1 | // This module contains a couple simple and purpose built hash maps. The key |
2 | // trade off they make is that they serve as caches rather than true maps. That |
3 | // is, inserting a new entry may cause eviction of another entry. This gives |
4 | // us two things. First, there's less overhead associated with inserts and |
5 | // lookups. Secondly, it lets us control our memory usage. |
6 | // |
7 | // These maps are used in some fairly hot code when generating NFA states for |
8 | // large Unicode character classes. |
9 | // |
10 | // Instead of exposing a rich hashmap entry API, we just permit the caller |
11 | // to produce a hash of the key directly. The hash can then be reused for both |
12 | // lookups and insertions at the cost of leaking things a bit. But these are |
13 | // for internal use only, so it's fine. |
14 | // |
15 | // The Utf8BoundedMap is used for Daciuk's algorithm for constructing a |
16 | // (almost) minimal DFA for large Unicode character classes in linear time. |
17 | // (Daciuk's algorithm is always used when compiling forward NFAs. For reverse |
18 | // NFAs, it's only used when the compiler is configured to 'shrink' the NFA, |
19 | // since there's a bit more expense in the reverse direction.) |
20 | // |
21 | // The Utf8SuffixMap is used when compiling large Unicode character classes for |
22 | // reverse NFAs when 'shrink' is disabled. Specifically, it augments the naive |
23 | // construction of UTF-8 automata by caching common suffixes. This doesn't |
24 | // get the same space savings as Daciuk's algorithm, but it's basically as |
25 | // fast as the naive approach and typically winds up using less memory (since |
26 | // it generates smaller NFAs) despite the presence of the cache. |
27 | // |
28 | // These maps effectively represent caching mechanisms for CState::Sparse and |
29 | // CState::Range, respectively. The former represents a single NFA state with |
30 | // many transitions of equivalent priority while the latter represents a single |
31 | // NFA state with a single transition. (Neither state ever has or is an |
32 | // epsilon transition.) Thus, they have different key types. It's likely we |
33 | // could make one generic map, but the machinery didn't seem worth it. They |
34 | // are simple enough. |
35 | |
36 | use nfa::{StateID, Transition}; |
37 | |
38 | // Basic FNV-1a hash constants as described in: |
39 | // https://en.wikipedia.org/wiki/Fowler%E2%80%93Noll%E2%80%93Vo_hash_function |
40 | const PRIME: u64 = 1099511628211; |
41 | const INIT: u64 = 14695981039346656037; |
42 | |
43 | /// A bounded hash map where the key is a sequence of NFA transitions and the |
44 | /// value is a pre-existing NFA state ID. |
45 | /// |
46 | /// std's hashmap can be used for this, however, this map has two important |
47 | /// advantages. Firstly, it has lower overhead. Secondly, it permits us to |
48 | /// control our memory usage by limited the number of slots. In general, the |
49 | /// cost here is that this map acts as a cache. That is, inserting a new entry |
50 | /// may remove an old entry. We are okay with this, since it does not impact |
51 | /// correctness in the cases where it is used. The only effect that dropping |
52 | /// states from the cache has is that the resulting NFA generated may be bigger |
53 | /// than it otherwise would be. |
54 | /// |
55 | /// This improves benchmarks that compile large Unicode character classes, |
56 | /// since it makes the generation of (almost) minimal UTF-8 automaton faster. |
57 | /// Specifically, one could observe the difference with std's hashmap via |
58 | /// something like the following benchmark: |
59 | /// |
60 | /// hyperfine "regex-automata-debug debug -acqr '\w{40} ecurB'" |
61 | /// |
62 | /// But to observe that difference, you'd have to modify the code to use |
63 | /// std's hashmap. |
64 | /// |
65 | /// It is quite possible that there is a better way to approach this problem. |
66 | /// For example, if there happens to be a very common state that collides with |
67 | /// a lot of less frequent states, then we could wind up with very poor caching |
68 | /// behavior. Alas, the effectiveness of this cache has not been measured. |
69 | /// Instead, ad hoc experiments suggest that it is "good enough." Additional |
