Co-authored-by: Kerollmops <clement@meilisearch.com>
Co-authored-by: ManyTheFish <many@meilisearch.com>
This commit is contained in:
Louis Dureuil 2024-08-28 18:45:16 +02:00 committed by Clément Renault
parent 9a756cf2c5
commit c683fa98e6
No known key found for this signature in database
GPG Key ID: F250A4C4E3AE5F5F
12 changed files with 1184 additions and 3 deletions

33
Cargo.lock generated
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@ -2230,6 +2230,16 @@ dependencies = [
"tempfile", "tempfile",
] ]
[[package]]
name = "grenad"
version = "0.4.7"
source = "git+https://github.com/meilisearch/grenad?branch=various-improvements#d7512aedb854c247acc7cd18d0bfa148d3779923"
dependencies = [
"bytemuck",
"byteorder",
"tempfile",
]
[[package]] [[package]]
name = "h2" name = "h2"
version = "0.3.26" version = "0.3.26"
@ -3313,6 +3323,15 @@ version = "0.4.21"
source = "registry+https://github.com/rust-lang/crates.io-index" source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "90ed8c1e510134f979dbc4f070f87d4313098b704861a105fe34231c70a3901c" checksum = "90ed8c1e510134f979dbc4f070f87d4313098b704861a105fe34231c70a3901c"
[[package]]
name = "lru"
version = "0.12.4"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "37ee39891760e7d94734f6f63fedc29a2e4a152f836120753a72503f09fcf904"
dependencies = [
"hashbrown 0.14.3",
]
[[package]] [[package]]
name = "lzma-rs" name = "lzma-rs"
version = "0.3.0" version = "0.3.0"
@ -3415,7 +3434,7 @@ dependencies = [
"mimalloc", "mimalloc",
"mime", "mime",
"num_cpus", "num_cpus",
"obkv", "obkv 0.2.2",
"once_cell", "once_cell",
"ordered-float", "ordered-float",
"parking_lot", "parking_lot",
@ -3565,7 +3584,8 @@ dependencies = [
"fst", "fst",
"fxhash", "fxhash",
"geoutils", "geoutils",
"grenad", "grenad 0.4.7 (registry+https://github.com/rust-lang/crates.io-index)",
"grenad 0.4.7 (git+https://github.com/meilisearch/grenad?branch=various-improvements)",
"heed", "heed",
"hf-hub", "hf-hub",
"indexmap", "indexmap",
@ -3574,13 +3594,15 @@ dependencies = [
"json-depth-checker", "json-depth-checker",
"levenshtein_automata", "levenshtein_automata",
"liquid", "liquid",
"lru",
"maplit", "maplit",
"md5", "md5",
"meili-snap", "meili-snap",
"memchr", "memchr",
"memmap2", "memmap2",
"mimalloc", "mimalloc",
"obkv", "obkv 0.2.2",
"obkv 0.3.0",
"once_cell", "once_cell",
"ordered-float", "ordered-float",
"rand", "rand",
@ -3833,6 +3855,11 @@ version = "0.2.2"
source = "registry+https://github.com/rust-lang/crates.io-index" source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "a2e27bcfe835a379d32352112f6b8dbae2d99d16a5fff42abe6e5ba5386c1e5a" checksum = "a2e27bcfe835a379d32352112f6b8dbae2d99d16a5fff42abe6e5ba5386c1e5a"
[[package]]
name = "obkv"
version = "0.3.0"
source = "git+https://github.com/kerollmops/obkv?branch=unsized-kvreader#d248eb7edd3453ff758afc2883f6ae25684eb69e"
[[package]] [[package]]
name = "once_cell" name = "once_cell"
version = "1.19.0" version = "1.19.0"

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@ -30,6 +30,9 @@ grenad = { version = "0.4.7", default-features = false, features = [
"rayon", "rayon",
"tempfile", "tempfile",
] } ] }
grenad2 = { package = "grenad", version = "0.4.7", default-features = false, features = [
"tempfile"
], git = "https://github.com/meilisearch/grenad", branch = "various-improvements" }
heed = { version = "0.20.3", default-features = false, features = [ heed = { version = "0.20.3", default-features = false, features = [
"serde-json", "serde-json",
"serde-bincode", "serde-bincode",
@ -38,9 +41,11 @@ heed = { version = "0.20.3", default-features = false, features = [
indexmap = { version = "2.2.6", features = ["serde"] } indexmap = { version = "2.2.6", features = ["serde"] }
json-depth-checker = { path = "../json-depth-checker" } json-depth-checker = { path = "../json-depth-checker" }
levenshtein_automata = { version = "0.2.1", features = ["fst_automaton"] } levenshtein_automata = { version = "0.2.1", features = ["fst_automaton"] }
lru = "0.12.3"
memchr = "2.5.0" memchr = "2.5.0"
memmap2 = "0.9.4" memmap2 = "0.9.4"
obkv = "0.2.2" obkv = "0.2.2"
obkv2 = { package = "obkv", git = "https://github.com/kerollmops/obkv", branch = "unsized-kvreader" }
once_cell = "1.19.0" once_cell = "1.19.0"
ordered-float = "4.2.1" ordered-float = "4.2.1"
rayon = "1.10.0" rayon = "1.10.0"

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@ -1251,6 +1251,14 @@ impl Index {
/* documents */ /* documents */
/// Returns a document by using the document id.
pub fn document<'t>(&self, rtxn: &'t RoTxn, id: DocumentId) -> Result<obkv::KvReaderU16<'t>> {
self.documents
.get(rtxn, &id)?
