I need to generate all "ordered subsets" (apologies if I'm not using correct mathematical terminology) of a sequence in Python, with omitted elements replaced with `None`

.Given `[1, 2]`

, I want `[(1, 2), (1, None), (None, 2), (None, None)]`

. Each "ordered subset" should have the property that at each position, it is either exactly the same element as in the seed sequence, or it is `None`

.

I can fairly easily generate subsets with omitted elements missing with the following:

```
from itertools import combinations
for length in xrange(len(items), 0, -1):
for combination in combinations(items, length):
yield combination
```

I can't figure out what the most effective way of reconstructing the missing elements, would be though. My first thought is to do something like this:

```
from itertools import combinations
indexes = range(len(items))
for length in xrange(len(items), 0, -1):
for combination in combinations(indexes, length):
yield tuple(items[i] if i in combination else None for i in indexes)
```

Just wondering if anyone can spot any obvious deficiencies in this, or if there's a more efficient solution I've missed. (Note that the `items`

will be a fairly short list, typically under 10 elements, so I am not concerned about the O(N) search of "combination" in the inner loop).