use std::borrow::Cow; use std::collections::HashMap; use std::path::Path; use anyhow::Context; use chrono::{DateTime, Utc}; use heed::{Database, PolyDatabase, RoTxn, RwTxn}; use heed::types::*; use roaring::RoaringBitmap; use crate::{Criterion, default_criteria, FacetDistribution, FieldsDistribution, Search}; use crate::{BEU32, DocumentId, ExternalDocumentsIds, FieldId}; use crate::{ BEU32StrCodec, BoRoaringBitmapCodec, CboRoaringBitmapCodec, ObkvCodec, RoaringBitmapCodec, RoaringBitmapLenCodec, StrLevelPositionCodec, StrStrU8Codec, }; use crate::heed_codec::facet::{ FieldDocIdFacetF64Codec, FieldDocIdFacetStringCodec, FacetValueStringCodec, FacetLevelValueF64Codec, }; use crate::facet::FacetType; use crate::fields_ids_map::FieldsIdsMap; pub const CRITERIA_KEY: &str = "criteria"; pub const DISPLAYED_FIELDS_KEY: &str = "displayed-fields"; pub const DISTINCT_ATTRIBUTE_KEY: &str = "distinct-attribute-key"; pub const DOCUMENTS_IDS_KEY: &str = "documents-ids"; pub const FACETED_DOCUMENTS_IDS_PREFIX: &str = "faceted-documents-ids"; pub const FACETED_FIELDS_KEY: &str = "faceted-fields"; pub const FIELDS_IDS_MAP_KEY: &str = "fields-ids-map"; pub const FIELDS_DISTRIBUTION_KEY: &str = "fields-distribution"; pub const PRIMARY_KEY_KEY: &str = "primary-key"; pub const SEARCHABLE_FIELDS_KEY: &str = "searchable-fields"; pub const HARD_EXTERNAL_DOCUMENTS_IDS_KEY: &str = "hard-external-documents-ids"; pub const SOFT_EXTERNAL_DOCUMENTS_IDS_KEY: &str = "soft-external-documents-ids"; pub const WORDS_FST_KEY: &str = "words-fst"; pub const STOP_WORDS_KEY: &str = "stop-words"; pub const SYNONYMS_KEY: &str = "synonyms"; pub const WORDS_PREFIXES_FST_KEY: &str = "words-prefixes-fst"; const CREATED_AT_KEY: &str = "created-at"; const UPDATED_AT_KEY: &str = "updated-at"; #[derive(Clone)] pub struct Index { /// The LMDB environment which this index is associated with. pub env: heed::Env, /// Contains many different types (e.g. the fields ids map). pub main: PolyDatabase, /// A word and all the documents ids containing the word. pub word_docids: Database, /// A prefix of word and all the documents ids containing this prefix. pub word_prefix_docids: Database, /// Maps a word and a document id (u32) to all the positions where the given word appears. pub docid_word_positions: Database, /// Maps the proximity between a pair of words with all the docids where this relation appears. pub word_pair_proximity_docids: Database, /// Maps the proximity between a pair of word and prefix with all the docids where this relation appears. pub word_prefix_pair_proximity_docids: Database, /// Maps the word, level and position range with the docids that corresponds to it. pub word_level_position_docids: Database, /// Maps the level positions of a word prefix with all the docids where this prefix appears. pub word_prefix_level_position_docids: Database, /// Maps the facet field id, level and the number with the docids that corresponds to it. pub facet_id_f64_docids: Database, /// Maps the facet field id and the string with the docids that corresponds to it. pub facet_id_string_docids: Database, /// Maps the document id, the facet field id and the numbers. pub field_id_docid_facet_f64s: Database, /// Maps the document id, the facet field id and the strings. pub field_id_docid_facet_strings: Database, /// Maps the document id to the document as an obkv store. pub documents: Database, ObkvCodec>, } impl Index { pub fn new>(mut options: heed::EnvOpenOptions, path: P) -> anyhow::Result { options.max_dbs(13); let env = options.open(path)?; let main = env.create_poly_database(Some("main"))?; let