mod block_map; mod fold_map; mod inlay_map; mod suggestion_map; mod tab_map; mod wrap_map; use crate::{Anchor, AnchorRangeExt, MultiBuffer, MultiBufferSnapshot, ToOffset, ToPoint}; pub use block_map::{BlockMap, BlockPoint}; use collections::{HashMap, HashSet}; use fold_map::{FoldMap, FoldOffset}; use gpui::{ color::Color, fonts::{FontId, HighlightStyle}, Entity, ModelContext, ModelHandle, }; use inlay_map::InlayMap; use language::{ language_settings::language_settings, OffsetUtf16, Point, Subscription as BufferSubscription, }; use std::{any::TypeId, fmt::Debug, num::NonZeroU32, ops::Range, sync::Arc}; pub use suggestion_map::Suggestion; use suggestion_map::SuggestionMap; use sum_tree::{Bias, TreeMap}; use tab_map::TabMap; use wrap_map::WrapMap; pub use block_map::{ BlockBufferRows as DisplayBufferRows, BlockChunks as DisplayChunks, BlockContext, BlockDisposition, BlockId, BlockProperties, BlockStyle, RenderBlock, TransformBlock, }; use self::inlay_map::InlayHintToRender; #[derive(Copy, Clone, Debug, PartialEq, Eq)] pub enum FoldStatus { Folded, Foldable, } pub trait ToDisplayPoint { fn to_display_point(&self, map: &DisplaySnapshot) -> DisplayPoint; } type TextHighlights = TreeMap, Arc<(HighlightStyle, Vec>)>>; pub struct DisplayMap { buffer: ModelHandle, buffer_subscription: BufferSubscription, fold_map: FoldMap, suggestion_map: SuggestionMap, inlay_map: InlayMap, tab_map: TabMap, wrap_map: ModelHandle, block_map: BlockMap, text_highlights: TextHighlights, pub clip_at_line_ends: bool, } impl Entity for DisplayMap { type Event = (); } impl DisplayMap { pub fn new( buffer: ModelHandle, font_id: FontId, font_size: f32, wrap_width: Option, buffer_header_height: u8, excerpt_header_height: u8, cx: &mut ModelContext, ) -> Self { let buffer_subscription = buffer.update(cx, |buffer, _| buffer.subscribe()); let tab_size = Self::tab_size(&buffer, cx); let (fold_map, snapshot) = FoldMap::new(buffer.read(cx).snapshot(cx)); let (suggestion_map, snapshot) = SuggestionMap::new(snapshot); let (inlay_map, snapshot) = InlayMap::new(snapshot); let (tab_map, snapshot) = TabMap::new(snapshot, tab_size); let (wrap_map, snapshot) = WrapMap::new(snapshot, font_id, font_size, wrap_width, cx); let block_map = BlockMap::new(snapshot, buffer_header_height, excerpt_header_height); cx.observe(&wrap_map, |_, _, cx| cx.notify()).detach(); DisplayMap { buffer, buffer_subscription, fold_map, suggestion_map, inlay_map, tab_map, wrap_map, block_map, text_highlights: Default::default(), clip_at_line_ends: false, } } pub fn snapshot(&self, cx: &mut ModelContext) -> DisplaySnapshot { let buffer_snapshot = self.buffer.read(cx).snapshot(cx); let edits = self.buffer_subscription.consume().into_inner(); let (fold_snapshot, edits) = self.fold_map.read(buffer_snapshot, edits); let (suggestion_snapshot, edits) = self.suggestion_map.sync(fold_snapshot.clone(), edits); let (inlay_snapshot, edits) = self.inlay_map.sync(suggestion_snapshot.clone(), edits); let tab_size = Self::tab_size(&self.buffer, cx); let (tab_snapshot, edits) = self.tab_map.sync(inlay_snapshot.clone(), edits, tab_size); let (wrap_snapshot, edits) = self .wrap_map .update(cx, |map, cx| map.sync(tab_snapshot.clone(), edits, cx)); let block_snapshot = self.block_map.read(wrap_snapshot.clone(), edits); DisplaySnapshot { buffer_snapshot: self.buffer.read(cx).snapshot(cx), fold_snapshot, suggestion_snapshot, inlay_snapshot, tab_snapshot, wrap_snapshot, block_snapshot, text_highlights: self.text_highlights.clone(), clip_at_line_ends: self.clip_at_line_ends, } } pub fn set_state(&mut self, other: &DisplaySnapshot, cx: &mut ModelContext) { self.fold( other .folds_in_range(0..other.buffer_snapshot.len()) .map(|fold| fold.to_offset(&other.buffer_snapshot)), cx, ); } pub