _graph, NodeFilterMap& _node_filter_map,
deba@1979	752	UEdgeFilterMap& _uedge_filter_map) {
deba@1979	753	setGraph(_graph);
deba@1979	754	setNodeFilterMap(_node_filter_map);
deba@1979	755	setUEdgeFilterMap(_uedge_filter_map);
deba@1979	756	}
deba@1979	757	};
deba@1979	758
deba@1980	759	template<typename UGraph, typename NodeFilterMap, typename EdgeFilterMap>
deba@1980	760	SubUGraphAdaptor<const UGraph, NodeFilterMap, EdgeFilterMap>
deba@1980	761	subUGraphAdaptor(const UGraph& graph,
deba@1980	762	NodeFilterMap& nfm, EdgeFilterMap& efm) {
deba@1980	763	return SubUGraphAdaptor<const UGraph, NodeFilterMap, EdgeFilterMap>
deba@1980	764	(graph, nfm, efm);
deba@1980	765	}
deba@1980	766
deba@1980	767	template<typename UGraph, typename NodeFilterMap, typename EdgeFilterMap>
deba@1980	768	SubUGraphAdaptor<const UGraph, const NodeFilterMap, EdgeFilterMap>
deba@1980	769	subUGraphAdaptor(const UGraph& graph,
deba@1980	770	NodeFilterMap& nfm, EdgeFilterMap& efm) {
deba@1980	771	return SubUGraphAdaptor<const UGraph, const NodeFilterMap, EdgeFilterMap>
deba@1980	772	(graph, nfm, efm);
deba@1980	773	}
deba@1980	774
deba@1980	775	template<typename UGraph, typename NodeFilterMap, typename EdgeFilterMap>
deba@1980	776	SubUGraphAdaptor<const UGraph, NodeFilterMap, const EdgeFilterMap>
deba@1980	777	subUGraphAdaptor(const UGraph& graph,
deba@1980	778	NodeFilterMap& nfm, EdgeFilterMap& efm) {
deba@1980	779	return SubUGraphAdaptor<const UGraph, NodeFilterMap, const EdgeFilterMap>
deba@1980	780	(graph, nfm, efm);
deba@1980	781	}
deba@1980	782
deba@1980	783	template<typename UGraph, typename NodeFilterMap, typename EdgeFilterMap>
deba@1980	784	SubUGraphAdaptor<const UGraph, const NodeFilterMap, const EdgeFilterMap>
deba@1980	785	subUGraphAdaptor(const UGraph& graph,
deba@1980	786	NodeFilterMap& nfm, EdgeFilterMap& efm) {
deba@1980	787	return SubUGraphAdaptor<const UGraph, const NodeFilterMap,
deba@1980	788	const EdgeFilterMap>(graph, nfm, efm);
deba@1980	789	}
deba@1980	790
deba@1979	791	/// \ingroup graph_adaptors
deba@1979	792	///
deba@1980	793	/// \brief An adaptor for hiding nodes from an undirected graph.
deba@1979	794	///
deba@1979	795	/// An adaptor for hiding nodes from an undirected graph.
deba@1979	796	/// This adaptor specializes SubUGraphAdaptor in the way that only
deba@1979	797	/// the node-set
deba@1979	798	/// can be filtered. In usual case the checked parameter is true, we get the
deba@1979	799	/// induced subgraph. But if the checked parameter is false then we can only
deba@1979	800	/// filter only isolated nodes.
