Auto merge of #118853 - calebzulawski:simd-intrinsics, r=RalfJung
Add core::intrinsics::simd Intended to close rust-lang/portable-simd#381. r? ralfjung
This commit is contained in:
commit
558ac1cfb7
@ -59,6 +59,7 @@
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use crate::mem;
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use crate::mem;
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pub mod mir;
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pub mod mir;
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pub mod simd;
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// These imports are used for simplifying intra-doc links
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// These imports are used for simplifying intra-doc links
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#[allow(unused_imports)]
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#[allow(unused_imports)]
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473
library/core/src/intrinsics/simd.rs
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473
library/core/src/intrinsics/simd.rs
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@ -0,0 +1,473 @@
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//! SIMD compiler intrinsics.
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//!
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//! In this module, a "vector" is any `repr(simd)` type.
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extern "platform-intrinsic" {
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/// Add two simd vectors elementwise.
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///
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/// `T` must be a vector of integer or floating point primitive types.
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pub fn simd_add<T>(x: T, y: T) -> T;
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/// Subtract `rhs` from `lhs` elementwise.
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///
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/// `T` must be a vector of integer or floating point primitive types.
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pub fn simd_sub<T>(lhs: T, rhs: T) -> T;
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/// Multiply two simd vectors elementwise.
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///
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/// `T` must be a vector of integer or floating point primitive types.
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pub fn simd_mul<T>(x: T, y: T) -> T;
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/// Divide `lhs` by `rhs` elementwise.
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///
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/// `T` must be a vector of integer or floating point primitive types.
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///
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/// # Safety
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/// For integers, `rhs` must not contain any zero elements.
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/// Additionally for signed integers, `<int>::MIN / -1` is undefined behavior.
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pub fn simd_div<T>(lhs: T, rhs: T) -> T;
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/// Remainder of two vectors elementwise
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///
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/// `T` must be a vector of integer or floating point primitive types.
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///
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/// # Safety
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/// For integers, `rhs` must not contain any zero elements.
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/// Additionally for signed integers, `<int>::MIN / -1` is undefined behavior.
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pub fn simd_rem<T>(lhs: T, rhs: T) -> T;
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/// Elementwise vector left shift, with UB on overflow.
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///
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/// Shift `lhs` left by `rhs`, shifting in sign bits for signed types.
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///
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/// `T` must be a vector of integer primitive types.
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///
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/// # Safety
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///
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/// Each element of `rhs` must be less than `<int>::BITS`.
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pub fn simd_shl<T>(lhs: T, rhs: T) -> T;
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/// Elementwise vector right shift, with UB on overflow.
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///
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/// `T` must be a vector of integer primitive types.
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///
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/// Shift `lhs` right by `rhs`, shifting in sign bits for signed types.
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///
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/// # Safety
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///
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/// Each element of `rhs` must be less than `<int>::BITS`.
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pub fn simd_shr<T>(lhs: T, rhs: T) -> T;
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/// Elementwise vector "and".
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///
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/// `T` must be a vector of integer primitive types.
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pub fn simd_and<T>(x: T, y: T) -> T;
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/// Elementwise vector "or".
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///
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/// `T` must be a vector of integer primitive types.
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pub fn simd_or<T>(x: T, y: T) -> T;
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/// Elementwise vector "exclusive or".
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///
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/// `T` must be a vector of integer primitive types.
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pub fn simd_xor<T>(x: T, y: T) -> T;
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/// Numerically cast a vector, elementwise.
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///
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/// `T` and `U` must be vectors of integer or floating point primitive types, and must have the
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/// same length.
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///
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/// When casting floats to integers, the result is truncated. Out-of-bounds result lead to UB.
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/// When casting integers to floats, the result is rounded.
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/// Otherwise, truncates or extends the value, maintaining the sign for signed integers.
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///
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/// # Safety
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/// Casting from integer types is always safe.
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/// Casting between two float types is also always safe.
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///
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/// Casting floats to integers truncates, following the same rules as `to_int_unchecked`.
