test/sym_graph_test.h
author deba
Thu, 11 Aug 2005 13:16:39 +0000
changeset 1622 9c98841eda96
parent 1359 1581f961cfaa
permissions -rw-r--r--
Ordering in the graph concept.
deba@937
     1
/* -*- C++ -*-
ladanyi@1435
     2
 * test/sym_graph_test.h - Part of LEMON, a generic C++ optimization library
deba@937
     3
 *
alpar@1164
     4
 * Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
alpar@1359
     5
 * (Egervary Research Group on Combinatorial Optimization, EGRES).
deba@937
     6
 *
deba@937
     7
 * Permission to use, modify and distribute this software is granted
deba@937
     8
 * provided that this copyright notice appears in all copies. For
deba@937
     9
 * precise terms see the accompanying LICENSE file.
deba@937
    10
 *
deba@937
    11
 * This software is provided "AS IS" with no warranty of any kind,
deba@937
    12
 * express or implied, and with no claim as to its suitability for any
deba@937
    13
 * purpose.
deba@937
    14
 *
deba@937
    15
 */
deba@937
    16
#ifndef LEMON_TEST_SYM_GRAPH_TEST_H
deba@937
    17
#define LEMON_TEST_SYM_GRAPH_TEST_H
deba@937
    18
deba@937
    19
deba@937
    20
#include "graph_test.h"
deba@937
    21
#include "test_tools.h"
deba@937
    22
deba@937
    23
//! \ingroup misc
deba@937
    24
//! \file
deba@937
    25
//! \brief Some utility to test symmetric graph classes.
deba@937
    26
namespace lemon {
alpar@938
    27
  
alpar@938
    28
  /// \e
deba@937
    29
klao@959
    30
  /// \todo This should go to lemon/concept/symgraph.h
alpar@938
    31
  ///
deba@937
    32
  template<class Graph> void checkCompileStaticSymGraph(Graph &G) 
deba@937
    33
    {
deba@937
    34
      typedef typename Graph::Node Node;
deba@937
    35
      typedef typename Graph::NodeIt NodeIt;
deba@937
    36
      typedef typename Graph::SymEdge SymEdge;
deba@937
    37
      typedef typename Graph::SymEdgeIt SymEdgeIt;
deba@937
    38
      typedef typename Graph::Edge Edge;
deba@937
    39
      typedef typename Graph::EdgeIt EdgeIt;
deba@937
    40
      typedef typename Graph::InEdgeIt InEdgeIt;
deba@937
    41
      typedef typename Graph::OutEdgeIt OutEdgeIt;
deba@937
    42
klao@959
    43
      lemon::concept::checkCompileStaticGraph(G);
deba@937
    44
  
deba@937
    45
      {
deba@937
    46
	SymEdge i; SymEdge j(i); SymEdge k(INVALID);
deba@937
    47
	i=j;
deba@937
    48
	bool b; b=true;
deba@937
    49
	b=(i==INVALID); b=(i!=INVALID);
deba@937
    50
	b=(i==j); b=(i!=j); b=(i<j);
deba@937
    51
	Edge e;
deba@937
    52
	e = G.forward(i);
deba@937
    53
	e = G.backward(i);
deba@937
    54
      }
deba@937
    55
      {
deba@937
    56
	SymEdgeIt i; SymEdgeIt j(i); SymEdgeIt k(INVALID); SymEdgeIt l(G);
deba@937
    57
	i=j;
deba@937
    58
	j=G.first(i);
deba@937
    59
	j=++i;
deba@937
    60
	bool b; b=true;
deba@937
    61
	b=(i==INVALID); b=(i!=INVALID);
deba@937
    62
	SymEdge n(i);
deba@937
    63
	n=i;
deba@937
    64
	b=(i==j); b=(i!=j); b=(i<j);
deba@937
    65
	//SymEdge ->SymEdgeIt conversion
deba@937
    66
	SymEdgeIt ni(G,n);
deba@937
    67
      }
deba@937
    68
      {
deba@937
    69
	Edge i, j;
deba@937
    70
	j = G.opposite(i);
deba@937
    71
      }      
deba@937
    72
      {
deba@937
    73
	Node n;
deba@937
    74
	SymEdge se;
deba@937
    75
	se=INVALID;
alpar@986
    76
	n=G.source(se);
alpar@986
    77
	n=G.target(se);
deba@937
    78
      }
deba@937
    79
      // id tests
deba@937
    80
      { SymEdge n; int i=G.id(n); i=i; }
deba@937
    81
      //SymEdgeMap tests
deba@937
    82
      {
deba@937
    83
	SymEdge k;
deba@937
    84
	typename Graph::template SymEdgeMap<int> m(G);
deba@937
    85
	typename Graph::template SymEdgeMap<int> const &cm = m;  //Const map
deba@937
    86
	//Inicialize with default value
deba@937
    87
	typename Graph::template SymEdgeMap<int> mdef(G,12);
deba@937
    88
	typename Graph::template SymEdgeMap<int> mm(cm);   //Copy
deba@937
    89
	typename Graph::template SymEdgeMap<double> dm(cm); //Copy from another type
deba@937
    90
	int v;
deba@937
    91
	v=m[k]; m[k]=v; m.set(k,v);
deba@937
    92
	v=cm[k];
deba@937
    93
    
