summaryrefslogtreecommitdiffstats
path: root/src/corelib/tools/qshareddata.cpp
diff options
context:
space:
mode:
authoraxis <qt-info@nokia.com>2009-04-24 11:34:15 (GMT)
committeraxis <qt-info@nokia.com>2009-04-24 11:34:15 (GMT)
commit8f427b2b914d5b575a4a7c0ed65d2fb8f45acc76 (patch)
treea17e1a767a89542ab59907462206d7dcf2e504b2 /src/corelib/tools/qshareddata.cpp
downloadQt-8f427b2b914d5b575a4a7c0ed65d2fb8f45acc76.zip
Qt-8f427b2b914d5b575a4a7c0ed65d2fb8f45acc76.tar.gz
Qt-8f427b2b914d5b575a4a7c0ed65d2fb8f45acc76.tar.bz2
Long live Qt for S60!
Diffstat (limited to 'src/corelib/tools/qshareddata.cpp')
-rw-r--r--src/corelib/tools/qshareddata.cpp550
1 files changed, 550 insertions, 0 deletions
diff --git a/src/corelib/tools/qshareddata.cpp b/src/corelib/tools/qshareddata.cpp
new file mode 100644
index 0000000..2b879ea
--- /dev/null
+++ b/src/corelib/tools/qshareddata.cpp
@@ -0,0 +1,550 @@
+/****************************************************************************
+**
+** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
+** Contact: Qt Software Information (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 qt-sales@nokia.com.
+** $QT_END_LICENSE$
+**
+****************************************************************************/
+
+#include <qshareddata.h>
+
+QT_BEGIN_NAMESPACE
+
+/*!
+ \class QSharedData
+ \brief The QSharedData class is a base class for shared data objects.
+ \reentrant
+ \ingroup misc
+
+ QSharedData is designed to be used with QSharedDataPointer or
+ QExplicitlySharedDataPointer to implement custom \l{implicitly
+ shared} or \l {explicitly shared} classes. QSharedData provides
+ \l{thread-safe} reference counting.
+
+ See QSharedDataPointer and QExplicitlySharedDataPointer for details.
+*/
+
+/*! \fn QSharedData::QSharedData()
+ Constructs a QSharedData object with a reference count of 0.
+*/
+
+/*! \fn QSharedData::QSharedData(const QSharedData& other)
+ Constructs a QSharedData object with reference count 0.
+ \a other is ignored.
+*/
+
+/*!
+ \class QSharedDataPointer
+ \brief The QSharedDataPointer class represents a pointer to an implicitly shared object.
+ \since 4.0
+ \reentrant
+ \ingroup misc
+ \mainclass
+
+ QSharedDataPointer\<T\> makes writing your own \l {implicitly
+ shared} classes easy. QSharedDataPointer implements \l {thread-safe}
+ reference counting, ensuring that adding QSharedDataPointers to your
+ \l {reentrant} classes won't make them non-reentrant.
+
+ \l {Implicit sharing} is used by many Qt classes to combine the
+ speed and memory efficiency of pointers with the ease of use of
+ classes. See the \l{Shared Classes} page for more information.
+
+ \target Employee example
+ Suppose you want to make an \c Employee class implicitly shared. The
+ procedure is:
+
+ \list
+
+ \o Define the class \c Employee to have a single data member of
+ type \c {QSharedDataPointer<EmployeeData>}.
+
+ \o Define the \c EmployeeData class derived from \l QSharedData to
+ contain all the data members you would normally have put in the
+ \c Employee class.
+
+ \endlist
+
+ To show this in practice, we review the source code for the
+ implicitly shared \c Employee class. In the header file we define the
+ two classes \c Employee and \c EmployeeData.
+
+ \snippet doc/src/snippets/sharedemployee/employee.h 0
+
+ In class \c Employee, note the single data member, a \e {d pointer}
+ of type \c {QSharedDataPointer<EmployeeData>}. All accesses of
+ employee data must go through the \e {d pointer's} \c
+ {operator->()}. For write accesses, \c {operator->()} will
+ automatically call detach(), which creates a copy of the shared data
+ object if the shared data object's reference count is greater than
+ 1. This ensures that writes to one \c Employee object don't affect
+ any other \c Employee objects that share the same \c EmployeeData
+ object.
