24 Ranges library [ranges]

The class template view_interface is a helper for defining view-like types that offer a container-like interface.

It is parameterized with the type that is derived from it.

namespace std::ranges { template<class D> requires is_class_v<D> && same_as<D, remove_cv_t<D>> class view_interface : public view_base { private: constexpr D& derived() noexcept { // exposition only return static_cast<D&>(*this); } constexpr const D& derived() const noexcept { // exposition only return static_cast<const D&>(*this); } public: constexpr bool empty() requires forward_range<D> { return ranges::begin(derived()) == ranges::end(derived()); } constexpr bool empty() const requires forward_range<const D> { return ranges::begin(derived()) == ranges::end(derived()); } constexpr explicit operator bool() requires requires { ranges::empty(derived()); } { return !ranges::empty(derived()); } constexpr explicit operator bool() const requires requires { ranges::empty(derived()); } { return !ranges::empty(derived()); } constexpr auto data() requires contiguous_iterator<iterator_t<D>> { return to_address(ranges::begin(derived())); } constexpr auto data() const requires range<const D> && contiguous_iterator<iterator_t<const D>> { return to_address(ranges::begin(derived())); } constexpr auto size() requires forward_range<D> && sized_sentinel_for<sentinel_t<D>, iterator_t<D>> { return ranges::end(derived()) - ranges::begin(derived()); } constexpr auto size() const requires forward_range<const D> && sized_sentinel_for<sentinel_t<const D>, iterator_t<const D>> { return ranges::end(derived()) - ranges::begin(derived()); } constexpr decltype(auto) front() requires forward_range<D>; constexpr decltype(auto) front() const requires forward_range<const D>; constexpr decltype(auto) back() requires bidirectional_range<D> && common_range<D>; constexpr decltype(auto) back() const requires bidirectional_range<const D> && common_range<const D>; template<random_access_range R = D> constexpr decltype(auto) operator[](range_difference_t<R> n) { return ranges::begin(derived())[n]; } template<random_access_range R = const D> constexpr decltype(auto) operator[](range_difference_t<R> n) const { return ranges::begin(derived())[n]; } }; }

The template parameter D for view_interface may be an incomplete type.

Before any member of the resulting specialization of view_interface other than special member functions is referenced, D shall be complete, and model both derived_from<view_interface<D>> and view .

24.5.3.2 Members [view.interface.members]

constexpr decltype(auto) front() requires forward_range<D>;
constexpr decltype(auto) front() const requires forward_range<const D>;

Preconditions: !empty().

Effects: Equivalent to: return *ranges::begin(derived());

constexpr decltype(auto) back() requires bidirectional_range<D> && common_range<D>;
constexpr decltype(auto) back() const
  requires bidirectional_range<const D> && common_range<const D>;

3

Preconditions: !empty().

4

Effects: Equivalent to: return *ranges::prev(ranges::end(derived()));

24.5.4 Sub-ranges [range.subrange]

24.5.4.1 General [range.subrange.general]

The subrange class template combines together an iterator and a sentinel into a single object that models the view concept.

Additionally, it models the sized_range concept when the final template parameter is subrange_kind::sized.

