Improve the indexing process

We now store the words pairs proximity in a cache and only compute the
shortest proximity between pairs of words in a document.
This commit is contained in:
Kerollmops 2020-09-29 15:09:18 +02:00
parent 6ddb3e722c
commit 59a127d022
No known key found for this signature in database
GPG Key ID: 92ADA4E935E71FA4
2 changed files with 78 additions and 45 deletions

View File

@ -23,7 +23,7 @@ use structopt::StructOpt;
use milli::heed_codec::{CsvStringRecordCodec, ByteorderXRoaringBitmapCodec}; use milli::heed_codec::{CsvStringRecordCodec, ByteorderXRoaringBitmapCodec};
use milli::tokenizer::{simple_tokenizer, only_token}; use milli::tokenizer::{simple_tokenizer, only_token};
use milli::{SmallVec32, Index, DocumentId, BEU32}; use milli::{SmallVec32, Index, Position, DocumentId, BEU32};
const LMDB_MAX_KEY_LENGTH: usize = 511; const LMDB_MAX_KEY_LENGTH: usize = 511;
const ONE_MILLION: usize = 1_000_000; const ONE_MILLION: usize = 1_000_000;
@ -91,7 +91,7 @@ struct IndexerOpt {
/// Size of the linked hash map cache when indexing. /// Size of the linked hash map cache when indexing.
/// The bigger it is, the faster the indexing is but the more memory it takes. /// The bigger it is, the faster the indexing is but the more memory it takes.
#[structopt(long, default_value = "1048576")] #[structopt(long, default_value = "524288")]
linked_hash_map_size: usize, linked_hash_map_size: usize,
/// The name of the compression algorithm to use when compressing intermediate /// The name of the compression algorithm to use when compressing intermediate
@ -130,35 +130,34 @@ fn create_writer(type_: CompressionType, level: Option<u32>, file: File) -> Writ
builder.build(file) builder.build(file)
} }
/// Outputs a list of all pairs of words with the proximities between 1 and 7 inclusive. /// Outputs a list of all pairs of words with the shortest proximity between 1 and 7 inclusive.
/// ///
/// This list is used by the engine to calculate the documents containing the word that are /// This list is used by the engine to calculate the documents containing words that are
/// close to each other. /// close to each other.
//
// TODO we currently store both words pairs (a,b) and (b,a) but we can maybe optimize
// that by only storing the lexicographically ordered pair and increment by one the pair
// that is not in the right order. This way we would avoid storing pairs in both orders.
fn compute_words_pair_proximities( fn compute_words_pair_proximities(
word_positions: &HashMap<String, RoaringBitmap>, word_positions: &HashMap<String, SmallVec32<Position>>,
) -> HashMap<(&str, &str), RoaringBitmap> ) -> HashMap<(&str, &str), u8>
{ {
use itertools::Itertools; use itertools::Itertools;
let mut words_pair_proximities = HashMap::new(); let mut words_pair_proximities = HashMap::new();
for (w1, w2) in word_positions.keys().cartesian_product(word_positions.keys()) { for ((w1, ps1), (w2, ps2)) in word_positions.iter().cartesian_product(word_positions) {
let mut distances = RoaringBitmap::new(); let mut min_prox = None;
let positions1: Vec<_> = word_positions[w1].iter().collect(); for (ps1, ps2) in ps1.iter().cartesian_product(ps2) {
let positions2: Vec<_> = word_positions[w2].iter().collect();
for (ps1, ps2) in positions1.iter().cartesian_product(positions2.iter()) {
let prox = milli::proximity::positions_proximity(*ps1, *ps2); let prox = milli::proximity::positions_proximity(*ps1, *ps2);
let prox = u8::try_from(prox).unwrap();
// We don't care about a word that appear at the // We don't care about a word that appear at the
// same position or too far from the other. // same position or too far from the other.
if prox > 0 && prox < 8 { distances.insert(prox); } if prox >= 1 && prox <= 7 {
match min_prox {
None => min_prox = Some(prox),
Some(mp) => if prox < mp { min_prox = Some(prox) },
} }
if !distances.is_empty() { }
words_pair_proximities.entry((w1.as_str(), w2.as_str())) }
.or_insert_with(RoaringBitmap::new)
.union_with(&distances); if let Some(min_prox) = min_prox {
words_pair_proximities.insert((w1.as_str(), w2.as_str()), min_prox);
} }
} }
@ -170,6 +169,8 @@ type MergeFn = fn(&[u8], &[Vec<u8>]) -> Result<Vec<u8>, ()>;
struct Store { struct Store {
word_docids: LinkedHashMap<SmallVec32<u8>, RoaringBitmap>, word_docids: LinkedHashMap<SmallVec32<u8>, RoaringBitmap>,
word_docids_limit: usize, word_docids_limit: usize,
words_pairs_proximities_docids: LinkedHashMap<(SmallVec32<u8>, SmallVec32<u8>, u8), RoaringBitmap>,
words_pairs_proximities_docids_limit: usize,
documents_ids: RoaringBitmap, documents_ids: RoaringBitmap,
sorter: Sorter<MergeFn>, sorter: Sorter<MergeFn>,
documents_writer: Writer<File>, documents_writer: Writer<File>,
@ -208,6 +209,8 @@ impl Store {
Ok(Store { Ok(Store {
word_docids: LinkedHashMap::with_capacity(linked_hash_map_size), word_docids: LinkedHashMap::with_capacity(linked_hash_map_size),
word_docids_limit: linked_hash_map_size, word_docids_limit: linked_hash_map_size,
words_pairs_proximities_docids: LinkedHashMap::with_capacity(linked_hash_map_size),
words_pairs_proximities_docids_limit: linked_hash_map_size,
documents_ids: RoaringBitmap::new(), documents_ids: RoaringBitmap::new(),
sorter: builder.build(), sorter: builder.build(),
documents_writer, documents_writer,
@ -237,6 +240,43 @@ impl Store {
Ok(()) Ok(())
} }
// Save the documents ids under the words pairs proximities that it contains.
