lemon-0.x: src/work/marci/experiment/edmonds_karp.h@9b24714c3b1c (annotated)

marci@281	1	// -- c++ --
marci@281	2	#ifndef HUGO_EDMONDS_KARP_H
marci@281	3	#define HUGO_EDMONDS_KARP_H
marci@281	4
marci@281	5	#include <algorithm>
marci@281	6	#include <list>
marci@281	7	#include <iterator>
marci@281	8
marci@281	9	#include <bfs_iterator.h>
marci@281	10	#include <invalid.h>
marci@281	11
marci@281	12	namespace hugo {
marci@281	13
marci@281	14	template<typename Graph, typename Number, typename FlowMap, typename CapacityMap>
marci@281	15	class ResGraph {
marci@281	16	public:
marci@281	17	typedef typename Graph::Node Node;
marci@281	18	typedef typename Graph::NodeIt NodeIt;
marci@281	19	private:
marci@281	20	typedef typename Graph::SymEdgeIt OldSymEdgeIt;
marci@281	21	const Graph& G;
marci@281	22	FlowMap& flow;
marci@281	23	const CapacityMap& capacity;
marci@281	24	public:
marci@281	25	ResGraph(const Graph& _G, FlowMap& _flow,
marci@281	26	const CapacityMap& _capacity) :
marci@281	27	G(_G), flow(_flow), capacity(_capacity) { }
marci@281	28
marci@281	29	class Edge;
marci@281	30	class OutEdgeIt;
marci@281	31	friend class Edge;
marci@281	32	friend class OutEdgeIt;
marci@281	33
marci@281	34	class Edge {
marci@281	35	friend class ResGraph<Graph, Number, FlowMap, CapacityMap>;
marci@281	36	protected:
marci@281	37	const ResGraph<Graph, Number, FlowMap, CapacityMap>* resG;
marci@281	38	OldSymEdgeIt sym;
marci@281	39	public:
marci@281	40	Edge() { }
marci@281	41	//Edge(const Edge& e) : resG(e.resG), sym(e.sym) { }
marci@281	42	Number free() const {
marci@281	43	if (resG->G.aNode(sym)==resG->G.tail(sym)) {
marci@281	44	return (resG->capacity.get(sym)-resG->flow.get(sym));
marci@281	45	} else {
marci@281	46	return (resG->flow.get(sym));
marci@281	47	}
marci@281	48	}
marci@281	49	bool valid() const { return sym.valid(); }
marci@281	50	void augment(Number a) const {
marci@281	51	if (resG->G.aNode(sym)==resG->G.tail(sym)) {
marci@281	52	resG->flow.set(sym, resG->flow.get(sym)+a);
marci@281	53	//resG->flow[sym]+=a;
marci@281	54	} else {
marci@281	55	resG->flow.set(sym, resG->flow.get(sym)-a);
marci@281	56	//resG->flow[sym]-=a;
marci@281	57	}
marci@281	58	}
marci@281	59	};
marci@281	60
marci@281	61	class OutEdgeIt : public Edge {
marci@281	62	friend class ResGraph<Graph, Number, FlowMap, CapacityMap>;
marci@281	63	public:
marci@281	64	OutEdgeIt() { }
marci@281	65	//OutEdgeIt(const OutEdgeIt& e) { resG=e.resG; sym=e.sym; }
marci@281	66	private:
marci@281	67	OutEdgeIt(const ResGraph<Graph, Number, FlowMap, CapacityMap>& _resG, Node v) {
marci@281	68	resG=&_resG;
marci@281	69	sym=resG->G.template first<OldSymEdgeIt>(v);
marci@281	70	while( sym.valid() && !(free()>0) ) { ++sym; }
marci@281	71	}
marci@281	72	public:
marci@281	73	OutEdgeIt& operator++() {
marci@281	74	++sym;
marci@281	75	while( sym.valid() && !(free()>0) ) { ++sym; }
marci@281	76	return *this;
marci@281	77	}
marci@281	78	};
marci@281	79
marci@281	80	void /getF/first(OutEdgeIt& e, Node v) const {
marci@281	81	e=OutEdgeIt(*this, v);
marci@281	82	}
marci@281	83	void /getF/first(NodeIt& v) const { G./getF/first(v); }
marci@281	84
marci@281	85	template< typename It >
marci@281	86	It first() const {
marci@281	87	It e;
marci@281	88	/getF/first(e);
marci@281	89	return e;
marci@281	90	}
marci@281	91
marci@281	92	template< typename It >
marci@281	93	It first(Node v) const {
marci@281	94	It e;
marci@281	95	/getF/first(e, v);
marci@281	96	return e;
marci@281	97	}
marci@281	98
marci@281	99	Node tail(Edge e) const { return G.aNode(e.sym); }
marci@281	100	Node head(Edge e) const { return G.bNode(e.sym); }
marci@281	101
marci@281	102	Node aNode(OutEdgeIt e) const { return G.aNode(e.sym); }
marci@281	103	Node bNode(OutEdgeIt e) const { return G.bNode(e.sym); }
marci@281	104
marci@281	105	int id(Node v) const { return G.id(v); }
marci@281	106
marci@281	107	template <typename S>
marci@281	108	class NodeMap {
marci@281	109	typename Graph::NodeMap<S> node_map;
marci@281	110	public:
marci@281	111	NodeMap(const ResGraph<Graph, Number, FlowMap, CapacityMap>& _G) : node_map(_G.G) { }
marci@281	112	NodeMap(const ResGraph<Graph, Number, FlowMap, CapacityMap>& _G, S a) : node_map(_G.G, a) { }
marci@281	113	void set(Node nit, S a) { node_map.set(nit, a); }
marci@281	114	S get(Node nit) const { return node_map.get(nit); }
marci@281	115	S& operator[](Node nit) { return node_map[nit]; }
marci@281	116	const S& operator[](Node nit) const { return node_map[nit]; }
marci@281	117	};
marci@281	118
marci@281	119	};
marci@281	120
marci@281	121
marci@281	122	template<typename Graph, typename Number, typename FlowMap, typename CapacityMap>
marci@281	123	class ResGraph2 {
marci@281	124	public:
marci@281	125	typedef typename Graph::Node Node;
marci@281	126	typedef typename Graph::NodeIt NodeIt;
marci@281	127	private:
marci@281	128	//typedef typename Graph::SymEdgeIt OldSymEdgeIt;
marci@281	129	typedef typename Graph::OutEdgeIt OldOutEdgeIt;
marci@281	130	typedef typename Graph::InEdgeIt OldInEdgeIt;
marci@281	131
marci@281	132	const Graph& G;
marci@281	133	FlowMap& flow;
marci@281	134	const CapacityMap& capacity;
marci@281	135	public:
marci@281	136	ResGraph2(const Graph& _G, FlowMap& _flow,
marci@281	137	const CapacityMap& _capacity) :
marci@281	138	G(_G), flow(_flow), capacity(_capacity) { }
marci@281	139
marci@281	140	class Edge;
marci@281	141	class OutEdgeIt;
marci@281	142	friend class Edge;
marci@281	143	friend class OutEdgeIt;
marci@281	144
marci@281	145	class Edge {
marci@281	146	friend class ResGraph2<Graph, Number, FlowMap, CapacityMap>;
marci@281	147	protected:
marci@281	148	const ResGraph2<Graph, Number, FlowMap, CapacityMap>* resG;
marci@281	149	//OldSymEdgeIt sym;
marci@281	150	OldOutEdgeIt out;
marci@281	151	OldInEdgeIt in;
marci@281	152	bool out_or_in; //true, iff out
marci@281	153	public:
marci@281	154	Edge() : out_or_in(true) { }
marci@281	155	Number free() const {
marci@281	156	if (out_or_in) {
marci@281	157	return (resG->capacity.get(out)-resG->flow.get(out));
marci@281	158	} else {
marci@281	159	return (resG->flow.get(in));
marci@281	160	}
marci@281	161	}
marci@281	162	bool valid() const {
marci@281	163	return out_or_in && out.valid() \|\| in.valid(); }
marci@281	164	void augment(Number a) const {
marci@281	165	if (out_or_in) {
marci@281	166	resG->flow.set(out, resG->flow.get(out)+a);
marci@281	167	} else {
