/**************************************************************************** ** ** Copyright (C) 2015 The Qt Company Ltd. ** Contact: http://www.qt.io/licensing/ ** ** This file is part of the QtDBus module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see http://www.qt.io/terms-conditions. For further ** information use the contact form at http://www.qt.io/contact-us. ** ** 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 or version 3 as published by the Free ** Software Foundation and appearing in the file LICENSE.LGPLv21 and ** LICENSE.LGPLv3 included in the packaging of this file. Please review the ** following information to ensure the GNU Lesser General Public License ** requirements will be met: https://www.gnu.org/licenses/lgpl.html and ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** As a special exception, The Qt Company gives you certain additional ** rights. These rights are described in The Qt Company LGPL Exception ** version 1.1, 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. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qdbusargument.h" #include #include #include #include #include #include #include #include #include #include #include "qdbusargument_p.h" #include "qdbusmetatype_p.h" #include "qdbusutil_p.h" #ifndef QT_NO_DBUS QT_BEGIN_NAMESPACE QDBusArgumentPrivate::~QDBusArgumentPrivate() { if (message) q_dbus_message_unref(message); } QByteArray QDBusArgumentPrivate::createSignature(int id) { if (!qdbus_loadLibDBus()) return ""; QByteArray signature; QDBusMarshaller *marshaller = new QDBusMarshaller(0); marshaller->ba = &signature; // run it void *null = 0; QVariant v(id, null); QDBusArgument arg(marshaller); QDBusMetaType::marshall(arg, v.userType(), v.constData()); arg.d = 0; // delete it bool ok = marshaller->ok; delete marshaller; if (signature.isEmpty() || !ok || !QDBusUtil::isValidSingleSignature(QString::fromLatin1(signature))) { qWarning("QDBusMarshaller: type `%s' produces invalid D-BUS signature `%s' " "(Did you forget to call beginStructure() ?)", QVariant::typeToName( QVariant::Type(id) ), signature.isEmpty() ? "" : signature.constData()); return ""; } else if ((signature.at(0) != DBUS_TYPE_ARRAY && signature.at(0) != DBUS_STRUCT_BEGIN_CHAR) || (signature.at(0) == DBUS_TYPE_ARRAY && (signature.at(1) == DBUS_TYPE_BYTE || signature.at(1) == DBUS_TYPE_STRING))) { qWarning("QDBusMarshaller: type `%s' attempts to redefine basic D-BUS type '%s' (%s) " "(Did you forget to call beginStructure() ?)", QVariant::typeToName( QVariant::Type(id) ), signature.constData(), QVariant::typeToName( QVariant::Type(QDBusMetaType::signatureToType(signature))) ); return ""; } return signature; } bool QDBusArgumentPrivate::checkWrite(QDBusArgumentPrivate *&d) { if (!d) return false; if (d->direction == Marshalling) { if (!d->marshaller()->ok) return false; if (d->message && d->ref != 1) { QDBusMarshaller *dd = new QDBusMarshaller(d->capabilities); dd->message = q_dbus_message_copy(d->message); q_dbus_message_iter_init_append(dd->message, &dd->iterator); if (!d->ref.deref()) delete d; d = dd; } return true; } #ifdef QT_DEBUG qFatal("QDBusArgument: write from a read-only object"); #else qWarning("QDBusArgument: write from a read-only object"); #endif return false; } bool QDBusArgumentPrivate::checkRead(QDBusArgumentPrivate *d) { if (!d) return false; if (d->direction == Demarshalling) return true; #ifdef QT_DEBUG qFatal("QDBusArgument: read from a write-only object"); #else qWarning("QDBusArgument: read from a write-only object"); #endif return false; } bool QDBusArgumentPrivate::checkReadAndDetach(QDBusArgumentPrivate *&d) { if (!checkRead(d)) return false; // don't bother if (d->ref == 1) return true; // no need to detach QDBusDemarshaller *dd = new QDBusDemarshaller(d->capabilities); dd->message = q_dbus_message_ref(d->message); dd->iterator = static_cast(d)->iterator; if (!d->ref.deref()) delete d; d = dd; return true; } /*! \class QDBusArgument \inmodule QtDBus \since 4.2 \brief The QDBusArgument class is used to marshall and demarshall D-Bus arguments. The class is used to send arguments over D-Bus to remote applications and to receive them back. D-Bus offers an extensible type system, based on a few primitive types and associations of them. See the \l {qdbustypesystem.html}{QtDBus type system} page for more information on the type system. QDBusArgument is the central class in the QtDBus type system, providing functions to marshall and demarshall the primitive types. The compound types are then created by association of one or more of the primitive types in arrays, dictionaries or structures. The following example illustrates how a structure containing an integer and a string can be constructed using the \l {qdbustypesystem.html}{QtDBus type system}: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 0 The type has to be registered with qDBusRegisterMetaType() before it can be used with QDBusArgument. Therefore, somewhere