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Consider the following code, derived from the metascala project:

object Units {
  case class Quantity[M <: MInt, T: Numeric](value: T) {
    type This = Quantity[M, T]

    def *[M2 <: MInt](m: Quantity[M2, T]) = 
      Quantity[M + M2, T](numeric[T].times(value, m.value))
    def /[M2 <: MInt](m: Quantity[M2, T]) = 
      Quantity[M - M2, T](numeric[T].div(value, m.value))
    def apply(v: T) = Quantity[M, T](numeric[T].times(v, value))
  }

  implicit def measure[T: Numeric](v: T) = Quantity[_0, T](v)

  implicit def numericToQuantity[T: Numeric](v: T) = 
    new QuantityConstructor[T](v)

  class QuantityConstructor[T: Numeric](v: T) {
    def m = Quantity[_1, T](v)
  }
}

(the MInt is basically the implementation of peano numbers where _0, _1 are concrete "values" from metascala. Tell me if you need additional code, I just didn't want to paste everything in here.)

I want to support code where some existing Quantity can be multiplied by a simple number, e. g.

import Units._

val length1 = 5  * (5 m) //doesn't work <-----
val length2 = (5 m) * 5  // works

Why is the implicit method measure not considered in the first line of code as I have assumed?

Instead I get this error message:

overloaded method value * with alternatives:
   (x: Double)Double <and>
   (x: Float)Float <and>
   (x: Long)Long <and>
   (x: Int)Int <and>
   (x: Char)Int <and>
   (x: Short)Int <and>
   (x: Byte)Int  cannot be applied to 
(scalax.units.Units3.Quantity[scalax.units.Integers._1,Int])

I'm using Scala 2.10-trunk.

This is actually the follow up to How does ‘1 * BigInt(1)’ work and how can I do the same?.

share|improve this question
    
Where are you defining implicit def measure? What version of Scala? For this to work, the definition of measure must be in either the local scope or the implicit scope, and according to retronym's answer to your previous question, the rules for implicit scope will soon become more powerful. For more details about implicits, I highly recommend Daniel Sobral's tutorial. –  Kipton Barros Oct 4 '11 at 14:40
    
I clarified the code. The first blok of code is in one object, which is imported in the second block of code. –  soc Oct 4 '11 at 14:50

1 Answer 1

up vote 4 down vote accepted

To get things started, here's a stand-alone example that gives the same problem,

object Units {
  case class Quantity[T: Numeric](value: T) {
    def *[M](m: Quantity[T]) =           // type M can't be inferred below
      Quantity[T](implicitly[Numeric[T]].times(value, m.value))
  }
  implicit def measure[T: Numeric](v: T) = Quantity[T](v)

  val length0 = measure(5) * Quantity(5) // works
  val length1 = 5  * Quantity(5)         // doesn't work
}

For some reason, the conversion measure isn't being found because of the type parameter M on the method *. If the type parameter is removed from *, things compile fine. Maybe someone else can explain why?

Edit. This is looking like a limitation of the Scala compiler, since renaming * to something like *** resolves the problem. Perhaps the existence of Int.* (without a type parameter) is precluding the implicit conversion for use of Quantity.*[M] (with a type parameter). This reminds me of the requirement that overridden methods must have the same exact type parameters.

share|improve this answer
    
Yes, I would appreciate that! –  soc Oct 4 '11 at 16:30
    
The weird thing that the type parameter is given in my example Quantity[_0, T] and it still doesn't work. I also tried adding an explicit return type to the implicit but it didn't help :-( –  soc Oct 4 '11 at 17:36
    
Yes I know that I could use different names, but I would reatty prefer having the same. Btw, did you mean overridden? –  soc Oct 4 '11 at 19:10
    
Yes, thanks for spotting it. –  Kipton Barros Oct 4 '11 at 21:44

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