std::ranges:: reverse_copy, std::ranges:: reverse_copy_result

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All names in this menu belong to namespace std::ranges
Non-modifying sequence operations
Modifying sequence operations
Partitioning operations
Sorting operations
Binary search operations (on sorted ranges)
Set operations (on sorted ranges)
Heap operations
Minimum/maximum operations
Permutation operations
Fold operations
Operations on uninitialized storage
Return types
Defined in header <algorithm>
Call signature
template < std:: bidirectional_iterator I, std:: sentinel_for < I > S,

std:: weakly_incrementable O >
requires std:: indirectly_copyable < I, O >
constexpr reverse_copy_result < I, O >

reverse_copy ( I first, S last, O result ) ;
(1) (since C++20)
template < ranges:: bidirectional_range R, std:: weakly_incrementable O >

requires std:: indirectly_copyable < ranges:: iterator_t < R > , O >
constexpr reverse_copy_result < ranges:: borrowed_iterator_t < R > , O >

reverse_copy ( R && r, O result ) ;
(2) (since C++20)
Helper types
template < class I, class O >
using reverse_copy_result = ranges:: in_out_result < I, O > ;
(3) (since C++20)
1) Copies the elements from the source range [ first , last ) to the destination range [ result , result + N ) , where N is ranges:: distance ( first, last ) , in such a way that the elements in the new range are in reverse order. Behaves as if by executing the assignment * ( result + N - 1 - i ) = * ( first + i ) once for each integer i in [ 0 , N ) . The behavior is undefined if the source and destination ranges overlap.
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 algorithm function objects (informally known as niebloids ), that is:

Parameters

first, last - the range of elements to copy
r - the range of elements to copy
result - the beginning of the destination range.

Return value

{ last, result + N } .

Complexity

Exactly N assignments.

Notes

Implementations (e.g. MSVC STL ) may enable vectorization when the both iterator types model contiguous_iterator and have the same value type, and the value type is TriviallyCopyable .

Possible implementation

See also the implementations in MSVC STL and libstdc++ . 

struct reverse_copy_fn
{
    template<std::bidirectional_iterator I, std::sentinel_for<I> S,
             std::weakly_incrementable O>
    requires std::indirectly_copyable<I, O>
    constexpr ranges::reverse_copy_result<I, O>
        operator()(I first, S last, O result) const
    {
        auto ret = ranges::next(first, last);
        for (; last != first; *result = *--last, ++result);
        return {std::move(ret), std::move(result)};
    }
 
    template<ranges::bidirectional_range R, std::weakly_incrementable O>
    requires std::indirectly_copyable<ranges::iterator_t<R>, O>
    constexpr ranges::reverse_copy_result<ranges::borrowed_iterator_t<R>, O>
        operator()(R&& r, O result) const
    {
        return (*this)(ranges::begin(r), ranges::end(r), std::move(result));
    }
};
 
inline constexpr reverse_copy_fn reverse_copy {};

Example

Run this code 
#include <algorithm>
#include <iostream>
#include <string>
 
int main()
{
    std::string x {"12345"}, y(x.size(), ' ');
    std::cout << x << " → ";
    std::ranges::reverse_copy(x.begin(), x.end(), y.begin());
    std::cout << y << " → ";
    std::ranges::reverse_copy(y, x.begin());
    std::cout << x << '\n';
}

Output: 

12345 → 54321 → 12345

See also

(C++20)
reverses the order of elements in a range
(algorithm function object)
creates a copy of a range that is reversed
(function template)
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