If your sets are stored in s, for example:

```
s = [set([1, 2]), set([1, 3]), set([1, 2, 3]), set([2, 4])]
```

Then you can use itertools.combinations to take them two by two, and calculate the intersection (note that, as Alex pointed out, `combinations`

is only available since version 2.6). Here with a list comrehension (just for the sake of the example):

```
from itertools import combinations
[ i[0] & i[1] for i in combinations(s,2) ]
```

Or, in a loop, which is probably what you need:

```
for i in combinations(s, 2):
inter = i[0] & i[1]
# processes the intersection set result "inter"
```

So, to have the length of each one of them, that "processing" would be:

```
l = len(inter)
```

This would be quite efficient, since it's using iterators to compute every combinations, and does not prepare all of them in advance.

**Edit**: Note that with this method, each set in the list "s" can actually be something else that *returns a set*, like a generator. The list itself could simply be a generator if you are short on memory. It could be much slower though, depending on how you generate these elements, but you wouldn't need to have the whole list of sets in memory at the same time (not that it should be a problem in your case).

For example, if each set is made from a function `gen`

:

```
def gen(parameter):
while more_sets():
# ... some code to generate the next set 'x'
yield x
with open("results", "wt") as f_results:
for i in combinations(gen("data"), 2):
inter = i[0] & i[1]
f_results.write("%d\n" % len(inter))
```

**Edit 2**: How to collect indices (following redrat's comment).

Besides the quick solution I answered in comment, a more efficient way to collect the set indices would be to have a list of `(index, set)`

instead of a list of `set`

.

Example with new format:

```
s = [(0, set([1, 2])), (1, set([1, 3])), (2, set([1, 2, 3]))]
```

If you are building this list to calculate the combinations anyway, it should be simple to adapt to your new requirements. The main loop becomes:

```
with open("results", "wt") as f_results:
for i in combinations(s, 2):
inter = i[0][1] & i[1][1]
f_results.write("length of %d & %d: %d\n" % (i[0][0],i[1][0],len(inter))
```

In the loop, `i[0]`

and `i[1]`

would be a tuple `(index, set)`

, so `i[0][1]`

is the first set, `i[0][0]`

its index.