marci@281	168	resG->flow.set(in, resG->flow.get(in)-a);
marci@281	169	}
marci@281	170	}
marci@281	171	};
marci@281	172
marci@281	173	class OutEdgeIt : public Edge {
marci@281	174	friend class ResGraph2<Graph, Number, FlowMap, CapacityMap>;
marci@281	175	public:
marci@281	176	OutEdgeIt() { }
marci@281	177	private:
marci@281	178	OutEdgeIt(const ResGraph2<Graph, Number, FlowMap, CapacityMap>& _resG, Node v) {
marci@281	179	resG=&_resG;
marci@281	180	out=resG->G.template first<OldOutEdgeIt>(v);
marci@281	181	while( out.valid() && !(free()>0) ) { ++out; }
marci@281	182	if (!out.valid()) {
marci@281	183	out_or_in=0;
marci@281	184	in=resG->G.template first<OldInEdgeIt>(v);
marci@281	185	while( in.valid() && !(free()>0) ) { ++in; }
marci@281	186	}
marci@281	187	}
marci@281	188	public:
marci@281	189	OutEdgeIt& operator++() {
marci@281	190	if (out_or_in) {
marci@281	191	Node v=resG->G.aNode(out);
marci@281	192	++out;
marci@281	193	while( out.valid() && !(free()>0) ) { ++out; }
marci@281	194	if (!out.valid()) {
marci@281	195	out_or_in=0;
marci@281	196	in=resG->G.template first<OldInEdgeIt>(v);
marci@281	197	while( in.valid() && !(free()>0) ) { ++in; }
marci@281	198	}
marci@281	199	} else {
marci@281	200	++in;
marci@281	201	while( in.valid() && !(free()>0) ) { ++in; }
marci@281	202	}
marci@281	203	return *this;
marci@281	204	}
marci@281	205	};
marci@281	206
marci@281	207	void /getF/first(OutEdgeIt& e, Node v) const {
marci@281	208	e=OutEdgeIt(*this, v);
marci@281	209	}
marci@281	210	void /getF/first(NodeIt& v) const { G./getF/first(v); }
marci@281	211
marci@281	212	template< typename It >
marci@281	213	It first() const {
marci@281	214	It e;
marci@281	215	/getF/first(e);
marci@281	216	return e;
marci@281	217	}
marci@281	218
marci@281	219	template< typename It >
marci@281	220	It first(Node v) const {
marci@281	221	It e;
marci@281	222	/getF/first(e, v);
marci@281	223	return e;
marci@281	224	}
marci@281	225
marci@281	226	Node tail(Edge e) const {
marci@281	227	return ((e.out_or_in) ? G.aNode(e.out) : G.aNode(e.in)); }
marci@281	228	Node head(Edge e) const {
marci@281	229	return ((e.out_or_in) ? G.bNode(e.out) : G.bNode(e.in)); }
marci@281	230
marci@281	231	Node aNode(OutEdgeIt e) const {
marci@281	232	return ((e.out_or_in) ? G.aNode(e.out) : G.aNode(e.in)); }
marci@281	233	Node bNode(OutEdgeIt e) const {
marci@281	234	return ((e.out_or_in) ? G.bNode(e.out) : G.bNode(e.in)); }
marci@281	235
marci@281	236	int id(Node v) const { return G.id(v); }
marci@281	237
marci@281	238	template <typename S>
marci@281	239	class NodeMap {
marci@281	240	typename Graph::NodeMap<S> node_map;
marci@281	241	public:
marci@281	242	NodeMap(const ResGraph2<Graph, Number, FlowMap, CapacityMap>& _G) : node_map(_G.G) { }
marci@281	243	NodeMap(const ResGraph2<Graph, Number, FlowMap, CapacityMap>& _G, S a) : node_map(_G.G, a) { }
marci@281	244	void set(Node nit, S a) { node_map.set(nit, a); }
marci@281	245	S get(Node nit) const { return node_map.get(nit); }
marci@281	246	};
marci@281	247	};
marci@281	248
marci@281	249
marci@281	250	template <typename GraphWrapper, typename Number, typename FlowMap, typename CapacityMap>
marci@281	251	class MaxFlow {
marci@281	252	protected:
marci@281	253	typedef GraphWrapper GW;
marci@281	254	typedef typename GW::Node Node;
marci@281	255	typedef typename GW::Edge Edge;
marci@281	256	typedef typename GW::EdgeIt EdgeIt;
marci@281	257	typedef typename GW::OutEdgeIt OutEdgeIt;
marci@281	258	typedef typename GW::InEdgeIt InEdgeIt;
marci@281	259	//const Graph* G;
marci@281	260	GW gw;
marci@281	261	Node s;
marci@281	262	Node t;
marci@281	263	FlowMap* flow;
marci@281	264	const CapacityMap* capacity;
marci@281	265	typedef ResGraphWrapper<GW, Number, FlowMap, CapacityMap > ResGW;
marci@281	266	typedef typename ResGW::OutEdgeIt ResGWOutEdgeIt;
marci@281	267	typedef typename ResGW::Edge ResGWEdge;
marci@281	268	public:
marci@281	269
marci@281	270	MaxFlow(const GW& _gw, Node _s, Node _t, FlowMap& _flow, const CapacityMap& _capacity) :
marci@281	271	gw(_gw), s(_s), t(_t), flow(&_flow), capacity(&_capacity) { }
marci@281	272
marci@281	273	bool augmentOnShortestPath() {
marci@281	274	ResGW res_graph(gw, flow, capacity);
marci@281	275	bool _augment=false;
marci@281	276
marci@281	277	typedef typename ResGW::NodeMap<bool> ReachedMap;
marci@281	278	BfsIterator5< ResGW, ReachedMap > bfs(res_graph);
marci@281	279	bfs.pushAndSetReached(s);
marci@281	280
marci@281	281	typename ResGW::NodeMap<ResGWEdge> pred(res_graph);
marci@281	282	pred.set(s, INVALID);
marci@281	283
marci@281	284	typename ResGW::NodeMap<Number> free(res_graph);
marci@281	285
marci@281	286	//searching for augmenting path
marci@281	287	while ( !bfs.finished() ) {
marci@281	288	ResGWOutEdgeIt e=bfs;
marci@281	289	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
marci@281	290	Node v=res_graph.tail(e);
marci@281	291	Node w=res_graph.head(e);
marci@281	292	pred.set(w, e);
marci@281	293	if (res_graph.valid(pred.get(v))) {
marci@281	294	free.set(w, std::min(free.get(v), res_graph.resCap(e)));
marci@281	295	} else {
marci@281	296	free.set(w, res_graph.resCap(e));
marci@281	297	}
marci@281	298	if (res_graph.head(e)==t) { _augment=true; break; }
marci@281	299	}
marci@281	300
marci@281	301	++bfs;
marci@281	302	} //end of searching augmenting path
marci@281	303
marci@281	304	if (_augment) {
marci@281	305	Node n=t;
marci@281	306	Number augment_value=free.get(t);
marci@281	307	while (res_graph.valid(pred.get(n))) {
marci@281	308	ResGWEdge e=pred.get(n);
marci@281	309	res_graph.augment(e, augment_value);
marci@281	310	n=res_graph.tail(e);
marci@281	311	}
marci@281	312	}
marci@281	313
marci@281	314	return _augment;
marci@281	315	}
marci@281	316
marci@281	317	template<typename MapGraphWrapper>
marci@281	318	class DistanceMap {
marci@281	319	protected:
marci@281	320	MapGraphWrapper gw;
marci@281	321	typename MapGraphWrapper::NodeMap<int> dist;
marci@281	322	public:
marci@281	323	DistanceMap(MapGraphWrapper& _gw) : gw(_gw), dist(_gw, _gw.nodeNum()) { }
marci@281	324	void set(const typename MapGraphWrapper::Node& n, int a) { dist[n]=a; }
marci@281	325	int get(const typename MapGraphWrapper::Node& n) const { return dist[n]; }
marci@281	326	bool get(const typename MapGraphWrapper::Edge& e) const {
marci@281	327	return (dist.get(gw.tail(e))<dist.get(gw.head(e)));
marci@281	328	}
marci@281	329	};
marci@281	330
