# Faster permutation generator

I've written a permutation generator for Scala lists that generates all permutations of a given list. So far, I've got the following based on this Haskell implementation (and I think it's more efficient than several other options I've tried). Are there any ways to make this even more efficient, or have I covered all my bases?

``````   /** For each element x in List xss, returns (x, xss - x) */
def selections[A](xss:List[A]):List[(A,List[A])] = xss match {
case Nil => Nil
case x :: xs =>
(x, xs) :: (for( (y, ys) <- selections (xs) )
yield (y, x :: ys))
}

/** Returns a list containing all permutations of the input list */
def permute[A](xs:List[A]):List[List[A]] = xs match {
case Nil => List(Nil)

//special case lists of length 1 and 2 for better performance
case t :: Nil => List(xs)
case t :: u :: Nil => List(xs,List(u,t))

case _ =>
for ( (y,ys) <- selections(xs); ps <- permute(ys))
yield y :: ps
}
``````
-
Is this faster than the array-based swap method? Or do you mean "fastest functional permutation generator"? (You never explicitly say so, but you added the tag....) –  Rex Kerr Jan 4 '11 at 18:14
I do mean the fastest functional permutation generator. For that reason, haven't tried comparing this to the array-based swap method. –  Ken Bloom Jan 4 '11 at 18:26
There are better algorithms. I saw one here on Stack Overflow not long ago, in Scala, which returned the next permutation (assuming a set of indices), instead of a list of all permutations. It used `partition` to find the point of the next index permutation, and generally avoided non-tail recursive calls. Also, of course, Haskell's implementation of the code you have shown would run very fast, because it wouldn't compute anything up-front. :-) –  Daniel C. Sobral Jan 4 '11 at 18:30
I should point out that my interest in this is mostly to elicit optimization tips if there are any. –  Ken Bloom Jan 5 '11 at 3:42

For my use case, it would slow things down to try and eliminate duplicates, because there presumably are no duplicates, and `==` on my objects takes a long time (though the benchmarks I discuss here were performed with a List[Int]). –  Ken Bloom Jan 5 '11 at 5:25