lemon/cost_scaling.h
changeset 2633 4f47c0f6be04
parent 2625 c51b320bc51c
equal deleted inserted replaced
5:64c49446f513 6:211837e8f31e
   198     CostScaling( const Graph &graph,
   198     CostScaling( const Graph &graph,
   199                  const LowerMap &lower,
   199                  const LowerMap &lower,
   200                  const CapacityMap &capacity,
   200                  const CapacityMap &capacity,
   201                  const CostMap &cost,
   201                  const CostMap &cost,
   202                  const SupplyMap &supply ) :
   202                  const SupplyMap &supply ) :
   203       _graph(graph), _lower(&lower), _capacity(graph), _orig_cost(cost),
   203       _graph(graph), _lower(&lower), _capacity(capacity), _orig_cost(cost),
   204       _cost(graph), _supply(graph), _flow(NULL), _local_flow(false),
   204       _cost(graph), _supply(supply), _flow(NULL), _local_flow(false),
   205       _potential(NULL), _local_potential(false), _res_cost(_cost),
   205       _potential(NULL), _local_potential(false), _res_cost(_cost),
   206       _res_graph(NULL), _red_cost(NULL), _excess(graph, 0)
   206       _res_graph(NULL), _red_cost(NULL), _excess(graph, 0)
   207     {
   207     {
       
   208       // Check the sum of supply values
       
   209       Supply sum = 0;
       
   210       for (NodeIt n(_graph); n != INVALID; ++n) sum += _supply[n];
       
   211       _valid_supply = sum == 0;
       
   212 
   208       // Remove non-zero lower bounds
   213       // Remove non-zero lower bounds
   209       _capacity = subMap(capacity, lower);
   214       for (EdgeIt e(_graph); e != INVALID; ++e) {
   210       Supply sum = 0;
   215         if (lower[e] != 0) {
   211       for (NodeIt n(_graph); n != INVALID; ++n) {
   216           _capacity[e] -= lower[e];
   212         Supply s = supply[n];
   217           _supply[_graph.source(e)] -= lower[e];
   213         for (InEdgeIt e(_graph, n); e != INVALID; ++e)
   218           _supply[_graph.target(e)] += lower[e];
   214           s += lower[e];
   219         }
   215         for (OutEdgeIt e(_graph, n); e != INVALID; ++e)
   220       }
   216           s -= lower[e];
       
   217         _supply[n] = s;
       
   218         sum += s;
       
   219       }
       
   220       _valid_supply = sum == 0;
       
   221     }
   221     }
   222 
   222 
   223     /// \brief General constructor (without lower bounds).
   223     /// \brief General constructor (without lower bounds).
   224     ///
   224     ///
   225     /// General constructor (without lower bounds).
   225     /// General constructor (without lower bounds).
   259                  const LowerMap &lower,
   259                  const LowerMap &lower,
   260                  const CapacityMap &capacity,
   260                  const CapacityMap &capacity,
   261                  const CostMap &cost,
   261                  const CostMap &cost,
   262                  Node s, Node t,
   262                  Node s, Node t,
   263                  Supply flow_value ) :
   263                  Supply flow_value ) :
   264       _graph(graph), _lower(&lower), _capacity(graph), _orig_cost(cost),
   264       _graph(graph), _lower(&lower), _capacity(capacity), _orig_cost(cost),
   265       _cost(graph), _supply(graph), _flow(NULL), _local_flow(false),
   265       _cost(graph), _supply(graph, 0), _flow(NULL), _local_flow(false),
   266       _potential(NULL), _local_potential(false), _res_cost(_cost),
   266       _potential(NULL), _local_potential(false), _res_cost(_cost),
   267       _res_graph(NULL), _red_cost(NULL), _excess(graph, 0)
   267       _res_graph(NULL), _red_cost(NULL), _excess(graph, 0)
   268     {
   268     {
   269       // Remove nonzero lower bounds
   269       // Remove non-zero lower bounds
   270       _capacity = subMap(capacity, lower);
   270       _supply[s] =  flow_value;
   271       for (NodeIt n(_graph); n != INVALID; ++n) {
   271       _supply[t] = -flow_value;
   272         Supply sum = 0;
   272       for (EdgeIt e(_graph); e != INVALID; ++e) {
   273         if (n == s) sum =  flow_value;
   273         if (lower[e] != 0) {
   274         if (n == t) sum = -flow_value;
   274           _capacity[e] -= lower[e];
   275         for (InEdgeIt e(_graph, n); e != INVALID; ++e)
   275           _supply[_graph.source(e)] -= lower[e];
   276           sum += lower[e];
   276           _supply[_graph.target(e)] += lower[e];
   277         for (OutEdgeIt e(_graph, n); e != INVALID; ++e)
   277         }
   278           sum -= lower[e];
       
   279         _supply[n] = sum;
       
   280       }
   278       }
   281       _valid_supply = true;
   279       _valid_supply = true;
   282     }
   280     }
   283 
   281 
   284     /// \brief Simple constructor (without lower bounds).
   282     /// \brief Simple constructor (without lower bounds).