lemon/matching.h
changeset 933 66156a3498ea
parent 651 3adf5e2d1e62
child 875 07ec2b52e53d
equal deleted inserted replaced
1:3c0fd91544ab 2:979645abf089
   803       _blossom_num = _node_num * 3 / 2;
   803       _blossom_num = _node_num * 3 / 2;
   804 
   804 
   805       if (!_matching) {
   805       if (!_matching) {
   806         _matching = new MatchingMap(_graph);
   806         _matching = new MatchingMap(_graph);
   807       }
   807       }
       
   808 
   808       if (!_node_potential) {
   809       if (!_node_potential) {
   809         _node_potential = new NodePotential(_graph);
   810         _node_potential = new NodePotential(_graph);
   810       }
   811       }
       
   812 
   811       if (!_blossom_set) {
   813       if (!_blossom_set) {
   812         _blossom_index = new IntNodeMap(_graph);
   814         _blossom_index = new IntNodeMap(_graph);
   813         _blossom_set = new BlossomSet(*_blossom_index);
   815         _blossom_set = new BlossomSet(*_blossom_index);
   814         _blossom_data = new RangeMap<BlossomData>(_blossom_num);
   816         _blossom_data = new RangeMap<BlossomData>(_blossom_num);
       
   817       } else if (_blossom_data->size() != _blossom_num) {
       
   818         delete _blossom_data;
       
   819         _blossom_data = new RangeMap<BlossomData>(_blossom_num);
   815       }
   820       }
   816 
   821 
   817       if (!_node_index) {
   822       if (!_node_index) {
   818         _node_index = new IntNodeMap(_graph);
   823         _node_index = new IntNodeMap(_graph);
   819         _node_heap_index = new IntArcMap(_graph);
   824         _node_heap_index = new IntArcMap(_graph);
   820         _node_data = new RangeMap<NodeData>(_node_num,
   825         _node_data = new RangeMap<NodeData>(_node_num,
   821                                               NodeData(*_node_heap_index));
   826                                             NodeData(*_node_heap_index));
       
   827       } else {
       
   828         delete _node_data;
       
   829         _node_data = new RangeMap<NodeData>(_node_num,
       
   830                                             NodeData(*_node_heap_index));
   822       }
   831       }
   823 
   832 
   824       if (!_tree_set) {
   833       if (!_tree_set) {
   825         _tree_set_index = new IntIntMap(_blossom_num);
   834         _tree_set_index = new IntIntMap(_blossom_num);
   826         _tree_set = new TreeSet(*_tree_set_index);
   835         _tree_set = new TreeSet(*_tree_set_index);
   827       }
   836       } else {
       
   837         _tree_set_index->resize(_blossom_num);
       
   838       }
       
   839 
   828       if (!_delta1) {
   840       if (!_delta1) {
   829         _delta1_index = new IntNodeMap(_graph);
   841         _delta1_index = new IntNodeMap(_graph);
   830         _delta1 = new BinHeap<Value, IntNodeMap>(*_delta1_index);
   842         _delta1 = new BinHeap<Value, IntNodeMap>(*_delta1_index);
   831       }
   843       }
       
   844 
   832       if (!_delta2) {
   845       if (!_delta2) {
   833         _delta2_index = new IntIntMap(_blossom_num);
   846         _delta2_index = new IntIntMap(_blossom_num);
   834         _delta2 = new BinHeap<Value, IntIntMap>(*_delta2_index);
   847         _delta2 = new BinHeap<Value, IntIntMap>(*_delta2_index);
   835       }
   848       } else {
       
   849         _delta2_index->resize(_blossom_num);
       
   850       }
       
   851 
   836       if (!_delta3) {
   852       if (!_delta3) {
   837         _delta3_index = new IntEdgeMap(_graph);
   853         _delta3_index = new IntEdgeMap(_graph);
   838         _delta3 = new BinHeap<Value, IntEdgeMap>(*_delta3_index);
   854         _delta3 = new BinHeap<Value, IntEdgeMap>(*_delta3_index);
   839       }
   855       }
       
