// Copyright (C) 2022 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only #ifndef QPROPERTY_P_H #define QPROPERTY_P_H // // W A R N I N G // ------------- // // This file is not part of the Qt API. It exists for the convenience // of a number of Qt sources files. This header file may change from // version to version without notice, or even be removed. // // We mean it. // #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE namespace QtPrivate { Q_CORE_EXPORT bool isAnyBindingEvaluating(); struct QBindingStatusAccessToken {}; } /*! \internal Similar to \c QPropertyBindingPrivatePtr, but stores a \c QPropertyObserver * linking to the QPropertyBindingPrivate* instead of the QPropertyBindingPrivate* itself */ struct QBindingObserverPtr { private: QPropertyObserver *d = nullptr; public: QBindingObserverPtr() = default; Q_DISABLE_COPY(QBindingObserverPtr); void swap(QBindingObserverPtr &other) noexcept { qt_ptr_swap(d, other.d); } QBindingObserverPtr(QBindingObserverPtr &&other) noexcept : d(std::exchange(other.d, nullptr)) {} QT_MOVE_ASSIGNMENT_OPERATOR_IMPL_VIA_MOVE_AND_SWAP(QBindingObserverPtr); inline QBindingObserverPtr(QPropertyObserver *observer) noexcept; inline ~QBindingObserverPtr(); inline QPropertyBindingPrivate *binding() const noexcept; inline QPropertyObserver *operator ->(); }; using PendingBindingObserverList = QVarLengthArray; // Keep all classes related to QProperty in one compilation unit. Performance of this code is crucial and // we need to allow the compiler to inline where it makes sense. // This is a helper "namespace" struct QPropertyBindingDataPointer { const QtPrivate::QPropertyBindingData *ptr = nullptr; QPropertyBindingPrivate *binding() const { return ptr->binding(); } void setObservers(QPropertyObserver *observer) { auto &d = ptr->d_ref(); observer->prev = reinterpret_cast(&d); d = reinterpret_cast(observer); } static void fixupAfterMove(QtPrivate::QPropertyBindingData *ptr); void Q_ALWAYS_INLINE addObserver(QPropertyObserver *observer); inline void setFirstObserver(QPropertyObserver *observer); inline QPropertyObserverPointer firstObserver() const; static QPropertyProxyBindingData *proxyData(QtPrivate::QPropertyBindingData *ptr); inline int observerCount() const; template static QPropertyBindingDataPointer get(QProperty &property) { return QPropertyBindingDataPointer{&property.bindingData()}; } }; struct QPropertyObserverNodeProtector { Q_DISABLE_COPY_MOVE(QPropertyObserverNodeProtector) QPropertyObserverBase m_placeHolder; Q_NODISCARD_CTOR QPropertyObserverNodeProtector(QPropertyObserver *observer) { // insert m_placeholder after observer into the linked list QPropertyObserver *next = observer->next.data(); m_placeHolder.next = next; observer->next = static_cast(&m_placeHolder); if (next) next->prev = &m_placeHolder.next; m_placeHolder.prev = &observer->next; m_placeHolder.next.setTag(QPropertyObserver::ObserverIsPlaceholder); } QPropertyObserver *next() const { return m_placeHolder.next.data(); } ~QPropertyObserverNodeProtector(); }; // This is a helper "namespace" struct QPropertyObserverPointer { QPropertyObserver *ptr = nullptr; void unlink() { unlink_common(); #if QT_DEPRECATED_SINCE(6, 6) QT_WARNING_PUSH QT_WARNING_DISABLE_DEPRECATED if (ptr->next.tag() == QPropertyObserver::ObserverIsAlias) ptr->aliasData = nullptr; QT_WARNING_POP #endif } void unlink_fast() { #if QT_DEPRECATED_SINCE(6, 6) QT_WARNING_PUSH QT_WARNING_DISABLE_DEPRECATED Q_ASSERT(ptr->next.tag() != QPropertyObserver::ObserverIsAlias); QT_WARNING_POP #endif unlink_common(); } void setBindingToNotify(QPropertyBindingPrivate *binding) { Q_ASSERT(ptr->next.tag() != QPropertyObserver::ObserverIsPlaceholder); ptr->binding = binding; ptr->next.setTag(QPropertyObserver::ObserverNotifiesBinding); } void setBindingToNotify_unsafe(QPropertyBindingPrivate *binding); void setChangeHandler(QPropertyObserver::ChangeHandler changeHandler); enum class Notify {Everything, OnlyChangeHandlers}; void notify(QUntypedPropertyData *propertyDataPtr); #ifndef QT_NO_DEBUG void noSelfDependencies(QPropertyBindingPrivate *binding); #else void noSelfDependencies(QPropertyBindingPrivate *) {} #endif void evaluateBindings(PendingBindingObserverList &bindingObservers, QBindingStatus *status); void observeProperty(QPropertyBindingDataPointer property); explicit operator bool() const { return ptr != nullptr; } QPropertyObserverPointer nextObserver() const { return {ptr->next.data()}; } QPropertyBindingPrivate *binding() const { Q_ASSERT(ptr->next.tag() == QPropertyObserver::ObserverNotifiesBinding); return ptr->binding; } private: void unlink_common() { if (ptr->next) ptr->next->prev = ptr->prev; if (ptr->prev) ptr->prev.setPointer(ptr->next.data()); ptr->next = nullptr; ptr->prev.clear(); } }; class QPropertyBindingErrorPrivate : public QSharedData { public: QPropertyBindingError::Type type = QPropertyBindingError::NoError; QString description; }; namespace QtPrivate { struct BindingEvaluationState { BindingEvaluationState(QPropertyBindingPrivate *binding, QBindingStatus *status); ~BindingEvaluationState() { *currentState = previousState; } QPropertyBindingPrivate *binding; BindingEvaluationState *previousState = nullptr; BindingEvaluationState **currentState = nullptr; QVarLengthArray alreadyCaptureProperties; }; /*! * \internal * CompatPropertySafePoint needs to be constructed before the setter of * a QObjectCompatProperty runs. It prevents spurious binding dependencies * caused by reads of properties inside the compat property setter. * Moreover, it ensures that we don't destroy bindings when using operator= */ struct CompatPropertySafePoint { Q_CORE_EXPORT CompatPropertySafePoint(QBindingStatus *status, QUntypedPropertyData *property); ~CompatPropertySafePoint() { *currentState = previousState; *currentlyEvaluatingBindingList = bindingState; } QUntypedPropertyData *property; CompatPropertySafePoint *previousState = nullptr; CompatPropertySafePoint **currentState = nullptr; QtPrivate::BindingEvaluationState **currentlyEvaluatingBindingList = nullptr; QtPrivate::BindingEvaluationState *bindingState = nullptr; }; /*! * \internal * While the regular QProperty notification for a compat property runs we * don't want to have any currentCompatProperty set. This would be a _different_ * one than the one we are current evaluating. Therefore it's misleading and * prevents the registering of actual dependencies. */ struct CurrentCompatPropertyThief { Q_DISABLE_COPY_MOVE(CurrentCompatPropertyThief) public: CurrentCompatPropertyThief(QBindingStatus *status) : status(&status->currentCompatProperty) , stolen(std::exchange(status->currentCompatProperty, nullptr)) { } ~CurrentCompatPropertyThief() { *status = stolen; } private: CompatPropertySafePoint **status = nullptr; CompatPropertySafePoint *stolen = nullptr; }; } class Q_CORE_EXPORT QPropertyBindingPrivate : public QtPrivate::RefCounted { private: friend struct QPropertyBindingDataPointer; friend class QPropertyBindingPrivatePtr; using ObserverArray = std::array; private: // used to detect binding loops for lazy evaluated properties bool updating = false; bool hasStaticObserver = false; bool pendingNotify = false; bool hasBindingWrapper:1; // used to detect binding loops for eagerly evaluated properties bool isQQmlPropertyBinding:1; /* a sticky binding does not get removed in removeBinding this is used to support QQmlPropertyData::DontRemoveBinding in qtdeclarative */ bool m_sticky:1; const QtPrivate::BindingFunctionVTable *vtable; union { QtPrivate::QPropertyObserverCallback staticObserverCallback = nullptr; QtPrivate::QPropertyBindingWrapper staticBindingWrapper; }; ObserverArray inlineDependencyObservers; // for things we are observing QPropertyObserverPointer firstObserver; // list of observers observing us QScopedPointer> heapObservers; // for things we are observing protected: QUntypedPropertyData *propertyDataPtr = nullptr; /* For bindings set up from C++, location stores where the binding was created in the C++ source For QQmlPropertyBinding that information does not make sense, and the location in the QML file is stored somewhere else. To make efficient use of the space, we instead provide a scratch space for QQmlPropertyBinding (which stores further binding information there). Anything stored in the union must be trivially destructible. (checked in qproperty.cpp) */ using DeclarativeErrorCallback = void(*)(QPropertyBindingPrivate *); union { QPropertyBindingSourceLocation location; struct { std::byte declarativeExtraData[sizeof(QPropertyBindingSourceLocation) - sizeof(DeclarativeErrorCallback)]; DeclarativeErrorCallback errorCallBack; }; }; private: QPropertyBindingError error; QMetaType metaType; public: static constexpr size_t getSizeEnsuringAlignment() { constexpr auto align = alignof (std::max_align_t) - 1; constexpr size_t sizeEnsuringAlignment = (sizeof(QPropertyBindingPrivate) + align) & ~align; static_assert (sizeEnsuringAlignment % alignof (std::max_align_t) == 0, "Required for placement new'ing the function behind it."); return sizeEnsuringAlignment; } // public because the auto-tests access it, too. size_t dependencyObserverCount = 0; bool isUpdating() {return updating;} void setSticky(bool keep = true) {m_sticky = keep;} bool isSticky() {return m_sticky;} void scheduleNotify() {pendingNotify = true;} QPropertyBindingPrivate(QMetaType metaType, const QtPrivate::BindingFunctionVTable *vtable, const QPropertyBindingSourceLocation &location, bool isQQmlPropertyBinding=false) : hasBindingWrapper(false) , isQQmlPropertyBinding(isQQmlPropertyBinding) , m_sticky(false) , vtable(vtable) , location(location) , metaType(metaType) {} ~QPropertyBindingPrivate(); void setProperty(QUntypedPropertyData *propertyPtr) { propertyDataPtr = propertyPtr; } void setStaticObserver(QtPrivate::QPropertyObserverCallback callback, QtPrivate::QPropertyBindingWrapper bindingWrapper) { Q_ASSERT(!(callback && bindingWrapper)); if (callback) { hasStaticObserver = true; hasBindingWrapper = false; staticObserverCallback = callback; } else if (bindingWrapper) { hasStaticObserver = false; hasBindingWrapper = true; staticBindingWrapper = bindingWrapper; } else { hasStaticObserver = false; hasBindingWrapper = false; staticObserverCallback = nullptr; } } void prependObserver(QPropertyObserverPointer observer) { observer.ptr->prev = const_cast(&firstObserver.ptr); firstObserver = observer; } QPropertyObserverPointer takeObservers() { auto observers = firstObserver; firstObserver.ptr = nullptr; return observers; } void clearDependencyObservers(); Q_ALWAYS_INLINE QPropertyObserverPointer allocateDependencyObserver() { if (dependencyObserverCount < inlineDependencyObservers.size()) { ++dependencyObserverCount; return {&inlineDependencyObservers[dependencyObserverCount - 1]}; } return allocateDependencyObserver_slow(); } QPropertyObserverPointer allocateDependencyObserver_slow(); QPropertyBindingSourceLocation sourceLocation() const { if (!hasCustomVTable()) return this->location; QPropertyBindingSourceLocation location; constexpr auto msg = "Custom location"; location.fileName = msg; return location; } QPropertyBindingError