Since comments are closed for me, I had to post my comments to previous posts as an answer. But actually I'm not answering.
1) There's a problem with @Alan 's solution.
The sample code he provided works well. But it is different from Windows Events functionality. When a Windows Event object is set, any number of subsequent calls to
WaitForSingleObject immediately returns, showing that the object is in signaled state. But with boost's
bar() has to notify the condition for every
foo() calls that need it. This makes situation a lot harder for 'cross-platform'ing Windows Event functionality.
notify_all() also can't help.
Of course this is somehow solved in @deft_code's sample code by using a boolean variable. (Although it suffers itself from race condition problem. Consider if
SetEvent(...) is called dead after
while(!evt->m_bool) and before
evt->m_cond.wait(lock) from within a separate thread. A deadlock will occur. This can however be solved by using some race condition management techniques to make the two statements
wait() atomic.) But it has its own shortcoming:
2) There's also a problem with @deft_code 's code in making use of boost
Event objects in Windows can be named which enables them to be used for inter-process synchronizations. For example, process A can create a named event and set it like this:
SetEvent(hFileIsReady). Afterward, whatever number of processes waiting for this event to be set (thereby calling
WaitForSingleObject(hFileIsReady)) will immediately continue their normal execution until the event is again reset within process A by
But the combination
bool can't afford such a functionality. Of course, we can use boost
named_mutex. However, what about the boolean variable which we have to check before waiting?