use super::{ fold_map::{self, FoldChunks, FoldEdit, FoldPoint, FoldSnapshot}, TextHighlights, }; use crate::MultiBufferSnapshot; use gpui::fonts::HighlightStyle; use language::{Chunk, Point}; use std::{cmp, mem, num::NonZeroU32, ops::Range}; use sum_tree::Bias; const MAX_EXPANSION_COLUMN: u32 = 256; pub struct TabMap(TabSnapshot); impl TabMap { pub fn new(fold_snapshot: FoldSnapshot, tab_size: NonZeroU32) -> (Self, TabSnapshot) { let snapshot = TabSnapshot { fold_snapshot, tab_size, max_expansion_column: MAX_EXPANSION_COLUMN, version: 0, }; (Self(snapshot.clone()), snapshot) } #[cfg(test)] pub fn set_max_expansion_column(&mut self, column: u32) -> TabSnapshot { self.0.max_expansion_column = column; self.0.clone() } pub fn sync( &mut self, fold_snapshot: FoldSnapshot, mut fold_edits: Vec, tab_size: NonZeroU32, ) -> (TabSnapshot, Vec) { let old_snapshot = &mut self.0; let mut new_snapshot = TabSnapshot { fold_snapshot, tab_size, max_expansion_column: old_snapshot.max_expansion_column, version: old_snapshot.version, }; if old_snapshot.fold_snapshot.version != new_snapshot.fold_snapshot.version { new_snapshot.version += 1; } let mut tab_edits = Vec::with_capacity(fold_edits.len()); if old_snapshot.tab_size == new_snapshot.tab_size { // Expand each edit to include the next tab on the same line as the edit, // and any subsequent tabs on that line that moved across the tab expansion // boundary. for fold_edit in &mut fold_edits { let old_end = fold_edit.old.end.to_point(&old_snapshot.fold_snapshot); let old_end_row_successor_offset = cmp::min( FoldPoint::new(old_end.row() + 1, 0), old_snapshot.fold_snapshot.max_point(), ) .to_offset(&old_snapshot.fold_snapshot); let new_end = fold_edit.new.end.to_point(&new_snapshot.fold_snapshot); let mut offset_from_edit = 0; let mut first_tab_offset = None; let mut last_tab_with_changed_expansion_offset = None; 'outer: for chunk in old_snapshot.fold_snapshot.chunks( fold_edit.old.end..old_end_row_successor_offset, false, None, None, None, ) { for (ix, _) in chunk.text.match_indices('\t') { let offset_from_edit = offset_from_edit + (ix as u32); if first_tab_offset.is_none() { first_tab_offset = Some(offset_from_edit); } let old_column = old_end.column() + offset_from_edit; let new_column = new_end.column() + offset_from_edit; let was_expanded = old_column < old_snapshot.max_expansion_column; let is_expanded = new_column < new_snapshot.max_expansion_column; if was_expanded != is_expanded { last_tab_with_changed_expansion_offset = Some(offset_from_edit); } else if !was_expanded && !is_expanded { break 'outer; } } offset_from_edit += chunk.text.len() as u32; if old_end.column() + offset_from_edit >= old_snapshot.max_expansion_column && new_end.column() + offset_from_edit >= new_snapshot.max_expansion_column { break; } } if let Some(offset) = last_tab_with_changed_expansion_offset.or(first_tab_offset) { fold_edit.old.end.0 += offset as usize + 1; fold_edit.new.end.0 += offset as usize + 1; } } // Combine any edits that overlap due to the expansion. let mut ix = 1; while ix < fold_edits.len() { let (prev_edits, next_edits) = fold_edits.split_at_mut(ix); let prev_edit = prev_edits.last_mut().unwrap(); let edit = &next_edits[0]; if prev_edit.old.end >= edit.old.start { prev_edit.old.end = edit.old.end; prev_edit.new.end = edit.new.end; fold_edits.remove(ix); } else { ix += 1; } } for fold_edit in fold_edits { let old_start = fold_edit.old.start.to_point(&old_snapshot.fold_snapshot); let old_end = fold_edit.old.end.to_point(&old_snapshot.fold_snapshot); let new_start = fold_edit.new.start.to_point(&new_snapshot.fold_snapshot); let new_end = fold_edit.new.end.to_point(&new_snapshot.fold_snapshot); tab_edits.push(TabEdit { old: old_snapshot.to_tab_point(old_start)..old_snapshot.to_tab_point(old_end), new: new_snapshot.to_tab_point(new_start)..new_snapshot.to_tab_point(new_end), }); } } else { new_snapshot.version += 1; tab_edits.push(TabEdit { old: TabPoint::zero()..old_snapshot.max_point(), new: TabPoint::zero()..new_snapshot.max_point(), }); } *old_snapshot = new_snapshot; (old_snapshot.clone(), tab_edits) } } #[derive(Clone)] pub struct TabSnapshot { pub fold_snapshot: FoldSnapshot, pub tab_size: NonZeroU32, pub max_expansion_column: u32, pub version: usize, } impl TabSnapshot { pub fn buffer_snapshot(&self) -> &MultiBufferSnapshot { &self.fold_snapshot.inlay_snapshot.buffer } pub fn line_len(&self, row: u32) -> u32 { let max_point = self.max_point(); if row < max_point.row() { self.to_tab_point(FoldPoint::new(row, self.fold_snapshot.line_len(row))) .0 .column } else { max_point.column() } } pub fn text_summary(&self) -> TextSummary { self.text_summary_for_range(TabPoint::zero()..self.max_point()) } pub fn text_summary_for_range(&self, range: Range) -> TextSummary { let input_start = self.to_fold_point(range.start, Bias::Left).0; let input_end = self.to_fold_point(range.end, Bias::Right).0; let input_summary = self .fold_snapshot .text_summary_for_range(input_start..input_end); let mut first_line_chars = 0; let line_end = if range.start.row() == range.end.row() { range.end } else { self.max_point() }; for c in self .chunks(range.start..line_end, false, None, None, None) .flat_map(|chunk| chunk.text.chars()) { if c == '\n' { break; } first_line_chars += 1; } let mut last_line_chars = 0; if range.start.row() == range.end.row() { last_line_chars = first_line_chars; } else { for _ in self .chunks( TabPoint::new(range.end.row(), 0)..range.end, false, None, None, None, ) .flat_map(|chunk| chunk.text.chars()) { last_line_chars += 1; } } TextSummary { lines: range.end.0 - range.start.0, first_line_chars, last_line_chars, longest_row: input_summary.longest_row, longest_row_chars: input_summary.longest_row_chars, } } pub fn chunks<'a>( &'a self, range: Range, language_aware: bool, text_highlights: Option<&'a TextHighlights>, hint_highlight_style: Option, suggestion_highlight_style: Option, ) -> TabChunks<'a> { let (input_start, expanded_char_column, to_next_stop) = self.to_fold_point(range.start, Bias::Left); let input_column = input_start.column(); let input_start = input_start.to_offset(&self.fold_snapshot); let input_end = self .to_fold_point(range.end, Bias::Right) .0 .to_offset(&self.fold_snapshot); let to_next_stop = if range.start.0 + Point::new(0, to_next_stop) > range.end.0 { range.end.column() - range.start.column() } else { to_next_stop }; TabChunks { fold_chunks: self.fold_snapshot.chunks( input_start..input_end, language_aware, text_highlights, hint_highlight_style, suggestion_highlight_style, ), input_column, column: expanded_char_column, max_expansion_column: self.max_expansion_column, output_position: range.start.0, max_output_position: range.end.0, tab_size: self.tab_size, chunk: Chunk { text: &SPACES[0..(to_next_stop as usize)], is_tab: true, ..Default::default() }, inside_leading_tab: to_next_stop > 0, } } pub fn buffer_rows(&self, row: u32) -> fold_map::FoldBufferRows<'_> { self.fold_snapshot.buffer_rows(row) } #[cfg(test)] pub fn text(&self) -> String { self.chunks(TabPoint::zero()..self.max_point(), false, None, None, None) .map(|chunk| chunk.text) .collect() } pub fn max_point(&self) -> TabPoint { self.to_tab_point(self.fold_snapshot.max_point()) } pub fn clip_point(&self, point: TabPoint, bias: Bias) -> TabPoint { self.to_tab_point( self.fold_snapshot .clip_point(self.to_fold_point(point, bias).0, bias), ) } pub fn to_tab_point(&self, input: FoldPoint) -> TabPoint { let chars = self.fold_snapshot.chars_at(FoldPoint::new(input.row(), 0)); let expanded = self.expand_tabs(chars, input.column()); TabPoint::new(input.row(), expanded) } pub fn to_fold_point(&self, output: TabPoint, bias: Bias) -> (FoldPoint, u32, u32) { let chars = self.fold_snapshot.chars_at(FoldPoint::new(output.row(), 0)); let expanded = output.column(); let (collapsed, expanded_char_column, to_next_stop) = self.collapse_tabs(chars, expanded, bias); ( FoldPoint::new(output.row(), collapsed as u32), expanded_char_column, to_next_stop, ) } pub fn make_tab_point(&self, point: Point, bias: Bias) -> TabPoint { let inlay_point = self.fold_snapshot.inlay_snapshot.to_inlay_point(point); let fold_point = self.fold_snapshot.to_fold_point(inlay_point, bias); self.to_tab_point(fold_point) } pub fn to_point(&self, point: TabPoint, bias: Bias) -> Point { let fold_point = self.to_fold_point(point, bias).0; let inlay_point = fold_point.to_inlay_point(&self.fold_snapshot); self.fold_snapshot .inlay_snapshot .to_buffer_point(inlay_point) } fn expand_tabs(&self, chars: impl Iterator, column: u32) -> u32 { let tab_size = self.tab_size.get(); let mut expanded_chars = 0; let mut expanded_bytes = 0; let mut collapsed_bytes = 0; let end_column = column.min(self.max_expansion_column); for c in chars { if collapsed_bytes >= end_column { break; } if c == '\t' { let tab_len = tab_size - expanded_chars % tab_size; expanded_bytes += tab_len; expanded_chars += tab_len; } else { expanded_bytes += c.len_utf8() as u32; expanded_chars += 1; } collapsed_bytes += c.len_utf8() as u32; } expanded_bytes + column.saturating_sub(collapsed_bytes) } fn collapse_tabs( &self, chars: impl Iterator, column: u32, bias: Bias, ) -> (u32, u32, u32) { let tab_size = self.tab_size.get(); let mut expanded_bytes = 0; let mut expanded_chars = 0; let mut collapsed_bytes = 0; for c in chars { if expanded_bytes >= column { break; } if collapsed_bytes >= self.max_expansion_column { break; } if c == '\t' { let tab_len = tab_size - (expanded_chars % tab_size); expanded_chars += tab_len; expanded_bytes += tab_len; if expanded_bytes > column { expanded_chars -= expanded_bytes - column; return match bias { Bias::Left => (collapsed_bytes, expanded_chars, expanded_bytes - column), Bias::Right => (collapsed_bytes + 1, expanded_chars, 0), }; } } else { expanded_chars += 1; expanded_bytes += c.len_utf8() as u32; } if expanded_bytes > column && matches!(bias, Bias::Left) { expanded_chars -= 1; break; } collapsed_bytes += c.len_utf8() as u32; } ( collapsed_bytes + column.saturating_sub(expanded_bytes), expanded_chars, 0, ) } } #[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)] pub struct TabPoint(pub Point); impl TabPoint { pub fn new(row: u32, column: u32) -> Self { Self(Point::new(row, column)) } pub fn zero() -> Self { Self::new(0, 0) } pub fn row(self) -> u32 { self.0.row } pub fn column(self) -> u32 { self.0.column } } impl From for TabPoint { fn from(point: Point) -> Self { Self(point) } } pub type TabEdit = text::Edit; #[derive(Clone, Debug, Default, Eq, PartialEq)] pub struct TextSummary { pub lines: Point, pub first_line_chars: u32, pub last_line_chars: u32, pub longest_row: u32, pub longest_row_chars: u32, } impl<'a> From<&'a str> for TextSummary { fn from(text: &'a str) -> Self { let sum = text::TextSummary::from(text); TextSummary { lines: sum.lines, first_line_chars: sum.first_line_chars, last_line_chars: sum.last_line_chars, longest_row: sum.longest_row, longest_row_chars: sum.longest_row_chars, } } } impl<'a> std::ops::AddAssign<&'a Self> for TextSummary { fn add_assign(&mut self, other: &'a Self) { let joined_chars = self.last_line_chars + other.first_line_chars; if joined_chars > self.longest_row_chars { self.longest_row = self.lines.row; self.longest_row_chars = joined_chars; } if other.longest_row_chars > self.longest_row_chars { self.longest_row = self.lines.row + other.longest_row; self.longest_row_chars = other.longest_row_chars; } if self.lines.row == 0 { self.first_line_chars += other.first_line_chars; } if other.lines.row == 0 { self.last_line_chars += other.first_line_chars; } else { self.last_line_chars = other.last_line_chars; } self.lines += &other.lines; } } // Handles a tab width <= 16 const