Haskell wiki page on Rank-N-Types tells that this type

```
forall a . a -> (forall b . b -> a)
```

has Rank 1. I believe in this fact and it seems quite understandable for me (keeping in mind what I already know about how to determine rank of function). However, when I'm trying to write next code:

```
{-# LANGUAGE ExplicitForAll #-}
foo :: forall a . a -> (forall b . b -> a)
foo = undefined
```

it doesn't compile (ghc 8.0.1) resulting in next error:

```
• Illegal polymorphic type: forall b. b -> a
Perhaps you intended to use RankNTypes or Rank2Types
• In the type signature:
foo :: forall a. a -> (forall b. b -> a)
```

So I wonder: does `foo`

type really have Rank-2? Or GHC just doesn't have some smart mechanism to detect true rank of function? Sometimes in educational purposes I want to have some `ghci`

command like `rank`

to inspect true ranks of function types...

```
ghci> :rank foo
foo :: forall a . a -> (forall b . b -> a) -- Rank 1
```

`forall`

is not a reserved symbol. To use it as an explicit quantifier requires one of those two language extensions, even if the types you want to write are rank 1. Rank 1 types usually have an equivalent form where the quantifiers can be left implicit, hence this issue: the expectation is that you switch on explicit`forall`

only if you want to go higher than rank 1, where you really need it. – pigworker Dec 18 '16 at 16:48`-XExplicitForAll`

. I just expected this extension to work as something like hypothetical`-XRank1Types`

where all`forall`

's should be lifted if possible. Apparently, latest ghc user guide doesn't have a word about such behaviour: downloads.haskell.org/~ghc/latest/docs/html/users_guide/… – Shersh Dec 18 '16 at 17:04