Consider the following code,

```
data MyBaseExpr α where
ConstE :: Show α => α -> MyBaseExpr α
class Monad 𝔪 => MyMonadCls 𝔪 where
type ExprTyp 𝔪 :: * -> *
var :: String -> ExprTyp 𝔪 α -> 𝔪 (ExprTyp 𝔪 α)
expTypArg :: forall 𝔪 α. MyMonadCls 𝔪 => ExprTyp 𝔪 α -> 𝔪 α
expTypArg a = undefined
-- dummy type which will be used as an instance
newtype A 𝔪 α = A (𝔪 α)
```

Then, if one tries to write an instance using the expTypeArg function,

```
instance forall 𝔪. (Monad 𝔪, Monad (A 𝔪)) => MyMonadCls (A 𝔪) where
type ExprTyp (A 𝔪) = MyBaseExpr
var nme init@(expTypArg -> typb) =
return init
```

the compiler complains

```
Couldn't match type `ExprTyp 𝔪0' with `MyBaseExpr'
Expected type: ExprTyp (A 𝔪) α
Actual type: ExprTyp 𝔪0 α
```

But, if one adds some scoped type expressions,

```
instance forall 𝔪. (Monad 𝔪, Monad (A 𝔪)) => MyMonadCls (A 𝔪) where
type ExprTyp (A 𝔪) = MyBaseExpr
var nme init@((expTypArg :: MyMonadCls (A 𝔪) =>
ExprTyp (A 𝔪) α ->
(A 𝔪 α)) -> typb) =
return init
```

then it resolves fine. What's the problem resolving `ExprTyp == MyBaseExpr`

for `expTypArg`

?

## edit

Thanks very much, Daniel! Here's a way to take some of the verbage out, after noticing that only the type of `𝔪`

need be enforced.

```
ignore_comp :: 𝔪 α -> 𝔪 β -> 𝔪 β
ignore_comp a b = b
instance forall 𝔪. (Monad 𝔪, Monad (A 𝔪)) => MyMonadCls (A 𝔪) where
type ExprTyp (A 𝔪) = MyBaseExpr
var nme init@(expTypArg -> typb) =
typb `ignore_comp`
return init
```