1 | /*! |
2 | A 128-bit vector implementation of the "packed pair" SIMD algorithm. |
3 | |
4 | The "packed pair" algorithm is based on the [generic SIMD] algorithm. The main |
5 | difference is that it (by default) uses a background distribution of byte |
6 | frequencies to heuristically select the pair of bytes to search for. |
7 | |
8 | [generic SIMD]: http://0x80.pl/articles/simd-strfind.html#first-and-last |
9 | */ |
10 | |
11 | use core::arch::x86_64::__m128i; |
12 | |
13 | use crate::arch::{all::packedpair::Pair, generic::packedpair}; |
14 | |
15 | /// A "packed pair" finder that uses 128-bit vector operations. |
16 | /// |
17 | /// This finder picks two bytes that it believes have high predictive power |
18 | /// for indicating an overall match of a needle. Depending on whether |
19 | /// `Finder::find` or `Finder::find_prefilter` is used, it reports offsets |
20 | /// where the needle matches or could match. In the prefilter case, candidates |
21 | /// are reported whenever the [`Pair`] of bytes given matches. |
22 | #[derive (Clone, Copy, Debug)] |
23 | pub struct Finder(packedpair::Finder<__m128i>); |
24 | |
25 | impl Finder { |
26 | /// Create a new pair searcher. The searcher returned can either report |
27 | /// exact matches of `needle` or act as a prefilter and report candidate |
28 | /// positions of `needle`. |
29 | /// |
30 | /// If SSE2 is unavailable in the current environment or if a [`Pair`] |
31 | /// could not be constructed from the needle given, then `None` is |
32 | /// returned. |
33 | #[inline ] |
34 | pub fn new(needle: &[u8]) -> Option<Finder> { |
35 | Finder::with_pair(needle, Pair::new(needle)?) |
36 | } |
37 | |
38 | /// Create a new "packed pair" finder using the pair of bytes given. |
39 | /// |
40 | /// This constructor permits callers to control precisely which pair of |
41 | /// bytes is used as a predicate. |
42 | /// |
43 | /// If SSE2 is unavailable in the current environment, then `None` is |
44 | /// returned. |
45 | #[inline ] |
46 | pub fn with_pair(needle: &[u8], pair: Pair) -> Option<Finder> { |
47 | if Finder::is_available() { |
48 | // SAFETY: we check that sse2 is available above. We are also |
49 | // guaranteed to have needle.len() > 1 because we have a valid |
50 | // Pair. |
51 | unsafe { Some(Finder::with_pair_impl(needle, pair)) } |
52 | } else { |
53 | None |
54 | } |
55 | } |
56 | |
57 | /// Create a new `Finder` specific to SSE2 vectors and routines. |
58 | /// |
59 | /// # Safety |
60 | /// |
61 | /// Same as the safety for `packedpair::Finder::new`, and callers must also |
62 | /// ensure that SSE2 is available. |
63 | #[target_feature (enable = "sse2" )] |
64 | #[inline ] |
65 | unsafe fn with_pair_impl(needle: &[u8], pair: Pair) -> Finder { |
66 | let finder = packedpair::Finder::<__m128i>::new(needle, pair); |
67 | Finder(finder) |
68 | } |
69 | |
70 | /// Returns true when this implementation is available in the current |
71 | /// environment. |
72 | /// |
73 | /// When this is true, it is guaranteed that [`Finder::with_pair`] will |
74 | /// return a `Some` value. Similarly, when it is false, it is guaranteed |
75 | /// that `Finder::with_pair` will return a `None` value. Notice that this |
76 | /// does not guarantee that [`Finder::new`] will return a `Finder`. Namely, |
77 | /// even when `Finder::is_available` is true, it is not guaranteed that a |
78 | /// valid [`Pair`] can be found from the needle given. |
79 | /// |
80 | /// Note also that for the lifetime of a single program, if this returns |
81 | /// true then it will always return true. |
82 | #[inline ] |
83 | pub fn is_available() -> bool { |
84 | #[cfg (not(target_feature = "sse2" ))] |
85 | { |
86 | false |
87 | } |
88 | #[cfg (target_feature = "sse2" )] |
89 | { |
90 | true |
91 | } |
92 | } |
93 | |
94 | /// Execute a search using SSE2 vectors and routines. |
95 | /// |
96 | /// # Panics |
97 | /// |
98 | /// When `haystack.len()` is less than [`Finder::min_haystack_len`]. |
99 | #[inline ] |
100 | pub fn find(&self, haystack: &[u8], needle: &[u8]) -> Option<usize> { |
101 | // SAFETY: Building a `Finder` means it's safe to call 'sse2' routines. |
102 | unsafe { self.find_impl(haystack, needle) } |
103 | } |
104 | |
105 | /// Run this finder on the given haystack as a prefilter. |
106 | /// |
