-XTypeApplications in GHC 8.0, you can specify types explicitly with
@ preceding function arguments. What types does it exactly specify, especially when several
@ are introduced?
If you look at the type of a function
elem :: (Foldable t, Eq a) => a -> t a -> Bool
we see it has two polymorphic variables,
a. These variables are what the
@ type applications specify. It seems that variables introduced in the context — where typeclass constraints go — affect order, and hence the first
@ specifies the
t, and the second the
a. In functions without context variables
const :: a -> b -> a
the order is more obvious, the
a is first and
b is second. As Cactus mentioned in a comment above, you can also use explicit foralls to specify the order yourself.
myConst :: forall b a. a -> b -> a
Now the first type application will specify the
b and the second the
You may run into this problem of needing to specify types particularly if you're using overloaded strings or lists
elem c "abc...xyz" -- What string type is this? elem c ['a' .. 'z'] -- What list constructor is this?
therefore we use explicit type applications
elem @ @Char c ['a' .. 'z']
in this case we only have to specify the
@ and say "this is a
 list type constructor" because GHC infers
Char from the list elements, so
@Char can be omitted here.
If a polymorphic argument GHC is able to infer happens to come first you can leverage
-XPartialTypeSignatures which allows you to use
_ in type signatures including type application signatures, telling GHC to just infer that [part of the] type, to make things less verbose.
f @_ @