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/* -*- C++ -*-
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*
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* This file is a part of LEMON, a generic C++ optimization library
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*
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* Copyright (C) 2003-2007
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* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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* (Egervary Research Group on Combinatorial Optimization, EGRES).
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*
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* Permission to use, modify and distribute this software is granted
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* provided that this copyright notice appears in all copies. For
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* precise terms see the accompanying LICENSE file.
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*
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* This software is provided "AS IS" with no warranty of any kind,
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* express or implied, and with no claim as to its suitability for any
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* purpose.
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*
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*/
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#ifndef LEMON_CIRCULATION_H
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#define LEMON_CIRCULATION_H
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#include <lemon/graph_utils.h>
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#include <iostream>
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#include <queue>
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#include <lemon/tolerance.h>
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#include <lemon/elevator.h>
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///\ingroup max_flow
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///\file
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///\brief Push-prelabel algorithm for finding a feasible circulation.
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///
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namespace lemon {
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///Preflow algorithm for the Network Circulation Problem.
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///\ingroup max_flow
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///This class implements a preflow algorithm
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///for the Network Circulation Problem.
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///The exact formulation of this problem is the following.
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/// \f[\sum_{e\in\rho(v)}x(e)-\sum_{e\in\delta(v)}x(e)\leq -delta(v)\quad \forall v\in V \f]
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/// \f[ lo(e)\leq x(e) \leq up(e) \quad \forall e\in E \f]
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///
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template<class Graph,
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class Value,
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class FlowMap=typename Graph::template EdgeMap<Value>,
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class LCapMap=typename Graph::template EdgeMap<Value>,
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class UCapMap=LCapMap,
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class DeltaMap=typename Graph::template NodeMap<Value>
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>
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class Circulation {
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typedef typename Graph::Node Node;
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typedef typename Graph::NodeIt NodeIt;
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typedef typename Graph::Edge Edge;
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typedef typename Graph::EdgeIt EdgeIt;
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typedef typename Graph::InEdgeIt InEdgeIt;
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typedef typename Graph::OutEdgeIt OutEdgeIt;
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const Graph &_g;
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int _node_num;
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const LCapMap &_lo;
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const UCapMap &_up;
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const DeltaMap &_delta;
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FlowMap &_x;
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Tolerance<Value> _tol;
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Elevator<Graph,typename Graph::Node> _levels;
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typename Graph::template NodeMap<Value> _excess;
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public:
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///\e
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Circulation(const Graph &g,const LCapMap &lo,const UCapMap &up,
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const DeltaMap &delta,FlowMap &x) :
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_g(g),
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_node_num(countNodes(g)),
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_lo(lo),_up(up),_delta(delta),_x(x),
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_levels(g,_node_num),
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_excess(g)
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{
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}
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private:
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void addExcess(Node n,Value v)
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{
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if(_tol.positive(_excess[n]+=v))
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{
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if(!_levels.active(n)) _levels.activate(n);
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}
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else if(_levels.active(n)) _levels.deactivate(n);
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}
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void init()
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{
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_x=_lo;
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for(NodeIt n(_g);n!=INVALID;++n) _excess[n]=_delta[n];
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for(EdgeIt e(_g);e!=INVALID;++e)
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{
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_excess[_g.target(e)]+=_x[e];
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_excess[_g.source(e)]-=_x[e];
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}
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_levels.initStart();
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for(NodeIt n(_g);n!=INVALID;++n)
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_levels.initAddItem(n);
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_levels.initFinish();
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for(NodeIt n(_g);n!=INVALID;++n)
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if(_tol.positive(_excess[n]))
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_levels.activate(n);
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}
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public:
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///Check if \c x is a feasible circulation
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template<class FT>
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bool checkX(FT &x) {
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for(EdgeIt e(_g);e!=INVALID;++e)
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if(x[e]<_lo[e]||x[e]>_up[e]) return false;
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for(NodeIt n(_g);n!=INVALID;++n)
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{
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alpar@2450
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Value dif=-_delta[n];
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for(InEdgeIt e(_g,n);e!=INVALID;++e) dif-=x[e];
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for(OutEdgeIt e(_g,n);e!=INVALID;++e) dif+=x[e];
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if(_tol.negative(dif)) return false;
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}
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return true;
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};
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///Check if the default \c x is a feasible circulation
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bool checkX() { return checkX(_x); }
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alpar@2408
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///Check if \c bar is a real barrier
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///Check if \c bar is a real barrier
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///\sa barrier()
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template<class GT>
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bool checkBarrier(GT &bar)
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{
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alpar@2375
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Value delta=0;
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alpar@2375
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for(NodeIt n(_g);n!=INVALID;++n)
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alpar@2375
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if(bar[n])
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alpar@2450
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delta-=_delta[n];
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alpar@2375
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for(EdgeIt e(_g);e!=INVALID;++e)
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{
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alpar@2375
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Node s=_g.source(e);
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alpar@2375
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Node t=_g.target(e);
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alpar@2375
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if(bar[s]&&!bar[t]) delta+=_up[e];
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alpar@2375
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else if(bar[t]&&!bar[s]) delta-=_lo[e];
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alpar@2375
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}
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alpar@2375
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return _tol.negative(delta);
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}
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alpar@2408
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///Check whether or not the last execution provides a barrier
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alpar@2375
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alpar@2408
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///Check whether or not the last execution provides a barrier
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alpar@2375
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///\sa barrier()
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alpar@2375
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bool checkBarrier()
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{
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alpar@2375
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typename Graph:: template NodeMap<bool> bar(_g);
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alpar@2375
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barrier(bar);
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alpar@2375
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return checkBarrier(bar);
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alpar@2375
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}
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alpar@2375
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///Run the algorithm
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alpar@2375
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alpar@2375
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///This function runs the algorithm.
