# How does imread scale 12bit images?

I have a 12-bit pgm-image, which I read with imread. The result is a 16-bit image having values in the full range 0 to 2^16 - 1.

How does Matlab scale? Will

`````` X = imread('filename');
X = uint16(double(X)*((2^12-1)/(2^16-1)));
``````

recover the original intensities?

MATLAB does load PGM 12-bit images correctly. However, after MATLAB loads the images, the image values are rescaled from 12-bit to 16-bit.

MATLAB uses the following algorithm to scale the values from 12-bit to 16-bit:

``````% W contains the the 12-bit data loaded from file. Data is stored in 16-bit unsigned integer
% First 4 bits are 0. Consider 12-bit pixel color value of ABC
% Then W = 0ABC
X = bitshift(W,4); % X = ABC0
Y = bitshift(W,-8); %Y = 000A
Z = bitor(X,Y); %Z = ABCA
% Z is the variable that is returned by IMREAD.
``````

Workaround for this is like that

``````function out_image = imreadPGM12(filename)
out_image = floor(out_image./16);
return
``````

Alternatively perform a 4 bit shift to the right:

``````function out_image = imreadPGM12(filename)
• @sof_dff Looks good, but I tried this `A = uint16(1:(2^12-1)); imwrite(A,'test.pgm','MaxValue',max(A(:))); B = imread('test.pgm');`, and neither of your solutions would recover `A`. What did I misunderstand? – jolo Dec 1 '14 at 9:50
• @sof_dff I tried to create an example as in my question, i.e. an 12-bit .pgm-file. As you point out correctly removing `max(A(:))` will make `imread` read the correct values - which it shouldn't as you pointed out in your answer. The reason is that `imwrite` also uses some scaling (as can be seen by using `imfinfo` on the saved image) which I tried to work around by passing the `maxValue` argument. – jolo Dec 9 '14 at 9:58
• @sof_dff I understood now how `imwrite` works and how I misused the `maxValue` argument. – jolo Dec 15 '14 at 20:29