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|
/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the QtCore module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** No Commercial Usage
** This file contains pre-release code and may not be distributed.
** You may use this file in accordance with the terms and conditions
** contained in the either Technology Preview License Agreement or the
** Beta Release License Agreement.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain
** additional rights. These rights are described in the Nokia Qt LGPL
** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this
** package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3.0 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU General Public License version 3.0 requirements will be
** met: http://www.gnu.org/copyleft/gpl.html.
**
** If you are unsure which license is appropriate for your use, please
** contact the sales department at http://www.qtsoftware.com/contact.
** $QT_END_LICENSE$
**
****************************************************************************/
#include "qsharedpointer.h"
// to be sure we aren't causing a namespace clash:
#include "qshareddata.h"
/*!
\class QSharedPointer
\brief The QSharedPointer class holds a strong reference to a shared pointer
\since 4.5
\reentrant
\ingroup misc
The QSharedPointer is an automatic, shared pointer in C++. It
behaves exactly like a normal pointer for normal purposes,
including respect for constness.
QSharedPointer will delete the pointer it is holding when it goes
out of scope, provided no other QSharedPointer objects are
referencing it.
A QSharedPointer object can be created from a normal pointer,
another QSharedPointer object or by promoting a
QWeakPointer object to a strong reference.
\section1 Thread-Safety
QSharedPointer and QWeakPointer are thread-safe and operate
atomically on the pointer value. Different threads can also access
the same QSharedPointer or QWeakPointer object at the same time
without need for locking mechanisms.
It should be noted that, while the pointer value can be accessed
in this manner, QSharedPointer and QWeakPointer provide no
guarantee about the object being pointed to. Thread-safety and
reentrancy rules for that object still apply.
\section1 Other Pointer Classes
Qt also provides two other pointer wrapper classes: QPointer and
QSharedDataPointer. They are incompatible with one another, since
each has its very different use case.
QSharedPointer holds a shared pointer by means of an external
reference count (i.e., a reference counter placed outside the
object). Like its name indicates, the pointer value is shared
among all instances of QSharedPointer and QWeakPointer. The
contents of the object pointed to by the pointer should not
considered shared, however: there is only one object. For that
reason, QSharedPointer does not provide a way to detach or make
copies of the pointed object.
QSharedDataPointer, on the other hand, holds a pointer to shared
data (i.e., a class derived from QSharedData). It does so by means
of an internal reference count, placed in the QSharedData base
class. This class can, therefore, detach based on the type of
access made to the data being guarded: if it's a non-const access,
it creates a copy atomically for the operation to complete.
QExplicitlySharedDataPointer behaves like QSharedDataPointer,
except that it only detaches if
QExplicitlySharedDataPointer::detach() is explicitly called.
Finally, QPointer holds a pointer to a QObject-derived object, but
it does so weakly. QPointer is similar, in that behaviour, to
QWeakPointer: it does not allow you to prevent the object from
being destroyed. All you can do is query whether it has been
destroyed or not.
\sa QSharedDataPointer, QWeakPointer
*/
/*!
\class QWeakPointer
\brief The QWeakPointer class holds a weak reference to a shared pointer
\since 4.5
\reentrant
\ingroup misc
The QWeakPointer is an automatic weak reference to a
pointer in C++. It cannot be used to dereference the pointer
directly, but it can be used to verify if the pointer has been
deleted or not in another context.
QWeakPointer objects can only be created by assignment
from a QSharedPointer.
To access the pointer that QWeakPointer is tracking, you
must first create a QSharedPointer object and verify if the pointer
is null or not. See QWeakPointer::toStrongRef() for more information.
\sa QSharedPointer
*/
/*!
\fn QSharedPointer::QSharedPointer()
Creates a QSharedPointer that points to null (0).
*/
/*!
\fn QSharedPointer::~QSharedPointer()
Destroys this QSharedPointer object. If it is the last reference to
the pointer stored, this will delete the pointer as well.
*/
/*!
\fn QSharedPointer::QSharedPointer(T *ptr)
Creates a QSharedPointer that points to \a ptr. The pointer \a ptr
becomes managed by this QSharedPointer and must not be passed to
another QSharedPointer object or deleted outside this object.
*/
/*!
