I'm not too knowledgeable about complexity, but here's my idea.
For even length lists:
(For our odd length example,
put 30 aside to make the list even)
1. Split the list into chunks of 2 => [[12,49],[6,10],[50,13]]
2. Sort each chunk => [[12,49],[6,10],[13,50]]
3. Reverse-sort the chunks by
comparing the last element of
one to the first element of
the second => [[12,49],[13,50],[6,10]]
For odd length lists:
4. Place the removed first element in
the first appropriate position => [30,12,49,13,50,6,10]
Haskell code:
import Data.List (sortBy)
import Data.List.Split (chunksOf)
rearrange :: [Int] -> [Int]
rearrange xs
| even (length xs) = rearrangeEven xs
| null (drop 1 xs) = xs
| otherwise = place (head xs) (rearrangeEven (tail xs))
where place x (y1:y2:ys)
| (x < y1 && y1 > y2) || (x > y1 && y1 < y2) = (x:y1:y2:ys)
| otherwise = place' x (y1:y2:ys)
place' x (y1:y2:ys)
| (x < y1 && x < y2) || (x > y1 && x > y2) = (y1:x:y2:ys)
| otherwise = y1 : (place' x (y2:ys))
rearrangeEven = concat
. sortBy (\a b -> compare (head b) (last a))
. map sort
. chunksOf 2
Output:
*Main> rearrange [30,12,49,6,10,50,13]
[30,12,49,13,50,6,10]
*Main> rearrange [1,2,3,4]
[3,4,1,2]
O(n!)
complexity...