diff options
Diffstat (limited to 'current/sources/cxx-stl/llvm-libc++/include/experimental/simd')
| -rw-r--r-- | current/sources/cxx-stl/llvm-libc++/include/experimental/simd | 1569 |
1 files changed, 1569 insertions, 0 deletions
diff --git a/current/sources/cxx-stl/llvm-libc++/include/experimental/simd b/current/sources/cxx-stl/llvm-libc++/include/experimental/simd new file mode 100644 index 000000000..39ac35e4e --- /dev/null +++ b/current/sources/cxx-stl/llvm-libc++/include/experimental/simd @@ -0,0 +1,1569 @@ +// -*- C++ -*- +//===------------------------------- simd ---------------------------------===// +// +// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. +// See https://llvm.org/LICENSE.txt for license information. +// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception +// +//===----------------------------------------------------------------------===// +#ifndef _LIBCPP_EXPERIMENTAL_SIMD +#define _LIBCPP_EXPERIMENTAL_SIMD + +/* + experimental/simd synopsis + +namespace std::experimental { + +inline namespace parallelism_v2 { + +namespace simd_abi { + +struct scalar {}; +template <int N> struct fixed_size {}; +template <typename T> inline constexpr int max_fixed_size = implementation-defined; +template <typename T> using compatible = implementation-defined; +template <typename T> using native = implementation-defined; + +} // simd_abi + +struct element_aligned_tag {}; +struct vector_aligned_tag {}; +template <size_t> struct overaligned_tag {}; +inline constexpr element_aligned_tag element_aligned{}; +inline constexpr vector_aligned_tag vector_aligned{}; +template <size_t N> inline constexpr overaligned_tag<N> overaligned{}; + +// traits [simd.traits] +template <class T> struct is_abi_tag; +template <class T> inline constexpr bool is_abi_tag_v = is_abi_tag<T>::value; + +template <class T> struct is_simd; +template <class T> inline constexpr bool is_simd_v = is_simd<T>::value; + +template <class T> struct is_simd_mask; +template <class T> inline constexpr bool is_simd_mask_v = is_simd_mask<T>::value; + +template <class T> struct is_simd_flag_type; +template <class T> inline constexpr bool is_simd_flag_type_v = is_simd_flag_type<T>::value; + +template <class T, size_t N> struct abi_for_size { using type = see below; }; +template <class T, size_t N> using abi_for_size_t = typename abi_for_size<T, N>::type; + +template <class T, class Abi = simd_abi::compatible<T>> struct simd_size; +template <class T, class Abi = simd_abi::compatible<T>> +inline constexpr size_t simd_size_v = simd_size<T, Abi>::value; + +template <class T, class U = typename T::value_type> struct memory_alignment; +template <class T, class U = typename T::value_type> +inline constexpr size_t memory_alignment_v = memory_alignment<T, U>::value; + +// class template simd [simd.class] +template <class T, class Abi = simd_abi::compatible<T>> class simd; +template <class T> using native_simd = simd<T, simd_abi::native<T>>; +template <class T, int N> using fixed_size_simd = simd<T, simd_abi::fixed_size<N>>; + +// class template simd_mask [simd.mask.class] +template <class T, class Abi = simd_abi::compatible<T>> class simd_mask; +template <class T> using native_simd_mask = simd_mask<T, simd_abi::native<T>>; +template <class T, int N> using fixed_size_simd_mask = simd_mask<T, simd_abi::fixed_size<N>>; + +// casts [simd.casts] +template <class T, class U, class Abi> see below simd_cast(const simd<U, Abi>&); +template <class T, class U, class Abi> see below static_simd_cast(const simd<U, Abi>&); + +template <class T, class Abi> +fixed_size_simd<T, simd_size_v<T, Abi>> to_fixed_size(const simd<T, Abi>&) noexcept; +template <class T, class Abi> +fixed_size_simd_mask<T, simd_size_v<T, Abi>> to_fixed_size(const simd_mask<T, Abi>&) noexcept; +template <class T, size_t N> native_simd<T> to_native(const fixed_size_simd<T, N>&) noexcept; +template <class T, size_t N> +native_simd_mask<T> to_native(const fixed_size_simd_mask<T, N>> &) noexcept; +template <class T, size_t N> simd<T> to_compatible(const fixed_size_simd<T, N>&) noexcept; +template <class T, size_t N> simd_mask<T> to_compatible(const fixed_size_simd_mask<T, N>&) noexcept; + +template <size_t... Sizes, class T, class Abi> +tuple<simd<T, abi_for_size_t<Sizes>>...> split(const simd<T, Abi>&); +template <size_t... Sizes, class T, class Abi> +tuple<simd_mask<T, abi_for_size_t<Sizes>>...> split(const simd_mask<T, Abi>&); +template <class V, class Abi> +array<V, simd_size_v<typename V::value_type, Abi> / V::size()> split( +const simd<typename V::value_type, Abi>&); +template <class V, class Abi> +array<V, simd_size_v<typename V::value_type, Abi> / V::size()> split( +const simd_mask<typename V::value_type, Abi>&); + +template <class T, class... Abis> +simd<T, abi_for_size_t<T, (simd_size_v<T, Abis> + ...)>> concat(const simd<T, Abis>&...); +template <class T, class... Abis> +simd_mask<T, abi_for_size_t<T, (simd_size_v<T, Abis> + ...)>> concat(const simd_mask<T, Abis>&...); + +// reductions [simd.mask.reductions] +template <class T, class Abi> bool all_of(const simd_mask<T, Abi>&) noexcept; +template <class T, class Abi> bool any_of(const simd_mask<T, Abi>&) noexcept; +template <class T, class Abi> bool none_of(const simd_mask<T, Abi>&) noexcept; +template <class T, class Abi> bool some_of(const simd_mask<T, Abi>&) noexcept; +template <class T, class Abi> int popcount(const simd_mask<T, Abi>&) noexcept; +template <class T, class Abi> int find_first_set(const simd_mask<T, Abi>&); +template <class T, class Abi> int find_last_set(const simd_mask<T, Abi>&); + +bool all_of(see below) noexcept; +bool any_of(see below) noexcept; +bool none_of(see below) noexcept; +bool some_of(see below) noexcept; +int popcount(see below) noexcept; +int find_first_set(see below) noexcept; +int find_last_set(see below) noexcept; + +// masked assignment [simd.whereexpr] +template <class M, class T> class const_where_expression; +template <class M, class T> class where_expression; + +// masked assignment [simd.mask.where] +template <class T> struct nodeduce { using type = T; }; // exposition only + +template <class T> using nodeduce_t = typename nodeduce<T>::type; // exposition only + +template <class T, class Abi> +where_expression<simd_mask<T, Abi>, simd<T, Abi>> +where(const typename simd<T, Abi>::mask_type&, simd<T, Abi>&) noexcept; + +template <class T, class Abi> +const_where_expression<simd_mask<T, Abi>, const simd<T, Abi>> +where(const typename simd<T, Abi>::mask_type&, const simd<T, Abi>&) noexcept; + +template <class T, class Abi> +where_expression<simd_mask<T, Abi>, simd_mask<T, Abi>> +where(const nodeduce_t<simd_mask<T, Abi>>&, simd_mask<T, Abi>&) noexcept; + +template <class T, class Abi> +const_where_expression<simd_mask<T, Abi>, const simd_mask<T, Abi>> +where(const nodeduce_t<simd_mask<T, Abi>>&, const simd_mask<T, Abi>&) noexcept; + +template <class T> where_expression<bool, T> where(see below k, T& d) noexcept; + +template <class T> +const_where_expression<bool, const T> where(see below k, const T& d) noexcept; + +// reductions [simd.reductions] +template <class T, class Abi, class BinaryOperation = std::plus<>> +T reduce(const simd<T, Abi>&, BinaryOperation = BinaryOperation()); + +template <class M, class V, class BinaryOperation> +typename V::value_type reduce(const const_where_expression<M, V>& x, +typename V::value_type neutral_element, BinaryOperation binary_op); + +template <class M, class V> +typename V::value_type reduce(const const_where_expression<M, V>& x, plus<> binary_op = plus<>()); + +template <class