\fn QSharedPointer::QSharedPointer(T *ptr, Deleter deleter)
Creates a QSharedPointer that points to \a ptr. The pointer \a ptr
becomes managed by this QSharedPointer and must not be passed to
another QSharedPointer object or deleted outside this object.
The \a deleter paramter specifies the custom deleter for this
object. The custom deleter is called when the strong reference
count drops to 0 instead of the operator delete(). This is useful,
for instance, for calling deleteLater() in a QObject instead:
\code
static void doDeleteLater(MyObject *obj)
{
obj->deleteLater();
}
void otherFunction()
{
QSharedPointer<MyObject> obj =
QSharedPointer<MyObject>(new MyObject, doDeleteLater);
// continue using obj
obj.clear(); // calls obj->deleteLater();
}
\endcode
It is also possible to specify a member function directly, as in:
\code
QSharedPointer<MyObject> obj =
QSharedPointer<MyObject>(new MyObject, &QObject::deleteLater);
\endcode
\sa clear()
*/
/*!
\fn QSharedPointer::QSharedPointer(const QSharedPointer<T> &other)
Creates a QSharedPointer object that shares \a other's pointer.
If \tt T is a derived type of the template parameter of this class,
QSharedPointer will perform an automatic cast. Otherwise, you will
get a compiler error.
*/
/*!
\fn QSharedPointer::QSharedPointer(const QWeakPointer<T> &other)
Creates a QSharedPointer by promoting the weak reference \a other
to strong reference and sharing its pointer.
If \tt T is a derived type of the template parameter of this
class, QSharedPointer will perform an automatic cast. Otherwise,
you will get a compiler error.
\sa QWeakPointer::toStrongRef()
*/
/*!
\fn QSharedPointer &QSharedPointer::operator=(const QSharedPointer<T> &other)
Makes this object share \a other's pointer. The current pointer
reference is discarded and, if it was the last, the pointer will
be deleted.
If \tt T is a derived type of the template parameter of this
class, QSharedPointer will perform an automatic cast. Otherwise,
you will get a compiler error.
*/
/*!
\fn QSharedPointer &QSharedPointer::operator=(const QWeakPointer<T> &other)
Promotes \a other to a strong reference and makes this object
share a reference to the pointer referenced by it. The current pointer
reference is discarded and, if it was the last, the pointer will
be deleted.
If \tt T is a derived type of the template parameter of this
class, QSharedPointer will perform an automatic cast. Otherwise,
you will get a compiler error.
*/
/*!
\fn T *QSharedPointer::data() const
Returns the value of the pointer referenced by this object.
Note: do not delete the pointer returned by this function or pass
it to another function that could delete it, including creating
QSharedPointer or QWeakPointer objects.
*/
/*!
\fn T &QSharedPointer::operator *() const
Provides access to the shared pointer's members.
\sa isNull()
*/
/*!
\fn T *QSharedPointer::operator ->() const
Provides access to the shared pointer's members.
\sa isNull()
*/
/*!
\fn bool QSharedPointer::isNull() const
Returns true if this object is holding a reference to a null
pointer.
*/
/*!
\fn QSharedPointer::operator bool() const
Returns true if this object is not null. This function is suitable
for use in \tt if-constructs, like:
\code
if (sharedptr) { ... }
\endcode
\sa isNull()
*/
/*!
\fn bool QSharedPointer::operator !() const
Returns true if this object is null. This function is suitable
for use in \tt if-constructs, like:
\code
if (!sharedptr) { ... }
\endcode
\sa isNull()
*/
/*!
\fn QSharedPointer<X> QSharedPointer::staticCast() const
Performs a static cast from this pointer's type to \tt X and returns
a QSharedPointer that shares the reference. This function can be
used for up- and for down-casting, but is more useful for
up-casting.
Note: the template type \c X must have the same const and volatile
qualifiers as the template of this object, or the cast will
fail. Use constCast() if you need to drop those qualifiers.
\sa dynamicCast(), constCast(), qSharedPointerCast()
*/
/*!
\fn QSharedPointer<X> QSharedPointer::dynamicCast() const
Performs a dynamic cast from this pointer's type to \tt X and
returns a QSharedPointer that shares the reference. If this
function is used to up-cast, then QSharedPointer will perform a \tt
dynamic_cast, which means that if the object being pointed by this
QSharedPointer is not of type \tt X, the returned object will be
null.
