Namespaces
Variants

    std::ranges::get(std::ranges::subrange)

    From cppreference.com
     
    C++
     
    Ranges library
    Range adaptors
     
    std::ranges::subrange
     
    Defined in header <ranges>
    template< std::size_t N, class I, class S, ranges::subrange_kind K > requires ((N == 0 && std::copyable<I>) || N == 1) constexpr auto get( const ranges::subrange<I, S, K>& r );
    		 (1) (since C++20)
    template< std::size_t N, class I, class S, ranges::subrange_kind K > requires (N < 2) constexpr auto get( ranges::subrange<I, S, K>&& r );
    		 (2) (since C++20)
    namespace std { using ranges::get; }
    		 (3) (since C++20)
    See More

    Provides structured binding support.

    1) Obtains the iterator or sentinel from a subrange lvalue (or a const rvalue) when N == 0 or N == 1, respectively.
    2) Same as (1), except that it takes a non-const subrange rvalue.
    3) Overloads (1,2) are imported into namespace std, which simplifies their usage and makes every subrange with a copyable iterator a pair-like type.

    Parameters

    r - a subrange

    Return value

    1,2) If N is 0, returns r.begin(). Otherwise (N is 1), returns r.end().

    Example

    Run this code
    #include <array>
#include <iostream>
#include <iterator>
#include <ranges>

int main()
{
    std::array a{1, -2, 3, -4};
    
    std::ranges::subrange sub_a{std::next(a.begin()), std::prev(a.end())};
    std::cout << *std::ranges::get<0>(sub_a) << ' '   // == *(begin(a) + 1)
              << *std::ranges::get<1>(sub_a) << '\n'; // == *(end(a) - 1)
    
    *std::get<0>(sub_a) = 42; // OK
//  *std::get<2>(sub_a) = 13; // Error: index can only be 0 or 1
}

    Output: 

    -2 -4

    Defect reports

    The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

    DR Applied to Behavior as published Correct behavior
    LWG 3589 C++20 overload (1) copies begin_ if N is 0, but I might not model copyable added constraints

    See also

    Structured binding (C++17) binds the specified names to sub-objects or tuple elements of the initializer[edit]
    (C++11)
    		 tuple accesses specified element
    (function template) [edit]
    (C++11)
    		 accesses an element of a pair
    (function template) [edit]
    (C++11)
    		 accesses an element of an array
    (function template) [edit]
    (C++17)
    		 reads the value of the variant given the index or the type (if the type is unique), throws on error
    (function template) [edit]
    (C++26)
    		 obtains a reference to real or imaginary part from a std::complex
    (function template) [edit]