src/test/graph_test.cc
changeset 804 6874a72dbdc5
parent 793 9cd0aeea47b0
child 826 056fbb112b30
equal deleted inserted replaced
15:78c6062445e7 16:be2088787adb
     3 #include<hugo/skeletons/graph.h>
     3 #include<hugo/skeletons/graph.h>
     4 #include<hugo/list_graph.h>
     4 #include<hugo/list_graph.h>
     5 #include<hugo/full_graph.h>
     5 #include<hugo/full_graph.h>
     6 
     6 
     7 #include"test_tools.h"
     7 #include"test_tools.h"
       
     8 #include"graph_test.h"
     8 
     9 
     9 /**
    10 /**
    10 \file
    11 \file
    11 This test makes consistency checks of list graph structures.
    12 This test makes consistency checks of list graph structures.
    12 
    13 
    13 G.addNode(), G.addEdge(), G.tail(), G.head()
    14 G.addNode(), G.addEdge(), G.tail(), G.head()
    14 
    15 
    15 \todo Checks for empty graphs and isolated points.
    16 \todo Checks for empty graphs and isolated points.
    16 \todo Checks for Node->NodeIt, Edge->{EdgeIt,InEdgeIt,OutEdgeIt}
       
    17 conversion.
    17 conversion.
    18 */
    18 */
    19 
    19 
    20 using namespace hugo;
    20 using namespace hugo;
    21 
       
    22 template<class Graph> void checkCompileStaticGraph(Graph &G) 
       
    23 {
       
    24   typedef typename Graph::Node Node;
       
    25   typedef typename Graph::NodeIt NodeIt;
       
    26   typedef typename Graph::Edge Edge;
       
    27   typedef typename Graph::EdgeIt EdgeIt;
       
    28   typedef typename Graph::InEdgeIt InEdgeIt;
       
    29   typedef typename Graph::OutEdgeIt OutEdgeIt;
       
    30   
       
    31   {
       
    32     Node i; Node j(i); Node k(INVALID);
       
    33     i=j;
       
    34     //    bool b=G.valid(i); b=b;
       
    35     bool b; b=b;
       
    36     b=(i==INVALID); b=(i!=INVALID);
       
    37     b=(i==j); b=(i!=j); b=(i<j);
       
    38   }
       
    39   {
       
    40     NodeIt i; NodeIt j(i); NodeIt k(INVALID); NodeIt l(G);
       
    41     i=j;
       
    42     j=G.first(i);
       
    43     j=++i;
       
    44     //    bool b=G.valid(i); b=b;
       
    45     bool b; b=b;
       
    46     b=(i==INVALID); b=(i!=INVALID);
       
    47     Node n(i);
       
    48     n=i;
       
    49     b=(i==j); b=(i!=j); b=(i<j);
       
    50     //Node ->NodeIt conversion
       
    51     NodeIt ni(G,n);
       
    52   }
       
    53   {
       
    54     Edge i; Edge j(i); Edge k(INVALID);
       
    55     i=j;
       
    56     //    bool b=G.valid(i); b=b;
       
    57     bool b; b=b;
       
    58     b=(i==INVALID); b=(i!=INVALID);
       
    59     b=(i==j); b=(i!=j); b=(i<j);
       
    60   }
       
    61   {
       
    62     EdgeIt i; EdgeIt j(i); EdgeIt k(INVALID); EdgeIt l(G);
       
    63     i=j;
       
    64     j=G.first(i);
       
    65     j=++i;
       
    66     //    bool b=G.valid(i); b=b;
       
    67     bool b; b=b;
       
    68     b=(i==INVALID); b=(i!=INVALID);
       
    69     Edge e(i);
       
    70     e=i;
       
    71     b=(i==j); b=(i!=j); b=(i<j);
       
    72     //Edge ->EdgeIt conversion
       
    73     EdgeIt ei(G,e);
       
    74   }
       
    75   {
       
    76     Node n;
       
    77     InEdgeIt i; InEdgeIt j(i); InEdgeIt k(INVALID); InEdgeIt l(G,n);
       
    78     i=j;
       
    79     j=G.first(i,n);
       
    80     j=++i;
       
    81     //    bool b=G.valid(i); b=b;
       