bindingError() const { return error; } QMetaType valueMetaType() const { return metaType; } void unlinkAndDeref(); bool evaluateRecursive(PendingBindingObserverList &bindingObservers, QBindingStatus *status = nullptr); bool Q_ALWAYS_INLINE evaluateRecursive_inline(PendingBindingObserverList &bindingObservers, QBindingStatus *status); void notifyNonRecursive(const PendingBindingObserverList &bindingObservers); enum NotificationState : bool { Delayed, Sent }; NotificationState notifyNonRecursive(); static QPropertyBindingPrivate *get(const QUntypedPropertyBinding &binding) { return static_cast(binding.d.data()); } void setError(QPropertyBindingError &&e) { error = std::move(e); } void detachFromProperty() { hasStaticObserver = false; hasBindingWrapper = false; propertyDataPtr = nullptr; clearDependencyObservers(); } static QPropertyBindingPrivate *currentlyEvaluatingBinding(); bool hasCustomVTable() const { return vtable->size == 0; } static void destroyAndFreeMemory(QPropertyBindingPrivate *priv) { if (priv->hasCustomVTable()) { // special hack for QQmlPropertyBinding which has a // different memory layout than normal QPropertyBindings priv->vtable->destroy(priv); } else{ priv->~QPropertyBindingPrivate(); delete[] reinterpret_cast(priv); } } }; inline void QPropertyBindingDataPointer::setFirstObserver(QPropertyObserver *observer) { if (auto *b = binding()) { b->firstObserver.ptr = observer; return; } auto &d = ptr->d_ref(); d = reinterpret_cast(observer); } inline void QPropertyBindingDataPointer::fixupAfterMove(QtPrivate::QPropertyBindingData *ptr) { auto &d = ptr->d_ref(); if (ptr->isNotificationDelayed()) { QPropertyProxyBindingData *proxy = ptr->proxyData(); Q_ASSERT(proxy); proxy->originalBindingData = ptr; } // If QPropertyBindingData has been moved, and it has an observer // we have to adjust the firstObserver's prev pointer to point to // the moved to QPropertyBindingData's d_ptr if (d & QtPrivate::QPropertyBindingData::BindingBit) return; // nothing to do if the observer is stored in the binding if (auto observer = reinterpret_cast(d)) observer->prev = reinterpret_cast(&d); } inline QPropertyObserverPointer QPropertyBindingDataPointer::firstObserver() const { if (auto *b = binding()) return b->firstObserver; return { reinterpret_cast(ptr->d()) }; } /*! \internal Returns the proxy data of \a ptr, or \c nullptr if \a ptr has no delayed notification */ inline QPropertyProxyBindingData *QPropertyBindingDataPointer::proxyData(QtPrivate::QPropertyBindingData *ptr) { if (!ptr->isNotificationDelayed()) return nullptr; return ptr->proxyData(); } inline int QPropertyBindingDataPointer::observerCount() const { int count = 0; for (auto observer = firstObserver(); observer; observer = observer.nextObserver()) ++count; return count; } namespace QtPrivate { Q_CORE_EXPORT bool isPropertyInBindingWrapper(const QUntypedPropertyData *property); void Q_CORE_EXPORT initBindingStatusThreadId(); } template class QObjectCompatProperty : public QPropertyData { template friend class QtPrivate::QBindableInterfaceForProperty; using ThisType = QObjectCompatProperty; using SignalTakesValue = std::is_invocable; Class *owner() { char *that = reinterpret_cast(this); return reinterpret_cast(that - QtPrivate::detail::getOffset(Offset)); } const Class *owner() const { char *that = const_cast(reinterpret_cast(this)); return reinterpret_cast(that - QtPrivate::detail::getOffset(Offset)); } static bool bindingWrapper(QMetaType type, QUntypedPropertyData *dataPtr, QtPrivate::QPropertyBindingFunction binding) { auto *thisData = static_cast(dataPtr); QBindingStorage *storage = qGetBindingStorage(thisData->owner()); QPropertyData copy; { QtPrivate::CurrentCompatPropertyThief