feat: Introduce the DocumentsAddition type

This commit is contained in:
Clément Renault 2019-05-09 14:23:39 +02:00
parent 42e39f6eb5
commit e67ada8823
No known key found for this signature in database
GPG Key ID: 0151CDAB43460DAE
5 changed files with 289 additions and 232 deletions

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@ -87,8 +87,7 @@ where S: Store,
{ {
fn query_all(&self, query: &str) -> Result<Vec<RawDocument>, S::Error> { fn query_all(&self, query: &str) -> Result<Vec<RawDocument>, S::Error> {
let automatons = generate_automatons(query); let automatons = generate_automatons(query);
let words = self.store.words()?; let words = self.store.words()?.as_fst();
let words = words.as_fst();
let mut stream = { let mut stream = {
let mut op_builder = fst::raw::OpBuilder::new(); let mut op_builder = fst::raw::OpBuilder::new();

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@ -1,4 +1,5 @@
use std::collections::HashSet; use std::collections::{HashSet, HashMap};
use std::collections::hash_map::Entry;
use std::convert::TryInto; use std::convert::TryInto;
use std::io::{self, Cursor, BufRead}; use std::io::{self, Cursor, BufRead};
use std::iter::FromIterator; use std::iter::FromIterator;
@ -8,21 +9,19 @@ use std::{error, fmt};
use arc_swap::{ArcSwap, Lease}; use arc_swap::{ArcSwap, Lease};
use byteorder::{ReadBytesExt, BigEndian}; use byteorder::{ReadBytesExt, BigEndian};
use hashbrown::HashMap; use meilidb_core::{criterion::Criteria, QueryBuilder, Store, DocumentId, DocIndex};
use meilidb_core::{criterion::Criteria, QueryBuilder, DocumentId, DocIndex};
use rmp_serde::decode::{Error as RmpError}; use rmp_serde::decode::{Error as RmpError};
use sdset::SetBuf; use sdset::{Set, SetBuf, SetOperation, duo::Union};
use serde::de; use serde::de;
use sled::IVec; use sled::IVec;
use zerocopy::{AsBytes, LayoutVerified}; use zerocopy::{AsBytes, LayoutVerified};
use fst::{SetBuilder, set::OpBuilder};
use crate::{Schema, SchemaAttr, RankedMap}; use crate::{Schema, SchemaAttr, RankedMap};
use crate::serde::{extract_document_id, Serializer, Deserializer, SerializerError}; use crate::serde::{extract_document_id, Serializer, Deserializer, SerializerError};
use crate::indexer::{Indexer, WordIndexTree}; use crate::indexer::Indexer;
use crate::document_attr_key::DocumentAttrKey; use crate::document_attr_key::DocumentAttrKey;
pub type WordIndex = meilidb_core::Index<WordIndexTree>;
#[derive(Debug)] #[derive(Debug)]
pub enum Error { pub enum Error {
SchemaDiffer, SchemaDiffer,
@ -97,11 +96,18 @@ impl Database {
} }
} }
let indexes: HashSet<&str> = match self.inner.get("indexes")? { let mut cache = self.cache.write().unwrap();
Some(bytes) => bincode::deserialize(&bytes)?, let index = match cache.entry(name.to_string()) {
Entry::Occupied(occupied) => {
occupied.get().clone()
},
Entry::Vacant(vacant) => {
let bytes = match self.inner.get("indexes")? {
Some(bytes) => bytes,
None => return Ok(None), None => return Ok(None),
}; };
let indexes: HashSet<&str> = bincode::deserialize(&bytes)?;
if indexes.get(name).is_none() { if indexes.get(name).is_none() {
return Ok(None); return Ok(None);
} }
@ -124,27 +130,28 @@ impl Database {
}; };
let raw_index = RawIndex { main, words, documents }; let raw_index = RawIndex { main, words, documents };
let index = Arc::new(Index(raw_index)); let index = Index::from_raw(raw_index)?;
{ vacant.insert(Arc::new(index)).clone()
let cache = self.cache.write().unwrap(); },
