Core

Description

Core range functionality.

Classes
struct	ranges::v3::adaptor_base
struct	ranges::v3::adaptor_cursor< BaseIter, Adapt >
struct	ranges::v3::adaptor_sentinel< BaseSent, Adapt >
struct	ranges::v3::at_fn
	Checked indexed range access. More...
struct	ranges::v3::back_fn
struct	ranges::v3::bidirectional_iterator_tag
struct	ranges::v3::contiguous_iterator_tag
struct	ranges::v3::dangling< I >
	A wrapper for an iterator or a sentinel into a range that may no longer be valid. More...
struct	ranges::v3::distance_compare_fn
struct	ranges::v3::distance_fn
struct	ranges::v3::enumerate_fn
struct	ranges::v3::forward_iterator_tag
struct	ranges::v3::front_fn
struct	ranges::v3::get_unsafe_fn
struct	ranges::v3::getlines_fn
struct	ranges::v3::getlines_range
struct	ranges::v3::index_fn
	Unchecked indexed range access. More...
struct	ranges::v3::input_iterator_tag
struct	ranges::v3::istream_range< Val >
struct	ranges::v3::iterator_range< I, S >
struct	ranges::v3::make_iterator_range_fn
struct	ranges::v3::random_access_iterator_tag
struct	ranges::v3::range_cardinality< Rng, Void >
struct	ranges::v3::sanitize_fn
struct	ranges::v3::sized_iterator_range< I, S >
struct	ranges::v3::view_adaptor< Derived, BaseRng, Cardinality >
struct	ranges::v3::view_facade< Derived, Cardinality >
	A utility for constructing a view from a (derived) type that implements begin and end cursors. More...
struct	ranges::v3::view_interface< Derived, Cardinality >

Typedefs
template<typename D >
using	ranges::v3::adaptor_cursor_t = adaptor_cursor< detail::adapted_iterator_t< D >, detail::begin_adaptor_t< D > >
template<typename D >
using	ranges::v3::adaptor_sentinel_t = meta::if_< meta::and_< Same< detail::adapted_iterator_t< D >, detail::adapted_sentinel_t< D > >, Same< detail::begin_adaptor_t< D >, detail::end_adaptor_t< D > >>, adaptor_cursor_t< D >, adaptor_sentinel< detail::adapted_sentinel_t< D >, detail::end_adaptor_t< D > >>
template<typename I >
using	ranges::v3::difference_type_t = concepts::WeaklyIncrementable::difference_t< I >
template<typename I >
using	ranges::v3::iter_common_reference_t = concepts::Readable::common_reference_t< I >
template<typename I >
using	ranges::v3::iterator_category_t = concepts::InputIterator::category_t< I >
template<typename Rng >
using	ranges::v3::iterator_t = concepts::Range::iterator_t< Rng >
template<typename Rng >
using	ranges::v3::range_category_t = concepts::InputRange::category_t< Rng >
template<typename Rng >
using	ranges::v3::range_common_iterator_t = common_iterator_t< iterator_t< Rng >, sentinel_t< Rng > >
template<typename Rng >
using	ranges::v3::range_common_reference_t = concepts::InputRange::common_reference_t< Rng >
template<typename Rng >
using	ranges::v3::range_difference_type_t = concepts::Range::difference_t< Rng >
template<typename Rng >
using	ranges::v3::range_reference_t = concepts::InputRange::reference_t< Rng >
template<typename Rng >
using	ranges::v3::range_rvalue_reference_t = concepts::InputRange::rvalue_reference_t< Rng >
template<typename Rng >
using	ranges::v3::range_size_type_t = meta::_t< std::make_unsigned< range_difference_type_t< Rng > >>
template<typename Rng >
using	ranges::v3::range_value_type_t = concepts::InputRange::value_t< Rng >
template<typename I >
using	ranges::v3::reference_t = concepts::Readable::reference_t< I >
template<typename I >
using	ranges::v3::rvalue_reference_t = concepts::Readable::rvalue_reference_t< I >
template<typename Rng >
using	ranges::v3::safe_iterator_t = meta::if_< std::is_lvalue_reference< Rng >, meta::if_< Range< Rng >, iterator_t< Rng > >, dangling< iterator_t< Rng > >>
template<typename Rng >
using	ranges::v3::sentinel_t = concepts::Range::sentinel_t< Rng >
template<typename I >
using	ranges::v3::size_type_t = meta::_t< std::make_unsigned< difference_type_t< I > >>
template<typename I >
using	ranges::v3::value_type_t = concepts::Readable::value_t< I >

