lemon-0.x: benchmark/edge_lookup.cc@dc3f7991ad58 (annotated)

alpar@2391	1	/* -- C++ --
alpar@2391	2	*
alpar@2391	3	* This file is a part of LEMON, a generic C++ optimization library
alpar@2391	4	*
alpar@2391	5	* Copyright (C) 2003-2007
alpar@2391	6	* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
alpar@2391	7	* (Egervary Research Group on Combinatorial Optimization, EGRES).
alpar@2391	8	*
alpar@2391	9	* Permission to use, modify and distribute this software is granted
alpar@2391	10	* provided that this copyright notice appears in all copies. For
alpar@2391	11	* precise terms see the accompanying LICENSE file.
alpar@2391	12	*
alpar@2391	13	* This software is provided "AS IS" with no warranty of any kind,
alpar@2391	14	* express or implied, and with no claim as to its suitability for any
alpar@2391	15	* purpose.
alpar@2391	16	*
alpar@2391	17	*/
alpar@2391	18
alpar@2235	19	#include<lemon/smart_graph.h>
alpar@2235	20	#include<vector>
alpar@2235	21	#include<lemon/time_measure.h>
deba@2242	22	#include<lemon/random.h>
alpar@2271	23	#include<lemon/graph_utils.h>
alpar@2271	24	#include<algorithm>
alpar@2235	25
alpar@2235	26	using namespace lemon;
alpar@2235	27
alpar@2271	28	template<class G>
alpar@2271	29	class EdgeLookUp2
alpar@2271	30	{
alpar@2271	31	public:
alpar@2271	32	GRAPH_TYPEDEFS(typename G)
alpar@2271	33	typedef G Graph;
alpar@2271	34
alpar@2271	35	private:
alpar@2271	36	const Graph &_g;
alpar@2271	37	typename Graph::template NodeMap<int> _start;
alpar@2271	38	typename Graph::template NodeMap<int> _end;
alpar@2271	39	std::vector<Edge> _edges;
alpar@2271	40
alpar@2271	41	class EdgeLess {
alpar@2271	42	const Graph &g;
alpar@2271	43	public:
alpar@2271	44	EdgeLess(const Graph &_g) : g(_g) {}
alpar@2271	45	bool operator()(Edge a,Edge b) const
alpar@2271	46	{
alpar@2271	47	return g.target(a)<g.target(b);
alpar@2271	48	}
alpar@2271	49	};
alpar@2271	50
alpar@2271	51	public:
alpar@2271	52
alpar@2271	53	///Constructor
alpar@2271	54	EdgeLookUp2(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
alpar@2271	55
alpar@2271	56	public:
alpar@2271	57	///Refresh the data structure at a node.
alpar@2271	58	void refresh(Node n)
alpar@2271	59	{
alpar@2271	60	const int bi = _start[n] = _edges.size();
alpar@2271	61	for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
alpar@2271	62	const typename std::vector<Edge>::iterator ei=_edges.end();
alpar@2271	63	_end[n]=_edges.size();
alpar@2271	64	std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
alpar@2271	65	}
alpar@2271	66	///Refresh the full data structure.
alpar@2271	67	void refresh()
alpar@2271	68	{
alpar@2271	69	_edges.clear();
alpar@2271	70	for(NodeIt n(_g);n!=INVALID;++n) refresh(n);
alpar@2271	71	}
alpar@2271	72
alpar@2271	73	///Find an edge between two nodes.
alpar@2271	74
alpar@2271	75	///Find an edge between two nodes.
alpar@2271	76	///\param s The source node
alpar@2271	77	///\param t The target node
alpar@2271	78	///\return An edge from \c s to \c t if there exists,
alpar@2271	79	///\ref INVALID otherwise.
alpar@2271	80
alpar@2271	81	Edge operator()(Node s, Node t)
alpar@2271	82	{
alpar@2271	83	int a=_start[s];
alpar@2271	84	int b=_end[s];
alpar@2271	85	while(a<b)
alpar@2271	86	{
alpar@2271	87	int n=(a+b)/2;
alpar@2271	88	Node tt = _g.target(_edges[n]);
alpar@2271	89	if(tt==t) return _edges[n];
alpar@2271	90	else if(tt<t) a=n+1;
alpar@2271	91	else b=n;
alpar@2271	92	}
alpar@2271	93	return INVALID;
alpar@2271	94	}
alpar@2271	95
alpar@2271	96	///Find the next edge
alpar@2271	97
alpar@2271	98	///\warning This function is unimplemented.
