25 #ifndef _GLIBCXX_EXPERIMENTAL_SIMD_H 26 #define _GLIBCXX_EXPERIMENTAL_SIMD_H 28 #if __cplusplus >= 201703L 30 #include "simd_detail.h" 34 #ifdef _GLIBCXX_DEBUG_UB 42 #if _GLIBCXX_SIMD_X86INTRIN 43 #include <x86intrin.h> 44 #elif _GLIBCXX_SIMD_HAVE_NEON 71 _GLIBCXX_SIMD_BEGIN_NAMESPACE
73 #if !_GLIBCXX_SIMD_X86INTRIN 74 using __m128 [[__gnu__::__vector_size__(16)]] = float;
75 using __m128d [[__gnu__::__vector_size__(16)]] = double;
76 using __m128i [[__gnu__::__vector_size__(16)]] =
long long;
77 using __m256 [[__gnu__::__vector_size__(32)]] = float;
78 using __m256d [[__gnu__::__vector_size__(32)]] = double;
79 using __m256i [[__gnu__::__vector_size__(32)]] =
long long;
80 using __m512 [[__gnu__::__vector_size__(64)]] = float;
81 using __m512d [[__gnu__::__vector_size__(64)]] = double;
82 using __m512i [[__gnu__::__vector_size__(64)]] =
long long;
104 template <
int _UsedBytes>
107 template <
int _UsedBytes>
108 struct _VecBltnBtmsk;
110 template <
typename _Tp,
int _Np>
111 using _VecN = _VecBuiltin<sizeof(_Tp) * _Np>;
113 template <
int _UsedBytes = 16>
114 using _Sse = _VecBuiltin<_UsedBytes>;
116 template <
int _UsedBytes = 32>
117 using _Avx = _VecBuiltin<_UsedBytes>;
119 template <
int _UsedBytes = 64>
120 using _Avx512 = _VecBltnBtmsk<_UsedBytes>;
122 template <
int _UsedBytes = 16>
123 using _Neon = _VecBuiltin<_UsedBytes>;
126 using __sse = _Sse<>;
127 using __avx = _Avx<>;
128 using __avx512 = _Avx512<>;
129 using __neon = _Neon<>;
130 using __neon128 = _Neon<16>;
131 using __neon64 = _Neon<8>;
134 template <
typename _Tp,
size_t _Np,
typename...>
138 using fixed_size = _Fixed<_Np>;
140 using scalar = _Scalar;
145 template <
typename _Tp>
148 template <
typename _Tp>
151 template <
typename _Tp,
typename _Abi>
154 template <
typename _Tp,
typename _Abi>
157 template <
typename _Tp,
typename _Abi>
162 struct element_aligned_tag
164 template <
typename _Tp,
typename _Up =
typename _Tp::value_type>
165 static constexpr
size_t _S_alignment =
alignof(_Up);
167 template <
typename _Tp,
typename _Up>
168 _GLIBCXX_SIMD_INTRINSIC
static constexpr _Up*
173 struct vector_aligned_tag
175 template <
typename _Tp,
typename _Up =
typename _Tp::value_type>
176 static constexpr
size_t _S_alignment
177 = std::__bit_ceil(
sizeof(_Up) *
_Tp::size());
179 template <
typename _Tp,
typename _Up>
180 _GLIBCXX_SIMD_INTRINSIC
static constexpr _Up*
183 return static_cast<_Up*
>(
184 __builtin_assume_aligned(__ptr, _S_alignment<_Tp, _Up>));
188 template <
size_t _Np>
struct overaligned_tag
190 template <
typename _Tp,
typename _Up =
typename _Tp::value_type>
191 static constexpr
size_t _S_alignment = _Np;
193 template <
typename _Tp,
typename _Up>
194 _GLIBCXX_SIMD_INTRINSIC
static constexpr _Up*
196 {
return static_cast<_Up*
>(__builtin_assume_aligned(__ptr, _Np)); }
199 inline constexpr element_aligned_tag element_aligned = {};
201 inline constexpr vector_aligned_tag vector_aligned = {};
203 template <
size_t _Np>
204 inline constexpr overaligned_tag<_Np> overaligned = {};
207 template <
size_t _Xp>
208 using _SizeConstant = integral_constant<size_t, _Xp>;
214 template <
typename _Tp>
215 _GLIBCXX_SIMD_INTRINSIC constexpr
217 operator()(_Tp __a, _Tp __b)
const 220 return min(__a, __b);
226 template <
typename _Tp>
227 _GLIBCXX_SIMD_INTRINSIC constexpr
229 operator()(_Tp __a, _Tp __b)
const 232 return max(__a, __b);
239 template <
typename _Fp,
size_t... _I>
240 _GLIBCXX_SIMD_INTRINSIC constexpr
void 241 __execute_on_index_sequence(_Fp&& __f, index_sequence<_I...>)
242 { ((void)__f(_SizeConstant<_I>()), ...); }
244 template <
typename _Fp>
245 _GLIBCXX_SIMD_INTRINSIC constexpr
void 246 __execute_on_index_sequence(_Fp&&, index_sequence<>)
249 template <
size_t _Np,
typename _Fp>
250 _GLIBCXX_SIMD_INTRINSIC constexpr
void 251 __execute_n_times(_Fp&& __f)
253 __execute_on_index_sequence(static_cast<_Fp&&>(__f),
254 make_index_sequence<_Np>{});
259 template <
typename _R,
typename _Fp,
size_t... _I>
260 _GLIBCXX_SIMD_INTRINSIC constexpr _R
261 __execute_on_index_sequence_with_return(_Fp&& __f, index_sequence<_I...>)
262 {
return _R{__f(_SizeConstant<_I>())...}; }
264 template <
size_t _Np,
typename _R,
typename _Fp>
265 _GLIBCXX_SIMD_INTRINSIC constexpr _R
266 __generate_from_n_evaluations(_Fp&& __f)
268 return __execute_on_index_sequence_with_return<_R>(
269 static_cast<_Fp&&
>(__f), make_index_sequence<_Np>{});
274 template <
size_t... _I,
typename _F0,
typename _FArgs>
275 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 276 __call_with_n_evaluations(index_sequence<_I...>, _F0&& __f0, _FArgs&& __fargs)
277 {
return __f0(__fargs(_SizeConstant<_I>())...); }
279 template <
size_t _Np,
typename _F0,
typename _FArgs>
280 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 281 __call_with_n_evaluations(_F0&& __f0, _FArgs&& __fargs)
283 return __call_with_n_evaluations(make_index_sequence<_Np>{},
284 static_cast<_F0&&
>(__f0),
285 static_cast<_FArgs&&>(__fargs));
290 template <
size_t _First = 0,
size_t... _It,
typename _Tp,
typename _Fp>
291 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 292 __call_with_subscripts(_Tp&& __x, index_sequence<_It...>, _Fp&& __fun)
293 {
return __fun(__x[_First + _It]...); }
295 template <
size_t _Np,
size_t _First = 0,
typename _Tp,
typename _Fp>
296 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 297 __call_with_subscripts(_Tp&& __x, _Fp&& __fun)
299 return __call_with_subscripts<_First>(
static_cast<_Tp&&
>(__x),
300 make_index_sequence<_Np>(),
301 static_cast<_Fp&&
>(__fun));
308 using _UChar =
unsigned char;
309 using _SChar =
signed char;
310 using _UShort =
unsigned short;
311 using _UInt =
unsigned int;
312 using _ULong =
unsigned long;
313 using _ULLong =
unsigned long long;
314 using _LLong =
long long;
318 template <
typename _T0,
typename...>
319 struct __first_of_pack
320 {
using type = _T0; };
322 template <
typename... _Ts>
323 using __first_of_pack_t =
typename __first_of_pack<_Ts...>::type;
327 template <
typename _Tp>
328 typename _Tp::value_type
329 __value_type_or_identity_impl(
int);
331 template <
typename _Tp>
333 __value_type_or_identity_impl(
float);
335 template <
typename _Tp>
336 using __value_type_or_identity_t
337 = decltype(__value_type_or_identity_impl<_Tp>(
int()));
341 template <
typename _Tp>
342 struct __is_vectorizable :
public is_arithmetic<_Tp> {};
345 struct __is_vectorizable<bool> :
public false_type {};
347 template <
typename _Tp>
348 inline constexpr
bool __is_vectorizable_v = __is_vectorizable<_Tp>::value;
351 template <
typename _Tp,
typename = enable_if_t<__is_vectorizable_v<_Tp>>>
352 using _Vectorizable = _Tp;
356 template <
typename _Ptr,
typename _ValueType>
357 struct __is_possible_loadstore_conversion
358 : conjunction<__is_vectorizable<_Ptr>, __is_vectorizable<_ValueType>> {};
361 struct __is_possible_loadstore_conversion<bool, bool> :
true_type {};
364 template <
typename _Ptr,
typename _ValueType,
366 __is_possible_loadstore_conversion<_Ptr, _ValueType>::value>>
367 using _LoadStorePtr = _Ptr;
371 template <
typename _Tp,
typename =
void_t<>>
374 template <
typename _Tp>
375 inline constexpr
bool __is_bitmask_v = __is_bitmask<_Tp>::value;
378 template <
typename _Tp>
379 struct __is_bitmask<_Tp,
380 void_t<decltype(
declval<unsigned&>() = declval<_Tp>() & 1u)>>
385 #pragma GCC diagnostic push 386 #pragma GCC diagnostic ignored "-Wpedantic" 387 template <
size_t _Bytes>
391 if constexpr (_Bytes ==
sizeof(
int))
394 else if constexpr (_Bytes ==
sizeof(
char))
397 else if constexpr (_Bytes ==
sizeof(_SChar))
400 else if constexpr (_Bytes ==
sizeof(
short))
403 else if constexpr (_Bytes ==
sizeof(
long))
406 else if constexpr (_Bytes ==
sizeof(_LLong))
408 #ifdef __SIZEOF_INT128__ 409 else if constexpr (_Bytes ==
sizeof(__int128))
411 #endif // __SIZEOF_INT128__ 412 else if constexpr (_Bytes %
sizeof(
int) == 0)
414 constexpr
size_t _Np = _Bytes /
sizeof(int);
419 _GLIBCXX_SIMD_INTRINSIC constexpr _Ip
422 return __generate_from_n_evaluations<_Np, _Ip>(
423 [&](
auto __i) {
return __rhs._M_data[__i] & _M_data[__i]; });
426 _GLIBCXX_SIMD_INTRINSIC constexpr _Ip
429 return __generate_from_n_evaluations<_Np, _Ip>(
430 [&](
auto __i) {
return __rhs._M_data[__i] | _M_data[__i]; });
433 _GLIBCXX_SIMD_INTRINSIC constexpr _Ip
436 return __generate_from_n_evaluations<_Np, _Ip>(
437 [&](
auto __i) {
return __rhs._M_data[__i] ^ _M_data[__i]; });
440 _GLIBCXX_SIMD_INTRINSIC constexpr _Ip
443 return __generate_from_n_evaluations<_Np, _Ip>(
444 [&](
auto __i) {
return ~_M_data[__i]; });
450 static_assert(_Bytes != _Bytes,
"this should be unreachable");
452 #pragma GCC diagnostic pop 454 template <
typename _Tp>
455 using __int_for_sizeof_t = decltype(__int_for_sizeof<
sizeof(_Tp)>());
457 template <
size_t _Np>
458 using __int_with_sizeof_t = decltype(__int_for_sizeof<_Np>());
462 template <
typename _Tp>
468 template <
typename _Tp>
469 inline constexpr
bool __is_fixed_size_abi_v = __is_fixed_size_abi<_Tp>::value;
473 constexpr
inline bool __have_mmx = _GLIBCXX_SIMD_HAVE_MMX;
474 constexpr
inline bool __have_sse = _GLIBCXX_SIMD_HAVE_SSE;
475 constexpr
inline bool __have_sse2 = _GLIBCXX_SIMD_HAVE_SSE2;
476 constexpr
inline bool __have_sse3 = _GLIBCXX_SIMD_HAVE_SSE3;
477 constexpr
inline bool __have_ssse3 = _GLIBCXX_SIMD_HAVE_SSSE3;
478 constexpr
inline bool __have_sse4_1 = _GLIBCXX_SIMD_HAVE_SSE4_1;
479 constexpr
inline bool __have_sse4_2 = _GLIBCXX_SIMD_HAVE_SSE4_2;
480 constexpr
inline bool __have_xop = _GLIBCXX_SIMD_HAVE_XOP;
481 constexpr
inline bool __have_avx = _GLIBCXX_SIMD_HAVE_AVX;
482 constexpr
inline bool __have_avx2 = _GLIBCXX_SIMD_HAVE_AVX2;
483 constexpr
inline bool __have_bmi = _GLIBCXX_SIMD_HAVE_BMI1;
484 constexpr
inline bool __have_bmi2 = _GLIBCXX_SIMD_HAVE_BMI2;
485 constexpr
inline bool __have_lzcnt = _GLIBCXX_SIMD_HAVE_LZCNT;
486 constexpr
inline bool __have_sse4a = _GLIBCXX_SIMD_HAVE_SSE4A;
487 constexpr
inline bool __have_fma = _GLIBCXX_SIMD_HAVE_FMA;
488 constexpr
inline bool __have_fma4 = _GLIBCXX_SIMD_HAVE_FMA4;
489 constexpr
inline bool __have_f16c = _GLIBCXX_SIMD_HAVE_F16C;
490 constexpr
inline bool __have_popcnt = _GLIBCXX_SIMD_HAVE_POPCNT;
491 constexpr
inline bool __have_avx512f = _GLIBCXX_SIMD_HAVE_AVX512F;
492 constexpr
inline bool __have_avx512dq = _GLIBCXX_SIMD_HAVE_AVX512DQ;
493 constexpr
inline bool __have_avx512vl = _GLIBCXX_SIMD_HAVE_AVX512VL;
494 constexpr
inline bool __have_avx512bw = _GLIBCXX_SIMD_HAVE_AVX512BW;
495 constexpr
inline bool __have_avx512dq_vl = __have_avx512dq && __have_avx512vl;
496 constexpr
inline bool __have_avx512bw_vl = __have_avx512bw && __have_avx512vl;
498 constexpr
inline bool __have_neon = _GLIBCXX_SIMD_HAVE_NEON;
499 constexpr
inline bool __have_neon_a32 = _GLIBCXX_SIMD_HAVE_NEON_A32;
500 constexpr
inline bool __have_neon_a64 = _GLIBCXX_SIMD_HAVE_NEON_A64;
501 constexpr
inline bool __support_neon_float =
502 #if defined __GCC_IEC_559 504 #elif defined __FAST_MATH__ 511 constexpr
inline bool __have_power10vec =
true;
513 constexpr
inline bool __have_power10vec =
false;
515 #ifdef __POWER9_VECTOR__ 516 constexpr
inline bool __have_power9vec =
true;
518 constexpr
inline bool __have_power9vec =
false;
520 #if defined __POWER8_VECTOR__ 521 constexpr
inline bool __have_power8vec =
true;
523 constexpr
inline bool __have_power8vec = __have_power9vec;
526 constexpr
inline bool __have_power_vsx =
true;
528 constexpr
inline bool __have_power_vsx = __have_power8vec;
530 #if defined __ALTIVEC__ 531 constexpr
inline bool __have_power_vmx =
true;
533 constexpr
inline bool __have_power_vmx = __have_power_vsx;
538 template <
typename _Abi>
541 {
return is_same_v<simd_abi::scalar, _Abi>; }
545 template <
template <
int>
class _Abi,
int _Bytes>
547 __abi_bytes_impl(_Abi<_Bytes>*)
550 template <
typename _Tp>
552 __abi_bytes_impl(_Tp*)
555 template <
typename _Abi>
556 inline constexpr
int __abi_bytes_v
557 = __abi_bytes_impl(static_cast<_Abi*>(
nullptr));
561 template <
typename _Abi>
563 __is_builtin_bitmask_abi()
564 {
return is_same_v<simd_abi::_VecBltnBtmsk<__abi_bytes_v<_Abi>>, _Abi>; }
568 template <
typename _Abi>
572 constexpr
auto _Bytes = __abi_bytes_v<_Abi>;
573 return _Bytes <= 16 && is_same_v<simd_abi::_VecBuiltin<_Bytes>, _Abi>;
578 template <
typename _Abi>
582 constexpr
auto _Bytes = __abi_bytes_v<_Abi>;
583 return _Bytes > 16 && _Bytes <= 32
584 && is_same_v<simd_abi::_VecBuiltin<_Bytes>, _Abi>;
589 template <
typename _Abi>
593 constexpr
auto _Bytes = __abi_bytes_v<_Abi>;
594 return _Bytes <= 64 && is_same_v<simd_abi::_Avx512<_Bytes>, _Abi>;
599 template <
typename _Abi>
603 constexpr
auto _Bytes = __abi_bytes_v<_Abi>;
604 return _Bytes <= 16 && is_same_v<simd_abi::_VecBuiltin<_Bytes>, _Abi>;
609 template <
typename,
typename _Up>
610 struct __make_dependent
611 {
using type = _Up; };
613 template <
typename _Tp,
typename _Up>
614 using __make_dependent_t =
typename __make_dependent<_Tp, _Up>::type;
620 template <
typename... _Args>
621 [[noreturn]] _GLIBCXX_SIMD_ALWAYS_INLINE
void 622 __invoke_ub([[maybe_unused]]
const char* __msg,
623 [[maybe_unused]]
const _Args&... __args)
625 #ifdef _GLIBCXX_DEBUG_UB 626 __builtin_fprintf(stderr, __msg, __args...);
629 __builtin_unreachable();
635 template <
typename _Tp>
636 struct __assert_unreachable
637 { static_assert(!is_same_v<_Tp, _Tp>,
"this should be unreachable"); };
641 template <typename _Tp, typename _Ap, size_t _Np = simd_size<_Tp, _Ap>::value>
643 __size_or_zero_dispatch(
int)
646 template <
typename _Tp,
typename _Ap>
648 __size_or_zero_dispatch(
float)
651 template <
typename _Tp,
typename _Ap>
652 inline constexpr
size_t __size_or_zero_v
653 = __size_or_zero_dispatch<_Tp, _Ap>(0);
657 inline constexpr
size_t 658 __div_roundup(
size_t __a,
size_t __b)
659 {
return (__a + __b - 1) / __b; }
668 _GLIBCXX_SIMD_INTRINSIC constexpr _ExactBool(
bool __b) : _M_data(__b) {}
670 _ExactBool(
int) =
delete;
672 _GLIBCXX_SIMD_INTRINSIC constexpr
operator bool()
const {
return _M_data; }
682 template <
typename _Tp>
683 using __may_alias [[__gnu__::__may_alias__]] = _Tp;
688 struct _UnsupportedBase
690 _UnsupportedBase() =
delete;
691 _UnsupportedBase(
const _UnsupportedBase&) =
delete;
692 _UnsupportedBase& operator=(
const _UnsupportedBase&) =
delete;
693 ~_UnsupportedBase() =
delete;
706 struct _InvalidTraits
709 using _SimdBase = _UnsupportedBase;
710 using _MaskBase = _UnsupportedBase;
712 static constexpr
size_t _S_full_size = 0;
713 static constexpr
bool _S_is_partial =
false;
715 static constexpr
size_t _S_simd_align = 1;
717 struct _SimdMember {};
718 struct _SimdCastType;
720 static constexpr
size_t _S_mask_align = 1;
722 struct _MaskMember {};
723 struct _MaskCastType;
728 template <
typename _Tp,
typename _Abi,
typename =
void_t<>>
729 struct _SimdTraits : _InvalidTraits {};
737 inline constexpr
struct _PrivateInit {} __private_init = {};
739 inline constexpr
struct _BitsetInit {} __bitset_init = {};
743 template <
typename _From,
typename _To,
bool = is_arithmetic_v<_From>,
744 bool = is_arithmetic_v<_To>>
745 struct __is_narrowing_conversion;
749 template <
typename _From,
typename _To>
750 struct __is_narrowing_conversion<_From, _To, true, true>
751 :
public __bool_constant<(
752 __digits_v<_From> > __digits_v<_To>
753 || __finite_max_v<_From> > __finite_max_v<_To>
754 || __finite_min_v<_From> < __finite_min_v<_To>
755 || (is_signed_v<_From> && is_unsigned_v<_To>))> {};
757 template <
typename _Tp>
758 struct __is_narrowing_conversion<_Tp, bool, true, true>
762 struct __is_narrowing_conversion<bool, bool, true, true>
765 template <
typename _Tp>
766 struct __is_narrowing_conversion<_Tp, _Tp, true, true>
769 template <
typename _From,
typename _To>
770 struct __is_narrowing_conversion<_From, _To, false, true>
771 :
public negation<is_convertible<_From, _To>> {};
775 template <
typename _From,
typename _To,
bool = (sizeof(_From) < sizeof(_To))>
776 struct __converts_to_higher_
integer_rank : public true_type {};
779 template <
typename _From,
typename _To>
780 struct __converts_to_higher_integer_rank<_From, _To, false>
781 :
public is_same<decltype(declval<_From>() + declval<_To>()), _To> {};
785 template <
typename _Tp,
typename _Ap>
786 _GLIBCXX_SIMD_INTRINSIC constexpr
const auto&
787 __data(
const simd<_Tp, _Ap>& __x);
789 template <
typename _Tp,
typename _Ap>
790 _GLIBCXX_SIMD_INTRINSIC constexpr
auto&
791 __data(simd<_Tp, _Ap>& __x);
793 template <
typename _Tp,
typename _Ap>
794 _GLIBCXX_SIMD_INTRINSIC constexpr
const auto&
795 __data(
const simd_mask<_Tp, _Ap>& __x);
797 template <
typename _Tp,
typename _Ap>
798 _GLIBCXX_SIMD_INTRINSIC constexpr
auto&
799 __data(simd_mask<_Tp, _Ap>& __x);
803 template <
typename _FromT,
typename _FromA,
typename _ToT,
typename _ToA,
805 struct _SimdConverter;
807 template <
typename _Tp,
typename _Ap>
808 struct _SimdConverter<_Tp, _Ap, _Tp, _Ap, void>
810 template <
typename _Up>
811 _GLIBCXX_SIMD_INTRINSIC
const _Up&
812 operator()(
const _Up& __x)
818 template <
typename _V>
819 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 820 __to_value_type_or_member_type(
const _V& __x) -> decltype(__data(__x))
821 {
return __data(__x); }
823 template <
typename _V>
824 _GLIBCXX_SIMD_INTRINSIC constexpr
const typename _V::value_type&
