// Utilities for representing and manipulating ranges -*- C++ -*- // Copyright (C) 2019-2022 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 3, or (at your option) // any later version. // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // Under Section 7 of GPL version 3, you are granted additional // permissions described in the GCC Runtime Library Exception, version // 3.1, as published by the Free Software Foundation. // You should have received a copy of the GNU General Public License and // a copy of the GCC Runtime Library Exception along with this program; // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see // . /** @file bits/ranges_util.h * This is an internal header file, included by other library headers. * Do not attempt to use it directly. @headername{ranges} */ #ifndef _RANGES_UTIL_H #define _RANGES_UTIL_H 1 #if __cplusplus > 201703L # include # include #ifdef __cpp_lib_ranges namespace std _GLIBCXX_VISIBILITY(default) { _GLIBCXX_BEGIN_NAMESPACE_VERSION namespace ranges { // C++20 24.5 [range.utility] Range utilities namespace __detail { template concept __simple_view = view<_Range> && range && same_as, iterator_t> && same_as, sentinel_t>; template concept __has_arrow = input_iterator<_It> && (is_pointer_v<_It> || requires(_It __it) { __it.operator->(); }); template concept __different_from = !same_as, remove_cvref_t<_Up>>; } // namespace __detail /// The ranges::view_interface class template template requires is_class_v<_Derived> && same_as<_Derived, remove_cv_t<_Derived>> class view_interface { private: constexpr _Derived& _M_derived() noexcept { static_assert(derived_from<_Derived, view_interface<_Derived>>); static_assert(view<_Derived>); return static_cast<_Derived&>(*this); } constexpr const _Derived& _M_derived() const noexcept { static_assert(derived_from<_Derived, view_interface<_Derived>>); static_assert(view<_Derived>); return static_cast(*this); } static constexpr bool _S_bool(bool) noexcept; // not defined template static constexpr bool _S_empty(_Tp& __t) noexcept(noexcept(_S_bool(ranges::begin(__t) == ranges::end(__t)))) { return ranges::begin(__t) == ranges::end(__t); } template static constexpr auto _S_size(_Tp& __t) noexcept(noexcept(ranges::end(__t) - ranges::begin(__t))) { return ranges::end(__t) - ranges::begin(__t); } public: constexpr bool empty() noexcept(noexcept(_S_empty(_M_derived()))) requires forward_range<_Derived> { return _S_empty(_M_derived()); } constexpr bool empty() const noexcept(noexcept(_S_empty(_M_derived()))) requires forward_range { return _S_empty(_M_derived()); } constexpr explicit operator bool() noexcept(noexcept(ranges::empty(_M_derived()))) requires requires { ranges::empty(_M_derived()); } { return !ranges::empty(_M_derived()); } constexpr explicit operator bool() const noexcept(noexcept(ranges::empty(_M_derived()))) requires requires { ranges::empty(_M_derived()); } { return !ranges::empty(_M_derived()); } constexpr auto data() noexcept(noexcept(ranges::begin(_M_derived()))) requires contiguous_iterator> { return std::to_address(ranges::begin(_M_derived())); } constexpr auto data() const noexcept(noexcept(ranges::begin(_M_derived()))) requires range && contiguous_iterator> { return std::to_address(ranges::begin(_M_derived())); } constexpr auto size() noexcept(noexcept(_S_size(_M_derived()))) requires forward_range<_Derived> && sized_sentinel_for, iterator_t<_Derived>> { return _S_size(_M_derived()); } constexpr auto size() const noexcept(noexcept(_S_size(_M_derived()))) requires forward_range && sized_sentinel_for, iterator_t> { return _S_size(_M_derived()); } constexpr decltype(auto) front() requires forward_range<_Derived> { __glibcxx_assert(!empty()); return *ranges::begin(_M_derived()); } constexpr decltype(auto) front() const requires forward_range { __glibcxx_assert(!empty()); return *ranges::begin(_M_derived()); } constexpr decltype(auto) back() requires bidirectional_range<_Derived> && common_range<_Derived> { __glibcxx_assert(!empty()); return *ranges::prev(ranges::end(_M_derived())); } constexpr decltype(auto) back() const requires bidirectional_range && common_range { __glibcxx_assert(!empty()); return *ranges::prev(ranges::end(_M_derived())); } template constexpr decltype(auto) operator[](range_difference_t<_Range> __n) { return ranges::begin(_M_derived())[__n]; } template constexpr decltype(auto) operator[](range_difference_t<_Range> __n) const { return ranges::begin(_M_derived())[__n]; } }; namespace __detail { template concept __uses_nonqualification_pointer_conversion = is_pointer_v<_From> && is_pointer_v<_To> && !convertible_to(*)[], remove_pointer_t<_To>(*)[]>; template concept __convertible_to_non_slicing = convertible_to<_From, _To> && !__uses_nonqualification_pointer_conversion, decay_t<_To>>; template concept __pair_like = !is_reference_v<_Tp> && requires(_Tp __t) { typename tuple_size<_Tp>::type; requires derived_from, integral_constant>; typename tuple_element_t<0, remove_const_t<_Tp>>; typename tuple_element_t<1, remove_const_t<_Tp>>; { get<0>(__t) } -> convertible_to&>; { get<1>(__t) } -> convertible_to&>; }; template concept __pair_like_convertible_from = !range<_Tp> && __pair_like<_Tp> && constructible_from<_Tp, _Up, _Vp> && __convertible_to_non_slicing<_Up, tuple_element_t<0, _Tp>> && convertible_to<_Vp, tuple_element_t<1, _Tp>>; } // namespace __detail namespace views { struct _Drop; } // defined in enum class subrange_kind : bool { unsized, sized }; /// The ranges::subrange class template template _Sent = _It, subrange_kind _Kind = sized_sentinel_for<_Sent, _It> ? subrange_kind::sized : subrange_kind::unsized> requires (_Kind == subrange_kind::sized || !sized_sentinel_for<_Sent, _It>) class subrange : public view_interface> { private: static constexpr bool _S_store_size = _Kind == subrange_kind::sized && !sized_sentinel_for<_Sent, _It>; friend struct views::_Drop; // Needs to inspect _S_store_size. _It _M_begin = _It(); [[no_unique_address]] _Sent _M_end = _Sent(); using __size_type = __detail::__make_unsigned_like_t>; template struct _Size { }; template struct _Size<_Tp, true> { _Tp _M_size; }; [[no_unique_address]] _Size<__size_type> _M_size = {}; public: subrange() requires default_initializable<_It> = default; constexpr subrange(__detail::__convertible_to_non_slicing<_It> auto __i, _Sent __s) noexcept(is_nothrow_constructible_v<_It, decltype(__i)> && is_nothrow_constructible_v<_Sent, _Sent&>) requires (!_S_store_size) : _M_begin(std::move(__i)), _M_end(__s) { } constexpr subrange(__detail::__convertible_to_non_slicing<_It> auto __i, _Sent __s, __size_type __n) noexcept(is_nothrow_constructible_v<_It, decltype(__i)> && is_nothrow_constructible_v<_Sent, _Sent&>) requires (_Kind == subrange_kind::sized) : _M_begin(std::move(__i)), _M_end(__s) { if constexpr (_S_store_size) _M_size._M_size = __n; } template<__detail::__different_from _Rng> requires borrowed_range<_Rng> && __detail::__convertible_to_non_slicing, _It> && convertible_to, _Sent> constexpr subrange(_Rng&& __r) noexcept(noexcept(subrange(__r, ranges::size(__r)))) requires _S_store_size && sized_range<_Rng> : subrange(__r, ranges::size(__r)) { } template<__detail::__different_from _Rng> requires borrowed_range<_Rng> && __detail::__convertible_to_non_slicing, _It> && convertible_to, _Sent> constexpr subrange(_Rng&& __r) noexcept(noexcept(subrange(ranges::begin(__r), ranges::end(__r)))) requires (!