lemon-0.x: benchmark/edge_lookup_test.h@741995f3dbc4 (annotated)

alpar@2235	1	/* -- C++ --
alpar@2235	2	*
alpar@2235	3	* This file is a part of LEMON, a generic C++ optimization library
alpar@2235	4	*
alpar@2235	5	* Copyright (C) 2003-2006
alpar@2235	6	* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
alpar@2235	7	* (Egervary Research Group on Combinatorial Optimization, EGRES).
alpar@2235	8	*
alpar@2235	9	* Permission to use, modify and distribute this software is granted
alpar@2235	10	* provided that this copyright notice appears in all copies. For
alpar@2235	11	* precise terms see the accompanying LICENSE file.
alpar@2235	12	*
alpar@2235	13	* This software is provided "AS IS" with no warranty of any kind,
alpar@2235	14	* express or implied, and with no claim as to its suitability for any
alpar@2235	15	* purpose.
alpar@2235	16	*
alpar@2235	17	*/
alpar@2235	18
alpar@2235	19	#ifndef LEMON_EDGE_LOOKUP_H
alpar@2235	20	#define LEMON_EDGE_LOOKUP_H
alpar@2235	21
alpar@2235	22	#include<lemon/graph_utils.h>
alpar@2235	23	#include<algorithm>
alpar@2235	24	#include<vector>
alpar@2235	25
alpar@2235	26	namespace lemon {
alpar@2235	27	template<class G>
alpar@2235	28	class EdgeLookUp2
alpar@2235	29	{
alpar@2235	30	public:
alpar@2235	31	GRAPH_TYPEDEFS(typename G)
alpar@2235	32	typedef G Graph;
alpar@2235	33
alpar@2235	34	private:
alpar@2235	35	const Graph &_g;
alpar@2235	36	typename Graph::template NodeMap<int> _start;
alpar@2235	37	typename Graph::template NodeMap<int> _end;
alpar@2235	38	std::vector<Edge> _edges;
alpar@2235	39
alpar@2235	40	class EdgeLess {
alpar@2235	41	const Graph &g;
alpar@2235	42	public:
alpar@2235	43	EdgeLess(const Graph &_g) : g(_g) {}
alpar@2235	44	bool operator()(Edge a,Edge b) const
alpar@2235	45	{
alpar@2235	46	return g.target(a)<g.target(b);
alpar@2235	47	}
alpar@2235	48	};
alpar@2235	49
alpar@2235	50	public:
alpar@2235	51
alpar@2235	52	///Constructor
alpar@2235	53	EdgeLookUp2(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
alpar@2235	54
alpar@2235	55	public:
alpar@2235	56	///Refresh the data structure at a node.
alpar@2235	57	void refresh(Node n)
alpar@2235	58	{
alpar@2235	59	const int bi = _start[n] = _edges.size();
alpar@2235	60	for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
alpar@2235	61	const typename std::vector<Edge>::iterator ei=_edges.end();
alpar@2235	62	_end[n]=_edges.size();
alpar@2235	63	std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
alpar@2235	64	}
alpar@2235	65	///Refresh the full data structure.
alpar@2235	66	void refresh()
alpar@2235	67	{
alpar@2235	68	_edges.clear();
alpar@2235	69	for(NodeIt n(_g);n!=INVALID;++n) refresh(n);
alpar@2235	70	}
alpar@2235	71
alpar@2235	72	///Find an edge between two nodes.
alpar@2235	73
alpar@2235	74	///Find an edge between two nodes.
alpar@2235	75	///\param s The source node
alpar@2235	76	///\param t The target node
alpar@2235	77	///\return An edge from \c s to \c t if there exists,
alpar@2235	78	///\ref INVALID otherwise.
alpar@2235	79
alpar@2235	80	Edge operator()(Node s, Node t)
alpar@2235	81	{
alpar@2235	82	int a=_start[s];
alpar@2235	83	int b=_end[s];
alpar@2235	84	while(a<b)
alpar@2235	85	{
alpar@2235	86	int n=(a+b)/2;
alpar@2235	87	Node tt = _g.target(_edges[n]);
alpar@2235	88	if(tt==t) return _edges[n];
alpar@2235	89	else if(tt<t) a=n+1;
alpar@2235	90	else b=n;
alpar@2235	91	}
alpar@2235	92	return INVALID;
alpar@2235	93	}
alpar@2235	94
alpar@2235	95	///Find the next edge
alpar@2235	96
alpar@2235	97	///\warning This function is unimplemented.
