/* -*- C++ -*- */ // $Id$ ACE_INLINE ACE_Lock::ACE_Lock (void) { } ACE_INLINE int ACE_File_Lock::acquire_read (short whence, off_t start, off_t len) { // ACE_TRACE ("ACE_File_Lock::acquire_read"); return ACE_OS::flock_rdlock (&this->lock_, whence, start, len); } ACE_INLINE int ACE_File_Lock::tryacquire_read (short whence, off_t start, off_t len) { // ACE_TRACE ("ACE_File_Lock::tryacquire_read"); return ACE_OS::flock_tryrdlock (&this->lock_, whence, start, len); } ACE_INLINE int ACE_File_Lock::tryacquire_write (short whence, off_t start, off_t len) { // ACE_TRACE ("ACE_File_Lock::tryacquire_write"); return ACE_OS::flock_trywrlock (&this->lock_, whence, start, len); } ACE_INLINE int ACE_File_Lock::tryacquire (short whence, off_t start, off_t len) { // ACE_TRACE ("ACE_File_Lock::tryacquire"); return this->tryacquire_write (whence, start, len); } ACE_INLINE int ACE_File_Lock::acquire_write (short whence, off_t start, off_t len) { // ACE_TRACE ("ACE_File_Lock::acquire_write"); return ACE_OS::flock_wrlock (&this->lock_, whence, start, len); } ACE_INLINE int ACE_File_Lock::acquire (short whence, off_t start, off_t len) { // ACE_TRACE ("ACE_File_Lock::acquire"); return this->acquire_write (whence, start, len); } ACE_INLINE int ACE_File_Lock::release (short whence, off_t start, off_t len) { // ACE_TRACE ("ACE_File_Lock::release"); return ACE_OS::flock_unlock (&this->lock_, whence, start, len); } ACE_INLINE int ACE_File_Lock::remove (int unlink_file) { // ACE_TRACE ("ACE_File_Lock::remove"); int result = 0; if (this->removed_ == 0) { this->removed_ = 1; result = ACE_OS::flock_destroy (&this->lock_, unlink_file); } return result; } ACE_INLINE ACE_HANDLE ACE_File_Lock::get_handle (void) { // ACE_TRACE ("ACE_File_Lock::get_handle"); return this->lock_.handle_; } ACE_INLINE void ACE_File_Lock::set_handle (ACE_HANDLE h) { // ACE_TRACE ("ACE_File_Lock::set_handle"); this->lock_.handle_ = h; this->removed_ = 0; } ACE_INLINE const ACE_rwlock_t & ACE_RW_Mutex::lock (void) const { // ACE_TRACE ("ACE_RW_Mutex::lock"); return this->lock_; } ACE_INLINE int ACE_RW_Mutex::remove (void) { // ACE_TRACE ("ACE_RW_Mutex::remove"); int result = 0; if (this->removed_ == 0) { this->removed_ = 1; result = ACE_OS::rwlock_destroy (&this->lock_); } return result; } ACE_INLINE int ACE_RW_Mutex::acquire_read (void) { // ACE_TRACE ("ACE_RW_Mutex::acquire_read"); return ACE_OS::rw_rdlock (&this->lock_); } ACE_INLINE int ACE_RW_Mutex::acquire_write (void) { // ACE_TRACE ("ACE_RW_Mutex::acquire_write"); return ACE_OS::rw_wrlock (&this->lock_); } ACE_INLINE int ACE_RW_Mutex::acquire (void) { // ACE_TRACE ("ACE_RW_Mutex::acquire"); return ACE_OS::rw_wrlock (&this->lock_); } ACE_INLINE int ACE_RW_Mutex::tryacquire_read (void) { // ACE_TRACE ("ACE_RW_Mutex::tryacquire_read"); return ACE_OS::rw_tryrdlock (&this->lock_); } ACE_INLINE int ACE_RW_Mutex::tryacquire_write (void) { // ACE_TRACE ("ACE_RW_Mutex::tryacquire_write"); return ACE_OS::rw_trywrlock (&this->lock_); } ACE_INLINE int ACE_RW_Mutex::tryacquire (void) { // ACE_TRACE ("ACE_RW_Mutex::tryacquire"); return this->tryacquire_write (); } ACE_INLINE int ACE_RW_Mutex::release (void) { // ACE_TRACE ("ACE_RW_Mutex::release"); return ACE_OS::rw_unlock (&this->lock_); } #if defined (ACE_HAS_THREADS) ACE_INLINE int ACE_RW_Thread_Mutex::tryacquire_write_upgrade (void) { // ACE_TRACE ("ACE_RW_Thread_Mutex::tryacquire_write_upgrade"); return ACE_OS::rw_trywrlock_upgrade (&this->lock_); } #endif /* ACE_HAS_THREADS */ ACE_INLINE int ACE_Mutex::acquire_read (void) { // ACE_TRACE ("ACE_Mutex::acquire_read"); #if defined (CHORUS) if (this->process_lock_) return ACE_OS::mutex_lock (this->process_lock_); #endif /* CHORUS */ return ACE_OS::mutex_lock (&this->lock_); } ACE_INLINE int ACE_Mutex::acquire_write (void) { // ACE_TRACE ("ACE_Mutex::acquire_write"); #if defined (CHORUS) if (this->process_lock_) return ACE_OS::mutex_lock (this->process_lock_); #endif /* CHORUS */ return ACE_OS::mutex_lock (&this->lock_); } ACE_INLINE int ACE_Mutex::tryacquire_read (void) { // ACE_TRACE ("ACE_Mutex::tryacquire_read"); #if defined (CHORUS) if (this->process_lock_) return ACE_OS::mutex_trylock (this->process_lock_); #endif /* CHORUS */ return ACE_OS::mutex_trylock (&this->lock_); } ACE_INLINE const ACE_mutex_t & ACE_Mutex::lock (void) const { // ACE_TRACE ("ACE_Mutex::lock"); #if defined (CHORUS) if (this->process_lock_) return *this->process_lock_; #endif /* CHORUS */ return this->lock_; } ACE_INLINE int ACE_Mutex::tryacquire_write (void) { // ACE_TRACE ("ACE_Mutex::tryacquire_write"); #if defined (CHORUS) if (this->process_lock_) return ACE_OS::mutex_trylock (this->process_lock_); #endif /* CHORUS */ return ACE_OS::mutex_trylock (&this->lock_); } ACE_INLINE int ACE_Mutex::acquire (void) { // ACE_TRACE ("ACE_Mutex::acquire"); #if defined (CHORUS) if (this->process_lock_) return ACE_OS::mutex_lock (this->process_lock_); #endif /* CHORUS */ return ACE_OS::mutex_lock (&this->lock_); } ACE_INLINE int ACE_Mutex::tryacquire (void) { // ACE_TRACE ("ACE_Mutex::tryacquire"); #if defined (CHORUS) if (this->process_lock_) return ACE_OS::mutex_trylock (this->process_lock_); #endif /* CHORUS */ return ACE_OS::mutex_trylock (&this->lock_); } ACE_INLINE int ACE_Mutex::release (void) { // ACE_TRACE ("ACE_Mutex::release"); #if defined (CHORUS) if (this->process_lock_) return ACE_OS::mutex_unlock (this->process_lock_); #endif /* CHORUS */ return ACE_OS::mutex_unlock (&this->lock_); } ACE_INLINE int ACE_Mutex::remove (void) { // ACE_TRACE ("ACE_Mutex::remove"); #if defined (CHORUS) int result = 0; // Are we the owner? if (this->process_lock_ && this->lockname_) { if (this->removed_ == 0) { this->removed_ = 1; // Only destroy the lock if we're the ones who initialized // it. result = ACE_OS::mutex_destroy (this->process_lock_); ACE_OS::munmap (this->process_lock_, sizeof (ACE_mutex_t)); ACE_OS::shm_unlink (this->lockname_); ACE_OS::free (ACE_static_cast (void *, ACE_const_cast (LPTSTR, this->lockname_))); } } else if (this->process_lock_) { ACE_OS::munmap (this->process_lock_, sizeof (ACE_mutex_t)); result = 0; } return result; #else /* !CHORUS */ int result = 0; if (this->removed_ == 0) { this->removed_ = 1; result = ACE_OS::mutex_destroy (&this->lock_); } return result; #endif /* CHORUS */ } ACE_INLINE const ACE_sema_t & ACE_Semaphore::lock (void) const { // ACE_TRACE ("ACE_Semaphore::lock"); return this->semaphore_; } ACE_INLINE int ACE_Semaphore::remove (void) { // ACE_TRACE ("ACE_Semaphore::remove"); int result = 0; if (this->removed_ == 0) { this->removed_ = 1; result = ACE_OS::sema_destroy (&this->semaphore_); } return result; } ACE_INLINE int ACE_Semaphore::acquire (void) { // ACE_TRACE ("ACE_Semaphore::acquire"); return ACE_OS::sema_wait (&this->semaphore_); } ACE_INLINE int ACE_Semaphore::acquire (ACE_Time_Value &tv) { // ACE_TRACE ("ACE_Semaphore::acquire"); return ACE_OS::sema_wait (&this->semaphore_, tv); } ACE_INLINE int ACE_Semaphore::tryacquire (void) { // ACE_TRACE ("ACE_Semaphore::tryacquire"); return ACE_OS::sema_trywait (&this->semaphore_); } ACE_INLINE int ACE_Semaphore::release (void) { // ACE_TRACE ("ACE_Semaphore::release"); return ACE_OS::sema_post (&this->semaphore_); } ACE_INLINE int ACE_Semaphore::release (size_t release_count) { // ACE_TRACE ("ACE_Semaphore::release"); return ACE_OS::sema_post (&this->semaphore_, release_count); } // Acquire semaphore ownership. This calls and is only // here to make the interface consistent with the // other synchronization APIs. ACE_INLINE int ACE_Semaphore::acquire_read (void) { return this->acquire (); } // Acquire semaphore ownership. This calls and is only // here to make the interface consistent with the // other synchronization APIs. ACE_INLINE int ACE_Semaphore::acquire_write (void) { return this->acquire (); } // Conditionally acquire semaphore (i.e., won't block). This calls // and is only here to make the // interface consistent with the other synchronization APIs. ACE_INLINE int ACE_Semaphore::tryacquire_read (void) { return this->tryacquire (); } // Conditionally acquire semaphore (i.e., won't block). This calls // and is only here to make the // interface consistent with the other synchronization APIs. ACE_INLINE int ACE_Semaphore::tryacquire_write (void) { return this->tryacquire (); } #if defined (ACE_WIN32) || defined (ACE_HAS_POSIX_SEM) ACE_INLINE const ACE_mutex_t & ACE_Process_Mutex::lock (void) const { // ACE_TRACE ("ACE_Process_Mutex::lock"); return this->lock_.lock (); } ACE_INLINE const ACE_sema_t & ACE_Process_Semaphore::lock (void) const { // ACE_TRACE ("ACE_Process_Semaphore::lock"); return this->lock_.lock (); } #endif /* ACE_WIN32 */ // Acquire semaphore ownership. This calls and is only here // to make the interface consistent with the // other synchronization APIs. ACE_INLINE int ACE_Process_Semaphore::acquire_read (void) { return this->acquire (); } // Acquire semaphore ownership. This calls and is only here // to make the interface consistent with the // other synchronization APIs. ACE_INLINE int ACE_Process_Semaphore::acquire_write (void) { return this->acquire (); } // Conditionally acquire semaphore (i.e., won't block). This calls // and is only here to make the // interface consistent with the other synchronization APIs. ACE_INLINE int ACE_Process_Semaphore::tryacquire_read (void) { return this->tryacquire (); } // Conditionally acquire semaphore (i.e., won't block). This calls // and is only here to make the // interface consistent with the other synchronization APIs. ACE_INLINE int ACE_Process_Semaphore::tryacquire_write (void) { return this->tryacquire (); } // Null ACE_Semaphore implementation ACE_INLINE ACE_Null_Semaphore::ACE_Null_Semaphore (u_int, int, LPCTSTR, void *, int) { } ACE_INLINE ACE_Null_Semaphore::~ACE_Null_Semaphore (void) { } ACE_INLINE int ACE_Null_Semaphore::remove (void) { return 0; } ACE_INLINE int ACE_Null_Semaphore::acquire (ACE_Time_Value &) { return 0; } ACE_INLINE int ACE_Null_Semaphore::acquire (void) { return 0; } ACE_INLINE int ACE_Null_Semaphore::tryacquire (void) { return 0; } ACE_INLINE int ACE_Null_Semaphore::release (size_t) { return 0; } ACE_INLINE int ACE_Null_Semaphore::release (void) { return 0; } ACE_INLINE int ACE_Null_Semaphore::acquire_write (void) { return 0; } ACE_INLINE int ACE_Null_Semaphore::tryacquire_write (void) { return 