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I have the following situation. I have an application that runs mostly on one thread. It has grown large, so I would like to run a watchdog thread that gets called whenever the main thread changes into a different block of code / method / class so I can see there is "movement" in the code. If the watchdog gets called by the same area for more than a second or a few, it shall set a volatile boolean that the main thread reads at the next checkpoint and terminate / restart. Now the problem is getting either of the threads to run somewhat at the same time. As soon as the main thread is running, it will not let the watchdog timer count properly. I was therefore thinking of yielding every time it calls the watchdog (so it could calculate time passed and set the value) but to no avail. Using Thread.sleep(1) instead of Thread.yield() works. But I don't want to have several areas of code just wasting calculation time, I am sure I am not doing it the way it is meant to be used.

Here a very simple example of how I would use Thread.yield(). I do not understand why the Threads here will not switch (they do, after a "long" and largely unpredictable time). Please give me an advice on how to make this simple example output ONE and TWO after each other. Like written before, if I switch yield() with sleep(1), it will work just like I'd need it to (in spite of waiting senselessly).

    Runnable run1 = new Runnable(){
        public void run(){

    Runnable run2 = new Runnable(){
        public void run(){

    Thread tr1 = new Thread(run1);              
    Thread tr2 = new Thread(run2);

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Thanks a lot for both answers. The first one is a great explanation and showed me what I was thinking wrong about multithreading altogether, but the second one was actually spot on about how I had wrong expectations of the console and it shows that the example actually works (or would with "better" output) as supposed. –  Hendrik Mar 8 '12 at 21:38
So the "spot on" answer didn't get the check? ;-) –  Gray Mar 8 '12 at 21:53
Actually I wanted to check both. Then I checked yours. But if somebody else with a similar problem reads the thread, I thought it was easier to read if the other posting was on top of it. Sorry is that bad reasoning? This is my first time writing here, although I have often read with great benefit –  Hendrik Mar 8 '12 at 21:57
No worries. Whatever you want dude. I think the idea is to choose answer that "best" answers the question although that's highly subjective. @Jarrod's answer certainly is a great reference. What I mostly am pissed about is that 2 moderators killed my answer for the wrong reasons and also down-voted it inappropriately. Grumble. :-) –  Gray Mar 8 '12 at 22:02

2 Answers 2

up vote 0 down vote accepted

I do not understand why the Threads here will not switch (they do, after a "long" and largely unpredictable time). Please give me an advice on how to make this simple example output ONE and TWO after each other. Like written before, if I switch yield() with sleep(1), it will work just like I'd need it to (in spite of waiting senselessly).

I think this is more about the difference between ~1000 println calls in a second (when you use sleep(1)) and many, many more without the sleep. I think the Thread is actually yielding but it may be that it is on a multiple processor box so the yield is effectively a no-op.

So what you are seeing is purely a race condition high volume blast to System.out. If you ran this for a minute with the results going to a file I think you'd see a similar number of "ONE" and "TWO" messages in the output. Even if you removed the yield() you would see this behavior.

I just ran a quick trial with your code sending the output to /tmp/x. The program with yield() ran for 5 seconds, generated 1.9m/483k lines, with the output sort | uniq -c of:

243152 ONE
240409 TWO

This means that each thread is generating upwards of 40,000 lines/second. Then I removed the yield() statements and I got just about the same results with different counts of lines like you'd expect with the race conditions -- but the same order of magnitude.

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Not quite sure why folks think this is not addressing the OP, it even quotes a part of the OP's post. It is ok to reference other answers and directly address the OP's problem. –  Kev Mar 8 '12 at 0:08
Yeah the queue is pretty heavy today and sometimes the wrong call is made when you only have time to scan. Guilty of it myself now and again. All good now though. –  Kev Mar 8 '12 at 0:15


This static method is essentially used to notify the system that the current thread is willing to "give up the CPU" for a while. The general idea is that:

The thread scheduler will select a different thread to run instead of the current one.

However, the details of how yielding is implemented by the thread scheduler differ from platform to platform. In general, you shouldn't rely on it behaving in a particular way. Things that differ include:

when, after yielding, the thread will get an opportunity to run again; whether or not the thread foregoes its remaining quantum.

The take away is this behavior is pretty much optional and not guaranteed to actually do anything deterministically.

What you are trying to do is serialize the output of two threads in your example and synchronize the output in your stated problem ( which is a different problem ), and that will require some sort of lock or mutex to block the second thread until the first thread is done, which kind of defeats the point of concurrency which is usually the reason threads are used.


What you really want is a shared piece of data for a flag status that the second thread can react to the first thread changing. Preferably and event driven message passing pattern would be even easier to implement in a concurrently safe manner.

The second thread would be spawned by the first thread and a method called on it to increment the counter for which block it is in, you would just use pure message passing and pass in a state flag Enum or some other notification of a state change.

What you don't want to do is do any kind of polling. Make it event driven and just have the second thread running always and checking the state of its instance variable that gets set by the parent thread.

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+1 "not guaranteed to actually do anything deterministically". –  Mike Clark Mar 7 '12 at 18:02
Hello, thank you for your quick answer! I understand determinism is hard to come by with multithreading. But how else but with a yield could you achieve the concurrency, when one thread will just run as it pleases? Or is my whole idea of heaving a heavyweight main thread and a lightweight timer/watchdog running besides it foolish (in Java?)? (edit: you just added a solution. That is basically what I was trying to do. The problem is to get the second thread to check with regular intervals, the way it works right now is very unreliable) –  Hendrik Mar 7 '12 at 18:10
The whole idea of concurrency is concurrent execution, that means at the same time, in parallel. Anything else is just serial execution and threading will make it more complicated and less functional. –  Jarrod Roberson Mar 7 '12 at 18:19
Thanks a lot, that will hopefully help me do it right. I do wonder why you removed some parts of your text though, I thought they were good ideas/insight (and where did the second answer go?) :) –  Hendrik Mar 7 '12 at 21:49

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