src/work/jacint/preflow_res.h
author marci
Tue, 21 Sep 2004 11:54:20 +0000
changeset 892 004636791dd7
parent 392 b8d635e1672d
child 921 818510fa3d99
permissions -rw-r--r--
graph_wrappers now pass the tests.
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// -*- C++ -*-
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//The same as preflow.h, using ResGraphWrapper
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#ifndef HUGO_PREFLOW_RES_H
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#define HUGO_PREFLOW_RES_H
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#define H0 20
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#define H1 1
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#include <vector>
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#include <queue>
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#include <graph_wrapper.h>
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#include<iostream>
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namespace hugo {
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  template <typename Graph, typename T, 
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	    typename CapMap=typename Graph::template EdgeMap<T>, 
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            typename FlowMap=typename Graph::template EdgeMap<T> >
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  class PreflowRes {
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    typedef typename Graph::Node Node;
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    typedef typename Graph::Edge Edge;
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    typedef typename Graph::NodeIt NodeIt;
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    typedef typename Graph::OutEdgeIt OutEdgeIt;
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    typedef typename Graph::InEdgeIt InEdgeIt;
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    const Graph& G;
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    Node s;
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    Node t;
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    const CapMap& capacity;  
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    FlowMap& flow;
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    T value;
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    bool constzero;
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    typedef ResGraphWrapper<const Graph, T, CapMap, FlowMap> ResGW;
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    typedef typename ResGW::OutEdgeIt ResOutEdgeIt;
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    typedef typename ResGW::InEdgeIt ResInEdgeIt;
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    typedef typename ResGW::Edge ResEdge;
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  public:
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    PreflowRes(Graph& _G, Node _s, Node _t, CapMap& _capacity, 
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	    FlowMap& _flow, bool _constzero ) :
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      G(_G), s(_s), t(_t), capacity(_capacity), flow(_flow), constzero(_constzero) {}
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    void run() {
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      ResGW res_graph(G, capacity, flow);
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      value=0;                //for the subsequent runs
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      bool phase=0;        //phase 0 is the 1st phase, phase 1 is the 2nd
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      int n=G.nodeNum(); 
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      int heur0=(int)(H0*n);  //time while running 'bound decrease' 
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      int heur1=(int)(H1*n);  //time while running 'highest label'
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      int heur=heur1;         //starting time interval (#of relabels)
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      bool what_heur=1;       
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      /*
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	what_heur is 0 in case 'bound decrease' 
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	and 1 in case 'highest label'
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      */
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      bool end=false;     
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      /*
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	Needed for 'bound decrease', 'true'
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	means no active nodes are above bound b.
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      */
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      int relabel=0;
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      int k=n-2;  //bound on the highest level under n containing a node
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      int b=k;    //bound on the highest level under n of an active node
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      typename Graph::template NodeMap<int> level(G,n);      
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      typename Graph::template NodeMap<T> excess(G); 
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      std::vector<Node> active(n-1,INVALID);
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      typename Graph::template NodeMap<Node> next(G,INVALID);
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      //Stack of the active nodes in level i < n.
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      //We use it in both phases.
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      typename Graph::template NodeMap<Node> left(G,INVALID);
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      typename Graph::template NodeMap<Node> right(G,INVALID);
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      std::vector<Node> level_list(n,INVALID);
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      /*
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	List of the nodes in level i<n.
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      */
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      /*
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	Reverse_bfs from t in the residual graph, 
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	to find the starting level.
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      */
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      level.set(t,0);
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      std::queue<Node> bfs_queue;
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      bfs_queue.push(t);
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      while (!bfs_queue.empty()) {
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	Node v=bfs_queue.front();	
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	bfs_queue.pop();
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	int l=level[v]+1;
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	ResInEdgeIt e;
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	for(res_graph.first(e,v); res_graph.valid(e); 