deba@1979	801	template<typename _UGraph, typename NodeFilterMap, bool checked = true>
deba@1979	802	class NodeSubUGraphAdaptor :
deba@1979	803	public SubUGraphAdaptor<_UGraph, NodeFilterMap,
deba@1979	804	ConstMap<typename _UGraph::UEdge, bool>, checked> {
deba@1979	805	public:
deba@1979	806	typedef SubUGraphAdaptor<_UGraph, NodeFilterMap,
deba@1979	807	ConstMap<typename _UGraph::UEdge, bool> > Parent;
deba@1979	808	typedef _UGraph Graph;
deba@1979	809	protected:
deba@1985	810	ConstMap<typename _UGraph::UEdge, bool> const_true_map;
deba@1991	811
deba@1991	812	NodeSubUGraphAdaptor() : const_true_map(true) {
deba@1991	813	Parent::setUEdgeFilterMap(const_true_map);
deba@1991	814	}
deba@1991	815
deba@1979	816	public:
deba@1979	817	NodeSubUGraphAdaptor(Graph& _graph, NodeFilterMap& _node_filter_map) :
deba@1979	818	Parent(), const_true_map(true) {
deba@1979	819	Parent::setGraph(_graph);
deba@1979	820	Parent::setNodeFilterMap(_node_filter_map);
deba@1979	821	Parent::setUEdgeFilterMap(const_true_map);
deba@1979	822	}
deba@1979	823	};
deba@1979	824
deba@1979	825	template<typename UGraph, typename NodeFilterMap>
deba@1979	826	NodeSubUGraphAdaptor<const UGraph, NodeFilterMap>
deba@1979	827	nodeSubUGraphAdaptor(const UGraph& graph, NodeFilterMap& nfm) {
deba@1979	828	return NodeSubUGraphAdaptor<const UGraph, NodeFilterMap>(graph, nfm);
deba@1979	829	}
deba@1979	830
deba@1979	831	template<typename UGraph, typename NodeFilterMap>
deba@1979	832	NodeSubUGraphAdaptor<const UGraph, const NodeFilterMap>
deba@1979	833	nodeSubUGraphAdaptor(const UGraph& graph, const NodeFilterMap& nfm) {
deba@1979	834	return NodeSubUGraphAdaptor<const UGraph, const NodeFilterMap>(graph, nfm);
deba@1979	835	}
deba@1979	836
deba@2042	837	/// \ingroup graph_adaptors
deba@2042	838	///
deba@1979	839	/// \brief An adaptor for hiding undirected edges from an undirected graph.
deba@1979	840	///
deba@1979	841	/// \warning Graph adaptors are in even more experimental state
deba@1979	842	/// than the other parts of the lib. Use them at you own risk.
deba@1979	843	///
deba@1979	844	/// An adaptor for hiding undirected edges from an undirected graph.
deba@1979	845	/// This adaptor specializes SubUGraphAdaptor in the way that
deba@1979	846	/// only the edge-set
deba@1979	847	/// can be filtered.
deba@1979	848	template<typename _UGraph, typename UEdgeFilterMap>
deba@1979	849	class EdgeSubUGraphAdaptor :
deba@1979	850	public SubUGraphAdaptor<_UGraph, ConstMap<typename _UGraph::Node,bool>,
deba@1979	851	UEdgeFilterMap, false> {
deba@1979	852	public:
deba@1979	853	typedef SubUGraphAdaptor<_UGraph, ConstMap<typename _UGraph::Node,bool>,
deba@1979	854	UEdgeFilterMap, false> Parent;
deba@1979	855	typedef _UGraph Graph;
deba@1979	856	protected:
deba@1979	857	ConstMap<typename Graph::Node, bool> const_true_map;
deba@1991	858
deba@1991	859	EdgeSubUGraphAdaptor() : const_true_map(true) {
deba@1991	860	Parent::setNodeFilterMap(const_true_map);
deba@1991	861	}
deba@1991	862
deba@1979	863	public:
deba@2031	864
deba@1979	865	EdgeSubUGraphAdaptor(Graph& _graph, UEdgeFilterMap& _uedge_filter_map) :
deba@1979	866	Parent(), const_true_map(true) {
deba@1979	867	Parent::setGraph(_graph);
deba@1979	868	Parent::setNodeFilterMap(const_true_map);
