I have a list with some elements and want to iterate over all possible ways to divide this list into two lists. By that I mean all combinations, so the order doesn't matter (i.e. Element 1 and 3 could be in the one list and Element 2 in the other). Currently I do it like this, where `facs`

is my initial list:

```
patterns = []
for i in range(2**(len(facs)-1)):
pattern = []
for j in range((len(facs)-1)):
pattern.append(i//(2**j)%2)
patterns.append(pattern)
for pattern in patterns:
l1 = [facs[-1]]
l2 = []
for i in range(len(pattern)):
if pattern[i] == 1:
l1.append(facs[i])
else:
l2.append(facs[i])
```

So I basically create a list of length `2^(len(facs)-1)`

and fill it with every possible combination of ones and zeros. I then 'overlay' every pattern with `facs`

, except for the last element of `facs`

which is always in `l1`

, as I'd otherwise get every result twice, as I handle two lists the same, no matter what lists is `l1`

or `l2`

.

Is there a faster and more elegant (shorter/more pythonic) way to do this?

matters. You probably want all combinations. In other words, you're treating your list like sets. – Praveen Nov 20 '16 at 22:00