[699] | 1 | #include<math.h> |
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| 2 | #include<hugo/list_graph.h> |
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| 3 | #include<hugo/time_measure.h> |
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| 4 | #include<iostream> |
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[711] | 5 | |
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| 6 | #include"bench_tools.h" |
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[699] | 7 | |
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| 8 | using namespace hugo; |
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| 9 | |
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| 10 | ///Makes a full graph by adding and deleting a lot of edges; |
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| 11 | |
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| 12 | ///\param n Number of nodes. |
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| 13 | ///\param rat The funcion will make \f$rat\timesn^2\f$ edge addition and |
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| 14 | ///\f$(rat-1)\timesn^2\f$ deletion. |
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| 15 | ///\param p Tuning parameters. |
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| 16 | ///\warning \c rat, \c p, and \c n must be pairwise relative primes. |
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| 17 | template <class Graph> |
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| 18 | void makeFullGraph(int n, int rat, int p) |
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| 19 | { |
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| 20 | GRAPH_TYPEDEF_FACTORY(Graph); |
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| 21 | |
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| 22 | Graph G; |
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| 23 | |
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[708] | 24 | // Node nodes[n]; |
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| 25 | std::vector<Node> nodes(n); |
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[699] | 26 | for(int i=0;i<n;i++) nodes[i]=G.addNode(); |
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| 27 | |
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[708] | 28 | //Edge equ[rat]; |
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| 29 | std::vector<Edge> equ(rat); |
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[699] | 30 | |
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| 31 | unsigned long long int count; |
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| 32 | |
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| 33 | for(count=0;count<rat;count++) { |
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| 34 | equ[count%rat]=G.addEdge(nodes[(count*p)%n],nodes[(count*p/n)%n]); |
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| 35 | } |
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| 36 | for(;(count%rat)||((count*p)%n)||((count*p/n)%n);count++) { |
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| 37 | // if(!(count%1000000)) fprintf(stderr,"%d\r",count); |
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| 38 | if(count%rat) G.erase(equ[count%rat]); |
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| 39 | equ[count%rat]=G.addEdge(nodes[(count*p)%n],nodes[(count*p/n)%n]); |
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| 40 | } |
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| 41 | std::cout << "Added " << count |
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| 42 | << " ( " << n << "^2 * " << rat << " ) edges\n"; |
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| 43 | // for(int i=0;1;i++) ; |
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| 44 | } |
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| 45 | |
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| 46 | int main() |
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| 47 | { |
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| 48 | std::cout << "START: n=" << nextPrim(1000) << " rat=" |
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| 49 | << nextPrim(300) << " p=" << nextPrim(100) << '\n'; |
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| 50 | hugo::Timer T; |
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| 51 | makeFullGraph<ListGraph>(nextPrim(1000),nextPrim(300),nextPrim(100)); |
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| 52 | std::cout << T << '\n'; |
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| 53 | std::cout << "START: n=" << nextPrim(1000) << " rat=" |
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| 54 | << nextPrim(300) << " p=" << nextPrim(100) << '\n'; |
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| 55 | T.reset(); |
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| 56 | makeFullGraph<ListGraph>(nextPrim(100),nextPrim(30000),nextPrim(150)); |
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| 57 | std::cout << T << '\n'; |
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| 58 | } |
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