ranges::v3::tail_view< Rng > Struct Template Reference

Inheritance diagram for ranges::v3::tail_view< Rng >:

Public Types
using	iterator = iterator_t< Rng >
using	sentinel = sentinel_t< Rng >

Public Member Functions
Rng &	base ()
Rng const &	base () const
iterator	begin ()
iterator	begin () const
sentinel	end ()
sentinel	end () const
constexpr size_type_	size () const
	tail_view (Rng rng)
Public Member Functions inherited from ranges::v3::view_interface< Derived, Cardinality >
template<typename D = Derived, requires = (Same<D, Derived>() && RandomAccessRange<D>() && SizedRange<D>())>
auto	at (range_difference_type_t< D > n) -> decltype(std::declval< D &>().begin()[n])
	Returns a reference to the element at specified location pos, with bounds checking.
template<typename D = Derived, requires = (Same<D, Derived>() && RandomAccessRange<D const>() && SizedRange<D const>())>
auto	at (range_difference_type_t< D > n) const -> decltype(std::declval< D const &>().begin()[n])
template<typename D = Derived, requires = (Same<D, Derived>() && BoundedRange<D>() && BidirectionalRange<D>())>
range_reference_t< D >	back ()
	Access the last element in a range:
template<typename D = Derived, requires = (Same<D, Derived>() && BoundedRange<D const>() && BidirectionalRange<D const>())>
range_reference_t< D const >	back () const
constexpr bool	empty () const noexcept
template<typename D = Derived, requires = (Same<D, Derived>() && Cardinality < 0 && ForwardRange<D const>())>
constexpr bool	empty () const noexcept(noexcept(bool(ranges::begin(std::declval< D const &>())==ranges::end(std::declval< D const &>()))))
template<typename D = Derived, requires = (Same<D, Derived>() && ForwardRange<D>())>
range_reference_t< D >	front ()
	Access the first element in a range:
template<typename D = Derived, requires = (Same<D, Derived>() && ForwardRange<D const>())>
range_reference_t< D const >	front () const
template<typename D = Derived, requires = (Same<D, Derived>()), typename = decltype(ranges::empty(std::declval<D const &>()))>
constexpr	operator bool () const noexcept(noexcept(ranges::empty(std::declval< D const &>())))
template<typename Container , typename D = Derived, typename = typename Container::allocator_type, requires = (detail::ConvertibleToContainer<D, Container>())>
	operator Container ()
	Implicit conversion to something that looks like a container.
template<typename Container , typename D = Derived, typename = typename Container::allocator_type, requires = (detail::ConvertibleToContainer<D const, Container>())>
	operator Container () const
template<typename D = Derived, requires = (Same<D, Derived>())>
constexpr auto	operator! () const noexcept(noexcept(decltype(ranges::empty(std::declval< D const &>()))(ranges::empty(std::declval< D const &>())))) -> decltype(ranges::empty(std::declval< D const &>()))
view_interface &	operator= (view_interface &&)=default
view_interface &	operator= (view_interface const &)=default
template<typename D = Derived, requires = (Same<D, Derived>() && RandomAccessRange<D>())>
auto	operator[] (range_difference_type_t< D > n) -> decltype(std::declval< D &>().begin()[n])
	Simple indexing:
template<typename D = Derived, requires = (Same<D, Derived>() && RandomAccessRange<D const>())>
auto	operator[] (range_difference_type_t< D > n) const -> decltype(std::declval< D const &>().begin()[n])
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >> offs) &-> decltype(std::declval< Slice >()(std::declval< D &>(), offs.from, offs.to))
	Python-ic slicing:
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >> offs) const &-> decltype(std::declval< Slice >()(std::declval< D const &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >> offs) &&-> decltype(std::declval< Slice >()(std::declval< D >(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >, detail::from_end_< range_difference_type_t< D >>> offs) &-> decltype(std::declval< Slice >()(std::declval< D &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >, detail::from_end_< range_difference_type_t< D >>> offs) const &-> decltype(std::declval< Slice >()(std::declval< D const &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >, detail::from_end_< range_difference_type_t< D >>> offs) &&-> decltype(std::declval< Slice >()(std::declval< D >(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< detail::from_end_< range_difference_type_t< D >>, detail::from_end_< range_difference_type_t< D >>> offs) &-> decltype(std::declval< Slice >()(std::declval< D &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< detail::from_end_< range_difference_type_t< D >>, detail::from_end_< range_difference_type_t< D >>> offs) const &-> decltype(std::declval< Slice >()(std::declval< D const &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< detail::from_end_< range_difference_type_t< D >>, detail::from_end_< range_difference_type_t< D >>> offs) &&-> decltype(std::declval< Slice >()(std::declval< D >(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >, end_fn > offs) &-> decltype(std::declval< Slice >()(std::declval< D &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >, end_fn > offs) const &-> decltype(std::declval< Slice >()(std::declval< D const &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< range_difference_type_t< D >, end_fn > offs) &&-> decltype(std::declval< Slice >()(std::declval< D >(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< detail::from_end_< range_difference_type_t< D >>, end_fn > offs) &-> decltype(std::declval< Slice >()(std::declval< D &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< detail::from_end_< range_difference_type_t< D >>, end_fn > offs) const &-> decltype(std::declval< Slice >()(std::declval< D const &>(), offs.from, offs.to))
template<typename D = Derived, typename Slice = view::slice_fn, requires = (Same<D, Derived>())>
auto	operator[] (detail::slice_bounds< detail::from_end_< range_difference_type_t< D >>, end_fn > offs) &&-> decltype(std::declval< Slice >()(std::declval< D >(), offs.from, offs.to))
template<typename D = Derived, requires = (Same<D, Derived>() && Cardinality >= 0)>
constexpr range_size_type_t< D >	size () const noexcept
	Access the size of the range, if it can be determined:
template<typename D = Derived, requires = (Same<D, Derived>() && Cardinality < 0 && SizedSentinel<sentinel_t<D const>, iterator_t<D const>>() && ForwardRange<D const>())>
constexpr range_size_type_t< D >	size () const
	view_interface (view_interface &&)=default
	view_interface (view_interface const &)=default

Additional Inherited Members
Protected Member Functions inherited from ranges::v3::view_interface< Derived, Cardinality >
Derived &	derived () noexcept
constexpr Derived const &	derived () const noexcept

Member Function Documentation

begin()

template<typename Rng >

iterator ranges::v3::tail_view< Rng >::begin

(

)

const

Precondition

Range<Rng const>()

References ranges::v3::begin, ranges::v3::end, and ranges::v3::next.

end()

template<typename Rng >

sentinel ranges::v3::tail_view< Rng >::end

(

)

const

Precondition

Range<Rng const>()

References ranges::v3::end.

size()

template<typename Rng >

constexpr size_type_ ranges::v3::tail_view< Rng >::size

(

)

const

Precondition

SizedView<Rng>()