MeiliSearch/milli/src/search/new/query_term.rs

// TODO: put primitive query part in here

use std::borrow::Cow;
use std::mem;
use std::ops::RangeInclusive;

use charabia::normalizer::NormalizedTokenIter;
use charabia::{SeparatorKind, TokenKind};
use fst::automaton::Str;
use fst::{Automaton, IntoStreamer, Streamer};
use heed::types::DecodeIgnore;
use heed::RoTxn;

use crate::search::fst_utils::{Complement, Intersection, StartsWith, Union};
use crate::search::{build_dfa, get_first};
use crate::{Index, Result};

#[derive(Debug, Clone)]
pub struct WordDerivations {
    pub original: String,
    pub zero_typo: Vec<String>,
    pub one_typo: Vec<String>,
    pub two_typos: Vec<String>,
    pub use_prefix_db: bool,
}
impl WordDerivations {
    pub fn all_derivations_except_prefix_db(&self) -> impl Iterator<Item = &String> + Clone {
        self.zero_typo.iter().chain(self.one_typo.iter()).chain(self.two_typos.iter())
    }
    fn is_empty(&self) -> bool {
        self.zero_typo.is_empty()
            && self.one_typo.is_empty()
            && self.two_typos.is_empty()
            && !self.use_prefix_db
    }
}

pub fn word_derivations(
    index: &Index,
    txn: &RoTxn,
    word: &str,
    max_typo: u8,
    is_prefix: bool,
    fst: &fst::Set<Cow<[u8]>>,
) -> Result<WordDerivations> {
    let use_prefix_db = is_prefix
        && index.word_prefix_docids.remap_data_type::<DecodeIgnore>().get(txn, word)?.is_some();

    let mut zero_typo = vec![];
    let mut one_typo = vec![];
    let mut two_typos = vec![];

    if max_typo == 0 {
        if is_prefix && !use_prefix_db {
            let prefix = Str::new(word).starts_with();
            let mut stream = fst.search(prefix).into_stream();

            while let Some(word) = stream.next() {
                let word = std::str::from_utf8(word)?;
                zero_typo.push(word.to_string());
            }
        } else if fst.contains(word) {
            zero_typo.push(word.to_string());
        }
    } else if max_typo == 1 {
        let dfa = build_dfa(word, 1, is_prefix);
        let starts = StartsWith(Str::new(get_first(word)));
        let mut stream = fst.search_with_state(Intersection(starts, &dfa)).into_stream();

        while let Some((word, state)) = stream.next() {
            let word = std::str::from_utf8(word)?;
            let d = dfa.distance(state.1);
            match d.to_u8() {
                0 => {
                    zero_typo.push(word.to_string());
                }
                1 => {
                    one_typo.push(word.to_string());
                }
                _ => panic!(),
            }
        }
    } else {
        let starts = StartsWith(Str::new(get_first(word)));
        let first = Intersection(build_dfa(word, 1, is_prefix), Complement(&starts));
        let second_dfa = build_dfa(word, 2, is_prefix);
        let second = Intersection(&second_dfa, &starts);
        let automaton = Union(first, &second);

        let mut stream = fst.search_with_state(automaton).into_stream();

        while let Some((found_word, state)) = stream.next() {
            let found_word = std::str::from_utf8(found_word)?;
            // in the case the typo is on the first letter, we know the number of typo
            // is two
            if get_first(found_word) != get_first(word) {
                two_typos.push(found_word.to_string());
            } else {
                // Else, we know that it is the second dfa that matched and compute the
                // correct distance
                let d = second_dfa.distance((state.1).0);
                match d.to_u8() {
                    0 => {
                        zero_typo.push(found_word.to_string());
                    }
                    1 => {
                        one_typo.push(found_word.to_string());
                    }
                    2 => {
                        two_typos.push(found_word.to_string());
                    }
                    _ => panic!(),
                }
            }
        }
    }

    Ok(WordDerivations { original: word.to_owned(), zero_typo, one_typo, two_typos, use_prefix_db })
}

