test/max_matching_test.cc
author alpar
Thu, 26 Oct 2006 13:35:35 +0000
changeset 2262 b9a7f4115abe
parent 2115 4cd528a30ec1
child 2386 81b47fc5c444
permissions -rw-r--r--
concept -> concepts cont'd
     1 /* -*- C++ -*-
     2  *
     3  * This file is a part of LEMON, a generic C++ optimization library
     4  *
     5  * Copyright (C) 2003-2006
     6  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
     7  * (Egervary Research Group on Combinatorial Optimization, EGRES).
     8  *
     9  * Permission to use, modify and distribute this software is granted
    10  * provided that this copyright notice appears in all copies. For
    11  * precise terms see the accompanying LICENSE file.
    12  *
    13  * This software is provided "AS IS" with no warranty of any kind,
    14  * express or implied, and with no claim as to its suitability for any
    15  * purpose.
    16  *
    17  */
    18 
    19 #include <iostream>
    20 #include <vector>
    21 #include <queue>
    22 #include <cmath>
    23 #include <cstdlib>
    24 
    25 #include "test_tools.h"
    26 #include <lemon/list_graph.h>
    27 #include <lemon/max_matching.h>
    28 
    29 using namespace std;
    30 using namespace lemon;
    31 
    32 int main() {
    33 
    34   typedef ListUGraph Graph;
    35 
    36   typedef Graph::Edge Edge;
    37   typedef Graph::UEdgeIt UEdgeIt;
    38   typedef Graph::IncEdgeIt IncEdgeIt;
    39   typedef Graph::NodeIt NodeIt;
    40   typedef Graph::Node Node;
    41    
    42   Graph g;
    43   g.clear();
    44 
    45   std::vector<Graph::Node> nodes;
    46   for (int i=0; i<13; ++i)
    47       nodes.push_back(g.addNode());
    48 
    49   g.addEdge(nodes[0], nodes[0]);
    50   g.addEdge(nodes[6], nodes[10]);
    51   g.addEdge(nodes[5], nodes[10]);
    52   g.addEdge(nodes[4], nodes[10]);
    53   g.addEdge(nodes[3], nodes[11]);  
    54   g.addEdge(nodes[1], nodes[6]);
    55   g.addEdge(nodes[4], nodes[7]);  
    56   g.addEdge(nodes[1], nodes[8]);
    57   g.addEdge(nodes[0], nodes[8]);
    58   g.addEdge(nodes[3], nodes[12]);
    59   g.addEdge(nodes[6], nodes[9]);
    60   g.addEdge(nodes[9], nodes[11]);
    61   g.addEdge(nodes[2], nodes[10]);
    62   g.addEdge(nodes[10], nodes[8]);
    63   g.addEdge(nodes[5], nodes[8]);
    64   g.addEdge(nodes[6], nodes[3]);
    65   g.addEdge(nodes[0], nodes[5]);
    66   g.addEdge(nodes[6], nodes[12]);
    67   
    68   MaxMatching<Graph> max_matching(g);
    69   max_matching.runEdmonds(0);
    70   
    71   int s=0;
    72   Graph::NodeMap<Node> mate(g,INVALID);
    73   max_matching.writeNMapNode(mate);
    74   for(NodeIt v(g); v!=INVALID; ++v) {
    75     if ( mate[v]!=INVALID ) ++s;
    76   }
    77   int size=(int)s/2;  //size will be used as the size of a maxmatching
    78 
    79   for(NodeIt v(g); v!=INVALID; ++v) {
    80     max_matching.mate(v);
    81   }
    82 
    83   check ( size == max_matching.size(), "mate() returns a different size matching than max_matching.size()" );
    84 
    85   Graph::NodeMap<MaxMatching<Graph>::pos_enum> pos0(g);
    86   max_matching.writePos(pos0);
    87   
    88   max_matching.resetMatching();