deba@1979	869	Parent::setUEdgeFilterMap(_uedge_filter_map);
deba@1979	870	}
deba@2031	871
deba@1979	872	};
deba@1979	873
deba@1979	874	template<typename UGraph, typename EdgeFilterMap>
deba@1979	875	EdgeSubUGraphAdaptor<const UGraph, EdgeFilterMap>
deba@1979	876	edgeSubUGraphAdaptor(const UGraph& graph, EdgeFilterMap& efm) {
deba@1979	877	return EdgeSubUGraphAdaptor<const UGraph, EdgeFilterMap>(graph, efm);
deba@1979	878	}
deba@1979	879
deba@1979	880	template<typename UGraph, typename EdgeFilterMap>
deba@1979	881	EdgeSubUGraphAdaptor<const UGraph, const EdgeFilterMap>
deba@1979	882	edgeSubUGraphAdaptor(const UGraph& graph, const EdgeFilterMap& efm) {
deba@1979	883	return EdgeSubUGraphAdaptor<const UGraph, const EdgeFilterMap>(graph, efm);
deba@1979	884	}
deba@1979	885
deba@1979	886	template <typename _UGraph, typename _DirectionMap>
deba@1980	887	class DirUGraphAdaptorBase {
deba@1979	888	public:
deba@1979	889
deba@1979	890	typedef _UGraph Graph;
deba@1979	891	typedef _DirectionMap DirectionMap;
deba@1979	892
deba@1979	893	typedef typename _UGraph::Node Node;
deba@1979	894	typedef typename _UGraph::UEdge Edge;
deba@1979	895
deba@1991	896	void reverseEdge(const Edge& edge) {
deba@1991	897	direction->set(edge, !(*direction)[edge]);
deba@1991	898	}
deba@1991	899
deba@1979	900	void first(Node& i) const { graph->first(i); }
deba@1979	901	void first(Edge& i) const { graph->first(i); }
deba@1979	902	void firstIn(Edge& i, const Node& n) const {
deba@1979	903	bool d;
deba@1979	904	graph->firstInc(i, d, n);
deba@1979	905	while (i != INVALID && d == (*direction)[i]) graph->nextInc(i, d);
deba@1979	906	}
deba@1979	907	void firstOut(Edge& i, const Node& n ) const {
deba@1979	908	bool d;
deba@1979	909	graph->firstInc(i, d, n);
deba@1979	910	while (i != INVALID && d != (*direction)[i]) graph->nextInc(i, d);
deba@1979	911	}
deba@1979	912
deba@1979	913	void next(Node& i) const { graph->next(i); }
deba@1979	914	void next(Edge& i) const { graph->next(i); }
deba@1979	915	void nextIn(Edge& i) const {
deba@1979	916	bool d = !(*direction)[i];
deba@1979	917	graph->nextInc(i, d);
deba@1979	918	while (i != INVALID && d == (*direction)[i]) graph->nextInc(i, d);
deba@1979	919	}
deba@1979	920	void nextOut(Edge& i) const {
deba@1979	921	bool d = (*direction)[i];
deba@1979	922	graph->nextInc(i, d);
deba@1979	923	while (i != INVALID && d != (*direction)[i]) graph->nextInc(i, d);
deba@1979	924	}
deba@1979	925
deba@1979	926	Node source(const Edge& e) const {
deba@1979	927	return (*direction)[e] ? graph->source(e) : graph->target(e);
deba@1979	928	}
deba@1979	929	Node target(const Edge& e) const {
deba@1979	930	return (*direction)[e] ? graph->target(e) : graph->source(e);
deba@1979	931	}
deba@1979	932
deba@1979	933	typedef NodeNumTagIndicator<Graph> NodeNumTag;
deba@1979	934	int nodeNum() const { return graph->nodeNum(); }
deba@1979	935
deba@1979	936	typedef EdgeNumTagIndicator<Graph> EdgeNumTag;
deba@1979	937	int edgeNum() const { return graph->uEdgeNum(); }
deba@1979	938
deba@1979	939	typedef FindEdgeTagIndicator<Graph> FindEdgeTag;
deba@1979	940	Edge findEdge(const Node& source, const Node& target,
deba@1979	941	const Edge& prev = INVALID) {