word_docids = env.create_database(Some("word-docids"))?; let word_prefix_docids = env.create_database(Some("word-prefix-docids"))?; let docid_word_positions = env.create_database(Some("docid-word-positions"))?; let word_pair_proximity_docids = env.create_database(Some("word-pair-proximity-docids"))?; let word_prefix_pair_proximity_docids = env.create_database(Some("word-prefix-pair-proximity-docids"))?; let word_level_position_docids = env.create_database(Some("word-level-position-docids"))?; let word_prefix_level_position_docids = env.create_database(Some("word-prefix-level-position-docids"))?; let facet_id_f64_docids = env.create_database(Some("facet-id-f64-docids"))?; let facet_id_string_docids = env.create_database(Some("facet-id-string-docids"))?; let field_id_docid_facet_f64s = env.create_database(Some("field-id-docid-facet-f64s"))?; let field_id_docid_facet_strings = env.create_database(Some("field-id-docid-facet-strings"))?; let documents = env.create_database(Some("documents"))?; Index::initialize_creation_dates(&env, main)?; Ok(Index { env, main, word_docids, word_prefix_docids, docid_word_positions, word_pair_proximity_docids, word_prefix_pair_proximity_docids, word_level_position_docids, word_prefix_level_position_docids, facet_id_f64_docids, facet_id_string_docids, field_id_docid_facet_f64s, field_id_docid_facet_strings, documents, }) } fn initialize_creation_dates(env: &heed::Env, main: PolyDatabase) -> heed::Result<()> { let mut txn = env.write_txn()?; // The db was just created, we update its metadata with the relevant information. if main.get::<_, Str, SerdeJson>>(&txn, CREATED_AT_KEY)?.is_none() { let now = Utc::now(); main.put::<_, Str, SerdeJson>>(&mut txn, UPDATED_AT_KEY, &now)?; main.put::<_, Str, SerdeJson>>(&mut txn, CREATED_AT_KEY, &now)?; txn.commit()?; } Ok(()) } /// Create a write transaction to be able to write into the index. pub fn write_txn(&self) -> heed::Result { self.env.write_txn() } /// Create a read transaction to be able to read the index. pub fn read_txn(&self) -> heed::Result { self.env.read_txn() } /// Returns the canonicalized path where the heed `Env` of this `Index` lives. pub fn path(&self) -> &Path { self.env.path() } /// Returns an `EnvClosingEvent` that can be used to wait for the closing event, /// multiple threads can wait on this event. /// /// Make sure that you drop all the copies of `Index`es you have, env closing are triggered /// when all references are dropped, the last one will eventually close the environment. pub fn prepare_for_closing(self) -> heed::EnvClosingEvent { self.env.prepare_for_closing() } /* documents ids */ /// Writes the documents ids that corresponds to the user-ids-documents-ids FST. pub fn put_documents_ids(&self, wtxn: &mut RwTxn, docids: &RoaringBitmap) -> heed::Result<()> { self.main.put::<_, Str, RoaringBitmapCodec>(wtxn, DOCUMENTS_IDS_KEY, docids) } /// Returns the internal documents ids. pub fn documents_ids(&self, rtxn: &RoTxn) -> heed::Result { Ok(self.main.get::<_, Str, RoaringBitmapCodec>(rtxn, DOCUMENTS_IDS_KEY)?.unwrap_or_default()) } /// Returns the number of documents indexed in the database. pub fn number_of_documents(&self, rtxn: &RoTxn) -> anyhow::Result { let count = self.main.get::<_, Str, RoaringBitmapLenCodec>(rtxn, DOCUMENTS_IDS_KEY)?; Ok(count.unwrap_or_default()) } /* primary key */ /// Writes the documents primary key, this is the field name that is used to store the id. pub fn put_primary_key(&self, wtxn: &mut RwTxn, primary_key: &str) -> heed::Result<()> { self.set_updated_at(wtxn, &Utc::now())?; self.main.put::<_, Str, Str>(wtxn, PRIMARY_KEY_KEY, &primary_key) } /// Deletes