in your program, you should add the following code: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 1 Once registered, a type can be used in outgoing method calls (placed with QDBusAbstractInterface::call()), signal emissions from registered objects or in incoming calls from remote applications. It is important to note that the \c{operator<<} and \c{operator>>} streaming functions must always produce the same number of entries in case of structures, both in reading and in writing (marshalling and demarshalling), otherwise calls and signals may start to silently fail. The following example illustrates this wrong usage in context of a class that may contain invalid data: \badcode // Wrongly marshall the MyTime data into a D-Bus argument QDBusArgument &operator<<(QDBusArgument &argument, const MyTime &mytime) { argument.beginStructure(); if (mytime.isValid) argument << true << mytime.hour << mytime.minute << mytime.second; else argument << false; argument.endStructure(); return argument; } \endcode In this example, both the \c{operator<<} and the \c{operator>>} functions may produce a different number of reads/writes. This can confuse the QtDBus type system and should be avoided. \sa QDBusAbstractInterface, {qdbustypesystem.html}{The QtDBus type system}, {usingadaptors.html}{Using Adaptors}, qdbus_cast() */ /*! \enum QDBusArgument::ElementType \since 4.5 This enum describes the type of element held by the argument. \value BasicType A basic element, which is understood by QVariant. The following types are considered basic: bool, byte, short, ushort, int, uint, qint64, quint64, double, QString, QByteArray, QDBusObjectPath, QDBusSignature \value VariantType The variant element (QDBusVariant) \value ArrayType An array element, usually represented by QList or QVector. Note: QByteArray and associative maps are not considered arrays, even if the D-Bus protocol transports them as such. \value StructureType A custom type represented by a structure, like QDateTime, QPoint, etc. \value MapType An associative container, like QMap or QHash \value MapEntryType One entry in an associative container: both the key and the value form one map-entry type. \value UnknownType The type is unknown or we have reached the end of the list. \sa currentType() */ /*! \fn qdbus_cast(const QDBusArgument &argument) \relates QDBusArgument \since 4.2 Attempts to demarshall the contents of \a argument into the type \c{T}. For example: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 2 Note that it is equivalent to the following: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 3 */ /*! Constructs an empty QDBusArgument argument. An empty QDBusArgument object does not allow either reading or writing to be performed. */ QDBusArgument::QDBusArgument() { if (!qdbus_loadLibDBus()) { d = 0; return; } QDBusMarshaller *dd = new QDBusMarshaller(0); d = dd; // create a new message with any type, we won't sent it anyways dd->message = q_dbus_message_new(DBUS_MESSAGE_TYPE_METHOD_CALL); q_dbus_message_iter_init_append(dd->message, &dd->iterator); } /*! Constructs a copy of the \a other QDBusArgument object. Both objects will therefore contain the same state from this point forward. QDBusArguments are explicitly shared and, therefore, any modification to either copy will affect the other one too. */ QDBusArgument::QDBusArgument(const QDBusArgument &other) : d(other.d) { if (d) d->ref.ref(); } /*! \internal */ QDBusArgument::QDBusArgument(QDBusArgumentPrivate *dd) : d(dd) { } /*! Copies the \a other QDBusArgument object into this one. Both objects will therefore contain the same state from this point forward. QDBusArguments are explicitly shared and, therefore, any modification to either copy will affect the other one too. */ QDBusArgument &QDBusArgument::operator=(const QDBusArgument &other) { qAtomicAssign(d, other.d); return *this; } /*! Disposes of the resources associated with this QDBusArgument object. */ QDBusArgument::~QDBusArgument() { if (d && !d->ref.deref()) delete d; } /*! Appends the primitive value \a arg of type \c{BYTE} to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(uchar arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{BOOLEAN} to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(bool arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{INT16} to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(short arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{UINT16} to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(ushort arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{INT32} to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(int arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{UINT32} to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(uint arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{INT64} to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(qlonglong arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{UINT64} to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(qulonglong arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{DOUBLE} (double-precision floating-point) to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(double arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{STRING} (Unicode character string) to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(const QString &arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload \internal Appends the primitive value \a arg of type \c{OBJECT_PATH} (path to a D-Bus object) to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(const QDBusObjectPath &arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload \internal Appends the primitive value \a arg of type \c{SIGNATURE} (D-Bus type signature) to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(const QDBusSignature &arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload \since 4.8 \internal Appends the primitive value \a arg of type \c{UNIX_FILE_DESCRIPTOR} (Unix File Descriptor) to the D-Bus stream. */ QDBusArgument &QDBusArgument::operator<<(const QDBusUnixFileDescriptor &arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the primitive value \a arg of type \c{VARIANT} to the D-Bus stream. A D-Bus variant type can contain any type, including other variants. It is similar to the Qt QVariant type. */ QDBusArgument &QDBusArgument::operator<<(const QDBusVariant &arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the QStringList given by \a arg as \c{ARRAY of STRING} to the D-Bus stream. QStringList and QByteArray are the only two non-primitive types that are supported directly by QDBusArgument because of their widespread usage in Qt applications. Other arrays are supported through compound types in QtDBus. */ QDBusArgument &QDBusArgument::operator<<(const QStringList &arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \overload Appends the QByteArray given by \a arg as \c{ARRAY of BYTE} to the D-Bus stream. QStringList and QByteArray are the only two non-primitive types that are supported directly by QDBusArgument because of their widespread usage in Qt applications. Other arrays are supported through compound types in QtDBus. */ QDBusArgument &QDBusArgument::operator<<(const QByteArray &arg) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->append(arg); return *this; } /*! \internal \since 4.5 Appends the variant \a v. \sa asVariant() */ void QDBusArgument::appendVariant(const QVariant &v) { if (QDBusArgumentPrivate::checkWrite(d)) d->marshaller()->appendVariantInternal(v); } /*! \internal Returns the type signature of the D-Bus type this QDBusArgument object is currently pointing to. */ QString QDBusArgument::currentSignature() const { if (!d) return QString(); if (d->direction == QDBusArgumentPrivate::Demarshalling) return d->demarshaller()->currentSignature(); else return d->marshaller()->currentSignature(); } /*! \since 4.5 Returns the classification of the current element type. If an error decoding the type occurs or if we're at the end of the argument, this function returns QDBusArgument::UnknownType. This function only makes sense when demarshalling arguments. If it is used while marshalling, it will always return UnknownType. */ QDBusArgument::ElementType QDBusArgument::currentType() const { if (!d) return UnknownType; if (d->direction == QDBusArgumentPrivate::Demarshalling) return d->demarshaller()->currentType(); return UnknownType; } /*! Extracts one D-BUS primitive argument of type \c{BYTE} from the D-BUS stream and puts it into \a arg. */ const QDBusArgument &QDBusArgument::operator>>(uchar &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toByte(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{BOOLEAN} from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(bool &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toBool(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{UINT16} from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(ushort &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toUShort(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{INT16} from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(short &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toShort(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{INT32} from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(int &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toInt(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{UINT32} from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(uint &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toUInt(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{INT64} from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(qlonglong &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toLongLong(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{UINT64} from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(qulonglong &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toULongLong(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{DOUBLE} (double-precision floating pount) from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(double &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toDouble(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{STRING} (Unicode character string) from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(QString &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toString(); return *this; } /*! \overload \internal Extracts one D-Bus primitive argument of type \c{OBJECT_PATH} (D-Bus path to an object) from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(QDBusObjectPath &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toObjectPath(); return *this; } /*! \overload \internal Extracts one D-Bus primitive argument of type \c{SIGNATURE} (D-Bus type signature) from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(QDBusSignature &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toSignature(); return *this; } /*! \overload \since 4.8 \internal Extracts one D-Bus primitive argument of type \c{UNIX_FILE_DESCRIPTOR} (Unix file descriptor) from the D-Bus stream. */ const QDBusArgument &QDBusArgument::operator>>(QDBusUnixFileDescriptor &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toUnixFileDescriptor(); return *this; } /*! \overload Extracts one D-Bus primitive argument of type \c{VARIANT} from the D-Bus stream. A D-Bus variant type can contain any type, including other variants. It is similar to the Qt QVariant type. In case the variant contains a type not directly supported by QDBusArgument, the value of the returned QDBusVariant will contain another QDBusArgument. It is your responsibility to further demarshall it into another type. */ const QDBusArgument &QDBusArgument::operator>>(QDBusVariant &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toVariant(); return *this; } /*! \overload Extracts an array of strings from the D-Bus stream and return it as a QStringList. QStringList and QByteArray are the only two non-primitive types that are supported directly by QDBusArgument because of their widespread usage in Qt applications. Other arrays are supported through compound types in QtDBus. */ const QDBusArgument &QDBusArgument::operator>>(QStringList &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toStringList(); return *this; } /*! \overload Extracts an array of bytes from the D-Bus stream and return it as a QByteArray. QStringList and QByteArray are the only two non-primitive types that are supported directly by QDBusArgument because of their widespread usage in Qt applications. Other arrays are supported through compound types in QtDBus. */ const QDBusArgument &QDBusArgument::operator>>(QByteArray &arg) const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) arg = d->demarshaller()->toByteArray(); return *this; } /*! Opens a new D-Bus structure suitable for appending new arguments. This function is used usually in \c{operator<<} streaming operators, as in the following example: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 4 Structures can contain other structures, so the following code is also valid: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 5 \sa endStructure(), beginArray(), beginMap() */ void QDBusArgument::beginStructure() { if (QDBusArgumentPrivate::checkWrite(d)) d = d->marshaller()->beginStructure(); } /*! Closes a D-Bus structure opened with beginStructure(). This function must be called same number of times that beginStructure() is called. \sa beginStructure(), endArray(), endMap() */ void QDBusArgument::endStructure() { if (QDBusArgumentPrivate::checkWrite(d)) d = d->marshaller()->endStructure(); } /*! Opens a new D-Bus array suitable for appending elements of meta-type \a id. This function is used usually in \c{operator<<} streaming operators, as in the following example: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 6 If the type you want to marshall is a QList, QVector or any of the Qt's \l {Container Classes} that take one template parameter, you need not declare an \c{operator<<} function for it, since QtDBus provides generic templates to do the job of marshalling the data. The same applies for STL's sequence containers, such as \c {std::list}, \c {std::vector}, etc. \sa endArray(), beginStructure(), beginMap() */ void QDBusArgument::beginArray(int id) { if (QDBusArgumentPrivate::checkWrite(d)) d = d->marshaller()->beginArray(id); } /*! Closes a D-Bus array opened with beginArray(). This function must be called same number of times that beginArray() is called. \sa beginArray(), endStructure(), endMap() */ void QDBusArgument::endArray() { if (QDBusArgumentPrivate::checkWrite(d)) d = d->marshaller()->endArray(); } /*! Opens a new D-Bus map suitable for appending elements. Maps are containers that associate one entry (the key) to another (the value), such as Qt's QMap or QHash. The ids of the