Note: the template type \c X must have the same const and volatile
qualifiers as the template of this object, or the cast will
fail. Use constCast() if you need to drop those qualifiers.
\sa qSharedPointerDynamicCast()
*/
/*!
\fn QSharedPointer<X> QSharedPointer::constCast() const
Performs a \tt const_cast from this pointer's type to \tt X and returns
a QSharedPointer that shares the reference. This function can be
used for up- and for down-casting, but is more useful for
up-casting.
\sa isNull(), qSharedPointerConstCast()
*/
/*!
\fn QSharedPointer<X> QSharedPointer::objectCast() const
\since 4.6
Performs a \l qobject_cast() from this pointer's type to \tt X and
returns a QSharedPointer that shares the reference. If this
function is used to up-cast, then QSharedPointer will perform a \tt
qobject_cast, which means that if the object being pointed by this
QSharedPointer is not of type \tt X, the returned object will be
null.
Note: the template type \c X must have the same const and volatile
qualifiers as the template of this object, or the cast will
fail. Use constCast() if you need to drop those qualifiers.
\sa qSharedPointerObjectCast()
*/
/*!
\fn QWeakPointer<T> QSharedPointer::toWeakRef() const
Returns a weak reference object that shares the pointer referenced
by this object.
\sa QWeakPointer::QWeakPointer(const QSharedPointer<T> &)
*/
/*!
\fn void QSharedPointer::clear()
Clears this QSharedPointer object, dropping the reference that it
may have had to the pointer. If this was the last reference, then
the pointer itself will be deleted.
*/
/*!
\fn QWeakPointer::QWeakPointer()
Creates a QWeakPointer that points to nothing.
*/
/*!
\fn QWeakPointer::~QWeakPointer()
Destroys this QWeakPointer object. The pointer referenced
by this object will not be deleted.
*/
/*!
\fn QWeakPointer::QWeakPointer(const QWeakPointer<T> &other)
Creates a QWeakPointer that holds a weak reference to the
pointer referenced by \a other.
If \tt T is a derived type of the template parameter of this
class, QWeakPointer will perform an automatic cast. Otherwise,
you will get a compiler error.
*/
/*!
\fn QWeakPointer::QWeakPointer(const QSharedPointer<T> &other)
Creates a QWeakPointer that holds a weak reference to the
pointer referenced by \a other.
If \tt T is a derived type of the template parameter of this
class, QWeakPointer will perform an automatic cast. Otherwise,
you will get a compiler error.
*/
/*!
\fn QWeakPointer &QWeakPointer::operator=(const QWeakPointer<T> &other)
Makes this object share \a other's pointer. The current pointer
reference is discarded but is not deleted.
If \tt T is a derived type of the template parameter of this
class, QWeakPointer will perform an automatic cast. Otherwise,
you will get a compiler error.
*/
/*!
\fn QWeakPointer &QWeakPointer::operator=(const QSharedPointer<T> &other)
Makes this object share \a other's pointer. The current pointer
reference is discarded but is not deleted.
If \tt T is a derived type of the template parameter of this
class, QWeakPointer will perform an automatic cast. Otherwise,
you will get a compiler error.
*/
/*!
\fn bool QWeakPointer::isNull() const
Returns true if this object is holding a reference to a null
pointer.
Note that, due to the nature of weak references, the pointer that
QWeakPointer references can become null at any moment, so
the value returned from this function can change from false to
true from one call to the next.
*/
/*!
\fn QWeakPointer::operator bool() const
Returns true if this object is not null. This function is suitable
for use in \tt if-constructs, like:
\code
if (weakref) { ... }
\endcode
Note that, due to the nature of weak references, the pointer that
QWeakPointer references can become null at any moment, so
the value returned from this function can change from true to
false from one call to the next.
\sa isNull()
*/
/*!
\fn bool QWeakPointer::operator !() const
Returns true if this object is null. This function is suitable
for use in \tt if-constructs, like:
\code
if (!weakref) { ... }
\endcode
Note that, due to the nature of weak references, the pointer that
QWeakPointer references can become null at any moment, so
the value returned from this function can change from false to
true from one call to the next.
