std::ranges::contiguous_range

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< cpp‎ | ranges
 
C++
 
Ranges library
Range access
Range conversions
(C++23)
Range primitives
(C++23)



Dangling iterator handling
Range concepts
Views

Range factories
Range adaptors
Range generators
Range adaptor objects
Range adaptor closure objects
Helper items
(until C++23)(C++23)


 
Defined in header <ranges>
template< class T >

  concept contiguous_range =
    ranges::random_access_range<T> &&
    std::contiguous_iterator<ranges::iterator_t<T>> &&
    requires(T& t) {
      { ranges::data(t) } ->
        std::same_as<std::add_pointer_t<ranges::range_reference_t<T>>>;

    };
 (since C++20)

The contiguous_range concept is a refinement of range for which ranges::begin returns a model of contiguous_iterator and the customization point ranges::data is usable.

Semantic requirements

T models contiguous_range only if given an expression e such that decltype((e)) is T&, std::to_address(ranges::begin(e)) == ranges::data(e).

Example

Run this code
#include <array>
#include <deque>
#include <list>
#include <ranges>
#include <set>
#include <valarray>
#include <vector>
 
template<typename T> concept CR = std::ranges::contiguous_range<T>;
 
int main()
{
    int a[4];
    static_assert(
            CR<std::vector<int>> and
        not CR<std::vector<bool>> and
        not CR<std::deque<int>> and
            CR<std::valarray<int>> and
            CR<decltype(a)> and
        not CR<std::list<int>> and
        not CR<std::set<int>> and
            CR<std::array<std::list<int>,42>>
    );
}

See also

(C++20)
 specifies that a range knows its size in constant time
(concept)
(C++20)
 specifies a range whose iterator type satisfies random_access_iterator
(concept)
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