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I would like to write some code that wakes up on (or sleep until) some event.

I have a piece of code that sleeps until some event happens, such as when alarmed by a clock.

Pseudo code:

int main() {
  TimePoint someTp("3PM");

This is my current implementation, but this hogs about 10% of my CPU power. I think my design is flawed, is there any better solution for this? Many thanks in advance!

share|improve this question
sleep shouldn't hog CPU - how are you determining it hogs 10% of the CPU? – Jeff Foster Jun 9 '11 at 16:23
A truly sleeping thread should never use any CPU. What are you using to measure CPU usage? – Ates Goral Jun 9 '11 at 16:23
Hi, sorry. I am using Linux System Monitor. Perhaps this is not accurate? – will Jun 9 '11 at 16:24
what is TimePoint? – Sam Miller Jun 9 '11 at 16:26
Due to the amount of polling and rendering system monitors need to do, they eat up some CPU on their own. You should specifically check the CPU usage of your process rather than the overall system. – Ates Goral Jun 9 '11 at 16:33

The problem is in the implementation of std::this_thread:sleep_until(..) which calls sleep_for(..), which calls nanosleep().

(See the gnu sources, line 271.)

See the following Stackoverflow questions:

You don't appear to need the high resolution of nanosleep(). You might write your own solution with a permissive open source license, and call sleep() instead of nanosleep().

If you do need sub-second resolution, I recommend the technique of calling select() rather than nanosleep(). select() is designed to block very efficiently for sub-second delays, and the timeout parameter is respected accurately enough by most operating systems that it is useful for sub-second timing while yielding the CPU.

You can even create a socket for the purpose of passing to select(), in theerror_fds parameter, where the socket can be used as a cross-thread "signal" when it is passed to close() and becomes an "error" state socket.

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What would switching to a permissive license achieve? – Luc Danton Jun 9 '11 at 16:56
Many thanks for the advice. I use gcc's c++0x std::this_thread::sleep_for actually. I will consider your suggestions. – will Jun 9 '11 at 17:10
@ildjarn -- The same problem has been reported post 2.6.22, so I disagree. – Heath Hunnicutt Jun 9 '11 at 18:15
Ah, the page I was looking at didn't mention that, only the 2.5.39 change. Good to know :-] – ildjarn Jun 9 '11 at 18:21

A better solution would be using an event driven library such as Boost.Asio or libevent rather than sleeping for some duration.

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Thanks for the advice! – will Jun 9 '11 at 17:19

A simple implementation can be to use a Semaphore.

Keep your worker thread blocked on a semaphore and signal the semaphore from another thread where the alarm clock event occurs.

void* workerThread(void*) 
     TimePoint someTp("3PM");
     sem_Wait();    //Thread remains blocked here

void timercallback()
    sem_post(); //Signals worker thread to move ahead

share|improve this answer
Waiting idle is certainly better than busy waiting (thanks for the link to my blog post), but I'm not sure what a semaphore achieves here. You have a timercallback() which somehow (you don't say how) is called when the time expires. Why not just run your code in the callback? There may be a reason but it isn't described. That is, in your sample solution the important detail (how to schedule a timercallback) is omitted. Also, thankfully, the OP never suggested busy waiting. – Bruce Dawson May 13 '15 at 0:26

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