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Diffstat (limited to 'vendor/memchr/src/arch/x86_64/avx2/packedpair.rs')
-rw-r--r-- | vendor/memchr/src/arch/x86_64/avx2/packedpair.rs | 272 |
1 files changed, 272 insertions, 0 deletions
diff --git a/vendor/memchr/src/arch/x86_64/avx2/packedpair.rs b/vendor/memchr/src/arch/x86_64/avx2/packedpair.rs new file mode 100644 index 0000000..efae7b6 --- /dev/null +++ b/vendor/memchr/src/arch/x86_64/avx2/packedpair.rs @@ -0,0 +1,272 @@ +/*! +A 256-bit vector implementation of the "packed pair" SIMD algorithm. + +The "packed pair" algorithm is based on the [generic SIMD] algorithm. The main +difference is that it (by default) uses a background distribution of byte +frequencies to heuristically select the pair of bytes to search for. + +[generic SIMD]: http://0x80.pl/articles/simd-strfind.html#first-and-last +*/ + +use core::arch::x86_64::{__m128i, __m256i}; + +use crate::arch::{all::packedpair::Pair, generic::packedpair}; + +/// A "packed pair" finder that uses 256-bit vector operations. +/// +/// This finder picks two bytes that it believes have high predictive power +/// for indicating an overall match of a needle. Depending on whether +/// `Finder::find` or `Finder::find_prefilter` is used, it reports offsets +/// where the needle matches or could match. In the prefilter case, candidates +/// are reported whenever the [`Pair`] of bytes given matches. +#[derive(Clone, Copy, Debug)] +pub struct Finder { + sse2: packedpair::Finder<__m128i>, + avx2: packedpair::Finder<__m256i>, +} + +impl Finder { + /// Create a new pair searcher. The searcher returned can either report + /// exact matches of `needle` or act as a prefilter and report candidate + /// positions of `needle`. + /// + /// If AVX2 is unavailable in the current environment or if a [`Pair`] + /// could not be constructed from the needle given, then `None` is + /// returned. + #[inline] + pub fn new(needle: &[u8]) -> Option<Finder> { + Finder::with_pair(needle, Pair::new(needle)?) + } + + /// Create a new "packed pair" finder using the pair of bytes given. + /// + /// This constructor permits callers to control precisely which pair of + /// bytes is used as a predicate. + /// + /// If AVX2 is unavailable in the current environment, then `None` is + /// returned. + #[inline] + pub fn with_pair(needle: &[u8], pair: Pair) -> Option<Finder> { + if Finder::is_available() { + // SAFETY: we check that sse2/avx2 is available above. We are also + // guaranteed to have needle.len() > 1 because we have a valid + // Pair. + unsafe { Some(Finder::with_pair_impl(needle, pair)) } + } else { + None + } + } + + /// Create a new `Finder` specific to SSE2 vectors and routines. + /// + /// # Safety + /// + /// Same as the safety for `packedpair::Finder::new`, and callers must also + /// ensure that both SSE2 and AVX2 are available. + #[target_feature(enable = "sse2", enable = "avx2")] + #[inline] + unsafe fn with_pair_impl(needle: &[u8], pair: Pair) -> Finder { + let sse2 = packedpair::Finder::<__m128i>::new(needle, pair); + let avx2 = packedpair::Finder::<__m256i>::new(needle, pair); + Finder { sse2, avx2 } + } + + /// Returns true when this implementation is available in the current + /// environment. + /// + /// When this is true, it is guaranteed that [`Finder::with_pair`] will + /// return a `Some` value. Similarly, when it is false, it is guaranteed + /// that `Finder::with_pair` will return a `None` value. Notice that this + /// does not guarantee that [`Finder::new`] will return a `Finder`. Namely, + /// even when `Finder::is_available` is true, it is not guaranteed that a + /// valid [`Pair`] can be found from the needle given. + /// + /// Note also that for the lifetime of a single program, if this returns + /// true then it will always return true. + #[inline] + pub fn is_available() -> bool { + #[cfg(not(target_feature = "sse2"))] + { + false + } + #[cfg(target_feature = "sse2")] + { + #[cfg(target_feature = "avx2")] + { + true + } + #[cfg(not(target_feature = "avx2"))] + { + #[cfg(feature = "std")] + { + std::is_x86_feature_detected!