libstdc++
simd_fixed_size.h
1// Simd fixed_size ABI specific implementations -*- C++ -*-
2
3// Copyright (C) 2020-2024 Free Software Foundation, Inc.
4//
5// This file is part of the GNU ISO C++ Library. This library is free
6// software; you can redistribute it and/or modify it under the
7// terms of the GNU General Public License as published by the
8// Free Software Foundation; either version 3, or (at your option)
9// any later version.
10
11// This library is distributed in the hope that it will be useful,
12// but WITHOUT ANY WARRANTY; without even the implied warranty of
13// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14// GNU General Public License for more details.
15
16// Under Section 7 of GPL version 3, you are granted additional
17// permissions described in the GCC Runtime Library Exception, version
18// 3.1, as published by the Free Software Foundation.
19
20// You should have received a copy of the GNU General Public License and
21// a copy of the GCC Runtime Library Exception along with this program;
22// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
23// <http://www.gnu.org/licenses/>.
24
25/*
26 * The fixed_size ABI gives the following guarantees:
27 * - simd objects are passed via the stack
28 * - memory layout of `simd<_Tp, _Np>` is equivalent to `array<_Tp, _Np>`
29 * - alignment of `simd<_Tp, _Np>` is `_Np * sizeof(_Tp)` if _Np is __a
30 * power-of-2 value, otherwise `std::__bit_ceil(_Np * sizeof(_Tp))` (Note:
31 * if the alignment were to exceed the system/compiler maximum, it is bounded
32 * to that maximum)
33 * - simd_mask objects are passed like bitset<_Np>
34 * - memory layout of `simd_mask<_Tp, _Np>` is equivalent to `bitset<_Np>`
35 * - alignment of `simd_mask<_Tp, _Np>` is equal to the alignment of
36 * `bitset<_Np>`
37 */
38
39#ifndef _GLIBCXX_EXPERIMENTAL_SIMD_FIXED_SIZE_H_
40#define _GLIBCXX_EXPERIMENTAL_SIMD_FIXED_SIZE_H_
41
42#if __cplusplus >= 201703L
43
44#include <array>
45
46_GLIBCXX_SIMD_BEGIN_NAMESPACE
47
48// __simd_tuple_element {{{
49template <size_t _I, typename _Tp>
50 struct __simd_tuple_element;
51
52template <typename _Tp, typename _A0, typename... _As>
53 struct __simd_tuple_element<0, _SimdTuple<_Tp, _A0, _As...>>
54 { using type = simd<_Tp, _A0>; };
55
56template <size_t _I, typename _Tp, typename _A0, typename... _As>
57 struct __simd_tuple_element<_I, _SimdTuple<_Tp, _A0, _As...>>
58 { using type = typename __simd_tuple_element<_I - 1, _SimdTuple<_Tp, _As...>>::type; };
59
60template <size_t _I, typename _Tp>
61 using __simd_tuple_element_t = typename __simd_tuple_element<_I, _Tp>::type;
62
63// }}}
64// __simd_tuple_concat {{{
65
66template <typename _Tp, typename... _A0s, typename... _A1s>
67 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple<_Tp, _A0s..., _A1s...>
68 __simd_tuple_concat(const _SimdTuple<_Tp, _A0s...>& __left,
69 const _SimdTuple<_Tp, _A1s...>& __right)
70 {
71 if constexpr (sizeof...(_A0s) == 0)
72 return __right;
73 else if constexpr (sizeof...(_A1s) == 0)
74 return __left;
75 else
76 return {__left.first, __simd_tuple_concat(__left.second, __right)};
77 }
78
79template <typename _Tp, typename _A10, typename... _A1s>
80 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple<_Tp, simd_abi::scalar, _A10, _A1s...>
81 __simd_tuple_concat(const _Tp& __left, const _SimdTuple<_Tp, _A10, _A1s...>& __right)
82 { return {__left, __right}; }
83
84// }}}
85// __simd_tuple_pop_front {{{
86// Returns the next _SimdTuple in __x that has _Np elements less.
87// Precondition: _Np must match the number of elements in __first (recursively)
88template <size_t _Np, typename _Tp>
89 _GLIBCXX_SIMD_INTRINSIC constexpr decltype(auto)
90 __simd_tuple_pop_front(_Tp&& __x)
91 {
92 if constexpr (_Np == 0)
93 return static_cast<_Tp&&>(__x);
94 else
95 {
96 using _Up = __remove_cvref_t<_Tp>;
97 static_assert(_Np >= _Up::_S_first_size);
98 return __simd_tuple_pop_front<_Np - _Up::_S_first_size>(__x.second);
99 }
100 }
101
102// }}}
103// __get_simd_at<_Np> {{{1
104struct __as_simd {};
105
106struct __as_simd_tuple {};
107
108template <typename _Tp, typename _A0, typename... _Abis>
109 _GLIBCXX_SIMD_INTRINSIC constexpr simd<_Tp, _A0>
110 __simd_tuple_get_impl(__as_simd, const _SimdTuple<_Tp, _A0, _Abis...>& __t, _SizeConstant<0>)
111 { return {__private_init, __t.first}; }
112
113template <typename _Tp, typename _A0, typename... _Abis>
114 _GLIBCXX_SIMD_INTRINSIC constexpr const auto&
115 __simd_tuple_get_impl(__as_simd_tuple, const _SimdTuple<_Tp, _A0, _Abis...>& __t,
116 _SizeConstant<0>)
117 { return __t.first; }
118
119template <typename _Tp, typename _A0, typename... _Abis>
120 _GLIBCXX_SIMD_INTRINSIC constexpr auto&
121 __simd_tuple_get_impl(__as_simd_tuple, _SimdTuple<_Tp, _A0, _Abis...>& __t, _SizeConstant<0>)
122 { return __t.first; }
123
124template <typename _R, size_t _Np, typename _Tp, typename... _Abis>
125 _GLIBCXX_SIMD_INTRINSIC constexpr auto
126 __simd_tuple_get_impl(_R, const _SimdTuple<_Tp, _Abis...>& __t, _SizeConstant<_Np>)
127 { return __simd_tuple_get_impl(_R(), __t.second, _SizeConstant<_Np - 1>()); }
128
129template <size_t _Np, typename _Tp, typename... _Abis>
130 _GLIBCXX_SIMD_INTRINSIC constexpr auto&
131 __simd_tuple_get_impl(__as_simd_tuple, _SimdTuple<_Tp, _Abis...>& __t, _SizeConstant<_Np>)
132 { return __simd_tuple_get_impl(__as_simd_tuple(), __t.second, _SizeConstant<_Np - 1>()); }
133
134template <size_t _Np, typename _Tp, typename... _Abis>
135 _GLIBCXX_SIMD_INTRINSIC constexpr auto
136 __get_simd_at(const _SimdTuple<_Tp, _Abis...>& __t)
137 { return __simd_tuple_get_impl(__as_simd(), __t, _SizeConstant<_Np>()); }
138
139// }}}
140// __get_tuple_at<_Np> {{{
141template <size_t _Np, typename _Tp, typename... _Abis>
142 _GLIBCXX_SIMD_INTRINSIC constexpr auto
143 __get_tuple_at(const _SimdTuple<_Tp, _Abis...>& __t)
144 { return __simd_tuple_get_impl(__as_simd_tuple(), __t, _SizeConstant<_Np>()); }
145
146template <size_t _Np, typename _Tp, typename... _Abis>
147 _GLIBCXX_SIMD_INTRINSIC constexpr auto&
148 __get_tuple_at(_SimdTuple<_Tp, _Abis...>& __t)
149 { return __simd_tuple_get_impl(__as_simd_tuple(), __t, _SizeConstant<_Np>()); }
150
151// __tuple_element_meta {{{1
152template <typename _Tp, typename _Abi, size_t _Offset>
153 struct __tuple_element_meta : public _Abi::_SimdImpl
154 {
155 static_assert(is_same_v<typename _Abi::_SimdImpl::abi_type,
156 _Abi>); // this fails e.g. when _SimdImpl is an
157 // alias for _SimdImplBuiltin<_DifferentAbi>
158 using value_type = _Tp;
159 using abi_type = _Abi;
160 using _Traits = _SimdTraits<_Tp, _Abi>;
161 using _MaskImpl = typename _Abi::_MaskImpl;
162 using _MaskMember = typename _Traits::_MaskMember;
163 using simd_type = simd<_Tp, _Abi>;
164 static constexpr size_t _S_offset = _Offset;
165 static constexpr size_t _S_size() { return simd_size<_Tp, _Abi>::value; }
166 static constexpr _MaskImpl _S_mask_impl = {};
167
168 template <size_t _Np, bool _Sanitized>
169 _GLIBCXX_SIMD_INTRINSIC static constexpr auto
170 _S_submask(_BitMask<_Np, _Sanitized> __bits)
171 { return __bits.template _M_extract<_Offset, _S_size()>(); }
172
173 template <size_t _Np, bool _Sanitized>
174 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
175 _S_make_mask(_BitMask<_Np, _Sanitized> __bits)
176 {
177 return _MaskImpl::template _S_convert<_Tp>(
178 __bits.template _M_extract<_Offset, _S_size()>()._M_sanitized());
179 }
180
181 _GLIBCXX_SIMD_INTRINSIC static constexpr _ULLong
182 _S_mask_to_shifted_ullong(_MaskMember __k)
183 { return _MaskImpl::_S_to_bits(__k).to_ullong() << _Offset; }
184 };
185
186template <size_t _Offset, typename _Tp, typename _Abi, typename... _As>
187 _GLIBCXX_SIMD_INTRINSIC constexpr
188 __tuple_element_meta<_Tp, _Abi, _Offset>
189 __make_meta(const _SimdTuple<_Tp, _Abi, _As...>&)
190 { return {}; }
191
192// }}}1
193// _WithOffset wrapper class {{{
194template <size_t _Offset, typename _Base>
195 struct _WithOffset : public _Base
196 {
197 static inline constexpr size_t _S_offset = _Offset;
198
199 _GLIBCXX_SIMD_INTRINSIC char*
200 _M_as_charptr()
201 { return reinterpret_cast<char*>(this) + _S_offset * sizeof(typename _Base::value_type); }
202
203 _GLIBCXX_SIMD_INTRINSIC const char*
204 _M_as_charptr() const
205 { return reinterpret_cast<const char*>(this) + _S_offset * sizeof(typename _Base::value_type); }
206 };
207
208// make _WithOffset<_WithOffset> ill-formed to use:
209template <size_t _O0, size_t _O1, typename _Base>
210 struct _WithOffset<_O0, _WithOffset<_O1, _Base>> {};
211
212template <size_t _Offset, typename _Tp>
213 _GLIBCXX_SIMD_INTRINSIC
214 decltype(auto)
215 __add_offset(_Tp& __base)
216 { return static_cast<_WithOffset<_Offset, __remove_cvref_t<_Tp>>&>(__base); }
217
218template <size_t _Offset, typename _Tp>
219 _GLIBCXX_SIMD_INTRINSIC
220 decltype(auto)
221 __add_offset(const _Tp& __base)
