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Contact Christian R. Trott (crtrott@sandia.gov) // // ************************************************************************ //@HEADER */ #ifndef _LIBCUDACXX___MDSPAN_SUBMDSPAN_HPP #define _LIBCUDACXX___MDSPAN_SUBMDSPAN_HPP #ifndef __cuda_std__ #include <__config> #endif // __cuda_std__ #include "../__mdspan/dynamic_extent.h" #include "../__mdspan/full_extent_t.h" #include "../__mdspan/layout_left.h" #include "../__mdspan/layout_right.h" #include "../__mdspan/layout_stride.h" #include "../__mdspan/macros.h" #include "../__mdspan/mdspan.h" #include "../__type_traits/conditional.h" #include "../__type_traits/integral_constant.h" #include "../__type_traits/is_convertible.h" #include "../__type_traits/is_same.h" #include "../__type_traits/is_signed.h" #include "../__type_traits/remove_const.h" #include "../__type_traits/remove_reference.h" #include "../__utility/move.h" #include "../__utility/pair.h" #include "../tuple" #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 > 11 namespace __detail { template struct __slice_wrap { _Tp slice; size_t old_extent; size_t old_stride; }; //-------------------------------------------------------------------------------- template __MDSPAN_INLINE_FUNCTION constexpr __slice_wrap<_OldExtent, _OldStaticStride, size_t> __wrap_slice(size_t __val, size_t __ext, size_t __stride) { return { __val, __ext, __stride }; } template __MDSPAN_INLINE_FUNCTION constexpr __slice_wrap<_OldExtent, _OldStaticStride, integral_constant<_IntegerType, _Value0>> __wrap_slice(size_t __val, size_t __ext, integral_constant<_IntegerType, _Value0> __stride) { #if __MDSPAN_HAS_CXX_17 if constexpr (_CUDA_VSTD::is_signed_v<_IntegerType>) { static_assert(_Value0 >= _IntegerType(0), "Invalid slice specifier"); } #endif // __MDSPAN_HAS_CXX_17 return { __val, __ext, __stride }; } template __MDSPAN_INLINE_FUNCTION constexpr __slice_wrap<_OldExtent, _OldStaticStride, full_extent_t> __wrap_slice(full_extent_t __val, size_t __ext, size_t __stride) { return { __val, __ext, __stride }; } // TODO generalize this to anything that works with get<0> and get<1> template __MDSPAN_INLINE_FUNCTION constexpr __slice_wrap<_OldExtent, _OldStaticStride, _CUDA_VSTD::tuple> __wrap_slice(_CUDA_VSTD::tuple const& __val, size_t __ext, size_t __stride) { return { __val, __ext, __stride }; } template __MDSPAN_INLINE_FUNCTION constexpr __slice_wrap<_OldExtent, _OldStaticStride, _CUDA_VSTD::tuple, integral_constant<_IntegerType1, _Value1>>> __wrap_slice(_CUDA_VSTD::tuple, integral_constant<_IntegerType1, _Value1>> const& __val, size_t __ext, size_t __stride) { static_assert(_Value1 >= _Value0, "Invalid slice tuple"); return { __val, __ext, __stride }; } //-------------------------------------------------------------------------------- // a layout right remains a layout right if it is indexed by 0 or more scalars, // then optionally a pair and finally 0 or more all template < // what we encountered until now preserves the layout right bool _Result=true, // we only encountered 0 or more scalars, no pair or all bool _EncounteredOnlyScalar=true > struct preserve_layout_right_analysis : integral_constant { using layout_type_if_preserved = layout_right; using encounter_pair = preserve_layout_right_analysis< // if we encounter a pair, the layout remains a layout right only if it was one before // and that only scalars were encountered until now _Result && _EncounteredOnlyScalar, // if we encounter a pair, we didn't encounter scalars only false >; using encounter_all = preserve_layout_right_analysis< // if we encounter a all, the layout remains a layout right if it was one before _Result, // if we encounter a all, we didn't encounter scalars only false >; using encounter_scalar = preserve_layout_right_analysis< // if we