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I'm confused by an issue about reference and synchronized keyword a long time. I usually see some code like this:

Class someClass {
    ...
    private SomeObject mObject;
    ...
    public void someMethod() {
        ...
       final SomeObject obj = mObject;
       ...
       //then use the 'obj' variable rather than mObject
       ...
    }

}

My question is why should use local final variable obj to replace the member variable? Why not use the member variable directly?

I also see some example code associated with 'synchronized' keyword,like this:

public void write(byte[] out) {
    // Create temporary object
    ConnectedThread r;
    // Synchronize a copy of the ConnectedThread
    synchronized (this) {
        if (mState != STATE_CONNECTED) return;
        r = mConnectedThread;
    }
    // Perform the write unsynchronized
    r.write(out);
}

Why these code can achieve the synchronized goal? Thanks!

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The second sample seems flawed to me, dependening on what the author tries to achieve of course. –  Johan Sjöberg Feb 24 '11 at 10:41
    
I can't really answer about the synchronized example because I don't understand the relationship between mState, mConnectedThread and 'this', or what the intention of this code is (maybe you could elaborate). Another thread could take the lock on mConnectedThread after the synchronized block and before the r.write(out), but without more information I'm not sure if that is a problem. –  Adriaan Koster Feb 24 '11 at 11:40

4 Answers 4

From what I can understand of your question and the first example, the code is trying to avoid threading problems by wanting to take a local copy of the member variable. The first example doesn't do this, it just gets a new local variable pointing to the same object the member variable points to, but doesn't actually protect invokations on that object from threading issues.

Edit following @Nick's comment: like Nick says, the first example's someMethod method avoids the possibility of having the mObject being replaced by another instance half way through. It doesn't however protect against threading issues by concurrent invokations on the same instance.

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1  
Actually, it protects against another thread modifying the member variable. –  Nick Feb 24 '11 at 10:52

1> I think for ur first question...member variable is not used directly because that reference object can be used in some other methods as well....and in other methods it may not be required to be declared as final as in case of the method as u have shown....so it is good practice to create a local reference of that variable.....

2> Suppose some reference object is being accessed concurrently using threads....now if that object modifies some data then for concurrent access integrity of that data is lost....so it is required that there is some kind of lock on that object reference so that while one thread is accessing one of the reference of that object some other thread should not be able to access it....so this synchronized keyword is used to achieve just that...

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In the first example, I believe the idea is to take a copy of the member variable in a final local variable so that if the member variable is changed on another thread, the copy in the member function will remain the same.

The second example is similar in that it's taking a copy of the currently connected thread in a local variable.

Imagine in either case if the member variable (or connected thread) were accessed directly and then changed part way through the function call by another thread, undefined behaviour may occur.

I'm sure there's a name for this coding pattern but I can't remember it!

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But you're NOT taking a copy - you're pointing to the same object with a new variable. Yes, if the reference of mObject is changed in another thread, then we are protected from this, but we aren't synchronising access to the instance in question. –  Rich Feb 24 '11 at 10:48
    
Actually you are taking a copy it just so happens that its a copy of the reference and so the local variable is pointing to the same object as the member variable. –  Nick Feb 24 '11 at 10:50
    
That's what I said: "you're pointing to the same object with a new variable". –  Rich Feb 24 '11 at 10:53
    
But if the code was rewritten to use the member variable directly then there is the opportunity for another thread to change this member variable and so potentially changing the operation of the function. –  Nick Feb 24 '11 at 10:55
    
I agree! I think we're misunderstanding each other. Until I saw your answer it hadn't occurred to me that the defensive reference that was being taken would protect against another thread modifying the member variable. I also agree that you're taking a copy of the variable, and not the object the variable is pointing to. –  Rich Feb 24 '11 at 11:00

As far as the first question is concerned it's making sure that the method can't modify the object, by aliasing it to a final variable you're ensuring you're not reassigning something later? I'm not sure...

The second question: this works because if mState is not connected then we return from the method and r.write() doesn't get executed. It uses the object itself as a lock.

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1  
It's if mState is NOT connected. –  Rich Feb 24 '11 at 10:46
    
But we can move the 'r = mConnectedThread' out of the synchronized block. I think it get the same result as before. –  Micheal.zu Feb 24 '11 at 11:56
1  
However, mConnectedThread could get set to null by another thread immediately after the synchronized block and before the call to r.write(out). –  Nick Feb 24 '11 at 13:09
    
Yes.Thank your answer. –  Micheal.zu Feb 25 '11 at 1:59
    
I corrected it. –  ranman Feb 25 '11 at 8:32

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