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@ -1,8 +1,10 @@
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use std::iter;
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use std::iter;
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use ropey::RopeSlice;
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use tree_sitter::Node;
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use tree_sitter::Node;
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use crate::{Rope, Syntax};
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use crate::movement::Direction::{self, Backward, Forward};
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use crate::Syntax;
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const MAX_PLAINTEXT_SCAN: usize = 10000;
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const MAX_PLAINTEXT_SCAN: usize = 10000;
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const MATCH_LIMIT: usize = 16;
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const MATCH_LIMIT: usize = 16;
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@ -27,7 +29,7 @@ const PAIRS: &[(char, char)] = &[
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///
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///
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/// If no matching bracket is found, `None` is returned.
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/// If no matching bracket is found, `None` is returned.
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#[must_use]
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#[must_use]
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pub fn find_matching_bracket(syntax: &Syntax, doc: &Rope, pos: usize) -> Option<usize> {
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pub fn find_matching_bracket(syntax: &Syntax, doc: RopeSlice, pos: usize) -> Option<usize> {
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if pos >= doc.len_chars() || !is_valid_bracket(doc.char(pos)) {
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if pos >= doc.len_chars() || !is_valid_bracket(doc.char(pos)) {
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return None;
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return None;
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}
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}
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@ -45,13 +47,18 @@ pub fn find_matching_bracket(syntax: &Syntax, doc: &Rope, pos: usize) -> Option<
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//
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//
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// If no surrounding scope is found, the function returns `None`.
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// If no surrounding scope is found, the function returns `None`.
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#[must_use]
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#[must_use]
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pub fn find_matching_bracket_fuzzy(syntax: &Syntax, doc: &Rope, pos: usize) -> Option<usize> {
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pub fn find_matching_bracket_fuzzy(syntax: &Syntax, doc: RopeSlice, pos: usize) -> Option<usize> {
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find_pair(syntax, doc, pos, true)
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find_pair(syntax, doc, pos, true)
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}
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}
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fn find_pair(syntax: &Syntax, doc: &Rope, pos: usize, traverse_parents: bool) -> Option<usize> {
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fn find_pair(
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syntax: &Syntax,
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doc: RopeSlice,
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pos_: usize,
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traverse_parents: bool,
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) -> Option<usize> {
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let tree = syntax.tree();
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let tree = syntax.tree();
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let pos = doc.char_to_byte(pos);
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let pos = doc.char_to_byte(pos_);
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let mut node = tree.root_node().descendant_for_byte_range(pos, pos)?;
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let mut node = tree.root_node().descendant_for_byte_range(pos, pos)?;
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@ -92,7 +99,7 @@ fn find_pair(syntax: &Syntax, doc: &Rope, pos: usize, traverse_parents: bool) ->
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}
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}
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}
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}
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if node.is_named() {
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if node.is_named() {
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return None;
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break;
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}
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}
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}
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}
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@ -104,8 +111,16 @@ fn find_pair(syntax: &Syntax, doc: &Rope, pos: usize, traverse_parents: bool) ->
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return doc.try_byte_to_char(close.start_byte()).ok();
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return doc.try_byte_to_char(close.start_byte()).ok();
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}
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}
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}
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}
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node = node.parent()?;
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let Some(parent) = node.parent() else { break; };
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node = parent;
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}
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}
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let node = tree.root_node().named_descendant_for_byte_range(pos, pos)?;
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if node.child_count() != 0 {
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return None;
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}
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let node_start = doc.byte_to_char(node.start_byte());
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find_matching_bracket_plaintext(doc.byte_slice(node.byte_range()), pos_ - node_start)
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.map(|pos| pos + node_start)
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}
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}
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/// Returns the position of the matching bracket under cursor.
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/// Returns the position of the matching bracket under cursor.
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@ -120,10 +135,7 @@ fn find_pair(syntax: &Syntax, doc: &Rope, pos: usize, traverse_parents: bool) ->
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///
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///
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/// If no matching bracket is found, `None` is returned.
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/// If no matching bracket is found, `None` is returned.
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#[must_use]
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#[must_use]
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pub fn find_matching_bracket_current_line_plaintext(
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pub fn find_matching_bracket_plaintext(doc: RopeSlice, cursor_pos: usize) -> Option<usize> {
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doc: &Rope,
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cursor_pos: usize,
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) -> Option<usize> {
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// Don't do anything when the cursor is not on top of a bracket.
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// Don't do anything when the cursor is not on top of a bracket.