0; } ACE_INLINE int ACE_Null_Semaphore::acquire_read (void) { return 0; } ACE_INLINE int ACE_Null_Semaphore::tryacquire_read (void) { return 0; } ACE_INLINE void ACE_Null_Semaphore::dump (void) const { } #if defined (ACE_HAS_THREADS) ACE_INLINE const ACE_thread_mutex_t & ACE_Thread_Mutex::lock (void) const { // ACE_TRACE ("ACE_Thread_Mutex::lock"); return this->lock_; } ACE_INLINE int ACE_Thread_Mutex::acquire_read (void) { // ACE_TRACE ("ACE_Thread_Mutex::acquire_read"); return ACE_OS::thread_mutex_lock (&this->lock_); } ACE_INLINE int ACE_Thread_Mutex::acquire_write (void) { // ACE_TRACE ("ACE_Thread_Mutex::acquire_write"); return ACE_OS::thread_mutex_lock (&this->lock_); } ACE_INLINE int ACE_Thread_Mutex::tryacquire_read (void) { // ACE_TRACE ("ACE_Thread_Mutex::tryacquire_read"); return ACE_OS::thread_mutex_trylock (&this->lock_); } ACE_INLINE int ACE_Thread_Mutex::tryacquire_write (void) { // ACE_TRACE ("ACE_Thread_Mutex::tryacquire_write"); return ACE_OS::thread_mutex_trylock (&this->lock_); } ACE_INLINE int ACE_Thread_Mutex::acquire (void) { // ACE_TRACE ("ACE_Thread_Mutex::acquire"); return ACE_OS::thread_mutex_lock (&this->lock_); } ACE_INLINE int ACE_Thread_Mutex::tryacquire (void) { // ACE_TRACE ("ACE_Thread_Mutex::tryacquire"); return ACE_OS::thread_mutex_trylock (&this->lock_); } ACE_INLINE int ACE_Thread_Mutex::release (void) { // ACE_TRACE ("ACE_Thread_Mutex::release"); return ACE_OS::thread_mutex_unlock (&this->lock_); } ACE_INLINE int ACE_Thread_Mutex::remove (void) { // ACE_TRACE ("ACE_Thread_Mutex::remove"); int result = 0; if (this->removed_ == 0) { this->removed_ = 1; result = ACE_OS::thread_mutex_destroy (&this->lock_); } return result; } #if defined (ACE_USES_OBSOLETE_GUARD_CLASSES) ACE_INLINE int ACE_Thread_Mutex_Guard::locked (void) { // ACE_TRACE ("ACE_Thread_Mutex_Guard::locked"); return this->owner_ != -1; } // Explicitly acquire the lock. ACE_INLINE int ACE_Thread_Mutex_Guard::acquire (void) { // ACE_TRACE ("ACE_Thread_Mutex_Guard::acquire"); return this->owner_ = this->lock_.acquire (); } // Conditionally acquire the lock (i.e., won't block). ACE_INLINE int ACE_Thread_Mutex_Guard::tryacquire (void) { // ACE_TRACE ("ACE_Thread_Mutex_Guard::tryacquire"); return this->owner_ = this->lock_.tryacquire (); } // Implicitly and automatically acquire the lock. ACE_INLINE ACE_Thread_Mutex_Guard::ACE_Thread_Mutex_Guard (ACE_Thread_Mutex &m, int block) : lock_ (m) { // ACE_TRACE ("ACE_Thread_Mutex_Guard::ACE_Thread_Mutex_Guard"); if (block) this->acquire (); else this->tryacquire (); } // Explicitly release the lock. ACE_INLINE int ACE_Thread_Mutex_Guard::release (void) { // ACE_TRACE ("ACE_Thread_Mutex_Guard::release"); if (this->owner_ != -1) { this->owner_ = -1; return this->lock_.release (); } else return 0; } // Implicitly release the lock. ACE_INLINE ACE_Thread_Mutex_Guard::~ACE_Thread_Mutex_Guard (void) { // ACE_TRACE ("ACE_Thread_Mutex_Guard::~ACE_Thread_Mutex_Guard"); this->release (); } // Explicitly release the lock. ACE_INLINE int ACE_Thread_Mutex_Guard::remove (void) { // ACE_TRACE ("ACE_Thread_Mutex_Guard::remove"); this->owner_ = -1; return this->release (); } #endif /* ACE_USES_OBSOLETE_GUARD_CLASSES */ ACE_INLINE ACE_Condition_Attributes::ACE_Condition_Attributes (int type) { (void) ACE_OS::condattr_init (this->attributes_, type); } ACE_INLINE ACE_Condition_Attributes::~ACE_Condition_Attributes (void) { ACE_OS::condattr_destroy (this->attributes_); } ACE_INLINE