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alpar@2375
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///\return This function returns -1 if it found a feasible circulation.
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alpar@2375
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/// nonnegative values (including 0) mean that no feasible solution is
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alpar@2375
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/// found. In this case the return value means an "empty level".
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alpar@2375
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///
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alpar@2375
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///\sa barrier()
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alpar@2375
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int run()
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alpar@2375
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{
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alpar@2375
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init();
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alpar@2375
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alpar@2375
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#ifdef LEMON_CIRCULATION_DEBUG
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alpar@2375
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for(NodeIt n(_g);n!=INVALID;++n)
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alpar@2375
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std::cerr<< _levels[n] << ' ';
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alpar@2375
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std::cerr << std::endl;
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alpar@2375
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#endif
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alpar@2375
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Node act;
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alpar@2375
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Node bact=INVALID;
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alpar@2375
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Node last_activated=INVALID;
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alpar@2375
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while((act=_levels.highestActive())!=INVALID) {
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alpar@2375
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184 |
int actlevel=_levels[act];
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alpar@2375
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int tlevel;
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alpar@2375
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186 |
int mlevel=_node_num;
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alpar@2375
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187 |
Value exc=_excess[act];
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alpar@2375
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188 |
Value fc;
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alpar@2375
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189 |
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alpar@2375
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190 |
#ifdef LEMON_CIRCULATION_DEBUG
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alpar@2375
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for(NodeIt n(_g);n!=INVALID;++n)
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alpar@2375
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std::cerr<< _levels[n] << ' ';
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alpar@2375
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193 |
std::cerr << std::endl;
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alpar@2375
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194 |
std::cerr << "Process node " << _g.id(act)
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alpar@2375
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<< " on level " << actlevel
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alpar@2375
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<< " with excess " << exc
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alpar@2375
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<< std::endl;
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alpar@2375
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#endif
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alpar@2375
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199 |
for(OutEdgeIt e(_g,act);e!=INVALID; ++e)
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alpar@2375
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200 |
if((fc=_up[e]-_x[e])>0)
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alpar@2375
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201 |
if((tlevel=_levels[_g.target(e)])<actlevel)
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alpar@2375
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202 |
if(fc<=exc) {
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alpar@2375
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203 |
_x[e]=_up[e];
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alpar@2375
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204 |
addExcess(_g.target(e),fc);
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alpar@2375
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205 |
exc-=fc;
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alpar@2375
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206 |
#ifdef LEMON_CIRCULATION_DEBUG
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alpar@2375
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207 |
std::cerr << " Push " << fc
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alpar@2375
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<< " toward " << _g.id(_g.target(e)) << std::endl;
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alpar@2375
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209 |
#endif
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alpar@2375
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210 |
}
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alpar@2375
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211 |
else {
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alpar@2375
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212 |
_x[e]+=exc;
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alpar@2375
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addExcess(_g.target(e),exc);
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alpar@2375
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//exc=0;
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alpar@2375
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_excess[act]=0;
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alpar@2375
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216 |
_levels.deactivate(act);
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alpar@2375
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217 |
#ifdef LEMON_CIRCULATION_DEBUG
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alpar@2375
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218 |
std::cerr << " Push " << exc
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alpar@2375
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<< " toward " << _g.id(_g.target(e)) << std::endl;
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alpar@2375
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220 |
std::cerr << " Deactivate\n";
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alpar@2375
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221 |
#endif
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alpar@2375
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goto next_l;
