src/work/flow_test.cc
author alpar
Tue, 17 Feb 2004 13:26:44 +0000
changeset 92 a7f9e2fda93a
child 107 8d62f0072ff0
permissions -rw-r--r--
.
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#include <iostream>
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#include <vector>
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#include <string>
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#include <marci_list_graph.hh>
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#include <marci_graph_traits.hh>
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#include <marci_property_vector.hh>
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#include <preflow_push_hl.hh>
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#include <preflow_push_max_flow.hh>
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#include <reverse_bfs.hh>
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#include <dijkstra.hh>
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using namespace marci;
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int main (int, char*[])
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{
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  typedef graph_traits<list_graph>::node_iterator node_iterator;
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  typedef graph_traits<list_graph>::edge_iterator edge_iterator;
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  typedef graph_traits<list_graph>::each_node_iterator each_node_iterator;
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  typedef graph_traits<list_graph>::each_edge_iterator each_edge_iterator;
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  typedef graph_traits<list_graph>::out_edge_iterator out_edge_iterator;
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  typedef graph_traits<list_graph>::in_edge_iterator in_edge_iterator;
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  typedef graph_traits<list_graph>::sym_edge_iterator sym_edge_iterator;
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  list_graph flow_test;
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    //Ahuja könyv példája, maxflowvalue=13
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  node_iterator s=flow_test.add_node();
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  node_iterator v1=flow_test.add_node();
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  node_iterator v2=flow_test.add_node();
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  node_iterator v3=flow_test.add_node();
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  node_iterator v4=flow_test.add_node();
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  node_iterator v5=flow_test.add_node();
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  node_iterator t=flow_test.add_node();
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  node_property_vector<list_graph, std::string> node_name(flow_test);
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  node_name.put(s, "s");
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  node_name.put(v1, "v1");
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  node_name.put(v2, "v2");
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  node_name.put(v3, "v3");
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  node_name.put(v4, "v4");
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  node_name.put(v5, "v5");
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  node_name.put(t, "t");
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  edge_iterator s_v1=flow_test.add_edge(s, v1);
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  edge_iterator s_v2=flow_test.add_edge(s, v2);
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  edge_iterator s_v3=flow_test.add_edge(s, v3);
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  edge_iterator v2_v4=flow_test.add_edge(v2, v4);
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  edge_iterator v2_v5=flow_test.add_edge(v2, v5);
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  edge_iterator v3_v5=flow_test.add_edge(v3, v5);
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  edge_iterator v4_t=flow_test.add_edge(v4, t);
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  edge_iterator v5_t=flow_test.add_edge(v5, t);
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  edge_iterator v2_s=flow_test.add_edge(v2, s);
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  edge_property_vector<list_graph, int> cap(flow_test);  
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  cap.put(s_v1, 0);
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  cap.put(s_v2, 10);
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  cap.put(s_v3, 10);
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  cap.put(v2_v4, 5);
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  cap.put(v2_v5, 8);
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  cap.put(v3_v5, 5);
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  cap.put(v4_t, 8);
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  cap.put(v5_t, 8);
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  cap.put(v2_s, 0);
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  //Marci példája, maxflowvalue=23
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  /*  node_iterator s=flow_test.add_node();
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  node_iterator v1=flow_test.add_node();
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  node_iterator v2=flow_test.add_node();
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  node_iterator v3=flow_test.add_node();
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  node_iterator v4=flow_test.add_node();
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  node_iterator t=flow_test.add_node();
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  node_iterator w=flow_test.add_node();
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  node_property_vector<list_graph, std::string> node_name(flow_test);
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  node_name.put(s, "s");
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  node_name.put(v1, "v1");
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  node_name.put(v2, "v2");
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  node_name.put(v3, "v3");
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  node_name.put(v4, "v4");
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  node_name.put(t, "t");
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  node_name.put(w, "w");
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  edge_iterator s_v1=flow_test.add_edge(s, v1);
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  edge_iterator s_v2=flow_test.add_edge(s, v2);
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  edge_iterator v1_v2=flow_test.add_edge(v1, v2);
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  edge_iterator v2_v1=flow_test.add_edge(v2, v1);
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  edge_iterator v1_v3=flow_test.add_edge(v1, v3);
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  edge_iterator v3_v2=flow_test.add_edge(v3, v2);
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  edge_iterator v2_v4=flow_test.add_edge(v2, v4);
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  edge_iterator v4_v3=flow_test.add_edge(v4, v3);
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  edge_iterator v3_t=flow_test.add_edge(v3, t);
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  edge_iterator v4_t=flow_test.add_edge(v4, t);
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  edge_iterator v3_v3=flow_test.add_edge(v3, v3);
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  edge_iterator s_w=flow_test.add_edge(s, w);
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  //  edge_iterator v2_s=flow_test.add_edge(v2, s);
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  edge_property_vector<list_graph, int> cap(flow_test);  //serves as length in dijkstra