alpar@2235	98	Edge operator()(Node s, Node t, Edge prev)
alpar@2235	99	{
alpar@2235	100	return prev==INVALID?(*this)(s,t):INVALID;
alpar@2235	101	}
alpar@2235	102
alpar@2235	103	};
alpar@2235	104
alpar@2235	105	template<class G>
alpar@2235	106	class EdgeLookUp3
alpar@2235	107	{
alpar@2235	108	public:
alpar@2235	109	GRAPH_TYPEDEFS(typename G)
alpar@2235	110	typedef G Graph;
alpar@2235	111
alpar@2235	112	private:
alpar@2235	113	const Graph &_g;
alpar@2235	114	typename Graph::template NodeMap<Edge*> _start;
alpar@2235	115	typename Graph::template NodeMap<Edge*> _end;
alpar@2235	116	std::vector<Edge> _edges;
alpar@2235	117
alpar@2235	118	class EdgeLess {
alpar@2235	119	const Graph &g;
alpar@2235	120	public:
alpar@2235	121	EdgeLess(const Graph &_g) : g(_g) {}
alpar@2235	122	bool operator()(Edge a,Edge b) const
alpar@2235	123	{
alpar@2235	124	return g.target(a)<g.target(b);
alpar@2235	125	}
alpar@2235	126	};
alpar@2235	127
alpar@2235	128	public:
alpar@2235	129
alpar@2235	130	///Constructor
alpar@2235	131	EdgeLookUp3(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
alpar@2235	132
alpar@2235	133	public:
alpar@2235	134	///Refresh the data structure at a node.
alpar@2235	135	void refresh(Node n)
alpar@2235	136	{
alpar@2235	137	const int bi = _start[n] = _edges.size();
alpar@2235	138	for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
alpar@2235	139	const typename std::vector<Edge>::iterator ei=_edges.end();
alpar@2235	140	_end[n]=_edges.size();
alpar@2235	141	std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
alpar@2235	142	}
alpar@2235	143	///Refresh the full data structure.
alpar@2235	144	void refresh()
alpar@2235	145	{
alpar@2235	146	_edges.resize(countEdges(_g));
alpar@2235	147	int l=0;
alpar@2235	148	for(NodeIt n(_g);n!=INVALID;++n)
alpar@2235	149	{
alpar@2235	150	int ls = l;
alpar@2235	151	_start[n]=&(_edges[l]);
alpar@2235	152	for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges[l++]=e;
alpar@2235	153	_end[n]=&(_edges[l]);
alpar@2235	154	std::sort(_edges.begin()+ls,_edges.begin()+l,EdgeLess(_g));
alpar@2235	155	}
alpar@2235	156
alpar@2235	157	}
alpar@2235	158
alpar@2235	159	///Find an edge between two nodes.
alpar@2235	160
alpar@2235	161	///Find an edge between two nodes.
alpar@2235	162	///\param s The source node
alpar@2235	163	///\param t The target node
alpar@2235	164	///\return An edge from \c s to \c t if there exists,
alpar@2235	165	///\ref INVALID otherwise.
alpar@2235	166
alpar@2235	167	Edge operator()(Node s, Node t)
alpar@2235	168	{
alpar@2235	169	Edge *a=_start[s];
alpar@2235	170	Edge *b=_end[s];
alpar@2235	171	while(a!=b)
alpar@2235	172	{
alpar@2235	173	Edge *m=a+((b-a)/2);
alpar@2235	174	Node tt = _g.target(*m);
alpar@2235	175	if(tt==t) return *m;
alpar@2235	176	else if(tt<t) a=m+1;
alpar@2235	177	else b=m;
alpar@2235	178	}
alpar@2235	179	return INVALID;
alpar@2235	180	}
alpar@2235	181
alpar@2235	182	///Find the next edge
alpar@2235	183
alpar@2235	184	///\warning This function is unimplemented.
