MeiliSearch/crates/milli/src/update/index_documents/transform.rs

714 lines
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Rust
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use std::borrow::Cow;
use std::collections::{BTreeMap, HashMap, HashSet};
use std::fs::File;
use either::Either;
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use fxhash::FxHashMap;
use itertools::Itertools;
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use obkv::{KvReader, KvWriter};
use roaring::RoaringBitmap;
use serde_json::Value;
use smartstring::SmartString;
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use super::helpers::{
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create_sorter, sorter_into_reader, EitherObkvMerge, ObkvsKeepLastAdditionMergeDeletions,
ObkvsMergeAdditionsAndDeletions,
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};
use super::{IndexDocumentsMethod, IndexerConfig, KeepFirst};
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use crate::documents::DocumentsBatchIndex;
use crate::error::{Error, InternalError, UserError};
use crate::index::{db_name, main_key};
use crate::update::del_add::{
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into_del_add_obkv, into_del_add_obkv_conditional_operation, DelAddOperation,
};
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use crate::update::index_documents::GrenadParameters;
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use crate::update::settings::InnerIndexSettingsDiff;
use crate::update::AvailableIds;
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use crate::vector::parsed_vectors::{ExplicitVectors, VectorOrArrayOfVectors};
use crate::vector::settings::WriteBackToDocuments;
use crate::vector::ArroyWrapper;
use crate::{
is_faceted_by, FieldDistribution, FieldId, FieldIdMapMissingEntry, FieldsIdsMap, Index, Result,
};
pub struct TransformOutput {
pub primary_key: String,
pub settings_diff: InnerIndexSettingsDiff,
pub field_distribution: FieldDistribution,
pub documents_count: usize,
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pub original_documents: Option<File>,
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pub flattened_documents: Option<File>,
}
/// Extract the external ids, deduplicate and compute the new internal documents ids
/// and fields ids, writing all the documents under their internal ids into a final file.
///
/// Outputs the new `FieldsIdsMap`, the new `UsersIdsDocumentsIds` map, the new documents ids,
/// the replaced documents ids, the number of documents in this update and the file
/// containing all those documents.
pub struct Transform<'a, 'i> {
pub index: &'i Index,
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fields_ids_map: FieldsIdsMap,
indexer_settings: &'a IndexerConfig,
pub index_documents_method: IndexDocumentsMethod,
available_documents_ids: AvailableIds,
// Both grenad follows the same format:
// key | value
// u32 | 1 byte for the Operation byte, the rest is the obkv of the document stored
original_sorter: grenad::Sorter<EitherObkvMerge>,
flattened_sorter: grenad::Sorter<EitherObkvMerge>,
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replaced_documents_ids: RoaringBitmap,
new_documents_ids: RoaringBitmap,
// To increase the cache locality and decrease the heap usage we use compact smartstring.
new_external_documents_ids_builder: FxHashMap<SmartString<smartstring::Compact>, u64>,
documents_count: usize,
}
/// This enum is specific to the grenad sorter stored in the transform.
/// It's used as the first byte of the grenads and tells you if the document id was an addition or a deletion.
#[repr(u8)]
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pub enum Operation {
Addition,
Deletion,
}
/// Create a mapping between the field ids found in the document batch and the one that were
/// already present in the index.
///
/// If new fields are present in the addition, they are added to the index field ids map.
fn create_fields_mapping(
index_field_map: &mut FieldsIdsMap,
batch_field_map: &DocumentsBatchIndex,
) -> Result<HashMap<FieldId, FieldId>> {
batch_field_map
.iter()
// we sort by id here to ensure a deterministic mapping of the fields, that preserves
// the original ordering.