    82     bool b; b=b;
       
    83     b=(i==INVALID); b=(i!=INVALID);
       
    84     Edge e(i);
       
    85     e=i;
       
    86     b=(i==j); b=(i!=j); b=(i<j);
       
    87     //Edge ->InEdgeIt conversion
       
    88     InEdgeIt ei(G,e);
       
    89   }
       
    90   {
       
    91     Node n;
       
    92     OutEdgeIt i; OutEdgeIt j(i); OutEdgeIt k(INVALID); OutEdgeIt l(G,n);
       
    93     i=j;
       
    94     j=G.first(i,n);
       
    95     j=++i;
       
    96     //    bool b=G.valid(i); b=b;
       
    97     bool b; b=b;
       
    98     b=(i==INVALID); b=(i!=INVALID);
       
    99     Edge e(i);
       
   100     e=i;
       
   101     b=(i==j); b=(i!=j); b=(i<j);
       
   102     //Edge ->OutEdgeIt conversion
       
   103     OutEdgeIt ei(G,e);
       
   104   }
       
   105   {
       
   106     Node n,m;
       
   107     n=m=INVALID;
       
   108     Edge e;
       
   109     e=INVALID;
       
   110     n=G.tail(e);
       
   111     n=G.head(e);
       
   112   }
       
   113   // id tests
       
   114   { Node n; int i=G.id(n); i=i; }
       
   115   { Edge e; int i=G.id(e); i=i; }
       
   116   //NodeMap tests
       
   117   {
       
   118     Node k;
       
   119     typename Graph::template NodeMap<int> m(G);
       
   120     //Const map
       
   121     typename Graph::template NodeMap<int> const &cm = m;
       
   122     //Inicialize with default value
       
   123     typename Graph::template NodeMap<int> mdef(G,12);
       
   124     //Copy
       
   125     typename Graph::template NodeMap<int> mm(cm);
       
   126     //Copy from another type
       
   127     typename Graph::template NodeMap<double> dm(cm);
       
   128     int v;
       
   129     v=m[k]; m[k]=v; m.set(k,v);
       
   130     v=cm[k];
       
   131     
       
   132     m=cm;  
       
   133     dm=cm; //Copy from another type
       
   134     {
       
   135       //Check the typedef's
       
   136       typename Graph::template NodeMap<int>::ValueType val;
       
   137       val=1;
       
   138       typename Graph::template NodeMap<int>::KeyType key;
       
   139       key = typename Graph::NodeIt(G);
       
   140     }
       
   141   }  
       
   142   { //bool NodeMap
       
   143     Node k;
       
   144     typename Graph::template NodeMap<bool> m(G);
       
   145     typename Graph::template NodeMap<bool> const &cm = m;  //Const map
       
   146     //Inicialize with default value
       
   147     typename Graph::template NodeMap<bool> mdef(G,12);
       
   148     typename Graph::template NodeMap<bool> mm(cm);   //Copy
       
   149     typename Graph::template NodeMap<int> dm(cm); //Copy from another type
       
   150     bool v;
       
   151     v=m[k]; m[k]=v; m.set(k,v);
       
   152     v=cm[k];
       
   153     
       
   154     m=cm;  
       
   155     dm=cm; //Copy from another type
       
   156     m=dm; //Copy to another type
       
   157 
       
   158     {
       
   159       //Check the typedef's
       
   160       typename Graph::template NodeMap<bool>::ValueType val;
       
   161       val=true;
       
   162       typename Graph::template NodeMap<bool>::KeyType key;
       
   163       key= typename Graph::NodeIt(G);
       
   164     }
       
   165   }
       
   166   //EdgeMap tests
       
   167   {
       
   168     Edge k;
       
   169     typename Graph::template EdgeMap<int> m(G);
       
   170     typename Graph::template EdgeMap<int> const &cm = m;  //Const map
       
   171     //Inicialize with default value
       
   172     typename Graph::template EdgeMap<int> mdef(G,12);
       
   173     typename Graph::template EdgeMap<int> mm(cm);   //Copy
       
   174     typename Graph::template EdgeMap<double> dm(cm); //Copy from another type
       
   175     int v;
       
