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may be there is a really simple solution for my idea, but i'm really confused with all the boosts around me, so maybe someone can help me.

Here's my problem:

I want to start a task (calculation, file system operations, etc.), raised by a callback system wich calls the CallbackReceived function and i want to pass this operation to a thread. Typically represented by a member function of an object. The thread isn't guaranteed to finish, so it should have something to cancel it after some seconds.

Something like (dunno if this is 100% correct):

// ...
MyObject object;
// ...
void CallbackReceived(int parameter) {
  boost::thread tThread(&MyObject::calculate, *&object); 

  boost::asio::deadline_timer tDeadlineTimer(_ioService, boost::posix_time::seconds(2));
  tDeadlineTimer.async_wait(boost::bind(DeadlineTimeOut, boost::asio::placeholders::error));

  tThread.join();
}

Basically, a tThread.join() waits for the return of the thread. While waiting, my main could not receive any callbacks that may come in because its blocked and sleeps.

So what can one do, to run the thread and not to block the calling initial program while executing the operation?

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1  
... don't call join? :S –  Matteo Italia Sep 13 '11 at 9:38
1  
Your code seems to be something different than you really do, since tThread is not a pointer you would use it like tThread.join(). Also, don't call join if you don't want to wait on the thread finishing. Maybe a future is a better tool for you? –  PlasmaHH Sep 13 '11 at 9:41
    
@PlasmaHH thanks for hint, i missed that. –  Benjamin Sep 13 '11 at 9:56

3 Answers 3

up vote 1 down vote accepted

What do you want to do with the result of calculate?

Your main thread is blocked in the .join().

If you want to handle other callbacks, you have to return to the normal execution flow, waiting for another call.

Then you have to ask yourself what do you do with the result of calculate when it's finished. Maybe the thread can put the result in a shared resource somewhere and finish gracefully.

You must first sort out all what your code is supposed to do ( processing callbacks, starting threads, what to do with the result ) then you can think of implementing it. There are new constructs in boost and C++11 called promise and future that could suit you but first you have to think about what you want.

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You're right. The results are going to be stored somewhere, doesn't matter in this case. Maybe only a print out. But you remembered me, that the thread isn't going to be finished always, i forgot to keep in mind. So it should be cancelled after an amount of time. I changed my topic slightly, sorry for that inconvenience. –  Benjamin Sep 13 '11 at 10:03

You can call join just when you need the result of the calculations. Something like "Future" pattern. Anyway, you would have to make your thread variable global to the CallBackRecieved function (You can write some wrapper). Note: you can call join, when thread finished its' work - nothing will be blocked.

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Actually you could call the callback while your main thread is sleeping. It would just run on the context (stack) of your thread.

You probably don't want to call join at the point you are at but later or never.

Example (pseudocode):

class Worker {

  void doWork(void * mainthread){

    Main* main = static_cast<Main*>(mainthread);

    while(hasWorkTodo){
      //work

      //inform main
      main->callbackwithinformation(information);

  }


}


class Main{

  atomi_int filesfound;

  void main_part(){
    //start worker
    boost::thread thread(&Worker::doWork, &object, this);

    while(hasworktodo){
      //do work

      //use filesfound here
    }   
    //About to finish make sure we join our thread
    thread.join();

  }

  void callbackwithinformation(int updatedcount){
    //here we set a flag or pass some object
    //probably will need an atomic operation
    filesfound = updatedcount;
  }
}

You would define the implementations in cpp and the interface in a h file so no circular dependency would arise, since you are only using Main as a argument in the interface a forward declaration would suffice.

//worker.h
class mainthread;

class Worker {    
  void doWork(void * mainthread);
}

//worker.cpp
#include "main.h"
void Worker::doWork(/* and so on*/}


//main.h
class Main{

  atomi_int filesfound;

  void main_part();

  void callbackwithinformation(int updatedcount);
}

//main.cpp
//no need for worker.h here
void Main::main_part() /* implementation and so on */
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Thanks for this example. Why <code> join() </code> is such important? But besides, <code>Worker</code> and <code>Main</code> are defined by different .h class files. But they can't include them one another as we know. Do you have any hints? –  Benjamin Sep 13 '11 at 10:29

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