Remove useless Transform methods

This commit is contained in:
Clément Renault 2024-11-18 11:59:18 +01:00
parent 41dbdd2d18
commit 670aff5553
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GPG Key ID: F250A4C4E3AE5F5F
2 changed files with 11 additions and 1170 deletions

View File

@ -5,27 +5,16 @@ mod parallel;
mod transform; mod transform;
mod typed_chunk; mod typed_chunk;
use std::collections::{HashMap, HashSet}; use std::collections::HashSet;
use std::io::{Read, Seek};
use std::iter;
use std::num::NonZeroU32; use std::num::NonZeroU32;
use std::result::Result as StdResult;
use std::sync::Arc;
use crossbeam_channel::{Receiver, Sender}; use grenad::Merger;
use grenad::{Merger, MergerBuilder};
use heed::types::Str; use heed::types::Str;
use heed::Database; use heed::Database;
use rand::SeedableRng;
use rayon::iter::{ParallelBridge, ParallelIterator};
use rhai::{Dynamic, Engine, OptimizationLevel, Scope};
use roaring::RoaringBitmap;
use serde::{Deserialize, Serialize}; use serde::{Deserialize, Serialize};
use slice_group_by::GroupBy; use slice_group_by::GroupBy;
use tracing::debug; use typed_chunk::TypedChunk;
use typed_chunk::{write_typed_chunk_into_index, ChunkAccumulator, TypedChunk};
use self::enrich::enrich_documents_batch;
pub use self::enrich::{extract_finite_float_from_value, DocumentId}; pub use self::enrich::{extract_finite_float_from_value, DocumentId};
pub use self::helpers::*; pub use self::helpers::*;
pub use self::transform::{Transform, TransformOutput}; pub use self::transform::{Transform, TransformOutput};
@ -128,602 +117,11 @@ where
}) })
} }
/// Adds a batch of documents to the current builder.
///
/// Since the documents are progressively added to the writer, a failure will cause only
/// return an error and not the `IndexDocuments` struct as it is invalid to use it afterward.
///
/// Returns the number of documents added to the builder.
#[tracing::instrument(level = "trace", skip_all, target = "indexing::documents")]
pub fn add_documents<R: Read + Seek>(
mut self,
reader: DocumentsBatchReader<R>,
) -> Result<(Self, StdResult<u64, UserError>)> {
// Early return when there is no document to add
if reader.is_empty() {
return Ok((self, Ok(0)));
}
// We check for user errors in this validator and if there is one, we can return
// the `IndexDocument` struct as it is valid to send more documents into it.
// However, if there is an internal error we throw it away!
let enriched_documents_reader = match enrich_documents_batch(
self.wtxn,
self.index,
self.config.autogenerate_docids,
reader,
)? {
Ok(reader) => reader,
Err(user_error) => return Ok((self, Err(user_error))),
};
let indexed_documents =
self.transform.as_mut().expect("Invalid document addition state").read_documents(
enriched_documents_reader,
self.wtxn,
&self.progress,
&self.should_abort,
)? as u64;
self.added_documents += indexed_documents;
Ok((self, Ok(indexed_documents)))
}
#[tracing::instrument(level = "trace", skip_all, target = "indexing::documents")]
pub fn edit_documents(
self,
documents: &RoaringBitmap,
context: Option<Object>,
code: &str,
) -> Result<(Self, StdResult<(u64, u64), UserError>)> {
// Early return when there is no document to edit
if documents.is_empty() {
return Ok((self, Ok((0, 0))));
}
fn rhaimap_to_object(map: rhai::Map) -> Object {
let mut output = Object::new();
for (key, value) in map {
let value = serde_json::to_value(&value).unwrap();
output.insert(key.into(), value);
}
output
}
// Setup the security and limits of the Engine
let mut engine = Engine::new();
engine.set_optimization_level(OptimizationLevel::Full);
engine.set_max_call_levels(1000);
// It is an arbitrary value. We need to let users define this in the settings.
engine.set_max_operations(1_000_000);
engine.set_max_variables(1000);
engine.set_max_functions(30);
engine.set_max_expr_depths(100, 1000);
engine.set_max_string_size(1024 * 1024 * 1024); // 1 GiB
engine.set_max_array_size(10_000);
engine.set_max_map_size(10_000);
let ast = engine.compile(code).map_err(UserError::DocumentEditionCompilationError)?;
let fields_ids_map = self.index.fields_ids_map(self.wtxn)?;
let primary_key = self.index.primary_key(self.wtxn)?.unwrap();
let mut documents_batch_builder = tempfile::tempfile().map(DocumentsBatchBuilder::new)?;
let mut documents_to_remove = RoaringBitmap::new();
let context: Option<Dynamic> = match context {
Some(context) => {
Some(serde_json::from_value(context.into()).map_err(InternalError::SerdeJson)?)
}
None => None,
};
enum DocumentEdition {
Deleted(crate::DocumentId),
Edited(Object),
Nothing,
}
let immutable_obkvs = ImmutableObkvs::new(
self.wtxn,
self.index.documents,
fields_ids_map.clone(),
documents.clone(),
)?;
let processing = documents.into_iter().par_bridge().map(|docid| {
// safety: Both documents *must* exists in the database as
// their IDs comes from the list of documents ids.
let rhai_document = immutable_obkvs.rhai_map(docid)?.unwrap();
let json_document = immutable_obkvs.json_map(docid)?.unwrap();
let document_id = &json_document[primary_key];
let mut scope = Scope::new();
if let Some(context) = context.as_ref().cloned() {
scope.push_constant_dynamic("context", context.clone());
}
scope.push("doc", rhai_document);
// That's were the magic happens. We run the user script
// which edits "doc" scope variable reprensenting the document
// and ignore the output and even the type of it, i.e., Dynamic.
let _ = engine
.eval_ast_with_scope::<Dynamic>(&mut scope, &ast)
.map_err(UserError::DocumentEditionRuntimeError)?;
match scope.remove::<Dynamic>("doc") {
// If the "doc" variable has set to (), we effectively delete the document.
