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I'm trying to implement a two-lock concurrent queue in Java, but I can't get it to pass the automated tests. Please let me know the errors in my code:

private static class Link<L> {
    L val;
    Link<L> next;
    Link(L val) { this.val = val; this.next = null; }
}
T v;
private Link<T> initNode = new Link<T> (v);
private Link<T> first = initNode;
private Link<T> last = initNode;

public void enque(T val) {
    Link<T> newLink = new Link<T> (val);
    synchronized (this.last) {
        last.next = newLink;
        last = newLink;
    }
}

public T deque() {
    synchronized (this.first) {
        Link<T> new_head = first.next;
        if (new_head == null)
            return null;
        T rtnVal = new_head.val;
        first = new_head;
        return rtnVal;
    }
}
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Is this homework? –  Mike Daniels Nov 16 '10 at 21:00
    
if I don't initialize the queue with an arbitrary node, I get NullPointerException at the synchronized () part. –  segfault Nov 16 '10 at 21:03
    
@Mike: yes, but all the code was written by myself. –  segfault Nov 16 '10 at 21:03
1  
It would help to know what tests are failing. –  Jeremy Heiler Nov 16 '10 at 22:37

1 Answer 1

up vote 3 down vote accepted

The biggest issue here is that you are changing which object is being synchronized on. What ends up happening is really undeterministic.

In your synchronized block you have:

synchronized (this.last) {
    last.next = newLink;
    last = newLink;
}

Since last is being changed, another thread can enter the enque method and enter the synchronized block at the same time. Your best bet is to have two Objects to block on:

private final Object ENQUEUE_LOCK = new Object();
private final Object DEQUEUE_LOCK = new Object();

I dont know if this is necessarily why your tests are failing, but it would resolve that concurrency issue.

Edit: It turns out, for me and my testing at least, having two dedicated locks does resolve strange issues I saw with the queue.

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2  
I don't believe this will help either, consider the situation, list is empty, both first/last is newLink, now two threads at the same time, one acquires ENQUEUE_LOCK, the other the DEQUEUE_LOCK, both will proceed to modify newLink and what happens next is undefined... –  Nim Nov 16 '10 at 21:54
2  
I stand corrected, apparently it does work with the two locks, and this appears to be the algorithm: cs.rochester.edu/research/synchronization/pseudocode/… –  Nim Nov 16 '10 at 23:05

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