I wrote a function (see end) that calculates spherical harmonic coefficients for a specific order and degree and plots them on a sphere.

I would like to combine several of these spheres in a grid. I would like an end result similar to this

I tried with 2 plots using plt.subplots and plt.gridSpec to no avail. It always ends up putting the other plot outside. Here's the code I tried:

```
fig, axes = plt.subplots(ncols=1, nrows=2)
ax1, ax2 = axes.ravel()
ax1.plot(sh(6,6))
ax2.plot(sh(7,7))
plt.show()
```

I get the following figure:

and a traceback @ 3rd line:

ValueError: x and y must not be None

Also,

```
### GridSpec ####
plt.subplot2grid((2,2), (0,0))
sh(7,7)
plt.subplot2grid((2,2), (1, 0))
sh(8,7)
plt.subplot2grid((2,2), (1, 1))
sh(9,7)
plt.show()
```

results in 3 separate (not grid) plots.

It is a better result but the 3rd sphere should be on the right of the 2nd sphere unless I have done something wrong.
Note: sh() is the function I wrote which calculates the spherical harmonics **and** plots the sphere with the spherical harmonics projections. In other words I have 2 spheres here. All I want to do is combine the two (actually more) spheres in a grid like the one above.

PS: I tried to work with Mayavi but I couldn't make it work. All the code on the website doesn't work for me. I will recheck it later but I am tight on time now so I wrote my own function.

The function I wrote:

```
def sh(l,m,cent_lat,cent_lon):
# function that calculates the spherical harmonics of order l and degree m and visualizes it on a
# sphere centered at (cent_lat, cent_lon) given in degrees
if l < m:
print "Order cannot be smaller than the degree! Try again."
else:
import numpy as np
import scipy.special as sp
from math import pi
import matplotlib.cm as cm
from mpl_toolkits.basemap import Basemap
import matplotlib.pyplot as plt
res = pi/100 # resolution
theta = np.r_[0:2*pi:res]; phi = np.r_[0:pi:res] # theta: lon, phi: coalt
coef = []
for i in theta:
for j in phi:
coef.append(sp.sph_harm(m,l,i,j))
coef = np.asarray(coef) # convert list to array
coef = np.reshape(coef, (len(theta),-1)) # reshapte array as per number of angles
## Plotting ##
# create lat/lon arrays
lon = np.linspace(0,2*pi,len(theta))
lat = np.linspace(-pi/2,pi/2,len(phi))
colat = lat+pi/2 # colatitude array
# create 2D meshgrid
mesh_grid = np.meshgrid(lon, lat) # create a meshgrid out of lat/lon
lon_grid = mesh_grid[0] # grab the meshgrid part for lon
lat_grid = mesh_grid[1] # grab the meshgrid part for lat
real_coef = np.real(coef) # read parts of the coefficients
norm_coef = np.round(real_coef / np.max(real_coef),2) # normalize
# set up orthographic map projection
mp = Basemap(projection='ortho', lat_0 = cent_lat, lon_0 = cent_lon) # setup an orthographic basemap centered at lat_0 & lon_0
# draw the edge of the map projection region (the projection limb)
mp.drawmapboundary()
# convert angles from radians to degrees & pipe them to basemap
x,y = mp(np.degrees(lon_grid), np.degrees(lat_grid))
cmap = cm.get_cmap('jet') # Set color map
mp.pcolor(x,y,np.transpose(norm_coef), cmap=cmap)
# cax = figure.add_axes([0.15,0.03,0.7,0.03])
# cb = plt.colorbar(orientation = 'horizontal')
plt.show()
```

Any help is appreciated.

`mayavi`

, they have an example which is similar docs.enthought.com/mayavi/mayavi/auto/…`ax1/ax2`

to`sh`

to make it use the existing axes for plotting?9more comments