# set matplotlib 3d plot aspect ratio

``````import matplotlib.pyplot as plt
from mpl_toolkits.mplot3d import Axes3D
``````

Setting the aspect ratio works for 2d plots:

``````ax = plt.axes()
ax.plot([0,1], [0,10])
ax.set_aspect('equal', 'box')
``````

But it does not work for 3d:

``````ax = plt.axes(projection='3d')
ax.plot([0,1], [0,1], [0,10])
ax.set_aspect('equal', 'box')
``````

How do I set the aspect ratio for 3d?

As of matplotlib 3.3.0, Axes3D.set_box_aspect seems to be the recommended approach.

``````import numpy as np
import matplotlib.pyplot as plt

xs, ys, zs = ...
ax = plt.axes(projection='3d')

ax.set_box_aspect((np.ptp(xs), np.ptp(ys), np.ptp(zs)))  # aspect ratio is 1:1:1 in data space

ax.plot(xs, ys, zs)
``````
• This is the only solution that worked for me. None of the others did. For my program, I modified it to choose the arguments automatically. `limits = np.array([getattr(self.ax, f'get_{axis}lim')() for axis in 'xyz']); ax.set_box_aspect(np.ptp(limits, axis = 1))`
– tfpf
Commented Dec 25, 2020 at 8:36
• Probably use `xs[~np.isnan(xs)]` and so on to avoid nans. Commented Dec 8, 2021 at 16:27
• @p8me Added! However, see github.com/matplotlib/matplotlib/pull/23409: the feature may soon be supported.
– tfpf
Commented Jul 10, 2022 at 12:44

I didn't try all of these answers, but this kludge did it for me:

``````def axisEqual3D(ax):
extents = np.array([getattr(ax, 'get_{}lim'.format(dim))() for dim in 'xyz'])
sz = extents[:,1] - extents[:,0]
centers = np.mean(extents, axis=1)
maxsize = max(abs(sz))
r = maxsize/2
for ctr, dim in zip(centers, 'xyz'):
getattr(ax, 'set_{}lim'.format(dim))(ctr - r, ctr + r)
``````
• easier to `ax.auto_scale_xyz(*np.column_stack((centers - r, centers + r)))` Commented Apr 18, 2016 at 3:53
• While this sets the limits per axis to the same values, this solution unfortunately doesn't fix the different axis scales. A sphere still is displayed as an ellipsoid (at least on the default MacOSX backend). Commented Jan 17, 2020 at 20:09

Looks like this feature has since been added so thought I'd add an answer for people who come by this thread in the future like I did:

``````fig = plt.figure(figsize=plt.figaspect(0.5)*1.5) #Adjusts the aspect ratio and enlarges the figure (text does not enlarge)
``````

`figaspect(0.5)` makes the figure twice as wide as it is tall. Then the `*1.5` increases the size of the figure. The labels etc won't increase so this is a way to make the graph look less cluttered by the labels.

• Which version do you use? I'm using 1.3.1 where it does not work. Commented Sep 24, 2014 at 13:17
• This doesn't set the aspect ratio of the actual plot. Just the enclosing figure. Commented Mar 20, 2020 at 0:23
• This is the only solution that worked properly for me on Windows. Commented Apr 30, 2020 at 22:27
• @PrasadRaghavendra what versions of python and matplotlib did you use? It would be good to have an idea of when this works. Also, are you able to verify what Jacob Jones has said above?
– Dan
Commented May 1, 2020 at 14:56
• Python 3.7.6 (default, Jan 8 2020, 20:23:39) [MSC v.1916 64 bit (AMD64)] :: Ana conda, Inc. on win32 Type "help", "copyright", "credits" or "license" for more information. >>> import matplotlib >>> matplotlib.__version__ '3.1.2' Commented May 1, 2020 at 15:04

If you know the bounds, eg. +-3 centered around (0,0,0), you can add invisible points like this:

``````import numpy as np
import pylab as pl
from mpl_toolkits.mplot3d import Axes3D
fig = pl.figure()
ax.set_aspect('equal')
MAX = 3
for direction in (-1, 1):
for point in np.diag(direction * MAX * np.array([1,1,1])):
ax.plot([point[0]], [point[1]], [point[2]], 'w')
``````
• This is a good hack until matplotlib supports the aspect lock. Worked for me. Commented Jun 30, 2012 at 9:59
• Good idea - worked for me. Just my opinion, but this doesn't seem to be an aspect ratio problem, this is a bounding box issue. Is there some way to simply set the extent? Commented Apr 23, 2013 at 17:24

To stretch the axes so that all the data points fit inside a box, use `ax.set_box_aspect` to set `aspect = (1, 1, 1)`.

``````import matplotlib.pyplot as plt

fig = plt.figure()
ax.set_box_aspect(aspect=(1, 1, 1))
ax.plot(xs, ys, zs)
``````

Note that with this method, 1 unit in the x direction is not necessarily 1 unit in the y direction.

