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I'm testing out a code where I have 2 methods and a statement in each method is synchronized.

private final Object obj1 = new Object();
private final Object obj2 = new Object();

public void method1(int result)
{
 //there's a loop to create delay

 synchronized (obj1){
   sum = sum + result;
 }

 //there's a loop to create delay

}


public void method2(int result)
{
  //there's a loop to create delay

 synchronized (obj2){
   sum = sum - result;
 }

 //there's a loop to create delay

}

What I'm basically doing is I add a result to sum then subtract the same amount then print the sum. So my initial and final amount should be constant.

The problem is I don't know why the final amount is not the same as initial amount when I use 2 diff objects as lock. HOWEVER it's constant when I use 'this' object as lock for both statements. But using 'this' as object didn't make execution time faster than using method synchronized.

I'm still new to synchronization concept so any help is appreciated.

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up vote 2 down vote accepted

When you specify an object in the synchronize block, that object is used like a lock for that block: only one synchronize block can use a lock object at any time.

When you use two different objects as locks, they become two different locks: two threads can lock them both at the same time - one thread per lock. This explains the inconsistent results: two threads can grab two separate locks concurrently, and modify the sum concurrently, resulting in incorrect calculations.

You should use a single lock to protect a single resource from concurrent access. This is what happens when you use this; the same would happen if you used obj1 or obj2 in both synchronize blocks, except in this case a user of your object would not be able to cause your methods to block forever by synchronizing on your object, and intentionally not releasing the lock.

share|improve this answer
    
Can you explain why the time diff between method and block synchronize are not noticeable for this case? (I didn't down vote either) – user977151 Sep 28 '12 at 20:25
    
Also, the advantage of using an internal object to lock on instead of this is that it cannot be acquired externally, which would block the operation. (I'm not the downvoter) – Frank Pavageau Sep 28 '12 at 20:25
    
@dasblinkenlight, I am apparently the downvoter. I don't know why though as I actually upvoted the answer. Please edit your answer so that I can rectify this. – w0051977 Sep 28 '12 at 20:29
    
@user977151 I've lost the context a little: could you clarify to which scenario does your "this case" refer, the two separate locks, or a single lock? – dasblinkenlight Sep 28 '12 at 20:33
    
@user977151 There's no difference between a synchronized method and a method only containing a block synchronized on this because they're the same. – Frank Pavageau Sep 28 '12 at 20:33

Both synchronized blocks should be on same object(either obj1 (or) obj2), if you would like synchronize operations on sum.

Otherwise each thread acquires lock on one object and they can perform operations same time.

Each thread acquires a lock on object before executing any protected code. T1 may acquire lock of Obj1 and T2 may acquire lock of Obj2 same time and continue execution, which may give inconsistent results.

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