.ok_or(UserError::UnknownInternalDocumentId { document_id: id })
.map_err(Into::into)
}
/// Returns an iterator over the requested documents. The next item will be an error if a document is missing. /// Returns an iterator over the requested documents. The next item will be an error if a document is missing.
pub fn iter_documents<'a, 't: 'a>( pub fn iter_documents<'a, 't: 'a>(
&'a self, &'a self,

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@ -19,6 +19,7 @@ pub(crate) mod del_add;
pub(crate) mod facet; pub(crate) mod facet;
mod index_documents; mod index_documents;
mod indexer_config; mod indexer_config;
mod new;
mod settings; mod settings;
mod update_step; mod update_step;
mod word_prefix_docids; mod word_prefix_docids;

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@ -0,0 +1,78 @@
use heed::RoTxn;
use obkv2::KvReader;
use super::indexer::KvReaderFieldId;
use crate::{DocumentId, FieldId};
pub enum DocumentChange {
Deletion(Deletion),
Update(Update),
Insertion(Insertion),
}
pub struct Deletion {
docid: DocumentId,
external_docid: String, // ?
current: Box<KvReaderFieldId>,
}
pub struct Update {
docid: DocumentId,
external_docid: String, // ?
current: Box<KvReaderFieldId>,
new: Box<KvReaderFieldId>,
}
pub struct Insertion {
docid: DocumentId,
external_docid: String, // ?
new: Box<KvReaderFieldId>,
}
impl DocumentChange {
fn docid(&self) -> DocumentId {
match &self {
Self::Deletion(inner) => inner.docid(),
Self::Update(inner) => inner.docid(),
Self::Insertion(inner) => inner.docid(),
}
}
}
impl Deletion {
pub fn new(docid: DocumentId, external_docid: String, current: Box<KvReaderFieldId>) -> Self {
Self { docid, external_docid, current }
}
fn docid(&self) -> DocumentId {
self.docid
}
fn current(&self, rtxn: &RoTxn) -> &KvReader<FieldId> {
unimplemented!()
}
}
impl Insertion {
fn docid(&self) -> DocumentId {
self.docid
}
fn new(&self) -> &KvReader<FieldId> {
unimplemented!()
}
}
impl Update {
fn docid(&self) -> DocumentId {
self.docid
}
fn current(&self, rtxn: &RoTxn) -> &KvReader<FieldId> {
unimplemented!()
}
fn new(&self) -> &KvReader<FieldId> {
unimplemented!()
}
}

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@ -0,0 +1,248 @@
use std::borrow::Cow;
use std::num::NonZeroUsize;
use std::{io, mem};
use grenad2::{MergeFunction, Sorter};
use lru::LruCache;
use roaring::RoaringBitmap;
use smallvec::SmallVec;
use crate::del_add::{DelAdd, KvReaderDelAdd, KvWriterDelAdd};
#[derive(Debug)]
pub struct CachedSorter<MF> {
cache: lru::LruCache<SmallVec<[u8; 20]>, DelAddRoaringBitmap>,
sorter: Sorter<MF>,
deladd_buffer: Vec<u8>,
cbo_buffer: Vec<u8>,
}
impl<MF> CachedSorter<MF> {
pub fn new(cap: NonZeroUsize, sorter: Sorter<MF>) -> Self {
CachedSorter {
cache: lru::LruCache::new(cap),
sorter,
deladd_buffer: Vec::new(),
cbo_buffer: Vec::new(),
}
}
}
impl<MF: MergeFunction> CachedSorter<MF> {
pub fn insert_del_u32(&mut self, key: &[u8], n: u32) -> grenad::Result<(), MF::Error> {
match self.cache.get_mut(key) {
Some(DelAddRoaringBitmap { del, add: _ }) => {
del.get_or_insert_with(RoaringBitmap::new).insert(n);
}
None => {
let value = DelAddRoaringBitmap::new_del_u32(n);
if let Some((key, deladd)) = self.cache.push(key.into(), value) {
self.write_entry(key, deladd)?;
}
}
}
Ok(())
}
pub fn insert_del(
&mut self,
key: &[u8],
bitmap: RoaringBitmap,
) -> grenad::Result<(), MF::Error> {
match self.cache.get_mut(key) {
Some(DelAddRoaringBitmap { del, add: _ }) => {
*del.get_or_insert_with(RoaringBitmap::new) |= bitmap;
}
None => {
let value = DelAddRoaringBitmap::new_del(bitmap);
if let Some((key, deladd)) = self.cache.push(key.into(), value) {
