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class server {
    private Vector<Msg> v = new ...
    public void deliver(Msg msg) {

class client {
    private server s = server.getInstance(); // singleton
    public void propose() {
       s.deliver(new Msg( ... ));

If multiple concurrent clients pass a value (Msg object) to a server by means of a [non-synchronized!] deliver method, is it feasible to assume that whatever client calls [or, more precisely, enters] deliver first will store its value first in v – or is making deliver synchronized mandatory to make this assumption hold?

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up vote 3 down vote accepted

No, you cannot make such assumption because the scheduler can interrupt current thread that is inside deliver() but haven't yet made it to v.add(msg). Scheduler switches to another thread that calls deliver() (afterwards) but manages to finish the whole deliver() invocation.

If you synchronize deliver() method, it won't prevent the scheduler from interrupting the execution in the meantime. But no other thread will be capable of entering that method while the first thread holds the lock si eventually the scheduler will wake up the original thread and let him finish.

BTW Vector is quite ancient, there are better alternatives.

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Well, for the latter part: the server instance is actually accessing a ConcurrentHashMap - and notifies local worker threads to deal with newly added values ...but for the sake of simplicity, I chose Vector in my example - since it's "synchronized-by-design" (and doesn't add another level of complexity to the question). [Admittedly, the "level of complexity" of my question wasn't that high in the first place it turns out.] – fbahr Jul 15 '12 at 20:34

If the server is multi-threaded, then if deliver is not synchronized, then it is not guaranteed that the first message received will be added first.

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