src/work/marci/max_bipartite_matching.h
changeset 576 d00c33d07114
parent 558 4cbfb435ec2b
child 613 b5b5c4ae5107
equal deleted inserted replaced
3:19be427b0e02 0:d8670f2dc7cc
     1 // -*- c++ -*-
     1 // -*- c++ -*-
     2 #include <iostream>
     2 #ifndef HUGO_MAX_BIPARTITE_MATCHING_H
     3 #include <fstream>
     3 #define HUGO_MAX_BIPARTITE_MATCHING_H
     4 #include <vector>
       
     5 
     4 
     6 #include <list_graph.h>
     5 //#include <for_each_macros.h>
     7 //#include <smart_graph.h>
       
     8 //#include <dimacs.h>
       
     9 #include <hugo/time_measure.h>
       
    10 #include <for_each_macros.h>
       
    11 #include <bfs_iterator.h>
       
    12 #include <bipartite_graph_wrapper.h>
     6 #include <bipartite_graph_wrapper.h>
    13 #include <hugo/maps.h>
     7 //#include <hugo/maps.h>
    14 #include <max_flow.h>
     8 #include <max_flow.h>
    15 #include <graph_gen.h>
       
    16 
     9 
    17 using namespace hugo;
    10 namespace hugo {
    18 
    11 
    19 // template <typename Graph, typename EdgeCap, typename NodeCap, 
    12   // template <typename Graph, typename EdgeCap, typename NodeCap, 
    20 // 	  typename EdgeFlow, typename NodeFlow>
    13   // 	  typename EdgeFlow, typename NodeFlow>
    21 // class MaxMatching : public MaxFlow<stGraphWrapper<Graph>, 
    14   // class MaxMatching : public MaxFlow<stGraphWrapper<Graph>, 
    22 // 				   stGraphWrapper<Graph>:: EdgeMapWrapper<EdgeCan, NodeCap>, stGraphWrapper<Graph>::EdgeMapWrapper<EdgeFlow, NodeFlow> > {
    15   // 				   stGraphWrapper<Graph>:: EdgeMapWrapper<EdgeCan, NodeCap>, stGraphWrapper<Graph>::EdgeMapWrapper<EdgeFlow, NodeFlow> > {
    23 //   typedef MaxFlow<stGraphWrapper<Graph>, 
    16   //   typedef MaxFlow<stGraphWrapper<Graph>, 
    24 // 		  stGraphWrapper<Graph>::EdgeMapWrapper<EdgeCan, NodeCap>, 
    17   // 		  stGraphWrapper<Graph>::EdgeMapWrapper<EdgeCan, NodeCap>, 
    25 // 		  stGraphWrapper<Graph>::EdgeMapWrapper<EdgeFlow, NodeFlow> >
    18   // 		  stGraphWrapper<Graph>::EdgeMapWrapper<EdgeFlow, NodeFlow> >
    26 //   Parent;
    19   //   Parent;
    27 // protected:
    20   // protected:
    28 //   stGraphWrapper<Graph> gw;
    21   //   stGraphWrapper<Graph> gw;
    29 //   stGraphWrapper<Graph>::EdgeMapWrapper<EdgeCap, NodeCap> cap;
    22   //   stGraphWrapper<Graph>::EdgeMapWrapper<EdgeCap, NodeCap> cap;
    30 //   stGraphWrapper<Graph>::EdgeMapWrapper<EdgeFlow, NodeFlow> flow;
    23   //   stGraphWrapper<Graph>::EdgeMapWrapper<EdgeFlow, NodeFlow> flow;
    31 //   //graph* g;
    24   //   //graph* g;
    32 //   //EdgeCap* edge_cap;
    25   //   //EdgeCap* edge_cap;
    33 //   //EdgeFlow* edge_flow;
    26   //   //EdgeFlow* edge_flow;
    34 // public:
    27   // public:
    35 //   MaxMatching(Graph& _g, EdgeCap& _edge_cap, NodeCap& _node_cap, 
    28   //   MaxMatching(Graph& _g, EdgeCap& _edge_cap, NodeCap& _node_cap, 
    36 // 	      EdgeFlow& _edge_flow, NodeFlow& _node_flow) : 
    29   // 	      EdgeFlow& _edge_flow, NodeFlow& _node_flow) : 
    37 //     MaxFlow(), gw(_g), 
    30   //     MaxFlow(), gw(_g), 
    38 //     cap(_edge_cap, _node_cap), flow(_edge_flow, _node_flow) {
    31   //     cap(_edge_cap, _node_cap), flow(_edge_flow, _node_flow) {
    39 //     Parent::set(gw, cap, flow);
    32   //     Parent::set(gw, cap, flow);
    40 //   }
    33   //   }
    41 // };
    34   // };
    42 
    35 
    43 template <typename Graph, typename EdgeCap, typename NodeCap, 
    36   /// A bipartite matching class.
    44 	  typename EdgeFlow, typename NodeFlow>
