// -*- C++ -*- //===----------------------------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // SPDX-FileCopyrightText: Copyright (c) 2023 NVIDIA CORPORATION & AFFILIATES. // //===----------------------------------------------------------------------===// #ifndef _LIBCUDACXX___ITERATOR_CONCEPTS_H #define _LIBCUDACXX___ITERATOR_CONCEPTS_H #ifndef __cuda_std__ #include <__config> #endif //__cuda_std__ #include "../__concepts/arithmetic.h" #include "../__concepts/assignable.h" #include "../__concepts/common_reference_with.h" #include "../__concepts/constructible.h" #include "../__concepts/copyable.h" #include "../__concepts/derived_from.h" #include "../__concepts/equality_comparable.h" #include "../__concepts/invocable.h" #include "../__concepts/movable.h" #include "../__concepts/predicate.h" #include "../__concepts/regular.h" #include "../__concepts/relation.h" #include "../__concepts/same_as.h" #include "../__concepts/semiregular.h" #include "../__concepts/totally_ordered.h" #include "../__functional/invoke.h" #include "../__iterator/incrementable_traits.h" #include "../__iterator/iter_move.h" #include "../__iterator/iterator_traits.h" #include "../__iterator/readable_traits.h" #include "../__memory/pointer_traits.h" #include "../__utility/forward.h" #include "../__type_traits/add_pointer.h" #include "../__type_traits/common_reference.h" #include "../__type_traits/conjunction.h" #include "../__type_traits/enable_if.h" #include "../__type_traits/remove_cv.h" #include "../__type_traits/remove_cvref.h" #include "../__type_traits/void_t.h" #if defined(_CCCL_IMPLICIT_SYSTEM_HEADER_GCC) # pragma GCC system_header #elif defined(_CCCL_IMPLICIT_SYSTEM_HEADER_CLANG) # pragma clang system_header #elif defined(_CCCL_IMPLICIT_SYSTEM_HEADER_MSVC) # pragma system_header #endif // no system header _LIBCUDACXX_BEGIN_NAMESPACE_STD #if _LIBCUDACXX_STD_VER > 17 // [iterator.concept.readable] template concept __indirectly_readable_impl = requires(const _In __i) { typename iter_value_t<_In>; typename iter_reference_t<_In>; typename iter_rvalue_reference_t<_In>; { *__i } -> same_as>; { _CUDA_VRANGES::iter_move(__i) } -> same_as>; } && common_reference_with&&, iter_value_t<_In>&> && common_reference_with&&, iter_rvalue_reference_t<_In>&&> && common_reference_with&&, const iter_value_t<_In>&>; template concept indirectly_readable = __indirectly_readable_impl>; template using iter_common_reference_t = common_reference_t, iter_value_t<_Tp>&>; // [iterator.concept.writable] template concept indirectly_writable = requires(_Out&& __o, _Tp&& __t) { *__o = _CUDA_VSTD::forward<_Tp>(__t); // not required to be equality-preserving *_CUDA_VSTD::forward<_Out>(__o) = _CUDA_VSTD::forward<_Tp>(__t); // not required to be equality-preserving const_cast&&>(*__o) = _CUDA_VSTD::forward<_Tp>(__t); // not required to be equality-preserving const_cast&&>(*_CUDA_VSTD::forward<_Out>(__o)) = _CUDA_VSTD::forward<_Tp>(__t); // not required to be equality-preserving }; // [iterator.concept.winc] template concept __integer_like = integral<_Tp> && !same_as<_Tp, bool>; template concept __signed_integer_like = signed_integral<_Tp>; template concept weakly_incrementable = // TODO: remove this once the clang bug is fixed (bugs.llvm.org/PR48173). !same_as<_Ip, bool> && // Currently, clang