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      1 // This artificial program runs a lot of code.  The exact amount depends on
      2 // the command line -- if any command line args are given, it does exactly
      3 // the same amount of work, but using four times as much code.
      4 //
      5 // It's a stress test for Valgrind's translation speed;  natively the two
      6 // modes run in about the same time (the I-cache effects aren't big enough
      7 // to make a difference), but under Valgrind the one running more code is
      8 // significantly slower due to the extra translation time.
      9 
     10 #include <stdio.h>
     11 #include <string.h>
     12 #include <assert.h>
     13 #include "tests/sys_mman.h"
     14 
     15 #define FN_SIZE   996      // Must be big enough to hold the compiled f()
     16 #define N_LOOPS   20000    // Should be divisible by four
     17 #define RATIO     4        // Ratio of code sizes between the two modes
     18 
     19 int f(int x, int y)
     20 {
     21    int i;
     22    for (i = 0; i < 5000; i++) {
     23       switch (x % 8) {
     24        case 1:  y += 3;
     25        case 2:  y += x;
     26        case 3:  y *= 2;
     27        default: y--;
     28       }
     29    }
     30    return y;
     31 }
     32 
     33 int main(int argc, char* argv[])
     34 {
     35    int h, i, sum1 = 0, sum2 = 0, sum3 = 0, sum4 = 0;
     36    int n_fns, n_reps;
     37 
     38    char* a = mmap(0, FN_SIZE * N_LOOPS,
     39                      PROT_EXEC|PROT_WRITE,
     40                      MAP_PRIVATE|MAP_ANONYMOUS, -1,0);
     41    assert(a != (char*)MAP_FAILED);
     42 
     43    if (argc <= 1) {
     44       // Mode 1: not so much code
     45       n_fns  = N_LOOPS / RATIO;
     46       n_reps = RATIO;
     47       printf("mode 1: ");
     48    } else {
     49       // Mode 2: lots of code
     50       n_fns  = N_LOOPS;
     51       n_reps = 1;
     52       printf("mode 1: ");
     53    }
     54    printf("%d copies of f(), %d reps\n", n_fns, n_reps);
     55 
     56    // Make a whole lot of copies of f().  FN_SIZE is much bigger than f()
     57    // will ever be (we hope).
     58    for (i = 0; i < n_fns; i++) {
     59       memcpy(&a[FN_SIZE*i], f, FN_SIZE);
     60    }
     61 
     62    for (h = 0; h < n_reps; h += 1) {
     63       for (i = 0; i < n_fns; i += 4) {
     64          int(*f1)(int,int) = (void*)&a[FN_SIZE*(i+0)];
     65          int(*f2)(int,int) = (void*)&a[FN_SIZE*(i+1)];
     66          int(*f3)(int,int) = (void*)&a[FN_SIZE*(i+2)];
     67          int(*f4)(int,int) = (void*)&a[FN_SIZE*(i+3)];
     68          sum1 += f1(i+0, n_fns-i+0);
     69          sum2 += f2(i+1, n_fns-i+1);
     70          sum3 += f3(i+2, n_fns-i+2);
     71          sum4 += f4(i+3, n_fns-i+3);
     72          if (i % 1000 == 0)
     73             printf(".");
     74       }
     75    }
     76    printf("result = %d\n", sum1 + sum2 + sum3 + sum4);
     77    return 0;
     78 }
     79