I'm learning how to use mplot3d to produce nice plots of 3d data and I'm pretty happy so far. What I am trying to do at the moment is a little animation of a rotating surface. For that purpose, I need to set a camera position for the 3D projection. I guess this must be possible since a surface can be rotated using the mouse when using matplotlib interactively. But how can I do this from a script? I found a lot of transforms in mpl_toolkits.mplot3d.proj3d but I could not find out how to use these for my purpose and I didn't find any example for what I'm trying to do.

  • 5
    Side note for the ones wondering how to rotate interactively in jupyter notebook: you may use %matplotlib notebook
    – YvesgereY
    Jul 27, 2017 at 0:34
  • Also dragging while holding the right mouse button changes the camera distance.
    – LoMaPh
    Dec 4, 2018 at 18:28
  • For this kind of vizualisations, I'd give mayavi a try.
    – user2821
    Jun 16, 2019 at 2:32

5 Answers 5


By "camera position," it sounds like you want to adjust the elevation and the azimuth angle that you use to view the 3D plot. You can set this with ax.view_init. I've used the below script to first create the plot, then I determined a good elevation, or elev, from which to view my plot. I then adjusted the azimuth angle, or azim, to vary the full 360deg around my plot, saving the figure at each instance (and noting which azimuth angle as I saved the plot). For a more complicated camera pan, you can adjust both the elevation and angle to achieve the desired effect.

    from mpl_toolkits.mplot3d import Axes3D
    ax = Axes3D(fig)
    ax.scatter(xx,yy,zz, marker='o', s=20, c="goldenrod", alpha=0.6)
    for ii in xrange(0,360,1):
        ax.view_init(elev=10., azim=ii)
        savefig("movie%d.png" % ii)
  • 43
    Beat me to it! On a side note, these are available as the ax.elev and ax.azim properties. You could also have just written ax.azim = ii or even ax.azim += 1 to achieve the same effect. Oct 15, 2012 at 23:32
  • 1
    Sorry I beat you but fair points all around. This is also just a coding excerpt of mine, there was more within that for-loop than just view_init and savefig. =)
    – cosmosis
    Oct 16, 2012 at 2:00
  • 4
    Thanks cosmosis and Joe, that was exactly what I was looking for. Since I now knew what to look for, I also found ax.dist which - together with ax.azim and ax.elev - allows to set the camera position in polar coordinates. Oct 16, 2012 at 7:59
  • This "adds" a new plot to the axes. So if you pass "transparent=True" to savefig, you'll see all the previous views overlapping. This is also apparent from the file sizes. I'm still looking for a way to change the view without resetting the axes...
    – navidoo
    Jul 30, 2013 at 3:37
  • 14
    You can also set the distance between camera and object point by ax.dist=15 (default to be 10)
    – Tim
    Jul 3, 2014 at 3:43

What would be handy would be to apply the Camera position to a new plot. So I plot, then move the plot around with the mouse changing the distance. Then try to replicate the view including the distance on another plot. I find that axx.ax.get_axes() gets me an object with the old .azim and .elev.


dst=axx.dist       # ALWAYS GIVES 10
#dst=ax1.axes.dist # ALWAYS GIVES 10
#dst=ax1.dist      # ALWAYS GIVES 10

Later 3d graph...

ax2.view_init(elev=ele, azim=azm) #Works!
ax2.dist=dst                       # works but always 10 from axx

EDIT 1... OK, Camera position is the wrong way of thinking concerning the .dist value. It rides on top of everything as a kind of hackey scalar multiplier for the whole graph.

This works for the magnification/zoom of the view:

xlm=ax1.get_xlim3d() #These are two tupples
ylm=ax1.get_ylim3d() #we use them in the next
zlm=ax1.get_zlim3d() #graph to reproduce the magnification from mousing

Later Graph...

ax2.view_init(elev=ele, azim=azm) #Reproduce view
ax2.set_xlim3d(xlm[0],xlm[1])     #Reproduce magnification
ax2.set_ylim3d(ylm[0],ylm[1])     #...
ax2.set_zlim3d(zlm[0],zlm[1])     #...
  • 2
    +1 for calling out the hacky scalar multiplication. It's very annoying if you were hoping for perspective. Sep 8, 2017 at 2:16

Minimal example varying azim, dist and elev

To add some simple sample images to what was explained at: https://stackoverflow.com/a/12905458/895245

Here is my test program:

#!/usr/bin/env python3

import sys

import matplotlib.pyplot as plt
from matplotlib import cm
from matplotlib.ticker import LinearLocator, FormatStrFormatter
import numpy as np