107 | /// If a candidate match is found, then an offset where the needle *could* |
108 | /// begin in the haystack is returned. |
109 | /// |
110 | /// # Panics |
111 | /// |
112 | /// When `haystack.len()` is less than [`Finder::min_haystack_len`]. |
113 | #[inline ] |
114 | pub fn find_prefilter(&self, haystack: &[u8]) -> Option<usize> { |
115 | // SAFETY: Building a `Finder` means it's safe to call 'sse2' routines. |
116 | unsafe { self.find_prefilter_impl(haystack) } |
117 | } |
118 | |
119 | /// Execute a search using SSE2 vectors and routines. |
120 | /// |
121 | /// # Panics |
122 | /// |
123 | /// When `haystack.len()` is less than [`Finder::min_haystack_len`]. |
124 | /// |
125 | /// # Safety |
126 | /// |
127 | /// (The target feature safety obligation is automatically fulfilled by |
128 | /// virtue of being a method on `Finder`, which can only be constructed |
129 | /// when it is safe to call `sse2` routines.) |
130 | #[target_feature (enable = "sse2" )] |
131 | #[inline ] |
132 | unsafe fn find_impl( |
133 | &self, |
134 | haystack: &[u8], |
135 | needle: &[u8], |
136 | ) -> Option<usize> { |
137 | self.0.find(haystack, needle) |
138 | } |
139 | |
140 | /// Execute a prefilter search using SSE2 vectors and routines. |
141 | /// |
142 | /// # Panics |
143 | /// |
144 | /// When `haystack.len()` is less than [`Finder::min_haystack_len`]. |
145 | /// |
146 | /// # Safety |
147 | /// |
148 | /// (The target feature safety obligation is automatically fulfilled by |
149 | /// virtue of being a method on `Finder`, which can only be constructed |
150 | /// when it is safe to call `sse2` routines.) |
151 | #[target_feature (enable = "sse2" )] |
152 | #[inline ] |
153 | unsafe fn find_prefilter_impl(&self, haystack: &[u8]) -> Option<usize> { |
154 | self.0.find_prefilter(haystack) |
155 | } |
156 | |
157 | /// Returns the pair of offsets (into the needle) used to check as a |
158 | /// predicate before confirming whether a needle exists at a particular |
159 | /// position. |
160 | #[inline ] |
161 | pub fn pair(&self) -> &Pair { |
162 | self.0.pair() |
163 | } |
164 | |
165 | /// Returns the minimum haystack length that this `Finder` can search. |
166 | /// |
167 | /// Using a haystack with length smaller than this in a search will result |
168 | /// in a panic. The reason for this restriction is that this finder is |
169 | /// meant to be a low-level component that is part of a larger substring |
170 | /// strategy. In that sense, it avoids trying to handle all cases and |
171 | /// instead only handles the cases that it can handle very well. |
172 | #[inline ] |
173 | pub fn min_haystack_len(&self) -> usize { |
174 | self.0.min_haystack_len() |
175 | } |
176 | } |
177 | |
178 | #[cfg (test)] |
179 | mod tests { |
180 | use super::*; |
181 | |
182 | fn find(haystack: &[u8], needle: &[u8]) -> Option<Option<usize>> { |
183 | let f = Finder::new(needle)?; |
184 | if haystack.len() < f.min_haystack_len() { |
185 | return None; |
186 | } |
187 | Some(f.find(haystack, needle)) |
188 | } |
189 | |
190 | define_substring_forward_quickcheck!(find); |
191 | |
192 | #[test ] |
193 | fn forward_substring() { |
194 | crate::tests::substring::Runner::new().fwd(find).run() |
195 | } |
196 | |
197 | #[test ] |
198 | fn forward_packedpair() { |
199 | fn find( |
200 | haystack: &[u8], |
201 | needle: &[u8], |
202 | index1: u8, |
203 | index2: u8, |
204 | ) -> Option<Option<usize>> { |
205 | let pair = Pair::with_indices(needle, index1, index2)?; |
206 | let f = Finder::with_pair(needle, pair)?; |
207 | if haystack.len() < f.min_haystack_len() { |
208 | return None; |
209 | } |
210 | Some(f.find(haystack, needle)) |
211 | } |
212 | crate::tests::packedpair::Runner::new().fwd(find).run() |
213 | } |
214 | |
215 | #[test ] |
216 | fn forward_packedpair_prefilter() { |
217 | fn find( |
218 | haystack: &[u8], |
219 | needle: &[u8], |
220 | index1: u8, |
221 | index2: u8, |
222 | ) -> Option<Option<usize>> { |
223 | let pair = Pair::with_indices(needle, index1, index2)?; |
224 | let f = Finder::with_pair(needle, pair)?; |
225 | if haystack.len() < f.min_haystack_len() { |
226 | return None; |
227 | } |
228 | Some(f.find_prefilter(haystack)) |
229 | } |
230 | crate::tests::packedpair::Runner::new().fwd(find).run() |
231 | } |
232 | } |
233 | |