   176     v=m[k]; m[k]=v; m.set(k,v);
       
   177     v=cm[k];
       
   178     
       
   179     m=cm;  
       
   180     dm=cm; //Copy from another type
       
   181     {
       
   182       //Check the typedef's
       
   183       typename Graph::template EdgeMap<int>::ValueType val;
       
   184       val=1;
       
   185       typename Graph::template EdgeMap<int>::KeyType key;
       
   186       key= typename Graph::EdgeIt(G);
       
   187     }
       
   188   }  
       
   189   { //bool EdgeMap
       
   190     Edge k;
       
   191     typename Graph::template EdgeMap<bool> m(G);
       
   192     typename Graph::template EdgeMap<bool> const &cm = m;  //Const map
       
   193     //Inicialize with default value
       
   194     typename Graph::template EdgeMap<bool> mdef(G,12);
       
   195     typename Graph::template EdgeMap<bool> mm(cm);   //Copy
       
   196     typename Graph::template EdgeMap<int> dm(cm); //Copy from another type
       
   197     bool v;
       
   198     v=m[k]; m[k]=v; m.set(k,v);
       
   199     v=cm[k];
       
   200     
       
   201     m=cm;  
       
   202     dm=cm; //Copy from another type
       
   203     m=dm; //Copy to another type
       
   204     {
       
   205       //Check the typedef's
       
   206       typename Graph::template EdgeMap<bool>::ValueType val;
       
   207       val=true;
       
   208       typename Graph::template EdgeMap<bool>::KeyType key;
       
   209       key= typename Graph::EdgeIt(G);
       
   210     }
       
   211   }
       
   212 }
       
   213 
       
   214 template<class Graph> void checkCompile(Graph &G) 
       
   215 {
       
   216   checkCompileStaticGraph(G);
       
   217 
       
   218   typedef typename Graph::Node Node;
       
   219   typedef typename Graph::NodeIt NodeIt;
       
   220   typedef typename Graph::Edge Edge;
       
   221   typedef typename Graph::EdgeIt EdgeIt;
       
   222   typedef typename Graph::InEdgeIt InEdgeIt;
       
   223   typedef typename Graph::OutEdgeIt OutEdgeIt;
       
   224   
       
   225   Node n,m;
       
   226   n=G.addNode();
       
   227   m=G.addNode();
       
   228   Edge e;
       
   229   e=G.addEdge(n,m); 
       
   230   
       
   231   //  G.clear();
       
   232 }
       
   233 
       
   234 template<class Graph> void checkCompileErase(Graph &G) 
       
   235 {
       
   236   typedef typename Graph::Node Node;
       
   237   typedef typename Graph::Edge Edge;
       
   238   Node n;
       
   239   Edge e;
       
   240   G.erase(n);
       
   241   G.erase(e);
       
   242 }
       
   243 
       
   244 template<class Graph> void checkCompileEraseEdge(Graph &G) 
       
   245 {
       
   246   typedef typename Graph::Edge Edge;
       
   247   Edge e;
       
   248   G.erase(e);
       
   249 }
       
   250 
       
   251 template<class Graph> void checkCompileFindEdge(Graph &G) 
       
   252 {
       
   253   typedef typename Graph::NodeIt Node;
       
   254   typedef typename Graph::NodeIt NodeIt;
       
   255 
       
   256   G.findEdge(NodeIt(G),++NodeIt(G),G.findEdge(NodeIt(G),++NodeIt(G)));
       
   257   G.findEdge(Node(),Node(),G.findEdge(Node(),Node()));  
       
   258 }
       
   259 
       
   260 
       
   261 template<class Graph> void checkNodeList(Graph &G, int nn)
       
   262 {
       
   263   typename Graph::NodeIt n(G);
       
   264   for(int i=0;i<nn;i++) {
       
   265     check(n!=INVALID,"Wrong Node list linking.");
       
   266     ++n;
       
   267   }
       
   268   check(n==INVALID,"Wrong Node list linking.");
       
   269 }
       
   270 
       
   271 template<class Graph> void checkEdgeList(Graph &G, int nn)
       
   272 {
       
   273   typedef typename Graph::EdgeIt EdgeIt;
       
