src/lemon/min_cost_flow.h
changeset 1299 e2545ef5d7d8
parent 1164 80bb73097736
child 1359 1581f961cfaa
equal deleted inserted replaced
5:c5252d93807b 6:5f7473e06962
    34 
    34 
    35   ///\brief Implementation of an algorithm for finding a flow of value \c k 
    35   ///\brief Implementation of an algorithm for finding a flow of value \c k 
    36   ///(for small values of \c k) having minimal total cost between 2 nodes 
    36   ///(for small values of \c k) having minimal total cost between 2 nodes 
    37   /// 
    37   /// 
    38   ///
    38   ///
    39   /// The class \ref lemon::MinCostFlow "MinCostFlow" implements
    39   /// The class \ref lemon::MinCostFlow "MinCostFlow" implements an
    40   /// an algorithm for finding a flow of value \c k 
    40   /// algorithm for finding a flow of value \c k having minimal total
    41   /// having minimal total cost 
    41   /// cost from a given source node to a given target node in an
    42   /// from a given source node to a given target node in an
    42   /// edge-weighted directed graph. To this end, the edge-capacities
    43   /// edge-weighted directed graph. To this end, 
    43   /// and edge-weights have to be nonnegative.  The edge-capacities
    44   /// the edge-capacities and edge-weitghs have to be nonnegative. 
    44   /// should be integers, but the edge-weights can be integers, reals
    45   /// The edge-capacities should be integers, but the edge-weights can be 
    45   /// or of other comparable numeric type.  This algorithm is intended
    46   /// integers, reals or of other comparable numeric type.
    46   /// to be used only for small values of \c k, since it is only
    47   /// This algorithm is intended to use only for small values of \c k, 
    47   /// polynomial in k, not in the length of k (which is log k):  in
    48   /// since it is only polynomial in k, 
    48   /// order to find the minimum cost flow of value \c k it finds the
    49   /// not in the length of k (which is log k). 
    49   /// minimum cost flow of value \c i for every \c i between 0 and \c
    50   /// In order to find the minimum cost flow of value \c k it 
    50   /// k.
    51   /// finds the minimum cost flow of value \c i for every 
       
    52   /// \c i between 0 and \c k. 
       
    53   ///
    51   ///
    54   ///\param Graph The directed graph type the algorithm runs on.
    52   ///\param Graph The directed graph type the algorithm runs on.
    55   ///\param LengthMap The type of the length map.
    53   ///\param LengthMap The type of the length map.
    56   ///\param CapacityMap The capacity map type.
    54   ///\param CapacityMap The capacity map type.
    57   ///
    55   ///
   147 
   145 
   148 	//We have to change the potential
   146 	//We have to change the potential
   149 	for(typename ResGW::NodeIt n(res_graph); n!=INVALID; ++n)
   147 	for(typename ResGW::NodeIt n(res_graph); n!=INVALID; ++n)
   150 	  potential.set(n, potential[n]+dijkstra.distMap()[n]);
   148 	  potential.set(n, potential[n]+dijkstra.distMap()[n]);
   151 	
   149 	
   152 	//Augmenting on the sortest path
   150 	//Augmenting on the shortest path
   153 	Node n=t;
   151 	Node n=t;
   154 	ResGraphEdge e;
   152 	ResGraphEdge e;
   155 	while (n!=s){
   153 	while (n!=s){
   156 	  e = dijkstra.pred(n);
   154 	  e = dijkstra.pred(n);
   157 	  n = dijkstra.predNode(n);
   155 	  n = dijkstra.predNode(n);
   224     const PotentialMap &getPotential() const { return potential;}
   222     const PotentialMap &getPotential() const { return potential;}
   225 
   223 
   226     /*! \brief Checking the complementary slackness optimality criteria.
   224     /*! \brief Checking the complementary slackness optimality criteria.
   227 
   225 
   228     This function checks, whether the given flow and potential 
   226     This function checks, whether the given flow and potential 
   229     satisfiy the complementary slackness cnditions (i.e. these are optimal).
   227     satisfy the complementary slackness conditions (i.e. these are optimal).
   230     This function only checks optimality, doesn't bother with feasibility.
   228     This function only checks optimality, doesn't bother with feasibility.
   231     For testing purpose.
   229     For testing purpose.
   232     */
   230     */
   233     bool checkComplementarySlackness(){
   231     bool checkComplementarySlackness(){
   234       Length mod_pot;
   232       Length mod_pot;