lemon-0.x: src/work/marci/bfs_mm.h@5222b3d588c3 (annotated)

marci@602	1	// -- c++ --
alpar@921	2	#ifndef LEMON_BFS_DFS_H
alpar@921	3	#define LEMON_BFS_DFS_H
marci@602	4
marci@615	5	/// \ingroup galgs
marci@615	6	/// \file
marci@615	7	/// \brief Bfs and dfs iterators.
marci@604	8	///
marci@615	9	/// This file contains bfs and dfs iterator classes.
marci@604	10	///
marci@615	11	// /// \author Marton Makai
marci@604	12
marci@602	13	#include <queue>
marci@602	14	#include <stack>
marci@602	15	#include <utility>
marci@602	16
alpar@921	17	#include <lemon/invalid.h>
marci@602	18
alpar@921	19	namespace lemon {
marci@944	20	namespace marci {
marci@602	21
marci@602	22	/// Bfs searches for the nodes wich are not marked in
marci@602	23	/// \c reached_map
marci@944	24	/// RM have to be a read-write bool node-map.
marci@615	25	/// \ingroup galgs
marci@602	26	template <typename Graph, /typename OutEdgeIt,/
marci@944	27	typename RM/=typename Graph::NodeMap<bool>/ >
marci@602	28	class BfsIterator {
marci@944	29	public:
marci@944	30	typedef RM ReachedMap;
marci@602	31	protected:
marci@602	32	typedef typename Graph::Node Node;
marci@777	33	typedef typename Graph::Edge Edge;
marci@602	34	typedef typename Graph::OutEdgeIt OutEdgeIt;
marci@602	35	const Graph* graph;
marci@602	36	std::queue<Node> bfs_queue;
marci@944	37	ReachedMap* reached_map;
marci@602	38	bool b_node_newly_reached;
marci@944	39	//OutEdgeIt actual_edge;
marci@777	40	Edge actual_edge;
marci@944	41	/// \e
marci@944	42	BfsIterator(const Graph& _graph) : graph(&_graph), reached_map(0) { }
marci@944	43	/// RM have to be set before any bfs operation.
marci@944	44	BfsIterator<Graph, RM>& setReached(RM& _reached_map) {
marci@944	45	reached_map=&_reached_map;
marci@944	46	}
marci@602	47	public:
marci@944	48	/// In that constructor \c _reached_map have to be a reference
marci@650	49	/// for a bool bode-map. The algorithm will search for the
marci@650	50	/// initially \c false nodes
marci@650	51	/// in a bfs order.
marci@944	52	BfsIterator(const Graph& _graph, ReachedMap& _reached_map) :
marci@944	53	graph(&_graph), reached_map(&_reached_map) { }
marci@602	54	/// The same as above, but the map storing the reached nodes
marci@602	55	/// is constructed dynamically to everywhere false.
marci@650	56	/// \deprecated
marci@944	57	// BfsIterator(const Graph& _graph) :
marci@944	58	// graph(&_graph), reached_map(new ReachedMap(graph /, false*/)),
marci@944	59	// own_reached_map(true) { }
marci@944	60	// /// The map storing the reached nodes have to be destroyed if
marci@944	61	// /// it was constructed dynamically
marci@944	62	// ~BfsIterator() { if (own_reached_map) delete reached_map; }
marci@602	63	/// This method markes \c s reached.
marci@602	64	/// If the queue is empty, then \c s is pushed in the bfs queue
marci@602	65	/// and the first out-edge is processed.
marci@602	66	/// If the queue is not empty, then \c s is simply pushed.
