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I have a set of counters which will only ever be updated in a single thread.

If I read these values from another thread and I don't user volatile/atomic/synchronized how out of date can these values be?

I ask as I am wondering if I can avoid using volatile/atomic/synchronized here.

I currently believe that I can't make any assumptions about time to update (so I am forced to use at least volatile). Just want to make sure I am not missing something here.

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As out of date as they need to be to screw you over. Seriously. Don't play such games. Just do it properly. –  delnan May 9 '13 at 20:34
Why would you want to avoid using those keywords? –  nullptr May 9 '13 at 20:34
I couldn't +1 delnans comment above enough. As far as I know, without any synchronisation primitive, the changes to the value are not guaranteed to be visible to any other thread, ever. –  Joachim Isaksson May 9 '13 at 20:41
The only guarantee you have is that if thread A writes something that is read later by B and the write and read are properly synchronized (using synchronized, volatile, or any concurrent collection), then everything that has been written before this write by A will be visible from B. So if you regularly synchronize the threads for another shared state, then you'll at least see the last change made to the counter before this synchronization. But this really sounds like premature optimization to me. –  JB Nizet May 9 '13 at 21:33
An easy fix is to make the real counter an atomic value. Then write into it every 256 iterations (or however many) of a per-thread counter. In this way you get speed and correct operation. –  Zan Lynx May 9 '13 at 21:39

4 Answers 4

How stale a value can get is left entirely to the discretion of the implementation -- the spec doesn't provide any guarantees. You will be writing code that depends on the implementation details of a particular JVM and which can be broken by changes to memory models or to how the JIT reorders code. The spec seems to be written with the intent of giving the implementers as much rope as they want, as long as they observe the constraints imposed by volatile, final, synchronized, etc.

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.... or simply by the next update, where the JIT makes a slightly different decision here and there –  Ingo May 9 '13 at 22:05
Thanks for the spec reference (+1). Of course I wouldn't want to write something which was JVM dependent. –  Gareth May 9 '13 at 23:12

I ask as I am wondering if I can avoid using volatile/atomic/synchronized here.

In practice, the CPU cache is probably going to be synchronized to main memory anyway on a regular basis (how often depends on many parameters), so it sounds like you would be able to see some new values from time to time.

But that is missing the point: the actual problem is that if you don't use a proper synchronization pattern, the compiler is free to "optimise" your code and remove the update part.

For example:

class Broken {
    boolean stop = false;

    void broken() throws Exception {
        while (!stop) {

The compiler is authorised to rewrite that code as:

void broken() throws Exception {
    while (true) {

because there is no obligation to check if the non-volatile stop might change while you are executing the broken method. Mark the stop variable as volatile and that optimisation is not allowed any more.

Bottom line: if you need to share state you need synchronization.

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You are right as well (+1). –  Gareth May 9 '13 at 23:17
up vote 0 down vote accepted

It looks like the only way that I can avoid the synchronization of these variables is to do the following (similar to what Zan Lynx suggested in the comments):

  1. Figure out the maximum age I am prepared to accept. I will make this the "update interval".
  2. Each "update interval" copy the unsynchronized counter variables to synchronized variables. This neeeds to be done on the write thread.
  3. Read thread(s) can only read from these synchronized variables.

Of course, this optimization may only be a marginal improvement and would probably not be worth it considering the extra complexity it would create.

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Also note that the cost of volatile read is benign on recent infrastructures (although a volatile write is a little more expensive). So you could read from a volatile variable all the time, but write to the volatile variable only every x seconds and use a normal variable the rest of the time. –  assylias May 10 '13 at 8:36

Java8 has a new class called LongAdder which helps with the problem of using volatile on a field. But until then...

If you do not use volatile on your counter then the results are unpredictable. If you do use volatile then there are performance problems since each write must guarantee cache/memory coherency. This is a huge performance problem when there are many threads writing frequently.

For statistics and counters that are not critical to the application, I give users the option of volatile/atomic or none with none the default. So far, most use none.

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