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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.


  • 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


  • 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.
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I am pretty sure you'll find your answer in the code for the Python itertools module, having a look –  Mr E Feb 2 '13 at 15:57
yeah it's an *.so on mac os x, so i was too lazy to go find the source. guess i should stop being lazy and go do that. –  aaronstacy Feb 2 '13 at 16:13

1 Answer 1

You can break this problem down into two parts:

1) Find all subsets of size k from a set of size n.

2) For each such subset, find all permutations of a subset of size k.

The referenced Wikipedia article provides an algorithm for part 2, so I won't repeat it here. The algorithm for part 1 is pretty similar. For simplicity, I'll describe it for "find all subsets of size k of the integers [0...n-1].

1) Start with the subset [0...k-1]

2) To get the next subset, given a subset S:

2a) Find the smallest j such that j ∈ S ∧ j+1 ∉ S. If j == n-1, there is no next subset; we're done.

2b) The elements less than j form a sequence i...j-1 (since if any of those values were missing, j wouldn't be minimal). If i is not 0, replace these elements with i-i...j-i-1. Replace element j with element j+1.

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