alpar@2271	99	Edge operator()(Node s, Node t, Edge prev)
alpar@2271	100	{
alpar@2271	101	return prev==INVALID?(*this)(s,t):INVALID;
alpar@2271	102	}
alpar@2271	103
alpar@2271	104	};
alpar@2271	105
alpar@2271	106	template<class G>
alpar@2271	107	class EdgeLookUp3
alpar@2271	108	{
alpar@2271	109	public:
alpar@2271	110	GRAPH_TYPEDEFS(typename G)
alpar@2271	111	typedef G Graph;
alpar@2271	112
alpar@2271	113	private:
alpar@2271	114	const Graph &_g;
alpar@2271	115	typename Graph::template NodeMap<Edge*> _start;
alpar@2271	116	typename Graph::template NodeMap<Edge*> _end;
alpar@2271	117	std::vector<Edge> _edges;
alpar@2271	118
alpar@2271	119	class EdgeLess {
alpar@2271	120	const Graph &g;
alpar@2271	121	public:
alpar@2271	122	EdgeLess(const Graph &_g) : g(_g) {}
alpar@2271	123	bool operator()(Edge a,Edge b) const
alpar@2271	124	{
alpar@2271	125	return g.target(a)<g.target(b);
alpar@2271	126	}
alpar@2271	127	};
alpar@2271	128
alpar@2271	129	public:
alpar@2271	130
alpar@2271	131	///Constructor
alpar@2271	132	EdgeLookUp3(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
alpar@2271	133
alpar@2271	134	public:
alpar@2271	135	///Refresh the data structure at a node.
alpar@2271	136	void refresh(Node n)
alpar@2271	137	{
alpar@2271	138	const int bi = _start[n] = _edges.size();
alpar@2271	139	for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
alpar@2271	140	const typename std::vector<Edge>::iterator ei=_edges.end();
alpar@2271	141	_end[n]=_edges.size();
alpar@2271	142	std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
alpar@2271	143	}
alpar@2271	144	///Refresh the full data structure.
alpar@2271	145	void refresh()
alpar@2271	146	{
alpar@2271	147	_edges.resize(countEdges(_g));
alpar@2271	148	int l=0;
alpar@2271	149	for(NodeIt n(_g);n!=INVALID;++n)
alpar@2271	150	{
alpar@2271	151	int ls = l;
alpar@2271	152	_start[n]=&(_edges[l]);
alpar@2271	153	for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges[l++]=e;
alpar@2271	154	_end[n]=&(_edges[l]);
alpar@2271	155	std::sort(_edges.begin()+ls,_edges.begin()+l,EdgeLess(_g));
alpar@2271	156	}
alpar@2271	157
alpar@2271	158	}
alpar@2271	159
alpar@2271	160	///Find an edge between two nodes.
alpar@2271	161
alpar@2271	162	///Find an edge between two nodes.
alpar@2271	163	///\param s The source node
alpar@2271	164	///\param t The target node
alpar@2271	165	///\return An edge from \c s to \c t if there exists,
alpar@2271	166	///\ref INVALID otherwise.
alpar@2271	167
alpar@2271	168	Edge operator()(Node s, Node t)
alpar@2271	169	{
alpar@2271	170	Edge *a=_start[s];
alpar@2271	171	Edge *b=_end[s];
alpar@2271	172	while(a!=b)
alpar@2271	173	{
alpar@2271	174	Edge *m=a+((b-a)/2);
alpar@2271	175	Node tt = _g.target(*m);
alpar@2271	176	if(tt==t) return *m;
alpar@2271	177	else if(tt<t) a=m+1;
alpar@2271	178	else b=m;
alpar@2271	179	}
alpar@2271	180	return INVALID;
alpar@2271	181	}
alpar@2271	182
alpar@2271	183	///Find the next edge
alpar@2271	184
alpar@2271	185	///\warning This function is unimplemented.