alpar@2235	185	Edge operator()(Node s, Node t, Edge prev)
alpar@2235	186	{
alpar@2235	187	return prev==INVALID?(*this)(s,t):INVALID;
alpar@2235	188	}
alpar@2235	189
alpar@2235	190	};
alpar@2235	191
alpar@2252	192	template<class G>
alpar@2252	193	class EdgeLookUp4
alpar@2252	194	{
alpar@2252	195	public:
alpar@2252	196	GRAPH_TYPEDEFS(typename G)
alpar@2252	197	typedef G Graph;
alpar@2252	198
alpar@2252	199	private:
alpar@2252	200	const Graph &_g;
alpar@2252	201	typename Graph::template NodeMap<Edge*> _start;
alpar@2252	202	typename Graph::template NodeMap<Edge*> _end;
alpar@2252	203	std::vector<Edge> _edges;
alpar@2252	204
alpar@2252	205	class EdgeLess {
alpar@2252	206	const Graph &g;
alpar@2252	207	public:
alpar@2252	208	EdgeLess(const Graph &_g) : g(_g) {}
alpar@2252	209	bool operator()(Edge a,Edge b) const
alpar@2252	210	{
alpar@2252	211	return g.target(a)<g.target(b);
alpar@2252	212	}
alpar@2252	213	};
alpar@2252	214
alpar@2252	215	public:
alpar@2252	216
alpar@2252	217	///Constructor
alpar@2252	218	EdgeLookUp4(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
alpar@2252	219
alpar@2252	220	public:
alpar@2252	221	///Refresh the data structure at a node.
alpar@2252	222	void refresh(Node n)
alpar@2252	223	{
alpar@2252	224	const int bi = _start[n] = _edges.size();
alpar@2252	225	for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
alpar@2252	226	const typename std::vector<Edge>::iterator ei=_edges.end();
alpar@2252	227	_end[n]=_edges.size();
alpar@2252	228	std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
alpar@2252	229	}
alpar@2252	230	///Refresh the full data structure.
alpar@2252	231	void refresh()
alpar@2252	232	{
alpar@2252	233	_edges.resize(countEdges(_g));
alpar@2252	234	int l=0;
alpar@2252	235	for(NodeIt n(_g);n!=INVALID;++n)
alpar@2252	236	{
alpar@2252	237	int ls = l;
alpar@2252	238	_start[n]=&(_edges[l]);
alpar@2252	239	for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges[l++]=e;
alpar@2252	240	_end[n]=&(_edges[l]);
alpar@2252	241	std::sort(_edges.begin()+ls,_edges.begin()+l,EdgeLess(_g));
alpar@2252	242	}
alpar@2252	243
alpar@2252	244	}
alpar@2252	245
alpar@2252	246	///Find an edge between two nodes.
alpar@2252	247
alpar@2252	248	///Find an edge between two nodes.
alpar@2252	249	///\param s The source node
alpar@2252	250	///\param t The target node
alpar@2252	251	///\return An edge from \c s to \c t if there exists,
alpar@2252	252	///\ref INVALID otherwise.
alpar@2235	253
alpar@2252	254	Edge operator()(Node s, Node t)
alpar@2252	255	{
alpar@2252	256	Edge *a=_start[s];
alpar@2252	257	Edge *b=_end[s];
alpar@2252	258	while(a!=b)
alpar@2252	259	{
alpar@2252	260	#ifdef X86
alpar@2252	261	Edge m=(Edge)(((unsigned int)a+(unsigned int)b)/2 & 0xfffffffc);
alpar@2252	262	#elif X86_64
alpar@2252	263	Edge m=(Edge)(((unsigned long)a+(undigned long)b)/2 & 0xfffffffc);
alpar@2252	264	#else
alpar@2252	265	Edge *m=a+((b-a)/2);
alpar@2252	266	#endif
alpar@2252	267	Node tt = _g.target(*m);
alpar@2252	268	if(tt==t) return *m;
alpar@2252	269	else if(tt<t) a=m+1;
alpar@2252	270	else b=m;
alpar@2252	271	}
alpar@2252	272	return INVALID;
alpar@2252	273	}
alpar@2252	274
alpar@2252	275	///Find the next edge
alpar@2235	276
alpar@2252	277	///\warning This function is unimplemented.
alpar@2252	278	Edge operator()(Node s, Node t, Edge prev)
alpar@2252	279	{
alpar@2252	280	return prev==INVALID?(*this)(s,t):INVALID;
alpar@2252	281	}
alpar@2235	282
alpar@2252	283	};
alpar@2235	284
alpar@2235	285	}
alpar@2235	286
alpar@2235	287	#endif

author	alpar
	Sun, 22 Oct 2006 19:45:57 +0000
changeset 2258	741995f3dbc4
parent 2239	18c24fe93b99
permissions	-rw-r--r--