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I have a fairly simple plotting routine that looks like this:

from __future__ import division
import datetime
import matplotlib
matplotlib.use('Agg')
from matplotlib.pyplot import figure, plot, show, legend, close, savefig, rcParams
import numpy
from globalconstants import *

    def plotColumns(columnNumbers, t, out, showFig=False, filenamePrefix=None, saveFig=True, saveThumb=True):
        lineProps = ['b', 'r', 'g', 'c', 'm', 'y', 'k', 'b--', 'r--', 'g--', 'c--', 'm--', 'y--', 'k--', 'g--', 'b.-', 'r.-', 'g.-', 'c.-', 'm.-', 'y.-', 'k.-']

        rcParams['figure.figsize'] = (13,11)
        for i in columnNumbers:
            plot(t, out[:,i], lineProps[i])

        legendStrings = list(numpy.zeros(NUMCOMPONENTS)) 
        legendStrings[GLUCOSE] = 'GLUCOSE'
        legendStrings[CELLULOSE] = 'CELLULOSE'
        legendStrings[STARCH] = 'STARCH'
        legendStrings[ACETATE] = 'ACETATE'
        legendStrings[BUTYRATE] = 'BUTYRATE'
        legendStrings[SUCCINATE] = 'SUCCINATE'
        legendStrings[HYDROGEN] = 'HYDROGEN'
        legendStrings[PROPIONATE] = 'PROPIONATE'
        legendStrings[METHANE] = "METHANE"

        legendStrings[RUMINOCOCCUS] = 'RUMINOCOCCUS'
        legendStrings[METHANOBACTERIUM] = "METHANOBACTERIUM"
        legendStrings[BACTEROIDES] = 'BACTEROIDES'
        legendStrings[SELENOMONAS] = 'SELENOMONAS'
        legendStrings[CLOSTRIDIUM] = 'CLOSTRIDIUM'

        legendStrings = [legendStrings[i] for i in columnNumbers]
        legend(legendStrings, loc='best')

        dt = datetime.datetime.now()
        dtAsString = dt.strftime('%d-%m-%Y_%H-%M-%S')

        if filenamePrefix is None:
            filenamePrefix = ''

        if filenamePrefix != '' and filenamePrefix[-1] != '_':
            filenamePrefix += '_'

        if saveFig: 
            savefig(filenamePrefix+dtAsString+'.eps')

        if saveThumb:
            savefig(filenamePrefix+dtAsString+'.png', dpi=300)


        if showFig: f.show()

        close('all')

When I plot this in single iterations, it works fine. However, the moment I put it in a loop, matplotlib throws a hissy fit...

Traceback (most recent call last):
  File "c4hm_param_variation_h2_conc.py", line 148, in <module>
    plotColumns(columnNumbers, timeVector, out, showFig=False, filenamePrefix='c
4hm_param_variation_h2_conc_'+str(hydrogen_conc), saveFig=False, saveThumb=True)

  File "D:\phdproject\alexander paper\python\v3\plotcolumns.py", line 48, in plo
tColumns
    savefig(filenamePrefix+dtAsString+'.png', dpi=300)
  File "C:\Python25\lib\site-packages\matplotlib\pyplot.py", line 356, in savefi
g
    return fig.savefig(*args, **kwargs)
  File "C:\Python25\lib\site-packages\matplotlib\figure.py", line 1032, in savef
ig
    self.canvas.print_figure(*args, **kwargs)
  File "C:\Python25\lib\site-packages\matplotlib\backend_bases.py", line 1476, i
n print_figure
    **kwargs)
  File "C:\Python25\lib\site-packages\matplotlib\backends\backend_agg.py", line
358, in print_png
    FigureCanvasAgg.draw(self)
  File "C:\Python25\lib\site-packages\matplotlib\backends\backend_agg.py", line
314, in draw
    self.figure.draw(self.renderer)
  File "C:\Python25\lib\site-packages\matplotlib\artist.py", line 46, in draw_wr
apper
    draw(artist, renderer, *kl)
  File "C:\Python25\lib\site-packages\matplotlib\figure.py", line 773, in draw
    for a in self.axes: a.draw(renderer)
  File "C:\Python25\lib\site-packages\matplotlib\artist.py", line 46, in draw_wr
apper
    draw(artist, renderer, *kl)
  File "C:\Python25\lib\site-packages\matplotlib\axes.py", line 1735, in draw
    a.draw(renderer)
  File "C:\Python25\lib\site-packages\matplotlib\artist.py", line 46, in draw_wr
apper
    draw(artist, renderer, *kl)
  File "C:\Python25\lib\site-packages\matplotlib\legend.py", line 374, in draw
    bbox = self._legend_box.get_window_extent(renderer)
  File "C:\Python25\lib\site-packages\matplotlib\offsetbox.py", line 209, in get
_window_extent
    px, py = self.get_offset(w, h, xd, yd)
  File "C:\Python25\lib\site-packages\matplotlib\offsetbox.py", line 162, in get
_offset
    return self._offset(width, height, xdescent, ydescent)
  File "C:\Python25\lib\site-packages\matplotlib\legend.py", line 360, in findof
fset
    return _findoffset(width, height, xdescent, ydescent, renderer)
  File "C:\Python25\lib\site-packages\matplotlib\legend.py", line 325, in _findo
ffset_best
    ox, oy = self._find_best_position(width, height, renderer)
  File "C:\Python25\lib\site-packages\matplotlib\legend.py", line 817, in _find_
best_position
    verts, bboxes, lines = self._auto_legend_data()
  File "C:\Python25\lib\site-packages\matplotlib\legend.py", line 669, in _auto_
legend_data
    tpath = trans.transform_path(path)
  File "C:\Python25\lib\site-packages\matplotlib\transforms.py", line 1911, in t
ransform_path
    self._a.transform_path(path))
  File "C:\Python25\lib\site-packages\matplotlib\transforms.py", line 1122, in t
ransform_path
    return Path(self.transform(path.vertices), path.codes,
  File "C:\Python25\lib\site-packages\matplotlib\transforms.py", line 1402, in t
ransform
    return affine_transform(points, mtx)
MemoryError: Could not allocate memory for path