M, class V> +typename V::value_type reduce(const const_where_expression<M, V>& x, multiplies<> binary_op); + +template <class M, class V> +typename V::value_type reduce(const const_where_expression<M, V>& x, bit_and<> binary_op); + +template <class M, class V> +typename V::value_type reduce(const const_where_expression<M, V>& x, bit_or<> binary_op); + +template <class M, class V> +typename V::value_type reduce(const const_where_expression<M, V>& x, bit_xor<> binary_op); + +template <class T, class Abi> T hmin(const simd<T, Abi>&); +template <class M, class V> T hmin(const const_where_expression<M, V>&); +template <class T, class Abi> T hmax(const simd<T, Abi>&); +template <class M, class V> T hmax(const const_where_expression<M, V>&); + +// algorithms [simd.alg] +template <class T, class Abi> simd<T, Abi> min(const simd<T, Abi>&, const simd<T, Abi>&) noexcept; + +template <class T, class Abi> simd<T, Abi> max(const simd<T, Abi>&, const simd<T, Abi>&) noexcept; + +template <class T, class Abi> +std::pair<simd<T, Abi>, simd<T, Abi>> minmax(const simd<T, Abi>&, const simd<T, Abi>&) noexcept; + +template <class T, class Abi> +simd<T, Abi> clamp(const simd<T, Abi>& v, const simd<T, Abi>& lo, const simd<T, Abi>& hi); + +// [simd.whereexpr] +template <class M, class T> +class const_where_expression { + const M& mask; // exposition only + T& data; // exposition only +public: + const_where_expression(const const_where_expression&) = delete; + const_where_expression& operator=(const const_where_expression&) = delete; + remove_const_t<T> operator-() const &&; + template <class U, class Flags> void copy_to(U* mem, Flags f) const &&; +}; + +template <class M, class T> +class where_expression : public const_where_expression<M, T> { +public: + where_expression(const where_expression&) = delete; + where_expression& operator=(const where_expression&) = delete; + template <class U> void operator=(U&& x); + template <class U> void operator+=(U&& x); + template <class U> void operator-=(U&& x); + template <class U> void operator*=(U&& x); + template <class U> void operator/=(U&& x); + template <class U> void operator%=(U&& x); + template <class U> void operator&=(U&& x); + template <class U> void operator|=(U&& x); + template <class U> void operator^=(U&& x); + template <class U> void operator<<=(U&& x); + template <class U> void operator>>=(U&& x); + void operator++(); + void operator++(int); + void operator--(); + void operator--(int); + template <class U, class Flags> void copy_from(const U* mem, Flags); +}; + +// [simd.class] +template <class T, class Abi> class simd { +public: + using value_type = T; + using reference = see below; + using mask_type = simd_mask<T, Abi>; + + using abi_type = Abi; + static constexpr size_t size() noexcept; + simd() = default; + + // implicit type conversion constructor + template <class U> simd(const simd<U, simd_abi::fixed_size<size()>>&); + + // implicit broadcast constructor (see below for constraints) + template <class U> simd(U&& value); + + // generator constructor (see below for constraints) + template <class G> explicit simd(G&& gen); + + // load constructor + template <class U, class Flags> simd(const U* mem, Flags f); + + // loads [simd.load] + template <class U, class Flags> void copy_from(const U* mem, Flags f); + + // stores [simd.store] + template <class U, class Flags> void copy_to(U* mem, Flags f) const; + + // scalar access [simd.subscr] + reference operator[](size_t); + value_type operator[](size_t) const; + + // unary operators [simd.unary] + simd& operator++(); + simd operator++(int); + simd& operator--(); + simd operator--(int); + mask_type operator!() const; + simd operator~() const; // see below + simd operator+() const; + simd operator-() const; + + // binary operators [simd.binary] + friend simd operator+ (const simd&, const simd&); + friend simd operator- (const simd&, const simd&); + friend simd operator* (const simd&, const simd&); + friend simd operator/ (const simd&, const simd&); + friend simd operator% (const simd&, const simd&); + friend simd operator& (const simd&, const simd&); + friend simd operator| (const simd&, const simd&); + friend simd operator^ (const simd&, const simd&); + friend simd operator<<(const simd&, const simd&); + friend simd operator>>(const simd&, const simd&); + friend simd operator<<(const simd&, int); + friend simd operator>>(const simd&, int); + + // compound assignment [simd.cassign] + friend simd& operator+= (simd&, const simd&); + friend simd& operator-= (simd&, const simd&); + friend simd& operator*= (simd&, const simd&); + friend simd& operator/= (simd&, const simd&); + friend simd& operator%= (simd&, const simd&); + + friend simd& operator&= (simd&, const simd&); + friend simd& operator|= (simd&, const simd&); + friend simd& operator^= (simd&, const simd&); + friend simd& operator<<=(simd&, const simd&); + friend simd& operator>>=(simd&, const simd&); + friend simd& operator<<=(simd&, int); + friend simd& operator>>=(simd&, int); + + // compares [simd.comparison] + friend mask_type operator==(const simd&, const simd&); + friend mask_type operator!=(const simd&, const simd&); + friend mask_type operator>=(const simd&, const simd&); + friend mask_type operator<=(const simd&, const simd&); + friend mask_type operator> (const simd&, const simd&); + friend mask_type operator< (const simd&, const simd&); +}; + +// [simd.math] +template <class Abi> using scharv = simd<signed char, Abi>; // exposition only +template <class Abi> using shortv = simd<short, Abi>; // exposition only +template <class Abi> using intv = simd<int, Abi>; // exposition only +template <class Abi> using longv = simd<long int, Abi>; // exposition only +template <class Abi> using llongv = simd<long long int, Abi>; // exposition only +template <class Abi> using floatv = simd<float, Abi>; // exposition only +template <class Abi> using doublev = simd<double, Abi>; // exposition only +template <class Abi> using ldoublev = simd<long double, Abi>; // exposition only +template <class T, class V> using samesize = fixed_size_simd<T, V::size()>; // exposition only + +template <class Abi> floatv<Abi> acos(floatv<Abi> x); +template <class Abi> doublev<Abi> acos(doublev<Abi> x); +template <class Abi> ldoublev<Abi> acos(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> asin(floatv<Abi> x); +template <class Abi> doublev<Abi> asin(doublev<Abi> x); +template <class Abi> ldoublev<Abi> asin(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> atan(floatv<Abi> x); +template <class Abi> doublev<Abi> atan(doublev<Abi> x); +template <class Abi> ldoublev<Abi> atan(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> atan2(floatv<Abi> y, floatv<Abi> x); +template <class Abi> doublev<Abi> atan2(doublev<Abi> y, doublev<Abi> x); +template <class Abi> ldoublev<Abi> atan2(ldoublev<Abi> y, ldoublev<Abi> x); + +template <class Abi> floatv<Abi> cos(floatv<Abi> x); +template <class Abi> doublev<Abi> cos(doublev<Abi> x); +template <class Abi> ldoublev<Abi> cos(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> sin(floatv<Abi> x); +template <class Abi> doublev<Abi> sin(doublev<Abi> x); +template <class Abi> ldoublev<Abi> sin(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> tan(floatv<Abi> x); +template <class Abi> doublev<Abi> tan(doublev<Abi> x); +template <class Abi> ldoublev<Abi> tan(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> acosh(floatv<Abi> x); +template <class Abi> doublev<Abi> acosh(doublev<Abi> x); +template <class Abi> ldoublev<Abi> acosh(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> asinh(floatv<Abi> x); +template <class Abi> doublev<Abi> asinh(doublev<Abi> x); +template <class Abi> ldoublev<Abi> asinh(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> atanh(floatv<Abi> x); +template <class Abi> doublev<Abi> atanh(doublev<Abi> x); +template <class Abi> ldoublev<Abi> atanh(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> cosh(floatv<Abi> x); +template <class Abi> doublev<Abi> cosh(doublev<Abi> x); +template <class Abi> ldoublev<Abi> cosh(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> sinh(floatv<Abi> x); +template <class Abi> doublev<Abi> sinh(doublev<Abi> x); +template <class Abi> ldoublev<Abi> sinh(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> tanh(floatv<Abi> x); +template <class Abi> doublev<Abi> tanh(doublev<Abi> x); +template <class Abi> ldoublev<Abi> tanh(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> exp(floatv<Abi> x); +template <class Abi> doublev<Abi> exp(doublev<Abi> x); +template <class Abi> ldoublev<Abi> exp(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> exp2(floatv<Abi> x); +template <class Abi> doublev<Abi> exp2(doublev<Abi> x); +template <class Abi> ldoublev<Abi> exp2(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> expm1(floatv<Abi> x); +template <class Abi> doublev<Abi> expm1(doublev<Abi> x); +template <class Abi> ldoublev<Abi> expm1(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> frexp(floatv<Abi> value, samesize<int, floatv<Abi>>* exp); +template <class Abi> doublev<Abi> frexp(doublev<Abi> value, samesize<int, doublev<Abi>>* exp); +template <class Abi> ldoublev<Abi> frexp(ldoublev<Abi> value, samesize<int, ldoublev<Abi>>* exp); + +template <class Abi> samesize<int, floatv<Abi>> ilogb(floatv<Abi> x); +template <class Abi> samesize<int, doublev<Abi>> ilogb(doublev<Abi> x); +template <class Abi> samesize<int, ldoublev<Abi>> ilogb(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> ldexp(floatv<Abi> x, samesize<int, floatv<Abi>> exp); +template <class Abi> doublev<Abi> ldexp(doublev<Abi> x, samesize<int, doublev<Abi>> exp); +template <class Abi> ldoublev<Abi> ldexp(ldoublev<Abi> x, samesize<int, ldoublev<Abi>> exp); + +template <class Abi> floatv<Abi> log(floatv<Abi> x); +template <class Abi> doublev<Abi> log(doublev<Abi> x); +template <class Abi> ldoublev<Abi> log(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> log10(floatv<Abi> x); +template <class Abi> doublev<Abi> log10(doublev<Abi> x); +template <class Abi> ldoublev<Abi> log10(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> log1p(floatv<Abi> x); +template <class Abi> doublev<Abi> log1p(doublev<Abi> x); +template <class Abi> ldoublev<Abi> log1p(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> log2(floatv<Abi> x); +template <class Abi> doublev<Abi> log2(doublev<Abi> x); +template <class Abi> ldoublev<Abi> log2(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> logb(floatv<Abi> x); +template <class Abi> doublev<Abi> logb(doublev<Abi> x); +template <class Abi> ldoublev<Abi> logb(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> modf(floatv<Abi> value, floatv<Abi>* iptr); +template <class Abi> doublev<Abi> modf(doublev<Abi> value, doublev<Abi>* iptr); +template <class Abi> ldoublev<Abi> modf(ldoublev<Abi> value, ldoublev<Abi>* iptr); + +template <class Abi> floatv<Abi> scalbn(floatv<Abi> x, samesize<int, floatv<Abi>> n); +template <class Abi> doublev<Abi> scalbn(doublev<Abi> x, samesize<int, doublev<Abi>> n); +template <class Abi> ldoublev<Abi> scalbn(ldoublev<Abi> x, samesize<int, ldoublev<Abi>> n); +template <class Abi> floatv<Abi> scalbln(floatv<Abi> x, samesize<long int, floatv<Abi>> n); +template <class Abi> doublev<Abi> scalbln(doublev<Abi> x, samesize<long int, doublev<Abi>> n); +template <class Abi> ldoublev<Abi> scalbln(ldoublev<Abi> x, samesize<long int, ldoublev<Abi>> n); + +template <class Abi> floatv<Abi> cbrt(floatv<Abi> x); +template <class Abi> doublev<Abi> cbrt(doublev<Abi> x); +template <class Abi> ldoublev<Abi> cbrt(ldoublev<Abi> x); + +template <class Abi> scharv<Abi> abs(scharv<Abi> j); +template <class Abi> shortv<Abi> abs(shortv<Abi> j); +template <class Abi> intv<Abi> abs(intv<Abi> j); +template <class Abi> longv<Abi> abs(longv<Abi> j); +template <class Abi> llongv<Abi> abs(llongv<Abi> j); +template <class Abi> floatv<Abi> abs(floatv<Abi> j); +template <class Abi> doublev<Abi> abs(doublev<Abi> j); +template <class Abi> ldoublev<Abi> abs(ldoublev<Abi> j); + +template <class Abi> floatv<Abi> hypot(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> hypot(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> hypot(doublev<Abi> x, doublev<Abi> y); +template <class Abi> floatv<Abi> hypot(floatv<Abi> x, floatv<Abi> y, floatv<Abi> z); +template <class Abi> doublev<Abi> hypot(doublev<Abi> x, doublev<Abi> y, doublev<Abi> z); +template <class Abi> ldoublev<Abi> hypot(ldoublev<Abi> x, ldoublev<Abi> y, ldoublev<Abi> z); + +template <class Abi> floatv<Abi> pow(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> pow(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> pow(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> floatv<Abi> sqrt(floatv<Abi> x); +template <class Abi> doublev<Abi> sqrt(doublev<Abi> x); +template <class Abi> ldoublev<Abi> sqrt(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> erf(floatv<Abi> x); +template <class Abi> doublev<Abi> erf(doublev<Abi> x); +template <class Abi> ldoublev<Abi> erf(ldoublev<Abi> x); +template <class Abi> floatv<Abi> erfc(floatv<Abi> x); +template <class Abi> doublev<Abi> erfc(doublev<Abi> x); +template <class Abi> ldoublev<Abi> erfc(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> lgamma(floatv<Abi> x); +template <class Abi> doublev<Abi> lgamma(doublev<Abi> x); +template <class Abi> ldoublev<Abi> lgamma(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> tgamma(floatv<Abi> x); +template <class Abi> doublev<Abi> tgamma(doublev<Abi> x); +template <class Abi> ldoublev<Abi> tgamma(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> ceil(floatv<Abi> x); +template <class Abi> doublev<Abi> ceil(doublev<Abi> x); +template <class Abi> ldoublev<Abi> ceil(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> floor(floatv<Abi> x); +template <class Abi> doublev<Abi> floor(doublev<Abi> x); +template <class Abi> ldoublev<Abi> floor(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> nearbyint(floatv<Abi> x); +template <class Abi> doublev<Abi> nearbyint(doublev<Abi> x); +template <class Abi> ldoublev<Abi> nearbyint(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> rint(floatv<Abi> x); +template <class Abi> doublev<Abi> rint(doublev<Abi> x); +template <class Abi> ldoublev<Abi> rint(ldoublev<Abi> x); + +template <class Abi> samesize<long int, floatv<Abi>> lrint(floatv<Abi> x); +template <class Abi> samesize<long int, doublev<Abi>> lrint(doublev<Abi> x); +template <class Abi> samesize<long int, ldoublev<Abi>> lrint(ldoublev<Abi> x); +template <class Abi> samesize<long long int, floatv<Abi>> llrint(floatv<Abi> x); +template <class Abi> samesize<long long int, doublev<Abi>> llrint(doublev<Abi> x); +template <class Abi> samesize<long long int, ldoublev<Abi>> llrint(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> round(floatv<Abi> x); +template <class Abi> doublev<Abi> round(doublev<Abi> x); +template <class Abi> ldoublev<Abi> round(ldoublev<Abi> x); +template <class Abi> samesize<long int, floatv<Abi>> lround(floatv<Abi> x); +template <class Abi> samesize<long int, doublev<Abi>> lround(doublev<Abi> x); +template <class Abi> samesize<long