What's the shortest way to get an Iterator over a range of Integers in Java? In other words, implement the following:

* Returns an Iterator over the integers from first to first+count.
Iterator<Integer> iterator(Integer first, Integer count);

Something like

  • Is there a reason you can't just "add 1", in the classic fashion? Just of interest – chillysapien Dec 16 '08 at 11:19
  • It's a framework that requires me to write an iterator – cretzel Dec 16 '08 at 11:41
  • Clarity trumps breviety everytime and there are a numerous Range classes available out that include iteration. – Martin of Hessle Mar 15 at 11:50

Straight-forward implementation of your homework:

List<Integer> ints = new ArrayList<Integer>();
for (int i = 0; i < count; i++) {
    ints.add(first + i);
  • 4
    That's the right one if you take "shortest" seriously, except that you're missing "return ints.iterator();" ;-) – Joachim Sauer Dec 16 '08 at 11:59
  • Also, it's memory inneficient. – Haroldo_OK Oct 20 '17 at 10:26

This implementation does not have a memory footprint.

 * @param begin inclusive
 * @param end exclusive
 * @return list of integers from begin to end
public static List<Integer> range(final int begin, final int end) {
    return new AbstractList<Integer>() {
            public Integer get(int index) {
                return begin + index;

            public int size() {
                return end - begin;


In Java 8 you can simply say:

IntStream.range(begin, end).iterator()                // returns PrimitiveIterator.OfInt

or if you need the boxed version:

IntStream.range(begin, end).boxed().iterator()        // returns Iterator<Integer>
  • Short and efficient - nice. – Alan Stokes Nov 2 '11 at 11:05
  • 1
    While the listing itself is quite short it returns a List instead of an Iterable / Iterator which offers many more interface methods. These are not implemented here and this in turn might lead to unexpected results if the list instance is used in "unforeseen" context. So you could say this implementation breaks the List interface contract. Also, the implementation of the iterator in AbstractList is not as simple as it could be and uses more instance variables than necessary, so there is some small memory footprint. I'd therefore rather go for a direct implementation of Iterable / Iterator. – Daniel Bimschas Mar 9 '15 at 11:13
  • 1
    @DanielBimschas I think that's not true. This class does adhere to the contract of an unmodifiable list, as defined in the JavaDoc for java.util.Collection. In particular, it throws UnsupportedOperationException if someone calls one of it's "destructive" methods like add() or remove(). For more details also see the JavaDoc of java.util.AbstractList. – Saintali Mar 18 '15 at 1:44
  • @Saintali fair point w.r.t. my "breaks the List interface contract" comment. Please ignore this part. IMHO my other comments remain valid though. – Daniel Bimschas Mar 20 '15 at 9:00
  • The get() method should check if its parameter is in the valid range, and if not (e.g. negative or larger than size) throw IndexOutofBoundsException. – Kevin Jan 27 '16 at 19:14

Untested. Mapping that onto "min, count" is left as an exercise for the reader.

public class IntRangeIterator implements Iterator<Integer> {
  private int nextValue;
  private final int max;
  public IntRangeIterator(int min, int max) {
    if (min > max) {
      throw new IllegalArgumentException("min must be <= max");
    this.nextValue = min;
    this.max = max;

  public boolean hasNext() {
    return nextValue <= max;

  public Integer next() {
    if (!hasNext()) {
      throw new NoSuchElementException();
    return Integer.valueOf(nextValue++);

  public void remove() {
    throw new UnsupportedOperationException();
  • this looks almost identical to the one I just wrote for myself :) – Alnitak Feb 13 '15 at 14:25

If you actually want the shortest amount of code, then Bombe's answer is fine. However, it sucks memory for no good reason. If you want to implement it yourself, it would be something like:

import java.util.*;

public class IntegerRange implements Iterator<Integer>
    private final int start;
    private final int count;

    private int position = -1;

    public IntegerRange(int start, int count)
        this.start = start;
        this.count = count;

    public boolean hasNext()
        return position+1 < count;

    public Integer next()
        if (position+1 >= count)
            throw new NoSuchElementException();
        return start + position;

    public void remove()
        throw new UnsupportedOperationException();

An example using the guava framework. Note that this will not materialize the set (although you have to read the ContiguousSet implementation to verify that).

import com.google.common.collect.ContiguousSet;
import com.google.common.collect.DiscreteDomain;
import com.google.common.collect.DiscreteDomains;

class RangeIterator { 

    public Iterator<Integer> range(int start, int length) {
        assert length > 0;
        Range<Integer> dim_range = Ranges.closedOpen(start, start + length);
        DiscreteDomain<Integer> ints = DiscreteDomains.integers();
        ContiguousSet<Integer> dim = dim_range.asSet(ints);
        return dim.iterator();
  • 1
    the shortest version of this one: Iterator<Integer> range = Ranges.closedOpen(start, end).asSet(DiscreteDomains.integers()).iterator(); – Miguel Oct 17 '12 at 21:39
  • @Miguel The Range#asSet(DiscreteDomain) method is deprecated and has been removed in Guava 16. – Synoli Mar 14 '17 at 14:32
  • @Synoli Iterator<Integer> range = ContiguousSet.create(Ranges.closedOpen(start, end), DiscreteDomains.integers()).iterator(); – Miguel Mar 29 '17 at 17:39

A sample using stream API in java 8:

int first = 0;
int count = 10;
Iterator<Integer> it = IntStream.range(first, first + count).iterator();
while (it.hasNext()) {

Without iterator, it could be:

int first = 0;
int count = 10;
IntStream.range(first, first + count).forEach(i -> System.out.println(i));

It's generally considered good style to pass around Collection and friends instead of Iterator (see this FAQ entry), so I'd recommend something like

public final class IntegerRange implements Set<Integer> {
        final LinkedHashSet<Integer> backingList;
        public IntegerRange(final int start, final int count) {
                backingList = new LinkedHashSet(count, 1.0f);
                for (int i=0; i < count; i++) {
                        backingList.set(i, start + i);
        /** Insert a bunch of delegation methods here */

and then just use .iterator() when you need to pass an Iterator to whatever framework you're using.

UPDATE: Obviously, this code isn't lazy. If you can't afford the extra memory overhead of storing (potentially) 2^32-1 Integers, you should use a different solution. Also, nothing about the type guarantees the range will be sorted (even though it is, based on the implementation). If you need to guarantee sorting, you could look into implementing SortedSet and backing it with a TreeSet, but it will take longer to build the range. Honestly, if you are that concerned with getting the details right, it might be worth your effort to look for a library. Tapestry has an internal version, for instance.

  • Why implement that in a backing set? It's rather easy to implement that without storing all Integers (which can be rather memory intensive), as long as you don't need to support add() and remove(). I'd also add that a List would be more fitting (as there's definitely some order) – Joachim Sauer Dec 16 '08 at 12:13
  • RE: List -> cretzel didn't specify a ListIterator, and Iterator makes no ordering guarantees, so I went with the closest mapping (Collection), though in retrospect, I would have used Set. RE: lazy -> that seemed like a lot more work, plus cretzel made no mention of not needing remove() support. – Hank Gay Dec 16 '08 at 12:23
  • The FAQ entry you are referring to tells us that we should not pass Iterators around a collection of objects. But if you are interested not in the collection but in the iteration process, passing an Iterator is quite OK. – Guillaume Dec 16 '08 at 12:53
  • I think Collection vs. Iterator really depends. The guys at Google seem to favor Iterator for their applications: see "Why so much emphasis on Iterators and Iterables?" here: code.google.com/p/google-collections/wiki/Faq – Dave Ray Dec 16 '08 at 23:54

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