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I'm trying to implement Steinhaus-Johnson-Trotter algorithm for generating permutations. My code is below:

permutations :: [a] -> [[a]]
permutations [] = []
permutations (x:[]) = [[x]]
permutations xs = [ys ++ [xs !! i] | i <- [len,len-1..0], ys <- permutations (delete i xs)]
  where len = (length xs)
        delete i xs = take i xs ++ drop (succ i) xs

This is a direct translation from the Python code:

def perms(A):
    if len(A)==1:
        yield A
    for i in xrange(len(A)-1,-1,-1):
        for B in perms(A[:i]+A[i+1:]):
            yield B+A[i:i+1]

Python code works, but Haskell code enters an infinite recursion. permutations (delete i xs) inside the list comprehension should bring the flow closer to base case. Why does infinite recursion happen?

Edit: @augustss says:

Always beware when you have multiple base cases for a function over lists.

So i changed the base case from

permutations [] = []
permutations (x:[]) = [[x]]

to more simple

permutations [] = [[]]
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Also, your base case is wrong. –  augustss Jun 6 '13 at 17:38
The permutations of an empty list should be [[]]. If you add that you should not have to have a special case for [x]. Always beware when you have multiple base cases for a function over lists. –  augustss Jun 7 '13 at 9:57

1 Answer 1

up vote 3 down vote accepted

Your loops aren't the same.

i <- [len,len-1..0]


for i in xrange(len(A)-1,-1,-1):

The very first case, you're binding i to the length, not the length minus one. The result is that delete i xs returns xs, so you get infinite recursion.

I also have a couple of side notes.

First !! is linear-time. You'd be much better off writing a helper function that combines that !!, the delete, and the iteration over the input into one list traversal. Something like select :: [a] -> [(a, [a])]. You can do that efficiently.

Second, ++ is also linear time. Using it to append a single element to an existing list is slow. If your goal is just to produce all the permutations, rather than a specific ordering of them, you should probably use (xs !! i) : ys as the expression to return. (Suitably modified for any changes made in response to the first point.)

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