• This answer is wrong. The `set_box_aspect` simply changes the length of the x,y,z axes in the display. It does not change the scale of the axes. The OP is asking how to set all three axes to have the same scale in data space in the same way that `set_aspect('equal')` works in 2d graphs. Commented Dec 29, 2021 at 16:50
• This does nothing, please provide actual plotted values and a snapshot of the result.
– mins
Commented Apr 1, 2023 at 13:30

If you know the bounds you can also set the aspect ratio this way:

``````ax.auto_scale_xyz([minbound, maxbound], [minbound, maxbound], [minbound, maxbound])
``````
• Or, doing it automatically: `scaling = np.array([getattr(ax, 'get_{}lim'.format(dim))() for dim in 'xyz']); ax.auto_scale_xyz(*[[np.min(scaling), np.max(scaling)]]*3)` Commented Sep 24, 2014 at 13:33

As of matplotlib 3.6.0, this feature has been added to `ax.set_aspect`. Use:

``````ax.set_aspect('equal')
``````

Other options are `'equalxy'`, `'equalxz'`, and `'equalyz'`, to set only two directions to equal aspect ratios. This changes the data limits, example below.

In the upcoming 3.7.0, you will be able to change the plot box aspect ratios rather than the data limits via:

``````ax.set_aspect('equal', adjustable='box')
``````

(Thanks to @tfpf on another answer here for implementing that!) To get the original behavior, use `adjustable='datalim'`.

A follow-up to Matt Panzer's answer. (This was originally a comment on said answer.)

``````limits = np.array([getattr(ax, f'get_{axis}lim')() for axis in 'xyz'])
ax.set_box_aspect(np.ptp(limits, axis=1))
``````

Now that this pull request has been merged, when the next release of Matplotlib drops, you should be able to just use `ax.set_aspect('equal')`. I will try to remember and update this answer when that happens.

Update: Matplotlib 3.6 has been released; `ax.set_aspect('equal')` will now work as expected.

Another helpful (hopefully) solution when, for example, it is necessary to update an already existing figure:

``````world_limits = ax.get_w_lims()
ax.set_box_aspect((world_limits[1]-world_limits[0],world_limits[3]-world_limits[2],world_limits[5]-world_limits[4]))
``````

get_w_lims()

set_box_aspect()

My understanding is basically that this isn't implemented yet (see this bug in GitHub). I'm also hoping that it is implemented soon. See This link for a possible solution (I haven't tested it myself).

• The link is broken, but can be retrieved via the Wayback Machine. However, it would be better if you included the relevant code in your answer instead of requiring future people to search through the mailing list archive. Commented Mar 30, 2017 at 2:33

Matt Panzer's answer worked for me, but it took me a while to figure out an issue I had. If you're plotting multiple datasets into the same graph, you have to calculate the peak-to-peak values for the entire range of datapoints.

I used the following code to solve it for my case:

``````x1, y1, z1 = ..., ..., ...
x2, y2, z2 = ..., ..., ...

ax.set_box_aspect((
max(np.ptp(x1), np.ptp(x2)),
max(np.ptp(y1), np.ptp(y2)),
max(np.ptp(z1), np.ptp(y2))
))

ax.plot(x1, y1, z1)
ax.scatter(x2, y2, z2)
``````

Note that this solution is not perfect. It will not work if x1 contains the most negative number and x2 contains the most positive one. Only if either x1 or x2 contains the greatest peak-to-peak range.

If you know numpy better than I do, feel free to edit this answer so it works in a more general case.

I tried several methods, such as `ax.set_box_aspect(aspect = (1,1,1))` and it does not work. I want a sphere to show up as a sphere -- not ellipsoid. I wrote this function and tried it on a variety of data. It is a hack and it is not perfect, but pretty close.

``````def set_aspect_equal(ax):
"""
Fix the 3D graph to have similar scale on all the axes.
Call this after you do all the plot3D, but before show
"""
X = ax.get_xlim3d()
Y = ax.get_ylim3d()
Z = ax.get_zlim3d()
a = [X[1]-X[0],Y[1]-Y[0],Z[1]-Z[0]]
b = np.amax(a)
ax.set_xlim3d(X[0]-(b-a[0])/2,X[1]+(b-a[0])/2)
ax.set_ylim3d(Y[0]-(b-a[1])/2,Y[1]+(b-a[1])/2)
ax.set_zlim3d(Z[0]-(b-a[2])/2,Z[1]+(b-a[2])/2)
ax.set_box_aspect(aspect = (1,1,1))
``````