I'm just puzzled with this one, it's a Haskell loop-sort-of-thing which I can't figure out how to write. Basically, I've defined three functions split, riffle and shuffle.
split :: [a] -> ([a],[a]) split xs = splitAt (length xs `div` 2) xs riffle :: [a] -> [a] -> [a] riffle xs  = xs riffle  ys = ys riffle (x:xs) (y:ys) = x:y:riffle xs ys shuffle :: Int -> [a] -> [a] shuffle 0 xs = xs shuffle n xs = shuffle (n-1) (riffle a b) where (a, b) = split xs
Basically split just splits a list in half, riffle is supposed to 'interlace' two lists, so for example:
riffle [1,2,3] [4,5,6] = [1,4,2,5,3,6]
And shuffle is to iterate the amount of splitting and riffling of the list items. Now I need to define a function repeats which outputs how many iterations of shuffle would it take to get the original list again. The function is defined as such:
repeats :: [Int] -> Int
I'm just stuck as to how you can perform a loop over the shuffle... I think it has something to do with list comprehension but I couldn't get anything. I have yet to try a lambda expression but I don't think it's necessary. By the way, the shuffle should be done on lists with even number of items. Any ideas?