Functions
template<std::size_t N, typename I , typename S , requires = (N < 2)>
constexpr auto	ranges::v3::get (sized_iterator_range< I, S > const &p) -> decltype(ranges::get< N >(static_cast< iterator_range< I, S > const &>(p)))
	Tuple-like access for sized_iterator_range
template<typename Val >
istream_range< Val >	ranges::v3::istream (std::istream &sin)
template<template< typename... > class ContT>
detail::to_container_fn< meta::quote< ContT > >	ranges::v3::to_ ()
	For initializing a container of the specified type with the elements of an Range.
template<template< typename... > class ContT, typename Rng , typename Cont = meta::invoke<meta::quote<ContT>, range_value_type_t<Rng>>, requires = (Range<Rng>() && detail::ConvertibleToContainer<Rng, Cont>())>
Cont	ranges::v3::to_ (Rng &&rng)
template<template< typename... > class ContT, typename T , typename Cont = meta::invoke<meta::quote<ContT>, T>, requires = (detail::ConvertibleToContainer<std::initializer_list<T>, Cont>())>
Cont	ranges::v3::to_ (std::initializer_list< T > list)
template<typename Cont , typename Rng , requires = (Range<Rng>() && detail::ConvertibleToContainer<Rng, Cont>())>
Cont	ranges::v3::to_ (Rng &&rng)
template<typename Cont , typename T , requires = (detail::ConvertibleToContainer<std::initializer_list<T>, Cont>())>
Cont	ranges::v3::to_ (std::initializer_list< T > list)

Variables
constexpr at_fn	ranges::v3::at {}
	Checked indexed range access. More...
constexpr back_fn	ranges::v3::back {}
constexpr _begin_::fn	ranges::v3::begin {}
constexpr _cbegin_::fn	ranges::v3::cbegin {}
constexpr _cend_::fn	ranges::v3::cend {}
constexpr _crbegin_::fn	ranges::v3::crbegin {}
constexpr _crend_::fn	ranges::v3::crend {}
constexpr distance_fn	ranges::v3::distance {}
constexpr distance_compare_fn	ranges::v3::distance_compare {}
constexpr _empty_::fn	ranges::v3::empty {}
constexpr _end_::fn	ranges::v3::end {}
constexpr enumerate_fn	ranges::v3::enumerate {}
constexpr front_fn	ranges::v3::front {}
constexpr get_unsafe_fn	ranges::v3::get_unsafe {}
constexpr getlines_fn	ranges::v3::getlines {}
constexpr index_fn	ranges::v3::index {}
	Unchecked indexed range access. More...
constexpr make_iterator_range_fn	ranges::v3::make_iterator_range {}
constexpr _rbegin_::fn	ranges::v3::rbegin {}
constexpr _rend_::fn	ranges::v3::rend {}
constexpr sanitize_fn	ranges::v3::sanitize {}
constexpr _size_::fn	ranges::v3::size {}
constexpr detail::to_container_fn< meta::quote< std::vector > >	ranges::v3::to_vector {}

Function Documentation

to_() [1/4]

template<template< typename... > class ContT, typename Rng , typename Cont = meta::invoke<meta::quote<ContT>, range_value_type_t<Rng>>, requires = (Range<Rng>() && detail::ConvertibleToContainer<Rng, Cont>())>

Cont ranges::v3::to_

(

Rng &&

rng

)

#include <range/v3/to_container.hpp>

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

to_() [2/4]

template<template< typename... > class ContT, typename T , typename Cont = meta::invoke<meta::quote<ContT>, T>, requires = (detail::ConvertibleToContainer<std::initializer_list<T>, Cont>())>

Cont ranges::v3::to_

(

std::initializer_list< T >

list

)

#include <range/v3/to_container.hpp>

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

to_() [3/4]

template<typename Cont , typename Rng , requires = (Range<Rng>() && detail::ConvertibleToContainer<Rng, Cont>())>

Cont ranges::v3::to_

(

Rng &&

rng

)

#include <range/v3/to_container.hpp>

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

to_() [4/4]

template<typename Cont , typename T , requires = (detail::ConvertibleToContainer<std::initializer_list<T>, Cont>())>

Cont ranges::v3::to_

(

std::initializer_list< T >

list

)

#include <range/v3/to_container.hpp>

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Variable Documentation

at

constexpr at_fn ranges::v3::at {}

#include <range/v3/at.hpp>

Checked indexed range access.

See also

at_fn

back

constexpr back_fn ranges::v3::back {}

#include <range/v3/back.hpp>

See also

back_fn

begin

constexpr _begin_::fn ranges::v3::begin {}

#include <range/v3/begin_end.hpp>

Parameters

r

Returns

r, if r is an array. Otherwise, r.begin() if that expression is well-formed and returns an Iterator. Otherwise, begin(r) if that expression returns an Iterator.