#[derive(Debug, Clone)]
pub enum QueryTerm {
    Phrase(Vec<Option<String>>),
    Word { derivations: WordDerivations },
}
impl QueryTerm {
    pub fn original_single_word(&self) -> Option<&str> {
        match self {
            QueryTerm::Phrase(_) => None,
            QueryTerm::Word { derivations } => {
                if derivations.is_empty() {
                    None
                } else {
                    Some(derivations.original.as_str())
                }
            }
        }
    }
}

#[derive(Debug, Clone)]
pub struct LocatedQueryTerm {
    pub value: QueryTerm, // value should be able to contain the word derivations as well
    pub positions: RangeInclusive<i8>,
}

impl LocatedQueryTerm {
    pub fn is_empty(&self) -> bool {
        match &self.value {
            QueryTerm::Phrase(_) => false,
            QueryTerm::Word { derivations, .. } => derivations.is_empty(),
        }
    }
    /// Create primitive query from tokenized query string,
    /// the primitive query is an intermediate state to build the query tree.
    pub fn from_query(
        query: NormalizedTokenIter<Vec<u8>>,
        words_limit: Option<usize>,
        derivations: impl Fn(&str, bool) -> Result<WordDerivations>,
    ) -> Result<Vec<LocatedQueryTerm>> {
        let mut primitive_query = Vec::new();
        let mut phrase = Vec::new();

        let mut quoted = false;

        let parts_limit = words_limit.unwrap_or(usize::MAX);

        let mut position = -1i8;
        let mut phrase_start = -1i8;
        let mut phrase_end = -1i8;

        let mut peekable = query.peekable();
        while let Some(token) = peekable.next() {
            // early return if word limit is exceeded
            if primitive_query.len() >= parts_limit {
                return Ok(primitive_query);
            }

            match token.kind {
                TokenKind::Word | TokenKind::StopWord => {
                    position += 1;
                    // 1. if the word is quoted we push it in a phrase-buffer waiting for the ending quote,
                    // 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,
                    // 3. if the word is the last token of the query we push it as a prefix word.
                    if quoted {
                        phrase_end = position;
                        if phrase.is_empty() {
                            phrase_start = position;
                        }
                        if let TokenKind::StopWord = token.kind {
                            phrase.push(None);
                        } else {
                            // TODO: in a phrase, check that every word exists
                            // otherwise return WordDerivations::Empty
                            phrase.push(Some(token.lemma().to_string()));
                        }
                    } else if peekable.peek().is_some() {
                        if let TokenKind::StopWord = token.kind {
                        } else {
                            let derivations = derivations(token.lemma(), false)?;
                            let located_term = LocatedQueryTerm {
                                value: QueryTerm::Word { derivations },
                                positions: position..=position,
                            };
                            primitive_query.push(located_term);
                        }
                    } else {
                        let derivations = derivations(token.lemma(), true)?;
                        let located_term = LocatedQueryTerm {
                            value: QueryTerm::Word { derivations },
                            positions: position..=position,
                        };
                        primitive_query.push(located_term);
                    }
                }
                TokenKind::Separator(separator_kind) => {
                    match separator_kind {
                        SeparatorKind::Hard => {
                            position += 1;
                        }
                        SeparatorKind::Soft => {
                            position += 0;
                        }
                    }
                    let quote_count = token.lemma().chars().filter(|&s| s == '"').count();
                    // swap quoted state if we encounter a double quote
                    if quote_count % 2 != 0 {
                        quoted = !quoted;
                    }
                    // if there is a quote or a hard separator we close the phrase.
                    if !phrase.is_empty()
                        && (quote_count > 0 || separator_kind == SeparatorKind::Hard)
                    {
                        let located_query_term = LocatedQueryTerm {
                            value: QueryTerm::Phrase(mem::take(&mut phrase)),
                            positions: phrase_start..=phrase_end,
                        };
                        primitive_query.push(located_query_term);
                    }
                }
                _ => (),
            }
        }

        // If a quote is never closed, we consider all of the end of the query as a phrase.
        if !phrase.is_empty() {
            let located_query_term = LocatedQueryTerm {
                value: QueryTerm::Phrase(mem::take(&mut phrase)),
                positions: phrase_start..=phrase_end,
            };
            primitive_query.push(located_query_term);
        }