map's key and value meta types must be passed in \a kid and \a vid respectively. This function is used usually in \c{operator<<} streaming operators, as in the following example: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 7 If the type you want to marshall is a QMap or QHash, you need not declare an \c{operator<<} function for it, since QtDBus provides generic templates to do the job of marshalling the data. \sa endMap(), beginStructure(), beginArray(), beginMapEntry() */ void QDBusArgument::beginMap(int kid, int vid) { if (QDBusArgumentPrivate::checkWrite(d)) d = d->marshaller()->beginMap(kid, vid); } /*! Closes a D-Bus map opened with beginMap(). This function must be called same number of times that beginMap() is called. \sa beginMap(), endStructure(), endArray() */ void QDBusArgument::endMap() { if (QDBusArgumentPrivate::checkWrite(d)) d = d->marshaller()->endMap(); } /*! Opens a D-Bus map entry suitable for appending the key and value entries. This function is only valid when a map has been opened with beginMap(). See beginMap() for an example of usage of this function. \sa endMapEntry(), beginMap() */ void QDBusArgument::beginMapEntry() { if (QDBusArgumentPrivate::checkWrite(d)) d = d->marshaller()->beginMapEntry(); } /*! Closes a D-Bus map entry opened with beginMapEntry(). This function must be called same number of times that beginMapEntry() is called. \sa beginMapEntry() */ void QDBusArgument::endMapEntry() { if (QDBusArgumentPrivate::checkWrite(d)) d = d->marshaller()->endMapEntry(); } /*! Opens a D-Bus structure suitable for extracting elements. This function is used usually in \c{operator>>} streaming operators, as in the following example: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 8 \sa endStructure(), beginArray(), beginMap() */ void QDBusArgument::beginStructure() const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) d = d->demarshaller()->beginStructure(); } /*! Closes the D-Bus structure and allow extracting of the next element after the structure. \sa beginStructure() */ void QDBusArgument::endStructure() const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) d = d->demarshaller()->endStructure(); } /*! Recurses into the D-Bus array to allow extraction of the array elements. This function is used usually in \c{operator>>} streaming operators, as in the following example: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 9 If the type you want to demarshall is a QList, QVector or any of the Qt's \l {Container Classes} that take one template parameter, you need not declare an \c{operator>>} function for it, since QtDBus provides generic templates to do the job of demarshalling the data. The same applies for STL's sequence containers, such as \c {std::list}, \c {std::vector}, etc. \sa atEnd(), beginStructure(), beginMap() */ void QDBusArgument::beginArray() const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) d = d->demarshaller()->beginArray(); } /*! Closes the D-Bus array and allow extracting of the next element after the array. \sa beginArray() */ void QDBusArgument::endArray() const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) d = d->demarshaller()->endArray(); } /*! Recurses into the D-Bus map to allow extraction of the map's elements. This function is used usually in \c{operator>>} streaming operators, as in the following example: \snippet doc/src/snippets/code/src_qdbus_qdbusargument.cpp 10 If the type you want to demarshall is a QMap or QHash, you need not declare an \c{operator>>} function for it, since QtDBus provides generic templates to do the job of demarshalling the data. \sa endMap(), beginStructure(), beginArray(), beginMapEntry() */ void QDBusArgument::beginMap() const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) d = d->demarshaller()->beginMap(); } /*! Closes the D-Bus map and allow extracting of the next element after the map. \sa beginMap() */ void QDBusArgument::endMap() const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) d = d->demarshaller()->endMap(); } /*! Recurses into the D-Bus map entry to allow extraction of the key and value pair. See beginMap() for an example of how this function is usually used. \sa endMapEntry(), beginMap() */ void QDBusArgument::beginMapEntry() const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) d = d->demarshaller()->beginMapEntry(); } /*! Closes the D-Bus map entry and allow extracting of the next element on the map. \sa beginMapEntry() */ void QDBusArgument::endMapEntry() const { if (QDBusArgumentPrivate::checkReadAndDetach(d)) d = d->demarshaller()->endMapEntry(); } /*! Returns true if there are no more elements to be extracted from this QDBusArgument. This function is usually used in QDBusArgument objects returned from beginMap() and beginArray(). */ bool QDBusArgument::atEnd() const { if (QDBusArgumentPrivate::checkRead(d)) return d->demarshaller()->atEnd(); return true; // at least, stop reading } /*! \since 4.5 Returns