cache.insert(name.to_string(), index.clone()); };
}
Ok(Some(index)) Ok(Some(index))
} }
pub fn create_index(&self, name: &str, schema: Schema) -> Result<Arc<Index>, Error> { pub fn create_index(&self, name: &str, schema: Schema) -> Result<Arc<Index>, Error> {
{ let mut cache = self.cache.write().unwrap();
let cache = self.cache.read().unwrap();
if let Some(index) = cache.get(name).cloned() {
// TODO check if schemas are the same
return Ok(index)
}
}
let mut indexes: HashSet<&str> = match self.inner.get("indexes")? { let index = match cache.entry(name.to_string()) {
Some(bytes) => bincode::deserialize(&bytes)?, Entry::Occupied(occupied) => {
occupied.get().clone()
},
Entry::Vacant(vacant) => {
let bytes = self.inner.get("indexes")?;
let bytes = bytes.as_ref();
let mut indexes: HashSet<&str> = match bytes {
Some(bytes) => bincode::deserialize(bytes)?,
None => HashSet::new(), None => HashSet::new(),
}; };
@ -174,29 +181,28 @@ impl Database {
}; };
let raw_index = RawIndex { main, words, documents }; let raw_index = RawIndex { main, words, documents };
let index = Arc::new(Index(raw_index)); let index = Index::from_raw(raw_index)?;
{ vacant.insert(Arc::new(index)).clone()
let cache = self.cache.write().unwrap(); },
cache.insert(name.to_string(), index.clone()); };
}
Ok(index) Ok(index)
} }
} }
#[derive(Clone)] #[derive(Clone)]
struct RawIndex { pub struct RawIndex {
main: MainIndex, pub main: MainIndex,
words: WordsIndex, pub words: WordsIndex,
documents: DocumentsIndex, pub documents: DocumentsIndex,
} }
#[derive(Clone)] #[derive(Clone)]
struct MainIndex(Arc<sled::Tree>); pub struct MainIndex(Arc<sled::Tree>);
impl MainIndex { impl MainIndex {
fn schema(&self) -> Result<Option<Schema>, Error> { pub fn schema(&self) -> Result<Option<Schema>, Error> {
match self.0.get("schema")? { match self.0.get("schema")? {
Some(bytes) => { Some(bytes) => {
let schema = Schema::read_from_bin(bytes.as_ref())?; let schema = Schema::read_from_bin(bytes.as_ref())?;
@ -206,7 +212,7 @@ impl MainIndex {
} }
} }
fn words_set(&self) -> Result<Option<fst::Set>, Error> { pub fn words_set(&self) -> Result<Option<fst::Set>, Error> {
match self.0.get("words")? { match self.0.get("words")? {
Some(bytes) => { Some(bytes) => {
let len = bytes.len(); let len = bytes.len();
@ -218,7 +224,12 @@ impl MainIndex {
} }
} }
fn ranked_map(&self) -> Result<Option<RankedMap>, Error> { pub fn set_words_set(&self, value: &fst::Set) -> Result<(), Error> {
self.0.set("words", value.as_fst().as_bytes())?;
Ok(())
}
pub fn ranked_map(&self) -> Result<Option<RankedMap>, Error> {
match self.0.get("ranked-map")? { match self.0.get("ranked-map")? {
Some(bytes) => { Some(bytes) => {
let ranked_map = RankedMap::read_from_bin(bytes.as_ref())?; let ranked_map = RankedMap::read_from_bin(bytes.as_ref())?;
@ -227,13 +238,20 @@ impl MainIndex {
None => Ok(None), None => Ok(None),
} }
} }
pub fn set_ranked_map(&self, value: &RankedMap) -> Result<(), Error> {
let mut bytes = Vec::new();
value.write_to_bin(&mut bytes)?;
self.0.set("ranked_map", bytes)?;
Ok(())
}
} }
#[derive(Clone)] #[derive(Clone)]
struct WordsIndex(Arc<sled::Tree>); pub struct WordsIndex(Arc<sled::Tree>);
impl WordsIndex { impl WordsIndex {
fn doc_indexes(&self, word: &[u8]) -> Result<Option<SetBuf<DocIndex>>, Error> { pub fn doc_indexes(&self, word: &[u8]) -> sled::Result<Option<SetBuf<DocIndex>>> {
match self.0.get(word)? { match self.0.get(word)? {
Some(bytes) => { Some(bytes) => {
