I have the figure shown below. Presently the figure's colorscheme uses the entire range of the colormap (mpl.cm.Paired). What I want to do, and have been unable to figure out, is how to limit matplotlib to use only a subset of the colormap. In this case I am trying to get the starting color to be a darker shade of blue. Here's the plotting section of my code:

Figure = plt.figure(figsize=(22,10))
Map    = Basemap(projection='robin', lon_0=0, resolution='l')
x, y   = Map(LONS, LATS)
levels = np.arange(0, 4100, 100)
fcp    = Map.contourf(x, y, data, levels, interpolation="bicubic", cmap=mpl.cm.Paired)

cb = Map.colorbar(fcp, "bottom", size="5%", pad='5%', extendrect=False)

Map.drawmeridians([-150,-100,-50,0,50,100, 150],labels=[1,1,1,0],fontsize=18)

enter image description here

  • It's probably easiest to just create a new colormap based on this existing one. – Brian Cain Sep 29 '14 at 14:55
  • Why not use, e.g., the Blues colormap? Paired is really inappropriate here. – mwaskom Sep 29 '14 at 18:15
  • @mwaskom While the choice of a colormap is always a topic of passionate discussion among scientific folks, my question wasn't meant to be necessarily related to this figure. – deepak Sep 30 '14 at 1:20

One way to do this would be to call the function mpl.cm.Paired() for a subset of the normalised range (i.e., [0-1]) and then use the list of colors that it returns to define a new colormap:

import matplotlib.colors as mcol

lvTmp = np.linspace(0.1,1.0,len(levels)-1)
cmTmp = mlp.cm.Paired(lvTmp)
newCmap = mcol.ListedColormap(cmTmp)

You'll need to fiddle about with the 0.1 value in that linspace to get the start color that you want from the built in colormap.

enter image description here

  • Excellent! Thank you this works perfectly. Couldn't have imagined it would be that easy! – deepak Sep 30 '14 at 1:25
  • Once you get your head around colormaps and normalizers you can do a lot with them. As always, the hard part is using color appropriately. – Deditos Sep 30 '14 at 8:02

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