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I would like to define a method parameterized with type T that has behavior dependent on what implicit argument can be found of type Box[T]. The following code has this method defined as foo. When called with foo[Int] or foo[String] it will without issue return 1 or "two" as expected.

Where things get weird is with the method bar. It is defined as returning an Int, but instead of foo[Int] I have just foo. My hope was that the compiler would infer that T must be of type Int. It does not do that and instead fails:

bash $ scalac Code.scala 
Types.scala:15: error: ambiguous implicit values:
 both value one in object Main of type => Main.Box[Int]
 and value two in object Main of type => Main.Box[java.lang.String]
 match expected type Main.Box[T]
 def bar: Int = foo
one error found

What is causing this error? Replacing foo with foo[Int] compiles fine. The simpler situation where there is no Box[T] type also compiles fine. That example is also below and uses argle and bargle instead of foo and bar.

object Main extends Application {

  case class Box[T](value: T)

  implicit val one = Box(1)
  implicit val two = Box("two")

  def foo[T](implicit x: Box[T]): T = {

  // does not compile:
  // def bar: Int = foo

  // does compile
  def bar: Int = foo[Int]

  // prints 1

  // the simpler situation where there is no Box type

  implicit val three = 3
  implicit val four = "four"

  def argle[T](implicit x: T): T = x
  def bargle: String = argle

  // prints "four"


What is going on in this snippet that causes this behavior? What about this interaction of implicit arguments, type inference, and erasure is causing problems? Is there a way to modify this code such that the line def foo: Int = bar works?

share|improve this question

Someone else will have to explain why the type inference mechanism cannot handle that case, but if you are looking to cleanup your code you could probably do this:

object Test extends App {

  case class Box[T](value: T)

  implicit val one: Box[Int] = Box(1)
  implicit val two: Box[String] = Box("two")

  def foo[T : Box]: T = implicitly[Box[T]].value  
  val bar = foo[Int]  

Note that:

  1. I removed the type annotation from bar so you are really just indicating the type once (just in a different spot than you wanted)
  2. I am using App instead of deprecated Application
  3. Using a context bound in the type signature of foo
share|improve this answer
I haven't used context bounds before. I'm not sure if that works in my real situation, but it is certainly an interesting tool to be aware of. – toddaaro Jul 4 '12 at 16:05
I tried wrangling context bounds to get my desired behavior and was not able to. My primary goal is to make it so that foo does not need T specified when used as long as it can be inferred. The context bounds do seem cleaner than the second argument list though. – toddaaro Jul 4 '12 at 20:25

This might be related to SI-3346, though there it is implicit arguments to implicit conversions, and here you have a single implicit.

share|improve this answer
Thanks for the pointer. That does seem like it could be related, but I'll have to puzzle over the situation some more. – toddaaro Jul 4 '12 at 16:03

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