Standard library header <experimental/ranges/range>
From cppreference.com
This header is part of the ranges library.
Range concepts
Defined in namespace
std::experimental::ranges | |
specifies that a type is a range, that is, it provides a begin iterator and an end sentinel (concept) | |
| specifies that a range knows its size in constant time (concept) | |
| specifies that a range is a view, that is, it has constant time copy/move/assignment (concept) | |
| specifies that a range has identical iterator and sentinel types (concept) | |
specifies a range whose iterator type satisfies InputIterator (concept) | |
specifies a range whose iterator type satisfies OutputIterator (concept) | |
specifies a range whose iterator type satisfies ForwardIterator (concept) | |
specifies a range whose iterator type satisfies BidirectionalIterator (concept) | |
specifies a range whose iterator type satisfies RandomAccessIterator (concept) | |
Range access
Defined in namespace
std::experimental::ranges | |
| returns an iterator to the beginning of a range (customization point object) | |
| returns an iterator to the end of a range (customization point object) | |
| returns a reverse iterator to a range (customization point object) | |
| returns a reverse end iterator to a range (customization point object) | |
Range primitives
Defined in namespace
std::experimental::ranges | |
| obtains the size of a range whose size can be calculated in constant time (customization point object) | |
| checks whether a range is empty (customization point object) | |
| obtains a pointer to the beginning of a contiguous range (customization point object) | |
| obtains the iterator and sentinel types of a range (alias template) | |
Synopsis
#include <experimental/ranges/iterator>
namespace std { namespace experimental { namespace ranges { inline namespace v1 {
namespace {
constexpr /* unspecified */ begin = /* unspecified */;
constexpr /* unspecified */ end = /* unspecified */;
constexpr /* unspecified */ cbegin = /* unspecified */;
constexpr /* unspecified */ cend = /* unspecified */;
constexpr /* unspecified */ rbegin = /* unspecified */;
constexpr /* unspecified */ rend = /* unspecified */;
constexpr /* unspecified */ crbegin = /* unspecified */;
constexpr /* unspecified */ crend = /* unspecified */;
}
namespace {
constexpr /* unspecified */ size = /* unspecified */;
constexpr /* unspecified */ empty = /* unspecified */;
constexpr /* unspecified */ data = /* unspecified */;
constexpr /* unspecified */ cdata = /* unspecified */;
}
template <class T>
using iterator_t = decltype(ranges::begin(declval<T&>()));
template <class T>
using sentinel_t = decltype(ranges::end(declval<T&>()));
template <class>
constexpr bool disable_sized_range = false;
template <class T>
struct enable_view { };
struct view_base { };
template <class T>
concept bool Range = /* see definition */;
template <class T>
concept bool SizedRange = /* see definition */;
template <class T>
concept bool View = /* see definition */;
template <class T>
concept bool BoundedRange = /* see definition */;
template <class T>
concept bool InputRange = /* see definition */;
template <class R, class T>
concept bool OutputRange = /* see definition */;
template <class T>
concept bool ForwardRange = /* see definition */;
template <class T>
concept bool BidirectionalRange = /* see definition */;
template <class T>
concept bool RandomAccessRange = /* see definition */;
}}}}