222 { return static_cast<const _WithOffset<_Offset, __remove_cvref_t<_Tp>>&>(__base); }
223
224template <size_t _Offset, size_t _ExistingOffset, typename _Tp>
225 _GLIBCXX_SIMD_INTRINSIC
226 decltype(auto)
227 __add_offset(_WithOffset<_ExistingOffset, _Tp>& __base)
228 { return static_cast<_WithOffset<_Offset + _ExistingOffset, _Tp>&>(static_cast<_Tp&>(__base)); }
229
230template <size_t _Offset, size_t _ExistingOffset, typename _Tp>
231 _GLIBCXX_SIMD_INTRINSIC
232 decltype(auto)
233 __add_offset(const _WithOffset<_ExistingOffset, _Tp>& __base)
234 {
235 return static_cast<const _WithOffset<_Offset + _ExistingOffset, _Tp>&>(
236 static_cast<const _Tp&>(__base));
237 }
238
239template <typename _Tp>
240 constexpr inline size_t __offset = 0;
241
242template <size_t _Offset, typename _Tp>
243 constexpr inline size_t __offset<_WithOffset<_Offset, _Tp>>
244 = _WithOffset<_Offset, _Tp>::_S_offset;
245
246template <typename _Tp>
247 constexpr inline size_t __offset<const _Tp> = __offset<_Tp>;
248
249template <typename _Tp>
250 constexpr inline size_t __offset<_Tp&> = __offset<_Tp>;
251
252template <typename _Tp>
253 constexpr inline size_t __offset<_Tp&&> = __offset<_Tp>;
254
255// }}}
256// _SimdTuple specializations {{{1
257// empty {{{2
258template <typename _Tp>
259 struct _SimdTuple<_Tp>
260 {
261 using value_type = _Tp;
262 static constexpr size_t _S_tuple_size = 0;
263 static constexpr size_t _S_size() { return 0; }
264 };
265
266// _SimdTupleData {{{2
267template <typename _FirstType, typename _SecondType>
268 struct _SimdTupleData
269 {
270 _FirstType first;
271 _SecondType second;
272
273 _GLIBCXX_SIMD_INTRINSIC
274 constexpr bool
275 _M_is_constprop() const
276 {
277 if constexpr (is_class_v<_FirstType>)
278 return first._M_is_constprop() && second._M_is_constprop();
279 else
280 return __builtin_constant_p(first) && second._M_is_constprop();
281 }
282 };
283
284template <typename _FirstType, typename _Tp>
285 struct _SimdTupleData<_FirstType, _SimdTuple<_Tp>>
286 {
287 _FirstType first;
288 static constexpr _SimdTuple<_Tp> second = {};
289
290 _GLIBCXX_SIMD_INTRINSIC
291 constexpr bool
292 _M_is_constprop() const
293 {
294 if constexpr (is_class_v<_FirstType>)
295 return first._M_is_constprop();
296 else
297 return __builtin_constant_p(first);
298 }
299 };
300
301// 1 or more {{{2
302template <typename _Tp, typename _Abi0, typename... _Abis>
303 struct _SimdTuple<_Tp, _Abi0, _Abis...>
304 : _SimdTupleData<typename _SimdTraits<_Tp, _Abi0>::_SimdMember,
305 _SimdTuple<_Tp, _Abis...>>
306 {
307 static_assert(!__is_fixed_size_abi_v<_Abi0>);
308 using value_type = _Tp;
309 using _FirstType = typename _SimdTraits<_Tp, _Abi0>::_SimdMember;
310 using _FirstAbi = _Abi0;
311 using _SecondType = _SimdTuple<_Tp, _Abis...>;
312 static constexpr size_t _S_tuple_size = sizeof...(_Abis) + 1;
313
314 static constexpr size_t _S_size()
315 { return simd_size_v<_Tp, _Abi0> + _SecondType::_S_size(); }
316
317 static constexpr size_t _S_first_size = simd_size_v<_Tp, _Abi0>;
318 static constexpr bool _S_is_homogeneous = (is_same_v<_Abi0, _Abis> && ...);
319
320 using _Base = _SimdTupleData<typename _SimdTraits<_Tp, _Abi0>::_SimdMember,
321 _SimdTuple<_Tp, _Abis...>>;
322 using _Base::first;
323 using _Base::second;
324
325 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple() = default;
326 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple(const _SimdTuple&) = default;
327 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple& operator=(const _SimdTuple&)
328 = default;
329
330 template <typename _Up>
331 _GLIBCXX_SIMD_INTRINSIC constexpr
332 _SimdTuple(_Up&& __x)
333 : _Base{static_cast<_Up&&>(__x)} {}
334
335 template <typename _Up, typename _Up2>
336 _GLIBCXX_SIMD_INTRINSIC constexpr
337 _SimdTuple(_Up&& __x, _Up2&& __y)
338 : _Base{static_cast<_Up&&>(__x), static_cast<_Up2&&>(__y)} {}
339
340 template <typename _Up>
341 _GLIBCXX_SIMD_INTRINSIC constexpr
342 _SimdTuple(_Up&& __x, _SimdTuple<_Tp>)
343 : _Base{static_cast<_Up&&>(__x)} {}
344
345 _GLIBCXX_SIMD_INTRINSIC char*
346 _M_as_charptr()
347 { return reinterpret_cast<char*>(this); }
348
349 _GLIBCXX_SIMD_INTRINSIC const char*
350 _M_as_charptr() const
351 { return reinterpret_cast<const char*>(this); }
352
353 template <size_t _Np>
354 _GLIBCXX_SIMD_INTRINSIC constexpr auto&
355 _M_at()
356 {
357 if constexpr (_Np == 0)
358 return first;
359 else
360 return second.template _M_at<_Np - 1>();
361 }
362
363 template <size_t _Np>
364 _GLIBCXX_SIMD_INTRINSIC constexpr const auto&
365 _M_at() const
366 {
367 if constexpr (_Np == 0)
368 return first;
369 else
370 return second.template _M_at<_Np - 1>();
371 }
372
373 template <size_t _Np>
374 _GLIBCXX_SIMD_INTRINSIC constexpr auto
375 _M_simd_at() const
376 {
377 if constexpr (_Np == 0)
378 return simd<_Tp, _Abi0>(__private_init, first);
379 else
380 return second.template _M_simd_at<_Np - 1>();
381 }
382
383 template <size_t _Offset = 0, typename _Fp>
384 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdTuple
385 _S_generate(_Fp&& __gen, _SizeConstant<_Offset> = {})
386 {
387 auto&& __first = __gen(__tuple_element_meta<_Tp, _Abi0, _Offset>());
388 if constexpr (_S_tuple_size == 1)
389 return {__first};
390 else
391 return {__first,
392 _SecondType::_S_generate(
393 static_cast<_Fp&&>(__gen),
394 _SizeConstant<_Offset + simd_size_v<_Tp, _Abi0>>())};
395 }
396
397 template <size_t _Offset = 0, typename _Fp, typename... _More>
398 _GLIBCXX_SIMD_INTRINSIC _SimdTuple
399 _M_apply_wrapped(_Fp&& __fun, const _More&... __more) const
400 {
401 auto&& __first
402 = __fun(__make_meta<_Offset>(*this), first, __more.first...);
403 if constexpr (_S_tuple_size == 1)
404 return {__first};
405 else
406 return {
407 __first,
408 second.template _M_apply_wrapped<_Offset + simd_size_v<_Tp, _Abi0>>(
409 static_cast<_Fp&&>(__fun), __more.second...)};
410 }
411
412 template <typename _Tup>
413 _GLIBCXX_SIMD_INTRINSIC constexpr decltype(auto)
414 _M_extract_argument(_Tup&& __tup) const
415 {
416 using _TupT = typename __remove_cvref_t<_Tup>::value_type;
417 if constexpr (is_same_v<_SimdTuple, __remove_cvref_t<_Tup>>)
418 return __tup.first;
419 else if (__builtin_is_constant_evaluated())
420 return __fixed_size_storage_t<_TupT, _S_first_size>::_S_generate(
421 [&](auto __meta) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
422 return __meta._S_generator(
423 [&](auto __i) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
424 return __tup[__i];
425 }, static_cast<_TupT*>(nullptr));
426 });
427 else
428 return [&]() { // not always_inline; allow the compiler to decide
429 __fixed_size_storage_t<_TupT, _S_first_size> __r;
430 __builtin_memcpy(__r._M_as_charptr(), __tup._M_as_charptr(),
431 sizeof(__r));
432 return __r;
433 }();
434 }
435
436 template <typename _Tup>
437 _GLIBCXX_SIMD_INTRINSIC constexpr auto&
438 _M_skip_argument(_Tup&& __tup) const
439 {
440 static_assert(_S_tuple_size > 1);
441 using _Up = __remove_cvref_t<_Tup>;
442 constexpr size_t __off = __offset<_Up>;
443 if constexpr (_S_first_size == _Up::_S_first_size && __off == 0)
444 return __tup.second;
445 else if constexpr (_S_first_size > _Up::_S_first_size
446 && _S_first_size % _Up::_S_first_size == 0
447 && __off == 0)
448 return __simd_tuple_pop_front<_S_first_size>(__tup);
449 else if constexpr (_S_first_size + __off < _Up::_S_first_size)
450 return __add_offset<_S_first_size>(__tup);
451 else if constexpr (_S_first_size + __off == _Up::_S_first_size)
452 return __tup.second;
453 else
454 __assert_unreachable<_Tup>();
455 }
456
457 template <size_t _Offset, typename... _More>
458 _GLIBCXX_SIMD_INTRINSIC constexpr void
459 _M_assign_front(const _SimdTuple<_Tp, _Abi0, _More...>& __x) &
460 {
461 static_assert(_Offset == 0);
462 first = __x.first;
463 if constexpr (sizeof...(_More) > 0)
464 {
465 static_assert(sizeof...(_Abis) >= sizeof...(_More));
466 second.template _M_assign_front<0>(__x.second);
467 }
468 }
469
470 template <size_t _Offset>
471 _GLIBCXX_SIMD_INTRINSIC constexpr void
472 _M_assign_front(const _FirstType& __x) &
473 {
474 static_assert(_Offset == 0);
475 first = __x;
476 }
477
478 template <size_t _Offset, typename... _As>
479 _GLIBCXX_SIMD_INTRINSIC constexpr void
480 _M_assign_front(const _SimdTuple<_Tp, _As...>& __x) &
481 {
482 __builtin_memcpy(_M_as_charptr() + _Offset * sizeof(value_type),
483 __x._M_as_charptr(),
484 sizeof(_Tp) * _SimdTuple<_Tp, _As...>::_S_size());
485 }
486
487 /*
488 * Iterate over the first objects in this _SimdTuple and call __fun for each
489 * of them. If additional arguments are passed via __more, chunk them into
490 * _SimdTuple or __vector_type_t objects of the same number of values.
491 */
492 template <typename _Fp, typename... _More>
493 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple
494 _M_apply_per_chunk(_Fp&& __fun, _More&&... __more) const
495 {
496 if constexpr ((...
