I have noticed that MATLAB sometimes displays my colors incorrectly. I'm not sure if this is a programming error on my side, or if it is an actual bug in MATLAB. I noticed this behavior with some regularity over the last year or so.
This time, I decided to take a snapshot of a figure with the error in question (taken on MATLAB 2011b on Windows 7, 64 bit):
The code that displays the image in question is the following:
figure; clf; cla; imshow(matrix, ); colormap(cmap); set(gca, 'Clim', [0 highest_index]);
matrixis of type
uint32(although I have also tried explitly casting
doubleprior to calling
- The values in
The RGB entry for the value
[1, 0, 0.1] both in the image above and in the colormap array
cmap(300, :) = [1, 0, 0.1] (notice that the matrix value
259 gets the index
300 in the colormap, since the first entry of the colormap is for the matrix value
Why does this happen? Is it an error? Is there anything I am doing wrong?
- I tried switching
scaled, but it didn't make a difference.
- I also tried using
imshow, but it didn't make a difference.
If I convert the image to RGB first (i.e. transform the
indexed imageto a
true colorimage; see here for more info on this), i.e. with
i_rgb = ind2rgb(i_indexed, cmap), the error goes away and the image is displayed correctly.
Unfortunately, if I display a
true colorimage the data tip does not reveal the index in the original matrix for each color anymore and instead it just displays the RGB vector (i.e. this is logical, since MATLAB is not aware of the original index anymore).
Here's some sample code:
h_f = figure(1); clf; i_spiral = spiral(40); h_i = image(i_spiral); % Synthesize a colormap first in HSV and then transform it to RGB: max_i_spiral = max(i_spiral(:)); m = max_i_spiral; h = (0:m-1)'/max(m,1); cmap_spiral = hsv2rgb([h ones(m,2)]); colormap(cmap_spiral); % If I comment out the following two lines or use imshow instead of image, % it makes no difference (I still get the same error): set(gca, 'Clim', [1 max_i_spiral]); set(h_i, 'CDataMapping', 'direct');
The code above results in: