use super::bitmask::BitMask; use super::EMPTY; use core::arch::aarch64 as neon; use core::mem; use core::num::NonZeroU64; pub(crate) type BitMaskWord = u64; pub(crate) type NonZeroBitMaskWord = NonZeroU64; pub(crate) const BITMASK_STRIDE: usize = 8; pub(crate) const BITMASK_MASK: BitMaskWord = !0; pub(crate) const BITMASK_ITER_MASK: BitMaskWord = 0x8080_8080_8080_8080; /// Abstraction over a group of control bytes which can be scanned in /// parallel. /// /// This implementation uses a 64-bit NEON value. #[derive(Copy, Clone)] pub(crate) struct Group(neon::uint8x8_t); #[allow(clippy::use_self)] impl Group { /// Number of bytes in the group. pub(crate) const WIDTH: usize = mem::size_of::(); /// Returns a full group of empty bytes, suitable for use as the initial /// value for an empty hash table. /// /// This is guaranteed to be aligned to the group size. #[inline] pub(crate) const fn static_empty() -> &'static [u8; Group::WIDTH] { #[repr(C)] struct AlignedBytes { _align: [Group; 0], bytes: [u8; Group::WIDTH], } const ALIGNED_BYTES: AlignedBytes = AlignedBytes { _align: [], bytes: [EMPTY; Group::WIDTH], }; &ALIGNED_BYTES.bytes } /// Loads a group of bytes starting at the given address. #[inline] #[allow(clippy::cast_ptr_alignment)] // unaligned load pub(crate) unsafe fn load(ptr: *const u8) -> Self { Group(neon::vld1_u8(ptr)) } /// Loads a group of bytes starting at the given address, which must be /// aligned to `mem::align_of::()`. #[inline] #[allow(clippy::cast_ptr_alignment)] pub(crate) unsafe fn load_aligned(ptr: *const u8) -> Self { // FIXME: use align_offset once it stabilizes debug_assert_eq!(ptr as usize & (mem::align_of::() - 1), 0); Group(neon::vld1_u8(ptr)) } /// Stores the group of bytes to the given address, which must be /// aligned to `mem::align_of::()`. #[inline] #[allow(clippy::cast_ptr_alignment)] pub(crate) unsafe fn store_aligned(self, ptr: *mut u8) { // FIXME: use align_offset once it stabilizes debug_assert_eq!(ptr as usize & (mem::align_of::() - 1), 0); neon::vst1_u8(ptr, self.0); } /// Returns a `BitMask` indicating all bytes in the group which *may* /// have the given value. #[inline] pub(crate) fn match_byte(self, byte: u8) -> BitMask { unsafe { let cmp = neon::vceq_u8(self.0, neon::vdup_n_u8(byte)); BitMask(neon::vget_lane_u64(neon::vreinterpret_u64_u8(cmp), 0)) } } /// Returns a `BitMask` indicating all bytes in the group which are /// `EMPTY`. #[inline] pub(crate) fn match_empty(self) -> BitMask { self.match_byte(EMPTY) } /// Returns a `BitMask` indicating all bytes in the group which are /// `EMPTY` or `DELETED`. #[inline] pub(crate) fn match_empty_or_deleted(self) -> BitMask { unsafe { let cmp = neon::vcltz_s8(neon::vreinterpret_s8_u8(self.0)); BitMask(neon::vget_lane_u64(neon::vreinterpret_u64_u8(cmp), 0)) } } /// Returns a `BitMask` indicating all bytes in the group which are full. #[inline] pub(crate) fn match_full(self) -> BitMask { unsafe { let cmp = neon::vcgez_s8(neon::vreinterpret_s8_u8(self.0)); BitMask(neon::vget_lane_u64(neon::vreinterpret_u64_u8(cmp), 0)) } } /// Performs the following transformation on all bytes in the group: /// - `EMPTY => EMPTY` /// - `DELETED => EMPTY` /// - `FULL => DELETED` #[inline] pub(crate) fn convert_special_to_empty_and_full_to_deleted(self) -> Self { // Map high_bit = 1 (EMPTY or DELETED) to 1111_1111 // and high_bit = 0 (FULL) to 1000_0000 // // Here's this logic expanded to concrete values: // let special = 0 > byte = 1111_1111 (true) or 0000_0000 (false) // 1111_1111 | 1000_0000 = 1111_1111 // 0000_0000 | 1000_0000 = 1000_0000 unsafe { let special = neon::vcltz_s8(neon::vreinterpret_s8_u8(self.0)); Group(neon::vorr_u8(special, neon::vdup_n_u8(0x80))) } } }