marci@281	331	template<typename MutableGraph> bool augmentOnBlockingFlow() {
marci@281	332	typedef MutableGraph MG;
marci@281	333	bool _augment=false;
marci@281	334
marci@281	335	ResGW res_graph(gw, flow, capacity);
marci@281	336
marci@281	337	typedef typename ResGW::NodeMap<bool> ReachedMap;
marci@281	338	BfsIterator5< ResGW, ReachedMap > bfs(res_graph);
marci@281	339
marci@281	340	bfs.pushAndSetReached(s);
marci@281	341	//typename ResGW::NodeMap<int> dist(res_graph); //filled up with 0's
marci@281	342	DistanceMap<ResGW> dist(res_graph);
marci@281	343	while ( !bfs.finished() ) {
marci@281	344	ResGWOutEdgeIt e=bfs;
marci@281	345	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
marci@281	346	dist.set(res_graph.head(e), dist.get(res_graph.tail(e))+1);
marci@281	347	}
marci@281	348	++bfs;
marci@281	349	} //computing distances from s in the residual graph
marci@281	350
marci@281	351	MG F;
marci@281	352	typedef SubGraphWrapper<ResGW, DistanceMap<ResGW> > FilterResGW;
marci@281	353	FilterResGW filter_res_graph(res_graph, dist);
marci@281	354	typename ResGW::NodeMap<typename MG::Node> res_graph_to_F(res_graph);
marci@281	355	{
marci@281	356	typename ResGW::NodeIt n;
marci@281	357	for(res_graph.first(n); res_graph.valid(n); res_graph.next(n)) {
marci@281	358	res_graph_to_F.set(n, F.addNode());
marci@281	359	}
marci@281	360	}
marci@281	361
marci@281	362	typename MG::Node sF=res_graph_to_F.get(s);
marci@281	363	typename MG::Node tF=res_graph_to_F.get(t);
marci@281	364	typename MG::EdgeMap<ResGWEdge> original_edge(F);
marci@281	365	typename MG::EdgeMap<Number> residual_capacity(F);
marci@281	366
marci@281	367	//Making F to the graph containing the edges of the residual graph
marci@281	368	//which are in some shortest paths
marci@281	369	{
marci@281	370	typename FilterResGW::EdgeIt e;
marci@281	371	for(filter_res_graph.first(e); filter_res_graph.valid(e); filter_res_graph.next(e)) {
marci@281	372	//if (dist.get(res_graph.head(e))==dist.get(res_graph.tail(e))+1) {
marci@281	373	typename MG::Edge f=F.addEdge(res_graph_to_F.get(res_graph.tail(e)), res_graph_to_F.get(res_graph.head(e)));
marci@281	374	original_edge.update();
marci@281	375	original_edge.set(f, e);
marci@281	376	residual_capacity.update();
marci@281	377	residual_capacity.set(f, res_graph.resCap(e));
marci@281	378	//}
marci@281	379	}
marci@281	380	}
marci@281	381
marci@281	382	bool __augment=true;
marci@281	383
marci@281	384	while (__augment) {
marci@281	385	__augment=false;
marci@281	386	//computing blocking flow with dfs
marci@281	387	typedef typename TrivGraphWrapper<MG>::NodeMap<bool> BlockingReachedMap;
marci@281	388	DfsIterator5< TrivGraphWrapper<MG>, BlockingReachedMap > dfs(F);
marci@281	389	typename MG::NodeMap<typename MG::Edge> pred(F);
marci@281	390	pred.set(sF, INVALID);
marci@281	391	//invalid iterators for sources
marci@281	392
marci@281	393	typename MG::NodeMap<Number> free(F);
marci@281	394
marci@281	395	dfs.pushAndSetReached(sF);
marci@281	396	while (!dfs.finished()) {
marci@281	397	++dfs;
marci@281	398	if (F.valid(/typename MG::OutEdgeIt/(dfs))) {
marci@281	399	if (dfs.isBNodeNewlyReached()) {
marci@281	400	typename MG::Node v=F.aNode(dfs);
marci@281	401	typename MG::Node w=F.bNode(dfs);
marci@281	402	pred.set(w, dfs);
marci@281	403	if (F.valid(pred.get(v))) {
marci@281	404	free.set(w, std::min(free.get(v), residual_capacity.get(dfs)));
marci@281	405	} else {
marci@281	406	free.set(w, residual_capacity.get(dfs));
marci@281	407	}
marci@281	408	if (w==tF) {
marci@281	409	__augment=true;
marci@281	410	_augment=true;
marci@281	411	break;
marci@281	412	}
marci@281	413
marci@281	414	} else {
marci@281	415	F.erase(/typename MG::OutEdgeIt/(dfs));
marci@281	416	}
marci@281	417	}
marci@281	418	}
marci@281	419
marci@281	420	if (__augment) {
marci@281	421	typename MG::Node n=tF;
marci@281	422	Number augment_value=free.get(tF);
marci@281	423	while (F.valid(pred.get(n))) {
marci@281	424	typename MG::Edge e=pred.get(n);
marci@281	425	res_graph.augment(original_edge.get(e), augment_value);
marci@281	426	n=F.tail(e);
marci@281	427	if (residual_capacity.get(e)==augment_value)
marci@281	428	F.erase(e);
marci@281	429	else
marci@281	430	residual_capacity.set(e, residual_capacity.get(e)-augment_value);
marci@281	431	}
marci@281	432	}
marci@281	433
marci@281	434	}
marci@281	435
marci@281	436	return _augment;
marci@281	437	}
marci@281	438
marci@281	439	template<typename MutableGraph> bool augmentOnBlockingFlow1() {
marci@281	440	typedef MutableGraph MG;
marci@281	441	bool _augment=false;
marci@281	442
marci@281	443	ResGW res_graph(gw, flow, capacity);
marci@281	444
marci@281	445	//bfs for distances on the residual graph
marci@281	446	typedef typename ResGW::NodeMap<bool> ReachedMap;
marci@281	447	BfsIterator5< ResGW, ReachedMap > bfs(res_graph);
marci@281	448	bfs.pushAndSetReached(s);
marci@281	449	typename ResGW::NodeMap<int> dist(res_graph); //filled up with 0's
marci@281	450
marci@281	451	//F will contain the physical copy of the residual graph
marci@281	452	//with the set of edges which are on shortest paths
marci@281	453	MG F;
marci@281	454	typename ResGW::NodeMap<typename MG::Node> res_graph_to_F(res_graph);
marci@281	455	{
marci@281	456	typename ResGW::NodeIt n;
marci@281	457	for(res_graph.first(n); res_graph.valid(n); res_graph.next(n)) {
marci@281	458	res_graph_to_F.set(n, F.addNode());
marci@281	459	}
marci@281	460	}
marci@281	461
marci@281	462	typename MG::Node sF=res_graph_to_F.get(s);
marci@281	463	typename MG::Node tF=res_graph_to_F.get(t);
marci@281	464	typename MG::EdgeMap<ResGWEdge> original_edge(F);
marci@281	465	typename MG::EdgeMap<Number> residual_capacity(F);
marci@281	466
marci@281	467	while ( !bfs.finished() ) {
marci@281	468	ResGWOutEdgeIt e=bfs;
marci@281	469	if (res_graph.valid(e)) {
marci@281	470	if (bfs.isBNodeNewlyReached()) {
marci@281	471	dist.set(res_graph.head(e), dist.get(res_graph.tail(e))+1);
marci@281	472	typename MG::Edge f=F.addEdge(res_graph_to_F.get(res_graph.tail(e)), res_graph_to_F.get(res_graph.head(e)));
marci@281	473	original_edge.update();
marci@281	474	original_edge.set(f, e);
marci@281	475	residual_capacity.update();
marci@281	476	residual_capacity.set(f, res_graph.resCap(e));
marci@281	477	} else {
marci@281	478	if (dist.get(res_graph.head(e))==(dist.get(res_graph.tail(e))+1)) {