deba@1979	942	Edge edge = prev;
deba@1979	943	bool d = edge == INVALID ? true : (*direction)[edge];
deba@1979	944	if (d) {
deba@1979	945	edge = graph->findUEdge(source, target, edge);
deba@1979	946	while (edge != INVALID && !(*direction)[edge]) {
deba@1979	947	graph->findUEdge(source, target, edge);
deba@1979	948	}
deba@1979	949	if (edge != INVALID) return edge;
deba@1979	950	}
deba@1979	951	graph->findUEdge(target, source, edge);
deba@1979	952	while (edge != INVALID && (*direction)[edge]) {
deba@1979	953	graph->findUEdge(source, target, edge);
deba@1979	954	}
deba@1979	955	return edge;
deba@1979	956	}
deba@1979	957
deba@1979	958	Node addNode() const {
deba@1979	959	return Node(graph->addNode());
deba@1979	960	}
deba@1979	961
deba@1979	962	Edge addEdge(const Node& source, const Node& target) const {
deba@1979	963	Edge edge = graph->addEdge(source, target);
deba@1979	964	(*direction)[edge] = graph->source(edge) == source;
deba@1979	965	return edge;
deba@1979	966	}
deba@1979	967
deba@1979	968	void erase(const Node& i) const { graph->erase(i); }
deba@1979	969	void erase(const Edge& i) const { graph->erase(i); }
deba@1979	970
deba@1979	971	void clear() const { graph->clear(); }
deba@1979	972
deba@1979	973	int id(const Node& v) const { return graph->id(v); }
deba@1979	974	int id(const Edge& e) const { return graph->id(e); }
deba@1979	975
deba@1991	976	int maxNodeId() const {
deba@1991	977	return graph->maxNodeId();
deba@1979	978	}
deba@1979	979
deba@1991	980	int maxEdgeId() const {
deba@1991	981	return graph->maxEdgeId();
deba@1991	982	}
deba@1991	983
deba@1991	984	typedef typename ItemSetTraits<Graph, Node>::ItemNotifier NodeNotifier;
deba@1991	985
deba@1991	986	NodeNotifier& getNotifier(Node) const {
deba@1991	987	return graph->getNotifier(Node());
deba@1991	988	}
deba@1991	989
deba@1991	990	typedef typename ItemSetTraits<Graph, Edge>::ItemNotifier EdgeNotifier;
deba@1991	991
deba@1991	992	EdgeNotifier& getNotifier(Edge) const {
deba@1991	993	return graph->getNotifier(Edge());
deba@1991	994	}
deba@1991	995
deba@1979	996	template <typename _Value>
deba@1979	997	class NodeMap : public _UGraph::template NodeMap<_Value> {
deba@1979	998	public:
deba@2031	999
deba@1979	1000	typedef typename _UGraph::template NodeMap<_Value> Parent;
deba@2031	1001
deba@1980	1002	explicit NodeMap(const DirUGraphAdaptorBase& ga)
deba@2031	1003	: Parent(*ga.graph) {}
deba@2031	1004
deba@1980	1005	NodeMap(const DirUGraphAdaptorBase& ga, const _Value& value)
deba@2031	1006	: Parent(*ga.graph, value) {}
deba@2031	1007
deba@2031	1008	NodeMap& operator=(const NodeMap& cmap) {
deba@2031	1009	return operator=<NodeMap>(cmap);
deba@2031	1010	}
deba@2031	1011
deba@2031	1012	template <typename CMap>
deba@2031	1013	NodeMap& operator=(const CMap& cmap) {
deba@2031	1014	Parent::operator=(cmap);
deba@2031	1015	return *this;
deba@2031	1016	}
deba@2031	1017
deba@1979	1018	};
deba@1979	1019
deba@1979	1020	template <typename _Value>
deba@1979	1021	class EdgeMap : public _UGraph::template UEdgeMap<_Value> {
deba@1979	1022	public:
deba@2031	1023
deba@1980	1024	typedef typename _UGraph::template UEdgeMap<_Value> Parent;
deba@2031	1025
deba@1980	1026	explicit EdgeMap(const DirUGraphAdaptorBase& ga)
