use std::{ borrow::Cow, sync::atomic::{self, AtomicBool}, }; use crate::CharBag; const BASE_DISTANCE_PENALTY: f64 = 0.6; const ADDITIONAL_DISTANCE_PENALTY: f64 = 0.05; const MIN_DISTANCE_PENALTY: f64 = 0.2; pub struct Matcher<'a> { query: &'a [char], lowercase_query: &'a [char], query_char_bag: CharBag, smart_case: bool, max_results: usize, min_score: f64, match_positions: Vec, last_positions: Vec, score_matrix: Vec>, best_position_matrix: Vec, } pub trait Match: Ord { fn score(&self) -> f64; fn set_positions(&mut self, positions: Vec); } pub trait MatchCandidate { fn has_chars(&self, bag: CharBag) -> bool; fn to_string(&self) -> Cow<'_, str>; } impl<'a> Matcher<'a> { pub fn new( query: &'a [char], lowercase_query: &'a [char], query_char_bag: CharBag, smart_case: bool, max_results: usize, ) -> Self { Self { query, lowercase_query, query_char_bag, min_score: 0.0, last_positions: vec![0; query.len()], match_positions: vec![0; query.len()], score_matrix: Vec::new(), best_position_matrix: Vec::new(), smart_case, max_results, } } pub fn match_candidates( &mut self, prefix: &[char], lowercase_prefix: &[char], candidates: impl Iterator, results: &mut Vec, cancel_flag: &AtomicBool, build_match: F, ) where R: Match, F: Fn(&C, f64) -> R, { let mut candidate_chars = Vec::new(); let mut lowercase_candidate_chars = Vec::new(); for candidate in candidates { if !candidate.has_chars(self.query_char_bag) { continue; } if cancel_flag.load(atomic::Ordering::Relaxed) { break; } candidate_chars.clear(); lowercase_candidate_chars.clear(); for c in candidate.to_string().chars() { candidate_chars.push(c); lowercase_candidate_chars.push(c.to_ascii_lowercase()); } if !self.find_last_positions(lowercase_prefix, &lowercase_candidate_chars) { continue; } let matrix_len = self.query.len() * (prefix.len() + candidate_chars.len()); self.score_matrix.clear(); self.score_matrix.resize(matrix_len, None); self.best_position_matrix.clear(); self.best_position_matrix.resize(matrix_len, 0); let score = self.score_match( &candidate_chars, &lowercase_candidate_chars, prefix, lowercase_prefix, ); if score > 0.0 { let mut mat = build_match(&candidate, score); if let Err(i) = results.binary_search_by(|m| mat.cmp(m)) { if results.len() < self.max_results { mat.set_positions(self.match_positions.clone()); results.insert(i, mat); } else if i < results.len() { results.pop(); mat.set_positions(self.match_positions.clone()); results.insert(i, mat); } if results.len() == self.max_results { self.min_score = results.last().unwrap().score(); } } } } } fn find_last_positions( &mut self, lowercase_prefix: &[char], lowercase_candidate: &[char], ) -> bool { let mut lowercase_prefix = lowercase_prefix.iter(); let mut lowercase_candidate = lowercase_candidate.iter(); for (i, char) in self.lowercase_query.iter().enumerate().rev() { if let Some(j) = lowercase_candidate.rposition(|c| c == char) { self.last_positions[i] = j + lowercase_prefix.len(); } else if let Some(j) = lowercase_prefix.rposition(|c| c == char) { self.last_positions[i] = j; } else { return false; } } true } fn score_match( &mut self, path: &[char], path_cased: &[char], prefix: &[char], lowercase_prefix: &[char], ) -> f64 { let score = self.recursive_score_match( path, path_cased, prefix, lowercase_prefix, 0, 0, self.query.len() as