497 || conjunction_v<
498 is_lvalue_reference<_More>,
499 negation<is_const<remove_reference_t<_More>>>>) )
500 {
501 // need to write back at least one of __more after calling __fun
502 auto&& __first = [&](auto... __args) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
503 auto __r = __fun(__tuple_element_meta<_Tp, _Abi0, 0>(), first,
504 __args...);
505 [[maybe_unused]] auto&& __ignore_me = {(
506 [](auto&& __dst, const auto& __src) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
507 if constexpr (is_assignable_v<decltype(__dst),
508 decltype(__dst)>)
509 {
510 __dst.template _M_assign_front<__offset<decltype(__dst)>>(
511 __src);
512 }
513 }(static_cast<_More&&>(__more), __args),
514 0)...};
515 return __r;
516 }(_M_extract_argument(__more)...);
517 if constexpr (_S_tuple_size == 1)
518 return {__first};
519 else
520 return {__first,
521 second._M_apply_per_chunk(static_cast<_Fp&&>(__fun),
522 _M_skip_argument(__more)...)};
523 }
524 else
525 {
526 auto&& __first = __fun(__tuple_element_meta<_Tp, _Abi0, 0>(), first,
527 _M_extract_argument(__more)...);
528 if constexpr (_S_tuple_size == 1)
529 return {__first};
530 else
531 return {__first,
532 second._M_apply_per_chunk(static_cast<_Fp&&>(__fun),
533 _M_skip_argument(__more)...)};
534 }
535 }
536
537 template <typename _R = _Tp, typename _Fp, typename... _More>
538 _GLIBCXX_SIMD_INTRINSIC constexpr auto
539 _M_apply_r(_Fp&& __fun, const _More&... __more) const
540 {
541 auto&& __first = __fun(__tuple_element_meta<_Tp, _Abi0, 0>(), first,
542 __more.first...);
543 if constexpr (_S_tuple_size == 1)
544 return __first;
545 else
546 return __simd_tuple_concat<_R>(
547 __first, second.template _M_apply_r<_R>(static_cast<_Fp&&>(__fun),
548 __more.second...));
549 }
550
551 template <typename _Fp, typename... _More>
552 _GLIBCXX_SIMD_INTRINSIC constexpr friend _SanitizedBitMask<_S_size()>
553 _M_test(const _Fp& __fun, const _SimdTuple& __x, const _More&... __more)
554 {
555 const _SanitizedBitMask<_S_first_size> __first
556 = _Abi0::_MaskImpl::_S_to_bits(
557 __fun(__tuple_element_meta<_Tp, _Abi0, 0>(), __x.first,
558 __more.first...));
559 if constexpr (_S_tuple_size == 1)
560 return __first;
561 else
562 return _M_test(__fun, __x.second, __more.second...)
563 ._M_prepend(__first);
564 }
565
566 template <typename _Up, _Up _I>
567 _GLIBCXX_SIMD_INTRINSIC constexpr _Tp
568 operator[](integral_constant<_Up, _I>) const noexcept
569 {
570 if constexpr (_I < simd_size_v<_Tp, _Abi0>)
571 return _M_subscript_read(_I);
572 else
573 return second[integral_constant<_Up, _I - simd_size_v<_Tp, _Abi0>>()];
574 }
575
576 _GLIBCXX_SIMD_INTRINSIC constexpr _Tp
577 operator[](size_t __i) const noexcept
578 {
579 if constexpr (_S_tuple_size == 1)
580 return _M_subscript_read(__i);
581#ifdef _GLIBCXX_SIMD_USE_ALIASING_LOADS
582 else if (not __builtin_is_constant_evaluated())
583 return reinterpret_cast<const __may_alias<_Tp>*>(this)[__i];
584#endif
585 else if constexpr (__is_scalar_abi<_Abi0>())
586 {
587 const _Tp* ptr = &first;
588 return ptr[__i];
589 }
590 else
591 return __i < simd_size_v<_Tp, _Abi0> ? _M_subscript_read(__i)
592 : second[__i - simd_size_v<_Tp, _Abi0>];
593 }
594
595 _GLIBCXX_SIMD_INTRINSIC constexpr void
596 _M_set(size_t __i, _Tp __val) noexcept
597 {
598 if constexpr (_S_tuple_size == 1)
599 return _M_subscript_write(__i, __val);
600#ifdef _GLIBCXX_SIMD_USE_ALIASING_LOADS
601 else if (not __builtin_is_constant_evaluated())
602 reinterpret_cast<__may_alias<_Tp>*>(this)[__i] = __val;
603#endif
604 else if (__i < simd_size_v<_Tp, _Abi0>)
605 _M_subscript_write(__i, __val);
606 else
607 second._M_set(__i - simd_size_v<_Tp, _Abi0>, __val);
608 }
609
610 private:
611 // _M_subscript_read/_write {{{
612 _GLIBCXX_SIMD_INTRINSIC constexpr _Tp
613 _M_subscript_read([[maybe_unused]] size_t __i) const noexcept
614 {
615 if constexpr (__is_vectorizable_v<_FirstType>)
616 return first;
617 else
618 return first[__i];
619 }
620
621 _GLIBCXX_SIMD_INTRINSIC constexpr void
622 _M_subscript_write([[maybe_unused]] size_t __i, _Tp __y) noexcept
623 {
624 if constexpr (__is_vectorizable_v<_FirstType>)
625 first = __y;
626 else
627 first._M_set(__i, __y);
628 }
629
630 // }}}
631 };
632
633// __make_simd_tuple {{{1
634template <typename _Tp, typename _A0>
635 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple<_Tp, _A0>
636 __make_simd_tuple(simd<_Tp, _A0> __x0)
637 { return {__data(__x0)}; }
638
639template <typename _Tp, typename _A0, typename... _As>
640 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple<_Tp, _A0, _As...>
641 __make_simd_tuple(const simd<_Tp, _A0>& __x0, const simd<_Tp, _As>&... __xs)
642 { return {__data(__x0), __make_simd_tuple(__xs...)}; }
643
644template <typename _Tp, typename _A0>
645 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple<_Tp, _A0>
646 __make_simd_tuple(const typename _SimdTraits<_Tp, _A0>::_SimdMember& __arg0)
647 { return {__arg0}; }
648
649template <typename _Tp, typename _A0, typename _A1, typename... _Abis>
650 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple<_Tp, _A0, _A1, _Abis...>
651 __make_simd_tuple(
652 const typename _SimdTraits<_Tp, _A0>::_SimdMember& __arg0,
653 const typename _SimdTraits<_Tp, _A1>::_SimdMember& __arg1,
654 const typename _SimdTraits<_Tp, _Abis>::_SimdMember&... __args)
655 { return {__arg0, __make_simd_tuple<_Tp, _A1, _Abis...>(__arg1, __args...)}; }
656
657// __to_simd_tuple {{{1
658template <typename _Tp, size_t _Np, typename _V, size_t _NV, typename... _VX>
659 _GLIBCXX_SIMD_INTRINSIC constexpr __fixed_size_storage_t<_Tp, _Np>
660 __to_simd_tuple(const array<_V, _NV>& __from, const _VX... __fromX);
661
662template <typename _Tp, size_t _Np,
663 size_t _Offset = 0, // skip this many elements in __from0
664 typename _R = __fixed_size_storage_t<_Tp, _Np>, typename _V0,
665 typename _V0VT = _VectorTraits<_V0>, typename... _VX>
666 _GLIBCXX_SIMD_INTRINSIC _R constexpr __to_simd_tuple(const _V0 __from0, const _VX... __fromX)
667 {
668 static_assert(is_same_v<typename _V0VT::value_type, _Tp>);
669 static_assert(_Offset < _V0VT::_S_full_size);
670 using _R0 = __vector_type_t<_Tp, _R::_S_first_size>;
671 if constexpr (_R::_S_tuple_size == 1)
672 {
673 if constexpr (_Np == 1)
674 return _R{__from0[_Offset]};
675 else if constexpr (_Offset == 0 && _V0VT::_S_full_size >= _Np)
676 return _R{__intrin_bitcast<_R0>(__from0)};
677 else if constexpr (_Offset * 2 == _V0VT::_S_full_size
678 && _V0VT::_S_full_size / 2 >= _Np)
679 return _R{__intrin_bitcast<_R0>(__extract_part<1, 2>(__from0))};
680 else if constexpr (_Offset * 4 == _V0VT::_S_full_size
681 && _V0VT::_S_full_size / 4 >= _Np)
682 return _R{__intrin_bitcast<_R0>(__extract_part<1, 4>(__from0))};
683 else
684 __assert_unreachable<_Tp>();
685 }
686 else
687 {
688 if constexpr (1 == _R::_S_first_size)
689 { // extract one scalar and recurse
690 if constexpr (_Offset + 1 < _V0VT::_S_full_size)
691 return _R{__from0[_Offset],
692 __to_simd_tuple<_Tp, _Np - 1, _Offset + 1>(__from0,
693 __fromX...)};
694 else
695 return _R{__from0[_Offset],
696 __to_simd_tuple<_Tp, _Np - 1, 0>(__fromX...)};
697 }
698
699 // place __from0 into _R::first and recurse for __fromX -> _R::second
700 else if constexpr (_V0VT::_S_full_size == _R::_S_first_size
701 && _Offset == 0)
702 return _R{__from0,
703 __to_simd_tuple<_Tp, _Np - _R::_S_first_size>(__fromX...)};
704
705 // place lower part of __from0 into _R::first and recurse with _Offset
706 else if constexpr (_V0VT::_S_full_size > _R::_S_first_size
707 && _Offset == 0)
708 return _R{__intrin_bitcast<_R0>(__from0),
709 __to_simd_tuple<_Tp, _Np - _R::_S_first_size,
710 _R::_S_first_size>(__from0, __fromX...)};
711
712 // place lower part of second quarter of __from0 into _R::first and
713 // recurse with _Offset
714 else if constexpr (_Offset * 4 == _V0VT::_S_full_size
715 && _V0VT::_S_full_size >= 4 * _R::_S_first_size)
716 return _R{__intrin_bitcast<_R0>(__extract_part<2, 4>(__from0)),
717 __to_simd_tuple<_Tp, _Np - _R::_S_first_size,
718 _Offset + _R::_S_first_size>(__from0,
719 __fromX...)};
720
721 // place lower half of high half of __from0 into _R::first and recurse
722 // with _Offset
723 else if constexpr (_Offset * 2 == _V0VT::_S_full_size
