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# Plotting implicit equations in 3d

I'd like to plot implicit equation F(x,y,z) = 0 in 3D. Is it possible in Matplotlib?

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You can find some examples at: matplotlib.sourceforge.net/examples/mplot3d/index.html – rubik Jan 13 '11 at 13:31
Do you need to do it with matplotlib? If not, you might want to have a look at 3d contour plots in Mayavi. – Sven Marnach Jan 13 '11 at 16:26
@Sven Marnach: Thank You, but unfortunately I have to do it with Matplotlib. – qutron Jan 14 '11 at 9:19
It looks good except you aren't shifting the location of the z contour by the value of z. They all get plotted at 0.0! Plus you need to manually define the plotted limits since the z contour solution will extend way beyond your desired contour interval. – Paul Jan 17 '11 at 16:46
I've updated my post with cleaner code that includes plotted contour intervals (slices) along other axes. – Paul Jan 17 '11 at 16:48

You can trick matplotlib into plotting implicit equations in 3D. Just make a one-level contour plot of the equation for each z value within the desired limits. You can repeat the process along the y and z axes as well for a more solid-looking shape.

``````from mpl_toolkits.mplot3d import axes3d
import matplotlib.pyplot as plt
import numpy as np

def plot_implicit(fn, bbox=(-2.5,2.5)):
''' create a plot of an implicit function
fn  ...implicit function (plot where fn==0)
bbox ..the x,y,and z limits of plotted interval'''
xmin, xmax, ymin, ymax, zmin, zmax = bbox*3
fig = plt.figure()
A = np.linspace(xmin, xmax, 100) # resolution of the contour
B = np.linspace(xmin, xmax, 15) # number of slices
A1,A2 = np.meshgrid(A,A) # grid on which the contour is plotted

for z in B: # plot contours in the XY plane
X,Y = A1,A2
Z = fn(X,Y,z)
cset = ax.contour(X, Y, Z+z, [z], zdir='z')
# [z] defines the only level to plot for this contour for this value of z

for y in B: # plot contours in the XZ plane
X,Z = A1,A2
Y = fn(X,y,Z)
cset = ax.contour(X, Y+y, Z, [y], zdir='y')

for x in B: # plot contours in the YZ plane
Y,Z = A1,A2
X = fn(x,Y,Z)
cset = ax.contour(X+x, Y, Z, [x], zdir='x')

# must set plot limits because the contour will likely extend
# way beyond the displayed level.  Otherwise matplotlib extends the plot limits
# to encompass all values in the contour.
ax.set_zlim3d(zmin,zmax)
ax.set_xlim3d(xmin,xmax)
ax.set_ylim3d(ymin,ymax)

plt.show()
``````

Here's the plot of the Goursat Tangle:

``````def goursat_tangle(x,y,z):
a,b,c = 0.0,-5.0,11.8
return x**4+y**4+z**4+a*(x**2+y**2+z**2)**2+b*(x**2+y**2+z**2)+c

plot_implicit(goursat_tangle)
``````

You can make it easier to visualize by adding depth cues with creative colormapping:

Here's how the OP's plot looks:

``````def hyp_part1(x,y,z):
return -(x**2) - (y**2) + (z**2) - 1

plot_implicit(hyp_part1, bbox=(-100.,100.))
``````

Bonus: You can use python to functionally combine these implicit functions:

``````def sphere(x,y,z):
return x**2 + y**2 + z**2 - 2.0**2

def translate(fn,x,y,z):
return lambda a,b,c: fn(x-a,y-b,z-c)

def union(*fns):
return lambda x,y,z: np.min(
[fn(x,y,z) for fn in fns], 0)

def intersect(*fns):
return lambda x,y,z: np.max(
[fn(x,y,z) for fn in fns], 0)

def subtract(fn1, fn2):
return intersect(fn1, lambda *args:-fn2(*args))

plot_implicit(union(sphere,translate(sphere, 1.,1.,1.)), (-2.,3.))
``````