825 __to_value_type_or_member_type(
const typename _V::value_type& __x)
830 template <
size_t _Size>
831 struct __bool_storage_member_type;
833 template <
size_t _Size>
834 using __bool_storage_member_type_t =
835 typename __bool_storage_member_type<_Size>::type;
845 template <
typename _Tp,
typename... _Abis>
850 template <
typename _Tp,
int _Np>
851 struct __fixed_size_storage;
853 template <
typename _Tp,
int _Np>
854 using __fixed_size_storage_t =
typename __fixed_size_storage<_Tp, _Np>::type;
858 template <
typename _Tp,
size_t _Size,
typename =
void_t<>>
861 template <
typename _Tp>
862 using _SimdWrapper8 = _SimdWrapper<_Tp, 8 /
sizeof(_Tp)>;
863 template <
typename _Tp>
864 using _SimdWrapper16 = _SimdWrapper<_Tp, 16 /
sizeof(_Tp)>;
865 template <
typename _Tp>
866 using _SimdWrapper32 = _SimdWrapper<_Tp, 32 /
sizeof(_Tp)>;
867 template <
typename _Tp>
868 using _SimdWrapper64 = _SimdWrapper<_Tp, 64 /
sizeof(_Tp)>;
872 template <
typename _Tp>
875 template <
typename _Tp,
size_t _Np>
876 struct __is_simd_wrapper<_SimdWrapper<_Tp, _Np>> :
true_type {};
878 template <
typename _Tp>
879 inline constexpr
bool __is_simd_wrapper_v = __is_simd_wrapper<_Tp>::value;
886 template <
typename _Tp,
typename _Fp>
888 _S_bit_iteration(_Tp __mask, _Fp&& __f)
890 static_assert(
sizeof(_ULLong) >=
sizeof(_Tp));
891 conditional_t<sizeof(_Tp) <= sizeof(_UInt), _UInt, _ULLong> __k;
892 if constexpr (is_convertible_v<_Tp, decltype(__k)>)
895 __k = __mask.to_ullong();
898 __f(std::__countr_zero(__k));
908 template <
typename _Tp =
void>
910 { constexpr _Tp operator()(_Tp __a)
const {
return ++__a; } };
913 struct __increment<void>
915 template <
typename _Tp>
917 operator()(_Tp __a)
const 921 template <
typename _Tp =
void>
923 { constexpr _Tp operator()(_Tp __a)
const {
return --__a; } };
926 struct __decrement<void>
928 template <
typename _Tp>
930 operator()(_Tp __a)
const 936 template <
typename _From,
typename _To,
938 __is_narrowing_conversion<__remove_cvref_t<_From>, _To>>::value>>
939 using _ValuePreserving = _From;
941 template <
typename _From,
typename _To,
942 typename _DecayedFrom = __remove_cvref_t<_From>,
944 is_convertible<_From, _To>,
946 is_same<_DecayedFrom, _To>, is_same<_DecayedFrom, int>,
947 conjunction<is_same<_DecayedFrom, _UInt>, is_unsigned<_To>>,
948 negation<__is_narrowing_conversion<_DecayedFrom, _To>>>>::value>>
949 using _ValuePreservingOrInt = _From;
953 template <
typename _Tp,
size_t _Bytes,
typename =
void_t<>>
954 struct __intrinsic_type;
956 template <
typename _Tp,
size_t _Size>
957 using __intrinsic_type_t =
958 typename __intrinsic_type<_Tp, _Size * sizeof(_Tp)>::type;
960 template <
typename _Tp>
961 using __intrinsic_type2_t =
typename __intrinsic_type<_Tp, 2>::type;
962 template <
typename _Tp>
963 using __intrinsic_type4_t =
typename __intrinsic_type<_Tp, 4>::type;
964 template <
typename _Tp>
965 using __intrinsic_type8_t =
typename __intrinsic_type<_Tp, 8>::type;
966 template <
typename _Tp>
967 using __intrinsic_type16_t =
typename __intrinsic_type<_Tp, 16>::type;
968 template <
typename _Tp>
969 using __intrinsic_type32_t =
typename __intrinsic_type<_Tp, 32>::type;
970 template <
typename _Tp>
971 using __intrinsic_type64_t =
typename __intrinsic_type<_Tp, 64>::type;
975 template <
size_t _Np,
bool _Sanitized = false>
978 template <
size_t _Np,
bool _Sanitized>
979 struct __is_bitmask<_BitMask<_Np, _Sanitized>, void> :
true_type {};
981 template <
size_t _Np>
982 using _SanitizedBitMask = _BitMask<_Np, true>;
984 template <
size_t _Np,
bool _Sanitized>
987 static_assert(_Np > 0);
989 static constexpr
size_t _NBytes = __div_roundup(_Np, __CHAR_BIT__);
993 sizeof(_ULLong), std::__bit_ceil(_NBytes))>>>;
995 static constexpr
int _S_array_size = __div_roundup(_NBytes,
sizeof(_Tp));
997 _Tp _M_bits[_S_array_size];
999 static constexpr
int _S_unused_bits
1000 = _Np == 1 ? 0 : _S_array_size *
sizeof(_Tp) * __CHAR_BIT__ - _Np;
1002 static constexpr _Tp _S_bitmask = +_Tp(~_Tp()) >> _S_unused_bits;
1004 constexpr _BitMask() noexcept = default;
1006 constexpr _BitMask(
unsigned long long __x) noexcept
1007 : _M_bits{
static_cast<_Tp
>(__x)} {}
1009 _BitMask(bitset<_Np> __x) noexcept : _BitMask(__x.to_ullong()) {}
1011 constexpr _BitMask(
const _BitMask&) noexcept =
default;
1013 template <
bool _RhsSanitized,
typename =
enable_if_t<_RhsSanitized ==
false 1014 && _Sanitized ==
true>>
1015 constexpr _BitMask(
const _BitMask<_Np, _RhsSanitized>& __rhs) noexcept
1016 : _BitMask(__rhs._M_sanitized()) {}
1018 constexpr
operator _SimdWrapper<bool, _Np>()
const noexcept
1020 static_assert(_S_array_size == 1);
1026 _M_to_bits() const noexcept
1028 static_assert(_S_array_size == 1);
1033 constexpr
unsigned long long 1034 to_ullong() const noexcept
1036 static_assert(_S_array_size == 1);
1041 constexpr
unsigned long 1042 to_ulong() const noexcept
1044 static_assert(_S_array_size == 1);
1048 constexpr bitset<_Np>
1049 _M_to_bitset() const noexcept
1051 static_assert(_S_array_size == 1);
1055 constexpr decltype(
auto)
1056 _M_sanitized() const noexcept
1058 if constexpr (_Sanitized)
1060 else if constexpr (_Np == 1)
1061 return _SanitizedBitMask<_Np>(_M_bits[0]);
1064 _SanitizedBitMask<_Np> __r = {};
1065 for (
int __i = 0; __i < _S_array_size; ++__i)
1066 __r._M_bits[__i] = _M_bits[__i];
1067 if constexpr (_S_unused_bits > 0)
1068 __r._M_bits[_S_array_size - 1] &= _S_bitmask;
1073 template <
size_t _Mp,
bool _LSanitized>
1074 constexpr _BitMask<_Np + _Mp, _Sanitized>
1075 _M_prepend(_BitMask<_Mp, _LSanitized> __lsb)
const noexcept
1077 constexpr
size_t _RN = _Np + _Mp;
1078 using _Rp = _BitMask<_RN, _Sanitized>;
1079 if constexpr (_Rp::_S_array_size == 1)
1081 _Rp __r{{_M_bits[0]}};
1082 __r._M_bits[0] <<= _Mp;
1083 __r._M_bits[0] |= __lsb._M_sanitized()._M_bits[0];
1087 __assert_unreachable<_Rp>();
1093 template <
size_t _DropLsb,
size_t _NewSize = _Np - _DropLsb>
1095 _M_extract() const noexcept
1097 static_assert(_Np > _DropLsb);
1098 static_assert(_DropLsb + _NewSize <=
sizeof(_ULLong) * __CHAR_BIT__,
1099 "not implemented for bitmasks larger than one ullong");
1100 if constexpr (_NewSize == 1)
1102 return _SanitizedBitMask<1>(_M_bits[0] & (_Tp(1) << _DropLsb));
1104 return _BitMask<_NewSize,
1105 ((_NewSize + _DropLsb == sizeof(_Tp) * __CHAR_BIT__
1106 && _NewSize + _DropLsb <= _Np)
1107 || ((_Sanitized || _Np == sizeof(_Tp) * __CHAR_BIT__)
1108 && _NewSize + _DropLsb >= _Np))>(_M_bits[0]
1114 all() const noexcept
1116 if constexpr (_Np == 1)
1118 else if constexpr (!_Sanitized)
1119 return _M_sanitized().all();
1122 constexpr _Tp __allbits = ~_Tp();
1123 for (
int __i = 0; __i < _S_array_size - 1; ++__i)
1124 if (_M_bits[__i] != __allbits)
1126 return _M_bits[_S_array_size - 1] == _S_bitmask;
1133 any() const noexcept
1135 if constexpr (_Np == 1)
1137 else if constexpr (!_Sanitized)
1138 return _M_sanitized().any();
1141 for (
int __i = 0; __i < _S_array_size - 1; ++__i)
1142 if (_M_bits[__i] != 0)
1144 return _M_bits[_S_array_size - 1] != 0;
1150 none() const noexcept
1152 if constexpr (_Np == 1)
1154 else if constexpr (!_Sanitized)
1155 return _M_sanitized().none();
1158 for (
int __i = 0; __i < _S_array_size - 1; ++__i)
1159 if (_M_bits[__i] != 0)
1161 return _M_bits[_S_array_size - 1] == 0;
1168 count() const noexcept
1170 if constexpr (_Np == 1)
1172 else if constexpr (!_Sanitized)
1173 return _M_sanitized().none();
1176 int __result = __builtin_popcountll(_M_bits[0]);
1177 for (
int __i = 1; __i < _S_array_size; ++__i)
1178 __result += __builtin_popcountll(_M_bits[__i]);
1185 operator[](
size_t __i)
const noexcept
1187 if constexpr (_Np == 1)
1189 else if constexpr (_S_array_size == 1)
1190 return (_M_bits[0] >> __i) & 1;
1193 const size_t __j = __i / (
sizeof(_Tp) * __CHAR_BIT__);
1194 const size_t __shift = __i % (
sizeof(_Tp) * __CHAR_BIT__);
1195 return (_M_bits[__j] >> __shift) & 1;
1199 template <
size_t __i>
1201 operator[](_SizeConstant<__i>)
const noexcept
1203 static_assert(__i < _Np);
1204 constexpr
size_t __j = __i / (
sizeof(_Tp) * __CHAR_BIT__);
1205 constexpr
size_t __shift = __i % (
sizeof(_Tp) * __CHAR_BIT__);
1206 return static_cast<bool>(_M_bits[__j] & (_Tp(1) << __shift));
1211 set(
size_t __i,
bool __x) noexcept
1213 if constexpr (_Np == 1)
1215 else if constexpr (_S_array_size == 1)
1217 _M_bits[0] &= ~_Tp(_Tp(1) << __i);
1218 _M_bits[0] |= _Tp(_Tp(__x) << __i);
1222 const size_t __j = __i / (
sizeof(_Tp) * __CHAR_BIT__);
1223 const size_t __shift = __i % (
sizeof(_Tp) * __CHAR_BIT__);
1224 _M_bits[__j] &= ~_Tp(_Tp(1) << __shift);
1225 _M_bits[__j] |= _Tp(_Tp(__x) << __shift);
1229 template <
size_t __i>
1231 set(_SizeConstant<__i>,
bool __x) noexcept
1233 static_assert(__i < _Np);
1234 if constexpr (_Np == 1)
1238 constexpr
size_t __j = __i / (
sizeof(_Tp) * __CHAR_BIT__);
1239 constexpr
size_t __shift = __i % (
sizeof(_Tp) * __CHAR_BIT__);
1240 constexpr _Tp __mask = ~_Tp(_Tp(1) << __shift);
1241 _M_bits[__j] &= __mask;
1242 _M_bits[__j] |= _Tp(_Tp(__x) << __shift);
1248 operator~() const noexcept
1250 if constexpr (_Np == 1)
1254 _BitMask __result{};
1255 for (
int __i = 0; __i < _S_array_size - 1; ++__i)
1256 __result._M_bits[__i] = ~_M_bits[__i];
1257 if constexpr (_Sanitized)
1258 __result._M_bits[_S_array_size - 1]
1259 = _M_bits[_S_array_size - 1] ^ _S_bitmask;
1261 __result._M_bits[_S_array_size - 1] = ~_M_bits[_S_array_size - 1];
1267 operator^=(
const _BitMask& __b) & noexcept
1269 __execute_n_times<_S_array_size>(
1270 [&](
auto __i) { _M_bits[__i] ^= __b._M_bits[__i]; });
1275 operator|=(
const _BitMask& __b) & noexcept
1277 __execute_n_times<_S_array_size>(
1278 [&](
auto __i) { _M_bits[__i] |= __b._M_bits[__i]; });
1283 operator&=(
const _BitMask& __b) & noexcept
1285 __execute_n_times<_S_array_size>(
1286 [&](
auto __i) { _M_bits[__i] &= __b._M_bits[__i]; });
1290 friend constexpr _BitMask
1291 operator^(
const _BitMask& __a,
const _BitMask& __b) noexcept
1298 friend constexpr _BitMask
1299 operator|(
const _BitMask& __a,
const _BitMask& __b) noexcept
1306 friend constexpr _BitMask
1307 operator&(
const _BitMask& __a,
const _BitMask& __b) noexcept
1314 _GLIBCXX_SIMD_INTRINSIC
1316 _M_is_constprop()
const 1318 if constexpr (_S_array_size == 0)
1319 return __builtin_constant_p(_M_bits[0]);
1322 for (
int __i = 0; __i < _S_array_size; ++__i)
1323 if (!__builtin_constant_p(_M_bits[__i]))
1334 template <
typename _Tp =
void>
1335 static inline constexpr
int __min_vector_size = 2 *
sizeof(_Tp);
1337 #if _GLIBCXX_SIMD_HAVE_NEON 1339 inline constexpr
int __min_vector_size<void> = 8;
1342 inline constexpr
int __min_vector_size<void> = 16;
1347 template <
typename _Tp,
size_t _Np,
typename =
void>
1348 struct __vector_type_n {};
1351 template <
typename _Tp>
1352 struct __vector_type_n<_Tp, 0, void> {};
1355 template <
typename _Tp>
1356 struct __vector_type_n<_Tp, 1,
enable_if_t<__is_vectorizable_v<_Tp>>>
1357 {
using type = _Tp; };
1360 template <
typename _Tp,
size_t _Np>
1361 struct __vector_type_n<_Tp, _Np,
1362 enable_if_t<__is_vectorizable_v<_Tp> && _Np >= 2>>
1364 static constexpr
size_t _S_Np2 = std::__bit_ceil(_Np *
sizeof(_Tp));
1366 static constexpr
size_t _S_Bytes =
1372 _S_Np2 < __min_vector_size<_Tp> ? __min_vector_size<_Tp>
1375 using type [[__gnu__::__vector_size__(_S_Bytes)]] = _Tp;
1378 template <
typename _Tp,
size_t _Bytes,
size_t = _Bytes % sizeof(_Tp)>
1379 struct __vector_type;
1381 template <
typename _Tp,
size_t _Bytes>
1382 struct __vector_type<_Tp, _Bytes, 0>
1383 : __vector_type_n<_Tp, _Bytes / sizeof(_Tp)> {};
1385 template <
typename _Tp,
size_t _Size>
1386 using __vector_type_t =
typename __vector_type_n<_Tp, _Size>::type;
1388 template <
typename _Tp>
1389 using __vector_type2_t =
typename __vector_type<_Tp, 2>::type;
1390 template <
typename _Tp>
1391 using __vector_type4_t =
typename __vector_type<_Tp, 4>::type;
1392 template <
typename _Tp>
1393 using __vector_type8_t =
typename __vector_type<_Tp, 8>::type;
1394 template <
typename _Tp>
1395 using __vector_type16_t =
typename __vector_type<_Tp, 16>::type;
1396 template <
typename _Tp>
1397 using __vector_type32_t =
typename __vector_type<_Tp, 32>::type;
1398 template <
typename _Tp>
1399 using __vector_type64_t =
typename __vector_type<_Tp, 64>::type;
1403 template <
typename _Tp,
typename =
void_t<>>
1406 template <
typename _Tp>
1407 struct __is_vector_type<
1408 _Tp,
void_t<typename __vector_type<
1410 : is_same<_Tp, typename __vector_type<
1411 remove_reference_t<decltype(declval<_Tp>()[0])>,
1412 sizeof(_Tp)>::type> {};
1414 template <
typename _Tp>
1415 inline constexpr
bool __is_vector_type_v = __is_vector_type<_Tp>::value;
1419 #if _GLIBCXX_SIMD_HAVE_SSE_ABI 1420 template <
typename _Tp>
1421 using __is_intrinsic_type = __is_vector_type<_Tp>;
1422 #else // not SSE (x86) 1423 template <
typename _Tp,
typename =
void_t<>>
1426 template <
typename _Tp>
1427 struct __is_intrinsic_type<
1428 _Tp,
void_t<typename __intrinsic_type<
1430 : is_same<_Tp, typename __intrinsic_type<
1431 remove_reference_t<decltype(declval<_Tp>()[0])>,
1432 sizeof(_Tp)>::type> {};
1435 template <
typename _Tp>
1436 inline constexpr
bool __is_intrinsic_type_v = __is_intrinsic_type<_Tp>::value;
1440 template <
typename _Tp,
typename =
void_t<>>
1441 struct _VectorTraitsImpl;
1443 template <
typename _Tp>
1444 struct _VectorTraitsImpl<_Tp,
enable_if_t<__is_vector_type_v<_Tp>
1445 || __is_intrinsic_type_v<_Tp>>>
1448 using value_type = remove_reference_t<decltype(declval<_Tp>()[0])>;
1449 static constexpr
int _S_full_size =
sizeof(_Tp) /
sizeof(value_type);
1450 using _Wrapper = _SimdWrapper<value_type, _S_full_size>;
1451 template <
typename _Up,
int _W = _S_full_size>
1452 static constexpr
bool _S_is
1453 = is_same_v<value_type, _Up> && _W == _S_full_size;
1456 template <
typename _Tp,
size_t _Np>
1457 struct _VectorTraitsImpl<_SimdWrapper<_Tp, _Np>,
1458 void_t<__vector_type_t<_Tp, _Np>>>
1460 using type = __vector_type_t<_Tp, _Np>;
1461 using value_type = _Tp;
1462 static constexpr
int _S_full_size =
sizeof(type) /
sizeof(value_type);
1463 using _Wrapper = _SimdWrapper<_Tp, _Np>;
1464 static constexpr
bool _S_is_partial = (_Np == _S_full_size);
1465 static constexpr
int _S_partial_width = _Np;
1466 template <
typename _Up,
int _W = _S_full_size>
1467 static constexpr
bool _S_is
1468 = is_same_v<value_type, _Up>&& _W == _S_full_size;
1471 template <typename _Tp, typename = typename _VectorTraitsImpl<_Tp>::type>
1472 using _VectorTraits = _VectorTraitsImpl<_Tp>;
1476 template <
typename _V>
1477 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 1480 if constexpr (__is_vector_type_v<_V>)
1482 else if constexpr (is_simd<_V>::value || is_simd_mask<_V>::value)
1483 return __data(__x)._M_data;
1484 else if constexpr (__is_vectorizable_v<_V>)
1485 return __vector_type_t<_V, 2>{__x};
1492 template <
size_t _Np = 0,
typename _V>
1493 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 1494 __as_wrapper(_V __x)
1496 if constexpr (__is_vector_type_v<_V>)
1497 return _SimdWrapper<typename _VectorTraits<_V>::value_type,
1498 (_Np > 0 ? _Np : _VectorTraits<_V>::_S_full_size)>(__x);
1499 else if constexpr (is_simd<_V>::value || is_simd_mask<_V>::value)
1506 static_assert(_V::_S_size == _Np);
1513 template <
typename _To,
typename _From>
1514 _GLIBCXX_SIMD_INTRINSIC constexpr _To
1515 __intrin_bitcast(_From __v)
1517 static_assert((__is_vector_type_v<_From> || __is_intrinsic_type_v<_From>)
1518 && (__is_vector_type_v<_To> || __is_intrinsic_type_v<_To>));
1519 if constexpr (
sizeof(_To) ==
sizeof(_From))
1520 return reinterpret_cast<_To
>(__v);
1521 else if constexpr (
sizeof(_From) >
sizeof(_To))
1522 if constexpr (
sizeof(_To) >= 16)
1523 return reinterpret_cast<const __may_alias<_To>&>(__v);
1527 __builtin_memcpy(&__r, &__v,
sizeof(_To));
1530 #if _GLIBCXX_SIMD_X86INTRIN && !defined __clang__ 1531 else if constexpr (__have_avx &&
sizeof(_From) == 16 &&
sizeof(_To) == 32)
1532 return reinterpret_cast<_To>(__builtin_ia32_ps256_ps(
1533 reinterpret_cast<__vector_type_t<
float, 4>>(__v)));
1534 else if constexpr (__have_avx512f && sizeof(_From) == 16
1535 && sizeof(_To) == 64)
1536 return reinterpret_cast<_To>(__builtin_ia32_ps512_ps(
1537 reinterpret_cast<__vector_type_t<
float, 4>>(__v)));
1538 else if constexpr (__have_avx512f && sizeof(_From) == 32
1539 && sizeof(_To) == 64)
1540 return reinterpret_cast<_To>(__builtin_ia32_ps512_256ps(
1541 reinterpret_cast<__vector_type_t<
float, 8>>(__v)));
1542 #endif // _GLIBCXX_SIMD_X86INTRIN 1543 else if constexpr (
sizeof(__v) <= 8)
1544 return reinterpret_cast<_To>(
1545 __vector_type_t<__int_for_sizeof_t<_From>, sizeof(_To) / sizeof(_From)>{
1546 reinterpret_cast<__int_for_sizeof_t<_From>
>(__v)});
1549 static_assert(
sizeof(_To) >
sizeof(_From));
1551 __builtin_memcpy(&__r, &__v,
sizeof(_From));
1558 template <
typename _To,
size_t _NN = 0,
typename _From,
1559 typename _FromVT = _VectorTraits<_From>,
1560 size_t _Np = _NN == 0 ?
sizeof(_From) /
sizeof(_To) : _NN>
1561 _GLIBCXX_SIMD_INTRINSIC constexpr __vector_type_t<_To, _Np>
1562 __vector_bitcast(_From __x)
1564 using _R = __vector_type_t<_To, _Np>;
1565 return __intrin_bitcast<_R>(__x);
1568 template <
typename _To,
size_t _NN = 0,
typename _Tp,
size_t _Nx,
1570 = _NN == 0 ?
