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// $Id$
#ifndef BARRIER_H
#define BARRIER_H
#include "ace/Synch.h"
/* Barrier is a simple wrapper for the ACE_Barrier synchronization
class. The ACE_Barrier is already pretty easy to use but I thought
I'd wrap it up to create just a bit more abstraction at the
application level. */
class Barrier
{
public:
// Basic constructor and destructor. If you only need to synch the
// start of your threads, you can safely delete your Barrier object
// after invoking done(). Of course, you should be careful to only
// delete the object once!
Barrier (void);
~Barrier (void);
// Set and get the number of threads that the barrier will manage.
// If you add or remove threads to your application at run-time you
// can use the mutator to reflect that change. Note, however, that
// you can only do that from the thread which first created the
// Barrier. (This is a limitation of my Barrier object, not the
// ACE_Barrier.) The optional _wait parameter will cause wait() to
// be invoked if there is already a valid threads value.
int threads (u_int threads, int wait = 0);
u_int threads (void);
// Wait for all threads to reach the point where this is invoked.
// Because of the snappy way in which ACE_Barrier is implemented,
// you can invoke these back-to-back with no ill-effects.
int wait (void);
// done() will invoke wait(). Before returning though, it will
// delete the barrier_ pointer below to reclaim some memory.
int done (void);
// Reset the owning thread of the barrier.
void owner( ACE_thread_t _owner );
protected:
// The number of threads we're synching
ACE_Atomic_Op<ACE_Mutex, u_int> threads_;
// The ACE_Barrier that does all of the work
ACE_Barrier *barrier_;
// If we mutate the number of threads we have to do some black magic
// to make sure there isn't a memory leak. These two member
// variables are a part of that magic.
ACE_Barrier *new_barrier_;
ACE_Mutex barrier_mutex_;
// The thread which created the Barrier in the first place. Only
// this thread can change the threads_ value.
ACE_thread_t owner_;
// An internal method that constructs the barrier_ as needed.
int make_barrier (int wait);
};
#endif /* BARRIER_H */
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