marci@777	67	BfsIterator<Graph, /OutEdgeIt,/ ReachedMap>& pushAndSetReached(Node s) {
marci@944	68	reached_map->set(s, true);
marci@602	69	if (bfs_queue.empty()) {
marci@602	70	bfs_queue.push(s);
marci@777	71	actual_edge=OutEdgeIt(*graph, s);
marci@777	72	//graph->first(actual_edge, s);
alpar@774	73	if (actual_edge!=INVALID) {
alpar@986	74	Node w=graph->target(actual_edge);
marci@944	75	if (!(*reached_map)[w]) {
marci@602	76	bfs_queue.push(w);
marci@944	77	reached_map->set(w, true);
marci@602	78	b_node_newly_reached=true;
marci@602	79	} else {
marci@602	80	b_node_newly_reached=false;
marci@602	81	}
marci@602	82	}
marci@602	83	} else {
marci@602	84	bfs_queue.push(s);
marci@602	85	}
marci@777	86	return *this;
marci@602	87	}
marci@602	88	/// As \c BfsIterator<Graph, ReachedMap> works as an edge-iterator,
marci@602	89	/// its \c operator++() iterates on the edges in a bfs order.
marci@602	90	BfsIterator<Graph, /OutEdgeIt,/ ReachedMap>&
marci@602	91	operator++() {
alpar@774	92	if (actual_edge!=INVALID) {
marci@777	93	actual_edge=++OutEdgeIt(*graph, actual_edge);
marci@777	94	//++actual_edge;
alpar@774	95	if (actual_edge!=INVALID) {
alpar@986	96	Node w=graph->target(actual_edge);
marci@944	97	if (!(*reached_map)[w]) {
marci@602	98	bfs_queue.push(w);
marci@944	99	reached_map->set(w, true);
marci@602	100	b_node_newly_reached=true;
marci@602	101	} else {
marci@602	102	b_node_newly_reached=false;
marci@602	103	}
marci@602	104	}
marci@602	105	} else {
marci@602	106	bfs_queue.pop();
marci@602	107	if (!bfs_queue.empty()) {
marci@777	108	actual_edge=OutEdgeIt(*graph, bfs_queue.front());
marci@777	109	//graph->first(actual_edge, bfs_queue.front());
alpar@774	110	if (actual_edge!=INVALID) {
alpar@986	111	Node w=graph->target(actual_edge);
marci@944	112	if (!(*reached_map)[w]) {
marci@602	113	bfs_queue.push(w);
marci@944	114	reached_map->set(w, true);
marci@602	115	b_node_newly_reached=true;
marci@602	116	} else {
marci@602	117	b_node_newly_reached=false;
marci@602	118	}
marci@602	119	}
marci@602	120	}
marci@602	121	}
marci@602	122	return *this;
marci@602	123	}
marci@646	124	/// Returns true iff the algorithm is finished.
marci@602	125	bool finished() const { return bfs_queue.empty(); }
marci@602	126	/// The conversion operator makes for converting the bfs-iterator
marci@602	127	/// to an \c out-edge-iterator.
alpar@921	128	///\bug Edge have to be in LEMON 0.2
marci@777	129	operator Edge() const { return actual_edge; }
marci@646	130	/// Returns if b-node has been reached just now.
marci@602	131	bool isBNodeNewlyReached() const { return b_node_newly_reached; }
marci@646	132	/// Returns if a-node is examined.
alpar@774	133	bool isANodeExamined() const { return actual_edge==INVALID; }
marci@646	134	/// Returns a-node of the actual edge, so does if the edge is invalid.
alpar@986	135	Node source() const { return bfs_queue.front(); }
marci@646	136	/// \pre The actual edge have to be valid.
alpar@986	137	Node target() const { return graph->target(actual_edge); }
marci@615	138	/// Guess what?
marci@650	139	/// \deprecated
marci@944	140	const ReachedMap& reachedMap() const { return *reached_map; }
marci@944	141	/// Guess what?
marci@944	142	/// \deprecated
alpar@987	143	typename ReachedMap::Value reached(const Node& n) const {
marci@944	144	return (*reached_map)[n];
marci@944	145	}
marci@615	146	/// Guess what?
marci@650	147	/// \deprecated
marci@602	148	const std::queue<Node>& getBfsQueue() const { return bfs_queue; }
marci@615	149	};
marci@602	150
marci@602	151	/// Bfs searches for the nodes wich are not marked in
marci@602	152	/// \c reached_map
marci@944	153	/// RM have to work as a read-write bool Node-map,
marci@944	154	/// PM is a write edge node-map and
marci@944	155	/// PNM is a write node node-map and
marci@944	156	/// DM is a read-write node-map of integral value, have to be.
