### Solution

You need the `ScopedTypeVariables`

extension for this to work, like this:

```
{-# LANGUAGE ScopedTypeVariables #-}
f :: forall a. a -> a
f x =
let x' = x :: a
in x'
```

### Explanation

If you have a type signature like this

```
f :: a -> a
```

then it indicates that `f`

is polymorphic and works for any choice of `a`

. So `f`

could be
used at type `Int -> Int`

, or at type `Bool -> Bool`

, or at type `[Int -> Bool] -> [Int -> Bool]`

– whatever you like.

If you have a type annotation like this

```
x :: a
```

it means a similar thing, namely that `x`

should be usable at any type of your choice. But that's not true in your case. The outer function `f`

is polymorphic, but within the function, `x`

has to be of the *same* type `a`

that the user has chosen for the outer `x`

. By default, Haskell makes no connection between type variables occurring in different type signatures and annotations. However, you can tell it to do so by enabling the `ScopedTypeVariables`

extension. Now, by prefixing `a -> a`

with `forall a.`

, you can explicitly instruct Haskell to make `a`

visible as a specific type variable within the definition of `f`

. If you then annotate `x :: a`

, it refers to the outer `a`

rather than a new polymorphic `a`

.

`f x = ...`

rather than`let f x = ...`

– kosmikus Mar 16 '14 at 12:08