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Here is an exercise from C++ Primer 5th Edition:

Exercise 16.45: Given the following template, explain what happens if we call g on a literal value such as 42. What if we call g on a variable of type int? P.690

template <typename T>
void g(T&& val)
{
    std::vector<T> v;
}

int main()
{
    //g(42);

    int i;
    g(i);
}

When calling on 42 , it compiled.

When on i, the compiler complained a lot of errors, part of which is pasted as below.

forming pointer to reference type 'int&'

My questions are

  1. When calling on literal value ,42 in this case, what type was deduced for T?

  2. when on i, why didn't it compile? How to understand these error messages?

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1  
I suggest the reading of Universal References in C++11 by Scott Meyers. –  Cassio Neri Feb 7 '14 at 14:06

1 Answer 1

up vote 3 down vote accepted

From http://thbecker.net/articles/rvalue_references/section_08.html

The first of the remaining two rules for rvalue references affects old-style lvalue references as well. Recall that in pre-11 C++, it was not allowed to take a reference to a reference: something like A& & would cause a compile error. C++11, by contrast, introduces the following reference collapsing rules:

A& & becomes A&
A& && becomes A&
A&& & becomes A&
A&& && becomes A&&

Secondly, there is a special template argument deduction rule for function templates that take an argument by rvalue reference to a template argument:

template<typename T>
void foo(T&&);

Here, the following apply:

  • When foo is called on an lvalue of type A, then T resolves to A& and hence, by the reference collapsing rules above, the argument type effectively becomes A&.
  • When foo is called on an rvalue of type A, then T resolves to A, and hence the argument type becomes A&&.

So case 1, when passing 42, you are calling g with a rvalue, so T is resolved to int thus g's parameter is int&& and std::vector is legal.

In case 2, when passing i, you are calling g with a lvalue, so T is resolved to int& thus g's parameter is int& and std::vector<int&> is NOT legal.

Remove the line with the vector and it will work fine in both cases.

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+1 for clear explanation.One more question, why is std::vector<int&> NOT legal? –  Yue Wang Feb 7 '14 at 10:08
1  
Have a look there : stackoverflow.com/questions/922360/… –  Davidbrcz Feb 7 '14 at 10:09

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