When writing pixels to an HTML Canvas context using putImageData I find that the pixel values are not exactly the same when I fetch them again. I have put up a sample test page showing the problem. Boiled down, the problem is:

var id = someContext.getImageData(0,0,1,1);
id.data[0]=id.data[3]=64; // 25% red, 25% alpha
id.data[1]=id.data[2]=0;  // No blue or green
var newData = someContext.getImageData(0,0,1,1);
console.log( newData.data[0] );

On Chrome v8, the red value comes back as 63; on Firefox v3.6, Safari v5, and IE9 the red value comes back as 67 (all on Windows). On OS X, Chrome v7, Safari v5, and Firefox v3.6 also come back as 67. None of them come back as the 64 value originally set!

Using setTimeout to delay between setting and re-fetching makes no difference. Changing the background of the page makes no difference. Using save() and restore() on the context (per this unlikely article) makes no difference.

  • I've put up another test page showing the effects of alpha on a set/returned value. The lower the alpha, the more widely-varied the results. Setting R:5 G:0 B:0 A:1 comes back as R:255 G:0 B:0 A:1.
    – Phrogz
    Dec 1, 2010 at 18:29
  • Were you ever able to get around this issue?
    – Billy
    Jul 6, 2014 at 3:51
  • @Billy No; even the HTML5 specs have a Note (see the link in my comment below) about the fact that set/get may result in different values.
    – Phrogz
    Dec 17, 2014 at 15:14

3 Answers 3


ImageData is defined in HTML5 as being unpremultiplied, but most canvas implementations use a premultiplied backing buffer to speed up compositing, etc. This means that when data is written and then read from the backing buffer it can change.

I would assume that Chrome v8 picked up a buggy version of the [un]premultiplying code from webkit.org (It has been broken before, although i don't recall any recent occurances, and that doesn't explain the windows only variance)

[edit: it could be worth checking a webkit nightly on windows? as the imagedata implementation doesn't have anything platform specific it's shared between all webkit browsers and could simply be broken in MSVC based builds]

  • To be clear, all browsers are 'buggy': none of them return 64 after setting the same. Chrome v8b happens to return a different value from the other browsers (albeit closer to the original). I've edited the question to highlight this.
    – Phrogz
    Nov 30, 2010 at 16:09
  • 2
    Thanks for the comment about the specs wrt premultiplied alpha. The specs explicitly note this problem, saying: "Due to the lossy nature of converting to and from premultiplied alpha color values, pixels that have just been set using putImageData() might be returned to an equivalent getImageData() as different values."
    – Phrogz
    Nov 30, 2010 at 16:15
  • I have a recollection that Opera doesn't get this problem, but maybe they've since changed their implementation.
    – olliej
    Dec 1, 2010 at 23:06

HTML5 specification encourages browser vendors to use something that is called Premultiplied Alpha. In essence this means that pixels are stored in 32-bit integers where each channel contains a 8-bit color value. For performance reasons, the Premultiplied Alpha is used by browsers. What it means is that it premultiplies color values based on the alpha value.

Here's an example. You have a color such that the values for RGB are 128, 64, 67. Now, for the sake of higher performance, the color values will be premultiplied by the alpha value. So, in case the alpha value is 16, all the color values will get multiplied by 16/256 (= 0.0625). In this case, the resulting values for RGB become 8, 4, 4.1875 (rounded to 4 because pixel color values are not floats).

The problem shows up when you do exactly what you are doing here; setting color data with a specific alpha value and then pulling back the actual color values. The previous Blue color of 4.1875 that got rounded to 4 will become 64 instead of 67 when you call getImageData().

That is why you are seeing all this and it will never change unless the underlying implementation in a browser engine changes to use a color system that does not suffer from this.

  • 1
    Could you cite where the HTML 5 specs encourage this? I see the specs requiring that all imagedata get/set use un premultiplied alpha, and I see the note (that I quoted above) where they say what might occur if the implementation happens to use premultiplied.
    – Phrogz
    Dec 16, 2010 at 20:47
  • @Phrogz what spec was that?
    – NoBugs
    Dec 17, 2014 at 7:42
  • @NoBugs The one I linked to in my comment on olliej's answer.
    – Phrogz
    Dec 17, 2014 at 15:12

Looks like a rounding issue to me...

64/255 = 0.2509... (rounded down to give 0.25)
0.25 * 255 = 63.75 (rounded down to give 63)
== OR ==
64/255 = 0.2509... (rounded up to give 0.26)
0.26 * 255 = 66.3  (rounded up to give 67)

Remember that 255 is the maximum value, not 256 ;)

EDIT: Of course, this wouldn't explain why the alpha channel is behaving...

  • Interesting data points. I suppose if there was a *100 in the underlying code before a round() or ceil() that might make sense. I would have said that was unlikely, but you've managed to reach the two magic numbers semi-directly. :)
    – Phrogz
    Nov 30, 2010 at 0:22
  • One odd note, however: if you set the alpha to 255 the red comes back out as 64 as desired. Perhaps there's a premultiply pipeline involved?
    – Phrogz
    Nov 30, 2010 at 0:24

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