feat: Improve performances by reusing the documents HashMap

This commit is contained in:
Clément Renault 2018-08-24 21:01:53 +02:00
parent 0814418710
commit 9dce74e9c8

View File

@ -45,81 +45,49 @@ impl Document {
}
}
pub struct Pool {
documents: Vec<Document>,
limit: usize,
}
fn matches_into_iter(matches: FnvHashMap<DocumentId, Vec<Match>>, limit: usize) -> vec::IntoIter<Document> {
let mut documents: Vec<_> = matches.into_iter().map(|(id, mut matches)| {
matches.sort_unstable();
Document::from_sorted_matches(id, matches)
}).collect();
impl Pool {
pub fn new(query_size: usize, limit: usize) -> Self {
Self {
documents: Vec::new(),
limit: limit,
}
}
let sorts = &[
sum_of_typos,
number_of_words,
words_proximity,
sum_of_words_attribute,
sum_of_words_position,
exact,
];
// TODO remove the matches HashMap, not proud of it
pub fn extend(&mut self, matches: &mut FnvHashMap<DocumentId, Vec<Match>>) {
for doc in self.documents.iter_mut() {
if let Some(matches) = matches.remove(&doc.document_id) {
doc.matches.extend(matches);
doc.matches.sort_unstable();
}
}
{
let mut groups = vec![documents.as_mut_slice()];
for (id, mut matches) in matches.drain() {
// note that matches are already sorted we do that by security
// TODO remove this useless sort
matches.sort_unstable();
for sort in sorts {
let mut temp = mem::replace(&mut groups, Vec::new());
let mut computed = 0;
let document = Document::from_sorted_matches(id, matches);
self.documents.push(document);
}
}
}
impl IntoIterator for Pool {
type Item = Document;
type IntoIter = vec::IntoIter<Self::Item>;
fn into_iter(mut self) -> Self::IntoIter {
let sorts = &[
sum_of_typos,
number_of_words,
words_proximity,
sum_of_words_attribute,
sum_of_words_position,
exact,
];
{
let mut groups = vec![self.documents.as_mut_slice()];
for sort in sorts {
let mut temp = mem::replace(&mut groups, Vec::new());
let mut computed = 0;
for group in temp {
group.sort_unstable_by(sort);
for group in GroupByMut::new(group, |a, b| sort(a, b) == Ordering::Equal) {
computed += group.len();
groups.push(group);
if computed >= self.limit { break }
}
for group in temp {
group.sort_unstable_by(sort);
for group in GroupByMut::new(group, |a, b| sort(a, b) == Ordering::Equal) {
computed += group.len();
groups.push(group);
if computed >= limit { break }
}
}
}
self.documents.truncate(self.limit);
self.documents.into_iter()
}
documents.truncate(limit);
documents.into_iter()
}
pub enum RankedStream<'m, 'v> {
Fed {
inner: UnionWithState<'m, 'v, u32>,
automatons: Vec<Levenshtein>,
pool: Pool,
limit: usize,
matches: FnvHashMap<DocumentId, Vec<Match>>,
},
Pours {
inner: vec::IntoIter<Document>,
@ -135,12 +103,11 @@ impl<'m, 'v> RankedStream<'m, 'v> {
op.push(stream);
}
let pool = Pool::new(automatons.len(), limit);
RankedStream::Fed {
inner: op.union(),
automatons: automatons,
pool: pool,
limit: limit,
matches: FnvHashMap::default(),
}
}
}
@ -149,14 +116,13 @@ impl<'m, 'v, 'a> fst::Streamer<'a> for RankedStream<'m, 'v> {
type Item = Document;
fn next(&'a mut self) -> Option<Self::Item> {
let mut matches = FnvHashMap::default();
loop {
// TODO remove that when NLL are here !
let mut transfert_pool = None;
let mut transfert_matches = None;
let mut transfert_limit = None;
match self {
RankedStream::Fed { inner, automatons, pool } => {
RankedStream::Fed { inner, automatons, limit, matches } => {
match inner.next() {
Some((string, indexed_values)) => {
for iv in indexed_values {
@ -183,15 +149,15 @@ impl<'m, 'v, 'a> fst::Streamer<'a> for RankedStream<'m, 'v> {
is_exact: string.len() == automaton.query_len,
};
matches.entry(di.document)
.and_modify(|ms: &mut Vec<_>| ms.push(match_))
.or_insert_with(|| vec![match_]);
.or_insert_with(Vec::new)
.push(match_);
}
pool.extend(&mut matches);
}
},
None => {
// TODO remove this when NLL are here !
transfert_pool = Some(mem::replace(pool, Pool::new(1, 1)));
transfert_matches = Some(mem::replace(matches, FnvHashMap::default()));
transfert_limit = Some(mem::replace(limit, 0));
},
}
},
@ -201,9 +167,9 @@ impl<'m, 'v, 'a> fst::Streamer<'a> for RankedStream<'m, 'v> {
}
// transform the `RankedStream` into a `Pours`
if let Some(pool) = transfert_pool {
if let (Some(matches), Some(limit)) = (transfert_matches, transfert_limit) {
*self = RankedStream::Pours {
inner: pool.into_iter(),
inner: matches_into_iter(matches, limit).into_iter(),
}
}
}