    37   /// This class reduces the matching problem to a flow problem and 
    45 class MaxMatching {
    38   /// a preflow is used on a wrapper. Such a generic approach means that 
    46 protected:
    39   /// matchings, b-matchings an capacitated b-matchings can be handled in 
    47 //   EdgeCap* edge_cap;
    40   /// a similar way. Due to the efficiency of the preflow algorithm, an 
    48 //   NodeCap* node_cap;
    41   /// efficient matching framework is obtained.
    49 //   EdgeFlow* edge_flow;
    42   template <typename Graph, typename EdgeCap, typename NodeCap, 
    50 //   NodeFlow* node_flow;
    43 	    typename EdgeFlow, typename NodeFlow>
    51   typedef  stGraphWrapper<Graph> stGW;
    44   class MaxMatching {
    52   stGW stgw;
    45   protected:
    53   typedef typename stGW::template EdgeMapWrapper<EdgeCap, NodeCap> CapMap; 
    46     //   EdgeCap* edge_cap;
    54   CapMap cap;
    47     //   NodeCap* node_cap;
    55   NodeFlow* node_flow;
    48     //   EdgeFlow* edge_flow;
    56   typedef typename stGW::template EdgeMapWrapper<EdgeFlow, NodeFlow> FlowMap;
    49     //   NodeFlow* node_flow;
    57   FlowMap flow;
    50     typedef  stGraphWrapper<Graph> stGW;
    58   MaxFlow<stGW, int, CapMap, FlowMap> mf;
    51     stGW stgw;
    59   //graph* g;
    52     typedef typename stGW::template EdgeMapWrapper<EdgeCap, NodeCap> CapMap; 
    60   //EdgeCap* edge_cap;
    53     CapMap cap;
    61   //EdgeFlow* edge_flow;
    54     NodeFlow* node_flow;
    62 public:
    55     typedef typename stGW::template EdgeMapWrapper<EdgeFlow, NodeFlow> FlowMap;
    63   MaxMatching(Graph& _g, EdgeCap& _edge_cap, NodeCap& _node_cap, 
    56     FlowMap flow;
    64 	      EdgeFlow& _edge_flow, NodeFlow& _node_flow) : 
    57     MaxFlow<stGW, int, CapMap, FlowMap> mf;
    65     stgw(_g), 
    58     //graph* g;
    66     cap(_edge_cap, _node_cap), 
    59     //EdgeCap* edge_cap;
    67     node_flow(0), 
    60     //EdgeFlow* edge_flow;
    68     flow(_edge_flow, _node_flow), 
    61   public:
    69     mf(stgw, stgw.S_NODE, stgw.T_NODE, cap, flow) { }
    62     /// For capacitated b-matchings, edge-caoacities and node-capacities 
    70   MaxMatching(Graph& _g, EdgeCap& _edge_cap, NodeCap& _node_cap, 
    63     /// have to be given. After running \c run the matching is is given 
    71 	      EdgeFlow& _edge_flow/*, NodeFlow& _node_flow*/) : 
    64     /// back in the edge-map \c _edge_flow and \c _node_map can be used 
    72     stgw(_g), 
    65     /// to obtain saturation information about nodes.
    73     cap(_edge_cap, _node_cap), 
    66     ///\bug Note that the values in _edge_flow and _node_flow have 
    74     node_flow(new NodeFlow(_g)), 
    67     /// to form a flow.
    75     flow(_edge_flow, *node_flow), 
    68     MaxMatching(Graph& _g, EdgeCap& _edge_cap, NodeCap& _node_cap, 
    76     mf(stgw, stgw.S_NODE, stgw.T_NODE, cap, flow) { }
    69 		EdgeFlow& _edge_flow, NodeFlow& _node_flow) : 
    77   ~MaxMatching() { if (node_flow) delete node_flow; }
    70       stgw(_g), 
    78   void run() { mf.run(); } 
    71       cap(_edge_cap, _node_cap), 
    79   int matchingValue() { return mf.flowValue(); }
    72       node_flow(0), 
    80 };
    73       flow(_edge_flow, _node_flow), 
       
    74       mf(stgw, stgw.S_NODE, stgw.T_NODE, cap, flow) { }
       
    75     /// If the saturation information of nodes is not needed that the use of 
       
    76     /// this constructor is more comfortable.
       
    77     ///\bug Note that the values in _edge_flow and _node_flow have 
       
    78     /// to form a flow.
       
