# MATLAB: Find indices/count of specific rgb pixel values in image

I'm using matlab to get counts of specific pixel values in an image.

Images are RGBA <512x512x4 uint8> when read into matlab (although we can disregard the alpha channel).

Other than;

``````[width, height, depth] = size(im);

for x = 1 : width;
for y = 1: height;

r = im(x,y,1);
g = im(x,y,2);
b = im(x,y,3);

...

end
end
``````

Is there a way I can do this using matrix operations? Something along the lines of:

``````X = find(im(:,:,1) == 255 && im(:,:,2) == 255 && im(:,:,3) == 255);
count = length(X);
% Count being the number of pixels with RGB value (255,255,255) in the image.
``````

I'm guessing there's more than a few ways to do this (looking at intersect, unique functions) but I'm not clever enough with matlab to do this yet. Any help?

-

It's actually pretty simple. Something like this

``````count = sum(im(:, :, 1) == 255 & im(:, :, 3) == 255 & im(:, :, 3) == 255);
``````

will give you the count of such pixels. Replace `sum` with `find` to get the indices of those pixels if you need that.

-
Based on this I used: count = length(find(im(:,:,1) == 255 & im(:,:,2) == 255 & im(:,:,3) == 255) == 1); which is exactly what I was trying to do. Thanks! –  Nicholas McCarthy May 23 '12 at 17:00
Well, `length` of `find` is fine - but it'll be more expensive. Using `sum` is straightforward, does exactly the same thing, and is faster. Of course you will need `find` if you want the indices. –  Ansari May 23 '12 at 17:02
Ah, I got it working with sum using: `R = sum(sum(im(:,:,1) == 0 & im(:,:,2) == 0 & im(:,:,3) == 0));` for the one-liner. Thanks again –  Nicholas McCarthy May 23 '12 at 17:13

You can do it with many ways. One way is this. Let's say your image is HxWx3 create a HxW table with the r value you want to search for, one HxW for the g and one for the blue. You can combine all thos tables as dimensions in a HxWx3 table F. Substract F from im and use the find() function to get the indexes of zeroed values.

``````F(:,:,1)=R*ones(H,W); F(:,:,2)=G*ones(H,W); F(:,:,3)=B*ones(H,W);
``````

then if you do im-F you get zeroes on the wanted positions

``````d=F-im;    [r,c]=find((d(:,:,1))==0)
``````

That way you can input also a threshold of how close you want the rgb set to be.

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This was the route I was trying to take (logical masks) but couldn't get working. Gotta give the accepted answer to Ansari for conciseness though, but thanks! :) –  Nicholas McCarthy May 23 '12 at 17:07