self.write_entry(key, deladd)?;
}
}
}
Ok(())
}
pub fn insert_add_u32(&mut self, key: &[u8], n: u32) -> grenad::Result<(), MF::Error> {
match self.cache.get_mut(key) {
Some(DelAddRoaringBitmap { del: _, add }) => {
add.get_or_insert_with(RoaringBitmap::new).insert(n);
}
None => {
let value = DelAddRoaringBitmap::new_add_u32(n);
if let Some((key, deladd)) = self.cache.push(key.into(), value) {
self.write_entry(key, deladd)?;
}
}
}
Ok(())
}
pub fn insert_add(
&mut self,
key: &[u8],
bitmap: RoaringBitmap,
) -> grenad::Result<(), MF::Error> {
match self.cache.get_mut(key) {
Some(DelAddRoaringBitmap { del: _, add }) => {
*add.get_or_insert_with(RoaringBitmap::new) |= bitmap;
}
None => {
let value = DelAddRoaringBitmap::new_add(bitmap);
if let Some((key, deladd)) = self.cache.push(key.into(), value) {
self.write_entry(key, deladd)?;
}
}
}
Ok(())
}
pub fn insert_del_add_u32(&mut self, key: &[u8], n: u32) -> grenad::Result<(), MF::Error> {
match self.cache.get_mut(key) {
Some(DelAddRoaringBitmap { del, add }) => {
del.get_or_insert_with(RoaringBitmap::new).insert(n);
add.get_or_insert_with(RoaringBitmap::new).insert(n);
}
None => {
let value = DelAddRoaringBitmap::new_del_add_u32(n);
if let Some((key, deladd)) = self.cache.push(key.into(), value) {
self.write_entry(key, deladd)?;
}
}
}
Ok(())
}
fn write_entry<A: AsRef<[u8]>>(
&mut self,
key: A,
deladd: DelAddRoaringBitmap,
) -> grenad::Result<(), MF::Error> {
self.deladd_buffer.clear();
let mut value_writer = KvWriterDelAdd::new(&mut self.deladd_buffer);
match deladd {
DelAddRoaringBitmap { del: Some(del), add: None } => {
self.cbo_buffer.clear();
RoaringBitmap::serialize_into(&del, &mut self.cbo_buffer)?;
value_writer.insert(DelAdd::Deletion, &self.cbo_buffer)?;
}
DelAddRoaringBitmap { del: None, add: Some(add) } => {
self.cbo_buffer.clear();
RoaringBitmap::serialize_into(&add, &mut self.cbo_buffer)?;
value_writer.insert(DelAdd::Addition, &self.cbo_buffer)?;
}
DelAddRoaringBitmap { del: Some(del), add: Some(add) } => {
self.cbo_buffer.clear();
RoaringBitmap::serialize_into(&del, &mut self.cbo_buffer)?;
value_writer.insert(DelAdd::Deletion, &self.cbo_buffer)?;
self.cbo_buffer.clear();
RoaringBitmap::serialize_into(&add, &mut self.cbo_buffer)?;
value_writer.insert(DelAdd::Addition, &self.cbo_buffer)?;
}
DelAddRoaringBitmap { del: None, add: None } => return Ok(()),
}
let bytes = value_writer.into_inner().unwrap();
self.sorter.insert(key, bytes)
}
pub fn direct_insert(&mut self, key: &[u8], val: &[u8]) -> grenad::Result<(), MF::Error> {
self.sorter.insert(key, val)
}
pub fn into_sorter(mut self) -> grenad::Result<Sorter<MF>, MF::Error> {
let default_arc = LruCache::new(NonZeroUsize::MIN);
for (key, deladd) in mem::replace(&mut self.cache, default_arc) {
self.write_entry(key, deladd)?;
}
Ok(self.sorter)
}
}
#[derive(Debug, Clone)]
pub struct DelAddRoaringBitmap {
pub del: Option<RoaringBitmap>,
pub add: Option<RoaringBitmap>,
}
impl DelAddRoaringBitmap {
fn new_del_add_u32(n: u32) -> Self {
DelAddRoaringBitmap {
del: Some(RoaringBitmap::from([n])),
add: Some(RoaringBitmap::from([n])),
}
}
fn new_del(bitmap: RoaringBitmap) -> Self {
DelAddRoaringBitmap { del: Some(bitmap), add: None }
}
fn new_del_u32(n: u32) -> Self {
DelAddRoaringBitmap { del: Some(RoaringBitmap::from([n])), add: None }
}
fn new_add(bitmap: RoaringBitmap) -> Self {
DelAddRoaringBitmap { del: None, add: Some(bitmap) }
}
fn new_add_u32(n: u32) -> Self {
DelAddRoaringBitmap { del: None, add: Some(RoaringBitmap::from([n])) }
}
}
/// Do a union of CboRoaringBitmaps on both sides of a DelAdd obkv
/// separately and outputs a new DelAdd with both unions.
