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1 #include <iostream> |
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2 #include <vector> |
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3 #include <string> |
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4 |
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5 #include <marci_list_graph.hh> |
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6 #include <marci_graph_traits.hh> |
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7 #include <marci_property_vector.hh> |
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8 #include <marci_bfs.hh> |
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9 #include <marci_max_flow.hh> |
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10 |
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11 using namespace marci; |
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12 |
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13 int main (int, char*[]) |
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14 { |
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15 typedef graph_traits<list_graph>::node_iterator node_iterator; |
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16 typedef graph_traits<list_graph>::edge_iterator edge_iterator; |
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17 typedef graph_traits<list_graph>::each_node_iterator each_node_iterator; |
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18 typedef graph_traits<list_graph>::each_edge_iterator each_edge_iterator; |
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19 typedef graph_traits<list_graph>::out_edge_iterator out_edge_iterator; |
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20 typedef graph_traits<list_graph>::in_edge_iterator in_edge_iterator; |
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21 typedef graph_traits<list_graph>::sym_edge_iterator sym_edge_iterator; |
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22 |
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23 list_graph G; |
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24 std::vector<node_iterator> vector_of_node_iterators; |
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25 for(int i=0; i!=8; ++i) vector_of_node_iterators.push_back(G.add_node()); |
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26 for(int i=0; i!=8; ++i) |
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27 for(int j=0; j!=8; ++j) { |
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28 if ((i<j)&&(i+j)%3) G.add_edge(vector_of_node_iterators[i], vector_of_node_iterators[j]); |
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29 } |
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30 |
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31 std::cout << "We construct a directed graph on the node set {0,1,2,...,7}," <<std::endl << "i-->j is arc iff i<j and (i+j)%3." << std::endl; |
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32 std::cout << "number of nodes: " << number_of<each_node_iterator>(G.first_node()) << std::endl; |
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33 |
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34 for(each_node_iterator i=G.first_node(); i.is_valid(); ++i) { |
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35 std::cout << "node " << G.id(i) << std::endl; |
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36 std::cout << " outdegree (out_edge_iterator): " << number_of(G.first_out_edge(i)) << " "; |
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37 for(out_edge_iterator j=G.first_out_edge(i); j.is_valid(); ++j) { |
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38 std::cout << "(" << G.id(G.tail(j)) << "--" << G.id(j) << "->" << G.id(G.head(j)) << ") "; |
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39 } |
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40 std::cout << std::endl; |
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41 std::cout << " indegree: (in_edge_oterator) " << number_of(G.first_in_edge(i)) << " "; |
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42 for(in_edge_iterator j=G.first_in_edge(i); j.is_valid(); ++j) { |
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43 std::cout << j << " "; } |
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44 std::cout << std::endl; |
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45 std::cout << " degree: (sym_edge_iterator) " << number_of(G.first_sym_edge(i)) << " "; |
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46 for(sym_edge_iterator j=G.first_sym_edge(i); j.is_valid(); ++j) { |
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47 std::cout << j << " "; } |
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48 std::cout<<std::endl; |
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49 } |
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50 |
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51 std::cout << "all edges: "; |
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52 for(each_edge_iterator i=G.first_edge(); i.is_valid(); ++i) { |
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53 std::cout << i << " "; |
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54 } |
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55 std::cout << std::endl; |
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56 |
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57 std::cout << "node property array test" << std::endl; |
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58 node_property_vector<list_graph, int> my_property_vector(G); |
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59 each_node_iterator v; |
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60 G.get_first(v); |
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61 my_property_vector.put(v, 42); |
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62 my_property_vector.put(++G.first_node(), 314); |
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63 my_property_vector.put(++++G.first_node(), 1956); |
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64 my_property_vector.put(vector_of_node_iterators[3], 1989); |
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65 my_property_vector.put(vector_of_node_iterators[4], 2003); |
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66 my_property_vector.put(vector_of_node_iterators[7], 1978); |
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67 std::cout << "some node property values..." << std::endl; |
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68 for(each_node_iterator i=G.first_node(); i.is_valid(); ++i) { |
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69 std::cout << my_property_vector.get(i) << std::endl; |
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70 } |
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71 int _i=1; |
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72 int _ii=1; |
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73 edge_property_vector<list_graph, int> my_edge_property(G); |
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74 for(each_edge_iterator i=G.first_edge(); i.is_valid(); ++i) { |
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75 my_edge_property.put(i, _i); |
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76 _i*=_ii; ++_ii; |
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77 } |
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78 |
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79 std::cout << "node and edge property values on the tails and heads of edges..." << std::endl; |
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80 for(each_edge_iterator j=G.first_edge(); j.is_valid(); ++j) { |
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81 std::cout << my_property_vector.get(G.tail(j)) << "--" << my_edge_property.get(j) << "-->" << my_property_vector.get(G.head(j)) << " "; |
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82 } |
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83 std::cout << std::endl; |
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84 |