marci@281	479	typename MG::Edge f=F.addEdge(res_graph_to_F.get(res_graph.tail(e)), res_graph_to_F.get(res_graph.head(e)));
marci@281	480	original_edge.update();
marci@281	481	original_edge.set(f, e);
marci@281	482	residual_capacity.update();
marci@281	483	residual_capacity.set(f, res_graph.resCap(e));
marci@281	484	}
marci@281	485	}
marci@281	486	}
marci@281	487	++bfs;
marci@281	488	} //computing distances from s in the residual graph
marci@281	489
marci@281	490	bool __augment=true;
marci@281	491
marci@281	492	while (__augment) {
marci@281	493	__augment=false;
marci@281	494	//computing blocking flow with dfs
marci@281	495	typedef typename TrivGraphWrapper<MG>::NodeMap<bool> BlockingReachedMap;
marci@281	496	DfsIterator5< TrivGraphWrapper<MG>, BlockingReachedMap > dfs(F);
marci@281	497	typename MG::NodeMap<typename MG::Edge> pred(F);
marci@281	498	pred.set(sF, INVALID);
marci@281	499	//invalid iterators for sources
marci@281	500
marci@281	501	typename MG::NodeMap<Number> free(F);
marci@281	502
marci@281	503	dfs.pushAndSetReached(sF);
marci@281	504	while (!dfs.finished()) {
marci@281	505	++dfs;
marci@281	506	if (F.valid(/typename MG::OutEdgeIt/(dfs))) {
marci@281	507	if (dfs.isBNodeNewlyReached()) {
marci@281	508	typename MG::Node v=F.aNode(dfs);
marci@281	509	typename MG::Node w=F.bNode(dfs);
marci@281	510	pred.set(w, dfs);
marci@281	511	if (F.valid(pred.get(v))) {
marci@281	512	free.set(w, std::min(free.get(v), residual_capacity.get(dfs)));
marci@281	513	} else {
marci@281	514	free.set(w, residual_capacity.get(dfs));
marci@281	515	}
marci@281	516	if (w==tF) {
marci@281	517	__augment=true;
marci@281	518	_augment=true;
marci@281	519	break;
marci@281	520	}
marci@281	521
marci@281	522	} else {
marci@281	523	F.erase(/typename MG::OutEdgeIt/(dfs));
marci@281	524	}
marci@281	525	}
marci@281	526	}
marci@281	527
marci@281	528	if (__augment) {
marci@281	529	typename MG::Node n=tF;
marci@281	530	Number augment_value=free.get(tF);
marci@281	531	while (F.valid(pred.get(n))) {
marci@281	532	typename MG::Edge e=pred.get(n);
marci@281	533	res_graph.augment(original_edge.get(e), augment_value);
marci@281	534	n=F.tail(e);
marci@281	535	if (residual_capacity.get(e)==augment_value)
marci@281	536	F.erase(e);
marci@281	537	else
marci@281	538	residual_capacity.set(e, residual_capacity.get(e)-augment_value);
marci@281	539	}
marci@281	540	}
marci@281	541
marci@281	542	}
marci@281	543
marci@281	544	return _augment;
marci@281	545	}
marci@281	546
marci@281	547	bool augmentOnBlockingFlow2() {
marci@281	548	bool _augment=false;
marci@281	549
marci@281	550	ResGW res_graph(gw, flow, capacity);
marci@281	551
marci@281	552	typedef typename ResGW::NodeMap<bool> ReachedMap;
marci@281	553	BfsIterator5< ResGW, ReachedMap > bfs(res_graph);
marci@281	554
marci@281	555	bfs.pushAndSetReached(s);
marci@281	556	DistanceMap<ResGW> dist(res_graph);
marci@281	557	while ( !bfs.finished() ) {
marci@281	558	ResGWOutEdgeIt e=bfs;
marci@281	559	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
marci@281	560	dist.set(res_graph.head(e), dist.get(res_graph.tail(e))+1);
marci@281	561	}
marci@281	562	++bfs;
marci@281	563	} //computing distances from s in the residual graph
marci@281	564
marci@281	565	//Subgraph containing the edges on some shortest paths
marci@281	566	typedef SubGraphWrapper<ResGW, DistanceMap<ResGW> > FilterResGW;
marci@281	567	FilterResGW filter_res_graph(res_graph, dist);
marci@281	568
marci@281	569	//Subgraph, which is able to delete edges which are already
marci@281	570	//met by the dfs
marci@281	571	typename FilterResGW::NodeMap<typename FilterResGW::OutEdgeIt>
marci@281	572	first_out_edges(filter_res_graph);
marci@281	573	typename FilterResGW::NodeIt v;
marci@281	574	for(filter_res_graph.first(v); filter_res_graph.valid(v);
marci@281	575	filter_res_graph.next(v))
marci@281	576	{
marci@281	577	typename FilterResGW::OutEdgeIt e;
marci@281	578	filter_res_graph.first(e, v);
marci@281	579	first_out_edges.set(v, e);
marci@281	580	}
marci@281	581	typedef ErasingFirstGraphWrapper<FilterResGW, typename FilterResGW::
marci@281	582	NodeMap<typename FilterResGW::OutEdgeIt> > ErasingResGW;
marci@281	583	ErasingResGW erasing_res_graph(filter_res_graph, first_out_edges);
marci@281	584
marci@281	585	bool __augment=true;
marci@281	586
marci@281	587	while (__augment) {
marci@281	588
marci@281	589	__augment=false;
marci@281	590	//computing blocking flow with dfs
marci@281	591	typedef typename ErasingResGW::NodeMap<bool> BlockingReachedMap;
marci@281	592	DfsIterator5< ErasingResGW, BlockingReachedMap >
marci@281	593	dfs(erasing_res_graph);
marci@281	594	typename ErasingResGW::NodeMap<typename ErasingResGW::OutEdgeIt>
marci@281	595	pred(erasing_res_graph);
marci@281	596	pred.set(s, INVALID);
marci@281	597	//invalid iterators for sources
marci@281	598
marci@281	599	typename ErasingResGW::NodeMap<Number> free(erasing_res_graph);
marci@281	600
marci@281	601	dfs.pushAndSetReached(s);
marci@281	602	while (!dfs.finished()) {
marci@281	603	++dfs;
marci@281	604	if (erasing_res_graph.valid(
marci@281	605	/typename ErasingResGW::OutEdgeIt/(dfs)))
marci@281	606	{
marci@281	607	if (dfs.isBNodeNewlyReached()) {
marci@281	608
marci@281	609	typename ErasingResGW::Node v=erasing_res_graph.aNode(dfs);
marci@281	610	typename ErasingResGW::Node w=erasing_res_graph.bNode(dfs);
marci@281	611
marci@281	612	pred.set(w, /typename ErasingResGW::OutEdgeIt/(dfs));
marci@281	613	if (erasing_res_graph.valid(pred.get(v))) {
marci@281	614	free.set(w, std::min(free.get(v), res_graph.resCap(dfs)));
marci@281	615	} else {
marci@281	616	free.set(w, res_graph.resCap(dfs));
marci@281	617	}
marci@281	618
marci@281	619	if (w==t) {
marci@281	620	__augment=true;
marci@281	621	_augment=true;
marci@281	622	break;
marci@281	623	}
marci@281	624	} else {
marci@281	625	erasing_res_graph.erase(dfs);
marci@281	626	}
marci@281	627	}
marci@281	628	}
marci@281	629
marci@281	630	if (__augment) {
marci@281	631	typename ErasingResGW::Node n=t;
marci@281	632	Number augment_value=free.get(n);
marci@281	633	while (erasing_res_graph.valid(pred.get(n))) {
marci@281	634	typename ErasingResGW::OutEdgeIt e=pred.get(n);
marci@281	635	res_graph.augment(e, augment_value);
marci@281	636	n=erasing_res_graph.tail(e);
marci@281	637	if (res_graph.resCap(e)==0)
marci@281	638	erasing_res_graph.erase(e);
marci@281	639	}
marci@281	640	}
marci@281	641
marci@281	642	} //while (__augment)