724 && _V0VT::_S_full_size >= 4 * _R::_S_first_size)
725 return _R{__intrin_bitcast<_R0>(__extract_part<2, 4>(__from0)),
726 __to_simd_tuple<_Tp, _Np - _R::_S_first_size,
727 _Offset + _R::_S_first_size>(__from0,
728 __fromX...)};
729
730 // place high half of __from0 into _R::first and recurse with __fromX
731 else if constexpr (_Offset * 2 == _V0VT::_S_full_size
732 && _V0VT::_S_full_size / 2 >= _R::_S_first_size)
733 return _R{__intrin_bitcast<_R0>(__extract_part<1, 2>(__from0)),
734 __to_simd_tuple<_Tp, _Np - _R::_S_first_size, 0>(
735 __fromX...)};
736
737 // ill-formed if some unforseen pattern is needed
738 else
739 __assert_unreachable<_Tp>();
740 }
741 }
742
743template <typename _Tp, size_t _Np, typename _V, size_t _NV, typename... _VX>
744 _GLIBCXX_SIMD_INTRINSIC constexpr __fixed_size_storage_t<_Tp, _Np>
745 __to_simd_tuple(const array<_V, _NV>& __from, const _VX... __fromX)
746 {
747 if constexpr (is_same_v<_Tp, _V>)
748 {
749 static_assert(
750 sizeof...(_VX) == 0,
751 "An array of scalars must be the last argument to __to_simd_tuple");
752 return __call_with_subscripts(
753 __from, make_index_sequence<_NV>(),
754 [&](const auto... __args) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
755 return __simd_tuple_concat(
756 _SimdTuple<_Tp, simd_abi::scalar>{__args}..., _SimdTuple<_Tp>());
757 });
758 }
759 else
760 return __call_with_subscripts(
761 __from, make_index_sequence<_NV>(),
762 [&](const auto... __args) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
763 return __to_simd_tuple<_Tp, _Np>(__args..., __fromX...);
764 });
765 }
766
767template <size_t, typename _Tp>
768 using __to_tuple_helper = _Tp;
769
770template <typename _Tp, typename _A0, size_t _NOut, size_t _Np,
771 size_t... _Indexes>
772 _GLIBCXX_SIMD_INTRINSIC __fixed_size_storage_t<_Tp, _NOut>
773 __to_simd_tuple_impl(index_sequence<_Indexes...>,
774 const array<__vector_type_t<_Tp, simd_size_v<_Tp, _A0>>, _Np>& __args)
775 {
776 return __make_simd_tuple<_Tp, __to_tuple_helper<_Indexes, _A0>...>(
777 __args[_Indexes]...);
778 }
779
780template <typename _Tp, typename _A0, size_t _NOut, size_t _Np,
781 typename _R = __fixed_size_storage_t<_Tp, _NOut>>
782 _GLIBCXX_SIMD_INTRINSIC _R
783 __to_simd_tuple_sized(
784 const array<__vector_type_t<_Tp, simd_size_v<_Tp, _A0>>, _Np>& __args)
785 {
786 static_assert(_Np * simd_size_v<_Tp, _A0> >= _NOut);
787 return __to_simd_tuple_impl<_Tp, _A0, _NOut>(
788 make_index_sequence<_R::_S_tuple_size>(), __args);
789 }
790
791// __optimize_simd_tuple {{{1
792template <typename _Tp>
793 _GLIBCXX_SIMD_INTRINSIC constexpr _SimdTuple<_Tp>
794 __optimize_simd_tuple(const _SimdTuple<_Tp>)
795 { return {}; }
796
797template <typename _Tp, typename _Ap>
798 _GLIBCXX_SIMD_INTRINSIC constexpr const _SimdTuple<_Tp, _Ap>&
799 __optimize_simd_tuple(const _SimdTuple<_Tp, _Ap>& __x)
800 { return __x; }
801
802template <typename _Tp, typename _A0, typename _A1, typename... _Abis,
803 typename _R = __fixed_size_storage_t<
804 _Tp, _SimdTuple<_Tp, _A0, _A1, _Abis...>::_S_size()>>
805 _GLIBCXX_SIMD_INTRINSIC constexpr _R
806 __optimize_simd_tuple(const _SimdTuple<_Tp, _A0, _A1, _Abis...>& __x)
807 {
808 using _Tup = _SimdTuple<_Tp, _A0, _A1, _Abis...>;
809 if constexpr (is_same_v<_R, _Tup>)
810 return __x;
811 else if constexpr (is_same_v<typename _R::_FirstType,
812 typename _Tup::_FirstType>)
813 return {__x.first, __optimize_simd_tuple(__x.second)};
814 else if constexpr (__is_scalar_abi<_A0>()
815 || _A0::template _S_is_partial<_Tp>)
816 return {__generate_from_n_evaluations<_R::_S_first_size,
817 typename _R::_FirstType>(
818 [&](auto __i) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA { return __x[__i]; }),
819 __optimize_simd_tuple(
820 __simd_tuple_pop_front<_R::_S_first_size>(__x))};
821 else if constexpr (is_same_v<_A0, _A1>
822 && _R::_S_first_size == simd_size_v<_Tp, _A0> + simd_size_v<_Tp, _A1>)
823 return {__concat(__x.template _M_at<0>(), __x.template _M_at<1>()),
824 __optimize_simd_tuple(__x.second.second)};
825 else if constexpr (sizeof...(_Abis) >= 2
826 && _R::_S_first_size == (4 * simd_size_v<_Tp, _A0>)
827 && simd_size_v<_Tp, _A0> == __simd_tuple_element_t<
828 (sizeof...(_Abis) >= 2 ? 3 : 0), _Tup>::size())
829 return {
830 __concat(__concat(__x.template _M_at<0>(), __x.template _M_at<1>()),
831 __concat(__x.template _M_at<2>(), __x.template _M_at<3>())),
832 __optimize_simd_tuple(__x.second.second.second.second)};
833 else
834 {
835 static_assert(sizeof(_R) == sizeof(__x));
836 _R __r;
837 __builtin_memcpy(__r._M_as_charptr(), __x._M_as_charptr(),
838 sizeof(_Tp) * _R::_S_size());
839 return __r;
840 }
841 }
842
843// __for_each(const _SimdTuple &, Fun) {{{1
844template <size_t _Offset = 0, typename _Tp, typename _A0, typename _Fp>
845 _GLIBCXX_SIMD_INTRINSIC constexpr void
846 __for_each(const _SimdTuple<_Tp, _A0>& __t, _Fp&& __fun)
847 { static_cast<_Fp&&>(__fun)(__make_meta<_Offset>(__t), __t.first); }
848
849template <size_t _Offset = 0, typename _Tp, typename _A0, typename _A1,
850 typename... _As, typename _Fp>
851 _GLIBCXX_SIMD_INTRINSIC constexpr void
852 __for_each(const _SimdTuple<_Tp, _A0, _A1, _As...>& __t, _Fp&& __fun)
853 {
854 __fun(__make_meta<_Offset>(__t), __t.first);
855 __for_each<_Offset + simd_size<_Tp, _A0>::value>(__t.second,
856 static_cast<_Fp&&>(__fun));
857 }
858
859// __for_each(_SimdTuple &, Fun) {{{1
860template <size_t _Offset = 0, typename _Tp, typename _A0, typename _Fp>
861 _GLIBCXX_SIMD_INTRINSIC constexpr void
862 __for_each(_SimdTuple<_Tp, _A0>& __t, _Fp&& __fun)
863 { static_cast<_Fp&&>(__fun)(__make_meta<_Offset>(__t), __t.first); }
864
865template <size_t _Offset = 0, typename _Tp, typename _A0, typename _A1,
866 typename... _As, typename _Fp>
867 _GLIBCXX_SIMD_INTRINSIC constexpr void
868 __for_each(_SimdTuple<_Tp, _A0, _A1, _As...>& __t, _Fp&& __fun)
869 {
870 __fun(__make_meta<_Offset>(__t), __t.first);
871 __for_each<_Offset + simd_size<_Tp, _A0>::value>(__t.second,
872 static_cast<_Fp&&>(__fun));
873 }
874
875// __for_each(_SimdTuple &, const _SimdTuple &, Fun) {{{1
876template <size_t _Offset = 0, typename _Tp, typename _A0, typename _Fp>
877 _GLIBCXX_SIMD_INTRINSIC constexpr void
878 __for_each(_SimdTuple<_Tp, _A0>& __a, const _SimdTuple<_Tp, _A0>& __b, _Fp&& __fun)
879 { static_cast<_Fp&&>(__fun)(__make_meta<_Offset>(__a), __a.first, __b.first); }
880
881template <size_t _Offset = 0, typename _Tp, typename _A0, typename _A1,
882 typename... _As, typename _Fp>
883 _GLIBCXX_SIMD_INTRINSIC constexpr void
884 __for_each(_SimdTuple<_Tp, _A0, _A1, _As...>& __a,
885 const _SimdTuple<_Tp, _A0, _A1, _As...>& __b, _Fp&& __fun)
886 {
887 __fun(__make_meta<_Offset>(__a), __a.first, __b.first);
888 __for_each<_Offset + simd_size<_Tp, _A0>::value>(__a.second, __b.second,
889 static_cast<_Fp&&>(__fun));
890 }
891
892// __for_each(const _SimdTuple &, const _SimdTuple &, Fun) {{{1
893template <size_t _Offset = 0, typename _Tp, typename _A0, typename _Fp>
894 _GLIBCXX_SIMD_INTRINSIC constexpr void
895 __for_each(const _SimdTuple<_Tp, _A0>& __a, const _SimdTuple<_Tp, _A0>& __b, _Fp&& __fun)
896 { static_cast<_Fp&&>(__fun)(__make_meta<_Offset>(__a), __a.first, __b.first); }
897
898template <size_t _Offset = 0, typename _Tp, typename _A0, typename _A1,
899 typename... _As, typename _Fp>
900 _GLIBCXX_SIMD_INTRINSIC constexpr void
901 __for_each(const _SimdTuple<_Tp, _A0, _A1, _As...>& __a,
902 const _SimdTuple<_Tp, _A0, _A1, _As...>& __b, _Fp&& __fun)
903 {
904 __fun(__make_meta<_Offset>(__a), __a.first, __b.first);
905 __for_each<_Offset + simd_size<_Tp, _A0>::value>(__a.second, __b.second,
906 static_cast<_Fp&&>(__fun));
907 }
908
909// }}}1
910// __extract_part(_SimdTuple) {{{
911template <int _Index, int _Total, int _Combine, typename _Tp, typename _A0, typename... _As>
912 _GLIBCXX_SIMD_INTRINSIC constexpr auto // __vector_type_t or _SimdTuple
913 __extract_part(const _SimdTuple<_Tp, _A0, _As...>& __x)
914 {
915 // worst cases:
916 // (a) 4, 4, 4 => 3, 3, 3, 3 (_Total = 4)
917 // (b) 2, 2, 2 => 3, 3 (_Total = 2)
918 // (c) 4, 2 => 2, 2, 2 (_Total = 3)
919 using _Tuple = _SimdTuple<_Tp, _A0, _As...>;
920 static_assert(_Index + _Combine <= _Total && _Index >= 0 && _Total >= 1);