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	    res_graph.next(e)) {
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	  Node w=res_graph.tail(e);
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	  if ( level[w] == n && w != s ) {
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	    bfs_queue.push(w);
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	    Node first=level_list[l];
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	    if ( G.valid(first) ) left.set(first,w);
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	    right.set(w,first);
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	    level_list[l]=w;
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	    level.set(w, l);
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	  }
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	}
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      }
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      if ( !constzero ) {
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	/*
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	  Counting the excess
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	*/
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	NodeIt v;
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	for(G.first(v); G.valid(v); G.next(v)) {
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	  T exc=0;
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	  InEdgeIt e;
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	  for(G.first(e,v); G.valid(e); G.next(e)) exc+=flow[e];
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	  OutEdgeIt f;
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	  for(G.first(f,v); G.valid(f); G.next(f)) exc-=flow[f];
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	  excess.set(v,exc);	  
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	  //putting the active nodes into the stack
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	  int lev=level[v];
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	  if ( exc > 0 && lev < n ) {
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	    next.set(v,active[lev]);
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	    active[lev]=v;
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	  }
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	}
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      }
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      //the starting flow
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      ResOutEdgeIt e;
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      for(res_graph.first(e,s); res_graph.valid(e); 
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	  res_graph.next(e)) {
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	  Node w=res_graph.head(e);
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	  if ( level[w] < n ) {	  
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	    if ( excess[w] == 0 && w!=t ) {
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	      next.set(w,active[level[w]]);
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	      active[level[w]]=w;
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	    }
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	    T rem=res_graph.resCap(e);
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	    excess.set(w, excess[w]+rem);
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	    res_graph.augment(e, rem ); 
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	  }
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      }
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      /* 
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	 End of preprocessing 
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      */
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      /*
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	Push/relabel on the highest level active nodes.
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      */	
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      while ( true ) {
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	if ( b == 0 ) {
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	  if ( phase ) break;
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	  if ( !what_heur && !end && k > 0 ) {
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	    b=k;
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	    end=true;
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	  } else {
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	    phase=1;
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	    level.set(s,0);
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	    std::queue<Node> bfs_queue;
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	    bfs_queue.push(s);
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	    while (!bfs_queue.empty()) {
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	      Node v=bfs_queue.front();	
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	      bfs_queue.pop();
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	      int l=level[v]+1;
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	      ResInEdgeIt e;
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	      for(res_graph.first(e,v); 
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		  res_graph.valid(e); res_graph.next(e)) {
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		Node u=res_graph.tail(e);
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		if ( level[u] >= n ) { 
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		  bfs_queue.push(u);
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		  level.set(u, l);
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		  if ( excess[u] > 0 ) {
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		    next.set(u,active[l]);
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		    active[l]=u;
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		  }
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		}
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	      }
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	    }
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	    b=n-2;
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	  }
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	}
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	if ( !G.valid(active[b]) ) --b; 
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	else {
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	  end=false;  
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	  Node w=active[b];
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	  active[b]=next[w];
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	  int lev=level[w];
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	  T exc=excess[w];
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	  int newlevel=n;       //bound on the next level of w
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	  ResOutEdgeIt e;
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	  for(res_graph.first(e,w); res_graph.valid(e); res_graph.next(e)) {
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	    Node v=res_graph.head(e);            
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	    if( lev > level[v] ) {      
