As part of a larger function, I'm writing some code to generate a vector/matrix (depending on the input) containing the mean value of each column of the input vector/matrix 'x'. These values are stored in a vector/matrix of the same shape as the input vector.

My preliminary solution for it to work on both a 1-D and matrix arrays is very(!) messy:

```
# 'x' is of type array and can be a vector or matrix.
import scipy as sp
shp = sp.shape(x)
x_mean = sp.array(sp.zeros(sp.shape(x)))
try: # if input is a matrix
shp_range = range(shp[1])
for d in shp_range:
x_mean[:,d] = sp.mean(x[:,d])*sp.ones(sp.shape(z))
except IndexError: # error occurs if the input is a vector
z = sp.zeros((shp[0],))
x_mean = sp.mean(x)*sp.ones(sp.shape(z))
```

Coming from a MATLAB background, this is what it would look like in MATLAB:

```
[R,C] = size(x);
for d = 1:C,
xmean(:,d) = zeros(R,1) + mean(x(:,d));
end
```

This works on both vectors as well as matrices without errors.

My question is, how can I make my python code work on input of both vector and matrix format without the (ugly) try/except block?

Thanks!

is2D. – Joe Kington Dec 16 '11 at 22:20