src/work/jacint/preflow_push_max_flow.hh
author jacint
Thu, 19 Feb 2004 22:28:33 +0000
changeset 102 294cb99af985
child 105 a3c73e9b9b2e
permissions -rw-r--r--
The best etik-ol flow alg so far.
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/*
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preflow_push_max_flow_hh
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by jacint. 
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Runs a preflow push algorithm with the modification, 
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that we do not push on nodes with level at least n. 
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Moreover, if a level gets empty, we put all nodes above that
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level to level n. Hence, in the end, we arrive at a maximum preflow 
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with value of a max flow value. An empty level gives a minimum cut.
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Member functions:
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void run() : runs the algorithm
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  The following functions should be used after run() was already run.
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T maxflow() : returns the value of a maximum flow
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node_property_vector<graph_type, bool> mincut(): returns a 
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     characteristic vector of a minimum cut.
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*/
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#ifndef PREFLOW_PUSH_MAX_FLOW_HH
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#define PREFLOW_PUSH_MAX_FLOW_HH
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#include <algorithm>
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#include <vector>
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#include <stack>
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#include <marci_list_graph.hh>
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#include <marci_graph_traits.hh>
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#include <marci_property_vector.hh>
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#include <reverse_bfs.hh>
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namespace marci {
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  template <typename graph_type, typename T>
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  class preflow_push_max_flow {
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    typedef typename graph_traits<graph_type>::node_iterator node_iterator;
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    typedef typename graph_traits<graph_type>::each_node_iterator each_node_iterator;
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    typedef typename graph_traits<graph_type>::out_edge_iterator out_edge_iterator;
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    typedef typename graph_traits<graph_type>::in_edge_iterator in_edge_iterator;
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    graph_type& G;
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    node_iterator s;
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    node_iterator t;
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    edge_property_vector<graph_type, T>& capacity; 
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    T value;
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    node_property_vector<graph_type, bool> mincutvector;    
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  public:
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    preflow_push_max_flow(graph_type& _G, node_iterator _s, node_iterator _t, edge_property_vector<graph_type, T>& _capacity) : G(_G), s(_s), t(_t), capacity(_capacity), mincutvector(_G, false) { }
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    /*
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      The run() function runs a modified version of the highest label preflow-push, which only 
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      finds a maximum preflow, hence giving the value of a maximum flow.
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    */
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    void run() {
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      edge_property_vector<graph_type, T> flow(G, 0);         //the flow value, 0 everywhere  
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      node_property_vector<graph_type, int> level(G);         //level of node
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      node_property_vector<graph_type, T> excess(G);          //excess of node
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      int n=number_of(G.first_node());                        //number of nodes 
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      int b=n-2; 
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      /*b is a bound on the highest level of an active node. In the beginning it is at most n-2.*/
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      std::vector<int> numb(n);                                //The number of nodes on level i < n.
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      std::vector<std::stack<node_iterator> > stack(2*n-1);    //Stack of the active nodes in level i.
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      /*Reverse_bfs from t, to find the starting level.*/
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      reverse_bfs<list_graph> bfs(G, t);
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      bfs.run();
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      for(each_node_iterator v=G.first_node(); v.valid(); ++v) 
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	{
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	  int dist=bfs.dist(v);
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	  level.put(v, dist); 
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	  ++numb[dist];
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	}
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      /*The level of s is fixed to n*/ 
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      level.put(s,n);
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      /* Starting flow. It is everywhere 0 at the moment. */
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      for(out_edge_iterator i=G.first_out_edge(s); i.valid(); ++i) 
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	{
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	  node_iterator w=G.head(i);
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	  flow.put(i, capacity.get(i)); 
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	  stack[bfs.dist(w)].push(w); 
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	  excess.put(w, capacity.get(i));
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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 there exists an active node.*/
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      while (b) { 
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	/*We decrease the bound if there is no active node of level b.*/
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	if (stack[b].empty()) {
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	  --b;
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	} else {
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	  node_iterator w=stack[b].top();    //w is the highest label active node.
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	  stack[b].pop();                    //We delete w from the stack.
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	  int newlevel=2*n-2;                //In newlevel we maintain the next level of w.
