Edit: since chrome has updated the browser - this question is some what redundant as they have fixed an internal bug which means this problem no longer occurs.

I have an animation of a circle anchored to the center of the canvas.

The larger the circle becomes the less stable the motion is. But not only that, for me at least it is significantly worse in Chrome to Firefox.

The math is done in this function:

function update(deltaTime){
    var centerX = canvas.width/2;
    var centerY = canvas.height/2;
        i.currentAngle = (i.currentAngle || 0) + (deltaTime/1000 * i.rotationSpeed);

        i.x = centerX + (i.radius*i.factor) * Math.cos(i.currentAngle);
        i.y = centerY + (i.radius*i.factor) * Math.sin(i.currentAngle);  

This is the code in working example:


Chrome outputs:

Firefox Outputs:

enter image description here

Firefox seems to be closest to what I am aiming for yet Chrome is just wacky.

Why do I get such different results? I should mention I've asked a few people what they see, and everyone is seeing different amounts of inaccuracy.

  • looks fine in chrome(Iron) on windows 8 and arch linux
    – VeXii
    Nov 16 '13 at 3:38
  • 1
    Looks like the problem is in canvas functions (maybe implementations of them in browsers), as math functions give almost zero error on sum of cos^2 and sin^2, even with such a scale : jsfiddle.net/9Gt2L
    – ProdoElmit
    Nov 16 '13 at 4:05
  • 1
    @morodeer i shall do that right away :)
    – Sir
    Nov 16 '13 at 4:10
  • 1
    30.0.1599.101 on Windows, works just fine. Not seeing the tiniest amount of the line bouncing, not even as much as in your Firefox sample Nov 16 '13 at 12:34
  • 2
    Just updated from Chrome 30 to 31 and this bug came out Nov 16 '13 at 14:32

The problem is not with the Javascript math; it's with the canvas.


function bigCircle(angle) {
    var radius = 5000; //the bigger, the worse
    var x = canvas.width/2 + radius*Math.cos(angle);
    var y = canvas.height/2 + radius*Math.sin(angle);

    ctx.arc(x, y, radius, 0, 2 * Math.PI);
    ctx.lineWidth = 2;

Notice that numbers appear exactly the same as in Firefox, but the red arc is obviously drawn incorrectly in Chrome.


Interestingly, this works for all angles that are multiples of Math.PI / 4 but is off for values between those (hence the undulating behavior in the OP's example).

I've logged Chromium bug #320335.

EDIT: It looks like it was first reported in May 2012, and was caused by a bug in the Skia library.

It has now been resolved as fixed.

  • 5
    Nice findings, i have noticed IE is most accurate, and FF is slightly off but not as bad as Chrome. Odd for IE to come out trumps here!
    – Sir
    Nov 16 '13 at 21:03

Doesn't give you an answer, but Interestingly on Chrome there is a issue with the maths

i.currentAngle => 0.0;
(deltaTime/1000 * i.rotationSpeed) = 0.025;

i.currentAngle + (deltaTime/1000 * i.rotationSpeed) = 2215385637.025;

If you get the individual parts into variables out of Update() and into draw() so that you can use

var current = i.currentAngle;
var delta = (deltaTime/1000 * i.rotationSpeed);

ctx.fillText(("angle == " + current+ " delta " + delta),10,50);

you get (0.025 and 0) printed out

if you then change to

var current = i.currentAngle;
var delta = (deltaTime/1000 * i.rotationSpeed);

i.currentAngle = current + delta;

ctx.fillText(("angle == " + i.currentAngle + " delta " + delta),10,50);

You get a crazy large value.

but if you do

var newval = current + delta;
ctx.fillText(("angle == " + newval + " delta " + delta),10,50);

then newval has a value of around 0.025 which is what you would expect it to be.

Oddly if you then do the following

var newval = current + delta;
i.currentAngle = newval

ctx.fillText(("angle == " + newval + " delta " + delta),10,50);

then newval is now the completely crazy value....

  • 1
    That last part doesn't make sense why newval would change just because it is assigned to i.currentAngle ? Are you sure that happened?
    – Sir
    Nov 16 '13 at 17:48
  • Yes I'm absolutely sure that's happening. which is why this is interesting! Try it ... Nov 17 '13 at 8:10

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