benchmark/bench_tools.h
author alpar
Wed, 16 Nov 2005 13:39:29 +0000
changeset 1808 c499025ca638
parent 1689 f1795dafe42c
child 1956 a055123339d5
permissions -rw-r--r--
wirteable -> writable
     1 // -*- mode:C++ -*-
     2 #ifndef LEMON_BENCH_TEST_H
     3 #define LEMON_BENCH_TEST_H
     4 
     5 #include<vector>
     6 #include<iostream>
     7 
     8 #include<lemon/graph_utils.h>
     9 #include<lemon/time_measure.h>
    10 
    11 ///A primitive primtest
    12 
    13 ///\bug 2 is not a prime according to this function!
    14 ///
    15 ///\bug This function should go out of header file. I'm making it
    16 /// inline for now.
    17 inline bool isPrim(int n)
    18 {
    19   if(n%2) {
    20     for(int k=3;n/k>=k;k+=2)
    21       if(!(n%k)) return false;
    22     return true;
    23   }
    24   return false;
    25 }
    26 
    27 ///Finds the smallest prime not less then \c n.
    28 
    29 ///\bug This function should go out of header file. I'm making it
    30 /// inline for now.
    31 inline int nextPrim(int n)
    32 {
    33   for(n+=!(n%2);!isPrim(n);n+=2) ;
    34   return n;
    35 }
    36 
    37 
    38 /// Class to generate consecutive primes
    39 class Primes 
    40 {
    41   std::vector<int> primes;
    42   int n;
    43   
    44   bool isPrime(int m) 
    45   {
    46     for(int i=0;m<primes[i]*primes[i];i++) if(!(m%primes[i])) return false;
    47     return true;
    48   }
    49 public:
    50   Primes() : n(1) {}
    51   
    52   int operator() ()
    53     {
    54       if(primes.size()==0) {
    55 	primes.push_back(2);
    56 	return 2;
    57       }
    58       else {
    59 	do n+=2; while(!isPrime(n));
    60 	primes.push_back(n);
    61 	return n;
    62       }
    63     }
    64 };
    65 
    66 inline void PrintTime(char *ID,lemon::Timer &T) 
    67 {
    68   lemon::TimeStamp S(T);
    69   std::cout << ID << ' ' << S.userTime() << ' '
    70 	    << S.systemTime() << ' ' << S.realTime() << std::endl;
    71 }
    72 
    73 
    74 
    75 ///
    76 template<class Graph>
    77 void addHyperCube(Graph &G,int dim,std::vector<typename Graph::Node> &nodes)
    78 {
    79   GRAPH_TYPEDEFS(typename Graph);
    80   
    81   std::vector<int> bits(dim+1);
    82   bits[0]=1;
    83   for(int i=1;i<=dim;i++) bits[i]=2*bits[i-1];
    84   
    85   for(int i=0;i<bits[dim];i++) {
    86     nodes.push_back(G.addNode());
    87     for(int j=0;j<dim;j++) if(i&bits[j]) G.addEdge(nodes[i-bits[j]],nodes[i]);
    88   }
    89 }
    90 
    91 ///
    92 template<class Graph>
    93 void addBiDirHyperCube(Graph &G,int dim,std::vector<typename Graph::Node>&nodes)
    94 {
    95   GRAPH_TYPEDEFS(typename Graph);
    96   
    97   std::vector<int> bits(dim+1);
    98   bits[0]=1;
    99   for(int i=1;i<=dim;i++) bits[i]=2*bits[i-1];
   100   
   101   for(int i=0;i<bits[dim];i++) {
   102     nodes.push_back(G.addNode());
   103     for(int j=0;j<dim;j++) if(i&bits[j]) {
   104       G.addEdge(nodes[i-bits[j]],nodes[i]);
   105       G.addEdge(nodes[i],nodes[i-bits[j]]);
   106     }
   107     
   108   }
   109 }  
   110 
   111 #endif