+
+ Class \c EmployeeData inherits QSharedData, which provides the
+ \e{behind the scenes} reference counter. \c EmployeeData has a default
+ constructor, a copy constructor, and a destructor. Normally, trivial
+ implementations of these are all that is needed in the \e {data}
+ class for an implicitly shared class.
+
+ Implementing the two constructors for class \c Employee is also
+ straightforward. Both create a new instance of \c EmployeeData
+ and assign it to the \e{d pointer} .
+
+ \snippet doc/src/snippets/sharedemployee/employee.h 1
+ \codeline
+ \snippet doc/src/snippets/sharedemployee/employee.h 2
+
+ Note that class \c Employee also has a trivial copy constructor
+ defined, which is not strictly required in this case.
+
+ \snippet doc/src/snippets/sharedemployee/employee.h 7
+
+ The copy constructor is not strictly required here, because class \c
+ EmployeeData is included in the same file as class \c Employee
+ (\c{employee.h}). However, including the private subclass of
+ QSharedData in the same file as the public class containing the
+ QSharedDataPointer is not typical. Normally, the idea is to hide the
+ private subclass of QSharedData from the user by putting it in a
+ separate file which would not be included in the public file. In
+ this case, we would normally put class \c EmployeeData in a separate
+ file, which would \e{not} be included in \c{employee.h}. Instead, we
+ would just predeclare the private subclass \c EmployeeData in \c
+ {employee.h} this way:
+
+ \code
+ class EmployeeData;
+ \endcode
+
+ If we had done it that way here, the copy constructor shown would be
+ required. Since the copy constructor is trivial, you might as well
+ just always include it.
+
+ Behind the scenes, QSharedDataPointer automatically increments the
+ reference count whenever an \c Employee object is copied, assigned,
+ or passed as a parameter. It decrements the reference count whenever
+ an \c Employee object is deleted or goes out of scope. The shared
+ \c EmployeeData object is deleted automatically if and when the
+ reference count reaches 0.
+
+ In a non-const member function of \c Employee, whenever the \e {d
+ pointer} is dereferenced, QSharedDataPointer automatically calls
+ detach() to ensure that the function operates on its own copy of the
+ data.
+
+ \snippet doc/src/snippets/sharedemployee/employee.h 3
+ \codeline
+ \snippet doc/src/snippets/sharedemployee/employee.h 4
+
+ Note that if detach() is called more than once in a member function
+ due to multiple dereferences of the \e {d pointer}, detach() will
+ only create a copy of the shared data the first time it is called,
+ if at all, because on the second and subsequent calls of detach(),
+ the reference count will be 1 again.
+
+ But note that in the second \c Employee constructor, which takes an
+ employee ID and a name, both setId() and setName() are called, but
+ they don't cause \e{copy on write}, because the reference count for
+ the newly constructed \c EmployeeData object has just been set to 1.
+
+ In \c Employee's \e const member functions, dereferencing the \e {d
+ pointer} does \e not cause detach() to be called.
+
+ \snippet doc/src/snippets/sharedemployee/employee.h 5
+ \codeline
+ \snippet doc/src/snippets/sharedemployee/employee.h 6
+
+ Notice that there is no need to implement a copy constructor or an
+ assignment operator for the \c Employee class, because the copy
+ constructor and assignment operator provided by the C++ compiler
+ will do the \e{member by member} shallow copy required. The only
+ member to copy is the \e {d pointer}, which is a QSharedDataPointer,
+ whose \c {operator=()} just increments the reference count of the
+ shared \c EmployeeData object.
+
+ \target Implicit vs Explicit Sharing
+ \section1 Implicit vs Explicit Sharing
+
+ Implicit sharing might not be right for the \c Employee class.
+ Consider a simple example that creates two instances of the
+ implicitly shared \c Employee class.
+
+ \snippet doc/src/snippets/sharedemployee/main.cpp 0
+
+ After the second employee e2 is created and e1 is assigned to it,
+ both \c e1 and \c e2 refer to Albrecht Durer, employee 1001. Both \c
+ Employee objects point to the same instance of \c EmployeeData,
+ which has reference count 2. Then \c {e1.setName("Hans Holbein")} is
+ called to change the employee name, but because the reference count
+ is greater than 1, a \e{copy on write} is performed before the name
+ is changed. Now \c e1 and \c e2 point to different \c EmployeeData
+ objects. They have different names, but both have ID 1001, which is
+ probably not what you want. You can, of course, just continue with
+ \c {e1.setId(1002)}, if you really mean to create a second, unique
+ employee, but if you only want to change the employee's name
+ everywhere, consider using \l {QExplicitlySharedDataPointer}
+ {explicit sharing} in the \c Employee class instead of implicit
+ sharing.
