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I need to figure out the number of elements in my Iterable values. Basic idea one:

it = values.iterator();
while (it.hasNext())
{
it.next();
sum++;
}

Idea two (as I do not require the actual objects):

it = values.iterator();
while (it.hasNext())
{
it.remove();
sum++;
}

A small scale benchmark did not show much difference, any comments or other ideas for this problem?

Thanks! JS

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Why? Either is a really bad idea, as both are O(N). You should try to avoid having to iterate the collection twice. –  EJP Jul 22 '12 at 9:42
2  
Your second one shouldn't even work. You can't call remove() without calling next() beforehand. –  Louis Wasserman Jul 22 '12 at 10:49

6 Answers 6

up vote 11 down vote accepted

Use the first one, because the second one will remove all elements from values, so it is empty afterwards. Changing a data structure for a simple query like its size is very unexpected.

For performance, this depends on your data structure. If it is for example in fact an ArrayList, removing elements from the beginning (what your second method is doing) is very slow (calculating the size becomes O(n*n) instead of O(n) as it should be).

In general, if there is the chance that values is actually a Collection and not only an Iterable, check this and call size() in case:

if (values instanceof Collection<?>) {
  return ((Collection<?>)values).size();
}
// use Iterator here...

The call to size() will usually be much faster than counting the number of elements.

Note that for example the great Guava library has a utility method Iterables.size(Iterable) which does that for you.

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He says that he's not interested in the elements and doesn't care if they are removed though. –  aioobe Jul 22 '12 at 9:13
    
Small clarification: it will remove the elements from values –  Miquel Jul 22 '12 at 9:13
1  
But other parts of the code might still be using the same Iterable. And if not now, perhaps in the future. –  Philipp Wendler Jul 22 '12 at 9:14
    
+1 for mentioning Iterables.size(Iterable) –  matiasg Feb 26 at 15:31

Strictly speaking, Iterable does not have size. Think data structure like a cycle.

And think about following Iterable instance, No size:

    new Iterable(){

        @Override public Iterator iterator() {
            return new Iterator(){

                @Override
                public boolean hasNext() {
                    return isExternalSystemAvailble();
                }

                @Override
                public Object next() {
                    return fetchDataFromExternalSystem();
                }};
        }};
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I would go for it.next() for the simple reason that next() is guaranteed to be implemented, while remove() is an optional operation.

E next()

Returns the next element in the iteration.

void remove()

Removes from the underlying collection the last element returned by the iterator (optional operation).

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Why don't you simply use the size() method on your Collection to get the number of elements?

Iterator is just meant to iterate,nothing else.

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3  
Who says he's using a collection? :-) –  aioobe Jul 22 '12 at 9:11
    
You are using an iterator, which supports removal of elements. If you pick up the size before entering the iterator loop, you need to be careful with your removals and update the value accordingly. –  Miquel Jul 22 '12 at 9:12
1  
An example of why he may not have a collection to look at for size: he could be calling a third-party API method that returns only an Iterable. –  SteveT Nov 15 '12 at 21:43

This is perhaps a bit late, but may help someone. I come across similar issue with Iterable in my codebase and solution was to use for each without explicitly calling values.iterator();.

int size = 0;
for(T value : values) {
   size++;
}
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As for me, these are just different methods. The first one leaves the object you're iterating on unchanged, while the seconds leaves it empty. The question is what do you want to do. The complexity of removing is based on implementation of your iterable object. If you're using Collections - just obtain the size like was proposed by Kazekage Gaara - its usually the best approach performance wise.

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