std::coroutine_handle, std::noop_coroutine_handle
From cppreference.com
| Defined in header <coroutine>
|
||
| template< class Promise = void > struct coroutine_handle; |
(1) | (since C++20) |
| template<> struct coroutine_handle<void>; |
(2) | (since C++20) |
| template<> struct coroutine_handle<std::noop_coroutine_promise>; |
(3) | (since C++20) |
| using noop_coroutine_handle = std::coroutine_handle<std::noop_coroutine_promise>; |
(4) | (since C++20) |
The class template coroutine_handle can be used to refer to a suspended or executing coroutine. Every specialization of coroutine_handle is a LiteralType.
1) Primary template, can be created from the promise object of type
Promise.2) Specialization std::coroutine_handle<void> erases the promise type. It is convertible from other specializations.
3) Specialization std::coroutine_handle<std::noop_coroutine_promise> refers to no-op coroutines. It cannot be created from a promise object.
On typical implementations, every specialization of std::coroutine_handle is TriviallyCopyable.
If the program adds specializations for std::coroutine_handle, the behavior is undefined.
Contents |
[edit] Data members
| Member name | Definition |
ptr (private)
|
A pointer void* to the coroutine state. (exposition-only member object*) |
[edit] Member functions
constructs a coroutine_handle object (public member function) | |
assigns the coroutine_handle object (public member function) | |
Conversion | |
obtains a type-erased coroutine_handle (public member function) | |
Observers | |
| checks if the coroutine has completed (public member function) | |
| checks if the handle represents a coroutine (public member function) | |
Control | |
| resumes execution of the coroutine (public member function) | |
| destroys a coroutine (public member function) | |
Promise Access | |
| access the promise of a coroutine (public member function) | |
| [static] |
creates a coroutine_handle from the promise object of a coroutine (public static member function) |
Export/Import | |
| exports the underlying address, i.e. the pointer backing the coroutine (public member function) | |
| [static] |
imports a coroutine from a pointer (public static member function) |
[edit] Non-member functions
| (C++20) |
compares two coroutine_handle objects (function) |
[edit] Helper classes
| hash support for std::coroutine_handle (class template specialization) |
[edit] Notes
A coroutine_handle may be dangling, in which case the coroutine_handle must be used carefully in order to avoid undefined behavior.
[edit] Example
Run this code
#include <coroutine> #include <iostream> #include <optional> template<std::movable T> class Generator { public: struct promise_type { Generator<T> get_return_object() { return Generator{Handle::from_promise(*this)}; } static std::suspend_always initial_suspend() noexcept { return {}; } static std::suspend_always final_suspend() noexcept { return {}; } std::suspend_always yield_value(T value) noexcept { current_value = std::move(value); return {}; } // Disallow co_await in generator coroutines. void await_transform() = delete; [[noreturn]] static void unhandled_exception() { throw; } std::optional<T> current_value; }; using Handle = std::coroutine_handle<promise_type>; explicit Generator(const Handle coroutine) : m_coroutine{coroutine} {} Generator() = default; ~Generator() { if (m_coroutine) m_coroutine.destroy(); } Generator(const Generator&) = delete; Generator& operator=(const Generator&) = delete; Generator(Generator&& other) noexcept : m_coroutine{other.m_coroutine} { other.m_coroutine = {}; } Generator& operator=(Generator&& other) noexcept { if (this != &other) { if (m_coroutine) m_coroutine.destroy(); m_coroutine = other.m_coroutine; other.m_coroutine = {}; } return *this; } // Range-based for loop support. class Iter { public: void operator++() { m_coroutine.resume(); } const T& operator*() const { return *m_coroutine.promise().current_value; } bool operator==(std::default_sentinel_t) const { return !m_coroutine || m_coroutine.done(); } explicit Iter(const Handle coroutine) : m_coroutine{coroutine} {} private: Handle m_coroutine; }; Iter begin() { if (m_coroutine) m_coroutine.resume(); return Iter{m_coroutine}; } std::default_sentinel_t end() { return {}; } private: Handle m_coroutine; }; template<std::integral T> Generator<T> range(T first, const T last) { while (first < last) co_yield first++; } int main() { for (const char i : range(65, 91)) std::cout << i << ' '; std::cout << '\n'; }
Output:
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
[edit] Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| LWG 3460 | C++20 | the public base class of coroutine_handle could leave it in an undesired state
|
inheritance removed |
[edit] See also
| (C++23) |
A view that represents synchronous coroutine generator (class template) |
