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I have a windowless timer (no WM_TIMER) which fires a callback function only once when a given time period is elapsed. It is implemented as a SetTimer()/KillTimer(). Time periods are small enough: 100-300 milliseconds.

Is that cheap enough (I mean performance) to call SetTimer()/KillTimer() pair for every such short time interval?

What if I have 100 such timers which periodically call SetTimer()/KillTimer()? How much Window timer objects may exist simultaneously in the system?

That is the question: Use a bunch of such timer objects and rely on good Windows implementation of timers, or create one Windows timer object that ticks every, say, 30 milliseconds, and subscribe all custom 100-300 milliseconds one-time timers to it.

Thanks

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up vote 2 down vote accepted

The problem with timer messages as you are trying to use them is that they are low priority messages. Actually they are fake messages. Timers are associated with an underlying kernel timer object - when the message loop detects that fire, it simply marks the current threads message queue with a flag indicating that the next call to GetMessage - WHEN THERE ARE NO OTHER MESSAGES TO PROCESS - should synthesize a WM_TIMER message just in time and return it.

With potentially lots of timer objects, its not at all obvious that the system will fairly signal timer messages for all the timers equally, and any system load can entirely prevent the generation of WM_TIMER messages for long periods of time.

If you are in control of the message loop, you could use maintain your own list of timer events (along with GetTickCount timestamps when they should occur) and MSGWaitForMultipleObject - instead of GetMessage to wait for messages. Use the dwTimeout parameter to provide the smallest interval - from now - until the next timer should be signalled. So it will return from waiting for messages each time you have a timer to process.

And/Or you could use waitable timers - either on a GUI thread with MSGWaitForMultipleObjects, or just on a worker thread, to access the lower level timing functionality directly.

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I do not use WM_TIMER. I use windowless timer (pass time proc pointer directly to ::SetTimer()). The question is about how it is expensive to create/destroy timer kernel objects intensively and how much such objects may exist simultaneously without any problem. Thanks. – Stas May 5 '11 at 8:22
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You are always using the WM_TIMER. GetMessage synthesizes the message, and DispatchMessage - when passed a WM_TIMER message with a NULL hwnd, dispatches it directly to the TimerProc/LPARAM. – Chris Becke May 5 '11 at 9:15

The biggest SetTimer() pitfall is that actually it is USER object (despite the fact it's not listed in MSDN USER objects list) hence it falls under Windows USER objects limitation - by default max 10000 objects per process, max 65535 objects per session (all running processes).

This can be easily proven by simple test - just call SetTimer() (parameters don't care, both windowed and windowless act the same way) and see USER objects count increased in Task Manager.

Also see ReactOS ntuser.h source and this article. Both of them state that TYPE_TIMER is one of USER handle types.

So beware - creating a bunch of timers could exhaust your system resources and make your process crash or even entire system unresponsive.

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