deba@1979	1027	: Parent(*ga.graph) { }
deba@2031	1028
deba@1980	1029	EdgeMap(const DirUGraphAdaptorBase& ga, const _Value& value)
deba@1979	1030	: Parent(*ga.graph, value) { }
deba@2031	1031
deba@2031	1032	EdgeMap& operator=(const EdgeMap& cmap) {
deba@2031	1033	return operator=<EdgeMap>(cmap);
deba@2031	1034	}
deba@2031	1035
deba@2031	1036	template <typename CMap>
deba@2031	1037	EdgeMap& operator=(const CMap& cmap) {
deba@2031	1038	Parent::operator=(cmap);
deba@2031	1039	return *this;
deba@2031	1040	}
deba@1979	1041	};
deba@1979	1042
deba@1979	1043
deba@1979	1044
deba@1979	1045	protected:
deba@1979	1046	Graph* graph;
deba@1979	1047	DirectionMap* direction;
deba@1979	1048
deba@1979	1049	void setDirectionMap(DirectionMap& _direction) {
deba@1979	1050	direction = &_direction;
deba@1979	1051	}
deba@1979	1052
deba@1979	1053	void setGraph(Graph& _graph) {
deba@1979	1054	graph = &_graph;
deba@1979	1055	}
deba@1979	1056
deba@1979	1057	};
deba@1979	1058
deba@1979	1059
deba@1980	1060	/// \ingroup graph_adaptors
deba@1991	1061	///
deba@1991	1062	/// \brief A directed graph is made from an undirected graph by an adaptor
deba@1980	1063	///
deba@1980	1064	/// This adaptor gives a direction for each uedge in the undirected graph.
deba@1980	1065	/// The direction of the edges stored in the DirectionMap. This map is
deba@1980	1066	/// a bool map on the undirected edges. If the uedge is mapped to true
deba@1980	1067	/// then the direction of the directed edge will be the same as the
deba@1980	1068	/// default direction of the uedge. The edges can be easily reverted
deba@1980	1069	/// by the reverseEdge member in the adaptor.
deba@1980	1070	template<typename _Graph,
deba@1980	1071	typename DirectionMap = typename _Graph::template UEdgeMap<bool> >
deba@1980	1072	class DirUGraphAdaptor :
deba@1979	1073	public GraphAdaptorExtender<
deba@1980	1074	DirUGraphAdaptorBase<_Graph, DirectionMap> > {
deba@1979	1075	public:
deba@1979	1076	typedef _Graph Graph;
deba@1979	1077	typedef GraphAdaptorExtender<
deba@1980	1078	DirUGraphAdaptorBase<_Graph, DirectionMap> > Parent;
deba@1979	1079	protected:
deba@1980	1080	DirUGraphAdaptor() { }
deba@1979	1081	public:
deba@1980	1082	DirUGraphAdaptor(_Graph& _graph, DirectionMap& _direction_map) {
deba@1979	1083	setGraph(_graph);
deba@1979	1084	setDirectionMap(_direction_map);
deba@1979	1085	}
deba@1979	1086	};
deba@1979	1087
deba@1979	1088	template<typename UGraph, typename DirectionMap>
deba@1980	1089	DirUGraphAdaptor<const UGraph, DirectionMap>
deba@1980	1090	dirUGraphAdaptor(const UGraph& graph, DirectionMap& dm) {
deba@1980	1091	return DirUGraphAdaptor<const UGraph, DirectionMap>(graph, dm);
deba@1979	1092	}
deba@1979	1093
deba@1979	1094	template<typename UGraph, typename DirectionMap>
deba@1980	1095	DirUGraphAdaptor<const UGraph, const DirectionMap>
deba@1980	1096	dirUGraphAdaptor(const UGraph& graph, const DirectionMap& dm) {
deba@1980	1097	return DirUGraphAdaptor<const UGraph, const DirectionMap>(graph, dm);
deba@1979	1098	}
deba@1979	1099
deba@1979	1100	}
deba@1979	1101
deba@1979	1102	#endif

author	ladanyi
	Fri, 14 Apr 2006 22:01:02 +0000
changeset 2056	8acf212a5ed4
parent 2037	32e4bebee616
child 2069	d55adbe1fc78
permissions	-rw-r--r--