This is verbose, and I don't necessarily recommend writing such a simple function like this (IMO the pattern matching & recursion is plenty clear). But, here's a pretty declarative pipeline:

```
import Control.Error
import Data.List
deadline :: (Num a, Ord a) => a -> [a] -> a
deadline time = fromMaybe 0 . findDeadline time
findDeadline :: (Num a, Ord a) => a -> [a] -> Maybe a
findDeadline time xs = decayWithDifferences time xs
>>= findIndex (< 0)
>>= atMay xs
decayWithDifferences :: Num b => b -> [b] -> Maybe [b]
decayWithDifferences time = tailMay . scanl (-) time
-- > deadline 6 [4, 1, 5, 6]
-- 5
```

This documents the code a bit and in principle lets you test a little better, though IMO these functions fit more-or-less into the 'obviously correct' category.

You can verify that it matches your implementation:

```
import Test.QuickCheck
prop_equality :: [Int] -> Int -> Bool
prop_equality time xs = test xs time == deadline time xs
-- > quickCheck prop_equality
-- +++ OK, passed 100 tests.
```

imaginethat you have a higher order function which could help solving this problem. what would that higher order function do? can you show us how you would then use it to solve the problem? – Karoly Horvath Sep 26 '13 at 23:38