Some(doc) if doc.is_unit() => Ok(DocumentEdition::Deleted(docid)),
None => unreachable!("missing doc variable from the Rhai scope"),
Some(document) => match document.try_cast() {
Some(document) => {
let new_document = rhaimap_to_object(document);
// Note: This condition is not perfect. Sometimes it detect changes
// like with floating points numbers and consider updating
// the document even if nothing actually changed.
if json_document != new_document {
if Some(document_id) != new_document.get(primary_key) {
Err(Error::UserError(
UserError::DocumentEditionCannotModifyPrimaryKey,
))
} else {
Ok(DocumentEdition::Edited(new_document))
}
} else {
Ok(DocumentEdition::Nothing)
}
}
None => Err(Error::UserError(UserError::DocumentEditionDocumentMustBeObject)),
},
}
});
rayon_par_bridge::par_bridge(100, processing, |iterator| {
for result in iterator {
if (self.should_abort)() {
return Err(Error::InternalError(InternalError::AbortedIndexation));
}
match result? {
DocumentEdition::Deleted(docid) => {
documents_to_remove.insert(docid);
}
DocumentEdition::Edited(new_document) => {
documents_batch_builder.append_json_object(&new_document)?;
}
DocumentEdition::Nothing => (),
}
}
Ok(())
})?;
let file = documents_batch_builder.into_inner()?;
let reader = DocumentsBatchReader::from_reader(file)?;
let (this, removed) = self.remove_documents_from_db_no_batch(&documents_to_remove)?;
let (this, result) = this.add_documents(reader)?;
Ok((this, result.map(|added| (removed, added))))
}
pub fn with_embedders(mut self, embedders: EmbeddingConfigs) -> Self { pub fn with_embedders(mut self, embedders: EmbeddingConfigs) -> Self {
self.embedders = embedders; self.embedders = embedders;
self self
} }
/// Remove a batch of documents from the current builder.
///
/// Returns the number of documents deleted from the builder.
#[tracing::instrument(level = "trace", skip_all, target = "indexing::documents")]
pub fn remove_documents(
mut self,
to_delete: Vec<String>,
) -> Result<(Self, StdResult<u64, UserError>)> {
// Early return when there is no document to add
if to_delete.is_empty() {
// Maintains Invariant: remove documents actually always returns Ok for the inner result
return Ok((self, Ok(0)));
}
let deleted_documents = self
.transform
.as_mut()
.expect("Invalid document deletion state")
.remove_documents(to_delete, self.wtxn, &self.should_abort)?
as u64;
self.deleted_documents += deleted_documents;
// Maintains Invariant: remove documents actually always returns Ok for the inner result
Ok((self, Ok(deleted_documents)))
}
/// Removes documents from db using their internal document ids.
///
/// # Warning
///
/// This function is dangerous and will only work correctly if:
///
/// - All the passed ids currently exist in the database
/// - No batching using the standards `remove_documents` and `add_documents` took place
///
/// TODO: make it impossible to call `remove_documents` or `add_documents` on an instance that calls this function.
#[tracing::instrument(level = "trace", skip_all, target = "indexing::details")]
pub fn remove_documents_from_db_no_batch(
mut self,
to_delete: &RoaringBitmap,
) -> Result<(Self, u64)> {
// Early return when there is no document to add
if to_delete.is_empty() {
return Ok((self, 0));
}
let deleted_documents = self
.transform
.as_mut()
.expect("Invalid document deletion state")
.remove_documents_from_db_no_batch(to_delete, self.wtxn, &self.should_abort)?
as u64;
self.deleted_documents += deleted_documents;
Ok((self, deleted_documents))
}
#[tracing::instrument(
level = "trace"
skip_all,
target = "indexing::documents",
name = "index_documents"
)]
pub fn execute(mut self) -> Result<DocumentAdditionResult> {
if self.added_documents == 0 && self.deleted_documents == 0 {
let number_of_documents = self.index.number_of_documents(self.wtxn)?;
return Ok(DocumentAdditionResult { indexed_documents: 0, number_of_documents });
}
let output = self
.transform
.take()
.expect("Invalid document addition state")
.output_from_sorter(self.wtxn, &self.progress)?;
let indexed_documents = output.documents_count as u64;
let number_of_documents = self.execute_raw(output)?;
Ok(DocumentAdditionResult { indexed_documents, number_of_documents })
}
/// Returns the total number of documents in the index after the update.
#[tracing::instrument(
level = "trace",
skip_all,
target = "indexing::details",
name = "index_documents_raw"
)]
pub fn execute_raw(self, output: TransformOutput) -> Result<u64>
where
FP: Fn(UpdateIndexingStep) + Sync,
FA: Fn() -> bool + Sync,
{
let TransformOutput {
primary_key,
mut settings_diff,
field_distribution,
documents_count,
original_documents,
flattened_documents,
} = output;
// update the internal facet and searchable list,
// because they might have changed due to the nested documents flattening.
settings_diff.new.recompute_facets(self.wtxn, self.index)?;
settings_diff.new.recompute_searchables(self.wtxn, self.index)?;
let settings_diff = Arc::new(settings_diff);
let embedders_configs = Arc::new(self.index.embedding_configs(self.wtxn)?);
let possible_embedding_mistakes =
crate::vector::error::PossibleEmbeddingMistakes::new(&field_distribution);
let backup_pool;
let pool = match self.indexer_config.thread_pool {
Some(ref pool) => pool,
None => {
// We initialize a backup pool with the default
// settings if none have already been set.
