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The code below renders a broken ring nicely in IE9 and FireFox, but fails part way round the circle in Chrome. Any ideas why, or what I can do to make it render in all browsers?

Cheers

(Chrome version 15.0.874.121)

<!DOCTYPE html>
<html>
<body>
<canvas id="canvas1" width="201" height="201">No canvas in your browser...sorry...</canvas>
<script>
        var canv = document.getElementById('canvas1');
        var ctx = canv.getContext('2d');
        var size = 201;
        var centerX = size / 2;
        var centerY = centerX;
        var i;
        var PI_180 = Math.PI / 180;
        var fill = true;

        size = size / 2;
        ctx.translate(centerX, centerY);
        // broken ring
        for (i = 0; i < 360; i += 15) {
            fill = !fill;
            ctx.beginPath();
            ctx.arc(0, 0, size * 0.86, i * PI_180, (i + 15) * PI_180, false);
            ctx.arc(0, 0, size * 0.75, (i + 15) * PI_180, i * PI_180, true);
            ctx.closePath();
            if (fill) {
                ctx.fill();
            }
            ctx.stroke();
        }
        ctx.translate(-centerX, -centerY);
</script>
</body>
</html>
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1
  • Doh, I just noticed there was an update to Chrome available - 16.0.912.63 - and it now renders correctly in Chrome too. This has been bugging me for months, and it's fixed the day I post a question! (or at least I only saw the update today). – MCrossley Dec 22 '11 at 12:16
0

It works perfectly in Chrome 16, 17, and 18.

Chrome's canvas development is very fast paced and they've been breaking various things on and off for the past year. Problems of anti-aliasing, text distortion, and paths not showing up at all in some scales have all made it into the stable version of Chrome, where they might leave the (major) bugs for a week or two.

Whenever you suspect a bug in Chrome its always worth looking at how the dev and canary versions react. For these reasons I develop with both of them open, switching from one to the other if something is obviously broken. The funny thing is that you'll see bugs get made and fixed, and then one month later people will be complaining about the bug in the stable version!

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4
  • As of now 11:15am 15 May 2012, all browsers are rendering Arc's imperfectly, because they are all using quadratic approximation of a circle. If you render two large arcs, radius 600px, and 602px at 180 deg (sAngle 0, eAngle 180 for both) you'll see what I mean, I'll leave this JSFiddle (pending, back in 5mins;) ) for testing on future browsers. (I will have to check and see if these are logged as bugs on the major OSS browsers.) – ocodo May 15 '12 at 1:55
  • That jsfiddle showing the issue. jsfiddle.net/vXL2r - showing comparison of the aberration at 200px and 500px radii. - How much this is an issue is obviously dependent on your need for accuracy. Arcs drawn using the same start / end angle look ok, however, they are exhibiting the same sinusoidal aberration, just in parallel with each other ;). – ocodo May 15 '12 at 2:20
  • I guess it's time to go submit some bug reports. – ocodo May 16 '12 at 11:21
  • By the way, in my latest build of Safari on OS X it looks pretty good. – ocodo May 16 '12 at 11:28
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Here is a work-around. It's an alternative implementation of the arc method that I've made. It also approximates using quadratic beziers, but is much more precise in Chrome. The aberration is hardly noticeable for circles I've tried (up to twice the screen size):

var is_chrome = navigator.userAgent.toLowerCase().indexOf('chrome') > -1;
if (is_chrome) {
    CanvasRenderingContext2D.prototype.arc = function(x, y, radius, startAngle, endAngle, anticlockwise) {
    // Signed length of curve
    var signedLength;
    var tau = 2 * Math.PI;

    if (!anticlockwise && (endAngle - startAngle) >= tau) {
        signedLength = tau;
    } else if (anticlockwise && (startAngle - endAngle) >= tau) {
        signedLength = -tau;
    } else {
        var delta = endAngle - startAngle;
        signedLength = delta - tau * Math.floor(delta / tau);

        // If very close to a full number of revolutions, make it full
        if (Math.abs(delta) > 1e-12 && signedLength < 1e-12)
        signedLength = tau;

        // Adjust if anti-clockwise
        if (anticlockwise && signedLength > 0)
        signedLength = signedLength - tau;
    }

    // Minimum number of curves; 1 per quadrant.
    var minCurves = Math.ceil(Math.abs(signedLength)/(Math.PI/2));

    // Number of curves; square-root of radius (or minimum)
    var numCurves = Math.ceil(Math.max(minCurves, Math.sqrt(radius)));

    // "Radius" of control points to ensure that the middle point
    // of the curve is exactly on the circle radius.
    var cpRadius = radius * (2 - Math.cos(signedLength / (numCurves * 2)));

    // Angle step per curve
    var step = signedLength / numCurves;

    // Draw the circle
    this.lineTo(x + radius * Math.cos(startAngle), y + radius * Math.sin(startAngle));
    for (var i = 0, a = startAngle + step, a2 = startAngle + step/2; i < numCurves; ++i, a += step, a2 += step)
        this.quadraticCurveTo(x + cpRadius * Math.cos(a2), y + cpRadius * Math.sin(a2), x + radius * Math.cos(a), y + radius * Math.sin(a));
    }
}

Edit: Made whatwg conformant (like Firefox, Safari). Chrome also seem to get circles wrong for certain angles.

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1

We can fix it with ctx.clip().

For ex:

ctx.save();
// clipping
ctx.beginPath()
ctx.arc(x, y, radius, 0, 6.28, true);
ctx.clip();

// drawing
ctx.beginPath();
ctx.arc(x, y, radius, 0, 6.28, true);
ctx.fill();
ctx.restore();
ctx.stroke();

Yours Keyten / Newcomer :)

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