921 constexpr size_t _Np = _Tuple::_S_size();
922 static_assert(_Np >= _Total && _Np % _Total == 0);
923 constexpr size_t __values_per_part = _Np / _Total;
924 [[maybe_unused]] constexpr size_t __values_to_skip
925 = _Index * __values_per_part;
926 constexpr size_t __return_size = __values_per_part * _Combine;
927 using _RetAbi = simd_abi::deduce_t<_Tp, __return_size>;
928
929 // handle (optimize) the simple cases
930 if constexpr (__return_size == 1)
931 return __x[integral_constant<size_t, __values_to_skip>()];
932 else if constexpr (_Index == 0 && _Tuple::_S_first_size == __return_size)
933 return __x.first._M_data;
934 else if constexpr (_Index == 0 && _Total == _Combine)
935 return __x;
936 else if constexpr (_Index == 0 && _Tuple::_S_first_size >= __return_size)
937 return __intrin_bitcast<__vector_type_t<_Tp, __return_size>>(
938 __as_vector(__x.first));
939
940 // recurse to skip unused data members at the beginning of _SimdTuple
941 else if constexpr (__values_to_skip >= _Tuple::_S_first_size)
942 { // recurse
943 if constexpr (_Tuple::_S_first_size % __values_per_part == 0)
944 {
945 constexpr int __parts_in_first
946 = _Tuple::_S_first_size / __values_per_part;
947 return __extract_part<_Index - __parts_in_first,
948 _Total - __parts_in_first, _Combine>(
949 __x.second);
950 }
951 else
952 return __extract_part<__values_to_skip - _Tuple::_S_first_size,
953 _Np - _Tuple::_S_first_size, __return_size>(
954 __x.second);
955 }
956
957 // extract from multiple _SimdTuple data members
958 else if constexpr (__return_size > _Tuple::_S_first_size - __values_to_skip)
959 {
960#ifdef _GLIBCXX_SIMD_USE_ALIASING_LOADS
961 const __may_alias<_Tp>* const element_ptr
962 = reinterpret_cast<const __may_alias<_Tp>*>(&__x) + __values_to_skip;
963 return __as_vector(simd<_Tp, _RetAbi>(element_ptr, element_aligned));
964#else
965 [[maybe_unused]] constexpr size_t __offset = __values_to_skip;
966 return __as_vector(simd<_Tp, _RetAbi>(
967 [&](auto __i) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
968 constexpr _SizeConstant<__i + __offset> __k;
969 return __x[__k];
970 }));
971#endif
972 }
973
974 // all of the return values are in __x.first
975 else if constexpr (_Tuple::_S_first_size % __values_per_part == 0)
976 return __extract_part<_Index, _Tuple::_S_first_size / __values_per_part,
977 _Combine>(__x.first);
978 else
979 return __extract_part<__values_to_skip, _Tuple::_S_first_size,
980 _Combine * __values_per_part>(__x.first);
981 }
982
983// }}}
984// __fixed_size_storage_t<_Tp, _Np>{{{
985template <typename _Tp, int _Np, typename _Tuple,
986 typename _Next = simd<_Tp, _AllNativeAbis::_BestAbi<_Tp, _Np>>,
987 int _Remain = _Np - int(_Next::size())>
988 struct __fixed_size_storage_builder;
989
990template <typename _Tp, int _Np>
991 struct __fixed_size_storage
992 : public __fixed_size_storage_builder<_Tp, _Np, _SimdTuple<_Tp>> {};
993
994template <typename _Tp, int _Np, typename... _As, typename _Next>
995 struct __fixed_size_storage_builder<_Tp, _Np, _SimdTuple<_Tp, _As...>, _Next,
996 0>
997 { using type = _SimdTuple<_Tp, _As..., typename _Next::abi_type>; };
998
999template <typename _Tp, int _Np, typename... _As, typename _Next, int _Remain>
1000 struct __fixed_size_storage_builder<_Tp, _Np, _SimdTuple<_Tp, _As...>, _Next,
1001 _Remain>
1002 {
1003 using type = typename __fixed_size_storage_builder<
1004 _Tp, _Remain, _SimdTuple<_Tp, _As..., typename _Next::abi_type>>::type;
1005 };
1006
1007// }}}
1008// __autocvt_to_simd {{{
1009template <typename _Tp, bool = is_arithmetic_v<__remove_cvref_t<_Tp>>>
1010 struct __autocvt_to_simd
1011 {
1012 _Tp _M_data;
1013 using _TT = __remove_cvref_t<_Tp>;
1014
1015 _GLIBCXX_SIMD_INTRINSIC constexpr
1016 operator _TT()
1017 { return _M_data; }
1018
1019 _GLIBCXX_SIMD_INTRINSIC constexpr
1020 operator _TT&()
1021 {
1022 static_assert(is_lvalue_reference<_Tp>::value, "");
1023 static_assert(!is_const<_Tp>::value, "");
1024 return _M_data;
1025 }
1026
1027 _GLIBCXX_SIMD_INTRINSIC constexpr
1028 operator _TT*()
1029 {
1030 static_assert(is_lvalue_reference<_Tp>::value, "");
1031 static_assert(!is_const<_Tp>::value, "");
1032 return &_M_data;
1033 }
1034
1035 _GLIBCXX_SIMD_INTRINSIC constexpr
1036 __autocvt_to_simd(_Tp dd) : _M_data(dd) {}
1037
1038 template <typename _Abi>
1039 _GLIBCXX_SIMD_INTRINSIC constexpr
1040 operator simd<typename _TT::value_type, _Abi>()
1041 { return {__private_init, _M_data}; }
1042
1043 template <typename _Abi>
1044 _GLIBCXX_SIMD_INTRINSIC constexpr
1045 operator simd<typename _TT::value_type, _Abi>&()
1046 { return *reinterpret_cast<simd<typename _TT::value_type, _Abi>*>(&_M_data); }
1047
1048 template <typename _Abi>
1049 _GLIBCXX_SIMD_INTRINSIC constexpr
1050 operator simd<typename _TT::value_type, _Abi>*()
1051 { return reinterpret_cast<simd<typename _TT::value_type, _Abi>*>(&_M_data); }
1052 };
1053
1054template <typename _Tp>
1055 __autocvt_to_simd(_Tp &&) -> __autocvt_to_simd<_Tp>;
1056
1057template <typename _Tp>
1058 struct __autocvt_to_simd<_Tp, true>
1059 {
1060 using _TT = __remove_cvref_t<_Tp>;
1061 _Tp _M_data;
1062 fixed_size_simd<_TT, 1> _M_fd;
1063
1064 _GLIBCXX_SIMD_INTRINSIC
1065 constexpr __autocvt_to_simd(_Tp dd) : _M_data(dd), _M_fd(_M_data) {}
1066
1067 _GLIBCXX_SIMD_INTRINSIC
1068 ~__autocvt_to_simd()
1069 { _M_data = __data(_M_fd).first; }
1070
1071 _GLIBCXX_SIMD_INTRINSIC constexpr
1072 operator fixed_size_simd<_TT, 1>()
1073 { return _M_fd; }
1074
1075 _GLIBCXX_SIMD_INTRINSIC constexpr
1076 operator fixed_size_simd<_TT, 1> &()
1077 {
1078 static_assert(is_lvalue_reference<_Tp>::value, "");
1079 static_assert(!is_const<_Tp>::value, "");
1080 return _M_fd;
1081 }
1082
1083 _GLIBCXX_SIMD_INTRINSIC constexpr
1084 operator fixed_size_simd<_TT, 1> *()
1085 {
1086 static_assert(is_lvalue_reference<_Tp>::value, "");
1087 static_assert(!is_const<_Tp>::value, "");
1088 return &_M_fd;
1089 }
1090 };
1091
1092// }}}
1093
1094struct _CommonImplFixedSize;
1095template <int _Np, typename = __detail::__odr_helper> struct _SimdImplFixedSize;
1096template <int _Np, typename = __detail::__odr_helper> struct _MaskImplFixedSize;
1097// simd_abi::_Fixed {{{
1098template <int _Np>
1099 struct simd_abi::_Fixed
1100 {
1101 template <typename _Tp> static constexpr size_t _S_size = _Np;
1102 template <typename _Tp> static constexpr size_t _S_full_size = _Np;
1103 // validity traits {{{
1104 struct _IsValidAbiTag : public __bool_constant<(_Np > 0)> {};
1105
1106 template <typename _Tp>
1107 struct _IsValidSizeFor
1108 : __bool_constant<(_Np <= simd_abi::max_fixed_size<_Tp>)> {};
1109
1110 template <typename _Tp>
1111 struct _IsValid : conjunction<_IsValidAbiTag, __is_vectorizable<_Tp>,
1112 _IsValidSizeFor<_Tp>> {};
1113
1114 template <typename _Tp>
1115 static constexpr bool _S_is_valid_v = _IsValid<_Tp>::value;
1116
1117 // }}}
1118 // _S_masked {{{
1119 _GLIBCXX_SIMD_INTRINSIC static constexpr _SanitizedBitMask<_Np>
1120 _S_masked(_BitMask<_Np> __x)
1121 { return __x._M_sanitized(); }
1122
1123 _GLIBCXX_SIMD_INTRINSIC static constexpr _SanitizedBitMask<_Np>
1124 _S_masked(_SanitizedBitMask<_Np> __x)
1125 { return __x; }
1126
1127 // }}}
1128 // _*Impl {{{
1129 using _CommonImpl = _CommonImplFixedSize;
1130 using _SimdImpl = _SimdImplFixedSize<_Np>;
1131 using _MaskImpl = _MaskImplFixedSize<_Np>;
1132
1133 // }}}
1134 // __traits {{{
1135 template <typename _Tp, bool = _S_is_valid_v<_Tp>>
1136 struct __traits : _InvalidTraits {};
1137
1138 template <typename _Tp>
1139 struct __traits<_Tp, true>
1140 {
1141 using _IsValid = true_type;
1142 using _SimdImpl = _SimdImplFixedSize<_Np>;
1143 using _MaskImpl = _MaskImplFixedSize<_Np>;
1144
1145 // simd and simd_mask member types {{{
1146 using _SimdMember = __fixed_size_storage_t<_Tp, _Np>;
1147 using _MaskMember = _SanitizedBitMask<_Np>;
1148
1149 static constexpr size_t _S_simd_align
1150 = std::__bit_ceil(_Np * sizeof(_Tp));
1151
1152 static constexpr size_t _S_mask_align = alignof(_MaskMember);
1153
1154 // }}}
1155 // _SimdBase / base class for simd, providing extra conversions {{{
1156 struct _SimdBase
1157 {
1158 // The following ensures, function arguments are passed via the stack.