("avx2") + } + #[cfg(not(feature = "std"))] + { + false + } + } + } + } + + /// Execute a search using AVX2 vectors and routines. + /// + /// # Panics + /// + /// When `haystack.len()` is less than [`Finder::min_haystack_len`]. + #[inline] + pub fn find(&self, haystack: &[u8], needle: &[u8]) -> Option<usize> { + // SAFETY: Building a `Finder` means it's safe to call 'sse2' routines. + unsafe { self.find_impl(haystack, needle) } + } + + /// Run this finder on the given haystack as a prefilter. + /// + /// If a candidate match is found, then an offset where the needle *could* + /// begin in the haystack is returned. + /// + /// # Panics + /// + /// When `haystack.len()` is less than [`Finder::min_haystack_len`]. + #[inline] + pub fn find_prefilter(&self, haystack: &[u8]) -> Option<usize> { + // SAFETY: Building a `Finder` means it's safe to call 'sse2' routines. + unsafe { self.find_prefilter_impl(haystack) } + } + + /// Execute a search using AVX2 vectors and routines. + /// + /// # Panics + /// + /// When `haystack.len()` is less than [`Finder::min_haystack_len`]. + /// + /// # Safety + /// + /// (The target feature safety obligation is automatically fulfilled by + /// virtue of being a method on `Finder`, which can only be constructed + /// when it is safe to call `sse2` and `avx2` routines.) + #[target_feature(enable = "sse2", enable = "avx2")] + #[inline] + unsafe fn find_impl( + &self, + haystack: &[u8], + needle: &[u8], + ) -> Option<usize> { + if haystack.len() < self.avx2.min_haystack_len() { + self.sse2.find(haystack, needle) + } else { + self.avx2.find(haystack, needle) + } + } + + /// Execute a prefilter search using AVX2 vectors and routines. + /// + /// # Panics + /// + /// When `haystack.len()` is less than [`Finder::min_haystack_len`]. + /// + /// # Safety + /// + /// (The target feature safety obligation is automatically fulfilled by + /// virtue of being a method on `Finder`, which can only be constructed + /// when it is safe to call `sse2` and `avx2` routines.) + #[target_feature(enable = "sse2", enable = "avx2")] + #[inline] + unsafe fn find_prefilter_impl(&self, haystack: &[u8]) -> Option<usize> { + if haystack.len() < self.avx2.min_haystack_len() { + self.sse2.find_prefilter(haystack) + } else { + self.avx2.find_prefilter(haystack) + } + } + + /// Returns the pair of offsets (into the needle) used to check as a + /// predicate before confirming whether a needle exists at a particular + /// position. + #[inline] + pub fn pair(&self) -> &Pair { + self.avx2.pair() + } + + /// Returns the minimum haystack length that this `Finder` can search. + /// + /// Using a haystack with length smaller than this in a search will result + /// in a panic. The reason for this restriction is that this finder is + /// meant to be a low-level component that is part of a larger substring + /// strategy. In that sense, it avoids trying to handle all cases and + /// instead only handles the cases that it can handle very well. + #[inline] + pub fn min_haystack_len(&self) -> usize { + // The caller doesn't need to care about AVX2's min_haystack_len + // since this implementation will automatically switch to the SSE2 + // implementation if the haystack is too short for AVX2. Therefore, the + // caller only needs to care about SSE2's min_haystack_len. + // + // This does assume that SSE2's min_haystack_len is less than or + // equal to AVX2's min_haystack_len. In practice, this is true and + // there is no way it could be false based on how this Finder is + // implemented. Namely, both SSE2 and AVX2 use the same `Pair`. If + // they used different pairs, then it's possible (although perhaps + // pathological) for SSE2's min_haystack_len to be bigger than AVX2's. + self.sse2.min_haystack_len() + } +} + +#[cfg(test)] +mod tests { + use super::*; + + fn find(haystack: &[u8], needle: &[u8]) -> Option<Option<usize>> { + let f = Finder::new(needle)?; + if haystack.len() < f.min_haystack_len() { + return None; + } + Some(f.find(haystack, needle)) + } + + define_substring_forward_quickcheck!(find); + + #[test] + fn forward_substring() { + crate::tests::substring::Runner::new().fwd(find).run() + } + + #[test] + fn forward_packedpair() { + fn find( + haystack: &[u8], + needle: &[u8], + index1: u8, + index2: u8, + ) -> Option<Option<usize>> { + let pair = Pair::with_indices(needle, index1, index2)?; + let f = Finder::with_pair(needle, pair)?; + if haystack.len() < f.min_haystack_len() { + return None; + } + Some(f.find(haystack, needle)) + } + crate::tests::packedpair::Runner::new().fwd(find).run() + } + + #[test] + fn forward_packedpair_prefilter() { + fn find( + haystack: &[u8], + needle: &[u8], + index1: u8, + index2: u8, + ) -> Option<Option<usize>> { + if !cfg!(target_feature = "sse2") { + return None; + } + let pair = Pair::with_indices(needle, index1, index2)?; + let f = Finder::with_pair(needle, pair)?; + if haystack.len() < f.min_haystack_len() { + return None; + } + Some(f.find_prefilter(haystack)) + } + crate::tests::packedpair::Runner::new().fwd(find).run() + } +} |