[610] | 1 | // -*- c++ -*- |
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| 2 | #ifndef HUGO_MINLENGTHPATHS_H |
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| 3 | #define HUGO_MINLENGTHPATHS_H |
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| 4 | |
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[759] | 5 | ///\ingroup flowalgs |
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[610] | 6 | ///\file |
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| 7 | ///\brief An algorithm for finding k paths of minimal total length. |
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| 8 | |
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[611] | 9 | |
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[610] | 10 | //#include <hugo/dijkstra.h> |
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| 11 | //#include <hugo/graph_wrapper.h> |
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| 12 | #include <hugo/maps.h> |
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| 13 | #include <vector> |
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| 14 | #include <hugo/mincostflows.h> |
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| 15 | |
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| 16 | namespace hugo { |
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| 17 | |
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[759] | 18 | /// \addtogroup flowalgs |
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[610] | 19 | /// @{ |
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| 20 | |
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| 21 | ///\brief Implementation of an algorithm for finding k paths between 2 nodes |
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| 22 | /// of minimal total length |
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| 23 | /// |
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| 24 | /// The class \ref hugo::MinLengthPaths "MinLengthPaths" implements |
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| 25 | /// an algorithm for finding k edge-disjoint paths |
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| 26 | /// from a given source node to a given target node in an |
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| 27 | /// edge-weighted directed graph having minimal total weigth (length). |
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| 28 | /// |
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| 29 | ///\warning It is assumed that the lengths are positive, since the |
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| 30 | /// general flow-decomposition is not implemented yet. |
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| 31 | /// |
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| 32 | ///\author Attila Bernath |
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| 33 | template <typename Graph, typename LengthMap> |
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| 34 | class MinLengthPaths{ |
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| 35 | |
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| 36 | |
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| 37 | typedef typename LengthMap::ValueType Length; |
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| 38 | |
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| 39 | typedef typename Graph::Node Node; |
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| 40 | typedef typename Graph::NodeIt NodeIt; |
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| 41 | typedef typename Graph::Edge Edge; |
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| 42 | typedef typename Graph::OutEdgeIt OutEdgeIt; |
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| 43 | typedef typename Graph::template EdgeMap<int> EdgeIntMap; |
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| 44 | |
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| 45 | typedef ConstMap<Edge,int> ConstMap; |
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| 46 | |
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| 47 | //Input |
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| 48 | const Graph& G; |
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| 49 | |
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| 50 | //Auxiliary variables |
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| 51 | //This is the capacity map for the mincostflow problem |
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| 52 | ConstMap const1map; |
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| 53 | //This MinCostFlows instance will actually solve the problem |
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| 54 | MinCostFlows<Graph, LengthMap, ConstMap> mincost_flow; |
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| 55 | |
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| 56 | //Container to store found paths |
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| 57 | std::vector< std::vector<Edge> > paths; |
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| 58 | |
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| 59 | public : |
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| 60 | |
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| 61 | |
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| 62 | MinLengthPaths(Graph& _G, LengthMap& _length) : G(_G), |
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| 63 | const1map(1), mincost_flow(_G, _length, const1map){} |
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| 64 | |
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| 65 | ///Runs the algorithm. |
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| 66 | |
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| 67 | ///Runs the algorithm. |
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| 68 | ///Returns k if there are at least k edge-disjoint paths from s to t. |
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| 69 | ///Otherwise it returns the number of found edge-disjoint paths from s to t. |
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| 70 | int run(Node s, Node t, int k) { |
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| 71 | |
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| 72 | int i = mincost_flow.run(s,t,k); |
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| 73 | |
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| 74 | |
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| 75 | |
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| 76 | //Let's find the paths |
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| 77 | //We put the paths into stl vectors (as an inner representation). |
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| 78 | //In the meantime we lose the information stored in 'reversed'. |
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| 79 | //We suppose the lengths to be positive now. |
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| 80 | |
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| 81 | //We don't want to change the flow of mincost_flow, so we make a copy |
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| 82 | //The name here suggests that the flow has only 0/1 values. |
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| 83 | EdgeIntMap reversed(G); |
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| 84 | |
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[788] | 85 | for(typename Graph::EdgeIt e(G); e!=INVALID; ++e) |
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[610] | 86 | reversed[e] = mincost_flow.getFlow()[e]; |
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| 87 | |
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| 88 | paths.clear(); |
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| 89 | //total_length=0; |
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| 90 | paths.resize(k); |
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| 91 | for (int j=0; j<i; ++j){ |
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| 92 | Node n=s; |
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| 93 | OutEdgeIt e; |
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| 94 | |
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| 95 | while (n!=t){ |
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| 96 | |
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| 97 | |
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| 98 | G.first(e,n); |
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| 99 | |
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| 100 | while (!reversed[e]){ |
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[776] | 101 | ++e; |
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[610] | 102 | } |
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| 103 | n = G.head(e); |
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| 104 | paths[j].push_back(e); |
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| 105 | //total_length += length[e]; |
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| 106 | reversed[e] = 1-reversed[e]; |
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| 107 | } |
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| 108 | |
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| 109 | } |
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| 110 | return i; |
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| 111 | } |
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| 112 | |
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| 113 | |
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| 114 | ///This function gives back the total length of the found paths. |
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| 115 | ///Assumes that \c run() has been run and nothing changed since then. |
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| 116 | Length totalLength(){ |
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| 117 | return mincost_flow.totalLength(); |
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| 118 | } |
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| 119 | |
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| 120 | ///Returns a const reference to the EdgeMap \c flow. \pre \ref run() must |
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| 121 | ///be called before using this function. |
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| 122 | const EdgeIntMap &getFlow() const { return mincost_flow.flow;} |
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| 123 | |
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| 124 | ///Returns a const reference to the NodeMap \c potential (the dual solution). |
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| 125 | /// \pre \ref run() must be called before using this function. |
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| 126 | const EdgeIntMap &getPotential() const { return mincost_flow.potential;} |
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| 127 | |
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| 128 | ///This function checks, whether the given solution is optimal |
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| 129 | ///Running after a \c run() should return with true |
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| 130 | ///In this "state of the art" this only checks optimality, doesn't bother with feasibility |
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| 131 | /// |
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| 132 | ///\todo Is this OK here? |
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| 133 | bool checkComplementarySlackness(){ |
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| 134 | return mincost_flow.checkComplementarySlackness(); |
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| 135 | } |
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| 136 | |
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| 137 | ///This function gives back the \c j-th path in argument p. |
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| 138 | ///Assumes that \c run() has been run and nothing changed since then. |
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| 139 | /// \warning It is assumed that \c p is constructed to be a path of graph \c G. If \c j is not less than the result of previous \c run, then the result here will be an empty path (\c j can be 0 as well). |
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| 140 | template<typename DirPath> |
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| 141 | void getPath(DirPath& p, size_t j){ |
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| 142 | |
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| 143 | p.clear(); |
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| 144 | if (j>paths.size()-1){ |
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| 145 | return; |
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| 146 | } |
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| 147 | typename DirPath::Builder B(p); |
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| 148 | for(typename std::vector<Edge>::iterator i=paths[j].begin(); |
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| 149 | i!=paths[j].end(); ++i ){ |
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| 150 | B.pushBack(*i); |
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| 151 | } |
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| 152 | |
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| 153 | B.commit(); |
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| 154 | } |
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| 155 | |
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| 156 | }; //class MinLengthPaths |
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| 157 | |
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| 158 | ///@} |
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| 159 | |
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| 160 | } //namespace hugo |
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| 161 | |
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| 162 | #endif //HUGO_MINLENGTHPATHS_H |
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