This produces an anonymous function, as you would expect (f is a function with three arguments):

f(_, _, _)

What I don't understand is why this doesn't compile, instead giving a "missing parameter type" error:

f(_, _, 27)

Instead, I need to specify the types of the underscores explicitly. Shouldn't Scala be able to infer them given that it knows what the function f's parameter types are?

  • 4
    Can you give an actual code example of what you are trying to do? You say this "doesn't compile" - in what context? Mar 2, 2010 at 12:42
  • Thanks for your answer. I'm not actually using this sort of code fragment in practice but I came across the problem simply while playing with Scala's placeholder syntax. The latter part of your answer pretty much describes what I was trying to do.
    – vt.
    Mar 2, 2010 at 13:26
  • 3
    Seems like a arbitrary limitation of the type inferencer implementation. The truth lies somewhere in here: lampsvn.epfl.ch/trac/scala/browser/scala/trunk/src/compiler/…
    – retronym
    Mar 2, 2010 at 13:30
  • @vt - don't feel you can't upvote me just because I didn't answer the question! Pfft :-) Mar 2, 2010 at 13:40

4 Answers 4


References below are to the Scala Language Specification

Consider the following method:

def foo(a: Int, b: Int) = 0

Eta Expansion can convert this to a value of type (Int, Int) => Int. This expansion is invoked if:

a) _ is used in place of the argument list (Method Value (§6.7))

val f = foo _

b) the argument list is omitted, and expected type of expression is a function type (§6.25.2):

val f: (Int, Int) => Int = foo

c) each of the arguments is _ (a special case of the 'Placeholder Syntax for Anonymous Functions' (§6.23))

val f = foo(_, _)   

The expression, foo(_, 1) doesn't qualify for Eta Expansion; it just expands to (a) => foo(a, 1) (§6.23). Regular type inference doesn't attempt to figure out that a: Int.

  • 10
    "Regular type inference doesn't attempt to figure out that a: Int.". And may I ask, Why ?! Oct 11, 2012 at 16:42
  • 3
    Type inference of anon function parameters, e.g. the a in (a) => foo(a, 1), is only based on the expected type, not on the usages of the parameter in the body of the function.
    – retronym
    Oct 12, 2012 at 7:30
  • 1
    I guess what you're asking, though, is could the rules be changed so that foo(_, 1) is expanded to (a: Int) => foo(a, 1), perhaps assuming that there is only one overload of foo that matches the arity and the other arguments. While it sounds easy enough, I think it would add significant additional complexity to the spec and implementation.
    – retronym
    Oct 12, 2012 at 7:33

If you are thinking about partial application, I thought that this was only possible with multiple parameter lists (whereas you only have one):

def plus(x: Int)(y: Int) = x + y //x and y in different parameter lists

val plus10 = plus(10) _ //_ indicates partial application

println(plus10(2)) //prints 12

Your example is interesting though as I was completely unaware of the syntax you describe and it appears you can have partial application with a single parameter list:

scala> def plus2(x: Int, y: Int) = x + y
plus2: (x: Int,y: Int)Int

scala> val anon = plus2(_,_)
anon: (Int, Int) => Int = <function2>

scala> anon(3, 4)
res1: Int = 7

So the compiler can clearly infer the type Int!

scala> val anon2 = plus2(20,_)
<console>:5: error: missing parameter type for expanded function ((x$1) => plus2(20, x$1))
       val anon2 = plus2(20,_)

Hmmm, strange! I don't seem to be able to do partial application with a single parameter list. But then if I declare the type of the second parameter, I can have partial application!

scala> val anon2 = plus2(20,_: Int)
anon2: (Int) => Int = <function1>

scala> anon2(24)
res2: Int = 44

EDIT - one thing I would observe is that it seems like the following two shortenings are equivalent, in which case it's a bit more obvious that this is not a "partial application" but more like a "function pointer"

val anon1 = plus2(_,_)
val anon2 = plus2 _
  • 3
    val f = foo(_, _) expands to val f = (a, b) => foo(a, b), it isn't precisely the same as partially applying a curried function.
    – retronym
    Mar 2, 2010 at 13:32
  • But it seems to have the same effect, you must admit. And if the compiler can infer types with 2 _ placeholders, why does it have trouble when there is only one? Mar 2, 2010 at 13:39
  • 2
    To answer that question, you could debug through Infer.scala in the compiler :) I agree, it seems like an unnecessary limitation, but scala's type inference is intentionally omitted from the spec to allow such wiggle room.
    – retronym
    Mar 2, 2010 at 14:24
  • 3
    Partial application does not require curried methods, it is applicable to any method or function. Mar 2, 2010 at 14:34
  • @Randall - indeed! I was not aware of this before this question came up Mar 2, 2010 at 14:43

I think it is because overloading makes it impossible for the compiler to infer the types:

scala> object Ashkan { def f(a:Int,b:Int) = a; def f(a:Int,b:String) = b; }
defined object Ashkan

scala> Ashkan.f(1,2)
res45: Int = 1

scala> Ashkan.f(1,"Ashkan")
res46: String = Ashkan

scala> val x= Ashkan.f _
<console>:11: error: ambiguous reference to overloaded definition,
both method f in object Ashkan of type (a: Int, b: String)String
and  method f in object Ashkan of type (a: Int, b: Int)Int
match expected type ?
       val x= Ashkan.f _

scala> val x= Ashkan.f(_,_)
<console>:11: error: missing parameter type for expanded function ((x$1, x$2) => Ashkan.f(x$1, x$2))
       val x= Ashkan.f(_,_)
<console>:11: error: missing parameter type for expanded function ((x$1: <error>, x$2) => Ashkan.f(x$1, x$2))
       val x= Ashkan.f(_,_)

scala> val x= Ashkan.f(_,"Akbar")
<console>:11: error: missing parameter type for expanded function ((x$1) => Ashkan.f(x$1, "Akbar"))
       val x= Ashkan.f(_,"Akbar")

scala> val x= Ashkan.f(1,_)
<console>:11: error: missing parameter type for expanded function ((x$1) => Ashkan.f(1, x$1))
       val x= Ashkan.f(1,_)

scala> val x= Ashkan.f(1,_:String)
x: String => String = <function1>

I feel this is one of those border cases arising from all the code conversion, since this involves the creation of an anonymous function which directs the call to the original method. The type is for the argument of the outer anonymous function. In-fact, you can specify any sub-type i.e

val f = foo(_: Nothing, 1) 

even this would compile

  • 4
    Yes, but you cannot call that function, because the argument must be of that subtype. Hence my downvote. Feb 21, 2012 at 9:22

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