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I wrote this Dining Philosopher code but the last thread does not produce the desired "xxx has finished his dinner" line? What did I do wrong?

It seems the last thread terminates prematurely.

I would appreciate any help on this.

import java.util.Random;

public class DiningPhilosophers {

    //An array holding all the chopsticks
    private final Chopstick[] chopsticks = new Chopstick[5];

    /*Constructor for the main class
    * Creates all the chopsticks 
    * Creates and starts all the threads*/
    public DiningPhilosophers(){
        Thread t1 = new Thread(new Philosopher("First",this.chopsticks[4],this.chopsticks[0]));
        Thread t2 = new Thread(new Philosopher("Second",this.chopsticks[0],this.chopsticks[1]));
        Thread t3 = new Thread(new Philosopher("Third",this.chopsticks[1],this.chopsticks[2]));
        Thread t4 = new Thread(new Philosopher("Fourth",this.chopsticks[2],this.chopsticks[3]));
        Thread t5 = new Thread(new Philosopher("Fifth",this.chopsticks[3],this.chopsticks[4]));


    /*Initialise the chopsticks in the array*/
    private void putChopsticksOnTheTable(){
        for(int i = 0;i < chopsticks.length;i++)
        chopsticks[i]= new Chopstick(); 

    public static void main(String[] args){
        new DiningPhilosophers();

class Philosopher extends Thread{
private static final int EATING_TIME_LIMIT = 1000;
private static final int THINKING_TIME_LIMIT = 800;
private int EAT_TIMES = 5;
private final Random randomise = new Random();
private final Chopstick _leftChopstick;
private final Chopstick _rightChopstick;
private final String _name;
private State _state;

/* Enumeration class that holds 
* information about the possible 
* Philosopher's states 
public enum State {

* Main constructor for the Philosopher class
* @param name   the name of the Philosopher
* @param leftChopstick  the chopstick that is currently on the left of the Philosopher
* @param rightChopstick the chopstick currently on the right of the Philosopher
public Philosopher(String name, Chopstick leftChopstick, Chopstick rightChopstick) {

    this._leftChopstick = leftChopstick;
    this._rightChopstick = rightChopstick;
    this._name = name;


* The method eat that uses two chopsticks. It blockes the two Chopstick
* objects so they could not be changed then it changes their state 
* as well as the state of the philosopher
* At the end of the method, the chopsticks' state is reverted and
* the Philosopher goes into the Thinking state 
private void tryToEat() throws InterruptedException 

            while(_leftChopstick.inUse() || _rightChopstick.inUse())

                }catch (InterruptedException e){}
                    synchronized(_rightChopstick) {
                        System.out.println(_name + " picks up the left chopstick...");
                        System.out.println(_name + " picks up the right chopstick...");
                    finally {
                        System.out.println(_name + " puts down the left chopstick...");
                        System.out.println(_name + " puts down the right chopstick...");

    if(this.EAT_TIMES > 0)


private void eat() throws InterruptedException
    if(this.EAT_TIMES == 0)
        System.out.println("***************************" + _name + " has finished his dinner");

* This method only changes the state 
* of the Philosopher to Thinking
private void think() throws InterruptedException{

* Set the current state of the Philosopher
private void setPhilosopherState(State state){
    this._state = state;        

    if(_state == State.EATING)
        System.out.println ("*** " + _name + " is EATING for the " + (6 - EAT_TIMES) + " time!");
        System.out.println( _name + " is THINKING...");

* Get the current state of the Philosopher
public State getPhilosopherState(){
    return _state;

* The method is invoked with the start of the thread
* and runs the eat function for 10 times
public void run(){
    while(this.EAT_TIMES > 0){
        try {
        } catch (InterruptedException e) {



class Chopstick
   private boolean _inUse;

    * @return the current state of the chopstick
    public boolean inUse(){
        return _inUse; 

    * @param usedFlag the new state of the chopstick
    public synchronized void pickUp()
        _inUse = true;

    public void putDown()
        _inUse = false;
share|improve this question
Instead of dumping all your code, I suggest posting only the relevant parts. –  Emrakul Apr 8 '13 at 8:20
Or, even better, distilling the code to the absolute minimum that reproduces the problem, and posting that in its entirety. –  NPE Apr 8 '13 at 8:22
Thanks for your constructive but irrelevant criticism. –  user1872371 Apr 9 '13 at 4:42

3 Answers 3

up vote 2 down vote accepted

This is a nice lesson on why you should synchronize access to all shared mutable data. Your Chopstick has a field that is not volatile but is accessed by multiple threads via inUse. The only spot where inUse is being referenced without synchronization is at

while (_leftChopstick.inUse() || _rightChopstick.inUse())

Without synchronization rightChopstick.inUse() can return values that are unexpected via data race. As a result all threads that are hanging are stuck at


If you synchronize inUse you should have it finishing correctly. Also I would highly recommend synchronizing on all the methods in Chopstick

share|improve this answer
Thanks. I synced everything in Chopstick and it works!! –  user1872371 Apr 9 '13 at 4:44

In the Chopstick class you also need to synchronize the pickUp() method, otherwise the value may not be visible to other threads:

    public synchronized void pickUp() {
        _inUse = true;

Or simply use AtomicBoolean.

share|improve this answer
@John Vint had the same suggestion and it works. I am sorry I had to mark him for the credit coz he came first. But thanks. –  user1872371 Apr 9 '13 at 4:44
I came about 7 hours earlier :) –  Nandor Kracser Apr 9 '13 at 7:02

It isn't necessary to call

Thread t1 = new Thread(new Philosopher(...));

You can instead call

Thread t1 = new Philosopher(...);

To ensure that all threads complete their work, call their .join methods. This will wait for the threads to die before exiting the DiningPhilosophers constructor.

share|improve this answer
Good point. but that doesn't solve the issue. but thanks for pointing that out. –  user1872371 Apr 9 '13 at 4:41

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