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for this project http://biduleohm.free.fr/ledohm/ (sorry, the user interface is in french but the code is in english) I need an angular gradient but it doesn't exists in native so I've implemented it using a linear gradient on a line and I draw the lines more and more longer to form a triangle. The result is graphically OK but the speed isn't really good (1850 ms for 125 triangles). It's in the tab [Répartition], it redraws if there is a keyup event on one of the inputs, don't be afraid of the apparent slowness, I've limited to maximum one redraw every 2000 ms.

Before I used a simple linear gradient on the whole triangle (but this doesn't match the reality) and the speed was OK, it draws thousands of triangles in less than a second. This function was used :

drawFrontLightForColor : function(x, y, w, h, color) {
    var x2 = x - w;
    var x3 = x + w;
    var gradient = Distri.frontCanvas.createLinearGradient(x2, y, x3, y);
    gradient.addColorStop(0,   'rgba(' + color + ', ' + Distri.lightEdgeAlpha + ')');
    gradient.addColorStop(0.5, 'rgba(' + color + ', ' + (color == Distri.lightColors.cw ? Distri.lightCenterAlphaCw : Distri.lightCenterAlphaOther) + ')');
    gradient.addColorStop(1,   'rgba(' + color + ', ' + Distri.lightEdgeAlpha + ')');
    Distri.frontCanvas.fillStyle = gradient;
    Distri.frontCanvas.beginPath();
    Distri.frontCanvas.moveTo(x, y);
    Distri.frontCanvas.lineTo(x2, (y + h));
    Distri.frontCanvas.lineTo(x3, (y + h));
    Distri.frontCanvas.lineTo(x, y);
    Distri.frontCanvas.fill();
    Distri.frontCanvas.closePath();
},

Then I switched to this function :

drawFrontLightForColor : function(x, y, w, h, centerColor, edgeColor) {
    var ratio = w / h;
    var tmpY;
    var tmpW;
    var x2;
    var x3;
    var gradient;
    Distri.frontCanvas.lineWidth = 1;
    for (var tmpH = 0; tmpH < h; tmpH++) {
        tmpY = y + tmpH;
        tmpW = Math.round(tmpH * ratio);
        x2 = x - tmpW;
        x3 = x + tmpW;
        gradient = Distri.frontCanvas.createLinearGradient(x2, tmpY, x3, tmpY);
        gradient.addColorStop(0, edgeColor);
        gradient.addColorStop(0.5, centerColor);
        gradient.addColorStop(1, edgeColor);
        Distri.frontCanvas.beginPath();
        Distri.frontCanvas.moveTo(x2, tmpY);
        Distri.frontCanvas.lineTo(x, tmpY);
        Distri.frontCanvas.lineTo(x3, tmpY);
        Distri.frontCanvas.strokeStyle = gradient;
        Distri.frontCanvas.stroke();
        Distri.frontCanvas.closePath();
    }
},

You can find the whole source here

I can't put the beginPath, stroke, closePath out of the loop because of the gradient which is changing every iteration (I've tried but it used the last gradient for every line (which, ironically, is identical to the first function...) which is understandable but not what I want).

I accept any advice (including redo the whole function and modify his caller to outsource some code) to improve the speed let's say 5x (ideally more).

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1  
You may try WebGL. It should be able to handle literally millions of triangles. –  kirilloid Mar 24 at 22:49
    
I'm not finding a "Répartition" tab on your link. Could you attach a .png to your question. –  markE Mar 24 at 22:56
    
Yes, but if possible, I would like to keep the canvas. Also it seems to me that WebGL is not compatible with all browsers but I'll check, thanks. @markE I can't post more than 2 links because it's my first question. But execute Shared.$tabs._1.click(); in the console. –  Biduleohm Mar 24 at 22:58
    
Hum, WebGL seems more attractive than I thought, the 3D and interactivity offers endless possibilities for my project... And it's supported by all recents browsers. Thanks for suggesting it, I'll try it. But just for curiosity, it's possible to significantly optimize my code ? –  Biduleohm Mar 24 at 23:17

2 Answers 2

up vote 0 down vote accepted

I think you took the wrong way from the start : when doing so much changes of color, you have better operate at the pixel level.
So yes that could be with a webgl pixel shader, but you'll have to fight just to get the boilerplate running ok on all platform (or get a lib to do that for you).
And anyway there's a solution perfect for your need, and fast enough (a few ms) : use raw pixel data, update them one by one with the relevant function, then draw the result.

The steps to do that are :
- create a buffer same size as the canvas.
- iterate through it's pixel, keeping track of the x,y of the point.
- normalize the coordinates so they match your 'space'.
- compute the value for the normalized (x,y) out of all the data that you have.
- write a color (in my example i choose greyscale) out of that value.
- draw the whole buffer to canvas.

