src/work/marci/iterator_bfs_demo.cc
author marci
Fri, 30 Apr 2004 19:02:40 +0000
changeset 502 1b41ebb5fee5
parent 360 91fba31268d6
child 557 9c0ce0a1f000
permissions -rw-r--r--
static const bool BipartiteGraphWrapper<Graph>::S_CLASS, T_CLASS
     1 // -*- c++ -*-
     2 #include <iostream>
     3 #include <vector>
     4 #include <string>
     5 
     6 #include <list_graph.h>
     7 //#include <smart_graph.h>
     8 #include <bfs_iterator.h>
     9 #include <graph_wrapper.h>
    10 
    11 using namespace hugo;
    12 using std::cout; 
    13 using std::endl;
    14 using std::string;
    15 
    16 template <typename Graph, typename NodeNameMap>
    17 class EdgeNameMap {
    18   Graph& graph;
    19   NodeNameMap& node_name_map;
    20 public:
    21   EdgeNameMap(Graph& _graph, NodeNameMap& _node_name_map) : 
    22     graph(_graph), node_name_map(_node_name_map) { }
    23   string operator[](typename Graph::Edge e) const { 
    24     return 
    25       (node_name_map[graph.tail(e)]+"->"+node_name_map[graph.head(e)]);
    26   }
    27 };
    28 
    29 int main (int, char*[])
    30 {
    31   //typedef SmartGraph Graph;
    32   typedef ListGraph Graph;
    33 
    34   typedef Graph::Node Node;
    35   typedef Graph::Edge Edge;
    36  
    37   Graph G;
    38 
    39   Node s=G.addNode();
    40   Node v1=G.addNode();
    41   Node v2=G.addNode();
    42   Node v3=G.addNode();
    43   Node v4=G.addNode();
    44   Node t=G.addNode();
    45   
    46   Graph::NodeMap<string> node_name(G);
    47   node_name.set(s, "s");
    48   node_name.set(v1, "v1");
    49   node_name.set(v2, "v2");
    50   node_name.set(v3, "v3");
    51   node_name.set(v4, "v4");
    52   node_name.set(t, "t");
    53 
    54   G.addEdge(s, v1);
    55   G.addEdge(s, v2);
    56   G.addEdge(v1, v2);
    57   G.addEdge(v2, v1);
    58   G.addEdge(v1, v3);
    59   G.addEdge(v3, v2);
    60   G.addEdge(v2, v4);
    61   G.addEdge(v4, v3);
    62   G.addEdge(v3, t);
    63   G.addEdge(v4, t);
    64 
    65   cout << "    /-->    ------------->            "<< endl;
    66   cout << "   / /-- v1 <-\\      /---- v3-\\      "<< endl;
    67   cout << "  / |          |    /  /->     \\     "<< endl;
    68   cout << " /  |          |   /  |    ^    \\  "<< endl;
    69   cout << "s   |          |  /   |    |     \\->  t "<< endl;
    70   cout << " \\  |          | /    |    |     /->  "<< endl;
    71   cout << "  \\ |       --/ /     |    |    /     "<< endl;
    72   cout << "   \\ \\-> v2 <--/       \\-- v4 -/      "<< endl;
    73   cout << "    \\-->    ------------->         "<< endl;
    74   
    75 //   typedef TrivGraphWrapper<const Graph> CGW;
    76 //   CGW gw(G);
    77 
    78 //   cout << "bfs and dfs demo on the directed graph" << endl;
    79 //   for(CGW::NodeIt n=gw.first<CGW::NodeIt>(); n.valid(); ++n) { 
    80 //     cout << n << ": ";
    81 //     cout << "out edges: ";
    82 //     for(CGW::OutEdgeIt e=gw.first<CGW::OutEdgeIt>(n); e.valid(); ++e) 
    83 //       cout << e << " ";
    84 //     cout << "in edges: ";
    85 //     for(CGW::InEdgeIt e=gw.first<CGW::InEdgeIt>(n); e.valid(); ++e) 
    86 //       cout << e << " ";
    87 //     cout << endl;
    88 //   }
    89 
    90   {
    91     EdgeNameMap< Graph, Graph::NodeMap<string> > edge_name(G, node_name);
    92     
    93     cout << "bfs and dfs iterator demo on the directed graph" << endl;
    94     for(Graph::NodeIt n(G); G.valid(n); G.next(n)) { 
    95       cout << node_name[n] << ": ";
    96       cout << "out edges: ";
    97       for(Graph::OutEdgeIt e(G, n); G.valid(e); G.next(e)) 
    98 	cout << edge_name[e] << " ";
    99       cout << "in edges: ";
   100       for(Graph::InEdgeIt e(G, n); G.valid(e); G.next(e)) 
   101 	cout << edge_name[e] << " ";
   102       cout << endl;
   103     }
   104 
   105     cout << "bfs from s ..." << endl;
   106     BfsIterator< Graph, Graph::NodeMap<bool> > bfs(G);
   107     bfs.pushAndSetReached(s);
   108     while (!bfs.finished()) {
   109       //cout << "edge: ";
   110       if (G.valid(bfs)) {
   111 	cout << edge_name[bfs] << /*endl*/", " << 
