There's no way of doing what you have asked for without writing your own version of `permutations`

.

Consider this:

- We have a generator object containing the result of
`permutations`

.
- We have written our own function to tell us the length of the generator.
- We then pick an entries at random between the beginning of the list and the end.

Since I have a generator if the random function picks an entry near the end of the list the only way to get to it will be to go through all the prior entries and either throw them away, which is bad, or store them in a list, which you have pointed out is problematic when you have a lot of options.

Are you going to loop through every permutation or use just a few? If it's the latter it would make more sense to generate each new permutation at random and store then ones you've seen before in a `set`

. If you don't use that many the overhead of having to create a new permutation each time you have a collision will be pretty low.

`def colls(list):\ p = permutations(list)\ n = 0\ for i in p: n += 1\ colls = 0\ j = []\ k = list[:]\ j.append(k)\ for i in range(n):\ random.shuffle(list)\ k = list[:]\ if k in j:\ colls += 1\ else:\ j.append(k)\ return "Percentage of collisions: %.2f" % ((float(colls) / n) * 100)`

– Alex Apr 9 '11 at 17:03