int, ldoublev<Abi>> lround(ldoublev<Abi> x); +template <class Abi> samesize<long long int, floatv<Abi>> llround(floatv<Abi> x); +template <class Abi> samesize<long long int, doublev<Abi>> llround(doublev<Abi> x); +template <class Abi> samesize<long long int, ldoublev<Abi>> llround(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> trunc(floatv<Abi> x); +template <class Abi> doublev<Abi> trunc(doublev<Abi> x); +template <class Abi> ldoublev<Abi> trunc(ldoublev<Abi> x); + +template <class Abi> floatv<Abi> fmod(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> fmod(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> fmod(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> floatv<Abi> remainder(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> remainder(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> remainder(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> floatv<Abi> remquo(floatv<Abi> x, floatv<Abi> y, samesize<int, floatv<Abi>>* quo); +template <class Abi> doublev<Abi> remquo(doublev<Abi> x, doublev<Abi> y, samesize<int, doublev<Abi>>* quo); +template <class Abi> ldoublev<Abi> remquo(ldoublev<Abi> x, ldoublev<Abi> y, samesize<int, ldoublev<Abi>>* quo); + +template <class Abi> floatv<Abi> copysign(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> copysign(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> copysign(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> doublev<Abi> nan(const char* tagp); +template <class Abi> floatv<Abi> nanf(const char* tagp); +template <class Abi> ldoublev<Abi> nanl(const char* tagp); + +template <class Abi> floatv<Abi> nextafter(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> nextafter(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> nextafter(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> floatv<Abi> nexttoward(floatv<Abi> x, ldoublev<Abi> y); +template <class Abi> doublev<Abi> nexttoward(doublev<Abi> x, ldoublev<Abi> y); +template <class Abi> ldoublev<Abi> nexttoward(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> floatv<Abi> fdim(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> fdim(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> fdim(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> floatv<Abi> fmax(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> fmax(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> fmax(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> floatv<Abi> fmin(floatv<Abi> x, floatv<Abi> y); +template <class Abi> doublev<Abi> fmin(doublev<Abi> x, doublev<Abi> y); +template <class Abi> ldoublev<Abi> fmin(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> floatv<Abi> fma(floatv<Abi> x, floatv<Abi> y, floatv<Abi> z); +template <class Abi> doublev<Abi> fma(doublev<Abi> x, doublev<Abi> y, doublev<Abi> z); +template <class Abi> ldoublev<Abi> fma(ldoublev<Abi> x, ldoublev<Abi> y, ldoublev<Abi> z); + +template <class Abi> samesize<int, floatv<Abi>> fpclassify(floatv<Abi> x); +template <class Abi> samesize<int, doublev<Abi>> fpclassify(doublev<Abi> x); +template <class Abi> samesize<int, ldoublev<Abi>> fpclassify(ldoublev<Abi> x); + +template <class Abi> simd_mask<float, Abi> isfinite(floatv<Abi> x); +template <class Abi> simd_mask<double, Abi> isfinite(doublev<Abi> x); +template <class Abi> simd_mask<long double, Abi> isfinite(ldoublev<Abi> x); + +template <class Abi> simd_mask<float, Abi> isinf(floatv<Abi> x); +template <class Abi> simd_mask<double, Abi> isinf(doublev<Abi> x); +template <class Abi> simd_mask<long double, Abi> isinf(ldoublev<Abi> x); + +template <class Abi> simd_mask<float, Abi> isnan(floatv<Abi> x); +template <class Abi> simd_mask<double, Abi> isnan(doublev<Abi> x); +template <class Abi> simd_mask<long double, Abi> isnan(ldoublev<Abi> x); + +template <class Abi> simd_mask<float, Abi> isnormal(floatv<Abi> x); +template <class Abi> simd_mask<double, Abi> isnormal(doublev<Abi> x); +template <class Abi> simd_mask<long double, Abi> isnormal(ldoublev<Abi> x); + +template <class Abi> simd_mask<float, Abi> signbit(floatv<Abi> x); +template <class Abi> simd_mask<double, Abi> signbit(doublev<Abi> x); +template <class Abi> simd_mask<long double, Abi> signbit(ldoublev<Abi> x); + +template <class Abi> simd_mask<float, Abi> isgreater(floatv<Abi> x, floatv<Abi> y); +template <class Abi> simd_mask<double, Abi> isgreater(doublev<Abi> x, doublev<Abi> y); +template <class Abi> simd_mask<long double, Abi> isgreater(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> simd_mask<float, Abi> isgreaterequal(floatv<Abi> x, floatv<Abi> y); +template <class Abi> simd_mask<double, Abi> isgreaterequal(doublev<Abi> x, doublev<Abi> y); +template <class Abi> simd_mask<long double, Abi> isgreaterequal(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> simd_mask<float, Abi> isless(floatv<Abi> x, floatv<Abi> y); +template <class Abi> simd_mask<double, Abi> isless(doublev<Abi> x, doublev<Abi> y); +template <class Abi> simd_mask<long double, Abi> isless(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> simd_mask<float, Abi> islessequal(floatv<Abi> x, floatv<Abi> y); +template <class Abi> simd_mask<double, Abi> islessequal(doublev<Abi> x, doublev<Abi> y); +template <class Abi> simd_mask<long double, Abi> islessequal(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> simd_mask<float, Abi> islessgreater(floatv<Abi> x, floatv<Abi> y); +template <class Abi> simd_mask<double, Abi> islessgreater(doublev<Abi> x, doublev<Abi> y); +template <class Abi> simd_mask<long double, Abi> islessgreater(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class Abi> simd_mask<float, Abi> isunordered(floatv<Abi> x, floatv<Abi> y); +template <class Abi> simd_mask<double, Abi> isunordered(doublev<Abi> x, doublev<Abi> y); +template <class Abi> simd_mask<long double, Abi> isunordered(ldoublev<Abi> x, ldoublev<Abi> y); + +template <class V> struct simd_div_t { V quot, rem; }; +template <class Abi> simd_div_t<scharv<Abi>> div(scharv<Abi> numer, scharv<Abi> denom); +template <class Abi> simd_div_t<shortv<Abi>> div(shortv<Abi> numer, shortv<Abi> denom); +template <class Abi> simd_div_t<intv<Abi>> div(intv<Abi> numer, intv<Abi> denom); +template <class Abi> simd_div_t<longv<Abi>> div(longv<Abi> numer, longv<Abi> denom); +template <class Abi> simd_div_t<llongv<Abi>> div(llongv<Abi> numer, llongv<Abi> denom); + +// [simd.mask.class] +template <class T, class Abi> +class simd_mask { +public: + using value_type = bool; + using reference = see below; + using simd_type = simd<T, Abi>; + using abi_type = Abi; + static constexpr size_t size() noexcept; + simd_mask() = default; + + // broadcast constructor + explicit simd_mask(value_type) noexcept; + + // implicit type conversion constructor + template <class U> simd_mask(const simd_mask<U, simd_abi::fixed_size<size()>>&) noexcept; + + // load constructor + template <class Flags> simd_mask(const value_type* mem, Flags); + + // loads [simd.mask.copy] + template <class Flags> void copy_from(const value_type* mem, Flags); + template <class Flags> void copy_to(value_type* mem, Flags) const; + + // scalar access [simd.mask.subscr] + reference operator[](size_t); + value_type operator[](size_t) const; + + // unary operators [simd.mask.unary] + simd_mask operator!