I'm interested to know if there is a standard library function that does this that I just can't find.

It's easy to miss because of the type class, but look at `Control.Arrow`

. Plain `Arrow`

s can't be curried or applied, so the `Arrow`

combinators are pointfree by necessity. If you specialize them to `(->)`

, you'll find the one you want is this:

```
(&&&) :: (Arrow a) => a b c -> a b c' -> a b (c, c')
```

There are other, similar functions, such as the equivalent operation for `Either`

, which specialized to `(->)`

looks like this:

```
(|||) :: (a -> c) -> (b -> c) -> Either a b -> c
```

Which is the same as `either`

.

Out of curiosity, I'd like to rewrite this function in point-free style, but I'm having a lot of trouble with it.

Since you're duplicating an input, you need some way of doing that pointfree--the most common way is via the `Applicative`

or `Monad`

instance for `(->)`

, for example `\f g -> ``(,)`

<$> f <*> g

. This is essentially an implicit, inline `Reader`

monad, and the argument being split up is the "environment" value. Using this approach, `join f x`

becomes `f x x`

, `pure`

or `return`

become `const`

, `fmap`

becomes `(.)`

, and `(<*>)`

becomes the S combinator `\f g x -> f x (g x)`

.