70 | /// smarts (such as an LRU eviction policy) have to be weighed against the |
71 | /// amount of extra time they cost. |
72 | #[derive(Clone, Debug)] |
73 | pub struct Utf8BoundedMap { |
74 | /// The current version of this map. Only entries with matching versions |
75 | /// are considered during lookups. If an entry is found with a mismatched |
76 | /// version, then the map behaves as if the entry does not exist. |
77 | version: u16, |
78 | /// The total number of entries this map can store. |
79 | capacity: usize, |
80 | /// The actual entries, keyed by hash. Collisions between different states |
81 | /// result in the old state being dropped. |
82 | map: Vec<Utf8BoundedEntry>, |
83 | } |
84 | |
85 | /// An entry in this map. |
86 | #[derive(Clone, Debug, Default)] |
87 | struct Utf8BoundedEntry { |
88 | /// The version of the map used to produce this entry. If this entry's |
89 | /// version does not match the current version of the map, then the map |
90 | /// should behave as if this entry does not exist. |
91 | version: u16, |
92 | /// The key, which is a sorted sequence of non-overlapping NFA transitions. |
93 | key: Vec<Transition>, |
94 | /// The state ID corresponding to the state containing the transitions in |
95 | /// this entry. |
96 | val: StateID, |
97 | } |
98 | |
99 | impl Utf8BoundedMap { |
100 | /// Create a new bounded map with the given capacity. The map will never |
101 | /// grow beyond the given size. |
102 | /// |
103 | /// Note that this does not allocate. Instead, callers must call `clear` |
104 | /// before using this map. `clear` will allocate space if necessary. |
105 | /// |
106 | /// This avoids the need to pay for the allocation of this map when |
107 | /// compiling regexes that lack large Unicode character classes. |
108 | pub fn new(capacity: usize) -> Utf8BoundedMap { |
109 | assert!(capacity > 0); |
110 | Utf8BoundedMap { version: 0, capacity, map: vec![] } |
111 | } |
112 | |
113 | /// Clear this map of all entries, but permit the reuse of allocation |
114 | /// if possible. |
115 | /// |
116 | /// This must be called before the map can be used. |
117 | pub fn clear(&mut self) { |
118 | if self.map.is_empty() { |
119 | self.map = vec![Utf8BoundedEntry::default(); self.capacity]; |
120 | } else { |
121 | self.version = self.version.wrapping_add(1); |
122 | if self.version == 0 { |
123 | self.map = vec![Utf8BoundedEntry::default(); self.capacity]; |
124 | } |
125 | } |
126 | } |
127 | |
128 | /// Return a hash of the given transitions. |
129 | pub fn hash(&self, key: &[Transition]) -> usize { |
130 | let mut h = INIT; |
131 | for t in key { |
132 | h = (h ^ (t.start as u64)).wrapping_mul(PRIME); |
133 | h = (h ^ (t.end as u64)).wrapping_mul(PRIME); |
134 | h = (h ^ (t.next as u64)).wrapping_mul(PRIME); |
135 | } |
136 | (h as usize) % self.map.len() |
137 | } |
138 | |
139 | /// Retrieve the cached state ID corresponding to the given key. The hash |
140 | /// given must have been computed with `hash` using the same key value. |
141 | /// |
142 | /// If there is no cached state with the given transitions, then None is |
143 | /// returned. |
144 | pub fn get(&mut self, key: &[Transition], hash: usize) -> Option<StateID> { |
145 | let entry = &self.map[hash]; |
146 | if entry.version != self.version { |
147 | return None; |
148 | } |
149 | // There may be a hash collision, so we need to confirm real equality. |
150 | if entry.key != key { |
151 | return None; |
152 | } |
153 | Some(entry.val) |
154 | } |
155 | |
156 | /// Add a cached state to this map with the given key. Callers should |
157 | /// ensure that `state_id` points to a state that contains precisely the |
158 | /// NFA transitions given. |
159 | /// |
160 | /// `hash` must have been computed using the `hash` method with the same |
161 | /// key. |
162 | pub fn set( |
163 | &mut self, |
164 | key: Vec<Transition>, |
165 | hash: usize, |
166 | state_id: StateID, |
167 | ) { |
168 | self.map[hash] = |
169 | Utf8BoundedEntry { version: self.version, key, val: state_id }; |
170 | } |
171 | } |
172 | |
173 | /// A cache of suffixes used to modestly compress UTF-8 automata for large |
174 | /// Unicode character classes. |
175 | #[derive(Clone, Debug)] |
176 | pub struct Utf8SuffixMap { |
