diff options
Diffstat (limited to 'sources/pyside6/libpyside/signalmanager.cpp')
-rw-r--r-- | sources/pyside6/libpyside/signalmanager.cpp | 834 |
1 files changed, 834 insertions, 0 deletions
diff --git a/sources/pyside6/libpyside/signalmanager.cpp b/sources/pyside6/libpyside/signalmanager.cpp new file mode 100644 index 000000000..557f130e0 --- /dev/null +++ b/sources/pyside6/libpyside/signalmanager.cpp @@ -0,0 +1,834 @@ +// Copyright (C) 2016 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 + +#include "signalmanager.h" +#include "pysidesignal.h" +#include "pysidelogging_p.h" +#include "pysideproperty.h" +#include "pysideproperty_p.h" +#include "pysidecleanup.h" +#include "pyside_p.h" +#include "dynamicqmetaobject.h" +#include "pysidemetafunction_p.h" +#include "pysidestaticstrings.h" + +#include <autodecref.h> +#include <basewrapper.h> +#include <bindingmanager.h> +#include <gilstate.h> +#include <sbkconverter.h> +#include <sbkstring.h> +#include <sbkstaticstrings.h> +#include <sbkerrors.h> + +#include <QtCore/QCoreApplication> +#include <QtCore/QByteArrayView> +#include <QtCore/QDebug> +#include <QtCore/QHash> +#include <QtCore/QScopedPointer> +#include <QtCore/QTimerEvent> + +#include <algorithm> +#include <limits> +#include <memory> + +using namespace Qt::StringLiterals; + +#if QSLOT_CODE != 1 || QSIGNAL_CODE != 2 +#error QSLOT_CODE and/or QSIGNAL_CODE changed! change the hardcoded stuff to the correct value! +#endif +#define PYSIDE_SLOT '1' +#define PYSIDE_SIGNAL '2' +#include "globalreceiverv2.h" + +static PyObject *metaObjectAttr = nullptr; +static PyObject *parseArguments(const QMetaMethod &method, void **args); +static bool emitShortCircuitSignal(QObject *source, int signalIndex, PyObject *args); + +static bool qAppRunning = false; + +static void destroyMetaObject(PyObject *obj) +{ + void *ptr = PyCapsule_GetPointer(obj, nullptr); + auto meta = reinterpret_cast<PySide::MetaObjectBuilder *>(ptr); + SbkObject *wrapper = Shiboken::BindingManager::instance().retrieveWrapper(meta); + if (wrapper) + Shiboken::BindingManager::instance().releaseWrapper(wrapper); + delete meta; +} + +static const char *metaCallName(QMetaObject::Call call) +{ + static const QHash<QMetaObject::Call, const char *> mapping = { + {QMetaObject::InvokeMetaMethod, "InvokeMetaMethod"}, + {QMetaObject::ReadProperty, "ReadProperty"}, + {QMetaObject::WriteProperty, "WriteProperty"}, + {QMetaObject::ResetProperty, "ResetProperty"}, + {QMetaObject::CreateInstance, "CreateInstance"}, + {QMetaObject::IndexOfMethod, "IndexOfMethod"}, + {QMetaObject::RegisterPropertyMetaType, "RegisterPropertyMetaType"}, + {QMetaObject::RegisterMethodArgumentMetaType, "RegisterMethodArgumentMetaType"}, + {QMetaObject::BindableProperty, "BindableProperty"}, + {QMetaObject::CustomCall, "CustomCall"} + }; + auto it = mapping.constFind(call); + return it != mapping.constEnd() ? it.value() : "<Unknown>"; +} + +static QByteArray methodSignature(const QMetaMethod &method) +{ + QByteArray result; + if (auto *t = method.typeName()) { + result += t; + result += ' '; + } + result += method.methodSignature(); + return result; +} + +static QByteArray msgCannotConvertParameter(const QMetaMethod &method, qsizetype p) +{ + return "Cannot call meta function \""_ba + methodSignature(method) + + "\" because parameter " + QByteArray::number(p) + " of type \""_ba + + method.parameterTypeName(p) + "\" cannot be converted."