marci@615	157	/// \ingroup galgs
marci@602	158	template <typename Graph,
marci@944	159	typename RM=typename Graph::template NodeMap<bool>,
marci@944	160	typename PM
marci@602	161	=typename Graph::template NodeMap<typename Graph::Edge>,
marci@944	162	typename PNM
marci@944	163	=typename Graph::template NodeMap<typename Graph::Node>,
marci@944	164	typename DM=typename Graph::template NodeMap<int> >
marci@944	165	class Bfs : public BfsIterator<Graph, RM> {
marci@944	166	typedef BfsIterator<Graph, RM> Parent;
marci@944	167	public:
marci@944	168	typedef RM ReachedMap;
marci@944	169	typedef PM PredMap;
marci@944	170	typedef PNM PredNodeMap;
marci@944	171	typedef DM DistMap;
marci@602	172	protected:
marci@602	173	typedef typename Parent::Node Node;
marci@944	174	PredMap* pred_map;
marci@944	175	PredNodeMap* pred_node_map;
marci@944	176	DistMap* dist_map;
marci@944	177	/// \e
marci@944	178	Bfs<Graph, RM, PM, PNM, DM>
marci@944	179	(const Graph& _graph) : BfsIterator<Graph, RM>(_graph) { }
marci@944	180	/// PM have to be set before any bfs operation.
marci@944	181	Bfs<Graph, RM, PM, PNM, DM>&
marci@944	182	setPredMap(PredMap& _pred_map) {
marci@944	183	pred_map=&_pred_map;
marci@944	184	}
marci@944	185	/// PredNodeMap have to be set before any bfs operation.
marci@944	186	Bfs<Graph, RM, PM, PNM, DM>&
marci@944	187	setPredNodeMap(PredNodeMap& _pred_node_map) {
marci@944	188	pred_node_map=&_pred_node_map;
marci@944	189	}
marci@944	190	/// DistMap have to be set before any bfs operation.
marci@944	191	Bfs<Graph, RM, PM, PNM, DM>&
marci@944	192	setDistMap(DistMap& _dist_map) {
marci@944	193	dist_map=&_dist_map;
marci@944	194	}
marci@602	195	public:
marci@602	196	/// The algorithm will search in a bfs order for
marci@602	197	/// the nodes which are \c false initially.
marci@602	198	/// The constructor makes no initial changes on the maps.
marci@944	199	Bfs<Graph, RM, PM, PNM, DM>
marci@944	200	(const Graph& _graph, ReachedMap& _reached_map,
marci@944	201	PredMap& _pred_map, PredNodeMap& _pred_node_map,
marci@944	202	DistMap& _dist_map) : BfsIterator<Graph, RM>(_graph, _reached_map),
marci@944	203	pred_map(&_pred_map), pred_node_map(&_pred_node_map),
marci@944	204	dist_map(&_dist_map) { }
marci@602	205	/// \c s is marked to be reached and pushed in the bfs queue.
marci@602	206	/// If the queue is empty, then the first out-edge is processed.
marci@602	207	/// If \c s was not marked previously, then
marci@944	208	/// in addition its pred_map is set to be \c INVALID,
marci@944	209	/// and dist_map to \c 0.
marci@602	210	/// if \c s was marked previuosly, then it is simply pushed.
marci@944	211	Bfs<Graph, RM, PM, PNM, DM>& push(Node s) {
marci@944	212	if ((*(this->reached_map))[s]) {
marci@602	213	Parent::pushAndSetReached(s);
marci@602	214	} else {
marci@602	215	Parent::pushAndSetReached(s);
marci@944	216	pred_map->set(s, INVALID);
marci@944	217	pred_node_map->set(s, INVALID);
marci@944	218	dist_map->set(s, 0);
marci@602	219	}
marci@777	220	return *this;
marci@602	221	}
marci@602	222	/// A bfs is processed from \c s.
marci@944	223	Bfs<Graph, RM, PM, PNM, DM>& run(Node s) {
marci@602	224	push(s);
marci@602	225	while (!this->finished()) this->operator++();
marci@777	226	return *this;
marci@602	227	}
marci@944	228	/// Beside the bfs iteration, \c pred_map and \dist_map are saved in a
marci@602	229	/// newly reached node.
