lemon-0.x: lemon/csp.h@511cf2518a32 (annotated)

alpar@2360	1	/* -- C++ --
alpar@2360	2	*
alpar@2360	3	* This file is a part of LEMON, a generic C++ optimization library
alpar@2360	4	*
alpar@2553	5	* Copyright (C) 2003-2008
alpar@2360	6	* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
alpar@2360	7	* (Egervary Research Group on Combinatorial Optimization, EGRES).
alpar@2360	8	*
alpar@2360	9	* Permission to use, modify and distribute this software is granted
alpar@2360	10	* provided that this copyright notice appears in all copies. For
alpar@2360	11	* precise terms see the accompanying LICENSE file.
alpar@2360	12	*
alpar@2360	13	* This software is provided "AS IS" with no warranty of any kind,
alpar@2360	14	* express or implied, and with no claim as to its suitability for any
alpar@2360	15	* purpose.
alpar@2360	16	*
alpar@2360	17	*/
alpar@2360	18
alpar@2360	19	#ifndef LEMON_CSP_H
alpar@2360	20	#define LEMON_CSP_H
alpar@2360	21
deba@2376	22	///\ingroup approx
alpar@2360	23	///\file
alpar@2360	24	///\brief Algorithm for the Resource Constrained Shortest Path problem.
alpar@2360	25	///
alpar@2360	26
alpar@2360	27	#include <lemon/list_graph.h>
alpar@2360	28	#include <lemon/graph_utils.h>
alpar@2360	29	#include <lemon/error.h>
alpar@2360	30	#include <lemon/maps.h>
alpar@2360	31	#include <lemon/tolerance.h>
alpar@2360	32	#include <lemon/dijkstra.h>
alpar@2360	33	#include <lemon/path.h>
alpar@2360	34	#include <lemon/counter.h>
alpar@2360	35	namespace lemon {
deba@2377	36
deba@2377	37	///\ingroup approx
deba@2486	38	///
deba@2486	39	///\brief Algorithms for the Resource Constrained Shortest Path Problem
deba@2486	40	///
alpar@2373	41	///The Resource Constrained Shortest (Least Cost) Path problem is the
alpar@2373	42	///following. We are given a directed graph with two additive weightings
alpar@2373	43	///on the edges, referred as \e cost and \e delay. In addition,
alpar@2373	44	///a source and a destination node \e s and \e t and a delay
alpar@2373	45	///constraint \e D is given. A path \e p is called \e feasible
alpar@2373	46	///if <em>delay(p)\<=D</em>. Then, the task is to find the least cost
alpar@2373	47	///feasible path.
alpar@2360	48	///
alpar@2360	49	template<class Graph,
alpar@2360	50	class CM=typename Graph:: template EdgeMap<double>,
alpar@2360	51	class DM=CM>
alpar@2360	52	class ConstrainedShortestPath
alpar@2360	53	{
alpar@2360	54	public:
alpar@2360	55
alpar@2360	56	GRAPH_TYPEDEFS(typename Graph);
alpar@2360	57
alpar@2360	58	typedef SimplePath<Graph> Path;
alpar@2360	59
deba@2401	60	private:
deba@2401	61
deba@2401	62	const Graph &_g;
alpar@2360	63	Tolerance<double> tol;
alpar@2360	64
deba@2401	65	const CM &_cost;
deba@2401	66	const DM &_delay;
alpar@2360	67
alpar@2360	68	class CoMap
alpar@2360	69	{
deba@2401	70	const CM &_cost;
deba@2401	71	const DM &_delay;
alpar@2360	72	double _lambda;
alpar@2360	73	public:
alpar@2360	74	typedef typename CM::Key Key;
alpar@2360	75	typedef double Value;
deba@2401	76	CoMap(const CM &c, const DM &d) :_cost(c), _delay(d), _lambda(0) {}
alpar@2360	77	double lambda() const { return _lambda; }
alpar@2360	78	void lambda(double l) { _lambda=l; }
alpar@2360	79	Value operator[](Key &e) const
alpar@2360	80	{
alpar@2360	81	return _cost[e]+_lambda*_delay[e];