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  cap.put(s_v1, 16);
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  cap.put(s_v2, 13);
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  cap.put(v1_v2, 10);
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  cap.put(v2_v1, 4);
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  cap.put(v1_v3, 12);
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  cap.put(v3_v2, 9);
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  cap.put(v2_v4, 14);
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  cap.put(v4_v3, 7);
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  cap.put(v3_t, 20);
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  cap.put(v4_t, 4);
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  cap.put(v3_v3, 4);
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  cap.put(s_w, 4);
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  //  cap.put(v2_s, 0);
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*/
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  //pelda 3, maxflowvalue=4
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  /*      node_iterator s=flow_test.add_node();
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  node_iterator v1=flow_test.add_node();
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  node_iterator v2=flow_test.add_node();
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  node_iterator t=flow_test.add_node();
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  node_iterator w=flow_test.add_node();
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  node_property_vector<list_graph, std::string> node_name(flow_test);
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  node_name.put(s, "s");
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  node_name.put(v1, "v1");
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  node_name.put(v2, "v2");
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  node_name.put(t, "t");
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  node_name.put(w, "w");
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  edge_iterator s_v1=flow_test.add_edge(s, v1);
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  edge_iterator v1_v2=flow_test.add_edge(v1, v2);
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  edge_iterator v2_t=flow_test.add_edge(v2, t);
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  edge_iterator v1_v1=flow_test.add_edge(v1, v1);
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  edge_iterator s_w=flow_test.add_edge(s, w);
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  edge_property_vector<list_graph, int> cap(flow_test); 
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  cap.put(s_v1, 16);
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  cap.put(v1_v2, 10);
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  cap.put(v2_t, 4);
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  cap.put(v1_v1, 3);
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  cap.put(s_w, 5);
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  */
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  std::cout << "Testing reverse_bfs..." << std::endl;
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  reverse_bfs<list_graph> bfs_test(flow_test, t);
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  bfs_test.run();
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  for (each_node_iterator w=flow_test.first_node(); w.valid(); ++w) {
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    std::cout <<"The distance of " << w << " is " << bfs_test.dist(w) <<std::endl;
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    }
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  std::cout << "Testing preflow_push_hl..." << std::endl;
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  preflow_push_hl<list_graph, int> preflow_push_test(flow_test, s, t, cap);
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  preflow_push_test.run();
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  std::cout << "Maximum flow value is: " << preflow_push_test.maxflow() << "."<<std::endl;
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  std::cout<< "The flow on edge s-v1 is "<< preflow_push_test.flowonedge(s_v1) << "."<<std::endl;
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  edge_property_vector<list_graph, int> flow=preflow_push_test.allflow();  
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  for (each_edge_iterator e=flow_test.first_edge(); e.valid(); ++e) {
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    std::cout <<"Flow on edge " << flow_test.tail(e) <<"-" << flow_test.head(e)<< " is " <<flow.get(e) <<std::endl;
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    }
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  std::cout << "A minimum cut: " <<std::endl;  
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  node_property_vector<list_graph, bool> mincut=preflow_push_test.mincut();
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  for (each_node_iterator v=flow_test.first_node(); v.valid(); ++v) {
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      if (mincut.get(v)) std::cout <<node_name.get(v)<< " ";
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    }
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  std::cout<<"\n\n"<<std::endl;
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  std::cout << "Testing preflow_push_max_flow..." << std::endl;
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  preflow_push_max_flow<list_graph, int> max_flow_test(flow_test, s, t, cap);
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  max_flow_test.run();
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  std::cout << "Maximum flow value is: " << max_flow_test.maxflow() << "."<< std::endl;
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  std::cout << "A minimum cut: " <<std::endl;  
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  node_property_vector<list_graph, bool> mincut2=max_flow_test.mincut();
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  for (each_node_iterator v=flow_test.first_node(); v.valid(); ++v) {
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    if (mincut2.get(v)) std::cout <<node_name.get(v)<< " ";
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  }
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  std::cout << std::endl <<std::endl;
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    std::cout << "Testing dijkstra..." << std::endl;
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    node_iterator root=v2;
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    dijkstra<list_graph, int> dijkstra_test(flow_test, root, cap);
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    dijkstra_test.run();
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    for (each_node_iterator w=flow_test.first_node(); w.valid(); ++w) {
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      if (dijkstra_test.reach(w)) {
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      std::cout <<"The distance of " << w << " is " << dijkstra_test.dist(w);
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      if (dijkstra_test.pred(w).valid()) {
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      std::cout <<", a shortest path from the root ends with edge " << dijkstra_test.pred(w) <<std::endl; 
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      } else {
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       std::cout <<", this is the root."<<std::endl; }
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      } else {
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	cout << w << " is not reachable from " << root <<std::endl;
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      }
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    }
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  return 0;
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}
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