sizeof(_SimdWrapper<_Tp, _Nx>) /
sizeof(_To) : _NN>
1571 _GLIBCXX_SIMD_INTRINSIC constexpr __vector_type_t<_To, _Np>
1572 __vector_bitcast(
const _SimdWrapper<_Tp, _Nx>& __x)
1574 static_assert(_Np > 1);
1575 return __intrin_bitcast<__vector_type_t<_To, _Np>>(__x._M_data);
1580 #ifdef _GLIBCXX_SIMD_WORKAROUND_PR85048 1581 template <
typename _To,
typename _Tp,
typename _TVT = _VectorTraits<_Tp>>
1582 _To __convert_x86(_Tp);
1584 template <
typename _To,
typename _Tp,
typename _TVT = _VectorTraits<_Tp>>
1585 _To __convert_x86(_Tp, _Tp);
1587 template <
typename _To,
typename _Tp,
typename _TVT = _VectorTraits<_Tp>>
1588 _To __convert_x86(_Tp, _Tp, _Tp, _Tp);
1590 template <
typename _To,
typename _Tp,
typename _TVT = _VectorTraits<_Tp>>
1591 _To __convert_x86(_Tp, _Tp, _Tp, _Tp, _Tp, _Tp, _Tp, _Tp);
1593 template <
typename _To,
typename _Tp,
typename _TVT = _VectorTraits<_Tp>>
1594 _To __convert_x86(_Tp, _Tp, _Tp, _Tp, _Tp, _Tp, _Tp, _Tp, _Tp, _Tp, _Tp, _Tp,
1595 _Tp, _Tp, _Tp, _Tp);
1596 #endif // _GLIBCXX_SIMD_WORKAROUND_PR85048 1600 template <
typename _To,
typename _From>
1601 _GLIBCXX_SIMD_INTRINSIC constexpr _To
1602 __bit_cast(
const _From __x)
1605 static_assert(
sizeof(_To) ==
sizeof(_From));
1606 constexpr
bool __to_is_vectorizable
1607 = is_arithmetic_v<_To> || is_enum_v<_To>;
1608 constexpr
bool __from_is_vectorizable
1609 = is_arithmetic_v<_From> || is_enum_v<_From>;
1610 if constexpr (__is_vector_type_v<_To> && __is_vector_type_v<_From>)
1611 return reinterpret_cast<_To
>(__x);
1612 else if constexpr (__is_vector_type_v<_To> && __from_is_vectorizable)
1614 using _FV [[gnu::vector_size(
sizeof(_From))]] = _From;
1615 return reinterpret_cast<_To
>(_FV{__x});
1617 else if constexpr (__to_is_vectorizable && __from_is_vectorizable)
1619 using _TV [[gnu::vector_size(
sizeof(_To))]] = _To;
1620 using _FV [[gnu::vector_size(
sizeof(_From))]] = _From;
1621 return reinterpret_cast<_TV
>(_FV{__x})[0];
1623 else if constexpr (__to_is_vectorizable && __is_vector_type_v<_From>)
1625 using _TV [[gnu::vector_size(
sizeof(_To))]] = _To;
1626 return reinterpret_cast<_TV
>(__x)[0];
1631 __builtin_memcpy(reinterpret_cast<char*>(&__r),
1632 reinterpret_cast<const char*>(&__x),
sizeof(_To));
1639 template <
typename _Tp,
typename _TVT = _VectorTraits<_Tp>,
1641 = __
intrinsic_type_t<
typename _TVT::value_type, _TVT::_S_full_size>>
1642 _GLIBCXX_SIMD_INTRINSIC constexpr _R
1643 __to_intrin(_Tp __x)
1645 static_assert(
sizeof(__x) <=
sizeof(_R),
1646 "__to_intrin may never drop values off the end");
1647 if constexpr (
sizeof(__x) ==
sizeof(_R))
1648 return reinterpret_cast<_R
>(__as_vector(__x));
1651 using _Up = __int_for_sizeof_t<_Tp>;
1652 return reinterpret_cast<_R
>(
1653 __vector_type_t<_Up,
sizeof(_R) /
sizeof(_Up)>{__bit_cast<_Up>(__x)});
1659 template <
typename _Tp,
typename... _Args>
1660 _GLIBCXX_SIMD_INTRINSIC constexpr __vector_type_t<_Tp,
sizeof...(_Args)>
1661 __make_vector(
const _Args&... __args)
1663 return __vector_type_t<_Tp,
sizeof...(_Args)>{
static_cast<_Tp
>(__args)...};
1668 template <
size_t _Np,
typename _Tp>
1669 _GLIBCXX_SIMD_INTRINSIC constexpr __vector_type_t<_Tp, _Np>
1670 __vector_broadcast(_Tp __x)
1672 return __call_with_n_evaluations<_Np>(
1673 [](
auto... __xx) {
return __vector_type_t<_Tp, _Np>{__xx...}; },
1674 [&__x](int) {
return __x; });
1679 template <
typename _Tp,
size_t _Np,
typename _Gp,
size_t... _I>
1680 _GLIBCXX_SIMD_INTRINSIC constexpr __vector_type_t<_Tp, _Np>
1681 __generate_vector_impl(_Gp&& __gen, index_sequence<_I...>)
1683 return __vector_type_t<_Tp, _Np>{
1684 static_cast<_Tp
>(__gen(_SizeConstant<_I>()))...};
1687 template <
typename _V,
typename _VVT = _VectorTraits<_V>,
typename _Gp>
1688 _GLIBCXX_SIMD_INTRINSIC constexpr _V
1689 __generate_vector(_Gp&& __gen)
1691 if constexpr (__is_vector_type_v<_V>)
1692 return __generate_vector_impl<
typename _VVT::value_type,
1693 _VVT::_S_full_size>(
1694 static_cast<_Gp&&
>(__gen), make_index_sequence<_VVT::_S_full_size>());
1696 return __generate_vector_impl<
typename _VVT::value_type,
1697 _VVT::_S_partial_width>(
1698 static_cast<_Gp&&
>(__gen),
1699 make_index_sequence<_VVT::_S_partial_width>());
1702 template <
typename _Tp,
size_t _Np,
typename _Gp>
1703 _GLIBCXX_SIMD_INTRINSIC constexpr __vector_type_t<_Tp, _Np>
1704 __generate_vector(_Gp&& __gen)
1706 return __generate_vector_impl<_Tp, _Np>(
static_cast<_Gp&&
>(__gen),
1707 make_index_sequence<_Np>());
1712 template <
typename _TW>
1713 _GLIBCXX_SIMD_INTRINSIC constexpr _TW
1714 __xor(_TW __a, _TW __b) noexcept
1716 if constexpr (__is_vector_type_v<_TW> || __is_simd_wrapper_v<_TW>)
1718 using _Tp =
typename conditional_t<__is_simd_wrapper_v<_TW>, _TW,
1719 _VectorTraitsImpl<_TW>>::value_type;
1720 if constexpr (is_floating_point_v<_Tp>)
1722 using _Ip = make_unsigned_t<__int_for_sizeof_t<_Tp>>;
1723 return __vector_bitcast<_Tp>(__vector_bitcast<_Ip>(__a)
1724 ^ __vector_bitcast<_Ip>(__b));
1726 else if constexpr (__is_vector_type_v<_TW>)
1729 return __a._M_data ^ __b._M_data;
1737 template <
typename _TW>
1738 _GLIBCXX_SIMD_INTRINSIC constexpr _TW
1739 __or(_TW __a, _TW __b) noexcept
1741 if constexpr (__is_vector_type_v<_TW> || __is_simd_wrapper_v<_TW>)
1743 using _Tp =
typename conditional_t<__is_simd_wrapper_v<_TW>, _TW,
1744 _VectorTraitsImpl<_TW>>::value_type;
1745 if constexpr (is_floating_point_v<_Tp>)
1747 using _Ip = make_unsigned_t<__int_for_sizeof_t<_Tp>>;
1748 return __vector_bitcast<_Tp>(__vector_bitcast<_Ip>(__a)
1749 | __vector_bitcast<_Ip>(__b));
1751 else if constexpr (__is_vector_type_v<_TW>)
1754 return __a._M_data | __b._M_data;
1762 template <
typename _TW>
1763 _GLIBCXX_SIMD_INTRINSIC constexpr _TW
1764 __and(_TW __a, _TW __b) noexcept
1766 if constexpr (__is_vector_type_v<_TW> || __is_simd_wrapper_v<_TW>)
1768 using _Tp =
typename conditional_t<__is_simd_wrapper_v<_TW>, _TW,
1769 _VectorTraitsImpl<_TW>>::value_type;
1770 if constexpr (is_floating_point_v<_Tp>)
1772 using _Ip = make_unsigned_t<__int_for_sizeof_t<_Tp>>;
1773 return __vector_bitcast<_Tp>(__vector_bitcast<_Ip>(__a)
1774 & __vector_bitcast<_Ip>(__b));
1776 else if constexpr (__is_vector_type_v<_TW>)
1779 return __a._M_data & __b._M_data;
1787 #if _GLIBCXX_SIMD_X86INTRIN && !defined __clang__ 1788 static constexpr
struct 1790 _GLIBCXX_SIMD_INTRINSIC __v4sf
1791 operator()(__v4sf __a, __v4sf __b)
const noexcept
1792 {
return __builtin_ia32_andnps(__a, __b); }
1794 _GLIBCXX_SIMD_INTRINSIC __v2df
1795 operator()(__v2df __a, __v2df __b)
const noexcept
1796 {
return __builtin_ia32_andnpd(__a, __b); }
1798 _GLIBCXX_SIMD_INTRINSIC __v2di
1799 operator()(__v2di __a, __v2di __b)
const noexcept
1800 {
return __builtin_ia32_pandn128(__a, __b); }
1802 _GLIBCXX_SIMD_INTRINSIC __v8sf
1803 operator()(__v8sf __a, __v8sf __b)
const noexcept
1804 {
return __builtin_ia32_andnps256(__a, __b); }
1806 _GLIBCXX_SIMD_INTRINSIC __v4df
1807 operator()(__v4df __a, __v4df __b)
const noexcept
1808 {
return __builtin_ia32_andnpd256(__a, __b); }
1810 _GLIBCXX_SIMD_INTRINSIC __v4di
1811 operator()(__v4di __a, __v4di __b)
const noexcept
1813 if constexpr (__have_avx2)
1814 return __builtin_ia32_andnotsi256(__a, __b);
1816 return reinterpret_cast<__v4di
>(
1817 __builtin_ia32_andnpd256(reinterpret_cast<__v4df>(__a),
1818 reinterpret_cast<__v4df>(__b)));
1821 _GLIBCXX_SIMD_INTRINSIC __v16sf
1822 operator()(__v16sf __a, __v16sf __b)
const noexcept
1824 if constexpr (__have_avx512dq)
1825 return _mm512_andnot_ps(__a, __b);
1827 return reinterpret_cast<__v16sf
>(
1828 _mm512_andnot_si512(reinterpret_cast<__v8di>(__a),
1829 reinterpret_cast<__v8di>(__b)));
1832 _GLIBCXX_SIMD_INTRINSIC __v8df
1833 operator()(__v8df __a, __v8df __b)
const noexcept
1835 if constexpr (__have_avx512dq)
1836 return _mm512_andnot_pd(__a, __b);
1838 return reinterpret_cast<__v8df
>(
1839 _mm512_andnot_si512(reinterpret_cast<__v8di>(__a),
1840 reinterpret_cast<__v8di>(__b)));
1843 _GLIBCXX_SIMD_INTRINSIC __v8di
1844 operator()(__v8di __a, __v8di __b)
const noexcept
1845 {
return _mm512_andnot_si512(__a, __b); }
1847 #endif // _GLIBCXX_SIMD_X86INTRIN && !__clang__ 1849 template <
typename _TW>
1850 _GLIBCXX_SIMD_INTRINSIC constexpr _TW
1851 __andnot(_TW __a, _TW __b) noexcept
1853 if constexpr (__is_vector_type_v<_TW> || __is_simd_wrapper_v<_TW>)
1855 using _TVT = conditional_t<__is_simd_wrapper_v<_TW>, _TW,
1856 _VectorTraitsImpl<_TW>>;
1857 using _Tp =
typename _TVT::value_type;
1858 #if _GLIBCXX_SIMD_X86INTRIN && !defined __clang__ 1859 if constexpr (
sizeof(_TW) >= 16)
1861 const auto __ai = __to_intrin(__a);
1862 const auto __bi = __to_intrin(__b);
1863 if (!__builtin_is_constant_evaluated()
1864 && !(__builtin_constant_p(__ai) && __builtin_constant_p(__bi)))
1866 const auto __r = _S_x86_andnot(__ai, __bi);
1867 if constexpr (is_convertible_v<decltype(__r), _TW>)
1870 return reinterpret_cast<typename _TVT::type>(__r);
1873 #endif // _GLIBCXX_SIMD_X86INTRIN 1874 using _Ip = make_unsigned_t<__int_for_sizeof_t<_Tp>>;
1875 return __vector_bitcast<_Tp>(~__vector_bitcast<_Ip>(__a)
1876 & __vector_bitcast<_Ip>(__b));
1884 template <
typename _Tp,
typename _TVT = _VectorTraits<_Tp>>
1885 _GLIBCXX_SIMD_INTRINSIC constexpr _Tp
1886 __not(_Tp __a) noexcept
1888 if constexpr (is_floating_point_v<typename _TVT::value_type>)
1889 return reinterpret_cast<typename _TVT::type
>(
1890 ~__vector_bitcast<unsigned>(__a));
1897 template <
typename _Tp,
typename _TVT = _VectorTraits<_Tp>,
1898 typename _R = __vector_type_t<
typename _TVT::value_type,
1899 _TVT::_S_full_size * 2>>
1901 __concat(_Tp a_, _Tp b_)
1903 #ifdef _GLIBCXX_SIMD_WORKAROUND_XXX_1 1905 = conditional_t<is_floating_point_v<typename _TVT::value_type>, double,
1906 conditional_t<(sizeof(_Tp) >= 2 *
sizeof(
long long)),
1907 long long,
typename _TVT::value_type>>;
1908 constexpr
int input_width =
sizeof(_Tp) /
sizeof(_W);
1909 const auto __a = __vector_bitcast<_W>(a_);
1910 const auto __b = __vector_bitcast<_W>(b_);
1911 using _Up = __vector_type_t<_W,
sizeof(_R) /
sizeof(_W)>;
1913 constexpr
int input_width = _TVT::_S_full_size;
1914 const _Tp& __a = a_;
1915 const _Tp& __b = b_;
1918 if constexpr (input_width == 2)
1919 return reinterpret_cast<_R>(_Up{__a[0], __a[1], __b[0], __b[1]});
1920 else if constexpr (input_width == 4)
1921 return reinterpret_cast<_R>(
1922 _Up{__a[0], __a[1], __a[2], __a[3], __b[0], __b[1], __b[2], __b[3]});
1923 else if constexpr (input_width == 8)
1924 return reinterpret_cast<_R>(
1925 _Up{__a[0], __a[1], __a[2], __a[3], __a[4], __a[5], __a[6], __a[7],
1926 __b[0], __b[1], __b[2], __b[3], __b[4], __b[5], __b[6], __b[7]});
1927 else if constexpr (input_width == 16)
1928 return reinterpret_cast<_R>(
1929 _Up{__a[0], __a[1], __a[2], __a[3], __a[4], __a[5], __a[6],
1930 __a[7], __a[8], __a[9], __a[10], __a[11], __a[12], __a[13],
1931 __a[14], __a[15], __b[0], __b[1], __b[2], __b[3], __b[4],
1932 __b[5], __b[6], __b[7], __b[8], __b[9], __b[10], __b[11],
1933 __b[12], __b[13], __b[14], __b[15]});
1934 else if constexpr (input_width == 32)
1935 return reinterpret_cast<_R>(
1936 _Up{__a[0], __a[1], __a[2], __a[3], __a[4], __a[5], __a[6],
1937 __a[7], __a[8], __a[9], __a[10], __a[11], __a[12], __a[13],
1938 __a[14], __a[15], __a[16], __a[17], __a[18], __a[19], __a[20],
1939 __a[21], __a[22], __a[23], __a[24], __a[25], __a[26], __a[27],
1940 __a[28], __a[29], __a[30], __a[31], __b[0], __b[1], __b[2],
1941 __b[3], __b[4], __b[5], __b[6], __b[7], __b[8], __b[9],
1942 __b[10], __b[11], __b[12], __b[13], __b[14], __b[15], __b[16],
1943 __b[17], __b[18], __b[19], __b[20], __b[21], __b[22], __b[23],
1944 __b[24], __b[25], __b[26], __b[27], __b[28], __b[29], __b[30],
1950 template <
typename _Tp,
typename _TVT = _VectorTraits<_Tp>>
1951 struct _ZeroExtendProxy
1953 using value_type =
typename _TVT::value_type;
1954 static constexpr
size_t _Np = _TVT::_S_full_size;
1957 template <
typename _To,
typename _ToVT = _VectorTraits<_To>,
1959 = enable_if_t<is_same_v<
typename _ToVT::value_type, value_type>>>
1960 _GLIBCXX_SIMD_INTRINSIC
operator _To()
const 1962 constexpr
size_t _ToN = _ToVT::_S_full_size;
1963 if constexpr (_ToN == _Np)
1965 else if constexpr (_ToN == 2 * _Np)
1967 #ifdef _GLIBCXX_SIMD_WORKAROUND_XXX_3 1968 if constexpr (__have_avx && _TVT::template _S_is<float, 4>)
1969 return __vector_bitcast<value_type>(
1970 _mm256_insertf128_ps(__m256(), __x, 0));
1971 else if constexpr (__have_avx && _TVT::template _S_is<double, 2>)
1972 return __vector_bitcast<value_type>(
1973 _mm256_insertf128_pd(__m256d(), __x, 0));
1974 else if constexpr (__have_avx2 && _Np *
sizeof(value_type) == 16)
1975 return __vector_bitcast<value_type>(
1976 _mm256_insertf128_si256(__m256i(), __to_intrin(__x), 0));
1977 else if constexpr (__have_avx512f && _TVT::template _S_is<
float, 8>)
1979 if constexpr (__have_avx512dq)
1980 return __vector_bitcast<value_type>(
1981 _mm512_insertf32x8(__m512(), __x, 0));
1983 return reinterpret_cast<__m512
>(
1984 _mm512_insertf64x4(__m512d(),
1985 reinterpret_cast<__m256d>(__x), 0));
1987 else if constexpr (__have_avx512f
1988 && _TVT::template _S_is<double, 4>)
1989 return __vector_bitcast<value_type>(
1990 _mm512_insertf64x4(__m512d(), __x, 0));
1991 else if constexpr (__have_avx512f && _Np *
sizeof(value_type) == 32)
1992 return __vector_bitcast<value_type>(
1993 _mm512_inserti64x4(__m512i(), __to_intrin(__x), 0));
1995 return __concat(__x, _Tp());
1997 else if constexpr (_ToN == 4 * _Np)
1999 #ifdef _GLIBCXX_SIMD_WORKAROUND_XXX_3 2000 if constexpr (__have_avx512dq && _TVT::template _S_is<double, 2>)
2002 return __vector_bitcast<value_type>(
2003 _mm512_insertf64x2(__m512d(), __x, 0));
2005 else if constexpr (__have_avx512f
2006 && is_floating_point_v<value_type>)
2008 return __vector_bitcast<value_type>(
2009 _mm512_insertf32x4(__m512(), reinterpret_cast<__m128>(__x),
2012 else if constexpr (__have_avx512f && _Np *
sizeof(value_type) == 16)
2014 return __vector_bitcast<value_type>(
2015 _mm512_inserti32x4(__m512i(), __to_intrin(__x), 0));
2018 return __concat(__concat(__x, _Tp()),
2019 __vector_type_t<value_type, _Np * 2>());
2021 else if constexpr (_ToN == 8 * _Np)
2022 return __concat(
operator __vector_type_t<value_type, _Np * 4>(),
2023 __vector_type_t<value_type, _Np * 4>());
2024 else if constexpr (_ToN == 16 * _Np)
2025 return __concat(
operator __vector_type_t<value_type, _Np * 8>(),
2026 __vector_type_t<value_type, _Np * 8>());
2028 __assert_unreachable<_Tp>();
2032 template <
typename _Tp,
typename _TVT = _VectorTraits<_Tp>>
2033 _GLIBCXX_SIMD_INTRINSIC _ZeroExtendProxy<_Tp, _TVT>
2034 __zero_extend(_Tp __x)
2039 template <
int _Offset,
2042 typename _TVT = _VectorTraits<_Tp>,
2043 typename _R = __vector_type_t<
typename _TVT::value_type,
2044 _TVT::_S_full_size / _SplitBy>>
2045 _GLIBCXX_SIMD_INTRINSIC constexpr _R
2048 using value_type =
typename _TVT::value_type;
2049 #if _GLIBCXX_SIMD_X86INTRIN // {{{ 2050 if constexpr (
sizeof(_Tp) == 64 && _SplitBy == 4 && _Offset > 0)
2052 if constexpr (__have_avx512dq && is_same_v<double, value_type>)
2053 return _mm512_extractf64x2_pd(__to_intrin(__in), _Offset);
2054 else if constexpr (is_floating_point_v<value_type>)
2055 return __vector_bitcast<value_type>(
2056 _mm512_extractf32x4_ps(__intrin_bitcast<__m512>(__in), _Offset));
2058 return reinterpret_cast<_R
>(
2059 _mm512_extracti32x4_epi32(__intrin_bitcast<__m512i>(__in),
2063 #endif // _GLIBCXX_SIMD_X86INTRIN }}} 2065 #ifdef _GLIBCXX_SIMD_WORKAROUND_XXX_1 2067 is_floating_point_v<value_type>, double,
2068 conditional_t<(sizeof(_R) >= 16),
long long, value_type>>;
2069 static_assert(
sizeof(_R) %
sizeof(_W) == 0);
2070 constexpr
int __return_width =
sizeof(_R) /
sizeof(_W);
2071 using _Up = __vector_type_t<_W, __return_width>;
2072 const auto __x = __vector_bitcast<_W>(__in);
2074 constexpr
int __return_width = _TVT::_S_full_size / _SplitBy;
2076 const __vector_type_t<value_type, _TVT::_S_full_size>& __x
2079 constexpr
int _O = _Offset * __return_width;
2080 return __call_with_subscripts<__return_width, _O>(
2081 __x, [](
auto... __entries) {
2082 return reinterpret_cast<_R
>(_Up{__entries...});
2089 template <
typename _Tp,
2091 = __vector_type8_t<typename _VectorTraits<_Tp>::value_type>>
2092 _GLIBCXX_SIMD_INTRINSIC constexpr _R
2096 __builtin_memcpy(&__r, &__x, 8);
2100 template <
typename _Tp,
2102 = __vector_type8_t<typename _VectorTraits<_Tp>::value_type>>
