# Converting location into binary masks and filtering the image with such masks

Say that we have an image which pixels were labeled `1` and `2`. How can we do the following in `MATLAB`?

• Convert the locations of `1s` and `2s` into binary masks
• Filter the image with those masks

Thanks.

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Example:

``````% some RGB image
[h,w,~] = size(img);

% lets create some random labels. I'm simply dividing into two halves,
% where upper half is labeled 1, and lower half labeled 2
labels = [ones(h/2,w)*1; ones(h/2,w)*2];

% compute masks and filter image using each
img1 = bsxfun(@times, img, labels==1);
img2 = bsxfun(@times, img, labels==2);

% show result
subplot(121), imshow(img1)
subplot(122), imshow(img2)
``````

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Thanks for your reply. Regarding `img1 = bsxfun(@times, img, labels==1);`, do you mean here multiplying `img` with the pixels having value `1`? How is it a binary mask here? –  Simplicity Aug 31 '13 at 22:13
@Simplicity: `labels==k` will create a logical matrix with `true` for locations where the label is `k`, and `false` otherwise. I then multiply this mask by the pixels of the image (element-wise). Multiplying by one keeps the original value, multiplying by zero will zero out the pixels. `bsxfun` was used to broadcast the mask across the third dimension for R,G,B image channels. –  Amro Aug 31 '13 at 22:53
Sorry, regarding `subplot`, I returned to the documentation, but didn't understand what the values `121` and `122` represent? –  Simplicity Sep 1 '13 at 0:07
@Simplicity: its a shorthand form of `subplot(1,2,1)` meaning: 1 row, 2 columns, and use the 1st tile as current axis (specified as a linear index). This is explained at the bottom of the page in the "Tips" section: mathworks.com/help/matlab/ref/subplot.html#f33-521269 –  Amro Sep 1 '13 at 0:12
I should draw your attention to the fact that I used "double" images, rather than keep it in `uint8` data type. This is because MATLAB will annoyingly complain if you multiply integers with mixed types –  Amro Sep 1 '13 at 0:25