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/// Specifically, each element must:
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/// * Not be `NaN`
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/// * Not be infinite
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/// * Be representable in the return type, after truncating off its fractional part
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pub fn simd_cast<T, U>(x: T) -> U;
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/// Numerically cast a vector, elementwise.
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///
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/// `T` and `U` be a vectors of integer or floating point primitive types, and must have the
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/// same length.
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///
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/// Like `simd_cast`, but saturates float-to-integer conversions (NaN becomes 0).
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/// This matches regular `as` and is always safe.
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///
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/// When casting floats to integers, the result is truncated.
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/// When casting integers to floats, the result is rounded.
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/// Otherwise, truncates or extends the value, maintaining the sign for signed integers.
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pub fn simd_as<T, U>(x: T) -> U;
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/// Elementwise negation of a vector.
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///
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/// `T` must be a vector of integer or floating-point primitive types.
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///
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/// Rust panics for `-<int>::Min` due to overflow, but it is not UB with this intrinsic.
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pub fn simd_neg<T>(x: T) -> T;
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/// Elementwise absolute value of a vector.
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///
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/// `T` must be a vector of floating-point primitive types.
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pub fn simd_fabs<T>(x: T) -> T;
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/// Elementwise minimum of a vector.
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///
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/// `T` must be a vector of floating-point primitive types.
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///
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/// Follows IEEE-754 `minNum` semantics.
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pub fn simd_fmin<T>(x: T, y: T) -> T;
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/// Elementwise maximum of a vector.
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///
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/// `T` must be a vector of floating-point primitive types.
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///
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/// Follows IEEE-754 `maxNum` semantics.
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pub fn simd_fmax<T>(x: T, y: T) -> T;
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/// Tests elementwise equality of two vectors.
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///
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/// `T` must be a vector of floating-point primitive types.
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///
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/// `U` must be a vector of integers with the same number of elements and element size as `T`.
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///
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/// Returns `0` for false and `!0` for true.
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pub fn simd_eq<T, U>(x: T, y: T) -> U;
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/// Tests elementwise inequality equality of two vectors.
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///
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/// `T` must be a vector of floating-point primitive types.
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///
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/// `U` must be a vector of integers with the same number of elements and element size as `T`.
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///
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/// Returns `0` for false and `!0` for true.
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pub fn simd_ne<T, U>(x: T, y: T) -> U;
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/// Tests if `x` is less than `y`, elementwise.
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///
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/// `T` must be a vector of floating-point primitive types.
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///
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/// `U` must be a vector of integers with the same number of elements and element size as `T`.
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///
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/// Returns `0` for false and `!0` for true.
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pub fn simd_lt<T, U>(x: T, y: T) -> U;
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/// Tests if `x` is less than or equal to `y`, elementwise.
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///
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/// `T` must be a vector of floating-point primitive types.
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///
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/// `U` must be a vector of integers with the same number of elements and element size as `T`.
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///
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/// Returns `0` for false and `!0` for true.
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pub fn simd_le<T, U>(x: T, y: T) -> U;
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/// Tests if `x` is greater than `y`, elementwise.
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///
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/// `T` must be a vector of floating-point primitive types.
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///
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/// `U` must be a vector of integers with the same number of elements and element size as `T`.
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///
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/// Returns `0` for false and `!0` for true.
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pub fn simd_gt<T, U>(x: T, y: T) -> U;
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/// Tests if `x` is greater than or equal to `y`, elementwise.
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///
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/// `T` must be a vector of floating-point primitive types.
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///
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/// `U` must be a vector of integers with the same number of elements and element size as `T`.
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///
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/// Returns `0` for false and `!0` for true.
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pub fn simd_ge<T, U>(x: T, y: T) -> U;
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/// Shuffle two vectors by const indices.
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///
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/// `T` must be a vector.
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///
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/// `U` must be a const array of `i32`s.
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///
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/// `V` must be a vector with the same element type as `T` and the same length as `U`.
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///
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/// Concatenates `x` and `y`, then returns a new vector such that each element is selected from
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/// the concatenation by the matching index in `idx`.
