use std::fmt::Display; use ropey::RopeSlice; use tree_sitter::{Node, QueryCursor}; use crate::chars::{categorize_char, char_is_whitespace, CharCategory}; use crate::graphemes::{next_grapheme_boundary, prev_grapheme_boundary}; use crate::line_ending::rope_is_line_ending; use crate::movement::Direction; use crate::surround; use crate::syntax::LanguageConfiguration; use crate::Range; fn find_word_boundary(slice: RopeSlice, mut pos: usize, direction: Direction, long: bool) -> usize { use CharCategory::{Eol, Whitespace}; let iter = match direction { Direction::Forward => slice.chars_at(pos), Direction::Backward => { let mut iter = slice.chars_at(pos); iter.reverse(); iter } }; let mut prev_category = match direction { Direction::Forward if pos == 0 => Whitespace, Direction::Forward => categorize_char(slice.char(pos - 1)), Direction::Backward if pos == slice.len_chars() => Whitespace, Direction::Backward => categorize_char(slice.char(pos)), }; for ch in iter { match categorize_char(ch) { Eol | Whitespace => return pos, category => { if !long && category != prev_category && pos != 0 && pos != slice.len_chars() { return pos; } else { match direction { Direction::Forward => pos += 1, Direction::Backward => pos = pos.saturating_sub(1), } prev_category = category; } } } } pos } #[derive(Copy, Clone, PartialEq, Eq, Debug)] pub enum TextObject { Around, Inside, /// Used for moving between objects. Movement, } impl Display for TextObject { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.write_str(match self { Self::Around => "around", Self::Inside => "inside", Self::Movement => "movement", }) } } // count doesn't do anything yet pub fn textobject_word( slice: RopeSlice, range: Range, textobject: TextObject, _count: usize, long: bool, ) -> Range { let pos = range.cursor(slice); let word_start = find_word_boundary(slice, pos, Direction::Backward, long); let word_end = match slice.get_char(pos).map(categorize_char) { None | Some(CharCategory::Whitespace | CharCategory::Eol) => pos, _ => find_word_boundary(slice, pos + 1, Direction::Forward, long), }; // Special case. if word_start == word_end { return Range::new(word_start, word_end); } match textobject { TextObject::Inside => Range::new(word_start, word_end), TextObject::Around => { let whitespace_count_right = slice .chars_at(word_end) .take_while(|c| char_is_whitespace(*c)) .count(); if whitespace_count_right > 0 { Range::new(word_start, word_end + whitespace_count_right) } else { let whitespace_count_left = { let mut iter = slice.chars_at(word_start); iter.reverse(); iter.take_while(|c| char_is_whitespace(*c)).count() }; Range::new(word_start - whitespace_count_left, word_end) } } TextObject::Movement => unreachable!(), } } pub fn textobject_paragraph( slice: RopeSlice, range: Range, textobject: TextObject, count: usize, ) -> Range { let mut line = range.cursor_line(slice); let prev_line_empty = rope_is_line_ending(slice.line(line.saturating_sub(1))); let curr_line_empty = rope_is_line_ending(slice.line(line)); let next_line_empty = rope_is_line_ending(slice.line(line.saturating_sub(1))); let last_char = prev_grapheme_boundary(slice, slice.line_to_char(line + 1)) == range.cursor(slice); let prev_empty_to_line = prev_line_empty && !curr_line_empty; let curr_empty_to_line = curr_line_empty && !next_line_empty; // skip character before paragraph boundary let mut line_back = line; // line but backwards if prev_empty_to_line || curr_empty_to_line { line_back += 1; } // do not include current paragraph on paragraph end (include next) if !