I'm trying out C++20's concepts, and either std::swappable_with is undefined (Visual Studio, using /std:c++latest) or its constraints are not matched by the MCVE below (g++10 using -std=c++2a) -- that is, int is not swappable with int (!). What's the fix for this? If int can't be swapped with int, I don't see anything working.

#include <concepts> 

template <typename T, typename U>
requires std::swappable_with<T,U>
void mySwap(T& t, U& u)
    T temp = t; t = u; u = temp;

int main()
    int x, y;
    mySwap(x, y);

    return 0;
  • std::is_swappable_with_v<int, int> gives me 0 with libstdc++: godbolt.org/z/n4U-W6 Jun 9, 2020 at 13:05
  • I don't have C++20 but you could just check: std::is_copy_assignable<T>::value for both types then swap. If nothing works for you. Jun 28, 2020 at 14:02

2 Answers 2


std::swappable_with<T, U> checks whether swap can be invoked (after using std::swap;) with arguments std::declval<T>() and std::declval<U>(). With T and U being int, both arguments are rvalues, which cannot be bound to std::swap parameters, since these are (non-const) lvalue references.

You wonder that int cannot be swapped with int — that's right, you cannot write std::swap(1, -1);.

  • 5
    That's absolutely crazy. What general user of these features should have to think in this level of detail and esoteric theory? If you have two int objects, they are definitely swappable (it's the canonical example of std::swap!) so for std::swappable_with<int, int> to fail is mind-boggling. Who comes up with these features 🤦‍♂️ Jun 9, 2020 at 13:17
  • 5
    @AsteroidsWithWings If you have two int objects, they are definitely swappable. — That's not true. This holds only if both those objects are lvalues. If both are rvalues, or one is rvalue and second one lvalue, they are not swappable (with std::swap). Jun 9, 2020 at 13:26
  • 5
    @AsteroidsWithWings: "What general user of these features should have to think in this level of detail and esoteric theory?" And what happens when that "level of detail and esoteric theory" becomes relevant? Being able to distinguish between operations on lvalues and rvalues is important. In this case in particular, what would happen if the user took T and U by value instead of by reference? The function would compile, but it wouldn't do something useful. So on some level, the user already has to know some "esoteric theory". Jun 9, 2020 at 13:29
  • 5
    @NicolBolas A sensible language should be expressive and easy to use for the common/obvious cases first, with complexity an optional extra. C++ has loooong ago forgotten this. Jun 9, 2020 at 13:32
  • 2
    To be fair, I will say one thing that mitigates this is that is_swappable<T> (which delegates to is_swappable_with<T&, T&>!) seems to provide the "expressive and easy to use for the common/obvious cases" angle Jun 9, 2020 at 13:37

Use std::swappable_with<T&,U&> - swappable with cares about value category, encoded by reference, as well as type.

You are in effect asking if rvalues of type int can be swapped. And it says "no"; you cannot swap to rvalue ints.

This might be confusing, but if you do this:

template <class T, class U>
requires std::swappable_with<T,U>
void mySwap(T&& t, U&& u) {
  auto temp = std::forward<T>(t);
  t = std::forward<U>(u);
  u = std::move(temp);

it becomes a bit more natural. Here, we use forwarding references, and the l/rvalue categories of the argument are stored along side the bare types in T and U respectively.

Note that the above could permit rvalues to be swapped, if objects of that type are swappable_with each other.

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