   274 
       
   275   EdgeIt e(G);
       
   276   for(int i=0;i<nn;i++) {
       
   277     check(e!=INVALID,"Wrong Edge list linking.");
       
   278     ++e;
       
   279   }
       
   280   check(e==INVALID,"Wrong Edge list linking.");
       
   281 }
       
   282 
       
   283 template<class Graph> void checkOutEdgeList(Graph &G,
       
   284 					    typename Graph::Node n,
       
   285 					    int nn)
       
   286 {
       
   287   typename Graph::OutEdgeIt e(G,n);
       
   288   for(int i=0;i<nn;i++) {
       
   289     check(e!=INVALID,"Wrong OutEdge list linking.");
       
   290     ++e;
       
   291   }
       
   292   check(e==INVALID,"Wrong OutEdge list linking.");
       
   293 }
       
   294 
       
   295 template<class Graph> void checkInEdgeList(Graph &G,
       
   296 					   typename Graph::Node n,
       
   297 					   int nn)
       
   298 {
       
   299   typename Graph::InEdgeIt e(G,n);
       
   300   for(int i=0;i<nn;i++) {
       
   301     check(e!=INVALID,"Wrong InEdge list linking.");
       
   302     ++e;
       
   303   }
       
   304   check(e==INVALID,"Wrong InEdge list linking.");
       
   305 }
       
   306 
       
   307 ///\file
       
   308 ///\todo Checks head(), tail() as well;
       
   309 
    21 
   310 template<class Graph> void bidirPetersen(Graph &G)
    22 template<class Graph> void bidirPetersen(Graph &G)
   311 {
    23 {
   312   typedef typename Graph::Edge Edge;
    24   typedef typename Graph::Edge Edge;
   313   typedef typename Graph::EdgeIt EdgeIt;
    25   typedef typename Graph::EdgeIt EdgeIt;
   314   
    26   
   315   checkEdgeList(G,15);
    27   checkGraphEdgeList(G,15);
   316   
    28   
   317   std::vector<Edge> ee;
    29   std::vector<Edge> ee;
   318   
    30   
   319   for(EdgeIt e(G);e!=INVALID;++e) ee.push_back(e);
    31   for(EdgeIt e(G);e!=INVALID;++e) ee.push_back(e);
   320 
    32 
   327   typedef typename Graph::Node Node;
    39   typedef typename Graph::Node Node;
   328 
    40 
   329   typedef typename Graph::EdgeIt EdgeIt;
    41   typedef typename Graph::EdgeIt EdgeIt;
   330   typedef typename Graph::NodeIt NodeIt;
    42   typedef typename Graph::NodeIt NodeIt;
   331 
    43 
   332   checkNodeList(G,10);
    44   checkGraphNodeList(G,10);
   333   checkEdgeList(G,30);
    45   checkGraphEdgeList(G,30);
   334 
    46 
   335   for(NodeIt n(G);n!=INVALID;++n) {
    47   for(NodeIt n(G);n!=INVALID;++n) {
   336     checkInEdgeList(G,n,3);
    48     checkGraphInEdgeList(G,n,3);
   337     checkOutEdgeList(G,n,3);
    49     checkGraphOutEdgeList(G,n,3);
   338     ++n;
    50     ++n;
   339   }  
    51   }  
   340 }
    52 }
   341 
    53 
   342 //Compile GraphSkeleton
    54 //Compile GraphSkeleton
   343 template void checkCompileStaticGraph<skeleton::StaticGraphSkeleton>
    55 template void checkCompileStaticGraph<skeleton::StaticGraphSkeleton>
   344 (skeleton::StaticGraphSkeleton &);
    56 (skeleton::StaticGraphSkeleton &);
   345 
    57 
   346 template void checkCompile<skeleton::GraphSkeleton>(skeleton::GraphSkeleton &);
    58 template void checkCompileGraph<skeleton::GraphSkeleton>
       
    59 (skeleton::GraphSkeleton &);
   347 
    60 
   348 template void checkCompileErase<skeleton::EraseableGraphSkeleton>
    61 template void checkCompileErasableGraph<skeleton::EraseableGraphSkeleton>
   349 (skeleton::EraseableGraphSkeleton &);
    62 (skeleton::EraseableGraphSkeleton &);
   350 
    63 
   351 //Compile SmartGraph
    64 //Compile SmartGraph
   352 template void checkCompile<SmartGraph>(SmartGraph &);
    65 template void checkCompileGraph<SmartGraph>(SmartGraph &);
       