let layout = LayoutVerified::new_slice(bytes.as_ref()).expect("invalid layout"); let layout = LayoutVerified::new_slice(bytes.as_ref()).expect("invalid layout");
@ -244,18 +262,33 @@ impl WordsIndex {
None => Ok(None), None => Ok(None),
} }
} }
pub fn set_doc_indexes(&self, word: &[u8], set: Option<&Set<DocIndex>>) -> sled::Result<()> {
match set {
Some(set) => self.0.set(word, set.as_bytes())?,
None => self.0.del(word)?,
};
Ok(())
}
} }
#[derive(Clone)] #[derive(Clone)]
struct DocumentsIndex(Arc<sled::Tree>); pub struct DocumentsIndex(Arc<sled::Tree>);
impl DocumentsIndex { impl DocumentsIndex {
fn document_field(&self, id: DocumentId, attr: SchemaAttr) -> Result<Option<IVec>, Error> { pub fn document_field(&self, id: DocumentId, attr: SchemaAttr) -> sled::Result<Option<IVec>> {
let key = DocumentAttrKey::new(id, attr).to_be_bytes(); let key = DocumentAttrKey::new(id, attr).to_be_bytes();
self.0.get(key).map_err(Into::into) self.0.get(key)
} }
fn document_fields(&self, id: DocumentId) -> DocumentFieldsIter { pub fn set_document_field(&self, id: DocumentId, attr: SchemaAttr, value: Vec<u8>) -> sled::Result<()> {
let key = DocumentAttrKey::new(id, attr).to_be_bytes();
self.0.set(key, value)?;
Ok(())
}
pub fn document_fields(&self, id: DocumentId) -> DocumentFieldsIter {
let start = DocumentAttrKey::new(id, SchemaAttr::min()); let start = DocumentAttrKey::new(id, SchemaAttr::min());
let start = start.to_be_bytes(); let start = start.to_be_bytes();
@ -269,7 +302,7 @@ impl DocumentsIndex {
pub struct DocumentFieldsIter<'a>(sled::Iter<'a>); pub struct DocumentFieldsIter<'a>(sled::Iter<'a>);
impl<'a> Iterator for DocumentFieldsIter<'a> { impl<'a> Iterator for DocumentFieldsIter<'a> {
type Item = Result<(SchemaAttr, IVec), Error>; type Item = sled::Result<(SchemaAttr, IVec)>;
fn next(&mut self) -> Option<Self::Item> { fn next(&mut self) -> Option<Self::Item> {
match self.0.next() { match self.0.next() {
@ -279,51 +312,72 @@ impl<'a> Iterator for DocumentFieldsIter<'a> {
let key = DocumentAttrKey::from_be_bytes(array); let key = DocumentAttrKey::from_be_bytes(array);
Some(Ok((key.attribute, value))) Some(Ok((key.attribute, value)))
}, },
Some(Err(e)) => Some(Err(Error::SledError(e))), Some(Err(e)) => Some(Err(e)),
None => None, None => None,
} }
} }
} }
#[derive(Clone)] #[derive(Clone)]
pub struct Index(RawIndex); pub struct Index(ArcSwap<InnerIndex>);
pub struct InnerIndex {
pub words: fst::Set,
pub schema: Schema,
pub ranked_map: RankedMap,
pub raw: RawIndex, // TODO this will be a snapshot in the future
}
impl Index { impl Index {
pub fn query_builder(&self) -> QueryBuilder<Lease<Arc<WordIndex>>> { fn from_raw(raw: RawIndex) -> Result<Index, Error> {
let word_index = self.word_index(); let words = match raw.main.words_set()? {
QueryBuilder::new(word_index) Some(words) => words,
None => fst::Set::default(),
};
let schema = match raw.main.schema()? {
Some(schema) => schema,
None => return Err(Error::SchemaMissing),
};
let ranked_map = match raw.main.ranked_map()? {
Some(map) => map,
None => RankedMap::default(),
};
let inner = InnerIndex { words, schema, ranked_map, raw };
let index = Index(ArcSwap::new(Arc::new(inner)));
Ok(index)
}
pub fn query_builder(&self) -> QueryBuilder<IndexLease> {
let lease = IndexLease(self.0.lease());
QueryBuilder::new(lease)
} }
pub fn query_builder_with_criteria<'c>( pub fn query_builder_with_criteria<'c>(
&self, &self,
criteria: Criteria<'c>, criteria: Criteria<'c>,
) -> QueryBuilder<'c, Lease<Arc<WordIndex>>> ) -> QueryBuilder<'c, IndexLease>