.sorted_by_key(|(&id, _)| id)
.map(|(field, name)| match index_field_map.id(name) {
Some(id) => Ok((*field, id)),
None => index_field_map
.insert(name)
.ok_or(Error::UserError(UserError::AttributeLimitReached))
.map(|id| (*field, id)),
})
.collect()
}
impl<'a, 'i> Transform<'a, 'i> {
pub fn new(
wtxn: &mut heed::RwTxn<'_>,
index: &'i Index,
indexer_settings: &'a IndexerConfig,
index_documents_method: IndexDocumentsMethod,
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_autogenerate_docids: bool,
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) -> Result<Self> {
use IndexDocumentsMethod::{ReplaceDocuments, UpdateDocuments};
// We must choose the appropriate merge function for when two or more documents
// with the same user id must be merged or fully replaced in the same batch.
let merge_function = match index_documents_method {
ReplaceDocuments => Either::Left(ObkvsKeepLastAdditionMergeDeletions),
UpdateDocuments => Either::Right(ObkvsMergeAdditionsAndDeletions),
};
// We initialize the sorter with the user indexing settings.
let original_sorter = create_sorter(
grenad::SortAlgorithm::Stable,
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merge_function,
indexer_settings.chunk_compression_type,
indexer_settings.chunk_compression_level,
indexer_settings.max_nb_chunks,
indexer_settings.max_memory.map(|mem| mem / 2),
true,
);
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// We initialize the sorter with the user indexing settings.
let flattened_sorter = create_sorter(
grenad::SortAlgorithm::Stable,
merge_function,
indexer_settings.chunk_compression_type,
indexer_settings.chunk_compression_level,
indexer_settings.max_nb_chunks,
indexer_settings.max_memory.map(|mem| mem / 2),
true,
);
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let documents_ids = index.documents_ids(wtxn)?;
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Ok(Transform {
index,
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fields_ids_map: index.fields_ids_map(wtxn)?,
indexer_settings,
available_documents_ids: AvailableIds::new(&documents_ids),
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original_sorter,
flattened_sorter,
index_documents_method,
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replaced_documents_ids: RoaringBitmap::new(),
new_documents_ids: RoaringBitmap::new(),
new_external_documents_ids_builder: FxHashMap::default(),
documents_count: 0,
})
}
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// Flatten a document from the fields ids map contained in self and insert the new
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// created fields. Returns `None` if the document doesn't need to be flattened.
#[tracing::instrument(
level = "trace",
skip(obkv, fields_ids_map),
target = "indexing::transform"
)]
fn flatten_from_fields_ids_map(
obkv: &KvReader<FieldId>,
fields_ids_map: &mut FieldsIdsMap,
) -> Result<Option<Vec<u8>>> {
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if obkv
.iter()
.all(|(_, value)| !json_depth_checker::should_flatten_from_unchecked_slice(value))
{
return Ok(None);
}
// store the keys and values the original obkv + the flattened json
// We first extract all the key+value out of the obkv. If a value is not nested
// we keep a reference on its value. If the value is nested we'll get its value
// as an owned `Vec<u8>` after flattening it.
let mut key_value: Vec<(FieldId, Cow<'_, [u8]>)> = Vec::new();
// the object we're going to use to store the fields that need to be flattened.
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let mut doc = serde_json::Map::new();
// we recreate a json containing only the fields that needs to be flattened.
// all the raw values get inserted directly in the `key_value` vec.
for (key, value) in obkv.iter() {
if json_depth_checker::should_flatten_from_unchecked_slice(value) {
let key = fields_ids_map.name(key).ok_or(FieldIdMapMissingEntry::FieldId {
field_id: key,
process: "Flatten from fields ids map.",
})?;
let value = serde_json::from_slice::<Value>(value)
.map_err(crate::error::InternalError::SerdeJson)?;
doc.insert(key.to_string(), value);
} else {
key_value.push((key, value.into()));
}
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}
let flattened = flatten_serde_json::flatten(&doc);
// Once we have the flattened version we insert all the new generated fields_ids
// (if any) in the fields ids map and serialize the value.
for (key, value) in flattened.into_iter() {
let fid = fields_ids_map.insert(&key).ok_or(UserError::AttributeLimitReached)?;
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let value = serde_json::to_vec(&value).map_err(InternalError::SerdeJson)?;
key_value.push((fid, value.into()));
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}
// we sort the key. If there was a conflict between the obkv and the new generated value the
// keys will be consecutive.
key_value.sort_unstable_by_key(|(key, _)| *key);
let mut buffer = Vec::new();
Self::create_obkv_from_key_value(&mut key_value, &mut buffer)?;
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Ok(Some(buffer))
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}
/// Generate an obkv from a slice of key / value sorted by key.
fn create_obkv_from_key_value(
key_value: &mut [(FieldId, Cow<'_, [u8]>)],
output_buffer: &mut Vec<u8>,
) -> Result<()> {
debug_assert!(
key_value.windows(2).all(|vec| vec[0].0 <= vec[1].0),
"The slice of key / value pair must be sorted."
