use std::collections::HashSet; use std::sync::Arc; use meilidb_core::DocumentId; use fst::{SetBuilder, set::OpBuilder}; use sdset::{SetOperation, duo::Union}; use crate::indexer::Indexer; use crate::serde::{extract_document_id, Serializer, RamDocumentStore}; use crate::RankedMap; use super::{Error, Index, InnerIndex, DocumentsDeletion}; pub struct DocumentsAddition<'a> { inner: &'a Index, document_ids: HashSet, document_store: RamDocumentStore, indexer: Indexer, ranked_map: RankedMap, } impl<'a> DocumentsAddition<'a> { pub fn new(inner: &'a Index, ranked_map: RankedMap) -> DocumentsAddition<'a> { DocumentsAddition { inner, document_ids: HashSet::new(), document_store: RamDocumentStore::new(), indexer: Indexer::new(), ranked_map, } } pub fn update_document(&mut self, document: D) -> Result<(), Error> where D: serde::Serialize, { let schema = &self.inner.lease_inner().schema; let identifier = schema.identifier_name(); let document_id = match extract_document_id(identifier, &document)? { Some(id) => id, None => return Err(Error::MissingDocumentId), }; // 1. store the document id for future deletion self.document_ids.insert(document_id); // 2. index the document fields in ram stores let serializer = Serializer { schema, document_store: &mut self.document_store, indexer: &mut self.indexer, ranked_map: &mut self.ranked_map, document_id, }; document.serialize(serializer)?; Ok(()) } pub fn finalize(self) -> Result<(), Error> { let lease_inner = self.inner.lease_inner(); let docs_words = &lease_inner.raw.docs_words; let documents = &lease_inner.raw.documents; let main = &lease_inner.raw.main; let words = &lease_inner.raw.words; // 1. remove the previous documents match indexes let mut documents_deletion = DocumentsDeletion::new(self.inner, self.ranked_map.clone()); documents_deletion.extend(self.document_ids); documents_deletion.finalize()?; // 2. insert new document attributes in the database for ((id, attr), value) in self.document_store.into_inner() { documents.set_document_field(id, attr, value)?; } let indexed = self.indexer.build(); let mut delta_words_builder = SetBuilder::memory(); for (word, delta_set) in indexed.words_doc_indexes { delta_words_builder.insert(&word).unwrap(); let set = match words.doc_indexes(&word)? { Some(set) => Union::new(&set, &delta_set).into_set_buf(), None => delta_set, }; words.set_doc_indexes(&word, &set)?; } for (id, words) in indexed.docs_words { docs_words.set_doc_words(id, &words)?; } 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(); lease_inner.raw.compact(); let inner = InnerIndex { words, schema, ranked_map, raw }; self.inner.0.store(Arc::new(inner)); Ok(()) } }