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I'm trying to solve a Java synchronization problem. The case is as follows:

There are class Persons and they want to be paired. So I have a class Coupling that does the pairing. When a person walks in to the Coupling and there is no one waiting for her, she starts to wait. And waits until someone comes along or she gets bored and leaves (predifines timer goes off).

If she walks in and finds someone waiting for her, they are immediately coupled and they exchange phone numbers and go their separate ways. (Continue execution with the other's information.)

The same person can't leave with two people.

I promise that this is not a university exercise I'm trying to cheat in. :) I just havn't done this stuff in a while and I'm a bit rusty at it.

This is something I came with up at first, so the Thread is trying to set the Person, and if this doesn't work it'll get false as return value. Then the thread gets the waiter. For obvious reasons, this will not work (another thread might come between the calls) and how would I signal the waiting thread to go on.

Here's the code I mentioned:

public class Coupling {
    private static volatile Person waitingPerson = null;

    public static synchronized Integer getWaitingPerson() {
        Integer temp = waitingPerson;
        waitingPerson = null;
        return temp;

    public static synchronized Boolean setWaitingPerson(Integer waitingPerson) {
        if (waitingPerson == null){
            syncro.waitingPerson = waitingPerson;
            return new Boolean(true);
            return new Boolean(false);
share|improve this question
in this exercise, where do the threads come into play? how many threads do you have, what do they represent, etc? –  matt b Apr 1 '11 at 16:37
why are you using both volatile AND synchronized? –  Liv Apr 27 '11 at 13:06

4 Answers 4

up vote 0 down vote accepted

A simple solution

private final Exchanger<Person> waitingPerson = new Exchanger<Person>();

public Person getWaitingPerson(Person person, int timeoutMS) 
        throws InterruptedException, TimeoutException {
    return waitingPerson.exchange(person, timeoutMS, TimeUnit.MILLISECONDS);

I assume that these Persons have no sexual preference. ;)

I assume a Person cannot turn into an Integer

You talked about waiting but you don't wait anywhere. ;)

This would be much simpler to implement using BlockingQueues.

BTW: Never use new Boolean(true) or new Boolean(false) in fact there is no reason not to use boolean

share|improve this answer
These are comments. Not really an answer. –  Gray Apr 1 '11 at 16:35
In this case, there's no reason to use boolean. But sometimes you'll need to use AtomicBoolean. –  mre Apr 1 '11 at 16:36
@noob, As a return value for a constant? –  Peter Lawrey Apr 1 '11 at 16:40
@Gray, I was hoping that the OP would give code which compiled or answers to the questions, but instead I will just give my answer. ;) –  Peter Lawrey Apr 1 '11 at 16:42
I just now realized the power of the Exchanger! That'll work and it's actually quite an elegant solution (I know, Dijkstra rolls over in his grave for that). Thanks!!! –  user594883 Apr 3 '11 at 6:19

If you really just want to get into this stuff and this is your example problem, try to get a copy of Java Concurrency in Practice, and find out for yourself. Its a great book.

share|improve this answer
Sounds like an advertisement. –  mre Apr 1 '11 at 16:37
@noob: Hehe, yes, you are right. But accidentially I really love this book. I swear I do not profit from this book :). –  Daniel Apr 1 '11 at 16:38

Okay, I'll mangle your problem a little bit and propose a solution, then you'll tell me if you're satisfied :-)

First, have you considered making the "pairing" operation asynchronous? It would work pretty much like this:

  1. A Person who wants to be paired, leaves a notification at a Coupling thread;
  2. When a second person leaves a "free" notification, the Coupling thread notifies the two people.

How would that work in code? Well, you'd need two things:

  1. A lock that supports accumulated permits (a semaphore!);
  2. A thread safe data structure (well, just in case. It really doesn'd need to be thread safe)

So, every time a Person wants to be paired, it notifies the Coupling thread, that adds the Person to its "free people" list and releases one permit from the semaphore. The Coupling thread, on the other hand continuously try to acquire semaphore permits, two at a time. Since a permit is only released when a Person leaves a notification, having two permits means that two people want to be paired.

Well, less talk, more code. Here's the Coupling thread class:

import java.util.concurrent.BlockingQueue;
import java.util.concurrent.LinkedBlockingQueue;
import java.util.concurrent.Semaphore;

public class Coupling implements Runnable {
    private BlockingQueue<Person> peopleQueue;

    private Semaphore semaphore;

    public Coupling() {
        this.peopleQueue = new LinkedBlockingQueue<Person>();
        this.semaphore = new Semaphore(0);

    public void run() {
        while(true) {
            // Process incoming "free" events

            try {
                // Acquire permits for two people

                Person pA = this.peopleQueue.poll();
                Person pB = this.peopleQueue.poll();

            } catch (InterruptedException e) {  // This shouldn't really happen..?

     * Invoked to notify that a Person is waiting for a coupling
     * @param person
    public void notifyFreePerson(Person person) {

And the Person class:

public class Person {
    public void notifyPairing(Person other) {
        System.out.printf("I've been paired with %s!\n)", other);
share|improve this answer
I like it. I was thinking Semaphore as well, since we need a count of some sort. I might have naively made the notifyFreePerson method synchronized, but I think it works well the way you have it. –  Java Drinker Apr 1 '11 at 18:23

How not to do it. Rough solution I put together after tackling something similar for a test recently. Has issues as noted in a comment below.

public class Coupling implements Runnable {

    private static Person waitingPerson = null;

    private static Person secondPerson = null;

    private static final Object waitLock = new Object();

    // Time out after a second
    private static final Integer TIMEOUT = 1000;

    public static Person getWaitingPerson(Person incoming) {

        Person match = null;

        // We're the second person in.
        synchronized (waitLock) {
            if (waitingPerson != null) {

                // Get the person who is waiting
                match = waitingPerson;
                waitingPerson = null;
                secondPerson = incoming;

                // Let the other person know
                return match;

        // We're the first person in, wait for a second
            waitingPerson = incoming;
            try {
                // Wait until someone is available
            } catch (InterruptedException e) {

            if(secondPerson != null){
                // Get the other person
                match = secondPerson;
                secondPerson = null;
                return match;
            } else {
                // We timed out, reset
                waitingPerson = null;
                return null;


I've intentionally ignored any specifics of the Person class (not sure what your Integer temp was supposed to do).

share|improve this answer
There are some serious race conditions with this model. If enough threads queue up on the waitLock, then multiple threads could get the same secondPerson. It's important to realize that just because something has been notified does not mean it runs next. It just means it goes back into the ready queue behind whatever threads are already there. –  Gray Apr 1 '11 at 19:16
Very good point, thanks for the critique. Explains some weird behaviours I was seeing with my test app the other day. I'll leave it up as a warning to others. –  Tom Elliott Apr 1 '11 at 19:47
Here's a good page I wrote a while page on race conditions in response to what I think is a wrong stackoverflow answer. 256.com/gray/docs/misc/producer_consumer_race_conditions –  Gray Apr 1 '11 at 20:18
the Integer temp was my bad, was suppose to be Person temp. Sorry. –  user594883 Apr 2 '11 at 8:53

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