        Ok(primitive_query)
    }
}

impl LocatedQueryTerm {
    pub fn ngram2(
        x: &LocatedQueryTerm,
        y: &LocatedQueryTerm,
    ) -> Option<(String, RangeInclusive<i8>)> {
        if *x.positions.end() != y.positions.start() - 1 {
            println!(
                "x positions end: {}, y positions start: {}",
                *x.positions.end(),
                y.positions.start()
            );
            return None;
        }
        match (&x.value.original_single_word(), &y.value.original_single_word()) {
            (Some(w1), Some(w2)) => {
                let term = (format!("{w1}{w2}"), *x.positions.start()..=*y.positions.end());
                Some(term)
            }
            _ => None,
        }
    }
    pub fn ngram3(
        x: &LocatedQueryTerm,
        y: &LocatedQueryTerm,
        z: &LocatedQueryTerm,
    ) -> Option<(String, RangeInclusive<i8>)> {
        if *x.positions.end() != y.positions.start() - 1
            || *y.positions.end() != z.positions.start() - 1
        {
            return None;
        }
        match (
            &x.value.original_single_word(),
            &y.value.original_single_word(),
            &z.value.original_single_word(),
        ) {
            (Some(w1), Some(w2), Some(w3)) => {
                let term = (format!("{w1}{w2}{w3}"), *x.positions.start()..=*z.positions.end());
                Some(term)
            }
            _ => None,
        }
    }
}
Introduce structure to represent search queries as graphs 2023-02-21 09:42:54 +01:00			`// TODO: put primitive query part in here`

			`use std::borrow::Cow;`
			`use std::mem;`
			`use std::ops::RangeInclusive;`

			`use charabia::normalizer::NormalizedTokenIter;`
			`use charabia::{SeparatorKind, TokenKind};`
			`use fst::automaton::Str;`
			`use fst::{Automaton, IntoStreamer, Streamer};`
			`use heed::types::DecodeIgnore;`
			`use heed::RoTxn;`

			`use crate::search::fst_utils::{Complement, Intersection, StartsWith, Union};`
			`use crate::search::{build_dfa, get_first};`
			`use crate::{Index, Result};`

			`#[derive(Debug, Clone)]`
			`pub struct WordDerivations {`
			`pub original: String,`
			`pub zero_typo: Vec<String>,`
			`pub one_typo: Vec<String>,`
			`pub two_typos: Vec<String>,`
			`pub use_prefix_db: bool,`
			`}`
			`impl WordDerivations {`
			`pub fn all_derivations_except_prefix_db(&self) -> impl Iterator<Item = &String> + Clone {`
			`self.zero_typo.iter().chain(self.one_typo.iter()).chain(self.two_typos.iter())`
			`}`
			`fn is_empty(&self) -> bool {`
			`self.zero_typo.is_empty()`
			`&& self.one_typo.is_empty()`
			`&& self.two_typos.is_empty()`
			`&& !self.use_prefix_db`
			`}`
			`}`

			`pub fn word_derivations(`
			`index: &Index,`
			`txn: &RoTxn,`
			`word: &str,`
			`max_typo: u8,`
			`is_prefix: bool,`
			`fst: &fst::Set<Cow<[u8]>>,`
			`) -> Result<WordDerivations> {`
			`let use_prefix_db = is_prefix`
			`&& index.word_prefix_docids.remap_data_type::<DecodeIgnore>().get(txn, word)?.is_some();`

			`let mut zero_typo = vec![];`
			`let mut one_typo = vec![];`
			`let mut two_typos = vec![];`

			`if max_typo == 0 {`
Improve the visual/detailed search logger 2023-02-23 13:13:19 +01:00			`if is_prefix && !use_prefix_db {`
Introduce structure to represent search queries as graphs 2023-02-21 09:42:54 +01:00			`let prefix = Str::new(word).starts_with();`
			`let mut stream = fst.search(prefix).into_stream();`

			`while let Some(word) = stream.next() {`
			`let word = std::str::from_utf8(word)?;`
			`zero_typo.push(word.to_string());`
			`}`
			`} else if fst.contains(word) {`
			`zero_typo.push(word.to_string());`
			`}`
			`} else if max_typo == 1 {`
			`let dfa = build_dfa(word, 1, is_prefix);`
			`let starts = StartsWith(Str::new(get_first(word)));`
			`let mut stream = fst.search_with_state(Intersection(starts, &dfa)).into_stream();`

