Here it follows two functions: `hist2d_bubble`

and `hist3d_bubble`

; that may fit for your purpose:

```
def hist2d_bubble(x_data, y_data, bins=10):
import numpy as np
import matplotlib.pyplot as pyplot
ax = np.histogram2d(x_data, y_data, bins=bins)
xs = ax[1]
dx = xs[1] - xs[0]
ys = ax[2]
dy = ys[1] - ys[0]
def rdn():
return (1-(-1))*np.random.random() + -1
points = []
for (i, j),v in np.ndenumerate(ax[0]):
points.append((xs[i], ys[j], v))
points = np.array(points)
fig = pyplot.figure()
sub = pyplot.scatter(points[:, 0],points[:, 1],
color='black', marker='o', s=128*points[:, 2])
sub.axes.set_xticks(xs)
sub.axes.set_yticks(ys)
pyplot.ion()
pyplot.grid()
pyplot.show()
return points, sub
def hist3d_bubble(x_data, y_data, z_data, bins=10):
import numpy as np
import matplotlib.pyplot as pyplot
from mpl_toolkits.mplot3d import Axes3D
ax1 = np.histogram2d(x_data, y_data, bins=bins)
ax2 = np.histogram2d(x_data, z_data, bins=bins)
ax3 = np.histogram2d(z_data, y_data, bins=bins)
xs, ys, zs = ax1[1], ax1[2], ax3[1]
dx, dy, dz = xs[1]-xs[0], ys[1]-ys[0], zs[1]-zs[0]
def rdn():
return (1-(-1))*np.random.random() + -1
smart = np.zeros((bins, bins, bins),dtype=int)
for (i1, j1), v1 in np.ndenumerate(ax1[0]):
if v1==0: continue
for k2, v2 in enumerate(ax2[0][i1]):
v3 = ax3[0][k2][j1]
if v1==0 or v2==0 or v3==0: continue
num = min(v1, v2, v3)
smart[i1, j1, k2] += num
v1 -= num
v2 -= num
v3 -= num
points = []
for (i,j,k),v in np.ndenumerate(smart):
points.append((xs[i], ys[j], zs[k], v))
points = np.array(points)
fig = pyplot.figure()
sub = fig.add_subplot(111, projection='3d')
sub.scatter(points[:, 0], points[:, 1], points[:, 2],
color='black', marker='o', s=128*points[:, 3])
sub.axes.set_xticks(xs)
sub.axes.set_yticks(ys)
sub.axes.set_zticks(zs)
pyplot.ion()
pyplot.grid()
pyplot.show()
return points, sub
```

The two figures above were created using:

```
temperature = [4, 3, 1, 4, 6, 7, 8, 3, 1]
radius = [0, 2, 3, 4, 0, 1, 2, 10, 7]
density = [1, 10, 2, 24, 7, 10, 21, 102, 203]
import matplotlib
matplotlib.rcParams.update({'font.size':14})
points, sub = hist2d_bubble(radius, density, bins=4)
sub.axes.set_xlabel('radius')
sub.axes.set_ylabel('density')
points, sub = hist3d_bubble(temperature, density, radius, bins=4)
sub.axes.set_xlabel('temperature')
sub.axes.set_ylabel('density')
sub.axes.set_zlabel('radius')
```

Related:

Howto bin series of float values into histogram in Python?

How to correctly generate a 3d histogram using numpy or matplotlib built in functions in python?

2D histogram with Python

youcan write your code to plot both of those histograms - (matplotlib.org/examples/axes_grid/scatter_hist.html) – danodonovan Dec 22 '12 at 15:28