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pub fn simd_shuffle<T, U, V>(x: T, y: T, idx: U) -> V;
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/// Read a vector of pointers.
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///
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/// `T` must be a vector.
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///
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/// `U` must be a vector of pointers to the element type of `T`, with the same length as `T`.
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///
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/// `V` must be a vector of integers with the same length as `T` (but any element size).
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///
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/// `idx` must be a constant: either naming a constant item, or an inline
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/// `const {}` expression.
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///
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/// For each pointer in `ptr`, if the corresponding value in `mask` is `!0`, read the pointer.
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/// Otherwise if the corresponding value in `mask` is `0`, return the corresponding value from
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/// `val`.
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///
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/// # Safety
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/// Unmasked values in `T` must be readable as if by `<ptr>::read` (e.g. aligned to the element
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/// type).
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///
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/// `mask` must only contain `0` or `!0` values.
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pub fn simd_gather<T, U, V>(val: T, ptr: U, mask: V) -> T;
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/// Write to a vector of pointers.
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///
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/// `T` must be a vector.
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///
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/// `U` must be a vector of pointers to the element type of `T`, with the same length as `T`.
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///
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/// `V` must be a vector of integers with the same length as `T` (but any element size).
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///
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/// For each pointer in `ptr`, if the corresponding value in `mask` is `!0`, write the
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/// corresponding value in `val` to the pointer.
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/// Otherwise if the corresponding value in `mask` is `0`, do nothing.
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///
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/// # Safety
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/// Unmasked values in `T` must be writeable as if by `<ptr>::write` (e.g. aligned to the element
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/// type).
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///
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/// `mask` must only contain `0` or `!0` values.
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pub fn simd_scatter<T, U, V>(val: T, ptr: U, mask: V);
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/// Read a vector of pointers.
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///
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/// `T` must be a vector.
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///
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/// `U` must be a vector of pointers to the element type of `T`, with the same length as `T`.
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///
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/// `V` must be a vector of integers with the same length as `T` (but any element size).
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///
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/// For each element, if the corresponding value in `mask` is `!0`, read the corresponding
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/// pointer from `ptr`.
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/// Otherwise if the corresponding value in `mask` is `0`, return the corresponding value from
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/// `val`.
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///
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/// # Safety
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/// Unmasked values in `T` must be readable as if by `<ptr>::read` (e.g. aligned to the element
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/// type).
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///
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/// `mask` must only contain `0` or `!0` values.
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#[cfg(not(bootstrap))]
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pub fn simd_masked_load<V, U, T>(mask: V, ptr: U, val: T) -> T;
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/// Write to a vector of pointers.
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///
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/// `T` must be a vector.
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///
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/// `U` must be a vector of pointers to the element type of `T`, with the same length as `T`.
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///
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/// `V` must be a vector of integers with the same length as `T` (but any element size).
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///
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/// For each element, if the corresponding value in `mask` is `!0`, write the corresponding
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/// value in `val` to the pointer.
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/// Otherwise if the corresponding value in `mask` is `0`, do nothing.
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///
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/// # Safety
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/// Unmasked values in `T` must be writeable as if by `<ptr>::write` (e.g. aligned to the element
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/// type).
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///
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/// `mask` must only contain `0` or `!0` values.
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#[cfg(not(bootstrap))]
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pub fn simd_masked_store<V, U, T>(mask: V, ptr: U, val: T);
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/// Add two simd vectors elementwise, with saturation.
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///
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/// `T` must be a vector of integer primitive types.
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pub fn simd_saturating_add<T>(x: T, y: T) -> T;
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/// Subtract two simd vectors elementwise, with saturation.
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///
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/// `T` must be a vector of integer primitive types.
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///
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/// Subtract `rhs` from `lhs`.
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pub fn simd_saturating_sub<T>(lhs: T, rhs: T) -> T;
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/// Add elements within a vector from left to right.
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///
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/// `T` must be a vector of integer or floating-point primitive types.
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///
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/// `U` must be the element type of `T`.
