# How do I get (a, b) => c from a => b => c in Scala?

If I have:

``````val f : A => B => C
``````

This is shorthand for:

``````val f : Function1[A, Function1[B, C]]
``````

How do I get a function `g` with the signature:

``````val g : (A, B) => C = error("todo")
``````

(i.e.)

``````val g : Function2[A, B, C] //or possibly
val g : Function1[(A, B), C]
``````

in terms of `f`?

-

``````scala> val f : Int => Int => Int = a => b => a + b
f: (Int) => (Int) => Int = <function1>

scala> Function.uncurried(f)
res0: (Int, Int) => Int = <function2>
``````
-
Odd that there is no `uncurried` method on `FunctionN` itself? –  oxbow_lakes Aug 11 '10 at 10:59
To have an uncurried method on Function1, you would need to limit the acceptable targets of it to functions that return functions. That is to say functions with type Function1[A, Function1[B, C]]. That could probably be done with generalized type constraints, but those weren't available until Scala 2.8. –  Dave Griffith Aug 11 '10 at 13:32

``````val f : Int => Int => Int = a => b => a + b
val g: (Int, Int) => Int = Function.uncurried(f)
val h: ((Int, Int)) => Int = Function.tupled(g)
``````

The converse functions for both of these operations are also provided on the Function object, so you could write the above backwards, if you wished

``````val h: ((Int, Int)) => Int =  x =>(x._1 + x._2)
val g: (Int, Int) => Int = Function.untupled(h)
val f : Int => Int => Int = g.curried  //Function.curried(g) would also work, but is deprecated. Wierd
``````
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Just to round out the answer, although there is a library method to do this, it may also be instructive to do it by hand:

``````scala> val f = (i: Int) => ((s: String) => i*s.length)
f: (Int) => (String) => Int = <function1>

scala> val g = (i: Int, s: String) => f(i)(s)
g: (Int, String) => Int = <function2>
``````

Or in general,

``````def uncurry[A,B,C](f: A=>B=>C): (A,B)=>C = {
(a: A, b: B) => f(a)(b)
}
``````
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