mirror of
https://github.com/meilisearch/meilisearch.git
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306 lines
11 KiB
Rust
306 lines
11 KiB
Rust
// TODO: put primitive query part in here
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use std::borrow::Cow;
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use std::mem;
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use std::ops::RangeInclusive;
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use charabia::normalizer::NormalizedTokenIter;
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use charabia::{SeparatorKind, TokenKind};
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use fst::automaton::Str;
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use fst::{Automaton, IntoStreamer, Streamer};
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use heed::types::DecodeIgnore;
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use heed::RoTxn;
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use crate::search::fst_utils::{Complement, Intersection, StartsWith, Union};
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use crate::search::{build_dfa, get_first};
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use crate::{Index, Result};
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#[derive(Debug, Clone)]
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pub struct WordDerivations {
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// TODO: should have a list for the words corresponding to the prefix as well!
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// This is to implement the `exactness` ranking rule.
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// However, we could also consider every term in `zero_typo` (except first one) to
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// be words of that the original word is a prefix of
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pub original: String,
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pub zero_typo: Vec<String>,
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pub one_typo: Vec<String>,
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pub two_typos: Vec<String>,
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pub use_prefix_db: bool,
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}
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impl WordDerivations {
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pub fn all_derivations_except_prefix_db(&self) -> impl Iterator<Item = &String> + Clone {
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self.zero_typo.iter().chain(self.one_typo.iter()).chain(self.two_typos.iter())
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}
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fn is_empty(&self) -> bool {
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self.zero_typo.is_empty()
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&& self.one_typo.is_empty()
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&& self.two_typos.is_empty()
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&& !self.use_prefix_db
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}
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}
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pub fn word_derivations(
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index: &Index,
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txn: &RoTxn,
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word: &str,
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max_typo: u8,
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is_prefix: bool,
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fst: &fst::Set<Cow<[u8]>>,
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) -> Result<WordDerivations> {
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let use_prefix_db = is_prefix
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&& index.word_prefix_docids.remap_data_type::<DecodeIgnore>().get(txn, word)?.is_some();
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let mut zero_typo = vec![];
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let mut one_typo = vec![];
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let mut two_typos = vec![];
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if max_typo == 0 {
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if is_prefix {
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let prefix = Str::new(word).starts_with();
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let mut stream = fst.search(prefix).into_stream();
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while let Some(word) = stream.next() {
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let word = std::str::from_utf8(word)?;
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zero_typo.push(word.to_string());
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}
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} else if fst.contains(word) {
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zero_typo.push(word.to_string());
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}
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} else if max_typo == 1 {
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let dfa = build_dfa(word, 1, is_prefix);
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let starts = StartsWith(Str::new(get_first(word)));
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let mut stream = fst.search_with_state(Intersection(starts, &dfa)).into_stream();
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while let Some((word, state)) = stream.next() {
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let word = std::str::from_utf8(word)?;
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let d = dfa.distance(state.1);
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match d.to_u8() {
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0 => {
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zero_typo.push(word.to_string());
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}
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1 => {
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one_typo.push(word.to_string());
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}
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_ => panic!(),
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}
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}
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} else {
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let starts = StartsWith(Str::new(get_first(word)));
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let first = Intersection(build_dfa(word, 1, is_prefix), Complement(&starts));
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let second_dfa = build_dfa(word, 2, is_prefix);
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let second = Intersection(&second_dfa, &starts);
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let automaton = Union(first, &second);
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let mut stream = fst.search_with_state(automaton).into_stream();
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while let Some((found_word, state)) = stream.next() {
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let found_word = std::str::from_utf8(found_word)?;
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// in the case the typo is on the first letter, we know the number of typo
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// is two
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if get_first(found_word) != get_first(word) {
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two_typos.push(found_word.to_string());
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} else {
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// Else, we know that it is the second dfa that matched and compute the
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// correct distance
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let d = second_dfa.distance((state.1).0);
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match d.to_u8() {
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0 => {
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zero_typo.push(found_word.to_string());
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}
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1 => {
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one_typo.push(found_word.to_string());
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}
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2 => {
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two_typos.push(found_word.to_string());
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}
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_ => panic!(),
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}
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}
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}
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}
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Ok(WordDerivations { original: word.to_owned(), zero_typo, one_typo, two_typos, use_prefix_db })
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}
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#[derive(Debug, Clone)]
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pub enum QueryTerm {
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Phrase(Vec<Option<String>>),
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Word { derivations: WordDerivations },
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}
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impl QueryTerm {
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pub fn original_single_word(&self) -> Option<&str> {
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match self {
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QueryTerm::Phrase(_) => None,
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QueryTerm::Word { derivations } => {
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if derivations.is_empty() {
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None
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} else {
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Some(derivations.original.as_str())
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}
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}
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}
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}
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}
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#[derive(Debug, Clone)]
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pub struct LocatedQueryTerm {
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pub value: QueryTerm, // value should be able to contain the word derivations as well
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pub positions: RangeInclusive<i8>,
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}
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impl LocatedQueryTerm {
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pub fn is_empty(&self) -> bool {
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match &self.value {
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QueryTerm::Phrase(_) => false,
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QueryTerm::Word { derivations, .. } => derivations.is_empty(),
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}
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}
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/// Create primitive query from tokenized query string,
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/// the primitive query is an intermediate state to build the query tree.