   856 
   840       if (!_delta4) {
   857       if (!_delta4) {
   841         _delta4_index = new IntIntMap(_blossom_num);
   858         _delta4_index = new IntIntMap(_blossom_num);
   842         _delta4 = new BinHeap<Value, IntIntMap>(*_delta4_index);
   859         _delta4 = new BinHeap<Value, IntIntMap>(*_delta4_index);
       
   860       } else {
       
   861         _delta4_index->resize(_blossom_num);
   843       }
   862       }
   844     }
   863     }
   845 
   864 
   846     void destroyStructures() {
   865     void destroyStructures() {
   847       _node_num = countNodes(_graph);
   866       _node_num = countNodes(_graph);
  1683     ///
  1702     ///
  1684     /// This function initializes the algorithm.
  1703     /// This function initializes the algorithm.
  1685     void init() {
  1704     void init() {
  1686       createStructures();
  1705       createStructures();
  1687 
  1706 
       
  1707       _blossom_node_list.clear();
       
  1708       _blossom_potential.clear();
       
  1709 
  1688       for (ArcIt e(_graph); e != INVALID; ++e) {
  1710       for (ArcIt e(_graph); e != INVALID; ++e) {
  1689         (*_node_heap_index)[e] = BinHeap<Value, IntArcMap>::PRE_HEAP;
  1711         (*_node_heap_index)[e] = BinHeap<Value, IntArcMap>::PRE_HEAP;
  1690       }
  1712       }
  1691       for (NodeIt n(_graph); n != INVALID; ++n) {
  1713       for (NodeIt n(_graph); n != INVALID; ++n) {
  1692         (*_delta1_index)[n] = _delta1->PRE_HEAP;
  1714         (*_delta1_index)[n] = _delta1->PRE_HEAP;
  1696       }
  1718       }
  1697       for (int i = 0; i < _blossom_num; ++i) {
  1719       for (int i = 0; i < _blossom_num; ++i) {
  1698         (*_delta2_index)[i] = _delta2->PRE_HEAP;
  1720         (*_delta2_index)[i] = _delta2->PRE_HEAP;
  1699         (*_delta4_index)[i] = _delta4->PRE_HEAP;
  1721         (*_delta4_index)[i] = _delta4->PRE_HEAP;
  1700       }
  1722       }
       
  1723       
       
  1724       _delta1->clear();
       
  1725       _delta2->clear();
       
  1726       _delta3->clear();
       
  1727       _delta4->clear();
       
  1728       _blossom_set->clear();
       
  1729       _tree_set->clear();
  1701 
  1730 
  1702       int index = 0;
  1731       int index = 0;
  1703       for (NodeIt n(_graph); n != INVALID; ++n) {
  1732       for (NodeIt n(_graph); n != INVALID; ++n) {
  1704         Value max = 0;
  1733         Value max = 0;
  1705         for (OutArcIt e(_graph, n); e != INVALID; ++e) {
  1734         for (OutArcIt e(_graph, n); e != INVALID; ++e) {
  1707           if ((dualScale * _weight[e]) / 2 > max) {
  1736           if ((dualScale * _weight[e]) / 2 > max) {
  1708             max = (dualScale * _weight[e]) / 2;
  1737             max = (dualScale * _weight[e]) / 2;
  1709           }
  1738           }
  1710         }
  1739         }
  1711         (*_node_index)[n] = index;
  1740         (*_node_index)[n] = index;
       
  1741         (*_node_data)[index].heap_index.clear();
       
