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I'm reading c standard library rand() function implementation with glibc source code. stdlib/random_r.c, line 359

__random_r (buf, result)
            struct random_data *buf;
            int32_t *result;
  int32_t *state;

  if (buf == NULL || result == NULL)
    goto fail;

  state = buf->state;

  if (buf->rand_type == TYPE_0)
      int32_t val = state[0];
      val = ((state[0] * 1103515245) + 12345) & 0x7fffffff;
      state[0] = val;
      *result = val;
      int32_t *fptr = buf->fptr;
      int32_t *rptr = buf->rptr;
      int32_t *end_ptr = buf->end_ptr;
      int32_t val;

      val = *fptr += *rptr;
      /* Chucking least random bit.  */
      *result = (val >> 1) & 0x7fffffff;
      if (fptr >= end_ptr)
          fptr = state;
          if (rptr >= end_ptr)
            rptr = state;
      buf->fptr = fptr;
      buf->rptr = rptr;
  return 0;

  __set_errno (EINVAL);
  return -1;

I don't understand how random_r generate random number when (buf->rand_type != TYPE_0), anyone please explain? Thanks.

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Looks like a standard old-fashioned linear congruential generator to me (Google it). Not a good algorithm, but OK for simple uses. –  Lee Daniel Crocker Sep 5 '13 at 13:51

1 Answer 1

up vote 1 down vote accepted

The two implementations are exactly the same, except that they use different random data.

The TYPE_0 always uses the magic numbers 1103515245 and 12345, together with the current state.

Otherwise, it uses magic numbers taken from a pool of random data (presumably acquired from /dev/urandom or the like; I haven't checked). Each time it is called it walks a bit further through the pool. As it goes it replaces the data with new pseudo-random numbers, based on the original ones, so that it gets new numbers when it wraps around and starts the walk again.

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It does use a pool of random data, but not acquired from devices. –  lulyon Sep 6 '13 at 1:55

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