_ba; +} + +static QByteArray msgCannotConvertReturn(const QMetaMethod &method) +{ + return "The return value of \""_ba + methodSignature(method) + "\" cannot be converted."_ba; +} + +namespace PySide { + +PyObjectWrapper::PyObjectWrapper() + :m_me(Py_None) +{ + // PYSIDE-813: When PYSIDE-164 was solved by adding some thread allowance, + // this code was no longer protected. It was hard to find this connection. + // See the website https://bugreports.qt.io/browse/PYSIDE-813 for details. + Shiboken::GilState gil; + Py_XINCREF(m_me); +} + +PyObjectWrapper::PyObjectWrapper(PyObject *me) + : m_me(me) +{ + Shiboken::GilState gil; + Py_XINCREF(m_me); +} + +PyObjectWrapper::PyObjectWrapper(const PyObjectWrapper &other) + : m_me(other.m_me) +{ + Shiboken::GilState gil; + Py_XINCREF(m_me); +} + +PyObjectWrapper::~PyObjectWrapper() +{ + // Check that Python is still initialized as sometimes this is called by a static destructor + // after Python interpeter is shutdown. + if (!Py_IsInitialized()) + return; + + Shiboken::GilState gil; + Py_XDECREF(m_me); +} + +void PyObjectWrapper::reset(PyObject *o) +{ + Shiboken::GilState gil; + Py_XINCREF(o); + Py_XDECREF(m_me); + m_me = o; +} + +PyObjectWrapper &PyObjectWrapper::operator=(const PySide::PyObjectWrapper &other) +{ + if (this != &other) + reset(other.m_me); + return *this; +} + +PyObjectWrapper::operator PyObject *() const +{ + return m_me; +} + + +int PyObjectWrapper::toInt() const +{ + // hold the GIL + Shiboken::GilState state; + return Shiboken::Enum::check(m_me) ? Shiboken::Enum::getValue(m_me) : -1; +} + +QDataStream &operator<<(QDataStream &out, const PyObjectWrapper &myObj) +{ + if (Py_IsInitialized() == 0) { + qWarning() << "Stream operator for PyObject called without python interpreter."; + return out; + } + + static PyObject *reduce_func = nullptr; + + Shiboken::GilState gil; + if (!reduce_func) { + Shiboken::AutoDecRef pickleModule(PyImport_ImportModule("pickle")); + reduce_func = PyObject_GetAttr(pickleModule, Shiboken::PyName::dumps()); + } + PyObject *pyObj = myObj; + Shiboken::AutoDecRef repr(PyObject_CallFunctionObjArgs(reduce_func, pyObj, nullptr)); + if (repr.object()) { + const char *buff = nullptr; + Py_ssize_t size = 0; + if (PyBytes_Check(repr.object())) { + buff = PyBytes_AS_STRING(repr.object()); + size = PyBytes_GET_SIZE(repr.object()); + } else if (Shiboken::String::check(repr.object())) { + buff = Shiboken::String::toCString(repr.object()); + size = Shiboken::String::len(repr.object()); + } + QByteArray data(buff, size); + out << data; + } + return out; +} + +QDataStream &operator>>(QDataStream &in, PyObjectWrapper &myObj) +{ + if (Py_IsInitialized() == 0) { + qWarning() << "Stream operator for PyObject called without python interpreter."; + return in; + } + + static PyObject *eval_func = nullptr; + + Shiboken::GilState gil; + if (!eval_func) { + Shiboken::AutoDecRef pickleModule(PyImport_ImportModule("pickle")); + eval_func = PyObject_GetAttr(pickleModule, Shiboken::PyName::loads()); + } + + QByteArray repr; + in >> repr; + Shiboken::AutoDecRef pyCode(PyBytes_FromStringAndSize(repr.data(), repr.size())); + Shiboken::AutoDecRef value(PyObject_CallFunctionObjArgs(eval_func, pyCode.object(), 0)); + if (!value.object()) + value.reset(Py_None); + myObj.reset(value); + return in; +} + +}; + +namespace PySide { +using GlobalReceiverV2Ptr = std::shared_ptr<GlobalReceiverV2>; +using GlobalReceiverV2Map = QHash<PySide::GlobalReceiverKey, GlobalReceiverV2Ptr>; +} + +using namespace PySide; + +// Listen for destroy() of main thread objects and ensure cleanup +class SignalManagerDestroyListener : public QObject +{ + Q_OBJECT +public: + Q_DISABLE_COPY_MOVE(SignalManagerDestroyListener) + + using QObject::QObject; + +public Q_SLOTS: + void destroyNotify(const QObject *); + +protected: + void timerEvent(QTimerEvent *event) override; + +private: + int m_timerId = -1; +}; + +void SignalManagerDestroyListener::destroyNotify(const QObject *) +{ + if (qAppRunning && m_timerId == -1) + m_timerId = startTimer(0); +} + +void SignalManagerDestroyListener::timerEvent(QTimerEvent *event) +{ + if (event->timerId() == m_timerId) { + killTimer(std::exchange(m_timerId, -1)); + SignalManager::instance().purgeEmptyGlobalReceivers(); + } +} + +struct SignalManager::SignalManagerPrivate +{ + Q_DISABLE_COPY_MOVE(SignalManagerPrivate) + + SignalManagerPrivate() noexcept = default; + ~SignalManagerPrivate() { clear(); } + + void deleteGlobalReceiver(const QObject *gr); + void clear(); + void purgeEmptyGlobalReceivers(); + + GlobalReceiverV2Map m_globalReceivers; + static SignalManager::QmlMetaCallErrorHandler m_qmlMetaCallErrorHandler; + + static void handleMetaCallError(QObject *object, int *result); + static int qtPropertyMetacall(QObject *object, QMetaObject::Call call, + int id, void **args); + static int qtMethodMetacall(QObject *object, int id, void **args); + + QPointer<SignalManagerDestroyListener> m_listener; +}; + +SignalManager::QmlMetaCallErrorHandler + SignalManager::SignalManagerPrivate::m_qmlMetaCallErrorHandler = nullptr; + +static void clearSignalManager() +{ + PySide::SignalManager::instance().clear(); +} + +static void PyObject_PythonToCpp_PyObject_PTR(PyObject *pyIn, void *cppOut) +{ + *reinterpret_cast<PyObject **>(cppOut) = pyIn; +} +static PythonToCppFunc is_PyObject_PythonToCpp_PyObject_PTR_Convertible(PyObject * /* pyIn */) +{ + return PyObject_PythonToCpp_PyObject_PTR; +} +static PyObject *PyObject_PTR_CppToPython_PyObject(const void *cppIn) +{ + auto pyOut = reinterpret_cast<PyObject *>(const_cast<void *>(cppIn)); + if (pyOut) + Py_INCREF(pyOut); + return pyOut; +} + +SignalManager::SignalManager() : m_d(new SignalManagerPrivate) +{ + // Register Qt primitive typedefs used on signals. + using namespace Shiboken; + + // Register PyObject type to use in queued signal and slot connections + qRegisterMetaType<PyObjectWrapper>("PyObject"); + // Register QVariant(enum) conversion to QVariant(int) + QMetaType::registerConverter<PyObjectWrapper, int>(&PyObjectWrapper::toInt); + + SbkConverter *converter = Shiboken::Conversions::createConverter(&PyBaseObject_Type, nullptr); + Shiboken::Conversions::setCppPointerToPythonFunction(converter, PyObject_PTR_CppToPython_PyObject); + Shiboken::Conversions::setPythonToCppPointerFunctions(converter, PyObject_PythonToCpp_PyObject_PTR, is_PyObject_PythonToCpp_PyObject_PTR_Convertible); + Shiboken::Conversions::registerConverterName(converter, "PyObject"); + Shiboken::Conversions::registerConverterName(converter, "object"); + Shiboken::Conversions::registerConverterName(converter, "PyObjectWrapper"); + Shiboken::Conversions::registerConverterName(converter, "PySide::PyObjectWrapper"); + + PySide::registerCleanupFunction(clearSignalManager); + + if (!metaObjectAttr) + metaObjectAttr = Shiboken::String::fromCString("__METAOBJECT__"); +} + +void SignalManager::clear() +{ + m_d->clear(); +} + +SignalManager::~SignalManager() +{ + delete m_d; +} + +SignalManager &SignalManager::instance() +{ + static SignalManager me; + return me; +} + +void SignalManager::setQmlMetaCallErrorHandler(QmlMetaCallErrorHandler handler) +{ + SignalManagerPrivate::m_qmlMetaCallErrorHandler = handler; +} + +static void qAppAboutToQuit() +{ + qAppRunning = false; + SignalManager::instance().purgeEmptyGlobalReceivers(); +} + +static bool isInMainThread(const QObject *o) +{ + if (o->isWidgetType() || o->isWindowType() || o->isQuickItemType()) + return true; + auto *app = QCoreApplication::instance(); + return app != nullptr && app->thread() == o->thread(); +} + +QObject *SignalManager::globalReceiver(QObject *sender, PyObject *callback, QObject *receiver) +{ + if (m_d->m_listener.isNull() && !QCoreApplication::closingDown()) { + if (auto *app = QCoreApplication::instance()) { + // The signal manager potentially outlives QCoreApplication, ensure deletion + m_d->m_listener = new SignalManagerDestroyListener(app); + m_d->m_listener->setObjectName("qt_pyside_signalmanagerdestroylistener"); + QObject::connect(app, &QCoreApplication::aboutToQuit, qAppAboutToQuit); + qAppRunning = true; + } + } + + auto &globalReceivers = m_d->m_globalReceivers; + const GlobalReceiverKey key = GlobalReceiverV2::key(callback); + auto it = globalReceivers.find(key); + if (it == globalReceivers.end()) { + auto gr = std::make_shared<GlobalReceiverV2>(callback, receiver); + it = globalReceivers.insert(key, gr); + } + + if (sender != nullptr) { + it.value()->incRef(sender); // create a link reference + + // For main thread-objects, add a notification for destroy (PYSIDE-2646, 2141) + if (qAppRunning && !m_d->m_listener.isNull() && isInMainThread(sender)) { + QObject::connect(sender, &QObject::destroyed, + m_d->m_listener, &SignalManagerDestroyListener::destroyNotify, + Qt::UniqueConnection); + } + } + + return it.value().get(); +} + +void SignalManager::purgeEmptyGlobalReceivers() +{ + m_d->purgeEmptyGlobalReceivers(); +} + +void SignalManager::notifyGlobalReceiver(QObject *receiver) +{ + reinterpret_cast<GlobalReceiverV2 *>(receiver)->notify(); + purgeEmptyGlobalReceivers(); +} + +void SignalManager::releaseGlobalReceiver(const QObject *source, QObject *receiver) +{ + auto gr = static_cast<GlobalReceiverV2 *>(receiver); + gr->decRef(source); + if (gr->isEmpty()) + m_d->deleteGlobalReceiver(gr); +} + +void SignalManager::deleteGlobalReceiver(const QObject *gr) +{ + SignalManager::instance().m_d->deleteGlobalReceiver(gr); +} + +void SignalManager::SignalManagerPrivate::deleteGlobalReceiver(const QObject *gr) +{ + for (auto it = m_globalReceivers.begin(), end = m_globalReceivers.end(); it != end; ++it) { + if (it.value().get() == gr) { + m_globalReceivers.erase(it); + break; + } + } +} + +void SignalManager::SignalManagerPrivate::clear() +{ + // Delete receivers by always retrieving the current first element, + // because deleting a receiver can indirectly delete another one + // via ~DynamicSlotDataV2(). Using ~QHash/clear() could cause an + // iterator invalidation, and thus undefined behavior. + while (!m_globalReceivers.isEmpty()) + m_globalReceivers.erase(m_globalReceivers.cbegin()); +} + +static bool isEmptyGlobalReceiver(const GlobalReceiverV2Ptr &g) +{ + return g->isEmpty(); +} + +void SignalManager::SignalManagerPrivate::purgeEmptyGlobalReceivers() +{ + // Delete repetitively (see comment in clear()). + while (true) { + auto it = std::find_if(m_globalReceivers.cbegin(), m_globalReceivers.cend(), + isEmptyGlobalReceiver); + if (it == m_globalReceivers.cend()) + break; + m_globalReceivers.erase(it); + } +} + +int SignalManager::globalReceiverSlotIndex(QObject *receiver, const char *signature) const +{ + return static_cast<GlobalReceiverV2 *>(receiver)->addSlot(signature); +} + +bool SignalManager::emitSignal(QObject *source, const char *signal, PyObject *args) +{ + if (!Signal::checkQtSignal(signal)) + return false; + signal++; + + int signalIndex = source->metaObject()->indexOfSignal(signal); + if (signalIndex != -1) { + // cryptic but works! + // if the signature doesn't have a '(' it's a shor circuited signal, i.e. std::find + // returned the string null terminator. + bool isShortCircuit = !*std::find(signal, signal + std::strlen(signal), '('); + return isShortCircuit + ? emitShortCircuitSignal(source, signalIndex, args) + : MetaFunction::call(source, signalIndex, args); + } + return false; +} + +// Handle errors from meta calls. Requires GIL and PyErr_Occurred() +void SignalManager::SignalManagerPrivate::handleMetaCallError(QObject *object, int *result) +{ + // Bubbles Python exceptions up to the Javascript engine, if called from one + if (m_qmlMetaCallErrorHandler) { + auto idOpt = m_qmlMetaCallErrorHandler(object); + if (idOpt.has_value()) + *result = idOpt.value(); + } + + const int reclimit = Py_GetRecursionLimit(); + // Inspired by Python's errors.c: PyErr_GivenExceptionMatches() function. + // Temporarily bump the recursion limit, so that PyErr_Print will not raise a recursion + // error again. Don't do it when the limit is already insanely high, to avoid overflow. + if (reclimit < (1 << 30)) + Py_SetRecursionLimit(reclimit + 5); + PyErr_Print(); + Py_SetRecursionLimit(reclimit); +} + +// Handler for QMetaObject::ReadProperty/WriteProperty/ResetProperty: +int SignalManager::SignalManagerPrivate::qtPropertyMetacall(QObject *object, + QMetaObject::Call call, + int id, void **args) +{ + const QMetaObject *metaObject = object->metaObject(); + int result = id - metaObject->propertyCount(); + + const QMetaProperty mp = metaObject->property(id); + + qCDebug(lcPySide).noquote().nospace() << __FUNCTION__ + << ' ' << metaCallName(call) << " #" << id << ' ' << mp.typeName() + << "/\"" << mp.name() << "\" " << object; + + if (!mp.isValid()) + return result; + + Shiboken::GilState gil; + auto *pySbkSelf = Shiboken::BindingManager::instance().retrieveWrapper(object); + Q_ASSERT(pySbkSelf); + auto *pySelf = reinterpret_cast<PyObject *>(pySbkSelf); + Shiboken::AutoDecRef pp_name(Shiboken::String::fromCString(mp.name())); + PySideProperty *pp = Property::getObject(pySelf, pp_name); + if (!pp) { + qWarning("Invalid property: %s.", mp.name()); + return false; + } + pp->d->metaCall(pySelf, call, args); + Py_DECREF(pp); + if (PyErr_Occurred()) { + // PYSIDE-2160: An unknown type was reported. Indicated by StopIteration. + if (PyErr_ExceptionMatches(PyExc_StopIteration)) { + PyObject *excType, *excValue, *excTraceback; + PyErr_Fetch(&excType, &excValue, &excTraceback); + bool ign = call == QMetaObject::WriteProperty; + PyErr_WarnFormat(PyExc_RuntimeWarning, 0, + ign ? "Unknown property type '%s' of QObject '%s' used in fset" + : "Unknown property type '%s' of QObject '%s' used in fget with %R", + pp->d->typeName.constData(), metaObject->className(), excValue); + if (PyErr_Occurred()) + Shiboken::Errors::storeErrorOrPrint(); + Py_DECREF(excType); + Py_DECREF(excValue); + Py_XDECREF(excTraceback); + return result; + } + + qWarning().noquote().nospace() + << "An error occurred executing the property metacall " << call + << " on property \"" << mp.name() << "\" of " << object; + handleMetaCallError(object, &result); + } + return result; +} + +// Handler for QMetaObject::InvokeMetaMethod +int SignalManager::SignalManagerPrivate::qtMethodMetacall(QObject *object, + int id, void **args) +{ + const QMetaObject *metaObject = object->metaObject(); + const QMetaMethod method = metaObject->method(id); + int result = id - metaObject->methodCount(); + + std::unique_ptr<Shiboken::GilState> gil; + + qCDebug(lcPySide).noquote().nospace() << __FUNCTION__ << " #" << id + << " \"" << method.methodSignature() << '"'; + + if (method.methodType() == QMetaMethod::Signal) { + // emit python signal + QMetaObject::activate(object, id, args); + } else { + gil.reset(new Shiboken::GilState); + auto *pySbkSelf = Shiboken::BindingManager::instance().retrieveWrapper(object); + Q_ASSERT(pySbkSelf); + auto *pySelf = reinterpret_cast<PyObject *>(pySbkSelf); + QByteArray methodName = method.methodSignature(); + methodName.truncate(methodName.indexOf('(')); + Shiboken::AutoDecRef pyMethod(PyObject_GetAttrString(pySelf, methodName)); + if (pyMethod.isNull()) { + PyErr_Format(PyExc_AttributeError, "Slot '%s::%s' not found.", + metaObject->className(), method.methodSignature().constData()); + } else { + SignalManager::callPythonMetaMethod(method, args, pyMethod, false); + } + } + // WARNING Isn't safe to call any metaObject and/or object methods beyond this point + // because the object can be deleted inside the called slot. + + if (gil.get() == nullptr) + gil.reset(new Shiboken::GilState); + + if (PyErr_Occurred()) + handleMetaCallError(object, &result); + + return result; +} + +int SignalManager::qt_metacall(QObject *object, QMetaObject::Call call, int id, void **args) +{ + switch (call) { + case QMetaObject::ReadProperty: + case QMetaObject::WriteProperty: + case QMetaObject::ResetProperty: + id = SignalManagerPrivate::qtPropertyMetacall(object, call, id, args); + break; + case QMetaObject::RegisterPropertyMetaType: + case QMetaObject::BindableProperty: + id -= object->metaObject()->propertyCount(); + break; + case QMetaObject::InvokeMetaMethod: + id = SignalManagerPrivate::qtMethodMetacall(object, id, args); + break; + case QMetaObject::CreateInstance: + case QMetaObject::IndexOfMethod: + case QMetaObject::RegisterMethodArgumentMetaType: + case QMetaObject::CustomCall: + qCDebug(lcPySide).noquote().nospace() << __FUNCTION__ << ' ' + << metaCallName(call) << " #" << id << ' ' << object; + id -= object->metaObject()->methodCount(); + break; +#if QT_VERSION >= QT_VERSION_CHECK(6, 6, 0) + case QMetaObject::ConstructInPlace: + break; +#endif + } + return id; +} + +int SignalManager::callPythonMetaMethod(const QMetaMethod &method, void **args, PyObject *pyMethod, bool isShortCuit) +{ + Q_ASSERT(pyMethod); + + Shiboken::GilState gil; + PyObject *pyArguments = isShortCuit + ? reinterpret_cast<PyObject *>(args[1]) : parseArguments(method, args); + + if (pyArguments) { + QScopedPointer<Shiboken::Conversions::SpecificConverter> retConverter; + const char *returnType = method.typeName(); + if (returnType != nullptr && returnType[0] != 0 && std::strcmp("void", returnType) != 0) { + retConverter.reset(new Shiboken::Conversions::SpecificConverter(returnType)); + if (!retConverter->isValid()) { + PyErr_SetString(PyExc_RuntimeError, msgCannotConvertReturn(method).constData()); + return -1; + } + } + + Shiboken::AutoDecRef retval(PyObject_CallObject(pyMethod, pyArguments)); + + if (!isShortCuit && pyArguments) + Py_DECREF(pyArguments); + + if (!retval.isNull() && retval != Py_None && !PyErr_Occurred() && retConverter) + retConverter->toCpp(retval, args[0]); + } + + return -1; +} + +bool SignalManager::registerMetaMethod(QObject *source, const char *signature, QMetaMethod::MethodType type) +{ + int ret = registerMetaMethodGetIndex(source, signature, type); + return (ret != -1); +} + +static MetaObjectBuilder *metaBuilderFromDict(PyObject *dict) +{ + // PYSIDE-803: The dict in this function is the ob_dict of an SbkObject. + // The "metaObjectAttr" entry is only handled in this file. There is no + // way in this function to involve the interpreter. Therefore, we need + // no GIL. + // Note that "SignalManager::registerMetaMethodGetIndex" has write actions + // that might involve the interpreter, but in that context the GIL is held. + if (!dict || !PyDict_Contains(dict, metaObjectAttr)) + return nullptr; + + // PYSIDE-813: The above assumption is not true in debug mode: + // PyDict_GetItem would touch PyThreadState_GET and the global error state. + // PyDict_GetItemWithError instead can work without GIL. + PyObject *pyBuilder = PyDict_GetItemWithError(dict, metaObjectAttr); + return reinterpret_cast<MetaObjectBuilder *>(PyCapsule_GetPointer(pyBuilder, nullptr)); +} + +// Helper to format a method signature "foo(QString)" into +// Slot decorator "@Slot(str)" + +struct slotSignature +{ + explicit slotSignature(const char *signature) : m_signature(signature) {} + + const char *m_signature; +}; + +QDebug operator<<(QDebug debug, const slotSignature &sig) +{ + QDebugStateSaver saver(debug); + debug.noquote(); + debug.nospace(); + debug << "@Slot("; + QByteArrayView signature(sig.m_signature); + const auto len = signature.size(); + auto pos = signature.indexOf('('); + if (pos != -1 && pos < len - 2) { + ++pos; + while (true) { + auto nextPos = signature.indexOf(',', pos); + if (nextPos == -1) + nextPos = len - 1; + const QByteArrayView parameter = signature.sliced(pos, nextPos - pos); + if (parameter == "QString") { + debug << "str"; + } else if (parameter == "double") { + debug << "float"; + } else { + const bool hasDelimiter = parameter.contains("::"); + if (hasDelimiter) + debug << '"'; + if (!hasDelimiter && parameter.endsWith('*')) + debug << parameter.first(parameter.size() - 1); + else + debug << parameter; + if (hasDelimiter) + debug << '"'; + } + pos = nextPos + 1; + if (pos >= len) + break; + debug << ','; + } + } + debug << ')'; + return debug; +} + +int SignalManager::registerMetaMethodGetIndex(QObject *source, const char *signature, QMetaMethod::MethodType type) +{ + if (!source) { + qWarning("SignalManager::registerMetaMethodGetIndex(\"%s\") called with source=nullptr.", + signature); + return -1; + } + const QMetaObject *metaObject = source->metaObject(); + int methodIndex = metaObject->indexOfMethod(signature); + // Create the dynamic signal is needed + if (methodIndex == -1) { + SbkObject *self = Shiboken::BindingManager::instance().retrieveWrapper(source); + if (!Shiboken::Object::hasCppWrapper(self)) { + qWarning().noquote().nospace() << __FUNCTION__ + << ": Cannot add dynamic method \"" << signature << "\" (" << type + << ") to " << source << ": No Wrapper found."; + return -1; + } + auto *pySelf = reinterpret_cast<PyObject *>(self); + auto *dict = SbkObject_GetDict_NoRef(pySelf); + MetaObjectBuilder *dmo = metaBuilderFromDict(dict); + + // Create a instance meta object + if (!dmo) { + dmo = new MetaObjectBuilder(Py_TYPE(pySelf), metaObject); + PyObject *pyDmo = PyCapsule_New(dmo, nullptr, destroyMetaObject); + PyObject_SetAttr(pySelf, metaObjectAttr, pyDmo); + Py_DECREF(pyDmo); + } + + if (type == QMetaMethod::Slot) { + qCWarning(lcPySide).noquote().nospace() + << "Warning: Registering dynamic slot \"" + << signature << "\" on \"" << source->metaObject()->className() + << "\". Consider annotating with " << slotSignature(signature); + } + + return type == QMetaMethod::Signal + ? dmo->addSignal(signature) : dmo->addSlot(signature); + } + return methodIndex; +} + +const QMetaObject *SignalManager::retrieveMetaObject(PyObject *self) +{ + // PYSIDE-803: Avoid the GIL in SignalManager::retrieveMetaObject + // This function had the GIL. We do not use the GIL unless we have to. + // metaBuilderFromDict accesses a Python dict, but in that context there + // is no way to reach the interpreter, see "metaBuilderFromDict". + // + // The update function is MetaObjectBuilderPrivate::update in + // dynamicmetaobject.c . That function now uses the GIL when the + // m_dirty flag is set. + Q_ASSERT(self); + + auto *ob_dict = SbkObject_GetDict_NoRef(self); + MetaObjectBuilder *builder = metaBuilderFromDict(ob_dict); + if (!builder) + builder = &(retrieveTypeUserData(self)->mo); + + return builder->update(); +} + +static PyObject *parseArguments(const QMetaMethod &method, void **args) +{ + const auto ¶mTypes = method.parameterTypes(); + const qsizetype argsSize = paramTypes.size(); + PyObject *preparedArgs = PyTuple_New(argsSize); + + for (qsizetype i = 0; i < argsSize; ++i) { + void *data = args[i+1]; + auto param = paramTypes.at(i); + Shiboken::Conversions::SpecificConverter converter(param.constData()); + if (!converter) { + PyErr_SetString(PyExc_TypeError, msgCannotConvertParameter(method, i).constData()); + Py_DECREF(preparedArgs); + return nullptr; + } + PyTuple_SET_ITEM(preparedArgs, i, converter.toPython(data)); + } + return preparedArgs; +} + +static bool emitShortCircuitSignal(QObject *source, int signalIndex, PyObject *args) +{ + void *signalArgs[2] = {nullptr, args}; + source->qt_metacall(QMetaObject::InvokeMetaMethod, signalIndex, signalArgs); + return true; +} + +#include "signalmanager.moc" |