Basically, your type signature says your function may return a value of any type
c given a
MyEither a b, again, for every
b. However, as the compiler points out, it's not possible to produce any such
c here, as you're actually returning a value of type
p :: a).
Furthermore, your definition still do not manage the case in which your
MyEither a b is not a
Left a. What should it do, e.g., when you call
extractEither (MyRight 1)? If you try to run a function like that (after correcting the type signature of course), you may incur in what is called a non-exhaustive pattern exception, meaning there's no body definition for
extractEither to handle some possible input patterns.
If you're trying to write a single function that works both for extracting the
MyLeft and the
MyRight values, I'm afraid you should change your mind. In order to extract whatever, left or right, you should have the same type on both sides (i.e.
MyEither a a), which is not so useful.
You should consider to have functions like these in order to extract values. Here, I return
Maybe to avoid the burden of managing calls to
error when for example you try to extract a left from a right value:
extractMyLeft :: MyEither a b -> Maybe a
extractMyRight :: MyEither a b -> Maybe b
edit: see also dblhelix's answer for a suggestion on another possible refactoring that may be useful to almost obtain the type signature you was looking for.