68

When I set up equal aspect ratio for 3d graph the z-axis does not change to 'equal'. So, this:

fig = pylab.figure()
mesFig = fig.gca(projection='3d', adjustable='box')
mesFig.axis('equal')
mesFig.plot(xC, yC, zC, 'r.')
mesFig.plot(xO, yO, zO, 'b.')
pyplot.show()

gives me the following: enter image description here

where obviously the unit length of z-axis is not equal to x- and y-units.

How can I make the unit length of all three axes equal? All the solutions I could find did not work. Thank you.

56

I believe matplotlib does not yet set correctly equal axis in 3D... But I found a trick some times ago (I don't remember where) that I've adapted using it. The concept is to create a fake cubic bounding box around your data. You can test it with the following code:

from mpl_toolkits.mplot3d import Axes3D
from matplotlib import cm
import matplotlib.pyplot as plt
import numpy as np

fig = plt.figure()
ax = fig.gca(projection='3d')
ax.set_aspect('equal')

X = np.random.rand(100)*10+5
Y = np.random.rand(100)*5+2.5
Z = np.random.rand(100)*50+25

scat = ax.scatter(X, Y, Z)

# Create cubic bounding box to simulate equal aspect ratio
max_range = np.array([X.max()-X.min(), Y.max()-Y.min(), Z.max()-Z.min()]).max()
Xb = 0.5*max_range*np.mgrid[-1:2:2,-1:2:2,-1:2:2][0].flatten() + 0.5*(X.max()+X.min())
Yb = 0.5*max_range*np.mgrid[-1:2:2,-1:2:2,-1:2:2][1].flatten() + 0.5*(Y.max()+Y.min())
Zb = 0.5*max_range*np.mgrid[-1:2:2,-1:2:2,-1:2:2][2].flatten() + 0.5*(Z.max()+Z.min())
# Comment or uncomment following both lines to test the fake bounding box:
for xb, yb, zb in zip(Xb, Yb, Zb):
   ax.plot([xb], [yb], [zb], 'w')

plt.grid()
plt.show()

z data are about an order of magnitude larger than x and y, but even with equal axis option, matplotlib autoscale z axis:

bad

But if you add the bounding box, you obtain a correct scaling:

enter image description here

  • 1
    Thank you. It works great! – user1329187 Dec 5 '12 at 8:32
  • In this case you do not even need the equal statement - it will be always equal. – user1329187 Dec 5 '12 at 11:56
  • 1
    You might want to watch out with calling a variable "scat"... – Ludwik May 16 '15 at 9:23
  • 1
    This works fine if you are plotting only one set of data but what about when there are more data sets all on the same 3d plot? In question, there were 2 data sets so it's a simple thing to combine them but that could get unreasonable quickly if plotting several different data sets. – Steven C. Howell Jun 9 '15 at 14:43
  • @stvn66, I was plotting up to five data sets in one graph with this solutions and it worked fine for me. – user1329187 Feb 1 '16 at 9:55
41

I simplified Remy F's solution by using the set_x/y/zlim functions.

from mpl_toolkits.mplot3d import Axes3D
from matplotlib import cm
import matplotlib.pyplot as plt
import numpy as np

fig = plt.figure()
ax = fig.gca(projection='3d')
ax.set_aspect('equal')

X = np.random.rand(100)*10+5
Y = np.random.rand(100)*5+2.5
Z = np.random.rand(100)*50+25

scat = ax.scatter(X, Y, Z)

max_range = np.array([X.max()-X.min(), Y.max()-Y.min(), Z.max()-Z.min()]).max() / 2.0

mid_x = (X.max()+X.min()) * 0.5
mid_y = (Y.max()+Y.min()) * 0.5
mid_z = (Z.max()+Z.min()) * 0.5
ax.set_xlim(mid_x - max_range, mid_x + max_range)
ax.set_ylim(mid_y - max_range, mid_y + max_range)
ax.set_zlim(mid_z - max_range, mid_z + max_range)

plt.show()

enter image description here

  • Seams working fine. Thanks. – user1329187 Feb 19 '14 at 8:08
  • 1
    I like the simplified code. Just be aware that some (very few) data points may not get plotted. For example, suppose that X=[0, 0, 0, 100] so that X.mean()=25. If max_range comes out to be 100 (from X), then you're x-range will be 25 +- 50, so [-25, 75] and you'll miss the X[3] data point. The idea is very nice though, and easy to modify to make sure you get all the points. – TravisJ Feb 10 '15 at 16:25
  • 1
    Beware that using means as the center is not correct. You should use something like midpoint_x = np.mean([X.max(),X.min()]) and then set the limits to midpoint_x +/- max_range. Using the mean only works if the mean is located at the midpoint of the dataset, which is not always true. Also, a tip: you can scale max_range to make the graph look nicer if there are points near or on the boundaries. – Rainman Noodles Mar 17 '16 at 18:37
  • 1
    @RainmanNoodles: Thanks, made an update. – tauran May 4 '16 at 12:49
37

I like the above solutions, but they do have the drawback that you need to keep track of the ranges and means over all your data. This could be cumbersome if you have multiple data sets that will be plotted together. To fix this, I made use of the ax.get_[xyz]lim3d() methods and put the whole thing into a standalone function that can be called just once before you call plt.show(). Here is the new version:

from mpl_toolkits.mplot3d import Axes3D
from matplotlib import cm
import matplotlib.pyplot as plt
import numpy as np

def set_axes_equal(ax):
    '''Make axes of 3D plot have equal scale so that spheres appear as spheres,
    cubes as cubes, etc..  This is one possible solution to Matplotlib's
    ax.set_aspect('equal') and ax.axis('equal') not working for 3D.

