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You want to modify the Ticks and TickLabels property of the object created by colorbar: For example: CX = [0.539700, 0.000000, 0.000000; ... 1.000000, 0.460300, 0.000000; ... 1.000000, 0.571400, 0.000000; ... 0.460300, 1.000000, 0.539700; ... 0.428600, 1.000000, 0.571400; ... 0.000000, 0.920600, 1.000000; ... 0.000000, 0.285700, 1.000000; ... 0.000000, ...

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Although I can't test your exact case as you've not provided an independently runnable example you should (if my understanding of your desired behaviour is correct) be able to accomplish what you want as follows. Firstly edit this line to remove the manual setting of the colour and edge information: patches = [mpl.patches.Rectangle(xy[i], dx[i], dy[i], ...

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To do this I did the same as @birdsarah. As an extra tip though if you use the rect method as your colour map, then use the rect method once again in the colour bar and use the same source. The end result is that you can select sections of the colour bar and it also selects in your plot. Try it out: http://simonbiggs.github.io/electronfactors

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According to http://matplotlib.org/api/figure_api.html#matplotlib.figure.Figure.colorbar you has to pass neccessary argument mappable to colorbar method of Figure. import matplotlib.pyplot as plt x = [1,2,3,4] y = [1,2,1,3] z = [10, 20, 30, 40] fig, axes = plt.subplots(1, 3, sharey = True) axes[0].plot(z, y, 'ok') axes[1].plot(x, y, 'ok') a2 = ...

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I'm afraid I don't have a great answer, this should be easier in Bokeh. But I have done something like this manually before. Because I often want these off my plot, I make a new plot, and then assemble it together with something like hplot or gridplot. There is an example of this here: ...

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I cannot tell why the colormap does not use the full range of colors in your example, but it seems that the following is closer to the result you want (i.e. it does span a larger range of colors with the quantile levels). ... hm = plt.contourf(x, levels = levels, cmap = "rainbow", vmax = levels[-2]) ... You can also try a 'weighted' value for the max ...

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With huge thanks to farenorth, who got me thinking about this in the right way, I came up with a function, get_colour_bar_ticks: def get_colour_bar_ticks(colourbar): import numpy as np # Get the limits and the extent of the colour bar. limits = colourbar.get_clim() extent = limits[1] - limits[0] # Get the yticks of the colour bar as ...

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I think this is what you're looking for: h = plt.hist2d(x, y) mn, mx = h[-1].get_clim() mn = 60 * np.floor(mn / 60.) mx = 60 * np.ceil(mx / 60.) h[-1].set_clim(mn, mx) cbar = plt.colorbar(h[-1], ticks=np.arange(mn, mx + 1, 60), ) This gives something like, It's also often convenient to use tickers from the matplotlib.ticker, and use the tick_values ...

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You can create a 2nd axes with the same position as the 1st colorbar and set its ylabel property to the title you want plus the ytick property to what you need. Dummy example: %// Create colorbar hBar1 = colorbar; %// Set its ylabel property ylabel(hBar1,'Total electron content','FontSize',12); %// Get its position BarPos = get(hBar1,'position'); %// ...

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I thought this question pointed out a bug, but it turns it's a usage/compatability constraint. The solution is to create the contours for the range of the colorbar that you want, and use the extend kwarg. For more information, take a look at this issue. Thanks to @tcaswell for providing this solution: import matplotlib.pyplot as plt import numpy as np x, ...

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