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Is this Java class threadsafe?

class Counter() {

  private Long counter = 0;

  Long get() { return counter; }

  Long inc() { return ++counter; }

If not, is it possible to make it threadsafe without using locks explicitly (or the synchronized keyword)? If not, then I guess the following is the simplest way to achieve my goal?

class Counter() {

  private final AtomicLong counter = new AtomicLong(0);

  Long get() { return counter.get(); }

  Long inc() { return counter.incrementAndGet(); }
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Your first example, aside from being uncompilable, doesn't do what you think it does. –  Perception Mar 18 '13 at 13:46
I assume you mean ++counter which should not compile because of the final. Right? –  Gray Mar 18 '13 at 13:47
If you remove the syntax errors and change the variable name from long to counter, it will indeed not compile because of the final, yes. –  Perception Mar 18 '13 at 13:48

3 Answers 3

No, the first example is not thread-safe since ++counter is not atomic. For example, there is nothing to stop two threads executing ++counter at the same time and losing one of the increments.

The second example is thread-safe, meaning that no increments will get lost. It is worth noting that both get() and inc() return a value that could well be obsolete by the time the caller receives it.

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His code says ++long which is not right and ++counter shouldn't compile with the final, right? –  Gray Mar 18 '13 at 13:48
@Gray: Yes, these are the obvious errors I mention :) –  NPE Mar 18 '13 at 13:49

Long is immutable, then it is thread-safe. What is not thread-safe is the unbox-increment-and-assign required by inc, which (properly implemented) is equivalent to:

Long inc() { return counter= long.longValue()+1; }
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A different answer regarding thread-safey and longs. A long in Java is 64 bits which take up two separate 32 bit registers. You have high 32 bits and low 32 bits. A single write accounts for two non-atomic 32 bit stores.

You can end up with a high 32 bit write from one thread and a low 32 bit write from another thread which could produce a number that is neither from the first thread or second.

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While that is a concern, in this case -- as finally edited -- it's not. The OP is using a Long, not a long. This instance variable must be unboxed within the method to be incremented, then is reboxed before being stored back in the instance variable. The long that is actually incremented only appears on the operand stack of the invoking method. –  parsifal Mar 18 '13 at 14:27
@Parisfal Agreed that in this instance it may not be a issue, but is an issue to know about with thread-safety and Long/longs in general. And regardless of Long or long, the thread-safety failure of incrementing occurs with or without boxing. –  John Vint Mar 18 '13 at 14:36

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