/****************************************************************************** * Copyright (C) 2015 Felix Rohrbach * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #pragma once #include "converters.h" #include "logging.h" #ifdef ENABLE_EVENTTYPE_ALIAS # define USE_EVENTTYPE_ALIAS 1 #endif namespace Quotient { // === event_ptr_tt<> and type casting facilities === template using event_ptr_tt = std::unique_ptr; /// Unwrap a plain pointer from a smart pointer template inline EventT* rawPtr(const event_ptr_tt& ptr) { return ptr.get(); } /// Unwrap a plain pointer and downcast it to the specified type template inline TargetEventT* weakPtrCast(const event_ptr_tt& ptr) { return static_cast(rawPtr(ptr)); } /// Re-wrap a smart pointer to base into a smart pointer to derived template [[deprecated("Consider using eventCast() or visit() " "instead")]] inline event_ptr_tt ptrCast(event_ptr_tt&& ptr) { return unique_ptr_cast(ptr); } // === Standard Matrix key names and basicEventJson() === static const auto TypeKey = QStringLiteral("type"); static const auto BodyKey = QStringLiteral("body"); static const auto ContentKey = QStringLiteral("content"); static const auto EventIdKey = QStringLiteral("event_id"); static const auto UnsignedKey = QStringLiteral("unsigned"); static const auto StateKeyKey = QStringLiteral("state_key"); static const auto TypeKeyL = "type"_ls; static const auto BodyKeyL = "body"_ls; static const auto ContentKeyL = "content"_ls; static const auto EventIdKeyL = "event_id"_ls; static const auto UnsignedKeyL = "unsigned"_ls; static const auto RedactedCauseKeyL = "redacted_because"_ls; static const auto PrevContentKeyL = "prev_content"_ls; static const auto StateKeyKeyL = "state_key"_ls; /// Make a minimal correct Matrix event JSON template inline QJsonObject basicEventJson(StrT matrixType, const QJsonObject& content) { return { { TypeKey, std::forward(matrixType) }, { ContentKey, content } }; } // === Event types and event types registry === using event_type_t = size_t; using event_mtype_t = const char*; class EventTypeRegistry { public: ~EventTypeRegistry() = default; static event_type_t initializeTypeId(event_mtype_t matrixTypeId); template static inline event_type_t initializeTypeId() { return initializeTypeId(EventT::matrixTypeId()); } static QString getMatrixType(event_type_t typeId); private: EventTypeRegistry() = default; Q_DISABLE_COPY(EventTypeRegistry) DISABLE_MOVE(EventTypeRegistry) static EventTypeRegistry& get() { static EventTypeRegistry etr; return etr; } std::vector eventTypes; }; template <> inline event_type_t EventTypeRegistry::initializeTypeId() { return initializeTypeId(""); } template struct EventTypeTraits { static event_type_t id() { static const auto id = EventTypeRegistry::initializeTypeId(); return id; } }; template inline event_type_t typeId() { return EventTypeTraits>::id(); } inline event_type_t unknownEventTypeId() { return typeId(); } // === EventFactory === /** Create an event of arbitrary type from its arguments */ template inline event_ptr_tt makeEvent(ArgTs&&... args) { return std::make_unique(std::forward(args)...); } template class EventFactory { public: template static auto addMethod(FnT&& method) { factories().emplace_back(std::forward(method)); return 0; } /** Chain two type factories * Adds the factory class of EventT2 (EventT2::factory_t) to * the list in factory class of EventT1 (EventT1::factory_t) so * that when EventT1::factory_t::make() is invoked, types of * EventT2 factory are looked through as well. This is used * to include RoomEvent types into the more general Event factory, * and state event types into the RoomEvent factory. */ template static auto chainFactory() { return addMethod(&EventT::factory_t::make); } static event_ptr_tt make(const QJsonObject& json, const QString& matrixType) { for (const auto& f : factories()) if (auto e = f(json, matrixType)) return e; return nullptr; } private: static auto& factories() { using inner_factory_tt = std::function( const QJsonObject&, const QString&)>; static std::vector _factories {}; return _factories; } }; /** Add a type to its default factory * Adds a standard factory method (via makeEvent<>) for a given * type to EventT::factory_t factory class so that it can be * created dynamically from loadEvent<>(). * * \tparam EventT the type to enable dynamic creation of * \return the registered type id * \sa loadEvent, Event::type */ template inline auto setupFactory() { qDebug(EVENTS) << "Adding factory method for" << EventT::matrixTypeId(); return