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let bracket = doc.char(cursor_pos);
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let bracket = doc.char(cursor_pos);
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if !is_valid_bracket(bracket) {
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if !is_valid_bracket(bracket) {
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@ -179,11 +191,11 @@ fn is_forward_bracket(c: char) -> bool {
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PAIRS.iter().any(|(l, _)| *l == c)
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PAIRS.iter().any(|(l, _)| *l == c)
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}
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}
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fn is_valid_pair(doc: &Rope, start_char: usize, end_char: usize) -> bool {
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fn is_valid_pair(doc: RopeSlice, start_char: usize, end_char: usize) -> bool {
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PAIRS.contains(&(doc.char(start_char), doc.char(end_char)))
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PAIRS.contains(&(doc.char(start_char), doc.char(end_char)))
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}
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}
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fn surrounding_bytes(doc: &Rope, node: &Node) -> Option<(usize, usize)> {
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fn surrounding_bytes(doc: RopeSlice, node: &Node) -> Option<(usize, usize)> {
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let len = doc.len_bytes();
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let len = doc.len_bytes();
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let start_byte = node.start_byte();
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let start_byte = node.start_byte();
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@ -196,22 +208,8 @@ fn surrounding_bytes(doc: &Rope, node: &Node) -> Option<(usize, usize)> {
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Some((start_byte, end_byte))
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Some((start_byte, end_byte))
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}
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}
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/// Checks if `node` or its siblings (at most MATCH_LIMIT nodes) is the specified openiing char
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///
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/// # Returns
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///
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/// The position of the found node or `None` otherwise
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fn find_open_pair(doc: &Rope, node: Option<Node>, open: char) -> Option<usize> {
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iter::successors(node, |node| node.prev_sibling())
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.take(MATCH_LIMIT)
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.find_map(|node| {
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let (pos, c) = as_char(doc, &node)?;
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(c == open).then_some(pos)
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})
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}
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/// Tests if this node is a pair close char and returns the expected open char
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/// Tests if this node is a pair close char and returns the expected open char
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fn as_close_pair(doc: &Rope, node: &Node) -> Option<char> {
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fn as_close_pair(doc: RopeSlice, node: &Node) -> Option<char> {
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let close = as_char(doc, node)?.1;
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let close = as_char(doc, node)?.1;
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PAIRS
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PAIRS
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.iter()
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.iter()
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@ -223,8 +221,17 @@ fn as_close_pair(doc: &Rope, node: &Node) -> Option<char> {
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/// # Returns
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/// # Returns
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///
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///
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/// The position of the found node or `None` otherwise
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/// The position of the found node or `None` otherwise
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fn find_close_pair(doc: &Rope, node: Option<Node>, close: char) -> Option<usize> {
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fn find_pair_end(
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iter::successors(node, |node| node.next_sibling())
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doc: RopeSlice,
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node: Option<Node>,
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end_char: char,
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direction: Direction,
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) -> Option<usize> {
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let advance = match direction {
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Forward => Node::next_sibling,
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Backward => Node::prev_sibling,
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};
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iter::successors(node, advance)
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.take(MATCH_LIMIT)
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.take(MATCH_LIMIT)
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.find_map(|node| {
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.find_map(|node| {
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let (pos, c) = as_char(doc, &node)?;
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let (pos, c) = as_char(doc, &node)?;
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@ -233,15 +240,15 @@ fn find_close_pair(doc: &Rope, node: Option<Node>, close: char) -> Option<usize>
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}
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}
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/// Tests if this node is a pair close char and returns the expected open char
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/// Tests if this node is a pair close char and returns the expected open char
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fn as_open_pair(doc: &Rope, node: &Node) -> Option<char> {
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fn as_open_pair(doc: RopeSlice, node: &Node) -> Option<char> {
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let close = as_char(doc, node)?.1;
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let open = as_char(doc, node)?.1;
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PAIRS
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PAIRS
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.iter()
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.iter()
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.find_map(|&(open_, close)| (open_ == open).then_some(close))
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.find_map(|&(open_, close)| (open_ == open).then_some(close))
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}
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}
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/// Tests if this node is a pair opening and returns the expected close char
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/// If node is a single char return it (and its char position)
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fn as_char(doc: &Rope, node: &Node) -> Option<(usize, char)> {
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fn as_char(doc: RopeSlice, node: &Node) -> Option<(usize, char)> {
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// TODO: multi char/non ASCII pairs
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// TODO: multi char/non ASCII pairs
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if node.byte_range().len() != 1 {
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if node.byte_range().len() != 1 {
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return None;
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return None;
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@ -257,11 +264,11 @@ mod tests {
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#[test]
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#[test]
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fn test_find_matching_bracket_current_line_plaintext() {
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fn test_find_matching_bracket_current_line_plaintext() {
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let assert = |input: &str, pos, expected| {
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let assert = |input: &str, pos, expected| {
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let input = &Rope::from(input);
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let input = RopeSlice::from(input);
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let actual = find_matching_bracket_current_line_plaintext(input, pos);
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let actual = find_matching_bracket_plaintext(input, pos);
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assert_eq!(expected, actual.unwrap());
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assert_eq!(expected, actual.unwrap());
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let actual = find_matching_bracket_current_line_plaintext(input, expected);
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let actual = find_matching_bracket_plaintext(input, expected);
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assert_eq!(pos, actual.unwrap(), "expected symmetrical behaviour");
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assert_eq!(pos, actual.unwrap(), "expected symmetrical behaviour");
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};
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};
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