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	      /*Push is allowed now*/
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	      if ( excess[v]==0 && v!=t && v!=s ) {
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		int lev_v=level[v];
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		next.set(v,active[lev_v]);
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		active[lev_v]=v;
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	      }
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	      T remcap=res_graph.resCap(e);
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	      if ( remcap >= exc ) {       
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		/*A nonsaturating push.*/
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		res_graph.augment(e, exc);
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		excess.set(v, excess[v]+exc);
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		exc=0;
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		break; 
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	      } else { 
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		/*A saturating push.*/
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		res_graph.augment(e, remcap);
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		excess.set(v, excess[v]+remcap);
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		exc-=remcap;
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	      }
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	    } else if ( newlevel > level[v] ){
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	      newlevel = level[v];
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	    }	    
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	  }
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	excess.set(w, exc);
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	/*
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	  Relabel
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	*/
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	if ( exc > 0 ) {
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	  //now 'lev' is the old level of w
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	  if ( phase ) {
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	    level.set(w,++newlevel);
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	    next.set(w,active[newlevel]);
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	    active[newlevel]=w;
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	    b=newlevel;
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	  } else {
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	    //unlacing starts
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	    Node right_n=right[w];
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	    Node left_n=left[w];
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	    if ( G.valid(right_n) ) {
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	      if ( G.valid(left_n) ) {
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		right.set(left_n, right_n);
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		left.set(right_n, left_n);
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	      } else {
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		level_list[lev]=right_n;   
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		left.set(right_n, INVALID);
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	      } 
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	    } else {
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	      if ( G.valid(left_n) ) {
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		right.set(left_n, INVALID);
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	      } else { 
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		level_list[lev]=INVALID;   
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	      } 
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	    } 
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	    //unlacing ends
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	    if ( !G.valid(level_list[lev]) ) {
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	       //gapping starts
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	      for (int i=lev; i!=k ; ) {
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		Node v=level_list[++i];
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		while ( G.valid(v) ) {
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		  level.set(v,n);
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		  v=right[v];
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		}
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		level_list[i]=INVALID;
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		if ( !what_heur ) active[i]=INVALID;
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	      }	     
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	      level.set(w,n);
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	      b=lev-1;
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	      k=b;
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	      //gapping ends
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	    } else {
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	      if ( newlevel == n ) level.set(w,n); 
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	      else {
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		level.set(w,++newlevel);
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		next.set(w,active[newlevel]);
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		active[newlevel]=w;
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		if ( what_heur ) b=newlevel;
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		if ( k < newlevel ) ++k;      //now k=newlevel
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		Node first=level_list[newlevel];
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		if ( G.valid(first) ) left.set(first,w);
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		right.set(w,first);
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		left.set(w,INVALID);
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		level_list[newlevel]=w;
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	      }
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	    }
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	    ++relabel; 
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	    if ( relabel >= heur ) {
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	      relabel=0;
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	      if ( what_heur ) {
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		what_heur=0;
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		heur=heur0;
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		end=false;
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	      } else {
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		what_heur=1;
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		heur=heur1;
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		b=k; 
jacint@388
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	      }
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	    }
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	  } //phase 0
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   343
	  
