Thunk vs Function overload

Question

I want to define an overloaded method, one that accepts a function0, and one that accepts a function1, viz:

def produces(f: Context => Any): Processor = ...

def produces(thunk: => Any): Processor = ...

This compiles fine because the first is compiled to use a Function1 and the second to use a Function0, however the issue arises when I want to invoke, thus:

produces {
 ctx => "hello"
}

Gives me an

missing parameter type

There's only one parameter that accepts an input, so why can't it infer.

Any tips on what I can do to get around this (other than rename one of the methods :))

Answer 1

It's kind of silly-looking, but you can (awkwardly) help out the compiler's search strategy by requiring an implicit conversion for the I-can-take-anything-by-name version:

object Test {
  implicit def low_priority_conversion(t: Test.type) = LowPriority
  object LowPriority {
    def produces(x: => Any) : Boolean = false
  }
  def produces(f: String => Any): Boolean = true
}

Whether you import Test._ or not, you'll find you have the correct behavior:

scala> Test.produces("fish")
res0: Boolean = false

scala> Test.produces(_.length)
res1: Boolean = true

scala> import Test._
import Test._

scala> produces("fish")
res2: Boolean = false

scala> produces(_.length)
res3: Boolean = true

Answer 2

I think the real answer here is, "don't do that"! ;-) The argument you're passing is actually valid for both your functions. The only reason you got an error rather than having the compiler silently call the "wrong"/unexpected function is because it couldn't infer the type for ctx (which is only because Scala's type inferrer doesn't support unification (yet)).

Basically, your problem is that Any is a supertype of Context => Any.

If you really want to name both functions the same, an alternative is to make one of them take a thunk as an argument rather than a pass-by-name Any. (But then you'd need to thunk any arguments you want to pass to the thunk version rather than having it implicitly evaluated lazily.)

For example:

scala> object Test {
     | def produces(f: String => Any): Boolean = true
     | def produces(x: () => Any): Boolean = false
     | }
defined object Test

scala> Test.produces(x => 5)
res9: Boolean = true

scala> Test.produces(5)
<console>:12: error: overloaded method value produces with alternatives:
  (x: () => Any)Boolean <and>
  (f: String => Any)Boolean
 cannot be applied to (Int)
       Test.produces(5)
            ^

scala> Test.produces(() => 5)
res11: Boolean = false