In matplotlib, I'm looking to create an inset color bar to show the scale of my contour plot, but when I create the contour using contour, the color bar has white stripes running through it, whereas when I use contourf, the colorbar has the proper "smooth" appearance:
How can I get that nice smooth colorbar from the filled contour on my normal contour plot? I'd also be OK with a filled contour where the zero-level can be set to white, I imagine.
Here is code to generate this example:
from numpy import linspace, outer, exp from matplotlib.pyplot import figure, gca, clf, subplots_adjust, subplot from matplotlib.pyplot import contour, contourf, colorbar, xlim, ylim, title from mpl_toolkits.axes_grid1.inset_locator import inset_axes # Make some data to plot - 2D gaussians x = linspace(0, 5, 100) y = linspace(0, 5, 100) g1 = exp(-((x-0.75)/0.2)**2) g2 = exp(-((y-4.25)/0.1)**2) g3 = exp(-((x-3.5)/0.15)**2) g4 = exp(-((y-1.75)/0.05)**2) z = outer(g1, g2) + outer(g3, g4) figure(1, figsize=(13,6.5)) clf() # Create a contour and a contourf for ii in range(0, 2): subplot(1, 2, ii+1) if ii == 0: ca = contour(x, y, z, 125) title('Contour') else: ca = contourf(x, y, z, 125) title('Filled Contour') xlim(0, 5) ylim(0, 5) # Make the axis labels yt = text(-0.35, 2.55, 'y (units)', rotation='vertical', size=14); xt = text(2.45, -0.4, 'x (units)', rotation='horizontal', size=14) # Add color bar ains = inset_axes(gca(), width='5%', height='60%', loc=2) colorbar(ca, cax=ains, orientation='vertical', ticks=[round(xx*10.0)/10.0 for xx in linspace(0, 1)]) if ii ==1: ains.tick_params(axis='y', colors='#CCCCCC') subplots_adjust(left=0.05, bottom=0.09, right=0.98, top=0.94, wspace=0.12, hspace=0.2) show()
Edit: I realize now that at the lower resolution, the white striping behavior is hard to distinguish from some light transparency. Here's an example with only 30 contour lines which makes the problem more obvious:
Edit 2: While I am still interested in figuring out how to do this in the general general case (like if there's negative values), in my specific case, I have determined that I can effectively create something that looks like what I want by simply setting the levels of a filled contour to start above the zero-level:
ca = contourf(x, y, z, levels=linspace(0.05, 1, 125))
Which basically looks like what I want: