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Hi I am trying to get my head around on Scala.

I was referring to API and found unfamiliar syntax

http://www.scala-lang.org/api/current/#scala.actors.CanReply

trait CanReply[-T, +R] extends AnyRef

abstract type Future[+P] <: () ⇒ P

What does this + and - preceding T and R meaning?

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up vote 2 down vote accepted

They mean covariance and contravariance, see http://debasishg.blogspot.ch/2006/04/generics-in-scala-part-1_12.html

Specifically, quote:

The + in type argument for the class definition indicates that subtyping is covariant on that type parameter. A - in the same place changes the relationship to contravariance. The default (without any prefix) declaration indicates invariance of subtyping.

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1  
Another article: scala-lang.org/old/node/129 – user573215 Aug 29 '13 at 9:28
1  
Contravariance :) – Mysterious Dan Aug 29 '13 at 14:05
    
Woops, yeah, fixed :) – Florian Mayer Aug 29 '13 at 15:42

A short (and not complete) answer without going into the details:

They specify the relationship between the type parameters and the inheritance relationship.

  • + indicates that if T is a subclass of S then Class[T] is a subclass of Class[S]
  • - indicates that if S is a subclass of T then Class[T] is a subclass of Class[S]
  • If neither is present, than there will be no inheritance relationship between Class t and Class s

If you are familiar with Java, then you know that the third case is with every Java class with type parameters. (There is no relationship between List<T> and List<S>, even if T is the subclass of S)

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would you be able to explain covariant , contravariant and invariant relate to your answer ? – nish1013 Aug 29 '13 at 13:26
1  
+ marks covariant, - marks contravariant, and the lack of - or + marks invariant type parameter – Boldizsár Németh Aug 29 '13 at 14:43

I agree with answers here and just want to show some examples. With [-T, +R] co- and counter-variance you can do the following:

class A
class B extends A
class C extends B

trait CanReply[-T, +R] {
  def foo(r: T): R
}

class CR1 extends CanReply[B, B] {
  def foo(r: B): B = {
    println("arg of type [" + r.getClass() + "] for B in CR1")
    new B
  }
}

class CR2 extends CanReply[A, C] {
  def foo(r: A): C = {
    println("arg of type [" + r.getClass() + "] for A in CR2")
    new C
  }
}

class CR3 extends CanReply[C, A] {
  def foo(r: C): A = {
    println("arg of type [" + r.getClass() + "] for C in CR3")
    new A
  }
}

object Program {
  def main(args: Array[String]): Unit = {
    test(new CR1)
    test(new CR2)
    test(new CR3)
  }

  def test(cr: CanReply[C, A]): Unit = {
    val res: A = cr.foo(new C)
    println("result of type [" + res.getClass() + "]")
    println()
  }
}

will produce:

arg of type [class C] for B in CR1
result of type [class B]

arg of type [class C] for A in CR2
result of type [class C]

arg of type [class C] for C in CR3
result of type [class A]

So for counter-variance you can place any base class object where derived is expected and vise versa for co-variance you can place any derived class object where base is expected. Usually methods parameters are counter-variant and their return types are co-variant.

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would you be able to add the output of this program to make it more usable? – nish1013 Aug 29 '13 at 15:44
    
Added. See "will produce". – user4298319 Aug 29 '13 at 19:03

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