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__forceinline static int Random()
    int x = 214013, y = 2531011;
    seed = (x * seed + y);
    return ((seed >> 16) & 0x7FFF) - 0x3FFF; 

The code above returns PRNG with decent uniform distribution.

Now change x to x + 1 - resulting sequence couldn't be called PRNG anymore.

So what is the theory behind (this) PRNG? 'x and y are carefully chosen' but how does they were chosen?

share|improve this question
Normal distribution? Are you sure that's what you mean? – Fred Larson Oct 27 '11 at 13:05
Fred Larson: I edited my post, sorry for my 'typo'. I wrote normal distribution because (if I think correctly) normal distribution is observed from real world, so a good PRNG should replicate a behaviour of normal distribution in order to generate a good random sequence? I'm I right about this? The generator is from here by the way software.intel.com/en-us/articles/… – Vadim Oct 27 '11 at 13:12
Some natural phenomenons are well modeled as a normal distribution. Others, such as the throw of a dice, are not. – André Caron Oct 27 '11 at 13:15
André Caron, Fred Larson: ok thanks, I just read about uniform distribution from wiki and I understand now! – Vadim Oct 27 '11 at 13:23
up vote 6 down vote accepted

This looks like a Linear congruential generator. A LCG is better when the multiplier x is divisible by all prime factors of the modulus minus one (which is 0x3FFFFFFFF here, it's a bit hidden due to the math in the return statement).

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the modulus is in fact 0x80000000 here. And it is x - 1 divisible by prime factors of m, not x divisible by prime factors of m - 1 (which is prime here) – Alexandre C. Oct 27 '11 at 13:16

It is a 32-bit LCG which discards the lowest order 16 bits. I doubt this generator is good for interesting purposes. For simple games, this should be enough.

Your specific question is answered by the link I posted: the generator achieves full period with this particular y if and only if x - 1 is a multiple of 4 (in Wikipedia's notation, a is x, c is y and m is 2^31).

Hence, when x is even, the generator is not optimal.

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This is a linear congruent generator. There should also be a modulo; the classic formula is:

seed = (a * seed + b) % m;

In this case, m is simply 2^n, where n is the number of bits in seed (which presumably has an unsigned type, since modulo arithmetic is needed). There's extensive literature on how to choose a, b and m; in general, according to the reference document (Random Number Generators: Good Ones Are Hard to Find, Park and Miller, CACM, Oct. 1988), m should be a prime number, and b can normally be 0; this generator violates both of those rules. (Violating the first tends to make the low order bits very non-random, which explains why the results are shifted.)

As far as I know, the only way to ensure that the choice of a and m are good is to do extensive statistical tests, although there are ways to identify some bad ones. For starters, a and m should have no common factors. (In the best generators, both are typically prime.) Here, m is a power of 2, and adding one to x makes it divisible by 2 as well, so you're more or less guaranteed that the resulting generator will not be very good.

For more information, I'd suggest you read the article.

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There is no way to chose a and m such that a LCG passes eg. Diehard tests. LCG should be avoided at all price. – Alexandre C. Oct 27 '11 at 13:22
@AlexandreC. There are better PRN generators, at least for the usual definitions of better. For many applications, however, an LCG with carefully chosen a and m is sufficient, and it is usually a lot faster than the alternatives. (For other applications, of course, it's not, and some other algorithm must be used. LCG are not cryptographically secure, for example.) – James Kanze Oct 27 '11 at 13:38
James Kanze: thanks for the link and article. Alexandre C.: Particularly now I use this PRNG for generating white noise for my audio application. I really need very fast solution, which is the case with this PRNG, also I have not complains about noise it generates - seems good to me. – Vadim Oct 27 '11 at 13:39
@Vadim: it depends on what you do with the noise. LCG have poor statistical properties, and there are modern statistically better alternatives which perform at least as well (XOR-shift for instance, see the work of Marsaglia). For numerical applications, I avoid LCG like plague since random vectors drawn from LCG tend to be totally non random. – Alexandre C. Oct 27 '11 at 13:45
Alexandre C.: I want to filter the noise to get a bunch of harmonics which have some width in themself - hence noise. Then I will reconstruct the waveform from the harmonics. Will this PRNG be sufficient? I don't have a try to do this for now, so I don't know if this PRNG will work. I will also check for XOR-shift now. If you have any recomendations or a source code which you know performs better and fast will be glad if you post it. – Vadim Oct 27 '11 at 14:01

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