marci@281	643
marci@281	644	return _augment;
marci@281	645	}
marci@281	646
marci@281	647	// bool augmentOnBlockingFlow2() {
marci@281	648	// bool _augment=false;
marci@281	649
marci@281	650	// //typedef ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap> EAugGraph;
marci@281	651	// typedef FilterGraphWrapper< ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap> > EAugGraph;
marci@281	652	// typedef typename EAugGraph::OutEdgeIt EAugOutEdgeIt;
marci@281	653	// typedef typename EAugGraph::Edge EAugEdge;
marci@281	654
marci@281	655	// EAugGraph res_graph(G, flow, *capacity);
marci@281	656
marci@281	657	// //typedef typename EAugGraph::NodeMap<bool> ReachedMap;
marci@281	658	// BfsIterator5<
marci@281	659	// ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>,
marci@281	660	// /typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::OutEdgeIt,/
marci@281	661	// ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::NodeMap<bool> > bfs(res_graph);
marci@281	662
marci@281	663	// bfs.pushAndSetReached(s);
marci@281	664
marci@281	665	// typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::
marci@281	666	// NodeMap<int>& dist=res_graph.dist;
marci@281	667
marci@281	668	// while ( !bfs.finished() ) {
marci@281	669	// typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::OutEdgeIt e=bfs;
marci@281	670	// if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
marci@281	671	// dist.set(res_graph.head(e), dist.get(res_graph.tail(e))+1);
marci@281	672	// }
marci@281	673	// ++bfs;
marci@281	674	// } //computing distances from s in the residual graph
marci@281	675
marci@281	676	// bool __augment=true;
marci@281	677
marci@281	678	// while (__augment) {
marci@281	679
marci@281	680	// __augment=false;
marci@281	681	// //computing blocking flow with dfs
marci@281	682	// typedef typename EAugGraph::NodeMap<bool> BlockingReachedMap;
marci@281	683	// DfsIterator5< EAugGraph/, EAugOutEdgeIt/, BlockingReachedMap >
marci@281	684	// dfs(res_graph);
marci@281	685	// typename EAugGraph::NodeMap<EAugEdge> pred(res_graph);
marci@281	686	// pred.set(s, EAugEdge(INVALID));
marci@281	687	// //invalid iterators for sources
marci@281	688
marci@281	689	// typename EAugGraph::NodeMap<Number> free(res_graph);
marci@281	690
marci@281	691	// dfs.pushAndSetReached(s);
marci@281	692	// while (!dfs.finished()) {
marci@281	693	// ++dfs;
marci@281	694	// if (res_graph.valid(EAugOutEdgeIt(dfs))) {
marci@281	695	// if (dfs.isBNodeNewlyReached()) {
marci@281	696
marci@281	697	// typename EAugGraph::Node v=res_graph.aNode(dfs);
marci@281	698	// typename EAugGraph::Node w=res_graph.bNode(dfs);
marci@281	699
marci@281	700	// pred.set(w, EAugOutEdgeIt(dfs));
marci@281	701	// if (res_graph.valid(pred.get(v))) {
marci@281	702	// free.set(w, std::min(free.get(v), res_graph.free(dfs)));
marci@281	703	// } else {
marci@281	704	// free.set(w, res_graph.free(dfs));
marci@281	705	// }
marci@281	706
marci@281	707	// if (w==t) {
marci@281	708	// __augment=true;
marci@281	709	// _augment=true;
marci@281	710	// break;
marci@281	711	// }
marci@281	712	// } else {
marci@281	713	// res_graph.erase(dfs);
marci@281	714	// }
marci@281	715	// }
marci@281	716
marci@281	717	// }
marci@281	718
marci@281	719	// if (__augment) {
marci@281	720	// typename EAugGraph::Node n=t;
marci@281	721	// Number augment_value=free.get(t);
marci@281	722	// while (res_graph.valid(pred.get(n))) {
marci@281	723	// EAugEdge e=pred.get(n);
marci@281	724	// res_graph.augment(e, augment_value);
marci@281	725	// n=res_graph.tail(e);
marci@281	726	// if (res_graph.free(e)==0)
marci@281	727	// res_graph.erase(e);
marci@281	728	// }
marci@281	729	// }
marci@281	730
marci@281	731	// }
marci@281	732
marci@281	733	// return _augment;
marci@281	734	// }
marci@281	735
marci@281	736	void run() {
marci@281	737	//int num_of_augmentations=0;
marci@281	738	while (augmentOnShortestPath()) {
marci@281	739	//while (augmentOnBlockingFlow<MutableGraph>()) {
marci@281	740	//std::cout << ++num_of_augmentations << " ";
marci@281	741	//std::cout<<std::endl;
marci@281	742	}
marci@281	743	}
marci@281	744
marci@281	745	template<typename MutableGraph> void run() {
marci@281	746	//int num_of_augmentations=0;
marci@281	747	//while (augmentOnShortestPath()) {
marci@281	748	while (augmentOnBlockingFlow<MutableGraph>()) {
marci@281	749	//std::cout << ++num_of_augmentations << " ";
marci@281	750	//std::cout<<std::endl;
marci@281	751	}
marci@281	752	}
marci@281	753
marci@281	754	Number flowValue() {
marci@281	755	Number a=0;
marci@281	756	OutEdgeIt e;
marci@281	757	for(gw.first(e, s); gw.valid(e); gw.next(e)) {
marci@281	758	a+=flow->get(e);
marci@281	759	}
marci@281	760	return a;
marci@281	761	}
marci@281	762
marci@281	763	};
marci@281	764
marci@281	765
marci@281	766	// template <typename Graph, typename Number, typename FlowMap, typename CapacityMap>
marci@281	767	// class MaxMatching {
marci@281	768	// public:
marci@281	769	// typedef typename Graph::Node Node;
marci@281	770	// typedef typename Graph::NodeIt NodeIt;
marci@281	771	// typedef typename Graph::Edge Edge;
marci@281	772	// typedef typename Graph::EdgeIt EdgeIt;
marci@281	773	// typedef typename Graph::OutEdgeIt OutEdgeIt;
marci@281	774	// typedef typename Graph::InEdgeIt InEdgeIt;
marci@281	775
marci@281	776	// typedef typename Graph::NodeMap<bool> SMap;
marci@281	777	// typedef typename Graph::NodeMap<bool> TMap;
marci@281	778	// private:
marci@281	779	// const Graph* G;
marci@281	780	// SMap* S;
marci@281	781	// TMap* T;
marci@281	782	// //Node s;
marci@281	783	// //Node t;
marci@281	784	// FlowMap* flow;
marci@281	785	// const CapacityMap* capacity;
marci@281	786	// typedef ResGraphWrapper<Graph, Number, FlowMap, CapacityMap > AugGraph;
marci@281	787	// typedef typename AugGraph::OutEdgeIt AugOutEdgeIt;
marci@281	788	// typedef typename AugGraph::Edge AugEdge;
marci@281	789	// typename Graph::NodeMap<int> used; //0
marci@281	790
marci@281	791	// public:
marci@281	792	// MaxMatching(const Graph& _G, SMap& _S, TMap& _T, FlowMap& _flow, const CapacityMap& _capacity) :
marci@281	793	// G(&_G), S(&_S), T(&_T), flow(&_flow), capacity(&_capacity), used(_G) { }
marci@281	794	// bool augmentOnShortestPath() {
marci@281	795	// AugGraph res_graph(G, flow, *capacity);
marci@281	796	// bool _augment=false;
marci@281	797
marci@281	798	// typedef typename AugGraph::NodeMap<bool> ReachedMap;
