Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

If I have an instance of an HashSet after I ran it through Collections.unmodifiableSet(), is it thread-safe?

I'm asking this since Set documentation states that it's not, but I'm only performing read operations.

share|improve this question
See also… – Raedwald Apr 15 at 8:54
up vote 28 down vote accepted

From the Javadoc:

Note that this implementation is not synchronized. If multiple threads access a hash set concurrently, and at least one of the threads modifies the set, it must be synchronized externally

Reading doesn't modify a set, therefore you're fine.

share|improve this answer
Except creating the HashSet and adding values to it, so it is usefully not empty, writes to it. So this answer is misleading. – Raedwald Apr 15 at 8:45

HashSet will be threadsafe if used in a read-only manner. That doesn't mean that any Set that you pass to Collections.unmodifiableSet() will be threadsafe.

Imagine this naive implementation of contains that caches the last value checked:

Object lastKey;
boolean lastContains;

public boolean contains(Object key) {
   if ( key == lastKey ) {
      return lastContains;
   } else {
      lastKey = key;
      lastContains = doContains(key);
      return lastContains;

Clearly this wouldn't be threadsafe.

share|improve this answer
Changed from a Map example to a gross Set example to be more applicable to the question. – Mark Peters Mar 21 '11 at 15:35

It would be thread safe, but only owing to the fact that Collections.unmodifiableSet() internally publishes the target Set in safe manner (via the final field).

Note that in general statements such as "read-only objects are always thread-safe" are not correct, since they don't take into account possibility of operation reordering.

It's (theoretically) possible that, due to operation reordering, a reference to that read-only object will become visible to other threads before object is completely initialized and populated with data. To eliminate this possibility you need to publish references to the object in safe manner, for example, by storing them in final fields, as it's done by Collections.unmodifiableSet().

share|improve this answer
+1, in general statements such as "read-only objects are always thread-safe" are not correct – user381105 Mar 21 '11 at 17:05
Why final keyword makes this "read-only" thread-safe in regard to operation re-ordering? Does the JVM acts differently due to that? – Asaf Mesika Mar 25 '11 at 16:46
@Asaf: Yes, final fields are the special case, see – axtavt Mar 25 '11 at 16:49
Is it documented that the wrapper safely publishes? If not, it is unsafe to assume it does so. Although I can't imagine an implementation that didn't use a final field internally. – Raedwald Apr 15 at 8:48

Every data structure is thread-safe if you don't mutate it.

Because you have to mutate a HashSet in order to initialize it, it is necessary to synchronize once between the thread which initialized the set and all reading threads. You have to do it only one time. For example when you pass the reference to the unmodifiable set to a new thread which never touched it before.

share|improve this answer
That's not precisely true. Take a look at my answer for an example where it's not true. There is still mutation, but the user can't know that; it's mutation of encapsulated state. – Mark Peters Mar 21 '11 at 15:30
That is so not true. At least in Java. There is a difference between object you don't mutate and immutable object. Of these two only immutable objects automatically threadsafe. Object is immutable if: 1) it cannot be modified after construction 2) all its fields are final 3) this reference didn't escape during construction – user381105 Mar 21 '11 at 17:02
@jmg String is most definitely immutable. Your odd conclusion is based on the fact that a particular method is not referentially transparent as it depends on a another implicit parameter. This is a property of the method, not the object itself. – Jed Wesley-Smith Mar 21 '11 at 22:23
@jmg also reading a global variable is not a side-effect, it is simply not referentially transparent. You may however read this variable and supply it as an argument, so reading the current Locale and supplying it to String.toUpperCase has made the String function referentially transparent. – Jed Wesley-Smith Mar 21 '11 at 22:26
@jmg @Mark_Peters String is not immutable but it is thread-safe. It has a cached hashcode whose setting has a race condition. This race is benign though as the hash function is referentially transparent. – Jed Wesley-Smith Mar 21 '11 at 22:40

I don't believe it is thread safe just because you run Collections.unmodifiableSet(). Even though the HashSet if fully initialized and you marked it as unmodifiable, doesn't mean that those changes will be visible to other threads. Even worse, in the absence of synchronization, a compilier is allowed to re-order instructions, which could mean that not only does a reading thread see missing data but it can also see the hashset in a wierd state. Therefore you will need some synchronization. I believe one way around this is to create the hashset as final and to fully initialize it in the constructor. Here is a good article on the JMM Read the section on How do final fields work under the new JMM?

The ability to see the correctly constructed value for the field is nice, but if the field itself is a reference, then you also want your code to see the up to date values for the object (or array) to which it points. If your field is a final field, this is also guaranteed. So, you can have a final pointer to an array and not have to worry about other threads seeing the correct values for the array reference, but incorrect values for the contents of the array. Again, by "correct" here, we mean "up to date as of the end of the object's constructor", not "the latest value available".

share|improve this answer
As pointed out elsewhere, Collections.unmodifiable views safely-publish the state of the set as it was when the unmodifiable wrapper was created (happens-before). Subsequent changes are not though, and the original reference should be abandoned. – Jed Wesley-Smith Mar 21 '11 at 22:33

Yes, it is safe for concurrent read access. Here is the relevant sentence from the documentation:

If multiple threads access a hash set concurrently, and at least one of the threads modifies the set, it must be synchronized externally.

It states that you only need to synchronize if at least one thread modifies it.

share|improve this answer

If the shared memory will never be changed, you can always read without synchronizing. Making the set unmodifiable will just enforce the fact that no writes can be made.

share|improve this answer
This is very, very wrong. There must be a happens-before relationship of some kind between the original write and the read otherwise there is no guarantee that anything apart from the default value will be seen. While on x86 architectures, you will usually see something, that is not the same as any sort of guarantee. – Jed Wesley-Smith Mar 21 '11 at 22:35

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.