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I have encountered a, so it seems to me, strange behaviour of the WinAPI. In my program I am setting a timer for the window with

::SetTimer(window_handle, timer_id, 10, NULL);

and handle the WM_TIMER message in my window procedure. To reduce the amount of cpu time needed I am also using the ::WaitMessage function in my message pump. Turns out now that, as long as I have the ::WaitMessage function there, the WM_TIMER messages just stop coming after a while. If I remove it from my message pump everything works just fine as expected.

Now I wonder wether I set up my timer wrong or if this is standard behaviour of ::WaitMessage. Searching MSDN and the web did not give me an idea why this is like this.

Here is the message pump I use:

while(true) {
    if(GetMessage(&msg, _window_handle, 0, 0) > 0) {
    } else { 
        return 0; 


Hope that someone can clear this up for me.

share|improve this question
I don't understand why you think that using WaitMessage will decrease CPU time. It seems to me that constantly calling WaitMessage would just make it likely that you'll fill up your message queue, which might explain why you you eventually start losing WM_TIMER messages. –  jamesdlin Apr 13 '12 at 10:05
That is how I understand the explanation on MSDN: Yields control to other threads when a thread has no other messages in its message queue. The WaitMessage function suspends the thread and does not return until a new message is placed in the thread's message queue. And according to the Windows Taskmanager the percentage of CPU usage really is decreasing when using this function. –  Cyianor Apr 13 '12 at 10:09
Yes, but GetMessage already waits for messages if the message queue is empty. Unless you explicitly need to yield control to another thread while you still have pending messages, calling WaitMessage for every message doesn't seem useful. Also see the remark about what's considered a "new" message. –  jamesdlin Apr 13 '12 at 10:11
You should fetch messages in a loop, because WaitMessage will block even if there are messages waiting. WaitMessage doesn't return until there is a new message coming in. This means that if there is messages in the queue when you call WaitMessage and then you get a WM_TIMER event, the next message you get will not be the WM_TIMER message but the next unread message in the queue. –  Joachim Pileborg Apr 13 '12 at 10:14
Ok, I guess I unterstood that part about what is considered a new message wrong. Thank you! This also explains why the WM_TIMER message started coming again if I moved the mouse over the window. Care to turn it into an answer that I can accept? –  Cyianor Apr 13 '12 at 10:15

1 Answer 1

up vote 3 down vote accepted

Yes, this will randomly fail to process more timer messages. A pretty hard rule for WaitMessage() is that the message queue should be empty before you call it. If it isn't empty then any messages left in the queue are marked as "seen" and WaitMessage() ignores them.

So the failure scenario is having two messages in the queue, say a mouse message and a timer message. You get the mouse message but leave the timer message. No additional timer message is generated since you haven't processed the pending one. The combination of GetMessage + WaitMessage is very troublesome, you'd have to use PeekMessage instead.

Just remove WaitMessage(), it serves no useful purpose here.

share|improve this answer
Thank you for summing it up! –  Cyianor Apr 13 '12 at 19:51

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