# use of rvalue reference and auto

Given the code below, everything works. How come that the variable d is reference to int? What is going on?

``````int main()
{
int a= 10;
int &&b = a+10; // b is int &&
auto c =b+10; // c is int
auto &&d = a; // d is int&
//int &&di = a; // error, as expected
return (0);
}
``````
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There is a special rule in type deduction. In `auto &&d = a;` "auto&&" is an rvalue reference to a non-const non-volatile type and "a" is an lvalue, then this special rule is applied: the type of "a" is treated as int& instead of int. Then as usual choose the type of "auto" to be identical to the type of "a", that is int&. So the type of "auto&&" is int& according to reference collapsing as mentioned by bames53.

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where in the standard is this rule specified? –  je4d Apr 20 '12 at 8:23
First deducing the type of auto is the same as deducing template arguments from a function call (7.1.6.4/6)， then this rule is in 14.8.2.1/3. –  Cosyn Apr 20 '12 at 9:26

This has to do with the reference collapsing rules in type deduction.

``````A& & becomes A&
A& && becomes A&
A&& & becomes A&
A&& && becomes A&&
``````
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Worth mentioning on top of the reference collapsing rules is how to force d to be an rvalue reference. You can use std::move for this:

``````int a =4;
auto &&d = std::move(a); // d is type &&
``````

Of course when talking integers, rvalue references are silly, as pass by value is just as efficient. This is useful in forcing move semantic optimizations, say if you wanted to insert a complex type at the end of a function, where that type would go out of scope...

``````vector<std::string> v;
void f()
{
string s;
foo(s); // do some kind of operation on s.
v.push_back(std::move(s)); // use push_back( &&) instead of push_back(const &);
}
``````
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`auto&&` invokes perfect forwarding. As `a` is an lvalue of type `int`, `d` is an lvalue reference to `int`.