the primary key of the documents, this can be done to reset indexes settings. pub fn delete_primary_key(&self, wtxn: &mut RwTxn) -> heed::Result { self.main.delete::<_, Str>(wtxn, PRIMARY_KEY_KEY) } /// Returns the documents primary key, `None` if it hasn't been defined. pub fn primary_key<'t>(&self, rtxn: &'t RoTxn) -> heed::Result> { self.main.get::<_, Str, Str>(rtxn, PRIMARY_KEY_KEY) } /* external documents ids */ /// Writes the external documents ids and internal ids (i.e. `u32`). pub fn put_external_documents_ids<'a>( &self, wtxn: &mut RwTxn, external_documents_ids: &ExternalDocumentsIds<'a>, ) -> heed::Result<()> { let ExternalDocumentsIds { hard, soft } = external_documents_ids; let hard = hard.as_fst().as_bytes(); let soft = soft.as_fst().as_bytes(); self.main.put::<_, Str, ByteSlice>(wtxn, HARD_EXTERNAL_DOCUMENTS_IDS_KEY, hard)?; self.main.put::<_, Str, ByteSlice>(wtxn, SOFT_EXTERNAL_DOCUMENTS_IDS_KEY, soft)?; Ok(()) } /// Returns the external documents ids map which associate the external ids /// with the internal ids (i.e. `u32`). pub fn external_documents_ids<'t>(&self, rtxn: &'t RoTxn) -> anyhow::Result> { let hard = self.main.get::<_, Str, ByteSlice>(rtxn, HARD_EXTERNAL_DOCUMENTS_IDS_KEY)?; let soft = self.main.get::<_, Str, ByteSlice>(rtxn, SOFT_EXTERNAL_DOCUMENTS_IDS_KEY)?; let hard = match hard { Some(hard) => fst::Map::new(hard)?.map_data(Cow::Borrowed)?, None => fst::Map::default().map_data(Cow::Owned)?, }; let soft = match soft { Some(soft) => fst::Map::new(soft)?.map_data(Cow::Borrowed)?, None => fst::Map::default().map_data(Cow::Owned)?, }; Ok(ExternalDocumentsIds::new(hard, soft)) } /* fields ids map */ /// Writes the fields ids map which associate the documents keys with an internal field id /// (i.e. `u8`), this field id is used to identify fields in the obkv documents. pub fn put_fields_ids_map(&self, wtxn: &mut RwTxn, map: &FieldsIdsMap) -> heed::Result<()> { self.main.put::<_, Str, SerdeJson>(wtxn, FIELDS_IDS_MAP_KEY, map) } /// Returns the fields ids map which associate the documents keys with an internal field id /// (i.e. `u8`), this field id is used to identify fields in the obkv documents. pub fn fields_ids_map(&self, rtxn: &RoTxn) -> heed::Result { Ok(self.main.get::<_, Str, SerdeJson>(rtxn, FIELDS_IDS_MAP_KEY)?.unwrap_or_default()) } /* fields distribution */ /// Writes the fields distribution which associates every field name with /// the number of times it occurs in the documents. pub fn put_fields_distribution(&self, wtxn: &mut RwTxn, distribution: &FieldsDistribution) -> heed::Result<()> { self.main.put::<_, Str, SerdeJson>(wtxn, FIELDS_DISTRIBUTION_KEY, distribution) } /// Returns the fields distribution which associates every field name with /// the number of times it occurs in the documents. pub fn fields_distribution(&self, rtxn: &RoTxn) -> heed::Result { Ok(self.main.get::<_, Str, SerdeJson>(rtxn, FIELDS_DISTRIBUTION_KEY)?.unwrap_or_default()) } /* displayed fields */ /// Writes the fields that must be displayed in the defined order. /// There must be not be any duplicate field id. pub fn put_displayed_fields(&self, wtxn: &mut RwTxn, fields: &[&str]) -> heed::Result<()> { self.main.put::<_, Str, SerdeBincode<&[&str]>>(wtxn, DISPLAYED_FIELDS_KEY, &fields) } /// Deletes the displayed fields ids, this will make the engine to display /// all the documents attributes in the order of the `FieldsIdsMap`. pub fn delete_displayed_fields(&self, wtxn: &mut RwTxn) -> heed::Result { self.main.delete::<_, Str>(wtxn, DISPLAYED_FIELDS_KEY) } /// Returns