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Today I had an interview on which I asked candidate quite usual and basic question about the difference between Thread.sleep() and Object.wait(). I expected him to answer something like like this, but he said these methods basically are the same thing, and most likely Thread.sleep is using Object.wait() inside it, but sleep itself doesn't require external lock. This is not exactly a correct answer, because in JDK 1.6 this method have following signature.

public static native void sleep(long millis) throws InterruptedException;

But my second thought was that it's not that ridiculous. It's possible to use timed wait to achieve the same effect. Take a look at the following code snippet:

public class Thread implements Runnable {
       private final Object sleepLock = new Object();

     // other implementation details are skipped

       public static void sleep(long millis) throws InterruptedException {
            synchronized (getCurrentThread().sleepLock){

In this case sleepLock is an object which is used particularly for the synchronization block inside sleep method. I assume that Sun/Oracle engineers are aware of Occam's razor, so sleep has native implementation on purpose, so my question is why it uses native calls.

The only idea I came up with was an assumption that someone may find useful invocation like Thread.sleep(0). It make sense for scheduler management according to this article:

This has the special effect of clearing the current thread's quantum and putting it to the end of the queue for its priority level. In other words, all runnable threads of the same priority (and those of greater priority) will get a chance to run before the yielded thread is next given CPU time.

So a synchronized block will give unnecessary overhead.

Do you know any other reasons for not using timed wait in Thread.sleep() implementation?

share|improve this question
wait(millis) can awake spuriously (early) whereas sleep will not wake early unless interrupted. – Peter Lawrey Jan 31 '12 at 9:18
Is the interrupted flag checked during the call to sleep() in order to throw exception and return ? Or somehow this call goes also to the scheduler and then the scheduler knows to end the thread's sleep ? – klaus johan Mar 12 '13 at 22:42
I would be more concerned to know if they know how to correctly handle the InterruptedException. – Martin Spamer Apr 16 '13 at 11:24
up vote 9 down vote accepted

One could easily say Occam's Razor cuts the other way. The normal/expected implementation of the JVM underlying JDK is assumed to bind java 'threads' onto native threads most of the time, and putting a thread to sleep is a fundamental function of the underlying platform. Why reimplement it in java if thread code is going to be native anyway? The simplest solution is use the function that's already there.

Some other considerations: Uncontested synchronization is negligible in modern JVMs, but this wasn't always so. It used to be a fairly "expensive" operation to acquire that object monitor.

If you implement thread sleeping inside java code, and the way you implement it does not also bind to a native thread wait, the operating system has to keep scheduling that thread in order to run the code that checks if it's time to wake up. As hashed out in the comments, this would obviously not be true for your example on a modern JVM, but it's tough to say 1) what may have been in place and expected at the time the Thread class was first specified that way. and 2) If that assertion works for every platform one may have ever wanted to implement a JVM on.

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@ruakh, I would guess that when native threads are implemented on top of pthreads that pthread_cond_*wait underlies Object.wait. – Mike Samuel Jan 31 '12 at 0:33
One would expect that modern JVMs and modern platforms certainly do. However, the OPs question is "What are some reasons some Sun engineers over 10 years ago may have made this decision?", not about how things actually work now. :) – Affe Jan 31 '12 at 0:38
@ruakh, I don't get that impression when I read Affe's answer. – Mike Samuel Jan 31 '12 at 0:38
No, it means that java objects can encapsulate OS synchro primitives that provide the monitor wait() functionality. Threads blocked on object.wait() are not given any CPU by the OS, just like sleeping threads. – Martin James Jan 31 '12 at 0:39
@ruakh It is certainly not true right now. The answer is a speculative response to a speculative question about why a decision may have been made a long time ago. I will try to think of a way to reword it to not be misleading. – Affe Jan 31 '12 at 4:32

Do you know any other reasons for not using timed wait in Thread.sleep() implementation?

Because the native thread libraries provide a perfectly good sleep function:

To understand why native threads are important, start at

Version 1.1 is based on green threads and won't be covered here. Green threads are simulated threads within the VM and were used prior to going to a native OS threading model in 1.2 and beyond. Green threads may have had an advantage on Linux at one point (since you don't have to spawn a process for each native thread), but VM technology has advanced significantly since version 1.1 and any benefit green threads had in the past is erased by the performance increases over the years.

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Thread.sleep() will not be woken up early by spurious wakeups. If using Object.wait(), to do it properly (i.e. ensure you wait enough time) you would need a loop with a query to elapsed time (such as System.currentTimeMillis()) to make sure you wait enough.

Technically you could achieve the same functionality of Thread.sleep() with Object.wait() but you would need to write more code do it correctly.

This is also a relevant and useful discussion.

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The two functions have different purposes. You could use one to emulate the other, but it would be tricky and undoubtedly inferior to the implementation provided already. – David Schwartz Jan 31 '12 at 1:14
Yep, it makes sense. I foorgot about spurious wakeups, and it looks like Thread.sleep() is not affected by this phenomenon. – wax Jan 31 '12 at 6:04

A very good reason not to do that is that wait() will relinquish all monitors the current thread has in possession. So the caller might find itself out of state upon completion of sleep (such as proposed).

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This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post - you can always comment on your own posts, and once you have sufficient reputation you will be able to comment on any post. - From Review – Jayan Feb 3 at 3:58

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