f64, ) * self.query.len() as f64; if score <= 0.0 { return 0.0; } let path_len = prefix.len() + path.len(); let mut cur_start = 0; let mut byte_ix = 0; let mut char_ix = 0; for i in 0..self.query.len() { let match_char_ix = self.best_position_matrix[i * path_len + cur_start]; while char_ix < match_char_ix { let ch = prefix .get(char_ix) .or_else(|| path.get(char_ix - prefix.len())) .unwrap(); byte_ix += ch.len_utf8(); char_ix += 1; } cur_start = match_char_ix + 1; self.match_positions[i] = byte_ix; } score } #[allow(clippy::too_many_arguments)] fn recursive_score_match( &mut self, path: &[char], path_cased: &[char], prefix: &[char], lowercase_prefix: &[char], query_idx: usize, path_idx: usize, cur_score: f64, ) -> f64 { if query_idx == self.query.len() { return 1.0; } let path_len = prefix.len() + path.len(); if let Some(memoized) = self.score_matrix[query_idx * path_len + path_idx] { return memoized; } let mut score = 0.0; let mut best_position = 0; let query_char = self.lowercase_query[query_idx]; let limit = self.last_positions[query_idx]; let mut last_slash = 0; for j in path_idx..=limit { let path_char = if j < prefix.len() { lowercase_prefix[j] } else { path_cased[j - prefix.len()] }; let is_path_sep = path_char == '/' || path_char == '\\'; if query_idx == 0 && is_path_sep { last_slash = j; } if query_char == path_char || (is_path_sep && query_char == '_' || query_char == '\\') { let curr = if j < prefix.len() { prefix[j] } else { path[j - prefix.len()] }; let mut char_score = 1.0; if j > path_idx { let last = if j - 1 < prefix.len() { prefix[j - 1] } else { path[j - 1 - prefix.len()] }; if last == '/' { char_score = 0.9; } else if (last == '-' || last == '_' || last == ' ' || last.is_numeric()) || (last.is_lowercase() && curr.is_uppercase()) { char_score = 0.8; } else if last == '.' { char_score = 0.7; } else if query_idx == 0 { char_score = BASE_DISTANCE_PENALTY; } else { char_score = MIN_DISTANCE_PENALTY.max( BASE_DISTANCE_PENALTY - (j - path_idx - 1) as f64 * ADDITIONAL_DISTANCE_PENALTY, ); } } // Apply a severe penalty if the case doesn't match. // This will make the exact matches have higher score than the case-insensitive and the // path insensitive matches. if (self.smart_case || curr == '/') && self.query[query_idx] != curr { char_score *= 0.001; } let mut multiplier = char_score; // Scale the score based on how deep within the path we found the match. if query_idx == 0 { multiplier /= ((prefix.len() + path.len()) - last_slash) as f64; } let mut next_score = 1.0; if self.min_score > 0.0 { next_score = cur_score * multiplier; // Scores only decrease. If we can't pass the previous best, bail if next_score < self.min_score { // Ensure that score is non-zero so we use it in the memo table. if score == 0.0 { score = 1e-18; } continue; } } let new_score = self.recursive_score_match( path, path_cased, prefix, lowercase_prefix, query_idx + 1, j + 1, next_score, ) * multiplier; if new_score > score { score = new_score; best_position = j; // Optimization: can't score better than 1. if new_score == 1.0 { break; } } } } if best_position != 0 { self.best_position_matrix[query_idx * path_len + path_idx] = best_position; } self.score_matrix[query_idx * path_len + path_idx] = Some(score); score } } #[cfg(test)] mod tests { use crate::{PathMatch, PathMatchCandidate}; use super::*; use std::{ path::{Path, PathBuf}, sync::Arc, }; #[test] fn test_get_last_positions() { let mut query: &[char] = &['d', 'c']; let mut matcher = Matcher::new(query, query, query.into(), false, 10); let result = matcher.find_last_positions(&['a', 'b', 'c'], &['b', 'd', 'e', 'f']); assert!