mod.rs source code [crates/rayon/src/iter/find_first_last/mod.rs]

1	use super::plumbing::*;
2	use super::*;
3	use std::cell::Cell;
4	use std::sync::atomic::{AtomicUsize, Ordering};
5
6	#[cfg(test)]
7	mod test;
8
9	// The key optimization for find_first is that a consumer can stop its search if
10	// some consumer to its left already found a match (and similarly for consumers
11	// to the right for find_last). To make this work, all consumers need some
12	// notion of their position in the data relative to other consumers, including
13	// unindexed consumers that have no built-in notion of position.
14	//
15	// To solve this, we assign each consumer a lower and upper bound for an
16	// imaginary "range" of data that it consumes. The initial consumer starts with
17	// the range 0..usize::max_value(). The split divides this range in half so that
18	// one resulting consumer has the range 0..(usize::max_value() / 2), and the
19	// other has (usize::max_value() / 2)..usize::max_value(). Every subsequent
20	// split divides the range in half again until it cannot be split anymore
21	// (i.e. its length is 1), in which case the split returns two consumers with
22	// the same range. In that case both consumers will continue to consume all
23	// their data regardless of whether a better match is found, but the reducer
24	// will still return the correct answer.
25
26	#[derive(Copy, Clone)]
27	enum MatchPosition {
28	Leftmost,
29	Rightmost,
30	}
31
32	/// Returns true if pos1 is a better match than pos2 according to MatchPosition
33	#[inline]
34	fn better_position(pos1: usize, pos2: usize, mp: MatchPosition) -> bool {
35	match mp {
36	MatchPosition::Leftmost => pos1 < pos2,
37	MatchPosition::Rightmost => pos1 > pos2,
38	}
39	}
40
41	pub(super) fn find_first<I, P>(pi: I, find_op: P) -> Option<I::Item>
42	where
43	I: ParallelIterator,
44	P: Fn(&I::Item) -> bool + Sync,
45	{
46	let best_found: AtomicUsize = AtomicUsize::new(usize::max_value());
47	let consumer: FindConsumer<'_, P> = FindConsumer::new(&find_op, MatchPosition::Leftmost, &best_found);
48	pi.drive_unindexed(consumer)
49	}
50
51	pub(super) fn find_last<I, P>(pi: I, find_op: P) -> Option<I::Item>
52	where
53	I: ParallelIterator,
54	P: Fn(&I::Item) -> bool + Sync,
55	{
56	let best_found: AtomicUsize = AtomicUsize::new(`0`);
57	let consumer: FindConsumer<'_, P> = FindConsumer::new(&find_op, MatchPosition::Rightmost, &best_found);
58	pi.drive_unindexed(consumer)
59	}
60
61	struct FindConsumer<'p, P> {
62	find_op: &'p P,
63	lower_bound: Cell<usize>,
64	upper_bound: usize,
65	match_position: MatchPosition,
66	best_found: &'p AtomicUsize,
67	}
68
69	impl<'p, P> FindConsumer<'p, P> {
70	fn new(find_op: &'p P, match_position: MatchPosition, best_found: &'p AtomicUsize) -> Self {
71	FindConsumer {
72	find_op,
73	lower_bound: Cell::new(`0`),
74	upper_bound: usize::max_value(),
75	match_position,
76	best_found,
77	}
78	}
79
80	fn current_index(&self) -> usize {
81	match self.match_position {
82	MatchPosition::Leftmost => self.lower_bound.get(),
83	MatchPosition::Rightmost => self.upper_bound,
84	}
85	}
86	}
87
88	impl<'p, T, P> Consumer<T> for FindConsumer<'p, P>
89	where
90	T: Send,
91	P: Fn(&T) -> bool + Sync,
92	{
93	type Folder = FindFolder<'p, T, P>;
94	type Reducer = FindReducer;
95	type Result = Option<T>;
96
97	fn split_at(self, _index: usize) -> (Self, Self, Self::Reducer) {
98	let dir = self.match_position;
99	(
100	self.split_off_left(),
101	self,
102	FindReducer {
103	match_position: dir,
104	},
105	)
106	}
107
108	fn into_folder(self) -> Self::Folder {
109	FindFolder {
110	find_op: self.find_op,
111	boundary: self.current_index(),
112	match_position: self.match_position,
113	best_found: self.best_found,
114	item: None,
115	}
116	}
117
118	fn full(&self) -> bool {
119	// can stop consuming if the best found index so far is strictly
120	// better than anything this consumer will find
121	better_position(
122	self.best_found.load(Ordering::Relaxed),
123	self.current_index(),
124	self.match_position,
125	)
126	}
127	}
128
129	impl<'p, T, P> UnindexedConsumer<T> for FindConsumer<'p, P>
130	where
131	T: Send,
132	P: Fn(&T) -> bool + Sync,
133	{
134	fn split_off_left(&self) -> Self {
135	// Upper bound for one consumer will be lower bound for the other. This
136	// overlap is okay, because only one of the bounds will be used for
137	// comparing against best_found; the other is kept only to be able to
138	// divide the range in half.