  1742         (*_node_data)[index].heap.clear();
  1712         (*_node_data)[index].pot = max;
  1743         (*_node_data)[index].pot = max;
  1713         _delta1->push(n, max);
  1744         _delta1->push(n, max);
  1714         int blossom =
  1745         int blossom =
  1715           _blossom_set->insert(n, std::numeric_limits<Value>::max());
  1746           _blossom_set->insert(n, std::numeric_limits<Value>::max());
  1716 
  1747 
  2196       _blossom_num = _node_num * 3 / 2;
  2227       _blossom_num = _node_num * 3 / 2;
  2197 
  2228 
  2198       if (!_matching) {
  2229       if (!_matching) {
  2199         _matching = new MatchingMap(_graph);
  2230         _matching = new MatchingMap(_graph);
  2200       }
  2231       }
       
  2232 
  2201       if (!_node_potential) {
  2233       if (!_node_potential) {
  2202         _node_potential = new NodePotential(_graph);
  2234         _node_potential = new NodePotential(_graph);
  2203       }
  2235       }
       
  2236 
  2204       if (!_blossom_set) {
  2237       if (!_blossom_set) {
  2205         _blossom_index = new IntNodeMap(_graph);
  2238         _blossom_index = new IntNodeMap(_graph);
  2206         _blossom_set = new BlossomSet(*_blossom_index);
  2239         _blossom_set = new BlossomSet(*_blossom_index);
       
  2240         _blossom_data = new RangeMap<BlossomData>(_blossom_num);
       
  2241       } else if (_blossom_data->size() != _blossom_num) {
       
  2242         delete _blossom_data;
  2207         _blossom_data = new RangeMap<BlossomData>(_blossom_num);
  2243         _blossom_data = new RangeMap<BlossomData>(_blossom_num);
  2208       }
  2244       }
  2209 
  2245 
  2210       if (!_node_index) {
  2246       if (!_node_index) {
  2211         _node_index = new IntNodeMap(_graph);
  2247         _node_index = new IntNodeMap(_graph);
  2212         _node_heap_index = new IntArcMap(_graph);
  2248         _node_heap_index = new IntArcMap(_graph);
  2213         _node_data = new RangeMap<NodeData>(_node_num,
  2249         _node_data = new RangeMap<NodeData>(_node_num,
  2214                                             NodeData(*_node_heap_index));
  2250                                             NodeData(*_node_heap_index));
       
  2251       } else if (_node_data->size() != _node_num) {
       
  2252         delete _node_data;
       
  2253         _node_data = new RangeMap<NodeData>(_node_num,
       
  2254                                             NodeData(*_node_heap_index));
  2215       }
  2255       }
  2216 
  2256 
  2217       if (!_tree_set) {
  2257       if (!_tree_set) {
  2218         _tree_set_index = new IntIntMap(_blossom_num);
  2258         _tree_set_index = new IntIntMap(_blossom_num);
  2219         _tree_set = new TreeSet(*_tree_set_index);
  2259         _tree_set = new TreeSet(*_tree_set_index);
  2220       }
  2260       } else {
       
  2261         _tree_set_index->resize(_blossom_num);
       
  2262       }
       
  2263 
  2221       if (!_delta2) {
  2264       if (!_delta2) {
  2222         _delta2_index = new IntIntMap(_blossom_num);
  2265         _delta2_index = new IntIntMap(_blossom_num);
  2223         _delta2 = new BinHeap<Value, IntIntMap>(*_delta2_index);
  2266         _delta2 = new BinHeap<Value, IntIntMap>(*_delta2_index);
  2224       }
  2267       } else {
       
  2268         _delta2_index->resize(_blossom_num);
       
  2269       }
       
  2270 
  2225       if (!_delta3) {
  2271       if (!_delta3) {
  2226         _delta3_index = new IntEdgeMap(_graph);
  2272         _delta3_index = new IntEdgeMap(_graph);
  2227         _delta3 = new BinHeap<Value, IntEdgeMap>(*_delta3_index);
  2273         _delta3 = new BinHeap<Value, IntEdgeMap>(*_delta3_index);
  2228       }
  2274       }
       