{ {
let word_index = self.word_index(); let lease = IndexLease(self.0.lease());
QueryBuilder::with_criteria(word_index, criteria) QueryBuilder::with_criteria(lease, criteria)
} }
pub fn schema(&self) -> &Schema { pub fn lease_inner(&self) -> Lease<Arc<InnerIndex>> {
self.0.schema() self.0.lease()
}
pub fn word_index(&self) -> Lease<Arc<WordIndex>> {
self.0.word_index()
}
pub fn ranked_map(&self) -> Lease<Arc<RankedMap>> {
self.0.ranked_map()
} }
pub fn documents_addition(&self) -> DocumentsAddition { pub fn documents_addition(&self) -> DocumentsAddition {
let index = self.0.clone(); let ranked_map = self.0.lease().ranked_map.clone();
let ranked_map = self.0.ranked_map().clone(); DocumentsAddition::new(self, ranked_map)
DocumentsAddition::from_raw(index, ranked_map)
} }
pub fn documents_deletion(&self) -> DocumentsDeletion { pub fn documents_deletion(&self) -> DocumentsDeletion {
let index = self.0.clone(); // let index = self.0.clone();
DocumentsDeletion::from_raw(index) // DocumentsDeletion::from_raw(index)
unimplemented!()
} }
pub fn document<T>( pub fn document<T>(
@ -333,17 +387,18 @@ impl Index {
) -> Result<Option<T>, RmpError> ) -> Result<Option<T>, RmpError>
where T: de::DeserializeOwned, where T: de::DeserializeOwned,
{ {
let fields = match fields { let schema = &self.lease_inner().schema;
Some(fields) => { let fields = fields
let iter = fields.iter().filter_map(|n| self.0.schema().attribute(n)); .map(|fields| {
Some(HashSet::from_iter(iter)) fields
}, .into_iter()
None => None, .filter_map(|name| schema.attribute(name))
}; .collect()
});
let mut deserializer = Deserializer { let mut deserializer = Deserializer {
document_id: id, document_id: id,
raw_index: &self.0, index: &self,
fields: fields.as_ref(), fields: fields.as_ref(),
}; };
@ -353,21 +408,35 @@ impl Index {
} }
} }
pub struct DocumentsAddition { pub struct IndexLease(Lease<Arc<InnerIndex>>);
inner: RawIndex,
impl Store for IndexLease {
type Error = Error;
fn words(&self) -> Result<&fst::Set, Self::Error> {
Ok(&self.0.words)
}
fn word_indexes(&self, word: &[u8]) -> Result<Option<SetBuf<DocIndex>>, Self::Error> {
Ok(self.0.raw.words.doc_indexes(word)?)
}
}
pub struct DocumentsAddition<'a> {
inner: &'a Index,
indexer: Indexer, indexer: Indexer,
ranked_map: RankedMap, ranked_map: RankedMap,
} }
impl DocumentsAddition { impl<'a> DocumentsAddition<'a> {
pub fn from_raw(inner: RawIndex, ranked_map: RankedMap) -> DocumentsAddition { fn new(inner: &'a Index, ranked_map: RankedMap) -> DocumentsAddition<'a> {
DocumentsAddition { inner, indexer: Indexer::new(), ranked_map } DocumentsAddition { inner, indexer: Indexer::new(), ranked_map }
} }
pub fn update_document<D>(&mut self, document: D) -> Result<(), Error> pub fn update_document<D>(&mut self, document: D) -> Result<(), Error>
where D: serde::Serialize, where D: serde::Serialize,
{ {
let schema = self.inner.schema(); let schema = &self.inner.lease_inner().schema;
let identifier = schema.identifier_name(); let identifier = schema.identifier_name();
let document_id = match extract_document_id(identifier, &document)? { let document_id = match extract_document_id(identifier, &document)? {
@ -375,6 +444,12 @@ impl DocumentsAddition {
None => return Err(Error::MissingDocumentId), None => return Err(Error::MissingDocumentId),
}; };
// 1. remove the previous document match indexes
let mut documents_deletion = DocumentsDeletion::new(self.inner);
documents_deletion.delete_document(document_id);