() const noexcept; + + // simd_mask binary operators [simd.mask.binary] + friend simd_mask operator&&(const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator||(const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator& (const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator| (const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator^ (const simd_mask&, const simd_mask&) noexcept; + + // simd_mask compound assignment [simd.mask.cassign] + friend simd_mask& operator&=(simd_mask&, const simd_mask&) noexcept; + friend simd_mask& operator|=(simd_mask&, const simd_mask&) noexcept; + friend simd_mask& operator^=(simd_mask&, const simd_mask&) noexcept; + + // simd_mask compares [simd.mask.comparison] + friend simd_mask operator==(const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator!=(const simd_mask&, const simd_mask&) noexcept; +}; + +} // parallelism_v2 +} // std::experimental + +*/ + +#include <experimental/__config> +#include <algorithm> +#include <array> +#include <cstddef> +#include <functional> + +#if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER) +#pragma GCC system_header +#endif + +_LIBCPP_BEGIN_NAMESPACE_EXPERIMENTAL_SIMD + +#if _LIBCPP_STD_VER >= 17 + +enum class _StorageKind { + _Scalar, + _Array, + _VecExt, +}; + +template <_StorageKind __kind, int _Np> +struct __simd_abi {}; + +template <class _Tp, class _Abi> +class __simd_storage {}; + +template <class _Tp, int __num_element> +class __simd_storage<_Tp, __simd_abi<_StorageKind::_Array, __num_element>> { + std::array<_Tp, __num_element> __storage_; + + template <class, class> + friend struct simd; + + template <class, class> + friend struct simd_mask; + +public: + _Tp __get(size_t __index) const noexcept { return __storage_[__index]; }; + void __set(size_t __index, _Tp __val) noexcept { + __storage_[__index] = __val; + } +}; + +template <class _Tp> +class __simd_storage<_Tp, __simd_abi<_StorageKind::_Scalar, 1>> { + _Tp __storage_; + + template <class, class> + friend struct simd; + + template <class, class> + friend struct simd_mask; + +public: + _Tp __get(size_t __index) const noexcept { return (&__storage_)[__index]; }; + void __set(size_t __index, _Tp __val) noexcept { + (&__storage_)[__index] = __val; + } +}; + +#ifndef _LIBCPP_HAS_NO_VECTOR_EXTENSION + +constexpr size_t __floor_pow_of_2(size_t __val) { + return ((__val - 1) & __val) == 0 ? __val + : __floor_pow_of_2((__val - 1) & __val); +} + +constexpr size_t __ceil_pow_of_2(size_t __val) { + return __val == 1 ? 1 : __floor_pow_of_2(__val - 1) << 1; +} + +template <class _Tp, size_t __bytes> +struct __vec_ext_traits { +#if !defined(_LIBCPP_COMPILER_CLANG) + typedef _Tp type __attribute__((vector_size(__ceil_pow_of_2(__bytes)))); +#endif +}; + +#if defined(_LIBCPP_COMPILER_CLANG) +#define _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, _NUM_ELEMENT) \ + template <> \ + struct __vec_ext_traits<_TYPE, sizeof(_TYPE) * _NUM_ELEMENT> { \ + using type = \ + _TYPE __attribute__((vector_size(sizeof(_TYPE) * _NUM_ELEMENT))); \ + } + +#define _LIBCPP_SPECIALIZE_VEC_EXT_32(_TYPE) \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 1); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 2); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 3); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 4); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 5); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 6); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 7); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 8); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 9); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 10); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 11); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 12); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 13); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 14); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 15); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 16); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 17); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 18); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 19); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 20); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 21); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 22); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 23); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 24); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 25); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 26); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 27); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 28); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 29); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 30); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 31); \ + _LIBCPP_SPECIALIZE_VEC_EXT(_TYPE, 32); + +_LIBCPP_SPECIALIZE_VEC_EXT_32(char); +_LIBCPP_SPECIALIZE_VEC_EXT_32(char16_t); +_LIBCPP_SPECIALIZE_VEC_EXT_32(char32_t); +_LIBCPP_SPECIALIZE_VEC_EXT_32(wchar_t); +_LIBCPP_SPECIALIZE_VEC_EXT_32(signed char); +_LIBCPP_SPECIALIZE_VEC_EXT_32(signed short); +_LIBCPP_SPECIALIZE_VEC_EXT_32(signed int); +_LIBCPP_SPECIALIZE_VEC_EXT_32(signed long); +_LIBCPP_SPECIALIZE_VEC_EXT_32(signed long long); +_LIBCPP_SPECIALIZE_VEC_EXT_32(unsigned char); +_LIBCPP_SPECIALIZE_VEC_EXT_32(unsigned short); +_LIBCPP_SPECIALIZE_VEC_EXT_32(unsigned int); +_LIBCPP_SPECIALIZE_VEC_EXT_32(unsigned long); +_LIBCPP_SPECIALIZE_VEC_EXT_32(unsigned long long); +_LIBCPP_SPECIALIZE_VEC_EXT_32(float); +_LIBCPP_SPECIALIZE_VEC_EXT_32(double); +_LIBCPP_SPECIALIZE_VEC_EXT_32(long double); + +#undef _LIBCPP_SPECIALIZE_VEC_EXT_32 +#undef _LIBCPP_SPECIALIZE_VEC_EXT +#endif + +template <class _Tp, int __num_element> +class __simd_storage<_Tp, __simd_abi<_StorageKind::_VecExt, __num_element>> { + using _StorageType = + typename __vec_ext_traits<_Tp, sizeof(_Tp) * __num_element>::type; + + _StorageType __storage_; + + template <class, class> + friend struct simd; + + template <class, class> + friend struct simd_mask; + +public: + _Tp __get(size_t __index) const noexcept { return __storage_[__index]; }; + void __set(size_t __index, _Tp __val) noexcept { + __storage_[__index] = __val; + } +}; + +#endif // _LIBCPP_HAS_NO_VECTOR_EXTENSION + +template <class _Vp, class _Tp, class _Abi> +class __simd_reference { + static_assert(std::is_same<_Vp, _Tp>::value, ""); + + template <class, class> + friend struct simd; + + template <class, class> + friend struct simd_mask; + + __simd_storage<_Tp, _Abi>* __ptr_; + size_t __index_; + + __simd_reference(__simd_storage<_Tp, _Abi>* __ptr, size_t __index) + : __ptr_(__ptr), __index_(__index) {} + + __simd_reference(const __simd_reference&) = default; + +public: + __simd_reference() = delete; + __simd_reference& operator=(const __simd_reference&) = delete; + + operator _Vp() const { return __ptr_->__get(__index_); } + + __simd_reference operator=(_Vp __value) && { + __ptr_->__set(__index_, __value); + return *this; + } + + __simd_reference operator++() && { + return std::move(*this) = __ptr_->__get(__index_) + 1; + } + + _Vp operator++(int) && { + auto __val = __ptr_->__get(__index_); + __ptr_->__set(__index_, __val + 1); + return __val; + } + + __simd_reference operator--() && { + return std::move(*this) = __ptr_->__get(__index_) - 1; + } + + _Vp operator--(int) && { + auto __val = __ptr_->__get(__index_); + __ptr_->__set(__index_, __val - 1); + return __val; + } + + __simd_reference operator+=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) + __value; + } + + __simd_reference operator-=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) - __value; + } + + __simd_reference operator*=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) * __value; + } + + __simd_reference operator/=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) / __value; + } + + __simd_reference