   112 	  node_name[G.aNode(bfs)] << 
   113 	  (bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   114 	  node_name[G.bNode(bfs)] << 
   115 	  (bfs.isBNodeNewlyReached() ? ": is newly reached." : 
   116 	   ": is not newly reached.");
   117       } else { 
   118 	cout << "invalid" << /*endl*/", " << 
   119 	  node_name[bfs.aNode()] << 
   120 	  (bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   121 	  
   122 	  "invalid.";
   123       }
   124       cout << endl;
   125       ++bfs;
   126     }
   127 
   128     cout << "    /-->    ------------->            "<< endl;
   129     cout << "   / /-- v1 <-\\      /---- v3-\\      "<< endl;
   130     cout << "  / |          |    /  /->     \\     "<< endl;
   131     cout << " /  |          |   /  |    ^    \\  "<< endl;
   132     cout << "s   |          |  /   |    |     \\->  t "<< endl;
   133     cout << " \\  |          | /    |    |     /->  "<< endl;
   134     cout << "  \\ |       --/ /     |    |    /     "<< endl;
   135     cout << "   \\ \\-> v2 <--/       \\-- v4 -/      "<< endl;
   136     cout << "    \\-->    ------------->         "<< endl;
   137 
   138     cout << "dfs from s ..." << endl;
   139     DfsIterator< Graph, Graph::NodeMap<bool> > dfs(G);
   140     dfs.pushAndSetReached(s);
   141     while (!dfs.finished()) {
   142       ++dfs;
   143       //cout << "edge: ";
   144       if (G.valid(dfs)) {
   145 	cout << edge_name[dfs] << /*endl*/", " << 
   146 	  node_name[G.aNode(dfs)] << 
   147 	  (dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   148 	  node_name[G.bNode(dfs)] << 
   149 	  (dfs.isBNodeNewlyReached() ? ": is newly reached." : 
   150 	   ": is not newly reached.");
   151       } else { 
   152 	cout << "invalid" << /*endl*/", " << 
   153 	  node_name[dfs.aNode()] << 
   154 	  (dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   155 	  
   156 	  "invalid.";
   157       }
   158       cout << endl;
   159     }
   160   }
   161 
   162 
   163   {
   164     typedef RevGraphWrapper<const Graph> GW;
   165     GW gw(G);
   166     
   167     EdgeNameMap< GW, Graph::NodeMap<string> > edge_name(gw, node_name);
   168     
   169     cout << "bfs and dfs iterator demo on the reversed directed graph" << endl;
   170     for(GW::NodeIt n(gw); gw.valid(n); gw.next(n)) { 
   171       cout << node_name[GW::Node(n)] << ": ";
   172       cout << "out edges: ";
   173       for(GW::OutEdgeIt e(gw, n); gw.valid(e); gw.next(e)) 
   174 	cout << edge_name[e] << " ";
   175       cout << "in edges: ";
   176       for(GW::InEdgeIt e(gw, n); gw.valid(e); gw.next(e)) 
   177 	cout << edge_name[e] << " ";
   178       cout << endl;
   179     }
   180 
   181     cout << "bfs from t ..." << endl;
   182     BfsIterator< GW, GW::NodeMap<bool> > bfs(gw);
   183     bfs.pushAndSetReached(t);
   184     while (!bfs.finished()) {
   185       //cout << "edge: ";
   186       if (gw.valid(GW::OutEdgeIt(bfs))) {
   187 	cout << edge_name[GW::OutEdgeIt(bfs)] << /*endl*/", " << 
   188 	  node_name[gw.aNode(bfs)] << 
   189 	  (bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   190 	  node_name[gw.bNode(bfs)] << 
   191 	  (bfs.isBNodeNewlyReached() ? ": is newly reached." : 
   192 	   ": is not newly reached.");
   193       } else { 
   194 	cout << "invalid" << /*endl*/", " << 
   195 	  node_name[bfs.aNode()] << 
   196 	  (bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   197 	  
   198 	  "invalid.";
   199       }
   200       cout << endl;
   201       ++bfs;
   202     }
   203 
   204     cout << "    /-->    ------------->            "<< endl;
   205     cout << "   / /-- v1 <-\\      /---- v3-\\      "<< endl;
   206     cout << "  / |          |    /  /->     \\     "<< endl;
   207     cout << " /  |          |   /  |    ^    \\  "<< endl;
   208     cout << "s   |          |  /   |    |     \\->  t "<< endl;
   209     cout << " \\  |          | /    |    |     /->  "<< endl;
   210     cout << "  \\ |       --/ /     |    |    /     "<< endl;
   211     cout << "   \\ \\-> v2 <--/       \\-- v4 -/      "<< endl;
   212     cout << "    \\-->    ------------->         "<< endl;
