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Scala in Depth presents this example on co-variance.

Define a class T with a co-variant parameter. Co-variant means that instantiating a T[+A] is legal provided the parameter is a sub-type or equal to A's type.

scala> class T[+A] {}
defined class T

Instantiate a T[...] with AnyRef.

scala> val x = new T[AnyRef]
x: T[AnyRef] = T@11e55d39

Then, assign x to a T[Any]. Any is the parent of AnyRef.

As a result, we can create a T[Any] with a T[AnyRef] since AnyRef is a sub-type of Any.

scala> val y : T[Any] = x
y: T[Any] = T@11e55d39

However, we can't do the same with T[String] since Any is not a sub-type of `String.

scala> val z : T[String] = x
<console>:7: error: type mismatch;
found : T[AnyRef]
required: T[String]
val z : T[String] = x

Is this understanding correct?

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Covariance (T[+A]): A is subtype of B => T[A] is subtype of T[B]. Contravariance (T[-A]): A is subtype of B => T[A] is supertype of T[B]. So yes, I guess you've understand it correctly, though no one can read in your head. –  senia Dec 24 '13 at 18:51
why did someone downvote please? I don't care about points, but the reason my question was bad. –  Kevin Meredith Dec 24 '13 at 19:18

1 Answer 1

You are mostly right. I would just say it like this:

  • Since String is a subtype of AnyRef, T[String] is a subtype of T[AnyRef].
  • Since Integer is a subtype of AnyRef, T[Integer] is a subtype of T[AnyRef].

So I can say

var s:T[AnyRef] = new T[String]
val i:T[AnyRef] = new T[Integer]
s = i

Actually, no I can't say that third line.

I shouldn't be allowed to do that because that likely means T is doing something only applicable to Integers that it can now do to Strings.

So you use type bounding to solve it.

share|improve this answer
You also can't use the third line because you used val and not var... –  dg123 Dec 24 '13 at 22:35
Good catch. Made the edit. My mom always told me, "You can't slip anything by @dg123." Thanks! –  Vidya Dec 24 '13 at 22:38

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