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I read and, but I still don't understand why this:

void foo(Iterator<X> it) {
  for (X x : it) {

was not made possible. In other words, unless I'm missing something, the above could have been nice and valid syntactic sugar for:

void foo(Iterator<X> it) {
  for (X x; it.hasNext();) {
    x =;
share|improve this question
up vote 3 down vote accepted

but I still don't understand why this [...] was not made possible.

I can see several reasons:

  1. Iterators are not reusable, so a for/each would consume the iterator - not incorrect behavior, perhaps, but unintuitive to those who don't know how the for/each is desugared.
  2. Iterators don't appear "naked" in code all that often so it would be complicating the JLS with little gain (the for/each construct is bad enough as it is, working on both Iterables and arrays).
  3. There's an easy workaround. It may seem a little wasteful to allocate a new object just for this, but allocation is cheap as it is and escape analysis would rid you even of that small cost in most cases. (Why they didn't include this workaround in an Iterables utility class, analogous to Collections and Arrays, is beyond me, though.)
  4. (Probably not true - see the comments.) I seem to recall that the JLS can only reference things in java.lang[citation needed], so they'd have to create an Iterator interface in java.lang which java.util.Iterator extends without adding anything to. Now we have two functionally equivalent iterator interfaces. 50% of the new code using naked iterators will choose the java.lang version, the rest use the one in java.util. Chaos ensues, compatibility problems abound, etc.

I think points 1-3 are very much in line with how the Java language design philosophy seems to go: Don't surprise newcomers, don't complicate the spec if it doesn't have a clear gain that overshadows the costs, and don't do with a language feature what can be done with a library.

The same arguments would explain why java.util.Enumeration isn't Iterable, too.

share|improve this answer
"I seem to recall that the JLS can only reference things in java.lang" Ignoring any 'discussion' or 'example' contexts (of which there are many), the JLS refers several times to (§4.10.3 and others) as a special case (e.g. Serializable is a valid supertype of a primitive array). Irrelevant to the discussion at hand, but interesting anyway. – Cowan Apr 8 '10 at 10:48
There is no java.util.Enumerator. Did you mean Enumeration? – Joachim Sauer Apr 8 '10 at 11:12
@Cowan, thanks. I even looked at the JLS but managed to miss those parts. @Joachim, I did. Updated my post. – gustafc Apr 8 '10 at 11:16

Most likely the reason for this is because iterators are not reusable; you need to get a fresh Iterator from the Iterable collection each time you want to iterate over the elements. However, as a quick fix:

private static <T> Iterable<T> iterable(final Iterator<T> it){
     return new Iterable<T>(){ public Iterator<T> iterator(){ return it; } };

     // ...
     // Now we can use:
     for ( X x : iterable(it) ){
        // do something with x
     // ...

That said, the best thing to do is simply pass around the Iterable<T> interface instead of Iterator<T>

share|improve this answer
+1: with arrays and Iterable you can write the same loop twice in a row and have it work as expected. That doesn't work with Iterator. – Joachim Sauer Apr 8 '10 at 7:44
You're right it would be best, but I'm using my own iterator over something that's not a real Collection (it's a DOM NodeList). Otherwise, your answer makes sense, thanks. – noamtm Apr 8 '10 at 7:46
@noamtm: if it's not a Collection but can provide an Iterator, then it should probably implement Iterable. – Joachim Sauer Apr 8 '10 at 9:37
Joachim: there may be more than one way to iterate over something (e.g. Iterator<T> iterateInNaturalOrder(), Iterator<T> iterateInSortedOrder(), Iterator<T> iterateOverValidValues()), in which case Iterable is not appropriate, since it provides only one way to iterate over a collection, namely iterator(). – Jason S May 5 '11 at 19:32
@JasonS an Iterable<T> can still be used in those cases as the return type for those methods (though clearly a single Iterable would not suffice). – Michael Aaron Safyan Jul 29 '15 at 5:29

The for(Type t : iterable) syntax is only valid for classes that implement Iterable<Type>.

An iterator does not implement iterable.

You can iterate over things like Collection<T>, List<T>, or Set<T> because they implement Iterable.

The following code is equivalent:

for (Type t: list) {
    // do something with t


Iterator<Type> iter = list.iterator();
while (iter.hasNext()) {
    t =;
    // do something with t

The reason this was not made possible, is because the for-each syntax was added to the language to abstract out the Iterator. Making the for-each loop work with iterators would not accomplish what the for-each loop was created for.

share|improve this answer
That's obvious, it doesn't answer my question of "why it wasn't made possible". – noamtm Apr 8 '10 at 7:41
A Map (which would be Map<K,V>, btw) does not implement Iterable. You'd have to use keySet(), values() or entrySet() and iterate over those. – Joachim Sauer Apr 8 '10 at 7:41
@Joach My bad, I was thinking of C#. – jjnguy Apr 8 '10 at 7:44
Interesting, so an IDictionary (which I assume is the .NET equivalent of a Map) provides an IEnumerator. What does that enumerate over? Does it return entries? values? keys? I can't seem to get that from the documentation:… – Joachim Sauer Apr 8 '10 at 8:51
@joach It iterates over Entry<Key, Value>. So you get one entry per iteration. It is basically a key, value pair. I really like it. – jjnguy Apr 8 '10 at 8:56

Iterators are not meant be reused (i.e.: used in more than one iteration loop). In particular, Iterator.hasNext() guarantees that you can safely call and indeed get the next value from the underlying collection.

When the same iterator is used in two concurrently running iterations (let's assume a multi-threading scenario), this promise can no longer be kept:

while(iter.hasNext() {
   // Now a context switch happens, another thread is performing
   //    iter.hasNext(); x =;

  String s =;  
          // A runtime exception is thrown because the iterator was 
          // exhausted by the other thread

Such scenarios completely break the protocol offered by Iterator. Actually, they can occur even in a single threaded program: an iteration loop calls another method which uses the same iterator to perform its own iteration. When this method returns, the caller is issuing an call which, again, fails.

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Because the for-each is designed to read as something like:

for each element of [some collection of elements]

An Iterator is not [some collection of elements]. An array and an Iterable is.

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Actually, you can.

There is very short workaround available on java 8:

for (X item : (Iterable<X>) () -> iterator)

See How to iterate with foreach loop over java 8 stream for the detailed explanation of the trick.

And some explanatios why this was not natively supported can be found in related question: Why does Stream<T> not implement Iterable<T>?

share|improve this answer
Thanks, but does not really answer my question. The question (from 2010) was really about the design choice (hence "why", not "how"). +1 because it's nice to know, though. – noamtm Jul 30 '15 at 7:11

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