encounter a scalar, the layout remains a layout right only if it was one before // and that only scalars were encountered until now _Result && _EncounteredOnlyScalar, // if we encounter a scalar, the fact that we encountered scalars only doesn't change _EncounteredOnlyScalar >; }; // a layout left remains a layout left if it is indexed by 0 or more all, // then optionally a pair and finally 0 or more scalars template < bool _Result=true, bool _EncounteredOnlyAll=true > struct preserve_layout_left_analysis : integral_constant { using layout_type_if_preserved = layout_left; using encounter_pair = preserve_layout_left_analysis< // if we encounter a pair, the layout remains a layout left only if it was one before // and that only all were encountered until now _Result && _EncounteredOnlyAll, // if we encounter a pair, we didn't encounter all only false >; using encounter_all = preserve_layout_left_analysis< // if we encounter a all, the layout remains a layout left only if it was one before // and that only all were encountered until now _Result && _EncounteredOnlyAll, // if we encounter a all, the fact that we encountered scalars all doesn't change _EncounteredOnlyAll >; using encounter_scalar = preserve_layout_left_analysis< // if we encounter a scalar, the layout remains a layout left if it was one before _Result, // if we encounter a scalar, we didn't encounter scalars only false >; }; struct ignore_layout_preservation : integral_constant { using layout_type_if_preserved = void; using encounter_pair = ignore_layout_preservation; using encounter_all = ignore_layout_preservation; using encounter_scalar = ignore_layout_preservation; }; template struct preserve_layout_analysis : ignore_layout_preservation { }; template <> struct preserve_layout_analysis : preserve_layout_right_analysis<> { }; template <> struct preserve_layout_analysis : preserve_layout_left_analysis<> { }; //-------------------------------------------------------------------------------- template < class _IndexT, class _PreserveLayoutAnalysis, class _OffsetsArray=__partially_static_sizes<_IndexT, size_t>, class _ExtsArray=__partially_static_sizes<_IndexT, size_t>, class _StridesArray=__partially_static_sizes<_IndexT, size_t>, class = _CUDA_VSTD::make_index_sequence<_OffsetsArray::__size>, class = _CUDA_VSTD::make_index_sequence<_ExtsArray::__size>, class = _CUDA_VSTD::make_index_sequence<_StridesArray::__size> > struct __assign_op_slice_handler; /* clang-format: off */ template < class _IndexT, class _PreserveLayoutAnalysis, size_t... _Offsets, size_t... _Exts, size_t... _Strides, size_t... _OffsetIdxs, size_t... _ExtIdxs, size_t... _StrideIdxs> struct __assign_op_slice_handler< _IndexT, _PreserveLayoutAnalysis, __partially_static_sizes<_IndexT, size_t, _Offsets...>, __partially_static_sizes<_IndexT, size_t, _Exts...>, __partially_static_sizes<_IndexT, size_t, _Strides...>, _CUDA_VSTD::integer_sequence, _CUDA_VSTD::integer_sequence, _CUDA_VSTD::integer_sequence> { // TODO remove this for better compiler performance static_assert( __MDSPAN_FOLD_AND((_Strides == dynamic_extent || _Strides > 0) /* && ... */), " " ); static_assert( __MDSPAN_FOLD_AND((_Offsets == dynamic_extent || _Offsets >= 0) /* && ... */), " " ); using __offsets_storage_t = __partially_static_sizes<_IndexT, size_t, _Offsets...>; using __extents_storage_t = __partially_static_sizes<_IndexT, size_t, _Exts...>; using __strides_storage_t = __partially_static_sizes<_IndexT, size_t, _Strides...>; __offsets_storage_t __offsets; __extents_storage_t __exts; __strides_storage_t __strides; #ifdef __INTEL_COMPILER #if __INTEL_COMPILER <= 1800 __MDSPAN_INLINE_FUNCTION constexpr __assign_op_slice_handler(__assign_op_slice_handler&& __other) noexcept : __offsets(_CUDA_VSTD::move(__other.__offsets)), __exts(_CUDA_VSTD::move(__other.