(curr_empty_to_line && last_char) { let mut lines = slice.lines_at(line_back); lines.reverse(); let mut lines = lines.map(rope_is_line_ending).peekable(); while lines.next_if(|&e| e).is_some() { line_back -= 1; } while lines.next_if(|&e| !e).is_some() { line_back -= 1; } } // skip character after paragraph boundary if curr_empty_to_line && last_char { line += 1; } let mut lines = slice.lines_at(line).map(rope_is_line_ending).peekable(); let mut count_done = 0; // count how many non-whitespace paragraphs done for _ in 0..count { let mut done = false; while lines.next_if(|&e| !e).is_some() { line += 1; done = true; } while lines.next_if(|&e| e).is_some() { line += 1; } count_done += done as usize; } // search one paragraph backwards for last paragraph // makes `map` at the end of the paragraph with trailing newlines useful let last_paragraph = count_done != count && lines.peek().is_none(); if last_paragraph { let mut lines = slice.lines_at(line_back); lines.reverse(); let mut lines = lines.map(rope_is_line_ending).peekable(); while lines.next_if(|&e| e).is_some() { line_back -= 1; } while lines.next_if(|&e| !e).is_some() { line_back -= 1; } } // handle last whitespaces part separately depending on textobject match textobject { TextObject::Around => {} TextObject::Inside => { // remove last whitespace paragraph let mut lines = slice.lines_at(line); lines.reverse(); let mut lines = lines.map(rope_is_line_ending).peekable(); while lines.next_if(|&e| e).is_some() { line -= 1; } } TextObject::Movement => unreachable!(), } let anchor = slice.line_to_char(line_back); let head = slice.line_to_char(line); Range::new(anchor, head) } pub fn textobject_surround( slice: RopeSlice, range: Range, textobject: TextObject, ch: char, count: usize, ) -> Range { surround::find_nth_pairs_pos(slice, ch, range, count) .map(|(anchor, head)| match textobject { TextObject::Inside => Range::new(next_grapheme_boundary(slice, anchor), head), TextObject::Around => Range::new(anchor, next_grapheme_boundary(slice, head)), TextObject::Movement => unreachable!(), }) .unwrap_or(range) } /// Transform the given range to select text objects based on tree-sitter. /// `object_name` is a query capture base name like "function", "class", etc. /// `slice_tree` is the tree-sitter node corresponding to given text slice. pub fn textobject_treesitter( slice: RopeSlice, range: Range, textobject: TextObject, object_name: &str, slice_tree: Node, lang_config: &LanguageConfiguration, _count: usize, ) -> Range { let get_range = move || -> Option { let byte_pos = slice.char_to_byte(range.cursor(slice)); let capture_name = format!("{}.{}", object_name, textobject); // eg. function.inner let mut cursor = QueryCursor::new(); let node = lang_config .textobject_query()? .capture_nodes(&capture_name, slice_tree, slice, &mut cursor)? .filter(|node| node.byte_range().contains(&byte_pos)) .min_by_key(|node| node.byte_range().len())?; let len = slice.len_bytes(); let start_byte = node.start_byte(); let end_byte = node.end_byte(); if start_byte >= len || end_byte >= len { return None; } let start_char = slice.byte_to_char(start_byte); let end_char = slice.byte_to_char(end_byte); Some(Range::new(start_char, end_char)) }; get_range().unwrap_or(range) } #[cfg(test)] mod test { use super::TextObject::*; use super::*; use crate::Range; use ropey::Rope; #[test] fn test_textobject_word() { // (text, [(char position, textobject, final range), ...]) let tests = &[ ( "cursor at beginning of doc", vec![(0, Inside, (0, 6)), (0, Around, (0, 7))], ), ( "cursor at middle of word", vec![ (13, Inside, (10, 16)), (10, Inside, (10, 16)), (15, Inside, (10, 16)), (13, Around, (10, 17)), (10, Around, (10, 17)), (15, Around, (10, 17)), ], ), ( "cursor between word whitespace", vec![(6, Inside, (6, 6)), (6, Around, (6, 6))], ), ( "cursor on word before newline\n", vec![ (22, Inside, (22, 29)), (28, Inside, (22, 29)), (25, Inside, (22, 29)), (22, Around, (21, 29)), (28, Around, (21, 29)), (25, Around, (21, 29)), ], ), ( "cursor on newline\nnext line", vec![(17, Inside, (17, 17)), (17, Around, (17, 17))], ), ( "cursor on word after newline\nnext line", vec![ (29, Inside, (29, 33)), (30, Inside, (29, 33)), (32, Inside, (29, 33)), (29, Around, (29, 34)), (30, Around, (29, 34)), (32, Around, (29, 34)), ], ), ( "cursor on #$%:;* punctuation", vec![ (13, Inside, (10, 16)), (10, Inside, (10, 16)), (15, Inside, (10, 16)), (13, Around, (10, 17)), (10, Around, (10, 17)), (15, Around, (10, 17)), ], ), ( "cursor on punc%^#$:;.tuation", vec![ (14, Inside, (14, 21)), (20, Inside, (14, 21)), (17, Inside, (14, 21)), (14, Around, (14, 21)), (20, Around, (14, 21)), (17, Around, (14, 21)), ], ), ( "cursor in extra whitespace", vec![ (9, Inside, (9, 9)), (10, Inside, (10, 10)), (11, Inside, (11, 11)), (9, Around, (9, 9)), (10, Around, (10, 10)), (11, Around, (11, 11)), ], ), ( "cursor on word with extra whitespace", vec![(11, Inside, (10, 14)), (11, Around, (10, 17))], ), ( "cursor at end with extra whitespace", vec![(28, Inside, (27, 37)), (28, Around, (24, 37))], ), ( "cursor at end of doc", vec![(19, Inside, (17, 20)), (19, Around, (16, 20))], ), ]; for (sample, scenario) in tests { let doc = Rope::from(*sample); let slice = doc.slice(..); for &case in scenario { let (pos, objtype, expected_range) = case; // cursor is a single width selection let range = Range::new(pos, pos + 1); let result = textobject_word(slice, range, objtype, 1, false); assert_eq!( result, expected_range.into(), "\nCase failed: {:?} - {:?}", sample, case ); } } } #[test] fn test_textobject_paragraph_inside_single() { let tests = [ ("#[|]#", "#[|]#"), ("firs#[t|]#\n\nparagraph\n\n", "#[first\n|]#\nparagraph\n\n"), ( "second\n\npa#[r|]#agraph\n\n", "second\n\n#[paragraph\n|]#\n", ), ("#[f|]#irst char\n\n", "#[first char\n|]#\n"), ("last char\n#[\n|]#", "#[last char\n|]#\n"), ( "empty to line\n#[\n|]#paragraph boundary\n\n", "empty to line\n\n#[paragraph boundary\n|]#\n", ), ( "line to empty\n\n#[p|]#aragraph boundary\n\n", "line to empty\n\n#[paragraph boundary\n|]#\n", ), ]; for (before, expected) in tests { let (s, selection) = crate::test::print(before); let text = Rope::from(s.as_str()); let selection = selection .transform(|r| textobject_paragraph(text.slice(..), r, TextObject::Inside, 1)); let actual = crate::test::plain(&s, selection); assert_eq!(actual, expected, "\nbefore: `{:?