[384] | 1 | //Tests dijsktra.h with two heap implementations: |
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| 2 | //the default binary heap of bin_heap.h, and the |
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| 3 | //Fibonacci heap of fib_heap.h. |
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| 4 | |
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| 5 | //The input is a graph in standard dimacs format from the standard input (like |
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[422] | 6 | //in /hugo_loc/testfiles/dimacs). It runs dijkstra.h on this graph with both |
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| 7 | //heaps, checking two postconditions: |
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[384] | 8 | |
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| 9 | //- if the edges e=uv of the shortest path tree reported by dijkstra.h have |
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| 10 | //dist(v)-dist(u)=length(e) |
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| 11 | |
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| 12 | // - if all edges e=uv with u reachable from the root have |
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| 13 | //dist(v)-dist(u)>=length(e) |
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| 14 | #include <iostream> |
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| 15 | #include <math.h> |
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| 16 | |
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[542] | 17 | #include <hugo/smart_graph.h> |
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| 18 | #include <hugo/dimacs.h> |
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| 19 | #include <hugo/dijkstra.h> |
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| 20 | #include <hugo/time_measure.h> |
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| 21 | #include <hugo/bin_heap.h> |
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| 22 | #include <hugo/fib_heap.h> |
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[384] | 23 | |
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| 24 | using namespace hugo; |
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| 25 | |
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| 26 | int main(int, char **) { |
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| 27 | |
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| 28 | typedef SmartGraph Graph; |
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| 29 | |
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| 30 | typedef Graph::Edge Edge; |
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| 31 | typedef Graph::Node Node; |
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| 32 | typedef Graph::EdgeIt EdgeIt; |
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| 33 | typedef Graph::NodeIt NodeIt; |
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| 34 | typedef Graph::EdgeMap<int> LengthMap; |
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| 35 | |
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| 36 | Graph G; |
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| 37 | Node s, t; |
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| 38 | LengthMap cap(G); |
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| 39 | readDimacsMaxFlow(std::cin, G, s, t, cap); |
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| 40 | Timer ts; |
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| 41 | |
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| 42 | std::cout << |
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| 43 | "\n Testing dijkstra.h with binary heap implementation bin_heap.h," |
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| 44 | <<std::endl; |
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| 45 | std::cout<<" on a graph with " << |
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| 46 | G.nodeNum() << " nodes and " << G.edgeNum() << " edges..." |
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| 47 | << std::endl<<std::endl; |
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| 48 | |
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| 49 | Dijkstra<Graph, LengthMap> |
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| 50 | dijkstra_test(G, cap); |
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| 51 | ts.reset(); |
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| 52 | dijkstra_test.run(s); |
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| 53 | std::cout << "elapsed time: " << ts << std::endl; |
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| 54 | |
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| 55 | int error1=0; |
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| 56 | int error2=0; |
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| 57 | |
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[449] | 58 | EdgeIt e; |
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[776] | 59 | for(G.first(e); e!=INVALID; ++e) { |
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[384] | 60 | Node u=G.tail(e); |
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| 61 | Node v=G.head(e); |
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| 62 | if ( dijkstra_test.dist(v) - dijkstra_test.dist(u) > cap[e] ) |
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| 63 | if ( dijkstra_test.reached(u) ) { |
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| 64 | std::cout<<"Error! dist(head)-dist(tail)- edge_length= " |
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| 65 | <<dijkstra_test.dist(v) - dijkstra_test.dist(u) |
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| 66 | - cap[e]<<std::endl; |
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| 67 | ++error1; |
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| 68 | } |
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| 69 | } |
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| 70 | |
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[449] | 71 | NodeIt v; |
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[776] | 72 | for(G.first(v); v!=INVALID; ++v) { |
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[384] | 73 | if ( dijkstra_test.reached(v) ) { |
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| 74 | Edge e=dijkstra_test.pred(v); |
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| 75 | Node u=G.tail(e); |
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| 76 | if ( dijkstra_test.dist(v) - dijkstra_test.dist(u) != cap[e] ) { |
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| 77 | std::cout<<"Error in a shortest path tree edge! Difference: " |
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| 78 | <<std::abs(dijkstra_test.dist(v) - dijkstra_test.dist(u) |
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| 79 | - cap[e])<<std::endl; |
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| 80 | ++error2; |
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| 81 | } |
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| 82 | } |
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| 83 | } |
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| 84 | |
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| 85 | |
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| 86 | |
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| 87 | std::cout << error1 << " non-tree and " << error2 |
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| 88 | << " shortest path tree edge is erroneous."<<std::endl; |
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| 89 | |
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| 90 | |
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| 91 | |
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| 92 | std::cout << |
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[449] | 93 | "\n\n Testing dijkstra.h with Fibonacci heap implementation fib_heap.h," |
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[384] | 94 | <<std::endl; |
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| 95 | std::cout<<" on a graph with " << |
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| 96 | G.nodeNum() << " nodes and " << G.edgeNum() << " edges..." |
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| 97 | << std::endl<<std::endl; |
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| 98 | |
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| 99 | Dijkstra<Graph, LengthMap, FibHeap> |
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| 100 | dijkstra_test2(G, cap); |
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| 101 | ts.reset(); |
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| 102 | dijkstra_test2.run(s); |
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| 103 | std::cout << "elapsed time: " << ts << std::endl; |
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| 104 | |
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| 105 | error1=0; |
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| 106 | error2=0; |
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| 107 | |
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[776] | 108 | for(G.first(e); e!=INVALID; ++e) { |
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[384] | 109 | Node u=G.tail(e); |
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| 110 | Node v=G.head(e); |
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| 111 | if ( dijkstra_test2.dist(v) - dijkstra_test2.dist(u) > cap[e] ) |
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| 112 | if ( dijkstra_test2.reached(u) ) { |
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| 113 | std::cout<<"Error! dist(head)-dist(tail)- edge_length= " |
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| 114 | <<dijkstra_test2.dist(v) - dijkstra_test2.dist(u) |
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| 115 | - cap[e]<<std::endl; |
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| 116 | ++error1; |
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| 117 | } |
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| 118 | } |
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| 119 | |
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[776] | 120 | for(G.first(v); v!=INVALID; ++v) { |
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[384] | 121 | if ( dijkstra_test2.reached(v) ) { |
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| 122 | Edge e=dijkstra_test2.pred(v); |
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| 123 | Node u=G.tail(e); |
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| 124 | if ( dijkstra_test2.dist(v) - dijkstra_test2.dist(u) != cap[e] ) { |
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| 125 | std::cout<<"Error in a shortest path tree edge! Difference: " |
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| 126 | <<std::abs(dijkstra_test2.dist(v) - dijkstra_test2.dist(u) |
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| 127 | - cap[e])<<std::endl; |
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| 128 | ++error2; |
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| 129 | } |
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| 130 | } |
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| 131 | } |
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| 132 | |
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| 133 | |
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| 134 | std::cout << error1 << " non-tree and " << error2 |
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| 135 | << " shortest path tree edge is erroneous."<<std::endl; |
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| 136 | |
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| 137 | |
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| 138 | return 0; |
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| 139 | } |
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