(!result); query = &['c', 'd']; let mut matcher = Matcher::new(query, query, query.into(), false, 10); let result = matcher.find_last_positions(&['a', 'b', 'c'], &['b', 'd', 'e', 'f']); assert!(result); assert_eq!(matcher.last_positions, vec![2, 4]); query = &['z', '/', 'z', 'f']; let mut matcher = Matcher::new(query, query, query.into(), false, 10); let result = matcher.find_last_positions(&['z', 'e', 'd', '/'], &['z', 'e', 'd', '/', 'f']); assert!(result); assert_eq!(matcher.last_positions, vec![0, 3, 4, 8]); } #[test] fn test_match_path_entries() { let paths = vec![ "", "a", "ab", "abC", "abcd", "alphabravocharlie", "AlphaBravoCharlie", "thisisatestdir", "/////ThisIsATestDir", "/this/is/a/test/dir", "/test/tiatd", ]; assert_eq!( match_single_path_query("abc", false, &paths), vec![ ("abC", vec![0, 1, 2]), ("abcd", vec![0, 1, 2]), ("AlphaBravoCharlie", vec![0, 5, 10]), ("alphabravocharlie", vec![4, 5, 10]), ] ); assert_eq!( match_single_path_query("t/i/a/t/d", false, &paths), vec![("/this/is/a/test/dir", vec![1, 5, 6, 8, 9, 10, 11, 15, 16]),] ); assert_eq!( match_single_path_query("tiatd", false, &paths), vec![ ("/test/tiatd", vec![6, 7, 8, 9, 10]), ("/this/is/a/test/dir", vec![1, 6, 9, 11, 16]), ("/////ThisIsATestDir", vec![5, 9, 11, 12, 16]), ("thisisatestdir", vec![0, 2, 6, 7, 11]), ] ); } #[test] fn test_match_multibyte_path_entries() { let paths = vec!["aαbβ/cγdδ", "αβγδ/bcde", "c1️⃣2️⃣3️⃣/d4️⃣5️⃣6️⃣/e7️⃣8️⃣9️⃣/f", "/d/🆒/h"]; assert_eq!("1️⃣".len(), 7); assert_eq!( match_single_path_query("bcd", false, &paths), vec![ ("αβγδ/bcde", vec![9, 10, 11]), ("aαbβ/cγdδ", vec![3, 7, 10]), ] ); assert_eq!( match_single_path_query("cde", false, &paths), vec![ ("αβγδ/bcde", vec![10, 11, 12]), ("c1️⃣2️⃣3️⃣/d4️⃣5️⃣6️⃣/e7️⃣8️⃣9️⃣/f", vec![0, 23, 46]), ] ); } fn match_single_path_query<'a>( query: &str, smart_case: bool, paths: &[&'a str], ) -> Vec<(&'a str, Vec)> { let lowercase_query = query.to_lowercase().chars().collect::>(); let query = query.chars().collect::>(); let query_chars = CharBag::from(&lowercase_query[..]); let path_arcs: Vec> = paths .iter() .map(|path| Arc::from(PathBuf::from(path))) .collect::>(); let mut path_entries = Vec::new(); for (i, path) in paths.iter().enumerate() { let lowercase_path = path.to_lowercase().chars().collect::>(); let char_bag = CharBag::from(lowercase_path.as_slice()); path_entries.push(PathMatchCandidate { char_bag, path: &path_arcs[i], }); } let mut matcher = Matcher::new(&query, &lowercase_query, query_chars, smart_case, 100); let cancel_flag = AtomicBool::new(false); let mut results = Vec::new(); matcher.match_candidates( &[], &[], path_entries.into_iter(), &mut results, &cancel_flag, |candidate, score| PathMatch { score, worktree_id: 0, positions: Vec::new(), path: candidate.path.clone(), path_prefix: "".into(), distance_to_relative_ancestor: usize::MAX, }, ); results .into_iter() .map(|result| { ( paths .iter() .copied() .find(|p| result.path.as_ref() == Path::new(p)) .unwrap(), result.positions, ) }) .collect() } }