marci@281	799	// BfsIterator5< AugGraph, /AugOutEdgeIt,/ ReachedMap > bfs(res_graph);
marci@281	800	// typename AugGraph::NodeMap<AugEdge> pred(res_graph);
marci@281	801	// for(NodeIt s=G->template first<NodeIt>(); G->valid(s); G->next(s)) {
marci@281	802	// if ((S->get(s)) && (used.get(s)<1) ) {
marci@281	803	// //Number u=0;
marci@281	804	// //for(OutEdgeIt e=G->template first<OutEdgeIt>(s); G->valid(e); G->next(e))
marci@281	805	// //u+=flow->get(e);
marci@281	806	// //if (u<1) {
marci@281	807	// bfs.pushAndSetReached(s);
marci@281	808	// pred.set(s, AugEdge(INVALID));
marci@281	809	// //}
marci@281	810	// }
marci@281	811	// }
marci@281	812
marci@281	813	// typename AugGraph::NodeMap<Number> free(res_graph);
marci@281	814
marci@281	815	// Node n;
marci@281	816	// //searching for augmenting path
marci@281	817	// while ( !bfs.finished() ) {
marci@281	818	// AugOutEdgeIt e=bfs;
marci@281	819	// if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
marci@281	820	// Node v=res_graph.tail(e);
marci@281	821	// Node w=res_graph.head(e);
marci@281	822	// pred.set(w, e);
marci@281	823	// if (res_graph.valid(pred.get(v))) {
marci@281	824	// free.set(w, std::min(free.get(v), res_graph.free(e)));
marci@281	825	// } else {
marci@281	826	// free.set(w, res_graph.free(e));
marci@281	827	// }
marci@281	828	// n=res_graph.head(e);
marci@281	829	// if (T->get(n) && (used.get(n)<1) ) {
marci@281	830	// //Number u=0;
marci@281	831	// //for(InEdgeIt f=G->template first<InEdgeIt>(n); G->valid(f); G->next(f))
marci@281	832	// //u+=flow->get(f);
marci@281	833	// //if (u<1) {
marci@281	834	// _augment=true;
marci@281	835	// break;
marci@281	836	// //}
marci@281	837	// }
marci@281	838	// }
marci@281	839
marci@281	840	// ++bfs;
marci@281	841	// } //end of searching augmenting path
marci@281	842
marci@281	843	// if (_augment) {
marci@281	844	// //Node n=t;
marci@281	845	// used.set(n, 1); //mind2 vegen jav
marci@281	846	// Number augment_value=free.get(n);
marci@281	847	// while (res_graph.valid(pred.get(n))) {
marci@281	848	// AugEdge e=pred.get(n);
marci@281	849	// res_graph.augment(e, augment_value);
marci@281	850	// n=res_graph.tail(e);
marci@281	851	// }
marci@281	852	// used.set(n, 1); //mind2 vegen jav
marci@281	853	// }
marci@281	854
marci@281	855	// return _augment;
marci@281	856	// }
marci@281	857
marci@281	858	// // template<typename MutableGraph> bool augmentOnBlockingFlow() {
marci@281	859	// // bool _augment=false;
marci@281	860
marci@281	861	// // AugGraph res_graph(G, flow, *capacity);
marci@281	862
marci@281	863	// // typedef typename AugGraph::NodeMap<bool> ReachedMap;
marci@281	864	// // BfsIterator4< AugGraph, AugOutEdgeIt, ReachedMap > bfs(res_graph);
marci@281	865
marci@281	866
marci@281	867
marci@281	868
marci@281	869
marci@281	870	// // //typename AugGraph::NodeMap<AugEdge> pred(res_graph);
marci@281	871	// // for(NodeIt s=G->template first<NodeIt>(); G->valid(s); G->next(s)) {
marci@281	872	// // if (S->get(s)) {
marci@281	873	// // Number u=0;
marci@281	874	// // for(OutEdgeIt e=G->template first<OutEdgeIt>(s); G->valid(e); G->next(e))
marci@281	875	// // u+=flow->get(e);
marci@281	876	// // if (u<1) {
marci@281	877	// // bfs.pushAndSetReached(s);
marci@281	878	// // //pred.set(s, AugEdge(INVALID));
marci@281	879	// // }
marci@281	880	// // }
marci@281	881	// // }
marci@281	882
marci@281	883
marci@281	884
marci@281	885
marci@281	886	// // //bfs.pushAndSetReached(s);
marci@281	887	// // typename AugGraph::NodeMap<int> dist(res_graph); //filled up with 0's
marci@281	888	// // while ( !bfs.finished() ) {
marci@281	889	// // AugOutEdgeIt e=bfs;
marci@281	890	// // if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
marci@281	891	// // dist.set(res_graph.head(e), dist.get(res_graph.tail(e))+1);
marci@281	892	// // }
marci@281	893
marci@281	894	// // ++bfs;
marci@281	895	// // } //computing distances from s in the residual graph
marci@281	896
marci@281	897	// // MutableGraph F;
marci@281	898	// // typename AugGraph::NodeMap<typename MutableGraph::Node>
marci@281	899	// // res_graph_to_F(res_graph);
marci@281	900	// // for(typename AugGraph::NodeIt n=res_graph.template first<typename AugGraph::NodeIt>(); res_graph.valid(n); res_graph.next(n)) {
marci@281	901	// // res_graph_to_F.set(n, F.addNode());
marci@281	902	// // }
marci@281	903
marci@281	904	// // typename MutableGraph::Node sF=res_graph_to_F.get(s);
marci@281	905	// // typename MutableGraph::Node tF=res_graph_to_F.get(t);
marci@281	906
marci@281	907	// // typename MutableGraph::EdgeMap<AugEdge> original_edge(F);
marci@281	908	// // typename MutableGraph::EdgeMap<Number> residual_capacity(F);
marci@281	909
marci@281	910	// // //Making F to the graph containing the edges of the residual graph
marci@281	911	// // //which are in some shortest paths
marci@281	912	// // for(typename AugGraph::EdgeIt e=res_graph.template first<typename AugGraph::EdgeIt>(); res_graph.valid(e); res_graph.next(e)) {
marci@281	913	// // if (dist.get(res_graph.head(e))==dist.get(res_graph.tail(e))+1) {
marci@281	914	// // typename MutableGraph::Edge f=F.addEdge(res_graph_to_F.get(res_graph.tail(e)), res_graph_to_F.get(res_graph.head(e)));
marci@281	915	// // original_edge.update();
marci@281	916	// // original_edge.set(f, e);
marci@281	917	// // residual_capacity.update();
marci@281	918	// // residual_capacity.set(f, res_graph.free(e));
marci@281	919	// // }
marci@281	920	// // }
marci@281	921
marci@281	922	// // bool __augment=true;
marci@281	923
marci@281	924	// // while (__augment) {
marci@281	925	// // __augment=false;
marci@281	926	// // //computing blocking flow with dfs
marci@281	927	// // typedef typename MutableGraph::NodeMap<bool> BlockingReachedMap;
marci@281	928	// // DfsIterator4< MutableGraph, typename MutableGraph::OutEdgeIt, BlockingReachedMap > dfs(F);
marci@281	929	// // typename MutableGraph::NodeMap<typename MutableGraph::Edge> pred(F);
marci@281	930	// // pred.set(sF, typename MutableGraph::Edge(INVALID));
marci@281	931	// // //invalid iterators for sources
marci@281	932
marci@281	933	// // typename MutableGraph::NodeMap<Number> free(F);
marci@281	934
marci@281	935	// // dfs.pushAndSetReached(sF);
marci@281	936	// // while (!dfs.finished()) {
marci@281	937	// // ++dfs;
marci@281	938	// // if (F.valid(typename MutableGraph::OutEdgeIt(dfs))) {