    79     MaxMatching(Graph& _g, EdgeCap& _edge_cap, NodeCap& _node_cap, 
       
    80 		EdgeFlow& _edge_flow/*, NodeFlow& _node_flow*/) : 
       
    81       stgw(_g), 
       
    82       cap(_edge_cap, _node_cap), 
       
    83       node_flow(new NodeFlow(_g)), 
       
    84       flow(_edge_flow, *node_flow), 
       
    85       mf(stgw, stgw.S_NODE, stgw.T_NODE, cap, flow) { }
       
    86     /// The class have a nontrivial destructor.
       
    87     ~MaxMatching() { if (node_flow) delete node_flow; }
       
    88     /// run computes the max matching.
       
    89     void run() { mf.run(); } 
       
    90     /// The matching value after running \c run.
       
    91     int matchingValue() { return mf.flowValue(); }
       
    92   };
    81 
    93 
       
    94 } //namespace hugo
    82 
    95 
    83 int main() {
    96 #endif //HUGO_MAX_BIPARTITE_MATCHING_H
    84   //typedef UndirListGraph Graph; 
       
    85   typedef BipartiteGraph<ListGraph> Graph;
       
    86   
       
    87   typedef Graph::Node Node;
       
    88   typedef Graph::NodeIt NodeIt;
       
    89   typedef Graph::Edge Edge;
       
    90   typedef Graph::EdgeIt EdgeIt;
       
    91   typedef Graph::OutEdgeIt OutEdgeIt;
       
    92 
       
    93   Graph g;
       
    94 
       
    95   int a;
       
    96   std::cout << "number of nodes in the first color class=";
       
    97   std::cin >> a; 
       
    98   int b;
       
    99   std::cout << "number of nodes in the second color class=";
       
   100   std::cin >> b; 
       
   101   int m;
       
   102   std::cout << "number of edges=";
       
   103   std::cin >> m; 
       
   104   
       
   105   std::cout << "Generatig a random bipartite graph..." << std::endl;
       
   106   random_init();
       
   107   randomBipartiteGraph(g, a, b, m);
       
   108 
       
   109 //   std::cout << "Edges of the bipartite graph:" << std::endl;
       
   110 //   FOR_EACH_LOC(EdgeIt, e, g) std::cout << e << " ";
       
   111 //   std::cout << std::endl;
       
   112 
       
   113 //   std::cout << "Nodes:" << std::endl;
       
   114 //   FOR_EACH_LOC(Graph::NodeIt, v, g) std::cout << v << " ";
       
   115 //   std::cout << std::endl;
       
   116 //   std::cout << "Nodes in T:" << std::endl;
       
   117 //   FOR_EACH_INC_LOC(Graph::ClassNodeIt, v, g, Graph::T_CLASS) std::cout << v << " ";
       
   118 //   std::cout << std::endl;
       
   119 //   std::cout << "Nodes in S:" << std::endl;
       
   120 //   FOR_EACH_INC_LOC(Graph::ClassNodeIt, v, g, Graph::S_CLASS) std::cout << v << " ";
       
   121 //   std::cout << std::endl;
       
   122 
       
   123 //   std::cout << "Erasing the first node..." << std::endl;
       
   124 //   NodeIt n;
       
   125 //   g.first(n);
       
   126 //   g.erase(n);
       
   127 //   std::cout << "Nodes of the bipartite graph:" << std::endl;
       
   128 //   FOR_EACH_GLOB(n, g) std::cout << n << " ";
       
   129 //   std::cout << std::endl;
       
   130 
       
   131 //   std::cout << "Nodes in T:" << std::endl;
       
   132 //   FOR_EACH_INC_LOC(Graph::ClassNodeIt, v, g, Graph::T_CLASS) std::cout << v << " ";
       
   133 //   std::cout << std::endl;
       
   134 //   std::cout << "Nodes in S:" << std::endl;
       
   135 //   FOR_EACH_INC_LOC(Graph::ClassNodeIt, v, g, Graph::S_CLASS) std::cout << v << " ";
       
   136 //   std::cout << std::endl;
       
   137 
       
   138   typedef stGraphWrapper<Graph> stGW;
       
   139   stGW stgw(g);
       
   140   ConstMap<stGW::Edge, int> const1map(1);
       
   141 
       
   142   Timer ts;
       
   143   ts.reset();
       
   144   stGW::EdgeMap<int> flow(stgw);
       
   145   MaxFlow<stGW, int, ConstMap<stGW::Edge, int>, stGW::EdgeMap<int> > 
       
   146     max_flow_test(stgw, stgw.S_NODE, stgw.T_NODE, const1map, flow);
       
   147   max_flow_test.run();
       
   148 //  while (max_flow_test.augmentOnShortestPath()) { }
       
   149 //  typedef ListGraph MutableGraph;
       