    Input
      ax: a matplotlib axis, e.g., as output from plt.gca().
    '''

    x_limits = ax.get_xlim3d()
    y_limits = ax.get_ylim3d()
    z_limits = ax.get_zlim3d()

    x_range = abs(x_limits[1] - x_limits[0])
    x_middle = np.mean(x_limits)
    y_range = abs(y_limits[1] - y_limits[0])
    y_middle = np.mean(y_limits)
    z_range = abs(z_limits[1] - z_limits[0])
    z_middle = np.mean(z_limits)

    # The plot bounding box is a sphere in the sense of the infinity
    # norm, hence I call half the max range the plot radius.
    plot_radius = 0.5*max([x_range, y_range, z_range])

    ax.set_xlim3d([x_middle - plot_radius, x_middle + plot_radius])
    ax.set_ylim3d([y_middle - plot_radius, y_middle + plot_radius])
    ax.set_zlim3d([z_middle - plot_radius, z_middle + plot_radius])

fig = plt.figure()
ax = fig.gca(projection='3d')
ax.set_aspect('equal')

X = np.random.rand(100)*10+5
Y = np.random.rand(100)*5+2.5
Z = np.random.rand(100)*50+25

scat = ax.scatter(X, Y, Z)

set_axes_equal(ax)
plt.show()
  • Thank you for another version. I do not have time to test it now, but I will return to it later. – user1329187 Jul 22 '15 at 7:07
  • 1
    My code above does not take the mean of the data, it takes the mean of the existing plot limits. My function is thus guaranteed to keep in view any points that were in view according to the plot limits set before it was called. If the user has already set plot limits too restrictively to see all data points, that is a separate issue. My function allows more flexibility because you may want to view only a subset of the data. All I do is expand axis limits so the aspect ratio is 1:1:1. – karlo Apr 10 '16 at 18:18
  • 2
    Ah, my bad! I did not see that your x_mean was in fact not the mean, but the midpoint. Your code should work correctly, then, but I would suggest renaming the variables, and for some reason, I carried the same mistake into my answer below. ;-) – dalum Apr 27 '16 at 6:21
  • 1
    Good call on the naming. I renamed *_mean to *_middle. – karlo Apr 27 '16 at 16:37
  • 7
    Vastly superior to the currently accepted solution that is a mess when you start having lots of objects of different nature. – P-Gn Jul 14 '17 at 13:46
9

Adapted from @karlo's answer to make things even cleaner:

def set_axes_radius(ax, origin, radius):
    ax.set_xlim3d([origin[0] - radius, origin[0] + radius])
    ax.set_ylim3d([origin[1] - radius, origin[1] + radius])
    ax.set_zlim3d([origin[2] - radius, origin[2] + radius])

def set_axes_equal(ax):
    '''Make axes of 3D plot have equal scale so that spheres appear as spheres,
    cubes as cubes, etc..  This is one possible solution to Matplotlib's
    ax.set_aspect('equal') and ax.axis('equal') not working for 3D.

    Input
      ax: a matplotlib axis, e.g., as output from plt.gca().
    '''

    limits = np.array([
        ax.get_xlim3d(),
        ax.get_ylim3d(),
        ax.get_zlim3d(),
    ])

    origin = np.mean(limits, axis=1)
    radius = 0.5 * np.max(np.abs(limits[:, 1] - limits[:, 0]))
    set_axes_radius(ax, origin, radius)

Usage:

fig = plt.figure()
ax = fig.gca(projection='3d')
ax.set_aspect('equal')         # important!

# ...draw here...

set_axes_equal(ax)             # important!
plt.show()
  • 3
    This series of answers, and incremental improvements, is why Stack Overflow exists. Really good stuff! – neuronet Jan 2 at 22:01
5

EDIT: user2525140's code should work perfectly fine, although this answer supposedly attempted to fix a non--existant error. The answer below is just a duplicate (alternative) implementation:

def set_aspect_equal_3d(ax):
    """Fix equal aspect bug for 3D plots."""

    xlim = ax.get_xlim3d()
    ylim = ax.get_ylim3d()
    zlim = ax.get_zlim3d()

    from numpy import mean
    xmean = mean(xlim)
    ymean = mean(ylim)
    zmean = mean(zlim)

    plot_radius = max([abs(lim - mean_)
                       for lims, mean_ in ((xlim, xmean),
                                           (ylim, ymean),
                                           (zlim, zmean))
                       for lim in lims])

    ax.set_xlim3d([xmean - plot_radius, xmean + plot_radius])
    ax.set_ylim3d([ymean - plot_radius, ymean + plot_radius])
    ax.set_zlim3d([zmean - plot_radius, zmean + plot_radius])
  • You still need to do: ax.set_aspect('equal') or the tick values may be screwed up. Otherwise good solution. Thanks, – Tony Power Feb 22 at 15:28

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