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When I was seeing the declaration of ArrayList

class ArrayList<E> extends AbstractList<E>
    implements List<E>, RandomAccess, Cloneable,

which implements List interface eventhough ArrayList's superclass AbstractList implements the same List interface.

abstract class AbstractList<E> extends AbstractCollection<E> implements List<E>

Similar declarations can be found on HashMap, LinkedHashMap declarations also.

In the declaration of LinkedHashMap, it implements Map interface only and not the other interfaces implemented by its superclass HashMap.

So there might be some benefits of having such declarations.

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up vote 5 down vote accepted

There are no functional benefits to declaring them again, it does not affect the behavior in any way.

I guess it's only added to make it clearer which interfaces are implemented.

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If making clearer is the only benefit, then LinkedHashMap may even implement Cloneable, Serializable interfaces. But it has not. – Charles Green Way Apr 5 '13 at 12:34
@CharlesGreenWay I would typically write Map<..> map = new LinkedHashMap<>(), but rarely Cloneable cloneable = new LinkedHashMap<>()... a LinkedHashMap is mainly a Map, although it implements other interfaces as well. – Vincent van der Weele Apr 5 '13 at 12:37
Thanks @Heuster for explaining. Will this be also for compatibility (i.e) If in future, HashMap doesnot implement Map(even though this might not happen), then LinkedHashMap may still implement Map – Charles Green Way Apr 5 '13 at 12:48

This is done for documentation purposes only, to make it immediately clear to the user of the class which interfaces the class implements.

The redundant implements clause makes no difference to the compiler.

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Yes. It could've been omitted. But thus it is immediately visible that it is a List. Otherwise an extra click through the code / documentation would be required. I think that's the reason - clarity.

And to add what Joeri Hendrickx commented - it is for the purpose of showing that ArrayList implements List. AbstractList in the whole picture is just for convenience and to reduce code duplication between List implementations.

Reference: Why does ArrayList have "implements List"?

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Well, this way you must implement List<E> methods when you create a subclass to AbstractList, and you can also use an ArrayList as an AbstractList.

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Question is why ArrayList explicitly implements List, even though it implicitly does this by extending AbstractList already. Which is for clarity only, as pointed out by Keppil and NPE. – Vincent van der Weele Apr 5 '13 at 12:33
@Heuster You're correct; it has no real effect here. – Pietu1998 Apr 5 '13 at 12:36

Totally unnecessary. I wouldn't do it at all.

It's unclear why they did that by then. But by now apparently it's a mistake, since everybody is surprised by it when they first notice this odd redundancy.

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