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template<typename T>  
void outer(T&& t) {inner(forward<T>(t));}  

template<typename T>  
void outer(T&& t) {inner((T&&)(t));}  

what is the difference?

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A C-style cast. Yuck ! – BatchyX Dec 2 '12 at 9:51

There is no practical difference. std::forward<T>(v) is specified as static_cast<T&&>(v).

§20.2.3 [forward]

template <class T> T&& forward(typename remove_reference<T>::type& t) noexcept;
template <class T> T&& forward(typename remove_reference<T>::type&& t) noexcept;

2 Returns: static_cast<T&&>(t).

A C-style cast goes through most C++-style casts to determine the first working one. One of them is static_cast, which also is the first one that works in this case.

§5.4 [expr.cast] p4

The conversions performed by

  • a const_cast (5.2.11),
  • a static_cast (5.2.9),
  • a static_cast followed by a const_cast,
  • a reinterpret_cast (5.2.10), or
  • a reinterpret_cast followed by a const_cast,

can be performed using the cast notation of explicit type conversion. [...] If a conversion can be interpreted in more than one of the ways listed above, the interpretation that appears first in the list is used, even if a cast resulting from that interpretation is ill-formed.

I'd advise to stick with std::forward, though. The intent is clear from the name and and people will know what it does much more likely than knowing what a weird static_cast<T&&> (or even (T&&)) does.

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There is no effective difference. Here is how VC++ defines forward<> for rvalue references:

template<class _Ty> inline
    _Ty&& forward(typename remove_reference<_Ty>::type&& _Arg) _NOEXCEPT
    { // forward anything
        static_assert(!is_lvalue_reference<_Ty>::value, "bad forward call");
        return (static_cast<_Ty&&>(_Arg));
share|improve this answer
The standard defines it! This is how VC++ implements it. – Lightness Races in Orbit Dec 2 '12 at 10:00
How one implementation (which is known to implement stuff... not totally conforming) implements a feature doesn't tell much. :/ – Xeo Dec 2 '12 at 10:00
@Lightness: This is also a function template definition. :P – Xeo Dec 2 '12 at 10:00
@Xeo: That was the very definition of touché! – Lightness Races in Orbit Dec 2 '12 at 10:03

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