#[allow(unused_mut)]
let mut pool_builder = ThreadPoolNoAbortBuilder::new();
#[cfg(test)]
{
pool_builder = pool_builder.num_threads(1);
}
backup_pool = pool_builder.build()?;
&backup_pool
}
};
// create LMDB writer channel
let (lmdb_writer_sx, lmdb_writer_rx): (
Sender<Result<TypedChunk>>,
Receiver<Result<TypedChunk>>,
) = crossbeam_channel::unbounded();
// get the primary key field id
let primary_key_id = settings_diff.new.fields_ids_map.id(&primary_key).unwrap();
let pool_params = GrenadParameters {
chunk_compression_type: self.indexer_config.chunk_compression_type,
chunk_compression_level: self.indexer_config.chunk_compression_level,
max_memory: self.indexer_config.max_memory,
max_nb_chunks: self.indexer_config.max_nb_chunks, // default value, may be chosen.
};
let documents_chunk_size = match self.indexer_config.documents_chunk_size {
Some(chunk_size) => chunk_size,
None => {
let default_chunk_size = 1024 * 1024 * 4; // 4MiB
let min_chunk_size = 1024 * 512; // 512KiB
// compute the chunk size from the number of available threads and the inputed data size.
let total_size = match flattened_documents.as_ref() {
Some(flattened_documents) => flattened_documents.metadata().map(|m| m.len()),
None => Ok(default_chunk_size as u64),
};
let current_num_threads = pool.current_num_threads();
// if we have more than 2 thread, create a number of chunk equal to 3/4 threads count
let chunk_count = if current_num_threads > 2 {
(current_num_threads * 3 / 4).max(2)
} else {
current_num_threads
};
total_size
.map_or(default_chunk_size, |size| (size as usize) / chunk_count)
.max(min_chunk_size)
}
};
let original_documents = match original_documents {
Some(original_documents) => Some(grenad::Reader::new(original_documents)?),
None => None,
};
let flattened_documents = match flattened_documents {
Some(flattened_documents) => Some(grenad::Reader::new(flattened_documents)?),
None => None,
};
let max_positions_per_attributes = self.indexer_config.max_positions_per_attributes;
let mut final_documents_ids = RoaringBitmap::new();
let mut databases_seen = 0;
let mut word_position_docids = None;
let mut word_fid_docids = None;
let mut word_docids = None;
let mut exact_word_docids = None;
let mut chunk_accumulator = ChunkAccumulator::default();
let mut dimension = HashMap::new();
let current_span = tracing::Span::current();
// Run extraction pipeline in parallel.
pool.install(|| {
let settings_diff_cloned = settings_diff.clone();
rayon::spawn(move || {
let child_span = tracing::trace_span!(target: "indexing::details", parent: &current_span, "extract_and_send_grenad_chunks");
let _enter = child_span.enter();
// split obkv file into several chunks
let original_chunk_iter = match original_documents {
Some(original_documents) => {
grenad_obkv_into_chunks(original_documents,pool_params,documents_chunk_size).map(either::Left)
},
None => Ok(either::Right(iter::empty())),
};
// split obkv file into several chunks
let flattened_chunk_iter = match flattened_documents {
Some(flattened_documents) => {
grenad_obkv_into_chunks(flattened_documents, pool_params, documents_chunk_size).map(either::Left)
},
None => Ok(either::Right(iter::empty())),
};
let result = original_chunk_iter.and_then(|original_chunk| {
let flattened_chunk = flattened_chunk_iter?;
// extract all databases from the chunked obkv douments
extract::data_from_obkv_documents(
original_chunk,
flattened_chunk,
pool_params,
lmdb_writer_sx.clone(),
primary_key_id,
embedders_configs.clone(),
settings_diff_cloned,
max_positions_per_attributes,
Arc::new(possible_embedding_mistakes)
)
});
if let Err(e) = result {
let _ = lmdb_writer_sx.send(Err(e));
}
// needs to be dropped to avoid channel waiting lock.
drop(lmdb_writer_sx);
});
(self.progress)(UpdateIndexingStep::MergeDataIntoFinalDatabase {
databases_seen,
total_databases: TOTAL_POSTING_DATABASE_COUNT,
});
loop {
if (self.should_abort)() {
return Err(Error::InternalError(InternalError::AbortedIndexation));
}
match lmdb_writer_rx.clone().recv_timeout(std::time::Duration::from_millis(500)) {
Err(status) => {
if let Some(typed_chunks) = chunk_accumulator.pop_longest() {
let (docids, is_merged_database) =
write_typed_chunk_into_index(self.wtxn, self.index, &settings_diff, typed_chunks)?;
if !docids.is_empty() {
final_documents_ids |= docids;
let documents_seen_count = final_documents_ids.len();
(self.progress)(UpdateIndexingStep::IndexDocuments {
documents_seen: documents_seen_count as usize,
total_documents: documents_count,
});
debug!(documents = documents_seen_count, total = documents_count, "Seen");
}
if is_merged_database {
databases_seen += 1;
(self.progress)(UpdateIndexingStep::MergeDataIntoFinalDatabase {
databases_seen,
total_databases: TOTAL_POSTING_DATABASE_COUNT,
});
}
// If no more chunk remains in the chunk accumulator and the channel is disconected, break.