139	//
140	// When the resolution of usize has been exhausted (i.e. when
141	// upper_bound = lower_bound), both results of this split will have the
142	// same range. When that happens, we lose the ability to tell one
143	// consumer to stop working when the other finds a better match, but the
144	// reducer ensures that the best answer is still returned (see the test
145	// above).
146	let old_lower_bound = self.lower_bound.get();
147	let median = old_lower_bound + ((self.upper_bound - old_lower_bound) / `2`);
148	self.lower_bound.set(median);
149
150	FindConsumer {
151	find_op: self.find_op,
152	lower_bound: Cell::new(old_lower_bound),
153	upper_bound: median,
154	match_position: self.match_position,
155	best_found: self.best_found,
156	}
157	}
158
159	fn to_reducer(&self) -> Self::Reducer {
160	FindReducer {
161	match_position: self.match_position,
162	}
163	}
164	}
165
166	struct FindFolder<'p, T, P> {
167	find_op: &'p P,
168	boundary: usize,
169	match_position: MatchPosition,
170	best_found: &'p AtomicUsize,
171	item: Option<T>,
172	}
173
174	impl<'p, P: 'p + Fn(&T) -> bool, T> Folder<T> for FindFolder<'p, T, P> {
175	type Result = Option<T>;
176
177	fn consume(mut self, item: T) -> Self {
178	let found_best_in_range = match self.match_position {
179	MatchPosition::Leftmost => self.item.is_some(),
180	MatchPosition::Rightmost => `false`,
181	};
182
183	if !found_best_in_range && (self.find_op)(&item) {
184	// Continuously try to set best_found until we succeed or we
185	// discover a better match was already found.
186	let mut current = self.best_found.load(Ordering::Relaxed);
187	loop {
188	if better_position(current, self.boundary, self.match_position) {
189	break;
190	}
191	match self.best_found.compare_exchange_weak(
192	current,
193	self.boundary,
194	Ordering::Relaxed,
195	Ordering::Relaxed,
196	) {
197	Ok(_) => {
198	self.item = Some(item);
199	break;
200	}
201	Err(v) => current = v,
202	}
203	}
204	}
205	self
206	}
207
208	fn complete(self) -> Self::Result {
209	self.item
210	}
211
212	fn full(&self) -> bool {
213	let found_best_in_range = match self.match_position {
214	MatchPosition::Leftmost => self.item.is_some(),
215	MatchPosition::Rightmost => `false`,
216	};
217
218	found_best_in_range
219	\|\| better_position(
220	self.best_found.load(Ordering::Relaxed),
221	self.boundary,
222	self.match_position,
223	)
224	}
225	}
226
227	struct FindReducer {
228	match_position: MatchPosition,
229	}
230
231	impl<T> Reducer<Option<T>> for FindReducer {
232	fn reduce(self, left: Option<T>, right: Option<T>) -> Option<T> {
233	match self.match_position {
234	MatchPosition::Leftmost => left.or(optb:right),
235	MatchPosition::Rightmost => right.or(optb:left),
236	}
237	}
238	}
239