# Random / noise functions for GLSL

Facebook and Stack Exchange are now working together to support the Facebook developer community. Facebook engineers participate here along with the best Facebook developers in the world. If you have a technical question about Facebook, this is the best place to ask.

As the GPU driver vendors don't usually bother to implement `noiseX` in GLSL, I'm looking for a "graphics randomization swiss army knife" utility function set, preferably optimised to use within GPU shaders. I prefer GLSL, but code any language will do for me, I'm ok with translating it on my own to GLSL.

Specifically, I'd expect:

a) Pseudo-random functions - N-dimensional, uniform distribution over [-1,1] or over [0,1], calculated from M-dimensional seed (ideally being any value, but I'm OK with having the seed restrained to, say, 0..1 for uniform result distribution). Something like:

``````float random  (T seed);
vec2  random2 (T seed);
vec3  random3 (T seed);
vec4  random4 (T seed);
// T being either float, vec2, vec3, vec4 - ideally.
``````

b) Continous noise like Perlin Noise - again, N-dimensional, +- uniform distribution, with constrained set of values and, well, looking good (some options to configure the appearance like Perlin levels could be useful too). I'd expect signatures like:

``````float noise  (T coord, TT seed);
vec2  noise2 (T coord, TT seed);
// ...
``````

I'm not very much into random number generation theory, so I'd most eagerly go for a pre-made solution, but I'd also appreciate answers like "here's a very good, efficient 1D rand(), and let me explain you how to make a good N-dimensional rand() on top of it..." .

-

For very simple pseudorandom-looking stuff, I use this oneliner that I found on the internet somewhere:

``````float rand(vec2 co){
return fract(sin(dot(co.xy ,vec2(12.9898,78.233))) * 43758.5453);
}
``````

You can also generate a noise texture using whatever PRNG you like, then upload this in the normal fashion and sample the values in your shader; I can dig up a code sample later if you'd like.

Also, check out this file for GLSL implementations of Perlin and Simplex noise, by Stefan Gustavson.

-
 +1 for the link to Gustavson's in depth & well documented code – Rob Agar Aug 1 '11 at 0:22 How do you use `vec2 co`? is it the range? seed? – Ross Nov 17 '12 at 17:07 It is the seed. Eg: assembla.com/code/ffgl/subversion/nodes/trunk/Source/… – dep Nov 24 '12 at 20:46 Beware of low-precision floating-point fragment shaders with this algorithm (e.g., S3's ARM Mali): stackoverflow.com/questions/11293628/…. The github.com/ashima/webgl-noise project does not seem to have lowp issues. – P.T. Apr 6 at 2:50

Gustavson's implementation uses a 1D texture

No it doesn't, not since 2005. It's just that people insist on downloading the old version. The version that is on the link you supplied uses only 8-bit 2D textures.

The new version by Ian McEwan of Ashima and myself does not use a texture, but runs at around half the speed on typical desktop platforms with lots of texture bandwidth. On mobile platforms, the textureless version might be faster because texturing is often a significant bottleneck.

Our actively maintained source repository is:

https://github.com/ashima/webgl-noise

-
 Yes, the implementation I'm referring to, your code on davidcornette.com that @dep linked to, does use a 1D texture: `glBindTexture(GL_TEXTURE_1D, *texID);` etc. It's not clear what you mean by "the link you supplied", since you quote from my answer but that answer didn't link to your implementation. I will update my answer to clarify what I'm referring to and reflect the new information you've given. Characterizing people as "insisting" on downloading the old version is a distortion that does not do you credit. – LarsH Nov 20 '12 at 18:43 P.S. You may want to write to David Cornette (he has contact info at davidcornette.com) and ask him to change his link on davidcornette.com/glsl/links.html to link to your source repo. I'll email him too. – LarsH Nov 20 '12 at 19:27 P.P.S. Can you clarify, which version uses only 8-bit 2D textures? Sounds like it might be a good option for certain platforms... – LarsH Nov 20 '12 at 19:51

There is also a nice implementation described here by McEwan and @StefanGustavson that looks like Perlin noise, but "does not require any setup, i.e. not textures nor uniform arrays. Just add it to your shader source code and call it wherever you want".

That's very handy, especially given that Gustavson's earlier implementation, which @dep linked to, uses a 1D texture, which is not supported in GLSL ES (the shader language of WebGL).

-

Sorry for this late reply. I'm not exactly a regular here.

I'm sorry if I came across as arrogant or whining. My comment was not directed specifically at you. It is a general problem for me that people use outdated versions of my code, criticize flaws that have been fixed ages ago but don't care enough to check for more recent versions, or ask me. It's as simple as doing a Google search for "GLSL noise" and checking the top ten links, or sending me an e-mail. I put my address in the source for that very reason.

A collection of both the textureless and texture-using versions of noise is here (using only 2D textures):

http://www.itn.liu.se/~stegu/simplexnoise/GLSL-noise-vs-noise.zip

A link to it is published on the Ashima Github wiki, one of the top Google links if you search for "GLSL noise":

https://github.com/ashima/webgl-noise/wiki

If you have any specific questions, feel free to e-mail me directly. As I said, I am not a regular here.

-

Note that anything using trigonometric functions in GLSL has undefined precision. I have run into problems with a random number generator, dependent on `sin()`, not generating the same results on ATI and NVIDIA. The accepted answer here may show the same problem, but I have not confirmed it.

Gustavson's solution does not appear to use any function with undefined precision; thus it should probably be fine to use while expecting roughly the same result on different platforms.

-