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std::ranges::advance

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C++
 
Iterator library
Iterator concepts
Iterator primitives
Algorithm concepts and utilities
Indirect callable concepts
Common algorithm requirements
(C++20)
(C++20)
(C++20)
Utilities
(C++20)
Iterator adaptors
Iterator operations
(C++11)  
(C++11)
ranges::advance
(C++20)
(C++20)
(C++20)
(C++20)
Range access
(C++11)(C++14)
(C++14)(C++14)  
(C++11)(C++14)
(C++14)(C++14)  
(C++17)(C++20)
(C++17)
(C++17)
 
Defined in header <iterator>
Call signature
template< std::input_or_output_iterator I >
constexpr void advance( I& i, std::iter_difference_t<I> n );
 (1) (since C++20)
template< std::input_or_output_iterator I, std::sentinel_for<I> S >
constexpr void advance( I& i, S bound );
 (2) (since C++20)
template< std::input_or_output_iterator I, std::sentinel_for<I> S >
constexpr std::iter_difference_t<I> advance( I& i, std::iter_difference_t<I> n, S bound );
 (3) (since C++20)
1) Increments given iterator i for n times.
2) Increments given iterator i until i == bound.
3) Increments given iterator i for n times, or until i == bound, whichever comes first.

If n is negative, the iterator is decremented. In this case, I must model std::bidirectional_iterator, and S must be the same type as I if bound is provided, otherwise the behavior is undefined.

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

i - iterator to be advanced
bound - sentinel denoting the end of the range i is an iterator to
n - number of maximal increments of i

Return value

3) The difference between n and the actual distance i traversed.

Complexity

Linear.

However, if I additionally models std::random_access_iterator, or S models std::sized_sentinel_for<I>, or I and S model std::assignable_from<I&, S>, complexity is constant.

Notes

The behavior is undefined if the specified sequence of increments or decrements would require that a non-incrementable iterator (such as the past-the-end iterator) is incremented, or that a non-decrementable iterator (such as the front iterator or the singular iterator) is decremented.

Possible implementation

struct advance_fn
{
    template<std::input_or_output_iterator I>
    constexpr void operator()(I& i, std::iter_difference_t<I> n) const
    {
        if constexpr (std::random_access_iterator<I>)
            i += n;
        else
        {
            while (n > 0)
            {
                --n;
                ++i;
            }
 
            if constexpr (std::bidirectional_iterator<I>)
            {
                while (n < 0)
                {
                    ++n;
                    --i;
                }
            }
        }
    }
 
    template<std::input_or_output_iterator I, std::sentinel_for<I> S>
    constexpr void operator()(I& i, S bound) const
    {
        if constexpr (std::assignable_from<I&, S>)
            i = std::move(bound);
        else if constexpr (std::sized_sentinel_for<S, I>)
            (*this)(i, bound - i);
        else
            while (i != bound)
                ++i;
    }
 
    template<std::input_or_output_iterator I, std::sentinel_for<I> S>
    constexpr std::iter_difference_t<I>
    operator()(I& i, std::iter_difference_t<I> n, S bound) const
    {
        if constexpr (std::sized_sentinel_for<S, I>)
        {
            // std::abs is not constexpr until C++23
            auto abs = [](const std::iter_difference_t<I> x) { return x < 0 ? -x : x; };
 
            if (const auto dist = abs(n) - abs(bound - i); dist < 0)
            {
                (*this)(i, bound);
                return -dist;
            }
 
            (*this)(i, n);
            return 0;
        }
        else
        {
            while (n > 0 && i != bound)
            {
                --n;
                ++i;
            }
 
            if constexpr (std::bidirectional_iterator<I>)
            {
                while (n < 0 && i != bound)
                {
                    ++n;
                    --i;
                }
            }
 
            return n;
        }
    }
};
 
inline constexpr auto advance = advance_fn();

Example

Run this code
#include <iomanip>
#include <iostream>
#include <iterator>
#include <vector>
 
int main()
{
    std::vector<int> v {3, 1, 4};
 
    auto vi = v.begin();
 
    std::ranges::advance(vi, 2);
    std::cout << "1) value: " << *vi << '\n' << std::boolalpha;
 
    std::ranges::advance(vi, v.end());
    std::cout << "2) vi == v.end(): " << (vi == v.end()) << '\n';
 
    std::ranges::advance(vi, -3);
    std::cout << "3) value: " << *vi << '\n';
 
    std::cout << "4) diff: " << std::ranges::advance(vi, 2, v.end())
              << ", value: " << *vi << '\n';
 
    std::cout << "5) diff: " << std::ranges::advance(vi, 4, v.end())
              << ", vi == v.end(): " << (vi == v.end()) << '\n';
}

Output: 

1) value: 4
2) vi == v.end(): true
3) value: 3
4) diff: 0, value: 4
5) diff: 3, vi == v.end(): true

See also

(C++20)
 increment an iterator by a given distance or to a bound
(niebloid)[edit]
(C++20)
 decrement an iterator by a given distance or to a bound
(niebloid)[edit]
(C++20)
 returns the distance between an iterator and a sentinel, or between the beginning and end of a range
(niebloid)[edit]
advances an iterator by given distance
(function template) [edit]
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