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Is this Java class thread safe or reset method needs to be synchronized too? If yes can someone tell me the reason why?

public class NamedCounter {
   private int count;
   public synchronized void increment() { count++; }
   public synchronized int getCount() { return count; }
   public void reset() { count = 0; }
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There's no way to answer this question without knowing the desired semantics. What guarantees are you expecting, if any? – David Schwartz Jul 4 '13 at 8:33
why are you not using AtomicInteger ? – jlordo Jul 4 '13 at 8:33
up vote 2 down vote accepted

Note that synchronized is not just about mutual exclusion, it is fundamentally about the proper ordering of operations in terms of the visibility of their actions. Therefore reset must be synchronized as well, otherwise the writes it makes may occur concurrently to other two methods, and have no guarantee to be visible.

To conclude, your class is not thread-safe as it stands, but will be as soon as you synchronize the reset method.

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I don't think this answer makes sense. If it's not synchronized by the caller, it's not safe whether or not it's synchronized itself. Consider one thread calling reset and another calling increment at the same time. The result is not guaranteed even with synchronized on reset. So this is neither sufficient nor necessary to give reset predictable behavior. – David Schwartz Jul 4 '13 at 8:35
@DavidSchwartz What has be synchronized highly depends on the use case. Therefore you don't know where to synchronize as long as you don't know the exact use case. – Uwe Plonus Jul 4 '13 at 8:38
@UwePlonus: Exactly. And since this answer's suggestion is neither necessary nor sufficient to make the class predictable, it's a bad answer. – David Schwartz Jul 4 '13 at 8:38
@DavidSchwartz You have not raised any kind of serious issue. reset may perfectly consistently be called concurrently with increment. – Marko Topolnik Jul 4 '13 at 8:38
@MarkoTopolnik: If the value is 2 before the concurrent call, what is the final result? Hint: It's unpredictable. – David Schwartz Jul 4 '13 at 8:39

Not without synchronizing rest() and adding more methods. You will run into cases where you will need more methods. For example

NamedCounter counter = new NamedCounter();
// at this exact time (before reaching the below line) another thread might change changed the value of counter!!!!
if(counter.getCount() == 1) {
    //do something....this is not thread safe since you depeneded on a value that might have been changed by another thread

To fix the above you need something like

NamedCounter counter = new NamedCounter();
if(counter.incrementAndGet()== 1) { //incrementAndGet() must be a synchronized method
    //do it is thread safe

Instead, use Java's bulit-in class AtomicInteger which covers all cases. Or if you are trying to learn thread safety then use AtomicInteger as a standard (to learn from).

For production code, go with AtomicInteger without even thinking twice! Please note that using AtomicInteger does not automatically guarantee thread safety in your code. You MUST make use of the methods that are provided by the api. They are there for a reason.

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+1 for recommending AtomicInteger – Dahaka Jul 4 '13 at 8:55
Just note that, under serious contention, CAS will perform worse than locking due to excessive retries. CAS is perfect for low-to-medium contention, just like any other optimistic locking scheme. – Marko Topolnik Jul 4 '13 at 9:06
Here is a read CAS vs Locking – Multithreader Jul 4 '13 at 9:15

You have to synchronize your reset() method also.

To make a class thread safe you have to synchronize all paths that access a variable else you will have undesired results with the unsynchronized paths.

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How do you know what results he desires? Why do you assume he doesn't care if calling reset and increment at the same time gives unpredictable and inconsistent results. See my comment to Marko -- this is neither necessary nor sufficient to make the class predictable. – David Schwartz Jul 4 '13 at 8:37

You need to add synchronized to reset method too and then it will be synchronized. But in this way you achieve syncronization through locks, that is, each thread accesing the method will lock on the NamedCounter object instace.

However, if you use AtomicInteger as your count variable, you don't need to syncronize anymore because it uses the CAS cpu operation to achieve atomicity without the need to synchronize.

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Not an answer, but too long for a comment:

If reset() is synch'ed, then the 0 become visible to any thread that reads or increments the counter later. Without synchronization, there is no visibility guarantee. Looking at the interaction of concurrent increment and the unsychronized reset, it may be that 0 becomes visible to the incrementing thread before entering the method, then the result will be 1. If counter is set to 0 between increment's read and write, the reset will be forgotten. If it is set after the write, the end result will be 0. So, if you want to assert that for every reading thread, the counter is 0 after reset, that method must be synchronized, too. But David Schwartz is correct that those low-level synchronizations make little sense whithout higher-level semantics of those interactions.

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