/**************************************************************************** ** ** Copyright (C) 2017 The Qt Company Ltd. ** Copyright (C) 2013 Olivier Goffart ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtCore 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 https://www.qt.io/terms-conditions. For further ** information use the contact form at https://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 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef QOBJECT_P_H #define QOBJECT_P_H // // W A R N I N G // ------------- // // This file is not part of the Qt API. It exists for the convenience // of qapplication_*.cpp, qwidget*.cpp and qfiledialog.cpp. This header // file may change from version to version without notice, or even be removed. // // We mean it. // #include #include "QtCore/qobject.h" #include "QtCore/qpointer.h" #include "QtCore/qsharedpointer.h" #include "QtCore/qcoreevent.h" #include "QtCore/qlist.h" #include "QtCore/qvector.h" #include "QtCore/qvariant.h" #include "QtCore/qreadwritelock.h" QT_BEGIN_NAMESPACE class QVariant; class QThreadData; class QObjectConnectionListVector; namespace QtSharedPointer { struct ExternalRefCountData; } /* for Qt Test */ struct QSignalSpyCallbackSet { typedef void (*BeginCallback)(QObject *caller, int signal_or_method_index, void **argv); typedef void (*EndCallback)(QObject *caller, int signal_or_method_index); BeginCallback signal_begin_callback, slot_begin_callback; EndCallback signal_end_callback, slot_end_callback; }; void Q_CORE_EXPORT qt_register_signal_spy_callbacks(QSignalSpyCallbackSet *callback_set); extern Q_CORE_EXPORT QBasicAtomicPointer qt_signal_spy_callback_set; enum { QObjectPrivateVersion = QT_VERSION }; class Q_CORE_EXPORT QAbstractDeclarativeData { public: static void (*destroyed)(QAbstractDeclarativeData *, QObject *); static void (*destroyed_qml1)(QAbstractDeclarativeData *, QObject *); static void (*parentChanged)(QAbstractDeclarativeData *, QObject *, QObject *); static void (*signalEmitted)(QAbstractDeclarativeData *, QObject *, int, void **); static int (*receivers)(QAbstractDeclarativeData *, const QObject *, int); static bool (*isSignalConnected)(QAbstractDeclarativeData *, const QObject *, int); static void (*setWidgetParent)(QObject *, QObject *); // Used by the QML engine to specify parents for widgets. Set by QtWidgets. }; // This is an implementation of QAbstractDeclarativeData that is identical with // the implementation in QtDeclarative and QtQml for the first bit struct QAbstractDeclarativeDataImpl : public QAbstractDeclarativeData { quint32 ownedByQml1:1; quint32 unused: 31; }; class Q_CORE_EXPORT QObjectPrivate : public QObjectData { Q_DECLARE_PUBLIC(QObject) public: struct ExtraData { ExtraData() {} #ifndef QT_NO_USERDATA QVector userData; #endif QList propertyNames; QVector propertyValues; QVector runningTimers; QList > eventFilters; QString objectName; }; typedef void (*StaticMetaCallFunction)(QObject *, QMetaObject::Call, int, void **); struct Connection { QObject *sender; QObject *receiver; union { StaticMetaCallFunction callFunction; QtPrivate::QSlotObjectBase *slotObj; }; // The next pointer for the singly-linked ConnectionList Connection *nextConnectionList; //senders linked list Connection *next; Connection **prev; QAtomicPointer argumentTypes; QAtomicInt ref_; ushort method_offset; ushort method_relative; uint signal_index : 27; // In signal range (see QObjectPrivate::signalIndex()) ushort connectionType : 3; // 0 == auto, 1 == direct, 2 == queued, 4 == blocking ushort isSlotObject : 1; ushort ownArgumentTypes : 1; Connection() : nextConnectionList(nullptr), ref_(2), ownArgumentTypes(true) { //ref_ is 2 for the use in the internal lists, and for the use in QMetaObject::Connection } ~Connection(); int method() const { Q_ASSERT(!isSlotObject); return method_offset + method_relative; } void ref() { ref_.ref(); } void deref() { if (!ref_.deref()) { Q_ASSERT(!receiver); delete this; } } }; // ConnectionList is a singly-linked list struct ConnectionList { ConnectionList() : first(nullptr), last(nullptr) {} Connection *first; Connection *last; }; struct Sender { Sender(QObject *receiver, QObject *sender, int signal) : receiver(receiver), sender(sender), signal(signal) { if (receiver) { ConnectionData *cd = receiver->d_func()->connections.load(); previous = cd->currentSender; cd->currentSender = this; } } ~Sender() { if (receiver) receiver->d_func()->connections.load()->currentSender = previous; } void receiverDeleted() { Sender *s = this; while (s) { s->receiver = nullptr; s = s->previous; } } Sender *previous; QObject *receiver; QObject *sender; int signal; }; /* This contains the all connections from and to an object. The signalVector contains the lists of connections for a given signal. The