I have an numpy array of size

```
arr.size = (200, 600, 20).
```

I want to compute `scipy.stats.kendalltau`

on every pairwise combination of the last two dimensions. For example:

```
kendalltau(arr[:, 0, 0], arr[:, 1, 0])
kendalltau(arr[:, 0, 0], arr[:, 1, 1])
kendalltau(arr[:, 0, 0], arr[:, 1, 2])
...
kendalltau(arr[:, 0, 0], arr[:, 2, 0])
kendalltau(arr[:, 0, 0], arr[:, 2, 1])
kendalltau(arr[:, 0, 0], arr[:, 2, 2])
...
...
kendalltau(arr[:, 598, 20], arr[:, 599, 20])
```

such that I cover all combinations of `arr[:, i, xi]`

with `arr[:, j, xj]`

with `i < j`

and `xi in [0,20)`

, `xj in [0, 20)`

. This is `(600 choose 2) * 400`

individual calculations, but since each takes about `0.002 s`

on my machine, it shouldn't take much longer than a day with the multiprocessing module.

What's the best way to go about iterating over these columns (with `i<j`

)? I figure I should avoid something like

```
for i in range(600):
for j in range(i+1, 600):
for xi in range(20):
for xj in range(20):
```

What is the most numpythonic way of doing this?

**Edit:** I changed the title since Kendall Tau isn't really important to the question. I realize I could also do something like

```
import itertools as it
for i, j in it.combinations(xrange(600), 2):
for xi, xj in product(xrange(20), xrange(20)):
```

but there's got to be a better, more vectorized way with numpy.

`numpy`

the way it's supposed to be used, though. – wflynny Aug 9 '13 at 20:28