[72] | 1 | // -*- C++ -*- |
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| 2 | /* |
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[83] | 3 | preflow_push_hl.h |
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[72] | 4 | by jacint. |
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| 5 | Runs the highest label variant of the preflow push algorithm with |
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| 6 | running time O(n^2\sqrt(m)). |
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| 7 | |
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| 8 | Member functions: |
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| 9 | |
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| 10 | void run() : runs the algorithm |
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| 11 | |
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| 12 | The following functions should be used after run() was already run. |
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| 13 | |
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| 14 | T maxflow() : returns the value of a maximum flow |
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| 15 | |
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[83] | 16 | T flowonedge(EdgeIt e) : for a fixed maximum flow x it returns x(e) |
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[72] | 17 | |
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[83] | 18 | Graph::EdgeMap<T> allflow() : returns the fixed maximum flow x |
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[72] | 19 | |
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[83] | 20 | Graph::NodeMap<bool> mincut() : returns a |
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[72] | 21 | characteristic vector of a minimum cut. (An empty level |
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| 22 | in the algorithm gives a minimum cut.) |
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| 23 | */ |
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| 24 | |
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| 25 | #ifndef PREFLOW_PUSH_HL_H |
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| 26 | #define PREFLOW_PUSH_HL_H |
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| 27 | |
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| 28 | #include <algorithm> |
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| 29 | #include <vector> |
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| 30 | #include <stack> |
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| 31 | |
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[83] | 32 | #include <list_graph.hh> |
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[78] | 33 | #include <reverse_bfs.h> |
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[72] | 34 | |
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| 35 | namespace marci { |
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| 36 | |
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[78] | 37 | template <typename Graph, typename T> |
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[72] | 38 | class preflow_push_hl { |
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| 39 | |
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| 40 | typedef typename Graph::NodeIt NodeIt; |
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| 41 | typedef typename Graph::EdgeIt EdgeIt; |
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| 42 | typedef typename Graph::EachNodeIt EachNodeIt; |
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| 43 | typedef typename Graph::OutEdgeIt OutEdgeIt; |
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| 44 | typedef typename Graph::InEdgeIt InEdgeIt; |
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| 45 | |
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| 46 | Graph& G; |
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| 47 | NodeIt s; |
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| 48 | NodeIt t; |
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[78] | 49 | typename Graph::EdgeMap<T> flow; |
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| 50 | typename Graph::EdgeMap<T> capacity; |
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[72] | 51 | T value; |
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[78] | 52 | typename Graph::NodeMap<bool> mincutvector; |
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[72] | 53 | |
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| 54 | public: |
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| 55 | |
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| 56 | preflow_push_hl(Graph& _G, NodeIt _s, NodeIt _t, |
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[78] | 57 | typename Graph::EdgeMap<T>& _capacity) : |
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[83] | 58 | G(_G), s(_s), t(_t), flow(_G, 0), capacity(_capacity), |
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| 59 | mincutvector(_G, true) { } |
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[72] | 60 | |
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| 61 | |
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| 62 | /* |
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| 63 | The run() function runs the highest label preflow-push, |
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| 64 | running time: O(n^2\sqrt(m)) |
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| 65 | */ |
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| 66 | void run() { |
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| 67 | |
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[83] | 68 | int i=0;//DELME |
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| 69 | |
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| 70 | typename Graph::NodeMap<int> level(G); |
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| 71 | typename Graph::NodeMap<T> excess(G); |
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[72] | 72 | |
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[83] | 73 | int n=G.nodeNum(); |
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| 74 | int b=n-2; |
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| 75 | /* |
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| 76 | b is a bound on the highest level of an active node. |
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| 77 | In the beginning it is at most n-2. |
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| 78 | */ |
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[72] | 79 | |
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[83] | 80 | std::vector<std::stack<NodeIt> > stack(2*n-1); |
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| 81 | //Stack of the active nodes in level i. |
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[72] | 82 | |
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| 83 | |
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| 84 | /*Reverse_bfs from t, to find the starting level.*/ |
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[78] | 85 | reverse_bfs<Graph> bfs(G, t); |
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[72] | 86 | bfs.run(); |
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[83] | 87 | for(EachNodeIt v=G.template first<EachNodeIt>(); v.valid(); ++v) |
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| 88 | { |
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| 89 | level.set(v, bfs.dist(v)); |
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| 90 | } |
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[72] | 91 | |
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[83] | 92 | std::cout << "the level of t is " << bfs.dist(t);//delme |
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| 93 | |
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[72] | 94 | level.set(s,n); |
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| 95 | |
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| 96 | |
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[83] | 97 | /* Starting flow. It is everywhere 0 at the moment. */ |
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| 98 | for(OutEdgeIt e=G.template first<OutEdgeIt>(s); e.valid(); ++e) |
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[72] | 99 | { |
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[83] | 100 | if ( capacity.get(e) > 0 ) { |
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| 101 | NodeIt w=G.head(e); |
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| 102 | flow.set(e, capacity.get(e)); |
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| 103 | stack[level.get(w)].push(w); |
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| 104 | excess.set(w, excess.get(w)+capacity.get(e)); |
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| 105 | } |