This happens on iteration 2 (counting from 1), if that makes a difference. The code is running on Windows XP 32-bit with python 2.5 and matplotlib 0.99.1, numpy 1.3.0 and scipy 0.7.1.

EDIT: The code has now been updated to reflect the fact that the crash actually occurs at the call to legend(). Commenting that call out solves the problem, though obviously, I would still like to be able to put a legend on my graphs...

share|improve this question

4 Answers 4

up vote 5 down vote accepted

Is each loop supposed to generate a new figure? I don't see you closing it or creating a new figure instance from loop to loop.

This call will clear the current figure after you save it at the end of the loop:

pyplot.clf()

I'd refactor, though, and make your code more OO and create a new figure instance on each loop:

from matplotlib import pyplot

while True:
  fig = pyplot.figure()
  ax = fig.add_subplot(111)
  ax.plot(x,y)
  ax.legend(legendStrings, loc = 'best')
  fig.savefig('himom.png')
  # etc....
share|improve this answer
    
Bah! I'd forgotten the clf() call... Adding that fixed it. –  Chinmay Kanchi Mar 3 '10 at 12:44
    
From @geographica's answer it seems that clf() clears the figure, but doesn't release all references to it, unlike close(fig). It won't hold much memory when cleared, but if there's many, it'll add up... –  drevicko Jul 2 '13 at 23:48
    
So if I have a real time plot of about 30k values and I have other arcs,ellipses.circles that I need to plot, what will pyplot.clf() do exactly? Also for animation I have used pyplot.pause(time_duration). How do I preserve the values I have plotted before and then plot the values again and again as I get the data? –  Prakhar Mohan Srivastava Apr 11 at 14:33

I've also run into this error. what seems to have fixed it is

while True:
    fig = pyplot.figure()
    ax = fig.add_subplot(111)
    ax.plot(x,y)
    ax.legend(legendStrings, loc = 'best')
    fig.savefig('himom.png')
    #new bit here
    pylab.close(fig) #where f is the figure

running my loop stably now with fluctuating memory but no consistant increase

share|improve this answer
    
+1 pyplot.close() released the memory in a loop I had and prevented Python from crashing. –  geographika Jan 14 '12 at 13:43
    
even with low memory plots this is necessary (e.g. after generating several hundred). pyplot.close('all') is another approach to consider when plotting multiple figures in a loop –  ecoe Oct 6 '13 at 18:07

Answer from ninjasmith worked for me too - pyplot.close() enabled my loops to work.

From http://matplotlib.sourceforge.net/users/pyplot_tutorial.html

You can clear the current figure with clf() and the current axes with cla(). If you find this statefulness, annoying, don’t despair, this is just a thin stateful wrapper around an object oriented API, which you can use instead (see Artist tutorial)

If you are making a long sequence of figures, you need to be aware of one more thing: the memory required for a figure is not completely released until the figure is explicitly closed with close(). Deleting all references to the figure, and/or using the window manager to kill the window in which the figure appears on the screen, is not enough, because pyplot maintains internal references until close() is called.

share|improve this answer

Although this is not a direct answer, I see that you intend to save the figure as a PNG using savefig. You can actually save a figure without displaying it first. That may avoid memory problems. For example, consider this code:

f = pylab.figure()
ax = f.add_axes([0.1,0.1,0.8,0.8])
for i in columnNumbers:
    ax.plot(t, out[:,i], lineProps[i])
f.savefig(dtAsString+'.png', dpi=300)

I think this should work.

share|improve this answer
    
but if you loop that entire code block it will crash after generating too many figures (unless you close them after saving like ninjasmith suggests). –  ecoe Oct 6 '13 at 18:06

protected by Brad Larson Feb 24 at 20:40

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