			`while let Some((word, state)) = stream.next() {`
			`let word = std::str::from_utf8(word)?;`
			`let d = dfa.distance(state.1);`
			`match d.to_u8() {`
			`0 => {`
			`zero_typo.push(word.to_string());`
			`}`
			`1 => {`
			`one_typo.push(word.to_string());`
			`}`
			`_ => panic!(),`
			`}`
			`}`
			`} else {`
			`let starts = StartsWith(Str::new(get_first(word)));`
			`let first = Intersection(build_dfa(word, 1, is_prefix), Complement(&starts));`
			`let second_dfa = build_dfa(word, 2, is_prefix);`
			`let second = Intersection(&second_dfa, &starts);`
			`let automaton = Union(first, &second);`

			`let mut stream = fst.search_with_state(automaton).into_stream();`

			`while let Some((found_word, state)) = stream.next() {`
			`let found_word = std::str::from_utf8(found_word)?;`
			`// in the case the typo is on the first letter, we know the number of typo`
			`// is two`
			`if get_first(found_word) != get_first(word) {`
			`two_typos.push(found_word.to_string());`
			`} else {`
			`// Else, we know that it is the second dfa that matched and compute the`
			`// correct distance`
			`let d = second_dfa.distance((state.1).0);`
			`match d.to_u8() {`
			`0 => {`
			`zero_typo.push(found_word.to_string());`
			`}`
			`1 => {`
			`one_typo.push(found_word.to_string());`
			`}`
			`2 => {`
			`two_typos.push(found_word.to_string());`
			`}`
			`_ => panic!(),`
			`}`
			`}`
			`}`
			`}`

			`Ok(WordDerivations { original: word.to_owned(), zero_typo, one_typo, two_typos, use_prefix_db })`
			`}`

			`#[derive(Debug, Clone)]`
			`pub enum QueryTerm {`
			`Phrase(Vec<Option<String>>),`
			`Word { derivations: WordDerivations },`
			`}`
			`impl QueryTerm {`
			`pub fn original_single_word(&self) -> Option<&str> {`
			`match self {`
			`QueryTerm::Phrase(_) => None,`
			`QueryTerm::Word { derivations } => {`
			`if derivations.is_empty() {`
			`None`
			`} else {`
			`Some(derivations.original.as_str())`
			`}`
			`}`
			`}`
			`}`
			`}`

			`#[derive(Debug, Clone)]`
			`pub struct LocatedQueryTerm {`
			`pub value: QueryTerm, // value should be able to contain the word derivations as well`
			`pub positions: RangeInclusive<i8>,`
			`}`

			`impl LocatedQueryTerm {`
			`pub fn is_empty(&self) -> bool {`
			`match &self.value {`
			`QueryTerm::Phrase(_) => false,`
			`QueryTerm::Word { derivations, .. } => derivations.is_empty(),`
			`}`
			`}`
			`/// Create primitive query from tokenized query string,`
			`/// the primitive query is an intermediate state to build the query tree.`
			`pub fn from_query(`
			`query: NormalizedTokenIter<Vec<u8>>,`
			`words_limit: Option<usize>,`
			`derivations: impl Fn(&str, bool) -> Result<WordDerivations>,`
			`) -> Result<Vec<LocatedQueryTerm>> {`
			`let mut primitive_query = Vec::new();`
			`let mut phrase = Vec::new();`

			`let mut quoted = false;`

			`let parts_limit = words_limit.unwrap_or(usize::MAX);`

			`let mut position = -1i8;`
			`let mut phrase_start = -1i8;`
			`let mut phrase_end = -1i8;`

			`let mut peekable = query.peekable();`
			`while let Some(token) = peekable.next() {`
			`// early return if word limit is exceeded`
			`if primitive_query.len() >= parts_limit {`
			`return Ok(primitive_query);`
			`}`

