/*! Wrapper routines for `memchr` and friends. These routines choose the best implementation at compile time. (This is different from `x86_64` because it is expected that `simd128` is almost always available for `wasm32` targets.) */ macro_rules! defraw { ($ty:ident, $find:ident, $start:ident, $end:ident, $($needles:ident),+) => {{ #[cfg(target_feature = "simd128")] { use crate::arch::wasm32::simd128::memchr::$ty; debug!("chose simd128 for {}", stringify!($ty)); debug_assert!($ty::is_available()); // SAFETY: We know that wasm memchr is always available whenever // code is compiled for `wasm32` with the `simd128` target feature // enabled. $ty::new_unchecked($($needles),+).$find($start, $end) } #[cfg(not(target_feature = "simd128"))] { use crate::arch::all::memchr::$ty; debug!( "no simd128 feature available, using fallback for {}", stringify!($ty), ); $ty::new($($needles),+).$find($start, $end) } }} } /// memchr, but using raw pointers to represent the haystack. /// /// # Safety /// /// Pointers must be valid. See `One::find_raw`. #[inline(always)] pub(crate) unsafe fn memchr_raw( n1: u8, start: *const u8, end: *const u8, ) -> Option<*const u8> { defraw!(One, find_raw, start, end, n1) } /// memrchr, but using raw pointers to represent the haystack. /// /// # Safety /// /// Pointers must be valid. See `One::rfind_raw`. #[inline(always)] pub(crate) unsafe fn memrchr_raw( n1: u8, start: *const u8, end: *const u8, ) -> Option<*const u8> { defraw!(One, rfind_raw, start, end, n1) } /// memchr2, but using raw pointers to represent the haystack. /// /// # Safety /// /// Pointers must be valid. See `Two::find_raw`. #[inline(always)] pub(crate) unsafe fn memchr2_raw( n1: u8, n2: u8, start: *const u8, end: *const u8, ) -> Option<*const u8> { defraw!(Two, find_raw, start, end, n1, n2) } /// memrchr2, but using raw pointers to represent the haystack. /// /// # Safety /// /// Pointers must be valid. See `Two::rfind_raw`. #[inline(always)] pub(crate) unsafe fn memrchr2_raw( n1: u8, n2: u8, start: *const u8, end: *const u8, ) -> Option<*const u8> { defraw!(Two, rfind_raw, start, end, n1, n2) } /// memchr3, but using raw pointers to represent the haystack. /// /// # Safety /// /// Pointers must be valid. See `Three::find_raw`. #[inline(always)] pub(crate) unsafe fn memchr3_raw( n1: u8, n2: u8, n3: u8, start: *const u8, end: *const u8, ) -> Option<*const u8> { defraw!(Three, find_raw, start, end, n1, n2, n3) } /// memrchr3, but using raw pointers to represent the haystack. /// /// # Safety /// /// Pointers must be valid. See `Three::rfind_raw`. #[inline(always)] pub(crate) unsafe fn memrchr3_raw( n1: u8, n2: u8, n3: u8, start: *const u8, end: *const u8, ) -> Option<*const u8> { defraw!(Three, rfind_raw, start, end, n1, n2, n3) } /// Count all matching bytes, but using raw pointers to represent the haystack. /// /// # Safety /// /// Pointers must be valid. See `One::count_raw`. #[inline(always)] pub(crate) unsafe fn count_raw( n1: u8, start: *const u8, end: *const u8, ) -> usize { defraw!(One, count_raw, start, end, n1) }