marci@281	939	// // if (dfs.isBNodeNewlyReached()) {
marci@281	940	// // typename MutableGraph::Node v=F.aNode(dfs);
marci@281	941	// // typename MutableGraph::Node w=F.bNode(dfs);
marci@281	942	// // pred.set(w, dfs);
marci@281	943	// // if (F.valid(pred.get(v))) {
marci@281	944	// // free.set(w, std::min(free.get(v), residual_capacity.get(dfs)));
marci@281	945	// // } else {
marci@281	946	// // free.set(w, residual_capacity.get(dfs));
marci@281	947	// // }
marci@281	948	// // if (w==tF) {
marci@281	949	// // __augment=true;
marci@281	950	// // _augment=true;
marci@281	951	// // break;
marci@281	952	// // }
marci@281	953
marci@281	954	// // } else {
marci@281	955	// // F.erase(typename MutableGraph::OutEdgeIt(dfs));
marci@281	956	// // }
marci@281	957	// // }
marci@281	958	// // }
marci@281	959
marci@281	960	// // if (__augment) {
marci@281	961	// // typename MutableGraph::Node n=tF;
marci@281	962	// // Number augment_value=free.get(tF);
marci@281	963	// // while (F.valid(pred.get(n))) {
marci@281	964	// // typename MutableGraph::Edge e=pred.get(n);
marci@281	965	// // res_graph.augment(original_edge.get(e), augment_value);
marci@281	966	// // n=F.tail(e);
marci@281	967	// // if (residual_capacity.get(e)==augment_value)
marci@281	968	// // F.erase(e);
marci@281	969	// // else
marci@281	970	// // residual_capacity.set(e, residual_capacity.get(e)-augment_value);
marci@281	971	// // }
marci@281	972	// // }
marci@281	973
marci@281	974	// // }
marci@281	975
marci@281	976	// // return _augment;
marci@281	977	// // }
marci@281	978	// bool augmentOnBlockingFlow2() {
marci@281	979	// bool _augment=false;
marci@281	980
marci@281	981	// //typedef ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap> EAugGraph;
marci@281	982	// typedef FilterGraphWrapper< ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap> > EAugGraph;
marci@281	983	// typedef typename EAugGraph::OutEdgeIt EAugOutEdgeIt;
marci@281	984	// typedef typename EAugGraph::Edge EAugEdge;
marci@281	985
marci@281	986	// EAugGraph res_graph(G, flow, *capacity);
marci@281	987
marci@281	988	// //typedef typename EAugGraph::NodeMap<bool> ReachedMap;
marci@281	989	// BfsIterator5<
marci@281	990	// ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>,
marci@281	991	// /typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::OutEdgeIt,/
marci@281	992	// ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::NodeMap<bool> > bfs(res_graph);
marci@281	993
marci@281	994
marci@281	995	// //typename AugGraph::NodeMap<AugEdge> pred(res_graph);
marci@281	996	// for(NodeIt s=G->template first<NodeIt>(); G->valid(s); G->next(s)) {
marci@281	997	// if (S->get(s)) {
marci@281	998	// Number u=0;
marci@281	999	// for(OutEdgeIt e=G->template first<OutEdgeIt>(s); G->valid(e); G->next(e))
marci@281	1000	// u+=flow->get(e);
marci@281	1001	// if (u<1) {
marci@281	1002	// bfs.pushAndSetReached(s);
marci@281	1003	// //pred.set(s, AugEdge(INVALID));
marci@281	1004	// }
marci@281	1005	// }
marci@281	1006	// }
marci@281	1007
marci@281	1008
marci@281	1009	// //bfs.pushAndSetReached(s);
marci@281	1010
marci@281	1011	// typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::
marci@281	1012	// NodeMap<int>& dist=res_graph.dist;
marci@281	1013
marci@281	1014	// while ( !bfs.finished() ) {
marci@281	1015	// typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::OutEdgeIt e=bfs;
marci@281	1016	// if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
marci@281	1017	// dist.set(res_graph.head(e), dist.get(res_graph.tail(e))+1);
marci@281	1018	// }
marci@281	1019	// ++bfs;
marci@281	1020	// } //computing distances from s in the residual graph
marci@281	1021
marci@281	1022	// bool __augment=true;
marci@281	1023
marci@281	1024	// while (__augment) {
marci@281	1025
marci@281	1026	// __augment=false;
marci@281	1027	// //computing blocking flow with dfs
marci@281	1028	// typedef typename EAugGraph::NodeMap<bool> BlockingReachedMap;
marci@281	1029	// DfsIterator5< EAugGraph/, EAugOutEdgeIt/, BlockingReachedMap >
marci@281	1030	// dfs(res_graph);
marci@281	1031	// typename EAugGraph::NodeMap<EAugEdge> pred(res_graph, INVALID);
marci@281	1032	// //pred.set(s, EAugEdge(INVALID));
marci@281	1033	// //invalid iterators for sources
marci@281	1034
marci@281	1035	// typename EAugGraph::NodeMap<Number> free(res_graph);
marci@281	1036
marci@281	1037
marci@281	1038	// //typename AugGraph::NodeMap<AugEdge> pred(res_graph);
marci@281	1039	// for(NodeIt s=G->template first<NodeIt>(); G->valid(s); G->next(s)) {
marci@281	1040	// if (S->get(s)) {
marci@281	1041	// Number u=0;
marci@281	1042	// for(OutEdgeIt e=G->template first<OutEdgeIt>(s); G->valid(e); G->next(e))
marci@281	1043	// u+=flow->get(e);
marci@281	1044	// if (u<1) {
marci@281	1045	// dfs.pushAndSetReached(s);
marci@281	1046	// //pred.set(s, AugEdge(INVALID));
marci@281	1047	// }
marci@281	1048	// }
marci@281	1049	// }
marci@281	1050
marci@281	1051
marci@281	1052
marci@281	1053	// //dfs.pushAndSetReached(s);
marci@281	1054	// typename EAugGraph::Node n;
marci@281	1055	// while (!dfs.finished()) {
marci@281	1056	// ++dfs;
marci@281	1057	// if (res_graph.valid(EAugOutEdgeIt(dfs))) {
marci@281	1058	// if (dfs.isBNodeNewlyReached()) {
marci@281	1059
marci@281	1060	// typename EAugGraph::Node v=res_graph.aNode(dfs);
marci@281	1061	// typename EAugGraph::Node w=res_graph.bNode(dfs);
marci@281	1062
marci@281	1063	// pred.set(w, EAugOutEdgeIt(dfs));
marci@281	1064	// if (res_graph.valid(pred.get(v))) {
marci@281	1065	// free.set(w, std::min(free.get(v), res_graph.free(dfs)));
marci@281	1066	// } else {
marci@281	1067	// free.set(w, res_graph.free(dfs));
marci@281	1068	// }
marci@281	1069
marci@281	1070	// n=w;
marci@281	1071	// if (T->get(w)) {
marci@281	1072	// Number u=0;
marci@281	1073	// for(InEdgeIt f=G->template first<InEdgeIt>(n); G->valid(f); G->next(f))
marci@281	1074	// u+=flow->get(f);
marci@281	1075	// if (u<1) {
marci@281	1076	// __augment=true;
marci@281	1077	// _augment=true;
marci@281	1078	// break;
marci@281	1079	// }
marci@281	1080	// }
marci@281	1081	// } else {
marci@281	1082	// res_graph.erase(dfs);
marci@281	1083	// }
marci@281	1084	// }
marci@281	1085
marci@281	1086	// }
marci@281	1087
marci@281	1088	// if (__augment) {
marci@281	1089	// // typename EAugGraph::Node n=t;
marci@281	1090	// Number augment_value=free.get(n);
