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I am new to multithreading. I have created a thread that only runs an infinite loop, it executes the following function :

while (1)
    {
        __android_log_print(ANDROID_LOG_VERBOSE, "from thread3", "from thread3", 1);

    }

What I don't understand, is why my application is blocked (i.e the other threads are asleep) when this thread is created. I mean, the thread is running normally (I see the log messages), but it looks like it predates my two other threads so they are eternally paused. Shouldn't the scheduler take care of this and switch between threads ?

Details : this thread is created from c++ side using std::threads.

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  • Why am I downvoted ? – hahaha1256 Jan 30 '15 at 21:22
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    The scheduler isn't an magician. In your tight loop there is almost no possibility for the scheduler to step in and take control. And you're probably downvoted because This question doesn't show any research and is not useful – rene Jan 30 '15 at 21:27
  • @rene in desktop machines the scheduler can do that just fine using timer interrupts. If android uses cooperative multitasking (which makes sense), it would be nice to find a link documenting that. – John Dvorak Jan 30 '15 at 21:30
  • I did research but couldn't find a similar case. My assumption was that the scheduler could execute say 10 times my loop, run my other threads, return back to my thread etc.. – hahaha1256 Jan 30 '15 at 21:31
  • @JanDvorak sure, sure ... – rene Jan 30 '15 at 21:32
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If you want the scheduler to pause your thread, you have to make it let go and pause periodically. Use sleep().

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    Note that doing this is always almost a sure sign of a bad design – John Dvorak Jan 30 '15 at 21:33
  • @JanDvorak is that so? Why would you say so? – vipluv Jan 31 '15 at 9:36
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    Almost always a proper synchronization should be used instead, such as a good ol' mutex (or even semaphore), an event queue, a producer/consumer queue (or its special case constrained to one element only, called m-box in Haskell)... The only cases I can think of are very time-sensitive loops where you know the other thread will finish soon (that is, you know you're running at a multicore architecture and you're willingly trading compatibility for performance). Even when you're implementing said synchronisation primitives on os-level, you should have each thread know what it's waiting for – John Dvorak Jan 31 '15 at 10:55
  • @JanDvorak I see. Thanks! Makes sense. I wasn't thinking in terms of the thread waiting for another resource, but yes that would mostly be the case. There are still situations where sleep is the only solution, though. Like if you want to redraw a frame of an animation after the appropriate time has passed. – vipluv Feb 2 '15 at 6:57
  • @vipluv that is a legitimate use indeed. Not sure about android, but browser javascript provides a function specifically for that purpose, called "requestAnimationFrame", which is essentially a sleep scheduled to run at 60 FPS. Also be sure to check how much time has actually passed in the engine thread so that the game doesn't run slower when you're low on resources (unless you need bit-precise computation with time step undisturbed by real-world phenomena, in which case you should still run multiple ticks or sleep less so that you keep a steady pace) – John Dvorak Feb 2 '15 at 8:42

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