I've been trying to learn a bit of functional programming (with Haskell & Erlang) lately and I'm always amazed at the succinct solutions people can come up with when they can think recursively and know the tools.
I want a function to convert a list of sorted, unique, non-contiguous integers into a list of contiguous lists, i.e:
[[1,2,3], [6,7,8], [10,11]
This was the best I could come up with in Haskell (two functions)::
make_ranges :: [[Int]] -> [Int] -> [[Int]] make_ranges ranges  = ranges make_ranges  (x:xs) | null xs = [[x]] | otherwise = make_ranges [[x]] xs make_ranges ranges (x:xs) | (last (last ranges)) + 1 == x = make_ranges ((init ranges) ++ [(last ranges ++ [x])]) xs | otherwise = make_ranges (ranges ++ [[x]]) xs rangify :: [Int] -> [[Int]] rangify lst = make_ranges  lst
It might be a bit subjective but I'd be interested to see a better, more elegant, solution to this in either Erlang or Haskell (other functional languages too but I might not understand it.) Otherwise, points for just fixing my crappy beginner's Haskell style!