lemon/cycle_canceling.h
changeset 1047 f7247b5c04bf
parent 1003 16f55008c863
child 1049 7bf489cf624e
child 1070 ee9bac10f58e
equal deleted inserted replaced
12:a716379ddfea 13:8bd804b49879
    33 #include <lemon/static_graph.h>
    33 #include <lemon/static_graph.h>
    34 #include <lemon/adaptors.h>
    34 #include <lemon/adaptors.h>
    35 #include <lemon/circulation.h>
    35 #include <lemon/circulation.h>
    36 #include <lemon/bellman_ford.h>
    36 #include <lemon/bellman_ford.h>
    37 #include <lemon/howard_mmc.h>
    37 #include <lemon/howard_mmc.h>
       
    38 #include <lemon/hartmann_orlin_mmc.h>
    38 
    39 
    39 namespace lemon {
    40 namespace lemon {
    40 
    41 
    41   /// \addtogroup min_cost_flow_algs
    42   /// \addtogroup min_cost_flow_algs
    42   /// @{
    43   /// @{
   925       }
   926       }
   926     }
   927     }
   927 
   928 
   928     // Execute the "Minimum Mean Cycle Canceling" method
   929     // Execute the "Minimum Mean Cycle Canceling" method
   929     void startMinMeanCycleCanceling() {
   930     void startMinMeanCycleCanceling() {
   930       typedef SimplePath<StaticDigraph> SPath;
   931       typedef Path<StaticDigraph> SPath;
   931       typedef typename SPath::ArcIt SPathArcIt;
   932       typedef typename SPath::ArcIt SPathArcIt;
   932       typedef typename HowardMmc<StaticDigraph, CostArcMap>
   933       typedef typename HowardMmc<StaticDigraph, CostArcMap>
   933         ::template SetPath<SPath>::Create MMC;
   934         ::template SetPath<SPath>::Create HwMmc;
       
   935       typedef typename HartmannOrlinMmc<StaticDigraph, CostArcMap>
       
   936         ::template SetPath<SPath>::Create HoMmc;
       
   937 
       
   938       const double HW_ITER_LIMIT_FACTOR = 1.0;
       
   939       const int HW_ITER_LIMIT_MIN_VALUE = 5;
       
   940 
       
   941       const int hw_iter_limit =
       
   942           std::max(static_cast<int>(HW_ITER_LIMIT_FACTOR * _node_num),
       
   943                    HW_ITER_LIMIT_MIN_VALUE);
   934 
   944 
   935       SPath cycle;
   945       SPath cycle;
   936       MMC mmc(_sgr, _cost_map);
   946       HwMmc hw_mmc(_sgr, _cost_map);
   937       mmc.cycle(cycle);
   947       hw_mmc.cycle(cycle);
   938       buildResidualNetwork();
   948       buildResidualNetwork();
   939       while (mmc.findCycleMean() && mmc.cycleCost() < 0) {
   949       while (true) {
   940         // Find the cycle
   950         
   941         mmc.findCycle();
   951         typename HwMmc::TerminationCause hw_tc =
   942 
   952             hw_mmc.findCycleMean(hw_iter_limit);
       
   953         if (hw_tc == HwMmc::ITERATION_LIMIT) {
       
   954           // Howard's algorithm reached the iteration limit, start a
       
   955           // strongly polynomial algorithm instead
       
   956           HoMmc ho_mmc(_sgr, _cost_map);
       
   957           ho_mmc.cycle(cycle);
       
   958           // Find a minimum mean cycle (Hartmann-Orlin algorithm)
       
   959           if (!(ho_mmc.findCycleMean() && ho_mmc.cycleCost() < 0)) break;
       
   960           ho_mmc.findCycle();
       
   961         } else {
       
   962           // Find a minimum mean cycle (Howard algorithm)
       
   963           if (!(hw_tc == HwMmc::OPTIMAL && hw_mmc.cycleCost() < 0)) break;
       
   964           hw_mmc.findCycle();
       
