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I have one thread1:

if(object != null){;

and another thread2 that can write null into object reference at any time.

I will run these threads at same time. I know thread2 can rewrite object reference after the null check and that will throw NullPointerException. Is it possible for thread2 to rewrite object reference after NullPointerException check?

share|improve this question
Perhaps use a boolean flag to indicate to the other thread that it's null? – Redandwhite Oct 8 '12 at 12:34
You mean, between dereferencing object and calling play()? Absolutely. The rule of thumb is that without proper barriers and synchronisation, absolutely anything can happen. That's obviously not literally true but it often helps if you approach it that way. – biziclop Oct 8 '12 at 12:34
What's the difference between "null check" and "NullPointerException check" ? – Adam Dyga Oct 8 '12 at 12:35
Perhaps you may want to read up on the synchronized keyword. – Anders R. Bystrup Oct 8 '12 at 12:36
@Redandwhite I dare you to put that as an answer! – weston Oct 8 '12 at 12:42
up vote 6 down vote accepted

Is it possible to for thread2 to rewrite object reference after NullPointerException check ?

Absolutely - it could change the value of object while the play() method is executing, if that's what you mean. That wouldn't cause an error in itself.

Note that without synchronization or other memory barriers, thread2 could change the value of object without thread1 noticing for an indeterminate period of time.

It's hard to say what you ought to do, without any other knowledge of the bigger aim of the code.

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Well, I dind't have anything specific when I wrote it, It was just a thought. What do you mean by 'That wouldn't cause an error in itself.' ? I would not cause NullPointerException or any error ? Thank you for your answer. – jellyfication Oct 8 '12 at 15:28
@jellyfication: It won't cause a NullPointerException after the initial check. The value of object is evaluated, and that determines whether a NullPointerException is thrown, and the target of the call. Changes to object won't affect which target is used. – Jon Skeet Oct 8 '12 at 16:08

Simple synchronized example:

To maintain thread safety, only access this through getter and setter
or other synchronized method
private ObjectType object;

public synchronized void setObject(ObjectType object) {
  this.object = object;

public synchronized ObjectType getObject() {
  return object;

public void doPlay() {
  final ObjectType obj = getObject();
  //here, thread 2 can change "object", but it's not going to affect this thread
  //as we already safely got our reference to "object" in "obj".
  if(obj != null){; 

public synchronized void alterativeDoPlay() {
  //the difference here is that another thread won't be able to change "object"
  //until the object's play() method has completed.
  //depending on the code in play, this has potential for deadlocks, where as
  //the other `doPlay` has zero deadlock potential.
  if(object != null){; 
share|improve this answer

If object is an instance variable or a static variable that can be changed from multiple threads, its value can change between the time you test it in the if statement and the time when you call its instance method.

You can modify the code to avoid this problem by copying the object into a local variable, like this:

Playable objectCopy = object;
if(objectCopy != null) {;

Since objectCopy is a local variable, its value cannot change between the test and the call of play. Of course the state of the playable object itself can change, but that is not something that can be fixed by null checking.

share|improve this answer
This does not alone make it threadsafe. object would need to be marked as volatile – weston Oct 8 '12 at 13:05
Don't disagree will solve NPE, but is my understanding that without volatile (or other synchronization preferrable) thread 1 could be looking at cached value for object, so changes made by thread 2 may not be seen. So that's not going to be result OP is looking for/expecting. – weston Oct 8 '12 at 13:17
@weston Absolutely! Without synchronization, this exercise will be full of unexpected results (unexpected in a bad way, of course). – dasblinkenlight Oct 8 '12 at 13:21
Playable objectCopy = object; does not create a new you just have another reference to the same object, and have achieved nothing. – lynks Oct 8 '12 at 15:40
@lynks Of course I achieved something! My newly created reference to the same object is local, and is therefore immune to possible changes of the original reference. This makes my code fragment free of possible null pointer exceptions - quite a departure from the OP's code! – dasblinkenlight Oct 8 '12 at 15:47

You can use CountDownLatch here. Where Thread1 will wait to count down by Thread2 and you can perform the task in thread2 and stop count down.

Code snippet -

CountDownLatch latch = new CountDownLatch(1);
new Thread1(latch).start();
new Thread2(latch).start();
public class Thread1 extends Thread {
  private final CountDownLatch startLatch;

  public Thread1(CountDownLatch startLatch) {
    this.startLatch = startLatch;
  public void run() {
    try {
      // ... perform task
    } catch (InterruptedException iex) {}

public class Thread1 extends Thread {
  private final CountDownLatch stopLatch;

  public Thread1(CountDownLatch stopLatch) {
    this.stopLatch = stopLatch;
  public void run() {
    try {
      // perform task
    } finally {
share|improve this answer

According to Brian's Law :

When we write a variable, which next has to be read by another thread, or when we are reading a variable which has lately been written by another thread, then use synchronization. Synchronize the atomic statements or getter/setters which has access to the crucial state of data with the same monitor lock.

- Use synchronization.

- You can use CountDownLatch from java.util.concurrent

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You will need to use some form of synchronisation primitive to solve this problem. See "Syncrhonised Statements" here. In your case you will need to wrap the whole if block and any places in any threads that use or update object2.

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As my professor said: "Concurrency is a pretty unstable guy. We never know what to expect of him." Comming to your question:

Is it possible for thread2 to rewrite object reference after NullPointerException check?


Thread2 can access the object many times during 1 occurrence of thread1. Or the other way around. There may be many occurrences of thread1, while thread2 accesses the object.

If you use simple


in many places in your code, you may notice the output in the console to be displayed AFTER the NullPointerException error(if it wasn't caught).

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"Concurrency is a pretty unstable guy. We never know what to excpect of him." - That is true in the general sense. But the flip side is that if you pay attention to the details, you can write concurrent code that is 100% reliable and predictable. – Stephen C Oct 8 '12 at 14:58
@StephenC Later on the guy introduced his wife Synchronization ;) – user1581900 Oct 8 '12 at 15:37

fgb, you're right. I removed the content to prevent confusion.

OK, another approach closer to the OP's example:

(While this might not be the best appproach) thread2 assigns null to object for a reason - hopefully. I can think of object representing a media player app or a pluggable media player device where thread2 checks whether the app is running/the device is connected.

What about:

Playable player = new Player();


public void doPlay() {
  // player = null; // <-- possibly done by thread2 here or ...
  try {
    // player = null; // <-- ... possibly done by thread2 here;
  catch ( NullPointerException npe ) {
    System.err.println( "There is no player to play. " + 
                        "Is a player app running? Is a device connected?");
    // ... or do whatever has to be done in such a case or even ...
    throw new NullPointerException( "There is no player to play. " +
                                    "Is a player app running? Is a device connected?");

However, without knowing the surrounding circumstances it's just guessing anyway.

share|improve this answer
Synchronizing on a mutable variable or one that can be null won't work. I think you want a separate lock object instead. And the point of using a local variable was to reduce the time that the lock needed to be held for. – fgb Oct 15 '12 at 23:31

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