lemon/min_cost_flow.h
changeset 1670 c0fa68014ba0
parent 1435 8e85e6bbefdf
child 1763 49045f2d28d4
equal deleted inserted replaced
0:01474ab6eff5 1:3de7e7440179
    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 an
    39   /// The class \ref lemon::MinCostFlow "MinCostFlow" implements an
    40   /// algorithm for finding a flow of value \c k having minimal total
    40   /// algorithm for finding a flow of value \c k having minimal total
    41   /// cost from a given source node to a given target node in an
    41   /// cost from a given source node to a given target node in a
    42   /// edge-weighted directed graph. To this end, the edge-capacities
    42   /// directed graph with a cost function on the edges. To
    43   /// and edge-weights have to be nonnegative.  The edge-capacities
    43   /// this end, the edge-capacities and edge-costs have to be
    44   /// should be integers, but the edge-weights can be integers, reals
    44   /// nonnegative.  The edge-capacities should be integers, but the
    45   /// or of other comparable numeric type.  This algorithm is intended
    45   /// edge-costs can be integers, reals or of other comparable
    46   /// to be used only for small values of \c k, since it is only
    46   /// numeric type.  This algorithm is intended to be used only for
    47   /// polynomial in k, not in the length of k (which is log k):  in
    47   /// small values of \c k, since it is only polynomial in k, not in
    48   /// order to find the minimum cost flow of value \c k it finds the
    48   /// the length of k (which is log k): in order to find the minimum
    49   /// minimum cost flow of value \c i for every \c i between 0 and \c
    49   /// cost flow of value \c k it finds the minimum cost flow of value
    50   /// k.
    50   /// \c i for every \c i between 0 and \c k.
    51   ///
    51   ///
    52   ///\param Graph The directed graph type the algorithm runs on.
    52   ///\param Graph The directed graph type the algorithm runs on.
    53   ///\param LengthMap The type of the length map.
    53   ///\param LengthMap The type of the length map.
    54   ///\param CapacityMap The capacity map type.
    54   ///\param CapacityMap The capacity map type.
    55   ///
    55   ///
   115   public :
   115   public :
   116 
   116 
   117     /*! \brief The constructor of the class.
   117     /*! \brief The constructor of the class.
   118     
   118     
   119     \param _g The directed graph the algorithm runs on. 
   119     \param _g The directed graph the algorithm runs on. 
   120     \param _length The length (weight or cost) of the edges. 
   120     \param _length The length (cost) of the edges. 
   121     \param _cap The capacity of the edges. 
   121     \param _cap The capacity of the edges. 
   122     \param _s Source node.
   122     \param _s Source node.
   123     \param _t Target node.
   123     \param _t Target node.
   124     */
   124     */
   125     MinCostFlow(Graph& _g, LengthMap& _length, CapacityMap& _cap, 
   125     MinCostFlow(Graph& _g, LengthMap& _length, CapacityMap& _cap, 
   201       for (typename Graph::OutEdgeIt e(g, s); e!=INVALID; ++e) i+=flow[e];
   201       for (typename Graph::OutEdgeIt e(g, s); e!=INVALID; ++e) i+=flow[e];
   202       for (typename Graph::InEdgeIt e(g, s); e!=INVALID; ++e) i-=flow[e];
   202       for (typename Graph::InEdgeIt e(g, s); e!=INVALID; ++e) i-=flow[e];
   203       return i;
   203       return i;
   204     }
   204     }
   205 
   205 
   206     /// Total weight of the found flow.
   206     /// Total cost of the found flow.
   207 
   207 
   208     /// This function gives back the total weight of the found flow.
   208     /// This function gives back the total cost of the found flow.
   209     Length totalLength(){
   209     Length totalLength(){
   210       return total_length;
   210       return total_length;
   211     }
   211     }
   212 
   212 
   213     ///Returns a const reference to the EdgeMap \c flow. 
   213     ///Returns a const reference to the EdgeMap \c flow.