documents_deletion.finalize()?;
// 2. index the document fields
let serializer = Serializer { let serializer = Serializer {
schema, schema,
index: &self.inner, index: &self.inner,
@ -388,30 +463,70 @@ impl DocumentsAddition {
Ok(()) Ok(())
} }
pub fn finalize(self) -> sled::Result<()> { pub fn finalize(self) -> Result<(), Error> {
let lease_inner = self.inner.lease_inner();
let main = &lease_inner.raw.main;
let words = &lease_inner.raw.words;
let delta_index = self.indexer.build(); let delta_index = self.indexer.build();
let mut delta_words_builder = SetBuilder::memory();
let index = self.inner.word_index(); for (word, delta_set) in delta_index {
let new_index = index.insert_indexes(delta_index)?; delta_words_builder.insert(&word).unwrap();
let new_index = Arc::from(new_index); let set = match words.doc_indexes(&word)? {
self.inner.update_word_index(new_index); Some(set) => Union::new(&set, &delta_set).into_set_buf(),
None => delta_set,
};
words.set_doc_indexes(&word, Some(&set))?;
}
let delta_words = delta_words_builder
.into_inner()
.and_then(fst::Set::from_bytes)
.unwrap();
let words = match main.words_set()? {
Some(words) => {
let op = OpBuilder::new()
.add(words.stream())
.add(delta_words.stream())
.r#union();
let mut words_builder = SetBuilder::memory();
words_builder.extend_stream(op).unwrap();
words_builder
.into_inner()
.and_then(fst::Set::from_bytes)
.unwrap()
},
None => delta_words,
};
main.set_words_set(&words)?;
main.set_ranked_map(&self.ranked_map)?;
// update the "consistent" view of the Index
let ranked_map = self.ranked_map;
let schema = lease_inner.schema.clone();
let raw = lease_inner.raw.clone();
let inner = InnerIndex { words, schema, ranked_map, raw };
self.inner.0.store(Arc::new(inner));
Ok(()) Ok(())
} }
} }
pub struct DocumentsDeletion { pub struct DocumentsDeletion<'a> {
inner: RawIndex, inner: &'a Index,
documents: Vec<DocumentId>, documents: Vec<DocumentId>,
} }
impl DocumentsDeletion { impl<'a> DocumentsDeletion<'a> {
pub fn from_raw(inner: RawIndex) -> DocumentsDeletion { fn new(inner: &'a Index) -> DocumentsDeletion {
DocumentsDeletion { DocumentsDeletion { inner, documents: Vec::new() }
inner,
documents: Vec::new(),
}
} }
pub fn delete_document(&mut self, id: DocumentId) { pub fn delete_document(&mut self, id: DocumentId) {
@ -423,13 +538,16 @@ impl DocumentsDeletion {
self.documents.dedup(); self.documents.dedup();
let idset = SetBuf::new_unchecked(self.documents); let idset = SetBuf::new_unchecked(self.documents);
let index = self.inner.word_index();
let new_index = index.remove_documents(&idset)?; // let index = self.inner.word_index();
let new_index = Arc::from(new_index);
self.inner.update_word_index(new_index); // let new_index = index.remove_documents(&idset)?;
// let new_index = Arc::from(new_index);
Ok(()) // self.inner.update_word_index(new_index);
// Ok(())
unimplemented!("documents deletion finalize")
} }
} }

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@ -1,78 +1,13 @@
use std::collections::BTreeMap; use std::collections::BTreeMap;
use std::convert::TryFrom; use std::convert::TryFrom;
use std::sync::Arc;
use deunicode::deunicode_with_tofu; use deunicode::deunicode_with_tofu;
use meilidb_core::{DocumentId, DocIndex, Store}; use meilidb_core::{DocumentId, DocIndex, Store};
use meilidb_tokenizer::{is_cjk, Tokenizer, SeqTokenizer, Token}; use meilidb_tokenizer::{is_cjk, Tokenizer, SeqTokenizer, Token};
use sdset::{Set, SetBuf}; use sdset::SetBuf;