2103 _GLIBCXX_SIMD_INTRINSIC constexpr _R
2106 static_assert(
sizeof(_Tp) == 16,
"use __hi64z if you meant it");
2108 __builtin_memcpy(&__r, reinterpret_cast<const char*>(&__x) + 8, 8);
2112 template <
typename _Tp,
2114 = __vector_type8_t<typename _VectorTraits<_Tp>::value_type>>
2115 _GLIBCXX_SIMD_INTRINSIC constexpr _R
2116 __hi64z([[maybe_unused]] _Tp __x)
2119 if constexpr (
sizeof(_Tp) == 16)
2120 __builtin_memcpy(&__r, reinterpret_cast<const
char*>(&__x) + 8, 8);
2126 template <typename _Tp>
2127 _GLIBCXX_SIMD_INTRINSIC constexpr auto
2129 {
return __extract<0,
sizeof(_Tp) / 16>(__x); }
2131 template <
typename _Tp>
2132 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 2135 static_assert(
sizeof(__x) == 32);
2136 return __extract<1, 2>(__x);
2141 template <
typename _Tp>
2142 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 2145 static_assert(
sizeof(__x) == 64);
2146 return __extract<0, 2>(__x);
2149 template <
typename _Tp>
2150 _GLIBCXX_SIMD_INTRINSIC constexpr
auto 2153 static_assert(
sizeof(__x) == 64);
2154 return __extract<1, 2>(__x);
2159 template <
typename _Tp>
2162 static_assert(__is_vector_type_v<_Tp>);
2166 template <
typename _Up,
typename _UVT = _VectorTraits<_Up>>
2167 _GLIBCXX_SIMD_INTRINSIC constexpr
operator _Up()
const 2168 {
return __intrin_bitcast<typename _UVT::type>(__x); }
2171 template <
typename _Tp>
2172 _GLIBCXX_SIMD_INTRINSIC constexpr _AutoCast<_Tp>
2173 __auto_bitcast(
const _Tp& __x)
2176 template <
typename _Tp,
size_t _Np>
2177 _GLIBCXX_SIMD_INTRINSIC constexpr
2178 _AutoCast<typename _SimdWrapper<_Tp, _Np>::_BuiltinType>
2179 __auto_bitcast(
const _SimdWrapper<_Tp, _Np>& __x)
2180 {
return {__x._M_data}; }
2185 #if _GLIBCXX_SIMD_HAVE_SSE_ABI 2187 #if _GLIBCXX_SIMD_HAVE_AVX512F && _GLIBCXX_SIMD_X86INTRIN 2188 template <
size_t _Size>
2189 struct __bool_storage_member_type
2191 static_assert((_Size & (_Size - 1)) != 0,
2192 "This trait may only be used for non-power-of-2 sizes. " 2193 "Power-of-2 sizes must be specialized.");
2195 typename __bool_storage_member_type<std::__bit_ceil(_Size)>::type;
2199 struct __bool_storage_member_type<1> {
using type = bool; };
2202 struct __bool_storage_member_type<2> {
using type = __mmask8; };
2205 struct __bool_storage_member_type<4> {
using type = __mmask8; };
2208 struct __bool_storage_member_type<8> {
using type = __mmask8; };
2211 struct __bool_storage_member_type<16> {
using type = __mmask16; };
2214 struct __bool_storage_member_type<32> {
using type = __mmask32; };
2217 struct __bool_storage_member_type<64> {
using type = __mmask64; };
2218 #endif // _GLIBCXX_SIMD_HAVE_AVX512F 2223 #if _GLIBCXX_SIMD_HAVE_SSE 2224 template <
typename _Tp,
size_t _Bytes>
2225 struct __intrinsic_type<_Tp, _Bytes,
2226 enable_if_t<__is_vectorizable_v<_Tp> && _Bytes <= 64>>
2228 static_assert(!is_same_v<_Tp, long double>,
2229 "no __intrinsic_type support for long double on x86");
2231 static constexpr
size_t _S_VBytes = _Bytes <= 16 ? 16
2235 using type [[__gnu__::__vector_size__(_S_VBytes)]]
2236 = conditional_t<is_integral_v<_Tp>,
long long int, _Tp>;
2238 #endif // _GLIBCXX_SIMD_HAVE_SSE 2241 #endif // _GLIBCXX_SIMD_HAVE_SSE_ABI 2243 #if _GLIBCXX_SIMD_HAVE_NEON 2245 struct __intrinsic_type<float, 8, void>
2246 {
using type = float32x2_t; };
2249 struct __intrinsic_type<float, 16, void>
2250 {
using type = float32x4_t; };
2252 #if _GLIBCXX_SIMD_HAVE_NEON_A64 2254 struct __intrinsic_type<double, 8, void>
2255 {
using type = float64x1_t; };
2258 struct __intrinsic_type<double, 16, void>
2259 {
using type = float64x2_t; };
2262 #define _GLIBCXX_SIMD_ARM_INTRIN(_Bits, _Np) \ 2264 struct __intrinsic_type<__int_with_sizeof_t<_Bits / 8>, \ 2265 _Np * _Bits / 8, void> \ 2266 { using type = int##_Bits##x##_Np##_t; }; \ 2268 struct __intrinsic_type<make_unsigned_t<__int_with_sizeof_t<_Bits / 8>>, \ 2269 _Np * _Bits / 8, void> \ 2270 { using type = uint##_Bits##x##_Np##_t; } 2271 _GLIBCXX_SIMD_ARM_INTRIN(8, 8);
2272 _GLIBCXX_SIMD_ARM_INTRIN(8, 16);
2273 _GLIBCXX_SIMD_ARM_INTRIN(16, 4);
2274 _GLIBCXX_SIMD_ARM_INTRIN(16, 8);
2275 _GLIBCXX_SIMD_ARM_INTRIN(32, 2);
2276 _GLIBCXX_SIMD_ARM_INTRIN(32, 4);
2277 _GLIBCXX_SIMD_ARM_INTRIN(64, 1);
2278 _GLIBCXX_SIMD_ARM_INTRIN(64, 2);
2279 #undef _GLIBCXX_SIMD_ARM_INTRIN 2281 template <
typename _Tp,
size_t _Bytes>
2282 struct __intrinsic_type<_Tp, _Bytes,
2283 enable_if_t<__is_vectorizable_v<_Tp> && _Bytes <= 16>>
2285 static constexpr
int _SVecBytes = _Bytes <= 8 ? 8 : 16;
2286 using _Ip = __int_for_sizeof_t<_Tp>;
2288 is_floating_point_v<_Tp>, _Tp,
2289 conditional_t<is_unsigned_v<_Tp>, make_unsigned_t<_Ip>, _Ip>>;
2290 static_assert(!is_same_v<_Tp, _Up> || _SVecBytes != _Bytes,
2291 "should use explicit specialization above");
2292 using type =
typename __intrinsic_type<_Up, _SVecBytes>::type;
2294 #endif // _GLIBCXX_SIMD_HAVE_NEON 2299 template <
typename _Tp>
2300 struct __intrinsic_type_impl;
2302 #define _GLIBCXX_SIMD_PPC_INTRIN(_Tp) \ 2304 struct __intrinsic_type_impl<_Tp> { using type = __vector _Tp; } 2305 _GLIBCXX_SIMD_PPC_INTRIN(
float);
2306 _GLIBCXX_SIMD_PPC_INTRIN(
double);
2307 _GLIBCXX_SIMD_PPC_INTRIN(
signed char);
2308 _GLIBCXX_SIMD_PPC_INTRIN(
unsigned char);
2309 _GLIBCXX_SIMD_PPC_INTRIN(
signed short);
2310 _GLIBCXX_SIMD_PPC_INTRIN(
unsigned short);
2311 _GLIBCXX_SIMD_PPC_INTRIN(
signed int);
2312 _GLIBCXX_SIMD_PPC_INTRIN(
unsigned int);
2313 _GLIBCXX_SIMD_PPC_INTRIN(
signed long);
2314 _GLIBCXX_SIMD_PPC_INTRIN(
unsigned long);
2315 _GLIBCXX_SIMD_PPC_INTRIN(
signed long long);
2316 _GLIBCXX_SIMD_PPC_INTRIN(
unsigned long long);
2317 #undef _GLIBCXX_SIMD_PPC_INTRIN 2319 template <
typename _Tp,
size_t _Bytes>
2320 struct __intrinsic_type<_Tp, _Bytes,
2321 enable_if_t<__is_vectorizable_v<_Tp> && _Bytes <= 16>>
2323 static constexpr
bool _S_is_ldouble = is_same_v<_Tp, long double>;
2325 static_assert(!(_S_is_ldouble &&
sizeof(
long double) >
sizeof(
double)),
2326 "no __intrinsic_type support for long double on PPC");
2328 static_assert(!is_same_v<_Tp, double>,
2329 "no __intrinsic_type support for double on PPC w/o VSX");
2332 typename __intrinsic_type_impl<
2333 conditional_t<is_floating_point_v<_Tp>,
2334 conditional_t<_S_is_ldouble, double, _Tp>,
2335 __int_for_sizeof_t<_Tp>>>::type;
2337 #endif // __ALTIVEC__ 2341 template <
size_t _W
idth>
2342 struct _SimdWrapper<bool, _Width,
2343 void_t<typename __bool_storage_member_type<_Width>::type>>
2345 using _BuiltinType =
typename __bool_storage_member_type<_Width>::type;
2346 using value_type = bool;
2348 static constexpr
size_t _S_full_size =
sizeof(_BuiltinType) * __CHAR_BIT__;
2350 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper<bool, _S_full_size>
2351 __as_full_vector()
const {
return _M_data; }
2353 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper() =
default;
2354 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper(_BuiltinType __k)
2357 _GLIBCXX_SIMD_INTRINSIC
operator const _BuiltinType&()
const 2360 _GLIBCXX_SIMD_INTRINSIC
operator _BuiltinType&()
2363 _GLIBCXX_SIMD_INTRINSIC _BuiltinType __intrin()
const 2366 _GLIBCXX_SIMD_INTRINSIC constexpr value_type operator[](
size_t __i)
const 2367 {
return _M_data & (_BuiltinType(1) << __i); }
2369 template <
size_t __i>
2370 _GLIBCXX_SIMD_INTRINSIC constexpr value_type
2371 operator[](_SizeConstant<__i>)
const 2372 {
return _M_data & (_BuiltinType(1) << __i); }
2374 _GLIBCXX_SIMD_INTRINSIC constexpr
void _M_set(
size_t __i, value_type __x)
2377 _M_data |= (_BuiltinType(1) << __i);
2379 _M_data &= ~(_BuiltinType(1) << __i);
2382 _GLIBCXX_SIMD_INTRINSIC
2383 constexpr
bool _M_is_constprop()
const 2384 {
return __builtin_constant_p(_M_data); }
2386 _GLIBCXX_SIMD_INTRINSIC constexpr
bool _M_is_constprop_none_of()
const 2388 if (__builtin_constant_p(_M_data))
2390 constexpr
int __nbits =
sizeof(_BuiltinType) * __CHAR_BIT__;
2391 constexpr _BuiltinType __active_mask
2392 = ~_BuiltinType() >> (__nbits - _Width);
2393 return (_M_data & __active_mask) == 0;
2398 _GLIBCXX_SIMD_INTRINSIC constexpr
bool _M_is_constprop_all_of()
const 2400 if (__builtin_constant_p(_M_data))
2402 constexpr
int __nbits =
sizeof(_BuiltinType) * __CHAR_BIT__;
2403 constexpr _BuiltinType __active_mask
2404 = ~_BuiltinType() >> (__nbits - _Width);
2405 return (_M_data & __active_mask) == __active_mask;
2410 _BuiltinType _M_data;
2414 template <
bool _MustZeroInitPadding,
typename _BuiltinType>
2415 struct _SimdWrapperBase;
2417 template <
typename _BuiltinType>
2418 struct _SimdWrapperBase<false, _BuiltinType>
2420 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapperBase() =
default;
2421 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapperBase(_BuiltinType __init)
2425 _BuiltinType _M_data;
2428 template <
typename _BuiltinType>
2429 struct _SimdWrapperBase<true, _BuiltinType>
2432 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapperBase() : _M_data() {}
2433 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapperBase(_BuiltinType __init)
2437 _BuiltinType _M_data;
2442 template <
typename _Tp,
size_t _W
idth>
2443 struct _SimdWrapper<
2445 void_t<__vector_type_t<_Tp, _Width>, __intrinsic_type_t<_Tp, _Width>>>
2446 : _SimdWrapperBase<__has_iec559_behavior<__signaling_NaN, _Tp>::value
2447 && sizeof(_Tp) * _Width
2448 == sizeof(__vector_type_t<_Tp, _Width>),
2449 __vector_type_t<_Tp, _Width>>
2452 = _SimdWrapperBase<__has_iec559_behavior<__signaling_NaN, _Tp>::value
2453 &&
sizeof(_Tp) * _Width
2454 ==
sizeof(__vector_type_t<_Tp, _Width>),
2455 __vector_type_t<_Tp, _Width>>;
2457 static_assert(__is_vectorizable_v<_Tp>);
2458 static_assert(_Width >= 2);
2460 using _BuiltinType = __vector_type_t<_Tp, _Width>;
2461 using value_type = _Tp;
2463 static inline constexpr
size_t _S_full_size
2464 =
sizeof(_BuiltinType) /
sizeof(value_type);
2465 static inline constexpr
int _S_size = _Width;
2466 static inline constexpr
bool _S_is_partial = _S_full_size != _S_size;
2468 using _Base::_M_data;
2470 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper<_Tp, _S_full_size>
2471 __as_full_vector()
const 2474 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper(initializer_list<_Tp> __init)
2475 : _Base(__generate_from_n_evaluations<_Width, _BuiltinType>(
2476 [&](auto __i) {
return __init.begin()[__i.value]; })) {}
2478 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper() =
default;
2479 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper(
const _SimdWrapper&)
2481 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper(_SimdWrapper&&) =
default;
2483 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper&
2484 operator=(
const _SimdWrapper&) =
default;
2485 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper&
2486 operator=(_SimdWrapper&&) =
default;
2488 template <
typename _V,
typename =
enable_if_t<disjunction_v<
2489 is_same<_V, __vector_type_t<_Tp, _Width>>,
2490 is_same<_V, __intrinsic_type_t<_Tp, _Width>>>>>
2491 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdWrapper(_V __x)
2493 : _Base(__vector_bitcast<_Tp, _Width>(__x)) {}
2495 template <
typename... _As,
2496 typename = enable_if_t<((is_same_v<simd_abi::scalar, _As> && ...)
2497 &&
sizeof...(_As) <= _Width)>>
2498 _GLIBCXX_SIMD_INTRINSIC constexpr
2499 operator _SimdTuple<_Tp, _As...>()
const 2501 const auto& dd = _M_data;
2502 return __generate_from_n_evaluations<
sizeof...(_As),
2503 _SimdTuple<_Tp, _As...>>([&](
2504 auto __i) constexpr {
return dd[int(__i)]; });
2507 _GLIBCXX_SIMD_INTRINSIC constexpr
operator const _BuiltinType&()
const 2510 _GLIBCXX_SIMD_INTRINSIC constexpr
operator _BuiltinType&()
2513 _GLIBCXX_SIMD_INTRINSIC constexpr _Tp operator[](
size_t __i)
const 2514 {
return _M_data[__i]; }
2516 template <
size_t __i>
2517 _GLIBCXX_SIMD_INTRINSIC constexpr _Tp operator[](_SizeConstant<__i>)
const 2518 {
return _M_data[__i]; }
2520 _GLIBCXX_SIMD_INTRINSIC constexpr
void _M_set(
size_t __i, _Tp __x)
2521 { _M_data[__i] = __x; }
2523 _GLIBCXX_SIMD_INTRINSIC
2524 constexpr
bool _M_is_constprop()
const 2525 {
return __builtin_constant_p(_M_data); }
2527 _GLIBCXX_SIMD_INTRINSIC constexpr
bool _M_is_constprop_none_of()
const 2529 if (__builtin_constant_p(_M_data))
2532 if constexpr (is_floating_point_v<_Tp>)
2534 using _Ip = __int_for_sizeof_t<_Tp>;
2535 const auto __intdata = __vector_bitcast<_Ip>(_M_data);
2536 __execute_n_times<_Width>(
2537 [&](
auto __i) { __r &= __intdata[__i.value] == _Ip(); });
2540 __execute_n_times<_Width>(
2541 [&](
auto __i) { __r &= _M_data[__i.value] == _Tp(); });
2547 _GLIBCXX_SIMD_INTRINSIC constexpr
bool _M_is_constprop_all_of()
const 2549 if (__builtin_constant_p(_M_data))
2552 if constexpr (is_floating_point_v<_Tp>)
2554 using _Ip = __int_for_sizeof_t<_Tp>;
2555 const auto __intdata = __vector_bitcast<_Ip>(_M_data);
2556 __execute_n_times<_Width>(
2557 [&](
auto __i) { __r &= __intdata[__i.value] == ~_Ip(); });
2560 __execute_n_times<_Width>(
2561 [&](
auto __i) { __r &= _M_data[__i.value] == ~_Tp(); });
2571 template <
typename _Tp>
2573 __vectorized_sizeof()
2575 if constexpr (!__is_vectorizable_v<_Tp>)
2578 if constexpr (
sizeof(_Tp) <= 8)
2581 if constexpr (__have_avx512bw)
2583 if constexpr (__have_avx512f &&
sizeof(_Tp) >= 4)
2585 if constexpr (__have_avx2)
2587 if constexpr (__have_avx && is_floating_point_v<_Tp>)
2589 if constexpr (__have_sse2)
2591 if constexpr (__have_sse && is_same_v<_Tp,
float>)
2601 if constexpr (__have_power8vec
2602 || (__have_power_vmx && (sizeof(_Tp) < 8))
2603 || (__have_power_vsx && is_floating_point_v<_Tp>) )
2607 if constexpr (__have_neon_a64
2608 || (__have_neon_a32 && !is_same_v<_Tp,
double>) )
2610 if constexpr (__have_neon
2615 && (__support_neon_float || !is_floating_point_v<_Tp>))
2625 template <
typename _Tp>
2626 inline constexpr
int max_fixed_size
2627 = (__have_avx512bw &&
sizeof(_Tp) == 1) ? 64 : 32;
2630 #if defined __x86_64__ || defined __aarch64__ 2631 template <
typename _Tp>
2632 using compatible = conditional_t<(sizeof(_Tp) <= 8), _VecBuiltin<16>, scalar>;
2633 #elif defined __ARM_NEON 2636 template <
typename _Tp>
2639 && (__support_neon_float || !is_floating_point_v<_Tp>)),
2640 _VecBuiltin<16>, scalar>;
2643 using compatible = scalar;
2648 template <
typename _Tp>
2650 __determine_native_abi()
2652 constexpr
size_t __bytes = __vectorized_sizeof<_Tp>();
2653 if constexpr (__bytes ==
sizeof(_Tp))
2654 return static_cast<scalar*
>(
nullptr);
2655 else if constexpr (__have_avx512vl || (__have_avx512f && __bytes == 64))
2656 return static_cast<_VecBltnBtmsk<__bytes>*>(
nullptr);
2658 return static_cast<_VecBuiltin<__bytes>*>(
nullptr);
2661 template <typename _Tp, typename =
enable_if_t<__is_vectorizable_v<_Tp>>>
2666 #if defined _GLIBCXX_SIMD_DEFAULT_ABI 2667 template <
typename _Tp>
2668 using __default_abi = _GLIBCXX_SIMD_DEFAULT_ABI<_Tp>;
2670 template <
typename _Tp>
2671 using __default_abi = compatible<_Tp>;
2679 template <
typename _Tp,
typename =
void_t<>>
2682 template <
typename _Tp>
2683 struct is_abi_tag<_Tp,
void_t<typename _Tp::_IsValidAbiTag>>
2684 :
public _Tp::_IsValidAbiTag {};
2686 template <
typename _Tp>
2687 inline constexpr
bool is_abi_tag_v = is_abi_tag<_Tp>::value;
2690 template <
typename _Tp>
2693 template <
typename _Tp>
2694 inline constexpr
bool is_simd_v = is_simd<_Tp>::value;
2696 template <
typename _Tp>
2699 template <
typename _Tp>
2700 inline constexpr
bool is_simd_mask_v = is_simd_mask<_Tp>::value;
2703 template <
typename _Tp,
typename _Abi,
typename =
void>
2704 struct __simd_size_impl {};
2706 template <
typename _Tp,
typename _Abi>
2707 struct __simd_size_impl<
2709 enable_if_t<conjunction_v<__is_vectorizable<_Tp>, is_abi_tag<_Abi>>>>
2710 : _SizeConstant<_Abi::template _S_size<_Tp>> {};
2712 template <
typename _Tp,
typename _Abi = simd_abi::__default_abi<_Tp>>
2713 struct simd_size : __simd_size_impl<_Tp, _Abi> {};
2715 template <
typename _Tp,
typename _Abi = simd_abi::__default_abi<_Tp>>
2716 inline constexpr
size_t simd_size_v = simd_size<_Tp, _Abi>::value;
2719 template <
typename _Tp,
size_t _Np,
typename =
void>
2720 struct __deduce_impl;
2731 template <
typename _Tp,
size_t _Np,
typename...>
2732 struct deduce : __deduce_impl<_Tp, _Np> {};
2734 template <
typename _Tp,
size_t _Np,
typename... _Abis>
2735 using deduce_t =
typename deduce<_Tp, _Np, _Abis...>::type;
2740 template <
typename _Tp,
typename _V,
typename =
void>
2743 template <
typename _Tp,
typename _Up,
typename _Abi>
2745 _Tp, simd<_Up, _Abi>,