__exts)), __strides(_CUDA_VSTD::move(__other.__strides)) { } __MDSPAN_INLINE_FUNCTION constexpr __assign_op_slice_handler( __offsets_storage_t&& __o, __extents_storage_t&& __e, __strides_storage_t&& __s ) noexcept : __offsets(_CUDA_VSTD::move(__o)), __exts(_CUDA_VSTD::move(__e)), __strides(_CUDA_VSTD::move(__s)) { } #endif #endif // Don't define this unless we need it; they have a cost to compile #ifndef __MDSPAN_USE_RETURN_TYPE_DEDUCTION using __extents_type = _CUDA_VSTD::extents<_IndexT, _Exts...>; #endif // For size_t slice, skip the extent and stride, but add an offset corresponding to the value template __MDSPAN_FORCE_INLINE_FUNCTION // NOLINT (misc-unconventional-assign-operator) constexpr auto operator=(__slice_wrap<_OldStaticExtent, _OldStaticStride, size_t>&& __slice) noexcept -> __assign_op_slice_handler< _IndexT, typename _PreserveLayoutAnalysis::encounter_scalar, __partially_static_sizes<_IndexT, size_t, _Offsets..., dynamic_extent>, __partially_static_sizes<_IndexT, size_t, _Exts...>, __partially_static_sizes<_IndexT, size_t, _Strides...>/* intentional space here to work around ICC bug*/> { return { __partially_static_sizes<_IndexT, size_t, _Offsets..., dynamic_extent>( __construct_psa_from_all_exts_values_tag, __offsets.template __get_n<_OffsetIdxs>()..., __slice.slice), _CUDA_VSTD::move(__exts), _CUDA_VSTD::move(__strides) }; } // Treat integral_constant slice like size_t slice, but with a compile-time offset. // The result's extents_type can't take advantage of that, // but it might help for specialized layouts. template __MDSPAN_FORCE_INLINE_FUNCTION // NOLINT (misc-unconventional-assign-operator) constexpr auto operator=(__slice_wrap<_OldStaticExtent, _OldStaticStride, integral_constant<_IntegerType, _Value0>>&&) noexcept -> __assign_op_slice_handler< _IndexT, typename _PreserveLayoutAnalysis::encounter_scalar, __partially_static_sizes<_IndexT, size_t, _Offsets..., _Value0>, __partially_static_sizes<_IndexT, size_t, _Exts...>, __partially_static_sizes<_IndexT, size_t, _Strides...>/* intentional space here to work around ICC bug*/> { #if __MDSPAN_HAS_CXX_17 if constexpr (_CUDA_VSTD::is_signed_v<_IntegerType>) { static_assert(_Value0 >= _IntegerType(0), "Invalid slice specifier"); } #endif // __MDSPAN_HAS_CXX_17 return { __partially_static_sizes<_IndexT, size_t, _Offsets..., _Value0>( __construct_psa_from_all_exts_values_tag, __offsets.template __get_n<_OffsetIdxs>()..., size_t(_Value0)), _CUDA_VSTD::move(__exts), _CUDA_VSTD::move(__strides) }; } // For a _CUDA_VSTD::full_extent, offset 0 and old extent template __MDSPAN_FORCE_INLINE_FUNCTION // NOLINT (misc-unconventional-assign-operator) constexpr auto operator=(__slice_wrap<_OldStaticExtent, _OldStaticStride, full_extent_t>&& __slice) noexcept -> __assign_op_slice_handler< _IndexT, typename _PreserveLayoutAnalysis::encounter_all, __partially_static_sizes<_IndexT, size_t, _Offsets..., 0>, __partially_static_sizes<_IndexT, size_t, _Exts..., _OldStaticExtent>, __partially_static_sizes<_IndexT, size_t, _Strides..., _OldStaticStride>/* intentional space here to work around ICC bug*/> { return { __partially_static_sizes<_IndexT, size_t, _Offsets..., 0>( __construct_psa_from_all_exts_values_tag, __offsets.template __get_n<_OffsetIdxs>()..., size_t(0)), __partially_static_sizes<_IndexT, size_t, _Exts..., _OldStaticExtent>( __construct_psa_from_all_exts_values_tag, __exts.template __get_n<_ExtIdxs>()..., __slice.old_extent), __partially_static_sizes<_IndexT, size_t, _Strides..., _OldStaticStride>( __construct_psa_from_all_exts_values_tag, __strides.template __get_n<_StrideIdxs>()..., __slice.old_stride) }; } // For a _CUDA_VSTD::tuple, add an offset and add a new dynamic extent (strides still preserved) template __MDSPAN_FORCE_INLINE_FUNCTION // NOLINT (misc-unconventional-assign-operator) constexpr auto operator=(__slice_wrap<_OldStaticExtent, _OldStaticStride, tuple>&& __slice) noexcept -> __assign_op_slice_handler< _IndexT, typename _PreserveLayoutAnalysis::encounter_pair, __partially_static_sizes<_IndexT, size_t, _Offsets..., dynamic_extent>, __partially_static_sizes<_IndexT, size_t, _Exts..., dynamic_extent>, __partially_static_sizes<_IndexT, size_t, _Strides..., _OldStaticStride>/* intentional space here to work around ICC bug*/> { return { __partially_static_sizes<_IndexT, size_t, _Offsets..., dynamic_extent>( __construct_psa_from_all_exts_values_tag, __offsets.template __get_n<_OffsetIdxs>()..., _CUDA_VSTD::get<0>(__slice.slice)), __partially_static_sizes<_IndexT, size_t, _Exts..., dynamic_extent>( __construct_psa_from_all_exts_values_tag, __exts.template __get_n<_ExtIdxs>()..., _CUDA_VSTD::get<1>(__slice.slice) - _CUDA_VSTD::get<0>(__slice.slice)), __partially_static_sizes<_IndexT, size_t, _Strides..., _OldStaticStride>( __construct_psa_from_all_exts_values_tag, __strides.template __get_n<_StrideIdxs>()..., __slice.old_stride) }; } // For a _CUDA_VSTD::tuple of two integral_constant, do something like // we did above for a tuple of two size_t, but make sure the // result's extents type make the values compile-time constants. template __MDSPAN_FORCE_INLINE_FUNCTION // NOLINT (misc-unconventional-assign-operator) constexpr auto operator=(__slice_wrap<_OldStaticExtent, _OldStaticStride, tuple, integral_constant<_IntegerType1, _Value1>>>&& __slice) noexcept -> __assign_op_slice_handler< _IndexT, typename _PreserveLayoutAnalysis::encounter_pair, __partially_static_sizes<_IndexT, size_t, _Offsets..., size_t(_Value0)>, __partially_static_sizes<_IndexT, size_t, _Exts..., size_t(_Value1 - _Value0)>, __partially_static_sizes<_IndexT, size_t, _Strides..., _OldStaticStride>/* intentional space here to work around ICC bug*/> { static_assert(_Value1 >= _Value0, "Invalid slice specifier"); return { // We're still turning the template parameters _Value0 and _Value1 // into (constexpr) run-time values here. __partially_static_sizes<_IndexT, size_t, _Offsets..., size_t(_Value0) > ( __construct_psa_from_all_exts_values_tag, __offsets.template __get_n<_OffsetIdxs>()..., _Value0), __partially_static_sizes<_IndexT, size_t, _Exts..., size_t(_Value1 - _Value0) > ( __construct_psa_from_all_exts_values_tag, __exts.template __get_n<_ExtIdxs>()..., _Value1 - _Value0), __partially_static_sizes<_IndexT, size_t, _Strides..., _OldStaticStride>( __construct_psa_from_all_exts_values_tag, __strides.template __get_n<_StrideIdxs>()..., __slice.old_stride) }; } // TODO defer instantiation of this? using layout_type = conditional_t< _PreserveLayoutAnalysis::value, typename _PreserveLayoutAnalysis::layout_type_if_preserved, layout_stride >; // TODO noexcept specification template __MDSPAN_INLINE_FUNCTION __MDSPAN_DEDUCE_RETURN_TYPE_SINGLE_LINE( ( constexpr /* auto */ _make_layout_mapping_impl(NewLayout) noexcept ), ( /* not layout stride, so don't pass dynamic_strides */ /* return */ typename NewLayout::template mapping<_CUDA_VSTD::extents<_IndexT, _Exts...>>( extents<_IndexT, _Exts...>::__make_extents_impl(_CUDA_VSTD::move(__exts)) ) /* ; */ ) ) __MDSPAN_INLINE_FUNCTION __MDSPAN_DEDUCE_RETURN_TYPE_SINGLE_LINE( ( constexpr /* auto */ _make_layout_mapping_impl(layout_stride) noexcept ), ( /* return */ layout_stride::template mapping<_CUDA_VSTD::extents<_IndexT, _Exts...>> ::__make_mapping(_CUDA_VSTD::move(__exts), _CUDA_VSTD::move(__strides)) /* ; */ ) ) template // mostly for deferred instantiation, but maybe we'll use this in the future __MDSPAN_INLINE_FUNCTION __MDSPAN_DEDUCE_RETURN_TYPE_SINGLE_LINE( ( constexpr /* auto */ make_layout_mapping(_OldLayoutMapping const&) noexcept ), ( /* return */ this->_make_layout_mapping_impl(layout_type{}) /* ; */ ) ) }; //============================================================================== #if __MDSPAN_USE_RETURN_TYPE_DEDUCTION // Forking this because the C++11 version will be *completely* unreadable template __MDSPAN_INLINE_FUNCTION constexpr auto _submdspan_impl( _CUDA_VSTD::integer_sequence, mdspan<_ET, _CUDA_VSTD::extents<_ST, _Exts...