fn insert_words_pairs_proximities_docids<'a>(
&mut self,
words_pairs_proximities: impl IntoIterator<Item=((&'a str, &'a str), u8)>,
id: DocumentId,
) -> anyhow::Result<()>
{
for ((w1, w2), prox) in words_pairs_proximities {
let w1 = SmallVec32::from(w1.as_bytes());
let w2 = SmallVec32::from(w2.as_bytes());
let key = (w1, w2, prox);
// if get_refresh finds the element it is assured
// to be at the end of the linked hash map.
match self.words_pairs_proximities_docids.get_refresh(&key) {
Some(old) => { old.insert(id); },
None => {
// A newly inserted element is append at the end of the linked hash map.
let ids = RoaringBitmap::from_iter(Some(id));
self.words_pairs_proximities_docids.insert(key, ids);
}
}
}
// If the linked hashmap is over capacity we must remove the overflowing elements.
let len = self.words_pairs_proximities_docids.len();
let overflow = len.checked_sub(self.words_pairs_proximities_docids_limit);
if let Some(overflow) = overflow {
let mut lrus = Vec::with_capacity(overflow);
// Removing front elements is equivalent to removing the LRUs.
let iter = iter::from_fn(|| self.words_pairs_proximities_docids.pop_front());
iter.take(overflow).for_each(|x| lrus.push(x));
Self::write_words_pairs_proximities(&mut self.sorter, lrus)?;
}
Ok(())
}
fn write_headers(&mut self, headers: &StringRecord) -> anyhow::Result<()> { fn write_headers(&mut self, headers: &StringRecord) -> anyhow::Result<()> {
let headers = CsvStringRecordCodec::bytes_encode(headers) let headers = CsvStringRecordCodec::bytes_encode(headers)
.with_context(|| format!("could not encode csv record"))?; .with_context(|| format!("could not encode csv record"))?;
@ -246,13 +286,13 @@ impl Store {
fn write_document( fn write_document(
&mut self, &mut self,
document_id: DocumentId, document_id: DocumentId,
words_positions: &HashMap<String, RoaringBitmap>, words_positions: &HashMap<String, SmallVec32<Position>>,
record: &StringRecord, record: &StringRecord,
) -> anyhow::Result<()> ) -> anyhow::Result<()>
{ {
// We compute the list of words pairs proximities (self-join) and write it directly to disk. // We compute the list of words pairs proximities (self-join) and write it directly to disk.
let words_pair_proximities = compute_words_pair_proximities(&words_positions); let words_pair_proximities = compute_words_pair_proximities(&words_positions);
Self::write_words_pairs_proximities(&mut self.sorter, document_id, &words_pair_proximities)?; self.insert_words_pairs_proximities_docids(words_pair_proximities, document_id)?;
// We store document_id associated with all the words the record contains. // We store document_id associated with all the words the record contains.
for (word, _) in words_positions { for (word, _) in words_positions {
@ -269,38 +309,31 @@ impl Store {
Ok(()) Ok(())
} }
// FIXME We must store those pairs in a cache to reduce the number of I/O operations,
// We must store the documents ids associated with the words pairs and proximities.
