How would contravariance be used in Java generics?

Question

In Java, covariance allows the API designer to specify that an instance may be generalised as a certain type or any of that type\'s subtypes. For example:

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Answer 1

Here's a relevant excerpt from Java Generics and Collections:

2.4. The Get and Put Principle

It may be good practice to insert wildcards whenever possible, but how do you decide which wildcard to use? Where should you use extends, where should you use super, and where is it inappropriate to use a wildcard at all?

Fortunately, a simple principle determines which is appropriate.

The Get and Put Principle: use an extends wildcard when you only get values out of a structure, use a super wildcard when you only put values into a structure, and don't use a wildcard when you both get and put.

We already saw this principle at work in the signature of the copy method:

public static <T> void copy(List<? super T> dest, List<? extends T> src)

The method gets values out of the source src, so it is declared with an extends wildcard, and it puts values into the destination dst, so it is declared with a super wildcard. Whenever you use an iterator, you get values out of a structure, so use an extends wildcard. Here is a method that takes a collection of numbers, converts each to a double, and sums them up:

public static double sum(Collection<? extends Number> nums) {
    double s = 0.0;
    for (Number num : nums) s += num.doubleValue();
    return s;
}

Answer 2

For example, when implementing the Collections.addAll() method, you need a collection that can contain some type T or a supertype of T. The method then looks like:

public static <T> void addAll(Collection<? super T> collection, T... objects) {
    // Do something
}

Answer 3

Well, your second example would allow you to write:

Shape shape = getShapeFromSomewhere();
shapes.add(shape);

whereas you couldn't do that with the first form. It's not useful as often as covariance, I'll grant you.

One area where it can be useful is in terms of comparisons. For example, consider:

class AreaComparer implements Comparator<Shape>
...

You can use that to compare any two shapes... so it would be nice if we could also use it to sort a List<Circle> for example. Fortunately, we can do that with contravariance, which is why there's an overload for Collections.sort of:

public static <T> void sort(List<T> list, Comparator<? super T> c)