} else if status == crossbeam_channel::RecvTimeoutError::Disconnected {
break;
} else {
rayon::yield_now();
}
}
Ok(result) => {
let typed_chunk = match result? {
TypedChunk::WordDocids {
word_docids_reader,
exact_word_docids_reader,
word_fid_docids_reader,
} => {
let cloneable_chunk =
unsafe { as_cloneable_grenad(&word_docids_reader)? };
let word_docids = word_docids.get_or_insert_with(|| {
MergerBuilder::new(MergeDeladdCboRoaringBitmaps)
});
word_docids.push(cloneable_chunk.into_cursor()?);
let cloneable_chunk =
unsafe { as_cloneable_grenad(&exact_word_docids_reader)? };
let exact_word_docids =
exact_word_docids.get_or_insert_with(|| {
MergerBuilder::new(
MergeDeladdCboRoaringBitmaps,
)
});
exact_word_docids.push(cloneable_chunk.into_cursor()?);
let cloneable_chunk =
unsafe { as_cloneable_grenad(&word_fid_docids_reader)? };
let word_fid_docids = word_fid_docids.get_or_insert_with(|| {
MergerBuilder::new(MergeDeladdCboRoaringBitmaps)
});
word_fid_docids.push(cloneable_chunk.into_cursor()?);
TypedChunk::WordDocids {
word_docids_reader,
exact_word_docids_reader,
word_fid_docids_reader,
}
}
TypedChunk::WordPositionDocids(chunk) => {
let cloneable_chunk = unsafe { as_cloneable_grenad(&chunk)? };
let word_position_docids =
word_position_docids.get_or_insert_with(|| {
MergerBuilder::new(
MergeDeladdCboRoaringBitmaps,
)
});
word_position_docids.push(cloneable_chunk.into_cursor()?);
TypedChunk::WordPositionDocids(chunk)
}
TypedChunk::VectorPoints {
expected_dimension,
remove_vectors,
embeddings,
manual_vectors,
embedder_name,
add_to_user_provided,
remove_from_user_provided,
} => {
dimension.insert(embedder_name.clone(), expected_dimension);
TypedChunk::VectorPoints {
remove_vectors,
embeddings,
expected_dimension,
manual_vectors,
embedder_name,
add_to_user_provided,
remove_from_user_provided,
}
}
otherwise => otherwise,
};
chunk_accumulator.insert(typed_chunk);
}
}
}
Ok(())
}).map_err(InternalError::from)??;
// We write the field distribution into the main database
self.index.put_field_distribution(self.wtxn, &field_distribution)?;
// We write the primary key field id into the main database
self.index.put_primary_key(self.wtxn, &primary_key)?;
let number_of_documents = self.index.number_of_documents(self.wtxn)?;
let mut rng = rand::rngs::StdRng::seed_from_u64(42);
// If an embedder wasn't used in the typedchunk but must be binary quantized
// we should insert it in `dimension`
for (name, action) in settings_diff.embedding_config_updates.iter() {
if action.is_being_quantized && !dimension.contains_key(name.as_str()) {
let index = self.index.embedder_category_id.get(self.wtxn, name)?.ok_or(
InternalError::DatabaseMissingEntry {
db_name: "embedder_category_id",
key: None,
},
)?;
let reader =
ArroyWrapper::new(self.index.vector_arroy, index, action.was_quantized);
let dim = reader.dimensions(self.wtxn)?;
dimension.insert(name.to_string(), dim);
}
}
for (embedder_name, dimension) in dimension {
let wtxn = &mut *self.wtxn;
let vector_arroy = self.index.vector_arroy;
let cancel = &self.should_abort;
let embedder_index = self.index.embedder_category_id.get(wtxn, &embedder_name)?.ok_or(
InternalError::DatabaseMissingEntry { db_name: "embedder_category_id", key: None },
)?;
let embedder_config = settings_diff.embedding_config_updates.get(&embedder_name);
let was_quantized = settings_diff
.old
.embedding_configs
.get(&embedder_name)
.map_or(false, |conf| conf.2);
let is_quantizing = embedder_config.map_or(false, |action| action.is_being_quantized);
pool.install(|| {
let mut writer = ArroyWrapper::new(vector_arroy, embedder_index, was_quantized);
writer.build_and_quantize(wtxn, &mut rng, dimension, is_quantizing, cancel)?;
Result::Ok(())
})
.map_err(InternalError::from)??;
}
self.execute_prefix_databases(
word_docids.map(MergerBuilder::build),
exact_word_docids.map(MergerBuilder::build),
word_position_docids.map(MergerBuilder::build),
word_fid_docids.map(MergerBuilder::build),
)?;
Ok(number_of_documents)
}
#[tracing::instrument( #[tracing::instrument(
level = "trace", level = "trace",
skip_all, skip_all,

View File

@ -1,33 +1,29 @@
use std::borrow::Cow; use std::borrow::Cow;
use std::collections::btree_map::Entry as BEntry;
use std::collections::hash_map::Entry as HEntry;
use std::collections::{BTreeMap, HashMap, HashSet}; use std::collections::{BTreeMap, HashMap, HashSet};
use std::fs::File; use std::fs::File;
use std::io::{Read, Seek};
use either::Either; use either::Either;
use fxhash::FxHashMap; use fxhash::FxHashMap;
use itertools::Itertools; use itertools::Itertools;
use obkv::{KvReader, KvReaderU16, KvWriter}; use obkv::{KvReader, KvWriter};
use roaring::RoaringBitmap; use roaring::RoaringBitmap;
use serde_json::Value; use serde_json::Value;
use smartstring::SmartString; use smartstring::SmartString;
use super::helpers::{ use super::helpers::{
create_sorter, create_writer, sorter_into_reader, EitherObkvMerge, create_sorter, sorter_into_reader, EitherObkvMerge, ObkvsKeepLastAdditionMergeDeletions,
