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When sub-classing AbstractCollection, I must still implement size(), even though (I believe) there is a reasonable correct (though non-performant) default implementation:

public int size() {
    int count = 0;

    for (Iterator<E> i = iterator(); i.hasNext();) {
        i.next();
        count++
    }

    return count;
}

Why did the designers not include a default implementation of size()? Were they trying to force developers to consciously think about this method, hopefully causing the developer to offer an implementation that performs better than the default?

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It's not very reasonable implementation for ArrayList for example. That's probably why they did not implement it by default it to avoid hidden traps. –  denis.solonenko Jul 13 '11 at 9:06
    
@denis.solonenko: I meant that it's reasonable from a correctness perspective. I agree with you, it is not reasonable from a performance perspective. –  Adam Paynter Jul 13 '11 at 9:08
1  
there is no single case I know of, the method won't be overridden. CLQ is close to that, though, yet the impl is faster. To put it simply: a useless piece of code that must be overridden each time AND it can throw ConcurrentModificationException, what do you in such a case? –  bestsss Jul 13 '11 at 9:29
    
@bestsss: I agree. I almost always provide better-than-O(N) implementations. I was just curious to see what other reasons people could think up. :) –  Adam Paynter Jul 13 '11 at 9:36
1  
@Adam, btw you need to bail out like if (++count==Integer.MAX_VALUE) return count; instead just count++ –  bestsss Jul 13 '11 at 14:24

5 Answers 5

up vote 10 down vote accepted

I suspect your last sentence is the real reason. When subclassing an abstract class it's sometimes tempting to only override the abstract methods. I would expect almost every implementation to have a better implementation than just iterating - so if you want pretty much everyone to override a method, it's probably a good idea not to provide a base (slow) implementation. It just reduces chances of screwing up :)

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1  
actually the iteration can throw a ConcurrentModifcationException, which is not acceptable for size() –  bestsss Jul 13 '11 at 9:31
1  
@bestsss: Well, it's a RuntimeException... if a collection isn't documented to be thread-safe (which is the only place this could have a problem) then I don't think it's awful for size() to throw ConcurrentModificationException. –  Jon Skeet Jul 13 '11 at 9:37
    
all the exceptions of the collection framework are runtime ones but they are documented (and that incl. the likes of NPE, ClassCastException, ArrayStoreException). –  bestsss Jul 13 '11 at 9:40
1  
@bestsss: Then maybe size() should actually be documented to potentially throw this. Why should it be impossible to have a collection which requires multiple operations to compute the size? –  Jon Skeet Jul 13 '11 at 9:45
    
then isEmpty() too and so on. basically everything. My understanding is that size() works on the best-effort basis, though. –  bestsss Jul 13 '11 at 9:47

While this is a possible default implementation, it is not necessarily a good one (or even a sane one).

In almost all general-purpose Collection implementation there's a O(1) way to find out the size. Usually by simply querying a simple field.

This should be the implementation. In the very rare cases where this is not the case, the implementation could still fall back to your example code (or implement it differently).

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I support your theory: maybe implementers are just forced to implement a good (O(1) if possible) implementation for size(), because

  • the method is used quite often
  • if we program against interfaces, we don't know the actual collection type
  • A default (or bad) implementation may kill performance unexpectedly
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For some kinds of list, your proposed default implementation is harmful. I'm thinking of lazy lists, or lists that result in a very large in-memory data structure when iterated.

In the infinite lazy list case, your proposed default implementation is plainly incorrect.

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Actually, since both the add and remove operations have a return value that indicates whether the operation resulted in a change of the size of the collection, you could implement an event better size method by keeping track of adds and removes in most cases.

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