I'm struggling to deal with my plot margins in matplotlib. I've used the code below to produce my chart:

c = plt.colorbar()
c.set_label("Number of Slabs")

However, I get an output figure with lots of white space on either side of the plot. I've searched google and read the matplotlib documentation, but I can't seem to find how to reduce this.

  • Is the problem the amount of whitespace in the extent of the imshow figure, or the amount of border whitespace in the resultant png, around the figure, generated by savefig? – unutbu Oct 28 '10 at 14:45
  • I think both - there seems to be a lot of space in both the viewing window and in the PNG. However, the important output is the png file produced by savefig - so that is what I'd like to sort. – robintw Oct 28 '10 at 15:36
  • I've just been cropping them in GIMP afterward. :/ – endolith Nov 28 '11 at 17:42

10 Answers 10


One way to automatically do this is the bbox_inches='tight' kwarg to plt.savefig.


import matplotlib.pyplot as plt
import numpy as np
data = np.arange(3000).reshape((100,30))
plt.savefig('test.png', bbox_inches='tight')

Another way is to use fig.tight_layout()

import matplotlib.pyplot as plt
import numpy as np

xs = np.linspace(0, 1, 20); ys = np.sin(xs)

fig = plt.figure()
axes = fig.add_subplot(1,1,1)
axes.plot(xs, ys)

# This should be called after all axes have been added
  • 5
    Is there any way to make this the default? – endolith Jul 8 '12 at 1:08
  • 1
    If you have multiple subplots and want to save each of them, you can use this with fig.savefig() too. (plt.savefig() will not work in that case.) – Abhranil Das Apr 21 '13 at 12:07
  • 1
    All this does is crop the image after it's been rendered; if you're trying to enforce a particular resolution, the image will come out smaller. – detly Jan 19 '15 at 11:23
  • 5
    @detly - Yep. That's exactly what it does (though it can crop "out" as well and make the image larger, as well). For what you're wanting, have a look at fig.tight_layout(). That function didn't exist when this answer was originally written, otherwise I'd mention it more prominently. – Joe Kington Jan 19 '15 at 12:33
  • 2
    If someone have a problem, use fig = plt.gcf() – KyungHoon Kim Feb 24 '15 at 7:17

You can adjust the spacing around matplotlib figures using the subplots_adjust() function:

import matplotlib.pyplot as plt
plt.subplots_adjust(left=0.1, right=0.9, top=0.9, bottom=0.1)

This will work for both the figure on screen and saved to a file, and it is the right function to call even if you don't have multiple plots on the one figure.

The numbers are fractions of the figure dimensions, and will need to be adjusted to allow for the figure labels.

  • 7
    The values assigned to the parameters and not how much to change it by, they are where to set the margin. In other words, if you want to bring the right edge margin in by 10%, you should set right=0.9, not right=0.1 matplotlib.sourceforge.net/api/… – drootang Nov 18 '11 at 16:18
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    It makes sense to point out that obviously you can specify negative values in plt.subplots_adjust(). Doing so even allows you to draw outside the figure area and also to deal with annoying margins. – surchs Feb 12 '14 at 15:02
  • This also works on GridSpec objects by calling the update method (see stackoverflow.com/a/20058199/1030876). – Aaron Voelker Feb 19 '17 at 21:44

All you need is


before your output.

In addition to cutting down the margins, this also tightly groups the space between any subplots:

x = [1,2,3]
y = [1,4,9]
import matplotlib.pyplot as plt
fig = plt.figure()
subplot1 = fig.add_subplot(121)
subplot2 = fig.add_subplot(122)
  • 7
    I think this is really the best method. It doesn't require saving the figure like `bbox='tight' and fixes all kinds of other layout issues in cramped figures. – dshepherd Apr 30 '13 at 23:59
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    this should be the correct answer because it behaves as you'd expect as it applies to the FIGURE instead of the image. – Majid alDosari Nov 12 '15 at 18:47
  • Strangely enough, this also changes the width of the actual plot (i.e. the peaks are closer together) compared to bbox_inches='tight', which just clips the white space around the edges but leaves the plot alone. I created the figure with plt.figure(figsize=(10,3)). – Fritz Jan 20 at 14:13

Just use ax = fig.add_axes([left, bottom, width, height]) if you want exact control of the figure layout. eg.

left = 0.05
bottom = 0.05
width = 0.9
height = 0.9
ax = fig.add_axes([left, bottom, width, height])
plt.savefig("circle.png", bbox_inches='tight',pad_inches=-1)
  • 1
    "pad_inches=-1" cause my savefig only produce part of the figure. – Yu Shen Jul 13 '13 at 23:34
  • Using a parameter in the savefig function is elegant, however the negative value for pad_inches is not necessarily needed in every case. – MichaelHuelsen Jul 26 '17 at 7:17
  • set it to 0, helps – Joop Mar 8 '18 at 12:25

inspired by Sammys answer above:

margins = {  #     vvv margin in inches
    "left"   :     1.5 / figsize[0],
    "bottom" :     0.8 / figsize[1],
    "right"  : 1 - 0.3 / figsize[0],
    "top"    : 1 - 1   / figsize[1]

Where figsize is the tuple that you used in fig = pyplot.figure(figsize=...)


The problem with matplotlibs subplots_adjust is that the values you enter are relative to the x and y figsize of the figure. This example is for correct figuresizing for printing of a pdf:

For that, I recalculate the relative spacing to absolute values like this:

pyplot.subplots_adjust(left = (5/25.4)/figure.xsize, bottom = (4/25.4)/figure.ysize, right = 1 - (1/25.4)/figure.xsize, top = 1 - (3/25.4)/figure.ysize)

for a figure of 'figure.xsize' inches in x-dimension and 'figure.ysize' inches in y-dimension. So the whole figure has a left margin of 5 mm, bottom margin of 4 mm, right of 1 mm and top of 3 mm within the labels are placed. The conversion of (x/25.4) is done because I needed to convert mm to inches.

Note that the pure chart size of x will be "figure.xsize - left margin - right margin" and the pure chart size of y will be "figure.ysize - bottom margin - top margin" in inches

Other sniplets (not sure about these ones, I just wanted to provide the other parameters)

pyplot.figure(figsize = figureSize, dpi = None)


pyplot.savefig("outputname.eps", dpi = 100)
  • 3
    Where did you get xsize and ysize from. I use those properties and I get AttributeError: 'Figure' object has no attribute 'xsize' – cj5 May 16 '14 at 14:56

For me, the answers above did not work with matplotlib.__version__ = 1.4.3 on Win7. So, if we are only interested in the image itself (i.e., if we don't need annotations, axis, ticks, title, ylabel etc), then it's better to simply save the numpy array as image instead of savefig.

from pylab import *

ax = subplot(111)
imsave('test.tif', some_image_numpyarray)

# or, if the image came from tiff or png etc
RGBbuffer = ax.get_images()[0].get_array()
imsave('test.tif', RGBbuffer)

Also, using opencv drawing functions (cv2.line, cv2.polylines), we can do some drawings directly on the numpy array. http://docs.opencv.org/2.4/modules/core/doc/drawing_functions.html


In case anybody wonders how how to get rid of the rest of the white margin after applying plt.tight_layout() or fig.tight_layout(): With the parameter pad (which is 1.08 by default), you're able to make it even tighter: "Padding between the figure edge and the edges of subplots, as a fraction of the font size." So for example


will reduce it to a very small margin. Putting 0 doesn't work for me, as it makes the box of the subplot be cut off a little, too.


With recent matplotlib versions you might want to try Constrained Layout.

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