I have two different algorithms that take an image as input. The image has polygons of different colors. The algorithm "simplifies" these polygons (so that they have less corners and edges) and removes polygons, which are too small.

These two algorithms work differently and I want to know which one is actually better in terms of which one is closer to the original picture. I came across this but that is not quite what I was looking for.

These two images

image 1 , image 2

should have a similarity of 50%, but according to that algorithm their similarity is 80%.

I also found a tool called ImageMagick that can compare two images. But I am not sure what the meaning of the outputs is and how I can use them to solve my problem.

  • For those images, the 100% of both the blue and green channels are equal, while 50% of the red channel is equal. So 80 (or rather 83) % equal makes sense? Might not be what you were looking for though... ;-) – Harald K Mar 24 '15 at 10:08
  • I know but I need a way to measure similarity in terms of which pixels were kept and which were changed – Selphiron Mar 24 '15 at 10:11

You would use ImageMagick like this to compare your two images:

compare -metric ae a.png b.png null:

or, the longer form using convert

convert -metric ae a.png b.png -compare -format "%[distortion]" info:

The -metric ae means "tell me the absolute error", i.e. the number of pixels that differ between the two images. In this case, the answer is 1161, which is exactly half the pixels, i.e. 50%.

If you specifically want 50% output, you can do the maths on the image dimensions with ImageMagick like this, if you use bash:

n=$(compare -metric ae a.png b.png null:)
identify -format "%[fx:$n*100/(w*h)]" a.png

or the longer form, using convert:

n=$(compare -metric ae a.png b.png null:)
convert -format "%[fx:$n*100/(w*h)]" a.png info:

If you are dealing with jpg images (and therefore lossy compression and artefacts) rather than png images, you may want to add in a fudge factor of a few percent, using the -fuzz parameter to allow almost identical pixels to count as being the same:

convert -fuzz 10% -metric ae ....

If you are unfortunate enough to have to use Windows, the way to do the above is arcane and unintelligible, but looks like this:

@echo off
for /f "tokens=1,2,3,*" %%G in ('convert -metric ae a.png b.png -compare -format "%%w %%h %%[distortion]" info:') DO set /a percent=(%%I * 100) /(%%G * %%H)
echo %percent%
  • thanks for the answer, looks very promising. I don't understand the n=$ part though.. I use the Windows prompt – Selphiron Mar 24 '15 at 12:01
  • 1
    n=$(...) means set tne variable n to the result (i.e. the output) of running the command inside the parentheses. So, in your example, n gets the value 1161. It's a Unix bash feature - there is a Windows equivalent - I'll find it for you. – Mark Setchell Mar 24 '15 at 12:09
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    It's here... ss64.com/nt/for_cmd.html So, you would need to do something like... FOR /F %%G IN ('compare -metric ae a.png b.png null:') DO @SET n=%%G – Mark Setchell Mar 24 '15 at 12:13
  • 1
    I worked out the awful Windows-y way of doing this, please see updated answer. – Mark Setchell Mar 24 '15 at 16:26
  • thank you, it worked. Yeah unfortunatly it has to be on windows -.- – Selphiron Mar 24 '15 at 21:15

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