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std::invoke_result

STD::结果[医]Of,STD::Invoke[医]结果

Defined in header
template< class > class result_of; // not defined template< class F, class... ArgTypes > class result_of<F(ArgTypes...)>;(1)(since C++11) (deprecated in C++17)
template< class F, class... ArgTypes> class invoke_result;(2)(since C++17)

在编译时推导调用表达式的返回类型。

F must be a callable type, reference to function, or reference to callable type. Invoking F with ArgTypes... must be a well-formed expression(since C++11)
F and all types in ArgTypes can be any complete type, array of unknown bound, or (possibly cv-qualified) void(since C++14)

成员类型

Member typeDefinition
typethe return type of the Callable type F if invoked with the arguments ArgTypes.... Only defined if F can be called with the arguments ArgTypes... in unevaluated context. (since C++14)

帮助者类型

template< class T > using result_of_t = typename result_of::type;(1)(since C++14) (deprecated in C++17)
template< class F, class... ArgTypes> using invoke_result_t = typename invoke_result<F, ArgTypes...>::type;(2)(since C++17)

可能的实施

二次

namespace detail { template <class F, class... Args> inline auto INVOKE(F&& f, Args&&... args) -> decltype(forward<F>(f)(forward<Args>(args)...)) { return forward<F>(f)(forward<Args>(args)... } template <class Base, class T, class Derived> inline auto INVOKE(T Base::*pmd, Derived&& ref) -> decltype(forward<Derived>(ref).*pmd) { return forward<Derived>(ref).*pmd; } template <class PMD, class Pointer> inline auto INVOKE(PMD&& pmd, Pointer&& ptr) -> decltype((*forward<Pointer>(ptr)).*forward<PMD>(pmd)) { return (*forward<Pointer>(ptr)).*forward<PMD>(pmd } template <class Base, class T, class Derived, class... Args> inline auto INVOKE(T Base::*pmf, Derived&& ref, Args&&... args) -> decltype((forward<Derived>(ref).*pmf)(forward<Args>(args)...)) { return (forward<Derived>(ref).*pmf)(forward<Args>(args)... } template <class PMF, class Pointer, class... Args> inline auto INVOKE(PMF&& pmf, Pointer&& ptr, Args&&... args) -> decltype(((*forward<Pointer>(ptr)).*forward<PMF>(pmf))(forward<Args>(args)...)) { return ((*forward<Pointer>(ptr)).*forward<PMF>(pmf))(forward<Args>(args)... } } // namespace detail // Minimal C++11 implementation: template <class> struct result_of; template <class F, class... ArgTypes> struct result_of<F(ArgTypes...)> { using type = decltype(detail::INVOKE(std::declval<F>(), std::declval<ArgTypes>()...) }; // Conforming C++14 implementation (is also a valid C++11 implementation): namespace detail { template <typename AlwaysVoid, typename, typename...> struct invoke_result { }; template <typename F, typename...Args> struct invoke_result<decltype(void(detail::INVOKE(std::declval<F>(), std::declval<Args>()...))), F, Args...> { using type = decltype(detail::INVOKE(std::declval<F>(), std::declval<Args>()...) }; } // namespace detail template <class> struct result_of; template <class F, class... ArgTypes> struct result_of<F(ArgTypes...)> : detail::invoke_result<void, F, ArgTypes...> {}; template <class F, class... ArgTypes> struct invoke_result : detail::invoke_result<void, F, ArgTypes...> {};

二次

注记

如C++11中所述,std::result_of时未定义INVOKE(std::declval<F>(), std::declval<ArgTypes>()...)是畸形的%28等。当F根本不是一个可调用类型时,%29。C++14将其更改为SFINAE%28当F不可调用时,std::result_of<F(ArgTypes...)>简单地说,%27T具有type成员%29

背后的动机std::result_of是确定调用Callable,特别是对于不同的参数集,如果结果类型不同。

F(Args...)的函数类型Args...作为参数类型和F作为返回类型。因此,F不能是函数类型%28,但可以是对函数类型%29的引用。

实例

二次

#include <type_traits> #include <iostream> struct S { double operator()(char, int& float operator()(int) { return 1.0;} }; template<class T> typename std::result_of<T(int)>::type f(T& t) { std::cout << "overload of f for callable T\n"; return t(0 } template<class T, class U> int f(U u) { std::cout << "overload of f for non-callable T\n"; return u; } int main() { // the result of invoking S with char and int& arguments is double std::result_of<S(char, int&)>::type d = 3.14; // d has type double static_assert(std::is_same<decltype(d), double>::value, "" // the result of invoking S with int argument is float std::result_of<S(int)>::type x = 3.14; // x has type float static_assert(std::is_same<decltype(x), float>::value, "" // result_of can be used with a pointer to member function as follows struct C { double Func(char, int& }; std::result_of<decltype(&C::Func)(C, char, int&)>::type g = 3.14; static_assert(std::is_same<decltype(g), double>::value, "" f<C>(1 // may fail to compile in C++11; calls the non-callable overload in C++14 }

二次

产出:

二次

overload of f for non-callable T

二次

另见

invoke (C++17)invokes any Callable object with given arguments (function template)
is_invocableis_invocable_ris_nothrow_invocableis_nothrow_invocable_r (C++17)checks if a type can be invoked (as if by std::invoke) with the given argument types (class template)
declval (C++11)obtains a reference to its argument for use in unevaluated context (function template)

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