  2275 
  2229       if (!_delta4) {
  2276       if (!_delta4) {
  2230         _delta4_index = new IntIntMap(_blossom_num);
  2277         _delta4_index = new IntIntMap(_blossom_num);
  2231         _delta4 = new BinHeap<Value, IntIntMap>(*_delta4_index);
  2278         _delta4 = new BinHeap<Value, IntIntMap>(*_delta4_index);
       
  2279       } else {
       
  2280         _delta4_index->resize(_blossom_num);
  2232       }
  2281       }
  2233     }
  2282     }
  2234 
  2283 
  2235     void destroyStructures() {
  2284     void destroyStructures() {
  2236       _node_num = countNodes(_graph);
  2285       _node_num = countNodes(_graph);
  2924     ///
  2973     ///
  2925     /// This function initializes the algorithm.
  2974     /// This function initializes the algorithm.
  2926     void init() {
  2975     void init() {
  2927       createStructures();
  2976       createStructures();
  2928 
  2977 
       
  2978       _blossom_node_list.clear();
       
  2979       _blossom_potential.clear();
       
  2980 
  2929       for (ArcIt e(_graph); e != INVALID; ++e) {
  2981       for (ArcIt e(_graph); e != INVALID; ++e) {
  2930         (*_node_heap_index)[e] = BinHeap<Value, IntArcMap>::PRE_HEAP;
  2982         (*_node_heap_index)[e] = BinHeap<Value, IntArcMap>::PRE_HEAP;
  2931       }
  2983       }
  2932       for (EdgeIt e(_graph); e != INVALID; ++e) {
  2984       for (EdgeIt e(_graph); e != INVALID; ++e) {
  2933         (*_delta3_index)[e] = _delta3->PRE_HEAP;
  2985         (*_delta3_index)[e] = _delta3->PRE_HEAP;
  2934       }
  2986       }
  2935       for (int i = 0; i < _blossom_num; ++i) {
  2987       for (int i = 0; i < _blossom_num; ++i) {
  2936         (*_delta2_index)[i] = _delta2->PRE_HEAP;
  2988         (*_delta2_index)[i] = _delta2->PRE_HEAP;
  2937         (*_delta4_index)[i] = _delta4->PRE_HEAP;
  2989         (*_delta4_index)[i] = _delta4->PRE_HEAP;
  2938       }
  2990       }
       
  2991 
       
  2992       _delta2->clear();
       
  2993       _delta3->clear();
       
  2994       _delta4->clear();
       
  2995       _blossom_set->clear();
       
  2996       _tree_set->clear();
  2939 
  2997 
  2940       int index = 0;
  2998       int index = 0;
  2941       for (NodeIt n(_graph); n != INVALID; ++n) {
  2999       for (NodeIt n(_graph); n != INVALID; ++n) {
  2942         Value max = - std::numeric_limits<Value>::max();
  3000         Value max = - std::numeric_limits<Value>::max();
  2943         for (OutArcIt e(_graph, n); e != INVALID; ++e) {
  3001         for (OutArcIt e(_graph, n); e != INVALID; ++e) {
  2945           if ((dualScale * _weight[e]) / 2 > max) {
  3003           if ((dualScale * _weight[e]) / 2 > max) {
  2946             max = (dualScale * _weight[e]) / 2;
  3004             max = (dualScale * _weight[e]) / 2;
  2947           }
  3005           }
  2948         }
  3006         }
  2949         (*_node_index)[n] = index;
  3007         (*_node_index)[n] = index;
       
  3008         (*_node_data)[index].heap_index.clear();
       
  3009         (*_node_data)[index].heap.clear();
  2950         (*_node_data)[index].pot = max;
  3010         (*_node_data)[index].pot = max;
  2951         int blossom =
  3011         int blossom =
  2952           _blossom_set->insert(n, std::numeric_limits<Value>::max());
  3012           _blossom_set->insert(n, std::numeric_limits<Value>::max());
  2953 
  3013 
  2954         _tree_set->insert(blossom);
  3014         _tree_set->insert(blossom);