The short answer is that type inference doesn't always work with higher-rank types. In this case, it is unable to infer the type of `(.)`

, but it type checks if we add an explicit type annotation:

```
> :m + Control.Monad.ST
> :set -XRankNTypes
> :t (((.) :: ((forall s0. ST s0 a) -> a) -> (a -> forall s1. ST s1 a) -> a -> a) runST return) $ True
(((.) :: ((forall s0. ST s0 a) -> a) -> (a -> forall s1. ST s1 a) -> a -> a) runST return) $ True :: Bool
```

The same problem also happens with your first example, if we replace `($)`

with our own version:

```
> let app f x = f x
> :t runST `app` (return `app` True)
<interactive>:1:14:
Couldn't match expected type `forall s. ST s t0'
with actual type `m0 t10'
Expected type: t10 -> forall s. ST s t0
Actual type: t10 -> m0 t10
In the first argument of `app', namely `return'
In the second argument of `app', namely `(return `app` True)'
```

Again, this can be solved by adding type annotations:

```
> :t (app :: ((forall s0. ST s0 a) -> a) -> (forall s1. ST s1 a) -> a) runST (return `app` True)
(app :: ((forall s0. ST s0 a) -> a) -> (forall s1. ST s1 a) -> a) runST (return `app` True) :: Bool
```

What is happening here is that there is a special typing rule in GHC 7 which only applies to the standard `($)`

operator. Simon Peyton-Jones explains this behavior in a reply on the GHC users mailing list:

This is a motivating example for type inference that can deal with
impredicative types. Consider the type of `($)`

:

```
($) :: forall p q. (p -> q) -> p -> q
```

In the example we need to instantiate `p`

with `(forall s. ST s a)`

, and that's what
impredicative polymorphism means: instantiating a type variable with a
polymorphic type.

Sadly, I know of no system of reasonable complexity that can typecheck
[this] unaided. There are plenty of complicated systems, and I have
been a co-author on papers on at least two, but they are all Too
Jolly Complicated to live in GHC. We did have an implementation of
boxy types, but I took it out when implementing the new typechecker.
Nobody understood it.

However, people so often write

```
runST $ do ...
```

that in GHC 7 I implemented a special typing rule, just for infix uses of `($)`

. Just think of `(f $ x)`

as a new
syntactic form, with the obvious typing rule, and away you go.

Your second example fails because there is no such rule for `(.)`

.

`($)`

could be given a depedently typed signature as`($) : forall (a : *) (b : a -> *) . ((x : a) -> b x) -> (x : a) -> b x`

it would work without GHC tricks, and similarly for`(.)`

.