marci@944	230	Bfs<Graph, RM, PM, PNM, DM>& operator++() {
marci@602	231	Parent::operator++();
marci@944	232	if ((this->actual_edge)!=INVALID && this->b_node_newly_reached)
marci@602	233	{
alpar@986	234	pred_map->set(this->target(), this->actual_edge);
alpar@986	235	pred_node_map->set(this->target(), this->source());
alpar@986	236	dist_map->set(this->target(), (*dist_map)[this->source()]);
marci@602	237	}
marci@602	238	return *this;
marci@602	239	}
marci@615	240	/// Guess what?
marci@650	241	/// \deprecated
marci@944	242	const PredMap& predMap() const { return *pred_map; }
marci@944	243	/// Guess what?
marci@944	244	/// \deprecated
alpar@987	245	typename PredMap::Value pred(const Node& n) const {
marci@944	246	return (*pred_map)[n];
marci@944	247	}
marci@944	248	/// Guess what?
marci@944	249	/// \deprecated
marci@944	250	const PredNodeMap& predNodeMap() const { return *pred_node_map; }
marci@944	251	/// Guess what?
marci@944	252	/// \deprecated
alpar@987	253	typename PredNodeMap::Value predNode(const Node& n) const {
marci@944	254	return (*pred_node_map)[n];
marci@944	255	}
marci@615	256	/// Guess what?
marci@650	257	/// \deprecated
marci@944	258	const DistMap& distMap() const { return *dist_map; }
marci@944	259	/// Guess what?
marci@944	260	/// \deprecated
alpar@987	261	typename DistMap::Value dist(const Node& n) const {
marci@944	262	return (*dist_map)[n];
marci@944	263	}
marci@602	264	};
marci@602	265
marci@944	266	// template <typename Graph,
marci@944	267	// typename RM=typename Graph::template NodeMap<bool>,
marci@944	268	// typename PM
marci@944	269	// =typename Graph::template NodeMap<typename Graph::Edge>,
marci@944	270	// typename PredNodeMap
marci@944	271	// =typename Graph::template NodeMap<typename Graph::Node>,
marci@944	272	// typename DistMap=typename Graph::template NodeMap<int> >
marci@944	273	// class BfsWizard : public Bfs<Graph> {
marci@944	274	// public:
marci@944	275	// typedef Bfs<Graph, PM, PredNodeMap, DistMap> Parent;
marci@944	276	// protected:
marci@944	277	// typedef typename Parent::Node Node;
marci@944	278	// bool own_reached_map;
marci@944	279	// bool own_pred_map;
marci@944	280	// bool own_pred_node_map;
marci@944	281	// bool own_dist_map;
marci@944	282
marci@944	283	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	284	// makeRreached() {
marci@944	285	// own_reached_map=true;
marci@944	286	// reached=new ReachedMap(*graph, false);
marci@944	287	// }
marci@944	288	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	289	// deleteReachedMap() {
marci@944	290	// own_reached_map=false;
marci@944	291	// delete reached;
marci@944	292	// }
marci@944	293
marci@944	294	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	295	// makePM() {
marci@944	296	// own_pred_map=true;
marci@944	297	// pred_map=new PM(*graph, INVALID);
marci@944	298	// }
marci@944	299	// BfsWizard<Graph, ReachedMap, PM, PredNodeMap, DistMap>&
marci@944	300	// deletePM() {
marci@944	301	// own_pred_map=false;
marci@944	302	// delete pred_map;
marci@944	303	// }
marci@944	304
marci@944	305	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	306	// makePredNodeMap() {
marci@944	307	// own_pred_node_map=true;
marci@944	308	// pred_node_map=new PredNodeMap(*graph, INVALID);
marci@944	309	// }
marci@944	310	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	311	// deletePredNodeMap() {
marci@944	312	// own_pred_node_map=false;
marci@944	313	// delete pred_node_map;
marci@944	314	// }
marci@944	315
marci@944	316	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	317	// makeDistMap() {
marci@944	318	// own_dist_map=true;
marci@944	319	// dist_map=new DistMap(*graph, 0);
marci@944	320	// }
marci@944	321	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	322	// deleteDistMap() {
marci@944	323	// own_dist_map=false;
marci@944	324	// delete dist_map;
marci@944	325	// }
marci@944	326
marci@944	327	// public:
marci@944	328	// /// User friendly Bfs class.