operator%=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) % __value; + } + + __simd_reference operator>>=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) >> __value; + } + + __simd_reference operator<<=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) << __value; + } + + __simd_reference operator&=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) & __value; + } + + __simd_reference operator|=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) | __value; + } + + __simd_reference operator^=(_Vp __value) && { + return std::move(*this) = __ptr_->__get(__index_) ^ __value; + } +}; + +template <class _To, class _From> +constexpr decltype(_To{std::declval<_From>()}, true) +__is_non_narrowing_convertible_impl(_From) { + return true; +} + +template <class _To> +constexpr bool __is_non_narrowing_convertible_impl(...) { + return false; +} + +template <class _From, class _To> +constexpr typename std::enable_if<std::is_arithmetic<_To>::value && + std::is_arithmetic<_From>::value, + bool>::type +__is_non_narrowing_arithmetic_convertible() { + return __is_non_narrowing_convertible_impl<_To>(_From{}); +} + +template <class _From, class _To> +constexpr typename std::enable_if<!(std::is_arithmetic<_To>::value && + std::is_arithmetic<_From>::value), + bool>::type +__is_non_narrowing_arithmetic_convertible() { + return false; +} + +template <class _Tp> +constexpr _Tp __variadic_sum() { + return _Tp{}; +} + +template <class _Tp, class _Up, class... _Args> +constexpr _Tp __variadic_sum(_Up __first, _Args... __rest) { + return static_cast<_Tp>(__first) + __variadic_sum<_Tp>(__rest...); +} + +template <class _Tp> +struct __nodeduce { + using type = _Tp; +}; + +template <class _Tp> +constexpr bool __vectorizable() { + return std::is_arithmetic<_Tp>::value && !std::is_const<_Tp>::value && + !std::is_volatile<_Tp>::value && !std::is_same<_Tp, bool>::value; +} + +_LIBCPP_END_NAMESPACE_EXPERIMENTAL_SIMD +_LIBCPP_BEGIN_NAMESPACE_EXPERIMENTAL_SIMD_ABI + +using scalar = __simd_abi<_StorageKind::_Scalar, 1>; + +template <int _Np> +using fixed_size = __simd_abi<_StorageKind::_Array, _Np>; + +template <class _Tp> +_LIBCPP_INLINE_VAR constexpr size_t max_fixed_size = 32; + +template <class _Tp> +using compatible = fixed_size<16 / sizeof(_Tp)>; + +#ifndef _LIBCPP_HAS_NO_VECTOR_EXTENSION +template <class _Tp> +using native = __simd_abi<_StorageKind::_VecExt, + _LIBCPP_NATIVE_SIMD_WIDTH_IN_BYTES / sizeof(_Tp)>; +#else +template <class _Tp> +using native = + fixed_size<_Tp, _LIBCPP_NATIVE_SIMD_WIDTH_IN_BYTES / sizeof(_Tp)>; +#endif // _LIBCPP_HAS_NO_VECTOR_EXTENSION + +_LIBCPP_END_NAMESPACE_EXPERIMENTAL_SIMD_ABI +_LIBCPP_BEGIN_NAMESPACE_EXPERIMENTAL_SIMD + +template <class _Tp, class _Abi = simd_abi::compatible<_Tp>> +class simd; +template <class _Tp, class _Abi = simd_abi::compatible<_Tp>> +class simd_mask; + +struct element_aligned_tag {}; +struct vector_aligned_tag {}; +template <size_t> +struct overaligned_tag {}; +_LIBCPP_INLINE_VAR constexpr element_aligned_tag element_aligned{}; +_LIBCPP_INLINE_VAR constexpr vector_aligned_tag vector_aligned{}; +template <size_t _Np> +_LIBCPP_INLINE_VAR constexpr overaligned_tag<_Np> overaligned{}; + +// traits [simd.traits] +template <class _Tp> +struct is_abi_tag : std::integral_constant<bool, false> {}; + +template <_StorageKind __kind, int _Np> +struct is_abi_tag<__simd_abi<__kind, _Np>> + : std::integral_constant<bool, true> {}; + +template <class _Tp> +struct is_simd : std::integral_constant<bool, false> {}; + +template <class _Tp, class _Abi> +struct is_simd<simd<_Tp, _Abi>> : std::integral_constant<bool, true> {}; + +template <class _Tp> +struct is_simd_mask : std::integral_constant<bool, false> {}; + +template <class _Tp, class _Abi> +struct is_simd_mask<simd_mask<_Tp, _Abi>> : std::integral_constant<bool, true> { +}; + +template <class _Tp> +struct is_simd_flag_type : std::integral_constant<bool, false> {}; + +template <> +struct is_simd_flag_type<element_aligned_tag> + : std::integral_constant<bool, true> {}; + +template <> +struct is_simd_flag_type<vector_aligned_tag> + : std::integral_constant<bool, true> {}; + +template <size_t _Align> +struct is_simd_flag_type<overaligned_tag<_Align>> + : std::integral_constant<bool, true> {}; + +template <class _Tp> +_LIBCPP_INLINE_VAR constexpr bool is_abi_tag_v = is_abi_tag<_Tp>::value; +template <class _Tp> +_LIBCPP_INLINE_VAR constexpr bool is_simd_v = is_simd<_Tp>::value; +template <class _Tp> +_LIBCPP_INLINE_VAR constexpr bool is_simd_mask_v = is_simd_mask<_Tp>::value; +template <class _Tp> +_LIBCPP_INLINE_VAR constexpr bool is_simd_flag_type_v = + is_simd_flag_type<_Tp>::value; +template <class _Tp, size_t _Np> +struct abi_for_size { + using type = simd_abi::fixed_size<_Np>; +}; +template <class _Tp, size_t _Np> +using abi_for_size_t = typename abi_for_size<_Tp, _Np>::type; + +template <class _Tp, class _Abi = simd_abi::compatible<_Tp>> +struct simd_size; + +template <class _Tp, _StorageKind __kind, int _Np> +struct simd_size<_Tp, __simd_abi<__kind, _Np>> + : std::integral_constant<size_t, _Np> { + static_assert( + std::is_arithmetic<_Tp>::value && + !std::is_same<typename std::remove_const<_Tp>::type, bool>::value, + "Element type should be vectorizable"); +}; + +// TODO: implement it. +template <class _Tp, class _Up = typename _Tp::value_type> +struct memory_alignment; + +template <class _Tp, class _Abi = simd_abi::compatible<_Tp>> +_LIBCPP_INLINE_VAR constexpr size_t simd_size_v = simd_size<_Tp, _Abi>::value; + +template <class _Tp, class _Up = typename _Tp::value_type> +_LIBCPP_INLINE_VAR constexpr size_t memory_alignment_v = + memory_alignment<_Tp, _Up>::value; + +// class template simd [simd.class] +template <class _Tp> +using native_simd = simd<_Tp, simd_abi::native<_Tp>>; +template <class _Tp, int _Np> +using fixed_size_simd = simd<_Tp, simd_abi::fixed_size<_Np>>; + +// class template simd_mask [simd.mask.class] +template <class _Tp> +using native_simd_mask = simd_mask<_Tp, simd_abi::native<_Tp>>; + +template <class _Tp, int _Np> +using fixed_size_simd_mask = simd_mask<_Tp, simd_abi::fixed_size<_Np>>; + +// casts [simd.casts] +template <class _Tp> +struct __static_simd_cast_traits { + template <class _Up, class _Abi> + static simd<_Tp, _Abi> __apply(const simd<_Up, _Abi>& __v); +}; + +template <class _Tp, class _NewAbi> +struct __static_simd_cast_traits<simd<_Tp, _NewAbi>> { + template <class _Up, class _Abi> + static typename std::enable_if<simd<_Up, _Abi>::size() == + simd<_Tp, _NewAbi>::size(), + simd<_Tp, _NewAbi>>::type + __apply(const simd<_Up, _Abi>& __v); +}; + +template <class _Tp> +struct __simd_cast_traits { + template <class _Up, class _Abi> + static typename std::enable_if< + __is_non_narrowing_arithmetic_convertible<_Up, _Tp>(), + simd<_Tp, _Abi>>::type + __apply(const simd<_Up, _Abi>& __v); +}; + +template <class _Tp, class _NewAbi> +struct __simd_cast_traits<simd<_Tp, _NewAbi>> { + template <class _Up, class _Abi> + static typename std::enable_if< + __is_non_narrowing_arithmetic_convertible<_Up, _Tp>() && + simd<_Up, _Abi>::size() == simd<_Tp, _NewAbi>::size(), + simd<_Tp, _NewAbi>>::type + __apply(const simd<_Up, _Abi>& __v); +}; + +template <class _Tp, class _Up, class _Abi> +auto simd_cast(const simd<_Up, _Abi>& __v) + -> decltype(__simd_cast_traits<_Tp>::__apply(__v)) { + return __simd_cast_traits<_Tp>::__apply(__v); +} + +template <class _Tp, class _Up, class _Abi> +auto static_simd_cast(const simd<_Up, _Abi>& __v) + -> decltype(__static_simd_cast_traits<_Tp>::__apply(__v)) { + return __static_simd_cast_traits<_Tp>::__apply(__v); +} + +template <class _Tp, class _Abi> +fixed_size_simd<_Tp, simd_size<_Tp, _Abi>::value> +to_fixed_size(const simd<_Tp, _Abi>&) noexcept; + +template <class _Tp, class _Abi> +fixed_size_simd_mask<_Tp, simd_size<_Tp, _Abi>::value> +to_fixed_size(const simd_mask<_Tp, _Abi>&) noexcept; + +template <class _Tp, size_t _Np> +native_simd<_Tp> to_native(const fixed_size_simd<_Tp, _Np>&) noexcept; + +template <class _Tp, size_t _Np> +native_simd_mask<_Tp> to_native(const fixed_size_simd_mask<_Tp, _Np>&) noexcept; + +template <class _Tp, size_t _Np> +simd<_Tp> to_compatible(const fixed_size_simd<_Tp, _Np>&) noexcept; + +template <class _Tp, size_t _Np> +simd_mask<_Tp> to_compatible(const fixed_size_simd_mask<_Tp, _Np>&) noexcept; + +template <size_t... __sizes, class _Tp, class _Abi> +tuple<simd<_Tp, abi_for_size_t<_Tp, __sizes>>...