jacint@388
   344
	  
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   345
	} // if ( exc > 0 )
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jacint@388
   347
	
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	}  // if stack[b] is nonempty
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   349
	
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      } // while(true)
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   352
jacint@388
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      value = excess[t];
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      /*Max flow value.*/
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jacint@388
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    } //void run()
jacint@388
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   358
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   359
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   360
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   361
jacint@388
   362
    /*
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      Returns the maximum value of a flow.
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   364
     */
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jacint@388
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    T flowValue() {
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      return value;
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    }
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jacint@388
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    FlowMap Flow() {
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      return flow;
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      }
jacint@388
   374
jacint@388
   375
jacint@388
   376
    
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    void Flow(FlowMap& _flow ) {
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      NodeIt v;
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      for(G.first(v) ; G.valid(v); G.next(v))
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	_flow.set(v,flow[v]);
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    }
jacint@388
   382
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   383
jacint@388
   384
jacint@388
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    /*
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      Returns the minimum min cut, by a bfs from s in the residual graph.
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   387
    */
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   388
   
jacint@388
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    template<typename _CutMap>
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   390
    void minMinCut(_CutMap& M) {
jacint@388
   391
    
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   392
      std::queue<Node> queue;
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   393
      
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   394
      M.set(s,true);      
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   395
      queue.push(s);
jacint@388
   396
jacint@388
   397
      while (!queue.empty()) {
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        Node w=queue.front();
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	queue.pop();
jacint@388
   400
jacint@388
   401
	OutEdgeIt e;
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   402
	for(G.first(e,w) ; G.valid(e); G.next(e)) {
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	  Node v=G.head(e);
jacint@388
   404
	  if (!M[v] && flow[e] < capacity[e] ) {
jacint@388
   405
	    queue.push(v);
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   406
	    M.set(v, true);
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   407
	  }
jacint@388
   408
	} 
jacint@388
   409
jacint@388
   410
	InEdgeIt f;
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   411
	for(G.first(f,w) ; G.valid(f); G.next(f)) {
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   412
	  Node v=G.tail(f);
jacint@388
   413
	  if (!M[v] && flow[f] > 0 ) {
jacint@388
   414
	    queue.push(v);
jacint@388
   415
	    M.set(v, true);
jacint@388
   416
	  }
jacint@388
   417
	} 
jacint@388
   418
      }
jacint@388
   419
    }
jacint@388
   420
jacint@388
   421
jacint@388
   422
  
jacint@388
   423
    /*
jacint@388
   424
      Returns the maximum min cut, by a reverse bfs 
jacint@388
   425
      from t in the residual graph.
jacint@388
   426
    */
jacint@388
   427
    
jacint@388
   428
    template<typename _CutMap>
jacint@388
   429
    void maxMinCut(_CutMap& M) {
jacint@388
   430
    
jacint@388
   431
      std::queue<Node> queue;
jacint@388
   432
      
jacint@388
   433
      M.set(t,true);        
jacint@388
   434
      queue.push(t);
jacint@388
   435
jacint@388
   436
      while (!queue.empty()) {
jacint@388
   437
        Node w=queue.front();
jacint@388
   438
	queue.pop();
jacint@388
   439
jacint@388
   440
jacint@388
   441
	InEdgeIt e;
jacint@388
   442
	for(G.first(e,w) ; G.valid(e); G.next(e)) {
jacint@388
   443
	  Node v=G.tail(e);
jacint@388
   444
	  if (!M[v] && flow[e] < capacity[e] ) {
jacint@388
   445
	    queue.push(v);
jacint@388
   446
	    M.set(v, true);
jacint@388
   447
	  }
jacint@388
   448
	}
jacint@388
   449
	
jacint@388
   450
	OutEdgeIt f;
jacint@388
   451
	for(G.first(f,w) ; G.valid(f); G.next(f)) {
jacint@388
   452
	  Node v=G.head(f);
jacint@388
   453
	  if (!M[v] && flow[f] > 0 ) {
jacint@388
   454
	    queue.push(v);
jacint@388
   455
	    M.set(v, true);
jacint@388
   456
	  }
jacint@388
   457
	}
jacint@388
   458
      }
jacint@388
   459
jacint@388
   460
      NodeIt v;
jacint@388
   461
      for(G.first(v) ; G.valid(v); G.next(v)) {
jacint@388
   462
	M.set(v, !M[v]);
jacint@388
   463
      }
jacint@388
   464
jacint@388
   465
    }
jacint@388
   466
jacint@388
   467
jacint@388
   468
jacint@388
   469
    template<typename CutMap>
jacint@388
   470
    void minCut(CutMap& M) {
jacint@388
   471
      minMinCut(M);
jacint@388
   472
    }
jacint@388
   473
jacint@388
   474
    
jacint@444
   475
    
jacint@444
   476
    void resetTarget (Node _t) {t=_t;}
jacint@444
   477
    void resetSource (Node _s) {s=_s;}
jacint@388
   478
   
jacint@444
   479
    void resetCap (CapMap _cap) {capacity=_cap;}
jacint@388
   480
jacint@444
   481
    void resetFlow (FlowMap _flow, bool _constzero) {
jacint@388
   482
      flow=_flow;
jacint@388
   483
      constzero=_constzero;
jacint@388
   484
    }
jacint@388
   485
jacint@388
   486
jacint@388
   487
  };
jacint@388
   488
jacint@388
   489
} //namespace hugo
jacint@388
   490
marci@390
   491
#endif //HUGO_PREFLOW_RES_H
jacint@388
   492
jacint@388
   493
jacint@388
   494
jacint@388
   495