use sled::Tree;
use zerocopy::{AsBytes, LayoutVerified};
use crate::SchemaAttr; use crate::SchemaAttr;
#[derive(Clone)]
pub struct WordIndexTree(pub Arc<Tree>);
impl Store for WordIndexTree {
type Error = sled::Error;
fn get_fst(&self) -> Result<fst::Set, Self::Error> {
match self.0.get("fst")? {
Some(bytes) => {
let bytes: Arc<[u8]> = bytes.into();
let len = bytes.len();
let raw = fst::raw::Fst::from_shared_bytes(bytes, 0, len).unwrap();
Ok(fst::Set::from(raw))
},
None => Ok(fst::Set::default()),
}
}
fn set_fst(&self, set: &fst::Set) -> Result<(), Self::Error> {
let bytes = set.as_fst().to_vec();
self.0.set("fst", bytes)?;
Ok(())
}
fn get_indexes(&self, word: &[u8]) -> Result<Option<SetBuf<DocIndex>>, Self::Error> {
let mut word_bytes = Vec::from("word-");
word_bytes.extend_from_slice(word);
match self.0.get(word_bytes)? {
Some(bytes) => {
let layout = LayoutVerified::new_slice(bytes.as_ref()).unwrap();
let slice = layout.into_slice();
let setbuf = SetBuf::new_unchecked(slice.to_vec());
Ok(Some(setbuf))
},
None => Ok(None),
}
}
fn set_indexes(&self, word: &[u8], indexes: &Set<DocIndex>) -> Result<(), Self::Error> {
let mut word_bytes = Vec::from("word-");
word_bytes.extend_from_slice(word);
let slice = indexes.as_slice();
let bytes = slice.as_bytes();
self.0.set(word_bytes, bytes)?;
Ok(())
}
fn del_indexes(&self, word: &[u8]) -> Result<(), Self::Error> {
let mut word_bytes = Vec::from("word-");
word_bytes.extend_from_slice(word);
self.0.del(word_bytes)?;
Ok(())
}
}
type Word = Vec<u8>; // TODO make it be a SmallVec type Word = Vec<u8>; // TODO make it be a SmallVec
pub struct Indexer { pub struct Indexer {
@ -115,6 +50,7 @@ impl Indexer {
pub fn build(self) -> BTreeMap<Word, SetBuf<DocIndex>> { pub fn build(self) -> BTreeMap<Word, SetBuf<DocIndex>> {
self.indexed.into_iter().map(|(word, mut indexes)| { self.indexed.into_iter().map(|(word, mut indexes)| {
indexes.sort_unstable(); indexes.sort_unstable();
indexes.dedup();
(word, SetBuf::new_unchecked(indexes)) (word, SetBuf::new_unchecked(indexes))
}).collect() }).collect()
} }

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@ -6,12 +6,12 @@ use rmp_serde::decode::{Deserializer as RmpDeserializer, ReadReader};
use rmp_serde::decode::{Error as RmpError}; use rmp_serde::decode::{Error as RmpError};
use serde::{de, forward_to_deserialize_any}; use serde::{de, forward_to_deserialize_any};
use crate::database::RawIndex; use crate::database::Index;
use crate::SchemaAttr; use crate::SchemaAttr;
pub struct Deserializer<'a> { pub struct Deserializer<'a> {
pub document_id: DocumentId, pub document_id: DocumentId,
pub raw_index: &'a RawIndex, pub index: &'a Index,
pub fields: Option<&'a HashSet<SchemaAttr>>, pub fields: Option<&'a HashSet<SchemaAttr>>,
} }
@ -26,15 +26,18 @@ impl<'de, 'a, 'b> de::Deserializer<'de> for &'b mut Deserializer<'a>
} }
forward_to_deserialize_any! { forward_to_deserialize_any! {
bool u8 u16 u32 u64 i8 i16 i32 i64 f32 f64 char str string unit seq bool i8 i16 i32 i64 i128 u8 u16 u32 u64 u128 f32 f64 char str string
bytes byte_buf unit_struct tuple_struct bytes byte_buf option unit unit_struct newtype_struct seq tuple
identifier tuple ignored_any option newtype_struct enum struct tuple_struct struct enum identifier ignored_any
} }
fn deserialize_map<V>(self, visitor: V) -> Result<V::Value, Self::Error> fn deserialize_map<V>(self, visitor: V) -> Result<V::Value, Self::Error>
where V: de::Visitor<'de> where V: de::Visitor<'de>
{ {
