Standard library header <generator> (C++23)
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Classes | ||
| (C++23) |
A view that represents synchronous coroutine generator (class template) | |
[edit] Synopsis
namespace std { // class template generator template<class Ref, class V = void, class Allocator = void> class generator; namespace pmr { template<class Ref, class V = void> using generator = std::generator<Ref, V, polymorphic_allocator<>>; } }
[edit] Class template std::generator
namespace std { template<class Ref, class V = void, class Allocator = void> class generator : public ranges::view_interface<generator<Ref, V, Allocator>> { private: using /*value*/ = conditional_t<is_void_v<V>, remove_cvref_t< Ref >, V>; // exposition-only using /*reference*/ = conditional_t<is_void_v<V>, Ref&&, Ref>; // exposition-only // class generator::iterator class /*iterator*/; // exposition-only public: using yielded = conditional_t<is_reference_v</*reference*/>, /*reference*/, const /*reference*/&>; // class generator::promise_type class promise_type; generator(const generator&) = delete; generator(generator&& other) noexcept; ~generator(); generator& operator=(generator other) noexcept; /*iterator*/ begin(); default_sentinel_t end() const noexcept; private: coroutine_handle<promise_type> /*coroutine_*/ = nullptr; // exposition-only unique_ptr<stack<coroutine_handle<>>> /*active_*/; // exposition-only }; }
[edit] Class std::generator::promise_type
namespace std { template<class Ref, class V, class Allocator> class generator<Ref, V, Allocator>::promise_type { public: generator get_return_object() noexcept; suspend_always initial_suspend() const noexcept { return {}; } auto final_suspend() noexcept; suspend_always yield_value(yielded val) noexcept; auto yield_value(const remove_reference_t<yielded>& lval) requires is_rvalue_reference_v<yielded> && constructible_from<remove_cvref_t<yielded>, const remove_reference_t<yielded>&>; template<class R2, class V2, class Alloc2, class Unused> requires same_as<typename generator<R2, V2, Alloc2>::yielded, yielded> auto yield_value(ranges::elements_of<generator<R2, V2, Alloc2>&&, Unused> g) noexcept; template<ranges::input_range R, class Alloc> requires convertible_to<ranges::range_reference_t<R>, yielded> auto yield_value(ranges::elements_of<R, Alloc> r); void await_transform() = delete; void return_void() const noexcept {} void unhandled_exception(); void* operator new(size_t size) requires same_as<Allocator, void> || default_initializable<Allocator>; template<class Alloc, class... Args> requires same_as<Allocator, void> || convertible_to<const Alloc&, Allocator> void* operator new(size_t size, allocator_arg_t, const Alloc& alloc, const Args&...); template<class This, class Alloc, class... Args> requires same_as<Allocator, void> || convertible_to<const Alloc&, Allocator> void* operator new(size_t size, const This&, allocator_arg_t, const Alloc& alloc, const Args&...); void operator delete(void* pointer, size_t size) noexcept; private: add_pointer_t<yielded> /*value_*/ = nullptr; // exposition-only exception_ptr /*except_*/; // exposition-only }; }
[edit] Class std::generator::iterator
namespace std { template<class Ref, class V, class Allocator> class generator<Ref, V, Allocator>::/*iterator*/ { public: using value_type = /*value*/; using difference_type = ptrdiff_t; /*iterator*/(/*iterator*/&& other) noexcept; /*iterator*/& operator=(/*iterator*/&& other) noexcept; /*reference*/ operator*() const noexcept(is_nothrow_copy_constructible_v</*reference*/>); /*iterator*/& operator++(); void operator++(int); friend bool operator==(const /*iterator*/& i, default_sentinel_t); private: coroutine_handle<promise_type> /*coroutine_*/; // exposition-only }; }
[edit] References
- C++23 standard (ISO/IEC 14882:2024):
- 26.8.2 Header
<generator>synopsis [generator.syn]
- 26.8.2 Header
- 26.8.3 Class template generator [coro.generator.class]
- 26.8.5 Class generator::promise_type [coro.generator.promise]
- 26.8.6 Class generator::iterator [coro.generator.iterator]