namespace std::ranges { template<class From, class To> concept convertible-to-non-slicing = // exposition only convertible_to<From, To> && !(is_pointer_v<decay_t<From>> && is_pointer_v<decay_t<To>> && not-same-as<remove_pointer_t<decay_t<From>>, remove_pointer_t<decay_t<To>>>); template<class T> concept pair-like = // exposition only !is_reference_v<T> && requires(T t) { typename tuple_size<T>::type; // ensures tuple_size<T> is complete requires derived_from<tuple_size<T>, integral_constant<size_t, 2>>; typename tuple_element_t<0, remove_const_t<T>>; typename tuple_element_t<1, remove_const_t<T>>; { get<0>(t) } -> convertible_to<const tuple_element_t<0, T>&>; { get<1>(t) } -> convertible_to<const tuple_element_t<1, T>&>; }; template<class T, class U, class V> concept pair-like-convertible-from = // exposition only !range<T> && pair-like<T> && constructible_from<T, U, V> && convertible-to-non-slicing<U, tuple_element_t<0, T>> && convertible_to<V, tuple_element_t<1, T>>; template<class T> concept iterator-sentinel-pair = // exposition only !range<T> && pair-like<T> && sentinel_for<tuple_element_t<1, T>, tuple_element_t<0, T>>; template<input_or_output_iterator I, sentinel_for S = I, subrange_kind K = sized_sentinel_for<S, I> ? subrange_kind::sized : subrange_kind::unsized> requires (K == subrange_kind::sized || !sized_sentinel_for<S, I>) class subrange : public view_interface<subrange<I, S, K>> { private: static constexpr bool StoreSize = // exposition only K == subrange_kind::sized && !sized_sentinel_for<S, I>; I begin_ = I(); // exposition only S end_ = S(); // exposition only make-unsigned-like-t<iter_difference_t> size_ = 0; // exposition only; present only // when StoreSize is true public: subrange() = default; constexpr subrange(convertible-to-non-slicing auto i, S s) requires (!StoreSize); constexpr subrange(convertible-to-non-slicing auto i, S s, make-unsigned-like-t<iter_difference_t> n) requires (K == subrange_kind::sized); template<not-same-as<subrange> R> requires borrowed_range<R> && convertible-to-non-slicing<iterator_t<R>, I> && convertible_to<sentinel_t<R>, S> constexpr subrange(R&& r) requires (!StoreSize || sized_range<R>); template<borrowed_range R> requires convertible-to-non-slicing<iterator_t<R>, I> && convertible_to<sentinel_t<R>, S> constexpr subrange(R&& r, make-unsigned-like-t<iter_difference_t> n) requires (K == subrange_kind::sized) : subrange{ranges::begin(r), ranges::end(r), n} {} template<not-same-as<subrange> PairLike> requires pair-like-convertible-from<PairLike, const I&, const S&> constexpr operator PairLike() const; constexpr I begin() const requires copyable; [[nodiscard]] constexpr I begin() requires (!copyable); constexpr S end() const; constexpr bool empty() const; constexpr make-unsigned-like-t<iter_difference_t> size() const requires (K == subrange_kind::sized); [[nodiscard]] constexpr subrange next(iter_difference_t n = 1) const & requires forward_iterator; [[nodiscard]] constexpr subrange next(iter_difference_t n = 1) &&; [[nodiscard]] constexpr subrange prev(iter_difference_t n = 1) const requires bidirectional_iterator; constexpr subrange& advance(iter_difference_t n); }; template<input_or_output_iterator I, sentinel_for S> subrange(I, S) -> subrange<I, S>; template<input_or_output_iterator I, sentinel_for S> subrange(I, S, make-unsigned-like-t<iter_difference_t>) -> subrange<I, S, subrange_kind::sized>; template<iterator-sentinel-pair P> subrange(P) -> subrange<tuple_element_t<0, P>, tuple_element_t<1, P>>; template<iterator-sentinel-pair P> subrange(P, make-unsigned-like-t<iter_difference_t<tuple_element_t<0, P>>>) -> subrange<tuple_element_t<0, P>, tuple_element_t<1, P>, subrange_kind::sized>; template<borrowed_range R> subrange(R&&) -> subrange<iterator_t<R>, sentinel_t<R>, (sized_range<R> || sized_sentinel_for<sentinel_t<R>, iterator_t<R>>) ? subrange_kind::sized : subrange_kind::unsized>; template<borrowed_range R> subrange(R&&, make-unsigned-like-t<range_difference_t<R>>) -> subrange<iterator_t<R>, sentinel_t<R>, subrange_kind::sized>; template<size_t N, class I, class S, subrange_kind K> requires (N < 2) constexpr auto get(const subrange<I, S, K>& r); template<size_t N, class I, class S, subrange_kind K> requires (N < 2) constexpr auto get(subrange<I, S, K>&& r); } namespace std { using ranges::get; }

24.5.4.2 Constructors and conversions [range.subrange.ctor]

constexpr subrange(convertible-to-non-slicing<I> auto i, S s) requires (!StoreSize);

Preconditions: [i, s) is a valid range.