2749 = simd<_Tp, simd_abi::deduce_t<_Tp, simd_size_v<_Up, _Abi>, _Abi>>;
2752 template <
typename _Tp,
typename _Up,
typename _Abi>
2754 _Tp, simd_mask<_Up, _Abi>,
2758 = simd_mask<_Tp, simd_abi::deduce_t<_Tp, simd_size_v<_Up, _Abi>, _Abi>>;
2761 template <
typename _Tp,
typename _V>
2762 using rebind_simd_t =
typename rebind_simd<_Tp, _V>::type;
2765 template <
int _Np,
typename _V,
typename =
void>
2768 template <
int _Np,
typename _Tp,
typename _Abi>
2769 struct resize_simd<_Np, simd<_Tp, _Abi>,
2771 {
using type = simd<_Tp, simd_abi::deduce_t<_Tp, _Np, _Abi>>; };
2773 template <
int _Np,
typename _Tp,
typename _Abi>
2774 struct resize_simd<_Np, simd_mask<_Tp, _Abi>,
2776 {
using type = simd_mask<_Tp, simd_abi::deduce_t<_Tp, _Np, _Abi>>; };
2778 template <
int _Np,
typename _V>
2779 using resize_simd_t =
typename resize_simd<_Np, _V>::type;
2783 template <
typename _Tp,
typename _Up =
typename _Tp::value_type>
2784 struct memory_alignment
2785 :
public _SizeConstant<vector_aligned_tag::_S_alignment<_Tp, _Up>> {};
2787 template <
typename _Tp,
typename _Up =
typename _Tp::value_type>
2788 inline constexpr
size_t memory_alignment_v = memory_alignment<_Tp, _Up>::value;
2791 template <
typename _Tp,
typename _Abi = simd_abi::__default_abi<_Tp>>
2794 template <
typename _Tp,
typename _Abi>
2795 struct is_simd<simd<_Tp, _Abi>> :
public true_type {};
2797 template <
typename _Tp>
2798 using native_simd = simd<_Tp, simd_abi::native<_Tp>>;
2800 template <
typename _Tp,
int _Np>
2801 using fixed_size_simd = simd<_Tp, simd_abi::fixed_size<_Np>>;
2803 template <
typename _Tp,
size_t _Np>
2804 using __deduced_simd = simd<_Tp, simd_abi::deduce_t<_Tp, _Np>>;
2807 template <
typename _Tp,
typename _Abi = simd_abi::__default_abi<_Tp>>
2810 template <
typename _Tp,
typename _Abi>
2811 struct is_simd_mask<simd_mask<_Tp, _Abi>> :
public true_type {};
2813 template <
typename _Tp>
2814 using native_simd_mask = simd_mask<_Tp, simd_abi::native<_Tp>>;
2816 template <
typename _Tp,
int _Np>
2817 using fixed_size_simd_mask = simd_mask<_Tp, simd_abi::fixed_size<_Np>>;
2819 template <
typename _Tp,
size_t _Np>
2820 using __deduced_simd_mask = simd_mask<_Tp, simd_abi::deduce_t<_Tp, _Np>>;
2824 template <
typename _Tp,
typename _Up,
typename _Ap,
bool = is_simd_v<_Tp>,
2826 struct __static_simd_cast_return_type;
2828 template <
typename _Tp,
typename _A0,
typename _Up,
typename _Ap>
2829 struct __static_simd_cast_return_type<simd_mask<_Tp, _A0>, _Up, _Ap, false,
2831 : __static_simd_cast_return_type<simd<_Tp, _A0>, _Up, _Ap> {};
2833 template <
typename _Tp,
typename _Up,
typename _Ap>
2834 struct __static_simd_cast_return_type<
2835 _Tp, _Up, _Ap, true,
enable_if_t<_Tp::
size() == simd_size_v<_Up, _Ap>>>
2836 {
using type = _Tp; };
2838 template <
typename _Tp,
typename _Ap>
2839 struct __static_simd_cast_return_type<_Tp, _Tp, _Ap, false,
2840 #ifdef _GLIBCXX_SIMD_FIX_P2TS_ISSUE66
2846 {
using type = simd<_Tp, _Ap>; };
2848 template <
typename _Tp,
typename =
void>
2849 struct __safe_make_signed {
using type = _Tp;};
2851 template <
typename _Tp>
2852 struct __safe_make_signed<_Tp,
enable_if_t<is_integral_v<_Tp>>>
2855 using type = make_signed_t<make_unsigned_t<_Tp>>;
2858 template <
typename _Tp>
2859 using safe_make_signed_t =
typename __safe_make_signed<_Tp>::type;
2861 template <
typename _Tp,
typename _Up,
typename _Ap>
2862 struct __static_simd_cast_return_type<_Tp, _Up, _Ap, false,
2863 #ifdef _GLIBCXX_SIMD_FIX_P2TS_ISSUE66
2871 (is_integral_v<_Up> && is_integral_v<_Tp> &&
2872 #ifndef _GLIBCXX_SIMD_FIX_P2TS_ISSUE65 2873 is_signed_v<_Up> != is_signed_v<_Tp> &&
2875 is_same_v<safe_make_signed_t<_Up>, safe_make_signed_t<_Tp>>),
2876 simd<_Tp, _Ap>, fixed_size_simd<_Tp, simd_size_v<_Up, _Ap>>>;
2879 template <
typename _Tp,
typename _Up,
typename _Ap,
2881 =
typename __static_simd_cast_return_type<_Tp, _Up, _Ap>::type>
2882 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR _R
2883 static_simd_cast(
const simd<_Up, _Ap>& __x)
2885 if constexpr (is_same<_R, simd<_Up, _Ap>>::value)
2889 _SimdConverter<_Up, _Ap, typename _R::value_type, typename _R::abi_type>
2891 return _R(__private_init, __c(__data(__x)));
2896 template <
typename _Tp,
typename _Up,
typename _Ap,
2898 =
typename __static_simd_cast_return_type<_Tp, _Up, _Ap>::type>
2899 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
typename _R::mask_type
2900 static_simd_cast(
const simd_mask<_Up, _Ap>& __x)
2902 using _RM =
typename _R::mask_type;
2903 return {__private_init, _RM::abi_type::_MaskImpl::template _S_convert<
2904 typename _RM::simd_type::value_type>(__x)};
2909 template <
typename _Tp,
typename _Up,
typename _Ap,
2910 typename _To = __value_type_or_identity_t<_Tp>>
2911 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
auto 2912 simd_cast(
const simd<_ValuePreserving<_Up, _To>, _Ap>& __x)
2913 -> decltype(static_simd_cast<_Tp>(__x))
2914 {
return static_simd_cast<_Tp>(__x); }
2917 template <
typename _Tp,
typename _Up,
typename _Ap,
2918 typename _To = __value_type_or_identity_t<_Tp>>
2919 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
auto 2920 simd_cast(
const simd_mask<_ValuePreserving<_Up, _To>, _Ap>& __x)
2921 -> decltype(static_simd_cast<_Tp>(__x))
2922 {
return static_simd_cast<_Tp>(__x); }
2954 template <
typename _Tp,
typename _Up,
typename _Ap>
2955 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
enable_if_t<
2956 conjunction_v<is_simd<_Tp>, is_same<typename _Tp::value_type, _Up>>, _Tp>
2957 resizing_simd_cast(
const simd<_Up, _Ap>& __x)
2959 if constexpr (is_same_v<typename _Tp::abi_type, _Ap>)
2961 else if constexpr (simd_size_v<_Up, _Ap> == 1)
2969 else if constexpr (sizeof(_Tp) == sizeof(__x)
2970 && !__is_fixed_size_abi_v<_Ap>)
2971 return {__private_init,
2972 __vector_bitcast<typename _Tp::value_type, _Tp::size()>(
2973 _Ap::_S_masked(__data(__x))._M_data)};
2977 __builtin_memcpy(&__data(__r), &__data(__x),
2984 template <
typename _Tp,
typename _Up,
typename _Ap>
2985 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
2986 enable_if_t<is_simd_mask_v<_Tp>, _Tp>
2987 resizing_simd_cast(
const simd_mask<_Up, _Ap>& __x)
2989 return {__private_init, _Tp::abi_type::_MaskImpl::template _S_convert<
2990 typename _Tp::simd_type::value_type>(__x)};
2996 template <
typename _Tp,
int _Np>
2997 _GLIBCXX_SIMD_INTRINSIC fixed_size_simd<_Tp, _Np>
2998 to_fixed_size(
const fixed_size_simd<_Tp, _Np>& __x)
3001 template <
typename _Tp,
int _Np>
3002 _GLIBCXX_SIMD_INTRINSIC fixed_size_simd_mask<_Tp, _Np>
3003 to_fixed_size(
const fixed_size_simd_mask<_Tp, _Np>& __x)
3006 template <
typename _Tp,
typename _Ap>
3007 _GLIBCXX_SIMD_INTRINSIC
auto 3008 to_fixed_size(
const simd<_Tp, _Ap>& __x)
3010 return simd<_Tp, simd_abi::fixed_size<simd_size_v<_Tp, _Ap>>>([&__x](
3011 auto __i) constexpr {
return __x[__i]; });
3014 template <
typename _Tp,
typename _Ap>
3015 _GLIBCXX_SIMD_INTRINSIC
auto 3016 to_fixed_size(
const simd_mask<_Tp, _Ap>& __x)
3019 fixed_size_simd_mask<_Tp, _Np> __r;
3020 __execute_n_times<_Np>([&](
auto __i) constexpr { __r[__i] = __x[__i]; });
3025 template <
typename _Tp,
int _Np>
3026 _GLIBCXX_SIMD_INTRINSIC
3028 to_native(
const fixed_size_simd<_Tp, _Np>& __x)
3030 alignas(memory_alignment_v<native_simd<_Tp>>) _Tp __mem[_Np];
3031 __x.copy_to(__mem, vector_aligned);
3032 return {__mem, vector_aligned};
3035 template <
typename _Tp,
size_t _Np>
3036 _GLIBCXX_SIMD_INTRINSIC
3038 to_native(
const fixed_size_simd_mask<_Tp, _Np>& __x)
3040 return native_simd_mask<_Tp>([&](
auto __i) constexpr {
return __x[__i]; });
3044 template <
typename _Tp,
size_t _Np>
3046 to_compatible(
const simd<_Tp, simd_abi::fixed_size<_Np>>& __x)
3048 alignas(memory_alignment_v<simd<_Tp>>) _Tp __mem[_Np];
3049 __x.copy_to(__mem, vector_aligned);
3050 return {__mem, vector_aligned};
3053 template <
typename _Tp,
size_t _Np>
3054 _GLIBCXX_SIMD_INTRINSIC
3056 to_compatible(
const simd_mask<_Tp, simd_abi::fixed_size<_Np>>& __x)
3057 {
return simd_mask<_Tp>([&](
auto __i) constexpr {
return __x[__i]; }); }
3063 template <
typename _M,
typename _Tp>
3064 class const_where_expression
3067 static_assert(is_same_v<_V, __remove_cvref_t<_Tp>>);
3069 struct _Wrapper {
using value_type = _V; };
3072 using _Impl =
typename _V::_Impl;
3075 typename conditional_t<is_arithmetic_v<_V>, _Wrapper, _V>::value_type;
3077 _GLIBCXX_SIMD_INTRINSIC
friend const _M&
3078 __get_mask(
const const_where_expression& __x)
3079 {
return __x._M_k; }
3081 _GLIBCXX_SIMD_INTRINSIC
friend const _Tp&
3082 __get_lvalue(
const const_where_expression& __x)
3083 {
return __x._M_value; }
3089 const_where_expression(
const const_where_expression&) =
delete;
3090 const_where_expression& operator=(
const const_where_expression&) =
delete;
3092 _GLIBCXX_SIMD_INTRINSIC const_where_expression(
const _M& __kk,
const _Tp& dd)
3093 : _M_k(__kk), _M_value(const_cast<_Tp&>(dd)) {}
3095 _GLIBCXX_SIMD_INTRINSIC _V
3098 return {__private_init,
3099 _Impl::template _S_masked_unary<negate>(__data(_M_k),
3103 template <
typename _Up,
typename _Flags>
3104 [[nodiscard]] _GLIBCXX_SIMD_INTRINSIC _V
3105 copy_from(
const _LoadStorePtr<_Up, value_type>* __mem, _Flags)
const&&
3107 return {__private_init,
3108 _Impl::_S_masked_load(__data(_M_value), __data(_M_k),
3109 _Flags::template _S_apply<_V>(__mem))};
3112 template <
typename _Up,
typename _Flags>
3113 _GLIBCXX_SIMD_INTRINSIC
void 3114 copy_to(_LoadStorePtr<_Up, value_type>* __mem, _Flags)
const&&
3116 _Impl::_S_masked_store(__data(_M_value),
3117 _Flags::template _S_apply<_V>(__mem),
3123 template <
typename _Tp>
3124 class const_where_expression<bool, _Tp>
3129 static_assert(is_same_v<_V, __remove_cvref_t<_Tp>>);
3131 struct _Wrapper {
using value_type = _V; };
3135 typename conditional_t<is_arithmetic_v<_V>, _Wrapper, _V>::value_type;
3137 _GLIBCXX_SIMD_INTRINSIC
friend const _M&
3138 __get_mask(
const const_where_expression& __x)
3139 {
return __x._M_k; }
3141 _GLIBCXX_SIMD_INTRINSIC
friend const _Tp&
3142 __get_lvalue(
const const_where_expression& __x)
3143 {
return __x._M_value; }
3149 const_where_expression(
const const_where_expression&) =
delete;
3150 const_where_expression& operator=(
const const_where_expression&) =
delete;
3152 _GLIBCXX_SIMD_INTRINSIC const_where_expression(
const bool __kk,
const _Tp& dd)
3153 : _M_k(__kk), _M_value(const_cast<_Tp&>(dd)) {}
3155 _GLIBCXX_SIMD_INTRINSIC _V
operator-() const&&
3156 {
return _M_k ? -_M_value : _M_value; }
3158 template <
typename _Up,
typename _Flags>
3159 [[nodiscard]] _GLIBCXX_SIMD_INTRINSIC _V
3160 copy_from(
const _LoadStorePtr<_Up, value_type>* __mem, _Flags)
const&&
3161 {
return _M_k ?
static_cast<_V
>(__mem[0]) : _M_value; }
3163 template <
typename _Up,
typename _Flags>
3164 _GLIBCXX_SIMD_INTRINSIC
void 3165 copy_to(_LoadStorePtr<_Up, value_type>* __mem, _Flags)
const&&
3168 __mem[0] = _M_value;
3173 template <
typename _M,
typename _Tp>
3174 class where_expression :
public const_where_expression<_M, _Tp>
3176 using _Impl =
typename const_where_expression<_M, _Tp>::_Impl;
3178 static_assert(!is_const<_Tp>::value,
3179 "where_expression may only be instantiated with __a non-const " 3182 using typename const_where_expression<_M, _Tp>::value_type;
3183 using const_where_expression<_M, _Tp>::_M_k;
3184 using const_where_expression<_M, _Tp>::_M_value;
3187 is_same<typename _M::abi_type, typename _Tp::abi_type>::value,
"");
3190 _GLIBCXX_SIMD_INTRINSIC
friend _Tp& __get_lvalue(where_expression& __x)
3191 {
return __x._M_value; }
3194 where_expression(
const where_expression&) =
delete;
3195 where_expression& operator=(
const where_expression&) =
delete;
3197 _GLIBCXX_SIMD_INTRINSIC where_expression(
const _M& __kk, _Tp& dd)
3198 : const_where_expression<_M, _Tp>(__kk, dd) {}
3200 template <
typename _Up>
3201 _GLIBCXX_SIMD_INTRINSIC
void operator=(_Up&& __x) &&
3203 _Impl::_S_masked_assign(__data(_M_k), __data(_M_value),
3204 __to_value_type_or_member_type<_Tp>(
3205 static_cast<_Up&&>(__x)));
3208 #define _GLIBCXX_SIMD_OP_(__op, __name) \ 3209 template <typename _Up> \ 3210 _GLIBCXX_SIMD_INTRINSIC void operator __op##=(_Up&& __x)&& \ 3212 _Impl::template _S_masked_cassign( \ 3213 __data(_M_k), __data(_M_value), \ 3214 __to_value_type_or_member_type<_Tp>(static_cast<_Up&&>(__x)), \ 3215 [](auto __impl, auto __lhs, auto __rhs) constexpr { \ 3216 return __impl.__name(__lhs, __rhs); \ 3220 _GLIBCXX_SIMD_OP_(+, _S_plus);
3221 _GLIBCXX_SIMD_OP_(-, _S_minus);
3222 _GLIBCXX_SIMD_OP_(*, _S_multiplies);
3223 _GLIBCXX_SIMD_OP_(/, _S_divides);
3224 _GLIBCXX_SIMD_OP_(%, _S_modulus);
3225 _GLIBCXX_SIMD_OP_(&, _S_bit_and);
3226 _GLIBCXX_SIMD_OP_(|, _S_bit_or);
3227 _GLIBCXX_SIMD_OP_(^, _S_bit_xor);
3228 _GLIBCXX_SIMD_OP_(<<, _S_shift_left);
3229 _GLIBCXX_SIMD_OP_(>>, _S_shift_right);
3230 #undef _GLIBCXX_SIMD_OP_ 3232 _GLIBCXX_SIMD_INTRINSIC
void operator++() &&
3235 = _Impl::template _S_masked_unary<__increment>(__data(_M_k),
3239 _GLIBCXX_SIMD_INTRINSIC
void operator++(
int) &&
3242 = _Impl::template _S_masked_unary<__increment>(__data(_M_k),
3246 _GLIBCXX_SIMD_INTRINSIC
void operator--() &&
3249 = _Impl::template _S_masked_unary<__decrement>(__data(_M_k),
3253 _GLIBCXX_SIMD_INTRINSIC
void operator--(
int) &&
3256 = _Impl::template _S_masked_unary<__decrement>(__data(_M_k),
3261 template <
typename _Up,
typename _Flags>
3262 _GLIBCXX_SIMD_INTRINSIC
void 3263 copy_from(
const _LoadStorePtr<_Up, value_type>* __mem, _Flags) &&
3266 = _Impl::_S_masked_load(__data(_M_value), __data(_M_k),
3267 _Flags::template _S_apply<_Tp>(__mem));
3272 template <
typename _Tp>
3273 class where_expression<bool, _Tp> :
public const_where_expression<bool, _Tp>
3276 using typename const_where_expression<_M, _Tp>::value_type;
3277 using const_where_expression<_M, _Tp>::_M_k;
3278 using const_where_expression<_M, _Tp>::_M_value;
3281 where_expression(
const where_expression&) =
delete;
3282 where_expression& operator=(
const where_expression&) =
delete;
3284 _GLIBCXX_SIMD_INTRINSIC where_expression(
const _M& __kk, _Tp& dd)
3285 : const_where_expression<_M, _Tp>(__kk, dd) {}
3287 #define _GLIBCXX_SIMD_OP_(__op) \ 3288 template <typename _Up> \ 3289 _GLIBCXX_SIMD_INTRINSIC void operator __op(_Up&& __x)&& \ 3290 { if (_M_k) _M_value __op static_cast<_Up&&>(__x); } 3292 _GLIBCXX_SIMD_OP_(=)
3293 _GLIBCXX_SIMD_OP_(+=)
3294 _GLIBCXX_SIMD_OP_(-=)
3295 _GLIBCXX_SIMD_OP_(*=)
3296 _GLIBCXX_SIMD_OP_(/=)
3297 _GLIBCXX_SIMD_OP_(%=)
3298 _GLIBCXX_SIMD_OP_(&=)
3299 _GLIBCXX_SIMD_OP_(|=)
3300 _GLIBCXX_SIMD_OP_(^=)
3301 _GLIBCXX_SIMD_OP_(<<=)
3302 _GLIBCXX_SIMD_OP_(>>=)
3303 #undef _GLIBCXX_SIMD_OP_ 3305 _GLIBCXX_SIMD_INTRINSIC
void operator++() &&
3306 {
if (_M_k) ++_M_value; }
3308 _GLIBCXX_SIMD_INTRINSIC
void operator++(
int) &&
3309 {
if (_M_k) ++_M_value; }
3311 _GLIBCXX_SIMD_INTRINSIC
void operator--() &&
3312 {
if (_M_k) --_M_value; }
3314 _GLIBCXX_SIMD_INTRINSIC
void operator--(
int) &&
3315 {
if (_M_k) --_M_value; }
3318 template <
typename _Up,
typename _Flags>
3319 _GLIBCXX_SIMD_INTRINSIC
void 3320 copy_from(
const _LoadStorePtr<_Up, value_type>* __mem, _Flags) &&
3321 {
if (_M_k) _M_value = __mem[0]; }
3325 template <
typename _Tp,
typename _Ap>
3326 _GLIBCXX_SIMD_INTRINSIC where_expression<simd_mask<_Tp, _Ap>, simd<_Tp, _Ap>>
3327 where(
const typename simd<_Tp, _Ap>::mask_type& __k, simd<_Tp, _Ap>& __value)
3328 {
return {__k, __value}; }
3330 template <
typename _Tp,
typename _Ap>
3331 _GLIBCXX_SIMD_INTRINSIC
3332 const_where_expression<simd_mask<_Tp, _Ap>, simd<_Tp, _Ap>>
3333 where(
const typename simd<_Tp, _Ap>::mask_type& __k,
3334 const simd<_Tp, _Ap>& __value)
3335 {
return {__k, __value}; }
3337 template <
typename _Tp,
typename _Ap>
3338 _GLIBCXX_SIMD_INTRINSIC
3339 where_expression<simd_mask<_Tp, _Ap>, simd_mask<_Tp, _Ap>>
3341 simd_mask<_Tp, _Ap>& __value)
3342 {
return {__k, __value}; }
3344 template <
typename _Tp,
typename _Ap>
3345 _GLIBCXX_SIMD_INTRINSIC
3346 const_where_expression<simd_mask<_Tp, _Ap>, simd_mask<_Tp, _Ap>>
3348 const simd_mask<_Tp, _Ap>& __value)
3349 {
return {__k, __value}; }
3351 template <
typename _Tp>
3352 _GLIBCXX_SIMD_INTRINSIC where_expression<bool, _Tp>
3353 where(_ExactBool __k, _Tp& __value)
3354 {
return {__k, __value}; }
3356 template <
typename _Tp>
3357 _GLIBCXX_SIMD_INTRINSIC const_where_expression<bool, _Tp>
3358 where(_ExactBool __k,
const _Tp& __value)
3359 {
return {__k, __value}; }
3361 template <
