This header is part of the thread support library.
Classes |
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(C++11) | stores a value for asynchronous retrieval (class template) |
(C++11) | packages a function to store its return value for asynchronous retrieval (class template) |
(C++11) | waits for a value that is set asynchronously (class template) |
(C++11) | waits for a value (possibly referenced by other futures) that is set asynchronously (class template) |
(C++11) | specifies the launch policy for std::async (enum) |
(C++11) | specifies the results of timed waits performed on std::future and std::shared_future (enum) |
(C++11) | reports an error related to futures or promises (class) |
(C++11) | identifies the future error codes (enum) |
(C++11) | specializes the std::uses_allocator type trait (class template specialization) |
(C++11)(until C++17) | specializes the std::uses_allocator type trait (class template specialization) |
Functions |
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(C++11) | runs a function asynchronously (potentially in a new thread) and returns a std::future that will hold the result (function template) |
(C++11) | identifies the future error category (function) |
(C++11) | specializes the std::swap algorithm (function template) |
(C++11) | specializes the std::swap algorithm (function template) |
namespace std { enum class future_errc { broken_promise = /*implementation-defined*/, future_already_retrieved = /*implementation-defined*/, promise_already_satisfied = /*implementation-defined*/, no_state = /*implementation-defined*/ }; enum class launch : /*unspecified*/ { async = /*unspecified*/, deferred = /*unspecified*/, /*implementation-defined*/ }; enum class future_status { ready, timeout, deferred }; template <> struct is_error_code_enum<future_errc> : public true_type { }; error_code make_error_code(future_errc e) noexcept; error_condition make_error_condition(future_errc e) noexcept; const error_category& future_category() noexcept; class future_error; template <class R> class promise; template <class R> class promise<R&>; template <> class promise<void>; template <class R> void swap(promise<R>& x, promise<R>& y) noexcept; template <class R, class Alloc> struct uses_allocator<promise<R>, Alloc> : true_type {}; template <class R> class future; template <class R> class future<R&>; template <> class future<void>; template <class R> class shared_future; template <class R> class shared_future<R&>; template <> class shared_future<void>; template <class> class packaged_task; // undefined template <class R, class... ArgTypes> class packaged_task<R(ArgTypes...)>; template <class R> void swap(packaged_task<R(ArgTypes...)>&, packaged_task<R(ArgTypes...)>&) noexcept; template <class R, class Alloc> struct uses_allocator<packaged_task<R>, Alloc> : true_type {}; template <class F, class... Args> future<result_of_t<decay_t<F>(decay_t<Args>...)>> async(F&& f, Args&&... args); template <class F, class... Args> future<result_of_t<decay_t<F>(decay_t<Args>...)>> async(launch policy, F&& f, Args&&... args); }
std::future_error
class future_error : public logic_error { public: future_error(error_code ec); // exposition only const error_code& code() const noexcept; const char* what() const noexcept; };
std::promise
template <class R> class promise { public: promise(); template <class Allocator> promise(allocator_arg_t, const Allocator& a); promise(promise&& rhs) noexcept; promise(const promise& rhs) = delete; ~promise(); // assignment promise& operator=(promise&& rhs) noexcept; promise& operator=(const promise& rhs) = delete; void swap(promise& other) noexcept; // retrieving the result future<R> get_future(); // setting the result void set_value(/*see description*/); void set_exception(exception_ptr p); // setting the result with deferred notification void set_value_at_thread_exit(/*see description*/); void set_exception_at_thread_exit(exception_ptr p); };
std::future
template <class R> class future { public: future() noexcept; future(future &&) noexcept; future(const future& rhs) = delete; ~future(); future& operator=(const future& rhs) = delete; future& operator=(future&&) noexcept; shared_future<R> share(); // retrieving the value /*see description*/ get(); // functions to check state bool valid() const noexcept; void wait() const; template <class Rep, class Period> future_status wait_for(const chrono::duration<Rep, Period>& rel_time) const; template <class Clock, class Duration> future_status wait_until(const chrono::time_point<Clock, Duration>& abs_time) const; };
std::shared_future
template <class R> class shared_future { public: shared_future() noexcept; shared_future(const shared_future& rhs); shared_future(future<R>&&) noexcept; shared_future(shared_future&& rhs) noexcept; ~shared_future(); shared_future& operator=(const shared_future& rhs); shared_future& operator=(shared_future&& rhs) noexcept; // retrieving the value /*see description*/ get() const; // functions to check state bool valid() const noexcept; void wait() const; template <class Rep, class Period> future_status wait_for(const chrono::duration<Rep, Period>& rel_time) const; template <class Clock, class Duration> future_status wait_until(const chrono::time_point<Clock, Duration>& abs_time) const; };
std::packaged_task
template<class> class packaged_task; // undefined template<class R, class... ArgTypes> class packaged_task<R(ArgTypes...)> { public: // construction and destruction packaged_task() noexcept; template <class F> explicit packaged_task(F&& f); template <class F, class Allocator> explicit packaged_task(allocator_arg_t, const Allocator& a, F&& f); ~packaged_task(); // no copy packaged_task(const packaged_task&) = delete; packaged_task& operator=(const packaged_task&) = delete; // move support packaged_task(packaged_task&& rhs) noexcept; packaged_task& operator=(packaged_task&& rhs) noexcept; void swap(packaged_task& other) noexcept; bool valid() const noexcept; // result retrieval future<R> get_future(); // execution void operator()(ArgTypes... ); void make_ready_at_thread_exit(ArgTypes...); void reset(); };
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