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In the following hypotetical scenario and out of desire to better understand the language, is volatile required for the int[] reference?

public final class SO {

    private int[] ar = new int[10];  // is volatile needed here?
    private int idx = 0;

    public synchronized int get( int i ) {
        return ar[i];
    }

    public synchronized void append( final int val ) {
        if ( idx == ar.length ) {
            // array is too small, let's grow it
            final int[] prev = ar;
            ar = new int[ar.length+ar.length*20/100]
            System.arrayCopy(prev, 0, ar, 0, prev.length);
        }
        ar[idx++] = val;
    }

}

The only way to retrieved an int is trough a synchronized method and the only way to modify the int[] (including creating a new int[]) is also done trough a synchronized method.

I do not need to add any additional synchronization right?

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You've tagged this as primitive but in fact int[] is an Object as it's a java array. –  wmorrison365 Jan 19 '12 at 15:50
    
Making ar volatile only make assigments to ar (not an element inside it) a volatile write –  Peter Lawrey Jan 19 '12 at 16:12
    
ar.length+ar.length*20/100 = ar.length*6/5 –  Peter Lawrey Jan 19 '12 at 16:12
    
@PeterLawrey While that's true, there's no benefit to removing the readability of +20%. But that should be expressed as ar.length*120/100 - No, actually I guess you would hit integer overflow sooner with *120. –  weston Jan 19 '12 at 16:45

4 Answers 4

up vote 3 down vote accepted

No, volatile not needed because it is only accessed inside synchornised methods so it is already thread safe. No further thread safety is needed in your code.

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it will would just like you said since the int is protected by the class lock - but it will be dog slow, since write and read access block each other. (see CopyOnWriteList implementation for a faster way)

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I don't know if "class lock" is the accepted term, but it suggests one lock for all instances. Where as this is equivilant to a synchronized(this){...} block. –  weston Jan 19 '12 at 15:51
1  
i think it is more common to annotate the property with @GuardedBy("this") to make it more clear. So it's more of a class level declaration than object level wher you hand in the object to lock on. –  light_303 Jan 19 '12 at 15:55

You are fine, unless your values are accessed somewhere else without synchronization.

By the way, if you did make ar volatile instead of using synchronized methods, you would need to make idx volatile too. But that still would not be sufficient synchronization because two different threads running append at the same time could wreak havoc.

Actually, there's another problem with using a volatile array: changing a value in the array does not trigger a cache synchronization. Only reassigning the array (like you do when creating a bigger array) triggers a cache flush.

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As per java lang specfication having volatile add strict rules for threads(read/write from main memory), using synchronized relaxes on that little bit.

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