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I set up a test case to learn about perfect forwarding.

std::string inner(const std::string& str ) {
return "const std::string&";
std::string inner(std::string& str ) {
    return "std::string&";
std::string inner(const std::string&& str ) {
    return "const std::string&&";
std::string inner(std::string&& str ) {
    return "std::string&&";

template <typename T> void outer(T&& t) {
  std::cout << "t: " << t << std::endl;
  std::cout << "perfect forward: " << inner(std::forward<T>(t)) << std::endl;
  std::cout << std::endl;

void PerfectForwarding()

std::forward works as expected. The interesting behavior emerges when I implement my own forward function without identity:

template <typename T> T&& MyForward(T& t)
   return ((T&&)t);

Replacing std::forward with MyForward in outer gives the exact same result! The behavior begs the question why identity is used?

Compiler VS2010

Update 1: In reference to preventing type deduction

AFAIK, the special type deduction rule is only activated on T&&. Note the definition of forward, forward(typename identity<T>::type& t). The argument type has only one &. In fact, after I changed MyForward to use identity, and leave out the (T&&) casting, the example does not compile. On the surface, the casting from lvalue to rvalue seems to make the forward work.

Update 2: tested on ideone.com with GCC 4.5, same behavior.

share|improve this question
What do you mean by "identity"? The two overloads of the std::forward or the remove_reference<T>::type? – kennytm Apr 23 '12 at 18:37
identity refers the identity struct, the type of forward's argument: _Ty&& forward(typename identity<_Ty>::type& _Arg) – Candy Chiu Apr 23 '12 at 18:41
That must be some pre-standard signature. The standard one is T&& forward(typename remove_reference<T>::type& t) (and an overload taking &&). – kennytm Apr 23 '12 at 18:42
I use the VS2010 compiler. it could be a compiler specific behavior. cppreference.com does list two overloads of forward. – Candy Chiu Apr 23 '12 at 18:45
@Candy : VC++ 2010 was based on N3000, which came with std::identity<>; the final C++11 standard is based on N3290, which removed it. – ildjarn Apr 23 '12 at 18:46

remove_reference<T> (identity was in an old version of the draft, but was changed to remove_reference) is used to prevent type deduction: std::forward only works with an explicit type parameter. Otherwise the following would compile:


... but it would not do the right thing.

Regarding the issue with lvalues/rvalues, please do notice that there are two overloads of std::forward: one for lvalues, another for rvalues.

In fact, the MyForward implementation given is more like std::move: it turns lvalues into rvalues (the difference is that move accepts rvalues as well).

share|improve this answer
please see update. – Candy Chiu Apr 23 '12 at 19:31
there's only one this VS2010. And it works with one. then why do we need two? – Candy Chiu Apr 23 '12 at 19:37
@CandyChiu it works on VS2010 because it was shipped before the standard was finalized. The rules have changed between the time VS2010 shipped and the standard was published. We need two because lvalues won't bind to &&, and rvalues won't bind to &. – R. Martinho Fernandes Apr 23 '12 at 19:39
I see. Unfortunately, i don't have another compiler handy to test this. – Candy Chiu Apr 23 '12 at 19:41
Well, guess 4.5 wasn't okay yet :( FWIW, I run both GCC 4.7 and clang 3.1 and it works as I described. – R. Martinho Fernandes Apr 23 '12 at 20:04

I checked the definition of forward and identity in VS 2010. The only difference between your MyForward and their forward is that you use a T& parameter and they use a typename identity<T>::type& parameter. And the identity<T>::type is just T.

The most important (maybe also only) effect of this difference is that to use their forward the template argument must be explicitly specified while your MyForward's template argument can be deduced from a call.

share|improve this answer
"can be deduced"... well, it will be deduced incorrectly – Ben Voigt Apr 24 '12 at 6:01
Yes, if pass an lvalue to outer(T&&), t will be cast to an rvalue reference type. – Cosyn Apr 24 '12 at 8:30

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