);
output_buffer.clear();
let mut writer = KvWriter::new(output_buffer);
let mut skip_next_value = false;
for things in key_value.windows(2) {
if skip_next_value {
skip_next_value = false;
continue;
}
let (key1, value1) = &things[0];
let (key2, value2) = &things[1];
// now we're going to look for conflicts between the keys. For example the following documents would cause a conflict:
// { "doggo.name": "jean", "doggo": { "name": "paul" } }
// we should find a first "doggo.name" from the obkv and a second one from the flattening.
// but we must generate the following document:
// { "doggo.name": ["jean", "paul"] }
// thus we're going to merge the value from the obkv and the flattened document in a single array and skip the next
// iteration.
if key1 == key2 {
skip_next_value = true;
let value1 = serde_json::from_slice(value1)
.map_err(crate::error::InternalError::SerdeJson)?;
let value2 = serde_json::from_slice(value2)
.map_err(crate::error::InternalError::SerdeJson)?;
let value = match (value1, value2) {
(Value::Array(mut left), Value::Array(mut right)) => {
left.append(&mut right);
Value::Array(left)
}
(Value::Array(mut array), value) | (value, Value::Array(mut array)) => {
array.push(value);
Value::Array(array)
}
(left, right) => Value::Array(vec![left, right]),
};
let value = serde_json::to_vec(&value).map_err(InternalError::SerdeJson)?;
writer.insert(*key1, value)?;
} else {
writer.insert(*key1, value1)?;
}
}
if !skip_next_value {
// the unwrap is safe here, we know there was at least one value in the document
let (key, value) = key_value.last().unwrap();
writer.insert(*key, value)?;
}
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Ok(())
}
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/// 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,
/// then fill the provided buffers with delta documents using KvWritterDelAdd.
#[allow(clippy::too_many_arguments)] // need the vectors + fid, feel free to create a struct xo xo
fn rebind_existing_document(
old_obkv: &KvReader<FieldId>,
settings_diff: &InnerIndexSettingsDiff,
modified_faceted_fields: &HashSet<String>,
mut injected_vectors: serde_json::Map<String, serde_json::Value>,
old_vectors_fid: Option<FieldId>,
original_obkv_buffer: Option<&mut Vec<u8>>,
flattened_obkv_buffer: Option<&mut Vec<u8>>,
) -> Result<()> {
// Always keep the primary key.
let is_primary_key = |id: FieldId| -> bool { settings_diff.primary_key_id == Some(id) };
// If only a faceted field has been added, keep only this field.
let must_reindex_facets = settings_diff.reindex_facets();
let necessary_faceted_field = |id: FieldId| -> bool {
let field_name = settings_diff.new.fields_ids_map.name(id).unwrap();
must_reindex_facets
&& modified_faceted_fields
.iter()
.any(|long| is_faceted_by(long, field_name) || is_faceted_by(field_name, long))
};
// Alway provide all fields when vectors are involved because
// we need the fields for the prompt/templating.
let reindex_vectors = settings_diff.reindex_vectors();
// The operations that we must perform on the different fields.
