use std::borrow::Cow; use std::collections::HashMap; use std::convert::TryInto; use std::fs::File; use std::io; use bytemuck::allocation::pod_collect_to_vec; use charabia::{Language, Script}; use grenad::MergerBuilder; use heed::types::ByteSlice; use heed::RwTxn; use hnsw::Searcher; use roaring::RoaringBitmap; use space::KnnPoints; use super::helpers::{ self, merge_ignore_values, serialize_roaring_bitmap, valid_lmdb_key, CursorClonableMmap, }; use super::{ClonableMmap, MergeFn}; use crate::error::UserError; use crate::facet::FacetType; use crate::update::facet::FacetsUpdate; use crate::update::index_documents::helpers::{as_cloneable_grenad, try_split_array_at}; use crate::{ lat_lng_to_xyz, normalize_vector, CboRoaringBitmapCodec, DocumentId, GeoPoint, Index, Result, BEU32, }; pub(crate) enum TypedChunk { FieldIdDocidFacetStrings(grenad::Reader), FieldIdDocidFacetNumbers(grenad::Reader), Documents(grenad::Reader), FieldIdWordcountDocids(grenad::Reader), NewDocumentsIds(RoaringBitmap), WordDocids { word_docids_reader: grenad::Reader, exact_word_docids_reader: grenad::Reader, }, WordPositionDocids(grenad::Reader), WordFidDocids(grenad::Reader), WordPairProximityDocids(grenad::Reader), FieldIdFacetStringDocids(grenad::Reader), FieldIdFacetNumberDocids(grenad::Reader), FieldIdFacetExistsDocids(grenad::Reader), FieldIdFacetIsNullDocids(grenad::Reader), FieldIdFacetIsEmptyDocids(grenad::Reader), GeoPoints(grenad::Reader), VectorPoints(grenad::Reader), ScriptLanguageDocids(HashMap<(Script, Language), RoaringBitmap>), } /// Write typed chunk in the corresponding LMDB database of the provided index. /// Return new documents seen. pub(crate) fn write_typed_chunk_into_index( typed_chunk: TypedChunk, index: &Index, wtxn: &mut RwTxn, index_is_empty: bool, ) -> Result<(RoaringBitmap, bool)> { let mut is_merged_database = false; match typed_chunk { TypedChunk::Documents(obkv_documents_iter) => { let mut cursor = obkv_documents_iter.into_cursor()?; while let Some((key, value)) = cursor.move_on_next()? { index.documents.remap_types::().put(wtxn, key, value)?; } } TypedChunk::FieldIdWordcountDocids(fid_word_count_docids_iter) => { append_entries_into_database( fid_word_count_docids_iter, &index.field_id_word_count_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_cbo_roaring_bitmaps, )?; is_merged_database = true; } TypedChunk::NewDocumentsIds(documents_ids) => { return Ok((documents_ids, is_merged_database)) } TypedChunk::WordDocids { word_docids_reader, exact_word_docids_reader } => { let word_docids_iter = unsafe { as_cloneable_grenad(&word_docids_reader) }?; append_entries_into_database( word_docids_iter.clone(), &index.word_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_roaring_bitmaps, )?; let exact_word_docids_iter = unsafe { as_cloneable_grenad(&exact_word_docids_reader) }?; append_entries_into_database( exact_word_docids_iter.clone(), &index.exact_word_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_roaring_bitmaps, )?; // create fst from word docids let fst = merge_word_docids_reader_into_fst(word_docids_iter, exact_word_docids_iter)?; let db_fst = index.words_fst(wtxn)?; // merge new fst with database fst let union_stream = fst.op().add(db_fst.stream()).union(); let mut builder = fst::SetBuilder::memory(); builder.extend_stream(union_stream)?; let fst = builder.into_set(); index.put_words_fst(wtxn, &fst)?; is_merged_database = true; } TypedChunk::WordPositionDocids(word_position_docids_iter) => { append_entries_into_database( word_position_docids_iter, &index.word_position_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_cbo_roaring_bitmaps, )?; is_merged_database = true; } TypedChunk::WordFidDocids(word_fid_docids_iter) => { append_entries_into_database( word_fid_docids_iter, &index.word_fid_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_cbo_roaring_bitmaps, )?; is_merged_database = true; } TypedChunk::FieldIdFacetNumberDocids(facet_id_number_docids_iter) => { let