the current argument in the form of a QVariant. Basic types will be decoded and returned in the QVariant, but for complex types, this function will return a QDBusArgument object in the QVariant. It is the caller's responsibility to decode the argument (for example, by calling asVariant() in it). For example, if the current argument is an INT32, this function will return a QVariant with an argument of type QVariant::Int. For an array of INT32, it will return a QVariant containing a QDBusArgument. If an error occurs or if there are no more arguments to decode (i.e., we are at the end of the argument list), this function will return an invalid QVariant. \sa atEnd() */ QVariant QDBusArgument::asVariant() const { if (QDBusArgumentPrivate::checkRead(d)) return d->demarshaller()->toVariantInternal(); return QVariant(); } QT_END_NAMESPACE // for optimization purposes, we include the marshallers here #include "qdbusmarshaller.cpp" #include "qdbusdemarshaller.cpp" QT_BEGIN_NAMESPACE // QDBusArgument operators const QDBusArgument &operator>>(const QDBusArgument &a, QVariant &v) { QDBusVariant dbv; a >> dbv; v = dbv.variant(); return a; } // QVariant types #ifndef QDBUS_NO_SPECIALTYPES const QDBusArgument &operator>>(const QDBusArgument &a, QDate &date) { int y, m, d; a.beginStructure(); a >> y >> m >> d; a.endStructure(); if (y != 0 && m != 0 && d != 0) date.setYMD(y, m, d); else date = QDate(); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QDate &date) { a.beginStructure(); if (date.isValid()) a << date.year() << date.month() << date.day(); else a << 0 << 0 << 0; a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QTime &time) { int h, m, s, ms; a.beginStructure(); a >> h >> m >> s >> ms; a.endStructure(); if (h < 0) time = QTime(); else time.setHMS(h, m, s, ms); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QTime &time) { a.beginStructure(); if (time.isValid()) a << time.hour() << time.minute() << time.second() << time.msec(); else a << -1 << -1 << -1 << -1; a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QDateTime &dt) { QDate date; QTime time; int timespec; a.beginStructure(); a >> date >> time >> timespec; a.endStructure(); dt = QDateTime(date, time, Qt::TimeSpec(timespec)); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QDateTime &dt) { a.beginStructure(); a << dt.date() << dt.time() << int(dt.timeSpec()); a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QRect &rect) { int x, y, width, height; a.beginStructure(); a >> x >> y >> width >> height; a.endStructure(); rect.setRect(x, y, width, height); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QRect &rect) { a.beginStructure(); a << rect.x() << rect.y() << rect.width() << rect.height(); a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QRectF &rect) { double x, y, width, height; a.beginStructure(); a >> x >> y >> width >> height; a.endStructure(); rect.setRect(qreal(x), qreal(y), qreal(width), qreal(height)); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QRectF &rect) { a.beginStructure(); a << double(rect.x()) << double(rect.y()) << double(rect.width()) << double(rect.height()); a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QSize &size) { a.beginStructure(); a >> size.rwidth() >> size.rheight(); a.endStructure(); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QSize &size) { a.beginStructure(); a << size.width() << size.height(); a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QSizeF &size) { double width, height; a.beginStructure(); a >> width >> height; a.endStructure(); size.setWidth(qreal(width)); size.setHeight(qreal(height)); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QSizeF &size) { a.beginStructure(); a << double(size.width()) << double(size.height()); a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QPoint &pt) { a.beginStructure(); a >> pt.rx() >> pt.ry(); a.endStructure(); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QPoint &pt) { a.beginStructure(); a << pt.x() << pt.y(); a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QPointF &pt) { double x, y; a.beginStructure(); a >> x >> y; a.endStructure(); pt.setX(qreal(x)); pt.setY(qreal(y)); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QPointF &pt) { a.beginStructure(); a << double(pt.x()) << double(pt.y()); a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QLine &line) { QPoint p1, p2; a.beginStructure(); a >> p1 >> p2; a.endStructure(); line = QLine(p1, p2); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QLine &line) { a.beginStructure(); a << line.p1() << line.p2(); a.endStructure(); return a; } const QDBusArgument &operator>>(const QDBusArgument &a, QLineF &line) { QPointF p1, p2; a.beginStructure(); a >> p1 >> p2; a.endStructure(); line = QLineF(p1, p2); return a; } QDBusArgument &operator<<(QDBusArgument &a, const QLineF &line) { a.beginStructure(); a << line.p1() << line.p2(); a.endStructure(); return a; } #endif QT_END_NAMESPACE #endif // QT_NO_DBUS