std::tie(a, b) = std::minmax(a, b);

I think this is intuitive code. Clean and understandable. Too bad it doesn't work as intended, as std::minmax templates for const&. If therefore the values are swapped inside the std::pair<const&, const&> than one assignement will overwrite the other value:

auto[a, b] = std::make_pair(7, 5);

std::tie(a, b) = std::minmax(a, b);

std::cout << "a: " << a << ", b: " << b << '\n';

a: 5, b: 5

The expected output here is a: 5, b: 7.

I think this is important as implementing transform functions to apply a function onto some ranges requires such statements for intuitive lambdas. For example:

std::vector<int> v{ 0, 1, 0, 2, 0 };
std::vector<int> u{ 1, 0, 1, 0, 1 };

perform(v.begin(), v.end(), u.begin(), [](auto& a, auto& b){ 
    std::tie(a, b) = std::minmax(a, b);    

//v would be == {0, 0, 0, 0, 0}
//u would be == {1, 1, 1, 2, 1}

One solution I found was constructing an std::tuple explicitly without any reference qualifiers over the std::pair<const&, const&> to enforce a copy:

std::tie(a, b) = std::tuple<int, int>(std::minmax(a, b)); 

But this <int, int> redundancy seems rather awful, especially when having saidauto& a, auto& b before.

Is there a nice, short way to perform this assignement? Could it be that this is the wrong direction and just saying if (a >= b) { std::swap(a, b); } would be the best approach here?

  • 8
    While the answers provided are nice, I'm somewhat unhappy about the temporaries, as these might get costly with some data types. So I personally would rather go with the if-swap approach. You might pack it in your own minmax_inplace template function (with void return type)... – Aconcagua Jun 24 at 18:14
  • @Aconcagua I benchmarked [100k - 10mil elements]: without optimizations: if-swap was ~2.0 times faster. with optimizations: if-swap was ~1.5 times faster. So if speed is required, I would certainly go for if-swap – Stack Danny Jun 26 at 7:33

You can use an initializer list for minmax:

std::tie(a, b) = std::minmax({a, b});

This causes temporary objects to be created, just like when using unary plus, but has the benefit that it works with types lacking the unary plus operator too.

using namespace std::string_view_literals;

auto [a, b] = std::make_pair("foo"sv, "bar"sv);
std::tie(a, b) = std::minmax({a, b});
std::cout << "a: " << a << ", b: " << b << '\n';


a: bar, b: foo

Could it be that this is the wrong direction and just saying if (a >= b) { std::swap(a, b); } would be the best approach here?

I'd make it if(b < a) std::swap(a, b); because of the Compare1 requirement, but yes, I suspect that'll be faster and it's still very clear what you want to accomplish.

[1] Compare [...] The return value of the function call operation applied to an object of a type satisfying Compare, when contextually converted to bool, yields true if the first argument of the call appears before the second in the strict weak ordering relation induced by this type, and false otherwise.

  • 6
    This has the nice benefit that it works for more types as well (can't unary-+ a std::string, for instance). – Barry Jun 24 at 15:48
  • 5
    You may want to note that this causes the creation of temporary objects so it could be expensive. – NathanOliver Jun 24 at 15:53
  • 2
    @NathanOliver Well, you need temporaries. Can't really get around that? Problem is that this does copies instead of moves because of initializer_list... Can't get around that either :-( – Barry Jun 24 at 16:00
  • 1
    @Barry Well, if the OP is fine with a custom function doing a swap and returning a pair of references, or not even returning anything, would bypass any temporary creation. – NathanOliver Jun 24 at 16:04
  • 2
    I agree, this is the shortest, least confusing and most maintainable approach. – Stack Danny Jun 24 at 16:07

You can enforce this with a certain level of brevity as follows.

std::tie(a, b) = std::minmax(+a, +b);

std::cout << "a: " << a << ", b: " << b << '\n';

Explanation: the builtin unary plus operator, for the sake of symmetry with its unary minus sibling, returns its operand by value (it also performs the usual arithmetic conversions, but that doesn't apply to ints). This means it has to create a temporary, even though this temporary is nothing but a copy of the operand. But for the usage of minmax in this example, it's sufficient: swapping references here doesn't assign through anymore, because the references on the right hand side (the const int& arguments passed to minmax) don't refer to the same objects as those on the left hand side (inside the tuple of references created by std::tie).

The output is as desired:

a: 5, b: 7


Sometimes, taking a step back and finding a different way pays off:

if (b < a)
    std::iter_swap(&a, &b);

That's concise and generally more efficient, certainly at least on par. Maybe pack it into its own function:

template <class T>
void reorder(T& a, T& b)
noexcept(noexcept(b < a, void(), std::iter_swap(&a, &b))) {
    if (b < a)
        std::iter_swap(&a, &b);

I'm using std::iter_swap() so I don't have to use the using std::swap; swap(a, b) two-step for generality in pre-C++2a, which introduces customization point objects making that obsolete.

  • Doesn't that just make iter_swap dereference the pointers back to do a normal swap on the objects, like std::swap(*a, *b);? – Ted Lyngmo Jun 26 at 16:38
  • @TedLyngmo No, it uses the two-step, finding customized implementations over ADL. – Deduplicator Jun 26 at 16:42
  • @TedLyngmo It's defined in std (as a replacement for importing using std::swap;), and calls swap() unqualified. Voila, the two-step, adapted to implementing std. – Deduplicator Jun 26 at 17:02
  • Ok, I think I got it. For fundamental and std types, will it be able to choose a different swap() implementation than swap itself does? I was under the impression that swap also did some trickery to select customized implementations over the old copy one obj to tmp ...-thingy. – Ted Lyngmo Jun 26 at 17:08
  • @TedLyngmo std::swap() is a lot of overloads: 1. The generic algorithm for single objects. 2. The generic algorithm for native arrays. 3. Some custom implementations for types also in std. The two-step, calling std::iter_swap() instead, or C++2a CPOs are for ensuring custom implementations for user-defined types are found by ADL. – Deduplicator Jun 26 at 17:27

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