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Is it possible to have multiple iterators in a single collection and have each keep track independently? This is assuming no deletes or inserts after the iterators were assigned.

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What happened when you tried? –  Brian Roach Mar 15 '11 at 17:22

5 Answers 5


Sometimes it's really annoying that answers have to be 30 characters.

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Agreed. Will Java spawn the threads automatically and synchronize –  cp. Mar 15 '11 at 17:43
@cp: Iterators are unrelated to threads. Any threading has to be done by you. –  ColinD Mar 15 '11 at 17:49
So if I create two iterators of one collection they are not in separate threads and inserts/deletes will not be included in any use? –  cp. Mar 15 '11 at 17:52
@cp: What happens is entirely up to you, depending on how you use the iterators and the underlying collection. If you start iterating through an iterator and then modify the collection without using the iterator, you'll get ConcurrentModificationException when you continue iterating. –  ColinD Mar 15 '11 at 18:03

Yes, it is possible. That's one reason they are iterators, and not simply methods of the collection.

For example List iterators (defined in AbstractList) hold an int to the current index (for the iterator). If you create multiple iterators and call next() a different number of times, each of them will have its int cursor with a different value.

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With the concurrent collections you can have multiple iterators in different threads even if there inserts and deletes.

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Yes and no. That depend of the implementation of the interface Iterable<T>.

Usually it should return new instance of a class that implement Iterable interface, the class AbstractList implements this like that:

public Iterator<E> iterator() {
    return new Itr(); //Where Itr is an internal private class that implement Itrable<T>

If you are using standard Java classes You may expect that this is done this way.

Otherwise You can do a simple test by calling iterator() form the object and then run over first and after that second one, if they are depend the second should not produce any result. But this is very unlikely possible.

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You could do something like this:

import java.util.ArrayList;
import java.util.Iterator;

public class Miterate {

    abstract class IteratorCaster<E> implements Iterable<E>, Iterator<E> {
        int mIteratorIndex = 0;

        public boolean hasNext() {
            return mStorage.size() > mIteratorIndex;

        public void remove() {

        public Iterator<E> iterator() {
            return this;

    class FloatCast extends IteratorCaster<Float> {
        public Float next() {
            Float tFloat = Float.parseFloat((String)mStorage.get(mIteratorIndex));
            mIteratorIndex ++;
            return tFloat;

    class StringCast extends IteratorCaster<String> {
        public String next() {
            String tString = (String)mStorage.get(mIteratorIndex);
            mIteratorIndex ++;
            return tString;

    class IntegerCast extends IteratorCaster<Integer> {
        public Integer next() {
            Integer tInteger = Integer.parseInt((String)mStorage.get(mIteratorIndex));
            mIteratorIndex ++;
            return tInteger;

    ArrayList<Object> mStorage;

    StringCast mSC;
    IntegerCast mIC;
    FloatCast mFC;

    Miterate() {
        mStorage = new ArrayList<Object>();

        mSC = new StringCast();
        mIC = new IntegerCast();
        mFC = new FloatCast();

        mStorage.add(new String("1"));
        mStorage.add(new String("2"));
        mStorage.add(new String("3"));

    Iterable<String> getStringIterator() {
        return mSC;

    Iterable<Integer> getIntegerIterator() {
        return mIC;

    Iterable<Float> getFloatIterator() {
        return mFC;

    public static void main(String[] args) {
        Miterate tMiterate = new Miterate();

        for (String tString : tMiterate.getStringIterator()) {

        for (Integer tInteger : tMiterate.getIntegerIterator()) {

        for (Float tFloat : tMiterate.getFloatIterator()) {
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