In std::make_pair there is only one implementation C++14 onwards

template< class T1, class T2 > constexpr std::pair<V1,V2> make_pair( T1&& t, T2&& u );

Both parameters are R-value references and according to this

R-values references cannot be initialized with l-values.

    int i = 1;
    char ch = 'a';
    std::unordered_map<int, char> mp;
    mp.insert(make_pair<int,char>(i, ch));

So when I try to use make_pair as in the above code it correctly throws an error error: cannot bind rvalue reference of type 'int&&' to lvalue of type 'int'.

However it works perfectly for the above code if I change drop the template arguments and call it as

mp.insert(make_pair(i, ch));

I'm confused how this works as i and ch both are L-values. Does template argument resolution convert L-values to R-values or like how does this work?

  • 3
    These are not rvalue references - they are forwarding references. They accept both rvalues and lvalues. However, they only work this way if you do not specify template parameters explicitly, but allow template parameter deduction to do its job. – Igor Tandetnik Aug 16 at 1:04

The parameters of make_pair are not declared as rvalue-reference, but forwarding reference.

Forwarding references are a special kind of references that preserve the value category of a function argument, making it possible to forward it by means of std::forward. Forwarding references are either:

  1. function parameter of a function template declared as rvalue reference to cv-unqualified type template parameter of that same function template:

Forwarding referece works with both lvalues and rvalues, with the help of template argument deduction. When being passed an lvalue, the template parameter would be deduced as lvalue-reference, after reference collapsing, the function parameter is lvalue-reference too. When being passing an rvalue, the template parameter would be deduced as non-reference, the function parameter is rvalue-reference.

On the other hand, if you specify the template argument explicitly like make_pair<int,char>(...), the function parameter become rvalue-reference accordingly.

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  • 1
    In code: using R = T&; R &&r declares r as T&, since & + && collapses to &. std::make_pair<T&, U&> and friends therefore take (T&, U&), not (T&&, U&&) or similar. Template argument deduction is designed to choose that specialization when called with lvalues. Calling with rvalues would choose std::make_pair<T, U>, which does take (T&&, U&&). – HTNW Aug 16 at 1:17

The answer by songyuanyao already explains most of what is going on. I would, though, like to contribute how to make this work with explicit template arguments. You were most of the way there, but didn't take the last step.

I'm confused how this works as i and ch both are L-values.

Exactly. You want l-values, which is something you can specify in the template arguments:

std::make_pair<int &, char &>(i, ch)

or a form that works in more cases:

std::make_pair<const int &, const char &>(i, ch)

A bit of extra writing, but needed if argument deduction fails for some reason.

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