thief(storage->bindingStatus); binding.vtable->call(type, ©, binding.functor); if constexpr (QTypeTraits::has_operator_equal_v) if (copy.valueBypassingBindings() == thisData->valueBypassingBindings()) return false; } // ensure value and setValue know we're currently evaluating our binding QtPrivate::CompatPropertySafePoint guardThis(storage->bindingStatus, thisData); (thisData->owner()->*Setter)(copy.valueBypassingBindings()); return true; } bool inBindingWrapper(const QBindingStorage *storage) const { return storage->bindingStatus && storage->bindingStatus->currentCompatProperty && QtPrivate::isPropertyInBindingWrapper(this); } inline static T getPropertyValue(const QUntypedPropertyData *d) { auto prop = static_cast(d); if constexpr (std::is_null_pointer_v) return prop->value(); else return (prop->owner()->*Getter)(); } public: using value_type = typename QPropertyData::value_type; using parameter_type = typename QPropertyData::parameter_type; using arrow_operator_result = typename QPropertyData::arrow_operator_result; QObjectCompatProperty() = default; explicit QObjectCompatProperty(const T &initialValue) : QPropertyData(initialValue) {} explicit QObjectCompatProperty(T &&initialValue) : QPropertyData(std::move(initialValue)) {} parameter_type value() const { const QBindingStorage *storage = qGetBindingStorage(owner()); // make sure we don't register this binding as a dependency to itself if (storage->bindingStatus && storage->bindingStatus->currentlyEvaluatingBinding && !inBindingWrapper(storage)) storage->registerDependency_helper(this); return this->val; } arrow_operator_result operator->() const { if constexpr (QTypeTraits::is_dereferenceable_v) { return value(); } else if constexpr (std::is_pointer_v) { value(); return this->val; } else { return; } } parameter_type operator*() const { return value(); } operator parameter_type() const { return value(); } void setValue(parameter_type t) { QBindingStorage *storage = qGetBindingStorage(owner()); if (auto *bd = storage->bindingData(this)) { // make sure we don't remove the binding if called from the bindingWrapper if (bd->hasBinding() && !inBindingWrapper(storage)) bd->removeBinding_helper(); } this->val = t; } QObjectCompatProperty &operator=(parameter_type newValue) { setValue(newValue); return *this; } QPropertyBinding setBinding(const QPropertyBinding &newBinding) { QtPrivate::QPropertyBindingData *bd = qGetBindingStorage(owner())->bindingData(this, true); QUntypedPropertyBinding oldBinding(bd->setBinding(newBinding, this, nullptr, bindingWrapper)); // notification is already handled in QPropertyBindingData::setBinding return static_cast &>(oldBinding); } bool setBinding(const QUntypedPropertyBinding &newBinding) { if (!newBinding.isNull() && newBinding.valueMetaType() != QMetaType::fromType()) return false; setBinding(static_cast &>(newBinding)); return true; } #ifndef Q_QDOC template QPropertyBinding setBinding(Functor &&f, const QPropertyBindingSourceLocation &location = QT_PROPERTY_DEFAULT_BINDING_LOCATION, std::enable_if_t> * = nullptr) { return setBinding(Qt::makePropertyBinding(std::forward(f), location)); } #else template QPropertyBinding setBinding(Functor f); #endif bool hasBinding() const { auto *bd = qGetBindingStorage(owner())->bindingData(this); return bd && bd->binding() != nullptr; } void removeBindingUnlessInWrapper() { QBindingStorage *storage = qGetBindingStorage(owner()); if (auto *bd = storage->bindingData(this)) { // make sure we don't remove the binding if called from the bindingWrapper if (bd->hasBinding() && !inBindingWrapper(storage)) bd->removeBinding_helper(); } } void notify() { QBindingStorage *storage = qGetBindingStorage(owner()); if (auto bd = storage->bindingData(this, false)) { // This