use std::cmp; use std::convert::TryFrom; use std::fs::File; use std::num::NonZeroUsize; use grenad::{CompressionType, Reader, Writer, FileFuse}; use heed::types::{DecodeIgnore, Str}; use heed::{BytesEncode, Error}; use log::debug; use roaring::RoaringBitmap; use crate::heed_codec::{StrLevelPositionCodec, CboRoaringBitmapCodec}; use crate::update::index_documents::WriteMethod; use crate::update::index_documents::{create_writer, writer_into_reader, write_into_lmdb_database}; use crate::{Index, TreeLevel}; pub struct WordsLevelPositions<'t, 'u, 'i> { wtxn: &'t mut heed::RwTxn<'i, 'u>, index: &'i Index, pub(crate) chunk_compression_type: CompressionType, pub(crate) chunk_compression_level: Option, pub(crate) chunk_fusing_shrink_size: Option, level_group_size: NonZeroUsize, min_level_size: NonZeroUsize, _update_id: u64, } impl<'t, 'u, 'i> WordsLevelPositions<'t, 'u, 'i> { pub fn new( wtxn: &'t mut heed::RwTxn<'i, 'u>, index: &'i Index, update_id: u64, ) -> WordsLevelPositions<'t, 'u, 'i> { WordsLevelPositions { wtxn, index, chunk_compression_type: CompressionType::None, chunk_compression_level: None, chunk_fusing_shrink_size: None, level_group_size: NonZeroUsize::new(4).unwrap(), min_level_size: NonZeroUsize::new(5).unwrap(), _update_id: update_id, } } pub fn level_group_size(&mut self, value: NonZeroUsize) -> &mut Self { self.level_group_size = NonZeroUsize::new(cmp::max(value.get(), 2)).unwrap(); self } pub fn min_level_size(&mut self, value: NonZeroUsize) -> &mut Self { self.min_level_size = value; self } pub fn execute(self) -> anyhow::Result<()> { debug!("Computing and writing the word levels positions docids into LMDB on disk..."); let entries = compute_positions_levels( self.wtxn, self.index.word_docids.remap_data_type::(), self.index.word_level_position_docids, self.chunk_compression_type, self.chunk_compression_level, self.chunk_fusing_shrink_size, self.level_group_size, self.min_level_size, )?; // The previously computed entries also defines the level 0 entries // so we can clear the database and append all of these entries. self.index.word_level_position_docids.clear(self.wtxn)?; write_into_lmdb_database( self.wtxn, *self.index.word_level_position_docids.as_polymorph(), entries, |_, _| anyhow::bail!("invalid facet level merging"), WriteMethod::Append, )?; Ok(()) } } /// Generates all the words positions levels based on the levels zero (including the level zero). fn compute_positions_levels( rtxn: &heed::RoTxn, words_db: heed::Database, words_positions_db: heed::Database, compression_type: CompressionType, compression_level: Option, shrink_size: Option, level_group_size: NonZeroUsize, min_level_size: NonZeroUsize, ) -> anyhow::Result> { // It is forbidden to keep a cursor and write in a database at the same time with LMDB // therefore we write the facet levels entries into a grenad file before transfering them. let mut writer = tempfile::tempfile().and_then(|file| { create_writer(compression_type, compression_level, file) })?; for result in words_db.iter(rtxn)? { let (word, ()) = result?; let level_0_range = { let left = (word, TreeLevel::min_value(), u32::min_value(), u32::min_value()); let right = (word, TreeLevel::max_value(), u32::max_value(), u32::max_value()); left..=right }; let first_level_size = words_positions_db.remap_data_type::() .range(rtxn, &level_0_range)? .fold(Ok(0usize), |count, result| result.and(count).map(|c| c + 1))?; // Groups sizes are always a power of the original level_group_size and therefore a group // always maps groups of the previous level and never splits previous levels groups in half. let group_size_iter = (1u8..) .map(|l| (TreeLevel::try_from(l).unwrap(), level_group_size.get().pow(l as u32))) .take_while(|(_, s)| first_level_size / *s >= min_level_size.get()); // As specified in the documentation, we also write the level 0 entries. for result in words_positions_db.range(rtxn, &level_0_range)? { let ((word, level, left, right), docids) = result?; write_level_entry(&mut writer, word, level, left, right, &docids)?; } for (level, group_size) in group_size_iter { let mut left = 0; let mut right = 0; let mut group_docids = RoaringBitmap::new(); for (i, result) in words_positions_db.range(rtxn, &level_0_range)?.enumerate() { let ((_word, _level, value, _right), docids) = result?; if i == 0 { left = value; } else if i % group_size == 0 { // we found the first bound of the next group, we must store the left // and right bounds associated with the docids. write_level_entry(&mut writer, word, level, left, right, &group_docids)?; // We save the left bound for the new group and also reset the docids. group_docids = RoaringBitmap::new(); left = value; } // The right bound is always the bound we run through. group_docids.union_with(&docids); right = value; } if !group_docids.is_empty() { write_level_entry(&mut writer, word, level, left, right, &group_docids)?; } } } writer_into_reader(writer, shrink_size) } fn write_level_entry( writer: &mut Writer, word: &str, level: TreeLevel, left: u32, right: u32, ids: &RoaringBitmap, ) -> anyhow::Result<()> { let key = (word, level, left, right); let key = StrLevelPositionCodec::bytes_encode(&key).ok_or(Error::Encoding)?; let data = CboRoaringBitmapCodec::bytes_encode(&ids).ok_or(Error::Encoding)?; writer.insert(&key, &data)?; Ok(()) }