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[72] | 106 | } |
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| 107 | |
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| 108 | |
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| 109 | /* |
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| 110 | End of preprocessing |
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| 111 | */ |
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| 112 | |
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| 113 | |
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| 114 | |
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| 115 | /* |
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| 116 | Push/relabel on the highest level active Nodes. |
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| 117 | */ |
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| 118 | |
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| 119 | /*While there exists active Node.*/ |
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| 120 | while (b) { |
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| 121 | |
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| 122 | /*We decrease the bound if there is no active Node of level b.*/ |
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| 123 | if (stack[b].empty()) { |
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| 124 | --b; |
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| 125 | } else { |
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| 126 | |
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| 127 | NodeIt w=stack[b].top(); //w is the highest label active Node. |
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| 128 | stack[b].pop(); //We delete w from the stack. |
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| 129 | |
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| 130 | int newlevel=2*n-2; //In newlevel we maintain the next level of w. |
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| 131 | |
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| 132 | for(OutEdgeIt e=G.template first<OutEdgeIt>(w); e.valid(); ++e) { |
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| 133 | NodeIt v=G.head(e); |
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| 134 | /*e is the Edge wv.*/ |
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| 135 | |
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| 136 | if (flow.get(e)<capacity.get(e)) { |
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| 137 | /*e is an Edge of the residual graph */ |
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| 138 | |
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| 139 | if(level.get(w)==level.get(v)+1) { |
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| 140 | /*Push is allowed now*/ |
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| 141 | |
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| 142 | if (capacity.get(e)-flow.get(e) > excess.get(w)) { |
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| 143 | /*A nonsaturating push.*/ |
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| 144 | |
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| 145 | if (excess.get(v)==0 && v != s) stack[level.get(v)].push(v); |
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| 146 | /*v becomes active.*/ |
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[83] | 147 | |
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| 148 | //std::cout<<++i; |
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[72] | 149 | |
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| 150 | flow.set(e, flow.get(e)+excess.get(w)); |
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| 151 | excess.set(v, excess.get(v)+excess.get(w)); |
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| 152 | excess.set(w,0); |
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| 153 | //std::cout << w << " " << v <<" elore elen nonsat pump " << std::endl; |
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| 154 | break; |
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| 155 | } else { |
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| 156 | /*A saturating push.*/ |
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| 157 | |
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| 158 | if (excess.get(v)==0 && v != s) stack[level.get(v)].push(v); |
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| 159 | /*v becomes active.*/ |
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| 160 | |
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| 161 | excess.set(v, excess.get(v)+capacity.get(e)-flow.get(e)); |
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| 162 | excess.set(w, excess.get(w)-capacity.get(e)+flow.get(e)); |
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| 163 | flow.set(e, capacity.get(e)); |
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| 164 | //std::cout << w<<" " <<v<<" elore elen sat pump " << std::endl; |
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| 165 | if (excess.get(w)==0) break; |
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| 166 | /*If w is not active any more, then we go on to the next Node.*/ |
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| 167 | |
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[83] | 168 | //std::cout<<++i; |
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| 169 | |
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[72] | 170 | } // if (capacity.get(e)-flow.get(e) > excess.get(w)) |
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| 171 | } // if(level.get(w)==level.get(v)+1) |
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| 172 | |
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| 173 | else {newlevel = newlevel < level.get(v) ? newlevel : level.get(v);} |
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| 174 | |
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| 175 | } //if (flow.get(e)<capacity.get(e)) |
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| 176 | |
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| 177 | } //for(OutEdgeIt e=G.first_OutEdge(w); e.valid(); ++e) |
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| 178 | |
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| 179 | |
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| 180 | |
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| 181 | for(InEdgeIt e=G.template first<InEdgeIt>(w); e.valid(); ++e) { |
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| 182 | NodeIt v=G.tail(e); |
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| 183 | /*e is the Edge vw.*/ |
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| 184 | |
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| 185 | if (excess.get(w)==0) break; |
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| 186 | /*It may happen, that w became inactive in the first for cycle.*/ |
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| 187 | if(flow.get(e)>0) { |
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| 188 | /*e is an Edge of the residual graph */ |
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| 189 | |
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| 190 | if(level.get(w)==level.get(v)+1) { |
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| 191 | /*Push is allowed now*/ |
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| 192 | |
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| 193 | if (flow.get(e) > excess.get(w)) { |
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| 194 | /*A nonsaturating push.*/ |
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| 195 | |
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| 196 | if (excess.get(v)==0 && v != s) stack[level.get(v)].push(v); |
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| 197 | /*v becomes active.*/ |
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| 198 | |
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| 199 | flow.set(e, flow.get(e)-excess.get(w)); |
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| 200 | excess.set(v, excess.get(v)+excess.get(w)); |
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| 201 | excess.set(w,0); |
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| 202 | //std::cout << v << " " << w << " vissza elen nonsat pump " << std::endl; |
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| 203 | break; |
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| 204 | } else { |
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| 205 | /*A saturating push.*/ |
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| 206 | |
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| 207 | if (excess.get(v)==0 && v != s) stack[level.get(v)].push(v); |
