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I have a color bar which has several blocks of colors. How can I find the width of each color segment so I can then print that out somewhere else. I've tried mouseevent.ydata etc but that only outputs where you have clicked. Is there a method that can get the width of the color segement? Thanks in advance

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Do you want the display width (in pixels), or the value width (as in the mapping from color to the represented value)? –  askewchan Feb 18 '13 at 17:59
    
value width i think –  miik Feb 18 '13 at 19:58
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1 Answer

up vote 0 down vote accepted

Here's a modified example of one of the demos from the matplotlib site, it also prints out the paths that draw the colorbar.

Using iPython and its handy autocomplete you can find out the members of a class;

cb.[Press Tab]
cb.add_checker        cb.extend             cb.set_cmap
cb.add_lines          cb.filled             cb.set_colorbar
cb.alpha              cb.formatter          cb.set_label
cb.autoscale          cb.get_array          cb.set_norm
cb.autoscale_None     cb.get_clim           cb.set_ticklabels
cb.ax                 cb.get_cmap           cb.set_ticks
cb.boundaries         cb.lines              cb.solids
cb.callbacksSM        cb.locator            cb.spacing
cb.changed            cb.mappable           cb.to_rgba
cb.check_update       cb.norm               cb.update_bruteforce
cb.cmap               cb.orientation        cb.update_dict
cb.colorbar           cb.outline            cb.update_normal
cb.config_axis        cb.patch              cb.update_ticks
cb.dividers           cb.set_alpha          cb.values
cb.draw_all           cb.set_array          cb.vmax
cb.drawedges          cb.set_clim           cb.vmin

So i just tried a load of these. solids seemed the most promising.

In [53]: print cb.solids
<matplotlib.collections.QuadMesh object at 0xb1a620c>

Then i just looked in the documentation for Quadmesh, and found something that seemed promising.

#!/usr/bin/env python
"""
Use a pcolor or imshow with a custom colormap to make a contour plot.

Since this example was initially written, a proper contour routine was
added to matplotlib - see contour_demo.py and
http://matplotlib.sf.net/matplotlib.pylab.html#-contour.
"""

from pylab import *


delta = 0.01
x = arange(-3.0, 3.0, delta)
y = arange(-3.0, 3.0, delta)
X,Y = meshgrid(x, y)
Z1 = bivariate_normal(X, Y, 1.0, 1.0, 0.0, 0.0)
Z2 = bivariate_normal(X, Y, 1.5, 0.5, 1, 1)
Z = Z2 - Z1 # difference of Gaussians

cmap = cm.get_cmap('PiYG', 11)    # 11 discrete colors

im = imshow(Z, cmap=cmap, interpolation='bilinear',
            vmax=abs(Z).max(), vmin=-abs(Z).max())
#axis('off')
cb = colorbar()

for path in cb.solids.get_paths():
    print path

show()

enter image description here

and then the terminal output:

Path([[ 0.          0.        ]
 [ 1.          0.        ]
 [ 1.          0.09090909]
 [ 0.          0.09090909]
 [ 0.          0.        ]], None)
Path([[ 0.          0.09090909]
 [ 1.          0.09090909]
 [ 1.          0.18181818]
 [ 0.          0.18181818]
 [ 0.          0.09090909]], None)
Path([[ 0.          0.18181818]
 [ 1.          0.18181818]
 [ 1.          0.27272727]
 [ 0.          0.27272727]
 [ 0.          0.18181818]], None)
Path([[ 0.          0.27272727]
 [ 1.          0.27272727]
 [ 1.          0.36363636]
 [ 0.          0.36363636]
 [ 0.          0.27272727]], None)
Path([[ 0.          0.36363636]
 [ 1.          0.36363636]
 [ 1.          0.45454545]
 [ 0.          0.45454545]
 [ 0.          0.36363636]], None)
Path([[ 0.          0.45454545]
 [ 1.          0.45454545]
 [ 1.          0.54545455]
 [ 0.          0.54545455]
 [ 0.          0.45454545]], None)
Path([[ 0.          0.54545455]
 [ 1.          0.54545455]
 [ 1.          0.63636364]
 [ 0.          0.63636364]
 [ 0.          0.54545455]], None)
Path([[ 0.          0.63636364]
 [ 1.          0.63636364]
 [ 1.          0.72727273]
 [ 0.          0.72727273]
 [ 0.          0.63636364]], None)
Path([[ 0.          0.72727273]
 [ 1.          0.72727273]
 [ 1.          0.81818182]
 [ 0.          0.81818182]
 [ 0.          0.72727273]], None)
Path([[ 0.          0.81818182]
 [ 1.          0.81818182]
 [ 1.          0.90909091]
 [ 0.          0.90909091]
 [ 0.          0.81818182]], None)
Path([[ 0.          0.90909091]
 [ 1.          0.90909091]
 [ 1.          1.        ]
 [ 0.          1.        ]
 [ 0.          0.90909091]], None)

I don't know what coordinate space these numbers are on though. Sorry.

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