let document_attributes = self.raw_index.get_document_fields(self.document_id); let schema = &self.index.lease_inner().schema;
let documents = &self.index.lease_inner().raw.documents;
let document_attributes = documents.document_fields(self.document_id);
let document_attributes = document_attributes.filter_map(|result| { let document_attributes = document_attributes.filter_map(|result| {
match result { match result {
Ok(value) => Some(value), Ok(value) => Some(value),
@ -45,9 +48,10 @@ impl<'de, 'a, 'b> de::Deserializer<'de> for &'b mut Deserializer<'a>
}, },
} }
}); });
let iter = document_attributes.filter_map(|(attr, value)| { let iter = document_attributes.filter_map(|(attr, value)| {
if self.fields.map_or(true, |f| f.contains(&attr)) { if self.fields.map_or(true, |f| f.contains(&attr)) {
let attribute_name = self.raw_index.schema().attribute_name(attr); let attribute_name = schema.attribute_name(attr);
Some((attribute_name, Value::new(value))) Some((attribute_name, Value::new(value)))
} else { } else {
None None

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@ -1,7 +1,7 @@
use meilidb_core::DocumentId; use meilidb_core::DocumentId;
use serde::ser; use serde::ser;
use crate::database::RawIndex; use crate::database::Index;
use crate::ranked_map::RankedMap; use crate::ranked_map::RankedMap;
use crate::indexer::Indexer as RawIndexer; use crate::indexer::Indexer as RawIndexer;
use crate::schema::Schema; use crate::schema::Schema;
@ -9,7 +9,7 @@ use super::{SerializerError, ConvertToString, ConvertToNumber, Indexer};
pub struct Serializer<'a> { pub struct Serializer<'a> {
pub schema: &'a Schema, pub schema: &'a Schema,
pub index: &'a RawIndex, pub index: &'a Index,
pub indexer: &'a mut RawIndexer, pub indexer: &'a mut RawIndexer,
pub ranked_map: &'a mut RankedMap, pub ranked_map: &'a mut RankedMap,
pub document_id: DocumentId, pub document_id: DocumentId,
@ -171,7 +171,7 @@ impl<'a> ser::Serializer for Serializer<'a> {
pub struct MapSerializer<'a> { pub struct MapSerializer<'a> {
schema: &'a Schema, schema: &'a Schema,
document_id: DocumentId, document_id: DocumentId,
index: &'a RawIndex, index: &'a Index,
indexer: &'a mut RawIndexer, indexer: &'a mut RawIndexer,
ranked_map: &'a mut RankedMap, ranked_map: &'a mut RankedMap,
current_key_name: Option<String>, current_key_name: Option<String>,
@ -224,7 +224,7 @@ impl<'a> ser::SerializeMap for MapSerializer<'a> {
pub struct StructSerializer<'a> { pub struct StructSerializer<'a> {
schema: &'a Schema, schema: &'a Schema,
document_id: DocumentId, document_id: DocumentId,
index: &'a RawIndex, index: &'a Index,
indexer: &'a mut RawIndexer, indexer: &'a mut RawIndexer,
ranked_map: &'a mut RankedMap, ranked_map: &'a mut RankedMap,
} }
@ -259,7 +259,7 @@ impl<'a> ser::SerializeStruct for StructSerializer<'a> {
fn serialize_value<T: ?Sized>( fn serialize_value<T: ?Sized>(
schema: &Schema, schema: &Schema,
document_id: DocumentId, document_id: DocumentId,
index: &RawIndex, index: &Index,
indexer: &mut RawIndexer, indexer: &mut RawIndexer,
ranked_map: &mut RankedMap, ranked_map: &mut RankedMap,
key: &str, key: &str,
@ -272,7 +272,7 @@ where T: ser::Serialize,
if props.is_stored() { if props.is_stored() {
let value = rmp_serde::to_vec_named(value)?; let value = rmp_serde::to_vec_named(value)?;
index.set_document_attribute(document_id, attr, value)?; index.lease_inner().raw.documents.set_document_field(document_id, attr, value)?;
} }
if props.is_indexed() { if props.is_indexed() {