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| 208 | /*v becomes active.*/ |
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| 209 | |
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| 210 | excess.set(v, excess.get(v)+flow.get(e)); |
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| 211 | excess.set(w, excess.get(w)-flow.get(e)); |
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| 212 | flow.set(e,0); |
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| 213 | //std::cout << v <<" " << w << " vissza elen sat pump " << std::endl; |
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| 214 | if (excess.get(w)==0) { break;} |
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| 215 | } //if (flow.get(e) > excess.get(v)) |
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| 216 | } //if(level.get(w)==level.get(v)+1) |
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| 217 | |
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| 218 | else {newlevel = newlevel < level.get(v) ? newlevel : level.get(v);} |
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| 219 | |
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| 220 | |
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| 221 | } //if (flow.get(e)>0) |
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| 222 | |
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| 223 | } //for |
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| 224 | |
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| 225 | |
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| 226 | if (excess.get(w)>0) { |
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| 227 | level.set(w,++newlevel); |
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| 228 | stack[newlevel].push(w); |
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| 229 | b=newlevel; |
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| 230 | //std::cout << "The new level of " << w << " is "<< newlevel <<std::endl; |
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| 231 | } |
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| 232 | |
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| 233 | |
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| 234 | } //else |
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| 235 | |
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| 236 | } //while(b) |
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| 237 | |
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| 238 | value = excess.get(t); |
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| 239 | /*Max flow value.*/ |
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| 240 | |
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| 241 | |
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| 242 | |
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| 243 | |
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| 244 | } //void run() |
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| 245 | |
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| 246 | |
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| 247 | |
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| 248 | |
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| 249 | |
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| 250 | /* |
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| 251 | Returns the maximum value of a flow. |
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| 252 | */ |
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| 253 | |
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| 254 | T maxflow() { |
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| 255 | return value; |
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| 256 | } |
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| 257 | |
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| 258 | |
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| 259 | |
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| 260 | /* |
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| 261 | For the maximum flow x found by the algorithm, it returns the flow value on Edge e, i.e. x(e). |
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| 262 | */ |
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| 263 | |
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| 264 | T flowonEdge(EdgeIt e) { |
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| 265 | return flow.get(e); |
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| 266 | } |
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| 267 | |
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| 268 | |
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| 269 | |
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| 270 | /* |
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| 271 | Returns the maximum flow x found by the algorithm. |
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| 272 | */ |
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| 273 | |
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[78] | 274 | typename Graph::EdgeMap<T> allflow() { |
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[72] | 275 | return flow; |
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| 276 | } |
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| 277 | |
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| 278 | |
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| 279 | |
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| 280 | /* |
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| 281 | Returns a minimum cut by using a reverse bfs from t in the residual graph. |
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| 282 | */ |
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| 283 | |
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[78] | 284 | typename Graph::NodeMap<bool> mincut() { |
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[72] | 285 | |
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| 286 | std::queue<NodeIt> queue; |
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| 287 | |
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| 288 | mincutvector.set(t,false); |
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| 289 | queue.push(t); |
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| 290 | |
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| 291 | while (!queue.empty()) { |
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| 292 | NodeIt w=queue.front(); |
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| 293 | queue.pop(); |
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| 294 | |
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| 295 | for(InEdgeIt e=G.template first<InEdgeIt>(w) ; e.valid(); ++e) { |
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| 296 | NodeIt v=G.tail(e); |
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| 297 | if (mincutvector.get(v) && flow.get(e) < capacity.get(e) ) { |
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| 298 | queue.push(v); |
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| 299 | mincutvector.set(v, false); |
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| 300 | } |
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| 301 | } // for |
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| 302 | |
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| 303 | for(OutEdgeIt e=G.template first<OutEdgeIt>(w) ; e.valid(); ++e) { |
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| 304 | NodeIt v=G.head(e); |
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| 305 | if (mincutvector.get(v) && flow.get(e) > 0 ) { |
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| 306 | queue.push(v); |
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| 307 | mincutvector.set(v, false); |
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| 308 | } |
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| 309 | } // for |
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| 310 | |
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| 311 | } |
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| 312 | |
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| 313 | return mincutvector; |
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| 314 | |
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| 315 | } |
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| 316 | }; |
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| 317 | }//namespace marci |
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| 318 | #endif |
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| 319 | |
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| 320 | |
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| 321 | |
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| 322 | |
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