typename _Tp,
typename _Ap>
3362 void where(
bool __k, simd<_Tp, _Ap>& __value) =
delete;
3364 template <
typename _Tp,
typename _Ap>
3365 void where(
bool __k,
const simd<_Tp, _Ap>& __value) =
delete;
3369 template <
size_t _Np>
3372 const bitset<_Np> __bits;
3375 where_range(bitset<_Np> __b) : __bits(__b) {}
3382 _GLIBCXX_SIMD_INTRINSIC
void __next_bit()
3383 { __bit = __builtin_ctzl(__mask); }
3385 _GLIBCXX_SIMD_INTRINSIC
void __reset_lsb()
3388 __mask &= (__mask - 1);
3393 iterator(decltype(__mask) __m) : __mask(__m) { __next_bit(); }
3394 iterator(
const iterator&) =
default;
3395 iterator(iterator&&) =
default;
3397 _GLIBCXX_SIMD_ALWAYS_INLINE
size_t operator->()
const 3400 _GLIBCXX_SIMD_ALWAYS_INLINE
size_t operator*()
const 3403 _GLIBCXX_SIMD_ALWAYS_INLINE iterator& operator++()
3410 _GLIBCXX_SIMD_ALWAYS_INLINE iterator operator++(
int)
3412 iterator __tmp = *
this;
3418 _GLIBCXX_SIMD_ALWAYS_INLINE
bool operator==(
const iterator& __rhs)
const 3419 {
return __mask == __rhs.__mask; }
3421 _GLIBCXX_SIMD_ALWAYS_INLINE
bool operator!=(
const iterator& __rhs)
const 3422 {
return __mask != __rhs.__mask; }
3425 iterator
begin()
const 3426 {
return __bits.to_ullong(); }
3428 iterator
end()
const 3432 template <
typename _Tp,
typename _Ap>
3433 where_range<simd_size_v<_Tp, _Ap>>
3434 where(
const simd_mask<_Tp, _Ap>& __k)
3435 {
return __k.__to_bitset(); }
3441 template <
typename _Tp,
typename _Abi,
typename _BinaryOperation = plus<>>
3442 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR _Tp
3443 reduce(
const simd<_Tp, _Abi>& __v,
3444 _BinaryOperation __binary_op = _BinaryOperation())
3445 {
return _Abi::_SimdImpl::_S_reduce(__v, __binary_op); }
3447 template <
typename _M,
typename _V,
typename _BinaryOperation = plus<>>
3448 _GLIBCXX_SIMD_INTRINSIC
typename _V::value_type
3449 reduce(
const const_where_expression<_M, _V>& __x,
3450 typename _V::value_type __identity_element,
3451 _BinaryOperation __binary_op)
3453 if (__builtin_expect(none_of(__get_mask(__x)),
false))
3454 return __identity_element;
3456 _V __tmp = __identity_element;
3457 _V::_Impl::_S_masked_assign(__data(__get_mask(__x)), __data(__tmp),
3458 __data(__get_lvalue(__x)));
3459 return reduce(__tmp, __binary_op);
3462 template <
typename _M,
typename _V>
3463 _GLIBCXX_SIMD_INTRINSIC
typename _V::value_type
3464 reduce(
const const_where_expression<_M, _V>& __x, plus<> __binary_op = {})
3465 {
return reduce(__x, 0, __binary_op); }
3467 template <
typename _M,
typename _V>
3468 _GLIBCXX_SIMD_INTRINSIC
typename _V::value_type
3469 reduce(
const const_where_expression<_M, _V>& __x, multiplies<> __binary_op)
3470 {
return reduce(__x, 1, __binary_op); }
3472 template <
typename _M,
typename _V>
3473 _GLIBCXX_SIMD_INTRINSIC
typename _V::value_type
3474 reduce(
const const_where_expression<_M, _V>& __x, bit_and<> __binary_op)
3475 {
return reduce(__x, ~
typename _V::value_type(), __binary_op); }
3477 template <
typename _M,
typename _V>
3478 _GLIBCXX_SIMD_INTRINSIC
typename _V::value_type
3479 reduce(
const const_where_expression<_M, _V>& __x, bit_or<> __binary_op)
3480 {
return reduce(__x, 0, __binary_op); }
3482 template <
typename _M,
typename _V>
3483 _GLIBCXX_SIMD_INTRINSIC
typename _V::value_type
3484 reduce(
const const_where_expression<_M, _V>& __x, bit_xor<> __binary_op)
3485 {
return reduce(__x, 0, __binary_op); }
3487 template <
typename _Tp,
typename _Abi>
3488 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR _Tp
3489 hmin(
const simd<_Tp, _Abi>& __v) noexcept
3491 return _Abi::_SimdImpl::_S_reduce(__v, __detail::_Minimum());
3494 template <
typename _Tp,
typename _Abi>
3495 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR _Tp
3496 hmax(
const simd<_Tp, _Abi>& __v) noexcept
3498 return _Abi::_SimdImpl::_S_reduce(__v, __detail::_Maximum());
3501 template <
typename _M,
typename _V>
3502 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
3503 typename _V::value_type
3504 hmin(
const const_where_expression<_M, _V>& __x) noexcept
3506 using _Tp =
typename _V::value_type;
3507 constexpr _Tp __id_elem =
3508 #ifdef __FINITE_MATH_ONLY__ 3509 __finite_max_v<_Tp>;
3511 __value_or<__infinity, _Tp>(__finite_max_v<_Tp>);
3513 _V __tmp = __id_elem;
3514 _V::_Impl::_S_masked_assign(__data(__get_mask(__x)), __data(__tmp),
3515 __data(__get_lvalue(__x)));
3516 return _V::abi_type::_SimdImpl::_S_reduce(__tmp, __detail::_Minimum());
3519 template <
typename _M,
typename _V>
3520 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
3521 typename _V::value_type
3522 hmax(
const const_where_expression<_M, _V>& __x) noexcept
3524 using _Tp =
typename _V::value_type;
3525 constexpr _Tp __id_elem =
3526 #ifdef __FINITE_MATH_ONLY__ 3527 __finite_min_v<_Tp>;
3530 if constexpr (__value_exists_v<__infinity, _Tp>)
3531 return -__infinity_v<_Tp>;
3533 return __finite_min_v<_Tp>;
3536 _V __tmp = __id_elem;
3537 _V::_Impl::_S_masked_assign(__data(__get_mask(__x)), __data(__tmp),
3538 __data(__get_lvalue(__x)));
3539 return _V::abi_type::_SimdImpl::_S_reduce(__tmp, __detail::_Maximum());
3544 template <
typename _Tp,
typename _Ap>
3545 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR simd<_Tp, _Ap>
3546 min(
const simd<_Tp, _Ap>& __a,
const simd<_Tp, _Ap>& __b)
3547 {
return {__private_init, _Ap::_SimdImpl::_S_min(__data(__a), __data(__b))}; }
3549 template <
typename _Tp,
typename _Ap>
3550 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR simd<_Tp, _Ap>
3551 max(
const simd<_Tp, _Ap>& __a,
const simd<_Tp, _Ap>& __b)
3552 {
return {__private_init, _Ap::_SimdImpl::_S_max(__data(__a), __data(__b))}; }
3554 template <
typename _Tp,
typename _Ap>
3555 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
3556 pair<simd<_Tp, _Ap>, simd<_Tp, _Ap>>
3557 minmax(
const simd<_Tp, _Ap>& __a,
const simd<_Tp, _Ap>& __b)
3559 const auto pair_of_members
3560 = _Ap::_SimdImpl::_S_minmax(__data(__a), __data(__b));
3561 return {simd<_Tp, _Ap>(__private_init, pair_of_members.first),
3562 simd<_Tp, _Ap>(__private_init, pair_of_members.second)};
3565 template <
typename _Tp,
typename _Ap>
3566 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR simd<_Tp, _Ap>
3567 clamp(
const simd<_Tp, _Ap>& __v,
const simd<_Tp, _Ap>& __lo,
3568 const simd<_Tp, _Ap>& __hi)
3570 using _Impl =
typename _Ap::_SimdImpl;
3571 return {__private_init,
3572 _Impl::_S_min(__data(__hi),
3573 _Impl::_S_max(__data(__lo), __data(__v)))};
3578 template <
size_t... _Sizes,
typename _Tp,
typename _Ap,
3580 inline tuple<simd<_Tp, simd_abi::deduce_t<_Tp, _Sizes>>...>
3581 split(
const simd<_Tp, _Ap>&);
3584 template <
int _Index,
int _Total,
int _Combine = 1,
typename _Tp,
size_t _Np>
3585 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_CONST
3586 _SimdWrapper<_Tp, _Np / _Total * _Combine>
3587 __extract_part(
const _SimdWrapper<_Tp, _Np> __x);
3589 template <
int Index,
int Parts,
int _Combine = 1,
typename _Tp,
typename _A0,
3591 _GLIBCXX_SIMD_INTRINSIC
auto 3592 __extract_part(
const _SimdTuple<_Tp, _A0, _As...>& __x);
3596 template <
size_t _V0,
size_t... _Values>
3599 template <
size_t _I>
3600 static constexpr
size_t _S_at(_SizeConstant<_I> = {})
3602 if constexpr (_I == 0)
3605 return _SizeList<_Values...>::template _S_at<_I - 1>();
3608 template <
size_t _I>
3609 static constexpr auto _S_before(_SizeConstant<_I> = {})
3611 if constexpr (_I == 0)
3612 return _SizeConstant<0>();
3614 return _SizeConstant<
3615 _V0 + _SizeList<_Values...>::template _S_before<_I - 1>()>();
3618 template <
size_t _Np>
3619 static constexpr auto _S_pop_front(_SizeConstant<_Np> = {})
3621 if constexpr (_Np == 0)
3624 return _SizeList<_Values...>::template _S_pop_front<_Np - 1>();
3630 template <typename _Tp,
size_t _Np>
3631 _GLIBCXX_SIMD_INTRINSIC _SimdWrapper<_Tp, _Np / 2>
3632 __extract_center(_SimdWrapper<_Tp, _Np> __x)
3634 static_assert(_Np >= 4);
3635 static_assert(_Np % 4 == 0);
3636 #if _GLIBCXX_SIMD_X86INTRIN // {{{ 3637 if constexpr (__have_avx512f &&
sizeof(_Tp) * _Np == 64)
3639 const auto __intrin = __to_intrin(__x);
3640 if constexpr (is_integral_v<_Tp>)
3641 return __vector_bitcast<_Tp>(_mm512_castsi512_si256(
3642 _mm512_shuffle_i32x4(__intrin, __intrin,
3643 1 + 2 * 0x4 + 2 * 0x10 + 3 * 0x40)));
3644 else if constexpr (
sizeof(_Tp) == 4)
3645 return __vector_bitcast<_Tp>(_mm512_castps512_ps256(
3646 _mm512_shuffle_f32x4(__intrin, __intrin,
3647 1 + 2 * 0x4 + 2 * 0x10 + 3 * 0x40)));
3648 else if constexpr (sizeof(_Tp) == 8)
3649 return __vector_bitcast<_Tp>(_mm512_castpd512_pd256(
3650 _mm512_shuffle_f64x2(__intrin, __intrin,
3651 1 + 2 * 0x4 + 2 * 0x10 + 3 * 0x40)));
3653 __assert_unreachable<_Tp>();
3655 else if constexpr (sizeof(_Tp) * _Np == 32 && is_floating_point_v<_Tp>)
3656 return __vector_bitcast<_Tp>(
3657 _mm_shuffle_pd(__lo128(__vector_bitcast<
double>(__x)),
3658 __hi128(__vector_bitcast<
double>(__x)), 1));
3659 else if constexpr (sizeof(__x) == 32 && sizeof(_Tp) * _Np <= 32)
3660 return __vector_bitcast<_Tp>(
3661 _mm_alignr_epi8(__hi128(__vector_bitcast<_LLong>(__x)),
3662 __lo128(__vector_bitcast<_LLong>(__x)),
3663 sizeof(_Tp) * _Np / 4));
3665 #endif // _GLIBCXX_SIMD_X86INTRIN }}} 3667 __vector_type_t<_Tp, _Np / 2> __r;
3668 __builtin_memcpy(&__r,
3669 reinterpret_cast<const char*>(&__x)
3670 +
sizeof(_Tp) * _Np / 4,
3671 sizeof(_Tp) * _Np / 2);
3676 template <
typename _Tp,
typename _A0,
typename... _As>
3677 _GLIBCXX_SIMD_INTRINSIC
3678 _SimdWrapper<_Tp, _SimdTuple<_Tp, _A0, _As...>::_S_size() / 2>
3679 __extract_center(
const _SimdTuple<_Tp, _A0, _As...>& __x)
3681 if constexpr (
sizeof...(_As) == 0)
3682 return __extract_center(__x.first);
3684 return __extract_part<1, 4, 2>(__x);
3689 template <
size_t... _Sizes, typename _Tp, typename... _As>
3691 __split_wrapper(_SizeList<_Sizes...>, const _SimdTuple<_Tp, _As...>& __x)
3693 return split<_Sizes...>(
3694 fixed_size_simd<_Tp, _SimdTuple<_Tp, _As...>::_S_size()>(__private_init,
3701 template <
typename _V,
typename _Ap,
3702 size_t Parts = simd_size_v<typename _V::value_type, _Ap> /
_V::size()>
3703 enable_if_t<simd_size_v<typename _V::value_type, _Ap> == Parts *
_V::size()
3704 && is_simd_v<_V>, array<_V, Parts>>
3705 split(
const simd<typename _V::value_type, _Ap>& __x)
3707 using _Tp =
typename _V::value_type;
3708 if constexpr (Parts == 1)
3710 return {simd_cast<_V>(__x)};
3712 else if (__x._M_is_constprop())
3714 return __generate_from_n_evaluations<Parts, array<_V, Parts>>([&](
3715 auto __i) constexpr {
3716 return _V([&](
auto __j) constexpr {
3717 return __x[__i *
_V::size() + __j];
3722 __is_fixed_size_abi_v<_Ap>
3723 && (is_same_v<typename _V::abi_type, simd_abi::scalar>
3724 || (__is_fixed_size_abi_v<typename _V::abi_type>
3725 &&
sizeof(_V) ==
sizeof(_Tp) *
_V::size()
3729 #ifdef _GLIBCXX_SIMD_USE_ALIASING_LOADS 3730 const __may_alias<_Tp>*
const __element_ptr
3731 =
reinterpret_cast<const __may_alias<_Tp>*
>(&__data(__x));
3732 return __generate_from_n_evaluations<Parts, array<_V, Parts>>([&](
3733 auto __i) constexpr {
3734 return _V(__element_ptr + __i *
_V::size(), vector_aligned);
3737 const auto& __xx = __data(__x);
3738 return __generate_from_n_evaluations<Parts, array<_V, Parts>>([&](
3739 auto __i) constexpr {
3740 [[maybe_unused]] constexpr
size_t __offset
3741 = decltype(__i)::value * _V::
size();
3742 return _V([&](
auto __j) constexpr {
3743 constexpr _SizeConstant<__j + __offset> __k;
3749 else if constexpr (is_same_v<typename _V::abi_type, simd_abi::scalar>)
3752 return __generate_from_n_evaluations<Parts, array<_V, Parts>>([&](
3753 auto __i) constexpr {
return __x[__i]; });
3757 return __generate_from_n_evaluations<Parts, array<_V, Parts>>([&](
3758 auto __i) constexpr {
3759 if constexpr (__is_fixed_size_abi_v<typename _V::abi_type>)
3760 return _V([&](
auto __j) constexpr {
3761 return __x[__i *
_V::size() + __j];
3764 return _V(__private_init,
3765 __extract_part<decltype(__i)::value, Parts>(__data(__x)));
3772 template <
typename _V,
typename _Ap,
3774 = simd_size_v<typename _V::simd_type::value_type, _Ap> /
_V::size()>
3775 enable_if_t<is_simd_mask_v<_V> && simd_size_v<
typename 3776 _V::simd_type::value_type, _Ap> == _Parts *
_V::size(), array<_V, _Parts>>
3777 split(
const simd_mask<typename _V::simd_type::value_type, _Ap>& __x)
3779 if constexpr (is_same_v<_Ap, typename _V::abi_type>)
3781 else if constexpr (_Parts == 1)
3782 return {__proposed::static_simd_cast<_V>(__x)};
3783 else if constexpr (_Parts == 2 && __is_sse_abi<typename _V::abi_type>()
3784 && __is_avx_abi<_Ap>())
3785 return {_V(__private_init, __lo128(__data(__x))),
3786 _V(__private_init, __hi128(__data(__x)))};
3787 else if constexpr (
_V::size() <= __CHAR_BIT__ *
sizeof(_ULLong))
3789 const bitset __bits = __x.__to_bitset();
3790 return __generate_from_n_evaluations<_Parts, array<_V, _Parts>>([&](
3791 auto __i) constexpr {
3792 constexpr
size_t __offset = __i *
_V::size();
3793 return _V(__bitset_init, (__bits >> __offset).to_ullong());
3798 return __generate_from_n_evaluations<_Parts, array<_V, _Parts>>([&](
3799 auto __i) constexpr {
3800 constexpr
size_t __offset = __i *
_V::size();
3802 __private_init, [&](
auto __j) constexpr {
3803 return __x[__j + __offset];
3811 template <
size_t... _Sizes,
typename _Tp,
typename _Ap,
typename>
3812 _GLIBCXX_SIMD_ALWAYS_INLINE
3813 tuple<simd<_Tp, simd_abi::deduce_t<_Tp, _Sizes>>...>
3814 split(
const simd<_Tp, _Ap>& __x)
3816 using _SL = _SizeList<_Sizes...>;
3817 using _Tuple = tuple<__deduced_simd<_Tp, _Sizes>...>;
3818 constexpr
size_t _Np = simd_size_v<_Tp, _Ap>;
3819 constexpr
size_t _N0 = _SL::template _S_at<0>();
3820 using _V = __deduced_simd<_Tp, _N0>;
3822 if (__x._M_is_constprop())
3823 return __generate_from_n_evaluations<
sizeof...(_Sizes), _Tuple>([&](
3824 auto __i) constexpr {
3825 using _Vi = __deduced_simd<_Tp, _SL::_S_at(__i)>;
3826 constexpr
size_t __offset = _SL::_S_before(__i);
3827 return _Vi([&](
auto __j) constexpr {
return __x[__offset + __j]; });
3829 else if constexpr (_Np == _N0)
3831 static_assert(
sizeof...(_Sizes) == 1);
3832 return {simd_cast<_V>(__x)};
3835 (__is_fixed_size_abi_v<
3836 _Ap> && __fixed_size_storage_t<_Tp, _Np>::_S_first_size == _N0)
3839 !__is_fixed_size_abi_v<typename _V::abi_type>,
3840 "How can <_Tp, _Np> be __a single _SimdTuple entry but __a " 3845 return tuple_cat(make_tuple(_V(__private_init, __data(__x).first)),
3846 __split_wrapper(_SL::template _S_pop_front<1>(),
3847 __data(__x).second));
3849 else if constexpr ((!is_same_v<simd_abi::scalar,
3850 simd_abi::deduce_t<_Tp, _Sizes>> && ...)
3851 && (!__is_fixed_size_abi_v<
3852 simd_abi::deduce_t<_Tp, _Sizes>> && ...))
3854 if constexpr (((_Sizes * 2 == _Np) && ...))
3855 return {{__private_init, __extract_part<0, 2>(__data(__x))},
3856 {__private_init, __extract_part<1, 2>(__data(__x))}};
3857 else if constexpr (is_same_v<_SizeList<_Sizes...>,
3858 _SizeList<_Np / 3, _Np / 3, _Np / 3>>)
3859 return {{__private_init, __extract_part<0, 3>(__data(__x))},
3860 {__private_init, __extract_part<1, 3>(__data(__x))},
3861 {__private_init, __extract_part<2, 3>(__data(__x))}};
3862 else if constexpr (is_same_v<_SizeList<_Sizes...>,
3863 _SizeList<2 * _Np / 3, _Np / 3>>)
3864 return {{__private_init, __extract_part<0, 3, 2>(__data(__x))},
3865 {__private_init, __extract_part<2, 3>(__data(__x))}};
3866 else if constexpr (is_same_v<_SizeList<_Sizes...>,
3867 _SizeList<_Np / 3, 2 * _Np / 3>>)
3868 return {{__private_init, __extract_part<0, 3>(__data(__x))},
3869 {__private_init, __extract_part<1, 3, 2>(__data(__x))}};
3870 else if constexpr (is_same_v<_SizeList<_Sizes...>,
3871 _SizeList<_Np / 2, _Np / 4, _Np / 4>>)
3872 return {{__private_init, __extract_part<0, 2>(__data(__x))},
3873 {__private_init, __extract_part<2, 4>(__data(__x))},
3874 {__private_init, __extract_part<3, 4>(__data(__x))}};
3875 else if constexpr (is_same_v<_SizeList<_Sizes...>,
3876 _SizeList<_Np / 4, _Np / 4, _Np / 2>>)
3877 return {{__private_init, __extract_part<0, 4>(__data(__x))},
3878 {__private_init, __extract_part<1, 4>(__data(__x))},
3879 {__private_init, __extract_part<1, 2>(__data(__x))}};
3880 else if constexpr (is_same_v<_SizeList<_Sizes...>,
3881 _SizeList<_Np / 4, _Np / 2, _Np / 4>>)
3882 return {{__private_init, __extract_part<0, 4>(__data(__x))},
3883 {__private_init, __extract_center(__data(__x))},
3884 {__private_init, __extract_part<3, 4>(__data(__x))}};
3885 else if constexpr (((_Sizes * 4 == _Np) && ...))
