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I'm trying to create a perlin / simplex / value noise function in JavaScript that will give results similar to the following:

enter image description here (Note: this image has already had a treshold applied. I want it without the treshold.)

I've been looking all over the internet for 2 days now. There are plenty of links explaining noise and a lot of code, but none in JavaScript, and whenever I try to convert it, I get weird results. Here are some of my attemps:

I think part of the problem might stem from the use of the bitwise operators in JavaScript, where it is difficult to enforce the type of a number.

What I'm looking for is an example of working, JavaScript noise (whatever type).

I'd also be willing to grant a bounty for any information pertaining to the parameters that could lead to a pattern similar to the image I posted (before threshold) or any optimization tips since I'll need this to run as fast as possible (in JavaScript nonetheless).

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4 Answers 4

I did something like this a while back, however I used midpoint displacement. If you can figure out whats going on it could be helpful,

http://www.somethinghitme.com/projects/canvasterrain/

Its also here

https://github.com/loktar00/Javascript-Canvas-Terrain-Generator

And here is a fiddle with just the noise part implemented with some cool lighting,

http://jsfiddle.net/loktar/4qAxZ/

Good luck :).

share|improve this answer
    
Thanks for the answer. Sadly, your solution seems to rely heavily on canvas to work, and I do not have access to a canvas in my situation. –  Alex Turpin Dec 8 '11 at 13:51
    
@Xeon06 Not really :? It only uses canvas to draw the data points. How do you plan on handling the drawing if not using canvas.. your fiddles are using canvas as well, and at that point why not just pick something faster on the server side instead of JS (unless you are using Node to do this already)? –  Loktar Dec 8 '11 at 14:06
    
I'm sorry, I just went through your code very fast. I thought I had seen you were scaling it over itself. I'll give it another proper read soon. –  Alex Turpin Dec 8 '11 at 14:40
    
So I checked into it more. You seem to be using the midpoint displacement algorithm. The problem I have with it is that I can't seem to configure it to my needs. I need to generate something like this upload.wikimedia.org/wikipedia/commons/d/da/Perlin_noise.jpg –  Alex Turpin Dec 8 '11 at 15:31
    
Ah yeah your right :? it probably wont give the results you want –  Loktar Dec 8 '11 at 17:18
up vote 5 down vote accepted

I will be using the code found on this Gist.

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I know this is pretty old, but maybe it can still be useful for someone else. I've built a javascript app that renders Perlin and Simplex noise to an HTML5 canvas, check it out here: http://lencinhaus.github.com/canvas-noise

The app allows to tweak every parameter involved in noise calculation and rendering and to save the resulting texture. It also adds the parameters to the URL, so that it can be shared. For example, this configuration produces a texture very similar to the one you showed.

Hope that helps!

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Here's what the code I ended up with for 2D / 3D Perlin noise. Note that it uses RequireJS's AMD module syntax, but you can strip that away if you're not using an AMD loader.

define(
    [],
    function()
    {
        function fade(t)
        {
            return t * t * t * (t * (t * 6 - 15) + 10);
        }

        function lerp(t, a, b)
        {
            return a + t * (b - a);
        }

        function grad(hash, x, y, z)
        {
            // Convert lo 4 bits of hash code into 12 gradient directions.
            var h = hash & 15,
                u = h < 8 ? x : y,
                v = h < 4 ? y : h == 12 || h == 14 ? x : z;
            return ((h & 1) == 0 ? u : -u) + ((h & 2) == 0 ? v : -v);
        }

        function scale(n)
        {
            return (1 + n) / 2;
        }

        var p = new Array(512);

        var permutation = [
            151, 160, 137, 91, 90, 15, 131, 13, 201, 95, 96, 53, 194, 233, 7, 225, 140, 36, 103, 30, 69, 142, 8, 99,
            37, 240, 21, 10, 23, 190, 6, 148, 247, 120, 234, 75, 0, 26, 197, 62, 94, 252, 219, 203, 117, 35, 11, 32,
            57, 177, 33, 88, 237, 149, 56, 87, 174, 20, 125, 136, 171, 168, 68, 175, 74, 165, 71, 134, 139, 48, 27, 166,
            77, 146, 158, 231, 83, 111, 229, 122, 60, 211, 133, 230, 220, 105, 92, 41, 55, 46, 245, 40, 244, 102, 143,
            54, 65, 25, 63, 161, 1, 216, 80, 73, 209, 76, 132, 187, 208, 89, 18, 169, 200, 196, 135, 130, 116, 188, 159,
            86, 164, 100, 109, 198, 173, 186, 3, 64, 52, 217, 226, 250, 124, 123, 5, 202, 38, 147, 118, 126, 255, 82,
            85, 212, 207, 206, 59, 227, 47, 16, 58, 17, 182, 189, 28, 42, 223, 183, 170, 213, 119, 248, 152, 2, 44,
            154, 163, 70, 221, 153, 101, 155, 167, 43, 172, 9, 129, 22, 39, 253, 19, 98, 108, 110, 79, 113, 224, 232,
            178, 185, 112, 104, 218, 246, 97, 228, 251, 34, 242, 193, 238, 210, 144, 12, 191, 179, 162, 241, 81, 51,
            145, 235, 249, 14, 239, 107, 49, 192, 214, 31, 181, 199, 106, 157, 184, 84, 204, 176, 115, 121, 50, 45,
            127, 4, 150, 254, 138, 236, 205, 93, 222, 114, 67, 29, 24, 72, 243, 141, 128, 195, 78, 66, 215, 61, 156, 180
        ];

        for (var i = 0; i < 256; i++) {
            p[256 + i] = p[i] = permutation[i];
        }

        return {
            /** Returns a number between 0 and 1. */
            noise3d: function(x, y, z)
            {
                // Find unit cube that contains point.
                var X = Math.floor(x) & 255,
                    Y = Math.floor(y) & 255,
                    Z = Math.floor(z) & 255;
                // Find relative x,y,z of point in cube.
                x -= Math.floor(x);
                y -= Math.floor(y);
                z -= Math.floor(z);
                // Compute fade curves for each of x,y,z.
                var u = fade(x),
                    v = fade(y),
                    w = fade(z);
                // Hash coordinates of the corners.
                var A = p[X    ] + Y, AA = p[A] + Z, AB = p[A + 1] + Z,
                    B = p[X + 1] + Y, BA = p[B] + Z, BB = p[B + 1] + Z;

                // Add blended results from 8 corners of cube.
                return scale(
                    lerp(
                        w,
                        lerp(
                            v,
                            lerp(
                                u,
                                grad(p[AA], x, y, z),
                                grad(p[BA], x - 1, y, z)
                            ),
                            lerp(
                                u,
                                grad(p[AB], x, y - 1, z),
                                grad(p[BB], x - 1, y - 1, z)
                            )
                        ),
                        lerp(
                            v,
                            lerp(
                                u,
                                grad(p[AA + 1], x, y, z - 1),
                                grad(p[BA + 1], x - 1, y, z - 1)
                            ),
                            lerp(
                                u,
                                grad(p[AB + 1], x, y - 1, z - 1),
                                grad(p[BB + 1], x - 1, y - 1, z - 1)
                            )
                        )
                    )
                );
            },

            /** Returns a number between 0 and 1. */
            noise2d: function(x, y)
            {
                // Find unit square that contains point.
                var X = Math.floor(x) & 255,
                    Y = Math.floor(y) & 255;
                // Find relative x,y of point in square.
                x -= Math.floor(x);
                y -= Math.floor(y);
                // Compute fade curves for each of x,y.
                var u = fade(x),
                    v = fade(y);
                // Hash coordinates of the corners.
                var A = p[X    ] + Y, AA = p[A], AB = p[A + 1],
                    B = p[X + 1] + Y, BA = p[B], BB = p[B + 1];

                // Add blended results from the corners.
                return scale(
                    lerp(
                        v,
                        lerp(
                            u,
                            grad(p[AA], x, y, 0),
                            grad(p[BA], x - 1, y, 0)
                        ),
                        lerp(
                            u,
                            grad(p[AB], x, y - 1, 0),
                            grad(p[BB], x - 1, y - 1, 0)
                        )
                    )
                );
            }
        };
    }
);
share|improve this answer
    
can you add source ? –  Safareli Nov 13 '13 at 0:13

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