SPACES: &str = " "; pub struct TabChunks<'a> { fold_chunks: FoldChunks<'a>, chunk: Chunk<'a>, column: u32, max_expansion_column: u32, output_position: Point, input_column: u32, max_output_position: Point, tab_size: NonZeroU32, inside_leading_tab: bool, } impl<'a> Iterator for TabChunks<'a> { type Item = Chunk<'a>; fn next(&mut self) -> Option { if self.chunk.text.is_empty() { if let Some(chunk) = self.fold_chunks.next() { self.chunk = chunk; if self.inside_leading_tab { self.chunk.text = &self.chunk.text[1..]; self.inside_leading_tab = false; self.input_column += 1; } } else { return None; } } for (ix, c) in self.chunk.text.char_indices() { match c { '\t' => { if ix > 0 { let (prefix, suffix) = self.chunk.text.split_at(ix); self.chunk.text = suffix; return Some(Chunk { text: prefix, ..self.chunk }); } else { self.chunk.text = &self.chunk.text[1..]; let tab_size = if self.input_column < self.max_expansion_column { self.tab_size.get() as u32 } else { 1 }; let mut len = tab_size - self.column % tab_size; let next_output_position = cmp::min( self.output_position + Point::new(0, len), self.max_output_position, ); len = next_output_position.column - self.output_position.column; self.column += len; self.input_column += 1; self.output_position = next_output_position; return Some(Chunk { text: &SPACES[..len as usize], is_tab: true, ..self.chunk }); } } '\n' => { self.column = 0; self.input_column = 0; self.output_position += Point::new(1, 0); } _ => { self.column += 1; if !self.inside_leading_tab { self.input_column += c.len_utf8() as u32; } self.output_position.column += c.len_utf8() as u32; } } } Some(mem::take(&mut self.chunk)) } } #[cfg(test)] mod tests { use super::*; use crate::{ display_map::{fold_map::FoldMap, inlay_map::InlayMap}, MultiBuffer, }; use rand::{prelude::StdRng, Rng}; #[gpui::test] fn test_expand_tabs(cx: &mut gpui::AppContext) { let buffer = MultiBuffer::build_simple("", cx); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (_, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); let (_, fold_snapshot) = FoldMap::new(inlay_snapshot); let (_, tab_snapshot) = TabMap::new(fold_snapshot, 4.try_into().unwrap()); assert_eq!(tab_snapshot.expand_tabs("\t".chars(), 0), 0); assert_eq!(tab_snapshot.expand_tabs("\t".chars(), 1), 4); assert_eq!(tab_snapshot.expand_tabs("\ta".chars(), 2), 5); } #[gpui::test] fn test_long_lines(cx: &mut gpui::AppContext) { let max_expansion_column = 12; let input = "A\tBC\tDEF\tG\tHI\tJ\tK\tL\tM"; let output = "A BC DEF G HI J K L M"; let buffer = MultiBuffer::build_simple(input, cx); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (_, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); let (_, fold_snapshot) = FoldMap::new(inlay_snapshot); let (_, mut tab_snapshot) = TabMap::new(fold_snapshot, 4.try_into().unwrap()); tab_snapshot.max_expansion_column = max_expansion_column; assert_eq!(tab_snapshot.text(), output); for (ix, c) in input.char_indices() { assert_eq!( tab_snapshot .chunks( TabPoint::new(0, ix as u32)..tab_snapshot.max_point(), false, None, None, None, ) .map(|c| c.text) .collect::(), &output[ix..], "text from index {ix}" ); if c != '\t' { let input_point = Point::new(0, ix as u32); let output_point = Point::new(0, output.find(c).unwrap() as u32); assert_eq!( tab_snapshot.to_tab_point(FoldPoint(input_point)), TabPoint(output_point), "to_tab_point({input_point:?})" ); assert_eq!( tab_snapshot .to_fold_point(TabPoint(output_point), Bias::Left) .0, FoldPoint(input_point), "to_fold_point({output_point:?})" ); } } } #[gpui::test] fn test_long_lines_with_character_spanning_max_expansion_column(cx: &mut gpui::AppContext) { let max_expansion_column = 8; let input = "abcdefg⋯hij"; let buffer = MultiBuffer::build_simple(input, cx); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (_, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); let (_, fold_snapshot) = FoldMap::new(inlay_snapshot); let (_, mut tab_snapshot) = TabMap::new(fold_snapshot, 4.try_into().unwrap()); tab_snapshot.max_expansion_column = max_expansion_column; assert_eq!