I need to **efficiently** calculate the next permutation of length `k`

from `n`

choices. Wikipedia lists a great
algorithm
for computing the next permutation of length `n`

from `n`

choices.

The best thing I can come up with is using that algorithm (or the Steinhaus–Johnson–Trotter algorithm), and then just only considering the first `k`

items of the list, and iterating again whenever the changes are all above that position.

Constraints:

- The algorithm must calculate the next permutation given nothing more than the current permutation. If it needs to generate a list of all permutations, it will take up too much memory.
- It must be able to compute a permutation of only length
`k`

of`n`

(this is where the other algorithm fails

Non-constraints:

- Don't care if it's in-place or not
- I don't care if it's in lexographical order, or any order for that matter
- I don't care
*too much*how efficiently it computes the next permutation, within reason of course, it can't give me the next permutation by making a list of all possible ones each time.