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What is a simple and fast way to get an iterator that returns at most N elements from the start of a List?

The simplest versions I could come up with are:

#1:

import com.google.common.collect.Iterators;

// ...

public static <E> Iterator<E> lengthLimitedIterator(Iterable<E> source, int maxLen) {
    return Iterators.partition(source.iterator(), maxLen).next().iterator();
}

#2:

public static <E> Iterator<E> lengthLimitedIterator(List<E> source, int maxLen) {
    return source.subList(0, Math.min(source.size(), maxLen)).iterator();
}

Unfortunately both versions create a temporary List which significantly affects performance as I am calling this method millions of times in a tight loop.

Are there any other library functions I could use for this?


Note: I cannot avoid iterating over the list as I am passing it to a method which takes an iterator as its argument and I cannot modify that class.

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7 Answers 7

up vote 4 down vote accepted

Seems as if the feature will be added to guava, currently (as of r06) in beta:

public static <T> Iterator<T> limit(Iterator<T> iterator, int limitSize)
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Besides Iterators, note that Iterables also has limit() method. So if you have a List, it's simplest to do Iterables.limit(aList, 3). –  Jonik Jul 8 at 7:52

You already know it's a list, so you can just call the List.subList(int fromIndex, int toIndex) method. As per the specification, the subList is backed by the original list, so it's not really creating a full blown List, just some kind of proxy object.

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This is a place where a Decorator works very well: your decorator keeps a count, which is incremented by next(), and used by control hasNext().

Example (intentionally incomplete):

public class LengthLimitedIterator<T>
implements Iterator<T>
{
    private Iterator<T> _wrapped;
    private int _length;
    private int _count;

    public LengthLimitedIterator(Iterator<T> wrapped, int length)
    {
        _wrapped = wrapped;
        _length = length;
    }


    public boolean hasNext()
    {
        if (_count < _length)
            return _wrapped.hasNext();
        return false;
    }

    public T next()
    {
        // FIXME - add exception if count >= length
        _count++;
        return _wrapped.next();
    }
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Why not simply

list.subList(0, 42).iterator();

I am not sure why you mind about the creation of that temporary list. It doesn't do anything I'd consider expensive. In fact, creating this list is by far cheaper than iterating over it, which I assume you do.

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The receiving method requires an Iterator and unfortunately I cannot change that. Your code is the same as my second example, except that it does not check for the list being shorter than the maximum length (in which case subList() will throw an exception.) –  finnw Oct 25 '09 at 12:09

If you are concerned about performance, don't use an Iterator, use an index on an array. This will give much better performance. Getting the first N elements of an array is trivial.

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The ArrayList.sublist(int,int) method does not create a copy of the original list. Instead it returns a SubList instance that wraps the original ArrayList. The iterator returned by the sublist derived from Array doesn't make a copy either.

So my advice is to try using ArrayList as your base list type and the sublist method. If that is not fast enough, implement your own variant of ArrayList that implements a limitedLengthIterator method. For example, you should be able to get rid of the code that checks for concurrent modifications.

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But the wrapper is actually slower than the original ArrayList –  finnw Oct 25 '09 at 16:28
    
@finnw - but it should be faster than copying the list. –  Stephen C Oct 26 '11 at 23:31
    
Depends how many times it is iterated. –  finnw Oct 27 '11 at 11:54
    
@finnw - Even if you iterate the entire (sub-)list it is likely to be quicker to use a wrapper than to copy elements to a new ArrayList. –  Stephen C Oct 27 '11 at 15:46
    
I don't mean "how many elements are iterated", I mean "how many times is the whole sublist iterated over." In my case it was between 2 and 8 times, and the average sublist length was about 4. –  finnw Oct 27 '11 at 17:50

This version turns out to be faster than any of the other examples:

public static <E> Iterator<E> lengthLimitedIterator(List<E> source, int maxLen) {
    maxLen = Math.min(maxLen, source.size());
    ArrayList<E> tempList = new ArrayList<E>(maxLen);
    for (int i = 0; i < maxLen; ++ i) {
       tempList.add(source.get(i));
    }
    return tempList.iterator();
}

If the temporary list has to be created anyway, an ArrayList is faster than the decorated lists returned by the other library methods.

My guess is that ArrayList is getting some special treatment within the VM.

Maybe this would be inefficient for very long lists, but my lists are short (nearly always fewer than 50 elements.)

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Incidentally, I am wary of your "this is faster than that" conclusions, because microbenchmarking in Java is very, VERY error-prone. There are a hundred ways to get a misleading result. I really think you should try to stick with the clean subList().iterator() solution. –  Kevin Bourrillion Nov 4 '09 at 1:33
    
@Kevin, I've measured it in the real application I'm using it in. I'm not claiming it's faster in the general case. –  finnw Nov 4 '09 at 11:07

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