Adding a type annotation to an expression as in
e :: type
makes the compiler check that
e has that
type, as well as use that
type to drive type variables instantiation and instance selection. However, if the
type is polymorphic it can still be instantiated later on. Consider e.g.
(id :: a -> a) "hello"
a will be instantiated to
String, despite my annotation. Further,
foo :: Int -> Int
foo = (id :: a -> a)
a to be instantiated to
Int later on. The above
id annotation does not give any information to GHC: it already knows that
id has that type.
We could remove it without affecting the type checking at all. That is, the expressions
id :: a->a are not only dynamically equivalent, but also statically such.
Similarly, the expressions
putStrLn . show
(putStrLn . show) :: Show x => x -> IO ()
are statically equivalent: we are just annotating the code with the type GHC can infer. In other words, we are not providing any information to GHC it does not already know.
After the annotation is type checked, GHC can then instantiate
x further. The monomorphism restriction does that in your example. To prevent that, use an annotation for the binding you are introducing, not for the expression:
myprint :: Show x => x -> IO ()
myprint = (putStrLn . show)