pub struct DelAddRoaringBitmapMerger;
impl MergeFunction for DelAddRoaringBitmapMerger {
type Error = io::Error;
fn merge<'a>(
&self,
_key: &[u8],
values: &[Cow<'a, [u8]>],
) -> std::result::Result<Cow<'a, [u8]>, Self::Error> {
if values.len() == 1 {
Ok(values[0].clone())
} else {
// Retrieve the bitmaps from both sides
let mut del_bitmaps_bytes = Vec::new();
let mut add_bitmaps_bytes = Vec::new();
for value in values {
let obkv: &KvReaderDelAdd = value.as_ref().into();
if let Some(bitmap_bytes) = obkv.get(DelAdd::Deletion) {
del_bitmaps_bytes.push(bitmap_bytes);
}
if let Some(bitmap_bytes) = obkv.get(DelAdd::Addition) {
add_bitmaps_bytes.push(bitmap_bytes);
}
}
let mut output_deladd_obkv = KvWriterDelAdd::memory();
// Deletion
let mut buffer = Vec::new();
let mut merged = RoaringBitmap::new();
for bytes in del_bitmaps_bytes {
merged |= RoaringBitmap::deserialize_unchecked_from(bytes)?;
}
merged.serialize_into(&mut buffer)?;
output_deladd_obkv.insert(DelAdd::Deletion, &buffer)?;
// Addition
buffer.clear();
merged.clear();
for bytes in add_bitmaps_bytes {
merged |= RoaringBitmap::deserialize_unchecked_from(bytes)?;
}
output_deladd_obkv.insert(DelAdd::Addition, &buffer)?;
output_deladd_obkv.into_inner().map(Cow::from).map_err(Into::into)
}
}
}

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@ -0,0 +1,84 @@
pub fn extract_word_docids(
document_change: DocumentChange,
_tokenizer: &Tokenizer,
output: &mut CachedSorter<DelAddRoaringBitmapMerger>,
) -> grenad::Result<(), io::Error> {
match document_change {
DocumentChange::Deletion(inner) => {
unimplemented!()
}
DocumentChange::Update(inner) => {
unimplemented!()
}
DocumentChange::Insertion(inner) => {
unimplemented!()
}
}
let normalizer_options = NormalizerOption::default();
if let Some(previous_doc) = previous_doc {
for (_, v) in previous_doc.iter() {
// Only manage the direct JSON strings
// TODO manage the JSON strings correctly (escaped chars)
if v.first().zip(v.last()) == Some((&b'"', &b'"')) {
let s = std::str::from_utf8(&v[1..v.len() - 1]).unwrap();
// for token in tokenizer.tokenize(s).filter(|t| t.is_word()) {
// let key = token.lemma().normalize(&normalizer_options);
for token in s.split_whitespace() {
let key = token.normalize(&normalizer_options);
output.insert_del_u32(key.as_bytes(), docid)?;
}
}
}
}
for (_, v) in new_doc.iter() {
// Only manage the direct JSON strings
// TODO manage the JSON strings correctly (escaped chars)
if v.first().zip(v.last()) == Some((&b'"', &b'"')) {
let s = std::str::from_utf8(&v[1..v.len() - 1]).unwrap();
// for token in tokenizer.tokenize(s).filter(|t| t.is_word()) {
// let key = token.lemma().normalize(&normalizer_options);
for token in s.split_whitespace() {
let key = token.normalize(&normalizer_options);
output.insert_add_u32(key.as_bytes(), docid)?;
}
}
}
Ok(())
}
/// take an iterator on tokens and compute their relative position depending on separator kinds
/// if it's an `Hard` separator we add an additional relative proximity of 8 between words,
/// else we keep the standard proximity of 1 between words.
fn process_tokens<'a>(
tokens: impl Iterator<Item = Token<'a>>,
) -> impl Iterator<Item = (usize, Token<'a>)> {
tokens
.skip_while(|token| token.is_separator())
.scan((0, None), |(offset, prev_kind), mut token| {
match token.kind {
TokenKind::Word | TokenKind::StopWord if !token.lemma().is_empty() => {
*offset += match *prev_kind {
Some(TokenKind::Separator(SeparatorKind::Hard)) => 8,
Some(_) => 1,
None => 0,
};
*prev_kind = Some(token.kind)
}
TokenKind::Separator(SeparatorKind::Hard) => {
*prev_kind = Some(token.kind);
}
TokenKind::Separator(SeparatorKind::Soft)
if *prev_kind != Some(TokenKind::Separator(SeparatorKind::Hard)) =>
{
*prev_kind = Some(token.kind);
}
_ => token.kind = TokenKind::Unknown,
}
Some((*offset, token))
})
.filter(|(_, t)| t.is_word())
}

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@ -0,0 +1,2 @@
mod cache;
mod extract_word_docids;

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@ -0,0 +1,195 @@
pub struct DocumentTokenizer {
tokenizer: &Tokenizer,
searchable_attributes: Option<&[String]>,
localized_attributes_rules: &[LocalizedAttributesRule],
max_positions_per_attributes: u32,
}
impl DocumentTokenizer {
// pub fn new(tokenizer: &Tokenizer, settings: &InnerIndexSettings) -> Self {
// Self { tokenizer, settings }
// }
pub fn tokenize_document<'a>(
obkv: &KvReader<'a, FieldId>,
field_id_map: &FieldsIdsMap,
token_fn: impl Fn(FieldId, u16, &str),
) {
let mut field_position = Hashmap::new();
for (field_id, field_bytes) in obkv {
let field_name = field_id_map.name(field_id);
let tokenize_field = |name, value| {
let field_id = field_id_map.id(name);
match value {
Number(n) => {
let token = n.to_string();
let position = field_position
.entry(field_id)
.and_modify(|counter| *counter += 8)
.or_insert(0);
token_fn(field_id, position, token.as_str());
}
String(text) => {
// create an iterator of token with their positions.
let locales = self
.localized_attributes_rules
.iter()
.first(|rule| rule.match_str(field_name))
.map(|rule| rule.locales(field_id));
let tokens =
process_tokens(tokenizer.tokenize_with_allow_list(field, locales))
.take_while(|(p, _)| {
(*p as u32) < self.max_positions_per_attributes
});
for (index, token) in tokens {
// keep a word only if it is not empty and fit in a LMDB key.
