1 #include <iostream> |
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2 #include <vector> |
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3 |
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4 #include <lemon/maps.h> |
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5 #include <lemon/kruskal.h> |
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6 #include <lemon/list_graph.h> |
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7 |
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8 |
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9 using namespace std; |
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10 using namespace lemon; |
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11 |
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12 |
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13 int main() { |
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14 |
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15 typedef ListGraph::Node Node; |
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16 typedef ListGraph::Edge Edge; |
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17 typedef ListGraph::NodeIt NodeIt; |
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18 typedef ListGraph::EdgeIt EdgeIt; |
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19 |
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20 ListGraph G; |
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21 |
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22 Node s=G.addNode(); |
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23 Node v1=G.addNode(); |
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24 Node v2=G.addNode(); |
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25 Node v3=G.addNode(); |
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26 Node v4=G.addNode(); |
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27 Node t=G.addNode(); |
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28 |
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29 Edge e1 = G.addEdge(s, v1); |
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30 Edge e2 = G.addEdge(s, v2); |
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31 Edge e3 = G.addEdge(v1, v2); |
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32 Edge e4 = G.addEdge(v2, v1); |
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33 Edge e5 = G.addEdge(v1, v3); |
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34 Edge e6 = G.addEdge(v3, v2); |
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35 Edge e7 = G.addEdge(v2, v4); |
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36 Edge e8 = G.addEdge(v4, v3); |
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37 Edge e9 = G.addEdge(v3, t); |
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38 Edge e10 = G.addEdge(v4, t); |
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39 |
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40 typedef ListGraph::EdgeMap<int> ECostMap; |
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41 typedef ListGraph::EdgeMap<bool> EBoolMap; |
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42 |
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43 ECostMap edge_cost_map(G, 2); |
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44 EBoolMap tree_map(G); |
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45 |
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46 |
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47 //Test with const map. |
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48 std::cout << "The weight of the minimum spanning tree is " << kruskalEdgeMap(G, ConstMap<ListGraph::Edge,int>(2), tree_map)<<std::endl; |
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49 |
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50 /* |
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51 ==10, |
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52 "Total cost should be 10"); |
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53 //Test with a edge map (filled with uniform costs). |
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54 check(kruskalEdgeMap(G, edge_cost_map, tree_map)==10, |
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55 "Total cost should be 10"); |
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56 |
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57 edge_cost_map.set(e1, -10); |
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58 edge_cost_map.set(e2, -9); |
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59 edge_cost_map.set(e3, -8); |
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60 edge_cost_map.set(e4, -7); |
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61 edge_cost_map.set(e5, -6); |
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62 edge_cost_map.set(e6, -5); |
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63 edge_cost_map.set(e7, -4); |
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64 edge_cost_map.set(e8, -3); |
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65 edge_cost_map.set(e9, -2); |
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66 edge_cost_map.set(e10, -1); |
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67 |
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68 vector<Edge> tree_edge_vec; |
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69 |
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70 //Test with a edge map and inserter. |
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71 check(kruskalEdgeMap_IteratorOut(G, edge_cost_map, |
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72 back_inserter(tree_edge_vec)) |
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73 ==-31, |
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74 "Total cost should be -31."); |
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75 |
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76 tree_edge_vec.clear(); |
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77 |
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78 //The above test could also be coded like this: |
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79 check(kruskal(G, |
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80 makeKruskalMapInput(G, edge_cost_map), |
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81 makeKruskalSequenceOutput(back_inserter(tree_edge_vec))) |
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82 ==-31, |
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83 "Total cost should be -31."); |
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84 |
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85 check(tree_edge_vec.size()==5,"The tree should have 5 edges."); |
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86 |
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87 check(tree_edge_vec[0]==e1 && |
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88 tree_edge_vec[1]==e2 && |
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89 tree_edge_vec[2]==e5 && |
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90 tree_edge_vec[3]==e7 && |
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91 tree_edge_vec[4]==e9, |
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92 "Wrong tree."); |
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93 */ |
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94 return 0; |
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95 } |
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