benchmark/random_bench.cc
author alpar
Tue, 20 Feb 2007 15:53:33 +0000
changeset 2375 e30a0fdad0d7
child 2391 14a343be7a5a
permissions -rw-r--r--
A preflow based general network circulation algorithm and a simple demo
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#include<stdlib.h>
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#include<lemon/random.h>
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#include<lemon/time_measure.h>
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using namespace lemon;
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void f_no() 
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{
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}
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inline void f_noi() 
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{
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}
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inline void f_i() 
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{
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  static int r;  
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  r=5;
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}
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inline void f_l() 
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{
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  static long int r;
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  r=5;
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}
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inline void f_d() 
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{
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  static double r;
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  r=5;
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}
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inline void f_rand() 
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{
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  static int r;  
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  r=rand();
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}
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inline void f_random() 
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{
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  static long int r;
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  r=random();
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}
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inline void f_drand48() 
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{
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  static double r;
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  r=drand48();
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}
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inline void f_rnd_d() 
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{
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  static double r;
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  r=rnd();
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}
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inline void f_rnd_int1000() 
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{
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  static int r;
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  r=rnd[1000];
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}
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inline void f_rnd_bool() 
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{
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  static bool r;
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  r=rnd.boolean();
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}
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// inline void f_() 
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// {
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//   static double r;
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//   r=;
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// }
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int main()
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{
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  TimeStamp full;
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  TimeStamp t;
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  unsigned int n;
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  const double TEST_DURATION=10;
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  t=runningTimeTest(f_no,2,&n,&full);
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  t=runningTimeTest(f_no,TEST_DURATION,&n,&full); 
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  std::cout << "EMPTY:         ";
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  std::cout << t.userTime() << " (" << n << " tests)\n";
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  t=runningTimeTest(f_noi,TEST_DURATION,&n,&full);
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  std::cout << "INLINED EMPTY: ";
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  std::cout << t.userTime() << " (" << n << " tests)\n";
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  TimeStamp ti=t=runningTimeTest(f_i,TEST_DURATION,&n,&full);
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  std::cout << "INT COPY:      ";
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  std::cout << t.userTime() << " (" << n << " tests)\n";
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  TimeStamp tl=t=runningTimeTest(f_l,TEST_DURATION,&n,&full);
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  std::cout << "LONG COPY:     ";
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  std::cout << t.userTime() << " (" << n << " tests)\n";
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  TimeStamp td=t=runningTimeTest(f_d,TEST_DURATION,&n,&full);
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  std::cout << "DOUBLE COPY:   ";
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  std::cout << t.userTime() << " (" << n << " tests)\n";
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  t=runningTimeTest(f_rand,TEST_DURATION,&n,&full);
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  std::cout << "rand():        ";
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  std::cout << (t-ti).userTime() << " (" << n << " tests)\n";
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  t=runningTimeTest(f_random,TEST_DURATION,&n,&full);
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  std::cout << "random():      ";
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  std::cout << (t-tl).userTime() << " (" << n << " tests)\n";
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  t=runningTimeTest(f_drand48,TEST_DURATION,&n,&full);
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  std::cout << "drand48():     ";
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  std::cout << (t-td).userTime() << " (" << n << " tests)\n";
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  t=runningTimeTest(f_rnd_d,TEST_DURATION,&n,&full);
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  std::cout << "rnd():         ";
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  std::cout << (t-td).userTime() << " (" << n << " tests)\n";
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  t=runningTimeTest(f_rnd_int1000,TEST_DURATION,&n,&full);
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  std::cout << "rnd[1000]:     ";
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  std::cout << (t-ti).userTime() << " (" << n << " tests)\n";
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  t=runningTimeTest(f_rnd_bool,TEST_DURATION,&n,&full);
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  std::cout << "rnd.boolean(): ";
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  std::cout << (t-ti).userTime() << " (" << n << " tests)\n";
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//   t=runningTimeTest(f_,TEST_DURATION,&n,&full);
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//   std::cout << "\n";
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//   std::cout << t << " (" << n << " tests)\n";
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//   std::cout << "Total: " << full << "\n\n";
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  return 0;
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}