   965         }
       
   966         
   943         // Compute delta value
   967         // Compute delta value
   944         Value delta = INF;
   968         Value delta = INF;
   945         for (SPathArcIt a(cycle); a != INVALID; ++a) {
   969         for (SPathArcIt a(cycle); a != INVALID; ++a) {
   946           Value d = _res_cap[_id_vec[_sgr.id(a)]];
   970           Value d = _res_cap[_id_vec[_sgr.id(a)]];
   947           if (d < delta) delta = d;
   971           if (d < delta) delta = d;
   962     // Execute the "Cancel-and-Tighten" method
   986     // Execute the "Cancel-and-Tighten" method
   963     void startCancelAndTighten() {
   987     void startCancelAndTighten() {
   964       // Constants for the min mean cycle computations
   988       // Constants for the min mean cycle computations
   965       const double LIMIT_FACTOR = 1.0;
   989       const double LIMIT_FACTOR = 1.0;
   966       const int MIN_LIMIT = 5;
   990       const int MIN_LIMIT = 5;
       
   991       const double HW_ITER_LIMIT_FACTOR = 1.0;
       
   992       const int HW_ITER_LIMIT_MIN_VALUE = 5;
       
   993 
       
   994       const int hw_iter_limit =
       
   995           std::max(static_cast<int>(HW_ITER_LIMIT_FACTOR * _node_num),
       
   996                    HW_ITER_LIMIT_MIN_VALUE);
   967 
   997 
   968       // Contruct auxiliary data vectors
   998       // Contruct auxiliary data vectors
   969       DoubleVector pi(_res_node_num, 0.0);
   999       DoubleVector pi(_res_node_num, 0.0);
   970       IntVector level(_res_node_num);
  1000       IntVector level(_res_node_num);
   971       BoolVector reached(_res_node_num);
  1001       BoolVector reached(_res_node_num);
  1135               curr = _cost[a] + pu - pi[_target[a]];
  1165               curr = _cost[a] + pu - pi[_target[a]];
  1136               if (-curr > epsilon) epsilon = -curr;
  1166               if (-curr > epsilon) epsilon = -curr;
  1137             }
  1167             }
  1138           }
  1168           }
  1139         } else {
  1169         } else {
  1140           typedef HowardMmc<StaticDigraph, CostArcMap> MMC;
  1170           typedef HowardMmc<StaticDigraph, CostArcMap> HwMmc;
       
  1171           typedef HartmannOrlinMmc<StaticDigraph, CostArcMap> HoMmc;
  1141           typedef typename BellmanFord<StaticDigraph, CostArcMap>
  1172           typedef typename BellmanFord<StaticDigraph, CostArcMap>
  1142             ::template SetDistMap<CostNodeMap>::Create BF;
  1173             ::template SetDistMap<CostNodeMap>::Create BF;
  1143 
  1174 
  1144           // Set epsilon to the minimum cycle mean
  1175           // Set epsilon to the minimum cycle mean
       
  1176           Cost cycle_cost = 0;
       
  1177           int cycle_size = 1;
  1145           buildResidualNetwork();
  1178           buildResidualNetwork();
  1146           MMC mmc(_sgr, _cost_map);
  1179           HwMmc hw_mmc(_sgr, _cost_map);
  1147           mmc.findCycleMean();
  1180           if (hw_mmc.findCycleMean(hw_iter_limit) == HwMmc::ITERATION_LIMIT) {
  1148           epsilon = -mmc.cycleMean();
  1181             // Howard's algorithm reached the iteration limit, start a
  1149           Cost cycle_cost = mmc.cycleCost();
  1182             // strongly polynomial algorithm instead
  1150           int cycle_size = mmc.cycleSize();
  1183             HoMmc ho_mmc(_sgr, _cost_map);
       
  1184             ho_mmc.findCycleMean();
       
  1185             epsilon = -ho_mmc.cycleMean();
       
  1186             cycle_cost = ho_mmc.cycleCost();
       
  1187             cycle_size = ho_mmc.cycleSize();
       
  1188           } else {
       
  1189             // Set epsilon
       
  1190             epsilon = -hw_mmc.cycleMean();
       
  1191             cycle_cost = hw_mmc.cycleCost();
       
  1192             cycle_size = hw_mmc.cycleSize();
       
  1193           }
  1151 
  1194 
  1152           // Compute feasible potentials for the current epsilon
  1195           // Compute feasible potentials for the current epsilon
  1153           for (int i = 0; i != int(_cost_vec.size()); ++i) {
  1196           for (int i = 0; i != int(_cost_vec.size()); ++i) {
  1154             _cost_vec[i] = cycle_size * _cost_vec[i] - cycle_cost;
  1197             _cost_vec[i] = cycle_size * _cost_vec[i] - cycle_cost;
  1155           }
  1198           }