let token = token.lemma().trim();
if !token.is_empty() && token.len() <= MAX_WORD_LENGTH {
let position: u16 = index
.try_into()
.map_err(|_| SerializationError::InvalidNumberSerialization)?;
writer.insert(position, token.as_bytes())?;
}
}
}
_ => (),
}
};
// if the current field is searchable or contains a searchable attribute
if searchable_attributes.map_or(true, |attributes| {
attributes.iter().any(|name| contained_in(name, field_name))
}) {
// parse json.
match serde_json::from_slice(field_bytes).map_err(InternalError::SerdeJson)? {
Value::Object(object) => {
seek_leaf_values_in_object(object, selectors, &field_name, tokenize_field)
}
Value::Array(array) => {
seek_leaf_values_in_array(array, selectors, &field_name, tokenize_field)
}
value => tokenize_field(&base_key, value),
}
}
}
}
}
/// take an iterator on tokens and compute their relative position depending on separator kinds
/// if it's an `Hard` separator we add an additional relative proximity of 8 between words,
/// else we keep the standard proximity of 1 between words.
fn process_tokens<'a>(
tokens: impl Iterator<Item = Token<'a>>,
) -> impl Iterator<Item = (usize, Token<'a>)> {
tokens
.skip_while(|token| token.is_separator())
.scan((0, None), |(offset, prev_kind), mut token| {
match token.kind {
TokenKind::Word | TokenKind::StopWord if !token.lemma().is_empty() => {
*offset += match *prev_kind {
Some(TokenKind::Separator(SeparatorKind::Hard)) => 8,
Some(_) => 1,
None => 0,
};
*prev_kind = Some(token.kind)
}
TokenKind::Separator(SeparatorKind::Hard) => {
*prev_kind = Some(token.kind);
}
TokenKind::Separator(SeparatorKind::Soft)
if *prev_kind != Some(TokenKind::Separator(SeparatorKind::Hard)) =>
{
*prev_kind = Some(token.kind);
}
_ => token.kind = TokenKind::Unknown,
}
Some((*offset, token))
})
.filter(|(_, t)| t.is_word())
}
/// Returns `true` if the `selector` match the `key`.
///
/// ```text
/// Example:
/// `animaux` match `animaux`
/// `animaux.chien` match `animaux`
/// `animaux.chien` match `animaux`
/// `animaux.chien.nom` match `animaux`
/// `animaux.chien.nom` match `animaux.chien`
/// -----------------------------------------
/// `animaux` doesn't match `animaux.chien`
/// `animaux.` doesn't match `animaux`
/// `animaux.ch` doesn't match `animaux.chien`
/// `animau` doesn't match `animaux`
/// ```
fn contained_in(selector: &str, key: &str) -> bool {
selector.starts_with(key)
&& selector[key.len()..].chars().next().map(|c| c == SPLIT_SYMBOL).unwrap_or(true)
}
/// TODO move in permissive json pointer
mod perm_json_p {
pub fn seek_leaf_values<'a>(
value: &Map<String, Value>,
selectors: impl IntoIterator<Item = &'a str>,
seeker: impl Fn(&str, &Value),
) {
let selectors: Vec<_> = selectors.into_iter().collect();
seek_leaf_values_in_object(value, &selectors, "", &seeker);
}
pub fn seek_leaf_values_in_object(
value: &Map<String, Value>,
selectors: &[&str],
base_key: &str,
seeker: &impl Fn(&str, &Value),
) {
for (key, value) in value.iter() {
let base_key = if base_key.is_empty() {
key.to_string()
} else {
format!("{}{}{}", base_key, SPLIT_SYMBOL, key)
};
// here if the user only specified `doggo` we need to iterate in all the fields of `doggo`
// so we check the contained_in on both side
let should_continue = selectors.iter().any(|selector| {
contained_in(selector, &base_key) || contained_in(&base_key, selector)
});
if should_continue {
match value {
Value::Object(object) => {
seek_leaf_values_in_object(object, selectors, &base_key, seeker)
}
Value::Array(array) => {
seek_leaf_values_in_array(array, selectors, &base_key, seeker)
}
value => seeker(&base_key, value),
}
}
}
}
pub fn seek_leaf_values_in_array(
values: &mut [Value],
selectors: &[&str],
base_key: &str,
seeker: &impl Fn(&str, &Value),
) {
for value in values.iter_mut() {
match value {
Value::Object(object) => {
seek_leaf_values_in_object(object, selectors, base_key, seeker)
}
Value::Array(array) => {
seek_leaf_values_in_array(array, selectors, base_key, seeker)
}
value => seeker(base_key, value),
}
}
}
}

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@ -0,0 +1,65 @@
use std::sync::{Arc, RwLock};
use crate::{FieldId, FieldsIdsMap};
/// A fields ids map that can be globally updated to add fields
pub struct GlobalFieldsIdsMap {
global: Arc<RwLock<FieldsIdsMap>>,
local: FieldsIdsMap,
}
impl GlobalFieldsIdsMap {
pub fn new(global: FieldsIdsMap) -> Self {
Self { local: global.clone(), global: Arc::new(RwLock::new(global)) }
}
/// Returns the number of fields ids in the map.
pub fn global_len(&self) -> usize {
todo!()
}
/// Returns `true` if the map is empty.
pub fn global_is_empty(&self) -> bool {
todo!()
}
/// Returns the field id related to a field name, it will create a new field id if the
/// name is not already known. Returns `None` if the maximum field id as been reached.
