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I am generating 2D arrays on log-spaced axes (for instance, the x pixel coordinates are generated using logspace(log10(0.95), log10(2.08), n).

I want to display the image using a plain old imshow, in its native resolution and scaling (I don't need to stretch it; the data itself is already log scaled), but I want to add ticks, labels, lines that are in the correct place on the log axes. How do I do this?

Ideally I could just use commands line axvline(1.5) and the line would be in the correct place (58% from the left), but if the only way is to manually translate between logscale coordinates and image coordinates, that's ok, too.

For linear axes, using extents= in the call to imshow does what I want, but I don't see a way to do the same thing with a log axis.


from matplotlib.colors import LogNorm

x = logspace(log10(10), log10(1000), 5)
imshow(vstack((x,x)), extent=[10, 1000, 0, 100], cmap='gray', norm=LogNorm(), interpolation='nearest')
axvline(100, color='red')

This example does not work, because extent= only applies to linear scales, so when you do axvline at 100, it does not appear in the center. I'd like the x axis to show 10, 100, 1000, and axvline(100) to put a line in the center at the 100 point, while the pixels remain equally spaced.

share|improve this question
Can you have some working code or image of what you want to achieve. Another question is whether you are flexible about using pcolor instead of imshow. – imsc Jul 16 '12 at 5:44
@imsc: added an example. I think pcolor is fine. – endolith Jul 16 '12 at 14:26

In my view, it is better to use pcolor and regular (non-converted) x and y values. pcolor gives you more flexibility and regular x and y axis are less confusing.

import pylab as plt
import numpy as np
from matplotlib.colors import LogNorm
from matplotlib.ticker import LogFormatterMathtext

x=np.logspace(1, 3, 6)
y=np.logspace(0, 2,3)
z = np.logspace(np.log10(10), np.log10(1000), 5)

im = plt.pcolor(X,Y,Z, cmap='gray', norm=LogNorm())
plt.axvline(100, color='red')


plt.colorbar(im, orientation='horizontal',format=LogFormatterMathtext())

enter image description here

As pcolor is slow, a faster solution is to use pcolormesh instead.

im = plt.pcolormesh(X,Y,Z, cmap='gray', norm=LogNorm())
share|improve this answer
This looks like it would solve my problem. Here's a simpler example that gets at what I was trying to solve: So pcolor is like an extremely slow imshow that draws each pixels as a rectangle? There's no way to do xscale('log') with imshow? – endolith Jul 16 '12 at 19:32
pcolormesh looks like a faster way to do the same thing. "pcolormesh uses a QuadMesh, a faster generalization of pcolor, but with some restrictions." Not sure what those restrictions are, but it seems to work. – endolith Jul 16 '12 at 19:45
pcolormesh seems to be a nice alternative. One of the restrictions is it can not be used with masked coordinate arrays. – imsc Jul 17 '12 at 5:24
I have added pcolormesh in my edited answer. – imsc Jul 17 '12 at 5:34
unfortunately this results in interpolation errors in the resulting image compared to imshow, which does good interpolation. :/ waiiiiit a second..... I just tried imshow with extent and followed by xscale('log') and it works fine. – endolith Jul 18 '12 at 3:31
up vote 7 down vote accepted

Actually, it works fine. I'm confused.

Previously I was getting errors about "Images are not supported on non-linear axes" which is why I asked this question. But now when I try it, it works:

import matplotlib.pyplot as plt
import numpy as np

x = np.logspace(1, 3, 5)
y = np.linspace(0, 2, 3)
z = np.linspace(0, 1, 4)
Z = np.vstack((z, z))

plt.imshow(Z, extent=[10, 1000, 0, 1], cmap='gray')

plt.axvline(100, color='red')

This is better than pcolor() and pcolormesh() because

  1. it's not insanely slow and
  2. is interpolated nicely without misleading artifacts when the image is not shown at native resolution.
share|improve this answer
I am equally confused. Previously, I tried imshow with log and it did not work, however it is working perfectly now. – imsc Jul 18 '12 at 15:34
We found that if you remove extent it won't work. That is, plt.imshow(Z,cmap='gray'); plt.xscale('log') raises the error. – Developer Jan 2 '14 at 6:56
@developer oh maybe because the default extent starts at 0? – endolith Jan 3 '14 at 14:03
When using the code above with matplotlib 1.4.3 I still get warnings: C:\Python34\lib\site-packages\matplotlib\axes\ UserWarning: aspect is not supported for Axes with xscale=log, yscale=linear 'yscale=%s' % (xscale, yscale)) and C:\Python34\lib\site-packages\matplotlib\ UserWarning: Images are not supported on non-linear axes. warnings.warn("Images are not supported on non-linear axes.") Obviously it does not work correctly as aspect ratio is wrong etc. Not recommended to use this. – dayoda Apr 1 '15 at 18:26

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