I am trying to understand std::reference_wrapper.

The following code shows that the reference wrapper does not behave exactly like a reference.

#include <iostream>
#include <vector>
#include <functional>

int main()
    std::vector<int> numbers = {1, 3, 0, -8, 5, 3, 1};

    auto referenceWrapper = std::ref(numbers);
    std::vector<int>& reference = numbers;

    std::cout << reference[3]              << std::endl;
    std::cout << referenceWrapper.get()[3] << std::endl; 
              // I need to use get ^
              // otherwise does not compile.
    return 0;

If I understand it correctly, the implicit conversion does not apply to calling member functions. Is this an inherent limitation? Do I need to use the std::reference_wrapper::get so often?

Another case is this:

#include <iostream>
#include <functional>

int main()
    int a = 3;
    int b = 4;
    auto refa = std::ref(a);
    auto refb = std::ref(b);
    if (refa < refb)
        std::cout << "success" << std::endl;

    return 0;

This works fine, but when I add this above the main definition:

template <typename T>
bool operator < (T left, T right)
    return left.someMember();

The compiler tries to instantiate the template and forgets about implicit conversion and the built in operator.

Is this behavior inherent or am I misunderstanding something crucial about the std::reference_wrapper?

  • 3
    std::reference_wrapper has some very specific uses for library-authors, being relevant to perfect forwarding and storing arguments (see e.g. std::bind and std::thread). I don't recommend using it outside of those situations. – Xeo Aug 8 '13 at 13:38
  • 9
    reference_wrapper is not a replacement for references. – R. Martinho Fernandes Aug 8 '13 at 13:39
  • 2
    template <typename T> bool operator < (T left, T right) { return left.someMember(); } is an example of what to NEVER EVER EVER EVER DO when overloading an operator. Any problems that result due to that code are not the problem of anything else in your code base. (ok, maybe in some ridiculously restricted and controlled namespace to be found via ADL, or similar other contrived situations) – Yakk - Adam Nevraumont Aug 8 '13 at 14:03

Class std::reference_wrapper<T> implements an implicit converting operator to T&:

operator T& () const noexcept;

and a more explicit getter:

T& get() const noexcept;

The implicit operator is called when a T (or T&) is required. For instance

void f(some_type x);
// ...
std::reference_wrapper<some_type> x;
some_type y = x; // the implicit operator is called
f(x);            // the implicit operator is called and the result goes to f.

However, sometimes a T is not necessarily expected and, in this case, you must use get. This happens, mostly, in automatic type deduction contexts. For instance,

template <typename U>
g(U x);
// ...
std::reference_wrapper<some_type> x;
auto y = x; // the type of y is std::reference_wrapper<some_type>
g(x);       // U = std::reference_wrapper<some_type>

To get some_type instead of std::reference_wrapper<some_type> above you should do

auto y = x.get(); // the type of y is some_type
g(x.get());       // U = some_type

Alternativelly the last line above could be replaced by g<some_type>(x);. However, for templatized operators (e.g. ostream::operator <<()) I believe you can't explicit the type.

  • 5
    "This happens, mostly, in automatic type deduction contexts." A main example of this to add would be when using range-for or algorithms over containers of reference_wrappers: using auto means we get the wrapper, which is usually not of interest, so we have to replace that with for (ReferredType& foo) and so on. So much for 'almost always auto', sadly. However, arguably that inconsistency is still preferable to storing raw pointers and having to use * and -> everywhere in such loops, and presumably most would agree that using reference_wrapper conveys better semantics too. – underscore_d Sep 30 '18 at 10:52

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