Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a java object that implements Runnable. here is the code.

public class Obj implements Runnable {

    boolean shouldRun;

    private int stuff

    public Obj() {
    	stuff = 0;

    public synchronized void setshouldRun(boolean shouldRun) {
    	this.shouldRun = shouldRun;

    public synchronized boolean getshouldRun() {
    	return this.shouldRun;

    public void run() {
    	while (shouldRun) {
    		//do stuff


here is how i use the Obj.

Obj o = new Obj();
//q is a collection of Obj
new Thread(o).start();

when want to remove o, may I safely do this:

o.setshouldRun(false); //thread will finish
share|improve this question

You need to synchronize all access to shouldRun, not just write access. You can do this by adding a synchronized getter isShouldRun rather than accessing shouldRun directly on this line:

while (isShouldRun())

Alternatively you can make shouldRun volatile.

Failing to do this can lead to changes to the value of shouldRun by one thread not being noticed in the other thread.

share|improve this answer
Addendum: if you declare the field volatile, you can remove synchronized. – meriton Nov 24 '09 at 0:31
how about this scenario: The t get pre-emptied after while while (isShouldRun()). Then isShouldRun is changed and o is removed from q. what would happen next? would the thread just die because while condition is change or the thread would resume and die after checking the condidtion? – Quincy Nov 24 '09 at 20:08
The thread will terminate after it checks the condition, sees that it is false, breaks out of the loop, and reaches the end of the run method. – Mark Byers Nov 24 '09 at 20:36
is there a way to kill the thread immediately after removing o from the q? – Quincy Nov 24 '09 at 21:26
There isn't a supported way to murder a thread external, was depreciated a while ago. But if you need to wait for the thread to be finished before you continue on doing normal processing, call Thread.join() and wait for that call to return. (This would imply that you keep a reference to both the Thread and the runnable instead of just the runnable) – Jason Faust Nov 25 '09 at 18:47

As long as nothing comes after q.remove(o) that would depend on o not being in a running state, you should be ok. But remember, the way you have your code, o can continue running long long after it is removed from q, because you haven't stopped to check that it has finished running before removing it from q. You've only notified it that it should stop running once it gets back around to checking that condition.

share|improve this answer

The best bet would be to define shouldRun as volatile as synchronizing is slower. Assignments are not guaranteed to propagate to other threads unless dictated by the use of volatile and synchronize.

If you have access to o's thread, you can get rid of your boolean "shouldRun" by just using the thread's native "interrupt" method:

Obj o = new Obj();
Thread t = new Thread(o);


Your runnable would then have to read:

while (!Thread.interrupted()) {

Instead of:

while (shouldRun) {
share|improve this answer
how about this scenario: The t get pre-emptied after while (!Thread.interrupted()). Then we call t.interrrupted() and o is removed from q. what would happen next? would the thread just die because it's interrupted or the thread would resume and finish the while loop then die? – Quincy Nov 24 '09 at 19:36
up vote 0 down vote accepted

I think using java TimerTask would be a better solution. TimerTask could be cancelled by other threads. so the TimeTask thread will exist pretty much immediately, so no extra work would be done.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.