+
+ If you declare the \e {d pointer} in the \c Employee class to be
+ \c {QExplicitlySharedDataPointer<EmployeeData>}, then explicit
+ sharing is used and \e{copy on write} operations are not performed
+ automatically (i.e. detach() is not called in non-const
+ functions). In that case, after \c {e1.setName("Hans Holbein")}, the
+ employee's name has been changed, but both e1 and e2 still refer to
+ the same instance of \c EmployeeData, so there is only one employee
+ with ID 1001.
+
+ In the member function documentation, \e{d pointer} always refers
+ to the internal pointer to the shared data object.
+
+ \sa QSharedData, QExplicitlySharedDataPointer
+*/
+
+/*! \fn T& QSharedDataPointer::operator*()
+ Provides access to the shared data object's members.
+ This function calls detach().
+*/
+
+/*! \fn const T& QSharedDataPointer::operator*() const
+ Provides const access to the shared data object's members.
+ This function does \e not call detach().
+*/
+
+/*! \fn T* QSharedDataPointer::operator->()
+ Provides access to the shared data object's members.
+ This function calls detach().
+*/
+
+/*! \fn const T* QSharedDataPointer::operator->() const
+ Provides const access to the shared data object's members.
+ This function does \e not call detach().
+*/
+
+/*! \fn QSharedDataPointer::operator T*()
+ Returns a pointer to the shared data object.
+ This function calls detach().
+
+ \sa data(), constData()
+*/
+
+/*! \fn QSharedDataPointer::operator const T*() const
+ Returns a pointer to the shared data object.
+ This function does \e not call detach().
+*/
+
+/*! \fn T* QSharedDataPointer::data()
+ Returns a pointer to the shared data object.
+ This function calls detach().
+
+ \sa constData()
+*/
+
+/*! \fn const T* QSharedDataPointer::data() const
+ Returns a pointer to the shared data object.
+ This function does \e not call detach().
+*/
+
+/*! \fn const T* QSharedDataPointer::constData() const
+ Returns a const pointer to the shared data object.
+ This function does \e not call detach().
+
+ \sa data()
+*/
+
+/*! \fn bool QSharedDataPointer::operator==(const QSharedDataPointer<T>& other) const
+ Returns true if \a other and \e this have the same \e{d pointer}.
+ This function does \e not call detach().
+*/
+
+/*! \fn bool QSharedDataPointer::operator!=(const QSharedDataPointer<T>& other) const
+ Returns true if \a other and \e this do \e not have the same
+ \e{d pointer}. This function does \e not call detach().
+*/
+
+/*! \fn QSharedDataPointer::QSharedDataPointer()
+ Constructs a QSharedDataPointer initialized with a null \e{d pointer}.
+*/
+
+/*! \fn QSharedDataPointer::~QSharedDataPointer()
+ Decrements the reference count of the shared data object.
+ If the reference count becomes 0, the shared data object
+ is deleted. \e This is then destroyed.
+*/
+
+/*! \fn QSharedDataPointer::QSharedDataPointer(T* sharedData)
+ Constructs a QSharedDataPointer with \e{d pointer} set to
+ \a sharedData and increments \a{sharedData}'s reference count.
+*/
+
+/*! \fn QSharedDataPointer::QSharedDataPointer(const QSharedDataPointer<T>& other)
+ Sets the \e{d pointer} of \e this to the \e{d pointer} in
+ \a other and increments the reference count of the shared
+ data object.
+*/
+
+/*! \fn QSharedDataPointer<T>& QSharedDataPointer::operator=(const QSharedDataPointer<T>& other)
+ Sets the \e{d pointer} of \e this to the \e{d pointer} of
+ \a other and increments the reference count of the shared
+ data object. The reference count of the old shared data
+ object of \e this is decremented. If the reference count
+ of the old shared data object becomes 0, the old shared
+ data object is deleted.
+*/
+
+/*! \fn QSharedDataPointer& QSharedDataPointer::operator=(T* sharedData)
+ Sets the \e{d pointer} og \e this to \a sharedData and increments
+ \a{sharedData}'s reference count. The reference count of the old
+ shared data object of \e this is decremented. If the reference
+ count of the old shared data object becomes 0, the old shared data
+ object is deleted.
