I'm working on a drawing application which requires high levels of accuracy, and I'm wondering which of the major browser platforms (including the HTML Canvas element, and Flash) give the best sub-pixel layout accuracy, both for drawn elements (rectangles in the Canvas or Flash, absolutely positioned DIVs in the browser), and for text.

There are a number of posts related to this, both on this site and others, (see list at bottom), but many are quite old, and none summarises the current situation.

My understanding is that Flash has native support for sub-pixel positioning, using twips to position objects to one twentieth of a pixel, and that when the TextLayoutFramework is used, this accuracy also extends to text. There is at least one report, however, that this doesn't work properly in Chrome. Can anyone confirm this?

My understanding of the situation in the browsers is that Firefox 14+ supports sub-pixel positioning for text and drawn elements, both in page layout and within the Canvas, but I haven't been able to ascertain how accurate this is.

I understand Chrome (as of v21) does not support sub-pixel positioning at all.

I understand IE9 doesn't support sub-pixel positioning, but it appears from the MS blog post linked below that IE10 will.

I don't know if there's any Mac/PC variance in this, and I don't know also if the accuracy of Flash varies between platforms and/or browsers.

I understand a summary question like this may provoke some debate, but I believe this is specific enough for people to provide useful answers, and hope that this thread can be a reference for the state of positioning accuracy up to now.

Some references:


Sub-pixel rendering in Chrome Canvas



Sub Pixel CSS positioning


  • Yes, and further to complicate matters I should add: accurate compared to what? I'm looking for a match with the rendering provided in an Adobe PDF or in InDesign (without hyphenation and paragraph composition, where text is concerned), which Flash layout and the TLF match quite well, but which browsers don't seem quite able to (at least this is what my research so far has shown). – Jude Fisher Sep 15 '12 at 15:30
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    Well, I'm loathe to award a bounty on this as, despite plenty of attention, I haven't learned a single concrete fact about the accuracy of the different platforms. While both answers below are helpful, neither really nails the subject. I have some of my own research to add to the topic but don't have time to write it up at the moment, so I'll just let the automated award take it's course, and maybe put something on meta about making the bounty system more flexible. – Jude Fisher Sep 24 '12 at 13:42

Currently, you can expect the best rounding and sub-pixel support to come from Mozilla with IE as the runner up. IE might end up being more fine tuned, but their release cycles are so long that Mozilla is likely to stay ahead of them.

As far as doing sub-pixel layout, you may be chasing a wisp, because the sub-pixel advantage improves anti-aliasing issues, not screen location accuracy. Your image will never be more accurate than 1 pixel from the true position, regardless of sub-pixel support.

The reason why some browsers don't zoom properly has nothing to do with sub-pixel support, it is because they are not remembering the exact position and rounding correctly. In other words, they are prematurely rounding the position and that causes the image to be mis-aligned.

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    Thanks for taking the time to reply. 'Currently, you can expect the best rounding and sub-pixel support to come from Mozilla with IE as the runner up' - do you have any data to back this up? – Jude Fisher Sep 19 '12 at 8:26

Short answer:
No. It is NOT possible/documented.
And even if determined experimentally, it is NOT guaranteed to remain the same in future.

Long answer:
At sub-pixel accuracies, there is a lot of variance among Browsers/OS/HW about how the input is captured/rendered. With h/w acceleration being enabled on most modern browsers, there are a large number variations in rendering across different PCs running different browsers on different operating systems. So much so that, it is possible to even identify every unique user by the slightly different variations in the rendered output of a common sample.

Rather than worrying about the discrepancies in the underlying frameworks, How about designing the UI of your drawing application to be independent of those problems. Couple of methods i can think of right now are:

  1. Allow editing the image at zoomed/magnified levels.

  2. Design a snap-to-grid method for elements.

The "zoom" operation would your custom implementation and NOT a feature of the underlying frameworks. So if you need sub-pixel accuracy to the order of 1/10th of a pixel, one would need to have a 10x_zoom() implemented as part of you web-app which would render the data from

1st pixel --> 10x10pixels at (0,0),
2nd pixel --> 10x10pixels starting from (11,11).

This way one would have a very magnified view of the data, but the framework is blissfully unaware of all this and renders accurate to the onscreen-pixel(which in our case now is 1/10th of the image pixel).

Also an important thing to note that this operation would consume a lot of memory if done for the entire image at once. Hence doing this for ONLY the visible part of the image in a "zoom-window" would be faster and a less memory intensive process.

Once implemented in your drawing web-app the sub-pixel inaccuracies in the frameworks might not turn out to be a problem for the user as he can always switch into these modes and provide accurate input.

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  • anyone else with experience in designing drawing apps, feel free to add your favorite method(s) to capture accurate input... – TheCodeArtist Sep 19 '12 at 7:03
  • The problem with zooming is that this is precisely when sub-pixel inaccuracies show up. If I have an image, created in say Photoshop or Illustrator, that is placed in a document at 0,0 and set to 14.42 pixels wide (or, more commonly, a value in points or cm that evaluates to such a pixel width), then when I open that document in a browser and zoom in, the discrepancy between 14.42 and the rounded 14 pixels is very obvious. Relative to an adjacent item placed at 15 pixels, it seems to have moved to the left. At least in Flash it will actually be 14.4 pixels wide (accurate to the nearest twip). – Jude Fisher Sep 19 '12 at 7:11
  • ok. What i kinda assumed in my solution was that the "zoom" operation would be a custom implementation in the application and not derieved from the underlying frameworks. Updated the answer to mention the same. – TheCodeArtist Sep 19 '12 at 8:22
  • Yes, I'm aware there are solutions. The point of the question was to find out the level of accuracy, to determine if such a solution was needed/warranted, though. I'm still looking for some concrete figures on how accurate the various platforms are. – Jude Fisher Sep 19 '12 at 8:25
  • @wvxvw Agreed. But the current drawing application one might specifically NOT want do any anti-aliasing. The whole point of having the custom "zoom" was to show the pixelated image thereby clearly highlighting where one pixel ends and the other starts. In the zoom mode the actual pixel is rendered on multiple onscreen pixels. In the 10x example, a click on any of the 100 onscreen-pixels will be mapped to the 1 actual pixel in the actual image. The final image will anyways be the zoomed-out one at the normal size. – TheCodeArtist Sep 20 '12 at 10:38

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