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I have read that we should always called a wait() from within a loop:

while (!condition) { obj.wait(); }

It works fine without a loop so why is that?

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Note: Oracle documentation calls this idiom a "guarded block"… – james large Dec 10 '15 at 14:20

You need not only to loop it but check your condition in the loop. Java does not guarantee that your thread will be woken up only by a notify()/notifyAll() call or the right notify()/notifyAll() call at all. Because of this property the loop-less version might work on your development environment and fail on the production environment unexpectedly.

For example, you are waiting for something:

synchronized (theObjectYouAreWaitingOn) {
   while (!carryOn) {

An evil thread comes along and:


If the evil thread does not/can not mess with the carryOn you just continue to wait for the proper client.

Edit: Added some more samples. The wait can be interrupted. It throws InterruptedException and you might need to wrap the wait in a try-catch. Depending on your business needs, you can exit or suppress the exception and continue waiting.

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This is the correct answer. The documentation for wait: ... actually describes why you need to put it in a loop - spurious wakeups. Did the OP read it? – Andrew Duffy Jun 24 '09 at 12:39
Ah, 'spurious wakeups'. Could not remember the name. – akarnokd Jun 24 '09 at 12:47
You should update your code example to handle the ThreadInterruptedException on your wait. It would then be consistent with your answer. – Robin Jun 24 '09 at 12:56
Don't know. Adding the try-catch for InterruptedException seemed pointless as it depends on the business logic what you want to do in case of the thread interruptions. Probably you would just exit, or suppress it immediately inside the loop. – akarnokd Jun 24 '09 at 13:13
@Geek should accept an answer. – SK9 Aug 27 '13 at 8:25

It's answered in documentation for Object.wait(long milis)

A thread can also wake up without being notified, interrupted, or timing out, a so-called spurious wakeup. While this will rarely occur in practice, applications must guard against it by testing for the condition that should have caused the thread to be awakened, and continuing to wait if the condition is not satisfied. In other words, waits should always occur in loops, like this one:

 synchronized (obj) {
     while (<condition does not hold>)
     ... // Perform action appropriate to condition

(For more information on this topic, see Section 3.2.3 in Doug Lea's "Concurrent Programming in Java (Second Edition)" (Addison-Wesley, 2000), or Item 50 in Joshua Bloch's "Effective Java Programming Language Guide" (Addison-Wesley, 2001).

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There might be more then just one worker waiting for a condition to become true.

If two or more worker get awake (notifyAll) they have to check the condition again. otherwise all workers would continue even though there might only be data for one of them.

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Because wait and notify are used to implement condition variables and so you need to check whether the specific predicate you're waiting on is true before continuing.

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kd304 is correct - it is not just that a condition may not have been met - it is the fact that a thread can spuriously wake up from a wait – oxbow_lakes Jun 24 '09 at 12:51
@oxbow_lakes As far a the thread waiting on a condition is concerned, there is no real difference between a spurious wake-up and a notify meant to signal a different condition. Either way, you have to check your predicate. – Aaron Maenpaa Jun 24 '09 at 14:19

For posterity I'd like to add that the primary reason why while loops are so important is race conditions between threads. For example:

synchronized (queue) {
    // this needs to be while
    while (!queue.isEmpty()) {

With the above code, there may be 2 consumer threads. When the producer locks the queue to add to it, consumer #1 may be at the synchronized lock read to go in while consumer #2 is already waiting. When the item is added to the queue and notify called, #2 is notified and moves to the run queue but it is behind the #1 consumer waiting for the queue lock. Since the #1 consumer goes forward first to remove from the queue, an exception would occur if the while loop is just an if because #2 will try to call remove as well. Just because it was notified, it needs to be make sure the queue is still empty because of the race condition.

This well documented. Here's a web page I created a while back which explains it in detail and has some sample code.

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From your Question:

I have read that we should always called a wait() from within a loop:

Although wait( ) normally waits until notify( ) or notifyAll( ) is called, there is a possibility that in very rare cases the waiting thread could be awakened due to a spurious wakeup. In this case, a waiting thread resumes without notify( ) or notifyAll( ) having been called.

In essence, the thread resumes for no apparent reason.

Because of this remote possibility, Oracle recommends that calls to wait( ) should take place within a loop that checks the condition on which the thread is waiting.

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This answer is wrong. It is not the risk of spurious wakeups that's the reason wait should be called in a loop. It's because some other thread may have handled the condition. – David Schwartz Feb 8 at 18:19

Both safety and liveness are concerns when using the wait/notify mechanism. The safety property requires that all objects maintain consistent states in a multithreaded environment. The liveness property requires that every operation or method invocation execute to completion without interruption.

To guarantee liveness, programs must test the while loop condition before invoking the wait() method. This early test checks whether another thread has already satisfied the condition predicate and sent a notification. Invoking the wait() method after the notification has been sent results in indefinite blocking.

To guarantee safety, programs must test the while loop condition after returning from the wait() method. Although wait() is intended to block indefinitely until a notification is received, it still must be encased within a loop to prevent the following vulnerabilities:

Thread in the middle: A third thread can acquire the lock on the shared object during the interval between a notification being sent and the receiving thread resuming execution. This third thread can change the state of the object, leaving it inconsistent. This is a time-of-check, time-of-use (TOCTOU) race condition.

Malicious notification: A random or malicious notification can be received when the condition predicate is false. Such a notification would cancel the wait() method.

Misdelivered notification: The order in which threads execute after receipt of a notifyAll() signal is unspecified. Consequently, an unrelated thread could start executing and discover that its condition predicate is satisfied. Consequently, it could resume execution despite being required to remain dormant.

Spurious wakeups: Certain Java Virtual Machine (JVM) implementations are vulnerable to spurious wakeups that result in waiting threads waking up even without a notification.

For these reasons, programs must check the condition predicate after the wait() method returns. A while loop is the best choice for checking the condition predicate both before and after invoking wait().

Similarly, the await() method of the Condition interface also must be invoked inside a loop. According to the Java API, Interface Condition

When waiting upon a Condition, a "spurious wakeup" is permitted to occur, in general, as a concession to the underlying platform semantics. This has little practical impact on most application programs as a Condition should always be waited upon in a loop, testing the state predicate that is being waited for. An implementation is free to remove the possibility of spurious wakeups but it is recommended that applications programmers always assume that they can occur and so always wait in a loop.

New code should use the java.util.concurrent.locks concurrency utilities in place of the wait/notify mechanism. However, legacy code that complies with the other requirements of this rule is permitted to depend on the wait/notify mechanism.

Noncompliant Code Example This noncompliant code example invokes the wait() method inside a traditional if block and fails to check the postcondition after the notification is received. If the notification were accidental or malicious, the thread could wake up prematurely.

synchronized (object) {
  if (<condition does not hold>) {
  // Proceed when condition holds

Compliant Solution This compliant solution calls the wait() method from within a while loop to check the condition both before and after the call to wait():

synchronized (object) {
  while (<condition does not hold>) {
  // Proceed when condition holds

Invocations of the java.util.concurrent.locks.Condition.await() method also must be enclosed in a similar loop.

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