ObkvsKeepLastAdditionMergeDeletions, ObkvsMergeAdditionsAndDeletions, ObkvsMergeAdditionsAndDeletions,
}; };
use super::{IndexDocumentsMethod, IndexerConfig, KeepFirst}; use super::{IndexDocumentsMethod, IndexerConfig, KeepFirst};
use crate::documents::{DocumentsBatchIndex, EnrichedDocument, EnrichedDocumentsBatchReader}; use crate::documents::DocumentsBatchIndex;
use crate::error::{Error, InternalError, UserError}; use crate::error::{Error, InternalError, UserError};
use crate::index::{db_name, main_key}; use crate::index::{db_name, main_key};
use crate::update::del_add::{ use crate::update::del_add::{
into_del_add_obkv, into_del_add_obkv_conditional_operation, DelAdd, DelAddOperation, into_del_add_obkv, into_del_add_obkv_conditional_operation, DelAddOperation,
KvReaderDelAdd,
}; };
use crate::update::index_documents::GrenadParameters; use crate::update::index_documents::GrenadParameters;
use crate::update::settings::{InnerIndexSettings, InnerIndexSettingsDiff}; use crate::update::settings::InnerIndexSettingsDiff;
use crate::update::{AvailableIds, UpdateIndexingStep}; use crate::update::AvailableIds;
use crate::vector::parsed_vectors::{ExplicitVectors, VectorOrArrayOfVectors}; use crate::vector::parsed_vectors::{ExplicitVectors, VectorOrArrayOfVectors};
use crate::vector::settings::WriteBackToDocuments; use crate::vector::settings::WriteBackToDocuments;
use crate::vector::ArroyWrapper; use crate::vector::ArroyWrapper;
@ -157,399 +153,6 @@ impl<'a, 'i> Transform<'a, 'i> {
}) })
} }
#[tracing::instrument(level = "trace", skip_all, target = "indexing::documents")]
pub fn read_documents<R, FP, FA>(
&mut self,
reader: EnrichedDocumentsBatchReader<R>,
wtxn: &mut heed::RwTxn<'_>,
progress_callback: FP,
should_abort: FA,
) -> Result<usize>
where
R: Read + Seek,
FP: Fn(UpdateIndexingStep) + Sync,
FA: Fn() -> bool + Sync,
{
let (mut cursor, fields_index) = reader.into_cursor_and_fields_index();
let external_documents_ids = self.index.external_documents_ids();
let mapping = create_fields_mapping(&mut self.fields_ids_map, &fields_index)?;
let primary_key = cursor.primary_key().to_string();
let primary_key_id =
self.fields_ids_map.insert(&primary_key).ok_or(UserError::AttributeLimitReached)?;
let mut obkv_buffer = Vec::new();
let mut document_sorter_value_buffer = Vec::new();
let mut document_sorter_key_buffer = Vec::new();
let mut documents_count = 0;
let mut docid_buffer: Vec<u8> = Vec::new();
let mut field_buffer: Vec<(u16, Cow<'_, [u8]>)> = Vec::new();
while let Some(enriched_document) = cursor.next_enriched_document()? {
let EnrichedDocument { document, document_id } = enriched_document;
if should_abort() {
return Err(Error::InternalError(InternalError::AbortedIndexation));
}
// drop_and_reuse is called instead of .clear() to communicate to the compiler that field_buffer
// does not keep references from the cursor between loop iterations
let mut field_buffer_cache = drop_and_reuse(field_buffer);
if self.indexer_settings.log_every_n.map_or(false, |len| documents_count % len == 0) {
progress_callback(UpdateIndexingStep::RemapDocumentAddition {
documents_seen: documents_count,
});
}
// When the document id has been auto-generated by the `enrich_documents_batch`
// we must insert this document id into the remaped document.
let external_id = document_id.value();
if document_id.is_generated() {
serde_json::to_writer(&mut docid_buffer, external_id)
.map_err(InternalError::SerdeJson)?;
field_buffer_cache.push((primary_key_id, Cow::from(&docid_buffer)));
}
for (k, v) in document.iter() {
let mapped_id =
*mapping.get(&k).ok_or(InternalError::FieldIdMappingMissingEntry { key: k })?;
field_buffer_cache.push((mapped_id, Cow::from(v)));
}
// Insertion in a obkv need to be done with keys ordered. For now they are ordered
// according to the document addition key order, so we sort it according to the
// fieldids map keys order.
field_buffer_cache.sort_unstable_by(|(f1, _), (f2, _)| f1.cmp(f2));
// Build the new obkv document.
let mut writer = KvWriter::new(&mut obkv_buffer);
for (k, v) in field_buffer_cache.iter() {
writer.insert(*k, v)?;
}
let mut original_docid = None;
let docid = match self.new_external_documents_ids_builder.entry((*external_id).into()) {
HEntry::Occupied(entry) => *entry.get() as u32,
HEntry::Vacant(entry) => {
let docid = match external_documents_ids.get(wtxn, entry.key())? {
Some(docid) => {
// If it was already in the list of replaced documents it means it was deleted
// by the remove_document method. We should starts as if it never existed.
if self.replaced_documents_ids.insert(docid) {
original_docid = Some(docid);
}
docid
}
None => self
.available_documents_ids
.next()
.ok_or(UserError::DocumentLimitReached)?,
};
entry.insert(docid as u64);
docid
}
};
let mut skip_insertion = false;
if let Some(original_docid) = original_docid {
let original_key = original_docid;
let base_obkv = self
.index
.documents
.remap_data_type::<heed::types::Bytes>()
.get(wtxn, &original_key)?
