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I'm looking for some way in to convert a scatter plot (X vs Y, color normalized by Z) into a 2D "pixel" image. I.e. how can I plot a pixelized image where the pixels are colored according to a third variable?

In my case, I have a list of galaxies, each a with sky coordinate (X,Y) and a distance (Z). I want to make a pixelized image of X vs Y, with the pixels color normalized according to Z (e.g. the median Z value for the galaxies in that pixel).

I know I could do something like this with hexbin, but I would like to have square pixels, not hexagons. (Something more like what imshow produces).

I'm still learning python, so if there is a simple/quick way to do this (or clear instructions on how to do it the complicated way!) that'd be great.

Any help would be much appreciated!

Thanks,

Alex

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Have a look at pcolorshow! –  tillsten Nov 2 '11 at 23:43

1 Answer 1

up vote 1 down vote accepted

Okay - there are two ways that you can do this. One would be for you to have a discreet number of bins for the distances (like d < 10pc, 10pc < d < 20pc, d> 20pc). This is relatively easy, all you need to do are a few loops - here is an example with 3:

raclose = []
ramid = []
rafar = []
decdlose = []
decmid = []
decfar = []

for ii in range(len(dist)):
  if dist[ii] < 10.:
    raclose.append(ra[ii])
    decclose.append(dec[ii])
  elif dist[ii] > 20.:
    rafar.append(ra[ii])
    decfar.append(dec[ii])
  else:
    ramid.append(ra[ii])
    decmid.append(dec[ii])

plt.clf
ax1 = scatter(raclose, decclose, marker='o', s=20, color="darkgreen", alpha=0.6)
ax2 = scatter(ramid, decmid, marker='o', s=20, color="goldenrod", alpha=0.6)
ax3 = scatter(rafar, decfar, marker='o', s=20, color="firebrick", alpha=0.6)
line1 = Line2D(range(10), range(10), marker='o', color="darkgreen")
line2 = Line2D(range(10), range(10), marker='o',color="goldenrod")
line3 = Line2D(range(10), range(10), marker='o',color="firebrick")
plt.legend((line1,line2,line3),('d < 10pc','20pc > d > 10pc', 'd > 20pc'),numpoints=1, loc=3)
show()

Or you can do a contour plot, such that you stipulate RA on the x-axis and Dec on the y-axis and fill in the plot with the distances. Both RA and Dec are 1D arrays with the respective coordinates. Then you make a 2D array with the distance. Determine what the median/mean value of the distances are and then divide the 2D array by that value to normalize it. Finally, plot using a contour plot (using contourf or imshow), like:

import matplotlib.pyplot as plt
from matplotlib import cm
ax = pylab.contourf(RA,Dec,dists, levels=[1, 5, 10, 15], cmap=plt.cm.spectral)
cbar=pylab.colorbar()
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Thanks, for the help -- have got something similar to your second solution working. Am building up a 2D array and inputting it into imshow. Thanks again! –  aim Nov 5 '11 at 13:24
    
Oh good! I use the second solution in a number of my own routines, but realized it was a little more complicated than perhaps you would have wanted. Glad you got it working. –  cosmosis Nov 5 '11 at 19:41

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