\sa isNull()
*/
/*!
\fn T *QWeakPointer::data() const
\since 4.6
Returns the value of the pointer being tracked by this QWeakPointer,
\b without ensuring that it cannot get deleted. To have that guarantee,
use toStrongRef(), which returns a QSharedPointer object. If this
function can determine that the pointer has already been deleted, it
returns 0.
It is ok to obtain the value of the pointer and using that value itself,
like for example in debugging statements:
\code
qDebug("Tracking %p", weakref.data());
\endcode
However, dereferencing the pointer is only allowed if you can guarantee
by external means that the pointer does not get deleted. For example,
if you can be certain that no other thread can delete it, nor the
functions that you may call.
If that is the case, then the following code is valid:
\code
// this pointer cannot be used in another thread
// so other threads cannot delete it
QWeakPointer<int> weakref = obtainReference();
Object *obj = weakref.data();
if (obj) {
// if the pointer wasn't deleted yet, we know it can't get
// deleted by our own code here nor the functions we call
otherFunction(obj);
}
\endcode
Use this function with care.
\sa isNull(), toStrongRef()
*/
/*!
\fn QSharedPointer<T> QWeakPointer::toStrongRef() const
Promotes this weak reference to a strong one and returns a
QSharedPointer object holding that reference. When promoting to
QSharedPointer, this function verifies if the object has been deleted
already or not. If it hasn't, this function increases the reference
count to the shared object, thus ensuring that it will not get
deleted.
Since this function can fail to obtain a valid strong reference to the
shared object, you should always verify if the conversion succeeded,
by calling QSharedPointer::isNull() on the returned object.
For example, the following code promotes a QWeakPointer that was held
to a strong reference and, if it succeeded, it prints the value of the
integer that was held:
\code
QWeakPointer<int> weakref;
// ...
QSharedPointer<int> strong = weakref.toStrongRef();
if (strong)
qDebug() << "The value is:" << *strong;
else
qDebug() << "The value has already been deleted";
\endcode
\sa QSharedPointer::QSharedPointer(const QWeakPointer<T> &)
*/
/*!
\fn void QWeakPointer::clear()
Clears this QWeakPointer object, dropping the reference that it
may have had to the pointer.
*/
/*!
\fn bool operator==(const QSharedPointer<T> &ptr1, const QSharedPointer<X> &ptr2)
\relates QSharedPointer
Returns true if the pointer referenced by \a ptr1 is the
same pointer as that referenced by \a ptr2.
If \a ptr2's template parameter is different from \a ptr1's,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
template parameter is not a base or a derived type from
\a ptr1's, you will get a compiler error.
*/
/*!
\fn bool operator!=(const QSharedPointer<T> &ptr1, const QSharedPointer<X> &ptr2)
\relates QSharedPointer
Returns true if the pointer referenced by \a ptr1 is not the
same pointer as that referenced by \a ptr2.
If \a ptr2's template parameter is different from \a ptr1's,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
template parameter is not a base or a derived type from
\a ptr1's, you will get a compiler error.
*/
/*!
\fn bool operator==(const QSharedPointer<T> &ptr1, const X *ptr2)
\relates QSharedPointer
Returns true if the pointer referenced by \a ptr1 is the
same pointer as \a ptr2.
If \a ptr2's type is different from \a ptr1's,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
type is not a base or a derived type from this
\a ptr1's, you will get a compiler error.
*/
/*!
\fn bool operator!=(const QSharedPointer<T> &ptr1, const X *ptr2)
\relates QSharedPointer
Returns true if the pointer referenced by \a ptr1 is not the
same pointer as \a ptr2.
If \a ptr2's type is different from \a ptr1's,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
type is not a base or a derived type from this
\a ptr1's, you will get a compiler error.
*/
/*!
\fn bool operator==(const T *ptr1, const QSharedPointer<X> &ptr2)
\relates QSharedPointer
Returns true if the pointer \a ptr1 is the
same pointer as that referenced by \a ptr2.
If \a ptr2's template parameter is different from \a ptr1's type,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
template parameter is not a base or a derived type from
\a ptr1's type, you will get a compiler error.
*/
/*!