Effects: Initializes begin_ with std::move(i) and end_ with s.

constexpr subrange(convertible-to-non-slicing<I> auto i, S s,
                   make-unsigned-like-t<iter_difference_t<I>> n)
  requires (K == subrange_kind::sized);

3

Preconditions: [i, s) is a valid range, and n == to-unsigned-like(ranges::distance(i, s)).

4

Effects: Initializes begin_ with std::move(i) and end_ with s.

If StoreSize is true, initializes size_ with n.

5

[Note 1:

Accepting the length of the range and storing it to later return from size() enables subrange to model sized_range even when it stores an iterator and sentinel that do not model sized_sentinel_for .

— end note]

template<not-same-as<subrange> R>
  requires borrowed_range<R> &&
           convertible-to-non-slicing<iterator_t<R>, I> &&
           convertible_to<sentinel_t<R>, S>
constexpr subrange(R&& r) requires (!StoreSize || sized_range<R>);

6

Effects: Equivalent to:

(6.1)
If StoreSize is true, subrange{r, ranges::size(r)}.
(6.2)
Otherwise, subrange{ranges::begin(r), ranges::end(r)}.

template<not-same-as<subrange> PairLike>
  requires pair-like-convertible-from<PairLike, const I&, const S&>
constexpr operator PairLike() const;

7

Effects: Equivalent to: return PairLike(begin_, end_);

24.5.4.3 Accessors [range.subrange.access]

constexpr I begin() const requires copyable<I>;

Effects: Equivalent to: return begin_;

[[nodiscard]] constexpr I begin() requires (!copyable<I>);

Effects: Equivalent to: return std::move(begin_);

constexpr S end() const;

3

Effects: Equivalent to: return end_;

constexpr bool empty() const;

4

Effects: Equivalent to: return begin_ == end_;

constexpr make-unsigned-like-t<iter_difference_t<I>> size() const
  requires (K == subrange_kind::sized);

5

Effects:

(5.1)
If StoreSize is true, equivalent to: return size_;
(5.2)
Otherwise, equivalent to: return to-unsigned-like(end_ - begin_);

[[nodiscard]] constexpr subrange next(iter_difference_t<I> n = 1) const &
  requires forward_iterator<I>;

6

Effects: Equivalent to: auto tmp = *this; tmp.advance(n); return tmp;

[[nodiscard]] constexpr subrange next(iter_difference_t<I> n = 1) &&;

7

Effects: Equivalent to: advance(n); return std::move(*this);

[[nodiscard]] constexpr subrange prev(iter_difference_t<I> n = 1) const
  requires bidirectional_iterator<I>;

8

Effects: Equivalent to: auto tmp = *this; tmp.advance(-n); return tmp;

constexpr subrange& advance(iter_difference_t<I> n);

9

Effects: Equivalent to:

(9.1)
If StoreSize is true, auto d = n - ranges::advance(begin_, n, end_); if (d >= 0) size_ -= to-unsigned-like(d); else size_ += to-unsigned-like(-d); return *this;
(9.2)
Otherwise, ranges::advance(begin_, n, end_); return *this;

template<size_t N, class I, class S, subrange_kind K>
  requires (N < 2)
  constexpr auto get(const subrange<I, S, K>& r);
template<size_t N, class I, class S, subrange_kind K>
  requires (N < 2)
  constexpr auto get(subrange<I, S, K>&& r);

10

Effects: Equivalent to: if constexpr (N == 0) return r.begin(); else return r.end();

24.5.5 Dangling iterator handling [range.dangling]

The tag type dangling is used together with the template aliases borrowed_iterator_t and borrowed_subrange_t to indicate that an algorithm that typically returns an iterator into or subrange of a range argument does not return an iterator or subrange which could potentially reference a range whose lifetime has ended for a particular rvalue range argument which does not model borrowed_range ([range.range]).

namespace std::ranges { struct dangling { constexpr dangling() noexcept = default; template<class... Args> constexpr dangling(Args&&...) noexcept { } }; }