use std::collections::hash_map::Entry::{Occupied, Vacant}; use std::collections::HashMap; use std::mem; use roaring::RoaringBitmap; use crate::Index; /// A mana depth first search implementation. pub struct Mdfs<'a> { index: &'a Index, rtxn: &'a heed::RoTxn, words: &'a [(HashMap, RoaringBitmap)], union_cache: HashMap<(usize, u8), RoaringBitmap>, candidates: RoaringBitmap, mana: u32, max_mana: u32, } impl<'a> Mdfs<'a> { pub fn new( index: &'a Index, rtxn: &'a heed::RoTxn, words: &'a [(HashMap, RoaringBitmap)], candidates: RoaringBitmap, ) -> Mdfs<'a> { // Compute the number of pairs (windows) we have for this list of words. let mana = words.len().checked_sub(1).unwrap_or(0) as u32; let max_mana = mana * 8; Mdfs { index, rtxn, words, union_cache: HashMap::new(), candidates, mana, max_mana } } } impl<'a> Iterator for Mdfs<'a> { type Item = anyhow::Result<(u32, RoaringBitmap)>; fn next(&mut self) -> Option { // If there is less or only one word therefore the only // possible documents that we can return are the candidates. if self.words.len() <= 1 { if self.candidates.is_empty() { return None } return Some(Ok((0, mem::take(&mut self.candidates)))); } while self.mana <= self.max_mana { let mut answer = RoaringBitmap::new(); let result = mdfs_step( &self.index, &self.rtxn, self.mana, self.words, &self.candidates, &self.candidates, &mut self.union_cache, &mut answer, ); match result { Ok(()) => { // We always increase the mana for the next loop. let proximity = self.mana; self.mana = self.mana + 1; // If no documents were found we must not return and continue // the search with more mana. if !answer.is_empty() { // We remove the answered documents from the list of // candidates to be sure we don't search for them again. self.candidates.difference_with(&answer); // We return the answer. return Some(Ok((proximity, answer))); } }, Err(e) => return Some(Err(e)), } } None } } fn mdfs_step( index: &Index, rtxn: &heed::RoTxn, mana: u32, words: &[(HashMap, RoaringBitmap)], candidates: &RoaringBitmap, parent_docids: &RoaringBitmap, union_cache: &mut HashMap<(usize, u8), RoaringBitmap>, answer: &mut RoaringBitmap, ) -> anyhow::Result<()> { use std::cmp::{min, max}; let (words1, words2) = (&words[0].0, &words[1].0); let pairs = words_pair_combinations(words1, words2); let tail = &words[1..]; let nb_children = tail.len() as u32 - 1; // The minimum amount of mana that you must consume is at least 1 and the // amount of mana that your children can consume. Because the last child must // consume the remaining mana, it is mandatory that there not too much at the end. let min_proximity = max(1, mana.saturating_sub(nb_children * 8)) as u8; // The maximum amount of mana that you can use is 8 or the remaining amount of // mana minus your children, as you can't just consume all the mana, // your children must have at least 1 mana. let max_proximity = min(8, mana - nb_children) as u8; for proximity in min_proximity..=max_proximity { let mut docids = match union_cache.entry((words.len(), proximity)) { Occupied(entry) => entry.get().clone(), Vacant(entry) => { let mut docids = RoaringBitmap::new(); if proximity == 8 { docids = candidates.clone(); } else { for (w1, w2) in pairs.iter().cloned() { let key = (w1, w2, proximity); if let Some(di) = index.word_pair_proximity_docids.get(rtxn, &key)? { docids.union_with(&di); } } } entry.insert(docids).clone() } }; // We must be sure that we only return docids that are present in the candidates. docids.intersect_with(parent_docids); if !docids.is_empty() { let mana = mana.checked_sub(proximity as u32).unwrap(); if tail.len() < 2 { // We are the last pair, we return without recuring as we don't have any child. answer.union_with(&docids); return Ok(()); } else { return mdfs_step(index, rtxn, mana, tail, candidates, &docids, union_cache, answer); } } } Ok(()) } fn words_pair_combinations<'h>( w1: &'h HashMap, w2: &'h HashMap, ) -> Vec<(&'h str, &'h str)> { let mut pairs = Vec::new(); for (w1, (_typos, docids1)) in w1 { for (w2, (_typos, docids2)) in w2 { if !docids1.is_disjoint(&docids2) { pairs.push((w1.as_str(), w2.as_str())); } } } pairs }