I am looking for a way to get the Bitwise XOR of two images on the command line(or in another way that can be implemented in a program or script).

This should result in the same final picture as using the XOR Blending mode in picture editors that support it (Paint.NET, Photoshop, etc)

As an example, say I have Image A:

Image A(Seattle, from the paint.net documentation

and Image B:

ImageB(Apple, from the paint.net documentation)

then the result should look like:

Image C(Xor result of above images, from the paint.net documentation)

The fun part of this is of course, that when you XOR image C with image B again, you will get an exact copy of image A.

Now, I have been looking all over the internet for a way to do this programmatically, but I have found nothing. Even ImageMagick does not support doing a bitwise XOR on images.

Does sombebody know a way to do this?

up vote 20 down vote accepted

ImageMagick can do it, although it's a bit convoluted. One way is:

convert img1 img2 -fx "(((255*u)&(255*(1-v)))|((255*(1-u))&(255*v)))/255" img_out

(img1,img2,img_out are the two input and single output file names respectively).

Explanation

It's a bit ugly (I'm sure someone with more ImageMagick-fu than me could clean it up but it works like this:

  1. -fx "xxx" basically says "perform the operation xxx on the image". In the expression above, u and v stand for the first and second input images respectively.

  2. Now, -fx only has bitwise AND & and bitwise OR | in the way of bitwise operators. To reconstruct bitwise XOR, we need

    convert img1 img2 -fx "(u & NOT v) | (NOT u & v)" img_out
    
  3. To get the NOT (there is a logical NOT but no bitwise NOT), we remember that NOT x = 255-x if x is 8-bit. So to get NOT u we can just do 255-u, assuming image u is 8-bit. Hence, the ImageMagick command would be:

    convert img1.png img2.img -fx "((255-u)&v)|(u&(255-v))" image_xor.png
    
    • The one problem here is that when ImageMagick does fx it normalises all the pixels in u and v in the range [0,1] instead of [0,255] as we expect, and doing bitwise on non-integers screws stuff up.

    • Hence, we have to multiply all occurrences of u and v in the above expression by 255 (so the bitwise operations work), and divide by 255 at the very end to get back in the range [0,1] that ImageMagick expects.

This gives us the original command,

convert img1 img2 -fx "(((255*u)&(255*(1-v)))|((255*(1-u))&(255*v)))/255" img_out

Voila!

  • 1
    That looks amazing ;D. There was a small error in your code tough (the second u should be a v). Fixed it. It does however take AGES to run... ^^' – Qqwy Dec 14 '11 at 14:26
  • ta, shame it takes so long to run though (I only tried it on those baby images you have). Writing some code would still be fastest, -fx in imagemagick does have a reputation for being slower. – mathematical.coffee Dec 14 '11 at 23:18

I found a need for xor on an image and the G'MIC tool works for me. G'MIC is incredibly powerful, as is Image Magick, but worth a look for solving some tough image processing problems.

gmic a.png b.png -blend xor -o result.png

G'MIC also works directly on the images posted above.

gmic http://i.stack.imgur.com/Ws6e8.png http://i.stack.imgur.com/hoBIM.png -blend xor -o result.png

For help,

gmic -h -blend

enter image description here

  • It is very unfortunate that only one answer can be selected, as this gmic looks like a wonderful tool. (I selected the answer that I ended up using originally, which I should have but forgot to select two years ago). Thank you for this great answer! – Qqwy Oct 15 '16 at 22:10

Here is how I would do in Java:

Iterate over all the pixels of the two images at once. (for loop (x) inside a for loop (y)). Of course, use a BufferedImage. You can get the color of the pixel by doing:

int color = img.getRGB(x, y);

Do the same for the other image as well and perform the xor operation on the two colors. Store the resulting value in a new BufferedImage with the same dimensions as the two input images.

Here is some sample code:

public static BufferedImage xorEffect(BufferedImage imageA, BufferedImage imageB) {
    if (imageA.getWidth() != imageB.getWidth() ||
        imageA.getHeight() != imageB.getHeight())
    {
        throw new IllegalArgumentException("Dimensions are not the same!");
    }
    BufferedImage img = new BufferedImage(imageA.getWidth(),
                                          imageA.getHeight(),
                                          BufferedImage.TYPE_INT_ARGB_PRE);

    for (int y = 0; y < imageA.getHeight(); ++y) {
        for (int x = 0; x < imageA.getWidth(); ++x) {
           int pixelA = imageA.getRGB(x, y);
           int pixelB = imageB.getRGB(x, y);
           int pixelXOR = pixelA ^ pixelB;
           img.setRGB(x, y, pixelXOR);
        }
    }
    return img;
}

To load an image from a file use:

BufferedImage imageA = ImageIO.read(new File("/home/username/image.png"));
  • You might want to use BufferedImage.TYPE_INT_RGB, so that alpha does not cause differences. – Alex Collins Feb 23 '15 at 21:58

If you want to do yourself, do it pixel by pixel. If you want a library, I recommend OpenCV. This is very nice and open source library with huge operations supported in image processing area. It supports direct XOR using ^ operator. Good Luck.

Knowing that

A XOR B = (A AND NOT B) OR (NOT A AND B).

and that most of common image processing tools do have and, or and not operations the rest is quite easy :)

Working in Python, you could have a simple script performing the operation and even adding it as a plugin in the gimp ;)

  • 1
    BTW, I might have a quick and (somehow) elegant implementation using Python and opencv. I could send it here if want need it ;) – jlengrand Dec 14 '11 at 15:20

OpenCV has all the logical operators on images and numpy images using bitwise_# Where # can be xor, and, and, not ... See OpenCV - Intersection between two binary images

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