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What's the difference between

[A <: B]



in Scala?

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You mean [+B]? – huynhjl Dec 25 '10 at 20:29
+B, of course. I'm still learning ;-) Fixed it above. – The-Kenny Dec 25 '10 at 20:30
up vote 112 down vote accepted

Q[A <: B] means that class Q can take any class A that is a subclass of B.

Q[+B] means that Q can take any class, but if A is a subclass of B, then Q[A] is considered to be a subclass of Q[B].

Q[+A <: B] means that class Q can only take subclasses of B as well as propagating the subclass relationship.

The first is useful when you want to do something generic, but you need to rely upon a certain set of methods in B. For example, if you have an Output class with a toFile method, you could use that method in any class that could be passed into Q.

The second is useful when you want to make collections that behave the same way as the original classes. If you take B and you make a subclass A, then you can pass A in anywhere where B is expected. But if you take a collection of B, Q[B], is it true that you can always pass in Q[A] instead? In general, no; there are cases when this would be the wrong thing to do. But you can say that this is the right thing to do by using +B (covariance; Q covaries--follows along with--B's subclasses' inheritance relationship).

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Now, that's a detailed description. Thank you very much! – The-Kenny Dec 25 '10 at 21:18
i would love to read everything as 'A that extends B' – FUD Jan 4 '13 at 9:50
Can you give an example and explanation for the use of contravariant? What Q[-A] means ? – moshe beeri Oct 22 '14 at 23:17

I would like to extend Rex Kerr's excellent answer with some more examples: Let's say we have four classes:

 class Animal {}
 class Dog extends Animal {}

 class Car {}
 class SportsCar extends Car {}

Let's start with variance:

 case class List[+B](elements: B*) {} // simplification; covariance like in original List

 val animals: List[Animal] = List( new Dog(), new Animal() )
 val cars: List[Car] = List ( new Car(), new SportsCar() )

As you can see List does not care whether it contains Animals or Cars. The developers of List did not enforce that e.g. only Cars can go inside Lists.


case class Shelter(animals: List[Animal]) {}

val animalShelter: Shelter = Shelter( List(new Animal()): List[Animal] )
val dogShelter: Shelter = Shelter( List(new Dog()): List[Dog] )

If a function expects a List[Animal] parameter you can also pass a List[Dog] as an argument to the function instead. List[Dog] is considered a subclass of List[Animal] due to the covariance of List. It would not work if List was invariant.

Now onto type bounds:

case class Barn[A <: Animal](animals: A*) {}

val animalBarn: Barn[Animal] = Barn( new Dog(), new Animal() )
val carBarn = Barn( new SportsCar() )
error: inferred type arguments [SportsCar] do not conform to method apply's type parameter bounds [A <: Animal]
    val carBarn = Barn(new SportsCar())

As you can see Barn is a collection only intended for Animals. No cars allowed in here.

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Animal-Dog / Car-SportsCar classes are always best examples. It's pretty hard to follow all those Q, A, Bs. – Namek Oct 18 '14 at 15:46

for my Understanding:

The first is a parameter type bound, there a upper and lower typebounds in our case its a "type parameter A that is a subtype of B (or B itself).

The second is a Variance Annotation for a class defintion, in our case a covariance subclassing of B

Scala: + Java: ? extends T Covariant subclassing

Scala: - Java: ? super T Contravariant subclassing

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I found this blog post while researching this question. Gives an even deeper explanation of Scala variance including its theoretical basis in Category Theory

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