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///
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/// Starting with the value `y`, add the elements of `x` and accumulate.
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pub fn simd_reduce_add_ordered<T, U>(x: T, y: U) -> U;
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/// Multiply elements within a vector from left to right.
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///
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/// `T` must be a vector of integer or floating-point primitive types.
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///
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/// `U` must be the element type of `T`.
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///
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/// Starting with the value `y`, multiply the elements of `x` and accumulate.
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pub fn simd_reduce_mul_ordered<T, U>(x: T, y: U) -> U;
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/// Check if all mask values are true.
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///
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/// `T` must be a vector of integer primitive types.
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///
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/// # Safety
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/// `x` must contain only `0` or `!0`.
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pub fn simd_reduce_all<T>(x: T) -> bool;
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/// Check if all mask values are true.
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///
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/// `T` must be a vector of integer primitive types.
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///
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/// # Safety
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/// `x` must contain only `0` or `!0`.
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pub fn simd_reduce_any<T>(x: T) -> bool;
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/// Return the maximum element of a vector.
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///
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/// `T` must be a vector of integer or floating-point primitive types.
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///
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/// `U` must be the element type of `T`.
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///
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/// For floating-point values, uses IEEE-754 `maxNum`.
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pub fn simd_reduce_max<T, U>(x: T) -> U;
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/// Return the minimum element of a vector.
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///
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/// `T` must be a vector of integer or floating-point primitive types.
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///
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/// `U` must be the element type of `T`.
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///
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/// For floating-point values, uses IEEE-754 `minNum`.
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pub fn simd_reduce_min<T, U>(x: T) -> U;
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/// Logical "and" all elements together.
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///
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||||||
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/// `T` must be a vector of integer or floating-point primitive types.
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||||||
|
///
|
||||||
|
/// `U` must be the element type of `T`.
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||||||
|
pub fn simd_reduce_and<T, U>(x: T) -> U;
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||||||
|
|
||||||
|
/// Logical "or" all elements together.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of integer or floating-point primitive types.
|
||||||
|
///
|
||||||
|
/// `U` must be the element type of `T`.
|
||||||
|
pub fn simd_reduce_or<T, U>(x: T) -> U;
|
||||||
|
|
||||||
|
/// Logical "exclusive or" all elements together.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of integer or floating-point primitive types.
|
||||||
|
///
|
||||||
|
/// `U` must be the element type of `T`.
|
||||||
|
pub fn simd_reduce_xor<T, U>(x: T) -> U;
|
||||||
|
|
||||||
|
/// Truncate an integer vector to a bitmask.
|
||||||
|
///
|
||||||
|
/// `T` must be an integer vector.
|
||||||
|
///
|
||||||
|
/// `U` must be either the smallest unsigned integer with at least as many bits as the length
|
||||||
|
/// of `T`, or the smallest array of `u8` with as many bits as the length of `T`.
|
||||||
|
///
|
||||||
|
/// Each element is truncated to a single bit and packed into the result.
|
||||||
|
///
|
||||||
|
/// No matter whether the output is an array or an unsigned integer, it is treated as a single
|
||||||
|
/// contiguous list of bits. The bitmask is always packed on the least-significant side of the
|
||||||
|
/// output, and padded with 0s in the most-significant bits. The order of the bits depends on
|
||||||
|
/// endianess:
|
||||||
|
///
|
||||||
|
/// * On little endian, the least significant bit corresponds to the first vector element.
|
||||||
|
/// * On big endian, the least significant bit corresponds to the last vector element.
|
||||||
|
///
|
||||||
|
/// For example, `[!0, 0, !0, !0]` packs to `0b1101` on little endian and `0b1011` on big
|
||||||
|
/// endian.
|
||||||
|
///
|
||||||
|
/// To consider a larger example, `[!0, 0, 0, 0, 0, 0, 0, 0, !0, !0, 0, 0, 0, 0, !0, 0]` packs
|
||||||
|
/// to `[0b00000001, 0b01000011]` or `0b0100001100000001` on little endian, and `[0b10000000,
|
||||||
|
/// 0b11000010]` or `0b1000000011000010` on big endian.
