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I've been playing around with Scala code and have come up against a compiler error which I don't understand. The code generates a vector of pairs of Ints and then tries to filter it.

val L = for (x <- (1 to 5)) yield (x, x * x) 
val f = (x: Int, y: Int) => x > 3

The compiler complains about trying to use f as an argument for the filter method with the compiler error message being:

error: type mismatch;
found   : (Int, Int) => Boolean
required: ((Int, Int)) => Boolean

How do I define the function f correctly to satisfy the required function type? I tried to add extra parentheses around (x: Int, y: Int) but this gave:

error: not a legal formal parameter
   val f = ((x: Int, y: Int)) => x > 3
share|improve this question
This issue is an argument for removing the distinction between argument lists and tuples. That is, right now, the (x,y) in f(x,y) is a different sort of thing than the bare (x,y) itself. Unfortunately, it's technically nontrivial to remove this distinction. – Rex Kerr Nov 15 '11 at 14:23

3 Answers 3

up vote 13 down vote accepted

f has type Function2[Int, Int, Boolean]. L's type is IndexedSeq[Tuple2[Int, Int]] and so filter expects a function of type Function1[Tuple2[Int, Int], Boolean]. Every FunctionN[A, B, .., R] trait has a method tupled, which returns a function of type Function1[TupleN[A, B, ..], R]. You can use it here to transform f to the type expected by L.filter.

> Vector((4,16), (5,25))

Alternatively you can redefine f to be a Function1[Tuple2[Int, Int], Boolean] as follows and use it directly.

val f = (t: (Int, Int)) => t._1 > 3
> Vector((4,16), (5,25))
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val f = (xy: (Int, Int)) => xy._1 > 3
println (L.filter (f))

If you do

val f = (x: Int, y: Int) => x > 3

you define a function which takes two ints, which is not the same as a function which takes a pair of ints as parameter.


scala> val f = (x: Int, y: Int) => x > 3
f: (Int, Int) => Boolean = <function2>

scala> val f = (xy: (Int, Int)) => xy._1 > 3
f: ((Int, Int)) => Boolean = <function1>
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If you don't want to rewrite your function to explicitely useing Tuple2 (as suggested by missingfaktor and user unknown), you can define a implicit method to do it automatically. This lets the function f untouched (you aren't forced to always call it with a Tuple2 parameter) and easier to understand, because you still use the identifiers x and y.

implicit def fun2ToTuple[A,B,Res](f:(A,B)=>Res):((A,B))=>Res = 
  (t:(A,B)) => f(t._1, t._2)
val L = for (x <- (1 to 5)) yield (x, x * x)
val f = (x: Int, y: Int) => x > 3
val g = (x: Int, y: Int) => x % 2 > y % 3
L.filter(f)    //> Vector((4,16), (5,25))
L.filter(g)    //> Vector((3,9))
f(0,1)         //> false
f((4,2))       //> true

Now every Function2 can also be used as a Function1 with an Tuple2 as parameter, because it uses the implicit method to convert the function if needed.

For functions with more than two parameters the implicit defs looks similiar:

implicit def fun3ToTuple[A,B,C,Res](f:(A,B,C)=>Res):((A,B,C))=>Res = 
  (t:(A,B,C)) => f(t._1, t._2, t._3)
implicit def fun4ToTuple[A,B,C,D,Res](f:(A,B,C,D)=>Res):((A,B,C,D))=>Res = 
  (t:(A,B,C,D)) => f(t._1, t._2, t._3, t._4)
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