Much to my surprise, the compiler reported a type of
'a list -> int list
In other words, this sort function accepts a list of any type at all and returns a list of integers.
That is impossible. The output must be a permutation of the input; how can it possibly have a different type? The reader will surely find my first impulse familiar: I wondered if I had uncovered a bug in the compiler!
After thinking about it some more, I realized that there was another way in which the function could ignore its argument: perhaps it sometimes didn't return at all. Indeed, when I tried it, that is exactly what happened:
nil, but sorting any non-empty list would go into an infinite recursion loop.
When translated to Haskell
split  = (, ) split [x] = ([x], ) split (x:y:xs) = (x:s1, y:s2) where (s1,s2) = split xs merge xs  = xs merge  ys = ys merge xx@(x:xs) yy@(y:ys) | x < y = x : merge xs yy | otherwise = y : merge xx ys mergesort  =  mergesort xs = merge (mergesort p) (mergesort q) where (p,q) = split xs
GHC infers a similar type:
*Main> :t mergesort mergesort :: (Ord a) => [t] -> [a]
How does the Damas–Hindley–Milner algorithm infer this type?