# Plot a plane and points in 3D simultaneously

I m trying to plot simultaneously a plane and some points in 3D with Matplotlib. I have no errors just the point will not appear. I can plot at different times some points and planes but never at same time. The part of the code looks like :

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

point  = np.array([1, 2, 3])
normal = np.array([1, 1, 2])

point2 = np.array([10, 50, 50])

# a plane is a*x+b*y+c*z+d=0
# [a,b,c] is the normal. Thus, we have to calculate
# d and we're set
d = -point.dot(normal)

# create x,y
xx, yy = np.meshgrid(range(10), range(10))

# calculate corresponding z
z = (-normal[0] * xx - normal[1] * yy - d) * 1. /normal[2]

# plot the surface
plt3d = plt.figure().gca(projection='3d')
plt3d.plot_surface(xx, yy, z, alpha=0.2)

#and i would like to plot this point :
ax.scatter(point2[0] , point2[1] , point2[2],  color='green')

plt.show()
``````
• @AndreyRubshtein how is that related? The question your link to is about `matlab`, this is about `matplotlib` Aug 16, 2017 at 11:12
• Hey @tom, it has an explanation about the math formula, the one that is called 'Calculate corresponding z' in the original question Aug 16, 2017 at 12:41
• Ok sure, although that's not really what this question and answers are about Aug 16, 2017 at 13:12
• Just to mention it: this method will fail for normal vectors which have a z-component equal to zero! So, for example, `normal = np.array([1,0,0])` will throw `RuntimeWarning: divide by zero encountered in true_divide` and no plane is drawn! Jul 1, 2021 at 13:26

Just to add to @suever's answer, you there's no reason why you can't create the `Axes` and then plot both the surface and the scatter points on it. Then there's no need to use `ax.hold()`:

``````# Create the figure
fig = plt.figure()

# plot the surface
ax.plot_surface(xx, yy, z, alpha=0.2)

# and plot the point
ax.scatter(point2[0] , point2[1] , point2[2],  color='green')
``````

You will need to tell the axes that you want new plots to add to the current plots on the axes rather than overwriting them. To do this, you will need to use `axes.hold(True)`

``````# plot the surface
plt3d = plt.figure().gca(projection='3d')
plt3d.plot_surface(xx, yy, z, alpha=0.2)

# Ensure that the next plot doesn't overwrite the first plot
ax = plt.gca()
ax.hold(True)

ax.scatter(points2[0], point2[1], point2[2], color='green')
``````

UPDATE

As @tcaswell pointed out in the comments, they are considering discontinuing support for `hold`. As a result, a better approach may be to use the axes directly to add more plots as in @tom's answer.

• Do you actually use `hold` day-to-day? We have been talking about deprecating it and I would like to talk to someone who actually uses it.... Mar 18, 2016 at 2:08
• @tcaswell I do tend to, but I think it's mainly due to the habits I developed from using MATLAB. That being said, I actually do like the alternate approach mentioned by tom but I never think to use it! Mar 18, 2016 at 2:38
• Also, I think most things default to `hold==True`. If you find a use case where you can not just remove it please make an issue on GH Mar 18, 2016 at 2:40
• AttributeError: 'Axes3D' object has no attribute 'hold' Jan 26, 2021 at 21:09

Just elaborating a little more on the math part (and how it works), may be useful for someone, the equation of a plane with unit normal vector n containing a point a is shown as follows:

so that the equation of the plane here is x + y + 2*z = 9 and the following code can simply be used to plot the given plane:

``````# create the figure
fig = plt.figure()

Plotting the point is straightforward with `scatter()`