Mersenne Twister seed has no effect

So I've got a custom randomizer class that uses a Mersenne Twister (the code I use is adapted from this site). All seemed to be working well, until I started testing different seeds (I normally use 42 as a seed, to ensure that each time I run my program, the results are the same, so I can see how code changes influence things).

It turns out that, no matter what seed I choose, the code produces the exact same series of numbers each time. Clearly I'm doing something wrong, but I don't know what. Here is my seed function:

``````void Randomizer::Seed(unsigned long int Seed)
{
int ii;
x[0] = Seed & 0xffffffffUL;
for (ii = 0; ii < N; ii++)
{
x[ii] = (1812433253UL * (x[ii - 1] ^ (x[ii - 1] >> 30)) + ii);
x[ii] &= 0xffffffffUL;
}
}
``````

And this is my Rand() function

``````unsigned long int Randomizer::Rand()
{
unsigned long int Result;
unsigned long int a;
int ii;

// Refill x if exhausted
if (Next == N)
{
Next = 0;

for (ii = 0; ii < N - 1; ii++)
{
Result = (x[ii] & U) | x[ii + 1] & L;
a = (Result & 0x1UL) ? A : 0x0UL;
x[ii] = x[( ii + M) % N] ^ (Result >> 1) ^ a;
}

Result = (x[N - 1] & U) | x[0] & L;
a = (Result & 0x1UL) ? A : 0x0UL;
x[N - 1] = x[M - 1] ^ (Result >> 1) ^ a;
}
Result = x[Next++];

//Improves distribution
Result ^= (Result >> 11);
Result ^= (Result << 7) & 0x9d2c5680UL;
Result ^= (Result << 15) & 0xefc60000UL;
Result ^= (Result >> 18);

return Result;
}
``````

The various values are:

``````#define A 0x9908b0dfUL
#define U 0x80000000UL
#define L 0x7fffffffUL

int Randomizer::N = 624;
int Randomizer::M = 397;
int Randomizer::Next = 0;
unsigned long Randomizer::x[624];
``````

Can anyone help me figure out why different seeds don't result in different sequences of numbers?

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For reference, C++11 defines several new random number generation facilities, including a Mersenne twister: en.cppreference.com/w/cpp/numeric/random –  Collin Jun 11 '12 at 19:41

Your Seed() function assigns to `x[0]`, then starts looping at `ii=0`, which overwrites `x[0]` with an undefined value (it references `x[-1]`). Start your loop at 1, and you'll probably be all set.

Writing your own randomizer is dangerous. Why? It's hard to get right (see above), it's hard to know if you've done it right, and if it's wrong, things that rely on correctly distributed random numbers will not work quite right. Hopefully that thing is not cryptography or statistical modeling where the tails matter.... Think about using http://www.boost.org/doc/libs/1_49_0/doc/html/boost_random.html

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Yes, that was it! Thanks! Now different seeds produce different series, each seed always producing the same. I wonder how that got in there, since I originally copy-pasted the code... –  GarrickW Jun 11 '12 at 19:40
No, this isn't anything serious - it's just a hobby side project. No particular reason for doing it myself, I was just reading about RNGs, found that code, and thought I'd try it out to see if I could get it working. –  GarrickW Jun 11 '12 at 19:43
I can appreciate the whole "let's tinker with this and see what comes out" attitude (and that you may have copy-pasted the code directly) but a word of caution: cryptography and PRNG are dark arts. They are difficult to get right, even for experts, and bite in very weird and unpredictable ways. So unless you are an expert, there's never any reason to design your own encryption algorithm or PRNG, and there is never any reason to "tweak" existing standard designs (e.g. AES, or a L'Ecuyer/Bays-Durhman PRNG) to make them better because the chances are overwhelming that you won't. –  Nik Bougalis Jun 18 '12 at 2:58