In the standard (20.2.2 [utility.swap]), std::swap is defined for lvalue references. I understand that this is the common case for when you want to swap two things. However, there are times when it's correct and desirable to swap rvalues (when temporary objects contain references, like here: swap temporary tuples of references).

Why isn't there an overload for rvalues? Does the risk of doing a meaningless swap on rvalues outweigh the potential benefits?

Is there a legal way to support swapping rvalue std::tuple objects which contain references? For a user defined type, I would specialize swap to accept its arguments by value, but it doesn't seem kosher to do the same for a library type like std::tuple.

  • The act of swapping them would instantly require them to be converted to an lvalue, which would mean you could use std::swap. Commented Feb 27, 2014 at 20:08
  • 4
    Isn't this basically the same as assigning the rvalue to the lvalue-object? Because the temporary cannot be used afterwards anyway, it might as well be a direct (rvalue) assignment instead of a swap.
    – Excelcius
    Commented Feb 27, 2014 at 20:13
  • 3
    I need some justification for the statement "there are times when it's correct and desirable to swap rvalues (when temporary objects contain references...)", I think that you are mistaken. Like @Excelcius says, swapping rvalues seems to be semantically meaningless.
    – Casey
    Commented Feb 27, 2014 at 20:15
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    You cannot swap tuples containing references: references fail to be Swappable.
    – Casey
    Commented Feb 27, 2014 at 20:36
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    @Yakk but in order for it to be meaningful, at least 1 of those parameters must be an lvalue ... otherwise it does nothing. And attempting to swap references breaks anyway as you cannot reassign a reference to a new location (they are not swappable by definition § Commented Feb 27, 2014 at 20:41

2 Answers 2


How about instead creating an lvalue_cast utility function that casts an rvalue to an lvalue:

#include <tuple>
#include <iostream>

template <class T>
lvalue_cast(T&& t)
    return t;

    int i = 1;
    int j = 2;
    swap(lvalue_cast(std::tie(i)), lvalue_cast(std::tie(j)));
    std::cout << i << '\n';
    std::cout << j << '\n';
  • Because swapping references - and hence tuples containing references - is still UB.
    – Casey
    Commented Feb 27, 2014 at 21:06
  • @Casey: <shrug> Somebody forgot to tell the committee that ([tuple.assign]/p3). The whole reason tuple copy assignment isn't defaulted is to handle the tuple<X&> case. Commented Feb 27, 2014 at 21:11
  • requires that the effect of swap(t, u) and swap(u, t) is that "the object referred to by t has the value originally held by u and the object referred to by u has the value originally held by t." Does this program not demonstrate that requirement doesn't hold for tuples of references?
    – Casey
    Commented Feb 27, 2014 at 21:30
  • 1
    How about renaming lvalue_cast to copy? That would be more in line with move ;) Commented Feb 27, 2014 at 21:31
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    @HowardHinnant Are you implying that compilers warn for all possible incidences of undefined behavior?
    – Casey
    Commented Feb 27, 2014 at 21:35

Some STL algorithms would seem to require a swap for r-values if the iterator produced an r-value (for example a temporary).

It is a valid discussion whether swap should work with r-values. I often see this problem because for "special" iterators, *it produces an r-value and sometimes you want to do the right things when "swapping".

The workaround I found to not deal with this question was to specialize std::iter_swap for these special iterators in the first place. I think that solve the problem for all STL algorithms.

namespace std{
void iter_swap(special_iterator it1, special_iterator it2){
   ... special swap of pointed values

I think this is a fundamental customization point that all permuting STL algorithm miss and lack.

(Of course if we are at the point of hacking the STL we can as well do namespace std{template<class T, ...enable_if T&& is r-value ref just in case...> void swap(T&& t1, T&& t2){swap(t1, t2);}. But it is even more risky.)

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