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I'm creating a collaborative image drawing application using and canvas. By necessity, the canvas has to refresh fairly often, currently around every 50 milliseconds. I wanted to add a fill tool to the application, so I used my limited knowledge of flood-fill to create one. Because all of this data has to be transferred, I store every fill command as a simple object

    tool: 'fill',
    coordinate: {
        x: 5,
        y: 5
    fillcolor: '#000'

Then each client's canvas runs the algorithm and fills using "getImageData" and "putImageData" for each individual pixel. Here's an (abbreviated) version of my implementation.

function floodfill (start,target_color,fill_color)
    var pixelStack = [start]; //the stack of pixels to check

    while (pixelStack.length > 0) 
        var current = pixelStack[pixelStack.length-1]; //check the last pixel of the pixelstack
        pixelStack.pop(); //delete current from stack

        if (isSameColor(current)) //matches our target color
            var mydat = ctx.createImageData(1,1);
   = new Array();
  [0] = hexToRGB(fill_color).r; //red
  [1] = hexToRGB(fill_color).g; //green
  [2] = hexToRGB(fill_color).b; //blue
  [3] = 255;

            pixelStack.push(bit(current.x+1,current.y)); //right
            pixelStack.push(bit(current.x-1,current.y)); //left
            pixelStack.push(bit(current.x,current.y+1)); //up
            pixelStack.push(bit(current.x,current.y-1)); //down

    function isSameColor (pixel)
        var imgdat = ctx.getImageData(pixel.x,pixel.y,1,1).data;
        if (imgdat[0]== hexToRGB(target_color).r && imgdat[1]== hexToRGB(target_color).g, imgdat[2]== hexToRGB(target_color).b)
            return true;
            return false;
    function hexToRGB (hex)
        var result = /^#?([a-f\d]{2})([a-f\d]{2})([a-f\d]{2})$/i.exec(hex);
        return result ? {
            r: parseInt(result[1], 16),
            g: parseInt(result[2], 16),
            b: parseInt(result[3], 16),
            rgb: parseInt(result[1], 16) + ", " + parseInt(result[2], 16) + ", " + parseInt(result[3], 16)
        } : null;

Unfortunately, once the algorithm has been run canvas drawing is absurdly slow. Since I have mouse coordinate details for all the painting, I considering trying to use vectors to fill it, but my mathematical background isn't really strong enough to do it without help.

What's the slow part of my application? How can I fix it?

EDIT: As I mentioned in the comments, I've tried both using just one large putImageData (very slow), and using createImageData instead of getImageData (marginally faster).

EDIT2: Every paint brush stroke is stored as a series of x-y coordinates that are recorded when a user clicks and drags. However, they are not closed paths. Instead they are drawn as a series of lines, and when the user lifts the mouse, move-to's.

Code updated to reflect my current implementation.

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Try pulling the getImageData and putImageData out of the loop. Get the entire image data to start, modify it, then write it all back instead of going through a read/write cycle for every pixel. – George P Jun 26 '13 at 19:55
Just attempted that. Still unusably slow. – Harangue Jun 26 '13 at 20:04
Also, switched to createImageData as suggested here:… Still very slow, but slightly better. – Harangue Jun 26 '13 at 20:28
Additional info needed: You say "I have mouse coordinate details for all the painting". Does that mean you can create a canvas path for any part of the painting that needs to be floodfilled? – markE Jun 26 '13 at 21:21
there is an efficient and versatile image processing library for js FILTER.js it will feature a fast floodfill plugin (using scanline algorithm) in next update (ps i'm author) – Nikos M. May 4 '15 at 11:46
up vote 1 down vote accepted

I realize this is a very old question, but if you're still working on this, temporarily put in some code timing the various parts of your function to find where it's slowest. Definitely pull the calls to getimagedata and putimagedata out of the loop - only call each once for each "fill". Once you have the imagedata, get and set the colors of the pixels through it's underlying buffer, viewed as a Uint32Array.


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