.ok_or(InternalError::DatabaseMissingEntry {
db_name: db_name::DOCUMENTS,
key: None,
})?;
// we check if the two documents are exactly equal. If it's the case we can skip this document entirely
if base_obkv == obkv_buffer {
// we're not replacing anything
self.replaced_documents_ids.remove(original_docid);
// and we need to put back the original id as it was before
self.new_external_documents_ids_builder.remove(external_id);
skip_insertion = true;
} else {
// we associate the base document with the new key, everything will get merged later.
let deladd_operation = match self.index_documents_method {
IndexDocumentsMethod::UpdateDocuments => {
DelAddOperation::DeletionAndAddition
}
IndexDocumentsMethod::ReplaceDocuments => DelAddOperation::Deletion,
};
document_sorter_key_buffer.clear();
document_sorter_key_buffer.extend_from_slice(&docid.to_be_bytes());
document_sorter_key_buffer.extend_from_slice(external_id.as_bytes());
document_sorter_value_buffer.clear();
document_sorter_value_buffer.push(Operation::Addition as u8);
into_del_add_obkv(
KvReaderU16::from_slice(base_obkv),
deladd_operation,
&mut document_sorter_value_buffer,
)?;
self.original_sorter
.insert(&document_sorter_key_buffer, &document_sorter_value_buffer)?;
let base_obkv = KvReader::from_slice(base_obkv);
if let Some(flattened_obkv) =
Self::flatten_from_fields_ids_map(base_obkv, &mut self.fields_ids_map)?
{
// we recreate our buffer with the flattened documents
document_sorter_value_buffer.clear();
document_sorter_value_buffer.push(Operation::Addition as u8);
into_del_add_obkv(
KvReaderU16::from_slice(&flattened_obkv),
deladd_operation,
&mut document_sorter_value_buffer,
)?;
}
self.flattened_sorter
.insert(docid.to_be_bytes(), &document_sorter_value_buffer)?;
}
}
if !skip_insertion {
self.new_documents_ids.insert(docid);
document_sorter_key_buffer.clear();
document_sorter_key_buffer.extend_from_slice(&docid.to_be_bytes());
document_sorter_key_buffer.extend_from_slice(external_id.as_bytes());
document_sorter_value_buffer.clear();
document_sorter_value_buffer.push(Operation::Addition as u8);
into_del_add_obkv(
KvReaderU16::from_slice(&obkv_buffer),
DelAddOperation::Addition,
&mut document_sorter_value_buffer,
)?;
// We use the extracted/generated user id as the key for this document.
self.original_sorter
.insert(&document_sorter_key_buffer, &document_sorter_value_buffer)?;
let flattened_obkv = KvReader::from_slice(&obkv_buffer);
if let Some(obkv) =
Self::flatten_from_fields_ids_map(flattened_obkv, &mut self.fields_ids_map)?
{
document_sorter_value_buffer.clear();
document_sorter_value_buffer.push(Operation::Addition as u8);
into_del_add_obkv(
KvReaderU16::from_slice(&obkv),
DelAddOperation::Addition,
&mut document_sorter_value_buffer,
)?
}
self.flattened_sorter.insert(docid.to_be_bytes(), &document_sorter_value_buffer)?;
}
documents_count += 1;
progress_callback(UpdateIndexingStep::RemapDocumentAddition {
documents_seen: documents_count,
});
field_buffer = drop_and_reuse(field_buffer_cache);
docid_buffer.clear();
obkv_buffer.clear();
}
progress_callback(UpdateIndexingStep::RemapDocumentAddition {
documents_seen: documents_count,
});
self.index.put_fields_ids_map(wtxn, &self.fields_ids_map)?;
self.index.put_primary_key(wtxn, &primary_key)?;
self.documents_count += documents_count;
// Now that we have a valid sorter that contains the user id and the obkv we
// give it to the last transforming function which returns the TransformOutput.
Ok(documents_count)
}
/// The counter part of `read_documents` that removes documents either from the transform or the database.
/// It can be called before, after or in between two calls of the `read_documents`.
///
/// It needs to update all the internal datastructure in the transform.
/// - If the document is coming from the database -> it's marked as a to_delete document
/// - If the document to remove was inserted by the `read_documents` method before AND was present in the db,
/// it's marked as `to_delete` + added into the grenad to ensure we don't reinsert it.
/// - If the document to remove was inserted by the `read_documents` method before but was NOT present in the db,
/// it's added into the grenad to ensure we don't insert it + removed from the list of new documents ids.
/// - If the document to remove was not present in either the db or the transform we do nothing.
#[tracing::instrument(level = "trace", skip_all, target = "indexing::documents")]
pub fn remove_documents<FA>(
&mut self,
mut to_remove: Vec<String>,
wtxn: &mut heed::RwTxn<'_>,
should_abort: FA,
) -> Result<usize>
where
FA: Fn() -> bool + Sync,
{
// there may be duplicates in the documents to remove.
to_remove.sort_unstable();
to_remove.dedup();
let external_documents_ids = self.index.external_documents_ids();
let mut documents_deleted = 0;
let mut document_sorter_value_buffer = Vec::new();
let mut document_sorter_key_buffer = Vec::new();
for to_remove in to_remove {
if should_abort() {
return Err(Error::InternalError(InternalError::AbortedIndexation));
}
// Check if the document has been added in the current indexing process.
let deleted_from_current =
match self.new_external_documents_ids_builder.entry((*to_remove).into()) {
// if the document was added in a previous iteration of the transform we make it as deleted in the sorters.
