In the upcoming version of Photoshop there is a feature called Content-Aware fill.

This feature will fill a selection of an image based on the surrounding image - to the point it can generate bushes and clouds while being seamless with the surrounding image.

See http://www.youtube.com/watch?v=NH0aEp1oDOI for a preview of the Photoshop feature I'm talking about.

My question is: How does this feature work algorithmically?

  • 15
    My theory? It ties in with Google Earth/Maps to determine what you took a picture of, then just pulls surrounding image data down and inserts it into your original image :)
    – Tim
    Mar 27, 2010 at 18:38
  • 11
    It's magic. Prove me wrong.
    – Amy B
    Mar 27, 2010 at 21:46
  • 1
    Solving this: cs.stackexchange.com/questions/23794/… could be used easily for "Inpainting".
    – Royi
    Apr 15, 2014 at 18:48

7 Answers 7


I am a co-author of the PatchMatch paper previously mentioned here, and I led the development of the original Content-Aware Fill feature in Photoshop, along with Ivan Cavero Belaunde and Eli Shechtman in the Creative Technologies Lab, and Jeff Chien on the Photoshop team.

Photoshop's Content-Aware Fill uses a highly optimized, multithreaded variation of the algorithm described in the PatchMatch paper, and an older method called "SpaceTime Video Completion." Both papers are cited on the following technology page for this feature:


You can find out more about us on the Adobe Research web pages.

  • 2
    Thank you for sharing some very valuable information. This should be the correct answer. Apr 26, 2014 at 17:03
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    It would be nice to summarize the paper. The content already went down and only available via the Wayback Machine.
    – totymedli
    May 24, 2022 at 11:04

I'm guessing that for the smaller holes they are grabbing similarly textured patches surrounding the area to fill it in. This is described in a paper entitled "PatchMatch: A Randomized Correspondence Algorithm for Structural Image Editing" by Connelly Barnes and others in SIGGRAPH 2009. For larger holes they can exploit a large database of pictures with similar global statistics or texture, as describe in "Scene Completion Using Millions of Photographs". If they somehow could fused the two together I think it should work like in the video.


There is very similar algorithm for GIMP for a quite long time. It is called resynthesizer and probably you should be able to find a source for it (maybe at the project site)

There is also source available at the ubuntu repository
And here you can see processing the same images with GIMP: http://www.youtube.com/watch?v=0AoobQQBeVc&feature=related

  • When I last looked at resynthesizer (version 0.13, I think), it was behind state of the art (see e.g. Criminisi's work cited in my answer) and thus pretty slow. Of course, it's still the best from what's available for free.
    – AVB
    Mar 31, 2010 at 18:13

Well, they are not going to tell for the obvious reasons. The general name for the technique is "inpainting", you can look this up.

Specifically, if you look at what Criminisi did while in Microsoft http://citeseerx.ist.psu.edu/viewdoc/summary?doi= and what Todor Georgiev does now at Adobe http://www.tgeorgiev.net/Inpainting.html, you'll be able to make a very good guess. A 90% guess, I'd say, which should be good enough.


I work on a similar problem. From what i read they use "PatchMatch" or "non-parametric patch sampling" in general.

PatchMatch: A Randomized Correspondence Algorithm for Structural Image Editing


As a guess (and that's all that it would be) I'd expect that it does some frequency analysis (some like a Fourier transform) of the image. By looking only at the image at the edge of the selection and ignoring the middle, it could then extrapolate back into the middle. If the designers choose the correct color plains and what not, they should be able to generate a texture that seamlessly blends into the image at the edges.

edit: looking at the last example in the video; if you look at the top of the original image on either edge you see that the selection line runs right down a "gap" in the clouds and that right in the middle there is a "bump". These are the kind of artifacts I'd expect to see if my guess is correct. (OTOH, I'd also expect to see them is it was using some kind of sudo-mirroring across the selection boundary.)

  • 1
    People used Fourier-like transforms to do these things in the 80s. Things happened since, although in some conditions this will give you a good initial guess.
    – AVB
    Mar 27, 2010 at 23:03
  • AB: If I had to guess, I'd still say it's doing the same basic thing, just a more advanced version of it.
    – BCS
    Mar 28, 2010 at 1:17

The general approach is either content-aware fill or seam-carving. Ariel Shamir's group is responsible for the seminal work here, which was presented in SIGGRAPH 2007. See: http://www.faculty.idc.ac.il/arik/site/subject-seam-carve.asp

Edit: Please see answer from the co-author of Content-Aware fill. I will be deleting this soon.

  • 3
    For the record, seam-carving is NOT content-aware fill. It is a simpler algorithm that allows you to resize the image vertically and horizontally without distorting important features.
    – erjiang
    Jun 13, 2011 at 4:31
  • seam-carving is for content-aware scale, not content-aware fill :) Aug 16, 2022 at 22:30

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