|
||||||
|
///
|
||||||
|
/// # Safety
|
||||||
|
/// `x` must contain only `0` and `!0`.
|
||||||
|
pub fn simd_bitmask<T, U>(x: T) -> U;
|
||||||
|
|
||||||
|
/// Select elements from a mask.
|
||||||
|
///
|
||||||
|
/// `M` must be an integer vector.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector with the same number of elements as `M`.
|
||||||
|
///
|
||||||
|
/// For each element, if the corresponding value in `mask` is `!0`, select the element from
|
||||||
|
/// `if_true`. If the corresponding value in `mask` is `0`, select the element from
|
||||||
|
/// `if_false`.
|
||||||
|
///
|
||||||
|
/// # Safety
|
||||||
|
/// `mask` must only contain `0` and `!0`.
|
||||||
|
pub fn simd_select<M, T>(mask: M, if_true: T, if_false: T) -> T;
|
||||||
|
|
||||||
|
/// Select elements from a bitmask.
|
||||||
|
///
|
||||||
|
/// `M` must be an unsigned integer or array of `u8`, matching `simd_bitmask`.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector.
|
||||||
|
///
|
||||||
|
/// For each element, if the bit in `mask` is `1`, select the element from
|
||||||
|
/// `if_true`. If the corresponding bit in `mask` is `0`, select the element from
|
||||||
|
/// `if_false`.
|
||||||
|
///
|
||||||
|
/// The bitmask bit order matches `simd_bitmask`.
|
||||||
|
///
|
||||||
|
/// # Safety
|
||||||
|
/// Padding bits must be all zero.
|
||||||
|
pub fn simd_select_bitmask<M, T>(m: M, yes: T, no: T) -> T;
|
||||||
|
|
||||||
|
/// Elementwise calculates the offset from a pointer vector, potentially wrapping.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of pointers.
|
||||||
|
///
|
||||||
|
/// `U` must be a vector of `isize` or `usize` with the same number of elements as `T`.
|
||||||
|
///
|
||||||
|
/// Operates as if by `<ptr>::wrapping_offset`.
|
||||||
|
pub fn simd_arith_offset<T, U>(ptr: T, offset: U) -> T;
|
||||||
|
|
||||||
|
/// Cast a vector of pointers.
|
||||||
|
///
|
||||||
|
/// `T` and `U` must be vectors of pointers with the same number of elements.
|
||||||
|
pub fn simd_cast_ptr<T, U>(ptr: T) -> U;
|
||||||
|
|
||||||
|
/// Expose a vector of pointers as a vector of addresses.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of pointers.
|
||||||
|
///
|
||||||
|
/// `U` must be a vector of `usize` with the same length as `T`.
|
||||||
|
pub fn simd_expose_addr<T, U>(ptr: T) -> U;
|
||||||
|
|
||||||
|
/// Create a vector of pointers from a vector of addresses.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of `usize`.
|
||||||
|
///
|
||||||
|
/// `U` must be a vector of pointers, with the same length as `T`.
|
||||||
|
pub fn simd_from_exposed_addr<T, U>(addr: T) -> U;
|
||||||
|
|
||||||
|
/// Swap bytes of each element.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of integers.
|
||||||
|
pub fn simd_bswap<T>(x: T) -> T;
|
||||||
|
|
||||||
|
/// Reverse bits of each element.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of integers.
|
||||||
|
pub fn simd_bitreverse<T>(x: T) -> T;
|
||||||
|
|
||||||
|
/// Count the leading zeros of each element.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of integers.
|
||||||
|
pub fn simd_ctlz<T>(x: T) -> T;
|
||||||
|
|
||||||
|
/// Count the trailing zeros of each element.
|
||||||
|
///
|
||||||
|
/// `T` must be a vector of integers.
|
||||||
|
pub fn simd_cttz<T>(x: T) -> T;
|
||||||
|
}
|
Loading…
Reference in New Issue
Block a user