I did a jsfiddle, and here's the result with 4 data points :

enter image description here

fiddle is here : http://jsfiddle.net/gamealchemist/KsM9c/3/

var canvas = document.getElementById("canvas");
var ctx = canvas.getContext('2d');
var width = canvas.width,
    height = canvas.height;

// builds an image for the target canvas
function buildImage(targetCanvas, valueForXY, someData) {
    var width = targetCanvas.width;
    var height = targetCanvas.height;
    var tempImg = ctx.createImageData(width, height);
    var buffer = tempImg.data;
    var offset = 0;
    var xy = [0, 0];
    function normalizeXY(xy) {
        xy[0] = xy[0] / width ;
        xy[1] = xy[1] / height;
    }
    for (var y = 0; y < height; y++)
    for (var x = 0; x < width; x++, offset += 4) {
        xy[0] = x; xy[1]=y;
        normalizeXY(xy);
        var val = Math.floor(valueForXY(xy, someData) * 255);
        buffer[offset] = val;
        buffer[offset + 1] = val;
        buffer[offset + 2] = val;
        buffer[offset + 3] = 255;
    }
    ctx.putImageData(tempImg, 0, 0);
}


// return normalized (0->1) value for x,y and
//      provided data.
//    xy is a 2 elements array
function someValueForXY(xy, someData) {
    var res = 0;
    for (var i = 0; i < someData.length; i++) {
        var thisData = someData[i];
        var dist = Math.pow(sq(thisData[0] - xy[0]) + sq(thisData[1] - xy[1]), -0.55);
        localRes = 0.04 * dist;
        res += localRes;
    }
    if (res > 1) res = 1;
    return res;
}

var someData = [
    [0.6, 0.2],
    [0.35, 0.8],
    [0.2, 0.5],
    [0.6, 0.75]
];

buildImage(canvas, someValueForXY, someData);

// ------------------------
function sq(x) {
    return x * x
}
share|improve this answer
    
Very clever, thank you. I'll use this for the existing canvas (in addition it allow to use any formula for the fadeout of light, my linear fadeout isn't very realistic...) and I'll add a third canvas with a WebGL 3D simulation. Just another little question: realistic blending of multiple colors is just an addition of the values of all sources for each component? or it's more complex? (quadratic maybe?) –  Biduleohm Mar 26 at 16:05
    
You're welcome. For your webgl idea, go for it if you like, but be sure to benchmark before if the imageData solution is not good enough (for 30 fps and not a full screen canvas, i am quite sure it is). Especially since webgl is not good at iterating within objects, so your pixel shader would be huge and slow (but surely faster). For the blending, most easy is to separate r,g,b to see clearly things. So yes basic method is an addition, but you might prefer some other blends... too much to say here !! Bonne chance ! –  GameAlchemist Mar 26 at 16:30
    
In fact the canvas are refreshed only on change event in a input and after a delay of 2s (no need to refresh if the user keep changing the parameters...) there is no need to run at many fps so the solution is probably good enough, I'll test it in a fiddle on many light sources before just to be sure. I've a few problems with WebGL but I'll make another topic for that as it's not related to this question. Encore merci :) –  Biduleohm Mar 26 at 17:04

In fact the GameAlchemist's solution isn't fast or I do something really wrong. I've implemented this algo only for the top view because the front view is much more complex.

For 120 lights the top view take 100-105 ms with the old code and it take 1650-1700 ms with this code (and moreover it still lacks a few things in the new code like the color for example):

drawTopLightForColor_ : function(canvasW, canvasD, rampX, rampY, rampZ, ledsArrays, color) {
    function sq(x) {
        return x * x;
    }
    var tmpImg = Distri.topCanvasCtx.createImageData(canvasW, canvasD);
    var rawData = tmpImg.data;
    var ledsArray = ledsArrays[color];
    var len = ledsArray.length;
    var i = 0;
    for (var y = 0; y < canvasD; y++) {
        for (var x = 0; x < canvasW; x++, i += 4) {
            var intensity = 0;
            for (var j = 0; j < len; j++) {
                intensity += 2 * Math.pow(
                    sq((rampX + ledsArray[j].x) - x) +
                    sq((rampZ + ledsArray[j].y) - y),
                    -0.5
                );
            }
            if (intensity > 1) {
                intensity = 1;
            }
            intensity = Math.round(intensity * 255);
            rawData[i] = intensity;
            rawData[i + 1] = intensity;
            rawData[i + 2] = intensity;
            rawData[i + 3] = 255;
        }
    }
    Distri.topCanvasCtx.putImageData(tmpImg, 0, 0);
},

Am I doing something wrong?

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