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std::ranges::minmax_element, std::ranges::minmax_element_result

From cppreference.com
< cpp‎ | algorithm‎ | ranges
 
 
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All names in this menu belong to namespace std::ranges
Non-modifying sequence operations
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Binary search operations (on sorted ranges)
       
       
Set operations (on sorted ranges)
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Minimum/maximum operations
       
       
minmax_element
   
Permutation operations
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(C++23)            
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Return types
 
Defined in header <algorithm>
Call signature
template< std::forward_iterator I, std::sentinel_for<I> S, class Proj = std::identity,

          std::indirect_strict_weak_order<std::projected<I, Proj>> Comp = ranges::less >
constexpr minmax_element_result<I>

    minmax_element( I first, S last, Comp comp = {}, Proj proj = {} );
(1) (since C++20)
template< ranges::forward_range R, class Proj = std::identity,

          std::indirect_strict_weak_order<
              std::projected<ranges::iterator_t<R>, Proj>> Comp = ranges::less >
constexpr minmax_element_result<ranges::borrowed_iterator_t<R>>

    minmax_element( R&& r, Comp comp = {}, Proj proj = {} );
(2) (since C++20)
Helper types
template< class I >
using minmax_element_result = ranges::min_max_result<I>;
(3) (since C++20)
1) Finds the smallest and largest elements in the range [firstlast).
2) Same as (1), but uses r as the source range, as if using ranges::begin(r) as first and ranges::end(r) as last.

The function-like entities described on this page are niebloids, that is:

In practice, they may be implemented as function objects, or with special compiler extensions.

Contents

Parameters

first, last - iterator-sentinel pair denoting the range to examine
r - the range to examine
comp - comparison to apply to the projected elements
proj - projection to apply to the elements.

Return value

An object consisting of an iterator to the smallest element as the first element and an iterator to the greatest element as the second. Returns {first, first} if the range is empty. If several elements are equivalent to the smallest element, the iterator to the first such element is returned. If several elements are equivalent to the largest element, the iterator to the last such element is returned.

Complexity

At most std::max(std::floor(1.5 * (N − 1)), 0.0) applications of the comparison and twice as many applications of the projection, where N = ranges::distance(first, last).

Possible implementation

struct minmax_element_fn
{
    template<std::forward_iterator I, std::sentinel_for<I> S, class Proj = std::identity,
             std::indirect_strict_weak_order<std::projected<I, Proj>> Comp = ranges::less>
    constexpr ranges::minmax_element_result<I>
        operator()(I first, S last, Comp comp = {}, Proj proj = {}) const
    {
        auto min = first, max = first;
 
        if (first == last || ++first == last)
            return {min, max};
 
        if (std::invoke(comp, std::invoke(proj, *first),
                              std::invoke(proj, *min)))
            min = first;
        else
            max = first;
 
        while (++first != last)
        {
            auto i = first;
            if (++first == last)
            {
                if (std::invoke(comp, std::invoke(proj, *i),
                                      std::invoke(proj, *min)))
                    min = i;
                else if (!(std::invoke(comp, std::invoke(proj, *i),
                                             std::invoke(proj, *max))))
                    max = i;
                break;
            }
            else
            {
                if (std::invoke(comp, std::invoke(proj, *first),
                                      std::invoke(proj, *i)))
                {
                  if (std::invoke(comp, std::invoke(proj, *first),
                                        std::invoke(proj, *min)))
                      min = first;
                  if (!(std::invoke(comp, std::invoke(proj, *i),
                                          std::invoke(proj, *max))))
                      max = i;
                }
                else
                {
                    if (std::invoke(comp, std::invoke(proj, *i),
                                          std::invoke(proj, *min)))
                        min = i;
                    if (!(std::invoke(comp, std::invoke(proj, *first),
                                            std::invoke(proj, *max))))
                        max = first;
                }
            }
        }
        return {min, max};
    }
 
    template<ranges::forward_range R, class Proj = std::identity,
             std::indirect_strict_weak_order<
                 std::projected<ranges::iterator_t<R>, Proj>> Comp = ranges::less>
    constexpr ranges::minmax_element_result<ranges::borrowed_iterator_t<R>>
        operator()(R&& r, Comp comp = {}, Proj proj = {}) const
    {
        return (*this)(ranges::begin(r), ranges::end(r), std::ref(comp), std::ref(proj));
    }
};
 
inline constexpr minmax_element_fn minmax_element;

Example

#include <algorithm>
#include <iostream>
#include <iterator>
namespace ranges = std::ranges;
 
int main()
{
    const auto v = {3, 9, 1, 4, 1, 2, 5, 9};
    const auto [min, max] = ranges::minmax_element(v);
    std::cout
        << "min = " << *min << ", at [" << ranges::distance(v.begin(), min) << "]\n"
        << "max = " << *max << ", at [" << ranges::distance(v.begin(), max) << "]\n";
}

Output:

min = 1, at [2]
max = 9, at [7]

See also

returns the smallest element in a range
(niebloid)[edit]
returns the largest element in a range
(niebloid)[edit]
returns the smaller and larger of two elements
(niebloid)[edit]
returns the smallest and the largest elements in a range
(function template) [edit]