EventT::factory_t::addMethod([](const QJsonObject& json, const QString& jsonMatrixType) { return EventT::matrixTypeId() == jsonMatrixType ? makeEvent(json) : nullptr; }); } template inline auto registerEventType() { // Initialise exactly once, even if this function is called twice for // the same type (for whatever reason - you never know the ways of // static initialisation is done). static const auto _ = setupFactory(); return _; // Only to facilitate usage in static initialisation } // === Event === class Event { Q_GADGET Q_PROPERTY(Type type READ type CONSTANT) Q_PROPERTY(QJsonObject contentJson READ contentJson CONSTANT) public: using Type = event_type_t; using factory_t = EventFactory; explicit Event(Type type, const QJsonObject& json); explicit Event(Type type, event_mtype_t matrixType, const QJsonObject& contentJson = {}); Q_DISABLE_COPY(Event) Event(Event&&) = default; Event& operator=(Event&&) = delete; virtual ~Event(); Type type() const { return _type; } QString matrixType() const; QByteArray originalJson() const; QJsonObject originalJsonObject() const { return fullJson(); } const QJsonObject& fullJson() const { return _json; } // According to the CS API spec, every event also has // a "content" object; but since its structure is different for // different types, we're implementing it per-event type. const QJsonObject contentJson() const; const QJsonObject unsignedJson() const; template T content(const QString& key) const { return fromJson(contentJson()[key]); } template T content(QLatin1String key) const { return fromJson(contentJson()[key]); } friend QDebug operator<<(QDebug dbg, const Event& e) { QDebugStateSaver _dss { dbg }; dbg.noquote().nospace() << e.matrixType() << '(' << e.type() << "): "; e.dumpTo(dbg); return dbg; } virtual bool isStateEvent() const { return false; } virtual bool isCallEvent() const { return false; } virtual void dumpTo(QDebug dbg) const; protected: QJsonObject& editJson() { return _json; } private: Type _type; QJsonObject _json; }; using EventPtr = event_ptr_tt; template using EventsArray = std::vector>; using Events = EventsArray; // === Macros used with event class definitions === // This macro should be used in a public section of an event class to // provide matrixTypeId() and typeId(). #define DEFINE_EVENT_TYPEID(_Id, _Type) \ static constexpr event_mtype_t matrixTypeId() { return _Id; } \ static auto typeId() { return Quotient::typeId<_Type>(); } \ // End of macro // This macro should be put after an event class definition (in .h or .cpp) // to enable its deserialisation from a /sync and other // polymorphic event arrays #define REGISTER_EVENT_TYPE(_Type) \ namespace { \ [[gnu::unused]] static const auto _factoryAdded##_Type = \ registerEventType<_Type>(); \ } \ // End of macro // === is<>(), eventCast<>() and visit<>() === template inline bool is(const Event& e) { return e.type() == typeId(); } inline bool isUnknown(const Event& e) { return e.type() == unknownEventTypeId(); } template inline auto eventCast(const BasePtrT& eptr) -> decltype(static_cast(&*eptr)) { Q_ASSERT(eptr); return is>(*eptr) ? static_cast(&*eptr) : nullptr; } // A single generic catch-all visitor template inline auto visit(const BaseEventT& event, FnT&& visitor) -> decltype(visitor(event)) { return visitor(event); } template constexpr auto is_event() { return std::is_base_of>::value; } template constexpr auto needs_cast() { return !std::is_convertible>::value; } // A single type-specific void visitor template inline std::enable_if_t() && needs_cast() && std::is_void>::value> visit(const BaseEventT& event, FnT&& visitor) { using event_type = fn_arg_t; if (is>(event)) visitor(static_cast(event)); } // A single type-specific non-void visitor with an optional default value template inline std::enable_if_t() && needs_cast(), fn_return_t> // non-voidness is guarded by // defaultValue type visit(const BaseEventT& event, FnT&& visitor, fn_return_t&& defaultValue = {}) { using event_type = fn_arg_t; if (is>(event)) return visitor(static_cast(event)); return std::forward>(defaultValue); } // A chain of 2 or more visitors template inline std::enable_if_t(), fn_return_t> visit(const BaseEventT& event, FnT1&& visitor1, FnT2&& visitor2, FnTs&&... visitors) { using event_type1 = fn_arg_t; if (is>(event)) return visitor1(static_cast(event)); return visit(event, std::forward(visitor2), std::forward(visitors)...); } } // namespace Quotient Q_DECLARE_METATYPE(Quotient::Event*) Q_DECLARE_METATYPE(const Quotient::Event*)