fn write_words_pairs_proximities( fn write_words_pairs_proximities(
sorter: &mut Sorter<MergeFn>, sorter: &mut Sorter<MergeFn>,
document_id: DocumentId, iter: impl IntoIterator<Item=((SmallVec32<u8>, SmallVec32<u8>, u8), RoaringBitmap)>,
words_pair_proximities: &HashMap<(&str, &str), RoaringBitmap>,
) -> anyhow::Result<()> ) -> anyhow::Result<()>
{ {
// words proximities keys are all prefixed // words proximities keys are all prefixed
let mut key = vec![WORDS_PROXIMITIES_BYTE]; let mut key = vec![WORDS_PROXIMITIES_BYTE];
let mut buffer = Vec::new(); let mut buffer = Vec::new();
for ((w1, w2), proximities) in words_pair_proximities { for ((w1, w2, min_prox), docids) in iter {
key.truncate(1); key.truncate(1);
key.extend_from_slice(w1.as_bytes()); key.extend_from_slice(w1.as_bytes());
key.push(0); key.push(0);
key.extend_from_slice(w2.as_bytes()); key.extend_from_slice(w2.as_bytes());
let pair_len = key.len(); // Storing the minimun proximity found between those words
for prox in proximities { key.push(min_prox);
key.truncate(pair_len);
key.push(u8::try_from(prox).unwrap());
// We serialize the document ids into a buffer // We serialize the document ids into a buffer
buffer.clear(); buffer.clear();
let ids = RoaringBitmap::from_iter(Some(document_id)); buffer.reserve(docids.serialized_size());
buffer.reserve(ids.serialized_size()); docids.serialize_into(&mut buffer)?;
ids.serialize_into(&mut buffer)?;
// that we write under the generated key into MTBL // that we write under the generated key into MTBL
if lmdb_key_valid_size(&key) { if lmdb_key_valid_size(&key) {
sorter.insert(&key, &buffer)?; sorter.insert(&key, &buffer)?;
} }
} }
}
Ok(()) Ok(())
} }
@ -308,7 +341,7 @@ impl Store {
fn write_docid_word_positions( fn write_docid_word_positions(
sorter: &mut Sorter<MergeFn>, sorter: &mut Sorter<MergeFn>,
id: DocumentId, id: DocumentId,
words_positions: &HashMap<String, RoaringBitmap>, words_positions: &HashMap<String, SmallVec32<Position>>,
) -> anyhow::Result<()> ) -> anyhow::Result<()>
{ {
// postings positions ids keys are all prefixed // postings positions ids keys are all prefixed
@ -322,6 +355,7 @@ impl Store {
key.truncate(base_size); key.truncate(base_size);
key.extend_from_slice(word.as_bytes()); key.extend_from_slice(word.as_bytes());
// We serialize the positions into a buffer. // We serialize the positions into a buffer.
let positions = RoaringBitmap::from_iter(positions.iter().cloned());
let bytes = ByteorderXRoaringBitmapCodec::bytes_encode(&positions) let bytes = ByteorderXRoaringBitmapCodec::bytes_encode(&positions)
.with_context(|| format!("could not serialize positions"))?; .with_context(|| format!("could not serialize positions"))?;
// that we write under the generated key into MTBL // that we write under the generated key into MTBL
@ -345,6 +379,7 @@ impl Store {
key.extend_from_slice(&word); key.extend_from_slice(&word);
// We serialize the document ids into a buffer // We serialize the document ids into a buffer
buffer.clear(); buffer.clear();
let ids = RoaringBitmap::from_iter(ids);
buffer.reserve(ids.serialized_size()); buffer.reserve(ids.serialized_size());
ids.serialize_into(&mut buffer)?; ids.serialize_into(&mut buffer)?;
// that we write under the generated key into MTBL // that we write under the generated key into MTBL
@ -395,7 +430,7 @@ impl Store {
for (pos, token) in simple_tokenizer(&content).filter_map(only_token).enumerate().take(MAX_POSITION) { for (pos, token) in simple_tokenizer(&content).filter_map(only_token).enumerate().take(MAX_POSITION) {
let word = token.to_lowercase(); let word = token.to_lowercase();
let position = (attr * MAX_POSITION + pos) as u32; let position = (attr * MAX_POSITION + pos) as u32;
words_positions.entry(word).or_insert_with(RoaringBitmap::new).insert(position); words_positions.entry(word).or_insert_with(SmallVec32::new).push(position);
} }
} }
@ -419,6 +454,7 @@ impl Store {
Self::write_word_docids(&mut self.sorter, self.word_docids)?; Self::write_word_docids(&mut self.sorter, self.word_docids)?;
Self::write_documents_ids(&mut self.sorter, self.documents_ids)?; Self::write_documents_ids(&mut self.sorter, self.documents_ids)?;
Self::write_words_pairs_proximities(&mut self.sorter, self.words_pairs_proximities_docids)?;
let wtr_file = tempfile::tempfile()?; let wtr_file = tempfile::tempfile()?;
let mut wtr = create_writer(compression_type, compression_level, wtr_file); let mut wtr = create_writer(compression_type, compression_level, wtr_file);

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@ -8,9 +8,6 @@ use log::debug;
use once_cell::sync::Lazy; use once_cell::sync::Lazy;
use roaring::bitmap::{IntoIter, RoaringBitmap}; use roaring::bitmap::{IntoIter, RoaringBitmap};
use near_proximity::near_proximity;
use crate::proximity::path_proximity;
use crate::query_tokens::{QueryTokens, QueryToken}; use crate::query_tokens::{QueryTokens, QueryToken};
use crate::{Index, DocumentId}; use crate::{Index, DocumentId};