partly duplicates QPropertyBindingData::notifyObservers because we want to // check for inBindingWrapper() after checking for isNotificationDelayed() and // firstObserver. This is because inBindingWrapper() is the most expensive check. if (!bd->isNotificationDelayed()) { QPropertyBindingDataPointer d{bd}; if (QPropertyObserverPointer observer = d.firstObserver()) { if (!inBindingWrapper(storage)) { PendingBindingObserverList bindingObservers; if (bd->notifyObserver_helper(this, storage, observer, bindingObservers) == QtPrivate::QPropertyBindingData::Evaluated) { // evaluateBindings() can trash the observers. We need to re-fetch here. if (QPropertyObserverPointer observer = d.firstObserver()) observer.notify(this); for (auto&& bindingObserver: bindingObservers) bindingObserver.binding()->notifyNonRecursive(); } } } } } if constexpr (!std::is_null_pointer_v) { if constexpr (SignalTakesValue::value) (owner()->*Signal)(getPropertyValue(this)); else (owner()->*Signal)(); } } QPropertyBinding binding() const { auto *bd = qGetBindingStorage(owner())->bindingData(this); return static_cast &&>(QUntypedPropertyBinding(bd ? bd->binding() : nullptr)); } QPropertyBinding takeBinding() { return setBinding(QPropertyBinding()); } template QPropertyChangeHandler onValueChanged(Functor f) { static_assert(std::is_invocable_v, "Functor callback must be callable without any parameters"); return QPropertyChangeHandler(*this, f); } template QPropertyChangeHandler subscribe(Functor f) { static_assert(std::is_invocable_v, "Functor callback must be callable without any parameters"); f(); return onValueChanged(f); } template QPropertyNotifier addNotifier(Functor f) { static_assert(std::is_invocable_v, "Functor callback must be callable without any parameters"); return QPropertyNotifier(*this, f); } QtPrivate::QPropertyBindingData &bindingData() const { auto *storage = const_cast(qGetBindingStorage(owner())); return *storage->bindingData(const_cast(this), true); } }; namespace QtPrivate { template class QBindableInterfaceForProperty< QObjectCompatProperty, std::void_t> { using Property = QObjectCompatProperty; using T = typename Property::value_type; public: static constexpr QBindableInterface iface = { [](const QUntypedPropertyData *d, void *value) -> void { *static_cast(value) = Property::getPropertyValue(d); }, [](QUntypedPropertyData *d, const void *value) -> void { (static_cast(d)->owner()->*Setter)(*static_cast(value)); }, [](const QUntypedPropertyData *d) -> QUntypedPropertyBinding { return static_cast(d)->binding(); }, [](QUntypedPropertyData *d, const QUntypedPropertyBinding &binding) -> QUntypedPropertyBinding { return static_cast(d)->setBinding(static_cast &>(binding)); }, [](const QUntypedPropertyData *d, const QPropertyBindingSourceLocation &location) -> QUntypedPropertyBinding { return Qt::makePropertyBinding([d]() -> T { return Property::getPropertyValue(d); }, location); }, [](const QUntypedPropertyData *d, QPropertyObserver *observer) -> void { observer->setSource(static_cast(d)->bindingData()); }, []() { return QMetaType::fromType(); } }; }; } #define QT_OBJECT_COMPAT_PROPERTY_4(Class, Type, name, setter) \ static constexpr size_t _qt_property_##name##_offset() { \ QT_WARNING_PUSH QT_WARNING_DISABLE_INVALID_OFFSETOF \ return offsetof(Class, name); \ QT_WARNING_POP \ } \ QObjectCompatProperty name; #define QT_OBJECT_COMPAT_PROPERTY_5(Class, Type, name, setter, signal) \ static constexpr size_t _qt_property_##name##_offset() { \ QT_WARNING_PUSH QT_WARNING_DISABLE_INVALID_OFFSETOF \ return offsetof(Class, name); \ QT_WARNING_POP \ } \ QObjectCompatProperty name; #define Q_OBJECT_COMPAT_PROPERTY(...) \ QT_WARNING_PUSH QT_WARNING_DISABLE_INVALID_OFFSETOF \ QT_OVERLOADED_MACRO(QT_OBJECT_COMPAT_PROPERTY, __VA_ARGS__) \ QT_WARNING_POP #define QT_OBJECT_COMPAT_PROPERTY_WITH_ARGS_5(Class, Type, name, setter, value) \ static constexpr size_t _qt_property_##name##_offset() { \ QT_WARNING_PUSH QT_WARNING_DISABLE_INVALID_OFFSETOF \ return offsetof(Class, name); \ QT_WARNING_POP \ } \ QObjectCompatProperty name = \ QObjectCompatProperty( \ value); #define QT_OBJECT_COMPAT_PROPERTY_WITH_ARGS_6(Class, Type, name, setter, signal, value) \ static constexpr size_t _qt_property_##name##_offset() { \ QT_WARNING_PUSH QT_WARNING_DISABLE_INVALID_OFFSETOF \ return offsetof(Class, name); \ QT_WARNING_POP \ } \ QObjectCompatProperty name = \ QObjectCompatProperty(value); #define QT_OBJECT_COMPAT_PROPERTY_WITH_ARGS_7(Class, Type, name, setter, signal, getter, value) \ static constexpr size_t _qt_property_##name##_offset() { \ QT_WARNING_PUSH QT_WARNING_DISABLE_INVALID_OFFSETOF \ return offsetof(Class, name); \ QT_WARNING_POP \ } \ QObjectCompatProperty\ name = QObjectCompatProperty(value); #define Q_OBJECT_COMPAT_PROPERTY_WITH_ARGS(...) \ QT_WARNING_PUSH QT_WARNING_DISABLE_INVALID_OFFSETOF \ QT_OVERLOADED_MACRO(QT_OBJECT_COMPAT_PROPERTY_WITH_ARGS, __VA_ARGS__) \ QT_WARNING_POP namespace QtPrivate { Q_CORE_EXPORT BindingEvaluationState *suspendCurrentBindingStatus(); Q_CORE_EXPORT void restoreBindingStatus(BindingEvaluationState *status); } struct QUntypedBindablePrivate { static QtPrivate::QBindableInterface const *getInterface(const QUntypedBindable &bindable) { return bindable.iface; } static QUntypedPropertyData *getPropertyData(const QUntypedBindable &bindable) { return bindable.data; } }; inline bool QPropertyBindingPrivate::evaluateRecursive_inline(PendingBindingObserverList &bindingObservers, QBindingStatus *status) { if (updating) { error = QPropertyBindingError(QPropertyBindingError::BindingLoop); if (isQQmlPropertyBinding) errorCallBack(this); return false; } /* * Evaluating the binding might lead to the binding being broken. This can * cause ref to reach zero at the end of the function. However, the * updateGuard's destructor will then still trigger, trying to set the * updating bool to its old value * To prevent this, we create a QPropertyBindingPrivatePtr which ensures * that the object is still alive when updateGuard's dtor runs. */ QPropertyBindingPrivatePtr keepAlive {this}; QScopedValueRollback updateGuard(updating, true); QtPrivate::BindingEvaluationState evaluationFrame(this, status); auto bindingFunctor = reinterpret_cast(this) + QPropertyBindingPrivate::getSizeEnsuringAlignment(); bool changed = false; if (hasBindingWrapper) { changed = staticBindingWrapper(metaType, propertyDataPtr, {vtable, bindingFunctor}); } else { changed = vtable->call(metaType, propertyDataPtr, bindingFunctor); } // If there was a change, we must set pendingNotify. // If there was not, we must not clear it, as that only should happen in notifyRecursive pendingNotify = pendingNotify || changed; if (!changed || !firstObserver) return changed; firstObserver.noSelfDependencies(this); firstObserver.evaluateBindings(bindingObservers, status); return true; } /*! \internal Walks through the list of property observers, and calls any ChangeHandler found there. It doesn't do anything with bindings, which are only handled in QPropertyBindingPrivate::evaluateRecursive. */ inline void QPropertyObserverPointer::notify(QUntypedPropertyData *propertyDataPtr) { auto observer = const_cast(ptr); /* * The basic idea of the loop is as follows: We iterate over all observers in the linked list, * and execute the functionality corresponding to their tag. * However, complication arise due to the fact that the triggered operations might modify