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iterator | begin () const |
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sentinel | end () const |
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template<typename X , typename Y , int _concept_requires___LINE__ = 42, typename std::enable_if< (_concept_requires___LINE__==43)||(ConvertibleTo< I, X >()&&ConvertibleTo< S, Y >()), int >::type = 0> |
constexpr | operator range< X, Y > () const |
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template<typename X , typename Y , int _concept_requires___LINE__ = 42, typename std::enable_if< (_concept_requires___LINE__==43)||(ConvertibleTo< I, X >()&&ConvertibleTo< S, Y >()), int >::type = 0> |
constexpr | operator std::pair< X, Y > () const |
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sized_range & | operator= (sized_range< I, S > const &rng) |
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sized_range & | operator= (sized_range< I, S > &&rng) |
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template<typename X , typename Y , int _concept_requires___LINE__ = 42, typename std::enable_if< (_concept_requires___LINE__==43)||(Assignable< I &, X && >()&&Assignable< S &, Y && >()), int >::type = 0> |
sized_range & | operator= (sized_range< X, Y > rng) |
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iterator_size_t< I > | size () const |
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| sized_range (sized_range< I, S > const &rng) |
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| sized_range (sized_range< I, S > &&rng) |
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template<typename X , typename Y , int _concept_requires___LINE__ = 42, typename std::enable_if< (_concept_requires___LINE__==43)||(ConvertibleTo< X, I >()&&ConvertibleTo< Y, S >()), int >::type = 0> |
| sized_range (std::pair< X, Y > rng, iterator_size_t< I > size) |
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template<typename X , typename Y , int _concept_requires___LINE__ = 42, typename std::enable_if< (_concept_requires___LINE__==43)||(ConvertibleTo< X, I >()&&ConvertibleTo< Y, S >()), int >::type = 0> |
| sized_range (range< X, Y > rng, iterator_size_t< I > size) |
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template<typename X , typename Y , int _concept_requires___LINE__ = 42, typename std::enable_if< (_concept_requires___LINE__==43)||(ConvertibleTo< X, I >()&&ConvertibleTo< Y, S >()), int >::type = 0> |
| sized_range (sized_range< X, Y > rng) |
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| third (size) |
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| third (rng.third) |
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| third (rng.third) |
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range_reference_t< D > | back () |
| Access the last element in a range:
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range_reference_t< D const > | back () const |
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constexpr bool | empty () const |
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range_reference_t< D > | front () |
| Access the first element in a range:
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range_reference_t< D const > | front () const |
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constexpr | operator bool () const |
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| operator Container () |
| Implicit conversion to something that looks like a container.
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| operator Container () const |
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constexpr bool | operator! () const |
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auto | operator[] (range_difference_t< D > n) -> decltype(std::declval< D & >().begin()[n]) |
| Simple indexing:
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auto | operator[] (range_difference_t< D > n) const -> decltype(std::declval< D const & >().begin()[n]) |
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auto | operator[] (detail::slice_bounds< range_difference_t< D >> offs) -> decltype(std::declval< Slice >()(std::declval< D & >(), offs.from, offs.to)) |
| Python-ic slicing:
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auto | operator[] (detail::slice_bounds< range_difference_t< D >> offs) const -> decltype(std::declval< Slice >()(std::declval< D const & >(), offs.from, offs.to)) |
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auto | operator[] (detail::slice_bounds< range_difference_t< D >, detail::from_end_< range_difference_t< D >>> offs) -> decltype(std::declval< Slice >()(std::declval< D & >(), offs.from, offs.to)) |
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auto | operator[] (detail::slice_bounds< range_difference_t< D >, detail::from_end_< range_difference_t< D >>> offs) const -> decltype(std::declval< Slice >()(std::declval< D const & >(), offs.from, offs.to)) |
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auto | operator[] (detail::slice_bounds< detail::from_end_< range_difference_t< D >>, detail::from_end_< range_difference_t< D >>> offs) -> decltype(std::declval< Slice >()(std::declval< D & >(), offs.from, offs.to)) |
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auto | operator[] (detail::slice_bounds< detail::from_end_< range_difference_t< D >>, detail::from_end_< range_difference_t< D >>> offs) const -> decltype(std::declval< Slice >()(std::declval< D const & >(), offs.from, offs.to)) |
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auto | operator[] (detail::slice_bounds< range_difference_t< D >, end_fn > offs) -> decltype(std::declval< Slice >()(std::declval< D & >(), offs.from, offs.to)) |
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auto | operator[] (detail::slice_bounds< range_difference_t< D >, end_fn > offs) const -> decltype(std::declval< Slice >()(std::declval< D const & >(), offs.from, offs.to)) |
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auto | operator[] (detail::slice_bounds< detail::from_end_< range_difference_t< D >>, end_fn > offs) -> decltype(std::declval< Slice >()(std::declval< D & >(), offs.from, offs.to)) |
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auto | operator[] (detail::slice_bounds< detail::from_end_< range_difference_t< D >>, end_fn > offs) const -> decltype(std::declval< Slice >()(std::declval< D const & >(), offs.from, offs.to)) |
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constexpr range_size_t< D > | size () const |
| Access the size of the range, if it can be determined:
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