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I'm using a third party library which has a blocking function, that is, it won't return until it's done; I can set a timeout for that call.

Problem is, that function puts the library in a certain state. As soon as it enters that state, I need to do something from my own code. My first solution was to do that in a separate thread:

void LibraryWrapper::DoTheMagic(){
    //...
    boost::thread EnteredFooStateNotifier( &LibraryWrapper::EnterFooState, this );
    ::LibraryBlockingFunction( timeout_ );
    //...
}

void LibraryWrapper::EnterFooState(){
   ::Sleep( 50 ); //Ensure ::LibraryBlockingFunction is called first
   //Do the stuff
}

Quite nasty, isn't it? I had to put the Sleep call because ::LibraryBlockingFunction must definitely be called before the stuff I do below, or everything will fail. But waiting 50 milliseconds is quite a poor guarantee, and I can't wait more because this particular task needs to be done as fast as possible.

Isn't there a better way to do this? Consider that I don't have access to the Library's code. Boost solutions are welcome.

UPDATE: Like one of the answers says, the library API is ill-defined. I sent an e-mail to the developers explaining the problem and suggesting a solution (i.e. making the call non-blocking and sending an event to a registered callback notifying the state change). In the meantime, I set a timeout high enough to ensure stuff X is done, and set a delay high enough before doing the post-call work to ensure the library function was called. It's not deterministic, but works most of the time.

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I'm confused. Why can't you do the obvious and just do what you have to do after the blocking call has returned? Why the second thread? –  John Dibling Jun 22 '12 at 20:47
    
@John: I interpreted the problem as requiring to change the state after the call but before it had returned. I could be wrong though... –  Alex Wilson Jun 22 '12 at 20:49
    
@John: It's like Alex said. I need to do it as soon as possible (hardware stuff) –  dario_ramos Jun 22 '12 at 20:50
    
Does it have to occur strictly between the time after you entered the blocking call and before the blocking call returns? –  John Dibling Jun 22 '12 at 20:52
    
@John: Yes. Let me give you more details: the blocking function places hardware A in state S for some time. In that state, it expects hardware B to do stuff X. For this process to succeed, B must perform X on A while it's in the S state. This would be easy if I had separate libraries for A and B, but this library controls both of them, and the stuff I do with B is an ad hoc hardware solution invoked via software. –  dario_ramos Jun 22 '12 at 20:57

2 Answers 2

up vote 2 down vote accepted

Would using boost future clarify this code? To use an example from the boost future documentation:

int calculate_the_answer_to_life_the_universe_and_everything()
{
    return 42;
}

boost::packaged_task<int> pt(calculate_the_answer_to_life_the_universe_and_everything);
boost::unique_future<int> fi=pt.get_future();

boost::thread task(boost::move(pt));

// In your example, now would be the time to do the post-call work.

fi.wait(); // wait for it to finish

Although you will still presumably need a bit of a delay in order to ensure that your function call has happened (this bit of your problem seems rather ill-defined - is there any way you can establish deterministically when it is safe to execute the post-call state change?).

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Whoah, this looks interesting, +1. I'll start reading about Boost's futures. About the delay, all I know is that LibraryBlockingFunction must be running in order to be able to do the post-call change. I have fluid contact with the library developers, so I can ask for a change in the API, but it might take some time. –  dario_ramos Jun 22 '12 at 20:52

The problem as I understand it is that you need to do this:

  1. Enter a blocking call
  2. After you have entered the blocking call but before it completes, you need to do something else
  3. You need to have finished #2 before the blocking call returns

From a purely C++ standpoint, there's no way you can accomish this in a deterministic way. That is without understanding the details of the library you're using.

But I noticed your timeout value. That might provide a loophole, maybe.

What if you:

  1. Enter the blocking call with a timeout of zero, so that it returns immediately
  2. Do you other stuff, either in the same thread or synchronized with the main thread. Perhaps using a barrier.
  3. After #2 is verified to be done, enter the blocking call again, with the normal non-zero timeout.

This will only work if the library's state will change if you enter the blocking call with a zero timeout.

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Can't set timeout to zero: That would mean that hardware A wouldn't wait for hardware B's action at all; the timeout is associated to the time that hardware A will remain in state S, waiting for stuff X to happen. –  dario_ramos Jun 25 '12 at 3:12

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