gcc/testsuite/g++.dg/coroutines/co-await-syntax-11.C - gcc - Git at Google

 //  { dg-additional-options "-std=c++17 -w" }

 #include <utility>
 #include <type_traits>
 #include <tuple>
 #include <functional>
 #include <coroutine>

 struct any {
   template <typename T> any(T &&) noexcept;
 };

 template <typename T>
 auto get_awaiter_impl(T &&value, int) noexcept
     -> decltype(static_cast<T &&>(value).operator co_await()) {
   return static_cast<T &&>(value).operator co_await();
 }
 template <typename T, int = 0>
 T &&get_awaiter_impl(T &&value, any) noexcept;
 template <typename T>
 auto get_awaiter(T &&value) noexcept
     -> decltype(get_awaiter_impl(static_cast<T &&>(value), 123)) {
   return get_awaiter_impl(static_cast<T &&>(value), 123);
 }

 template <typename T, typename = void> struct awaitable_traits {
   using awaiter_t = decltype(get_awaiter(std::declval<T>()));
   using await_result_t = decltype(std::declval<awaiter_t>().await_resume());
 };

 template <typename TASK_CONTAINER> class when_all_ready_awaitable;
 template <typename... TASKS>
 class when_all_ready_awaitable<std::tuple<TASKS...>> {
 public:
   explicit when_all_ready_awaitable(std::tuple<TASKS...> &&tasks) noexcept
     : m_tasks(std::move(tasks)) {}
   auto operator co_await() &&noexcept {
     struct awaiter {
       awaiter(when_all_ready_awaitable &awaitable) noexcept
         : m_awaitable(awaitable) {}
       bool await_ready() const noexcept { return false; }
       bool await_suspend() noexcept { return false; }
       std::tuple<TASKS...> &&await_resume() noexcept {
         return std::move(m_awaitable.m_tasks);
       }
       when_all_ready_awaitable& m_awaitable;
     };
     return awaiter{*this};
   }
   std::tuple<TASKS...> m_tasks;
 };

 inline void *operator new(std::size_t, void *__p) noexcept;

 template <typename RESULT>
 class when_all_task_promise final{
 public:
   using coroutine_handle_t = std::coroutine_handle<when_all_task_promise>;
   RESULT &&result() &&;
 };
 template <typename RESULT> class when_all_task final {
 public:
   using promise_type = when_all_task_promise<RESULT>;
   using coroutine_handle_t = typename promise_type::coroutine_handle_t;
   decltype(auto) result() &;
   decltype(auto) result() && {
     return std::move(m_coroutine.promise()).result();
   }
   decltype(auto) non_void_result() && {
     if constexpr (std::is_void_v<decltype(0)>)
       ;
     else
       return std::move(*this).result();
   }
   coroutine_handle_t m_coroutine;
 };
 class task;
 template <typename AWAITABLE,
           typename RESULT =
               typename awaitable_traits<AWAITABLE &&>::await_result_t,
           std::enable_if_t<!std::is_void_v<RESULT>, int> = 0>
 when_all_task<RESULT> make_when_all_task(AWAITABLE awaitable);

 template <typename... AWAITABLES>
 inline auto when_all_ready(AWAITABLES &&... awaitables) {
   return when_all_ready_awaitable<
       std::tuple<when_all_task<typename awaitable_traits<
           std::remove_reference_t<AWAITABLES>>::await_result_t>...>>(
       std::make_tuple(
           make_when_all_task(std::forward<AWAITABLES>(awaitables))...));
 }

 template <typename FUNC, typename AWAITABLE> class fmap_awaiter {
   using awaiter_t = typename awaitable_traits<AWAITABLE &&>::awaiter_t;