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alpar@2375
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223 |
}
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alpar@2375
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224 |
else if(tlevel<mlevel) mlevel=tlevel;
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alpar@2375
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225 |
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alpar@2375
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226 |
for(InEdgeIt e(_g,act);e!=INVALID; ++e)
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alpar@2375
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227 |
if((fc=_x[e]-_lo[e])>0)
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alpar@2375
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228 |
if((tlevel=_levels[_g.source(e)])<actlevel)
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alpar@2375
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229 |
if(fc<=exc) {
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alpar@2375
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230 |
_x[e]=_lo[e];
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alpar@2375
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231 |
addExcess(_g.source(e),fc);
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alpar@2375
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232 |
exc-=fc;
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alpar@2375
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233 |
#ifdef LEMON_CIRCULATION_DEBUG
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alpar@2375
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234 |
std::cerr << " Push " << fc
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alpar@2375
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<< " toward " << _g.id(_g.source(e)) << std::endl;
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alpar@2375
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236 |
#endif
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alpar@2375
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237 |
}
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alpar@2375
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238 |
else {
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alpar@2375
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239 |
_x[e]-=exc;
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alpar@2375
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240 |
addExcess(_g.source(e),exc);
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alpar@2375
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241 |
//exc=0;
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alpar@2375
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242 |
_excess[act]=0;
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alpar@2375
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243 |
_levels.deactivate(act);
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alpar@2375
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244 |
#ifdef LEMON_CIRCULATION_DEBUG
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alpar@2375
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245 |
std::cerr << " Push " << exc
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alpar@2375
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246 |
<< " toward " << _g.id(_g.source(e)) << std::endl;
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alpar@2375
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247 |
std::cerr << " Deactivate\n";
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alpar@2375
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248 |
#endif
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alpar@2375
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249 |
goto next_l;
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alpar@2375
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250 |
}
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alpar@2375
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251 |
else if(tlevel<mlevel) mlevel=tlevel;
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alpar@2375
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252 |
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alpar@2375
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253 |
_excess[act]=exc;
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alpar@2375
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254 |
if(!_tol.positive(exc)) _levels.deactivate(act);
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alpar@2375
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255 |
else if(mlevel==_node_num) {
|
deba@2512
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256 |
_levels.liftHighestActiveToTop();
|
alpar@2375
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257 |
#ifdef LEMON_CIRCULATION_DEBUG
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alpar@2375
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258 |
std::cerr << " Lift to level " << _node_num << std::endl;
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alpar@2375
|
259 |
#endif
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alpar@2375
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260 |
return _levels.onLevel(_node_num-1)==0?_node_num-1:actlevel;
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alpar@2375
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261 |
}
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alpar@2375
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262 |
else {
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deba@2512
|
263 |
_levels.liftHighestActive(mlevel+1);
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alpar@2375
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264 |
#ifdef LEMON_CIRCULATION_DEBUG
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alpar@2375
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265 |
std::cerr << " Lift to level " << mlevel+1 << std::endl;
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alpar@2375
|
266 |
#endif
|
alpar@2375
|
267 |
if(_levels.onLevel(actlevel)==0)
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alpar@2375
|
268 |
return actlevel;
|
alpar@2375
|
269 |
}
|
alpar@2375
|
270 |
next_l:
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alpar@2375
|
271 |
;
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alpar@2375
|
272 |
}
|
alpar@2375
|
273 |
#ifdef LEMON_CIRCULATION_DEBUG
|
alpar@2375
|
274 |
std::cerr << "Feasible flow found.\n";
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alpar@2375
|
275 |
#endif
|
alpar@2375
|
276 |
return -1;
|
alpar@2375
|
277 |
}
|
alpar@2375
|
278 |
|
alpar@2375
|
279 |
///Return a barrier
|
alpar@2375
|
280 |
|
alpar@2375
|
281 |
///Barrier is a set \e B of nodes for which
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alpar@2450
|
282 |
/// \f[ \sum_{v\in B}-delta(v)<\sum_{e\in\rho(B)}lo(e)-\sum_{e\in\delta(B)}up(e) \f]
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alpar@2375
|
283 |
///holds. The existence of a set with this property prooves that a feasible
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alpar@2375
|
284 |
///flow cannot exists.
|
alpar@2375
|
285 |
///\pre The run() must have been executed, and its return value was -1.
|
alpar@2375
|
286 |
///\sa checkBarrier()
|
alpar@2375
|
287 |
///\sa run()
|
alpar@2375
|
288 |
template<class GT>
|
alpar@2375
|
289 |
void barrier(GT &bar,int empty_level=-1)
|
alpar@2375
|
290 |
{
|
alpar@2375
|
291 |
if(empty_level==-1)
|
alpar@2375
|
292 |
for(empty_level=0;_levels.onLevel(empty_level);empty_level++) ;
|
alpar@2375
|
293 |
for(NodeIt n(_g);n!=INVALID;++n)
|
alpar@2375
|
294 |
bar[n] = _levels[n]>empty_level;
|
alpar@2375
|
295 |
}
|
alpar@2375
|
296 |
|
alpar@2375
|
297 |
};
|
alpar@2375
|
298 |
|
alpar@2375
|
299 |
}
|
alpar@2375
|
300 |
|
alpar@2375
|
301 |
#endif
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