pub fn insert(&mut self, name: &str) -> Option<FieldId> {
match self.names_ids.get(name) {
Some(id) => Some(*id),
None => {
let id = self.next_id?;
self.next_id = id.checked_add(1);
self.names_ids.insert(name.to_owned(), id);
self.ids_names.insert(id, name.to_owned());
Some(id)
}
}
}
/// Get the id of a field based on its name.
pub fn id(&self, name: &str) -> Option<FieldId> {
self.names_ids.get(name).copied()
}
/// Get the name of a field based on its id.
pub fn name(&self, id: FieldId) -> Option<&str> {
self.ids_names.get(&id).map(String::as_str)
}
/// Iterate over the ids and names in the ids order.
pub fn iter(&self) -> impl Iterator<Item = (FieldId, &str)> {
self.ids_names.iter().map(|(id, name)| (*id, name.as_str()))
}
/// Iterate over the ids in the order of the ids.
pub fn ids(&'_ self) -> impl Iterator<Item = FieldId> + '_ {
self.ids_names.keys().copied()
}
/// Iterate over the names in the order of the ids.
pub fn names(&self) -> impl Iterator<Item = &str> {
self.ids_names.values().map(AsRef::as_ref)
}
}

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@ -0,0 +1,54 @@
use crossbeam_channel::{Receiver, Sender, TryRecvError};
/// A pool of items that can be pull and generated on demand.
pub struct ItemsPool<F, T, E>
where
F: Fn() -> Result<T, E>,
{
init: F,
sender: Sender<T>,
receiver: Receiver<T>,
}
impl<F, T, E> ItemsPool<F, T, E>
where
F: Fn() -> Result<T, E>,
{
/// Create a new unbounded items pool with the specified function
/// to generate items when needed.
///
/// The `init` function will be invoked whenever a call to `with` requires new items.
pub fn new(init: F) -> Self {
let (sender, receiver) = crossbeam_channel::unbounded();
ItemsPool { init, sender, receiver }
}
/// Consumes the pool to retrieve all remaining items.
///
/// This method is useful for cleaning up and managing the items once they are no longer needed.
pub fn into_items(self) -> crossbeam_channel::IntoIter<T> {
self.receiver.into_iter()
}
/// Allows running a function on an item from the pool,
/// potentially generating a new item if the pool is empty.
pub fn with<G, R>(&self, f: G) -> Result<R, E>
where
G: FnOnce(&mut T) -> Result<R, E>,
{
let mut item = match self.receiver.try_recv() {
Ok(item) => item,
Err(TryRecvError::Empty) => (self.init)()?,
Err(TryRecvError::Disconnected) => unreachable!(),
};
// Run the user's closure with the retrieved item
let result = f(&mut item);
if let Err(e) = self.sender.send(item) {
unreachable!("error when sending into channel {e}");
}
result
}
}

414
milli/src/update/new/mod.rs Normal file
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@ -0,0 +1,414 @@
mod document_change;
// mod extract;
mod items_pool;
mod global_fields_ids_map;
mod indexer {
use std::collections::{BTreeMap, HashMap};
use std::fs::File;
use std::io::Cursor;
use std::os::unix::fs::MetadataExt;
use std::sync::Arc;
use heed::RoTxn;
use memmap2::Mmap;
use rayon::iter::{IntoParallelIterator, ParallelBridge, ParallelIterator};
use roaring::RoaringBitmap;
use serde_json::Value;
use super::document_change::{self, DocumentChange};
use super::items_pool::ItemsPool;
use crate::documents::{
obkv_to_object, DocumentIdExtractionError, DocumentsBatchReader, PrimaryKey,
};
use crate::update::{AvailableDocumentsIds, IndexDocumentsMethod};
use crate::{
DocumentId, Error, FieldId, FieldsIdsMap, Index, InternalError, Result, UserError,
};
pub type KvReaderFieldId = obkv2::KvReader<FieldId>;
pub type KvWriterFieldId<W> = obkv2::KvWriter<FieldId, W>;
pub struct DocumentOperationIndexer {
operations: Vec<Payload>,
method: IndexDocumentsMethod,
}
enum Payload {
Addition(File),
Deletion(Vec<String>),
}
pub struct PayloadStats {
pub document_count: usize,
pub bytes: u64,
}
enum DocumentOperation {
Addition(DocumentOffset),
Deletion,
}
/// Represents an offset where a document lives
/// in an mmapped grenad reader file.
struct DocumentOffset {
/// The mmapped grenad reader file.
pub content: Arc<Mmap>, // grenad::Reader
/// The offset of the document in the file.