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@bpowah: According to matplotlib reference projection = '3d' is invalid. Perhaps projection = 'rectilinear'? – qutron Jan 14 '11 at 9:26
I remember getting that error before upgrading to matplotlib 1.0.1. I forget how to get around it for previous versions. – Paul Jan 14 '11 at 12:54
@bpowah: Oh, you're using newer matplotlib version. Anyway I'll try to figure this out. Thanks)) – qutron Jan 14 '11 at 13:12
@bpowah: I'm trying to get into your code, but I don't understand how Z = sphere(X,Y,z) works. – qutron Jan 14 '11 at 14:50
@qutron: Try `ax = axes3d.Axes3D(fig)` – Paul Jan 14 '11 at 14:56

Matplotlib expects a series of points; it will do the plotting if you can figure out how to render your equation.

Referring to Is it possible to plot implicit equations using Matplotlib? Mike Graham's answer suggests using scipy.optimize to numerically explore the implicit function.

There is an interesting gallery at http://xrt.wikidot.com/gallery:implicit showing a variety of raytraced implicit functions - if your equation matches one of these, it might give you a better idea what you are looking at.

Failing that, if you care to share the actual equation, maybe someone can suggest an easier approach.

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As far as I know, it is not possible. You have to solve this equation numerically by yourself. Using scipy.optimize is a good idea. The simplest case is that you know the range of the surface that you want to plot, and just make a regular grid in x and y, and try to solve equation F(xi,yi,z)=0 for z, giving a starting point of z. Following is a very dirty code that might help you

``````from scipy import *
from scipy import optimize

xrange = (0,1)
yrange = (0,1)
density = 100
startz = 1

def F(x,y,z):
return x**2+y**2+z**2-10

x = linspace(xrange[0],xrange[1],density)
y = linspace(yrange[0],yrange[1],density)

points = []
for xi in x:
for yi in y:
g = lambda z:F(xi,yi,z)
res = optimize.fsolve(g, startz, full_output=1)
if res[2] == 1:
zi = res[0]
points.append([xi,yi,zi])

points = array(points)
``````
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I don't think that's a good idea. Try F(x, y, z) = x^2 + y^2 + z^2 - 1 to see the problem. It should plot a sphere, but your code will only plot half a shpere. – Sven Marnach Jan 13 '11 at 16:19
Oh, just noticed you are using basically the same function already :) – Sven Marnach Jan 13 '11 at 16:21
That's true. If implicit function is multi-valued, there is a problem. As I said, it's just a dirty code to make the simplest thing possible.# – hanselda Jan 13 '11 at 20:06

Have you looked at mplot3d on matplotlib?

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Yes, I have. The main problem is that function is implicit. AFAIK, Matplotlib doesn't plot equations, it plots series of points. I just don't know how to calculate all series of points that fit my implicit equation. – qutron Jan 13 '11 at 13:41
Oh, sorry then. Nevermind. – Ehtesh Choudhury Jan 14 '11 at 3:37

Finally, I did it (I updated my matplotlib to 1.0.1). Here is code:

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

def hyp_part1(x,y,z):
return -(x**2) - (y**2) + (z**2) - 1

fig = plt.figure()

x_range = np.arange(-100,100,10)
y_range = np.arange(-100,100,10)
X,Y = np.meshgrid(x_range,y_range)
A = np.linspace(-100, 100, 15)

A1,A2 = np.meshgrid(A,A)

for z in A:
X,Y = A1, A2
Z = hyp_part1(X,Y,z)
ax.contour(X, Y, Z+z, [z], zdir='z')

for y in A:
X,Z= A1, A2
Y = hyp_part1(X,y,Z)
ax.contour(X, Y+y, Z, [y], zdir='y')

for x in A:
Y,Z = A1, A2
X = hyp_part1(x,Y,Z)
ax.contour(X+x, Y, Z, [x], zdir='x')

ax.set_zlim3d(-100,100)
ax.set_xlim3d(-100,100)
ax.set_ylim3d(-100,100)
``````

Here is result:

Thank You, Paul!

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MathGL (GPL plotting library) can plot it easily. Just create a data mesh with function values f[i,j,k] and use Surf3() function to make isosurface at value f[i,j,k]=0. See this sample.

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