   213     
   214     cout << "dfs from t ..." << endl;
   215     DfsIterator< GW, GW::NodeMap<bool> > dfs(gw);
   216     dfs.pushAndSetReached(t);
   217     while (!dfs.finished()) {
   218       ++dfs;
   219       //cout << "edge: ";
   220       if (gw.valid(GW::OutEdgeIt(dfs))) {
   221 	cout << edge_name[GW::OutEdgeIt(dfs)] << /*endl*/", " << 
   222 	  node_name[gw.aNode(dfs)] << 
   223 	  (dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   224 	  node_name[gw.bNode(dfs)] << 
   225 	  (dfs.isBNodeNewlyReached() ? ": is newly reached." : 
   226 	   ": is not newly reached.");
   227       } else { 
   228 	cout << "invalid" << /*endl*/", " << 
   229 	  node_name[dfs.aNode()] << 
   230 	  (dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   231 	  
   232 	  "invalid.";
   233       }
   234       cout << endl;
   235     }
   236   }
   237 
   238   {
   239     typedef UndirGraphWrapper<const Graph> GW;
   240     GW gw(G);
   241     
   242     EdgeNameMap< GW, Graph::NodeMap<string> > edge_name(gw, node_name);
   243     
   244     cout << "bfs and dfs iterator demo on the undirected graph" << endl;
   245     for(GW::NodeIt n(gw); gw.valid(n); gw.next(n)) { 
   246       cout << node_name[GW::Node(n)] << ": ";
   247       cout << "out edges: ";
   248       for(GW::OutEdgeIt e(gw, n); gw.valid(e); gw.next(e)) 
   249 	cout << edge_name[e] << " ";
   250       cout << "in edges: ";
   251       for(GW::InEdgeIt e(gw, n); gw.valid(e); gw.next(e)) 
   252 	cout << edge_name[e] << " ";
   253       cout << endl;
   254     }
   255 //     for(GW::EdgeIt e=gw.first<GW::EdgeIt>(); gw.valid(e); gw.next(e)) { 
   256 //       cout << edge_name.get(e) << " ";
   257 //     }
   258 //     cout << endl;
   259 
   260     cout << "bfs from t ..." << endl;
   261     BfsIterator< GW, GW::NodeMap<bool> > bfs(gw);
   262     bfs.pushAndSetReached(t);
   263     while (!bfs.finished()) {
   264       //cout << "edge: ";
   265       if (gw.valid(GW::OutEdgeIt(bfs))) {
   266 	cout << edge_name[GW::OutEdgeIt(bfs)] << /*endl*/", " << 
   267 	  node_name[gw.aNode(bfs)] << 
   268 	  (bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   269 	  node_name[gw.bNode(bfs)] << 
   270 	  (bfs.isBNodeNewlyReached() ? ": is newly reached." : 
   271 	   ": is not newly reached.");
   272       } else { 
   273 	cout << "invalid" << /*endl*/", " << 
   274 	  node_name[bfs.aNode()] << 
   275 	  (bfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   276 	  
   277 	  "invalid.";
   278       }
   279       cout << endl;
   280       ++bfs;
   281     }
   282 
   283     cout << "    /-->    ------------->            "<< endl;
   284     cout << "   / /-- v1 <-\\      /---- v3-\\      "<< endl;
   285     cout << "  / |          |    /  /->     \\     "<< endl;
   286     cout << " /  |          |   /  |    ^    \\  "<< endl;
   287     cout << "s   |          |  /   |    |     \\->  t "<< endl;
   288     cout << " \\  |          | /    |    |     /->  "<< endl;
   289     cout << "  \\ |       --/ /     |    |    /     "<< endl;
   290     cout << "   \\ \\-> v2 <--/       \\-- v4 -/      "<< endl;
   291     cout << "    \\-->    ------------->         "<< endl;
   292     
   293     cout << "dfs from t ..." << endl;
   294     DfsIterator< GW, GW::NodeMap<bool> > dfs(gw);
   295     dfs.pushAndSetReached(t);
   296     while (!dfs.finished()) {
   297       ++dfs;
   298       //cout << "edge: ";
   299       if (gw.valid(GW::OutEdgeIt(dfs))) {
   300 	cout << edge_name[GW::OutEdgeIt(dfs)] << /*endl*/", " << 
   301 	  node_name[gw.aNode(dfs)] << 
   302 	  (dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   303 	  node_name[gw.bNode(dfs)] << 
   304 	  (dfs.isBNodeNewlyReached() ? ": is newly reached." : 
   305 	   ": is not newly reached.");
   306       } else { 
   307 	cout << "invalid" << /*endl*/", " << 
   308 	  node_name[dfs.aNode()] << 
   309 	  (dfs.isANodeExamined() ? ": is examined, " : ": is not examined, ") << 
   310 	  
   311 	  "invalid.";
   312       }
   313       cout << endl;
   314     }
   315   }
   316 
   317   return 0;
   318 }