indexer = FacetsUpdate::new(index, FacetType::Number, facet_id_number_docids_iter); indexer.execute(wtxn)?; is_merged_database = true; } TypedChunk::FieldIdFacetStringDocids(facet_id_string_docids_iter) => { let indexer = FacetsUpdate::new(index, FacetType::String, facet_id_string_docids_iter); indexer.execute(wtxn)?; is_merged_database = true; } TypedChunk::FieldIdFacetExistsDocids(facet_id_exists_docids) => { append_entries_into_database( facet_id_exists_docids, &index.facet_id_exists_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_cbo_roaring_bitmaps, )?; is_merged_database = true; } TypedChunk::FieldIdFacetIsNullDocids(facet_id_is_null_docids) => { append_entries_into_database( facet_id_is_null_docids, &index.facet_id_is_null_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_cbo_roaring_bitmaps, )?; is_merged_database = true; } TypedChunk::FieldIdFacetIsEmptyDocids(facet_id_is_empty_docids) => { append_entries_into_database( facet_id_is_empty_docids, &index.facet_id_is_empty_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_cbo_roaring_bitmaps, )?; is_merged_database = true; } TypedChunk::WordPairProximityDocids(word_pair_proximity_docids_iter) => { append_entries_into_database( word_pair_proximity_docids_iter, &index.word_pair_proximity_docids, wtxn, index_is_empty, |value, _buffer| Ok(value), merge_cbo_roaring_bitmaps, )?; is_merged_database = true; } TypedChunk::FieldIdDocidFacetNumbers(fid_docid_facet_number) => { let index_fid_docid_facet_numbers = index.field_id_docid_facet_f64s.remap_types::(); let mut cursor = fid_docid_facet_number.into_cursor()?; while let Some((key, value)) = cursor.move_on_next()? { if valid_lmdb_key(key) { index_fid_docid_facet_numbers.put(wtxn, key, value)?; } } } TypedChunk::FieldIdDocidFacetStrings(fid_docid_facet_string) => { let index_fid_docid_facet_strings = index.field_id_docid_facet_strings.remap_types::(); let mut cursor = fid_docid_facet_string.into_cursor()?; while let Some((key, value)) = cursor.move_on_next()? { if valid_lmdb_key(key) { index_fid_docid_facet_strings.put(wtxn, key, value)?; } } } TypedChunk::GeoPoints(geo_points) => { let mut rtree = index.geo_rtree(wtxn)?.unwrap_or_default(); let mut geo_faceted_docids = index.geo_faceted_documents_ids(wtxn)?; let mut cursor = geo_points.into_cursor()?; while let Some((key, value)) = cursor.move_on_next()? { // convert the key back to a u32 (4 bytes) let docid = key.try_into().map(DocumentId::from_be_bytes).unwrap(); // convert the latitude and longitude back to a f64 (8 bytes) let (lat, tail) = helpers::try_split_array_at::(value).unwrap(); let (lng, _) = helpers::try_split_array_at::(tail).unwrap(); let point = [f64::from_ne_bytes(lat), f64::from_ne_bytes(lng)]; let xyz_point = lat_lng_to_xyz(&point); rtree.insert(GeoPoint::new(xyz_point, (docid, point))); geo_faceted_docids.insert(docid); } index.put_geo_rtree(wtxn, &rtree)?; index.put_geo_faceted_documents_ids(wtxn, &geo_faceted_docids)?; } TypedChunk::VectorPoints(vector_points) => { let mut hnsw = index.vector_hnsw(wtxn)?.unwrap_or_default(); let mut searcher = Searcher::new(); let mut expected_dimensions = match index.vector_id_docid.iter(wtxn)?.next() { Some(result) => { let (vector_id, _) = result?; Some(hnsw.get_point(vector_id.get() as usize).len()) } None => None, }; let mut cursor = vector_points.into_cursor()?; while let Some((key, value)) = cursor.move_on_next()? { // convert the key back to a u32 (4 bytes) let (left, _index) = try_split_array_at(key).unwrap(); let docid = DocumentId::from_be_bytes(left); // convert the vector back to a Vec let vector: Vec = pod_collect_to_vec(value); // TODO Inform the user about the document that has a wrong `_vectors` let found = vector.len(); let expected = *expected_dimensions.get_or_insert(found); if expected != found { return Err(UserError::InvalidVectorDimensions { expected, found })?; } let vector = normalize_vector(vector); let vector_id = hnsw.insert(vector, &mut searcher) as u32; index.vector_id_docid.put(wtxn, &BEU32::new(vector_id), &BEU32::new(docid))?; } log::debug!