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Minimum complete definition of Collection interface consists only of two methods: iterator() and size(), which are abstract in AbstractCollection.

Why all other methods not made default in Java 8? Compatibility shouldn't be an issue, for example, Iterator.remove() was abstract until Java 7, but made default since Java 8.

Subclassing from AbstractCollection is inconvenient sometimes, when I want a Collection implementation to be a member of another class hierarchy. Wasn't that one of the reasons why default methods in interfaces actually needed in Java?

The same question about Map, List and other basic interfaces, comprising Java Collection Framework.

UPDATE

Paul Sandoz:

Generally we have only converted existing abstract methods on an interface to non-abstract if there was a compelling reason to aid implementations, such as Iterator.remove.

These are not new methods on Collection, and there are already implementations in AbstractCollection. The advantage of converting these abstract into non-abstract methods its not particularly compelling given one is most likely to inherit from AbstractCollection or provide more efficient implementations.

It would be possible to move all non-abstract methods on AbstractCollection to Collection. If we were starting from a blank sheet of paper that is what we might have done. (Note one cannot do this with all non-abstract methods on AbstractList.)

http://mail.openjdk.java.net/pipermail/core-libs-dev/2014-February/025118.html

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closed as primarily opinion-based by Keppil, Juri Glass, Andrew, Jarod42, uthark Feb 14 '14 at 20:49

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

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Questions like Why was X implemented in this way? is seldom a good fit for SO. – Keppil Feb 13 '14 at 15:15
    
@Keppil it is nonsense. I can link 10 ultra high-voted SO questions, formulated the same way, and with approximately similar discourse, in 10 minutes. – leventov Feb 13 '14 at 15:19
    
@Keppil simply google "why java site:stackoverflow.com" – leventov Feb 13 '14 at 15:22
    
I think that between 7 and 8 will not be incompatible in contract classes i.e. Collection, ArrayList, LinkedList etc. But in AbstractCollection they can make changes because it is not "contract list" it is for their use. – Ashot Karakhanyan Feb 13 '14 at 15:23
    
@AshotKarakhanyan I doubt. What is different from Iterator.remove()? – leventov Feb 13 '14 at 15:25
up vote 5 down vote accepted

The primary goal of default methods is to enable compatible evolution of interfaces. See section 10 of the State of the Lambda document. One of the main directions of this evolution is to facilitate internal iteration. See the Internal vs External Iteration section of State of the Lambda: Libraries Edition. To this end, there are new methods such as Iterable.forEach, Collection.removeIf, and List.replaceAll.

Other methods like List.sort have been added because it allows individual concrete list implementations to provide more efficient sorting algorithms, which cannot be done with Collections.sort.

Finally, default methods have been added for sheer convenience, such as Iterator.remove. Over the years, we and many others have gotten quite annoyed at adding a method remove that simply throws UnsupportedOperationException every time we implemented a new Iterator. The default method remove does this for us. Note, crucially, that this method doesn't actually remove any elements. (How would it?)

It might seem convenient to provide default implementations for a bunch of Collection methods, written in terms of other methods such as iterator. However, I don't think it's very useful, and in fact I'm not sure it's even possible for some methods.

Consider the Collection.contains(Object) method. It's conceivable that one could write a default implementation of this in terms of iterator by stepping through each element and comparing for equality. This would be a very bad implementation for something like a TreeSet or a HashSet. Even the concrete List implementations such as LinkedList and ArrayList provide fast-path implementations that are much more efficient than stepping through an iterator. Having a default implementation of Collection.contains might be a little bit convenient, but really, it doesn't add much value. In practice every collection will want to override it.

Now consider equals. The specification of Collection.equals raises a bunch of subtle issues. Briefly, a Set can only be equal to another Set, and a List can only be equal to another List, and the equals operation must be symmetric. It follows that a Collection that's neither a List nor a Set can never be equal to a List or a Set.

OK, so our Collection.equals default method will have to do a bunch of instanceof checks up front. If both are Lists we can delegate to AbstractList.equals, and if both are Sets we can delegate to AbstractSet.equals. Now let's suppose that this object and the other object neither Lists nor Sets. What if they are different concrete implementations that cannot be equal to each other? We can't tell.

Setting that aside, let's assume that we equality is defined as having the same membership. The only thing we can do is to iterate through each collection. But we can't (in general) make any assumptions about iteration order, so we can't iterate through them simultaneously and compare elements pairwise like we would for lists. Instead, we'd have to load all the elements from one collection into a temporary collection of some kind. It can't be a Set since we might have duplicates. We'd then check each element of the other Collection to make sure that every element in it is in the first one, and that there are no extras in the first one. This isn't terribly difficult, but it's expensive, and some semantics such as order sensitivity are not supported.

I can't imagine any concrete collection subclass actually wanting to use this algorithm.


In summary, using default methods to make collection implementations easier is not one of the design goals of default methods. In addition, while it might seem that providing default methods on Collection would be convenient, they don't actually seem useful. Any reasonable Collection implementation will need to override all the methods in order to provide the semantics it wants without being horribly inefficient.

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The same reasoning could be applied to AbstractCollection. Is this class useful, while any reasonable concrete implementation will need to override most of the methods. Adhoc collections are usually written for adhoc use, when only a few of Collection methods are used, the rest could be left arbitrarily inefficient. – leventov Feb 14 '14 at 8:39
    
There is at least one method, very similar to Iterator.remove(). Over the years developers bothered to implement isEmpty() as return size() == 0;... – leventov Feb 14 '14 at 8:41
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The original question was whether a complete Collection implementation (except for iterator and size) could be provided by default methods. This could be attempted but it isn't really feasible, as I described. Note that equals and hashCode are also abstract in AbstractCollection for the same reasons. The situation with AbstractCollection isn't the same, as it doesn't purport to provide a complete implementation. It relies on careful inheritance and overriding from AbstractList and AbstractSet. – Stuart Marks Feb 14 '14 at 22:04
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As Paul Sandoz said, if we were starting over we might consider putting more implementations into default methods on Collection/List/Set, but this could be problematic. Interfaces cannot have state (though the Abstract* classes don't have any); nor can interfaces define protected or private interfaces, which are used in the abstract classes. Bottom line is that interfaces and default methods don't provide mixins, and this wasn't the design goal of default methods anyway. – Stuart Marks Feb 14 '14 at 22:10
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Regarding isEmpty() default. Using size() is a poor default since some size() implementations are O(n) or in a few cases, uncountable. isEmpty() is generally expected to be O(1). We chose not to provide all possible defaults just those that were very commonly useful or required. – Mike Duigou Feb 15 '14 at 0:31

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