+*/
+
+/*! \fn bool QSharedDataPointer::operator!() const
+ Returns true if the \e{d pointer} of \e this is null.
+*/
+
+/*! \fn void QSharedDataPointer::detach()
+ If the shared data object's reference count is greater than 1, this
+ function creates a deep copy of the shared data object and sets the
+ \e{d pointer} of \e this to the copy.
+
+ This function is called automatically by non-const member
+ functions of QSharedDataPointer if \e{copy on write} is
+ required. You don't need to call it yourself.
+*/
+
+/*! \fn T *QSharedDataPointer::clone()
+ \since 4.5
+
+ Creates and returns a deep copy of the current data. This function
+ is called by detach() when the reference count is greater than 1 in
+ order to create the new copy. This function uses the \e {operator
+ new} and calls the copy constructor of the type T.
+
+ This function is provided so that you may support "virtual copy
+ constructors" for your own types. In order to so, you should declare
+ a template-specialization of this function for your own type, like
+ the example below:
+
+ \code
+ template<>
+ EmployeeData *QSharedDataPointer<EmployeeData>::clone()
+ {
+ return d->clone();
+ }
+ \endcode
+
+ In the example above, the template specialization for the clone()
+ function calls the \e {EmployeeData::clone()} virtual function. A
+ class derived from EmployeeData could override that function and
+ return the proper polymorphic type.
+*/
+
+/*!
+ \class QExplicitlySharedDataPointer
+ \brief The QExplicitlySharedDataPointer class represents a pointer to an explicitly shared object.
+ \since 4.4
+ \reentrant
+ \ingroup misc
+ \mainclass
+
+ QExplicitlySharedDataPointer\<T\> makes writing your own explicitly
+ shared classes easy. QExplicitlySharedDataPointer implements
+ \l {thread-safe} reference counting, ensuring that adding
+ QExplicitlySharedDataPointers to your \l {reentrant} classes won't
+ make them non-reentrant.
+
+ Except for one big difference, QExplicitlySharedDataPointer is just
+ like QSharedDataPointer. The big difference is that member functions
+ of QExplicitlySharedDataPointer \e{do not} do the automatic
+ \e{copy on write} operation (detach()) that non-const members of
+ QSharedDataPointer do before allowing the shared data object to be
+ modified. There is a detach() function available, but if you really
+ want to detach(), you have to call it yourself. This means that
+ QExplicitlySharedDataPointers behave like regular C++ pointers,
+ except that by doing reference counting and not deleting the shared
+ data object until the reference count is 0, they avoid the dangling
+ pointer problem.
+
+ It is instructive to compare QExplicitlySharedDataPointer with
+ QSharedDataPointer by way of an example. Consider the \l {Employee
+ example} in QSharedDataPointer, modified to use explicit sharing as
+ explained in the discussion \l {Implicit vs Explicit Sharing}.
+
+ Note that if you use this class but find you are calling detach() a
+ lot, you probably should be using QSharedDataPointer instead.
+
+ In the member function documentation, \e{d pointer} always refers
+ to the internal pointer to the shared data object.
+
+ \sa QSharedData, QSharedDataPointer
+*/
+
+/*! \fn T& QExplicitlySharedDataPointer::operator*() const
+ Provides access to the shared data object's members.
+*/
+
+/*! \fn T* QExplicitlySharedDataPointer::operator->()
+ Provides access to the shared data object's members.
+*/
+
+/*! \fn const T* QExplicitlySharedDataPointer::operator->() const
+ Provides const access to the shared data object's members.
+*/
+
+/*! \fn T* QExplicitlySharedDataPointer::data() const
+ Returns a pointer to the shared data object.
+*/
+
+/*! \fn const T* QExplicitlySharedDataPointer::constData() const
+ Returns a const pointer to the shared data object.
+
+ \sa data()
+*/
+
+/*! \fn bool QExplicitlySharedDataPointer::operator==(const QExplicitlySharedDataPointer<T>& other) const
+ Returns true if \a other and \e this have the same \e{d pointer}.
+*/
+
+/*! \fn bool QExplicitlySharedDataPointer::operator==(const T* ptr) const
+ Returns true if the \e{d pointer} of \e this is \a ptr.
+ */
+
+/*! \fn bool QExplicitlySharedDataPointer::operator!=(const QExplicitlySharedDataPointer<T>& other) const
+ Returns true if \a other and \e this do \e not have the same
+ \e{d pointer}.
