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Please show a good example for covariance and contravariance in Java.

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4 Answers 4

up vote 42 down vote accepted


class Super {
  Object getSomething(){}
class Sub extends Super {
  String getSomething() {}

Sub#getSomething is covariant because it returns a subclass of the return type of Super#getSomething (but fullfills the contract of Super.getSomething())


class Super{
  void doSomething(String parameter)
class Sub extends Super{
  void doSomething(Object parameter)

Sub#doSomething is contravariant because it takes a parameter of a superclass of the parameter of Super#doSomething (but, again, fullfills the contract of Super#doSomething)


This is also possible for Generics:

List<String> aList...
List<? extends Object> covariantList = aList;
List<? super String> contravariantList = aList;

You can now access all methods of covariantList that doesn't take a generic parameter (as it must be something "extends Object"), but getters will work fine (as the returned object will always be of type "Object")

The opposite is true for contravariantList: You can access all methods with generic parameters (you know it must be a superclass of "String", so you can always pass one), but no getters (The returned type may be of any other supertype of String)

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The first example of contravariance doesn't work in Java. doSomething() in the Sub class is an overload, not an override. –  Craig P. Motlin Apr 14 '11 at 22:26
Indeed. Java does not support contravariant arguments in subtyping. Only covariance for what concern method return types (like in the first example). –  the_dark_destructor Feb 16 '12 at 17:51
Great answer. Covariance looks logical to me. But could you point me a paragraph in JLS which describes contravariance? Why Sub.doSomething is invoked? –  Mikhail Apr 8 '13 at 8:37
As Craig pointed out, it isn't. I think here is a clash between overriding and overloading and SUN did choose (as always) the backward-compatible option. So in Java you can't use contravariant parameters when overriding a method. –  Hardcoded Apr 25 '13 at 14:47

Co-variance: Iterable and Iterator. It almost always makes sense to define a co-variant Iterable or Iterator. Iterator<? extends T> can be used just as Iterator<T> - the only place where the type parameter appears is the return type from the next method, so it can be safely up-cast to T. But if you have S extends T, you can also assign Iterator<S> to a variable of type Iterator<? extends T>. For example if you are defining a find method:

boolean find(Iterable<Object> where, Object what)

you won't be able to call it with List<Integer> and 5, so it's better defined as

boolean find(Iterable<?> where, Object what)

Contra-variance: Comparator. It almost always makes sense to use Comparator<? super T>, because it can be used just as Comparator<T>. The type parameter appears only as the compare method parameter type, so T can be safely passed to it. For example if you have a DateComparator implements Comparator<java.util.Date> { ... } and you want to sort a List<java.sql.Date> with that comparator (java.sql.Date is a sub-class of java.util.Date), you can do with:

<T> void sort(List<T> what, Comparator<? super T> how)

but not with

<T> void sort(List<T> what, Comparator<T> how)
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Look at the Liskov substitution principle. In effect, if class B extends class A then you should be able to use a B whenever an A is required.

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better point out ..cool!!! –  JavaUser Mar 23 '10 at 15:26

You find some info about it on wikipedia:


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thx .. But I cant get the detailed information .Why covariance/contravariance came into picture ? –  JavaUser Mar 23 '10 at 15:19

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