pub offset: u32,
}
impl DocumentOperationIndexer {
pub fn new(method: IndexDocumentsMethod) -> Self {
Self { operations: Default::default(), method }
}
/// TODO please give me a type
/// The payload is expected to be in the grenad format
pub fn add_documents(&mut self, payload: File) -> Result<PayloadStats> {
let reader = DocumentsBatchReader::from_reader(&payload)?;
let bytes = payload.metadata()?.size();
let document_count = reader.documents_count() as usize;
self.operations.push(Payload::Addition(payload));
Ok(PayloadStats { bytes, document_count })
}
pub fn delete_documents(&mut self, to_delete: Vec<String>) {
self.operations.push(Payload::Deletion(to_delete))
}
pub fn document_changes<'a>(
self,
index: &'a Index,
rtxn: &'a RoTxn,
mut fields_ids_map: FieldsIdsMap,
primary_key: &'a PrimaryKey<'a>,
) -> Result<impl ParallelIterator<Item = document_change::DocumentChange> + 'a> {
let documents_ids = index.documents_ids(rtxn)?;
let mut available_docids = AvailableDocumentsIds::from_documents_ids(&documents_ids);
let mut docids_version_offsets = HashMap::<String, _>::new();
for operation in self.operations {
match operation {
Payload::Addition(payload) => {
let content = unsafe { Mmap::map(&payload).map(Arc::new)? };
let cursor = Cursor::new(content.as_ref());
let reader = DocumentsBatchReader::from_reader(cursor)?;
let (mut batch_cursor, batch_index) = reader.into_cursor_and_fields_index();
// TODO Fetch all document fields to fill the fields ids map
batch_index.iter().for_each(|(_, name)| {
fields_ids_map.insert(name);
});
let mut offset: u32 = 0;
while let Some(document) = batch_cursor.next_document()? {
let external_document_id =
match primary_key.document_id(&document, &batch_index)? {
Ok(document_id) => Ok(document_id),
Err(DocumentIdExtractionError::InvalidDocumentId(
user_error,
)) => Err(user_error),
Err(DocumentIdExtractionError::MissingDocumentId) => {
Err(UserError::MissingDocumentId {
primary_key: primary_key.name().to_string(),
document: obkv_to_object(&document, &batch_index)?,
})
}
Err(DocumentIdExtractionError::TooManyDocumentIds(_)) => {
Err(UserError::TooManyDocumentIds {
primary_key: primary_key.name().to_string(),
document: obkv_to_object(&document, &batch_index)?,
})
}
}?;
let content = content.clone();
let document_offset = DocumentOffset { content, offset };
let document_operation = DocumentOperation::Addition(document_offset);
match docids_version_offsets.get_mut(&external_document_id) {
None => {
let docid = match index
.external_documents_ids()
.get(rtxn, &external_document_id)?
{
Some(docid) => docid,
None => available_docids.next().ok_or(Error::UserError(
UserError::DocumentLimitReached,
))?,
};
docids_version_offsets.insert(
external_document_id.into(),
(docid, vec![document_operation]),
);
}
Some((_, offsets)) => offsets.push(document_operation),
}
offset += 1;
}
}
Payload::Deletion(to_delete) => {
for external_document_id in to_delete {
match docids_version_offsets.get_mut(&external_document_id) {
None => {
let docid = match index
.external_documents_ids()
.get(rtxn, &external_document_id)?
{
Some(docid) => docid,
None => available_docids.next().ok_or(Error::UserError(
UserError::DocumentLimitReached,
))?,
};
docids_version_offsets.insert(
external_document_id,
(docid, vec![DocumentOperation::Deletion]),
);
}
Some((_, offsets)) => offsets.push(DocumentOperation::Deletion),
}
}
}
}
}
let items = Arc::new(ItemsPool::new(|| index.read_txn().map_err(crate::Error::from)));
docids_version_offsets.into_par_iter().map_with(
items,
|context_pool, (external_docid, (internal_docid, operations))| {
context_pool.with(|rtxn| match self.method {
IndexDocumentsMethod::ReplaceDocuments => todo!(),
// TODO Remap the documents to match the db fields_ids_map
IndexDocumentsMethod::UpdateDocuments => merge_document_obkv_for_updates(
rtxn,
index,
&fields_ids_map,
internal_docid,
external_docid,
&operations,
),
})
},
);
Ok(vec![].into_par_iter())
// let mut file_count: usize = 0;
// for result in WalkDir::new(update_files_path)
// // TODO handle errors
// .sort_by_key(|entry| entry.metadata().unwrap().created().unwrap())
// {
// let entry = result?;
// if !entry.file_type().is_file() {
// continue;
// }
// let file = File::open(entry.path())
// .with_context(|| format!("While opening {}", entry.path().display()))?;
// let content = unsafe {
// Mmap::map(&file)
// .map(Arc::new)
// .with_context(|| format!("While memory mapping {}", entry.path().display()))?
