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The printed result is -20000000, which proves that I don't need to synchronize the size() method. But my understanding is that I should synchronize size() too. What's the real situation here?

public class Test {
    public static void main(String[] args){
        Counter c = new Counter();
        T1 t1 = new T1(c);
        T1 t2 = new T1(c);

        } catch (Throwable t) {


        System.out.println("c=" + c.size());

class T1 extends Thread{
    private Counter c;

    public T1(Counter c){
        this.c = c;
    public void run(){
        for(int i=0; i<10000000; i++){

class Counter {
    private int c = 0;

    public synchronized void increment() {
    public synchronized void decrement() {
    public int size() {
        return c;
share|improve this question
What size()?! –  acdcjunior Apr 13 '13 at 22:29
Sorry. editted. –  user697911 Apr 13 '13 at 22:30

3 Answers 3

up vote 1 down vote accepted

It does work in your example, because after t1.join() and t2.join(), any changes made in t1 and t2 are visible to the main thread.

quoting http://docs.oracle.com/javase/specs/jls/se7/html/jls-17.html#jls-17.4.4

The final action in a thread T1 synchronizes-with any action in another thread T2 that detects that T1 has terminated.

T2 may accomplish this by calling T1.isAlive() or T1.join().

Basically, when a thread starts, it should see all prior changes; after a thread finishes, what it has changed should be visible to others. If thread A starts B, and thread C joins thread B

    A         B        C
 start B --> o
    .        |
    .        |
    .        r1       .
             w2       .
             |        .       
             |        |
             o -->  join B

It's guaranteed that r1 sees w1, r2 sees w2.

share|improve this answer
The Counter class itself, however, is unsafe. Concurrency is hard enough to get right in Java without throwing bad encapsulation into the mix. –  Ryan Stewart Apr 14 '13 at 0:47

it will be good if you write

public int  synchronized size()
share|improve this answer

proves that I don't need to synchronize the size() method

Actually, it only proves that your counter can work sometimes. size() should be synchronized because, basically, the field it accesses could be cached in multiple registers simultaneously, and without any kind of indication that the field is shared among threads, several threads could be working on purely local copies of the same field without ever syncing back to main memory.

The fact that you don't see any problems when you run it is only proof that writing concurrent code in this style is a bad idea.

share|improve this answer
if that's the case, adding 'volatile' is enough without synchronization? –  user697911 Apr 13 '13 at 22:34
But that's a common pattern to use multiple threads to process shared data (a counter object here). why do you say it's a bad idea in this style? –  user697911 Apr 13 '13 at 22:36
@user697911: Yes, making the field volatile will achieve the same end. I wouldn't label processing shared mutable data as a "common pattern" so much as a "common anti-pattern". It's strongly discouraged by many very smart people with lots of experience in the area. –  Ryan Stewart Apr 14 '13 at 0:21

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