177 | /// The current version of this map. Only entries with matching versions |
178 | /// are considered during lookups. If an entry is found with a mismatched |
179 | /// version, then the map behaves as if the entry does not exist. |
180 | version: u16, |
181 | /// The total number of entries this map can store. |
182 | capacity: usize, |
183 | /// The actual entries, keyed by hash. Collisions between different states |
184 | /// result in the old state being dropped. |
185 | map: Vec<Utf8SuffixEntry>, |
186 | } |
187 | |
188 | /// A key that uniquely identifies an NFA state. It is a triple that represents |
189 | /// a transition from one state for a particular byte range. |
190 | #[derive(Clone, Debug, Default, Eq, PartialEq)] |
191 | pub struct Utf8SuffixKey { |
192 | pub from: StateID, |
193 | pub start: u8, |
194 | pub end: u8, |
195 | } |
196 | |
197 | /// An entry in this map. |
198 | #[derive(Clone, Debug, Default)] |
199 | struct Utf8SuffixEntry { |
200 | /// The version of the map used to produce this entry. If this entry's |
201 | /// version does not match the current version of the map, then the map |
202 | /// should behave as if this entry does not exist. |
203 | version: u16, |
204 | /// The key, which consists of a transition in a particular state. |
205 | key: Utf8SuffixKey, |
206 | /// The identifier that the transition in the key maps to. |
207 | val: StateID, |
208 | } |
209 | |
210 | impl Utf8SuffixMap { |
211 | /// Create a new bounded map with the given capacity. The map will never |
212 | /// grow beyond the given size. |
213 | /// |
214 | /// Note that this does not allocate. Instead, callers must call `clear` |
215 | /// before using this map. `clear` will allocate space if necessary. |
216 | /// |
217 | /// This avoids the need to pay for the allocation of this map when |
218 | /// compiling regexes that lack large Unicode character classes. |
219 | pub fn new(capacity: usize) -> Utf8SuffixMap { |
220 | assert!(capacity > 0); |
221 | Utf8SuffixMap { version: 0, capacity, map: vec![] } |
222 | } |
223 | |
224 | /// Clear this map of all entries, but permit the reuse of allocation |
225 | /// if possible. |
226 | /// |
227 | /// This must be called before the map can be used. |
228 | pub fn clear(&mut self) { |
229 | if self.map.is_empty() { |
230 | self.map = vec![Utf8SuffixEntry::default(); self.capacity]; |
231 | } else { |
232 | self.version = self.version.wrapping_add(1); |
233 | if self.version == 0 { |
234 | self.map = vec![Utf8SuffixEntry::default(); self.capacity]; |
235 | } |
236 | } |
237 | } |
238 | |
239 | /// Return a hash of the given transition. |
240 | pub fn hash(&self, key: &Utf8SuffixKey) -> usize { |
241 | // Basic FNV-1a hash as described: |
242 | // https://en.wikipedia.org/wiki/Fowler%E2%80%93Noll%E2%80%93Vo_hash_function |
243 | const PRIME: u64 = 1099511628211; |
244 | const INIT: u64 = 14695981039346656037; |
245 | |
246 | let mut h = INIT; |
247 | h = (h ^ (key.from as u64)).wrapping_mul(PRIME); |
248 | h = (h ^ (key.start as u64)).wrapping_mul(PRIME); |
249 | h = (h ^ (key.end as u64)).wrapping_mul(PRIME); |
250 | (h as usize) % self.map.len() |
251 | } |
252 | |
253 | /// Retrieve the cached state ID corresponding to the given key. The hash |
254 | /// given must have been computed with `hash` using the same key value. |
255 | /// |
256 | /// If there is no cached state with the given key, then None is returned. |
257 | pub fn get( |
258 | &mut self, |
259 | key: &Utf8SuffixKey, |
260 | hash: usize, |
261 | ) -> Option<StateID> { |
262 | let entry = &self.map[hash]; |
263 | if entry.version != self.version { |
264 | return None; |
265 | } |
266 | if key != &entry.key { |
267 | return None; |
268 | } |
269 | Some(entry.val) |
270 | } |
271 | |
272 | /// Add a cached state to this map with the given key. Callers should |
273 | /// ensure that `state_id` points to a state that contains precisely the |
274 | /// NFA transition given. |
275 | /// |
276 | /// `hash` must have been computed using the `hash` method with the same |
277 | /// key. |
278 | pub fn set(&mut self, key: Utf8SuffixKey, hash: usize, state_id: StateID) { |
279 | self.map[hash] = |
280 | Utf8SuffixEntry { version: self.version, key, val: state_id }; |
281 | } |
282 | } |
283 | |