Referenced by ranges::v3::tokenize_view< Rng, Regex, SubMatchRange >::begin(), ranges::v3::tail_view< Rng >::begin(), ranges::v3::front_fn::operator()(), ranges::v3::at_fn::operator()(), and ranges::v3::index_fn::operator()().

cbegin

constexpr _cbegin_::fn ranges::v3::cbegin {}

#include <range/v3/begin_end.hpp>

Parameters

r

Returns

The result of calling ranges::begin with a const-qualified reference to r.

cend

constexpr _cend_::fn ranges::v3::cend {}

#include <range/v3/begin_end.hpp>

Parameters

r

Returns

The result of calling ranges::end with a const-qualified reference to r.

crbegin

constexpr _crbegin_::fn ranges::v3::crbegin {}

#include <range/v3/begin_end.hpp>

Parameters

r

Returns

The result of calling ranges::rbegin with a const-qualified reference to r.

crend

constexpr _crend_::fn ranges::v3::crend {}

#include <range/v3/begin_end.hpp>

Parameters

r

Returns

The result of calling ranges::rend with a const-qualified reference to r.

distance

constexpr distance_fn ranges::v3::distance {}

#include <range/v3/distance.hpp>

See also

distance_fn

Referenced by ranges::v3::index_fn::operator()().

distance_compare

constexpr distance_compare_fn ranges::v3::distance_compare {}

#include <range/v3/distance.hpp>

See also

distance_compare_fn

empty

constexpr _empty_::fn ranges::v3::empty {}

#include <range/v3/empty.hpp>

Returns

true if and only if range contains no elements.

end

constexpr _end_::fn ranges::v3::end {}

#include <range/v3/begin_end.hpp>

Parameters

r

Returns

r+size(r), if r is an array. Otherwise, r.end() if that expression is well-formed and returns an Iterator. Otherwise, end(r) if that expression returns an Iterator.

Referenced by ranges::v3::view_interface< partial_sum_view< Rng, Fun >, Cardinality >::back(), ranges::v3::tokenize_view< Rng, Regex, SubMatchRange >::begin(), ranges::v3::tail_view< Rng >::begin(), ranges::v3::tail_view< Rng >::end(), ranges::v3::drop_view< Rng >::end(), and ranges::v3::back_fn::operator()().

enumerate

constexpr enumerate_fn ranges::v3::enumerate {}

#include <range/v3/distance.hpp>

See also

enumerate_fn

front

constexpr front_fn ranges::v3::front {}

#include <range/v3/front.hpp>

See also

front_fn

get_unsafe

constexpr get_unsafe_fn ranges::v3::get_unsafe {}

#include <range/v3/utility/dangling.hpp>

Returns

t.get_unsafe() if t is an instance of ranges::dangling; otherwise, return t.

index

constexpr index_fn ranges::v3::index {}

#include <range/v3/index.hpp>

Unchecked indexed range access.

See also

index_fn

make_iterator_range

constexpr make_iterator_range_fn ranges::v3::make_iterator_range {}

#include <range/v3/iterator_range.hpp>

See also

make_iterator_range_fn

rbegin

constexpr _rbegin_::fn ranges::v3::rbegin {}

#include <range/v3/begin_end.hpp>

Parameters

r

Returns

make_reverse_iterator(r+size(r)) if r is an array. Otherwise, r.rbegin() if that expression is well-formed and returns an Iterator. Otherwise, make_reverse_iterator(ranges::end(r)) if ranges::begin(r) and ranges::end(r) are both well-formed and have the same type that satisfies BidirectionalIterator.

rend

constexpr _rend_::fn ranges::v3::rend {}

#include <range/v3/begin_end.hpp>

Parameters

r

Returns

make_reverse_iterator(r)) if r is an array. Otherwise, r.rend() if that expression is well-formed and returns a type that satisfies Sentinel<S, I> where I is the type of ranges::rbegin(r). Otherwise, make_reverse_iterator(ranges::begin(r)) if ranges::begin(r) and ranges::end(r) are both well-formed and have the same type that satisfies BidirectionalIterator.

sanitize

constexpr sanitize_fn ranges::v3::sanitize {}

#include <range/v3/utility/dangling.hpp>

Returns

the result of replacing all ranges::dangling<T> objects with ranges::dangling<void>, introspecting std::pair and std::tuple objects recursively.

size

constexpr _size_::fn ranges::v3::size {}

#include <range/v3/size.hpp>

Returns

The result of an unqualified call to size Not to spec per N4651: allow non-const size functions (See https://github.com/ericniebler/range-v3/issues/385)