the displayed fields in the order they were set by the user. If it returns /// `None` it means that all the attributes are set as displayed in the order of the `FieldsIdsMap`. pub fn displayed_fields<'t>(&self, rtxn: &'t RoTxn) -> heed::Result>> { self.main.get::<_, Str, SerdeBincode>>(rtxn, DISPLAYED_FIELDS_KEY) } pub fn displayed_fields_ids(&self, rtxn: &RoTxn) -> heed::Result>> { let fields_ids_map = self.fields_ids_map(rtxn)?; let ids = self.displayed_fields(rtxn)? .map(|fields| fields .into_iter() .map(|name| fields_ids_map.id(name).expect("Field not found")) .collect::>()); Ok(ids) } /* searchable fields */ /// Writes the searchable fields, when this list is specified, only these are indexed. pub fn put_searchable_fields(&self, wtxn: &mut RwTxn, fields: &[&str]) -> heed::Result<()> { self.main.put::<_, Str, SerdeBincode<&[&str]>>(wtxn, SEARCHABLE_FIELDS_KEY, &fields) } /// Deletes the searchable fields, when no fields are specified, all fields are indexed. pub fn delete_searchable_fields(&self, wtxn: &mut RwTxn) -> heed::Result { self.main.delete::<_, Str>(wtxn, SEARCHABLE_FIELDS_KEY) } /// Returns the searchable fields, those are the fields that are indexed, /// if the searchable fields aren't there it means that **all** the fields are indexed. pub fn searchable_fields<'t>(&self, rtxn: &'t RoTxn) -> heed::Result>> { self.main.get::<_, Str, SerdeBincode>>(rtxn, SEARCHABLE_FIELDS_KEY) } /// Identical to `searchable_fields`, but returns the ids instead. pub fn searchable_fields_ids(&self, rtxn: &RoTxn) -> heed::Result>> { match self.searchable_fields(rtxn)? { Some(names) => { let fields_map = self.fields_ids_map(rtxn)?; let mut ids = Vec::new(); for name in names { let id = fields_map .id(name) .ok_or_else(|| format!("field id map must contain {:?}", name)) .expect("corrupted data: "); ids.push(id); } Ok(Some(ids)) } None => Ok(None), } } /* faceted fields */ /// Writes the facet fields associated with their facet type or `None` if /// the facet type is currently unknown. pub fn put_faceted_fields(&self, wtxn: &mut RwTxn, fields_types: &HashMap) -> heed::Result<()> { self.main.put::<_, Str, SerdeJson<_>>(wtxn, FACETED_FIELDS_KEY, fields_types) } /// Deletes the facet fields ids associated with their facet type. pub fn delete_faceted_fields(&self, wtxn: &mut RwTxn) -> heed::Result { self.main.delete::<_, Str>(wtxn, FACETED_FIELDS_KEY) } /// Returns the facet fields names associated with their facet type. pub fn faceted_fields(&self, rtxn: &RoTxn) -> heed::Result> { Ok(self.main.get::<_, Str, SerdeJson<_>>(rtxn, FACETED_FIELDS_KEY)?.unwrap_or_default()) } /// Same as `faceted_fields`, but returns ids instead. pub fn faceted_fields_ids(&self, rtxn: &RoTxn) -> heed::Result> { let faceted_fields = self.faceted_fields(rtxn)?; let fields_ids_map = self.fields_ids_map(rtxn)?; let faceted_fields = faceted_fields .iter() .map(|(k, v)| { let kid = fields_ids_map .id(k) .ok_or_else(|| format!("{:?} should be present in the field id map", k)) .expect("corrupted data: "); (kid, *v) }) .collect(); Ok(faceted_fields) } /* faceted documents ids */ /// Writes the documents ids that are faceted under this field id. pub fn put_faceted_documents_ids(&self, wtxn: &mut RwTxn, field_id: FieldId, docids: &RoaringBitmap) -> heed::Result<()> { let mut buffer = [0u8; FACETED_DOCUMENTS_IDS_PREFIX.len() + 1]; buffer[..FACETED_DOCUMENTS_IDS_PREFIX.len()].clone_from_slice(FACETED_DOCUMENTS_IDS_PREFIX.as_bytes()); *buffer.last_mut().unwrap() = field_id; self.main.put::<_, ByteSlice, RoaringBitmapCodec>(wtxn, &buffer, docids) } /// Retrieve