    89   max_matching.runEdmonds(1);
    90   s=0;
    91   max_matching.writeNMapNode(mate);
    92   for(NodeIt v(g); v!=INVALID; ++v) {
    93     if ( mate[v]!=INVALID ) ++s;
    94   }
    95   check ( (int)s/2 == size, "The size does not equal!" );
    96 
    97   Graph::NodeMap<MaxMatching<Graph>::pos_enum> pos1(g);
    98   max_matching.writePos(pos1);
    99 
   100   max_matching.run();
   101   s=0;
   102   max_matching.writeNMapNode(mate);
   103   for(NodeIt v(g); v!=INVALID; ++v) {
   104     if ( mate[v]!=INVALID ) ++s;
   105   }
   106   check ( (int)s/2 == size, "The size does not equal!" ); 
   107   
   108   Graph::NodeMap<MaxMatching<Graph>::pos_enum> pos2(g);
   109   max_matching.writePos(pos2);
   110 
   111   max_matching.resetMatching();
   112   max_matching.run();
   113   s=0;
   114   max_matching.writeNMapNode(mate);
   115   for(NodeIt v(g); v!=INVALID; ++v) {
   116     if ( mate[v]!=INVALID ) ++s;
   117   }
   118   check ( (int)s/2 == size, "The size does not equal!" ); 
   119   
   120   Graph::NodeMap<MaxMatching<Graph>::pos_enum> pos(g);
   121   max_matching.writePos(pos);
   122    
   123   bool ismatching=true;
   124   for(NodeIt v(g); v!=INVALID; ++v) {
   125     if ( mate[v]!=INVALID ) {
   126       Node u=mate[v];
   127       if (mate[u]!=v) ismatching=false; 
   128     }
   129   }  
   130   check ( ismatching, "It is not a matching!" );
   131 
   132   bool coincide=true;
   133   for(NodeIt v(g); v!=INVALID; ++v) {
   134    if ( pos0[v] != pos1[v] || pos1[v]!=pos2[v] || pos2[v]!=pos[v] ) {
   135      coincide=false;
   136     }
   137   }
   138   check ( coincide, "The decompositions do not coincide! " );
   139 
   140   bool noedge=true;
   141   for(UEdgeIt e(g); e!=INVALID; ++e) {
   142    if ( (pos[g.target(e)]==max_matching.C && pos[g.source(e)]==max_matching.D) || 
   143 	 (pos[g.target(e)]==max_matching.D && pos[g.source(e)]==max_matching.C) )
   144       noedge=false; 
   145   }
   146   check ( noedge, "There are edges between D and C!" );
   147   
   148   bool oddcomp=true;
   149   Graph::NodeMap<bool> todo(g,true);
   150   int num_comp=0;
   151   for(NodeIt v(g); v!=INVALID; ++v) {
   152    if ( pos[v]==max_matching.D && todo[v] ) {
   153       int comp_size=1;
   154       ++num_comp;
   155       std::queue<Node> Q;
   156       Q.push(v);
   157       todo.set(v,false);
   158       while (!Q.empty()) {
   159 	Node w=Q.front();	
   160 	Q.pop();
   161 	for(IncEdgeIt e(g,w); e!=INVALID; ++e) {
   162 	  Node u=g.runningNode(e);
   163 	  if ( pos[u]==max_matching.D && todo[u] ) {
   164 	    ++comp_size;
   165 	    Q.push(u);
   166 	    todo.set(u,false);
   167 	  }
   168 	}
   169       }
   170       if ( !(comp_size % 2) ) oddcomp=false;  
   171     }
   172   }
   173   check ( oddcomp, "A component of g[D] is not odd." );
   174 
   175   int barrier=0;
   176   for(NodeIt v(g); v!=INVALID; ++v) {
   177     if ( pos[v]==max_matching.A ) ++barrier;
   178   }
   179   int expected_size=(int)( countNodes(g)-num_comp+barrier)/2;
   180   check ( size==expected_size, "The size of the matching is wrong." );
   181   
   182   return 0;
   183 }