fn fold( &mut self, ranges: impl IntoIterator>, cx: &mut ModelContext, ) { let snapshot = self.buffer.read(cx).snapshot(cx); let edits = self.buffer_subscription.consume().into_inner(); let tab_size = Self::tab_size(&self.buffer, cx); let (mut fold_map, snapshot, edits) = self.fold_map.write(snapshot, edits); let (snapshot, edits) = self.suggestion_map.sync(snapshot, edits); let (snapshot, edits) = self.inlay_map.sync(snapshot, edits); let (snapshot, edits) = self.tab_map.sync(snapshot, edits, tab_size); let (snapshot, edits) = self .wrap_map .update(cx, |map, cx| map.sync(snapshot, edits, cx)); self.block_map.read(snapshot, edits); let (snapshot, edits) = fold_map.fold(ranges); let (snapshot, edits) = self.suggestion_map.sync(snapshot, edits); let (snapshot, edits) = self.inlay_map.sync(snapshot, edits); let (snapshot, edits) = self.tab_map.sync(snapshot, edits, tab_size); let (snapshot, edits) = self .wrap_map .update(cx, |map, cx| map.sync(snapshot, edits, cx)); self.block_map.read(snapshot, edits); } pub fn unfold( &mut self, ranges: impl IntoIterator>, inclusive: bool, cx: &mut ModelContext, ) { let snapshot = self.buffer.read(cx).snapshot(cx); let edits = self.buffer_subscription.consume().into_inner(); let tab_size = Self::tab_size(&self.buffer, cx); let (mut fold_map, snapshot, edits) = self.fold_map.write(snapshot, edits); let (snapshot, edits) = self.suggestion_map.sync(snapshot, edits); let (snapshot, edits) = self.inlay_map.sync(snapshot, edits); let (snapshot, edits) = self.tab_map.sync(snapshot, edits, tab_size); let (snapshot, edits) = self .wrap_map .update(cx, |map, cx| map.sync(snapshot, edits, cx)); self.block_map.read(snapshot, edits); let (snapshot, edits) = fold_map.unfold(ranges, inclusive); let (snapshot, edits) = self.suggestion_map.sync(snapshot, edits); let (snapshot, edits) = self.inlay_map.sync(snapshot, edits); let (snapshot, edits) = self.tab_map.sync(snapshot, edits, tab_size); let (snapshot, edits) = self .wrap_map .update(cx, |map, cx| map.sync(snapshot, edits, cx)); self.block_map.read(snapshot, edits); } pub fn insert_blocks( &mut self, blocks: impl IntoIterator>, cx: &mut ModelContext, ) -> Vec { let snapshot = self.buffer.read(cx).snapshot(cx); let edits = self.buffer_subscription.consume().into_inner(); let tab_size = Self::tab_size(&self.buffer, cx); let (snapshot, edits) = self.fold_map.read(snapshot, edits); let (snapshot, edits) = self.suggestion_map.sync(snapshot, edits); let (snapshot, edits) = self.inlay_map.sync(snapshot, edits); let (snapshot, edits) = self.tab_map.sync(snapshot, edits, tab_size); let (snapshot, edits) = self .wrap_map .update(cx, |map, cx| map.sync(snapshot, edits, cx)); let mut block_map = self.block_map.write(snapshot, edits); block_map.insert(blocks) } pub fn replace_blocks(&mut self, styles: HashMap) { self.block_map.replace(styles); } pub fn remove_blocks(&mut self, ids: HashSet, cx: &mut ModelContext) { let snapshot = self.buffer.read(cx).snapshot(cx); let edits = self.buffer_subscription.consume().into_inner(); let tab_size = Self::tab_size(&self.buffer, cx); let (snapshot, edits) = self.fold_map.read(snapshot, edits); let (snapshot, edits) = self.suggestion_map.sync(snapshot, edits); let (snapshot, edits) = self.inlay_map.sync(snapshot, edits); let (snapshot, edits) = self.tab_map.sync(snapshot, edits, tab_size); let (snapshot, edits) = self .wrap_map .update(cx, |map, cx| map.sync(snapshot, edits, cx)); let mut block_map = self.block_map.write(snapshot, edits); block_map.remove(ids); } pub fn highlight_text( &mut self, type_id: TypeId, ranges: Vec>, style: HighlightStyle, ) { self.text_highlights .insert(Some(type_id), Arc::new((style, ranges))); } pub fn text_highlights(&self, type_id: TypeId) -> Option<(HighlightStyle, &[Range])> { let highlights = self.text_highlights.get(&Some(type_id))?; Some((highlights.0, &highlights.1)) } pub fn clear_text_highlights( &mut self, type_id: TypeId, ) -> Option>)>> { self.text_highlights.remove(&Some(type_id)) } pub fn has_suggestion(&self) -> bool { self.suggestion_map.has_suggestion() } pub fn replace_suggestion( &self, new_suggestion: Option>, cx: &mut ModelContext, ) -> Option> where T: ToPoint, { let snapshot = self.buffer.read(cx).snapshot(cx); let edits = self.buffer_subscription.consume().into_inner(); let tab_size = Self::tab_size(&self.buffer, cx); let (snapshot, edits) = self.fold_map.read(snapshot, edits); let (snapshot, edits, old_suggestion) = self.suggestion_map.replace(new_suggestion, snapshot, edits); let (snapshot, edits) = self.inlay_map.sync(snapshot, edits); let (snapshot, edits) = self.tab_map.sync(snapshot, edits, tab_size); let (snapshot, edits) = self .wrap_map .update(cx, |map, cx| map.sync(snapshot, edits, cx)); self.block_map.read(snapshot, edits); old_suggestion } pub fn set_font(&self, font_id: FontId, font_size: f32, cx: &mut ModelContext) -> bool { self.wrap_map .update(cx, |map, cx| map.set_font(font_id, font_size, cx)) } pub fn set_fold_ellipses_color(&mut self, color: Color) -> bool { self.fold_map.set_ellipses_color(color) } pub fn set_wrap_width(&self, width: Option, cx: &mut ModelContext) -> bool { self.wrap_map .update(cx, |map, cx| map.set_wrap_width(width, cx)) } pub fn set_inlay_hints( &mut self, new_hints: &[project::InlayHint], cx: &mut ModelContext, ) { let multi_buffer = self.buffer.read(cx); // TODO kb carry both remote and local ids of the buffer? // now, `.buffer` requires remote id, hence this map. let buffers_to_local_id = multi_buffer .all_buffers() .into_iter() .map(|buffer_handle| (buffer_handle.id(), buffer_handle)) .collect::>(); self.inlay_map.set_inlay_hints( new_hints .into_iter() .filter_map(|hint| { let snapshot = buffers_to_local_id .get(&hint.buffer_id)? .read(cx) .snapshot(); Some(InlayHintToRender { position: inlay_map::InlayPoint(text::ToPoint::to_point( &hint.position, &snapshot, )), text: hint.text().trim_end().into(), }) }) .collect(), ) } fn tab_size(buffer: &ModelHandle, cx: &mut ModelContext) -> NonZeroU32 { let language = buffer .read(cx) .as_singleton() .and_then(|buffer| buffer.read(cx).language()); language_settings(language.as_deref(), None, cx).tab_size } #[cfg(test)] pub fn is_rewrapping(&self, cx: &gpui::AppContext) -> bool { self.wrap_map.read(cx).is_rewrapping() } } pub struct DisplaySnapshot { pub buffer_snapshot: MultiBufferSnapshot, fold_snapshot: fold_map::FoldSnapshot, suggestion_snapshot: suggestion_map::SuggestionSnapshot, inlay_snapshot: inlay_map::InlaySnapshot, tab_snapshot: tab_map::TabSnapshot, wrap_snapshot: wrap_map::WrapSnapshot, block_snapshot: block_map::BlockSnapshot, text_highlights: TextHighlights, clip_at_line_ends: bool, } impl DisplaySnapshot { #[cfg(test)] pub fn fold_count(&self) -> usize { self.fold_snapshot.fold_count() } pub fn is_empty(&self) -> bool { self.buffer_snapshot.len() == 0 } pub fn buffer_rows(&self, start_row: u32) -> DisplayBufferRows { self.block_snapshot.buffer_rows(start_row) } pub fn max_buffer_row(&self) -> u32 { self.buffer_snapshot.max_buffer_row() } pub fn prev_line_boundary(&self, mut point: Point) -> (Point, DisplayPoint) { loop { let mut fold_point = self.fold_snapshot.to_fold_point(point, Bias::Left); *fold_point.column_mut() = 0; point = fold_point.to_buffer_point(&self.fold_snapshot); let mut display_point = self.point_to_display_point(point, Bias::Left); *display_point.column_mut() = 