18

I am trying to create a 3D colored bar chart using ideas from: this stackoverflow post.

First I create a 3D bar chart with the following code:

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

samples = np.random.randint(91,size=(5000,2))

F = np.zeros([91,91])
for s in samples:
    F[s[0],s[1]] += 1

fig = plt.figure()
ax = fig.add_subplot(111, projection='3d')
x_data, y_data = np.meshgrid( np.arange(F.shape[1]),
                              np.arange(F.shape[0]) )
x_data = x_data.flatten()
y_data = y_data.flatten()
z_data = F.flatten()

ax.bar3d(x_data,y_data,np.zeros(len(z_data)),1,1,z_data )
plt.show()

The following is the output:

enter image description here

Now I try to color the bars using code verbatim from: this stackoverflow post. Here is the code:

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

samples = np.random.randint(91,size=(5000,2))

F = np.zeros([91,91])
for s in samples:
    F[s[0],s[1]] += 1

fig = plt.figure()
ax = fig.add_subplot(111, projection='3d')
x_data, y_data = np.meshgrid( np.arange(F.shape[1]),
                              np.arange(F.shape[0]) )
x_data = x_data.flatten()
y_data = y_data.flatten()
z_data = F.flatten()

dz = F
offset = dz + np.abs(dz.min())
fracs = offset.astype(float)/offset.max()
norm = colors.Normalize(fracs.min(), fracs.max())
colors = cm.jet(norm(fracs))

# colors = np.random.rand(91,91,4)

ax.bar3d(x_data,y_data,np.zeros(len(z_data)),1,1,z_data,color=colors )
plt.show()

However I get: ValueError: Invalid RGBA argument:

Now I am unable to debug the Invalid RGBA argument because I don't understand what is causing the error. I even tried to use random colors instead with colors = np.random.rand(91,91,4) and still the error persists.

I have checked stackoverflow posts regarding Invalid RGBA argument (for example this,this,this and this) and none of that seems to answer my problem.

I want to know what could be causing this error. I am using the standard Anaconda distribution for python on Ubuntu Mate 16.

Could it be that due to recent updates in python, the solution as in the original stackoverflow post becomes obsolete?

15

The error message is misleading. You're getting a ValueError because the shape of colors is wrong, not because an RGBA value is invalid.

When coloring each bar a single color, color should be an array of length N, where N is the number of bars. Since there are 8281 bars,

In [121]: x_data.shape
Out[121]: (8281,)

colors should have shape (8281, 4). But instead, the posted code generates an array of shape (91, 91, 4):

In [123]: colors.shape
Out[123]: (91, 91, 4)

So to fix the problem, use color=colors.reshape(-1,4).


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

samples = np.random.randint(91,size=(5000,2))

F = np.zeros([91,91])
for s in samples:
    F[s[0],s[1]] += 1

fig = plt.figure()
ax = fig.add_subplot(111, projection='3d')
x_data, y_data = np.meshgrid( np.arange(F.shape[1]),
                              np.arange(F.shape[0]) )
x_data = x_data.flatten()
y_data = y_data.flatten()
z_data = F.flatten()

dz = F
offset = dz + np.abs(dz.min())
fracs = offset.astype(float)/offset.max()
norm = colors.Normalize(fracs.min(), fracs.max())
colors = cm.jet(norm(fracs))

ax.bar3d(x_data,y_data,np.zeros(len(z_data)),1,1,z_data,color=colors.reshape(-1,4) )
plt.show()

enter image description here

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  • Thanks for explaining. Yes the error message never made me suspect that was the error. – Inspired_Blue Nov 29 '18 at 3:47
  • Is this method any more or less efficient than the other answer? I was just curious mostly. – l'L'l Nov 29 '18 at 3:49
  • 2
    @l'L'l The variable dz is just useless, so leaving it out is more efficient in terms of not confusing the reader. Memory-wise it's also more efficient not to create a 2D array first and then create another 1D array afterwards. However those operations are peanuts compared to creating the 3D plot, so one wouldn't notice any difference performance-wise. – ImportanceOfBeingErnest Nov 29 '18 at 3:57
5

The color argument expects a 1D array, similar to all other arguments of bar3d.

Hence, you need to replace the line offset = dz + np.abs(dz.min())

by

offset = z_data + np.abs(z_data.min())

for your case. dz is not useful here (maybe it was in the linked example).
Note that color=np.random.rand(len(z_data),4) would equally work.

Then the result will be

enter image description here

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