Here's the problem at hand: I need to find the largest difference between adjacent numbers in a list using recursion. Take the following list for example: [1,2,5,6,7,9]. The largest difference between two adjacent numbers is 3 (between 2 and 5).
I know that recursion may not be the best solution, but I'm trying to improve my ability to use recursion in Haskell.
Here's the current code I currently have:
largestDiff (x:y:xs) = if (length (y:xs) > 1) then max((x-y), largestDiff (y:xs)) else 0
Basically - the list will keep getting shorter until it reaches 1 (i.e. no more numbers can be compared, then it returns 0). As 0 passes up the call stack, the max function is then used to implement a 'King of the Hill' type algorithm. Finally - at the end of the call stack, the largest number should be returned.
Trouble is, I'm getting an error in my code that I can't work around:
Occurs check: cannot construct the infinite type: t1 = (t0, t1) -> (t0, t1) In the return type of a call of `largestDiff' Probable cause: `largestDiff' is applied to too few arguments In the expression: largestDiff (y : xs) In the first argument of `max', namely `((x - y), largestDiff (y : xs))'
Anyone have some words of wisdom to share?
Thanks for your time!
EDIT: Thanks everyone for your time - I ended up independently discovering a much simpler way after much trial and error.
largestDiff  = error "List too small" largestDiff [x] = error "List too small" largestDiff [x,y] = abs(x-y) largestDiff (x:y:xs) = max(abs(x-y)) (largestDiff (y:xs))
Thanks again, all!