> split(const simd<_Tp, _Abi>&); + +template <size_t... __sizes, class _Tp, class _Abi> +tuple<simd_mask<_Tp, abi_for_size_t<_Tp, __sizes>>...> +split(const simd_mask<_Tp, _Abi>&); + +template <class _SimdType, class _Abi> +array<_SimdType, simd_size<typename _SimdType::value_type, _Abi>::value / + _SimdType::size()> +split(const simd<typename _SimdType::value_type, _Abi>&); + +template <class _SimdType, class _Abi> +array<_SimdType, simd_size<typename _SimdType::value_type, _Abi>::value / + _SimdType::size()> +split(const simd_mask<typename _SimdType::value_type, _Abi>&); + +template <class _Tp, class... _Abis> +simd<_Tp, abi_for_size_t<_Tp, __variadic_sum(simd_size<_Tp, _Abis>::value...)>> +concat(const simd<_Tp, _Abis>&...); + +template <class _Tp, class... _Abis> +simd_mask<_Tp, + abi_for_size_t<_Tp, __variadic_sum(simd_size<_Tp, _Abis>::value...)>> +concat(const simd_mask<_Tp, _Abis>&...); + +// reductions [simd.mask.reductions] +template <class _Tp, class _Abi> +bool all_of(const simd_mask<_Tp, _Abi>&) noexcept; +template <class _Tp, class _Abi> +bool any_of(const simd_mask<_Tp, _Abi>&) noexcept; +template <class _Tp, class _Abi> +bool none_of(const simd_mask<_Tp, _Abi>&) noexcept; +template <class _Tp, class _Abi> +bool some_of(const simd_mask<_Tp, _Abi>&) noexcept; +template <class _Tp, class _Abi> +int popcount(const simd_mask<_Tp, _Abi>&) noexcept; +template <class _Tp, class _Abi> +int find_first_set(const simd_mask<_Tp, _Abi>&); +template <class _Tp, class _Abi> +int find_last_set(const simd_mask<_Tp, _Abi>&); +bool all_of(bool) noexcept; +bool any_of(bool) noexcept; +bool none_of(bool) noexcept; +bool some_of(bool) noexcept; +int popcount(bool) noexcept; +int find_first_set(bool) noexcept; +int find_last_set(bool) noexcept; + +// masked assignment [simd.whereexpr] +template <class _MaskType, class _Tp> +class const_where_expression; +template <class _MaskType, class _Tp> +class where_expression; + +// masked assignment [simd.mask.where] +template <class _Tp, class _Abi> +where_expression<simd_mask<_Tp, _Abi>, simd<_Tp, _Abi>> +where(const typename simd<_Tp, _Abi>::mask_type&, simd<_Tp, _Abi>&) noexcept; + +template <class _Tp, class _Abi> +const_where_expression<simd_mask<_Tp, _Abi>, const simd<_Tp, _Abi>> +where(const typename simd<_Tp, _Abi>::mask_type&, + const simd<_Tp, _Abi>&) noexcept; + +template <class _Tp, class _Abi> +where_expression<simd_mask<_Tp, _Abi>, simd_mask<_Tp, _Abi>> +where(const typename __nodeduce<simd_mask<_Tp, _Abi>>::type&, + simd_mask<_Tp, _Abi>&) noexcept; + +template <class _Tp, class _Abi> +const_where_expression<simd_mask<_Tp, _Abi>, const simd_mask<_Tp, _Abi>> +where(const typename __nodeduce<simd_mask<_Tp, _Abi>>::type&, + const simd_mask<_Tp, _Abi>&) noexcept; + +template <class _Tp> +where_expression<bool, _Tp> where(bool, _Tp&) noexcept; + +template <class _Tp> +const_where_expression<bool, const _Tp> where(bool, const _Tp&) noexcept; + +// reductions [simd.reductions] +template <class _Tp, class _Abi, class _BinaryOp = std::plus<_Tp>> +_Tp reduce(const simd<_Tp, _Abi>&, _BinaryOp = _BinaryOp()); + +template <class _MaskType, class _SimdType, class _BinaryOp> +typename _SimdType::value_type +reduce(const const_where_expression<_MaskType, _SimdType>&, + typename _SimdType::value_type neutral_element, _BinaryOp binary_op); + +template <class _MaskType, class _SimdType> +typename _SimdType::value_type +reduce(const const_where_expression<_MaskType, _SimdType>&, + plus<typename _SimdType::value_type> binary_op = {}); + +template <class _MaskType, class _SimdType> +typename _SimdType::value_type +reduce(const const_where_expression<_MaskType, _SimdType>&, + multiplies<typename _SimdType::value_type> binary_op); + +template <class _MaskType, class _SimdType> +typename _SimdType::value_type +reduce(const const_where_expression<_MaskType, _SimdType>&, + bit_and<typename _SimdType::value_type> binary_op); + +template <class _MaskType, class _SimdType> +typename _SimdType::value_type +reduce(const const_where_expression<_MaskType, _SimdType>&, + bit_or<typename _SimdType::value_type> binary_op); + +template <class _MaskType, class _SimdType> +typename _SimdType::value_type +reduce(const const_where_expression<_MaskType, _SimdType>&, + bit_xor<typename _SimdType::value_type> binary_op); + +template <class _Tp, class _Abi> +_Tp hmin(const simd<_Tp, _Abi>&); +template <class _MaskType, class _SimdType> +typename _SimdType::value_type +hmin(const const_where_expression<_MaskType, _SimdType>&); +template <class _Tp, class _Abi> +_Tp hmax(const simd<_Tp, _Abi>&); +template <class _MaskType, class _SimdType> +typename _SimdType::value_type +hmax(const const_where_expression<_MaskType, _SimdType>&); + +// algorithms [simd.alg] +template <class _Tp, class _Abi> +simd<_Tp, _Abi> min(const simd<_Tp, _Abi>&, const simd<_Tp, _Abi>&) noexcept; + +template <class _Tp, class _Abi> +simd<_Tp, _Abi> max(const simd<_Tp, _Abi>&, const simd<_Tp, _Abi>&) noexcept; + +template <class _Tp, class _Abi> +std::pair<simd<_Tp, _Abi>, simd<_Tp, _Abi>> +minmax(const simd<_Tp, _Abi>&, const simd<_Tp, _Abi>&) noexcept; + +template <class _Tp, class _Abi> +simd<_Tp, _Abi> clamp(const simd<_Tp, _Abi>&, const simd<_Tp, _Abi>&, + const simd<_Tp, _Abi>&); + +// [simd.whereexpr] +// TODO implement where expressions. +template <class _MaskType, class _Tp> +class const_where_expression { +public: + const_where_expression(const const_where_expression&) = delete; + const_where_expression& operator=(const const_where_expression&) = delete; + typename remove_const<_Tp>::type operator-() const&&; + template <class _Up, class _Flags> + void copy_to(_Up*, _Flags) const&&; +}; + +template <class _MaskType, class _Tp> +class where_expression : public const_where_expression<_MaskType, _Tp> { +public: + where_expression(const where_expression&) = delete; + where_expression& operator=(const where_expression&) = delete; + template <class _Up> + void operator=(_Up&&); + template <class _Up> + void operator+=(_Up&&); + template <class _Up> + void operator-=(_Up&&); + template <class _Up> + void operator*=(_Up&&); + template <class _Up> + void operator/=(_Up&&); + template <class _Up> + void operator%=(_Up&&); + template <class _Up> + void operator&=(_Up&&); + template <class _Up> + void operator|=(_Up&&); + template <class _Up> + void operator^=(_Up&&); + template <class _Up> + void operator<<=(_Up&&); + template <class _Up> + void operator>>=(_Up&&); + void operator++(); + void operator++(int); + void operator--(); + void operator--(int); + template <class _Up, class _Flags> + void copy_from(const _Up*, _Flags); +}; + +// [simd.class] +// TODO: implement simd +template <class _Tp, class _Abi> +class simd { +public: + using value_type = _Tp; + using reference = __simd_reference<_Tp, _Tp, _Abi>; + using mask_type = simd_mask<_Tp, _Abi>; + using abi_type = _Abi; + + simd() = default; + simd(const simd&) = default; + simd& operator=(const simd&) = default; + + static constexpr size_t size() noexcept { + return simd_size<_Tp, _Abi>::value; + } + +private: + __simd_storage<_Tp, _Abi> __s_; + + template <class _Up> + static constexpr bool __can_broadcast() { + return (std::is_arithmetic<_Up>::value && + __is_non_narrowing_arithmetic_convertible<_Up, _Tp>()) || + (!std::is_arithmetic<_Up>::value && + std::is_convertible<_Up, _Tp>::value) || + std::is_same<typename std::remove_const<_Up>::type, int>::value || + (std::is_same<typename std::remove_const<_Up>::type, + unsigned int>::value && + std::is_unsigned<_Tp>::value); + } + + template <class _Generator, size_t... __indicies> + static constexpr decltype( + std::forward_as_tuple(std::declval<_Generator>()( + std::integral_constant<size_t, __indicies>())...), + bool()) + __can_generate(std::index_sequence<__indicies...