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At the moment a key event is generated in the GUI which is then passed through several classes and given to a class which is running in a separate thread. The thread is waiting for a key event and when one is received a variable from further up the class chain is altered (see diagram). However during debug the variable is not changing.

The class that the thread is accessing is of course in its own thread as it is being called from the GUI which has led me to think that this is a problem with concurrency.

Is there a way to solve this perhaps using atomic integers or locks? I've seen a few examples using the synchronized functions however I can't get them to work as they don't explain the requirements of the classes. (by which I mean they give you the code to do the synchronization but they do not explain how to make a class "synchronisable").

Diagram of class structure Here is the code from the Thread in class E, as you can the the thread's object reference is set from the class above which receives a reference of Class A from the class above etc.

    private Processor processor;

    public void run() {
        while (true) {
            if (keyevent != null) {

                keyevent = null;
                processor.I = 4;

    public void SetProcessor(Processor processor) {
        this.processor = processor;

An expansion on the debugging comment. During debug if I only debug the thread in class E and step through it the code functions fine and the processor.I receives the value of four. However when i am not debugging that thread nothing happens in the processor which is why I thought it might be a concurrency problem.

Made the varaible that I am accessing in Class B and Atomic Integer, also made some of the functions used synchronized as well. Still dosent function outside of debug environment :(

Code in Class B called from Class E

    public void SetI(int value){//also tried using synchronized as well

The KeyEvent is generated in the GUI class by a keyListener (which fires whenver a key is pressed). The KeyEvent object is then passed to class E via several "trickle down" functions that simply pass it onto the next class, so the GUI calls processor.setKeyevent(e), the processor then call bus.setKeyevent(e) and so on a so forth until the KeyEvent property is set in Class E.

Upon initialization of the system the thread in class E is started, is constantly checks the value of the Keyevent property, once the KeyEvent is not null i.e. it has been passed one from the GUI (via everything else) Class E then sets the value of an integer property in class B.

What is happening is that when a key is pressed nothing happens what should be happening is that the integer is class B should be changing because of Class E however it is not. As net beans does not allow me to debug two threads at once its makes it a bit awkward, when I put breakpoints in the code outside of the thread in class E, it does not work, its as if the thread is not running or as if its not receiving the keyevent, if i put breakpoints in the thread and not outside it works, the value of I in class B is changed. If it is run outside of debug it dose not work :/

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Show the source. How is the instance of Class E getting a reference to class B? – digitaljoel May 8 '13 at 20:49
You said that "during debug the variable is not changed". Can you post the code where the debug is printed and the code (in the other class) that modifies the variable? – KyleM May 8 '13 at 20:50
Send the Object of ClassB as a parameter, until it reaches ClassE, maybe? – Goodwine May 8 '13 at 20:55
Create C,D,E inside B ? Sub classes can access all the variables and methods of their enclosing class – Little Child May 8 '13 at 21:02
You make a class "synchronisable" in two ways, first way is by adding synchronised to all the methods or as many as you would liek as so: "public synchronized void yourMethod() {}" or by adding the same lock to all your methods as following: " private Object yourLock = new Object(); public void yourMethod() {synchronized(yourLock){]}" – Karl Morrison Oct 31 '13 at 1:44
up vote 3 down vote accepted

Class E should not be directly manipulating data members in class B. That is all kinds of bad. But that isn't really the point of your problem.

In order for the GUI thread in B to see the changes made by the thread in E, you need to use some kind of synchronization control. Normally I would suggest using an AtomicInteger, however you mentioned some swing stuff, so I'm assuming class B is actually a Swing component. In that case, I find it cleaner to keep the swing stuff on the EDT and make it E's responsibility to call B on the EDT.

Here's what I mean. I've eliminated class C and D since they are just pass-through anyway. I'm also ignoring the construction/setup and starting of the thread. I've removed your busy-loop in E and replaced it with a CountDownLatch.

 * Some GUI class, should only be accessed from the EDT
public class B extends JPanel {

    private int value = 0;

    private E thatThreadObject;

    public void setE( E e ) {
        thatThreadObject = e;
    public void setValue( int newValue ) {
        value = newValue;
        System.out.println( "Got a new int value: " + value );

    public void triggerKeyEvent() {

 * Must be thread-safe, as accessed from multiple threads
public class E implements Runnable{
    private B thatGuiObject;
    // Note, latch is only good for one-time use.
    private final CountDownLatch latch = new CountDownLatch( 1 );

    public void setB( B b ) {
        thatGuiObject = b;

    public void keyEvent() {
        // Wake up the waiting thread

    public void run() {
        try {
            // Wait for key event forever, better than busy looping
            // Update B, but it's a Swing component so use EDT
            EventQueue.invokeLater( new Runnable() {
                public void run() {
                    thatGuiObject.setValue( 4 );
            } );
        catch ( InterruptedException e ) {

Have a look at the Java Concurrency Tutorial

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Thanks for the help. I'm fully aware that this kind of structure violates nearly every Object Orientated Paradigm law, however as much as it pains me to do this it must be done as the client has asked for it to be in this way :(. Once again thanks. – Samishalt May 9 '13 at 8:13
I've added the atomic integer into the system. Still not functioning properly when running. If I put a breakpoint in the Thread in class E and run debug then everything works. Not sure what else I can do as not overly familiar with concurrency in Java :/ – Samishalt May 9 '13 at 18:49
Can you add some more code to your question? Specifically the code in B that is being called from E, and the code in E where the key event is passed in, as well as the code that then calls B. Can you also clarify what is not working? Is the code in E never getting the key event, is B never being called, is B being called but the value doesn't change? – wolfcastle May 9 '13 at 19:01
Have added in original post. – Samishalt May 9 '13 at 20:45
@Samishalt see my updated answer. – wolfcastle May 9 '13 at 20:55

It's hard to tell without some code, but you may want to take a look at java.util.concurrent. A safe way to send messages among threads is to use BlockingQueues.


The Java API page in that link provides a good code example.

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