/** * Copyright (c) 2019-2021 Paul-Louis Ageneau * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at https://mozilla.org/MPL/2.0/. */ #ifndef RTC_UTILS_H #define RTC_UTILS_H #include #include #include #include #include #include namespace rtc { // overloaded helper template struct overloaded : Ts... { using Ts::operator()...; }; template overloaded(Ts...) -> overloaded; // weak_ptr bind helper template auto weak_bind(F &&f, T *t, Args &&..._args) { return [bound = std::bind(f, t, _args...), weak_this = t->weak_from_this()](auto &&...args) { if (auto shared_this = weak_this.lock()) return bound(args...); else return static_cast(false); }; } // scope_guard helper class scope_guard final { public: scope_guard(std::function func) : function(std::move(func)) {} scope_guard(scope_guard &&other) = delete; scope_guard(const scope_guard &) = delete; void operator=(const scope_guard &) = delete; ~scope_guard() { if (function) function(); } private: std::function function; }; // callback with built-in synchronization template class synchronized_callback { public: synchronized_callback() = default; synchronized_callback(synchronized_callback &&cb) { *this = std::move(cb); } synchronized_callback(const synchronized_callback &cb) { *this = cb; } synchronized_callback(std::function func) { *this = std::move(func); } virtual ~synchronized_callback() { *this = nullptr; } synchronized_callback &operator=(synchronized_callback &&cb) { std::scoped_lock lock(mutex, cb.mutex); set(std::exchange(cb.callback, nullptr)); return *this; } synchronized_callback &operator=(const synchronized_callback &cb) { std::scoped_lock lock(mutex, cb.mutex); set(cb.callback); return *this; } synchronized_callback &operator=(std::function func) { std::lock_guard lock(mutex); set(std::move(func)); return *this; } bool operator()(Args... args) const { std::lock_guard lock(mutex); return call(std::move(args)...); } operator bool() const { std::lock_guard lock(mutex); return callback ? true : false; } protected: virtual void set(std::function func) { callback = std::move(func); } virtual bool call(Args... args) const { if (!callback) return false; callback(std::move(args)...); return true; } std::function callback; mutable std::recursive_mutex mutex; }; // callback with built-in synchronization and replay of the last missed call template class synchronized_stored_callback final : public synchronized_callback { public: template synchronized_stored_callback(CArgs &&...cargs) : synchronized_callback(std::forward(cargs)...) {} ~synchronized_stored_callback() {} private: void set(std::function func) { synchronized_callback::set(func); if (func && stored) { std::apply(func, std::move(*stored)); stored.reset(); } } bool call(Args... args) const { if (!synchronized_callback::call(args...)) stored.emplace(std::move(args)...); return true; } mutable std::optional> stored; }; // pimpl base class template using impl_ptr = std::shared_ptr; template class CheshireCat { public: CheshireCat(impl_ptr impl) : mImpl(std::move(impl)) {} template CheshireCat(Args... args) : mImpl(std::make_shared(std::forward(args)...)) {} CheshireCat(CheshireCat &&cc) { *this = std::move(cc); } CheshireCat(const CheshireCat &) = delete; virtual ~CheshireCat() = default; CheshireCat &operator=(CheshireCat &&cc) { mImpl = std::move(cc.mImpl); return *this; }; CheshireCat &operator=(const CheshireCat &) = delete; protected: impl_ptr impl() { return mImpl; } impl_ptr impl() const { return mImpl; } private: impl_ptr mImpl; }; } // namespace rtc #endif