ACE  6.1.0
Public Member Functions | Public Attributes | Protected Attributes | Private Member Functions
ACE_Semaphore Class Reference

Wrapper for Dijkstra style general semaphores. More...

#include <Semaphore.h>

Inheritance diagram for ACE_Semaphore:
Inheritance graph
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List of all members.

Public Member Functions

 ACE_Semaphore (unsigned int count=1, int type=USYNC_THREAD, const ACE_TCHAR *name=0, void *=0, int max=0x7fffffff)
 Initialize the semaphore, with initial value of "count".
 ~ACE_Semaphore (void)
 Implicitly destroy the semaphore.
int remove (void)
int acquire (void)
int acquire (ACE_Time_Value &tv)
int acquire (ACE_Time_Value *tv)
int tryacquire (void)
int release (void)
int release (unsigned int release_count)
int acquire_read (void)
int acquire_write (void)
int tryacquire_read (void)
int tryacquire_write (void)
int tryacquire_write_upgrade (void)
void dump (void) const
 Dump the state of an object.
const ACE_sema_t & lock (void) const
 Return the underlying lock.

Public Attributes

 ACE_ALLOC_HOOK_DECLARE
 Declare the dynamic allocation hooks.

Protected Attributes

ACE_sema_t semaphore_
bool removed_

Private Member Functions

void operator= (const ACE_Semaphore &)
 ACE_Semaphore (const ACE_Semaphore &)

Detailed Description

Wrapper for Dijkstra style general semaphores.


Constructor & Destructor Documentation

ACE_Semaphore::ACE_Semaphore ( unsigned int  count = 1,
int  type = USYNC_THREAD,
const ACE_TCHAR name = 0,
void *  arg = 0,
int  max = 0x7fffffff 
)

Initialize the semaphore, with initial value of "count".

ACE_Semaphore::~ACE_Semaphore ( void  )

Implicitly destroy the semaphore.

ACE_Semaphore::ACE_Semaphore ( const ACE_Semaphore ) [private]

Member Function Documentation

int ACE_Semaphore::acquire ( void  ) [inline]

Block the thread until the semaphore count becomes greater than 0, then decrement it.

int ACE_Semaphore::acquire ( ACE_Time_Value tv) [inline]

Block the thread until the semaphore count becomes greater than 0 (at which point it is decremented) or until tv times out (in which case -1 is returned and errno == ETIME). Note that tv is assumed to be in "absolute" rather than "relative" time. The value of tv is updated upon return to show the actual (absolute) acquisition time.

Note:
Solaris threads do not support timed semaphores. Therefore, if you're running on Solaris you might want to consider using the ACE POSIX pthreads implementation instead, which can be enabled by compiling ACE with -DACE_HAS_PTHREADS, rather than -DACE_HAS_STHREADS or -DACE_HAS_POSIX_SEM.
int ACE_Semaphore::acquire ( ACE_Time_Value tv) [inline]

If tv == 0 then call <acquire()> directly. Otherwise, Block the thread until the semaphore count becomes greater than 0 (at which point it is decremented) or until tv times out (in which case -1 is returned and errno == ETIME). Note that <*tv> is assumed to be in "absolute" rather than "relative" time. The value of <*tv> is updated upon return to show the actual (absolute) acquisition time.

Note:
Solaris threads do not support timed semaphores. Therefore, if you're running on Solaris you might want to consider using the ACE POSIX pthreads implementation instead, which can be enabled by compiling ACE with -DACE_HAS_PTHREADS, rather than -DACE_HAS_STHREADS or -DACE_HAS_POSIX_SEM.
int ACE_Semaphore::acquire_read ( void  ) [inline]

Acquire semaphore ownership. This calls <acquire> and is only here to make the ACE_Semaphore interface consistent with the other synchronization APIs.

int ACE_Semaphore::acquire_write ( void  ) [inline]

Acquire semaphore ownership. This calls <acquire> and is only here to make the ACE_Semaphore interface consistent with the other synchronization APIs.

void ACE_Semaphore::dump ( void  ) const

Dump the state of an object.

Reimplemented in ACE_Thread_Semaphore.

const ACE_sema_t & ACE_Semaphore::lock ( void  ) const [inline]

Return the underlying lock.

void ACE_Semaphore::operator= ( const ACE_Semaphore ) [private]
int ACE_Semaphore::release ( void  ) [inline]

Increment the semaphore by 1, potentially unblocking a waiting thread.

int ACE_Semaphore::release ( unsigned int  release_count) [inline]

Increment the semaphore by release_count, potentially unblocking waiting threads.

int ACE_Semaphore::remove ( void  ) [inline]

Explicitly destroy the semaphore. Note that only one thread should call this method since it doesn't protect against race conditions.

int ACE_Semaphore::tryacquire ( void  ) [inline]

Conditionally decrement the semaphore if count is greater than 0 (i.e., won't block). Returns -1 on failure. If we "failed" because someone else already had the lock, errno is set to EBUSY.

int ACE_Semaphore::tryacquire_read ( void  ) [inline]

Conditionally acquire semaphore (i.e., won't block). This calls <tryacquire> and is only here to make the ACE_Semaphore interface consistent with the other synchronization APIs. Returns -1 on failure. If we "failed" because someone else already had the lock, errno is set to EBUSY.

int ACE_Semaphore::tryacquire_write ( void  ) [inline]

Conditionally acquire semaphore (i.e., won't block). This calls <tryacquire> and is only here to make the ACE_Semaphore interface consistent with the other synchronization APIs. Returns -1 on failure. If we "failed" because someone else already had the lock, errno is set to EBUSY.

int ACE_Semaphore::tryacquire_write_upgrade ( void  ) [inline]

This is only here to make the ACE_Semaphore interface consistent with the other synchronization APIs. Assumes the caller has already acquired the semaphore using one of the above calls, and returns 0 (success) always.


Member Data Documentation

Declare the dynamic allocation hooks.

Reimplemented in ACE_Thread_Semaphore.

bool ACE_Semaphore::removed_ [protected]

Keeps track of whether remove() has been called yet to avoid multiple remove() calls, e.g., explicitly and implicitly in the destructor. This flag isn't protected by a lock, so make sure that you don't have multiple threads simultaneously calling remove () on the same object, which is a bad idea anyway...

ACE_sema_t ACE_Semaphore::semaphore_ [protected]

The documentation for this class was generated from the following files:
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