src/work/athos/preflow_push.hh
changeset 552 83c22ca968d8
parent 331 f5461f8bc59b
equal deleted inserted replaced
4:9308d9fd2f13 5:50ec5c119d6c
    23     typedef typename Graph::Node Node;
    23     typedef typename Graph::Node Node;
    24     typedef typename Graph::NodeIt NodeIt;
    24     typedef typename Graph::NodeIt NodeIt;
    25     typedef typename Graph::Edge Edge;
    25     typedef typename Graph::Edge Edge;
    26     typedef typename Graph::OutEdgeIt OutEdgeIt;
    26     typedef typename Graph::OutEdgeIt OutEdgeIt;
    27     typedef typename Graph::InEdgeIt InEdgeIt;
    27     typedef typename Graph::InEdgeIt InEdgeIt;
       
    28     typedef typename Graph::EdgeMap<T> CapacityType;
       
    29 
       
    30     typedef ResGraphWrapper<const Graph,int,CapacityType,CapacityType> ResGraphType;
    28 
    31 
    29 
    32 
    30     //---------------------------------------------
    33     //---------------------------------------------
    31     //Parameters of the algorithm
    34     //Parameters of the algorithm
    32     //---------------------------------------------
    35     //---------------------------------------------
    45   private:
    48   private:
    46     //input
    49     //input
    47     Graph& G;
    50     Graph& G;
    48     Node s;
    51     Node s;
    49     Node t;
    52     Node t;
    50     typename Graph::EdgeMap<T> &capacity;
    53     CapacityType &capacity;
    51 
    54 
    52     //output
    55     //output
    53     typename Graph::EdgeMap<T> preflow;
    56     CapacityType preflow;
    54     T maxflow_value;
    57     T maxflow_value;
    55   
    58   
    56     //auxiliary variables for computation
    59     //auxiliary variables for computation
    57     //The number of the nodes
    60     //The number of the nodes
    58     int number_of_nodes;
    61     int number_of_nodes;
   129       for(NodeIt i=G.template first<NodeIt>(); G.valid(i); G.next(i)) {
   132       for(NodeIt i=G.template first<NodeIt>(); G.valid(i); G.next(i)) {
   130 	cout<<"Node id.: "<<G.id(i)<<", "<<prop_name<<" value: "<<a[i]<<endl;
   133 	cout<<"Node id.: "<<G.id(i)<<", "<<prop_name<<" value: "<<a[i]<<endl;
   131       }
   134       }
   132       cout<<endl;
   135       cout<<endl;
   133     }
   136     }
   134 
   137     /*
   135     //Modifies the excess of the node and makes sufficient changes
   138     //Modifies the excess of the node and makes sufficient changes
   136     void modify_excess(const Node& a ,T v){
   139     void modify_excess(const Node& a ,T v){
   137       //T old_value=excess[a];
   140       //T old_value=excess[a];
   138       excess[a] += v;
   141       excess[a] += v;
   139     }
   142     }
   153 	
   156 	
   154       //Modifiyng the tail
   157       //Modifiyng the tail
   155       modify_excess(G.tail(j),-v);
   158       modify_excess(G.tail(j),-v);
   156 
   159 
   157     }
   160     }
   158 
   161     */
   159     //Gives the active node to work with 
   162     //Gives the active node to work with 
   160     //(depending on the implementation to be used)
   163     //(depending on the implementation to be used)
   161     Node get_active_node(){
   164     Node get_active_node(){
   162       
   165       
   163 
   166 
   376 
   379 
   377 	//Initial value for the new level for the active node we are dealing with
   380 	//Initial value for the new level for the active node we are dealing with
   378 	int new_level=2*number_of_nodes;
   381 	int new_level=2*number_of_nodes;
   379 
   382 
   380 
   383 
       
   384 	//Out edges from node a
       
   385 	{
       
   386 	  ResGraphType::OutEdgeIt j=res_graph.first(j,a);
       
   387 	  while (res_graph.valid(j) && e){
       
   388 	    if (is_admissible_forward_edge(j,new_level)){
       
   389 	      v=min(e,res_graph.resCap(j));
       
   390 	      e -= v;
       
   391 	      //New node might become active
       
   392 	      if (excess[res_graph.head(j)]==0){
       
   393 		make_active(res_graph.head(j));
       
   394 	      }
       
   395 	      res_graph.augment(j,v);
       
   396 	      excess[res_graph.tail(j)] -= v;
       
   397 	      excess[res_graph.head(j)] += v;
       
   398 	    }
       
   399 	    res_graph.next(j);
       
   400 	  }
       
   401 	}
       
   402 
       
   403 	/*
   381 	//Out edges from node a
   404 	//Out edges from node a
   382 	{
   405 	{
   383 	  OutEdgeIt j=G.template first<OutEdgeIt>(a);
   406 	  OutEdgeIt j=G.template first<OutEdgeIt>(a);
   384 	  while (G.valid(j) && e){
   407 	  while (G.valid(j) && e){
   385 
   408 
   409 	      modify_preflow(j,-v);
   432 	      modify_preflow(j,-v);
   410 	    }
   433 	    }
   411 	    G.next(j);
   434 	    G.next(j);
   412 	  }
   435 	  }
   413 	}
   436 	}
       
   437 	*/
   414 
   438 
   415 	//if (G.id(a)==999)
   439 	//if (G.id(a)==999)
   416 	//cout<<new_level<<" e: "<<e<<endl;
   440 	//cout<<new_level<<" e: "<<e<<endl;
   417 	//cout<<G.id(a)<<" "<<new_level<<endl;
   441 	//cout<<G.id(a)<<" "<<new_level<<endl;
   418 
   442