does not handle bool correctly. movable<_Ip> && requires(_Ip __i) { typename iter_difference_t<_Ip>; requires __signed_integer_like>; { ++__i } -> same_as<_Ip&>; // not required to be equality-preserving __i++; // not required to be equality-preserving }; // [iterator.concept.inc] template concept incrementable = regular<_Ip> && weakly_incrementable<_Ip> && requires(_Ip __i) { { __i++ } -> same_as<_Ip>; }; // [iterator.concept.iterator] template concept input_or_output_iterator = requires(_Ip __i) { { *__i } -> __can_reference; } && weakly_incrementable<_Ip>; // [iterator.concept.sentinel] template concept sentinel_for = semiregular<_Sp> && input_or_output_iterator<_Ip> && __weakly_equality_comparable_with<_Sp, _Ip>; template inline constexpr bool disable_sized_sentinel_for = false; template concept sized_sentinel_for = sentinel_for<_Sp, _Ip> && !disable_sized_sentinel_for, remove_cv_t<_Ip>> && requires(const _Ip& __i, const _Sp& __s) { { __s - __i } -> same_as>; { __i - __s } -> same_as>; }; // [iterator.concept.input] template concept input_iterator = input_or_output_iterator<_Ip> && indirectly_readable<_Ip> && requires { typename _ITER_CONCEPT<_Ip>; } && derived_from<_ITER_CONCEPT<_Ip>, input_iterator_tag>; // [iterator.concept.output] template concept output_iterator = input_or_output_iterator<_Ip> && indirectly_writable<_Ip, _Tp> && requires (_Ip __it, _Tp&& __t) { *__it++ = _CUDA_VSTD::forward<_Tp>(__t); // not required to be equality-preserving }; // [iterator.concept.forward] template concept forward_iterator = input_iterator<_Ip> && derived_from<_ITER_CONCEPT<_Ip>, forward_iterator_tag> && incrementable<_Ip> && sentinel_for<_Ip, _Ip>; // [iterator.concept.bidir] template concept bidirectional_iterator = forward_iterator<_Ip> && derived_from<_ITER_CONCEPT<_Ip>, bidirectional_iterator_tag> && requires(_Ip __i) { { --__i } -> same_as<_Ip&>; { __i-- } -> same_as<_Ip>; }; template concept random_access_iterator = bidirectional_iterator<_Ip> && derived_from<_ITER_CONCEPT<_Ip>, random_access_iterator_tag> && totally_ordered<_Ip> && sized_sentinel_for<_Ip, _Ip> && requires(_Ip __i, const _Ip __j, const iter_difference_t<_Ip> __n) { { __i += __n } -> same_as<_Ip&>; { __j + __n } -> same_as<_Ip>; { __n + __j } -> same_as<_Ip>; { __i -= __n } -> same_as<_Ip&>; { __j - __n } -> same_as<_Ip>; { __j[__n] } -> same_as>; }; template concept contiguous_iterator = random_access_iterator<_Ip> && derived_from<_ITER_CONCEPT<_Ip>, contiguous_iterator_tag> && is_lvalue_reference_v> && same_as, remove_cvref_t>> && requires(const _Ip& __i) { { _CUDA_VSTD::to_address(__i) } -> same_as>>; }; template concept __has_arrow = input_iterator<_Ip> && (is_pointer_v<_Ip> || requires(_Ip __i) { __i.operator->(); }); template concept __has_const_arrow = (is_pointer_v<_Ip> || requires(const _Ip __i) { __i.operator->(); }); // [indirectcallable.indirectinvocable] template concept indirectly_unary_invocable = indirectly_readable<_It> && copy_constructible<_Fp> && invocable<_Fp&, iter_value_t<_It>&> && invocable<_Fp&, iter_reference_t<_It>> && invocable<_Fp&, iter_common_reference_t<_It>> && common_reference_with< invoke_result_t<_Fp&, iter_value_t<_It>&>, invoke_result_t<_Fp&, iter_reference_t<_It>>>; template concept indirectly_regular_unary_invocable = indirectly_readable<_It> && copy_constructible<_Fp> && regular_invocable<_Fp&, iter_value_t<_It>&> && regular_invocable<_Fp&, iter_reference_t<_It>> && regular_invocable<_Fp&, iter_common_reference_t<_It>> && common_reference_with< invoke_result_t<_Fp&, iter_value_t<_It>&>, invoke_result_t<_Fp&, iter_reference_t<_It>>>; template concept indirect_unary_predicate = indirectly_readable<_It> && copy_constructible<_Fp> && predicate<_Fp&, iter_value_t<_It>&> && predicate<_Fp&, iter_reference_t<_It>> && predicate<_Fp&, iter_common_reference_t<_It>>; template concept indirect_binary_predicate = indirectly_readable<_It1> && indirectly_readable<_It2> && copy_constructible<_Fp> && predicate<_Fp&, iter_value_t<_It1>&, iter_value_t<_It2>&> && predicate<_Fp&, iter_value_t<_It1>&, iter_reference_t<_It2>> && predicate<_Fp&, iter_reference_t<_It1>, iter_value_t<_It2>&> && predicate<_Fp&, iter_reference_t<_It1>, iter_reference_t<_It2>> && predicate<_Fp&, iter_common_reference_t<_It1>, iter_common_reference_t<_It2>>; template concept indirect_equivalence_relation = indirectly_readable<_It1> && indirectly_readable<_It2> && copy_constructible<_Fp> && equivalence_relation<_Fp&, iter_value_t<_It1>&, iter_value_t<_It2>&> && equivalence_relation<_Fp&, iter_value_t<_It1>&, iter_reference_t<_It2>> && equivalence_relation<_Fp&, iter_reference_t<_It1>, iter_value_t<_It2>&> && equivalence_relation<_Fp&, iter_reference_t<_It1>, iter_reference_t<_It2>> && equivalence_relation<_Fp&, iter_common_reference_t<_It1>, iter_common_reference_t<_It2>>; template concept indirect_strict_weak_order = indirectly_readable<_It1> && indirectly_readable<_It2> && copy_constructible<_Fp> && strict_weak_order<_Fp&, iter_value_t<_It1>&, iter_value_t<_It2>&> && strict_weak_order<_Fp&, iter_value_t<_It1>&, iter_reference_t<_It2>> && strict_weak_order<_Fp&, iter_reference_t<_It1>, iter_value_t<_It2>&> && strict_weak_order<_Fp&, iter_reference_t<_It1>, iter_reference_t<_It2>> && strict_weak_order<_Fp&, iter_common_reference_t<_It1>, iter_common_reference_t<_It2>>; template requires (indirectly_readable<_Its> && ...) && invocable<_Fp, iter_reference_t<_Its>...> using indirect_result_t = invoke_result_t<_Fp, iter_reference_t<_Its>...>; template concept indirectly_movable = indirectly_readable<_In> && indirectly_writable<_Out, iter_rvalue_reference_t<_In>>; template concept indirectly_movable_storable = indirectly_movable<_In, _Out> && indirectly_writable<_Out, iter_value_t<_In>> && movable> && constructible_from, iter_rvalue_reference_t<_In>> && assignable_from&, iter_rvalue_reference_t<_In>>; template concept indirectly_copyable = indirectly_readable<_In> && indirectly_writable<_Out, iter_reference_t<_In>>; template concept indirectly_copyable_storable = indirectly_copyable<_In, _Out> && indirectly_writable<_Out, iter_value_t<_In>&> && indirectly_writable<_Out, const iter_value_t<_In>&> && indirectly_writable<_Out, iter_value_t<_In>&&> && indirectly_writable<_Out, const iter_value_t<_In>&&> && copyable> && constructible_from, iter_reference_t<_In>> && assignable_from&, iter_reference_t<_In>>; // Note: indirectly_swappable is located in iter_swap.h to prevent a dependency cycle // (both iter_swap and indirectly_swappable require indirectly_readable). #elif _LIBCUDACXX_STD_VER > 14 // [iterator.concept.readable] template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirectly_readable_impl_, requires(const _In __i)( typename(iter_value_t<_In>), typename(iter_reference_t<_In>), typename(iter_rvalue_reference_t<_In>), requires(same_as, decltype(*__i)>), requires(same_as, decltype(_CUDA_VRANGES::iter_move(__i))>), requires(common_reference_with&&, iter_value_t<_In>&>), requires(common_reference_with&&, iter_rvalue_reference_t<_In>&&>), requires(common_reference_with&&, const iter_value_t<_In>&>) )); template _LIBCUDACXX_CONCEPT indirectly_readable = _LIBCUDACXX_FRAGMENT(__indirectly_readable_impl_, remove_cvref_t<_In>); template using iter_common_reference_t = enable_if_t, common_reference_t, iter_value_t<_Tp>&>>; // [iterator.concept.writable] template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirectly_writable_, requires(_Out&& __o, _Tp&& __t)( typename(decltype(*__o = _CUDA_VSTD::forward<_Tp>(__t))), typename(decltype(*_CUDA_VSTD::forward<_Out>(__o) = _CUDA_VSTD::forward<_Tp>(__t))), typename(decltype(const_cast&&>(*__o) = _CUDA_VSTD::forward<_Tp>(__t))), typename(decltype(const_cast&&>(*_CUDA_VSTD::forward<_Out>(__o)) = _CUDA_VSTD::forward<_Tp>(__t))) )); template _LIBCUDACXX_CONCEPT indirectly_writable = _LIBCUDACXX_FRAGMENT(__indirectly_writable_, _Out, _Tp); // [iterator.concept.winc] template _LIBCUDACXX_CONCEPT __integer_like = integral<_Tp> && !same_as<_Tp, bool>; template _LIBCUDACXX_CONCEPT __signed_integer_like = signed_integral<_Tp>; template _LIBCUDACXX_CONCEPT_FRAGMENT( __weakly_incrementable_, requires(_Ip __i)( typename(iter_difference_t<_Ip>), requires(!same_as<_Ip, bool>), requires(movable<_Ip>), requires(__signed_integer_like>), requires(same_as<_Ip&, decltype(++__i)>), (__i++) )); template _LIBCUDACXX_CONCEPT weakly_incrementable = _LIBCUDACXX_FRAGMENT(__weakly_incrementable_, _Ip); // [iterator.concept.inc] template _LIBCUDACXX_CONCEPT_FRAGMENT( __incrementable_, requires(_Ip __i)( requires(regular<_Ip>), requires(weakly_incrementable<_Ip>), requires(same_as<_Ip, decltype(__i++)>) )); template _LIBCUDACXX_CONCEPT incrementable = _LIBCUDACXX_FRAGMENT(__incrementable_, _Ip); // [iterator.concept.iterator] template _LIBCUDACXX_CONCEPT_FRAGMENT( __input_or_output_iterator_, requires(_Ip __i)( requires(weakly_incrementable<_Ip>), requires(__can_reference) )); template _LIBCUDACXX_CONCEPT input_or_output_iterator = _LIBCUDACXX_FRAGMENT(__input_or_output_iterator_, _Ip); // [iterator.concept.sentinel] template _LIBCUDACXX_CONCEPT_FRAGMENT( __sentinel_for_, requires()( requires(semiregular<_Sp>), requires(input_or_output_iterator<_Ip>), requires(__weakly_equality_comparable_with<_Sp, _Ip>) )); template _LIBCUDACXX_CONCEPT sentinel_for = _LIBCUDACXX_FRAGMENT(__sentinel_for_, _Sp, _Ip); template _LIBCUDACXX_INLINE_VAR constexpr bool disable_sized_sentinel_for = false; template _LIBCUDACXX_CONCEPT_FRAGMENT( __sized_sentinel_for_, requires(const _Ip& __i, const _Sp& __s)( requires(sentinel_for<_Sp, _Ip>), requires(!disable_sized_sentinel_for, remove_cv_t<_Ip>>), requires(same_as, decltype(__s - __i)>), requires(same_as, decltype(__i - __s)>) )); template _LIBCUDACXX_CONCEPT sized_sentinel_for = _LIBCUDACXX_FRAGMENT(__sized_sentinel_for_, _Sp, _Ip); // [iterator.concept.input] // NOTE: The ordering