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I wish to generate a large amount of random data, which is reproducible for a given key, comprising a list of numbers:

[a, b, c, d, e, ...]

Is the following a good or sensible way to get a RNG into a state to generate random data, in such a way that for each n-tuple [a, b, c, ..., n], that data is uncorrelated with the output for the "adjacent" n-tuples [a+1, b, c, ..., n], [a, b+1, c, ..., n], etc.

srand(rand() * b);
srand(rand() * c);
srand(rand() * n);

# generate random data:
for (int i=0; i < 100; +i)
  printf("%d", rand());

I think this question boils down to the following: is rand_hash a good hash function for the 2-tuple (a, b)?

int rand_hash(int a, int b) { 
  srand(rand() * b); 
  return rand();

NB: I don't wish to imply that srand and rand are any particular implementation of an RNG. Assume for the sake of argument that we're using a good Mersenne Twister code.

Edit: If it isn't clear, by "reasonable hash function" I mean the following. In the restricted case of a 2-tuple [a, b], then the output of rand_hash should be uniform over the range of int, and (typically) there should be no correlation between the magnitude in the change of a or b and the magnitude of the change in the return value.

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How do you define "reasonable hash function"? What are you doing with the hash code? –  Nicol Bolas Oct 28 '11 at 18:48
srand(a^b^c^...^n) is faster than what you have, and just as effective. –  Mooing Duck Oct 28 '11 at 18:53
Assume n is zero. Then (if srand completely sets the state of the generator) the output is independent of all previous blocks. –  Paŭlo Ebermann Oct 28 '11 at 18:58
@MooingDuck No, that's useless if we're discussing tuples, because the output for a=3, b=2 should be different from a=2, b=3. –  Nick Oct 28 '11 at 18:58
@MooingDuck: No, that's not true. See blogs.msdn.com/b/ericlippert/archive/2011/02/28/… -- scroll down to "In particular, be careful of "xor"." –  Billy ONeal Oct 28 '11 at 19:00

3 Answers 3

up vote 9 down vote accepted

No, this is not a reasonable approach.

  1. You don't know what the implementation of rand is. Random number generators are designed to provide approximately uniformly distributed numbers over a period of several generated mnumbers. They are not designed to provide uniformly distributed numbers over the set of (32 bit) seeds. In your hypothetical mersenne_twister case, the random number generator has state much larger than the integer you supply to srand (specifically, 624*sizeof(int)). Most of the power the RNG has to ensure its output is random and uniform are from that additional state, and you took that away. (The seed can be only one of 2^32 states)
  2. If you ever upgrade your compiler or libraries or something similar, anything you might have serialized to disk will become unreadable. (If rand is a black box, nobody says that tomorrow's implementation matches today's).
  3. Your hashing function's output returns the same thing for the same inputs to srand. Therefore, you already have a hash -- the input to srand. The RNG generates the same output for a given input to srand. Therefore the number of hashes you may obtain is no greater than just returning the hash you would have already calculated. If your initial hash into srand is of poor distribution for a hash table, then scale the hash appropriately such that it performs well in your table.
  4. For some implementations of rand, this performs extremely poorly. Consider a linear congruential generator (which is more common with C libraries because it has state of sizeof(int) -- e.g. the BSD generator ). A LCG follows the form xNext = a*xCurrent + b. Consider:

    static int seed = 0;
    void srand(int newSeed)
        seed = newSeed;
    int rand()
        seed = (int) ((1103515245 * ((unsigned int)seed) + 12345) & 0x7fffffffUL); 
        return seed;

    Note that this (common) type of generator produces hash values easily correlated to your input values.

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I don't understand point 3. How can I combine a tuple of integers into a single argument to srand() in such a way that their order is important? –  Nick Oct 28 '11 at 19:03
I don't follow point #3. You seem to be saying that his hash is a hash, and that it works as he intends. –  Mooing Duck Oct 28 '11 at 19:09
@Nick: multiply them by different (constant) values, like the powers of two? –  Mooing Duck Oct 28 '11 at 19:09
@Nick: return left ^ (right + 1)? I'm not sure what a good hash would be for you. As always, a good hash depends on the probability distribution of your data. (And besides, that's a separate question) Consider stackoverflow.com/search?q=combine+hash+codes –  Billy ONeal Oct 28 '11 at 19:12
@MooingDuck: #3 is saying that he doesn't get anything by going through the motions of rand and srand. Sure, the numbers you get are different. The distribution of the hash you get is different, of course, but going through rand doesn't make the hash any "better" in terms of "strength" of the hash (at least not in any well defined manner). –  Billy ONeal Oct 28 '11 at 19:13

What about using boost::hash_combine http://www.boost.org/doc/libs/1_33_1/doc/html/hash_combine.html to create your initial seed? Using srand more than once always triggers red flags in my mind.

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and std::hash<int> for the initial values. Good idea. –  Mooing Duck Oct 28 '11 at 19:15

Potential problem:

What if another thread calls rand() in the middle of your hash function?

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It's a fair point, but we can assume for the minute that threading issues aren't relevant here. In practice I'm using an instantiated RNG from C++11 <random>. –  Nick Oct 28 '11 at 19:04

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