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Up until recently I have been using Mathematica for my plots. Although it was a real pain and everything had to be done manually, the results where very close to what I wanted. One example is the following:

Mathematica example plot

I really like the grey rounded rectangle in the background of the colorbar. While everything had to be adjusted manually in Mathematica, matplotlib is a lot more automatic and already produced nice results.

Mathematica example plot

But there are still two problems I have:

  1. I don't know how to do a rounded rectangle in the background. I looked at the fancybbox patch but didn't get it to work with the colorbar as I want it to. What is the best way to get something like the Mathematica box? For the legend in plots there seems to be a fancy bbox option... but not for colorbars
  2. When I use the "lesser sign" (<) the label of colorbar moves too far to the right. How can I adjust this (maybe even "in-between" the numbers as in the Mathematica plot)?

I am looking forward to any suggestions pointing in the right direction :).

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stackoverflow.com/questions/15882249/… <- how to adjust the padding on the tick labels –  tcaswell Aug 23 '13 at 14:20
And please show us code. –  tcaswell Aug 23 '13 at 14:22
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1 Answer 1

To your second question: you can use a negative labelpad value to move the label back towards the ticklabels, like this:

import numpy as np
import matplotlib.pyplot as plt

data = np.linspace(0, 10, num=256).reshape(16,16) 

cf = plt.contourf(data, levels=(0, 2.5, 5, 7.5, 10))
cb = plt.colorbar(cf)

cb.set_ticklabels([r'$<10^{0}$', 1, 2, r'$10^{14}$', r'$10^{14}+12345678$'])
cb.set_label(r'$n_e$ in $m^{-3}$', labelpad=-40, y=0.45)


Using the parameter y, you can additionally move the label up or down for better symmetry.

The argument of labelpad is given in points (1/72 inch). y accepts values in [0, 1], 0.0 is the lower border and 1.0 the upper.

The result:

Script Output

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y is not restricted to the interval [0.0, 1.0]. It can take any float/integer. If y > 1.0 the label will be placed above the top of the axis, and if y < 0.0 it will be placed below the bottom of the axis. The axis coordinates are normalized, meaning 0.0 is the "start" and 1.0 the "end" of the axis' extent. –  nordev Aug 24 '13 at 20:33
Just to be clear: the [0, 1] is interval notation, not list notation. Thus this means from 0 to 1, inclusive. This applies both to the answer and the comment above. –  nordev Aug 25 '13 at 9:31
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