\fn bool operator!=(const T *ptr1, const QSharedPointer<X> &ptr2)
\relates QSharedPointer
Returns true if the pointer \a ptr1 is not the
same pointer as that referenced by \a ptr2.
If \a ptr2's template parameter is different from \a ptr1's type,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
template parameter is not a base or a derived type from
\a ptr1's type, you will get a compiler error.
*/
/*!
\fn bool operator==(const QSharedPointer<T> &ptr1, const QWeakPointer<X> &ptr2)
\relates QWeakPointer
Returns true if the pointer referenced by \a ptr1 is the
same pointer as that referenced by \a ptr2.
If \a ptr2's template parameter is different from \a ptr1's,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
template parameter is not a base or a derived type from
\a ptr1's, you will get a compiler error.
*/
/*!
\fn bool operator!=(const QSharedPointer<T> &ptr1, const QWeakPointer<X> &ptr2)
\relates QWeakPointer
Returns true if the pointer referenced by \a ptr1 is not the
same pointer as that referenced by \a ptr2.
If \a ptr2's template parameter is different from \a ptr1's,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
template parameter is not a base or a derived type from
\a ptr1's, you will get a compiler error.
*/
/*!
\fn bool operator==(const QWeakPointer<T> &ptr1, const QSharedPointer<X> &ptr2)
\relates QWeakPointer
Returns true if the pointer referenced by \a ptr1 is the
same pointer as that referenced by \a ptr2.
If \a ptr2's template parameter is different from \a ptr1's,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
template parameter is not a base or a derived type from
\a ptr1's, you will get a compiler error.
*/
/*!
\fn bool operator!=(const QWeakPointer<T> &ptr1, const QSharedPointer<X> &ptr2)
\relates QWeakPointer
Returns true if the pointer referenced by \a ptr1 is not the
same pointer as that referenced by \a ptr2.
If \a ptr2's template parameter is different from \a ptr1's,
QSharedPointer will attempt to perform an automatic \tt static_cast
to ensure that the pointers being compared are equal. If \a ptr2's
template parameter is not a base or a derived type from
\a ptr1's, you will get a compiler error.
*/
/*!
\fn QSharedPointer<X> qSharedPointerCast(const QSharedPointer<T> &other)
\relates QSharedPointer
Returns a shared pointer to the pointer held by \a other, cast to
type \tt X. The types \tt T and \tt X must belong to one
hierarchy for the \tt static_cast to succeed.
Note that \tt X must have the same cv-qualifiers (\tt const and
\tt volatile) that \tt T has, or the code will fail to
compile. Use qSharedPointerConstCast to cast away the constness.
\sa QSharedPointer::staticCast(), qSharedPointerDynamicCast(), qSharedPointerConstCast()
*/
/*!
\fn QSharedPointer<X> qSharedPointerCast(const QWeakPointer<T> &other)
\relates QSharedPointer
\relates QWeakPointer
Returns a shared pointer to the pointer held by \a other, cast to
type \tt X. The types \tt T and \tt X must belong to one
hierarchy for the \tt static_cast to succeed.
The \a other object is converted first to a strong reference. If
that conversion fails (because the object it's pointing to has
already been deleted), this function returns a null
QSharedPointer.
Note that \tt X must have the same cv-qualifiers (\tt const and
\tt volatile) that \tt T has, or the code will fail to
compile. Use qSharedPointerConstCast to cast away the constness.
\sa QWeakPointer::toStrongRef(), qSharedPointerDynamicCast(), qSharedPointerConstCast()
*/
/*!
\fn QSharedPointer<X> qSharedPointerDynamicCast(const QSharedPointer<T> &other)
\relates QSharedPointer
Returns a shared pointer to the pointer held by \a other, using a
dynamic cast to type \tt X to obtain an internal pointer of the
appropriate type. If the \tt dynamic_cast fails, the object
returned will be null.
Note that \tt X must have the same cv-qualifiers (\tt const and
\tt volatile) that \tt T has, or the code will fail to
compile. Use qSharedPointerConstCast to cast away the constness.
\sa QSharedPointer::dynamicCast(), qSharedPointerCast(), qSharedPointerConstCast()
*/
/*!