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pub fn from_query(
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query: NormalizedTokenIter<Vec<u8>>,
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words_limit: Option<usize>,
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derivations: impl Fn(&str, bool) -> Result<WordDerivations>,
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) -> Result<Vec<LocatedQueryTerm>> {
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let mut primitive_query = Vec::new();
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let mut phrase = Vec::new();
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let mut quoted = false;
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let parts_limit = words_limit.unwrap_or(usize::MAX);
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let mut position = -1i8;
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let mut phrase_start = -1i8;
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let mut phrase_end = -1i8;
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let mut peekable = query.peekable();
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while let Some(token) = peekable.next() {
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// early return if word limit is exceeded
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if primitive_query.len() >= parts_limit {
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return Ok(primitive_query);
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}
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match token.kind {
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TokenKind::Word | TokenKind::StopWord => {
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position += 1;
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// 1. if the word is quoted we push it in a phrase-buffer waiting for the ending quote,
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// 2. if the word is not the last token of the query and is not a stop_word we push it as a non-prefix word,
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// 3. if the word is the last token of the query we push it as a prefix word.
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if quoted {
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phrase_end = position;
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if phrase.is_empty() {
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phrase_start = position;
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}
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if let TokenKind::StopWord = token.kind {
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phrase.push(None);
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} else {
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// TODO: in a phrase, check that every word exists
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// otherwise return WordDerivations::Empty
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phrase.push(Some(token.lemma().to_string()));
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}
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} else if peekable.peek().is_some() {
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if let TokenKind::StopWord = token.kind {
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} else {
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let derivations = derivations(token.lemma(), false)?;
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let located_term = LocatedQueryTerm {
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value: QueryTerm::Word { derivations },
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positions: position..=position,
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};
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primitive_query.push(located_term);
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}
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} else {
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let derivations = derivations(token.lemma(), true)?;
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let located_term = LocatedQueryTerm {
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value: QueryTerm::Word { derivations },
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positions: position..=position,
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};
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primitive_query.push(located_term);
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}
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}
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TokenKind::Separator(separator_kind) => {
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match separator_kind {
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SeparatorKind::Hard => {
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position += 1;
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}
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SeparatorKind::Soft => {
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position += 0;
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}
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}
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let quote_count = token.lemma().chars().filter(|&s| s == '"').count();
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// swap quoted state if we encounter a double quote
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if quote_count % 2 != 0 {
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quoted = !quoted;
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}
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// if there is a quote or a hard separator we close the phrase.
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if !phrase.is_empty()
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&& (quote_count > 0 || separator_kind == SeparatorKind::Hard)
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{
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let located_query_term = LocatedQueryTerm {
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value: QueryTerm::Phrase(mem::take(&mut phrase)),
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positions: phrase_start..=phrase_end,
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};
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primitive_query.push(located_query_term);
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}
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}
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_ => (),
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}
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}
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// If a quote is never closed, we consider all of the end of the query as a phrase.
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if !phrase.is_empty() {
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let located_query_term = LocatedQueryTerm {
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value: QueryTerm::Phrase(mem::take(&mut phrase)),
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positions: phrase_start..=phrase_end,
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};
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primitive_query.push(located_query_term);
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}
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Ok(primitive_query)
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}
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}
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impl LocatedQueryTerm {
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pub fn ngram2(
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x: &LocatedQueryTerm,
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y: &LocatedQueryTerm,
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) -> Option<(String, RangeInclusive<i8>)> {
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if *x.positions.end() != y.positions.start() - 1 {
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println!(
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"x positions end: {}, y positions start: {}",
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*x.positions.end(),
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y.positions.start()
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);
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return None;
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}
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match (&x.value.original_single_word(), &y.value.original_single_word()) {
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(Some(w1), Some(w2)) => {
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let term = (format!("{w1}{w2}"), *x.positions.start()..=*y.positions.end());
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Some(term)
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}
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_ => None,
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}
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}
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pub fn ngram3(
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x: &LocatedQueryTerm,
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y: &LocatedQueryTerm,
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z: &LocatedQueryTerm,
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) -> Option<(String, RangeInclusive<i8>)> {
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if *x.positions.end() != y.positions.start() - 1
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|| *y.positions.end() != z.positions.start() - 1
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{
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return None;
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}
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match (
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&x.value.original_single_word(),
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&y.value.original_single_word(),
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&z.value.original_single_word(),
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) {
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(Some(w1), Some(w2), Some(w3)) => {
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let term = (format!("{w1}{w2}{w3}"), *x.positions.start()..=*z.positions.end());
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Some(term)
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}
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_ => None,
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}
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}
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}
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