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Experimental library header <experimental/simd>

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Experimental library headers
Execution P2300
<experimental/execution>
Filesystem TS
<experimental/filesystem>
Parallelism TS (v1, v2)
experimental/algorithm
experimental/execution_policy
experimental/exception_list
experimental/numeric
<experimental/simd>
experimental/task_block
Library Fundamentals TS (v1, v2, v3)
experimental/algorithm
<experimental/any>
experimental/array
experimental/chrono
experimental/deque
experimental/forward_list
<experimental/functional>
experimental/future
experimental/iterator
experimental/list
experimental/map
experimental/memory
<experimental/memory_resource>
experimental/numeric
<experimental/optional>
experimental/propagate_const
experimental/random
experimental/ratio
experimental/regex
experimental/scope
experimental/set
experimental/source_location
experimental/string
<experimental/string_view>
experimental/system_error
experimental/tuple
experimental/type_traits
experimental/unordered_map
experimental/unordered_set
experimental/utility
experimental/vector

Concurrency TS
experimental/atomic
experimental/barrier
experimental/future
experimental/latch
Ranges TS
Coroutines TS
experimental/coroutine
Networking TS
experimental/buffer
experimental/executor
experimental/internet
experimental/io_context
<experimental/net>
experimental/netfwd
experimental/socket
experimental/timer
Reflection TS
<experimental/reflect>
 

The header defines class templates, tag types, trait types, and function templates for element-wise operations on data-parallel objects.