\fn QSharedPointer<X> qSharedPointerDynamicCast(const QWeakPointer<T> &other)
\relates QSharedPointer
\relates QWeakPointer
Returns a shared pointer to the pointer held by \a other, using a
dynamic cast to type \tt X to obtain an internal pointer of the
appropriate type. If the \tt dynamic_cast fails, the object
returned will be null.
The \a other object is converted first to a strong reference. If
that conversion fails (because the object it's pointing to has
already been deleted), this function also returns a null
QSharedPointer.
Note that \tt X must have the same cv-qualifiers (\tt const and
\tt volatile) that \tt T has, or the code will fail to
compile. Use qSharedPointerConstCast to cast away the constness.
\sa QWeakPointer::toStrongRef(), qSharedPointerCast(), qSharedPointerConstCast()
*/
/*!
\fn QSharedPointer<X> qSharedPointerConstCast(const QSharedPointer<T> &other)
\relates QSharedPointer
Returns a shared pointer to the pointer held by \a other, cast to
type \tt X. The types \tt T and \tt X must belong to one
hierarchy for the \tt const_cast to succeed. The \tt const and \tt
volatile differences between \tt T and \tt X are ignored.
\sa QSharedPointer::constCast(), qSharedPointerCast(), qSharedPointerDynamicCast()
*/
/*!
\fn QSharedPointer<X> qSharedPointerConstCast(const QWeakPointer<T> &other)
\relates QSharedPointer
\relates QWeakPointer
Returns a shared pointer to the pointer held by \a other, cast to
type \tt X. The types \tt T and \tt X must belong to one
hierarchy for the \tt const_cast to succeed. The \tt const and
\tt volatile differences between \tt T and \tt X are ignored.
The \a other object is converted first to a strong reference. If
that conversion fails (because the object it's pointing to has
already been deleted), this function returns a null
QSharedPointer.
\sa QWeakPointer::toStrongRef(), qSharedPointerCast(), qSharedPointerDynamicCast()
*/
/*!
\fn QSharedPointer<X> qSharedPointerObjectCast(const QSharedPointer<T> &other)
\relates QSharedPointer
\since 4.6
Returns a shared pointer to the pointer held by \a other, using a
\l qobject_cast() to type \tt X to obtain an internal pointer of the
appropriate type. If the \tt qobject_cast fails, the object
returned will be null.
Note that \tt X must have the same cv-qualifiers (\tt const and
\tt volatile) that \tt T has, or the code will fail to
compile. Use qSharedPointerConstCast to cast away the constness.
\sa QSharedPointer::objectCast(), qSharedPointerCast(), qSharedPointerConstCast()
*/
/*!
\fn QSharedPointer<X> qSharedPointerObjectCast(const QWeakPointer<T> &other)
\relates QSharedPointer
\relates QWeakPointer
\since 4.6
Returns a shared pointer to the pointer held by \a other, using a
\l qobject_cast() to type \tt X to obtain an internal pointer of the
appropriate type. If the \tt qobject_cast fails, the object
returned will be null.
The \a other object is converted first to a strong reference. If
that conversion fails (because the object it's pointing to has
already been deleted), this function also returns a null
QSharedPointer.
Note that \tt X must have the same cv-qualifiers (\tt const and
\tt volatile) that \tt T has, or the code will fail to
compile. Use qSharedPointerConstCast to cast away the constness.
\sa QWeakPointer::toStrongRef(), qSharedPointerCast(), qSharedPointerConstCast()
*/
/*!
\fn QWeakPointer<X> qWeakPointerCast(const QWeakPointer<T> &other)
\relates QWeakPointer
Returns a weak pointer to the pointer held by \a other, cast to
type \tt X. The types \tt T and \tt X must belong to one
hierarchy for the \tt static_cast to succeed.
Note that \tt X must have the same cv-qualifiers (\tt const and
\tt volatile) that \tt T has, or the code will fail to
compile. Use qSharedPointerConstCast to cast away the constness.
*/
#include <qset.h>
#include <qmutex.h>
#if !defined(QT_NO_QOBJECT)
#include "../kernel/qobject_p.h"
/*!
\internal
This function is called for a just-created QObject \a obj, to enable
the use of QSharedPointer and QWeakPointer.