1159 // This is important for ABI compatibility across TU boundaries
1160 _GLIBCXX_SIMD_ALWAYS_INLINE constexpr
1161 _SimdBase(const _SimdBase&) {}
1162
1163 _SimdBase() = default;
1164
1165 _GLIBCXX_SIMD_ALWAYS_INLINE constexpr explicit
1166 operator const _SimdMember &() const
1167 { return static_cast<const simd<_Tp, _Fixed>*>(this)->_M_data; }
1168
1169 _GLIBCXX_SIMD_ALWAYS_INLINE constexpr explicit
1170 operator array<_Tp, _Np>() const
1171 {
1172 array<_Tp, _Np> __r;
1173 // _SimdMember can be larger because of higher alignment
1174 static_assert(sizeof(__r) <= sizeof(_SimdMember), "");
1175 __builtin_memcpy(__r.data(), &static_cast<const _SimdMember&>(*this),
1176 sizeof(__r));
1177 return __r;
1178 }
1179 };
1180
1181 // }}}
1182 // _MaskBase {{{
1183 // empty. The bitset interface suffices
1184 struct _MaskBase {};
1185
1186 // }}}
1187 // _SimdCastType {{{
1188 struct _SimdCastType
1189 {
1190 _GLIBCXX_SIMD_ALWAYS_INLINE constexpr
1191 _SimdCastType(const array<_Tp, _Np>&);
1192
1193 _GLIBCXX_SIMD_ALWAYS_INLINE constexpr
1194 _SimdCastType(const _SimdMember& dd) : _M_data(dd) {}
1195
1196 _GLIBCXX_SIMD_ALWAYS_INLINE constexpr explicit
1197 operator const _SimdMember &() const { return _M_data; }
1198
1199 private:
1200 const _SimdMember& _M_data;
1201 };
1202
1203 // }}}
1204 // _MaskCastType {{{
1205 class _MaskCastType
1206 {
1207 _MaskCastType() = delete;
1208 };
1209 // }}}
1210 };
1211 // }}}
1212 };
1213
1214// }}}
1215// _CommonImplFixedSize {{{
1216struct _CommonImplFixedSize
1217{
1218 // _S_store {{{
1219 template <typename _Tp, typename... _As>
1220 _GLIBCXX_SIMD_INTRINSIC static void
1221 _S_store(const _SimdTuple<_Tp, _As...>& __x, void* __addr)
1222 {
1223 constexpr size_t _Np = _SimdTuple<_Tp, _As...>::_S_size();
1224 __builtin_memcpy(__addr, &__x, _Np * sizeof(_Tp));
1225 }
1226
1227 // }}}
1228};
1229
1230// }}}
1231// _SimdImplFixedSize {{{1
1232// fixed_size should not inherit from _SimdMathFallback in order for
1233// specializations in the used _SimdTuple Abis to get used
1234template <int _Np, typename>
1235 struct _SimdImplFixedSize
1236 {
1237 // member types {{{2
1238 using _MaskMember = _SanitizedBitMask<_Np>;
1239
1240 template <typename _Tp>
1241 using _SimdMember = __fixed_size_storage_t<_Tp, _Np>;
1242
1243 template <typename _Tp>
1244 static constexpr size_t _S_tuple_size = _SimdMember<_Tp>::_S_tuple_size;
1245
1246 template <typename _Tp>
1247 using _Simd = simd<_Tp, simd_abi::fixed_size<_Np>>;
1248
1249 template <typename _Tp>
1250 using _TypeTag = _Tp*;
1251
1252 // broadcast {{{2
1253 template <typename _Tp>
1254 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdMember<_Tp>
1255 _S_broadcast(_Tp __x) noexcept
1256 {
1257 return _SimdMember<_Tp>::_S_generate(
1258 [&](auto __meta) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1259 return __meta._S_broadcast(__x);
1260 });
1261 }
1262
1263 // _S_generator {{{2
1264 template <typename _Fp, typename _Tp>
1265 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdMember<_Tp>
1266 _S_generator(_Fp&& __gen, _TypeTag<_Tp>)
1267 {
1268 return _SimdMember<_Tp>::_S_generate(
1269 [&__gen](auto __meta) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1270 return __meta._S_generator(
1271 [&](auto __i) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1272 return __i < _Np ? __gen(_SizeConstant<__meta._S_offset + __i>())
1273 : 0;
1274 },
1275 _TypeTag<_Tp>());
1276 });
1277 }
1278
1279 // _S_load {{{2
1280 template <typename _Tp, typename _Up>
1281 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdMember<_Tp>
1282 _S_load(const _Up* __mem, _TypeTag<_Tp>) noexcept
1283 {
1284 return _SimdMember<_Tp>::_S_generate(
1285 [&](auto __meta) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1286 return __meta._S_load(&__mem[__meta._S_offset], _TypeTag<_Tp>());
1287 });
1288 }
1289
1290 // _S_masked_load {{{2
1291 template <typename _Tp, typename... _As, typename _Up>
1292 _GLIBCXX_SIMD_INTRINSIC static _SimdTuple<_Tp, _As...>
1293 _S_masked_load(const _SimdTuple<_Tp, _As...>& __old,
1294 const _MaskMember __bits, const _Up* __mem) noexcept
1295 {
1296 auto __merge = __old;
1297 __for_each(__merge, [&](auto __meta, auto& __native) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1298 if (__meta._S_submask(__bits).any())
1299#pragma GCC diagnostic push
1300 // Dereferencing __mem + __meta._S_offset could be UB ([expr.add]/4.3).
1301 // It is the responsibility of the caller of the masked load (via the mask's value) to
1302 // avoid UB. Consequently, the compiler may assume this branch is unreachable, if the
1303 // pointer arithmetic is UB.
1304#pragma GCC diagnostic ignored "-Warray-bounds"
1305 __native
1306 = __meta._S_masked_load(__native, __meta._S_make_mask(__bits),
1307 __mem + __meta._S_offset);
1308#pragma GCC diagnostic pop
1309 });
1310 return __merge;
1311 }
1312
1313 // _S_store {{{2
1314 template <typename _Tp, typename _Up>
1315 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1316 _S_store(const _SimdMember<_Tp>& __v, _Up* __mem, _TypeTag<_Tp>) noexcept
1317 {
1318 __for_each(__v, [&](auto __meta, auto __native) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1319 __meta._S_store(__native, &__mem[__meta._S_offset], _TypeTag<_Tp>());
1320 });
1321 }
1322
1323 // _S_masked_store {{{2
1324 template <typename _Tp, typename... _As, typename _Up>
1325 _GLIBCXX_SIMD_INTRINSIC static void
1326 _S_masked_store(const _SimdTuple<_Tp, _As...>& __v, _Up* __mem,
1327 const _MaskMember __bits) noexcept
1328 {
1329 __for_each(__v, [&](auto __meta, auto __native) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1330 if (__meta._S_submask(__bits).any())
1331#pragma GCC diagnostic push
1332 // __mem + __mem._S_offset could be UB ([expr.add]/4.3, but it punts
1333 // the responsibility for avoiding UB to the caller of the masked
1334 // store via the mask. Consequently, the compiler may assume this
1335 // branch is unreachable, if the pointer arithmetic is UB.
1336#pragma GCC diagnostic ignored "-Warray-bounds"
1337 __meta._S_masked_store(__native, __mem + __meta._S_offset,
1338 __meta._S_make_mask(__bits));
1339#pragma GCC diagnostic pop
1340 });
1341 }
1342
1343 // negation {{{2
1344 template <typename _Tp, typename... _As>
1345 static constexpr inline _MaskMember
1346 _S_negate(const _SimdTuple<_Tp, _As...>& __x) noexcept
1347 {
1348 _MaskMember __bits = 0;
1349 __for_each(
1350 __x, [&__bits](auto __meta, auto __native) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1351 __bits
1352 |= __meta._S_mask_to_shifted_ullong(__meta._S_negate(__native));
1353 });
1354 return __bits;
1355 }
1356
1357 // reductions {{{2
1358 template <typename _Tp, typename _BinaryOperation>
1359 static constexpr inline _Tp _S_reduce(const _Simd<_Tp>& __x,
1360 const _BinaryOperation& __binary_op)
1361 {
1362 using _Tup = _SimdMember<_Tp>;
1363 const _Tup& __tup = __data(__x);
1364 if constexpr (_Tup::_S_tuple_size == 1)
1365 return _Tup::_FirstAbi::_SimdImpl::_S_reduce(
1366 __tup.template _M_simd_at<0>(), __binary_op);
1367 else if constexpr (_Tup::_S_tuple_size == 2 && _Tup::_S_size() > 2
1368 && _Tup::_SecondType::_S_size() == 1)
1369 {
1370 return __binary_op(simd<_Tp, simd_abi::scalar>(
1371 reduce(__tup.template _M_simd_at<0>(),
1372 __binary_op)),
1373 __tup.template _M_simd_at<1>())[0];
1374 }
1375 else if constexpr (_Tup::_S_tuple_size == 2 && _Tup::_S_size() > 4
1376 && _Tup::_SecondType::_S_size() == 2)
1377 {
1378 return __binary_op(
1379 simd<_Tp, simd_abi::scalar>(
1380 reduce(__tup.template _M_simd_at<0>(), __binary_op)),
1381 simd<_Tp, simd_abi::scalar>(
1382 reduce(__tup.template _M_simd_at<1>(), __binary_op)))[0];
1383 }
1384 else
1385 {
1386 const auto& __x2 = __call_with_n_evaluations<
1387 __div_roundup(_Tup::_S_tuple_size, 2)>(
1388 [](auto __first_simd, auto... __remaining) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1389 if constexpr (sizeof...(__remaining) == 0)
1390 return __first_simd;
1391 else
1392 {
1393 using _Tup2
1394 = _SimdTuple<_Tp,
1395 typename decltype(__first_simd)::abi_type,
1396 typename decltype(__remaining)::abi_type...>;
1397 return fixed_size_simd<_Tp, _Tup2::_S_size()>(
1398 __private_init,
1399 __make_simd_tuple(__first_simd, __remaining...));
1400 }
1401 },
1402 [&](auto __i) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1403 auto __left = __tup.template _M_simd_at<2 * __i>();
1404 if constexpr (2 * __i + 1 == _Tup::_S_tuple_size)
1405 return __left;
1406 else
1407 {
1408 auto __right = __tup.template _M_simd_at<2 * __i + 1>();
1409 using _LT = decltype(__left);
1410 using _RT = decltype(__right);
1411 if constexpr (_LT::size() == _RT::size())
1412 return __binary_op(__left, __right);
1413 else
1414 {
1415 _GLIBCXX_SIMD_USE_CONSTEXPR_API
1416 typename _LT::mask_type __k(
1417 __private_init,
1418 [](auto __j) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1419 return __j < _RT::size();
1420 });
1421 _LT __ext_right = __left;
1422 where(__k, __ext_right)
1423 = __proposed::resizing_simd_cast<_LT>(__right);
1424 where(__k, __left) = __binary_op(__left, __ext_right);
1425 return __left;
1426 }
1427 }
1428 });
1429 return reduce(__x2, __binary_op);
1430 }
1431 }
1432
1433 // _S_min, _S_max {{{2
1434 template <typename _Tp, typename... _As>
1435 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdTuple<_Tp, _As...>
1436 _S_min(const _SimdTuple<_Tp, _As...>& __a, const _SimdTuple<_Tp, _As...>& __b)
1437 {
1438 return __a._M_apply_per_chunk(
1439 [](auto __impl, auto __aa, auto __bb) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1440 return __impl._S_min(__aa, __bb);
1441 },
1442 __b);
1443 }
1444
1445 template <typename _Tp, typename... _As>
1446 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdTuple<_Tp, _As...>
1447 _S_max(const _SimdTuple<_Tp, _As...>& __a, const _SimdTuple<_Tp, _As...>& __b)
1448 {
1449 return __a._M_apply_per_chunk(
1450 [](auto __impl, auto __aa, auto __bb) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1451 return __impl._S_max(__aa, __bb);
1452 },
1453 __b);
1454 }
1455
1456 // _S_complement {{{2
1457 template <typename _Tp, typename... _As>
1458 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdTuple<_Tp, _As...>
1459 _S_complement(const _SimdTuple<_Tp, _As...>& __x) noexcept
1460 {
1461 return __x._M_apply_per_chunk(
1462 [](auto __impl, auto __xx) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1463 return __impl._S_complement(__xx);
1464 });
1465 }
1466
1467 // _S_unary_minus {{{2
1468 template <typename _Tp, typename... _As>
1469 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdTuple<_Tp, _As...>
1470 _S_unary_minus(const _SimdTuple<_Tp, _As...>& __x) noexcept
1471 {
1472 return __x._M_apply_per_chunk(
1473 [](auto __impl, auto __xx) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1474 return __impl._S_unary_minus(__xx);
1475 });
1476 }
1477
1478 // arithmetic operators {{{2
1479
1480#define _GLIBCXX_SIMD_FIXED_OP(name_, op_) \
1481 template <typename _Tp, typename... _As> \
1482 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdTuple<_Tp, _As...> name_( \
1483 const _SimdTuple<_Tp, _As...>& __x, const _SimdTuple<_Tp, _As...>& __y) \
1484 { \
1485 return __x._M_apply_per_chunk( \