+*/
+
+/*! \fn bool QExplicitlySharedDataPointer::operator!=(const T* ptr) const
+ Returns true if the \e{d pointer} of \e this is \e not \a ptr.
+ */
+
+/*! \fn QExplicitlySharedDataPointer::QExplicitlySharedDataPointer()
+ Constructs a QExplicitlySharedDataPointer initialized with a null
+ \e{d pointer}.
+*/
+
+/*! \fn QExplicitlySharedDataPointer::~QExplicitlySharedDataPointer()
+ Decrements the reference count of the shared data object.
+ If the reference count becomes 0, the shared data object
+ is deleted. \e This is then destroyed.
+*/
+
+/*! \fn QExplicitlySharedDataPointer::QExplicitlySharedDataPointer(T* sharedData)
+ Constructs a QExplicitlySharedDataPointer with \e{d pointer}
+ set to \a sharedData and increments \a{sharedData}'s reference
+ count.
+*/
+
+/*! \fn QExplicitlySharedDataPointer::QExplicitlySharedDataPointer(const QExplicitlySharedDataPointer<T>& other)
+ This standard copy constructor sets the \e {d pointer} of \e this to
+ the \e {d pointer} in \a other and increments the reference count of
+ the shared data object.
+*/
+
+/*! \fn QExplicitlySharedDataPointer::QExplicitlySharedDataPointer(const QExplicitlySharedDataPointer<X>& other)
+ This copy constructor is different in that it allows \a other to be
+ a different type of explicitly shared data pointer but one that has
+ a compatible shared data object. It performs a static cast of the
+ \e{d pointer} in \a other and sets the \e {d pointer} of \e this to
+ the converted \e{d pointer}. It increments the reference count of
+ the shared data object.
+ */
+
+/*! \fn QExplicitlySharedDataPointer<T>& QExplicitlySharedDataPointer::operator=(const QExplicitlySharedDataPointer<T>& other)
+ Sets the \e{d pointer} of \e this to the \e{d pointer} of
+ \a other and increments the reference count of the shared
+ data object. The reference count of the old shared data
+ object of \e this is decremented. If the reference count
+ of the old shared data object becomes 0, the old shared
+ data object is deleted.
+*/
+
+/*! \fn QExplicitlySharedDataPointer& QExplicitlySharedDataPointer::operator=(T* sharedData)
+ Sets the \e{d pointer} of \e this to \a sharedData and
+ increments \a{sharedData}'s reference count. The reference
+ count of the old shared data object of \e this is decremented.
+ If the reference count of the old shared data object becomes
+ 0, the old shared data object is deleted.
+*/
+
+/*! \fn void QExplicitlySharedDataPointer::reset()
+ Resets \e this to be null. i.e., this function sets the
+ \e{d pointer} of \e this to 0, but first it decrements
+ the reference count of the shared data object and deletes
+ the shared data object if the reference count became 0.
+ */
+
+/*! \fn QExplicitlySharedDataPointer::operator bool () const
+ Returns true if the \e{d pointer} of \e this is \e not null.
+ */
+
+/*! \fn bool QExplicitlySharedDataPointer::operator!() const
+ Returns true if the \e{d pointer} of \e this is null.
+*/
+
+/*! \fn void QExplicitlySharedDataPointer::detach()
+ If the shared data object's reference count is greater than 1, this
+ function creates a deep copy of the shared data object and sets the
+ \e{d pointer} of \e this to the copy.
+
+ Because QExplicitlySharedDataPointer does not do the automatic
+ \e{copy on write} operations that members of QSharedDataPointer do,
+ detach() is \e not called automatically anywhere in the member
+ functions of this class. If you find that you are calling detach()
+ everywhere in your code, consider using QSharedDataPointer instead.
+*/
+
+/*! \fn T *QExplicitlySharedDataPointer::clone()
+ \since 4.5
+
+ Creates and returns a deep copy of the current data. This function
+ is called by detach() when the reference count is greater than 1 in
+ order to create the new copy. This function uses the \e {operator
+ new} and calls the copy constructor of the type T.
+
+ See QSharedDataPointer::clone() for an explanation of how to use it.
+*/
+
+/*!
+ \typedef QExplicitlySharedDataPointer::Type
+
+ This is the type of the shared data object. The \e{d pointer}
+ points to an object of this type.
+ */
+
+QT_END_NAMESPACE