alpar@2271	186	Edge operator()(Node s, Node t, Edge prev)
alpar@2271	187	{
alpar@2271	188	return prev==INVALID?(*this)(s,t):INVALID;
alpar@2271	189	}
alpar@2271	190
alpar@2271	191	};
alpar@2271	192
alpar@2272	193	// template<class G>
alpar@2272	194	// class EdgeLookUp4
alpar@2272	195	// {
alpar@2272	196	// public:
alpar@2272	197	// GRAPH_TYPEDEFS(typename G)
alpar@2272	198	// typedef G Graph;
alpar@2271	199
alpar@2272	200	// private:
alpar@2272	201	// const Graph &_g;
alpar@2272	202	// typename Graph::template NodeMap<Edge*> _start;
alpar@2272	203	// typename Graph::template NodeMap<Edge*> _end;
alpar@2272	204	// std::vector<Edge> _edges;
alpar@2271	205
alpar@2272	206	// class EdgeLess {
alpar@2272	207	// const Graph &g;
alpar@2272	208	// public:
alpar@2272	209	// EdgeLess(const Graph &_g) : g(_g) {}
alpar@2272	210	// bool operator()(Edge a,Edge b) const
alpar@2272	211	// {
alpar@2272	212	// return g.target(a)<g.target(b);
alpar@2272	213	// }
alpar@2272	214	// };
alpar@2271	215
alpar@2272	216	// public:
alpar@2271	217
alpar@2272	218	// ///Constructor
alpar@2272	219	// EdgeLookUp4(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
alpar@2271	220
alpar@2272	221	// public:
alpar@2272	222	// ///Refresh the data structure at a node.
alpar@2272	223	// void refresh(Node n)
alpar@2272	224	// {
alpar@2272	225	// const int bi = _start[n] = _edges.size();
alpar@2272	226	// for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
alpar@2272	227	// const typename std::vector<Edge>::iterator ei=_edges.end();
alpar@2272	228	// _end[n]=_edges.size();
alpar@2272	229	// std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
alpar@2272	230	// }
alpar@2272	231	// ///Refresh the full data structure.
alpar@2272	232	// void refresh()
alpar@2272	233	// {
alpar@2272	234	// _edges.resize(countEdges(_g));
alpar@2272	235	// int l=0;
alpar@2272	236	// for(NodeIt n(_g);n!=INVALID;++n)
alpar@2272	237	// {
alpar@2272	238	// int ls = l;
alpar@2272	239	// _start[n]=&(_edges[l]);
alpar@2272	240	// for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges[l++]=e;
alpar@2272	241	// _end[n]=&(_edges[l]);
alpar@2272	242	// std::sort(_edges.begin()+ls,_edges.begin()+l,EdgeLess(_g));
alpar@2272	243	// }
alpar@2271	244
alpar@2272	245	// }
alpar@2271	246
alpar@2272	247	// ///Find an edge between two nodes.
alpar@2271	248
alpar@2272	249	// ///Find an edge between two nodes.
alpar@2272	250	// ///\param s The source node
alpar@2272	251	// ///\param t The target node
alpar@2272	252	// ///\return An edge from \c s to \c t if there exists,
alpar@2272	253	// ///\ref INVALID otherwise.
alpar@2271	254
alpar@2272	255	// Edge operator()(Node s, Node t)
alpar@2272	256	// {
alpar@2272	257	// Edge *a=_start[s];
alpar@2272	258	// Edge *b=_end[s];
alpar@2272	259	// while(a!=b)
alpar@2272	260	// {
alpar@2272	261	// // #ifdef X86
alpar@2272	262	// Edge m=(Edge)(((unsigned int)a+(unsigned int)b)/2 & 0xfffffffc);
alpar@2272	263	// // #elif X86_64
alpar@2272	264	// // Edge m=(Edge)(((unsigned long)a+(undigned long)b)/2 & 0xfffffffc);
alpar@2272	265	// // #else
alpar@2272	266	// // Edge *m=a+((b-a)/2);
alpar@2272	267	// // #endif
alpar@2272	268	// Node tt = _g.target(*m);
alpar@2272	269	// if(tt==t) return *m;
alpar@2272	270	// else if(tt<t) a=m+1;
alpar@2272	271	// else b=m;
alpar@2272	272	// }
alpar@2272	273	// return INVALID;
alpar@2272	274	// }
alpar@2271	275
alpar@2272	276	// ///Find the next edge
alpar@2271	277
alpar@2272	278	// ///\warning This function is unimplemented.