let mut operations = HashMap::new();
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let mut error_seen = false;
let mut obkv_writer = KvWriter::<_, FieldId>::memory();
'write_fid: for (id, val) in old_obkv.iter() {
if !injected_vectors.is_empty() {
'inject_vectors: {
let Some(vectors_fid) = old_vectors_fid else { break 'inject_vectors };
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if id < vectors_fid {
break 'inject_vectors;
}
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let mut existing_vectors = if id == vectors_fid {
let existing_vectors: std::result::Result<
serde_json::Map<String, serde_json::Value>,
serde_json::Error,
> = serde_json::from_slice(val);
match existing_vectors {
Ok(existing_vectors) => existing_vectors,
Err(error) => {
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if !error_seen {
tracing::error!(%error, "Unexpected `_vectors` field that is not a map. Treating as an empty map");
error_seen = true;
}
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Default::default()
}
}
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} else {
Default::default()
};
existing_vectors.append(&mut injected_vectors);
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operations.insert(vectors_fid, DelAddOperation::DeletionAndAddition);
obkv_writer
.insert(vectors_fid, serde_json::to_vec(&existing_vectors).unwrap())?;
if id == vectors_fid {
continue 'write_fid;
}
}
}
if is_primary_key(id) || necessary_faceted_field(id) || reindex_vectors {
operations.insert(id, DelAddOperation::DeletionAndAddition);
obkv_writer.insert(id, val)?;
} else if let Some(operation) = settings_diff.reindex_searchable_id(id) {
operations.insert(id, operation);
obkv_writer.insert(id, val)?;
}
}
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if !injected_vectors.is_empty() {
'inject_vectors: {
let Some(vectors_fid) = old_vectors_fid else { break 'inject_vectors };
operations.insert(vectors_fid, DelAddOperation::DeletionAndAddition);
obkv_writer.insert(vectors_fid, serde_json::to_vec(&injected_vectors).unwrap())?;
}
}
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let data = obkv_writer.into_inner()?;
let obkv = KvReader::<FieldId>::from_slice(&data);
if let Some(original_obkv_buffer) = original_obkv_buffer {
original_obkv_buffer.clear();
into_del_add_obkv(obkv, DelAddOperation::DeletionAndAddition, original_obkv_buffer)?;
}
if let Some(flattened_obkv_buffer) = flattened_obkv_buffer {
// take the non-flattened version if flatten_from_fields_ids_map returns None.
let mut fields_ids_map = settings_diff.new.fields_ids_map.clone();
let flattened = Self::flatten_from_fields_ids_map(obkv, &mut fields_ids_map)?;
let flattened = flattened.as_deref().map_or(obkv, KvReader::from_slice);
flattened_obkv_buffer.clear();
into_del_add_obkv_conditional_operation(flattened, flattened_obkv_buffer, |id| {
operations.get(&id).copied().unwrap_or(DelAddOperation::DeletionAndAddition)
})?;
}
Ok(())
}
/// Clear all databases. Returns a `TransformOutput` with a file that contains the documents
/// of the index with the attributes reordered accordingly to the `FieldsIdsMap` given as argument.
///
// TODO this can be done in parallel by using the rayon `ThreadPool`.
#[tracing::instrument(
level = "trace"
skip(self, wtxn, settings_diff),
target = "indexing::documents"
)]
pub fn prepare_for_documents_reindexing(
self,
wtxn: &mut heed::RwTxn<'i>,
settings_diff: InnerIndexSettingsDiff,
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) -> Result<TransformOutput> {
// There already has been a document addition, the primary key should be set by now.
let primary_key = self
.index
.primary_key(wtxn)?
.ok_or(InternalError::DatabaseMissingEntry {
db_name: db_name::MAIN,
key: Some(main_key::PRIMARY_KEY_KEY),
})?
.to_string();
let field_distribution = self.index.field_distribution(wtxn)?;
let documents_ids = self.index.documents_ids(wtxn)?;
let documents_count = documents_ids.len() as usize;
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// We initialize the sorter with the user indexing settings.
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let mut original_sorter = if settings_diff.reindex_vectors() {
Some(create_sorter(
grenad::SortAlgorithm::Stable,
KeepFirst,
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self.indexer_settings.chunk_compression_type,
self.indexer_settings.chunk_compression_level,
self.indexer_settings.max_nb_chunks,
self.indexer_settings.max_memory.map(|mem| mem / 2),
true,
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))
} else {
None
};
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let readers: BTreeMap<&str, (ArroyWrapper, &RoaringBitmap)> = settings_diff
.embedding_config_updates
.iter()
.filter_map(|(name, action)| {
if let Some(WriteBackToDocuments { embedder_id, user_provided }) =
action.write_back()
{
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let reader = ArroyWrapper::new(
self.index.vector_arroy,
*embedder_id,
action.was_quantized,
);
Some((name.as_str(), (reader, user_provided)))
} else {
None
}
})
.collect();
let old_vectors_fid = settings_diff
.old
.fields_ids_map
.id(crate::vector::parsed_vectors::RESERVED_VECTORS_FIELD_NAME);
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// We initialize the sorter with the user indexing settings.