    66 template void checkCompileGraphFindEdge<SmartGraph>(SmartGraph &);
   353 
    67 
   354 //Compile SymSmartGraph
    68 //Compile SymSmartGraph
   355 template void checkCompile<SymSmartGraph>(SymSmartGraph &);
    69 template void checkCompileGraph<SymSmartGraph>(SymSmartGraph &);
       
    70 template void checkCompileGraphFindEdge<SymSmartGraph>(SymSmartGraph &);
   356 
    71 
   357 //Compile ListGraph
    72 //Compile ListGraph
   358 template void checkCompile<ListGraph>(ListGraph &);
    73 template void checkCompileGraph<ListGraph>(ListGraph &);
   359 template void checkCompileErase<ListGraph>(ListGraph &);
    74 template void checkCompileErasableGraph<ListGraph>(ListGraph &);
   360 template void checkCompileFindEdge<ListGraph>(ListGraph &);
    75 template void checkCompileGraphFindEdge<ListGraph>(ListGraph &);
   361 
    76 
   362 
    77 
   363 //Compile SymListGraph
    78 //Compile SymListGraph
   364 template void checkCompile<SymListGraph>(SymListGraph &);
    79 template void checkCompileGraph<SymListGraph>(SymListGraph &);
   365 template void checkCompileErase<SymListGraph>(SymListGraph &);
    80 template void checkCompileErasableGraph<SymListGraph>(SymListGraph &);
   366 template void checkCompileFindEdge<SymListGraph>(SymListGraph &);
    81 template void checkCompileGraphFindEdge<SymListGraph>(SymListGraph &);
   367 
    82 
   368 //Compile FullGraph
    83 //Compile FullGraph
   369 template void checkCompileStaticGraph<FullGraph>(FullGraph &);
    84 template void checkCompileStaticGraph<FullGraph>(FullGraph &);
   370 template void checkCompileFindEdge<FullGraph>(FullGraph &);
    85 template void checkCompileGraphFindEdge<FullGraph>(FullGraph &);
   371 
    86 
   372 //Compile EdgeSet <ListGraph>
    87 //Compile EdgeSet <ListGraph>
   373 template void checkCompile<EdgeSet <ListGraph> >(EdgeSet <ListGraph> &);
    88 template void checkCompileGraph<EdgeSet <ListGraph> >(EdgeSet <ListGraph> &);
   374 template
    89 template void checkCompileGraphEraseEdge<EdgeSet <ListGraph> >
   375 void checkCompileEraseEdge<EdgeSet <ListGraph> >(EdgeSet <ListGraph> &);
    90 (EdgeSet <ListGraph> &);
   376 template
    91 template void checkCompileGraphFindEdge<EdgeSet <ListGraph> >
   377 void checkCompileFindEdge<EdgeSet <ListGraph> >(EdgeSet <ListGraph> &);
    92 (EdgeSet <ListGraph> &);
   378 
    93 
   379 //Compile EdgeSet <NodeSet>
    94 //Compile EdgeSet <NodeSet>
   380 template void checkCompile<EdgeSet <NodeSet> >(EdgeSet <NodeSet> &);
    95 template void checkCompileGraph<EdgeSet <NodeSet> >(EdgeSet <NodeSet> &);
   381 template
    96 template void checkCompileGraphEraseEdge<EdgeSet <NodeSet> >
   382 void checkCompileEraseEdge<EdgeSet <NodeSet> >(EdgeSet <NodeSet> &);
    97 (EdgeSet <NodeSet> &);
   383 template void checkCompileFindEdge<EdgeSet <NodeSet> >(EdgeSet <NodeSet> &);
    98 template void checkCompileGraphFindEdge<EdgeSet <NodeSet> >
       
    99 (EdgeSet <NodeSet> &);
   384 
   100 
   385 
   101 
   386 int main() 
   102 int main() 
   387 {
   103 {
   388   {
   104   {