When QSharedPointer is active in a QObject, the object must not be deleted
directly: the lifetime is managed by the QSharedPointer object. In that case,
the deleteLater() and parent-child relationship in QObject only decrease
the strong reference count, instead of deleting the object.
*/
void QtSharedPointer::ExternalRefCountData::setQObjectShared(const QObject *obj, bool)
{
Q_ASSERT(obj);
QObjectPrivate *d = QObjectPrivate::get(const_cast<QObject *>(obj));
if (d->sharedRefcount)
qFatal("QSharedPointer: pointer %p already has reference counting", obj);
d->sharedRefcount = this;
// QObject decreases the refcount too, so increase it up
weakref.ref();
}
QtSharedPointer::ExternalRefCountData *QtSharedPointer::ExternalRefCountData::getAndRef(const QObject *obj)
{
Q_ASSERT(obj);
QObjectPrivate *d = QObjectPrivate::get(const_cast<QObject *>(obj));
ExternalRefCountData *that = d->sharedRefcount;
if (that) {
that->weakref.ref();
return that;
}
// we can create the refcount data because it doesn't exist
ExternalRefCountData *x = new ExternalRefCountData(Qt::Uninitialized);
x->strongref = -1;
x->weakref = 2; // the QWeakPointer that called us plus the QObject itself
if (!d->sharedRefcount.testAndSetRelease(0, x)) {
delete x;
d->sharedRefcount->weakref.ref();
}
return d->sharedRefcount;
}
#endif
#if !defined(QT_NO_MEMBER_TEMPLATES)
//# define QT_SHARED_POINTER_BACKTRACE_SUPPORT
# ifdef QT_SHARED_POINTER_BACKTRACE_SUPPORT
# if defined(__GLIBC__) && (__GLIBC__ >= 2) && !defined(__UCLIBC__) && !defined(QT_LINUXBASE)
# define BACKTRACE_SUPPORTED
# elif defined(Q_OS_MACX)
# define BACKTRACE_SUPPORTED
# endif
# endif
# if defined(BACKTRACE_SUPPORTED)
# include <sys/types.h>
# include <execinfo.h>
# include <stdio.h>
# include <unistd.h>
# include <sys/wait.h>
static inline QByteArray saveBacktrace() __attribute__((always_inline));
static inline QByteArray saveBacktrace()
{
static const int maxFrames = 32;
QByteArray stacktrace;
stacktrace.resize(sizeof(void*) * maxFrames);
int stack_size = backtrace((void**)stacktrace.data(), maxFrames);
stacktrace.resize(sizeof(void*) * stack_size);
return stacktrace;
}
static void printBacktrace(QByteArray stacktrace)
{
void *const *stack = (void *const *)stacktrace.constData();
int stack_size = stacktrace.size() / sizeof(void*);
char **stack_symbols = backtrace_symbols(stack, stack_size);
int filter[2];
pid_t child = -1;
if (pipe(filter) != -1)
child = fork();
if (child == 0) {
// child process
dup2(fileno(stderr), fileno(stdout));
dup2(filter[0], fileno(stdin));
close(filter[0]);
close(filter[1]);
execlp("c++filt", "c++filt", "-n", NULL);
// execlp failed
execl("/bin/cat", "/bin/cat", NULL);
_exit(127);
}
// parent process
close(filter[0]);
FILE *output;
if (child == -1) {
// failed forking
close(filter[1]);
output = stderr;
} else {
output = fdopen(filter[1], "w");
}
fprintf(stderr, "Backtrace of the first creation (most recent frame first):\n");
for (int i = 0; i < stack_size; ++i) {
if (strlen(stack_symbols[i]))
fprintf(output, "#%-2d %s\n", i, stack_symbols[i]);
else
fprintf(output, "#%-2d %p\n", i, stack[i]);
}
if (child != -1) {
fclose(output);
waitpid(child, 0, 0);
}
}
# endif // BACKTRACE_SUPPORTED
namespace {
QT_USE_NAMESPACE
struct Data {
const volatile void *pointer;
# ifdef BACKTRACE_SUPPORTED
QByteArray backtrace;
# endif
};
class KnownPointers
{
public:
QMutex mutex;
QHash<const void *, Data> dPointers;
QHash<const volatile void *, const void *> dataPointers;
};
}
Q_GLOBAL_STATIC(KnownPointers, knownPointers)
QT_BEGIN_NAMESPACE
namespace QtSharedPointer {
Q_CORE_EXPORT void internalSafetyCheckAdd(const volatile void *);
Q_CORE_EXPORT void internalSafetyCheckRemove(const volatile void *);
Q_AUTOTEST_EXPORT void internalSafetyCheckCleanCheck();
}
/*!