marci@944	329	// /// The maps which are not explicitly given by the user are
marci@944	330	// /// constructed with false, INVALID, INVALID and 0 values.
marci@944	331	// /// For the user defined maps, the values are not modified, and
marci@944	332	// /// the bfs is processed without any preset on maps. Therefore,
marci@944	333	// /// the bfs will search only the nodes which are set false previously
marci@944	334	// /// in reached, and in the nodes wich are not newly reached by the
marci@944	335	// /// search, the map values are not modified.
marci@944	336	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>
marci@944	337	// (const Graph& _graph) :
marci@944	338	// own_reached_map(false),
marci@944	339	// own_pred_map(false),
marci@944	340	// own_pred_node_map(false),
marci@944	341	// own_dist_map(false) {
marci@944	342	// }
marci@944	343
marci@944	344	// /// \e
marci@944	345	// ~BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>() {
marci@944	346	// if (own_reached_map) deleteReachedMap();
marci@944	347	// if (own_pred_map) deletePM();
marci@944	348	// if (own_pred_node_map) deletePredNodeMap();
marci@944	349	// if (own_dist_map) deleteDistMap();
marci@944	350	// }
marci@944	351
marci@944	352	// /// \e
marci@944	353	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	354	// setReachedMap(ReachedMap& _reached) {
marci@944	355	// if (own_reached_map) deleteReachedMap();
marci@944	356	// Parent::setReachedMap(_reached);
marci@944	357	// }
marci@944	358	// /// \e
marci@944	359	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	360	// setPM(PM& _pred) {
marci@944	361	// if (own_pred_map) deletePM();
marci@944	362	// Parent::setPM(_pred);
marci@944	363	// }
marci@944	364	// /// \e
marci@944	365	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	366	// setPredNodeMap(PredNodeMap& _pred_node) {
marci@944	367	// if (own_pred_node_map) deletePredNodeMap();
marci@944	368	// Parent::setPredNodeMap(_pred_node);
marci@944	369	// }
marci@944	370	// /// \e
marci@944	371	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	372	// setDistMap(DistMap& _dist) {
marci@944	373	// if (own_dist_map) deleteDistMap();
marci@944	374	// Parent::setDistMap(_dist);
marci@944	375	// }
marci@944	376
marci@944	377	// /// \e
marci@944	378	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	379	// push(Node s) {
marci@944	380	// if (!reached) makeReachedMap();
marci@944	381	// if (!pred_map) makePMMap();
marci@944	382	// if (!pred_node_map) makePredNodeMap();
marci@944	383	// if (!dist_map) makeDistMap();
marci@944	384	// push(s);
marci@944	385	// return *this;
marci@944	386	// }
marci@944	387
marci@944	388	// /// \e
marci@944	389	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	390	// operator++() {
marci@944	391	// if (!reached) makeRM();
marci@944	392	// if (!pred_map) makePMMap();
marci@944	393	// if (!pred_node_map) makePredNodeMap();
marci@944	394	// if (!dist_map) makeDistMap();
marci@944	395	// ++(*this);
marci@944	396	// return *this;
marci@944	397	// }
marci@944	398
marci@944	399	// /// \e
marci@944	400	// BfsWizard<Graph, RM, PM, PredNodeMap, DistMap>&
marci@944	401	// run(Node s) {
marci@944	402	// if (!reached) makeRM();
marci@944	403	// if (!pred_map) makePMMap();
marci@944	404	// if (!pred_node_map) makePredNodeMap();
marci@944	405	// if (!dist_map) makeDistMap();
marci@944	406	// run(s);
marci@944	407	// return *this;
marci@944	408	// }
marci@944	409
marci@944	410	// };
marci@944	411
marci@944	412
marci@602	413	/// Dfs searches for the nodes wich are not marked in
marci@602	414	/// \c reached_map
marci@602	415	/// Reached have to be a read-write bool Node-map.