(tab_snapshot.text(), input); } #[gpui::test] fn test_marking_tabs(cx: &mut gpui::AppContext) { let input = "\t \thello"; let buffer = MultiBuffer::build_simple(&input, cx); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (_, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); let (_, fold_snapshot) = FoldMap::new(inlay_snapshot); let (_, tab_snapshot) = TabMap::new(fold_snapshot, 4.try_into().unwrap()); assert_eq!( chunks(&tab_snapshot, TabPoint::zero()), vec![ (" ".to_string(), true), (" ".to_string(), false), (" ".to_string(), true), ("hello".to_string(), false), ] ); assert_eq!( chunks(&tab_snapshot, TabPoint::new(0, 2)), vec![ (" ".to_string(), true), (" ".to_string(), false), (" ".to_string(), true), ("hello".to_string(), false), ] ); fn chunks(snapshot: &TabSnapshot, start: TabPoint) -> Vec<(String, bool)> { let mut chunks = Vec::new(); let mut was_tab = false; let mut text = String::new(); for chunk in snapshot.chunks(start..snapshot.max_point(), false, None, None, None) { if chunk.is_tab != was_tab { if !text.is_empty() { chunks.push((mem::take(&mut text), was_tab)); } was_tab = chunk.is_tab; } text.push_str(chunk.text); } if !text.is_empty() { chunks.push((text, was_tab)); } chunks } } #[gpui::test(iterations = 100)] fn test_random_tabs(cx: &mut gpui::AppContext, mut rng: StdRng) { let tab_size = NonZeroU32::new(rng.gen_range(1..=4)).unwrap(); let len = rng.gen_range(0..30); let buffer = if rng.gen() { let text = util::RandomCharIter::new(&mut rng) .take(len) .collect::(); MultiBuffer::build_simple(&text, cx) } else { MultiBuffer::build_random(&mut rng, cx) }; let buffer_snapshot = buffer.read(cx).snapshot(cx); log::info!("Buffer text: {:?}", buffer_snapshot.text()); let (mut inlay_map, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); log::info!("InlayMap text: {:?}", inlay_snapshot.text()); let (mut fold_map, _) = FoldMap::new(inlay_snapshot.clone()); fold_map.randomly_mutate(&mut rng); let (fold_snapshot, _) = fold_map.read(inlay_snapshot, vec![]); log::info!("FoldMap text: {:?}", fold_snapshot.text()); let (inlay_snapshot, _) = inlay_map.randomly_mutate(&mut 0, &mut rng); log::info!("InlayMap text: {:?}", inlay_snapshot.text()); let (mut tab_map, _) = TabMap::new(fold_snapshot.clone(), tab_size); let tabs_snapshot = tab_map.set_max_expansion_column(32); let text = text::Rope::from(tabs_snapshot.text().as_str()); log::info!( "TabMap text (tab size: {}): {:?}", tab_size, tabs_snapshot.text(), ); for _ in 0..5 { let end_row = rng.gen_range(0..=text.max_point().row); let end_column = rng.gen_range(0..=text.line_len(end_row)); let mut end = TabPoint(text.clip_point(Point::new(end_row, end_column), Bias::Right)); let start_row = rng.gen_range(0..=text.max_point().row); let start_column = rng.gen_range(0..=text.line_len(start_row)); let mut start = TabPoint(text.clip_point(Point::new(start_row, start_column), Bias::Left)); if start > end { mem::swap(&mut start, &mut end); } let expected_text = text .chunks_in_range(text.point_to_offset(start.0)..text.point_to_offset(end.0)) .collect::(); let expected_summary = TextSummary::from(expected_text.as_str()); assert_eq!( tabs_snapshot .chunks(start..end, false, None, None, None) .map(|c| c.text) .collect::(), expected_text, "chunks({:?}..{:?})", start, end ); let mut actual_summary = tabs_snapshot.text_summary_for_range(start..end); if tab_size.get() > 1 && inlay_snapshot.text().contains('\t') { actual_summary.longest_row = expected_summary.longest_row; actual_summary.longest_row_chars = expected_summary.longest_row_chars; } assert_eq!(actual_summary, expected_summary); } for row in 0..=text.max_point().row { assert_eq!( tabs_snapshot.line_len(row), text.line_len(row), "line_len({row})" ); } } }