>) { + return !__variadic_sum<bool>( + !__can_broadcast<decltype(std::declval<_Generator>()( + std::integral_constant<size_t, __indicies>()))>()...); + } + + template <class _Generator> + static bool __can_generate(...) { + return false; + } + + template <class _Generator, size_t... __indicies> + void __generator_init(_Generator&& __g, std::index_sequence<__indicies...>) { + int __not_used[]{((*this)[__indicies] = + __g(std::integral_constant<size_t, __indicies>()), + 0)...}; + (void)__not_used; + } + +public: + // implicit type conversion constructor + template <class _Up, + class = typename std::enable_if< + std::is_same<_Abi, simd_abi::fixed_size<size()>>::value && + __is_non_narrowing_arithmetic_convertible<_Up, _Tp>()>::type> + simd(const simd<_Up, simd_abi::fixed_size<size()>>& __v) { + for (size_t __i = 0; __i < size(); __i++) { + (*this)[__i] = static_cast<_Tp>(__v[__i]); + } + } + + // implicit broadcast constructor + template <class _Up, + class = typename std::enable_if<__can_broadcast<_Up>()>::type> + simd(_Up&& __rv) { + auto __v = static_cast<_Tp>(__rv); + for (size_t __i = 0; __i < size(); __i++) { + (*this)[__i] = __v; + } + } + + // generator constructor + template <class _Generator, + int = typename std::enable_if< + __can_generate<_Generator>(std::make_index_sequence<size()>()), + int>::type()> + explicit simd(_Generator&& __g) { + __generator_init(std::forward<_Generator>(__g), + std::make_index_sequence<size()>()); + } + + // load constructor + template < + class _Up, class _Flags, + class = typename std::enable_if<__vectorizable<_Up>()>::type, + class = typename std::enable_if<is_simd_flag_type<_Flags>::value>::type> + simd(const _Up* __buffer, _Flags) { + // TODO: optimize for overaligned flags + for (size_t __i = 0; __i < size(); __i++) { + (*this)[__i] = static_cast<_Tp>(__buffer[__i]); + } + } + + // loads [simd.load] + template <class _Up, class _Flags> + typename std::enable_if<__vectorizable<_Up>() && + is_simd_flag_type<_Flags>::value>::type + copy_from(const _Up* __buffer, _Flags) { + *this = simd(__buffer, _Flags()); + } + + // stores [simd.store] + template <class _Up, class _Flags> + typename std::enable_if<__vectorizable<_Up>() && + is_simd_flag_type<_Flags>::value>::type + copy_to(_Up* __buffer, _Flags) const { + // TODO: optimize for overaligned flags + for (size_t __i = 0; __i < size(); __i++) { + __buffer[__i] = static_cast<_Up>((*this)[__i]); + } + } + + // scalar access [simd.subscr] + reference operator[](size_t __i) { return reference(&__s_, __i); } + + value_type operator[](size_t __i) const { return __s_.__get(__i); } + + // unary operators [simd.unary] + simd& operator++(); + simd operator++(int); + simd& operator--(); + simd operator--(int); + mask_type operator!() const; + simd operator~() const; + simd operator+() const; + simd operator-() const; + + // binary operators [simd.binary] + friend simd operator+(const simd&, const simd&); + friend simd operator-(const simd&, const simd&); + friend simd operator*(const simd&, const simd&); + friend simd operator/(const simd&, const simd&); + friend simd operator%(const simd&, const simd&); + friend simd operator&(const simd&, const simd&); + friend simd operator|(const simd&, const simd&); + friend simd operator^(const simd&, const simd&); + friend simd operator<<(const simd&, const simd&); + friend simd operator>>(const simd&, const simd&); + friend simd operator<<(const simd&, int); + friend simd operator>>(const simd&, int); + + // compound assignment [simd.cassign] + friend simd& operator+=(simd&, const simd&); + friend simd& operator-=(simd&, const simd&); + friend simd& operator*=(simd&, const simd&); + friend simd& operator/=(simd&, const simd&); + friend simd& operator%=(simd&, const simd&); + + friend simd& operator&=(simd&, const simd&); + friend simd& operator|=(simd&, const simd&); + friend simd& operator^=(simd&, const simd&); + friend simd& operator<<=(simd&, const simd&); + friend simd& operator>>=(simd&, const simd&); + friend simd& operator<<=(simd&, int); + friend simd& operator>>=(simd&, int); + + // compares [simd.comparison] + friend mask_type operator==(const simd&, const simd&); + friend mask_type operator!=(const simd&, const simd&); + friend mask_type operator>=(const simd&, const simd&); + friend mask_type operator<=(const simd&, const simd&); + friend mask_type operator>(const simd&, const simd&); + friend mask_type operator<(const simd&, const simd&); +}; + +// [simd.mask.class] +template <class _Tp, class _Abi> +// TODO: implement simd_mask +class simd_mask { +public: + using value_type = bool; + // TODO: this is strawman implementation. Turn it into a proxy type. + using reference = bool&; + using simd_type = simd<_Tp, _Abi>; + using abi_type = _Abi; + static constexpr size_t size() noexcept; + simd_mask() = default; + + // broadcast constructor + explicit simd_mask(value_type) noexcept; + + // implicit type conversion constructor + template <class _Up> + simd_mask(const simd_mask<_Up, simd_abi::fixed_size<size()>>&) noexcept; + + // load constructor + template <class _Flags> + simd_mask(const value_type*, _Flags); + + // loads [simd.mask.copy] + template <class _Flags> + void copy_from(const value_type*, _Flags); + template <class _Flags> + void copy_to(value_type*, _Flags) const; + + // scalar access [simd.mask.subscr] + reference operator[](size_t); + value_type operator[](size_t) const; + + // unary operators [simd.mask.unary] + simd_mask operator!() const noexcept; + + // simd_mask binary operators [simd.mask.binary] + friend simd_mask operator&&(const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator||(const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator&(const simd_mask&, const simd_mask&)noexcept; + friend simd_mask operator|(const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator^(const simd_mask&, const simd_mask&) noexcept; + + // simd_mask compound assignment [simd.mask.cassign] + friend simd_mask& operator&=(simd_mask&, const simd_mask&) noexcept; + friend simd_mask& operator|=(simd_mask&, const simd_mask&) noexcept; + friend simd_mask& operator^=(simd_mask&, const simd_mask&) noexcept; + + // simd_mask compares [simd.mask.comparison] + friend simd_mask operator==(const simd_mask&, const simd_mask&) noexcept; + friend simd_mask operator!=(const simd_mask&, const simd_mask&) noexcept; +}; + +#endif // _LIBCPP_STD_VER >= 17 + +_LIBCPP_END_NAMESPACE_EXPERIMENTAL_SIMD + +#endif /* _LIBCPP_EXPERIMENTAL_SIMD */ |