// };
// let reader =
// crate::documents::DocumentsBatchReader::from_reader(Cursor::new(content.as_ref()))?;
// let (mut batch_cursor, batch_index) = reader.into_cursor_and_fields_index();
// batch_index.iter().for_each(|(_, name)| {
// fields_ids_map.insert(name);
// });
// let mut offset: u32 = 0;
// while let Some(document) = batch_cursor.next_document()? {
// let primary_key = batch_index.id(primary_key).unwrap();
// let document_id = document.get(primary_key).unwrap();
// let document_id = std::str::from_utf8(document_id).unwrap();
// let document_offset = DocumentOffset { content: content.clone(), offset };
// match docids_version_offsets.get_mut(document_id) {
// None => {
// let docid = match maindb.external_documents_ids.get(rtxn, document_id)? {
// Some(docid) => docid,
// None => sequential_docids.next().context("no more available docids")?,
// };
// docids_version_offsets
// .insert(document_id.into(), (docid, smallvec![document_offset]));
// }
// Some((_, offsets)) => offsets.push(document_offset),
// }
// offset += 1;
// p.inc(1);
// }
// file_count += 1;
// }
}
}
pub struct DeleteDocumentIndexer {
to_delete: RoaringBitmap,
}
impl DeleteDocumentIndexer {
pub fn new() -> Self {
Self { to_delete: Default::default() }
}
pub fn delete_documents_by_docids(&mut self, docids: RoaringBitmap) {
self.to_delete |= docids;
}
// let fields = index.fields_ids_map(rtxn)?;
// let primary_key =
// index.primary_key(rtxn)?.ok_or(InternalError::DatabaseMissingEntry {
// db_name: db_name::MAIN,
// key: Some(main_key::PRIMARY_KEY_KEY),
// })?;
// let primary_key = PrimaryKey::new(primary_key, &fields).ok_or_else(|| {
// InternalError::FieldIdMapMissingEntry(crate::FieldIdMapMissingEntry::FieldName {
// field_name: primary_key.to_owned(),
// process: "external_id_of",
// })
// })?;
pub fn document_changes<'a, F>(
self,
index: &'a Index,
fields: &'a FieldsIdsMap,
primary_key: &'a PrimaryKey<'a>,
) -> Result<impl ParallelIterator<Item = Result<document_change::DocumentChange>> + 'a>
{
let items = Arc::new(ItemsPool::new(|| index.read_txn().map_err(crate::Error::from)));
Ok(self.to_delete.into_iter().par_bridge().map_with(items, |items, docid| {
items.with(|rtxn| {
let document = index.document(rtxn, docid)?;
let external_docid = match primary_key.document_id(&document, fields)? {
Ok(document_id) => Ok(document_id) as Result<_>,
Err(_) => Err(InternalError::DocumentsError(
crate::documents::Error::InvalidDocumentFormat,
)
.into()),
}?;
Ok(DocumentChange::Deletion(document_change::Deletion::new(
docid,
external_docid,
)))
})
}))
}
}
pub struct DumpIndexer;
impl DumpIndexer {
pub fn new() -> Self {
todo!()
}
pub fn document_changes_from_json_iter<I>(
self,
iter: I,
index: &Index,
) -> impl ParallelIterator<Item = document_change::DocumentChange>
where
I: IntoIterator<Item = Value>,
{
// let items = Arc::new(ItemsPool::new(|| {
// let rtxn = index.read_txn()?;
// let fields = index.fields_ids_map(&rtxn)?;
// let primary_key =
// index.primary_key(&rtxn)?.ok_or(InternalError::DatabaseMissingEntry {
// db_name: db_name::MAIN,
// key: Some(main_key::PRIMARY_KEY_KEY),
// })?;
// let primary_key = PrimaryKey::new(primary_key, &fields).ok_or_else(|| {
// InternalError::FieldIdMapMissingEntry(
// crate::FieldIdMapMissingEntry::FieldName {
// field_name: primary_key.to_owned(),
// process: "external_id_of",
// },
// )
// })?;
// Ok(DeleteDocumentExternalDocumentIdGetter { rtxn, fields, primary_key })
// as crate::Result<_>
// }));
todo!();
vec![].into_par_iter()
}
}
pub struct UpdateByFunctionIndexer;
// DocumentsBatchReader::from_reader(Cursor::new(content.as_ref()))?
/// Reads the previous version of a document from the database, the new versions
/// in the grenad update files and merges them to generate a new boxed obkv.
///
/// This function is only meant to be used when doing an update and not a replacement.
pub fn merge_document_obkv_for_updates(
rtxn: &RoTxn,
// Let's construct the new obkv in memory
index: &Index,
fields_ids_map: &FieldsIdsMap,
docid: DocumentId,
external_docid: String,
operations: &[DocumentOperation],
) -> Result<Option<DocumentChange>> {
let mut document = BTreeMap::new();
let original_obkv =
index.documents.remap_data_type::<heed::types::Bytes>().get(rtxn, &docid)?;
let original_obkv: Option<&KvReaderFieldId> = original_obkv.map(Into::into);
if let Some(original_obkv) = original_obkv {
original_obkv.into_iter().for_each(|(k, v)| {
document.insert(k, v.to_vec());
});
}
let last_deletion = operations
.iter()
.rposition(|operation| matches!(operation, DocumentOperation::Deletion));
let operations = &operations[last_deletion.map_or(0, |i| i + 1)..];
if operations.is_empty() {
match original_obkv {
Some(original_obkv) => {
let current = original_obkv.as_bytes().to_vec().into_boxed_slice().into();
return Ok(Some(DocumentChange::Deletion(document_change::Deletion::new(
docid,
external_docid,
current,
))));
}
None => return Ok(None),
}
}
for operation in operations {
let DocumentOffset { content, offset } = ;
let reader = DocumentsBatchReader::from_reader(Cursor::new(content.as_ref()))?;
let (mut cursor, batch_index) = reader.into_cursor_and_fields_index();
let obkv = cursor.get(*offset)?.expect("must exists");
obkv.into_iter().for_each(|(k, v)| {
let field_name = batch_index.name(k).unwrap();
let id = fields_ids_map.id(field_name).unwrap();
document.insert(id, v.to_vec());
});
}
let mut writer = KvWriterFieldId::memory();
document.into_iter().for_each(|(id, value)| writer.insert(id, value).unwrap());
let boxed = writer.into_inner().unwrap().into_boxed_slice();
// Box<KvReaderFieldId>
Ok(boxed.into())
}
}