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85 //std::cout << "the same for inedges of the nodes..." << std::endl; |
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86 //k=0; |
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87 //for(each_node_iterator i=G.first_node(); i.is_valid(); ++i) { |
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88 // for(in_edge_iterator j=G.first_in_edge(i); j.is_valid(); ++j) { |
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89 // std::cout << my_property_vector.get(G.tail(j)) << "-->" << my_property_vector.get(G.head(j)) << " "; |
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90 // } |
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91 // std::cout << std::endl; |
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92 //} |
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93 |
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94 std::cout << "bfs from the first node" << std::endl; |
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95 bfs<list_graph> bfs_test(G, G.first_node()); |
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96 bfs_test.run(); |
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97 std::cout << "reached: "; |
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98 for(each_node_iterator i=G.first_node(); i.is_valid(); ++i) { |
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99 std::cout << bfs_test.reached.get(i) << " "; |
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100 } |
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101 std::cout<<std::endl; |
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102 std::cout << "dist: "; |
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103 for(each_node_iterator i=G.first_node(); i.is_valid(); ++i) { |
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104 std::cout << bfs_test.dist.get(i) << " "; |
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105 } |
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106 std::cout<<std::endl; |
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107 |
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108 |
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109 std::cout << "augmenting path flow algorithm test..." << std::endl; |
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110 list_graph flow_test; |
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111 |
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112 node_iterator s=flow_test.add_node(); |
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113 node_iterator v1=flow_test.add_node(); |
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114 node_iterator v2=flow_test.add_node(); |
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115 node_iterator v3=flow_test.add_node(); |
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116 node_iterator v4=flow_test.add_node(); |
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117 node_iterator t=flow_test.add_node(); |
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118 |
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119 node_property_vector<list_graph, std::string> node_name(flow_test); |
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120 node_name.put(s, "s"); |
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121 node_name.put(v1, "v1"); |
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122 node_name.put(v2, "v2"); |
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123 node_name.put(v3, "v3"); |
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124 node_name.put(v4, "v4"); |
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125 node_name.put(t, "t"); |
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126 |
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127 edge_iterator s_v1=flow_test.add_edge(s, v1); |
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128 edge_iterator s_v2=flow_test.add_edge(s, v2); |
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129 edge_iterator v1_v2=flow_test.add_edge(v1, v2); |
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130 edge_iterator v2_v1=flow_test.add_edge(v2, v1); |
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131 edge_iterator v1_v3=flow_test.add_edge(v1, v3); |
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132 edge_iterator v3_v2=flow_test.add_edge(v3, v2); |
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133 edge_iterator v2_v4=flow_test.add_edge(v2, v4); |
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134 edge_iterator v4_v3=flow_test.add_edge(v4, v3); |
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135 edge_iterator v3_t=flow_test.add_edge(v3, t); |
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136 edge_iterator v4_t=flow_test.add_edge(v4, t); |
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137 |
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138 edge_property_vector<list_graph, int> cap(flow_test); |
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139 |
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140 cap.put(s_v1, 16); |
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141 cap.put(s_v2, 13); |
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142 cap.put(v1_v2, 10); |
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143 cap.put(v2_v1, 4); |
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144 cap.put(v1_v3, 12); |
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145 cap.put(v3_v2, 9); |
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146 cap.put(v2_v4, 14); |
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147 cap.put(v4_v3, 7); |
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148 cap.put(v3_t, 20); |
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149 cap.put(v4_t, 4); |
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150 |
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151 std::cout << "on directed graph graph" << std::endl; //<< flow_test; |
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152 std::cout << "names and capacity values" << std::endl; |
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153 for(each_node_iterator i=flow_test.first_node(); i.is_valid(); ++i) { |
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154 std::cout << node_name.get(i) << ": "; |
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155 std::cout << "out edges: "; |
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156 for(out_edge_iterator j=flow_test.first_out_edge(i); j.is_valid(); ++j) |
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157 std::cout << node_name.get(flow_test.tail(j)) << "-"<< cap.get(j) << "->" << node_name.get(flow_test.head(j)) << " "; |
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158 std::cout << "in edges: "; |
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159 for(in_edge_iterator j=flow_test.first_in_edge(i); j.is_valid(); ++j) |
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160 std::cout << node_name.get(flow_test.tail(j)) << "-"<< cap.get(j) << "->" << node_name.get(flow_test.head(j)) << " "; |
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161 std::cout << std::endl; |
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162 } |
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163 |
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164 |
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165 //for(each_node_iterator i=flow_test.first_node(); i.is_valid(); ++i) { |
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166 // std::cout << i << " "; |
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167 //} |
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168 |
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169 max_flow_type<list_graph, int> max_flow_test(flow_test, s, t, cap); |
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170 max_flow_test.run(); |
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171 |
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172 return 0; |
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173 } |