Random number generation without using bit operations

I'm writing a vertex shader at the moment, and I need some random numbers. Vertex shader hardware doesn't have logical/bit operations, so I cannot implement any of the standard random number generators. Is it possible to make a random number generator using only standard arithmetic? the randomness doesn't have to be particularly good!

-

If you don't mind crappy randomness, a classic method is

``````x[n+1] = (x[n] * x[n] + C) mod N
``````

where C and N are constants, C != 0 and C != -2, and N is prime. This is a typical pseudorandom generator for Pollard Rho factoring. Try C = 1 and N = 8051, those work ok.

-
that seems to be random enough, thankyou! –  Martin Jun 17 '09 at 23:05
Sure. You don't need great statistical quality for graphics. –  John D. Cook Jun 17 '09 at 23:57

Vertex shaders sometimes have built-in noise generators for you to use, such as cg's `noise()` function.

-
HLSL does have a noise function which I could use: msdn.microsoft.com/en-us/library/bb509629(VS.85).aspx However whenever I have used it in the past it's never worked, in fact until recently I believe it was marked as "not implemented yet"! –  Martin Jun 17 '09 at 23:37
``````X_(n+1) = (a * X_n + c) mod m
``````

Those aren't that strong, but at least they are well known and can have long periods. The Wikipedia page also has good recommendations:

The period of a general LCG is at most m, and for some choices of a much less than that. The LCG will have a full period if and only if:

``````1. c and m are relatively prime,
2. a - 1 is divisible by all prime factors of m,
3. a - 1 is a multiple of 4 if m is a multiple of 4
``````
-