deba@937
    94
	m=cm;  
deba@937
    95
	dm=cm; //Copy from another type
deba@937
    96
	{
deba@937
    97
	  //Check the typedef's
alpar@987
    98
	  typename Graph::template SymEdgeMap<int>::Value val;
deba@937
    99
	  val = 1;
alpar@987
   100
	  typename Graph::template SymEdgeMap<int>::Key key;
deba@937
   101
	  key = typename Graph::SymEdgeIt(G);
deba@937
   102
	}
deba@937
   103
      }  
deba@937
   104
      { //bool SymEdgeMap
deba@937
   105
	SymEdge k;
deba@937
   106
	typename Graph::template SymEdgeMap<bool> m(G);
deba@937
   107
	typename Graph::template SymEdgeMap<bool> const &cm = m;  //Const map
deba@937
   108
	//Inicialize with default value
deba@937
   109
	typename Graph::template SymEdgeMap<bool> mdef(G,12);
deba@937
   110
	typename Graph::template SymEdgeMap<bool> mm(cm);   //Copy
deba@937
   111
	typename Graph::template SymEdgeMap<int> dm(cm); //Copy from another type
deba@937
   112
	bool v;
deba@937
   113
	v=m[k]; m[k]=v; m.set(k,v);
deba@937
   114
	v=cm[k];
deba@937
   115
    
deba@937
   116
	m=cm;  
deba@937
   117
	dm=cm; //Copy from another type
deba@937
   118
	m=dm; //Copy to another type
deba@937
   119
	{
deba@937
   120
	  //Check the typedef's
alpar@987
   121
	  typename Graph::template SymEdgeMap<bool>::Value val;
deba@937
   122
	  val=true;
alpar@987
   123
	  typename Graph::template SymEdgeMap<bool>::Key key;
deba@937
   124
	  key= typename Graph::SymEdgeIt(G);
deba@937
   125
	}
deba@937
   126
      }
deba@937
   127
    }
deba@937
   128
deba@937
   129
  template<class Graph> void checkCompileSymGraph(Graph &G) 
deba@937
   130
    {
deba@937
   131
      checkCompileStaticSymGraph(G);
deba@937
   132
deba@937
   133
      typedef typename Graph::Node Node;
deba@937
   134
      typedef typename Graph::NodeIt NodeIt;
deba@937
   135
      typedef typename Graph::SymEdge SymEdge;
deba@937
   136
      typedef typename Graph::SymEdgeIt SymEdgeIt;
deba@937
   137
      typedef typename Graph::Edge Edge;
deba@937
   138
      typedef typename Graph::EdgeIt EdgeIt;
deba@937
   139
      typedef typename Graph::InEdgeIt InEdgeIt;
deba@937
   140
      typedef typename Graph::OutEdgeIt OutEdgeIt;
deba@937
   141
  
deba@937
   142
      Node n,m;
deba@937
   143
      n=G.addNode();
deba@937
   144
      m=G.addNode();
deba@937
   145
      SymEdge e;
deba@937
   146
      e = G.addEdge(n,m); 
deba@937
   147
  
deba@937
   148
      //  G.clear();
deba@937
   149
    }
deba@937
   150
deba@937
   151
  template<class Graph> void checkCompileSymGraphEraseSymEdge(Graph &G) 
deba@937
   152
    {
deba@937
   153
      typename Graph::SymEdge n;
deba@937
   154
      G.erase(n);
deba@937
   155
    }
deba@937
   156
deba@937
   157
  template<class Graph> void checkCompileErasableSymGraph(Graph &G) 
deba@937
   158
    {
deba@937
   159
      checkCompileSymGraph(G);
klao@959
   160
      lemon::concept::checkCompileGraphEraseNode(G);
deba@937
   161
      checkCompileSymGraphEraseSymEdge(G);
deba@937
   162
    }
deba@937
   163
deba@937
   164
  template<class Graph> void checkGraphSymEdgeList(Graph &G, int nn)
deba@937
   165
    {
deba@937
   166
      typedef typename Graph::SymEdgeIt SymEdgeIt;
deba@937
   167
deba@937
   168
      SymEdgeIt e(G);
deba@937
   169
      for(int i=0;i<nn;i++) {
deba@937
   170
	check(e!=INVALID,"Wrong SymEdge list linking.");
deba@937
   171
	++e;
deba@937
   172
      }
deba@937
   173
      check(e==INVALID,"Wrong SymEdge list linking.");
deba@937
   174
    }
deba@937
   175
deba@937
   176
  ///\file
alpar@986
   177
  ///\todo Check target(), source() as well;
deba@937
   178
deba@937
   179
  
deba@937
   180
} //namespace lemon
deba@937
   181
deba@937
   182
deba@937
   183
#endif