use std::fmt; use std::sync::Arc; use levenshtein_automata::{LevenshteinAutomatonBuilder as LevBuilder, DFA}; use once_cell::sync::Lazy; use roaring::bitmap::RoaringBitmap; pub use self::facet::{FacetDistribution, Filter, OrderBy, DEFAULT_VALUES_PER_FACET}; pub use self::new::matches::{FormatOptions, MatchBounds, MatcherBuilder, MatchingWords}; use self::new::{execute_vector_search, PartialSearchResult}; use crate::score_details::{ScoreDetails, ScoringStrategy}; use crate::vector::Embedder; use crate::{ execute_search, filtered_universe, AscDesc, DefaultSearchLogger, DocumentId, Error, Index, Result, SearchContext, TimeBudget, UserError, }; // Building these factories is not free. static LEVDIST0: Lazy = Lazy::new(|| LevBuilder::new(0, true)); static LEVDIST1: Lazy = Lazy::new(|| LevBuilder::new(1, true)); static LEVDIST2: Lazy = Lazy::new(|| LevBuilder::new(2, true)); pub mod facet; mod fst_utils; pub mod hybrid; pub mod new; pub mod similar; #[derive(Debug, Clone)] pub struct SemanticSearch { vector: Option>, embedder_name: String, embedder: Arc, } pub struct Search<'a> { query: Option, // this should be linked to the String in the query filter: Option>, offset: usize, limit: usize, sort_criteria: Option>, distinct: Option, searchable_attributes: Option<&'a [String]>, geo_strategy: new::GeoSortStrategy, terms_matching_strategy: TermsMatchingStrategy, scoring_strategy: ScoringStrategy, words_limit: usize, exhaustive_number_hits: bool, rtxn: &'a heed::RoTxn<'a>, index: &'a Index, semantic: Option, time_budget: TimeBudget, ranking_score_threshold: Option, } impl<'a> Search<'a> { pub fn new(rtxn: &'a heed::RoTxn, index: &'a Index) -> Search<'a> { Search { query: None, filter: None, offset: 0, limit: 20, sort_criteria: None, distinct: None, searchable_attributes: None, geo_strategy: new::GeoSortStrategy::default(), terms_matching_strategy: TermsMatchingStrategy::default(), scoring_strategy: Default::default(), exhaustive_number_hits: false, words_limit: 10, rtxn, index, semantic: None, time_budget: TimeBudget::max(), ranking_score_threshold: None, } } pub fn query(&mut self, query: impl Into) -> &mut Search<'a> { self.query = Some(query.into()); self } pub fn semantic( &mut self, embedder_name: String, embedder: Arc, vector: Option>, ) -> &mut Search<'a> { self.semantic = Some(SemanticSearch { embedder_name, embedder, vector }); self } pub fn offset(&mut self, offset: usize) -> &mut Search<'a> { self.offset = offset; self } pub fn limit(&mut self, limit: usize) -> &mut Search<'a> { self.limit = limit; self } pub fn sort_criteria(&mut self, criteria: Vec) -> &mut Search<'a> { self.sort_criteria = Some(criteria); self } pub fn distinct(&mut self, distinct: String) -> &mut Search<'a> { self.distinct = Some(distinct); self } pub fn searchable_attributes(&mut self, searchable: &'a [String]) -> &mut Search<'a> { self.searchable_attributes = Some(searchable); self } pub fn terms_matching_strategy(&mut self, value: TermsMatchingStrategy) -> &mut Search<'a> { self.terms_matching_strategy = value; self } pub fn scoring_strategy(&mut self, value: ScoringStrategy) -> &mut Search<'a> { self.scoring_strategy = value; self } pub fn words_limit(&mut self, value: usize) -> &mut Search<'a> { self.words_limit = value; self } pub fn filter(&mut self, condition: Filter<'a>) -> &mut Search<'a> { self.filter = Some(condition); self } #[cfg(test)] pub fn geo_sort_strategy(&mut self, strategy: new::GeoSortStrategy) -> &mut Search<'a> { self.geo_strategy = strategy; self } /// Forces the search to exhaustively compute the number of candidates, /// this will increase the search time but allows finite pagination. pub fn exhaustive_number_hits(&mut self, exhaustive_number_hits: bool) -> &mut Search<'a> { self.exhaustive_number_hits = exhaustive_number_hits; self } pub fn time_budget(&mut self, time_budget: TimeBudget) -> &mut Search<'a> { self.time_budget = time_budget; self } pub fn ranking_score_threshold(&mut self, ranking_score_threshold: f64) -> &mut Search<'a> { self.ranking_score_threshold = Some(ranking_score_threshold); self } pub fn execute_for_candidates(&self, has_vector_search: bool) -> Result { if has_vector_search { let ctx = SearchContext::new(self.index, self.rtxn)?; filtered_universe(ctx.index, ctx.txn, &self.filter) } else { Ok(self.execute()?.candidates) } } pub fn execute(&self) -> Result { let mut ctx = SearchContext::new(self.index, self.rtxn)?; if let Some(searchable_attributes) = self.searchable_attributes { ctx.attributes_to_search_on(searchable_attributes)?; } if let Some(distinct) = &self.distinct { let filterable_fields = ctx.index.filterable_fields(ctx.txn)?; if !crate::is_faceted(distinct, &filterable_fields) { let (valid_fields, hidden_fields) = ctx.index.remove_hidden_fields(ctx.txn, filterable_fields)?; return Err(Error::UserError(UserError::InvalidDistinctAttribute { field: distinct.clone(), valid_fields, hidden_fields, })); } } let universe = filtered_universe(ctx.index, ctx.txn, &self.filter)?; let PartialSearchResult { located_query_terms, candidates, documents_ids, document_scores, degraded, used_negative_operator, } = match self.semantic.as_ref() { Some(SemanticSearch { vector: Some(vector), embedder_name, embedder }) => { execute_vector_search( &mut ctx, vector, self.scoring_strategy, universe, &self.sort_criteria, &self.distinct, self.geo_strategy, self.offset, self.limit, embedder_name, embedder, self.time_budget.clone(), self.ranking_score_threshold, )? } _ => execute_search( &mut ctx, self.query.as_deref(), self.terms_matching_strategy, self.scoring_strategy, self.exhaustive_number_hits, universe, &self.sort_criteria, &self.distinct, self.geo_strategy, self.offset, self.limit, Some(self.words_limit), &mut DefaultSearchLogger, &mut DefaultSearchLogger, self.time_budget.clone(), self.ranking_score_threshold, )?, }; // consume context and located_query_terms to build MatchingWords. let matching_words = match located_query_terms { Some(located_query_terms) => MatchingWords::new(ctx, located_query_terms), None => MatchingWords::default(), }; Ok(SearchResult { matching_words, candidates, document_scores, documents_ids, degraded, used_negative_operator, }) } } impl fmt::Debug for Search<'_> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let Search { query, filter, offset, limit, sort_criteria, distinct, searchable_attributes, geo_strategy: _, terms_matching_strategy, scoring_strategy, words_limit, exhaustive_number_hits, rtxn: _, index: _, semantic, time_budget, ranking_score_threshold, } = self; f.debug_struct("Search") .field("query", query) .field("vector", &"[...]") .field("filter", filter) .field("offset", offset) .field("limit", limit) .field("sort_criteria", sort_criteria) .field("distinct", distinct) .field("searchable_attributes", searchable_attributes) .field("terms_matching_strategy", terms_matching_strategy) .field("scoring_strategy", scoring_strategy) .field("exhaustive_number_hits", exhaustive_number_hits) .field("words_limit", words_limit) .field( "semantic.embedder_name", &semantic.as_ref().map(|semantic| &semantic.embedder_name), ) .field("time_budget", time_budget) .field("ranking_score_threshold", ranking_score_threshold) .finish() } } #[derive(Default, Debug)] pub struct SearchResult { pub matching_words: MatchingWords, pub candidates: RoaringBitmap, pub documents_ids: Vec, pub document_scores: Vec>, pub degraded: bool, pub used_negative_operator: bool, } #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub enum TermsMatchingStrategy { // remove last word first Last, // all words are mandatory All, // remove more frequent word first Frequency, } impl Default for TermsMatchingStrategy { fn default() -> Self { Self::Last } } fn get_first(s: &str) -> &str { match s.chars().next() { Some(c) => &s[..c.len_utf8()], None => panic!("unexpected empty query"), } } pub fn build_dfa(word: &str, typos: u8, is_prefix: bool) -> DFA { let lev = match typos { 0 => &LEVDIST0, 1 => &LEVDIST1, _ => &LEVDIST2, }; if is_prefix { lev.build_prefix_dfa(word) } else { lev.build_dfa(word) } } #[cfg(test)] mod test { #[allow(unused_imports)] use super::*; #[cfg(feature = "japanese")] #[test] fn test_kanji_language_detection() { use crate::index::tests::TempIndex; let index = TempIndex::new(); index .add_documents(documents!([ { "id": 0, "title": "The quick (\"brown\") fox can't jump 32.3 feet, right? Brr, it's 29.3°F!" }, { "id": 1, "title": "東京のお寿司。" }, { "id": 2, "title": "הַשּׁוּעָל הַמָּהִיר (״הַחוּם״) לֹא יָכוֹל לִקְפֹּץ 9.94 מֶטְרִים, נָכוֹן? ברר, 1.5°C- בַּחוּץ!" } ])) .unwrap(); let txn = index.write_txn().unwrap(); let mut search = Search::new(&txn, &index); search.query("東京"); let SearchResult { documents_ids, .. } = search.execute().unwrap(); assert_eq!(documents_ids, vec![1]); } }