alpar@2360	82	}
deba@2401	83	};
deba@2401	84
deba@2401	85	CoMap _co_map;
alpar@2360	86
alpar@2360	87
alpar@2360	88	Dijkstra<Graph, CoMap> _dij;
deba@2401	89
deba@2401	90	public:
deba@2401	91
deba@2486	92	/// \brief Constructor
alpar@2360	93
deba@2486	94	///Constructor
alpar@2360	95	///
deba@2401	96	ConstrainedShortestPath(const Graph &g, const CM &ct, const DM &dl)
deba@2386	97	: _g(g), _cost(ct), _delay(dl),
deba@2401	98	_co_map(ct, dl), _dij(_g,_co_map) {}
alpar@2360	99
alpar@2360	100
alpar@2360	101	///Compute the cost of a path
deba@2401	102	double cost(const Path &p) const
alpar@2360	103	{
alpar@2360	104	double s=0;
alpar@2360	105	// Path r;
alpar@2360	106	for(typename Path::EdgeIt e(p);e!=INVALID;++e) s+=_cost[e];
alpar@2360	107	return s;
alpar@2360	108	}
alpar@2360	109
alpar@2360	110	///Compute the delay of a path
deba@2401	111	double delay(const Path &p) const
alpar@2360	112	{
alpar@2360	113	double s=0;
alpar@2360	114	for(typename Path::EdgeIt e(p);e!=INVALID;++e) s+=_delay[e];
alpar@2360	115	return s;
alpar@2360	116	}
alpar@2360	117
alpar@2360	118	///Runs the LARAC algorithm
alpar@2360	119
alpar@2360	120	///This function runs a Lagrange relaxation based heuristic to find
alpar@2360	121	///a delay constrained least cost path.
alpar@2360	122	///\param s source node
alpar@2360	123	///\param t target node
deba@2486	124	///\param delta upper bound on the delta
alpar@2360	125	///\retval lo_bo a lower bound on the optimal solution
alpar@2360	126	///\return the found path or an empty
alpar@2360	127	Path larac(Node s, Node t, double delta, double &lo_bo)
alpar@2360	128	{
alpar@2360	129	double lambda=0;
alpar@2360	130	double cp,cq,dp,dq,cr,dr;
alpar@2360	131	Path p;
alpar@2360	132	Path q;
alpar@2360	133	Path r;
alpar@2360	134	{
alpar@2360	135	Dijkstra<Graph,CM> dij(_g,_cost);
alpar@2360	136	dij.run(s,t);
alpar@2360	137	if(!dij.reached(t)) return Path();
alpar@2360	138	p=dij.path(t);
alpar@2360	139	cp=cost(p);
alpar@2360	140	dp=delay(p);
alpar@2360	141	}
alpar@2360	142	if(delay(p)<=delta) return p;
alpar@2360	143	{
alpar@2360	144	Dijkstra<Graph,DM> dij(_g,_delay);
alpar@2360	145	dij.run(s,t);
alpar@2360	146	q=dij.path(t);
alpar@2360	147	cq=cost(q);
alpar@2360	148	dq=delay(q);
alpar@2360	149	}
alpar@2360	150	if(delay(q)>delta) return Path();
alpar@2360	151	while (true) {
alpar@2360	152	lambda=(cp-cq)/(dq-dp);
alpar@2360	153	_co_map.lambda(lambda);
alpar@2360	154	_dij.run(s,t);
alpar@2360	155	r=_dij.path(t);
alpar@2360	156	cr=cost(r);
alpar@2360	157	dr=delay(r);
alpar@2360	158	if(!tol.less(cr+lambdadr,cp+lambdadp)) {
alpar@2360	159	lo_bo=cq+lambda*(dq-delta);
alpar@2360	160	return q;
alpar@2360	161	}
alpar@2360	162	else if(tol.less(dr,delta))
alpar@2360	163	{
alpar@2360	164	q=r;
alpar@2360	165	cq=cr;
alpar@2360	166	dq=dr;
alpar@2360	167	}
alpar@2360	168	else if(tol.less(delta,dr))
alpar@2360	169	{
alpar@2360	170	p=r;
alpar@2360	171	cp=cr;
alpar@2360	172	dp=dr;
alpar@2360	173	}
alpar@2360	174	else return r;
alpar@2360	175	}
alpar@2360	176	}
alpar@2360	177	};
alpar@2360	178
alpar@2360	179
alpar@2360	180	} //END OF NAMESPACE LEMON
alpar@2360	181
alpar@2360	182	#endif

author	deba
	Sun, 21 Dec 2008 20:13:28 +0000
changeset 2632	511cf2518a32
parent 2487	568ff3572a96
permissions	-rw-r--r--