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I'm trying to create text labels on a graph in Matplotlib, and I'd like to highlight certain words using a different colour. Since Matplotlib doesn't have a native feature to do this, I figure I could position two text elements next to each other, but I'm having trouble aligning them properly.

I found this suggested code for a relevant feature request, and the sample output below it is what I want to emulate, but I'm unable to replicate it, even if I copy the code he used and save it to a PNG (this is what I get). Did Matplotlib change how its API handles translation or getting text boundaries?

How can I accomplish this? Any guidance is appreciated.

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2 Answers 2

up vote 1 down vote accepted

the code you linked to works fine with a small modification. It's an excellent example to what you want to do, so I am not posting any real new code, just my modified version:

import matplotlib.pyplot as plt from matplotlib import transforms

def rainbow_text(x,y,ls,lc,**kw):
    """
    Take a list of strings ``ls`` and colors ``lc`` and place them next to each
    other, with text ls[i] being shown in color lc[i].

    This example shows how to do both vertical and horizontal text, and will
    pass all keyword arguments to plt.text, so you can set the font size,
    family, etc.
    """
    t = plt.gca().transData
    fig = plt.gcf()

    #### note: this line moved down ....### 
    #plt.show()                           #
    #######################################
    #horizontal version
    for s,c in zip(ls,lc):
        text = plt.text(x,y," "+s+" ",color=c, transform=t, **kw)
        text.draw(fig.canvas.get_renderer())
        ex = text.get_window_extent()
        t = transforms.offset_copy(text._transform, x=ex.width, units='dots')

    #vertical version
    for s,c in zip(ls,lc):
        text = plt.text(x,y," "+s+" ",color=c, transform=t,
                rotation=90,va='bottom',ha='center',**kw)
        text.draw(fig.canvas.get_renderer())
        ex = text.get_window_extent()
        t = transforms.offset_copy(text._transform, y=ex.height, units='dots')

    t = plt.gca().transData
    fig = plt.gcf()
    plt.show() ############### when this is here, you can see that 
               ############### all unicorns poo rainbows ;-)

plt.figure()

rainbow_text(0.0,0.0,"all unicorns poop rainbows ! ! !".split(), 
        ['red', 'orange', 'brown', 'green', 'blue', 'purple', 'black'],
        size=30)
### worked on matplotlib version 1.1.0 on Debian Wheezy. Which version did you try?
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I tried to run this code, but I get a similar result where the words overlap each other. Can you try doing plt.savefig('filename') and seeing if the PNG comes out correctly as well? I'm trying to use this feature within the matplotlib source code, I am using a build from the latest clone from their GitHub. I can try to install the packaged version and see if it helps. Is there anything else that could not be set up properly that might cause this? –  Jengerer Mar 31 '12 at 15:20
    
It seems that there is something wrong in the png backend. Also in my case. I tried saving the image as PDF, and it's working better. Try playing a little bit with the width and hight (x=ex.width*0.9 would change where the vertical text starts. You could also change y=ex.height*1.1 so it fits better. Note also when you make a pdf, you could specify the size of your PDF with (figprops = dict(figsize=(10, 10)) # this is 10 inches by 10 inches...but it works damn good with the huge font. fig = plt.figure(**figprops). Try this and let me know what you get. –  Oz123 Mar 31 '12 at 15:52
    
It seems to be working after I change the backend to WXAgg/GTKAgg. The only problem is that when I try to use segments like "this word is " and "red", it bundles them as "this word isred" in some cases, perhaps due to the trailing whitespace in the first phrase. If I transfer that whitespace to the next phrase, it works perfect. Thanks! –  Jengerer Mar 31 '12 at 15:54
    
Hey once again. I just noticed the PNGs still don't work. Looks like it's not getting the correct extents with that renderer or not translating properly... I guess that's the first thing to look into. –  Jengerer Apr 1 '12 at 5:52
    
Hey, me once again! Woohoo! I actually figured it out; the backends were fine, and it's actually a problem with offset_copy. I noticed that the get_window_extent function is supposed to return it in the figure units, so I was wondering if 'dots' should instead be 'points'. However, trying this, the spacing was too much, so I went into the offset_copy function definition and noticed that it was hard-coded to divide by 72 as opposed to getting the DPI from fig.dpi. After doing that, the separation works perfectly in the interactive and PNG versions! I should commit this change, perhaps! –  Jengerer Apr 1 '12 at 6:16

I was playing around with your code for my own purposes and thought I would just add what I've done here.

This example is a modification of your code that allows for any text angle rotation. However this only works for text va='bottom' and ha='left'.

import math
import numpy

from numpy.linalg import inv
from matplotlib import transforms
from matplotlib import pyplot as plt

def rainbow_text(x, y, ls, lc, theta, **kwargs):
    fig = plt.gcf()
    axis = plt.gca()

    theta_rad = math.radians(theta)
    text_trans = axis.transData
    for s, c in zip(ls, lc):
        text = plt.text(x, y, " %s " %s,
                        verticalalignment='bottom',
                        horizontalalignment='left',
                        color=c,
                        transform=text_trans,
                        rotation=theta,
                        **kwargs)

        text.draw(axis.figure.canvas.get_renderer())

        # solve for the text width and height
        bbox = text.get_window_extent(axis.figure.canvas.get_renderer())
        theta_mat = numpy.array([[math.cos(theta_rad), math.sin(theta_rad)],
                                 [math.sin(theta_rad), math.cos(theta_rad)]])
        txt_size = numpy.dot(inv(theta_mat),
                             numpy.array([bbox.width, bbox.height]))

        # plot the bounds for each word (only works with axis autoscaling off)
        for i in range(4):
            bounds = bbox.corners()
            point = axis.transData.inverted().transform(bounds[i])
            plt.plot(point[0], point[1], '*', color=c)

        x_offset = txt_size[0] * math.cos(theta_rad)
        y_offset = txt_size[0] * math.sin(theta_rad)
        text_trans = transforms.offset_copy(text.get_transform(),
                                            fig=fig,
                                            x=x_offset,
                                            y=y_offset,
                                            units='points')


plt.figure()
plt.axis([0, 5, 0, 5])

rainbow_text(1, 1, "all unicorns poop rainbows ! ! !".split(),
             ['red', 'orange', 'brown', 'green', 'blue', 'purple', 'black'],
             20, size=20)
plt.savefig('blarg.png', ext='png')
plt.show()
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