alpar@2272	279	// Edge operator()(Node s, Node t, Edge prev)
alpar@2272	280	// {
alpar@2272	281	// return prev==INVALID?(*this)(s,t):INVALID;
alpar@2272	282	// }
alpar@2271	283
alpar@2272	284	// };
alpar@2271	285
alpar@2272	286	// template<class G>
alpar@2272	287	// class EdgeLookUp5
alpar@2272	288	// {
alpar@2272	289	// public:
alpar@2272	290	// GRAPH_TYPEDEFS(typename G)
alpar@2272	291	// typedef G Graph;
alpar@2271	292
alpar@2272	293	// private:
alpar@2272	294	// const Graph &_g;
alpar@2272	295	// typename Graph::template NodeMap<Edge*> _start;
alpar@2272	296	// typename Graph::template NodeMap<Edge*> _end;
alpar@2272	297	// std::vector<Edge> _edges;
alpar@2271	298
alpar@2272	299	// class EdgeLess {
alpar@2272	300	// const Graph &g;
alpar@2272	301	// public:
alpar@2272	302	// EdgeLess(const Graph &_g) : g(_g) {}
alpar@2272	303	// bool operator()(Edge a,Edge b) const
alpar@2272	304	// {
alpar@2272	305	// return g.target(a)<g.target(b);
alpar@2272	306	// }
alpar@2272	307	// };
alpar@2271	308
alpar@2272	309	// public:
alpar@2271	310
alpar@2272	311	// ///Constructor
alpar@2272	312	// EdgeLookUp5(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
alpar@2271	313
alpar@2272	314	// public:
alpar@2272	315	// ///Refresh the data structure at a node.
alpar@2272	316	// void refresh(Node n)
alpar@2272	317	// {
alpar@2272	318	// const int bi = _start[n] = _edges.size();
alpar@2272	319	// for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
alpar@2272	320	// const typename std::vector<Edge>::iterator ei=_edges.end();
alpar@2272	321	// _end[n]=_edges.size();
alpar@2272	322	// std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
alpar@2272	323	// }
alpar@2272	324	// ///Refresh the full data structure.
alpar@2272	325	// void refresh()
alpar@2272	326	// {
alpar@2272	327	// _edges.resize(countEdges(_g));
alpar@2272	328	// int l=0;
alpar@2272	329	// for(NodeIt n(_g);n!=INVALID;++n)
alpar@2272	330	// {
alpar@2272	331	// int ls = l;
alpar@2272	332	// _start[n]=&(_edges[l]);
alpar@2272	333	// for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges[l++]=e;
alpar@2272	334	// _end[n]=&(_edges[l]);
alpar@2272	335	// std::sort(_edges.begin()+ls,_edges.begin()+l,EdgeLess(_g));
alpar@2272	336	// }
alpar@2271	337
alpar@2272	338	// }
alpar@2271	339
alpar@2272	340	// ///Find an edge between two nodes.
alpar@2271	341
alpar@2272	342	// ///Find an edge between two nodes.
alpar@2272	343	// ///\param s The source node
alpar@2272	344	// ///\param t The target node
alpar@2272	345	// ///\return An edge from \c s to \c t if there exists,
alpar@2272	346	// ///\ref INVALID otherwise.
alpar@2271	347
alpar@2272	348	// Edge operator()(Node s, Node t)
alpar@2272	349	// {
alpar@2272	350	// Edge *a=_start[s];
alpar@2272	351	// Edge *b=_end[s];
alpar@2272	352	// while(a!=b)
alpar@2272	353	// {
alpar@2272	354	// // #ifdef X86
alpar@2272	355	// Edge m=(Edge)((((unsigned int)a>>1)+((unsigned int)b)>>1)
alpar@2272	356	// & 0xfffffffc);
alpar@2272	357	// // #elif X86_64
alpar@2272	358	// // Edge m=(Edge)(((unsigned long)a>>1+(undigned long)b)>>1)&0xfffffffc);
alpar@2272	359	// // #else
alpar@2272	360	// // Edge *m=a+((b-a)/2);
alpar@2272	361	// // #endif
alpar@2272	362	// Node tt = _g.target(*m);
alpar@2272	363	// if(tt==t) return *m;
alpar@2272	364	// else if(tt<t) a=m+1;
alpar@2272	365	// else b=m;
alpar@2272	366	// }
alpar@2272	367	// return INVALID;
alpar@2272	368	// }
alpar@2271	369
alpar@2272	370	// ///Find the next edge
alpar@2271	371
alpar@2272	372	// ///\warning This function is unimplemented.
alpar@2272	373	// Edge operator()(Node s, Node t, Edge prev)
alpar@2272	374	// {
alpar@2272	375	// return prev==INVALID?(*this)(s,t):INVALID;
alpar@2272	376	// }
alpar@2271	377
alpar@2272	378	// };
alpar@2271	379
alpar@2235	380	GRAPH_TYPEDEFS(SmartGraph)
alpar@2235	381	typedef SmartGraph Graph;
alpar@2235	382
alpar@2235	383	class FE
alpar@2235	384	{
alpar@2235	385	public:
alpar@2235	386	Graph &_g;
alpar@2235	387	FE(Graph &g) :_g(g) {}
alpar@2235	388	void operator()()
alpar@2235	389	{
alpar@2235	390	Edge e;
alpar@2235	391
alpar@2235	392	for(NodeIt v(_g);v!=INVALID;++v)
alpar@2235	393	for(NodeIt u(_g);u!=INVALID;++u)
alpar@2235	394	e=findEdge(_g,u,v);
alpar@2235	395	}
alpar@2235	396
alpar@2235	397	};
alpar@2235	398
alpar@2235	399	class EL
alpar@2235	400	{
alpar@2235	401	public:
alpar@2235	402	Graph &_g;
alpar@2235	403	EdgeLookUp<Graph> _el;
alpar@2235	404	EL(Graph &g) :_g(g), _el(g) {}
alpar@2235	405	void operator()()
alpar@2235	406	{
alpar@2235	407	Edge e;
alpar@2235	408
alpar@2235	409	for(NodeIt v(_g);v!=INVALID;++v)
alpar@2235	410	for(NodeIt u(_g);u!=INVALID;++u)
alpar@2235	411	e=_el(u,v);
alpar@2235	412	}
alpar@2235	413
alpar@2235	414	};
alpar@2235	415	class EL2
alpar@2235	416	{
alpar@2235	417	public:
alpar@2235	418	Graph &_g;
alpar@2235	419	EdgeLookUp2<Graph> _el;
alpar@2235	420	EL2(Graph &g) :_g(g), _el(g) {}
alpar@2235	421	void operator()()
alpar@2235	422	{
alpar@2235	423	Edge e;
alpar@2235	424
alpar@2235	425	for(NodeIt v(_g);v!=INVALID;++v)
alpar@2235	426	for(NodeIt u(_g);u!=INVALID;++u)
alpar@2235	427	e=_el(u,v);
alpar@2235	428	}
alpar@2235	429
alpar@2235	430	};
alpar@2235	431
alpar@2235	432	class EL3
alpar@2235	433	{
alpar@2235	434	public:
alpar@2235	435	Graph &_g;
alpar@2235	436	EdgeLookUp3<Graph> _el;
alpar@2235	437	EL3(Graph &g) :_g(g), _el(g) {}
alpar@2235	438	void operator()()
alpar@2235	439	{
alpar@2235	440	Edge e;
alpar@2235	441
alpar@2235	442	for(NodeIt v(_g);v!=INVALID;++v)
alpar@2235	443	for(NodeIt u(_g);u!=INVALID;++u)
