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Consider the following C++ Program

int main() {
    int a = 5, b = 7;
    auto pair = std::make_pair<int, int>(a,b);
    return 0;

Using VC11 and also in gcc-4.7.2 fails with different errors, though it seems to be related and VC11 error message is more meaningful

You cannot bind an lvalue to an rvalue   

What I understand from this failure is

  1. VC11 and I suppose gcc-4.7.2 have only one implementation of std::make_pair make_pair(_Ty1&& _Val1, const _Ty2& _Val2) which can accept only an rvalue reference. Prior VC++ version example VC10 had two versions, one to accept an lvalue and another an rvalue reference
  2. Rvalue reference cannot be used to initialize a non const reference i.e. int & a = b * 5 is invalid.
  3. I could have used std::move to convert the lvalue to rvalue reference and the call would be successful.
  4. As std::make_pair accepts two different types for each of the parameters, Template Argument Resolution in all possible cases can resolve the type of the parameter and an explicitly specifying the type is not required.

This scenario seems trivial and the incompatibility can easily be resolved by removing the explicit type specification and making the definition as

auto pair = std::make_pair(a,b);
  • Now, my question is, what is the driving factor to remove the lvalue implementation from the library?
  • Is it possible to know any other library functions which has been changed in similar ways?
  • How to handle these situations when I need to target multiple compilers like g++, CC, aCC, XL C++ where either the compilers have not been upgraded or the compiler isn't supporting the rvalue reference and or move semantics.
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Well, it sin't a breaking change, because who on earth uses std::make_pair with explicit template instantiation? It's explicitly designed to profit from automatic type deduction. So since rarely anybody would write std::make_pair<int,int> in favour of std::make_pair, there isn't much code to be broken. Well, nice find, though. – Christian Rau Jan 31 '13 at 11:02
Unfortunately, I have encountered code where explicit type was specified. – Abhijit Jan 31 '13 at 11:05

3 Answers 3

up vote 15 down vote accepted

std::make_pair exists for the sole purpose of exploiting type deduction to avoid typing the names of the types. That's why there is only one overload (and it should take two universal references, not one universal reference and an lvalue reference to const as VC seems to think).

template <class T1, class T2>
constexpr pair<V1, V2> make_pair(T1&& x, T2&& y);

If you want to type the types explicitly, you can just use the pair constructor. It is even shorter...

auto pair = std::pair<int, int>(a,b);
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Thank you for your answer. I understood the above fact though the hard way. Btw, Can you please explain what universal reference means? This term is new to me. Also are you ware of any other library functions which was changed similarly? – Abhijit Jan 31 '13 at 11:03
@Abhijit I added a link to Scott Meyer's explanation (he came up with the term). Any other library function that serves the same purpose (exploiting type deduction) is likely to not work if you don't use type deduction. They are often of the form make_something, like make_tuple. The point is that they don't work with explicit types because they are not useful with explicit types. – R. Martinho Fernandes Jan 31 '13 at 11:05
@Abhijit To be clear, "universal reference" is just a colloquial term. They really are just rvalue references, but because of the template type deduction and reference collapsing rules, they have an interesting property - they sometimes behave like lvalue references and other times like rvalue references. Come to think of it, we should call this lvalue-rvalue duality. – Joseph Mansfield Jan 31 '13 at 11:08
Thank you and @sftrabbit for taking time in answering my doubt. – Abhijit Jan 31 '13 at 11:12

When you do std::make_pair<int, int>, you are forcing the template arguments T1 and T2 to both be deduced as int. This gives you the function as std::pair<int,int> make_pair(int&&, int&&). Now these arguments can only take rvalues because they are rvalue references.

However, when the types of T1 and T2 are being deduced by template type deduction, they act as "universal references". That is, if they receive an lvalue argument they will be lvalue references and if they receive an rvalue argument they will be rvalue references. This gives make_pair the ability to do perfect forwarding.

So the point is, don't explicitly give the template type arguments. The whole point of make_pair is that it deduces the types itself. If you name the types, it can't do perfect forwarding any more and will fail for lvalue arguments.

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I believe this is the same issue that is discussed at

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