}`", before); } } #[test] fn test_textobject_paragraph_inside_double() { let tests = [ ( "last two\n\n#[p|]#aragraph\n\nwithout whitespaces\n\n", "last two\n\n#[paragraph\n\nwithout whitespaces\n|]#\n", ), ( "last two\n#[\n|]#paragraph\n\nwithout whitespaces\n\n", "last two\n\n#[paragraph\n\nwithout whitespaces\n|]#\n", ), ]; for (before, expected) in tests { let (s, selection) = crate::test::print(before); let text = Rope::from(s.as_str()); let selection = selection .transform(|r| textobject_paragraph(text.slice(..), r, TextObject::Inside, 2)); let actual = crate::test::plain(&s, selection); assert_eq!(actual, expected, "\nbefore: `{:?}`", before); } } #[test] fn test_textobject_paragraph_around_single() { let tests = [ ("#[|]#", "#[|]#"), ("firs#[t|]#\n\nparagraph\n\n", "#[first\n\n|]#paragraph\n\n"), ( "second\n\npa#[r|]#agraph\n\n", "second\n\n#[paragraph\n\n|]#", ), ("#[f|]#irst char\n\n", "#[first char\n\n|]#"), ("last char\n#[\n|]#", "#[last char\n\n|]#"), ( "empty to line\n#[\n|]#paragraph boundary\n\n", "empty to line\n\n#[paragraph boundary\n\n|]#", ), ( "line to empty\n\n#[p|]#aragraph boundary\n\n", "line to empty\n\n#[paragraph boundary\n\n|]#", ), ]; for (before, expected) in tests { let (s, selection) = crate::test::print(before); let text = Rope::from(s.as_str()); let selection = selection .transform(|r| textobject_paragraph(text.slice(..), r, TextObject::Around, 1)); let actual = crate::test::plain(&s, selection); assert_eq!(actual, expected, "\nbefore: `{:?}`", before); } } #[test] fn test_textobject_surround() { // (text, [(cursor position, textobject, final range, surround char, count), ...]) let tests = &[ ( "simple (single) surround pairs", vec![ (3, Inside, (3, 3), '(', 1), (7, Inside, (8, 14), ')', 1), (10, Inside, (8, 14), '(', 1), (14, Inside, (8, 14), ')', 1), (3, Around, (3, 3), '(', 1), (7, Around, (7, 15), ')', 1), (10, Around, (7, 15), '(', 1), (14, Around, (7, 15), ')', 1), ], ), ( "samexx 'single' surround pairs", vec![ (3, Inside, (3, 3), '\'', 1), (7, Inside, (7, 7), '\'', 1), (10, Inside, (8, 14), '\'', 1), (14, Inside, (14, 14), '\'', 1), (3, Around, (3, 3), '\'', 1), (7, Around, (7, 7), '\'', 1), (10, Around, (7, 15), '\'', 1), (14, Around, (14, 14), '\'', 1), ], ), ( "(nested (surround (pairs)) 3 levels)", vec![ (0, Inside, (1, 35), '(', 1), (6, Inside, (1, 35), ')', 1), (8, Inside, (9, 25), '(', 1), (8, Inside, (9, 35), ')', 2), (20, Inside, (9, 25), '(', 2), (20, Inside, (1, 35), ')', 3), (0, Around, (0, 36), '(', 1), (6, Around, (0, 36), ')', 1), (8, Around, (8, 26), '(', 1), (8, Around, (8, 36), ')', 2), (20, Around, (8, 26), '(', 2), (20, Around, (0, 36), ')', 3), ], ), ( "(mixed {surround [pair] same} line)", vec![ (2, Inside, (1, 34), '(', 1), (9, Inside, (8, 28), '{', 1), (18, Inside, (18, 22), '[', 1), (2, Around, (0, 35), '(', 1), (9, Around, (7, 29), '{', 1), (18, Around, (17, 23), '[', 1), ], ), ( "(stepped (surround) pairs (should) skip)", vec![(22, Inside, (1, 39), '(', 1), (22, Around, (0, 40), '(', 1)], ), ( "[surround pairs{\non different]\nlines}", vec![ (7, Inside, (1, 29), '[', 1), (15, Inside, (16, 36), '{', 1), (7, Around, (0, 30), '[', 1), (15, Around, (15, 37), '{', 1), ], ), ]; for (sample, scenario) in tests { let doc = Rope::from(*sample); let slice = doc.slice(..); for &case in scenario { let (pos, objtype, expected_range, ch, count) = case; let result = textobject_surround(slice, Range::point(pos), objtype, ch, count); assert_eq!( result, expected_range.into(), "\nCase failed: {:?} - {:?}", sample, case ); } } } }