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class Nodes has getNodes() method, which is not synchronized. But List<Node> nodes - is synchronized. Many threads could be connected to it, changing nodes in it.

Like this:

class Nodes {
 List<Node> nodes = Collections.synchronizedList(new ArrayList<Node>() );

 public List<Nodes> getNodes() { return nodes; }

Client code:

Nodes nodes;

synchronized(nodes) {

 for(Node node: nodes.getNodes()) {


I do not have interrogation tests for that, but:

Should I use while(iterator.hasNext()) { var = iterator.next() } instead of for-loop ?

Because I know that when I try to delete nodes.remove(node) inside for-loop it fails with ConcurentModificationException.

EDIT: (related issue)

If iterator is good stuff to use, then having this code (client code):

Iterator<Node> iter = nodes.getNodes().iterator();
while (iter.hasNext()) {  // line 1
    Node node = iter.next();  // line 2

It is not safe anyway:

 1. thread1 goes to line 1, hoping that now iter would return him next() value. 
 2. but at that moment thread2 delete that value.
 3. thread1 has Exception and fails.

Does it mean that I should do locking on client side anyway. This is what I don't want to do.

One of the solutions I have:

while (iter.hasNext()) {

    try {
       Node node = iter.next();

    } catch (NoSuchElementException ex) {continue;}  // handle exception - do more try


Answer for my case was: to use CopyOnWriteArrayList. I can even stay with for-loop with it.

But another option: Just return client a copy of the list to let them know whatever they want with it. Because it is kind of strange (inconsistent) providing 'snapshot iterator' AND real data in the list at the same time.

share|improve this question
It is always recommended to use Iterator in multi-threaded environment.. –  Ankur Shanbhag May 24 '13 at 20:02
@Ankur Can you clarify your comment? Enhanced for does use an iterator behind the scenes. –  Paul Bellora May 24 '13 at 20:04
Also note that ConcurrentModificationException isn't specifically related to multi-threading. –  Paul Bellora May 24 '13 at 20:05
"It is always recommended to use Iterator in multi-threaded environment" What is the basis of this comment? –  Gray May 24 '13 at 20:13

3 Answers 3

up vote 1 down vote accepted

You should use an iterator like you have suggest, but instead of doing a nodes.delete() (which is really a nodes.remove(...) ) you should instead do iterator.remove()

You have updated your question. Here's an updated answer addressing the 'atomicity' of the iterator. If you want your iterator to have a 'snapshot' of the values at the time it (the iterator) was created, then you can use the Concurrent set of collections in java.util.concurrent: like CopyOnWriteArrayList

share|improve this answer
I've fixed that. Thx. I add more EDIT. –  ses May 24 '13 at 20:42
Added a secondary answer –  rolfl May 24 '13 at 21:00
It' interesting. Do you think it is much better than catching NoSuchElementException in while loop? It seem then no need to do copy every time when do read, and no need to use new structure, confusing people by that. –  ses May 24 '13 at 21:25
Probably not.. I feel that that exception handling is not thread safe. Meaning that I can wait/do repeating for something that is not real. –  ses May 24 '13 at 21:31
But another option: Just return to client a copy of the list to let them know whatever they want with it. Because it is kind of strange (inconsistent) providing 'snapshot iterator' AND real data in the list at the same time. –  ses May 24 '13 at 22:11

Iterator.remove is the only safe way to modify a collection during iteration

Source: The Collection Interface tutorial

share|improve this answer
+1 And this is with a concurrent or normal collection. –  Gray May 24 '13 at 20:14

What is even better:

To use:

private List<Node> defensiveCopyNodeList() {
    List<Node> nodesListCopy = Lists.newLinkedList();
    synchronized (nodesList) {
        nodesListCopy = ImmutableList.copyOf(nodesList);  // Google [Guava lib][1]
    return  nodesListCopy;

Then in getter:

public List<Node> getNodes() {
      return  defensiveCopyNodeList();

Then it allows us to use safely not only iterator but and data itself.

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