/****************************************************************************
** $Id$
**
** QSemaphore class for Unix
**
** Created : 20010725
**
** Copyright (C) 1992-2002 Trolltech AS. All rights reserved.
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** LICENSE.QPL included in the packaging of this file.
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** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file.
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** licenses may use this file in accordance with the Qt Commercial License
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**********************************************************************/
#if defined(QT_THREAD_SUPPORT)
#include "qsemaphore.h"
#include "qmutex.h"
#include "qwaitcondition.h"
/*!
\class QSemaphore qsemaphore.h
\threadsafe
\brief The QSemaphore class provides a robust integer semaphore.
\ingroup thread
\ingroup environment
A QSemaphore can be used to serialize thread execution, in a
similar way to a QMutex. A semaphore differs from a mutex, in
that a semaphore can be accessed by more than one thread at a
time.
For example, suppose we have an application that stores data in a
large tree structure. The application creates 10 threads
(commonly called a thread pool) to perform searches on the tree.
When the application searches the tree for some piece of data, it
uses one thread per base node to do the searching. A semaphore
could be used to make sure that two threads don't try to search
the same branch of the tree at the same time.
A non-computing example of a semaphore would be dining at a
restuarant. A semaphore is initialized to have a maximum count
equal to the number of chairs in the restuarant. As people
arrive, they want a seat. As seats are filled, the semaphore is
accessed, once per person. As people leave, the access is
released, allowing more people to enter. If a party of 10 people
want to be seated, but there are only 9 seats, those 10 people
will wait, but a party of 4 people would be seated (taking the
available seats to 5, making the party of 10 people wait longer).
When a semaphore is created it is given a number which is the
maximum number of concurrent accesses it will permit. This amount
may be changed using operator++(), operator--(), operator+=() and
operator-=(). The number of accesses allowed is retrieved with
available(), and the total number with total(). Note that the
incrementing functions will block if there aren't enough available
accesses. Use tryAccess() if you want to acquire accesses without
blocking.
*/
class QSemaphorePrivate {
public:
QSemaphorePrivate(int);
QMutex mutex;
QWaitCondition cond;
int value, max;
};
QSemaphorePrivate::QSemaphorePrivate(int m)
: mutex(FALSE), value(0), max(m)
{
}
/*!
Creates a new semaphore. The semaphore can be concurrently
accessed at most \a maxcount times.
*/
QSemaphore::QSemaphore(int maxcount)
{
d = new QSemaphorePrivate(maxcount);
}
/*!
Destroys the semaphore.
\warning If you destroy a semaphore that has accesses in use the
resultant behavior is undefined.
*/
QSemaphore::~QSemaphore()
{
delete d;
}
/*!
Postfix ++ operator.
Try to get access to the semaphore. If \l available() == 0, this
call will block until it can get access, i.e. until available() \>
0.
*/
int QSemaphore::operator++(int)
{
int ret;
d->mutex.lock();
while (d->value >= d->max)
d->cond.wait(&(d->mutex));
++(d->value);
if (d->value > d->max) d->value = d->max;
ret = d->value;
d->mutex.unlock();
return ret;
}
/*!
Postfix -- operator.
Release access of the semaphore. This wakes all threads waiting
for access to the semaphore.
*/
int QSemaphore::operator--(int)
{
int ret;
d->mutex.lock();
--(d->value);
if (d->value < 0) d->value = 0;
ret = d->value;
d->cond.wakeAll();
d->mutex.unlock();
return ret;
}
/*!
Try to get access to the semaphore. If \l available() \< \a n, this
call will block until it can get all the accesses it wants, i.e.
until available() \>= \a n.
*/
int QSemaphore::operator+=(int n)
{
int ret;
d->mutex.lock();
while (d->value + n > d->max)
d->cond.wait(&(d->mutex));
d->value += n;
#ifdef QT_CHECK_RANGE
if (d->value > d->max) {
qWarning("QSemaphore::operator+=: attempt to allocate more resources than available");
d->value = d->max;
}
#endif
ret = d->value;
d->mutex.unlock();
return ret;
}
/*!
Release \a n accesses to the semaphore.
*/
int QSemaphore::operator-=(int n)
{
int ret;
d->mutex.lock();
d->value -= n;
#ifdef QT_CHECK_RANGE
if (d->value < 0) {
qWarning("QSemaphore::operator-=: attempt to deallocate more resources than taken");
d->value = 0;
}
#endif
ret = d->value;
d->cond.wakeOne();
d->mutex.unlock();
return ret;
}
/*!
Returns the number of accesses currently available to the
semaphore.
*/
int QSemaphore::available() const {
int ret;
d->mutex.lock();
ret = d->max - d->value;
d->mutex.unlock();
return ret;
}
/*!
Returns the total number of accesses to the semaphore.
*/
int QSemaphore::total() const {
int ret;
d->mutex.lock();
ret = d->max;
d->mutex.unlock();
return ret;
}
/*!
Try to get access to the semaphore. If \l available() \< \a n, this
function will return FALSE immediately. If \l available() \>= \a n,
this function will take \a n accesses and return TRUE. This
function does \e not block.
*/
bool QSemaphore::tryAccess(int n)
{
if (! d->mutex.tryLock())
return FALSE;
if (d->value + n > d->max) {
d->mutex.unlock();
return FALSE;
}
d->value += n;
#ifdef QT_CHECK_RANGE
if (d->value > d->max) {
qWarning("QSemaphore::operator+=: attempt to allocate more resources than available");
d->value = d->max;
}
#endif
d->mutex.unlock();
return TRUE;
}
#endif // QT_THREAD_SUPPORT