1486 [](auto __impl, auto __xx, auto __yy) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA { \
1487 return __impl.name_(__xx, __yy); \
1488 }, \
1489 __y); \
1490 }
1491
1492 _GLIBCXX_SIMD_FIXED_OP(_S_plus, +)
1493 _GLIBCXX_SIMD_FIXED_OP(_S_minus, -)
1494 _GLIBCXX_SIMD_FIXED_OP(_S_multiplies, *)
1495 _GLIBCXX_SIMD_FIXED_OP(_S_divides, /)
1496 _GLIBCXX_SIMD_FIXED_OP(_S_modulus, %)
1497 _GLIBCXX_SIMD_FIXED_OP(_S_bit_and, &)
1498 _GLIBCXX_SIMD_FIXED_OP(_S_bit_or, |)
1499 _GLIBCXX_SIMD_FIXED_OP(_S_bit_xor, ^)
1500 _GLIBCXX_SIMD_FIXED_OP(_S_bit_shift_left, <<)
1501 _GLIBCXX_SIMD_FIXED_OP(_S_bit_shift_right, >>)
1502#undef _GLIBCXX_SIMD_FIXED_OP
1503
1504 template <typename _Tp, typename... _As>
1505 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdTuple<_Tp, _As...>
1506 _S_bit_shift_left(const _SimdTuple<_Tp, _As...>& __x, int __y)
1507 {
1508 return __x._M_apply_per_chunk(
1509 [__y](auto __impl, auto __xx) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1510 return __impl._S_bit_shift_left(__xx, __y);
1511 });
1512 }
1513
1514 template <typename _Tp, typename... _As>
1515 _GLIBCXX_SIMD_INTRINSIC static constexpr _SimdTuple<_Tp, _As...>
1516 _S_bit_shift_right(const _SimdTuple<_Tp, _As...>& __x, int __y)
1517 {
1518 return __x._M_apply_per_chunk(
1519 [__y](auto __impl, auto __xx) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1520 return __impl._S_bit_shift_right(__xx, __y);
1521 });
1522 }
1523
1524 // math {{{2
1525#define _GLIBCXX_SIMD_APPLY_ON_TUPLE(_RetTp, __name) \
1526 template <typename _Tp, typename... _As, typename... _More> \
1527 static inline __fixed_size_storage_t<_RetTp, _Np> \
1528 _S_##__name(const _SimdTuple<_Tp, _As...>& __x, \
1529 const _More&... __more) \
1530 { \
1531 if constexpr (sizeof...(_More) == 0) \
1532 { \
1533 if constexpr (is_same_v<_Tp, _RetTp>) \
1534 return __x._M_apply_per_chunk( \
1535 [](auto __impl, auto __xx) \
1536 constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA \
1537 { \
1538 using _V = typename decltype(__impl)::simd_type; \
1539 return __data(__name(_V(__private_init, __xx))); \
1540 }); \
1541 else \
1542 return __optimize_simd_tuple( \
1543 __x.template _M_apply_r<_RetTp>( \
1544 [](auto __impl, auto __xx) \
1545 _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA \
1546 { return __impl._S_##__name(__xx); })); \
1547 } \
1548 else if constexpr ( \
1549 is_same_v< \
1550 _Tp, \
1551 _RetTp> && (... && is_same_v<_SimdTuple<_Tp, _As...>, _More>) ) \
1552 return __x._M_apply_per_chunk( \
1553 [](auto __impl, auto __xx, auto... __pack) \
1554 constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA \
1555 { \
1556 using _V = typename decltype(__impl)::simd_type; \
1557 return __data(__name(_V(__private_init, __xx), \
1558 _V(__private_init, __pack)...)); \
1559 }, __more...); \
1560 else if constexpr (is_same_v<_Tp, _RetTp>) \
1561 return __x._M_apply_per_chunk( \
1562 [](auto __impl, auto __xx, auto... __pack) \
1563 constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA \
1564 { \
1565 using _V = typename decltype(__impl)::simd_type; \
1566 return __data(__name(_V(__private_init, __xx), \
1567 __autocvt_to_simd(__pack)...)); \
1568 }, __more...); \
1569 else \
1570 __assert_unreachable<_Tp>(); \
1571 }
1572
1573 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, acos)
1574 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, asin)
1575 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, atan)
1576 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, atan2)
1577 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, cos)
1578 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, sin)
1579 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, tan)
1580 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, acosh)
1581 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, asinh)
1582 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, atanh)
1583 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, cosh)
1584 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, sinh)
1585 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, tanh)
1586 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, exp)
1587 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, exp2)
1588 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, expm1)
1589 _GLIBCXX_SIMD_APPLY_ON_TUPLE(int, ilogb)
1590 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, log)
1591 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, log10)
1592 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, log1p)
1593 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, log2)
1594 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, logb)
1595 // modf implemented in simd_math.h
1596 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp,
1597 scalbn) // double scalbn(double x, int exp);
1598 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, scalbln)
1599 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, cbrt)
1600 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, abs)
1601 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, fabs)
1602 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, pow)
1603 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, sqrt)
1604 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, erf)
1605 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, erfc)
1606 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, lgamma)
1607 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, tgamma)
1608 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, trunc)
1609 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, ceil)
1610 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, floor)
1611 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, nearbyint)
1612
1613 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, rint)
1614 _GLIBCXX_SIMD_APPLY_ON_TUPLE(long, lrint)
1615 _GLIBCXX_SIMD_APPLY_ON_TUPLE(long long, llrint)
1616
1617 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, round)
1618 _GLIBCXX_SIMD_APPLY_ON_TUPLE(long, lround)
1619 _GLIBCXX_SIMD_APPLY_ON_TUPLE(long long, llround)
1620
1621 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, ldexp)
1622 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, fmod)
1623 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, remainder)
1624 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, copysign)
1625 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, nextafter)
1626 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, fdim)
1627 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, fmax)
1628 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, fmin)
1629 _GLIBCXX_SIMD_APPLY_ON_TUPLE(_Tp, fma)
1630 _GLIBCXX_SIMD_APPLY_ON_TUPLE(int, fpclassify)
1631#undef _GLIBCXX_SIMD_APPLY_ON_TUPLE
1632
1633 template <typename _Tp, typename... _Abis>
1634 static inline _SimdTuple<_Tp, _Abis...>
1635 _S_remquo(const _SimdTuple<_Tp, _Abis...>& __x, const _SimdTuple<_Tp, _Abis...>& __y,
1636 __fixed_size_storage_t<int, _SimdTuple<_Tp, _Abis...>::_S_size()>* __z)
1637 {
1638 return __x._M_apply_per_chunk(
1639 [](auto __impl, const auto __xx, const auto __yy, auto& __zz)
1640 _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA
1641 { return __impl._S_remquo(__xx, __yy, &__zz); },
1642 __y, *__z);
1643 }
1644
1645 template <typename _Tp, typename... _As>
1646 static inline _SimdTuple<_Tp, _As...>
1647 _S_frexp(const _SimdTuple<_Tp, _As...>& __x,
1648 __fixed_size_storage_t<int, _Np>& __exp) noexcept
1649 {
1650 return __x._M_apply_per_chunk(
1651 [](auto __impl, const auto& __a, auto& __b) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1652 return __data(frexp(typename decltype(__impl)::simd_type(__private_init, __a),
1653 __autocvt_to_simd(__b)));
1654 }, __exp);
1655 }
1656
1657#define _GLIBCXX_SIMD_TEST_ON_TUPLE_(name_) \
1658 template <typename _Tp, typename... _As> \
1659 static inline _MaskMember \
1660 _S_##name_(const _SimdTuple<_Tp, _As...>& __x) noexcept \
1661 { \
1662 return _M_test([] (auto __impl, auto __xx) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA { \
1663 return __impl._S_##name_(__xx); \
1664 }, __x); \
1665 }
1666
1667 _GLIBCXX_SIMD_TEST_ON_TUPLE_(isinf)
1668 _GLIBCXX_SIMD_TEST_ON_TUPLE_(isfinite)
1669 _GLIBCXX_SIMD_TEST_ON_TUPLE_(isnan)
1670 _GLIBCXX_SIMD_TEST_ON_TUPLE_(isnormal)
1671 _GLIBCXX_SIMD_TEST_ON_TUPLE_(signbit)
1672#undef _GLIBCXX_SIMD_TEST_ON_TUPLE_
1673
1674 // _S_increment & _S_decrement{{{2
1675 template <typename... _Ts>
1676 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1677 _S_increment(_SimdTuple<_Ts...>& __x)
1678 {
1679 __for_each(
1680 __x, [](auto __meta, auto& native) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1681 __meta._S_increment(native);
1682 });
1683 }
1684
1685 template <typename... _Ts>
1686 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1687 _S_decrement(_SimdTuple<_Ts...>& __x)
1688 {
1689 __for_each(
1690 __x, [](auto __meta, auto& native) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1691 __meta._S_decrement(native);
1692 });
1693 }
1694
1695 // compares {{{2
1696#define _GLIBCXX_SIMD_CMP_OPERATIONS(__cmp) \
1697 template <typename _Tp, typename... _As> \
1698 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember \
1699 __cmp(const _SimdTuple<_Tp, _As...>& __x, \
1700 const _SimdTuple<_Tp, _As...>& __y) \
1701 { \
1702 return _M_test([](auto __impl, auto __xx, auto __yy) \
1703 constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA \
1704 { return __impl.__cmp(__xx, __yy); }, \
1705 __x, __y); \
1706 }
1707
1708 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_equal_to)
1709 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_not_equal_to)
1710 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_less)
1711 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_less_equal)
1712 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_isless)
1713 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_islessequal)
1714 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_isgreater)
1715 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_isgreaterequal)
1716 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_islessgreater)
1717 _GLIBCXX_SIMD_CMP_OPERATIONS(_S_isunordered)
1718#undef _GLIBCXX_SIMD_CMP_OPERATIONS
1719
1720 // smart_reference access {{{2
1721 template <typename _Tp, typename... _As, typename _Up>
1722 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1723 _S_set(_SimdTuple<_Tp, _As...>& __v, int __i, _Up&& __x) noexcept
1724 { __v._M_set(__i, static_cast<_Up&&>(__x)); }
1725
1726 // _S_masked_assign {{{2
1727 template <typename _Tp, typename... _As>
1728 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1729 _S_masked_assign(const _MaskMember __bits, _SimdTuple<_Tp, _As...>& __lhs,
1730 const __type_identity_t<_SimdTuple<_Tp, _As...>>& __rhs)
1731 {
1732 __for_each(__lhs, __rhs,
1733 [&](auto __meta, auto& __native_lhs, auto __native_rhs)
1734 constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA
1735 {
1736 __meta._S_masked_assign(__meta._S_make_mask(__bits), __native_lhs,
1737 __native_rhs);
1738 });
1739 }
1740
1741 // Optimization for the case where the RHS is a scalar. No need to broadcast
1742 // the scalar to a simd first.