\internal
*/
void QtSharedPointer::internalSafetyCheckAdd(const volatile void *)
{
// Qt 4.5 compatibility
// this function is broken by design, so it was replaced with internalSafetyCheckAdd2
//
// it's broken because we tracked the pointers added and
// removed from QSharedPointer, converted to void*.
// That is, this is supposed to track the "top-of-object" pointer in
// case of multiple inheritance.
//
// However, it doesn't work well in some compilers:
// if you create an object with a class of type A and the last reference
// is dropped of type B, then the value passed to internalSafetyCheckRemove could
// be different than was added. That would leave dangling addresses.
//
// So instead, we track the pointer by the d-pointer instead.
}
/*!
\internal
*/
void QtSharedPointer::internalSafetyCheckRemove(const volatile void *)
{
// Qt 4.5 compatibility
// see comments above
}
/*!
\internal
*/
void QtSharedPointer::internalSafetyCheckAdd2(const void *d_ptr, const volatile void *ptr)
{
// see comments above for the rationale for this function
KnownPointers *const kp = knownPointers();
if (!kp)
return; // end-game: the application is being destroyed already
QMutexLocker lock(&kp->mutex);
Q_ASSERT(!kp->dPointers.contains(d_ptr));
//qDebug("Adding d=%p value=%p", d_ptr, ptr);
const void *other_d_ptr = kp->dataPointers.value(ptr, 0);
if (other_d_ptr) {
# ifdef BACKTRACE_SUPPORTED
printBacktrace(knownPointers()->dPointers.value(other_d_ptr).backtrace);
# endif
qFatal("QSharedPointer: internal self-check failed: pointer %p was already tracked "
"by another QSharedPointer object %p", ptr, other_d_ptr);
}
Data data;
data.pointer = ptr;
# ifdef BACKTRACE_SUPPORTED
data.backtrace = saveBacktrace();
# endif
kp->dPointers.insert(d_ptr, data);
kp->dataPointers.insert(ptr, d_ptr);
Q_ASSERT(kp->dPointers.size() == kp->dataPointers.size());
}
/*!
\internal
*/
void QtSharedPointer::internalSafetyCheckRemove2(const void *d_ptr)
{
KnownPointers *const kp = knownPointers();
if (!kp)
return; // end-game: the application is being destroyed already
QMutexLocker lock(&kp->mutex);
QHash<const void *, Data>::iterator it = kp->dPointers.find(d_ptr);
if (it == kp->dPointers.end()) {
qFatal("QSharedPointer: internal self-check inconsistency: pointer %p was not tracked. "
"To use QT_SHAREDPOINTER_TRACK_POINTERS, you have to enable it throughout "
"in your code.", d_ptr);
}
QHash<const volatile void *, const void *>::iterator it2 = kp->dataPointers.find(it->pointer);
Q_ASSERT(it2 != kp->dataPointers.end());
//qDebug("Removing d=%p value=%p", d_ptr, it->pointer);
// remove entries
kp->dataPointers.erase(it2);
kp->dPointers.erase(it);
Q_ASSERT(kp->dPointers.size() == kp->dataPointers.size());
}
/*!
\internal
Called by the QSharedPointer autotest
*/
void QtSharedPointer::internalSafetyCheckCleanCheck()
{
# ifdef QT_BUILD_INTERNAL
KnownPointers *const kp = knownPointers();
Q_ASSERT_X(kp, "internalSafetyCheckSelfCheck()", "Called after global statics deletion!");
if (kp->dPointers.size() != kp->dataPointers.size())
qFatal("Internal consistency error: the number of pointers is not equal!");
if (!kp->dPointers.isEmpty())
qFatal("Pointer cleaning failed: %d entries remaining", kp->dPointers.size());
# endif
}
QT_END_NAMESPACE
#endif
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