Defined in header
<utility> | ||
---|---|---|
template< class T > T&& forward( typename std::remove_reference<T>::type& t ) noexcept; | (1) | (since C++11) (until C++14) |
template< class T > constexpr T&& forward( typename std::remove_reference<T>::type& t ) noexcept; | (1) | (since C++14) |
template< class T > T&& forward( typename std::remove_reference<T>::type&& t ) noexcept; | (2) | (since C++11) (until C++14) |
template< class T > constexpr T&& forward( typename std::remove_reference<T>::type&& t ) noexcept; | (2) | (since C++14) |
When used according to the following recipe in a function template, forwards the argument to another function with the value category it had when passed to the calling function.
For example, if used in wrapper such as the following, the template behaves as described below:
template<class T> void wrapper(T&& arg) { foo(std::forward<T>(arg)); // Forward a single argument. }
wrapper()
passes an rvalue std::string
, then T
is deduced to std::string
(not std::string&
, const std::string&
, or std::string&&
), and std::forward
ensures that an rvalue reference is passed to foo
. wrapper()
passes a const lvalue std::string
, then T
is deduced to const std::string&
, and std::forward
ensures that a const lvalue reference is passed to foo
. wrapper()
passes a non-const lvalue std::string
, then T
is deduced to std::string&
, and std::forward
ensures that a non-const lvalue reference is passed to foo
. Attempting to forward an rvalue as an lvalue, such as by instantiating the form (2) with lvalue reference type T, is a compile-time error.
See template argument deduction for the special rules behind T&&
used as a function parameter.
t | - | the object to be forwarded |
static_cast<T&&>(t)
.
noexcept
specification: noexcept
This example demonstrates perfect forwarding of the parameter(s) to the argument of the constructor of class T
. Also, perfect forwarding of parameter packs is demonstrated.
#include <iostream> #include <memory> #include <utility> #include <array> struct A { A(int&& n) { std::cout << "rvalue overload, n=" << n << "\n"; } A(int& n) { std::cout << "lvalue overload, n=" << n << "\n"; } }; class B { public: template<class T1, class T2, class T3> B(T1&& t1, T2&& t2, T3&& t3) : a1_{std::forward<T1>(t1)}, a2_{std::forward<T2>(t2)}, a3_{std::forward<T3>(t3)} { } private: A a1_, a2_, a3_; }; template<class T, class U> std::unique_ptr<T> make_unique1(U&& u) { return std::unique_ptr<T>(new T(std::forward<U>(u))); } template<class T, class... U> std::unique_ptr<T> make_unique(U&&... u) { return std::unique_ptr<T>(new T(std::forward<U>(u)...)); } int main() { auto p1 = make_unique1<A>(2); // rvalue int i = 1; auto p2 = make_unique1<A>(i); // lvalue std::cout << "B\n"; auto t = make_unique<B>(2, i, 3); }
Output:
rvalue overload, n=2 lvalue overload, n=1 B rvalue overload, n=2 lvalue overload, n=1 rvalue overload, n=3
Constant.
(C++11)
| obtains an rvalue reference (function template) |
(C++11)
| obtains an rvalue reference if the move constructor does not throw (function template) |
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