[edit] Synopsis

namespace std::experimental {
inline namespace parallelism_v2 {
namespace simd_abi {
using scalar = /* see below */;
template <int N> using fixed_size = /* see below */;
template <class T>
constexpr int max_fixed_size = /* implementation-defined */;
template <class T> using compatible = /* implementation-defined */;
template <class T> using native = /* implementation-defined */;
template <class T, size_t N, class... Abis> struct deduce {
  using type = /* see below */;
};
template <class T, size_t N, class... Abis>
using deduce_t = typename deduce<T, N, Abis...>::type;
} // namespace 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> constexpr overaligned_tag<N> overaligned{};
// 9.4, simd type traits
template <class T> struct is_abi_tag;
template <class T> constexpr bool is_abi_tag_v = is_abi_tag<T>::value;
template <class T> struct is_simd;
template <class T> constexpr bool is_simd_v = is_simd<T>::value;
template <class T> struct is_simd_mask;
template <class T>
constexpr bool is_simd_mask_v = is_simd_mask<T>::value;
template <class T> struct is_simd_flag_type;
template <class T>
constexpr bool is_simd_flag_type_v = is_simd_flag_type<T>::value;
template <class T, class Abi = simd_abi::compatible<T>> struct simd_size;
template <class T, class Abi = simd_abi::compatible<T>>
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>
constexpr size_t memory_alignment_v = memory_alignment<T, U>::value;
template <class T, class V> struct rebind_simd { using type = /* see below */; };
template <class T, class V>
using rebind_simd_t = typename rebind_simd<T, V>::type;
template <int N, class V> struct resize_simd { using type = /* see below */; };
template <int N, class V>
using resize_simd_t = typename resize_simd<N, V>::type;
// 9.6, Class template simd
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>>;
// 9.8, Class template simd_mask
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>>;
// 9.7.5, Casts
template <class T, class U, class Abi>
/* see below */ simd_cast(const simd<U, Abi> &) noexcept;
template <class T, class U, class Abi>
/* see below */ static_simd_cast(const simd<U, Abi> &) noexcept;
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, int N>
native_simd<T> to_native(const fixed_size_simd<T, N> &) noexcept;
template <class T, int N>
native_simd_mask<T> to_native(const fixed_size_simd_mask<T, N> &) noexcept;
template <class T, int N>
simd<T> to_compatible(const fixed_size_simd<T, N> &) noexcept;
template <class T, int 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, simd_abi::deduce_t<T, Sizes>>...>
split(const simd<T, Abi> &) noexcept;
template <size_t... Sizes, class T, class Abi>
tuple<simd_mask<T, simd_mask_abi::deduce_t<T, Sizes>>...>
split(const simd_mask<T, Abi> &) noexcept;
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> &) noexcept;
template <class V, class Abi>
array<V, simd_size_v<typename V::simd_type::value_type, Abi> / V::size()>
split(const simd_mask<typename V::simd_type::value_type, Abi> &) noexcept;
template <size_t N, class T, class A>
array<resize_simd<simd_size_v<T, A> / N, simd<T, A>>, N>
split_by(const simd<T, A> &x) noexcept;
template <size_t N, class T, class A>
array<resize_simd<simd_size_v<T, A> / N, simd_mask<T, A>>, N>
split_by(const simd_mask<T, A> &x) noexcept;
template <class T, class... Abis>
simd<T, simd_abi::deduce_t<T, (simd_size_v<T, Abis> + ...)>>
concat(const simd<T, Abis> &...) noexcept;
template <class T, class... Abis>
simd_mask<T, simd_abi::deduce_t<T, (simd_size_v<T, Abis> + ...)>>
concat(const simd_mask<T, Abis> &...) noexcept;
template <class T, class Abi, size_t N>
resize_simd<simd_size_v<T, Abi> * N, simd<T, Abi>>
concat(const array<simd<T, Abi>, N> &arr) noexcept;
template <class T, class Abi, size_t N>
resize_simd<simd_size_v<T, Abi> * N, simd_mask<T, Abi>>
concat(const array<simd_mask<T, Abi>, N> &arr) noexcept;
// 9.9.4, 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(T) noexcept;
bool any_of(T) noexcept;
bool none_of(T) noexcept;
bool some_of(T) noexcept;
int popcount(T) noexcept;
int find_first_set(T);
int find_last_set(T);
// 9.5, Where expression class templates
template <class M, class T> class const_where_expression;
template <class M, class T> class where_expression;
// 9.9.5, Where functions
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>, 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 type_identity_t<simd_mask<T, Abit>> &,
      simd_mask<T, Abi> &) noexcept;
template <class T, class Abi>
const_where_expression<simd_mask<T, Abi>, simd_mask<T, Abi>>
where(const type_identity_t<simd_mask<T, Abit>> &,
      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, T> where(/* see below */ k, const T &d) noexcept;
// 9.7.4, Reductions
template <class T, class Abi, class BinaryOperation = plus<>>
T reduce(const simd<T, Abi> &, BinaryOperation = {});
template <class M, class V, class BinaryOperation>
typename V::value_type reduce(const const_where_expression<M, V> &x,
                              typename V::value_type identity_element,
                              BinaryOperation binary_op);
template <class M, class V>
typename V::value_type reduce(const const_where_expression<M, V> &x,
                              plus<> binary_op = {}) noexcept;
template <class M, class V>
typename V::value_type reduce(const const_where_expression<M, V> &x,
                              multiplies<> binary_op) noexcept;
template <class M, class V>
typename V::value_type reduce(const const_where_expression<M, V> &x,
                              bit_and<> binary_op) noexcept;
template <class M, class V>
typename V::value_type reduce(const const_where_expression<M, V> &x,
                              bit_or<> binary_op) noexcept;
template <class M, class V>
typename V::value_type reduce(const const_where_expression<M, V> &x,
                              bit_xor<> binary_op) noexcept;
template <class T, class Abi> T hmin(const simd<T, abi> &) noexcept;
template <class M, class V>
typename V::value_type hmin(const const_where_expression<M, V> &) noexcept;
template <class T, class Abi> T hmax(const simd<T, abi> &) noexcept;
template <class M, class V>
typename V::value_type hmax(const const_where_expression<M, V> &) noexcept;
// 9.7.6, Algorithms
template <class T, class Abi>
simd<T, Abi> min(const simd<T, Abi> &a, const simd<T, Abi> &b) noexcept;
template <class T, class Abi>
simd<T, Abi> max(const simd<T, Abi> &a, const simd<T, Abi> &b) noexcept;
template <class T, class Abi>
pair<simd<T, Abi>, simd<T, Abi>> minmax(const simd<T, Abi> &a,
                                        const simd<T, Abi> &b) 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);
} // namespace parallelism_v2
} // namespace std::experimental