# Create a non-linear MATLAB colormap without modifying the data

I'm having some trouble creating a customized MATLAB colormap and colorbar. I want to display an image (with `imagesc` for example) and I want to define a colormap via an Nx4 matrix

``````cMap = [ x(1) r(1) g(1) b(1); ...
x(2) r(2) g(2) b(2); ...
...
x(N) r(N) g(N) b(N)];
``````

such that image values between `x(i)` and `x(i+1)` have color `r(i),g(i),b(i)`. The vector `x` needs to be increasing, but not necessarily in a linear fashion. In addition, I want to be able to click on the image with the GUI and see the actual image value at each pixel, so I don't want to reassign pixel values before displaying. Finally, I want a colorbar on which each color represented by a segment of equal length.

I'm able to do 2/3 of these things by finding the least common multiple of `diff(x)`, and concatenating several constant color rows into one colormap, however the colorbar this makes has color sizes which are proportional to the differences along x, and it looks bad and hard to read.

To get around the colorbar problem, I've tried making several patch objects of the colors in `cMap`, placing them at `[inf inf]` and then calling `legend` on these objects, but setting all the legend and axis properties required to make this look good for all sized colormaps is very hard, and I'm constantly debugging this as multiple users are using this tool. I would love to use MATLAB colorbar if I could.

Has anyone ever dealt with a problem like this? Thanks!

-

You won't be able to get a MATLAB colorbar to non-linearly stretch and compress in the way you want it to. One thing you can do is to set the tick marks at the color boundaries, though. You can change the tick positions like this:

``````>> imagesc(peaks);
>> h = colorbar;
>> set(h, 'YTick', [-5 -1.5 0 1 3.5 6.2]);
``````

The other option is to plot the colorbar as another image, which is essentially what a MATLAB colorbar is anyway.

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Thanks for the reply, this is what I suspected to be true. It is somewhat frustrating for some applications where the range is very non-linear and you want to still explore the data after plotting. –  MarkV Feb 24 at 19:17
``````       xi=floor(x/max(x));