>, _LP, _AP> const& __src, _SliceSpecs&&... __slices ) noexcept { using __index_t = _ST; auto __handled = __MDSPAN_FOLD_ASSIGN_LEFT( ( __detail::__assign_op_slice_handler< __index_t, __detail::preserve_layout_analysis<_LP> >{ __partially_static_sizes<__index_t, size_t>{}, __partially_static_sizes<__index_t, size_t>{}, __partially_static_sizes<__index_t, size_t>{} } ), /* = ... = */ __detail::__wrap_slice< _Exts, dynamic_extent >( __slices, __src.extents().template __extent<_Idxs>(), __src.mapping().stride(_Idxs) ) ); size_t __offset_size = __src.mapping()(__handled.__offsets.template __get_n<_Idxs>()...); auto __offset_ptr = __src.accessor().offset(__src.data_handle(), __offset_size); auto __map = __handled.make_layout_mapping(__src.mapping()); auto __acc_pol = typename _AP::offset_policy(__src.accessor()); return mdspan< _ET, remove_const_t<_CUDA_VSTD::remove_reference_t>, typename decltype(__handled)::layout_type, remove_const_t<_CUDA_VSTD::remove_reference_t> >( _CUDA_VSTD::move(__offset_ptr), _CUDA_VSTD::move(__map), _CUDA_VSTD::move(__acc_pol) ); } #else template auto _submdspan_impl_helper(_Src&& __src, _Handled&& __h, _CUDA_VSTD::integer_sequence) -> mdspan< _ET, typename _Handled::__extents_type, typename _Handled::layout_type, typename _AP::offset_policy > { return { __src.accessor().offset(__src.data_handle(), __src.mapping()(__h.__offsets.template __get_n<_Idxs>()...)), __h.make_layout_mapping(__src.mapping()), typename _AP::offset_policy(__src.accessor()) }; } template __MDSPAN_INLINE_FUNCTION __MDSPAN_DEDUCE_RETURN_TYPE_SINGLE_LINE( ( constexpr /* auto */ _submdspan_impl( _CUDA_VSTD::integer_sequence __seq, mdspan<_ET, _CUDA_VSTD::extents<_ST, _Exts...>, _LP, _AP> const& __src, _SliceSpecs&&... __slices ) noexcept ), ( /* return */ _submdspan_impl_helper<_ET, _AP>( __src, __MDSPAN_FOLD_ASSIGN_LEFT( ( __detail::__assign_op_slice_handler< size_t, __detail::preserve_layout_analysis<_LP> >{ __partially_static_sizes<_ST, size_t>{}, __partially_static_sizes<_ST, size_t>{}, __partially_static_sizes<_ST, size_t>{} } ), /* = ... = */ __detail::__wrap_slice< _Exts, dynamic_extent >( __slices, __src.extents().template __extent<_Idxs>(), __src.mapping().stride(_Idxs) ) ), __seq ) /* ; */ ) ) #endif template struct _is_layout_stride : false_type { }; template<> struct _is_layout_stride< layout_stride > : true_type { }; } // namespace __detail //============================================================================== __MDSPAN_TEMPLATE_REQUIRES( class _ET, class _EXT, class _LP, class _AP, class... _SliceSpecs, /* requires */ ( ( _LIBCUDACXX_TRAIT(_CUDA_VSTD::is_same, _LP, layout_left) || _LIBCUDACXX_TRAIT(_CUDA_VSTD::is_same, _LP, layout_right) || __detail::_is_layout_stride<_LP>::value ) && __MDSPAN_FOLD_AND(( _LIBCUDACXX_TRAIT(_CUDA_VSTD::is_convertible, _SliceSpecs, size_t) || _LIBCUDACXX_TRAIT(_CUDA_VSTD::is_convertible, _SliceSpecs, tuple) || _LIBCUDACXX_TRAIT(_CUDA_VSTD::is_convertible, _SliceSpecs, full_extent_t) ) /* && ... */) && sizeof...(_SliceSpecs) == _EXT::rank() ) ) __MDSPAN_INLINE_FUNCTION __MDSPAN_DEDUCE_RETURN_TYPE_SINGLE_LINE( ( constexpr submdspan( mdspan<_ET, _EXT, _LP, _AP> const& __src, _SliceSpecs... __slices ) noexcept ), ( /* return */ __detail::_submdspan_impl(_CUDA_VSTD::make_index_sequence{}, __src, __slices...) /*;*/ ) ) /* clang-format: on */ #endif // _LIBCUDACXX_STD_VER > 11 _LIBCUDACXX_END_NAMESPACE_STD #endif // _LIBCUDACXX___MDSPAN_SUBMDSPAN_HPP