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let mut flattened_sorter =
if settings_diff.reindex_searchable() || settings_diff.reindex_facets() {
Some(create_sorter(
grenad::SortAlgorithm::Stable,
KeepFirst,
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self.indexer_settings.chunk_compression_type,
self.indexer_settings.chunk_compression_level,
self.indexer_settings.max_nb_chunks,
self.indexer_settings.max_memory.map(|mem| mem / 2),
true,
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))
} else {
None
};
if original_sorter.is_some() || flattened_sorter.is_some() {
let modified_faceted_fields = settings_diff.modified_faceted_fields();
let mut original_obkv_buffer = Vec::new();
let mut flattened_obkv_buffer = Vec::new();
let mut document_sorter_key_buffer = Vec::new();
for result in self.index.external_documents_ids().iter(wtxn)? {
let (external_id, docid) = result?;
let old_obkv = self.index.documents.get(wtxn, &docid)?.ok_or(
InternalError::DatabaseMissingEntry { db_name: db_name::DOCUMENTS, key: None },
)?;
let injected_vectors: std::result::Result<
serde_json::Map<String, serde_json::Value>,
arroy::Error,
> = readers
.iter()
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.filter_map(|(name, (reader, user_provided))| {
if !user_provided.contains(docid) {
return None;
}
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match reader.item_vectors(wtxn, docid) {
Ok(vectors) if vectors.is_empty() => None,
Ok(vectors) => Some(Ok((
name.to_string(),
serde_json::to_value(ExplicitVectors {
embeddings: Some(
VectorOrArrayOfVectors::from_array_of_vectors(vectors),
),
regenerate: false,
})
.unwrap(),
))),
Err(e) => Some(Err(e)),
}
})
.collect();
let injected_vectors = injected_vectors?;
Self::rebind_existing_document(
old_obkv,
&settings_diff,
&modified_faceted_fields,
injected_vectors,
old_vectors_fid,
Some(&mut original_obkv_buffer).filter(|_| original_sorter.is_some()),
Some(&mut flattened_obkv_buffer).filter(|_| flattened_sorter.is_some()),
)?;
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if let Some(original_sorter) = original_sorter.as_mut() {
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());
original_sorter.insert(&document_sorter_key_buffer, &original_obkv_buffer)?;
}
if let Some(flattened_sorter) = flattened_sorter.as_mut() {
flattened_sorter.insert(docid.to_be_bytes(), &flattened_obkv_buffer)?;
}
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}
}
// delete all vectors from the embedders that need removal
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for (_, (reader, _)) in readers {
let dimensions = reader.dimensions(wtxn)?;
reader.clear(wtxn, dimensions)?;
}
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let grenad_params = GrenadParameters {
chunk_compression_type: self.indexer_settings.chunk_compression_type,
chunk_compression_level: self.indexer_settings.chunk_compression_level,
max_memory: self.indexer_settings.max_memory,
max_nb_chunks: self.indexer_settings.max_nb_chunks, // default value, may be chosen.
};
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// Once we have written all the documents, we merge everything into a Reader.
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let flattened_documents = match flattened_sorter {
Some(flattened_sorter) => Some(sorter_into_reader(flattened_sorter, grenad_params)?),
None => None,
};
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let original_documents = match original_sorter {
Some(original_sorter) => Some(sorter_into_reader(original_sorter, grenad_params)?),
None => None,
};
Ok(TransformOutput {
primary_key,
field_distribution,
settings_diff,
documents_count,
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original_documents: original_documents.map(|od| od.into_inner().into_inner()),
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flattened_documents: flattened_documents.map(|fd| fd.into_inner().into_inner()),
})
}
}
/// Drops all the value of type `U` in vec, and reuses the allocation to create a `Vec<T>`.