the list, * which includes deletion and move of the current and next nodes. * Therefore, we take a few safety precautions: * 1. Before executing any action which might modify the list, we insert a placeholder node after the current node. * As that one is stack allocated and owned by us, we can rest assured that it is * still there after the action has executed, and placeHolder->next points to the actual next node in the list. * Note that taking next at the beginning of the loop does not work, as the executed action might either move * or delete that node. * 2. After the triggered action has finished, we can use the next pointer in the placeholder node as a safe way to * retrieve the next node. * 3. Some care needs to be taken to avoid infinite recursion with change handlers, so we add an extra test there, that * checks whether we're already have the same change handler in our call stack. This can be done by checking whether * the node after the current one is a placeholder node. */ while (observer) { QPropertyObserver *next = observer->next.data(); switch (QPropertyObserver::ObserverTag(observer->next.tag())) { case QPropertyObserver::ObserverNotifiesChangeHandler: { auto handlerToCall = observer->changeHandler; // prevent recursion if (next && next->next.tag() == QPropertyObserver::ObserverIsPlaceholder) { observer = next->next.data(); continue; } // handlerToCall might modify the list QPropertyObserverNodeProtector protector(observer); handlerToCall(observer, propertyDataPtr); next = protector.next(); break; } case QPropertyObserver::ObserverNotifiesBinding: break; case QPropertyObserver::ObserverIsPlaceholder: // recursion is already properly handled somewhere else break; #if QT_DEPRECATED_SINCE(6, 6) QT_WARNING_PUSH QT_WARNING_DISABLE_DEPRECATED case QPropertyObserver::ObserverIsAlias: break; QT_WARNING_POP #endif default: Q_UNREACHABLE(); } observer = next; } } inline QPropertyObserverNodeProtector::~QPropertyObserverNodeProtector() { QPropertyObserverPointer d{static_cast(&m_placeHolder)}; d.unlink_fast(); } QBindingObserverPtr::QBindingObserverPtr(QPropertyObserver *observer) noexcept : d(observer) { Q_ASSERT(d); QPropertyObserverPointer{d}.binding()->addRef(); } QBindingObserverPtr::~QBindingObserverPtr() { if (!d) return; QPropertyBindingPrivate *bindingPrivate = binding(); if (!bindingPrivate->deref()) QPropertyBindingPrivate::destroyAndFreeMemory(bindingPrivate); } QPropertyBindingPrivate *QBindingObserverPtr::binding() const noexcept { return QPropertyObserverPointer{d}.binding(); } QPropertyObserver *QBindingObserverPtr::operator->() { return d; } namespace QtPrivate { class QPropertyAdaptorSlotObject : public QUntypedPropertyData, public QSlotObjectBase { QPropertyBindingData bindingData_; QObject *obj; QMetaProperty metaProperty_; #if QT_VERSION < QT_VERSION_CHECK(7, 0, 0) static void impl(int which, QSlotObjectBase *this_, QObject *r, void **a, bool *ret); #else static void impl(QSlotObjectBase *this_, QObject *r, void **a, int which, bool *ret); #endif QPropertyAdaptorSlotObject(QObject *o, const QMetaProperty& p); public: static QPropertyAdaptorSlotObject *cast(QSlotObjectBase *ptr, int propertyIndex) { if (ptr->isImpl(&QPropertyAdaptorSlotObject::impl)) { auto p = static_cast(ptr); if (p->metaProperty_.propertyIndex() == propertyIndex) return p; } return nullptr; } inline const QPropertyBindingData &bindingData() const { return bindingData_; } inline QPropertyBindingData &bindingData() { return bindingData_; } inline QObject *object() const { return obj; } inline const QMetaProperty &metaProperty() const { return metaProperty_; } friend class QT_PREPEND_NAMESPACE(QUntypedBindable); }; } QT_END_NAMESPACE #endif // QPROPERTY_P_H