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Imagine a synchronized Collection:

Set s = Collections.synchronizedSet(new HashSet())

What's the best approach to clone this Collection?

It's prefered that the cloning doesn't need any synchronization on the original Collection but required that iterating over the cloned Collection does not need any synchronization on the original Collection.

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What are the conditions of the copy? Can the original set change while being copied? What are you trying to accomplish by the clone? (might be able to suggest more efficient way to achieve your goals, but need the answer to these questions to make sure it is correct for you) –  Berin Loritsch Jan 3 '11 at 13:11
@Berin Loritsch: Yes, the original set can change during copy. I am trying to get an Iterator from a Set which should be independent from the original Collection in sense of data and synchronization. –  MRalwasser Jan 3 '11 at 13:22

3 Answers 3

up vote 5 down vote accepted

Use a copy-constructor inside a synchronized block:

synchronized (s) {
    Set newSet = new HashSet(s); //preferably use generics

If you need the copy to be synchronized as well, then use Collections.synchronizedSet(..) again.

As per Peter's comment - you'll need to do this in a synchronized block on the original set. The documentation of synchronizedSet is explicit about this:

It is imperative that the user manually synchronize on the returned set when iterating over it

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Unfortunately this uses the Iterator under the bonnet, so you have to synchronize(s) to do this safely. –  Peter Lawrey Jan 3 '11 at 13:07
@Peter yes, obviously, there is hardly ever a way to access a collection without using iterators –  Sean Patrick Floyd Jan 3 '11 at 13:08
the bad side of the story is that you must know how the method is implemented. –  Bozho Jan 3 '11 at 13:17

When using synchronized sets, do understand that you will incur synchronization overhead accessing every element in the set. The Collections.synchronizedSet() merely wraps your set with a shell that forces every method to be synchronized. Probably not what you really intended. A ConcurrentSkipListSet will give you better performance in a multithreaded environment where multiple threads will be writing to the set.

The ConcurrentSkipListSet will allow you to perform the following:

Set newSet = s.clone();//preferably use generics

It's not uncommon to use a clone of a set for snapshot processing. If that's what you are after, you might add a little code to handle the case where the item is already processed. The overhead involved with the occasional object included in more than one copy set is usually less than the consistent overhead of using Collections.concurrentSet().

EDIT: I just noticed that ConcurrentSkipListSet is Cloneable and provides a threadsafe clone() method. I changed my answer because I really believe this is the best option--instead of losing scalability and performance to Collections.concurrentSet().

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You can avoid synchronizing the set by doing the following which avoids exposing an Iterator on the original set.

Set newSet = new HashSet(Arrays.asList(s.toArray())); 

EDIT From Collections.SynchronizedCollection

public Object[] toArray() {
    synchronized(mutex) {return c.toArray();}

As you can see, the lock is held for the entire time the operation is performed. As such a safe copy of the data is taken. It doesn't matter if an Iterator is used internally. The array returned can be used in a thread safe manner as only the local thread has a reference to it.

NOTE: If you want to avoid these issues I suggest you use a Set from the concurrency library added in Java 5.0 in 2004. I also suggest you use generics as this can make your collections more type safe.

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it still uses an iterator. –  Bozho Jan 3 '11 at 13:16
True, but it iterates over a copy. this is thread safe. toArray() is thread safe because it is atomic. –  Peter Lawrey Jan 3 '11 at 13:30
I don't see anywhere that guarantees that toArray() is atomic--at least in the sense that matters in this case. The only guarantee that I see is that the call to toArray() creates a new copy of an array--even if the collection is backed by an array. I wouldn't want to stake my code on that assumption. It takes time to copy arrays, particularly if the source is backed by nodes (as is the case with all sets and LinkedLists). An iterator will be required in this case. –  Berin Loritsch Jan 3 '11 at 13:50
@Berin, Knowing how Collections.synchronizedSet() works, you can say any single operation is thread safe. iterator() is thread safe but the Iterator it returns is not as it refers to the original collection and by the time you use it the lock has been released. toArray() is thread safe and it return a copy of the elements which only the thread holds so it too is thread safe. –  Peter Lawrey Jan 3 '11 at 15:29
Assuming it is a synchronizedSet(), your statement is correct. However, I still maintain that the synchronizedSet will force you to lose some concurrency you may have been hoping to gain by running multiple threads. Using a collection that is designed for concurrency will provide much finer grained control--but then your assumptions about the toArray will no longer apply. It's important that people know what makes the call atomic as opposed to assuming it is all the time. –  Berin Loritsch Jan 3 '11 at 15:36

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