index in the vector correspond to the signal index. The signal index is the one returned by QObjectPrivate::signalIndex (not QMetaObject::indexOfSignal). allsignals contains a list of special connections that will get invoked on any signal emission. This is done by connecting to signal index -1. This vector is protected by the object mutex (signalSlotLock()) Each Connection is also part of a 'senders' linked list. This one contains all connections connected to a slot in this object. The mutex of the receiver must be locked when touching the pointers of this linked list. */ struct ConnectionData { bool objectDeleted = false; //the QObject owner of this vector has been destroyed while the vector was inUse struct Ref { int _ref = 0; void ref() { ++_ref; } int deref() { return --_ref; } operator int() const { return _ref; } }; Ref ref; bool dirty = false; //some Connection have been disconnected (their receiver is 0) but not removed from the list yet ConnectionList allsignals; QVector signalVector; Connection *senders = nullptr; Sender *currentSender = nullptr; // object currently activating the object ConnectionList &connectionsForSignal(int signal) { return signal < 0 ? allsignals : signalVector[signal]; } }; QObjectPrivate(int version = QObjectPrivateVersion); virtual ~QObjectPrivate(); void deleteChildren(); void setParent_helper(QObject *); void moveToThread_helper(); void setThreadData_helper(QThreadData *currentData, QThreadData *targetData); void _q_reregisterTimers(void *pointer); bool isSender(const QObject *receiver, const char *signal) const; QObjectList receiverList(const char *signal) const; QObjectList senderList() const; void addConnection(int signal, Connection *c); void cleanConnectionLists(); static QObjectPrivate *get(QObject *o) { return o->d_func(); } static const QObjectPrivate *get(const QObject *o) { return o->d_func(); } int signalIndex(const char *signalName, const QMetaObject **meta = nullptr) const; bool isSignalConnected(uint signalIdx, bool checkDeclarative = true) const; bool maybeSignalConnected(uint signalIndex) const; inline bool isDeclarativeSignalConnected(uint signalIdx) const; // To allow abitrary objects to call connectNotify()/disconnectNotify() without making // the API public in QObject. This is used by QQmlNotifierEndpoint. inline void connectNotify(const QMetaMethod &signal); inline void disconnectNotify(const QMetaMethod &signal); template static inline QMetaObject::Connection connect(const typename QtPrivate::FunctionPointer::Object *sender, Func1 signal, const typename QtPrivate::FunctionPointer::Object *receiverPrivate, Func2 slot, Qt::ConnectionType type = Qt::AutoConnection); template static inline bool disconnect(const typename QtPrivate::FunctionPointer::Object *sender, Func1 signal, const typename QtPrivate::FunctionPointer::Object *receiverPrivate, Func2 slot); static QMetaObject::Connection connectImpl(const QObject *sender, int signal_index, const QObject *receiver, void **slot, QtPrivate::QSlotObjectBase *slotObj, Qt::ConnectionType type, const int *types, const QMetaObject *senderMetaObject); static QMetaObject::Connection connect(const QObject *sender, int signal_index, QtPrivate::QSlotObjectBase *slotObj, Qt::ConnectionType type); static bool disconnect(const QObject *sender, int signal_index, void **slot); void ensureConnectionData() { if (connections.load()) return; ConnectionData *cd = new ConnectionData; cd->ref.ref(); connections.store(cd); } public: ExtraData *extraData; // extra data set by the user QThreadData *threadData; // id of the thread that owns the object using ConnectionDataPointer = QExplicitlySharedDataPointer; QAtomicPointer connections; union { QObject *currentChildBeingDeleted; // should only be used when QObjectData::isDeletingChildren is set QAbstractDeclarativeData *declarativeData; //extra data used by the declarative module }; // these objects are all used to indicate that a QObject was deleted // plus QPointer, which keeps a separate list QAtomicPointer sharedRefcount; }; Q_DECLARE_TYPEINFO(QObjectPrivate::ConnectionList, Q_MOVABLE_TYPE); inline bool QObjectPrivate::isDeclarativeSignalConnected(uint signal_index) const { return declarativeData && QAbstractDeclarativeData::isSignalConnected && QAbstractDeclarativeData::isSignalConnected(declarativeData, q_func(), signal_index); } inline void QObjectPrivate::connectNotify(const QMetaMethod &signal) { q_ptr->connectNotify(signal); } inline void QObjectPrivate::disconnectNotify(const QMetaMethod &signal) { q_ptr->disconnectNotify(signal); } namespace QtPrivate { template class QPrivateSlotObject : public QSlotObjectBase { typedef QtPrivate::FunctionPointer FuncType; Func function; static void impl(int which, QSlotObjectBase *this_, QObject *r, void **a, bool *ret) { switch (which) { case Destroy: delete static_cast(this_); break; case Call: FuncType::template call(static_cast(this_)->function, static_cast(QObjectPrivate::get(r)), a); break; case Compare: *ret = *reinterpret_cast(a) == static_cast(this_)->function; break; case NumOperations: ; } } public: explicit QPrivateSlotObject(Func f) : QSlotObjectBase(&impl), function(f) {} }; } //namespace QtPrivate template inline QMetaObject::Connection QObjectPrivate::connect(const typename QtPrivate::FunctionPointer::Object *sender, Func1 signal, const typename QtPrivate::FunctionPointer::Object *receiverPrivate, Func2 slot, Qt::ConnectionType type) { typedef QtPrivate::FunctionPointer SignalType; typedef QtPrivate::FunctionPointer SlotType; Q_STATIC_ASSERT_X(QtPrivate::HasQ_OBJECT_Macro::Value, "No Q_OBJECT in the class with the signal"); //compilation error if the arguments does not match. Q_STATIC_ASSERT_X(int(SignalType::ArgumentCount) >= int(SlotType::ArgumentCount), "The slot requires more arguments than the signal provides."); Q_STATIC_ASSERT_X((QtPrivate::CheckCompatibleArguments::value), "Signal and slot arguments are not compatible."); Q_STATIC_ASSERT_X((QtPrivate::AreArgumentsCompatible::value), "Return type of the slot is not compatible with the return type of the signal."); const int *types = nullptr; if (type == Qt::QueuedConnection || type == Qt::BlockingQueuedConnection) types = QtPrivate::ConnectionTypes::types(); return QObject::connectImpl(sender, reinterpret_cast(&signal), receiverPrivate->q_ptr, reinterpret_cast(&slot), new QtPrivate::QPrivateSlotObject::Value, typename SignalType::ReturnType>(slot), type, types, &SignalType::Object::staticMetaObject); } template bool QObjectPrivate::disconnect(const typename QtPrivate::FunctionPointer< Func1 >::Object* sender, Func1 signal, const typename QtPrivate::FunctionPointer< Func2 >::Object* receiverPrivate, Func2 slot) { typedef QtPrivate::FunctionPointer SignalType; typedef QtPrivate::FunctionPointer SlotType; Q_STATIC_ASSERT_X(QtPrivate::HasQ_OBJECT_Macro::Value, "No Q_OBJECT in the class with the signal"); //compilation error if the arguments does not match. Q_STATIC_ASSERT_X((QtPrivate::CheckCompatibleArguments::value), "Signal and slot arguments are not compatible."); return QObject::disconnectImpl(sender, reinterpret_cast(&signal), receiverPrivate->q_ptr, reinterpret_cast(&slot), &SignalType::Object::staticMetaObject); } Q_DECLARE_TYPEINFO(QObjectPrivate::Connection, Q_MOVABLE_TYPE); Q_DECLARE_TYPEINFO(QObjectPrivate::Sender, Q_MOVABLE_TYPE); class QSemaphore; class Q_CORE_EXPORT QMetaCallEvent : public QEvent { public: QMetaCallEvent(ushort method_offset, ushort method_relative, QObjectPrivate::StaticMetaCallFunction callFunction , const QObject *sender, int signalId, int nargs = 0, int *types = nullptr, void **args = nullptr, QSemaphore *semaphore = nullptr); /*! \internal \a signalId is in the signal index range (see QObjectPrivate::signalIndex()). */ QMetaCallEvent(QtPrivate::QSlotObjectBase *slotObj, const QObject *sender, int signalId, int nargs = 0, int *types = nullptr, void **args = nullptr, QSemaphore *semaphore = nullptr); ~QMetaCallEvent(); inline int id() const { return method_offset_ + method_relative_; } inline const QObject *sender() const { return sender_; } inline int signalId() const { return signalId_; } inline void **args() const { return args_; } virtual void placeMetaCall(QObject *object); private: QtPrivate::QSlotObjectBase *slotObj_; const QObject *sender_; int signalId_; int nargs_; int *types_; void **args_; QSemaphore *semaphore_; QObjectPrivate::StaticMetaCallFunction callFunction_; ushort method_offset_; ushort method_relative_; }; class QBoolBlocker { Q_DISABLE_COPY_MOVE(QBoolBlocker) public: explicit inline QBoolBlocker(bool &b, bool value=true):block(b), reset(b){block = value;} inline ~QBoolBlocker(){block = reset; } private: bool █ bool reset; }; void Q_CORE_EXPORT qDeleteInEventHandler(QObject *o); struct QAbstractDynamicMetaObject; struct Q_CORE_EXPORT QDynamicMetaObjectData { virtual ~QDynamicMetaObjectData(); virtual void objectDestroyed(QObject *) { delete this; } virtual QAbstractDynamicMetaObject *toDynamicMetaObject(QObject *) = 0; virtual int metaCall(QObject *, QMetaObject::Call, int _id, void **) = 0; }; struct Q_CORE_EXPORT QAbstractDynamicMetaObject : public QDynamicMetaObjectData, public QMetaObject { ~QAbstractDynamicMetaObject(); QAbstractDynamicMetaObject *toDynamicMetaObject(QObject *) override { return this; } virtual int createProperty(const char *, const char *) { return -1; } int metaCall(QObject *, QMetaObject::Call c, int _id, void **a) override { return metaCall(c, _id, a); } virtual int metaCall(QMetaObject::Call, int _id, void **) { return _id; } // Compat overload }; QT_END_NAMESPACE #endif // QOBJECT_P_H