# how to set "camera position" for 3d plots using python/matplotlib?

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.

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

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)
``````
• 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
• 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. =) Oct 16, 2012 at 2:00
• 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... Jul 30, 2013 at 3:37
• 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.

IN PYTHON...

``````axx=ax1.get_axes()
azm=axx.azim
ele=axx.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
axx=ax1.get_axes()
azm=axx.azim
ele=axx.elev
``````

Later Graph...

``````ax2.view_init(elev=ele, azim=azm) #Reproduce view
ax2.set_xlim3d(xlm,xlm)     #Reproduce magnification
ax2.set_ylim3d(ylm,ylm)     #...
ax2.set_zlim3d(zlm,zlm)     #...
``````
• +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)
else:
azim = None
if len(sys.argv) > 2:
dist = int(sys.argv)
else:
dist = None
if len(sys.argv) > 3:
elev = int(sys.argv)
else:
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.
ax.set_xlabel('x')
ax.set_ylabel('y')
ax.set_zlabel('z')

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))

plt.savefig(
'main_{}_{}_{}.png'.format(ax.azim, ax.dist, ax.elev),
format='png',
bbox_inches='tight'
)

``````

Running it without arguments gives the default values:

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

main_-60_10_30.png Vary `azim`

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

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

main_-60_10_30.png main_0_10_30.png main_60_10_30.png Vary `dist`

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

main_-60_10_30.png main_-60_5_30.png main_-60_20_-30.png Vary `elev`

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

main_-60_10_60.png main_-60_10_30.png main_-60_10_0.png main_-60_10_-30.png 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() - ax.get_zbound()) / koef
xkoef = (ax.get_xbound() - ax.get_xbound()) / koef
ykoef = (ax.get_ybound() - ax.get_ybound()) / koef
## Map an motion to keyboard shortcuts
if event.key == "ctrl+down":
ax.set_ybound(ax.get_ybound() + xkoef, ax.get_ybound() + xkoef)
if event.key == "ctrl+up":
ax.set_ybound(ax.get_ybound() - xkoef, ax.get_ybound() - xkoef)
if event.key == "ctrl+right":
ax.set_xbound(ax.get_xbound() + ykoef, ax.get_xbound() + ykoef)
if event.key == "ctrl+left":
ax.set_xbound(ax.get_xbound() - ykoef, ax.get_xbound() - ykoef)
if event.key == "down":
ax.set_zbound(ax.get_zbound() - zkoef, ax.get_zbound() - zkoef)
if event.key == "up":
ax.set_zbound(ax.get_zbound() + zkoef, ax.get_zbound() + zkoef)
# zoom option
if event.key == "alt+up":
ax.set_xbound(ax.get_xbound()*0.90, ax.get_xbound()*0.90)
ax.set_ybound(ax.get_ybound()*0.90, ax.get_ybound()*0.90)
ax.set_zbound(ax.get_zbound()*0.90, ax.get_zbound()*0.90)
if event.key == "alt+down":
ax.set_xbound(ax.get_xbound()*1.10, ax.get_xbound()*1.10)
ax.set_ybound(ax.get_ybound()*1.10, ax.get_ybound()*1.10)
ax.set_zbound(ax.get_zbound()*1.10, ax.get_zbound()*1.10)

# Rotational movement
elev=ax.elev
azim=ax.azim
if event.key == "shift+up":
elev+=10
if event.key == "shift+down":
elev-=10
if event.key == "shift+right":
azim+=10
if event.key == "shift+left":
azim-=10

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

# print which ever variable you want

ax.figure.canvas.draw()

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

plt.show()

``````

### 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. Sep 3, 2022 at 14:20