0; let next_point = self.display_point_to_point(display_point, Bias::Left); if next_point == point { return (point, display_point); } point = next_point; } } pub fn next_line_boundary(&self, mut point: Point) -> (Point, DisplayPoint) { loop { let mut fold_point = self.fold_snapshot.to_fold_point(point, Bias::Right); *fold_point.column_mut() = self.fold_snapshot.line_len(fold_point.row()); point = fold_point.to_buffer_point(&self.fold_snapshot); let mut display_point = self.point_to_display_point(point, Bias::Right); *display_point.column_mut() = self.line_len(display_point.row()); let next_point = self.display_point_to_point(display_point, Bias::Right); if next_point == point { return (point, display_point); } point = next_point; } } pub fn expand_to_line(&self, range: Range) -> Range { let mut new_start = self.prev_line_boundary(range.start).0; let mut new_end = self.next_line_boundary(range.end).0; if new_start.row == range.start.row && new_end.row == range.end.row { if new_end.row < self.buffer_snapshot.max_point().row { new_end.row += 1; new_end.column = 0; } else if new_start.row > 0 { new_start.row -= 1; new_start.column = self.buffer_snapshot.line_len(new_start.row); } } new_start..new_end } fn point_to_display_point(&self, point: Point, bias: Bias) -> DisplayPoint { let fold_point = self.fold_snapshot.to_fold_point(point, bias); let suggestion_point = self.suggestion_snapshot.to_suggestion_point(fold_point); let inlay_point = self.inlay_snapshot.to_inlay_point(suggestion_point); let tab_point = self.tab_snapshot.to_tab_point(inlay_point); let wrap_point = self.wrap_snapshot.tab_point_to_wrap_point(tab_point); let block_point = self.block_snapshot.to_block_point(wrap_point); DisplayPoint(block_point) } fn display_point_to_point(&self, point: DisplayPoint, bias: Bias) -> Point { let block_point = point.0; let wrap_point = self.block_snapshot.to_wrap_point(block_point); let tab_point = self.wrap_snapshot.to_tab_point(wrap_point); let inlay_point = self.tab_snapshot.to_inlay_point(tab_point, bias).0; let suggestion_point = self.inlay_snapshot.to_suggestion_point(inlay_point, bias); let fold_point = self.suggestion_snapshot.to_fold_point(suggestion_point); fold_point.to_buffer_point(&self.fold_snapshot) } pub fn max_point(&self) -> DisplayPoint { DisplayPoint(self.block_snapshot.max_point()) } /// Returns text chunks starting at the given display row until the end of the file pub fn text_chunks(&self, display_row: u32) -> impl Iterator { self.block_snapshot .chunks(display_row..self.max_point().row() + 1, false, None, None) .map(|h| h.text) } /// Returns text chunks starting at the end of the given display row in reverse until the start of the file pub fn reverse_text_chunks(&self, display_row: u32) -> impl Iterator { (0..=display_row).into_iter().rev().flat_map(|row| { self.block_snapshot .chunks(row..row + 1, false, None, None) .map(|h| h.text) .collect::>() .into_iter() .rev() }) } pub fn chunks( &self, display_rows: Range, language_aware: bool, suggestion_highlight: Option, ) -> DisplayChunks<'_> { self.block_snapshot.chunks( display_rows, language_aware, Some(&self.text_highlights), suggestion_highlight, ) } pub fn chars_at( &self, mut point: DisplayPoint, ) -> impl Iterator + '_ { point = DisplayPoint(self.block_snapshot.clip_point(point.0, Bias::Left)); self.text_chunks(point.row()) .flat_map(str::chars) .skip_while({ let mut column = 0; move |char| { let at_point = column >= point.column(); column += char.len_utf8() as u32; !at_point } }) .map(move |ch| { let result = (ch, point); if ch == '\n' { *point.row_mut() += 1; *point.column_mut() = 0; } else { *point.column_mut() += ch.len_utf8() as