HEntry::Occupied(entry) => {
let docid = *entry.get() as u32;
// Key is the concatenation of the internal docid and the external one.
document_sorter_key_buffer.clear();
document_sorter_key_buffer.extend_from_slice(&docid.to_be_bytes());
document_sorter_key_buffer.extend_from_slice(to_remove.as_bytes());
document_sorter_value_buffer.clear();
document_sorter_value_buffer.push(Operation::Deletion as u8);
obkv::KvWriterU16::new(&mut document_sorter_value_buffer).finish().unwrap();
self.original_sorter
.insert(&document_sorter_key_buffer, &document_sorter_value_buffer)?;
self.flattened_sorter
.insert(docid.to_be_bytes(), &document_sorter_value_buffer)?;
// we must NOT update the list of replaced_documents_ids
// Either:
// 1. It's already in it and there is nothing to do
// 2. It wasn't in it because the document was created by a previous batch and since
// we're removing it there is nothing to do.
self.new_documents_ids.remove(docid);
entry.remove_entry();
true
}
HEntry::Vacant(_) => false,
};
// If the document was already in the db we mark it as a `to_delete` document.
// Then we push the document in sorters in deletion mode.
let deleted_from_db = match external_documents_ids.get(wtxn, &to_remove)? {
Some(docid) => {
self.remove_document_from_db(
docid,
to_remove,
wtxn,
&mut document_sorter_key_buffer,
&mut document_sorter_value_buffer,
)?;
true
}
None => false,
};
// increase counter only if the document existed somewhere before.
if deleted_from_current || deleted_from_db {
documents_deleted += 1;
}
}
Ok(documents_deleted)
}
/// Removes documents from db using their internal document ids.
///
/// # Warning
///
/// This function is dangerous and will only work correctly if:
///
/// - All the passed ids currently exist in the database
/// - No batching using the standards `remove_documents` and `add_documents` took place
///
/// TODO: make it impossible to call `remove_documents` or `add_documents` on an instance that calls this function.
#[tracing::instrument(level = "trace", skip_all, target = "indexing::details")]
pub fn remove_documents_from_db_no_batch<FA>(
&mut self,
to_remove: &RoaringBitmap,
wtxn: &mut heed::RwTxn<'_>,
should_abort: FA,
) -> Result<usize>
where
FA: Fn() -> bool + Sync,
{
let mut documents_deleted = 0;
let mut document_sorter_value_buffer = Vec::new();
let mut document_sorter_key_buffer = Vec::new();
let external_ids = self.index.external_id_of(wtxn, to_remove.iter())?;
for (internal_docid, external_docid) in to_remove.iter().zip(external_ids) {
let external_docid = external_docid?;
if should_abort() {
return Err(Error::InternalError(InternalError::AbortedIndexation));
}
self.remove_document_from_db(
internal_docid,
external_docid,
wtxn,
&mut document_sorter_key_buffer,
&mut document_sorter_value_buffer,
)?;
documents_deleted += 1;
}
Ok(documents_deleted)
}
fn remove_document_from_db(
&mut self,
internal_docid: u32,
external_docid: String,
txn: &heed::RoTxn<'_>,
document_sorter_key_buffer: &mut Vec<u8>,
document_sorter_value_buffer: &mut Vec<u8>,
) -> Result<()> {
self.replaced_documents_ids.insert(internal_docid);
// fetch the obkv document
let original_key = internal_docid;
let base_obkv = self
.index
.documents
.remap_data_type::<heed::types::Bytes>()
.get(txn, &original_key)?
.ok_or(InternalError::DatabaseMissingEntry {
db_name: db_name::DOCUMENTS,
key: None,
})?;
// Key is the concatenation of the internal docid and the external one.
document_sorter_key_buffer.clear();
document_sorter_key_buffer.extend_from_slice(&internal_docid.to_be_bytes());
document_sorter_key_buffer.extend_from_slice(external_docid.as_bytes());
// push it as to delete in the original_sorter
document_sorter_value_buffer.clear();
document_sorter_value_buffer.push(Operation::Deletion as u8);
into_del_add_obkv(
KvReaderU16::from_slice(base_obkv),
DelAddOperation::Deletion,
document_sorter_value_buffer,
)?;
self.original_sorter.insert(&document_sorter_key_buffer, &document_sorter_value_buffer)?;
// flatten it and push it as to delete in the flattened_sorter
let flattened_obkv = KvReader::from_slice(base_obkv);
if let Some(obkv) =
Self::flatten_from_fields_ids_map(flattened_obkv, &mut self.fields_ids_map)?
{
// we recreate our buffer with the flattened documents
document_sorter_value_buffer.clear();
document_sorter_value_buffer.push(Operation::Deletion as u8);
into_del_add_obkv(
KvReaderU16::from_slice(&obkv),
DelAddOperation::Deletion,
document_sorter_value_buffer,
)?;
}
self.flattened_sorter
.insert(internal_docid.to_be_bytes(), &document_sorter_value_buffer)?;
Ok(())
}
// Flatten a document from the fields ids map contained in self and insert the new // Flatten a document from the fields ids map contained in self and insert the new
// created fields. Returns `None` if the document doesn't need to be flattened. // created fields. Returns `None` if the document doesn't need to be flattened.
#[tracing::instrument( #[tracing::instrument(
@ -677,167 +280,6 @@ impl<'a, 'i> Transform<'a, 'i> {
Ok(()) Ok(())
} }
/// Generate the `TransformOutput` based on the given sorter that can be generated from any
/// format like CSV, JSON or JSON stream. This sorter must contain a key that is the document
/// id for the user side and the value must be an obkv where keys are valid fields ids.