int ACE_Condition_Thread_Mutex::remove (void) { // ACE_TRACE ("ACE_Condition_Thread_Mutex::remove"); // is called in a loop if the condition variable is // BUSY. This avoids a condition where a condition is signaled and // because of some timing problem, the thread that is to be signaled // has called the cond_wait routine after the signal call. Since // the condition signal is not queued in any way, deadlock occurs. int result = 0; if (this->removed_ == 0) { this->removed_ = 1; while ((result = ACE_OS::cond_destroy (&this->cond_)) == -1 && errno == EBUSY) { ACE_OS::cond_broadcast (&this->cond_); ACE_OS::thr_yield (); } } return result; } ACE_INLINE ACE_Thread_Mutex & ACE_Condition_Thread_Mutex::mutex (void) { // ACE_TRACE ("ACE_Condition_Thread_Mutex::mutex"); return this->mutex_; } ACE_INLINE void ACE_Recursive_Thread_Mutex::set_thread_id (ACE_thread_t t) { // ACE_TRACE ("ACE_Recursive_Thread_Mutex::set_thread_id"); #if defined (ACE_HAS_RECURSIVE_MUTEXES) ACE_UNUSED_ARG (t); #else /* ! ACE_HAS_RECURSIVE_MUTEXES */ this->recursive_mutex_.owner_id_ = t; #endif /* ! ACE_HAS_RECURSIVE_MUTEXES */ } ACE_INLINE int ACE_Recursive_Thread_Mutex::acquire_read (void) { return this->acquire (); } ACE_INLINE int ACE_Recursive_Thread_Mutex::acquire_write (void) { return this->acquire (); } ACE_INLINE int ACE_Recursive_Thread_Mutex::tryacquire_read (void) { return this->tryacquire (); } ACE_INLINE int ACE_Recursive_Thread_Mutex::tryacquire_write (void) { return this->tryacquire (); } #endif /* ACE_HAS_THREADS */ // Explicitly destroy the mutex. ACE_INLINE int ACE_Process_Mutex::remove (void) { return this->lock_.remove (); } // Acquire lock ownership (wait on priority queue if necessary). ACE_INLINE int ACE_Process_Mutex::acquire (void) { return this->lock_.acquire (); } // Conditionally acquire lock (i.e., don't wait on queue). ACE_INLINE int ACE_Process_Mutex::tryacquire (void) { return this->lock_.tryacquire (); } // Release lock and unblock a thread at head of priority queue. ACE_INLINE int ACE_Process_Mutex::release (void) { return this->lock_.release (); } // Acquire lock ownership (wait on priority queue if necessary). ACE_INLINE int ACE_Process_Mutex::acquire_read (void) { return this->lock_.acquire_read (); } // Acquire lock ownership (wait on priority queue if necessary). ACE_INLINE int ACE_Process_Mutex::acquire_write (void) { return this->lock_.acquire_write (); } // Conditionally acquire a lock (i.e., won't block). ACE_INLINE int ACE_Process_Mutex::tryacquire_read (void) { return this->lock_.tryacquire_read (); } // Conditionally acquire a lock (i.e., won't block). ACE_INLINE int ACE_Process_Mutex::tryacquire_write (void) { return this->lock_.tryacquire_write (); } // Explicitly destroy the mutex. ACE_INLINE int ACE_RW_Process_Mutex::remove (void) { return this->lock_.remove (); } // Acquire lock ownership (wait on priority queue if necessary). ACE_INLINE int ACE_RW_Process_Mutex::acquire (void) { return this->lock_.acquire (); } // Conditionally acquire lock (i.e., don't wait on queue). ACE_INLINE int ACE_RW_Process_Mutex::tryacquire (void) { return this->lock_.tryacquire (); } // Release lock and unblock a thread at head of priority queue. ACE_INLINE int ACE_RW_Process_Mutex::release (void) { return this->lock_.release (); } // Acquire lock ownership (wait on priority queue if necessary). ACE_INLINE int ACE_RW_Process_Mutex::acquire_read (void) { return this->lock_.acquire_read (); } // Acquire lock ownership (wait on priority queue if necessary). ACE_INLINE int ACE_RW_Process_Mutex::acquire_write (void) { return this->lock_.acquire_write (); } // Conditionally acquire a lock (i.e., won't block). ACE_INLINE int ACE_RW_Process_Mutex::tryacquire_read (void) { return this->lock_.tryacquire_read (); } // Conditionally acquire a lock (i.e., won't block). ACE_INLINE int ACE_RW_Process_Mutex::tryacquire_write (void) { return this->lock_.tryacquire_write (); } ACE_INLINE const ACE_File_Lock & ACE_RW_Process_Mutex::lock (void) const { // ACE_TRACE ("ACE_RW_Process_Mutex::lock"); return this->lock_; } ACE_INLINE ACE_Null_Barrier::ACE_Null_Barrier (u_int, const char *, void *) { } ACE_INLINE ACE_Null_Barrier::~ACE_Null_Barrier (void) { } ACE_INLINE int ACE_Null_Barrier::wait (void) { return 0; } ACE_INLINE void ACE_Null_Barrier::dump (void) const { } ACE_INLINE ACE_Null_Mutex::ACE_Null_Mutex (LPCTSTR) { } ACE_INLINE ACE_Null_Mutex::~ACE_Null_Mutex (void) { } ACE_INLINE int ACE_Null_Mutex::remove (void) { return 0; } ACE_INLINE int ACE_Null_Mutex::acquire (void) { return 0; } ACE_INLINE int ACE_Null_Mutex::tryacquire (void) { return 0; } ACE_INLINE int ACE_Null_Mutex::release (void) { return 0; } ACE_INLINE int ACE_Null_Mutex::acquire_write (void) { return 0; } ACE_INLINE int ACE_Null_Mutex::tryacquire_write (void) { return 0; } ACE_INLINE int ACE_Null_Mutex::acquire_read (void) { return 0; } ACE_INLINE int ACE_Null_Mutex::tryacquire_read (void) { return 0; } ACE_INLINE void ACE_Null_Mutex::dump (void) const { } ACE_INLINE int ACE_Noop_Token::renew (int, ACE_Time_Value *) { return 0; } ACE_INLINE void ACE_Noop_Token::dump (void) const { } ACE_INLINE ACE_Null_Condition::ACE_Null_Condition (const ACE_Null_Mutex &m, LPCTSTR, void*) : mutex_ ((ACE_Null_Mutex &) m) { } ACE_INLINE ACE_Null_Condition::~ACE_Null_Condition (void) { } ACE_INLINE int ACE_Null_Condition::remove (void) { return 0; } ACE_INLINE int ACE_Null_Condition::wait (ACE_Time_Value *) { errno = ETIME; return -1; } ACE_INLINE int ACE_Null_Condition::signal (void) { return 0; } ACE_INLINE int ACE_Null_Condition::broadcast (void) { return 0; } ACE_INLINE ACE_Null_Mutex & ACE_Null_Condition::mutex (void) { return this->mutex_; } ACE_INLINE void ACE_Null_Condition::dump (void) const { } #if defined (ACE_USES_OBSOLETE_GUARD_CLASSES) ACE_INLINE ACE_Null_Mutex_Guard::ACE_Null_Mutex_Guard (ACE_Null_Mutex &) { } ACE_INLINE ACE_Null_Mutex_Guard::~ACE_Null_Mutex_Guard (void) { } ACE_INLINE int ACE_Null_Mutex_Guard::remove (void) { return 0; } ACE_INLINE int ACE_Null_Mutex_Guard::locked (void) { return 1; } ACE_INLINE int ACE_Null_Mutex_Guard::acquire (void) { return 0; } ACE_INLINE int ACE_Null_Mutex_Guard::tryacquire (void) { return 0; } ACE_INLINE int ACE_Null_Mutex_Guard::release (void) { return 0; } ACE_INLINE void ACE_Null_Mutex_Guard::dump (void) const { } #endif /* ACE_USES_OBSOLETE_GUARD_CLASSES */ ACE_INLINE ACE_TSS_Adapter::~ACE_TSS_Adapter (void) { } ACE_INLINE ACE_Manual_Event::~ACE_Manual_Event (void) { } ACE_INLINE ACE_Auto_Event::~ACE_Auto_Event (void) { } #if defined (ACE_HAS_THREADS) ACE_INLINE ACE_RW_Thread_Mutex::~ACE_RW_Thread_Mutex (void) { } ACE_INLINE ACE_Thread_Semaphore::~ACE_Thread_Semaphore (void) { } ACE_INLINE ACE_Sub_Barrier::~ACE_Sub_Barrier (void) { } ACE_INLINE ACE_Barrier::~ACE_Barrier (void) { } ACE_INLINE ACE_Thread_Barrier::~ACE_Thread_Barrier (void) { } #endif /* ACE_HAS_THREADS */