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@ -43,3 +43,180 @@ pub fn find_nth_prev(text: RopeSlice, ch: char, mut pos: usize, n: usize) -> Opt
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Some(pos)
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}
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use crate::movement::Direction;
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use regex_automata::{dense, DenseDFA, Error as RegexError, DFA};
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use std::ops::Range;
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pub struct Searcher {
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/// Locate end of match searching right.
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right_fdfa: DenseDFA<Vec<usize>, usize>,
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/// Locate start of match searching right.
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right_rdfa: DenseDFA<Vec<usize>, usize>,
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/// Locate start of match searching left.
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left_fdfa: DenseDFA<Vec<usize>, usize>,
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/// Locate end of match searching left.
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left_rdfa: DenseDFA<Vec<usize>, usize>,
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}
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impl Searcher {
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pub fn new(pattern: &str) -> Result<Searcher, RegexError> {
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// Check case info for smart case
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let has_uppercase = pattern.chars().any(|c| c.is_uppercase());
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// Create Regex DFAs for all search directions.
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let mut builder = dense::Builder::new();
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let builder = builder.case_insensitive(!has_uppercase);
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let left_fdfa = builder.clone().reverse(true).build(pattern)?;
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let left_rdfa = builder
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.clone()
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.anchored(true)
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.longest_match(true)
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.build(pattern)?;
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let right_fdfa = builder.clone().build(pattern)?;
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let right_rdfa = builder
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.anchored(true)
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.longest_match(true)
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.reverse(true)
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.build(pattern)?;
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Ok(Searcher {
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right_fdfa,
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right_rdfa,
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left_fdfa,
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left_rdfa,
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})
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}
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pub fn search_prev(&self, text: RopeSlice, offset: usize) -> Option<Range<usize>> {
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let text = text.slice(..offset);
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let start = self.rfind(text, &self.left_fdfa)?;
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let end = self.find(text.slice(start..), &self.left_rdfa)?;
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Some(start..start + end)
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}
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pub fn search_next(&self, text: RopeSlice, offset: usize) -> Option<Range<usize>> {
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let text = text.slice(offset..);
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let end = self.find(text, &self.right_fdfa)?;
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let start = self.rfind(text.slice(..end), &self.right_rdfa)?;
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Some(offset + start..offset + end)
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}
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/// Returns the end offset of the longest match. If no match exists, then None is returned.
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/// NOTE: based on DFA::find_at
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fn find(&self, text: RopeSlice, dfa: &impl DFA) -> Option<usize> {
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// TOOD: needs to change to rfind condition if searching reverse
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// TODO: check this inside main search
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// if dfa.is_anchored() && start > 0 {
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// return None;
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// }
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let mut state = dfa.start_state();
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let mut last_match = if dfa.is_dead_state(state) {
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return None;
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} else if dfa.is_match_state(state) {
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Some(0)
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} else {
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None
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};
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for chunk in text.chunks() {
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for (i, &b) in chunk.as_bytes().iter().enumerate() {
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state = unsafe { dfa.next_state_unchecked(state, b) };
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if dfa.is_match_or_dead_state(state) {
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if dfa.is_dead_state(state) {
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return last_match;
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}
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last_match = Some(i + 1);
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}
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}
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}
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last_match
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}
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/// Returns the start offset of the longest match in reverse, by searching from the end of the
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/// input towards the start of the input. If no match exists, then None is returned. In other
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/// words, this has the same match semantics as find, but in reverse.
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///
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/// NOTE: based on DFA::rfind_at
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fn rfind(&self, text: RopeSlice, dfa: &impl DFA) -> Option<usize> {
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// if dfa.is_anchored() && start < bytes.len() {
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// return None;
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// }
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let mut state = dfa.start_state();
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let mut last_match = if dfa.is_dead_state(state) {
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return None;
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} else if dfa.is_match_state(state) {
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Some(text.len_bytes())
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} else {
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None
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};
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// This is basically chunks().rev()
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let (mut chunks, _, _, _) = text.chunks_at_byte(text.len_bytes());
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while let Some(chunk) = chunks.prev() {
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for (i, &b) in chunk.as_bytes().iter().enumerate().rev() {
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state = unsafe { dfa.next_state_unchecked(state, b) };
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if dfa.is_match_or_dead_state(state) {
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if dfa.is_dead_state(state) {
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return last_match;
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}
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last_match = Some(i);
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}
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}
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}
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last_match
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}
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}
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#[cfg(test)]
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mod test {
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use super::*;
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#[test]
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fn test_search_next() {
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use crate::Rope;
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let text = Rope::from("hello world!");
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let searcher = Searcher::new(r"\w+").unwrap();
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let result = searcher.search_next(text.slice(..), 0).unwrap();
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let fragment = text.slice(result.start..result.end);
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assert_eq!("hello", fragment);
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let result = searcher.search_next(text.slice(..), result.end).unwrap();
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let fragment = text.slice(result.start..result.end);
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assert_eq!("world", fragment);
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let result = searcher.search_next(text.slice(..), result.end);
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assert!(result.is_none());
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}
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#[test]
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fn test_search_prev() {
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use crate::Rope;
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let text = Rope::from("hello world!");
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let searcher = Searcher::new(r"\w+").unwrap();
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let result = searcher
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.search_prev(text.slice(..), text.len_bytes())
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.unwrap();
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let fragment = text.slice(result.start..result.end);
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assert_eq!("world", fragment);
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let result = searcher.search_prev(text.slice(..), result.start).unwrap();
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let fragment = text.slice(result.start..result.end);
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assert_eq!("hello", fragment);
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let result = searcher.search_prev(text.slice(..), result.start);
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assert!(result.is_none());
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}
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}
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Blaž Hrastnik
4 years ago