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.

I have code:

class A {
    override def toString = "object class A"
}

class B extends A {
    override def toString = "object class B"
}

class Cell[+T](init: T) {
    private[this] var current: T = init
    def get: T = current
    def set(x: T) { current = x }
}

val cB = new Cell[B](new B)
println(cB.get)
val cA: Cell[A] = cB
println(cA.get)

but I have error in line: def set(x: T) { current = x }

error: covariant type T occurs in contravariant position in type T of value x def set(x: T) { current = x }

Explain, please

share|improve this question
1  
In addition to the insightful answers, why do you need the explicit private reference and getter/setter? Scala does this for you: class Cell[+T](val t: T) {...} –  Jens Hoffmann Jan 11 '13 at 12:37

2 Answers 2

up vote 5 down vote accepted

Contravariant positions for a type are (among others) any positions that allow you to pass an instance of that type to a method. So all method parameter types are in contravariant positions. Since you declared T as covariant ( +T), the compiler won't allow this. Your only options are:

  • make T invariant
  • modify the set method such that it returns a new instance of Cell and Cell thus becomes immutable.
  • remove the set method, also making Cell immutable

If the compiler allowed you to have a set method as you implemented it, that would make the type system unsafe, since it would allow you to write:

val cs:Cell[String] = new Cell("")
val ca:Cell[Any] = cs
ca.set(5)
val s:String = cs.get //boom
share|improve this answer
    
Should be ca.set(5) instead of cs.set(5) –  Jens Hoffmann Jan 11 '13 at 13:02
    
thanks, changed it –  Kim Stebel Jan 11 '13 at 13:14

The short answer is that you cannot have a mutable container which is covariant. Assuming this compiled, then in your example, the last two lines could read:

val cA: Call[A] = cB
cA.set(new A)

The first line would be allowed, because a Cell[B] is a Cell[A] due to the use of +T. And then the second line is allowed too - because of course you can set a Cell[A] to hold an A.

But now, cB.get returns an instance of A, not a B! This doesn't make any sense, and there is no way to resolve this contradiction while still allowing covariance in Cell's type parameter.


For a longer, more formal/comprehensive answer, see this question: Scala covariance/contravariance

share|improve this answer

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.