`(->)`

is often called the "function arrow" or "function type constructor", and while it does have some special syntax, there's not *that* much special about it.

It's essentially an infix type operator. Give it two types, and it gives you the type of functions between those types. Just like `2 + 3`

is syntactic sugar for `(+) 2 3`

, so is `from -> to`

syntactic sugar for `(->) from to`

. You can think of it like `Function from to`

if the symbols are confusing.

In other words, the instance you mentioned can be read as

```
instance Monad (Function from) where ...
```

which makes it clear that we're talking about functions which take arguments of some arbitrary (but fixed) type. In fact, this monad instance is found in Control.Monad.Instances and it is essentially the same as the Reader monad.

Looking at the source, it's really quite simple:

```
instance Monad ((->) r) where
return = const
f >>= k = \ r -> k (f r) r
```

The trivial values given by `return`

ignore the argument, and the `(>>=)`

operator distributes the argument `r`

to both sides.

It's also interesting to note that in the corresponding `Applicative`

instance for functions, `pure`

and `(<*>)`

correspond to the K and S combinators of the SKI combinator calculus.

`(->)`

is also generalized by the Arrow type class. An introduction to arrows can be found here.

Finally, note that the symbol `->`

also appears in other more or less unrelated parts of the syntax, including lambda abstractions `\x -> ...`

, case expressions `case ... of x -> ...`

, etc. The reverse symbol `<-`

also occurs in several unrelated contexts. Don't confuse those with the function arrow.

`instance Monad ((->) r)`

.`(->)`

takes two type arguments, while`Monad`

is for types that take only one, so you need to partially apply it first. – hammar Feb 3 '12 at 22:36