_S_store_size) : subrange(ranges::begin(__r), ranges::end(__r)) { } template requires __detail::__convertible_to_non_slicing, _It> && convertible_to, _Sent> constexpr subrange(_Rng&& __r, __size_type __n) noexcept(noexcept(subrange(ranges::begin(__r), ranges::end(__r), __n))) requires (_Kind == subrange_kind::sized) : subrange{ranges::begin(__r), ranges::end(__r), __n} { } template<__detail::__different_from _PairLike> requires __detail::__pair_like_convertible_from<_PairLike, const _It&, const _Sent&> constexpr operator _PairLike() const { return _PairLike(_M_begin, _M_end); } constexpr _It begin() const requires copyable<_It> { return _M_begin; } [[nodiscard]] constexpr _It begin() requires (!copyable<_It>) { return std::move(_M_begin); } constexpr _Sent end() const { return _M_end; } constexpr bool empty() const { return _M_begin == _M_end; } constexpr __size_type size() const requires (_Kind == subrange_kind::sized) { if constexpr (_S_store_size) return _M_size._M_size; else return __detail::__to_unsigned_like(_M_end - _M_begin); } [[nodiscard]] constexpr subrange next(iter_difference_t<_It> __n = 1) const & requires forward_iterator<_It> { auto __tmp = *this; __tmp.advance(__n); return __tmp; } [[nodiscard]] constexpr subrange next(iter_difference_t<_It> __n = 1) && { advance(__n); return std::move(*this); } [[nodiscard]] constexpr subrange prev(iter_difference_t<_It> __n = 1) const requires bidirectional_iterator<_It> { auto __tmp = *this; __tmp.advance(-__n); return __tmp; } constexpr subrange& advance(iter_difference_t<_It> __n) { // _GLIBCXX_RESOLVE_LIB_DEFECTS // 3433. subrange::advance(n) has UB when n < 0 if constexpr (bidirectional_iterator<_It>) if (__n < 0) { ranges::advance(_M_begin, __n); if constexpr (_S_store_size) _M_size._M_size += __detail::__to_unsigned_like(-__n); return *this; } __glibcxx_assert(__n >= 0); auto __d = __n - ranges::advance(_M_begin, __n, _M_end); if constexpr (_S_store_size) _M_size._M_size -= __detail::__to_unsigned_like(__d); return *this; } }; template _Sent> subrange(_It, _Sent) -> subrange<_It, _Sent>; template _Sent> subrange(_It, _Sent, __detail::__make_unsigned_like_t>) -> subrange<_It, _Sent, subrange_kind::sized>; template subrange(_Rng&&) -> subrange, sentinel_t<_Rng>, (sized_range<_Rng> || sized_sentinel_for, iterator_t<_Rng>>) ? subrange_kind::sized : subrange_kind::unsized>; template subrange(_Rng&&, __detail::__make_unsigned_like_t>) -> subrange, sentinel_t<_Rng>, subrange_kind::sized>; template requires (_Num < 2) constexpr auto get(const subrange<_It, _Sent, _Kind>& __r) { if constexpr (_Num == 0) return __r.begin(); else return __r.end(); } template requires (_Num < 2) constexpr auto get(subrange<_It, _Sent, _Kind>&& __r) { if constexpr (_Num == 0) return __r.begin(); else return __r.end(); } template inline constexpr bool enable_borrowed_range> = true; template using borrowed_subrange_t = __conditional_t, subrange>, dangling>; } // namespace ranges // The following ranges algorithms are used by , and are defined here // so that can avoid including all of . namespace ranges { struct __find_fn { template _Sent, typename _Tp, typename _Proj = identity> requires indirect_binary_predicate, const _Tp*> constexpr _Iter operator()(_Iter __first, _Sent __last, const _Tp& __value, _Proj __proj = {}) const { while (__first != __last && !(std::__invoke(__proj, *__first) == __value)) ++__first; return __first; } template requires indirect_binary_predicate, _Proj>, const _Tp*> constexpr borrowed_iterator_t<_Range> operator()(_Range&& __r, const _Tp& __value, _Proj __proj = {}) const { return (*this)(ranges::begin(__r), ranges::end(__r), __value, std::move(__proj)); } }; inline constexpr __find_fn find{}; struct __find_if_fn { template _Sent, typename _Proj = identity, indirect_unary_predicate> _Pred> constexpr _Iter operator()(_Iter __first, _Sent __last, _Pred __pred, _Proj __proj = {}) const { while (__first != __last && !(bool)std::__invoke(__pred, std::__invoke(__proj, *__first))) ++__first; return __first; } template, _Proj>> _Pred> constexpr borrowed_iterator_t<_Range> operator()(_Range&& __r, _Pred __pred, _Proj __proj = {}) const { return (*this)(ranges::begin(__r), ranges::end(__r), std::move(__pred), std::move(__proj)); } }; inline constexpr __find_if_fn find_if{}; struct __find_if_not_fn { template _Sent, typename _Proj = identity, indirect_unary_predicate> _Pred> constexpr _Iter operator()(_Iter __first, _Sent __last, _Pred __pred, _Proj __proj = {}) const { while (__first != __last && (bool)std::__invoke(__pred, std::__invoke(__proj, *__first))) ++__first; return __first; } template, _Proj>> _Pred> constexpr borrowed_iterator_t<_Range> operator()(_Range&& __r, _Pred __pred, _Proj __proj = {}) const { return (*this)(ranges::begin(__r), ranges::end(__r), std::move(__pred), std::move(__proj)); } }; inline constexpr __find_if_not_fn find_if_not{}; template struct in_in_result { [[no_unique_address]] _Iter1 in1; [[no_unique_address]] _Iter2 in2; template requires convertible_to && convertible_to constexpr operator in_in_result<_IIter1, _IIter2>() const & { return {in1, in2}; } template requires convertible_to<_Iter1, _IIter1> && convertible_to<_Iter2, _IIter2> constexpr operator in_in_result<_IIter1, _IIter2>() && { return {std::move(in1), std::move(in2)}; } }; template using mismatch_result = in_in_result<_Iter1, _Iter2>; struct __mismatch_fn { template _Sent1, input_iterator _Iter2, sentinel_for<_Iter2> _Sent2, typename _Pred = ranges::equal_to, typename _Proj1 = identity, typename _Proj2 = identity> requires indirectly_comparable<_Iter1, _Iter2, _Pred, _Proj1, _Proj2> constexpr mismatch_result<_Iter1, _Iter2> operator()(_Iter1 __first1, _Sent1 __last1, _Iter2 __first2, _Sent2 __last2, _Pred __pred = {}, _Proj1 __proj1 = {}, _Proj2 __proj2 = {}) const { while (__first1 != __last1 && __first2 != __last2 && (bool)std::__invoke(__pred, std::__invoke(__proj1, *__first1), std::__invoke(__proj2, *__first2))) { ++__first1; ++__first2; } return { std::move(__first1), std::move(__first2) }; } template requires indirectly_comparable, iterator_t<_Range2>, _Pred, _Proj1, _Proj2> constexpr mismatch_result, iterator_t<_Range2>> operator()(_Range1&& __r1, _Range2&& __r2, _Pred __pred = {}, _Proj1 __proj1 = {}, _Proj2 __proj2 = {}) const { return (*this)(ranges::begin(__r1), ranges::end(__r1), ranges::begin(__r2), ranges::end(__r2), std::move(__pred), std::move(__proj1), std::move(__proj2)); } }; inline constexpr __mismatch_fn mismatch{}; struct __search_fn { template _Sent1, forward_iterator _Iter2, sentinel_for<_Iter2> _Sent2, typename _Pred = ranges::equal_to, typename _Proj1 = identity, typename _Proj2 = identity> requires indirectly_comparable<_Iter1, _Iter2, _Pred, _Proj1, _Proj2> constexpr subrange<_Iter1> operator()(_Iter1 __first1, _Sent1 __last1, _Iter2 __first2, _Sent2 __last2, _Pred __pred = {}, _Proj1 __proj1 = {}, _Proj2 __proj2 = {}) const { if (__first1 == __last1 || __first2 == __last2) return {__first1, __first1}; for (;;) { for (;;) { if (__first1 == __last1) return {__first1, __first1}; if (std::__invoke(__pred, std::__invoke(__proj1, *__first1), std::__invoke(__proj2, *__first2))) break; ++__first1; } auto __cur1 = __first1; auto __cur2 = __first2; for (;;) { if (++__cur2 == __last2) return {__first1, ++__cur1}; if (++__cur1 == __last1) return {__cur1, __cur1}; if (!(bool)std::__invoke(__pred, std::__invoke(__proj1, *__cur1), std::__invoke(__proj2, *__cur2))) { ++__first1; break; } } } } template requires indirectly_comparable, iterator_t<_Range2>, _Pred, _Proj1, _Proj2> constexpr borrowed_subrange_t<_Range1> operator()(_Range1&& __r1, _Range2&& __r2, _Pred __pred = {}, _Proj1 __proj1 = {}, _Proj2 __proj2 = {}) const { return (*this)(ranges::begin(__r1), ranges::end(__r1), ranges::begin(__r2), ranges::end(__r2), std::move(__pred), std::move(__proj1), std::move(__proj2)); } }; inline constexpr __search_fn search{}; } // namespace ranges using ranges::get; template struct tuple_size> : integral_constant { }; template struct tuple_element<0, ranges::subrange<_Iter, _Sent, _Kind>> { using type = _Iter; }; template struct tuple_element<1, ranges::subrange<_Iter, _Sent, _Kind>> { using type = _Sent; }; template struct tuple_element<0, const ranges::subrange<_Iter, _Sent, _Kind>> { using type = _Iter; }; template struct tuple_element<1, const ranges::subrange<_Iter, _Sent, _Kind>> { using type = _Sent; }; _GLIBCXX_END_NAMESPACE_VERSION } // namespace std #endif // library concepts #endif // C++20 #endif // _RANGES_UTIL_H