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	  for(out_edge_iterator e=G.first_out_edge(w); e.valid(); ++e) {
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	    node_iterator v=G.head(e);
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	    /*e is the edge wv.*/
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	    if (flow.get(e)<capacity.get(e)) {              
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	      /*e is an edge of the residual graph */
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	      if(level.get(w)==level.get(v)+1) {      
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		/*Push is allowed now*/
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		if (capacity.get(e)-flow.get(e) > excess.get(w)) {       
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		  /*A nonsaturating push.*/
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		  if (excess.get(v)==0 && v != s) stack[level.get(v)].push(v); 
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		  /*v becomes active.*/
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		  flow.put(e, flow.get(e)+excess.get(w));
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		  excess.put(v, excess.get(v)+excess.get(w));
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		  excess.put(w,0);
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		  //std::cout << w << " " << v <<" elore elen nonsat pump "  << std::endl;
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		  break; 
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		} else { 
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		  /*A saturating push.*/
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		  if (excess.get(v)==0 && v != s) stack[level.get(v)].push(v); 
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		  /*v becomes active.*/
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		  excess.put(v, excess.get(v)+capacity.get(e)-flow.get(e));
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		  excess.put(w, excess.get(w)-capacity.get(e)+flow.get(e));
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		  flow.put(e, capacity.get(e));
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		  //std::cout << w <<" " << v <<" elore elen sat pump "   << std::endl;
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		  if (excess.get(w)==0) break; 
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		  /*If w is not active any more, then we go on to the next node.*/
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		} // if (capacity.get(e)-flow.get(e) > excess.get(w))
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	      } // if (level.get(w)==level.get(v)+1)
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	      else {newlevel = newlevel < level.get(v) ? newlevel : level.get(v);}
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	    } //if (flow.get(e)<capacity.get(e))
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	  } //for(out_edge_iterator e=G.first_out_edge(w); e.valid(); ++e) 
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	  for(in_edge_iterator e=G.first_in_edge(w); e.valid(); ++e) {
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	    node_iterator v=G.tail(e);
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	    /*e is the edge vw.*/
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	    if (excess.get(w)==0) break;
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	    /*It may happen, that w became inactive in the first 'for' cycle.*/		
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	    if(flow.get(e)>0) {             
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	      /*e is an edge of the residual graph */
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	      if(level.get(w)==level.get(v)+1) {  
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		/*Push is allowed now*/
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		if (flow.get(e) > excess.get(w)) { 
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		  /*A nonsaturating push.*/
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		  if (excess.get(v)==0 && v != s) stack[level.get(v)].push(v); 
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		  /*v becomes active.*/
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		  flow.put(e, flow.get(e)-excess.get(w));
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		  excess.put(v, excess.get(v)+excess.get(w));
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		  excess.put(w,0);
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		  //std::cout << v << " " << w << " vissza elen nonsat pump "     << std::endl;
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		  break; 
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		} else {                                               
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		  /*A saturating push.*/
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		  if (excess.get(v)==0 && v != s) stack[level.get(v)].push(v); 
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		  /*v becomes active.*/
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		  flow.put(e,0);
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		  excess.put(v, excess.get(v)+flow.get(e));
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		  excess.put(w, excess.get(w)-flow.get(e));
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		  //std::cout << v <<" " << w << " vissza elen sat pump "     << std::endl;
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		  if (excess.get(w)==0) { break;}
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		} //if (flow.get(e) > excess.get(v)) 
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	      } //if(level.get(w)==level.get(v)+1)
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	      else {newlevel = newlevel < level.get(v) ? newlevel : level.get(v);}
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	      //std::cout << "Leveldecrease of node " << w << " to " << newlevel << std::endl; 
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	    } //if (flow.get(e)>0)
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	  } //for in-edge
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	  /*
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	    Relabel
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	  */
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	  if (excess.get(w)>0) {
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	    /*Now newlevel <= n*/
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	    int l=level.get(w);	        //l is the old level of w.
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	    --numb[l];
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	    if (newlevel == n) {
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	      level.put(w,n);
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	    } else {
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	      if (numb[l]) {
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		/*If the level of w remains nonempty.*/
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		level.put(w,++newlevel);
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		++numb[newlevel];
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		stack[newlevel].push(w);
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		b=newlevel;
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	      } else { 
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		/*If the level of w gets empty.*/
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		for (each_node_iterator v=G.first_node() ; v.valid() ; ++v) {
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		  if (level.get(v) >= l ) { 
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		    level.put(v,n);  
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		  }
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		}
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		for (int i=l+1 ; i!=n ; ++i) numb[i]=0; 
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	      } //if (numb[l])
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	    } // if (newlevel = n)
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	  } // if (excess.get(w)>0)
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	} //else
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      } //while(b)
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      value=excess.get(t);
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      /*Max flow value.*/
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      /*
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	We find an empty level, e. The nodes above this level give 
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	a minimum cut.
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      */
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      int e=1;
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      while(e) {
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	if(numb[e]) ++e;
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	else break;
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      } 
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      for (each_node_iterator v=G.first_node(); v.valid(); ++v) {
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	if (level.get(v) > e) mincutvector.put(v, true);
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      }
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    } // void run()
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    /*
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      Returns the maximum value of a flow.
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     */
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    T maxflow() {
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      return value;
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    }
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    /*
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      Returns a minimum cut.
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    */
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    node_property_vector<graph_type, bool> mincut() {
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      return mincutvector;
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    }
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  };
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}//namespace marci
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#endif 
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