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feat: complete feature for find_nth_nearest_tag
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@ -325,7 +325,9 @@ pub fn get_surround_pos_tag(
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for &range in selection {
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let cursor_pos = range.cursor(text);
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let ((prev_tag, next_tag), _) = find_nearest_tag(text, cursor_pos, skip)?;
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let ((prev_tag, next_tag), tag_name) = find_nth_nearest_tag(text, cursor_pos, skip)?;
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change_pos.push((prev_tag.from(), prev_tag.to()));
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change_pos.push((next_tag.from(), next_tag.to()));
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}
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@ -341,36 +343,81 @@ pub fn is_valid_tagname_char(ch: char) -> bool {
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ch.is_alphanumeric() || ch == '_' || ch == '-' || ch == '.'
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}
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/// Get the two `Range`s corresponding to matching tags surrounding the cursor, as well as the name of the tags.
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pub fn find_nearest_tag(
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text: RopeSlice,
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/// Get the two sorted `Range`s corresponding to nth matching tags surrounding the cursor, as well as the name of the tags.
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pub fn find_nth_nearest_tag(
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forward_text: RopeSlice,
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cursor_pos: usize,
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skip: usize,
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) -> Result<((Range, Range), String)> {
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let mut next_tag_counter = 0;
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let backward_text = forward_text.clone();
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let forward_cursor_pos = cursor_pos.clone();
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let forward_text = text.clone();
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let mut forward_tags = vec![];
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let mut previous_forward_pos = cursor_pos;
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loop {
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let (next_tag_range, next_tag) = find_next_tag(forward_text, forward_cursor_pos, skip)?;
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next_tag_counter += 1;
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if next_tag_counter == skip {
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let mut backward_search_idx = cursor_pos;
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/// the maximum length of chars we will search forward and backward to find the tags, provided we don't hit the end or the beginning of the document
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const SEARCH_CHARS: usize = 2000;
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loop {
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let (prev_tag_range, prev_tag, last_search_idx) =
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find_prev_tag(text, backward_search_idx, skip)?;
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while (previous_forward_pos - cursor_pos) < SEARCH_CHARS
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&& previous_forward_pos < forward_text.len_chars()
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{
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let (forward_tag_range, forward_tag_name, forward_search_idx) =
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find_next_tag(forward_text, previous_forward_pos, skip)?;
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backward_search_idx = last_search_idx;
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forward_tags.push((forward_tag_range, forward_tag_name));
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previous_forward_pos = forward_search_idx;
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}
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dbg!(&prev_tag_range, &prev_tag);
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let mut backward_tags = vec![];
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let mut previous_backward_pos = cursor_pos;
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if prev_tag == next_tag {
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return Ok(((prev_tag_range, next_tag_range), prev_tag));
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}
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}
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}
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while (cursor_pos - previous_backward_pos) < SEARCH_CHARS && previous_backward_pos > 0 {
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let (backward_tag_range, backward_tag_name, backward_search_idx) =
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find_prev_tag(backward_text, previous_backward_pos, skip)?;
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backward_tags.push((backward_tag_range, backward_tag_name));
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previous_backward_pos = backward_search_idx;
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}
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// only consider the tags which are common in both vectors
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let backward_tags: Vec<(Range, String)> = backward_tags
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.into_iter()
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.filter(|(_, backward_tag_name)| {
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forward_tags
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.iter()
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.any(|(_, forward_tag_name)| backward_tag_name == forward_tag_name)
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})
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.collect();
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let forward_tags: Vec<(Range, String)> = forward_tags
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.into_iter()
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.filter(|(_, forward_tag_name)| {
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backward_tags
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.iter()
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.any(|(_, backward_tag_name)| forward_tag_name == backward_tag_name)
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})
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.collect();
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// improperly ordered tags such as <div> <span> </div> </span> are ignored completely
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let matching_tags: Vec<((Range, String), (Range, String))> = forward_tags
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.into_iter()
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.zip(backward_tags)
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.filter(|((_, forward_tag_name), (_, backward_tag_name))| {
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forward_tag_name == backward_tag_name
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})
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.collect();
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// If the count overflows past the highest available outer tag, e.g. user types 100 but we can only select up to 4 nestings of tags -- simply select the last one available
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let access_index = if skip - 1 <= matching_tags.len() {
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skip - 1
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} else {
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matching_tags.len() - 1
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};
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if let Some(nth_matching_tags) = matching_tags.into_iter().nth(access_index) {
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let ((range_forward, tag_name), (range_backward, _tag_name)) = nth_matching_tags;
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Ok(((range_backward, range_forward), tag_name))
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} else {
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Err(Error::PairNotFound)
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}
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}
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@ -422,12 +469,12 @@ pub fn find_prev_tag(
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/// Find the closing `</tag>` starting from `pos` and iterating the end of the text.
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/// Returns the Range of the tag's name (excluding the `</` and `>` characters.)
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/// As well as the actual name of the tag
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/// As well as the actual name of the tag and where it last stopped searching.
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pub fn find_next_tag(
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text: RopeSlice,
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mut cursor_pos: usize,
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skip: usize,
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) -> Result<(Range, String)> {
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) -> Result<(Range, String, usize)> {
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if cursor_pos >= text.len_chars() || skip == 0 {
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return Err(Error::RangeExceedsText);
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}
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@ -461,7 +508,7 @@ pub fn find_next_tag(
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let range =
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Range::new(cursor_pos - possible_tag_name.len() - 1, cursor_pos - 2);
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return Ok((range, possible_tag_name));
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return Ok((range, possible_tag_name, cursor_pos));
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} else {
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break;
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}
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@ -500,7 +547,11 @@ fn test_find_next_tag() {
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assert_eq!(
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find_next_tag(doc.slice(..), 7, 1).unwrap(),
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(Range::new(12, 14), String::from("tag"))
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(
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Range::new(12, 14),
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String::from("tag"),
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doc.to_string().len()
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)
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);
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}
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@ -510,7 +561,11 @@ fn test_find_next_tag_broken() {
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assert_eq!(
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find_next_tag(doc.slice(..), 7, 1).unwrap(),
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(Range::new(18, 28), String::from("Hello.World"))
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(
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Range::new(18, 28),
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String::from("Hello.World"),
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doc.to_string().len()
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)
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);
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}
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@ -564,6 +619,35 @@ fn test_find_surrounding_tag_with_imposter() {
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);
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}
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#[test]
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fn test_find_surrounding_tag_with_many_tags() {
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#[rustfmt::skip]
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let (doc, selection, expectations) =
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rope_with_selections_and_expectations_tags(
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"<span> <div> simple example </span> </html> </div>",
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" ___ ^ ___ "
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);
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assert_eq!(
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get_surround_pos_tag(doc.slice(..), &selection, 1),
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Ok(expectations)
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);
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}
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#[test]
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fn test_find_surrounding_tag_with_many_many_tags() {
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#[rustfmt::skip]
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let (doc, selection, expectations) =
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rope_with_selections_and_expectations_tags(
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"<span> <div><html> simple example </div> </html> </span>",
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" ____ ^ ____ "
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);
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assert_eq!(
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get_surround_pos_tag(doc.slice(..), &selection, 1),
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Ok(expectations)
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);
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}
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#[test]
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fn test_get_surround_pos_bail_different_surround_chars() {
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#[rustfmt::skip]
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