("There are {} entries in the HNSW so far", hnsw.len()); index.put_vector_hnsw(wtxn, &hnsw)?; } TypedChunk::ScriptLanguageDocids(hash_pair) => { let mut buffer = Vec::new(); for (key, value) in hash_pair { buffer.clear(); let final_value = match index.script_language_docids.get(wtxn, &key)? { Some(db_values) => { let mut db_value_buffer = Vec::new(); serialize_roaring_bitmap(&db_values, &mut db_value_buffer)?; let mut new_value_buffer = Vec::new(); serialize_roaring_bitmap(&value, &mut new_value_buffer)?; merge_roaring_bitmaps(&new_value_buffer, &db_value_buffer, &mut buffer)?; RoaringBitmap::deserialize_from(&buffer[..])? } None => value, }; index.script_language_docids.put(wtxn, &key, &final_value)?; } } } Ok((RoaringBitmap::new(), is_merged_database)) } fn merge_word_docids_reader_into_fst( word_docids_iter: grenad::Reader>, exact_word_docids_iter: grenad::Reader>, ) -> Result>> { let mut merger_builder = MergerBuilder::new(merge_ignore_values as MergeFn); merger_builder.push(word_docids_iter.into_cursor()?); merger_builder.push(exact_word_docids_iter.into_cursor()?); let mut iter = merger_builder.build().into_stream_merger_iter()?; let mut builder = fst::SetBuilder::memory(); while let Some((k, _)) = iter.next()? { builder.insert(k)?; } Ok(builder.into_set()) } fn merge_roaring_bitmaps(new_value: &[u8], db_value: &[u8], buffer: &mut Vec) -> Result<()> { let new_value = RoaringBitmap::deserialize_from(new_value)?; let db_value = RoaringBitmap::deserialize_from(db_value)?; let value = new_value | db_value; Ok(serialize_roaring_bitmap(&value, buffer)?) } fn merge_cbo_roaring_bitmaps( new_value: &[u8], db_value: &[u8], buffer: &mut Vec, ) -> Result<()> { Ok(CboRoaringBitmapCodec::merge_into( &[Cow::Borrowed(db_value), Cow::Borrowed(new_value)], buffer, )?) } /// Write provided entries in database using serialize_value function. /// merge_values function is used if an entry already exist in the database. fn write_entries_into_database( data: grenad::Reader, database: &heed::Database, wtxn: &mut RwTxn, index_is_empty: bool, serialize_value: FS, merge_values: FM, ) -> Result<()> where R: io::Read + io::Seek, FS: for<'a> Fn(&'a [u8], &'a mut Vec) -> Result<&'a [u8]>, FM: Fn(&[u8], &[u8], &mut Vec) -> Result<()>, { let mut buffer = Vec::new(); let database = database.remap_types::(); let mut cursor = data.into_cursor()?; while let Some((key, value)) = cursor.move_on_next()? { if valid_lmdb_key(key) { buffer.clear(); let value = if index_is_empty { serialize_value(value, &mut buffer)? } else { match database.get(wtxn, key)? { Some(prev_value) => { merge_values(value, prev_value, &mut buffer)?; &buffer[..] } None => serialize_value(value, &mut buffer)?, } }; database.put(wtxn, key, value)?; } } Ok(()) } /// Write provided entries in database using serialize_value function. /// merge_values function is used if an entry already exist in the database. /// All provided entries must be ordered. /// If the index is not empty, write_entries_into_database is called instead. fn append_entries_into_database( data: grenad::Reader, database: &heed::Database, wtxn: &mut RwTxn, index_is_empty: bool, serialize_value: FS, merge_values: FM, ) -> Result<()> where R: io::Read + io::Seek, FS: for<'a> Fn(&'a [u8], &'a mut Vec) -> Result<&'a [u8]>, FM: Fn(&[u8], &[u8], &mut Vec) -> Result<()>, { if !index_is_empty { return write_entries_into_database( data, database, wtxn, false, serialize_value, merge_values, ); } let mut buffer = Vec::new(); let mut database = database.iter_mut(wtxn)?.remap_types::(); let mut cursor = data.into_cursor()?; while let Some((key, value)) = cursor.move_on_next()? { if valid_lmdb_key(key) { buffer.clear(); let value = serialize_value(value, &mut buffer)?; unsafe { database.append(key, value)? }; } } Ok(()) }