alpar@2235	444	e=_el(u,v);
alpar@2235	445	}
alpar@2235	446
alpar@2235	447	};
alpar@2235	448
alpar@2274	449	// class EL4
alpar@2274	450	// {
alpar@2274	451	// public:
alpar@2274	452	// Graph &_g;
alpar@2274	453	// EdgeLookUp4<Graph> _el;
alpar@2274	454	// EL4(Graph &g) :_g(g), _el(g) {}
alpar@2274	455	// void operator()()
alpar@2274	456	// {
alpar@2274	457	// Edge e;
alpar@2235	458
alpar@2274	459	// for(NodeIt v(_g);v!=INVALID;++v)
alpar@2274	460	// for(NodeIt u(_g);u!=INVALID;++u)
alpar@2274	461	// e=_el(u,v);
alpar@2274	462	// }
alpar@2235	463
alpar@2274	464	// };
alpar@2235	465
alpar@2274	466	// class EL5
alpar@2274	467	// {
alpar@2274	468	// public:
alpar@2274	469	// Graph &_g;
alpar@2274	470	// EdgeLookUp5<Graph> _el;
alpar@2274	471	// EL5(Graph &g) :_g(g), _el(g) {}
alpar@2274	472	// void operator()()
alpar@2274	473	// {
alpar@2274	474	// Edge e;
alpar@2271	475
alpar@2274	476	// for(NodeIt v(_g);v!=INVALID;++v)
alpar@2274	477	// for(NodeIt u(_g);u!=INVALID;++u)
alpar@2274	478	// e=_el(u,v);
alpar@2274	479	// }
alpar@2271	480
alpar@2274	481	// };
alpar@2271	482
alpar@2238	483	int main(int, char**argv)
alpar@2235	484	{
alpar@2235	485	int N=atoi(argv[1]);
alpar@2235	486	int M=int(N*atof(argv[2]));
alpar@2235	487
alpar@2235	488	Graph g;
alpar@2235	489
alpar@2235	490	std::vector<Node> v;
alpar@2235	491	for(int i=0;i<N;i++) v.push_back(g.addNode());
deba@2242	492	for(int i=0;i<M;i++) g.addEdge(v[rnd[N]],v[rnd[N]]);
alpar@2235	493
alpar@2235	494	// {
alpar@2235	495	// Edge e;
alpar@2235	496
alpar@2235	497	// TimeReport t("findEdge: ");
alpar@2235	498	// for(NodeIt u(g);u!=INVALID;++u)
alpar@2235	499	// for(NodeIt v(g);v!=INVALID;++v)
alpar@2235	500	// e=findEdge(g,u,v);
alpar@2235	501	// }
alpar@2235	502	// {
alpar@2235	503	// Edge e;
alpar@2235	504	// EdgeLookUp<Graph> el(g);
alpar@2235	505
alpar@2235	506	// TimeReport t("EdgeLookUp: ");
alpar@2235	507	// for(NodeIt u(g);u!=INVALID;++u)
alpar@2235	508	// for(NodeIt v(g);v!=INVALID;++v)
alpar@2235	509	// e=el(u,v);
alpar@2235	510	// }
alpar@2235	511
alpar@2235	512
alpar@2235	513	TimeStamp t1 = runningTimeTest(FE(g),1);
alpar@2235	514	TimeStamp t2 = runningTimeTest(EL(g),1);
alpar@2235	515	TimeStamp t3 = runningTimeTest(EL2(g),1);
alpar@2235	516	TimeStamp t4 = runningTimeTest(EL3(g),1);
alpar@2272	517	// TimeStamp t5 = runningTimeTest(EL4(g),1);
alpar@2272	518	// TimeStamp t6 = runningTimeTest(EL5(g),1);
alpar@2235	519
alpar@2235	520	std::cout << t1.userTime()/N/N << ' '
alpar@2235	521	<< t2.userTime()/N/N << ' '
alpar@2235	522	<< t3.userTime()/N/N << ' '
alpar@2235	523	<< t4.userTime()/N/N << ' '
alpar@2272	524	// << t5.userTime()/N/N << ' '
alpar@2272	525	// << t6.userTime()/N/N
alpar@2240	526	<< std::endl;
alpar@2235	527	}
alpar@2235	528

author	deba
	Fri, 15 Jun 2007 14:31:14 +0000
changeset 2455	dc3f7991ad58
parent 2274	432d0469a87e
child 2510	bb523a4758f7
permissions	-rw-r--r--