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#include "qmutexpool_p.h"
#ifdef QT_THREAD_SUPPORT
#include <qthread.h>
#include <stdio.h>
QMutexPool *qt_global_mutexpool = 0;
// this is an internal class used only for inititalizing the global mutexpool
class QGlobalMutexPoolInitializer
{
public:
inline QGlobalMutexPoolInitializer()
{
/*
Purify will report a leak here. However, this mutex pool must be alive
until *everything* in Qt has been destructed. Unfortunately there is
no way to guarantee this, so we never destroy this mutex pool.
*/
qt_global_mutexpool = new QMutexPool( TRUE );
}
};
QGlobalMutexPoolInitializer qt_global_mutexpool_initializer;
/*!
\class QMutexPool qmutexpool_p.h
\brief The QMutexPool class provides a pool of QMutex objects.
\internal
\ingroup thread
QMutexPool is a convenience class that provides access to a fixed
number of QMutex objects.
Typical use of a QMutexPool is in situations where it is not
possible or feasible to use one QMutex for every protected object.
The mutex pool will return a mutex based on the address of the
object that needs protection.
For example, consider this simple class:
\code
class Number {
public:
Number( double n ) : num ( n ) { }
void setNumber( double n ) { num = n; }
double number() const { return num; }
private:
double num;
};
\endcode
Adding a QMutex member to the Number class does not make sense,
because it is so small. However, in order to ensure that access to
each Number is protected, you need to use a mutex. In this case, a
QMutexPool would be ideal.
Code to calculate the square of a number would then look something
like this:
\code
void calcSquare( Number *num )
{
QMutexLocker locker( mutexpool.get( num ) );
num.setNumber( num.number() * num.number() );
}
\endcode
This function will safely calculate the square of a number, since
it uses a mutex from a QMutexPool. The mutex is locked and
unlocked automatically by the QMutexLocker class. See the
QMutexLocker documentation for more details.
*/
/*!
Constructs a QMutexPool, reserving space for \a size QMutexes. If
\a recursive is TRUE, all QMutexes in the pool will be recursive
mutexes; otherwise they will all be non-recursive (the default).
The QMutexes are created when needed, and deleted when the
QMutexPool is destructed.
*/
QMutexPool::QMutexPool( bool recursive, int size )
: mutex( FALSE ), mutexes( size ), recurs( recursive )
{
mutexes.fill( 0 );
}
/*!
Destructs a QMutexPool. All QMutexes that were created by the pool
are deleted.
*/
QMutexPool::~QMutexPool()
{
QMutexLocker locker( &mutex );
QMutex **d = mutexes.data();
for ( int index = 0; (uint) index < mutexes.size(); index++ ) {
delete d[index];
d[index] = 0;
}
}
/*!
Returns a QMutex from the pool. QMutexPool uses the value \a
address to determine which mutex is retured from the pool.
*/
QMutex *QMutexPool::get( void *address )
{
QMutex **d = mutexes.data();
int index = (int)( (ulong) address % mutexes.size() );
if ( ! d[index] ) {
// mutex not created, create one
QMutexLocker locker( &mutex );
// we need to check once again that the mutex hasn't been created, since
// 2 threads could be trying to create a mutex as the same index...
if ( ! d[index] ) {
d[index] = new QMutex( recurs );
}
}
return d[index];
}
#endif
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