 public:
   fmap_awaiter(FUNC &&func, AWAITABLE &&awaitable) noexcept
       : m_func(static_cast<FUNC &&>(func)),
         m_awaiter(get_awaiter(static_cast<AWAITABLE &&>(awaitable))) {}
   decltype(auto) await_ready() noexcept {
     return static_cast<awaiter_t &&>(m_awaiter).await_ready();
   }
   template <typename PROMISE>
   decltype(auto) await_suspend(std::coroutine_handle<PROMISE> coro) noexcept {}
   template <typename AWAIT_RESULT =
                 decltype(std::declval<awaiter_t>().await_resume()),
             std::enable_if_t<!std::is_void_v<AWAIT_RESULT>, int> = 0>
   decltype(auto) await_resume() noexcept {
     return std::invoke(static_cast<FUNC &&>(m_func),
                        static_cast<awaiter_t &&>(m_awaiter).await_resume());
   }

 private:
   FUNC &&m_func;
   awaiter_t m_awaiter;
 };
 template <typename FUNC, typename AWAITABLE> class fmap_awaitable {
 public:
   template <
       typename FUNC_ARG, typename AWAITABLE_ARG,
       std::enable_if_t<std::is_constructible_v<FUNC, FUNC_ARG &&> &&
                            std::is_constructible_v<AWAITABLE, AWAITABLE_ARG &&>,
                        int> = 0>
   explicit fmap_awaitable(FUNC_ARG &&func, AWAITABLE_ARG &&awaitable) noexcept
       : m_func(static_cast<FUNC_ARG &&>(func)),
         m_awaitable(static_cast<AWAITABLE_ARG &&>(awaitable)) {}
   auto operator co_await() && {
     return fmap_awaiter(static_cast<FUNC &&>(m_func),
                         static_cast<AWAITABLE &&>(m_awaitable));
   }

 private:
   FUNC m_func;
   AWAITABLE m_awaitable;
 };

 template <typename FUNC, typename AWAITABLE>
 auto fmap(FUNC &&func, AWAITABLE &&awaitable) {
   return fmap_awaitable<std::remove_cv_t<std::remove_reference_t<FUNC>>,
                         std::remove_cv_t<std::remove_reference_t<AWAITABLE>>>(
       std::forward<FUNC>(func), std::forward<AWAITABLE>(awaitable));
 }
 template <typename... AWAITABLES>
 auto when_all(AWAITABLES &&... awaitables) {
   return fmap(
       [](auto &&taskTuple) {
         decltype(auto) __trans_tmp_1 = std::apply(
             [](auto &&... tasks) {
               return std::make_tuple(
                   static_cast<decltype(tasks)>(tasks).non_void_result()...);
             },
             static_cast<decltype(taskTuple)>(taskTuple));
         return __trans_tmp_1;
       },
       when_all_ready(std::forward<AWAITABLES>(awaitables)...));
 }
 class async_mutex_scoped_lock_operation;
 class async_mutex {
 public:
   async_mutex() noexcept;
   async_mutex_scoped_lock_operation scoped_lock_async() noexcept;
 };
 class async_mutex_lock {
 public:
   explicit async_mutex_lock();
   ~async_mutex_lock();

 private:
   async_mutex *m_mutex;
 };
 class async_mutex_scoped_lock_operation {
 public:
   async_mutex_lock await_resume() const noexcept;
 };
 class task {
 public:
   class promise_type {
   public:
     auto initial_suspend() noexcept { return std::suspend_always{}; }
     auto final_suspend() noexcept { return std::suspend_always{}; }
     task get_return_object() noexcept { return task{}; }
     void unhandled_exception() noexcept {}
     void return_value(int value) noexcept { v = value; }
     int result(){ return v; }
     int v = 0;
   };
 public:
   task() noexcept {}
   auto operator co_await() const &noexcept {
     struct awaitable {
       std::coroutine_handle<promise_type> m_coroutine;
       decltype(auto) await_resume() {
         return this->m_coroutine.promise().result();
       }
     };
     return awaitable{};
   }
 };
 void foo() {
   (void) []() -> task {
     auto makeTask = [](int x) -> task { co_return x; };
     async_mutex_scoped_lock_operation op;
     co_await when_all(std::move(op), makeTask(123));
   }();
 }
	// { dg-additional-options "-std=c++17 -w" }

