I have a data analysis module that contains functions which call on the matplotlib.pyplot API multiple times to generate up to 30 figures in each run. These figures get immediately written to disk after they are generated, and so I need to clear them from memory.

Currently, at the end of each of my function, I do:

import matplotlib.pyplot as plt


However, I'm not too sure if this statement can actually clear the memory. I'm especially concerned since I see that each time I run my module for debugging, my free memory space keeps decreasing.

What do I need to do to really clear my memory each time after I have written the plots to disk?


5 Answers 5


Especially when you are running multiple processes or threads, it is much better to define your figure variable and work with it directly:

from matplotlib import pyplot as plt

f = plt.figure()

In any case, you must combine the use of plt.clear() and plt.close()

UPDATE (2021/01/21)

If you are using a MacOS system along with its default backend (referred as 'MacOSX'), this does NOT work (at least in Big Sur). The only solution I have found is to switch to other of the well-known backends, such as TkAgg, Cairo, etc. To do it, just type:

import matplotlib
matplotlib.use('TkAgg') # Your favorite interactive or non-interactive backend

After one week trials, I got my solution! Hope it can help you. My demo is attached.

import matplotlib.pyplot as plt
import numpy as np

A = np.arange(1,5)
B = A**2

    cnt = cnt+1
    print("########### test %d ###########" % cnt)

    # here is the trick: 
    # set the figure a 'num' to prevent from re-malloc of a figure in the next loop 
    # and set "clear=True" to make the figure clear
    # I never use plt.close() to kill the figure, because I found it doesn't work.
    # Only one figure is allocated, which can be self-released when the program quits.
    # Before: 6000 times calling of plt.figure() ~ about 1.6GB of memory leak
    # Now: the memory keeps in a stable level
    fig = plt.figure(num=1, clear=True)
    ax = fig.add_subplot()

    # alternatively use an other function in one line
    # fig, ax = plt.subplots(num=1,clear=True)


    # Here add the functions you need 
    # plt.show()
    fig.savefig('%d.png' % cnt)
  • 2
    Can testify, works like a charm. Beware, if you use plt.close(f) in combination with the above solution, the memory leak still occurs. Nov 29, 2021 at 12:36
  • Perfect solution! In my end, I added fig.clear() and plt.close(fig) after saving figures to completely clean the RAM.
    – jared
    Apr 9 at 16:25
  • THANK YOU. Agreed that using plt.close() is the WRONG way to go. THANK YOU!
    – Ed Landau
    Jul 8 at 19:34
  • Completely solved my issue after many confusing attempts - amazing! Sep 13 at 16:37

I have data analysis module that contains functions which call on Matplotlib pyplot API multiple

Can you edit your functions which is calling matplotlib? I was facing the same issue, I tried following command but none of it worked.

%reset_selective -f fig

Then one trick worked for me, instead of creating a new figure every time, I pass the same fig object to the function and this solved my issue.

for example use,

fig = plt.figure()
for i in range(100):

instead of,

for i in range(100):
    fig = plt.figure()

This is more of a test suite than an answer to the question. Here I show that as of Dec 2021, no provided solution actually clears the memory.

We need the following libraries:

import os
import psutil 
import numpy
import matplotlib
import matplotlib.pyplot

I create a single function which should clear ALL matplotlib memory:

def MatplotlibClearMemory():
    #usedbackend = matplotlib.get_backend()
    allfignums = matplotlib.pyplot.get_fignums()
    for i in allfignums:
        fig = matplotlib.pyplot.figure(i)
        matplotlib.pyplot.close( fig )

I make a script that creates 100 figures then attempts to delete them all from memory:

#Use TkAgg backend because it works better for some reason:

#Create fake data for our figures:
x = numpy.arange(1000)

#Get system process information for printing memory usage:
process = psutil.Process(os.getpid())

#Check memory usage before we create figures:
print('BeforeFigures: ', process.memory_info().rss)  # in bytes

#Make 100 figures, and check memory usage:
for n in range(100):
    matplotlib.pyplot.plot(x, x)
print('AfterFigures:  ', process.memory_info().rss)  # in bytes

#Clear the all the figures and check memory usage:
MatplotlibClearMemory( )
print('AfterDeletion: ', process.memory_info().rss)  # in bytes

Which outputs memory remaining:

>>> BeforeFigures: 76083200
>>> AfterFigures:  556888064
>>> AfterDeletion: 335499264

Less than half the memory allocated is cleared (much less if using standard back-end). The only working solutions on this stack overflow page avoid placing multiple figures in memory simultaneously.

  • This seems to asymptotically approach clearing half the memory as I create more figures, or make them hold more data.
    – D Adams
    Sep 18, 2021 at 1:36

Late answer, but this worked for me. I had a long sequential code generating many plots, and it would always end up eating all the RAM by the end of the process. Rather than calling fig.close() after each figure is complete, I have simply redefined the plt.figure function as follows, so that it is done automatically:

import matplotlib.pyplot as plt
import copy
   # if script it run multiple times, only redefine once
  # matplotlib is imported for the first time --> redefine
  plt.old_figure = copy.deepcopy(plt.figure)
  def newfig(*args):
  return plt.old_figure(*args)
  plt.figure = newfig

I am well aware that this is not a nice solution, however it easy, quick, and did the trick for me ! Maybe there's a way to decorate plt.figure instead of redefining it.

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