marci@615	416	/// \ingroup galgs
marci@602	417	template <typename Graph, /typename OutEdgeIt,/
marci@602	418	typename ReachedMap/=typename Graph::NodeMap<bool>/ >
marci@602	419	class DfsIterator {
marci@602	420	protected:
marci@602	421	typedef typename Graph::Node Node;
marci@777	422	typedef typename Graph::Edge Edge;
marci@602	423	typedef typename Graph::OutEdgeIt OutEdgeIt;
marci@602	424	const Graph* graph;
marci@602	425	std::stack<OutEdgeIt> dfs_stack;
marci@602	426	bool b_node_newly_reached;
marci@777	427	Edge actual_edge;
marci@602	428	Node actual_node;
marci@602	429	ReachedMap& reached;
marci@602	430	bool own_reached_map;
marci@602	431	public:
marci@602	432	/// In that constructor \c _reached have to be a reference
marci@650	433	/// for a bool node-map. The algorithm will search in a dfs order for
marci@602	434	/// the nodes which are \c false initially
marci@602	435	DfsIterator(const Graph& _graph, ReachedMap& _reached) :
marci@602	436	graph(&_graph), reached(_reached),
marci@602	437	own_reached_map(false) { }
marci@602	438	/// The same as above, but the map of reached nodes is
marci@602	439	/// constructed dynamically
marci@602	440	/// to everywhere false.
marci@602	441	DfsIterator(const Graph& _graph) :
marci@602	442	graph(&_graph), reached((new ReachedMap(graph /, false/))),
marci@602	443	own_reached_map(true) { }
marci@602	444	~DfsIterator() { if (own_reached_map) delete &reached; }
marci@602	445	/// This method markes s reached and first out-edge is processed.
marci@777	446	DfsIterator<Graph, /OutEdgeIt,/ ReachedMap>& pushAndSetReached(Node s) {
marci@602	447	actual_node=s;
marci@602	448	reached.set(s, true);
marci@777	449	OutEdgeIt e(*graph, s);
marci@777	450	//graph->first(e, s);
marci@602	451	dfs_stack.push(e);
marci@777	452	return *this;
marci@602	453	}
marci@602	454	/// As \c DfsIterator<Graph, ReachedMap> works as an edge-iterator,
marci@602	455	/// its \c operator++() iterates on the edges in a dfs order.
marci@602	456	DfsIterator<Graph, /OutEdgeIt,/ ReachedMap>&
marci@602	457	operator++() {
marci@602	458	actual_edge=dfs_stack.top();
alpar@774	459	if (actual_edge!=INVALID/.valid()/) {
alpar@986	460	Node w=graph->target(actual_edge);
marci@602	461	actual_node=w;
marci@602	462	if (!reached[w]) {
marci@777	463	OutEdgeIt e(*graph, w);
marci@777	464	//graph->first(e, w);
marci@602	465	dfs_stack.push(e);
marci@602	466	reached.set(w, true);
marci@602	467	b_node_newly_reached=true;
marci@602	468	} else {
alpar@986	469	actual_node=graph->source(actual_edge);
alpar@774	470	++dfs_stack.top();
marci@602	471	b_node_newly_reached=false;
marci@602	472	}
marci@602	473	} else {
marci@602	474	//actual_node=G.aNode(dfs_stack.top());
marci@602	475	dfs_stack.pop();
marci@602	476	}
marci@602	477	return *this;
marci@602	478	}
marci@646	479	/// Returns true iff the algorithm is finished.
marci@602	480	bool finished() const { return dfs_stack.empty(); }
marci@646	481	/// The conversion operator makes for converting the bfs-iterator
marci@646	482	/// to an \c out-edge-iterator.
alpar@921	483	///\bug Edge have to be in LEMON 0.2
marci@777	484	operator Edge() const { return actual_edge; }
marci@646	485	/// Returns if b-node has been reached just now.
marci@602	486	bool isBNodeNewlyReached() const { return b_node_newly_reached; }
marci@646	487	/// Returns if a-node is examined.