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

if len(sys.argv) > 1:
    azim = int(sys.argv[1])
    azim = None
if len(sys.argv) > 2:
    dist = int(sys.argv[2])
    dist = None
if len(sys.argv) > 3:
    elev = int(sys.argv[3])
    elev = None

# Make data.
X = np.arange(-5, 6, 1)
Y = np.arange(-5, 6, 1)
X, Y = np.meshgrid(X, Y)
Z = X**2

# Plot the surface.
surf = ax.plot_surface(X, Y, Z, linewidth=0, antialiased=False)

# Labels.

if azim is not None:
    ax.azim = azim
if dist is not None:
    ax.dist = dist
if elev is not None:
    ax.elev = elev

print('ax.azim = {}'.format(ax.azim))
print('ax.dist = {}'.format(ax.dist))
print('ax.elev = {}'.format(ax.elev))

    'main_{}_{}_{}.png'.format(ax.azim, ax.dist, ax.elev),

Running it without arguments gives the default values:

ax.azim = -60
ax.dist = 10
ax.elev = 30


enter image description here

Vary azim

The azimuth is the rotation around the z axis e.g.:

  • 0 means "looking from +x"
  • 90 means "looking from +y"


enter image description here


enter image description here


enter image description here

Vary dist

dist seems to be the distance from the center visible point in data coordinates.


enter image description here


enter image description here


enter image description here

Vary elev

From this we understand that elev is the angle between the eye and the xy plane.


enter image description here


enter image description here


enter image description here


enter image description here

Tested on matpotlib==3.2.2.


Try the following code to find the optimal camera position

Move the viewing angle of the plot using the keyboard keys as mentioned in the if clause

Use print to get the camera positions

def move_view(event):
    ax.autoscale(enable=False, axis='both') 
    koef = 8
    zkoef = (ax.get_zbound()[0] - ax.get_zbound()[1]) / koef
    xkoef = (ax.get_xbound()[0] - ax.get_xbound()[1]) / koef
    ykoef = (ax.get_ybound()[0] - ax.get_ybound()[1]) / koef
    ## Map an motion to keyboard shortcuts
    if event.key == "ctrl+down":
        ax.set_ybound(ax.get_ybound()[0] + xkoef, ax.get_ybound()[1] + xkoef)
    if event.key == "ctrl+up":
        ax.set_ybound(ax.get_ybound()[0] - xkoef, ax.get_ybound()[1] - xkoef)
    if event.key == "ctrl+right":
        ax.set_xbound(ax.get_xbound()[0] + ykoef, ax.get_xbound()[1] + ykoef)
    if event.key == "ctrl+left":
        ax.set_xbound(ax.get_xbound()[0] - ykoef, ax.get_xbound()[1] - ykoef)
    if event.key == "down":
        ax.set_zbound(ax.get_zbound()[0] - zkoef, ax.get_zbound()[1] - zkoef)
    if event.key == "up":
        ax.set_zbound(ax.get_zbound()[0] + zkoef, ax.get_zbound()[1] + zkoef)
    # zoom option
    if event.key == "alt+up":
        ax.set_xbound(ax.get_xbound()[0]*0.90, ax.get_xbound()[1]*0.90)
        ax.set_ybound(ax.get_ybound()[0]*0.90, ax.get_ybound()[1]*0.90)
        ax.set_zbound(ax.get_zbound()[0]*0.90, ax.get_zbound()[1]*0.90)
    if event.key == "alt+down":
        ax.set_xbound(ax.get_xbound()[0]*1.10, ax.get_xbound()[1]*1.10)
        ax.set_ybound(ax.get_ybound()[0]*1.10, ax.get_ybound()[1]*1.10)
        ax.set_zbound(ax.get_zbound()[0]*1.10, ax.get_zbound()[1]*1.10)
    # Rotational movement
    if event.key == "shift+up":
    if event.key == "shift+down":
    if event.key == "shift+right":
    if event.key == "shift+left":

    ax.view_init(elev= elev, azim = azim)

    # print which ever variable you want 


fig.canvas.mpl_connect("key_press_event", move_view)



Q: How can I set view in matplotlib?

For a 3d plot, how do you fixate the view?

A: By setting properties ax.azim and ax.level

ax.elev = 0
ax.azim = 270  # xz view

ax.elev = 0
ax.azim = 0    # yz view

ax.elev = 0
ax.azim = -90  # xy view
  • Please reference the other answer (with a link, not by "above" or similar) and explain the additional insight you contribute.
    – Yunnosch
    Sep 3, 2022 at 14:20

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