here is load bearing. MSVC has issues with finding iterator_traits // We can work around this by checking other constraints first template _LIBCUDACXX_CONCEPT_FRAGMENT( __input_iterator_, requires()( requires(input_or_output_iterator<_Ip>), requires(indirectly_readable<_Ip>), typename(_ITER_CONCEPT<_Ip>), requires(derived_from<_ITER_CONCEPT<_Ip>, input_iterator_tag>) )); template _LIBCUDACXX_CONCEPT input_iterator = _LIBCUDACXX_FRAGMENT(__input_iterator_, _Ip); // [iterator.concept.output] template _LIBCUDACXX_CONCEPT_FRAGMENT( __output_iterator_, requires(_Ip __it, _Tp&& __t)( requires(input_or_output_iterator<_Ip>), requires(indirectly_writable<_Ip, _Tp>), (*__it++ = _CUDA_VSTD::forward<_Tp>(__t)) )); template _LIBCUDACXX_CONCEPT output_iterator = _LIBCUDACXX_FRAGMENT(__output_iterator_, _Ip, _Tp); // [iterator.concept.forward] template _LIBCUDACXX_CONCEPT_FRAGMENT( __forward_iterator_, requires()( requires(input_iterator<_Ip>), requires(derived_from<_ITER_CONCEPT<_Ip>, forward_iterator_tag>), requires(incrementable<_Ip>), requires(sentinel_for<_Ip, _Ip>) )); template _LIBCUDACXX_CONCEPT forward_iterator = _LIBCUDACXX_FRAGMENT(__forward_iterator_, _Ip); // [iterator.concept.bidir] template _LIBCUDACXX_CONCEPT_FRAGMENT( __bidirectional_iterator_, requires(_Ip __i)( requires(forward_iterator<_Ip>), requires(derived_from<_ITER_CONCEPT<_Ip>, bidirectional_iterator_tag>), requires(same_as<_Ip&, decltype(--__i)>), requires(same_as<_Ip, decltype(__i--)>) )); template _LIBCUDACXX_CONCEPT bidirectional_iterator = _LIBCUDACXX_FRAGMENT(__bidirectional_iterator_, _Ip); // [iterator.concept.random.access] template _LIBCUDACXX_CONCEPT_FRAGMENT( __random_access_iterator_operations_, requires(_Ip __i, const _Ip __j, const iter_difference_t<_Ip> __n)( requires(same_as<_Ip&, decltype(__i += __n)>), requires(same_as<_Ip, decltype(__j + __n)>), requires(same_as<_Ip, decltype(__n + __j)>), requires(same_as<_Ip&, decltype(__i -= __n)>), requires(same_as<_Ip, decltype(__j - __n)>), requires(same_as, decltype(__j[__n])>) )); template _LIBCUDACXX_CONCEPT __random_access_iterator_operations = _LIBCUDACXX_FRAGMENT(__random_access_iterator_operations_, _Ip); template _LIBCUDACXX_CONCEPT_FRAGMENT( __random_access_iterator_, requires()( requires(bidirectional_iterator<_Ip>), requires(derived_from<_ITER_CONCEPT<_Ip>, random_access_iterator_tag>), requires(totally_ordered<_Ip>), requires(sized_sentinel_for<_Ip, _Ip>), requires(__random_access_iterator_operations<_Ip>) )); template _LIBCUDACXX_CONCEPT random_access_iterator = _LIBCUDACXX_FRAGMENT(__random_access_iterator_, _Ip); // [iterator.concept.contiguous] template _LIBCUDACXX_CONCEPT_FRAGMENT( __contiguous_iterator_, requires(const _Ip& __i)( requires(random_access_iterator<_Ip>), requires(derived_from<_ITER_CONCEPT<_Ip>, contiguous_iterator_tag>), requires(is_lvalue_reference_v>), requires(same_as, remove_cvref_t>>), requires(same_as>, decltype(_CUDA_VSTD::to_address(__i))>) )); template _LIBCUDACXX_CONCEPT contiguous_iterator = _LIBCUDACXX_FRAGMENT(__contiguous_iterator_, _Ip); template _LIBCUDACXX_CONCEPT_FRAGMENT( __has_arrow_, requires(_Ip __i)( (__i.operator->()) )); template _LIBCUDACXX_CONCEPT __has_arrow = input_iterator<_Ip> && (is_pointer_v<_Ip> || _LIBCUDACXX_FRAGMENT(__has_arrow_, _Ip)); template _LIBCUDACXX_CONCEPT_FRAGMENT( __has_const_arrow_, requires(const _Ip __i)( (__i.operator->()) )); template _LIBCUDACXX_CONCEPT __has_const_arrow = (is_pointer_v<_Ip> || _LIBCUDACXX_FRAGMENT(__has_const_arrow_, _Ip)); // [indirectcallable.indirectinvocable] template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirectly_unary_invocable, requires()( requires(indirectly_readable<_It>), requires(copy_constructible<_Fp>), requires(invocable<_Fp&, iter_value_t<_It>&>), requires(invocable<_Fp&, iter_reference_t<_It>>), requires(invocable<_Fp&, iter_common_reference_t<_It>>), requires(common_reference_with&>, invoke_result_t<_Fp&, iter_reference_t<_It>>>) )); template _LIBCUDACXX_CONCEPT indirectly_unary_invocable = _LIBCUDACXX_FRAGMENT(__indirectly_unary_invocable, _Fp, _It); template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirectly_regular_unary_invocable_, requires()( requires(indirectly_readable<_It>), requires(copy_constructible<_Fp>), requires(regular_invocable<_Fp&, iter_value_t<_It>&>), requires(regular_invocable<_Fp&, iter_reference_t<_It>>), requires(regular_invocable<_Fp&, iter_common_reference_t<_It>>), requires(common_reference_with&>, invoke_result_t<_Fp&, iter_reference_t<_It>>>) )); template _LIBCUDACXX_CONCEPT indirectly_regular_unary_invocable = _LIBCUDACXX_FRAGMENT(__indirectly_regular_unary_invocable_, _Fp, _It); template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirect_unary_predicate_, requires()( requires(indirectly_readable<_It>), requires(copy_constructible<_Fp>), requires(predicate<_Fp&, iter_value_t<_It>&>), requires(predicate<_Fp&, iter_reference_t<_It>>), requires(predicate<_Fp&, iter_common_reference_t<_It>>) )); template _LIBCUDACXX_CONCEPT indirect_unary_predicate = _LIBCUDACXX_FRAGMENT(__indirect_unary_predicate_, _Fp, _It); template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirect_binary_predicate_, requires()( requires(indirectly_readable<_It1>), requires(indirectly_readable<_It2>), requires(copy_constructible<_Fp>), requires(predicate<_Fp&, iter_value_t<_It1>&, iter_value_t<_It2>&>), requires(predicate<_Fp&, iter_value_t<_It1>&, iter_reference_t<_It2>>), requires(predicate<_Fp&, iter_reference_t<_It1>, iter_value_t<_It2>&>), requires(predicate<_Fp&, iter_reference_t<_It1>, iter_reference_t<_It2>>), requires(predicate<_Fp&, iter_common_reference_t<_It1>, iter_common_reference_t<_It2>>) )); template _LIBCUDACXX_CONCEPT indirect_binary_predicate = _LIBCUDACXX_FRAGMENT(__indirect_binary_predicate_, _Fp, _It1, _It2); template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirect_equivalence_relation_, requires()( requires(indirectly_readable<_It1>), requires(indirectly_readable<_It2>), requires(copy_constructible<_Fp>), requires(equivalence_relation<_Fp&, iter_value_t<_It1>&, iter_value_t<_It2>&>), requires(equivalence_relation<_Fp&, iter_value_t<_It1>&, iter_reference_t<_It2>>), requires(equivalence_relation<_Fp&, iter_reference_t<_It1>, iter_value_t<_It2>&>), requires(equivalence_relation<_Fp&, iter_reference_t<_It1>, iter_reference_t<_It2>>), requires(equivalence_relation<_Fp&, iter_common_reference_t<_It1>, iter_common_reference_t<_It2>>) )); template _LIBCUDACXX_CONCEPT indirect_equivalence_relation = _LIBCUDACXX_FRAGMENT(__indirect_equivalence_relation_, _Fp, _It1, _It2); template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirect_strict_weak_order_, requires()( requires(indirectly_readable<_It1>), requires(indirectly_readable<_It2>), requires(copy_constructible<_Fp>), requires(strict_weak_order<_Fp&, iter_value_t<_It1>&, iter_value_t<_It2>&>), requires(strict_weak_order<_Fp&, iter_value_t<_It1>&, iter_reference_t<_It2>>), requires(strict_weak_order<_Fp&, iter_reference_t<_It1>, iter_value_t<_It2>&>), requires(strict_weak_order<_Fp&, iter_reference_t<_It1>, iter_reference_t<_It2>>), requires(strict_weak_order<_Fp&, iter_common_reference_t<_It1>, iter_common_reference_t<_It2>>) )); template _LIBCUDACXX_CONCEPT indirect_strict_weak_order = _LIBCUDACXX_FRAGMENT(__indirect_strict_weak_order_, _Fp, _It1, _It2); #if _LIBCUDACXX_STD_VER > 14 template using indirect_result_t = enable_if_t<(indirectly_readable<_Its> && ...) && invocable<_Fp, iter_reference_t<_Its>...>, invoke_result_t<_Fp, iter_reference_t<_Its>...>>; #else template using indirect_result_t = enable_if_t>...> && invocable<_Fp, iter_reference_t<_Its>...>, invoke_result_t<_Fp, iter_reference_t<_Its>...>>; #endif // _LIBCUDACXX_STD_VER > 14 template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirectly_movable_, requires()( requires(indirectly_readable<_In>), requires(indirectly_writable<_Out, iter_rvalue_reference_t<_In>>) )); template _LIBCUDACXX_CONCEPT indirectly_movable = _LIBCUDACXX_FRAGMENT(__indirectly_movable_, _In, _Out); template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirectly_movable_storable_, requires()( requires(indirectly_movable<_In, _Out>), requires(indirectly_writable<_Out, iter_value_t<_In>>), requires(movable>), requires(constructible_from, iter_rvalue_reference_t<_In>>), requires(assignable_from&, iter_rvalue_reference_t<_In>>) )); template _LIBCUDACXX_CONCEPT indirectly_movable_storable = _LIBCUDACXX_FRAGMENT(__indirectly_movable_storable_, _In, _Out); template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirectly_copyable_, requires()( requires(indirectly_readable<_In>), requires(indirectly_writable<_Out, iter_reference_t<_In>>) )); template _LIBCUDACXX_CONCEPT indirectly_copyable = _LIBCUDACXX_FRAGMENT(__indirectly_copyable_, _In, _Out); template _LIBCUDACXX_CONCEPT_FRAGMENT( __indirectly_copyable_storable_, requires()( requires(indirectly_copyable<_In, _Out>), requires(indirectly_writable<_Out, iter_value_t<_In>&>), requires(indirectly_writable<_Out, const iter_value_t<_In>&>), requires(indirectly_writable<_Out, iter_value_t<_In>&&>), requires(indirectly_writable<_Out, const iter_value_t<_In>&&>), requires(copyable>), requires(constructible_from, iter_reference_t<_In>>), requires(assignable_from&, iter_reference_t<_In>>) )); template _LIBCUDACXX_CONCEPT indirectly_copyable_storable =_LIBCUDACXX_FRAGMENT(__indirectly_copyable_storable_, _In, _Out); template _LIBCUDACXX_INLINE_VAR constexpr bool __has_iter_category = false; template _LIBCUDACXX_INLINE_VAR constexpr bool __has_iter_category<_Ip, void_t> = true; template _LIBCUDACXX_INLINE_VAR constexpr bool __has_iter_concept = false; template _LIBCUDACXX_INLINE_VAR constexpr bool __has_iter_concept<_Ip, void_t> = true; #endif // _LIBCUDACXX_STD_VER > 14 _LIBCUDACXX_END_NAMESPACE_STD #endif // _LIBCUDACXX___ITERATOR_CONCEPTS_H