	#include <utility>
	#include <type_traits>
	#include <tuple>
	#include <functional>
	#include <coroutine>

	struct any {
	template <typename T> any(T &&) noexcept;
	};

	template <typename T>
	auto get_awaiter_impl(T &&value, int) noexcept
	-> decltype(static_cast<T &&>(value).operator co_await()) {
	return static_cast<T &&>(value).operator co_await();
	}
	template <typename T, int = 0>
	T &&get_awaiter_impl(T &&value, any) noexcept;
	template <typename T>
	auto get_awaiter(T &&value) noexcept
	-> decltype(get_awaiter_impl(static_cast<T &&>(value), 123)) {
	return get_awaiter_impl(static_cast<T &&>(value), 123);
	}

	template <typename T, typename = void> struct awaitable_traits {
	using awaiter_t = decltype(get_awaiter(std::declval<T>()));
	using await_result_t = decltype(std::declval<awaiter_t>().await_resume());
	};

	template <typename TASK_CONTAINER> class when_all_ready_awaitable;
	template <typename... TASKS>
	class when_all_ready_awaitable<std::tuple<TASKS...>> {
	public:
	explicit when_all_ready_awaitable(std::tuple<TASKS...> &&tasks) noexcept
	: m_tasks(std::move(tasks)) {}
	auto operator co_await() &&noexcept {
	struct awaiter {
	awaiter(when_all_ready_awaitable &awaitable) noexcept
	: m_awaitable(awaitable) {}
	bool await_ready() const noexcept { return false; }
	bool await_suspend() noexcept { return false; }
	std::tuple<TASKS...> &&await_resume() noexcept {
	return std::move(m_awaitable.m_tasks);
	}
	when_all_ready_awaitable& m_awaitable;
	};
	return awaiter{*this};
	}
	std::tuple<TASKS...> m_tasks;
	};

	inline void operator new(std::size_t, void __p) noexcept;

	template <typename RESULT>
	class when_all_task_promise final{
	public:
	using coroutine_handle_t = std::coroutine_handle<when_all_task_promise>;
	RESULT &&result() &&;
	};
	template <typename RESULT> class when_all_task final {
	public:
	using promise_type = when_all_task_promise<RESULT>;
	using coroutine_handle_t = typename promise_type::coroutine_handle_t;
	decltype(auto) result() &;
	decltype(auto) result() && {
	return std::move(m_coroutine.promise()).result();
	}
	decltype(auto) non_void_result() && {
	if constexpr (std::is_void_v<decltype(0)>)
	;
	else
	return std::move(*this).result();
	}
	coroutine_handle_t m_coroutine;
	};
	class task;
	template <typename AWAITABLE,
	typename RESULT =
	typename awaitable_traits<AWAITABLE &&>::await_result_t,
	std::enable_if_t<!std::is_void_v<RESULT>, int> = 0>
	when_all_task<RESULT> make_when_all_task(AWAITABLE awaitable);

	template <typename... AWAITABLES>
	inline auto when_all_ready(AWAITABLES &&... awaitables) {
	return when_all_ready_awaitable<
	std::tuple<when_all_task<typename awaitable_traits<
	std::remove_reference_t<AWAITABLES>>::await_result_t>...>>(
	std::make_tuple(
	make_when_all_task(std::forward<AWAITABLES>(awaitables))...));
	}

	template <typename FUNC, typename AWAITABLE> class fmap_awaiter {
	using awaiter_t = typename awaitable_traits<AWAITABLE &&>::awaiter_t;