alpar@774	488	bool isANodeExamined() const { return actual_edge==INVALID; }
marci@646	489	/// Returns a-node of the actual edge, so does if the edge is invalid.
alpar@986	490	Node source() const { return actual_node; /FIXME/}
marci@646	491	/// Returns b-node of the actual edge.
marci@646	492	/// \pre The actual edge have to be valid.
alpar@986	493	Node target() const { return graph->target(actual_edge); }
marci@615	494	/// Guess what?
marci@650	495	/// \deprecated
marci@602	496	const ReachedMap& getReachedMap() const { return reached; }
marci@615	497	/// Guess what?
marci@650	498	/// \deprecated
marci@602	499	const std::stack<OutEdgeIt>& getDfsStack() const { return dfs_stack; }
marci@602	500	};
marci@602	501
marci@602	502	/// Dfs searches for the nodes wich are not marked in
marci@602	503	/// \c reached_map
marci@650	504	/// Reached is a read-write bool node-map,
marci@650	505	/// Pred is a write node-map, have to be.
marci@615	506	/// \ingroup galgs
marci@602	507	template <typename Graph,
marci@602	508	typename ReachedMap=typename Graph::template NodeMap<bool>,
marci@602	509	typename PredMap
marci@602	510	=typename Graph::template NodeMap<typename Graph::Edge> >
marci@602	511	class Dfs : public DfsIterator<Graph, ReachedMap> {
marci@602	512	typedef DfsIterator<Graph, ReachedMap> Parent;
marci@602	513	protected:
marci@602	514	typedef typename Parent::Node Node;
marci@602	515	PredMap& pred;
marci@602	516	public:
marci@602	517	/// The algorithm will search in a dfs order for
marci@602	518	/// the nodes which are \c false initially.
marci@602	519	/// The constructor makes no initial changes on the maps.
athos@671	520	Dfs<Graph, ReachedMap, PredMap>(const Graph& _graph, ReachedMap& _reached, PredMap& _pred) : DfsIterator<Graph, ReachedMap>(_graph, _reached), pred(_pred) { }
marci@602	521	/// \c s is marked to be reached and pushed in the bfs queue.
marci@602	522	/// If the queue is empty, then the first out-edge is processed.
marci@602	523	/// If \c s was not marked previously, then
marci@602	524	/// in addition its pred is set to be \c INVALID.
marci@602	525	/// if \c s was marked previuosly, then it is simply pushed.
marci@777	526	Dfs<Graph, ReachedMap, PredMap>& push(Node s) {
marci@602	527	if (this->reached[s]) {
marci@602	528	Parent::pushAndSetReached(s);
marci@602	529	} else {
marci@602	530	Parent::pushAndSetReached(s);
marci@602	531	pred.set(s, INVALID);
marci@602	532	}
marci@777	533	return *this;
marci@602	534	}
marci@602	535	/// A bfs is processed from \c s.
marci@777	536	Dfs<Graph, ReachedMap, PredMap>& run(Node s) {
marci@602	537	push(s);
marci@602	538	while (!this->finished()) this->operator++();
marci@777	539	return *this;
marci@602	540	}
marci@602	541	/// Beside the dfs iteration, \c pred is saved in a
marci@602	542	/// newly reached node.
marci@604	543	Dfs<Graph, ReachedMap, PredMap>& operator++() {
marci@602	544	Parent::operator++();
marci@602	545	if (this->graph->valid(this->actual_edge) && this->b_node_newly_reached)
marci@602	546	{
alpar@986	547	pred.set(this->target(), this->actual_edge);
marci@602	548	}
marci@602	549	return *this;
marci@602	550	}
marci@615	551	/// Guess what?
marci@650	552	/// \deprecated
marci@602	553	const PredMap& getPredMap() const { return pred; }
marci@602	554	};
marci@602	555
marci@944	556	} // namespace marci
alpar@921	557	} // namespace lemon
marci@602	558
alpar@921	559	#endif //LEMON_BFS_DFS_H

author	alpar
	Sat, 29 Jan 2005 23:22:56 +0000
changeset 1109	5222b3d588c3
parent 986	e997802b855c
permissions	-rw-r--r--