#[tracing::instrument(level = "trace", skip_all, target = "indexing::transform")]
pub(crate) fn output_from_sorter<F>(
self,
wtxn: &mut heed::RwTxn<'_>,
progress_callback: F,
) -> Result<TransformOutput>
where
F: Fn(UpdateIndexingStep) + Sync,
{
let primary_key = self
.index
.primary_key(wtxn)?
.ok_or(Error::InternalError(InternalError::DatabaseMissingEntry {
db_name: db_name::MAIN,
key: Some(main_key::PRIMARY_KEY_KEY),
}))?
.to_string();
// We create a final writer to write the new documents in order from the sorter.
let mut writer = create_writer(
self.indexer_settings.chunk_compression_type,
self.indexer_settings.chunk_compression_level,
tempfile::tempfile()?,
);
// To compute the field distribution we need to;
// 1. Remove all the deleted documents from the field distribution
// 2. Add all the new documents to the field distribution
let mut field_distribution = self.index.field_distribution(wtxn)?;
// Here we are going to do the document count + field distribution + `write_into_stream_writer`
let mut iter = self.original_sorter.into_stream_merger_iter()?;
// used only for the callback
let mut documents_count = 0;
while let Some((key, val)) = iter.next()? {
// skip first byte corresponding to the operation type (Deletion or Addition).
let val = &val[1..];
// send a callback to show at which step we are
documents_count += 1;
progress_callback(UpdateIndexingStep::ComputeIdsAndMergeDocuments {
documents_seen: documents_count,
total_documents: self.documents_count,
});
for (key, value) in KvReader::from_slice(val) {
let reader = KvReaderDelAdd::from_slice(value);
match (reader.get(DelAdd::Deletion), reader.get(DelAdd::Addition)) {
(None, None) => (),
(None, Some(_)) => {
// New field
let name = self.fields_ids_map.name(key).ok_or(
FieldIdMapMissingEntry::FieldId {
field_id: key,
process: "Computing field distribution in transform.",
},
)?;
*field_distribution.entry(name.to_string()).or_insert(0) += 1;
}
(Some(_), None) => {
// Field removed
let name = self.fields_ids_map.name(key).ok_or(
FieldIdMapMissingEntry::FieldId {
field_id: key,
process: "Computing field distribution in transform.",
},
)?;
match field_distribution.entry(name.to_string()) {
BEntry::Vacant(_) => { /* Bug? trying to remove a non-existing field */
}
BEntry::Occupied(mut entry) => {
// attempt to remove one
match entry.get_mut().checked_sub(1) {
Some(0) => {
entry.remove();
}
Some(new_val) => {
*entry.get_mut() = new_val;
}
None => {
unreachable!("Attempting to remove a field that wasn't in the field distribution")
}
}
}
}
}
(Some(_), Some(_)) => {
// Value change, no field distribution change
}
}
}
writer.insert(key, val)?;
}
let mut original_documents = writer.into_inner()?;
// We then extract the file and reset the seek to be able to read it again.
original_documents.rewind()?;
// We create a final writer to write the new documents in order from the sorter.
let mut writer = create_writer(
self.indexer_settings.chunk_compression_type,
self.indexer_settings.chunk_compression_level,
tempfile::tempfile()?,
);
// Once we have written all the documents into the final sorter, we write the nested documents
// into this writer.
// We get rids of the `Operation` byte and skip the deleted documents as well.
let mut iter = self.flattened_sorter.into_stream_merger_iter()?;
while let Some((key, val)) = iter.next()? {
// skip first byte corresponding to the operation type (Deletion or Addition).
let val = &val[1..];
writer.insert(key, val)?;
}
let mut flattened_documents = writer.into_inner()?;
flattened_documents.rewind()?;
let mut new_external_documents_ids_builder: Vec<_> =
self.new_external_documents_ids_builder.into_iter().collect();
new_external_documents_ids_builder
.sort_unstable_by(|(left, _), (right, _)| left.cmp(right));
let mut fst_new_external_documents_ids_builder = fst::MapBuilder::memory();
new_external_documents_ids_builder.into_iter().try_for_each(|(key, value)| {
fst_new_external_documents_ids_builder.insert(key, value)
})?;
let old_inner_settings = InnerIndexSettings::from_index(self.index, wtxn)?;
let fields_ids_map = self.fields_ids_map;
let primary_key_id = self.index.primary_key(wtxn)?.and_then(|name| fields_ids_map.id(name));
let mut new_inner_settings = old_inner_settings.clone();
new_inner_settings.fields_ids_map = fields_ids_map;
let embedding_config_updates = Default::default();
let settings_update_only = false;
let settings_diff = InnerIndexSettingsDiff::new(
old_inner_settings,
new_inner_settings,
primary_key_id,
embedding_config_updates,
settings_update_only,
);
Ok(TransformOutput {
primary_key,
settings_diff,
field_distribution,
documents_count: self.documents_count,
original_documents: Some(
original_documents.into_inner().map_err(|err| err.into_error())?,
),
flattened_documents: Some(
flattened_documents.into_inner().map_err(|err| err.into_error())?,
),
})
}
/// Rebind the field_ids of the provided document to their values /// Rebind the field_ids of the provided document to their values
/// based on the field_ids_maps difference between the old and the new settings, /// based on the field_ids_maps difference between the old and the new settings,
/// then fill the provided buffers with delta documents using KvWritterDelAdd. /// then fill the provided buffers with delta documents using KvWritterDelAdd.
@ -1145,6 +587,7 @@ fn drop_and_reuse<U, T>(mut vec: Vec<U>) -> Vec<T> {
#[cfg(test)] #[cfg(test)]
mod test { mod test {
use grenad::MergeFunction; use grenad::MergeFunction;
use obkv::KvReaderU16;
use super::*; use super::*;