all the documents ids that faceted under this field id. pub fn faceted_documents_ids(&self, rtxn: &RoTxn, field_id: FieldId) -> heed::Result { let mut buffer = [0u8; FACETED_DOCUMENTS_IDS_PREFIX.len() + 1]; buffer[..FACETED_DOCUMENTS_IDS_PREFIX.len()].clone_from_slice(FACETED_DOCUMENTS_IDS_PREFIX.as_bytes()); *buffer.last_mut().unwrap() = field_id; match self.main.get::<_, ByteSlice, RoaringBitmapCodec>(rtxn, &buffer)? { Some(docids) => Ok(docids), None => Ok(RoaringBitmap::new()), } } /* Distinct attribute */ pub(crate) fn put_distinct_attribute(&self, wtxn: &mut RwTxn, distinct_attribute: &str) -> heed::Result<()> { self.main.put::<_, Str, Str>(wtxn, DISTINCT_ATTRIBUTE_KEY, distinct_attribute) } pub fn distinct_attribute<'a>(&self, rtxn: &'a RoTxn) -> heed::Result> { self.main.get::<_, Str, Str>(rtxn, DISTINCT_ATTRIBUTE_KEY) } pub(crate) fn delete_distinct_attribute(&self, wtxn: &mut RwTxn) -> heed::Result { self.main.delete::<_, Str>(wtxn, DISTINCT_ATTRIBUTE_KEY) } /* criteria */ pub fn put_criteria(&self, wtxn: &mut RwTxn, criteria: &[Criterion]) -> heed::Result<()> { self.main.put::<_, Str, SerdeJson<&[Criterion]>>(wtxn, CRITERIA_KEY, &criteria) } pub fn delete_criteria(&self, wtxn: &mut RwTxn) -> heed::Result { self.main.delete::<_, Str>(wtxn, CRITERIA_KEY) } pub fn criteria(&self, rtxn: &RoTxn) -> heed::Result> { match self.main.get::<_, Str, SerdeJson>>(rtxn, CRITERIA_KEY)? { Some(criteria) => Ok(criteria), None => Ok(default_criteria()), } } /* words fst */ /// Writes the FST which is the words dictionary of the engine. pub fn put_words_fst>(&self, wtxn: &mut RwTxn, fst: &fst::Set) -> heed::Result<()> { self.main.put::<_, Str, ByteSlice>(wtxn, WORDS_FST_KEY, fst.as_fst().as_bytes()) } /// Returns the FST which is the words dictionary of the engine. pub fn words_fst<'t>(&self, rtxn: &'t RoTxn) -> anyhow::Result>> { match self.main.get::<_, Str, ByteSlice>(rtxn, WORDS_FST_KEY)? { Some(bytes) => Ok(fst::Set::new(bytes)?.map_data(Cow::Borrowed)?), None => Ok(fst::Set::default().map_data(Cow::Owned)?), } } /* stop words */ pub fn put_stop_words>(&self, wtxn: &mut RwTxn, fst: &fst::Set) -> heed::Result<()> { self.main.put::<_, Str, ByteSlice>(wtxn, STOP_WORDS_KEY, fst.as_fst().as_bytes()) } pub fn delete_stop_words(&self, wtxn: &mut RwTxn) -> heed::Result { self.main.delete::<_, Str>(wtxn, STOP_WORDS_KEY) } pub fn stop_words<'t>(&self, rtxn: &'t RoTxn) -> anyhow::Result>> { match self.main.get::<_, Str, ByteSlice>(rtxn, STOP_WORDS_KEY)? { Some(bytes) => Ok(Some(fst::Set::new(bytes)?)), None => Ok(None), } } /* synonyms */ pub fn put_synonyms(&self, wtxn: &mut RwTxn, synonyms: &HashMap, Vec>>) -> heed::Result<()> { self.main.put::<_, Str, SerdeBincode<_>>(wtxn, SYNONYMS_KEY, synonyms) } pub fn delete_synonyms(&self, wtxn: &mut RwTxn) -> heed::Result { self.main.delete::<_, Str>(wtxn, SYNONYMS_KEY) } pub fn synonyms(&self, rtxn: &RoTxn) -> heed::Result, Vec>>> { Ok(self.main.get::<_, Str, SerdeBincode<_>>(rtxn, SYNONYMS_KEY)?.unwrap_or_default()) } pub fn words_synonyms>(&self, rtxn: &RoTxn, words: &[S]) -> heed::Result>>> { let words: Vec<_> = words.iter().map(|s| s.as_ref().to_owned()).collect(); Ok(self.synonyms(rtxn)?.remove(&words)) } /* words prefixes fst */ /// Writes the FST which is the words prefixes dictionnary of the engine. pub fn put_words_prefixes_fst>(&self, wtxn: &mut RwTxn, fst: &fst::Set) -> heed::Result<()> { self.main.put::<_, Str, ByteSlice>(wtxn, WORDS_PREFIXES_FST_KEY, fst.as_fst().as_bytes()) } /// Returns the FST which is the words prefixes dictionnary of the engine. pub fn