Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Given a polymorphic trait like

 trait Transform[T] { def apply( t: T ) : T }

one might like to implement various specialized instances, such as

 case class Add[Double] extends Transform[Double] { def apply( t: Double ) ... }
 case class Append[String] extends Transform[String] { def apply( t: String ) ... }

etc. Now a frequently desired transform is also the identity transform. Instead of specializing identity for each type T, it appears preferable to use just one singleton instance for all types T. My question is: what is the best way to accomplish this in Scala?

Here is what I found so far: looking at how List[T] implements List.empty[T] and Nil, I tried using Nothing as the type T. This seems to make sense, since Nothing is a subtype of every other type:

 object Identity extends Transform[Nothing] {
    def apply( t: Nothing ) = t
 }

This seems to work. However, wherever I then want use this instance as-is, like here:

 val array = Array[Transform[String]]( Transform.Identity )

I get the compiler error "type mismatch; found: Identity.type, required: Transform[String]". In order to use it, I have to explicitly cast it:

 ... Identity.asInstanceOf[Transform[String]]

I am not sure this is the best or even the 'proper' way to do it. Thanks for any advice.

share|improve this question

2 Answers 2

up vote 5 down vote accepted

As @Kim Stebel points out your Transform[T] is invariant in T (and has to be because T occurs in both co- and contra- variant positions in def apply(t : T) : T) so Transform[Nothing] is not a subtype of Transform[String] and can't be made to be.

If your main concern is the instance creation on each call of Kim's def Id[A] then your best model is the definition of conforms in in Predef,

private[this] final val singleton_<:< = new <:<[Any,Any] { def apply(x: Any): Any = x }
implicit def conforms[A]: A <:< A = singleton_<:<.asInstanceOf[A <:< A]

ie. use a polymorphic method, returning a singleton value cast to the appropriate type. This is one of occasions where erasure is a win.

Applied to your situation we would have,

object SingletonId extends Transform[Any] { def apply(t : Any) = t }
def Id[A] = SingletonId.asInstanceOf[Transform[A]]

Sample REPL session,

scala> Id("foo")
res0: java.lang.String = foo

scala> Id(23)
res1: Int = 23
share|improve this answer
    
so casting a singleton object is the proper way. Now your code uses Identity[Any] instead of Identity[Nothing]. Either seems to work, and as far as the cast is concerned, it seems like this does not matter. Is Any correct, then? In the lib, Nil is of type List[Nothing]. –  Gregor Scheidt Oct 4 '11 at 14:26
    
Any is the right choice here. You're expecting to have values of the transformed type (ie. there are things which SingletonId.apply will be applied to) you just can't say what their type is. The Nothing in Nil, on the other hand, is capturing the fact that there is no value at all corresponding to the head of an empty list. –  Miles Sabin Oct 6 '11 at 17:10

Since the type parameter T in Transform[T] is invariant, Transform[Nothing] is not a subtype of Transform[String], thus the compiler complains about it. But using Nothing here doesn't make sense anyway, since there can never be an instance of Nothing. So how would you pass one to the apply method? You would need to cast yet again. The only option I can see is this:

scala> def Id[A] = new Transform[A] { override def apply(t:A) = t }
Id: [A]=> java.lang.Object with Transform[A]

scala> Id(4)
res0: Int = 4

scala> Id("")
res1: java.lang.String = ""
share|improve this answer
    
Right, using a factory function instead of a singleton instance would work, and that is how I have it in my code now. But I saw that List uses a singleton typed to Nothing (Nil), so I thought that might be nicer. Passing values is not an issue: I would pass String or Double or whatever I require. You are right about the type variance issue, though, maybe that is the key. –  Gregor Scheidt Oct 3 '11 at 6:21
1  
Passing values IS THE ISSUE. You can pass a String to a method that expects Nothing, because Nothing is a subtype of String and NOT VICE VERSA. –  Kim Stebel Oct 3 '11 at 6:57
    
@Kim Stebel I think you meant: You can't pass a String to a method that expects Nothing ... –  Miles Sabin Oct 3 '11 at 8:51
    
oops, yes, can't edit it anymore... –  Kim Stebel Oct 3 '11 at 9:01
    
@Kim Stebel: you are right. By "passing values is not an issue" I meant that by the time I pass a value into apply(), I am already holding an instance of Identity that was cast to the appropriate type, e.g. Identity[String]. Thanks for your answer and comments. –  Gregor Scheidt Oct 4 '11 at 14:29

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.