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for scientific conferences, the file size of papers is usually limited. I like to include my plots as pdfs, so text and lines stay crisp. When I create false colour plots or scatter plots with lots of data though, the exported pdf easily gets larger than the full paper is allowed to be.

Is there a way I could export only the axis area to bitmap, so I can include it in vector axes later? (or is there a better way to get a pdf with some elements embedded as bitmaps?)

I hope someone could help me here. As it's my first post, comments on how to improve my question are appreciated.

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If you use plt.imshow with the interpolation="none" option to create your false-color plots, you should be able to achieve this. See also my related question: stackoverflow.com/questions/7346254/… –  David Zwicker May 31 '13 at 7:58

2 Answers 2

up vote 3 down vote accepted

You can tell individual Artists to be exported as rastered in vector output:

img = plt.imshow(...)
img.set_rasterized(True)

(doc)

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Thanks! I also found that fig.savefig('xxxxx.pdf') also accepts a keyword argument to export in a sensible resolution, eg. dpi=144. I'm curious if your suggestion also works for plt.pcolor.. –  Roel Jun 7 '13 at 22:51
    
set_rastered does not seem to work on pcolor. Maybe there is a similar function under anotehr name, but I don't seem to find it. –  Roel Jun 7 '13 at 23:15
    
I believe it's supposed to be set_rasterized(True). –  nordev Jun 8 '13 at 9:12
    
@Roel nordev is right (which if you clicked through to the doc you would have seen) I apparently couldn't type when I answered this question. –  tcaswell Jun 8 '13 at 15:35
1  
@nordev Good catch, fixed now. –  tcaswell Jun 8 '13 at 15:36

I realised this workaround for a large scatter plot. It's not the least bit elegant, but it solves the issue for me. Recommendations on more elegant solutions are more than welcome ;)

    # -*- coding: utf-8 -*-
"""
Created on Sat Jun  1 17:21:53 2013

@author: roel
"""

import pylab as pl
from matplotlib._png import read_png


def bitmappify(ax, dpi=None):
    fig = ax.figure
    # safe plot without axes
    ax.set_axis_off()
    fig.savefig('bitmap.png', dpi=dpi, transparent=True)
    ax.set_axis_on()

    # remeber geometry
    xl = ax.get_xlim()
    yl = ax.get_ylim()
    xb = ax.bbox._bbox.corners()[:,0]
    xb = (min(xb), max(xb))
    yb = ax.bbox._bbox.corners()[:,1]
    yb = (min(yb), max(yb))

    # compute coordinates to place bitmap image later
    xb = (- xb[0] / (xb[1] - xb[0]),
        (1 - xb[0]) / (xb[1] - xb[0]))
    xb = (xb[0] * (xl[1] - xl[0]) + xl[0],
        xb[1] * (xl[1] - xl[0]) + xl[0])
    yb = (- yb[0] / (yb[1] - yb[0]),
        (1 - yb[0]) / (yb[1] - yb[0]))
    yb = (yb[0] * (yl[1] - yl[0]) + yl[0],
        yb[1] * (yl[1] - yl[0]) + yl[0])

    # replace the dots by the bitmap
    del ax.collections[:]
    del ax.lines[:]
    ax.imshow(read_png('bitmap.png'), origin='upper',
             aspect= 'auto', extent=(xb[0], xb[1], yb[0], yb[1]))

    # reset view
    ax.set_xlim(xl)
    ax.set_ylim(yl)

# create a plot
f, a = pl.subplots(1,1)
n = 1e4
a.scatter(pl.random(n)*2+6, pl.random(n)*3-12,
          c=pl.random(n), s=100*pl.random(n))

# safe as large pdf file for comparison
f.savefig('vector.pdf') # gives a large file: 3.8 MB

bitmappify(a, 144)

# save as smaller pdf
f.savefig('hybrid.pdf', dpi=144) # reasonably sized file: 0.5 MB
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