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template<class U>
void f( U && v)
{     
    std::cout << typeid(v).name() << "\n"; //'int' in both cases

    if( boost::is_same<int&&,U>::value )
    {
        std::cout << "reach here\n"; //only with f<int&&>(int(1));
    }
}


int main()
{    
    f(int(1));

    f<int&&>(int(1));

    std::cin.ignore();
}

Why v parameter is interpreted as int when I don't explicitly use f<int&&>? What is the difference ? (Compiled with MVS2010)

My guess is that First is passed as a rvalue and second as a rvalue reference and both bound correctly into a rvalue reference, am I right ?

Thanks.

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2 Answers 2

up vote 2 down vote accepted

No, not really. An rvalue reference is never deduced. The notion U&& with U being a deducible template parameter is used to indicate that U should be deduced such that the rvalue-ness of the argument is retained:

  • when passing an rvalue of type X the type of U becomes X.
  • when passing a cv qualified lvalue of type X then U becomes the type X cv&.

The more interesting question is what happened to the rvalue references explicitly specified in the second call because there is no deduction going on because in this case the two rvalue references are collapsed into just one.

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about your last part of answer: that is why if you defined also a template<class u>f(U u){} , the code doesn't compile due to an ambiguous call. –  Guillaume07 Jan 12 '12 at 22:36

First variant

f(int(1)) <=> f<int>(int(1)) <=> U==int <=> is_same<int&&,int> == false

Second variant

f<int&&>(int(1)) <=> U==int&& is_same<int&&,int&&> == true

Like this

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