Let's say I have a runnable with a simple integer count variable which is incremented every time runnable runs. One instance of this object is submitted to run periodically in a scheduled executor service.

class Counter implements Runnable {
    private int count = 0;

    public void run() {

Counter counter = new Counter();
ScheduledExecutorService executorService = Executors.newScheduledThreadPool(5);
executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);

Here, the object is accessing its own internal state inside of different threads (reading and incrementing). Is this code thread-safe or is it possible that we lose updates to the count variable when it's scheduled in a different thread?

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    Nope; most definitely not. Apr 5, 2019 at 19:36
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    Just to be clear: When the answers below say "...no happens-before..." what they're saying is, Suppose count==N. Then along comes worker thread A, which sets count = N+1. Then one whole second later, worker thread B is chosen to call the run() method, and worker thread B looks at count. It is possible at that point for worker thread B to still see count == N. Apr 5, 2019 at 19:49

3 Answers 3


Does an object always see its latest internal state irrespective of thread?

Just to be clear for the purposes of this question and its answers, an object doesn't do anything; it's just memory. Threads are the executing entity. It's misleading to say does an object see whatever. It's the thread that's doing the seeing/reading of object state.

This isn't specified in the javadoc, but


returns a ScheduledThreadPoolExecutor.

Your code is using

executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);

The javadoc for ScheduledThreadPoolExecutor#scheduledWithFixedDelay states

Submits a periodic action that becomes enabled first after the given initial delay, and subsequently with the given delay between the termination of one execution and the commencement of the next.

The class javadoc further clarifies

Successive executions of a periodic task scheduled via scheduleAtFixedRate or scheduleWithFixedDelay do not overlap. While different executions may be performed by different threads, the effects of prior executions happen-before those of subsequent ones.

As such, each execution of Counter#run is guaranteed to see the value of count after it's been incremented by the previous execution. For example, the third execution will read a count value of 2 before it performs its increment.

You don't need volatile or any other additional synchronization mechanism for this specific use case.

  • Thank you for pointing out this happens-before guarantee about ScheduledThreadPoolExecutor. Apr 5, 2019 at 23:47

No, this code is not thread-safe because there isn't any happens-before relation between increments made in different threads started with ScheduledExecutorService.

To fix it, you need to either mark the variable as volatile or switch to AtomicInteger or AtomicLong.


As @BoristheSpider mentioned, in general in case of increment/decrement making a variable volatile is not enough since increment/decrement is not atomic itself and calling it from several threads concurrently will cause race conditions and missed updates. However, in this particular case scheduleWithFixedDelay() guarantees (according to Javadoc) that there will be overlapping executions of scheduled task, so volatile will also work in this particular case even with increment.

  • @BoristheSpider taking into account how scheduleWithFixedDelay work there will be no overlapped calls to counter++ in that particular scenario. So volatile should be OK.
    – Ivan
    Apr 5, 2019 at 19:41
  • There is a happens-before relation introduced between subsequent execution of a task scheduled with scheduleWithFixedDelay. Apr 5, 2019 at 20:43
  • How come volatile is not enough? The semantics of volatile should hold in every case and it would solve this problem. In the past, the writing of doubles and longs could have been more difficult to do atomically since those occupied more than one 32-bit register. However, as far as I can tell, that should not affect the semantics of volatile. Or am I missing something? Apr 5, 2019 at 20:51
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    @EdwinDalorzo in this particular case volatile is enough. But in general case not because increment is effectively translated into 3 operations: read, add, write and is prone to race condition in multithreaded environment
    – Ivan
    Apr 5, 2019 at 20:54
  • To reiterate, the code they have posted is thread-safe. This answer is wrong. Apr 5, 2019 at 21:55

No, this code is not thread-safe since there isn't any happens before relation between different threads accessing count.

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    @michid please correct me if I am wrong but shouldn't counter++ be synchronized too as increment operation is not atomic.
    – YK S
    Apr 5, 2019 at 19:37
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    Does counter++ need to be synchronized even if it's guaranteed that only one thread will be running this runnable at a time (like in the code in the question)? Apr 5, 2019 at 19:39
  • @RandomQuestion yes. Because visibility. Apr 5, 2019 at 19:40
  • I agree with the comments here that accesses to counter++ should be synchronized and that merely declaring it volatile is not sufficient. I edited my answer accordingly focusing on the happens-before relation.
    – michid
    Apr 5, 2019 at 19:44
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    @RandomQuestion To reiterate, the code you have posted is thread-safe. This answer is wrong. Apr 5, 2019 at 21:55

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