## Using @t as a type indicator

Besides the argument pattern matching usage described in the answer of @Sibi, in Haskell the "at" character ('@', also known as an arobase character) can be used in some contexts to **force a typing decision**. This is mentioned in the comments by @Josh.F.

This is **not** part of the default language features, and is known as the Type Application Haskell language extension. In summary, the extension allows you to give explicit type arguments to a polymorphic function such as `read`

. In a classic .hs source file, the relevant pragma must be included:

```
{-# LANGUAGE TypeApplications #-}
```

## Example:

```
$ ghci
GHCi, version 8.2.2: http://www.haskell.org/ghc/ :? for help
λ>
λ> let x = (read @Integer "33")
<interactive>:4:10: error:
Pattern syntax in expression context: read@Integer
Did you mean to enable TypeApplications?
λ>
λ> :set -XTypeApplications
λ>
λ> let x = (read @Integer "33")
λ>
λ> :type x
x :: Integer
λ>
λ> x
33
λ>
```

## Further details

For the `read`

polymorphic function, the type indicator introduced by `@`

relates to the type of the result returned by `read`

. But this is **not** generally true.

Generally speaking, you have to consider the type variables that appear in the *type signature* of the function at hand. For example, let's have a look at the `fmap`

library function.

```
fmap :: Functor ft => (a -> b) -> ft a -> ft b
```

So here, we have 3 type variables, in order of appearance: ft, a, b. If we specialize `fmap`

like this:

```
myFmap = fmap @type1 @type2 @type3
```

then `type1`

will relate to `ft`

, `type2`

will relate to `a`

and `type3`

will relate to `b`

. Also, there is a special dummy type indicator `@_`

which means: “*here, any type goes*”.

For example, we can force the output type of `fmap`

to be `Integer`

and the functor to be the plain list `[]`

, leaving the input type `a`

unspecified:

```
λ>
λ> myFmap = fmap @[] @_ @Integer
λ>
λ> :type myFmap
myFmap :: (_ -> Integer) -> [_] -> [Integer]
λ>
```

As for the `read`

function, its type is:

```
read :: Read a => String -> a
```

So there is only room for one type indicator, and it relates to the type of the result returned by `read`

, as displayed above.