	public:
	fmap_awaiter(FUNC &&func, AWAITABLE &&awaitable) noexcept
	: m_func(static_cast<FUNC &&>(func)),
	m_awaiter(get_awaiter(static_cast<AWAITABLE &&>(awaitable))) {}
	decltype(auto) await_ready() noexcept {
	return static_cast<awaiter_t &&>(m_awaiter).await_ready();
	}
	template <typename PROMISE>
	decltype(auto) await_suspend(std::coroutine_handle<PROMISE> coro) noexcept {}
	template <typename AWAIT_RESULT =
	decltype(std::declval<awaiter_t>().await_resume()),
	std::enable_if_t<!std::is_void_v<AWAIT_RESULT>, int> = 0>
	decltype(auto) await_resume() noexcept {
	return std::invoke(static_cast<FUNC &&>(m_func),
	static_cast<awaiter_t &&>(m_awaiter).await_resume());
	}

	private:
	FUNC &&m_func;
	awaiter_t m_awaiter;
	};
	template <typename FUNC, typename AWAITABLE> class fmap_awaitable {
	public:
	template <
	typename FUNC_ARG, typename AWAITABLE_ARG,
	std::enable_if_t<std::is_constructible_v<FUNC, FUNC_ARG &&> &&
	std::is_constructible_v<AWAITABLE, AWAITABLE_ARG &&>,
	int> = 0>
	explicit fmap_awaitable(FUNC_ARG &&func, AWAITABLE_ARG &&awaitable) noexcept
	: m_func(static_cast<FUNC_ARG &&>(func)),
	m_awaitable(static_cast<AWAITABLE_ARG &&>(awaitable)) {}
	auto operator co_await() && {
	return fmap_awaiter(static_cast<FUNC &&>(m_func),
	static_cast<AWAITABLE &&>(m_awaitable));
	}

	private:
	FUNC m_func;
	AWAITABLE m_awaitable;
	};

	template <typename FUNC, typename AWAITABLE>
	auto fmap(FUNC &&func, AWAITABLE &&awaitable) {
	return fmap_awaitable<std::remove_cv_t<std::remove_reference_t<FUNC>>,
	std::remove_cv_t<std::remove_reference_t<AWAITABLE>>>(
	std::forward<FUNC>(func), std::forward<AWAITABLE>(awaitable));
	}
	template <typename... AWAITABLES>
	auto when_all(AWAITABLES &&... awaitables) {
	return fmap(
	[](auto &&taskTuple) {
	decltype(auto) __trans_tmp_1 = std::apply(
	[](auto &&... tasks) {
	return std::make_tuple(
	static_cast<decltype(tasks)>(tasks).non_void_result()...);
	},
	static_cast<decltype(taskTuple)>(taskTuple));
	return __trans_tmp_1;
	},
	when_all_ready(std::forward<AWAITABLES>(awaitables)...));
	}
	class async_mutex_scoped_lock_operation;
	class async_mutex {
	public:
	async_mutex() noexcept;
	async_mutex_scoped_lock_operation scoped_lock_async() noexcept;
	};
	class async_mutex_lock {
	public:
	explicit async_mutex_lock();
	~async_mutex_lock();

	private:
	async_mutex *m_mutex;
	};
	class async_mutex_scoped_lock_operation {
	public:
	async_mutex_lock await_resume() const noexcept;
	};
	class task {
	public:
	class promise_type {
	public:
	auto initial_suspend() noexcept { return std::suspend_always{}; }
	auto final_suspend() noexcept { return std::suspend_always{}; }
	task get_return_object() noexcept { return task{}; }
	void unhandled_exception() noexcept {}
	void return_value(int value) noexcept { v = value; }
	int result(){ return v; }
	int v = 0;
	};
	public:
	task() noexcept {}
	auto operator co_await() const &noexcept {
	struct awaitable {
	std::coroutine_handle<promise_type> m_coroutine;
	decltype(auto) await_resume() {
	return this->m_coroutine.promise().result();
	}
	};
	return awaitable{};
	}
	};
	void foo() {
	(void) []() -> task {
	auto makeTask = [](int x) -> task { co_return x; };
	async_mutex_scoped_lock_operation op;
	co_await when_all(std::move(op), makeTask(123));
	}();
	}