3886 return {{__private_init, __extract_part<0, 4>(__data(__x))},
3887 {__private_init, __extract_part<1, 4>(__data(__x))},
3888 {__private_init, __extract_part<2, 4>(__data(__x))},
3889 {__private_init, __extract_part<3, 4>(__data(__x))}};
3892 #ifdef _GLIBCXX_SIMD_USE_ALIASING_LOADS 3893 const __may_alias<_Tp>*
const __element_ptr
3894 =
reinterpret_cast<const __may_alias<_Tp>*
>(&__x);
3895 return __generate_from_n_evaluations<
sizeof...(_Sizes), _Tuple>([&](
3896 auto __i) constexpr {
3897 using _Vi = __deduced_simd<_Tp, _SL::_S_at(__i)>;
3898 constexpr
size_t __offset = _SL::_S_before(__i);
3899 constexpr
size_t __base_align =
alignof(simd<_Tp, _Ap>);
3900 constexpr
size_t __a
3901 = __base_align - ((__offset *
sizeof(_Tp)) % __base_align);
3902 constexpr
size_t __b = ((__a - 1) & __a) ^ __a;
3903 constexpr
size_t __alignment = __b == 0 ? __a : __b;
3904 return _Vi(__element_ptr + __offset, overaligned<__alignment>);
3907 return __generate_from_n_evaluations<
sizeof...(_Sizes), _Tuple>([&](
3908 auto __i) constexpr {
3909 using _Vi = __deduced_simd<_Tp, _SL::_S_at(__i)>;
3910 const auto& __xx = __data(__x);
3911 using _Offset = decltype(_SL::_S_before(__i));
3912 return _Vi([&](
auto __j) constexpr {
3913 constexpr _SizeConstant<_Offset::value + __j> __k;
3923 template <
size_t _I,
typename _Tp,
typename _Ap,
typename... _As>
3924 _GLIBCXX_SIMD_INTRINSIC constexpr _Tp
3925 __subscript_in_pack(
const simd<_Tp, _Ap>& __x,
const simd<_Tp, _As>&... __xs)
3927 if constexpr (_I < simd_size_v<_Tp, _Ap>)
3930 return __subscript_in_pack<_I - simd_size_v<_Tp, _Ap>>(__xs...);
3935 template <
typename _Tp,
typename _A0,
typename... _As>
3936 _GLIBCXX_SIMD_INTRINSIC
void 3937 __store_pack_of_simd(
char* __mem,
const simd<_Tp, _A0>& __x0,
3938 const simd<_Tp, _As>&... __xs)
3940 constexpr
size_t __n_bytes =
sizeof(_Tp) * simd_size_v<_Tp, _A0>;
3941 __builtin_memcpy(__mem, &__data(__x0), __n_bytes);
3942 if constexpr (
sizeof...(__xs) > 0)
3943 __store_pack_of_simd(__mem + __n_bytes, __xs...);
3948 template <typename _Tp, typename... _As>
3949 inline _GLIBCXX_SIMD_CONSTEXPR
3950 simd<_Tp,
simd_abi::deduce_t<_Tp, (simd_size_v<_Tp, _As> + ...)>>
3951 concat(const simd<_Tp, _As>&... __xs)
3953 using _Rp = __deduced_simd<_Tp, (simd_size_v<_Tp, _As> + ...)>;
3954 if constexpr (
sizeof...(__xs) == 1)
3955 return simd_cast<_Rp>(__xs...);
3956 else if ((... && __xs._M_is_constprop()))
3958 simd_abi::deduce_t<_Tp, (simd_size_v<_Tp, _As> + ...)>>([&](
3959 auto __i) constexpr {
return __subscript_in_pack<__i>(__xs...); });
3963 __store_pack_of_simd(reinterpret_cast<char*>(&__data(__r)), __xs...);
3970 template <
typename _Tp,
typename _Abi,
size_t _Np>
3971 _GLIBCXX_SIMD_ALWAYS_INLINE
3972 _GLIBCXX_SIMD_CONSTEXPR __deduced_simd<_Tp, simd_size_v<_Tp, _Abi> * _Np>
3973 concat(
const array<simd<_Tp, _Abi>, _Np>& __x)
3975 return __call_with_subscripts<_Np>(__x, [](
const auto&... __xs) {
3976 return concat(__xs...);
3984 template <
typename _Up,
typename _Accessor = _Up,
3985 typename _ValueType =
typename _Up::value_type>
3986 class _SmartReference
3992 _GLIBCXX_SIMD_INTRINSIC constexpr _ValueType _M_read() const noexcept
3994 if constexpr (is_arithmetic_v<_Up>)
3997 return _M_obj[_M_index];
4000 template <
typename _Tp>
4001 _GLIBCXX_SIMD_INTRINSIC constexpr
void _M_write(_Tp&& __x)
const 4002 { _Accessor::_S_set(_M_obj, _M_index, static_cast<_Tp&&>(__x)); }
4005 _GLIBCXX_SIMD_INTRINSIC constexpr
4006 _SmartReference(_Up& __o,
int __i) noexcept
4007 : _M_index(__i), _M_obj(__o) {}
4009 using value_type = _ValueType;
4011 _GLIBCXX_SIMD_INTRINSIC _SmartReference(
const _SmartReference&) =
delete;
4013 _GLIBCXX_SIMD_INTRINSIC constexpr
operator value_type() const noexcept
4014 {
return _M_read(); }
4016 template <
typename _Tp,
4018 = _ValuePreservingOrInt<__remove_cvref_t<_Tp>, value_type>>
4019 _GLIBCXX_SIMD_INTRINSIC constexpr _SmartReference operator=(_Tp&& __x) &&
4021 _M_write(static_cast<_Tp&&>(__x));
4022 return {_M_obj, _M_index};
4025 #define _GLIBCXX_SIMD_OP_(__op) \ 4026 template <typename _Tp, \ 4028 = decltype(declval<value_type>() __op declval<_Tp>()), \ 4029 typename = _ValuePreservingOrInt<__remove_cvref_t<_Tp>, _TT>, \ 4030 typename = _ValuePreservingOrInt<_TT, value_type>> \ 4031 _GLIBCXX_SIMD_INTRINSIC constexpr _SmartReference \ 4032 operator __op##=(_Tp&& __x) && \ 4034 const value_type& __lhs = _M_read(); \ 4035 _M_write(__lhs __op __x); \ 4036 return {_M_obj, _M_index}; \ 4038 _GLIBCXX_SIMD_ALL_ARITHMETICS(_GLIBCXX_SIMD_OP_);
4039 _GLIBCXX_SIMD_ALL_SHIFTS(_GLIBCXX_SIMD_OP_);
4040 _GLIBCXX_SIMD_ALL_BINARY(_GLIBCXX_SIMD_OP_);
4041 #undef _GLIBCXX_SIMD_OP_ 4043 template <
typename _Tp = void,
4045 = decltype(++
declval<conditional_t<true, value_type, _Tp>&>())>
4046 _GLIBCXX_SIMD_INTRINSIC constexpr _SmartReference operator++() &&
4048 value_type __x = _M_read();
4050 return {_M_obj, _M_index};
4053 template <
typename _Tp = void,
4055 = decltype(
declval<conditional_t<true, value_type, _Tp>&>()++)>
4056 _GLIBCXX_SIMD_INTRINSIC constexpr value_type operator++(
int) &&
4058 const value_type __r = _M_read();
4059 value_type __x = __r;
4064 template <
typename _Tp = void,
4066 = decltype(--
declval<conditional_t<true, value_type, _Tp>&>())>
4067 _GLIBCXX_SIMD_INTRINSIC constexpr _SmartReference operator--() &&
4069 value_type __x = _M_read();
4071 return {_M_obj, _M_index};
4074 template <
typename _Tp = void,
4076 = decltype(
declval<conditional_t<true, value_type, _Tp>&>()--)>
4077 _GLIBCXX_SIMD_INTRINSIC constexpr value_type operator--(
int) &&
4079 const value_type __r = _M_read();
4080 value_type __x = __r;
4085 _GLIBCXX_SIMD_INTRINSIC
friend void 4086 swap(_SmartReference&& __a, _SmartReference&& __b) noexcept(
4088 is_nothrow_constructible<value_type, _SmartReference&&>,
4089 is_nothrow_assignable<_SmartReference&&, value_type&&>>::value)
4091 value_type __tmp =
static_cast<_SmartReference&&
>(__a);
4092 static_cast<_SmartReference&&
>(__a) = static_cast<value_type>(__b);
4093 static_cast<_SmartReference&&
>(__b) =
std::move(__tmp);
4096 _GLIBCXX_SIMD_INTRINSIC
friend void 4097 swap(value_type& __a, _SmartReference&& __b) noexcept(
4099 is_nothrow_constructible<value_type, value_type&&>,
4100 is_nothrow_assignable<value_type&, value_type&&>,
4101 is_nothrow_assignable<_SmartReference&&, value_type&&>>::value)
4104 __a =
static_cast<value_type
>(__b);
4105 static_cast<_SmartReference&&
>(__b) =
std::move(__tmp);
4108 _GLIBCXX_SIMD_INTRINSIC
friend void 4109 swap(_SmartReference&& __a, value_type& __b) noexcept(
4111 is_nothrow_constructible<value_type, _SmartReference&&>,
4112 is_nothrow_assignable<value_type&, value_type&&>,
4113 is_nothrow_assignable<_SmartReference&&, value_type&&>>::value)
4115 value_type __tmp(__a);
4116 static_cast<_SmartReference&&
>(__a) =
std::move(__b);
4123 template <
int _Bytes>
4124 struct __scalar_abi_wrapper
4126 template <
typename _Tp>
static constexpr
size_t _S_full_size = 1;
4127 template <
typename _Tp>
static constexpr
size_t _S_size = 1;
4128 template <
typename _Tp>
static constexpr
size_t _S_is_partial =
false;
4130 template <
typename _Tp,
typename _Abi = simd_abi::scalar>
4131 static constexpr
bool _S_is_valid_v
4132 = _Abi::template _IsValid<_Tp>::value &&
sizeof(_Tp) == _Bytes;
4137 template <
typename _Tp>
4138 struct __decay_abi {
using type = _Tp; };
4140 template <
int _Bytes>
4141 struct __decay_abi<__scalar_abi_wrapper<_Bytes>>
4142 {
using type = simd_abi::scalar; };
4150 template <
template <
int>
class _Abi,
int _Bytes,
typename _Tp>
4151 struct __find_next_valid_abi
4153 static constexpr
auto _S_choose()
4155 constexpr
int _NextBytes = std::__bit_ceil(_Bytes) / 2;
4156 using _NextAbi = _Abi<_NextBytes>;
4157 if constexpr (_NextBytes <
sizeof(_Tp) * 2)
4158 return _Abi<_Bytes>();
4159 else if constexpr (_NextAbi::template _S_is_partial<_Tp> ==
false 4160 && _NextAbi::template _S_is_valid_v<_Tp>)
4163 return __find_next_valid_abi<_Abi, _NextBytes, _Tp>::_S_choose();
4166 using type = decltype(_S_choose());
4169 template <
int _Bytes,
typename _Tp>
4170 struct __find_next_valid_abi<__scalar_abi_wrapper, _Bytes, _Tp>
4171 {
using type = simd_abi::scalar; };
4174 template <
template <
int>
class...>
4177 template <
typename,
int>
static constexpr
bool _S_has_valid_abi =
false;
4178 template <
typename,
int>
using _FirstValidAbi = void;
4179 template <
typename,
int>
using _BestAbi = void;
4182 template <
template <
int>
class _A0,
template <
int>
class... _Rest>
4183 struct _AbiList<_A0, _Rest...>
4185 template <
typename _Tp,
int _Np>
4186 static constexpr
bool _S_has_valid_abi
4187 = _A0<sizeof(_Tp) * _Np>::template _S_is_valid_v<
4188 _Tp> || _AbiList<_Rest...>::template _S_has_valid_abi<_Tp, _Np>;
4190 template <
typename _Tp,
int _Np>
4192 _A0<sizeof(_Tp) * _Np>::template _S_is_valid_v<_Tp>,
4193 typename __decay_abi<_A0<sizeof(_Tp) * _Np>>::type,
4194 typename _AbiList<_Rest...>::template _FirstValidAbi<_Tp, _Np>>;
4196 template <
typename _Tp,
int _Np>
4197 static constexpr
auto _S_determine_best_abi()
4199 static_assert(_Np >= 1);
4200 constexpr
int _Bytes =
sizeof(_Tp) * _Np;
4201 if constexpr (_Np == 1)
4202 return __make_dependent_t<_Tp,
simd_abi::scalar>{};
4205 constexpr
int __fullsize = _A0<_Bytes>::template _S_full_size<_Tp>;
4210 if constexpr (_A0<_Bytes>::template _S_is_valid_v<
4211 _Tp> && __fullsize / 2 < _Np)
4212 return typename __decay_abi<_A0<_Bytes>>::type{};
4216 typename __find_next_valid_abi<_A0, _Bytes, _Tp>::type;
4217 if constexpr (_Bp::template _S_is_valid_v<
4218 _Tp> && _Bp::template _S_size<_Tp> <= _Np)
4222 typename _AbiList<_Rest...>::template _BestAbi<_Tp, _Np>{};
4227 template <
typename _Tp,
int _Np>
4228 using _BestAbi = decltype(_S_determine_best_abi<_Tp, _Np>());
4236 using _AllNativeAbis = _AbiList<simd_abi::_VecBltnBtmsk, simd_abi::_VecBuiltin,
4237 __scalar_abi_wrapper>;
4240 template <
typename _Tp,
typename _Abi>
4241 struct _SimdTraits<_Tp, _Abi,
void_t<typename _Abi::template _IsValid<_Tp>>>
4242 : _Abi::template __traits<_Tp> {};
4246 template <
typename _Tp,
size_t _Np>
4247 struct __deduce_impl<
4248 _Tp, _Np,
enable_if_t<_AllNativeAbis::template _S_has_valid_abi<_Tp, _Np>>>
4249 {
using type = _AllNativeAbis::_FirstValidAbi<_Tp, _Np>; };
4252 template <
typename _Tp,
size_t _Np,
typename =
void>
4253 struct __deduce_fixed_size_fallback {};
4255 template <
typename _Tp,
size_t _Np>
4256 struct __deduce_fixed_size_fallback<_Tp, _Np,
4258 {
using type = simd_abi::fixed_size<_Np>; };
4260 template <
typename _Tp,
size_t _Np,
typename>
4261 struct __deduce_impl :
public __deduce_fixed_size_fallback<_Tp, _Np> {};
4267 template <
typename _Tp,
typename _Abi>
4268 class simd_mask :
public _SimdTraits<_Tp, _Abi>::_MaskBase
4271 using _Traits = _SimdTraits<_Tp, _Abi>;
4272 using _MemberType =
typename _Traits::_MaskMember;
4278 using _Ip = __int_for_sizeof_t<_Tp>;
4279 static constexpr _Ip* _S_type_tag =
nullptr;
4281 friend typename _Traits::_MaskBase;
4282 friend class simd<_Tp, _Abi>;
4283 friend typename _Traits::_SimdImpl;
4286 using _Impl =
typename _Traits::_MaskImpl;
4291 using value_type = bool;
4292 using reference = _SmartReference<_MemberType, _Impl, value_type>;
4293 using simd_type = simd<_Tp, _Abi>;
4294 using abi_type = _Abi;
4297 static constexpr
size_t size()
4298 {
return __size_or_zero_v<_Tp, _Abi>; }
4302 simd_mask() =
default;
4303 simd_mask(
const simd_mask&) =
default;
4304 simd_mask(simd_mask&&) =
default;
4305 simd_mask& operator=(
const simd_mask&) =
default;
4306 simd_mask& operator=(simd_mask&&) =
default;
4310 _GLIBCXX_SIMD_ALWAYS_INLINE
explicit 4311 simd_mask(
typename _Traits::_MaskCastType __init)
4312 : _M_data{__init} {}
4321 _GLIBCXX_SIMD_ALWAYS_INLINE
static simd_mask
4322 __from_bitset(bitset<
size()> bs)
4323 {
return {__bitset_init, bs}; }
4325 _GLIBCXX_SIMD_ALWAYS_INLINE bitset<size()>
4327 {
return _Impl::_S_to_bits(_M_data)._M_to_bitset(); }
4331 _GLIBCXX_SIMD_ALWAYS_INLINE
explicit _GLIBCXX_SIMD_CONSTEXPR
4332 simd_mask(value_type __x)
4333 : _M_data(_Impl::template _S_broadcast<_Ip>(__x)) {}
4337 #ifdef _GLIBCXX_SIMD_ENABLE_IMPLICIT_MASK_CAST 4339 template <
typename _Up,
typename _A2,
4340 typename = enable_if_t<simd_size_v<_Up, _A2> ==
size()>>
4341 _GLIBCXX_SIMD_ALWAYS_INLINE
explicit(
sizeof(_MemberType)
4342 !=
sizeof(
typename _SimdTraits<_Up, _A2>::_MaskMember))
4343 simd_mask(
const simd_mask<_Up, _A2>& __x)
4344 : simd_mask(
__proposed::static_simd_cast<simd_mask>(__x)) {}
4347 template <
typename _Up,
typename =
enable_if_t<conjunction<
4348 is_same<abi_type, simd_abi::fixed_size<size()>>,
4349 is_same<_Up, _Up>>::value>>
4350 _GLIBCXX_SIMD_ALWAYS_INLINE
4351 simd_mask(
const simd_mask<_Up, simd_abi::fixed_size<
size()>>& __x)
4352 : _M_data(_Impl::_S_from_bitmask(__data(__x), _S_type_tag)) {}
4357 template <
typename _Flags>
4358 _GLIBCXX_SIMD_ALWAYS_INLINE
4359 simd_mask(
const value_type* __mem, _Flags)
4360 : _M_data(_Impl::template _S_load<_Ip>(
4361 _Flags::template _S_apply<simd_mask>(__mem))) {}
4363 template <
typename _Flags>
4364 _GLIBCXX_SIMD_ALWAYS_INLINE
4365 simd_mask(
const value_type* __mem, simd_mask __k, _Flags)
4369 = _Impl::_S_masked_load(_M_data, __k._M_data,
4370 _Flags::template _S_apply<simd_mask>(__mem));
4375 template <
typename _Flags>
4376 _GLIBCXX_SIMD_ALWAYS_INLINE
void 4377 copy_from(
const value_type* __mem, _Flags)
4379 _M_data = _Impl::template _S_load<_Ip>(
4380 _Flags::template _S_apply<simd_mask>(__mem));
4385 template <
typename _Flags>
4386 _GLIBCXX_SIMD_ALWAYS_INLINE
void 4387 copy_to(value_type* __mem, _Flags)
const 4388 { _Impl::_S_store(_M_data, _Flags::template _S_apply<simd_mask>(__mem)); }
4392 _GLIBCXX_SIMD_ALWAYS_INLINE reference
4393 operator[](
size_t __i)
4396 __invoke_ub(
"Subscript %d is out of range [0, %d]", __i,
size() - 1);
4397 return {_M_data, int(__i)};
4400 _GLIBCXX_SIMD_ALWAYS_INLINE value_type
4401 operator[](
size_t __i)
const 4404 __invoke_ub(
"Subscript %d is out of range [0, %d]", __i,
size() - 1);
4405 if constexpr (__is_scalar_abi<_Abi>())
4408 return static_cast<
bool>(_M_data[__i]);
4413 _GLIBCXX_SIMD_ALWAYS_INLINE simd_mask
4415 {
return {__private_init, _Impl::_S_bit_not(_M_data)}; }
4419 #ifdef _GLIBCXX_SIMD_ENABLE_IMPLICIT_MASK_CAST 4421 template <
typename _Up,
typename _A2,
4423 = enable_if_t<is_convertible_v<simd_mask<_Up, _A2>, simd_mask>>>
4424 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask
4425 operator&&(
const simd_mask& __x,
const simd_mask<_Up, _A2>& __y)
4427 return {__private_init,
4428 _Impl::_S_logical_and(__x._M_data, simd_mask(__y)._M_data)};
4431 template <
typename _Up,
typename _A2,
4433 = enable_if_t<is_convertible_v<simd_mask<_Up, _A2>, simd_mask>>>
4434 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask
4435 operator||(
const simd_mask& __x,
const simd_mask<_Up, _A2>& __y)
4437 return {__private_init,
4438 _Impl::_S_logical_or(__x._M_data, simd_mask(__y)._M_data)};
4440 #endif // _GLIBCXX_SIMD_ENABLE_IMPLICIT_MASK_CAST 4442 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask
4443 operator&&(
const simd_mask& __x,
const simd_mask& __y)
4445 return {__private_init, _Impl::_S_logical_and(__x._M_data, __y._M_data)};
4448 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask
4449 operator||(
const simd_mask& __x,
const simd_mask& __y)
4451 return {__private_init, _Impl::_S_logical_or(__x._M_data, __y._M_data)};
4454 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask
4455 operator&(
const simd_mask& __x,
const simd_mask& __y)
4456 {
return {__private_init, _Impl::_S_bit_and(__x._M_data, __y._M_data)}; }
4458 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask
4459 operator|(
const simd_mask& __x,
const simd_mask& __y)
4460 {
return {__private_init, _Impl::_S_bit_or(__x._M_data, __y._M_data)}; }
4462 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask
4463 operator^(
const simd_mask& __x,
const simd_mask& __y)
4464 {
return {__private_init, _Impl::_S_bit_xor(__x._M_data, __y._M_data)}; }
4466 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask&
4467 operator&=(simd_mask& __x,
const simd_mask& __y)
4469 __x._M_data = _Impl::_S_bit_and(__x._M_data, __y._M_data);
4473 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask&
4474 operator|=(simd_mask& __x,
const simd_mask& __y)
4476 __x._M_data = _Impl::_S_bit_or(__x._M_data, __y._M_data);
4480 _GLIBCXX_SIMD_ALWAYS_INLINE
friend simd_mask&
4481 operator^=(simd_mask& __x,
const simd_mask& __y)
4483 __x._M_data = _Impl::_S_bit_xor(__x._M_data, __y._M_data);
4489 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd_mask
4490 operator==(
const simd_mask& __x,
const simd_mask& __y)
4491 {
return !operator!=(__x, __y); }
4493 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd_mask
4494 operator!=(
const simd_mask& __x,
const simd_mask& __y)
4495 {
return {__private_init, _Impl::_S_bit_xor(__x._M_data, __y._M_data)}; }
4499 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
4500 simd_mask(_PrivateInit,
typename _Traits::_MaskMember __init)
4501 : _M_data(__init) {}
4505 template <
typename _Fp,
typename = decltype(
bool(declval<_Fp>()(
size_t())))>
4506 _GLIBCXX_SIMD_INTRINSIC constexpr
4507 simd_mask(_PrivateInit, _Fp&& __gen)
4510 __execute_n_times<size()>([&](
auto __i) constexpr {
4511 _Impl::_S_set(_M_data, __i, __gen(__i));
4517 _GLIBCXX_SIMD_INTRINSIC simd_mask(_BitsetInit, bitset<
size()> __init)
4519 _Impl::_S_from_bitmask(_SanitizedBitMask<
size()>(__init), _S_type_tag))
4530 template <
typename _Up,
typename _A2,
4532 = enable_if_t<simd_size_v<_Up, _A2> == simd_size_v<_Tp, _Abi>>>
4533 operator simd_mask<_Up, _A2>() &&
4535 using namespace std::experimental::__proposed;
4536 return static_simd_cast<simd_mask<_Up, _A2>>(_M_data);
4539 const simd_mask<_Tp, _Abi>& _M_data;
4542 _GLIBCXX_SIMD_INTRINSIC _CvtProxy
4548 #ifdef __GXX_CONDITIONAL_IS_OVERLOADABLE__ 4549 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd_mask
4550 operator?:(
const simd_mask& __k,
const simd_mask& __where_true,
4551 const simd_mask& __where_false)
4553 auto __ret = __where_false;
4554 _Impl::_S_masked_assign(__k._M_data, __ret._M_data, __where_true._M_data);
4558 template <
typename _U1,
typename _U2,
4559 typename _Rp = simd<common_type_t<_U1, _U2>, _Abi>,
4561 is_convertible<_U1, _Rp>, is_convertible<_U2, _Rp>,
4562 is_convertible<simd_mask, typename _Rp::mask_type>>>>
4563 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend _Rp
4564 operator?:(
const simd_mask& __k,
const _U1& __where_true,
4565 const _U2& __where_false)
4567 _Rp __ret = __where_false;
4568 _Rp::_Impl::_S_masked_assign(
4569 __data(static_cast<typename _Rp::mask_type>(__k)), __data(__ret),
4570 __data(static_cast<_Rp>(__where_true)));
4574 #ifdef _GLIBCXX_SIMD_ENABLE_IMPLICIT_MASK_CAST 4575 template <
typename _Kp,
typename _Ak,
typename _Up,
typename _Au,
4577 conjunction_v<is_convertible<simd_mask<_Kp, _Ak>, simd_mask>,
4578 is_convertible<simd_mask<_Up, _Au>, simd_mask>>>>
4579 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd_mask
4580 operator?:(
const simd_mask<_Kp, _Ak>& __k,
const simd_mask& __where_true,
4581 const simd_mask<_Up, _Au>& __where_false)
4583 simd_mask __ret = __where_false;
4584 _Impl::_S_masked_assign(simd_mask(__k)._M_data, __ret._M_data,
4585 __where_true._M_data);
4588 #endif // _GLIBCXX_SIMD_ENABLE_IMPLICIT_MASK_CAST 4589 #endif // __GXX_CONDITIONAL_IS_OVERLOADABLE__ 4593 _GLIBCXX_SIMD_INTRINSIC constexpr
bool 4594 _M_is_constprop()
const 4596 if constexpr (__is_scalar_abi<_Abi>())
4597 return __builtin_constant_p(_M_data);
4599 return _M_data._M_is_constprop();
4605 friend const auto& __data<_Tp, abi_type>(const simd_mask&);
4606 friend auto& __data<_Tp, abi_type>(simd_mask&);
4607 alignas(_Traits::_S_mask_align) _MemberType _M_data;
4614 template <typename _Tp, typename _Ap>
4615 _GLIBCXX_SIMD_INTRINSIC constexpr const auto&
4616 __data(const simd_mask<_Tp, _Ap>& __x)
4617 {
return __x._M_data; }
4619 template <
typename _Tp,
typename _Ap>
4620 _GLIBCXX_SIMD_INTRINSIC constexpr
auto&
4621 __data(simd_mask<_Tp, _Ap>& __x)
4622 {
return __x._M_data; }
4628 template <
typename _Tp,
typename _Abi>
4629 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
bool 4630 all_of(
const simd_mask<_Tp, _Abi>& __k) noexcept
4632 if (__builtin_is_constant_evaluated() || __k._M_is_constprop())
4634 for (
size_t __i = 0; __i < simd_size_v<_Tp, _Abi>; ++__i)
4640 return _Abi::_MaskImpl::_S_all_of(__k);
4643 template <
typename _Tp,
typename _Abi>
4644 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
bool 4645 any_of(