1743 template <typename _Tp, typename... _As>
1744 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1745 _S_masked_assign(const _MaskMember __bits, _SimdTuple<_Tp, _As...>& __lhs,
1746 const __type_identity_t<_Tp> __rhs)
1747 {
1748 __for_each(
1749 __lhs, [&](auto __meta, auto& __native_lhs) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1750 __meta._S_masked_assign(__meta._S_make_mask(__bits), __native_lhs,
1751 __rhs);
1752 });
1753 }
1754
1755 // _S_masked_cassign {{{2
1756 template <typename _Op, typename _Tp, typename... _As>
1757 static constexpr inline void
1758 _S_masked_cassign(const _MaskMember __bits, _SimdTuple<_Tp, _As...>& __lhs,
1759 const _SimdTuple<_Tp, _As...>& __rhs, _Op __op)
1760 {
1761 __for_each(__lhs, __rhs,
1762 [&](auto __meta, auto& __native_lhs, auto __native_rhs)
1763 constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA
1764 {
1765 __meta.template _S_masked_cassign(__meta._S_make_mask(__bits),
1766 __native_lhs, __native_rhs, __op);
1767 });
1768 }
1769
1770 // Optimization for the case where the RHS is a scalar. No need to broadcast
1771 // the scalar to a simd first.
1772 template <typename _Op, typename _Tp, typename... _As>
1773 static constexpr inline void
1774 _S_masked_cassign(const _MaskMember __bits, _SimdTuple<_Tp, _As...>& __lhs,
1775 const _Tp& __rhs, _Op __op)
1776 {
1777 __for_each(
1778 __lhs, [&](auto __meta, auto& __native_lhs) constexpr _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1779 __meta.template _S_masked_cassign(__meta._S_make_mask(__bits),
1780 __native_lhs, __rhs, __op);
1781 });
1782 }
1783
1784 // _S_masked_unary {{{2
1785 template <template <typename> class _Op, typename _Tp, typename... _As>
1786 static constexpr inline _SimdTuple<_Tp, _As...>
1787 _S_masked_unary(const _MaskMember __bits, const _SimdTuple<_Tp, _As...>& __v)
1788 {
1789 return __v._M_apply_wrapped([&__bits](auto __meta,
1790 auto __native) constexpr {
1791 return __meta.template _S_masked_unary<_Op>(__meta._S_make_mask(
1792 __bits),
1793 __native);
1794 });
1795 }
1796
1797 // }}}2
1798 };
1799
1800// _MaskImplFixedSize {{{1
1801template <int _Np, typename>
1802 struct _MaskImplFixedSize
1803 {
1804 static_assert(
1805 sizeof(_ULLong) * __CHAR_BIT__ >= _Np,
1806 "The fixed_size implementation relies on one _ULLong being able to store "
1807 "all boolean elements."); // required in load & store
1808
1809 // member types {{{
1810 using _Abi = simd_abi::fixed_size<_Np>;
1811
1812 using _MaskMember = _SanitizedBitMask<_Np>;
1813
1814 template <typename _Tp>
1815 using _FirstAbi = typename __fixed_size_storage_t<_Tp, _Np>::_FirstAbi;
1816
1817 template <typename _Tp>
1818 using _TypeTag = _Tp*;
1819
1820 // }}}
1821 // _S_broadcast {{{
1822 template <typename>
1823 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1824 _S_broadcast(bool __x)
1825 { return __x ? ~_MaskMember() : _MaskMember(); }
1826
1827 // }}}
1828 // _S_load {{{
1829 template <typename>
1830 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1831 _S_load(const bool* __mem)
1832 {
1833 if (__builtin_is_constant_evaluated())
1834 {
1835 _MaskMember __r{};
1836 for (size_t __i = 0; __i < _Np; ++__i)
1837 __r.set(__i, __mem[__i]);
1838 return __r;
1839 }
1840 using _Ip = __int_for_sizeof_t<bool>;
1841 // the following load uses element_aligned and relies on __mem already
1842 // carrying alignment information from when this load function was
1843 // called.
1844 const simd<_Ip, _Abi> __bools(reinterpret_cast<const __may_alias<_Ip>*>(
1845 __mem),
1846 element_aligned);
1847 return __data(__bools != 0);
1848 }
1849
1850 // }}}
1851 // _S_to_bits {{{
1852 template <bool _Sanitized>
1853 _GLIBCXX_SIMD_INTRINSIC static constexpr _SanitizedBitMask<_Np>
1854 _S_to_bits(_BitMask<_Np, _Sanitized> __x)
1855 {
1856 if constexpr (_Sanitized)
1857 return __x;
1858 else
1859 return __x._M_sanitized();
1860 }
1861
1862 // }}}
1863 // _S_convert {{{
1864 template <typename _Tp, typename _Up, typename _UAbi>
1865 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1866 _S_convert(simd_mask<_Up, _UAbi> __x)
1867 {
1868 return _UAbi::_MaskImpl::_S_to_bits(__data(__x))
1869 .template _M_extract<0, _Np>();
1870 }
1871
1872 // }}}
1873 // _S_from_bitmask {{{2
1874 template <typename _Tp>
1875 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1876 _S_from_bitmask(_MaskMember __bits, _TypeTag<_Tp>) noexcept
1877 { return __bits; }
1878
1879 // _S_load {{{2
1880 static constexpr inline _MaskMember
1881 _S_load(const bool* __mem) noexcept
1882 {
1883 // TODO: _UChar is not necessarily the best type to use here. For smaller
1884 // _Np _UShort, _UInt, _ULLong, float, and double can be more efficient.
1885 _ULLong __r = 0;
1886 using _Vs = __fixed_size_storage_t<_UChar, _Np>;
1887 __for_each(_Vs{}, [&](auto __meta, auto) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1888 __r |= __meta._S_mask_to_shifted_ullong(
1889 __meta._S_mask_impl._S_load(&__mem[__meta._S_offset],
1890 _SizeConstant<__meta._S_size()>()));
1891 });
1892 return __r;
1893 }
1894
1895 // _S_masked_load {{{2
1896 static constexpr inline _MaskMember
1897 _S_masked_load(_MaskMember __merge, _MaskMember __mask, const bool* __mem) noexcept
1898 {
1899 _BitOps::_S_bit_iteration(__mask.to_ullong(),
1900 [&](auto __i) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA {
1901 __merge.set(__i, __mem[__i]);
1902 });
1903 return __merge;
1904 }
1905
1906 // _S_store {{{2
1907 static constexpr inline void
1908 _S_store(const _MaskMember __bitmask, bool* __mem) noexcept
1909 {
1910 if constexpr (_Np == 1)
1911 __mem[0] = __bitmask[0];
1912 else
1913 _FirstAbi<_UChar>::_CommonImpl::_S_store_bool_array(__bitmask, __mem);
1914 }
1915
1916 // _S_masked_store {{{2
1917 static constexpr inline void
1918 _S_masked_store(const _MaskMember __v, bool* __mem, const _MaskMember __k) noexcept
1919 {
1920 _BitOps::_S_bit_iteration(
1921 __k, [&](auto __i) _GLIBCXX_SIMD_ALWAYS_INLINE_LAMBDA { __mem[__i] = __v[__i]; });
1922 }
1923
1924 // logical and bitwise operators {{{2
1925 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1926 _S_logical_and(const _MaskMember& __x, const _MaskMember& __y) noexcept
1927 { return __x & __y; }
1928
1929 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1930 _S_logical_or(const _MaskMember& __x, const _MaskMember& __y) noexcept
1931 { return __x | __y; }
1932
1933 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1934 _S_bit_not(const _MaskMember& __x) noexcept
1935 { return ~__x; }
1936
1937 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1938 _S_bit_and(const _MaskMember& __x, const _MaskMember& __y) noexcept
1939 { return __x & __y; }
1940
1941 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1942 _S_bit_or(const _MaskMember& __x, const _MaskMember& __y) noexcept
1943 { return __x | __y; }
1944
1945 _GLIBCXX_SIMD_INTRINSIC static constexpr _MaskMember
1946 _S_bit_xor(const _MaskMember& __x, const _MaskMember& __y) noexcept
1947 { return __x ^ __y; }
1948
1949 // smart_reference access {{{2
1950 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1951 _S_set(_MaskMember& __k, int __i, bool __x) noexcept
1952 { __k.set(__i, __x); }
1953
1954 // _S_masked_assign {{{2
1955 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1956 _S_masked_assign(const _MaskMember __k, _MaskMember& __lhs, const _MaskMember __rhs)
1957 { __lhs = (__lhs & ~__k) | (__rhs & __k); }
1958
1959 // Optimization for the case where the RHS is a scalar.
1960 _GLIBCXX_SIMD_INTRINSIC static constexpr void
1961 _S_masked_assign(const _MaskMember __k, _MaskMember& __lhs, const bool __rhs)
1962 {
1963 if (__rhs)
1964 __lhs |= __k;
1965 else
1966 __lhs &= ~__k;
1967 }
1968
1969 // }}}2
1970 // _S_all_of {{{
1971 template <typename _Tp>
1972 _GLIBCXX_SIMD_INTRINSIC static constexpr bool
1973 _S_all_of(simd_mask<_Tp, _Abi> __k)
1974 { return __data(__k).all(); }
1975
1976 // }}}
1977 // _S_any_of {{{
1978 template <typename _Tp>
1979 _GLIBCXX_SIMD_INTRINSIC static constexpr bool
1980 _S_any_of(simd_mask<_Tp, _Abi> __k)
1981 { return __data(__k).any(); }
1982
1983 // }}}
1984 // _S_none_of {{{
1985 template <typename _Tp>
1986 _GLIBCXX_SIMD_INTRINSIC static constexpr bool
1987 _S_none_of(simd_mask<_Tp, _Abi> __k)
1988 { return __data(__k).none(); }
1989
1990 // }}}
1991 // _S_some_of {{{
1992 template <typename _Tp>
1993 _GLIBCXX_SIMD_INTRINSIC static constexpr bool
1994 _S_some_of([[maybe_unused]] simd_mask<_Tp, _Abi> __k)
1995 {
1996 if constexpr (_Np == 1)
1997 return false;
1998 else
1999 return __data(__k).any() && !__data(__k).all();
2000 }
2001
2002 // }}}
2003 // _S_popcount {{{
2004 template <typename _Tp>
2005 _GLIBCXX_SIMD_INTRINSIC static constexpr int
2006 _S_popcount(simd_mask<_Tp, _Abi> __k)
2007 { return __data(__k).count(); }
2008
2009 // }}}
2010 // _S_find_first_set {{{
2011 template <typename _Tp>
2012 _GLIBCXX_SIMD_INTRINSIC static constexpr int
2013 _S_find_first_set(simd_mask<_Tp, _Abi> __k)
2014 { return std::__countr_zero(__data(__k).to_ullong()); }
2015
2016 // }}}
2017 // _S_find_last_set {{{
2018 template <typename _Tp>
2019 _GLIBCXX_SIMD_INTRINSIC static constexpr int
2020 _S_find_last_set(simd_mask<_Tp, _Abi> __k)
2021 { return std::__bit_width(__data(__k).to_ullong()) - 1; }
2022
2023 // }}}
2024 };
2025// }}}1
2026
2027_GLIBCXX_SIMD_END_NAMESPACE
2028#endif // __cplusplus >= 201703L
2029#endif // _GLIBCXX_EXPERIMENTAL_SIMD_FIXED_SIZE_H_
2030
2031// vim: foldmethod=marker sw=2 noet ts=8 sts=2 tw=80
strong_ordering operator(const error_code &__lhs, const error_code &__rhs) noexcept
Definition system_error:316
constexpr _Tp reduce(_InputIterator __first, _InputIterator __last, _Tp __init, _BinaryOperation __binary_op)
Calculate reduction of values in a range.
Definition numeric:291
constexpr _Iterator __base(_Iterator __it)