First of all, your type signature is completely messed up. It must either be absent or be of the form
spanString :: <some type>. Even if we ignore the
(c, [s]) standing before the double colon, the rest is still something strange. One can read it as "a function taking values of type
(c, [s]) to values of type
 for any c and s" (c and s are type variables). First, there is no type
 in Haskell. There is not going be a list type without its element type. Next, we can't work with any
s. We must be able to compare them, right?
Actually, let's avoid using polymorphism for now and specify exactly which types we want. We want a character and a list of characters, packed up into a tuple for some reason:
(Char, [Char]). Note that
Char starts with a capital letter, which means it's not a type variable, but rather a concrete type. What about our result type? If you trust the problem description, you need to return a list of characters (
[Char]), but if you look at the code, it obviously returns tuples of lists (
([Char], [Char])). Okay, maybe the second list is useful, let's leave it for now:
spanString :: (Char, [Char]) -> ([Char], [Char])`
Now your code compiles.
However, when run, it crashes with exception:
Non-exhaustive patterns in function spanString. This is because you don't handle the case when the passed list is empty. If you do that, by adding an equation like
spanString (_, ) = (, )
, your function runs well, but now let's look at what it does. It turns out you have a function for list partitioning: it returns all characters of the given string less than
c as the first element of the tuple and all other characters as the second element. Seems like a bug to me (you've implemented a completely different function!).