# Making a noise function without binary operators?

Is there any possible way to make pseudorandom numbers without any binary operators? Being that this is a 3D map, I'm trying to make it as a function of X and Y but hopefully include a randomseed somewhere in their so it won't be the same every time. I know you can make a noise function like this with binary operators :

double PerlinNoise::Noise(int x, int y) const
{
int n = x + y * 57;
n = (n << 13) ^ n;
int t = (n * (n * n * 15731 + 789221) + 1376312589) & 0x7fffffff;
return 1.0 - double(t) * 0.931322574615478515625e-9;/// 1073741824.0);
}

But being that I'm using lua instead of C++, I can't use any binary operators. I've tried many different things yet none of them work. Help?

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Sure. Use trinary operators instead. If you restrict it to unary, though... $x_{n+1} = \sin(\exp(x_n))$ might produce good results. –  gereeter Jul 13 '11 at 21:20
Sorry, but I'm just now going into algebra 2. What does xn+1 mean/do? –  No No Jul 13 '11 at 21:42
Basically what I'm saying is that the $n^\hbox{th}$ psuedorandom number be $\sin(\exp(\hbox{the }n - 1\hbox{th psuedorandom number}))$. Note that $\exp(x)=e^x$. Another good one would have the $n^\hbox{th}$ psuedorandom number be $sin(exp(n))$. –  gereeter Jul 13 '11 at 21:49
Wait... By binary do you mean accepts 2 values or do you mean things like xor and binary shifts? –  gereeter Jul 13 '11 at 21:50
I mean I'm using lua so I don't have any binary operators at hand. Also I was talking about the sub n+1. Where it's lower than it? –  No No Jul 13 '11 at 21:54

## 4 Answers

In the above routine, there are not any bit-wise operators that aren't easily converted to arithmetic operations.

The << 13 becomes * 8192

The & 0x7FFFFFFF becomes a mod of 2^31.

As long as overflow isn't an issue, this should be all you need.

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If I'm not mistaken, Matt Zucker's FAQ on Perlin noise only uses arithmetic operators to describe/implement it. It only mentions bitwise operators as an optimization trick.

You should implement both ways and test them with the same language/runtime, to get an idea of the speed difference.

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It'd be pretty slow, but you could simulate these with division and multiplication, I believe.

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For bit operators (I guess that is what you mean by "binary"), have a look at Bitwise Operators Wiki page, which contains a list of modules you can use, like Lua BitOp and bitlib.

If you do not want to implement it by yourself, have a look at the module lua-noise, which contains an implementation of Perlin noise. Note that it is a work-in-progress C module.

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