words_prefixes_fst<'t>(&self, rtxn: &'t RoTxn) -> anyhow::Result>> { match self.main.get::<_, Str, ByteSlice>(rtxn, WORDS_PREFIXES_FST_KEY)? { Some(bytes) => Ok(fst::Set::new(bytes)?.map_data(Cow::Borrowed)?), None => Ok(fst::Set::default().map_data(Cow::Owned)?), } } /* word documents count */ /// Returns the number of documents ids associated with the given word, /// it is much faster than deserializing the bitmap and getting the length of it. pub fn word_documents_count(&self, rtxn: &RoTxn, word: &str) -> heed::Result> { self.word_docids.remap_data_type::().get(rtxn, word) } /* documents */ /// Returns a [`Vec`] of the requested documents. Returns an error if a document is missing. pub fn documents<'t>( &self, rtxn: &'t RoTxn, ids: impl IntoIterator, ) -> anyhow::Result)>> { let mut documents = Vec::new(); for id in ids { let kv = self.documents.get(rtxn, &BEU32::new(id))? .with_context(|| format!("Could not find document {}", id))?; documents.push((id, kv)); } Ok(documents) } /// Returns an iterator over all the documents in the index. pub fn all_documents<'t>( &self, rtxn: &'t RoTxn, ) -> anyhow::Result)>>> { Ok(self .documents .iter(rtxn)? // we cast the BEU32 to a DocumentId .map(|document| document.map(|(id, obkv)| (id.get(), obkv)))) } pub fn facets_distribution<'a>(&'a self, rtxn: &'a RoTxn) -> FacetDistribution<'a> { FacetDistribution::new(rtxn, self) } pub fn search<'a>(&'a self, rtxn: &'a RoTxn) -> Search<'a> { Search::new(rtxn, self) } /// Returns the index creation time. pub fn created_at(&self, rtxn: &RoTxn) -> heed::Result> { let time = self.main .get::<_, Str, SerdeJson>>(rtxn, CREATED_AT_KEY)? .expect("Index without creation time"); Ok(time) } /// Returns the index last updated time. pub fn updated_at(&self, rtxn: &RoTxn) -> heed::Result> { let time = self.main .get::<_, Str, SerdeJson>>(rtxn, UPDATED_AT_KEY)? .expect("Index without update time"); Ok(time) } pub(crate) fn set_updated_at(&self, wtxn: &mut RwTxn, time: &DateTime) -> heed::Result<()> { self.main.put::<_, Str, SerdeJson>>(wtxn, UPDATED_AT_KEY, &time) } } #[cfg(test)] pub(crate) mod tests { use std::ops::Deref; use heed::EnvOpenOptions; use maplit::hashmap; use tempfile::TempDir; use crate::Index; use crate::update::{IndexDocuments, UpdateFormat}; pub(crate) struct TempIndex { inner: Index, _tempdir: TempDir, } impl Deref for TempIndex { type Target = Index; fn deref(&self) -> &Self::Target { &self.inner } } impl TempIndex { /// Creates a temporary index, with a default `4096 * 100` size. This should be enough for /// most tests. pub fn new() -> Self { let mut options = EnvOpenOptions::new(); options.map_size(100 * 4096); let _tempdir = TempDir::new_in(".").unwrap(); let inner = Index::new(options, _tempdir.path()).unwrap(); Self { inner, _tempdir } } } #[test] fn initial_fields_distribution() { let path = tempfile::tempdir().unwrap(); let mut options = EnvOpenOptions::new(); options.map_size(10 * 1024 * 1024); // 10 MB let index = Index::new(options, &path).unwrap(); let mut wtxn = index.write_txn().unwrap(); let content = &br#"[ { "id": 1, "name": "kevin" }, { "id": 2, "name": "bob", "age": 20 }, { "id": 2, "name": "bob", "age": 20 } ]"#[..]; let mut builder = IndexDocuments::new(&mut wtxn, &index, 0); builder.update_format(UpdateFormat::Json); builder.execute(content, |_, _| ()).unwrap(); wtxn.commit().unwrap(); let rtxn = index.read_txn().unwrap(); let fields_distribution = index.fields_distribution(&rtxn).unwrap(); assert_eq!(fields_distribution, hashmap! { "id".to_string() => 2, "name".to_string() => 2, "age".to_string() => 1, }); } }