const simd_mask<_Tp, _Abi>& __k) noexcept
4647 if (__builtin_is_constant_evaluated() || __k._M_is_constprop())
4649 for (
size_t __i = 0; __i < simd_size_v<_Tp, _Abi>; ++__i)
4655 return _Abi::_MaskImpl::_S_any_of(__k);
4658 template <
typename _Tp,
typename _Abi>
4659 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
bool 4660 none_of(
const simd_mask<_Tp, _Abi>& __k) noexcept
4662 if (__builtin_is_constant_evaluated() || __k._M_is_constprop())
4664 for (
size_t __i = 0; __i < simd_size_v<_Tp, _Abi>; ++__i)
4670 return _Abi::_MaskImpl::_S_none_of(__k);
4673 template <
typename _Tp,
typename _Abi>
4674 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
bool 4675 some_of(
const simd_mask<_Tp, _Abi>& __k) noexcept
4677 if (__builtin_is_constant_evaluated() || __k._M_is_constprop())
4679 for (
size_t __i = 1; __i < simd_size_v<_Tp, _Abi>; ++__i)
4680 if (__k[__i] != __k[__i - 1])
4685 return _Abi::_MaskImpl::_S_some_of(__k);
4688 template <
typename _Tp,
typename _Abi>
4689 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
int 4690 popcount(
const simd_mask<_Tp, _Abi>& __k) noexcept
4692 if (__builtin_is_constant_evaluated() || __k._M_is_constprop())
4694 const int __r = __call_with_subscripts<simd_size_v<_Tp, _Abi>>(
4695 __k, [](
auto... __elements) {
return ((__elements != 0) + ...); });
4696 if (__builtin_is_constant_evaluated() || __builtin_constant_p(__r))
4699 return _Abi::_MaskImpl::_S_popcount(__k);
4702 template <
typename _Tp,
typename _Abi>
4703 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
int 4704 find_first_set(
const simd_mask<_Tp, _Abi>& __k)
4706 if (__builtin_is_constant_evaluated() || __k._M_is_constprop())
4708 constexpr
size_t _Np = simd_size_v<_Tp, _Abi>;
4709 const size_t _Idx = __call_with_n_evaluations<_Np>(
4710 [](
auto... __indexes) {
return std::min({__indexes...}); },
4711 [&](
auto __i) {
return __k[__i] ? +__i : _Np; });
4713 __invoke_ub(
"find_first_set(empty mask) is UB");
4714 if (__builtin_constant_p(_Idx))
4717 return _Abi::_MaskImpl::_S_find_first_set(__k);
4720 template <
typename _Tp,
typename _Abi>
4721 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
int 4722 find_last_set(
const simd_mask<_Tp, _Abi>& __k)
4724 if (__builtin_is_constant_evaluated() || __k._M_is_constprop())
4726 constexpr
size_t _Np = simd_size_v<_Tp, _Abi>;
4727 const int _Idx = __call_with_n_evaluations<_Np>(
4728 [](
auto... __indexes) {
return std::max({__indexes...}); },
4729 [&](
auto __i) {
return __k[__i] ? int(__i) : -1; });
4731 __invoke_ub(
"find_first_set(empty mask) is UB");
4732 if (__builtin_constant_p(_Idx))
4735 return _Abi::_MaskImpl::_S_find_last_set(__k);
4738 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
bool 4739 all_of(_ExactBool __x) noexcept
4742 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
bool 4743 any_of(_ExactBool __x) noexcept
4746 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
bool 4747 none_of(_ExactBool __x) noexcept
4750 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
bool 4751 some_of(_ExactBool) noexcept
4754 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
int 4755 popcount(_ExactBool __x) noexcept
4758 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
int 4759 find_first_set(_ExactBool)
4762 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
int 4763 find_last_set(_ExactBool)
4770 template <
typename _V,
typename _Impl,
bool>
4771 class _SimdIntOperators {};
4773 template <
typename _V,
typename _Impl>
4774 class _SimdIntOperators<_V, _Impl, true>
4776 _GLIBCXX_SIMD_INTRINSIC
const _V& __derived()
const 4777 {
return *
static_cast<const _V*
>(
this); }
4779 template <
typename _Tp>
4780 _GLIBCXX_SIMD_INTRINSIC
static _GLIBCXX_SIMD_CONSTEXPR _V
4781 _S_make_derived(_Tp&& __d)
4782 {
return {__private_init,
static_cast<_Tp&&
>(__d)}; }
4785 _GLIBCXX_SIMD_CONSTEXPR
friend _V& operator%=(_V& __lhs,
const _V& __x)
4786 {
return __lhs = __lhs % __x; }
4788 _GLIBCXX_SIMD_CONSTEXPR
friend _V& operator&=(_V& __lhs,
const _V& __x)
4789 {
return __lhs = __lhs & __x; }
4791 _GLIBCXX_SIMD_CONSTEXPR
friend _V& operator|=(_V& __lhs,
const _V& __x)
4792 {
return __lhs = __lhs | __x; }
4794 _GLIBCXX_SIMD_CONSTEXPR
friend _V& operator^=(_V& __lhs,
const _V& __x)
4795 {
return __lhs = __lhs ^ __x; }
4797 _GLIBCXX_SIMD_CONSTEXPR
friend _V& operator<<=(_V& __lhs,
const _V& __x)
4798 {
return __lhs = __lhs << __x; }
4800 _GLIBCXX_SIMD_CONSTEXPR
friend _V& operator>>=(_V& __lhs,
const _V& __x)
4801 {
return __lhs = __lhs >> __x; }
4803 _GLIBCXX_SIMD_CONSTEXPR
friend _V& operator<<=(_V& __lhs,
int __x)
4804 {
return __lhs = __lhs << __x; }
4806 _GLIBCXX_SIMD_CONSTEXPR
friend _V& operator>>=(_V& __lhs,
int __x)
4807 {
return __lhs = __lhs >> __x; }
4809 _GLIBCXX_SIMD_CONSTEXPR
friend _V
operator%(
const _V& __x,
const _V& __y)
4811 return _SimdIntOperators::_S_make_derived(
4812 _Impl::_S_modulus(__data(__x), __data(__y)));
4815 _GLIBCXX_SIMD_CONSTEXPR
friend _V
operator&(
const _V& __x,
const _V& __y)
4817 return _SimdIntOperators::_S_make_derived(
4818 _Impl::_S_bit_and(__data(__x), __data(__y)));
4821 _GLIBCXX_SIMD_CONSTEXPR
friend _V
operator|(
const _V& __x,
const _V& __y)
4823 return _SimdIntOperators::_S_make_derived(
4824 _Impl::_S_bit_or(__data(__x), __data(__y)));
4827 _GLIBCXX_SIMD_CONSTEXPR
friend _V
operator^(
const _V& __x,
const _V& __y)
4829 return _SimdIntOperators::_S_make_derived(
4830 _Impl::_S_bit_xor(__data(__x), __data(__y)));
4833 _GLIBCXX_SIMD_CONSTEXPR
friend _V
operator<<(
const _V& __x,
const _V& __y)
4835 return _SimdIntOperators::_S_make_derived(
4836 _Impl::_S_bit_shift_left(__data(__x), __data(__y)));
4839 _GLIBCXX_SIMD_CONSTEXPR
friend _V
operator>>(
const _V& __x,
const _V& __y)
4841 return _SimdIntOperators::_S_make_derived(
4842 _Impl::_S_bit_shift_right(__data(__x), __data(__y)));
4845 template <
typename _VV = _V>
4846 _GLIBCXX_SIMD_CONSTEXPR
friend _V
operator<<(
const _V& __x,
int __y)
4848 using _Tp =
typename _VV::value_type;
4850 __invoke_ub(
"The behavior is undefined if the right operand of a " 4851 "shift operation is negative. [expr.shift]\nA shift by " 4854 if (
size_t(__y) >=
sizeof(declval<_Tp>() << __y) * __CHAR_BIT__)
4856 "The behavior is undefined if the right operand of a " 4857 "shift operation is greater than or equal to the width of the " 4858 "promoted left operand. [expr.shift]\nA shift by %d was requested",
4860 return _SimdIntOperators::_S_make_derived(
4861 _Impl::_S_bit_shift_left(__data(__x), __y));
4864 template <
typename _VV = _V>
4865 _GLIBCXX_SIMD_CONSTEXPR
friend _V
operator>>(
const _V& __x,
int __y)
4867 using _Tp =
typename _VV::value_type;
4870 "The behavior is undefined if the right operand of a shift " 4871 "operation is negative. [expr.shift]\nA shift by %d was requested",
4873 if (
size_t(__y) >=
sizeof(declval<_Tp>() << __y) * __CHAR_BIT__)
4875 "The behavior is undefined if the right operand of a shift " 4876 "operation is greater than or equal to the width of the promoted " 4877 "left operand. [expr.shift]\nA shift by %d was requested",
4879 return _SimdIntOperators::_S_make_derived(
4880 _Impl::_S_bit_shift_right(__data(__x), __y));
4884 _GLIBCXX_SIMD_CONSTEXPR _V operator~()
const 4885 {
return {__private_init, _Impl::_S_complement(__derived()._M_data)}; }
4892 template <
typename _Tp,
typename _Abi>
4893 class simd :
public _SimdIntOperators<
4894 simd<_Tp, _Abi>, typename _SimdTraits<_Tp, _Abi>::_SimdImpl,
4895 conjunction<is_integral<_Tp>,
4896 typename _SimdTraits<_Tp, _Abi>::_IsValid>::value>,
4897 public _SimdTraits<_Tp, _Abi>::_SimdBase
4899 using _Traits = _SimdTraits<_Tp, _Abi>;
4900 using _MemberType =
typename _Traits::_SimdMember;
4901 using _CastType =
typename _Traits::_SimdCastType;
4902 static constexpr _Tp* _S_type_tag =
nullptr;
4903 friend typename _Traits::_SimdBase;
4906 using _Impl =
typename _Traits::_SimdImpl;
4908 friend _SimdIntOperators<simd, _Impl, true>;
4910 using value_type = _Tp;
4911 using reference = _SmartReference<_MemberType, _Impl, value_type>;
4912 using mask_type = simd_mask<_Tp, _Abi>;
4913 using abi_type = _Abi;
4915 static constexpr
size_t size()
4916 {
return __size_or_zero_v<_Tp, _Abi>; }
4918 _GLIBCXX_SIMD_CONSTEXPR simd() =
default;
4919 _GLIBCXX_SIMD_CONSTEXPR simd(
const simd&) =
default;
4920 _GLIBCXX_SIMD_CONSTEXPR simd(simd&&) noexcept = default;
4921 _GLIBCXX_SIMD_CONSTEXPR simd& operator=(const simd&) = default;
4922 _GLIBCXX_SIMD_CONSTEXPR simd& operator=(simd&&) noexcept = default;
4925 template <typename _Up,
4926 typename =
enable_if_t<!is_same_v<__remove_cvref_t<_Up>,
bool>>>
4927 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
4928 simd(_ValuePreservingOrInt<_Up, value_type>&& __x)
4930 _Impl::_S_broadcast(static_cast<value_type>(static_cast<_Up&&>(__x))))
4935 template <
typename _Up>
4936 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
4937 simd(
const simd<_Up, simd_abi::fixed_size<
size()>>& __x,
4940 is_same<simd_abi::fixed_size<
size()>, abi_type>,
4941 negation<__is_narrowing_conversion<_Up, value_type>>,
4942 __converts_to_higher_integer_rank<_Up, value_type>>::value,
4944 : simd{
static_cast<array<_Up, size()>
>(__x).
data(), vector_aligned} {}
4947 #ifdef _GLIBCXX_SIMD_ENABLE_STATIC_CAST 4948 template <
typename _Up,
typename _A2,
4949 typename = decltype(static_simd_cast<simd>(
4950 declval<
const simd<_Up, _A2>&>()))>
4951 _GLIBCXX_SIMD_ALWAYS_INLINE
explicit _GLIBCXX_SIMD_CONSTEXPR
4952 simd(
const simd<_Up, _A2>& __x)
4953 : simd(static_simd_cast<simd>(__x)) {}
4954 #endif // _GLIBCXX_SIMD_ENABLE_STATIC_CAST 4957 template <
typename _Fp>
4958 _GLIBCXX_SIMD_ALWAYS_INLINE
explicit _GLIBCXX_SIMD_CONSTEXPR
4959 simd(_Fp&& __gen, _ValuePreservingOrInt<decltype(declval<_Fp>()(
4960 declval<_SizeConstant<0>&>())),
4961 value_type>* =
nullptr)
4962 : _M_data(_Impl::_S_generator(static_cast<_Fp&&>(__gen), _S_type_tag)) {}
4965 template <
typename _Up,
typename _Flags>
4966 _GLIBCXX_SIMD_ALWAYS_INLINE
4967 simd(
const _Up* __mem, _Flags)
4969 _Impl::_S_load(_Flags::template _S_apply<simd>(__mem), _S_type_tag))
4973 template <
typename _Up,
typename _Flags>
4974 _GLIBCXX_SIMD_ALWAYS_INLINE
void 4975 copy_from(
const _Vectorizable<_Up>* __mem, _Flags)
4977 _M_data =
static_cast<decltype(_M_data)
>(
4978 _Impl::_S_load(_Flags::template _S_apply<simd>(__mem), _S_type_tag));
4982 template <
typename _Up,
typename _Flags>
4983 _GLIBCXX_SIMD_ALWAYS_INLINE
void 4984 copy_to(_Vectorizable<_Up>* __mem, _Flags)
const 4986 _Impl::_S_store(_M_data, _Flags::template _S_apply<simd>(__mem),
4991 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR reference
4992 operator[](
size_t __i)
4993 {
return {_M_data, int(__i)}; }
4995 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR value_type
4996 operator[]([[maybe_unused]]
size_t __i)
const 4998 if constexpr (__is_scalar_abi<_Abi>())
5000 _GLIBCXX_DEBUG_ASSERT(__i == 0);
5004 return _M_data[__i];
5008 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR simd&
5011 _Impl::_S_increment(_M_data);
5015 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR simd
5019 _Impl::_S_increment(_M_data);
5023 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR simd&
5026 _Impl::_S_decrement(_M_data);
5030 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR simd
5034 _Impl::_S_decrement(_M_data);
5039 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR mask_type
5041 {
return {__private_init, _Impl::_S_negate(_M_data)}; }
5043 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR simd
5047 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR simd
5049 {
return {__private_init, _Impl::_S_unary_minus(_M_data)}; }
5052 _GLIBCXX_SIMD_ALWAYS_INLINE
explicit _GLIBCXX_SIMD_CONSTEXPR
5053 simd(_CastType __init) : _M_data(__init) {}
5056 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd&
5057 operator+=(simd& __lhs,
const simd& __x)
5058 {
return __lhs = __lhs + __x; }
5060 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd&
5061 operator-=(simd& __lhs,
const simd& __x)
5062 {
return __lhs = __lhs - __x; }
5064 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd&
5065 operator*=(simd& __lhs,
const simd& __x)
5066 {
return __lhs = __lhs * __x; }
5068 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd&
5069 operator/=(simd& __lhs,
const simd& __x)
5070 {
return __lhs = __lhs / __x; }
5073 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd
5074 operator+(
const simd& __x,
const simd& __y)
5075 {
return {__private_init, _Impl::_S_plus(__x._M_data, __y._M_data)}; }
5077 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd
5078 operator-(
const simd& __x,
const simd& __y)
5079 {
return {__private_init, _Impl::_S_minus(__x._M_data, __y._M_data)}; }
5081 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd
5082 operator*(
const simd& __x,
const simd& __y)
5083 {
return {__private_init, _Impl::_S_multiplies(__x._M_data, __y._M_data)}; }
5085 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd
5086 operator/(
const simd& __x,
const simd& __y)
5087 {
return {__private_init, _Impl::_S_divides(__x._M_data, __y._M_data)}; }
5090 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend mask_type
5091 operator==(
const simd& __x,
const simd& __y)
5092 {
return simd::_S_make_mask(_Impl::_S_equal_to(__x._M_data, __y._M_data)); }
5094 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend mask_type
5095 operator!=(
const simd& __x,
const simd& __y)
5097 return simd::_S_make_mask(
5098 _Impl::_S_not_equal_to(__x._M_data, __y._M_data));
5101 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend mask_type
5102 operator<(
const simd& __x,
const simd& __y)
5103 {
return simd::_S_make_mask(_Impl::_S_less(__x._M_data, __y._M_data)); }
5105 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend mask_type
5106 operator<=(
const simd& __x,
const simd& __y)
5108 return simd::_S_make_mask(_Impl::_S_less_equal(__x._M_data, __y._M_data));
5111 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend mask_type
5112 operator>(
const simd& __x,
const simd& __y)
5113 {
return simd::_S_make_mask(_Impl::_S_less(__y._M_data, __x._M_data)); }
5115 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend mask_type
5116 operator>=(
const simd& __x,
const simd& __y)
5118 return simd::_S_make_mask(_Impl::_S_less_equal(__y._M_data, __x._M_data));
5122 #ifdef __GXX_CONDITIONAL_IS_OVERLOADABLE__ 5123 _GLIBCXX_SIMD_ALWAYS_INLINE _GLIBCXX_SIMD_CONSTEXPR
friend simd
5124 operator?:(
const mask_type& __k,
const simd& __where_true,
5125 const simd& __where_false)
5127 auto __ret = __where_false;
5128 _Impl::_S_masked_assign(__data(__k), __data(__ret), __data(__where_true));
5132 #endif // __GXX_CONDITIONAL_IS_OVERLOADABLE__ 5136 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR
5137 simd(_PrivateInit,
const _MemberType& __init)
5138 : _M_data(__init) {}
5141 _GLIBCXX_SIMD_INTRINSIC
5142 simd(_BitsetInit, bitset<
size()> __init) : _M_data()
5143 { where(mask_type(__bitset_init, __init), *
this) = ~*
this; }
5145 _GLIBCXX_SIMD_INTRINSIC constexpr
bool 5146 _M_is_constprop()
const 5148 if constexpr (__is_scalar_abi<_Abi>())
5149 return __builtin_constant_p(_M_data);
5151 return _M_data._M_is_constprop();
5155 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR static mask_type
5156 _S_make_mask(typename mask_type::_MemberType __k)
5157 {
return {__private_init, __k}; }
5159 friend const auto& __data<value_type, abi_type>(
const simd&);
5160 friend auto& __data<value_type, abi_type>(simd&);
5161 alignas(_Traits::_S_simd_align) _MemberType _M_data;
5167 template <
typename _Tp,
typename _Ap>
5168 _GLIBCXX_SIMD_INTRINSIC constexpr
const auto&
5169 __data(
const simd<_Tp, _Ap>& __x)
5170 {
return __x._M_data; }
5172 template <
typename _Tp,
typename _Ap>
5173 _GLIBCXX_SIMD_INTRINSIC constexpr
auto&
5174 __data(simd<_Tp, _Ap>& __x)
5175 {
return __x._M_data; }
5178 namespace __float_bitwise_operators {
5179 template <
typename _Tp,
typename _Ap>
5180 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR simd<_Tp, _Ap>
5181 operator^(
const simd<_Tp, _Ap>& __a,
const simd<_Tp, _Ap>& __b)
5183 return {__private_init,
5184 _Ap::_SimdImpl::_S_bit_xor(__data(__a), __data(__b))};
5187 template <
typename _Tp,
typename _Ap>
5188 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR simd<_Tp, _Ap>
5189 operator|(
const simd<_Tp, _Ap>& __a,
const simd<_Tp, _Ap>& __b)
5191 return {__private_init,
5192 _Ap::_SimdImpl::_S_bit_or(__data(__a), __data(__b))};
5195 template <
typename _Tp,
typename _Ap>
5196 _GLIBCXX_SIMD_INTRINSIC _GLIBCXX_SIMD_CONSTEXPR simd<_Tp, _Ap>
5197 operator&(
const simd<_Tp, _Ap>& __a,
const simd<_Tp, _Ap>& __b)
5199 return {__private_init,
5200 _Ap::_SimdImpl::_S_bit_and(__data(__a), __data(__b))};
5206 _GLIBCXX_SIMD_END_NAMESPACE
5208 #endif // __cplusplus >= 201703L 5209 #endif // _GLIBCXX_EXPERIMENTAL_SIMD_H constexpr duration< __common_rep_t< _Rep1, __disable_if_is_duration< _Rep2 > >, _Period > operator/(const duration< _Rep1, _Period > &__d, const _Rep2 &__s)
std::basic_ostream< _CharT, _Traits > & operator<<(std::basic_ostream< _CharT, _Traits > &__os, const bitset< _Nb > &__x)
Global I/O operators for bitsets.
bitset< _Nb > operator^(const bitset< _Nb > &__x, const bitset< _Nb > &__y) noexcept
Global bitwise operations on bitsets.
integral_constant< bool, false > false_type
The type used as a compile-time boolean with false value.
auto declval() noexcept -> decltype(__declval< _Tp >(0))
constexpr auto data(_Container &__cont) noexcept(noexcept(__cont.data())) -> decltype(__cont.data())
Return the data pointer of a container.
constexpr duration< __common_rep_t< _Rep1, __disable_if_is_duration< _Rep2 > >, _Period > operator%(const duration< _Rep1, _Period > &__d, const _Rep2 &__s)
typename remove_pointer< _Tp >::type remove_pointer_t
Alias template for remove_pointer.
typename enable_if< _Cond, _Tp >::type enable_if_t
Alias template for enable_if.
_Tp * end(valarray< _Tp > &__va) noexcept
Return an iterator pointing to one past the last element of the valarray.
constexpr _Tp reduce(_InputIterator __first, _InputIterator __last, _Tp __init, _BinaryOperation __binary_op)
Calculate reduction of values in a range.
void void_t
A metafunction that always yields void, used for detecting valid types.
constexpr pair< const _Tp &, const _Tp & > minmax(const _Tp &, const _Tp &)
Determines min and max at once as an ordered pair.
constexpr std::remove_reference< _Tp >::type && move(_Tp &&__t) noexcept
Convert a value to an rvalue.
constexpr auto tuple_cat(_Tpls &&... __tpls) -> typename __tuple_cat_result< _Tpls... >::__type
tuple_cat
typename remove_const< _Tp >::type remove_const_t
Alias template for remove_const.
typename make_unsigned< _Tp >::type make_unsigned_t
Alias template for make_unsigned.
constexpr auto size(const _Container &__cont) noexcept(noexcept(__cont.size())) -> decltype(__cont.size())
Return the size of a container.
_Tp * begin(valarray< _Tp > &__va) noexcept
Return an iterator pointing to the first element of the valarray.
constexpr const _Tp & max(const _Tp &, const _Tp &)
This does what you think it does.
integral_constant< bool, true > true_type
The type used as a compile-time boolean with true value.
bitset< _Nb > operator &(const bitset< _Nb > &__x, const bitset< _Nb > &__y) noexcept
Global bitwise operations on bitsets.
typename conditional< _Cond, _Iftrue, _Iffalse >::type conditional_t
Alias template for conditional.
constexpr const _Tp & min(const _Tp &, const _Tp &)
This does what you think it does.
typename remove_reference< _Tp >::type remove_reference_t
Alias template for remove_reference.
constexpr const _Tp & clamp(const _Tp &, const _Tp &, const _Tp &)
Returns the value clamped between lo and hi.
constexpr time_point< _Clock, typename common_type< duration< _Rep1, _Period1 >, _Dur2 >::type > operator+(const duration< _Rep1, _Period1 > &__lhs, const time_point< _Clock, _Dur2 > &__rhs)
Adjust a time point forwards by the given duration.
bitset< _Nb > operator|(const bitset< _Nb > &__x, const bitset< _Nb > &__y) noexcept
Global bitwise operations on bitsets.
constexpr common_type< duration< _Rep1, _Period1 >, duration< _Rep2, _Period2 > >::type operator-(const duration< _Rep1, _Period1 > &__lhs, const duration< _Rep2, _Period2 > &__rhs)
The difference between two durations.
constexpr duration< __common_rep_t< _Rep2, _Rep1 >, _Period > operator*(const _Rep1 &__s, const duration< _Rep2, _Period > &__d)
std::basic_istream< _CharT, _Traits > & operator>>(std::basic_istream< _CharT, _Traits > &__is, bitset< _Nb > &__x)
Global I/O operators for bitsets.