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I am fairly new to Matlab and have a few questions. I got two surfaces and a plane in the same figure. I want to use different colormap and colorbar for b and another colormap and colorbar for c. s is fixed color so it's not a problem.

Let me try to explain what I am trying to achieve:

cmap1=colormap(topobathy) -->cmap1 is 64x3 double as expected


create cdata1 using cmap1 (this is the first part I cannot figure out, how to scale z data using cmap1, by default CData contains the z values)


colorbar for b using z values

c=pcolor(x,y,(z-z0)) - I want to use cmap2 for this one.

colorbar for c using (z-z0) values

Here is what I have so far and the problems I encounter

set(get(cbar1,'ylabel'),'String', 'Elevation (m)', 'Rotation', 90)
hold on;
s=surf(x,y,z1,'FaceColor',[0.278 0.788 0.788])
hold on;
set(c,'ZData',100 + 0*change); %plotting it above the other surfaces

at this point colormap is set to redwhitegreen for b, colorbar of b I can't get the second colorbar with its own clim etc.

I used the freezeColors and cbfreeze explained in this link: http://blogs.mathworks.com/pick/2009/07/24/using-multiple-colormaps-in-a-single-figure/

but one thing works while messing another thing (probably all my fault). I want to learn how to have complete control over my objects without using external m files anyway.

Any help is appreciated.

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2 Answers 2

The basic idea is that you concatenate the colormaps, and then shift/scale the color data (CData) of the different plot handles to line up with the desired portions of the colormap. So, without knowing what your custom functions or specific data are, you could do something like colormap(topobathy(64); redwhitegreen(64)) and then scale the CData of b into the range [1,64] and the CData of c into the range [65,128].

There is an excellent guide on the MathWorks website that explains all this (even uses surf() and pcolor() like your example):


For the colorbar, you can just fake out the ticks and labels in a similar manner. Here is rough shot at making a color bar for the above example:

h = colorbar;
ticks = [1 16:16:64 64:16:128];
ticks(5:6) = [62 66];
set(h, 'YTick', ticks);

labels = num2str(repmat(linspace(min(Z(:)), max(Z(:)), 5), 1, 2)', 2);
set(h, 'YTickLabel', labels)

enter image description here

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thank you for the response - that's a good link, I was aware of it but that does not apply to my problem - my surf and pcolor are using different Z datasets. I want their corresponding colorbar and colormap to reflect that. –  theenemy Nov 10 '11 at 14:28
There is no requirement that they be the same Z values, and I encourage you to work through that example closely. The main point is simply that each CData must be scaled/shifted onto its corresponding part of the concatenated color map. Even your color maps don't have to be 64-64, although having them the same size is always more convenient for me. –  John Colby Nov 10 '11 at 16:31
@theenemy Further, if you really want 2 color bars, that is simple too. Just make 2 of them and then adjust the Position property so they don't overlap, and the YLim property so each only shows one part of the color map. –  John Colby Nov 10 '11 at 16:33

I had the same problem as you, and the best (and only) solution I found was the next:

  1. Concatenate both colormaps I wanted:

    cmap1 = jet(64); cmap2 = copper(64); color_map = [cmap1 ; cmap2];

    So, the first colormap (cmap1) will be used for Axes1, and the second colormap (cmap2) for Axes2. I guess that Axes1 and Axes2 are in the same figure.

  2. Normalize data, giving a scale from 0 to 1 for data of Axes1, and from 1 to 2 for data of Axes2. So, Axes1 in [0, 1] and Axes2 in [1 2].

    data1 = data1 - lower_limit1; data1 = double(data1./(upper_limit1 - lower_limit1));

    For data set of Axes 2:

    data2 = data2 - lower_limit;
    data2 = double(data2./(upper_limit2 - lower_limit2)) + 1;
  3. When representing them:

    • Axes1:
    pcolor(handle_axes1, x_axis, y_axis, data1); shading(handle_axes1,'FLAT'); 
    caxis(handle_axes1, [0 2]);
    % Colorbar
    h_colorbar = colorbar('peer', handle_axes1);
    set(h_colorbar, 'YLim', [0 1]);
    labels = num2str(linspace(lower_limit1, upper_limit1, 6)', 2);
    set(h_colorbar, 'YTick', linspace(0, 1, 6));
    set(h_colorbar, 'YTickLabel', labels);
    • Axes2:
    pcolor(handle_axes2, x_axis, y_axis, data2); shading(handle_axes2,'FLAT'); 
    caxis(handle_axes2, [0 2]);
    % Colorbar
    h_colorbar2 = colorbar('peer', handle_axes2);
    set(h_colorbar2, 'YLim', [1 2]);
    labels = num2str(linspace(lower_limit2, upper_limit2, 6)', 2);
    set(h_colorbar2, 'YTick', linspace(1, 2, 6));
    set(h_colorbar2, 'YTickLabel', labels);

Use pcolor or surf, depending on your needs. Hope it helps!

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