# monochrome dithering in JavaScript (Bayer, Atkinson, Floyd–Steinberg)

I'm playing with webcam filters in HTML5. Got an Atkinson dither working pretty well for that old-school Mac feeling.

Now I'm trying to make a Bayer ordered dithering option for a 1989 Gameboy feeling.

I read up on the algorithm, but I'm having trouble converting this pseudocode to JavaScript:

``````for each y
for each x
oldpixel := pixel[x][y] + threshold_map_4x4[x mod 4][y mod 4]
newpixel := find_closest_palette_color(oldpixel)
pixel[x][y] := newpixel
``````

Are there any examples out there in AS3, PHP, or JS? Could you explain what is happening with `threshold_map_4x4[x mod 4][y mod 4]`?

(made with the Meemoo Gameboy GIFerizer)

Figured it out. In Wikipedia it says "For example, in monochrome rendering, if the value of the pixel (scaled into the 0-9 range) is less than the number in the corresponding cell of the matrix, plot that pixel black, otherwise, plot it white." In js I got good results by averaging the current pixel (0-255) and the map's value (15-240) and comparing it to the threshold (normally 129):

``````var map = (imageData.data[currentPixel] + bayerThresholdMap[x%4][y%4]) / 2;
imageData.data[currentPixel] = (map < threshold) ? 0 : 255;
``````

Here is my whole monochrome function with different algorithms:

``````var bayerThresholdMap = [
[  15, 135,  45, 165 ],
[ 195,  75, 225, 105 ],
[  60, 180,  30, 150 ],
[ 240, 120, 210,  90 ]
];

var lumR = [];
var lumG = [];
var lumB = [];
for (var i=0; i<256; i++) {
lumR[i] = i*0.299;
lumG[i] = i*0.587;
lumB[i] = i*0.114;
}

function monochrome(imageData, threshold, type){

var imageDataLength = imageData.data.length;

// Greyscale luminance (sets r pixels to luminance of rgb)
for (var i = 0; i <= imageDataLength; i += 4) {
imageData.data[i] = Math.floor(lumR[imageData.data[i]] + lumG[imageData.data[i+1]] + lumB[imageData.data[i+2]]);
}

var w = imageData.width;
var newPixel, err;

for (var currentPixel = 0; currentPixel <= imageDataLength; currentPixel+=4) {

if (type === "none") {
// No dithering
imageData.data[currentPixel] = imageData.data[currentPixel] < threshold ? 0 : 255;
} else if (type === "bayer") {
// 4x4 Bayer ordered dithering algorithm
var x = currentPixel/4 % w;
var y = Math.floor(currentPixel/4 / w);
var map = Math.floor( (imageData.data[currentPixel] + bayerThresholdMap[x%4][y%4]) / 2 );
imageData.data[currentPixel] = (map < threshold) ? 0 : 255;
} else if (type === "floydsteinberg") {
// Floyd–Steinberg dithering algorithm
newPixel = imageData.data[currentPixel] < 129 ? 0 : 255;
err = Math.floor((imageData.data[currentPixel] - newPixel) / 16);
imageData.data[currentPixel] = newPixel;

imageData.data[currentPixel       + 4 ] += err*7;
imageData.data[currentPixel + 4*w - 4 ] += err*3;
imageData.data[currentPixel + 4*w     ] += err*5;
imageData.data[currentPixel + 4*w + 4 ] += err*1;
} else {
// Bill Atkinson's dithering algorithm
newPixel = imageData.data[currentPixel] < threshold ? 0 : 255;
err = Math.floor((imageData.data[currentPixel] - newPixel) / 8);
imageData.data[currentPixel] = newPixel;

imageData.data[currentPixel       + 4 ] += err;
imageData.data[currentPixel       + 8 ] += err;
imageData.data[currentPixel + 4*w - 4 ] += err;
imageData.data[currentPixel + 4*w     ] += err;
imageData.data[currentPixel + 4*w + 4 ] += err;
imageData.data[currentPixel + 8*w     ] += err;
}

// Set g and b pixels equal to r
imageData.data[currentPixel + 1] = imageData.data[currentPixel + 2] = imageData.data[currentPixel];
}

return imageData;
}
``````

I'd appreciate optimization hints.

-

Here are all of my monochrome dither functions, usable as a web worker: https://github.com/meemoo/iframework/blob/gh-pages/src/nodes/image-monochrome-worker.js

Live demo with webcam: http://meemoo.org/iframework/#gist/3721129

-
This is so cool! – Drew LeSueur Jul 17 '14 at 0:28

I do this as a debug code:

``````var canvas = document.createElement('canvas');
var ctx    = canvas.getContext('2d');

var img    = new Image();
img.src    = "http://i.stack.imgur.com/tHDY8.png";
img.onload = function() {
canvas.width  = this.width;
canvas.height = this.height;
ctx.drawImage( this, 0, 0, this.width, this.height );

var imageData  = ctx.getImageData( 0, 0, this.width, this.height);
var depth      = 32;

// Matrix
var threshold_map_4x4 = [
[  1,  9,  3, 11 ],
[ 13,  5, 15,  7 ],
[  4, 12,  2, 10 ],
[ 16,  8, 14,  6 ]
];

// imageData
var width  = imageData.width;
var height = imageData.height;
var pixel  = imageData.data;
var x, y, a, b;

// filter
for ( x=0; x<width; x++ )
{
for ( y=0; y<height; y++ )
{
a    = ( x * height + y ) * 4;
b    = threshold_map_4x4[ x%4 ][ y%4 ];
pixel[ a + 0 ] = ( (pixel[ a + 0 ]+ b) / depth | 0 ) * depth;
pixel[ a + 1 ] = ( (pixel[ a + 1 ]+ b) / depth | 0 ) * depth;
pixel[ a + 2 ] = ( (pixel[ a + 2 ]+ b) / depth | 0 ) * depth;
//pixel[ a + 3 ] = ( (pixel[ a + 3 ]+ b) / depth | 3 ) * depth;
}
}

ctx.putImageData( imageData, 0, 0);

};

document.body.appendChild(canvas);
``````

And it seems to work fine, you can change the depth variable to change the posterization.

-
Since it is monochrome you could change it to: `pixel[ a ] = pixel[ a + 1 ] = pixel[ a + 2 ] = ( (pixel[ a ]+ b) / depth | 0 ) * depth;` – forresto Sep 14 '12 at 13:05
I put this in a fiddle and it doesn't work: jsfiddle.net/forresto/EHeXb – forresto Sep 15 '12 at 22:26
Check the console, I have a problem with cross domain image (well I'm using an old browser...). So I go to the image url, open the console and copy paste the code and it's working fine (tof.canardpc.com/view/f47567dc-d06b-4fea-8b9f-ac7c23e9ceb8.jpg) or maybe you want another result ? – Vincent Thibault Sep 17 '12 at 8:07
Yeah, I wanted monochrome output. I put my algorithms in the original question, and made this live demo: meemoo.org/iframework/#gist/3721129 – forresto Sep 17 '12 at 12:14