///
/// The size and alignment of T and U must match.
fn drop_and_reuse<U, T>(mut vec: Vec<U>) -> Vec<T> {
debug_assert_eq!(std::mem::align_of::<U>(), std::mem::align_of::<T>());
debug_assert_eq!(std::mem::size_of::<U>(), std::mem::size_of::<T>());
vec.clear();
debug_assert!(vec.is_empty());
vec.into_iter().map(|_| unreachable!()).collect()
}
#[cfg(test)]
mod test {
use grenad::MergeFunction;
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use obkv::KvReaderU16;
use super::*;
#[test]
fn merge_obkvs() {
let mut additive_doc_0 = Vec::new();
let mut deletive_doc_0 = Vec::new();
let mut del_add_doc_0 = Vec::new();
let mut kv_writer = KvWriter::memory();
kv_writer.insert(0_u8, [0]).unwrap();
let buffer = kv_writer.into_inner().unwrap();
into_del_add_obkv(
KvReaderU16::from_slice(&buffer),
DelAddOperation::Addition,
&mut additive_doc_0,
)
.unwrap();
additive_doc_0.insert(0, Operation::Addition as u8);
into_del_add_obkv(
KvReaderU16::from_slice(&buffer),
DelAddOperation::Deletion,
&mut deletive_doc_0,
)
.unwrap();
deletive_doc_0.insert(0, Operation::Deletion as u8);
into_del_add_obkv(
KvReaderU16::from_slice(&buffer),
DelAddOperation::DeletionAndAddition,
&mut del_add_doc_0,
)
.unwrap();
del_add_doc_0.insert(0, Operation::Addition as u8);
let mut additive_doc_1 = Vec::new();
let mut kv_writer = KvWriter::memory();
kv_writer.insert(1_u8, [1]).unwrap();
let buffer = kv_writer.into_inner().unwrap();
into_del_add_obkv(
KvReaderU16::from_slice(&buffer),
DelAddOperation::Addition,
&mut additive_doc_1,
)
.unwrap();
additive_doc_1.insert(0, Operation::Addition as u8);
let mut additive_doc_0_1 = Vec::new();
let mut kv_writer = KvWriter::memory();
kv_writer.insert(0_u8, [0]).unwrap();
kv_writer.insert(1_u8, [1]).unwrap();
let buffer = kv_writer.into_inner().unwrap();
into_del_add_obkv(
KvReaderU16::from_slice(&buffer),
DelAddOperation::Addition,
&mut additive_doc_0_1,
)
.unwrap();
additive_doc_0_1.insert(0, Operation::Addition as u8);
let ret = MergeFunction::merge(
&ObkvsMergeAdditionsAndDeletions,
&[],
&[Cow::from(additive_doc_0.as_slice())],
)
.unwrap();
assert_eq!(*ret, additive_doc_0);
let ret = MergeFunction::merge(
&ObkvsMergeAdditionsAndDeletions,
&[],
&[Cow::from(deletive_doc_0.as_slice()), Cow::from(additive_doc_0.as_slice())],
)
.unwrap();
assert_eq!(*ret, del_add_doc_0);
let ret = MergeFunction::merge(
&ObkvsMergeAdditionsAndDeletions,
&[],
&[Cow::from(additive_doc_0.as_slice()), Cow::from(deletive_doc_0.as_slice())],
)
.unwrap();
assert_eq!(*ret, deletive_doc_0);
let ret = MergeFunction::merge(
&ObkvsMergeAdditionsAndDeletions,
&[],
&[
Cow::from(additive_doc_1.as_slice()),
Cow::from(deletive_doc_0.as_slice()),
Cow::from(additive_doc_0.as_slice()),
],
)
.unwrap();
assert_eq!(*ret, del_add_doc_0);
let ret = MergeFunction::merge(
&ObkvsMergeAdditionsAndDeletions,
&[],
&[Cow::from(additive_doc_1.as_slice()), Cow::from(additive_doc_0.as_slice())],
)
.unwrap();
assert_eq!(*ret, additive_doc_0_1);
let ret = MergeFunction::merge(
&ObkvsKeepLastAdditionMergeDeletions,
&[],
&[Cow::from(additive_doc_1.as_slice()), Cow::from(additive_doc_0.as_slice())],
)
.unwrap();
assert_eq!(*ret, additive_doc_0);
let ret = MergeFunction::merge(
&ObkvsKeepLastAdditionMergeDeletions,
&[],
&[
Cow::from(deletive_doc_0.as_slice()),
Cow::from(additive_doc_1.as_slice()),
Cow::from(additive_doc_0.as_slice()),
],
)
.unwrap();
assert_eq!(*ret, del_add_doc_0);
}
}