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I have a .txt file containing the x,y values of regularly spaced points in a 2D map, the 3rd coordinate being the density at that point.

4.882812500000000E-004  4.882812500000000E-004  0.9072267
1.464843750000000E-003  4.882812500000000E-004   1.405174
2.441406250000000E-003  4.882812500000000E-004   24.32851
3.417968750000000E-003  4.882812500000000E-004   101.4136
4.394531250000000E-003  4.882812500000000E-004   199.1388
5.371093750000000E-003  4.882812500000000E-004   1278.898
6.347656250000000E-003  4.882812500000000E-004   1636.955
7.324218750000000E-003  4.882812500000000E-004   1504.590
8.300781250000000E-003  4.882812500000000E-004   814.6337
9.277343750000000E-003  4.882812500000000E-004   273.8610

When I plot this density map in gnuplot, with the following commands:

set palette rgbformulae 34,35,0
set size square
set pm3d map
splot "dens_map.map" u 1:2:(log10($3+10.)) title "Density map"`

Which gives me this beautiful image:

enter image description here

Now I would like to have the same result with matplotlib.

share|improve this question
1  
Please see here for an example. These are typically called "contour plots" or "heat maps" in matplotlib. Also a stack overflow example. – CoryKramer Jun 9 '14 at 12:13
    
reshape every column to an M x N array, and pass them to pcolormesh(). – HYRY Jun 9 '14 at 12:40
up vote 9 down vote accepted

Here is my aim at a more complete answer including choosing the color map and a logarithmic normalization of the color axis.

import matplotlib.pyplot as plt
import matplotlib.cm as cm
from matplotlib.colors import LogNorm
import numpy as np
x, y, z = np.loadtxt('data.txt', unpack=True)
N = int(len(z)**.5)
z = z.reshape(N, N)
plt.imshow(z+10, extent=(np.amin(x), np.amax(x), np.amin(y), np.amax(y)),
        cmap=cm.hot, norm=LogNorm())
plt.colorbar()
plt.show()

I assume here that your data can be transformed into a 2d array by a simple reshape. If this is not the case than you need to work a bit harder on getting the data in this form. Using imshow and not pcolormesh is more efficient here if you data lies on a grid (as it seems to do). The above code snippet results in the following image, that comes pretty close to what you wanted:

Resulting image

share|improve this answer

The comment from @HYRY is good, but a complete minimal working answer (with a picture!) is better. Using plt.pcolormesh

import pylab as plt
import numpy as np

# Sample data
side = np.linspace(-2,2,15)
X,Y = np.meshgrid(side,side)
Z = np.exp(-((X-1)**2+Y**2))

# Plot the density map using nearest-neighbor interpolation
plt.pcolormesh(X,Y,Z)
plt.show()

enter image description here

If the data looks like your sample, numpy can load it using the command numpy.genfromtext.

share|improve this answer
    
Thank you very much! The problem is that meshgrid won't work apparently because the arrays are too big. Is there any alternative to meshgrid? – user3722235 Jun 9 '14 at 13:57
    
@user3722235 Meshgrid was simply to create the sample data for the plot. You'll be getting X,Y,Z from your data file. However, if your data if is large (e.g. larger than memory), you'll need to preprocess it to a more coarse-grained level. I don't think this is the case since GNUplot can handle it already though. – Hooked Jun 9 '14 at 13:59
    
I would use imshow instead of pcolormesh. The mesh calls are more useful when you have irregularly shaped pixels. – tcaswell Jun 9 '14 at 14:28
    
Ok I did prprocess my map in a coarser lever. Now meshgrid seems to work fine. But how do I get the density array to the same shape as X or Y? – user3722235 Jun 9 '14 at 14:34

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