I have 3d-data representing the atmosphere. Now I want to interpolate this data to a common Z coordinate (what I mean by that should be clear from the function's doctring). The following code works fine, but I was wondering if there were a way to improve the performance ...

```
def interpLevel(grid,value,data,interp='linear'):
"""
Interpolate 3d data to a common z coordinate.
Can be used to calculate the wind/pv/whatsoever values for a common
potential temperature / pressure level.
grid : numpy.ndarray
The grid. For example the potential temperature values for the whole 3d
grid.
value : float
The common value in the grid, to which the data shall be interpolated.
For example, 350.0
data : numpy.ndarray
The data which shall be interpolated. For example, the PV values for
the whole 3d grid.
kind : str
This indicates which kind of interpolation will be done. It is directly
passed on to scipy.interpolate.interp1d().
returs : numpy.ndarray
A 2d array containing the *data* values at *value*.
"""
ret = np.zeros_like(data[0,:,:])
# we need to copy the grid to a new one, because otherwise the flipping
# done below will be messed up
gr = np.zeros_like(grid)
da = np.zeros_like(data)
for latIdx in xrange(grid.shape[1]):
for lonIdx in xrange(grid.shape[2]):
# check if we need to flip the column
if grid[0,latIdx,lonIdx] > grid[-1,latIdx,lonIdx]:
gr[:,latIdx,lonIdx] = grid[::-1,latIdx,lonIdx]
da[:,latIdx,lonIdx] = data[::-1,latIdx,lonIdx]
else:
gr[:,latIdx,lonIdx] = grid[:,latIdx,lonIdx]
da[:,latIdx,lonIdx] = data[:,latIdx,lonIdx]
f = interpolate.interp1d(gr[:,latIdx,lonIdx], \
da[:,latIdx,lonIdx], \
kind=interp)
ret[latIdx,lonIdx] = f(value)
return ret
```