			`match token.kind {`
			`TokenKind::Word \| TokenKind::StopWord => {`
			`position += 1;`
			`// 1. if the word is quoted we push it in a phrase-buffer waiting for the ending quote,`
			`// 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,`
			`// 3. if the word is the last token of the query we push it as a prefix word.`
			`if quoted {`
			`phrase_end = position;`
			`if phrase.is_empty() {`
			`phrase_start = position;`
			`}`
			`if let TokenKind::StopWord = token.kind {`
			`phrase.push(None);`
			`} else {`
			`// TODO: in a phrase, check that every word exists`
			`// otherwise return WordDerivations::Empty`
			`phrase.push(Some(token.lemma().to_string()));`
			`}`
			`} else if peekable.peek().is_some() {`
			`if let TokenKind::StopWord = token.kind {`
			`} else {`
			`let derivations = derivations(token.lemma(), false)?;`
			`let located_term = LocatedQueryTerm {`
			`value: QueryTerm::Word { derivations },`
			`positions: position..=position,`
			`};`
			`primitive_query.push(located_term);`
			`}`
			`} else {`
			`let derivations = derivations(token.lemma(), true)?;`
			`let located_term = LocatedQueryTerm {`
			`value: QueryTerm::Word { derivations },`
			`positions: position..=position,`
			`};`
			`primitive_query.push(located_term);`
			`}`
			`}`
			`TokenKind::Separator(separator_kind) => {`
			`match separator_kind {`
			`SeparatorKind::Hard => {`
			`position += 1;`
			`}`
			`SeparatorKind::Soft => {`
			`position += 0;`
			`}`
			`}`
			`let quote_count = token.lemma().chars().filter(\|&s\| s == '"').count();`
			`// swap quoted state if we encounter a double quote`
			`if quote_count % 2 != 0 {`
			`quoted = !quoted;`
			`}`
			`// if there is a quote or a hard separator we close the phrase.`
			`if !phrase.is_empty()`
			`&& (quote_count > 0 \|\| separator_kind == SeparatorKind::Hard)`
			`{`
			`let located_query_term = LocatedQueryTerm {`
			`value: QueryTerm::Phrase(mem::take(&mut phrase)),`
			`positions: phrase_start..=phrase_end,`
			`};`
			`primitive_query.push(located_query_term);`
			`}`
			`}`
			`_ => (),`
			`}`
			`}`

			`// If a quote is never closed, we consider all of the end of the query as a phrase.`
			`if !phrase.is_empty() {`
			`let located_query_term = LocatedQueryTerm {`
			`value: QueryTerm::Phrase(mem::take(&mut phrase)),`
			`positions: phrase_start..=phrase_end,`
			`};`
			`primitive_query.push(located_query_term);`
			`}`

			`Ok(primitive_query)`
			`}`
			`}`

			`impl LocatedQueryTerm {`
			`pub fn ngram2(`
			`x: &LocatedQueryTerm,`
			`y: &LocatedQueryTerm,`
			`) -> Option<(String, RangeInclusive<i8>)> {`
			`if *x.positions.end() != y.positions.start() - 1 {`
			`println!(`
			`"x positions end: {}, y positions start: {}",`
			`*x.positions.end(),`
			`y.positions.start()`
			`);`
			`return None;`
			`}`
			`match (&x.value.original_single_word(), &y.value.original_single_word()) {`
			`(Some(w1), Some(w2)) => {`
			`let term = (format!("{w1}{w2}"), x.positions.start()..=y.positions.end());`
			`Some(term)`
			`}`
			`_ => None,`
			`}`
			`}`
			`pub fn ngram3(`
			`x: &LocatedQueryTerm,`
			`y: &LocatedQueryTerm,`
			`z: &LocatedQueryTerm,`
			`) -> Option<(String, RangeInclusive<i8>)> {`
			`if *x.positions.end() != y.positions.start() - 1`
			`\|\| *y.positions.end() != z.positions.start() - 1`
			`{`
			`return None;`
			`}`
			`match (`
			`&x.value.original_single_word(),`
			`&y.value.original_single_word(),`
			`&z.value.original_single_word(),`
			`) {`
			`(Some(w1), Some(w2), Some(w3)) => {`
			`let term = (format!("{w1}{w2}{w3}"), x.positions.start()..=z.positions.end());`
			`Some(term)`
			`}`
			`_ => None,`
			`}`
			`}`
			`}`