lemon/capacity_scaling.h
changeset 1113 f747a0ddbbf6
parent 1092 dceba191c00d
parent 1103 c0c2f5c87aa6
child 1155 9fd86ec2cb81
equal deleted inserted replaced
27:49e23fc3da9a 30:4a246b303778
   161     int _arc_num;
   161     int _arc_num;
   162     int _res_arc_num;
   162     int _res_arc_num;
   163     int _root;
   163     int _root;
   164 
   164 
   165     // Parameters of the problem
   165     // Parameters of the problem
   166     bool _have_lower;
   166     bool _has_lower;
   167     Value _sum_supply;
   167     Value _sum_supply;
   168 
   168 
   169     // Data structures for storing the digraph
   169     // Data structures for storing the digraph
   170     IntNodeMap _node_id;
   170     IntNodeMap _node_id;
   171     IntArcMap _arc_idf;
   171     IntArcMap _arc_idf;
   354     /// of the algorithm.
   354     /// of the algorithm.
   355     ///
   355     ///
   356     /// \return <tt>(*this)</tt>
   356     /// \return <tt>(*this)</tt>
   357     template <typename LowerMap>
   357     template <typename LowerMap>
   358     CapacityScaling& lowerMap(const LowerMap& map) {
   358     CapacityScaling& lowerMap(const LowerMap& map) {
   359       _have_lower = true;
   359       _has_lower = true;
   360       for (ArcIt a(_graph); a != INVALID; ++a) {
   360       for (ArcIt a(_graph); a != INVALID; ++a) {
   361         _lower[_arc_idf[a]] = map[a];
   361         _lower[_arc_idf[a]] = map[a];
   362         _lower[_arc_idb[a]] = map[a];
       
   363       }
   362       }
   364       return *this;
   363       return *this;
   365     }
   364     }
   366 
   365 
   367     /// \brief Set the upper bounds (capacities) on the arcs.
   366     /// \brief Set the upper bounds (capacities) on the arcs.
   541       for (int j = 0; j != _res_arc_num; ++j) {
   540       for (int j = 0; j != _res_arc_num; ++j) {
   542         _lower[j] = 0;
   541         _lower[j] = 0;
   543         _upper[j] = INF;
   542         _upper[j] = INF;
   544         _cost[j] = _forward[j] ? 1 : -1;
   543         _cost[j] = _forward[j] ? 1 : -1;
   545       }
   544       }
   546       _have_lower = false;
   545       _has_lower = false;
   547       return *this;
   546       return *this;
   548     }
   547     }
   549 
   548 
   550     /// \brief Reset the internal data structures and all the parameters
   549     /// \brief Reset the internal data structures and all the parameters
   551     /// that have been given before.
   550     /// that have been given before.
   752       }
   751       }
   753 
   752 
   754       // Remove non-zero lower bounds
   753       // Remove non-zero lower bounds
   755       const Value MAX = std::numeric_limits<Value>::max();
   754       const Value MAX = std::numeric_limits<Value>::max();
   756       int last_out;
   755       int last_out;
   757       if (_have_lower) {
   756       if (_has_lower) {
   758         for (int i = 0; i != _root; ++i) {
   757         for (int i = 0; i != _root; ++i) {
   759           last_out = _first_out[i+1];
   758           last_out = _first_out[i+1];
   760           for (int j = _first_out[i]; j != last_out; ++j) {
   759           for (int j = _first_out[i]; j != last_out; ++j) {
   761             if (_forward[j]) {
   760             if (_forward[j]) {
   762               Value c = _lower[j];
   761               Value c = _lower[j];
   837       }
   836       }
   838 
   837 
   839       return OPTIMAL;
   838       return OPTIMAL;
   840     }
   839     }
   841 
   840 
   842     // Check if the upper bound is greater or equal to the lower bound
   841     // Check if the upper bound is greater than or equal to the lower bound
   843     // on each arc.
   842     // on each forward arc.
   844     bool checkBoundMaps() {
   843     bool checkBoundMaps() {
   845       for (int j = 0; j != _res_arc_num; ++j) {
   844       for (int j = 0; j != _res_arc_num; ++j) {
   846         if (_upper[j] < _lower[j]) return false;
   845         if (_forward[j] && _upper[j] < _lower[j]) return false;
   847       }
   846       }
   848       return true;
   847       return true;
   849     }
   848     }
   850 
   849 
   851     ProblemType start() {
   850     ProblemType start() {
   855         pt = startWithScaling();
   854         pt = startWithScaling();
   856       else
   855       else
   857         pt = startWithoutScaling();
   856         pt = startWithoutScaling();
   858 
   857 
   859       // Handle non-zero lower bounds
   858       // Handle non-zero lower bounds
   860       if (_have_lower) {
   859       if (_has_lower) {
   861         int limit = _first_out[_root];
   860         int limit = _first_out[_root];
   862         for (int j = 0; j != limit; ++j) {
   861         for (int j = 0; j != limit; ++j) {
   863           if (!_forward[j]) _res_cap[j] += _lower[j];
   862           if (_forward[j]) _res_cap[_reverse[j]] += _lower[j];
   864         }
   863         }
   865       }
   864       }
   866 
   865 
   867       // Shift potentials if necessary
   866       // Shift potentials if necessary
   868       Cost pr = _pi[_root];
   867       Cost pr = _pi[_root];