   150 //  while (max_flow_test.augmentOnBlockingFlow1<MutableGraph>()) {
       
   151 //  while (max_flow_test.augmentOnBlockingFlow2()) {
       
   152 //   std::cout << max_flow_test.flowValue() << std::endl;
       
   153 //  }
       
   154   std::cout << "max flow value: " << max_flow_test.flowValue() << std::endl;
       
   155   std::cout << "elapsed time: " << ts << std::endl;
       
   156 //   FOR_EACH_LOC(stGW::EdgeIt, e, stgw) { 
       
   157 //     if (flow[e]) std::cout << e << std::endl; 
       
   158 //   }
       
   159   std::cout << std::endl;
       
   160 
       
   161   typedef ConstMap<Graph::Edge, int> EdgeCap; 
       
   162   EdgeCap ge1(1);
       
   163   typedef ConstMap<Graph::Node, int> NodeCap;
       
   164   NodeCap gn1(1);
       
   165   typedef Graph::EdgeMap<int> EdgeFlow;
       
   166   EdgeFlow gef(g); //0
       
   167   typedef Graph::NodeMap<int> NodeFlow; 
       
   168   NodeFlow gnf(g); //0 
       
   169 
       
   170   typedef stGraphWrapper<Graph>::EdgeMapWrapper<EdgeCap, NodeCap> CapMap; 
       
   171   typedef stGraphWrapper<Graph>::EdgeMapWrapper<EdgeFlow, NodeFlow> FlowMap; 
       
   172   CapMap cm(ge1, gn1);
       
   173   FlowMap fm(gef, gnf);
       
   174 
       
   175   //Timer ts;
       
   176   ts.reset();
       
   177   //stGW::EdgeMap<int> flow(stgw);
       
   178   MaxFlow<stGW, int, CapMap, FlowMap> 
       
   179     max_flow_test1(stgw, stgw.S_NODE, stgw.T_NODE, cm, fm);
       
   180   max_flow_test1.run();
       
   181 //  while (max_flow_test.augmentOnShortestPath()) { }
       
   182 //  typedef ListGraph MutableGraph;
       
   183 //  while (max_flow_test.augmentOnBlockingFlow1<MutableGraph>()) {
       
   184 //  while (max_flow_test.augmentOnBlockingFlow2()) {
       
   185 //   std::cout << max_flow_test.flowValue() << std::endl;
       
   186 //  }
       
   187   std::cout << "max flow value: " << max_flow_test1.flowValue() << std::endl;
       
   188   std::cout << "elapsed time: " << ts << std::endl;
       
   189 //   FOR_EACH_LOC(Graph::EdgeIt, e, g) { 
       
   190 //     if (gef[e]) std::cout << e << std::endl; 
       
   191 //   }
       
   192   std::cout << std::endl;
       
   193 
       
   194   ts.reset();
       
   195   FOR_EACH_LOC(Graph::EdgeIt, e, g) gef.set(e, 0); 
       
   196   FOR_EACH_LOC(Graph::NodeIt, n, g) gnf.set(n, 0); 
       
   197   MaxMatching<Graph, ConstMap<Graph::Edge, int>, ConstMap<Graph::Node, int>, 
       
   198     Graph::EdgeMap<int>, Graph::NodeMap<int> > 
       
   199     matching_test(g, ge1, gn1, gef, gnf);
       
   200   matching_test.run();
       
   201 
       
   202   std::cout << "max flow value: " << matching_test.matchingValue() << std::endl;
       
   203   std::cout << "elapsed time: " << ts << std::endl;
       
   204 //   FOR_EACH_LOC(Graph::EdgeIt, e, g) { 
       
   205 //     if (gef[e]) std::cout << e << std::endl; 
       
   206 //   }
       
   207   std::cout << std::endl;
       
   208 
       
   209   ts.reset();
       
   210   FOR_EACH_LOC(Graph::EdgeIt, e, g) gef.set(e, 0); 
       
   211   //FOR_EACH_LOC(Graph::NodeIt, n, g) gnf.set(n, 0); 
       
   212   MaxMatching<Graph, ConstMap<Graph::Edge, int>, ConstMap<Graph::Node, int>, 
       
   213     Graph::EdgeMap<int>, Graph::NodeMap<int> > 
       
   214     matching_test_1(g, ge1, gn1, gef/*, gnf*/);
       
   215   matching_test_1.run();
       
   216 
       
   217   std::cout << "max flow value: " << matching_test_1.matchingValue() << std::endl;
       
   218   std::cout << "elapsed time: " << ts << std::endl;
       
   219 //   FOR_EACH_LOC(Graph::EdgeIt, e, g) { 
       
   220 //     if (gef[e]) std::cout << e << std::endl; 
       
   221 //   }
       
   222   std::cout << std::endl;
       
   223 
       
   224   return 0;
       
   225 }