# Is it possible to implement flip in Scala like it is implemented in Haskell?

Is it possible to implement flip in Scala like it is implemented in Haskell?

http://hackage.haskell.org/package/base-4.7.0.1/docs/src/GHC-Base.html#flip

``````flip                    :: (a -> b -> c) -> b -> a -> c
flip f x y              =  f y x
``````

## 2 Answers

Another way, more closer to Haskell version:

``````scala> def flip[a, b, c]: (a => b => c) => b => a => c = f => x => y => f(y)(x)
flip: [a, b, c]=> (a => (b => c)) => (b => (a => c))

scala> val f: Int => Char => String = i => c => f"Int(\$i) and Char(\$c)"
f: Int => (Char => String) = <function1>

scala> val g = flip(f)
g: Char => (Int => String) = <function1>
``````

Or this:

``````scala> def flip[a, b, c]: (a => b => c) => b => a => c = {
|   case f => x => y => f(y)(x)
| }
flip: [a, b, c]=> (a => (b => c)) => (b => (a => c))

scala> g('a')(100)
res0: String = Int(100) and Char(a)

scala> f(100)('a')
res1: String = Int(100) and Char(a)
``````

Well, this is a fairly literal translation:

``````def flip[A, B, C](f: A => B => C)(x: B)(y: A) = f(y)(x)
``````

Now you can write the following:

``````scala> def append: String => String => String = a => a + _
append: String => (String => String)

scala> append("foo")("bar")
res0: String = foobar

scala> val flipped = flip(append) _
flipped: String => (String => String) = <function1>

scala> flipped("foo")("bar")
res1: String = barfoo
``````

You could argue that the following is a little closer to the spirit of the Haskell version:

``````def flip[A, B, C](f: A => B => C): B => A => C = x => y => f(y)(x)
``````

Now you don't have to eta-expand the partially-applied method:

``````scala> val flipped = flip(append)
flipped: String => (String => String) = <function1>

scala> flipped("foo")("bar")
res2: String = barfoo
``````

So you've got a couple of choices. It's not really clear that one is more like the Haskell implementation, but given the distinction that Scala makes between methods and functions they're both pretty close.

• Thank you very much for the insightful answer Travis! – jhegedus Aug 17 '14 at 16:46