marci@281	1091	// while (res_graph.valid(pred.get(n))) {
marci@281	1092	// EAugEdge e=pred.get(n);
marci@281	1093	// res_graph.augment(e, augment_value);
marci@281	1094	// n=res_graph.tail(e);
marci@281	1095	// if (res_graph.free(e)==0)
marci@281	1096	// res_graph.erase(e);
marci@281	1097	// }
marci@281	1098	// }
marci@281	1099
marci@281	1100	// }
marci@281	1101
marci@281	1102	// return _augment;
marci@281	1103	// }
marci@281	1104	// void run() {
marci@281	1105	// //int num_of_augmentations=0;
marci@281	1106	// while (augmentOnShortestPath()) {
marci@281	1107	// //while (augmentOnBlockingFlow<MutableGraph>()) {
marci@281	1108	// //std::cout << ++num_of_augmentations << " ";
marci@281	1109	// //std::cout<<std::endl;
marci@281	1110	// }
marci@281	1111	// }
marci@281	1112	// // template<typename MutableGraph> void run() {
marci@281	1113	// // //int num_of_augmentations=0;
marci@281	1114	// // //while (augmentOnShortestPath()) {
marci@281	1115	// // while (augmentOnBlockingFlow<MutableGraph>()) {
marci@281	1116	// // //std::cout << ++num_of_augmentations << " ";
marci@281	1117	// // //std::cout<<std::endl;
marci@281	1118	// // }
marci@281	1119	// // }
marci@281	1120	// Number flowValue() {
marci@281	1121	// Number a=0;
marci@281	1122	// EdgeIt e;
marci@281	1123	// for(G->/getF/first(e); G->valid(e); G->next(e)) {
marci@281	1124	// a+=flow->get(e);
marci@281	1125	// }
marci@281	1126	// return a;
marci@281	1127	// }
marci@281	1128	// };
marci@281	1129
marci@281	1130
marci@281	1131
marci@281	1132
marci@281	1133
marci@281	1134
marci@281	1135	// // template <typename Graph, typename Number, typename FlowMap, typename CapacityMap>
marci@281	1136	// // class MaxFlow2 {
marci@281	1137	// // public:
marci@281	1138	// // typedef typename Graph::Node Node;
marci@281	1139	// // typedef typename Graph::Edge Edge;
marci@281	1140	// // typedef typename Graph::EdgeIt EdgeIt;
marci@281	1141	// // typedef typename Graph::OutEdgeIt OutEdgeIt;
marci@281	1142	// // typedef typename Graph::InEdgeIt InEdgeIt;
marci@281	1143	// // private:
marci@281	1144	// // const Graph& G;
marci@281	1145	// // std::list<Node>& S;
marci@281	1146	// // std::list<Node>& T;
marci@281	1147	// // FlowMap& flow;
marci@281	1148	// // const CapacityMap& capacity;
marci@281	1149	// // typedef ResGraphWrapper<Graph, Number, FlowMap, CapacityMap > AugGraph;
marci@281	1150	// // typedef typename AugGraph::OutEdgeIt AugOutEdgeIt;
marci@281	1151	// // typedef typename AugGraph::Edge AugEdge;
marci@281	1152	// // typename Graph::NodeMap<bool> SMap;
marci@281	1153	// // typename Graph::NodeMap<bool> TMap;
marci@281	1154	// // public:
marci@281	1155	// // MaxFlow2(const Graph& _G, std::list<Node>& _S, std::list<Node>& _T, FlowMap& _flow, const CapacityMap& _capacity) : G(_G), S(_S), T(_T), flow(_flow), capacity(_capacity), SMap(_G), TMap(_G) {
marci@281	1156	// // for(typename std::list<Node>::const_iterator i=S.begin();
marci@281	1157	// // i!=S.end(); ++i) {
marci@281	1158	// // SMap.set(*i, true);
marci@281	1159	// // }
marci@281	1160	// // for (typename std::list<Node>::const_iterator i=T.begin();
marci@281	1161	// // i!=T.end(); ++i) {
marci@281	1162	// // TMap.set(*i, true);
marci@281	1163	// // }
marci@281	1164	// // }
marci@281	1165	// // bool augment() {
marci@281	1166	// // AugGraph res_graph(G, flow, capacity);
marci@281	1167	// // bool _augment=false;
marci@281	1168	// // Node reached_t_node;
marci@281	1169
marci@281	1170	// // typedef typename AugGraph::NodeMap<bool> ReachedMap;
marci@281	1171	// // BfsIterator4< AugGraph, AugOutEdgeIt, ReachedMap > bfs(res_graph);
marci@281	1172	// // for(typename std::list<Node>::const_iterator i=S.begin();
marci@281	1173	// // i!=S.end(); ++i) {
marci@281	1174	// // bfs.pushAndSetReached(*i);
marci@281	1175	// // }
marci@281	1176	// // //bfs.pushAndSetReached(s);
marci@281	1177
marci@281	1178	// // typename AugGraph::NodeMap<AugEdge> pred(res_graph);
marci@281	1179	// // //filled up with invalid iterators
marci@281	1180
marci@281	1181	// // typename AugGraph::NodeMap<Number> free(res_graph);
marci@281	1182
marci@281	1183	// // //searching for augmenting path
marci@281	1184	// // while ( !bfs.finished() ) {
marci@281	1185	// // AugOutEdgeIt e=/AugOutEdgeIt/(bfs);
marci@281	1186	// // if (e.valid() && bfs.isBNodeNewlyReached()) {
marci@281	1187	// // Node v=res_graph.tail(e);
marci@281	1188	// // Node w=res_graph.head(e);
marci@281	1189	// // pred.set(w, e);
marci@281	1190	// // if (pred.get(v).valid()) {
marci@281	1191	// // free.set(w, std::min(free.get(v), e.free()));
marci@281	1192	// // } else {
marci@281	1193	// // free.set(w, e.free());
marci@281	1194	// // }
marci@281	1195	// // if (TMap.get(res_graph.head(e))) {
marci@281	1196	// // _augment=true;
marci@281	1197	// // reached_t_node=res_graph.head(e);
marci@281	1198	// // break;
marci@281	1199	// // }
marci@281	1200	// // }
marci@281	1201
marci@281	1202	// // ++bfs;
marci@281	1203	// // } //end of searching augmenting path
marci@281	1204
marci@281	1205	// // if (_augment) {
marci@281	1206	// // Node n=reached_t_node;
marci@281	1207	// // Number augment_value=free.get(reached_t_node);
marci@281	1208	// // while (pred.get(n).valid()) {
marci@281	1209	// // AugEdge e=pred.get(n);
marci@281	1210	// // e.augment(augment_value);
marci@281	1211	// // n=res_graph.tail(e);
marci@281	1212	// // }
marci@281	1213	// // }
marci@281	1214
marci@281	1215	// // return _augment;
marci@281	1216	// // }
marci@281	1217	// // void run() {
marci@281	1218	// // while (augment()) { }
marci@281	1219	// // }
marci@281	1220	// // Number flowValue() {
marci@281	1221	// // Number a=0;
marci@281	1222	// // for(typename std::list<Node>::const_iterator i=S.begin();
marci@281	1223	// // i!=S.end(); ++i) {
marci@281	1224	// // for(OutEdgeIt e=G.template first<OutEdgeIt>(*i); e.valid(); ++e) {
marci@281	1225	// // a+=flow.get(e);
marci@281	1226	// // }
marci@281	1227	// // for(InEdgeIt e=G.template first<InEdgeIt>(*i); e.valid(); ++e) {
marci@281	1228	// // a-=flow.get(e);
marci@281	1229	// // }
marci@281	1230	// // }
marci@281	1231	// // return a;
marci@281	1232	// // }
marci@281	1233	// // };
marci@281	1234
marci@281	1235
marci@281	1236	} // namespace hugo
marci@281	1237
marci@281	1238	#endif //HUGO_EDMONDS_KARP_H

author	alpar
	Fri, 16 Apr 2004 22:00:11 +0000
changeset 344	9b24714c3b1c
child 921	818510fa3d99
permissions	-rw-r--r--