u32; } result }) } pub fn reverse_chars_at( &self, mut point: DisplayPoint, ) -> impl Iterator + '_ { point = DisplayPoint(self.block_snapshot.clip_point(point.0, Bias::Left)); self.reverse_text_chunks(point.row()) .flat_map(|chunk| chunk.chars().rev()) .skip_while({ let mut column = self.line_len(point.row()); if self.max_point().row() > point.row() { column += 1; } move |char| { let at_point = column <= point.column(); column = column.saturating_sub(char.len_utf8() as u32); !at_point } }) .map(move |ch| { if ch == '\n' { *point.row_mut() -= 1; *point.column_mut() = self.line_len(point.row()); } else { *point.column_mut() = point.column().saturating_sub(ch.len_utf8() as u32); } (ch, point) }) } /// Returns an iterator of the start positions of the occurrences of `target` in the `self` after `from` /// Stops if `condition` returns false for any of the character position pairs observed. pub fn find_while<'a>( &'a self, from: DisplayPoint, target: &str, condition: impl FnMut(char, DisplayPoint) -> bool + 'a, ) -> impl Iterator + 'a { Self::find_internal(self.chars_at(from), target.chars().collect(), condition) } /// Returns an iterator of the end positions of the occurrences of `target` in the `self` before `from` /// Stops if `condition` returns false for any of the character position pairs observed. pub fn reverse_find_while<'a>( &'a self, from: DisplayPoint, target: &str, condition: impl FnMut(char, DisplayPoint) -> bool + 'a, ) -> impl Iterator + 'a { Self::find_internal( self.reverse_chars_at(from), target.chars().rev().collect(), condition, ) } fn find_internal<'a>( iterator: impl Iterator + 'a, target: Vec, mut condition: impl FnMut(char, DisplayPoint) -> bool + 'a, ) -> impl Iterator + 'a { // List of partial matches with the index of the last seen character in target and the starting point of the match let mut partial_matches: Vec<(usize, DisplayPoint)> = Vec::new(); iterator .take_while(move |(ch, point)| condition(*ch, *point)) .filter_map(move |(ch, point)| { if Some(&ch) == target.get(0) { partial_matches.push((0, point)); } let mut found = None; // Keep partial matches that have the correct next character partial_matches.retain_mut(|(match_position, match_start)| { if target.get(*match_position) == Some(&ch) { *match_position += 1; if *match_position == target.len() { found = Some(match_start.clone()); // This match is completed. No need to keep tracking it false } else { true } } else { false } }); found }) } pub fn column_to_chars(&self, display_row: u32, target: u32) -> u32 { let mut count = 0; let mut column = 0; for (c, _) in self.chars_at(DisplayPoint::new(display_row, 0)) { if column >= target { break; } count += 1; column += c.len_utf8() as u32; } count } pub fn column_from_chars(&self, display_row: u32, char_count: u32) -> u32 { let mut column = 0; for (count, (c, _)) in self.chars_at(DisplayPoint::new(display_row, 0)).enumerate() { if c == '\n' || count >= char_count as usize { break; } column += c.len_utf8() as u32; } column } pub fn clip_point(&self, point: DisplayPoint, bias: Bias) -> DisplayPoint { let mut clipped = self.block_snapshot.clip_point(point.0, bias); if self.clip_at_line_ends { clipped = self.clip_at_line_end(DisplayPoint(clipped)).0 } DisplayPoint(clipped) } pub fn clip_at_line_end(&self, point: DisplayPoint) -> DisplayPoint { let mut point = point.0; if point.column == self.line_len(point.row) { point.column = point.column.saturating_sub(1); point = self.block_snapshot.clip_point(point, Bias::Left); } DisplayPoint(point) } pub fn folds_in_range(&self, range: Range) -> impl Iterator> where T: ToOffset, { self.fold_snapshot.folds_in_range(range) } pub fn blocks_in_range( &self, rows: Range, ) -> impl Iterator { self.block_snapshot.blocks_in_range(rows) } pub fn intersects_fold(&self, offset: T) -> bool { self.fold_snapshot.intersects_fold(offset) } pub fn is_line_folded(&self, buffer_row: u32) -> bool { self.fold_snapshot.is_line_folded(buffer_row) } pub fn is_block_line(&self, display_row: u32) -> bool { self.block_snapshot.is_block_line(display_row) } pub fn soft_wrap_indent(&self, display_row: u32) -> Option { let wrap_row = self .block_snapshot .to_wrap_point(BlockPoint::new(display_row, 0)) .row(); self.wrap_snapshot.soft_wrap_indent(wrap_row) } pub fn text(&self) -> String { self.text_chunks(0).collect() } pub fn line(&self, display_row: u32) -> String { let mut result = String::new(); for chunk in self.text_chunks(display_row) { if let Some(ix) = chunk.find('\n') { result.push_str(&chunk[0..ix]); break; } else { result.push_str(chunk); } } result } pub fn line_indent(&self, display_row: u32) -> (u32, bool) { let mut indent = 0; let mut is_blank = true; for (c, _) in self.chars_at(DisplayPoint::new(display_row, 0)) { if c == ' ' { indent += 1; } else { is_blank = c == '\n'; break; } } (indent, is_blank) } pub fn line_indent_for_buffer_row(&self, buffer_row: u32) -> (u32, bool) { let (buffer, range) = self .buffer_snapshot .buffer_line_for_row(buffer_row) .unwrap(); let mut indent_size = 0; let mut is_blank = false; for c in buffer.chars_at(Point::new(range.start.row, 0)) { if c == ' ' || c == '\t' { indent_size += 1; } else { if c == '\n' { is_blank = true; } break; } } (indent_size, is_blank) } pub fn line_len(&self, row: u32) -> u32 { self.block_snapshot.line_len(row) } pub fn longest_row(&self) -> u32 { self.block_snapshot.longest_row() } pub fn fold_for_line(self: &Self, buffer_row: u32) -> Option { if self.is_line_folded(buffer_row) { Some(FoldStatus::Folded) } else if self.is_foldable(buffer_row) { Some(FoldStatus::Foldable) } else { None } } pub fn is_foldable(self: &Self, buffer_row: u32) -> bool { let max_row = self.buffer_snapshot.max_buffer_row(); if buffer_row >= max_row { return false; } let (indent_size, is_blank) = self.line_indent_for_buffer_row(buffer_row); if is_blank { return false; } for next_row in (buffer_row + 1)..=max_row { let (next_indent_size, next_line_is_blank) = self.line_indent_for_buffer_row(next_row); if next_indent_size > indent_size { return true; } else if !next_line_is_blank { break; } } false } pub fn foldable_range(self: &Self, buffer_row: u32) -> Option> { let start = Point::new(buffer_row, self.buffer_snapshot.line_len(buffer_row)); if self.is_foldable(start.row) && !self.is_line_folded(start.row) { let (start_indent, _) = self.line_indent_for_buffer_row(buffer_row); let max_point = self.buffer_snapshot.max_point(); let mut end = None; for row in (buffer_row + 1)..=max_point.row { let (indent, is_blank) = self.line_indent_for_buffer_row(row); if !is_blank && indent <= start_indent { let prev_row = row - 1; end = Some(Point::new( prev_row, self.buffer_snapshot.line_len(prev_row), )); break; } } let end = end.unwrap_or(max_point); Some(start..end) } else { None } } #[cfg(any(test, feature = "test-support"))] pub fn highlight_ranges( &self, ) -> Option>)>> { let type_id = TypeId::of::(); self.text_highlights.get(&Some(type_id)).cloned() } } #[derive(Copy, Clone, Default, Eq, Ord, PartialOrd, PartialEq)] pub struct DisplayPoint(BlockPoint); impl Debug for DisplayPoint { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.write_fmt(format_args!( "DisplayPoint({}, {})", self.row(), self.column() )) } } impl DisplayPoint { pub fn new(row: u32, column: u32) -> Self { Self(BlockPoint(Point::new(row, column))) } pub fn zero() -> Self { Self::new(0, 0) } pub fn is_zero(&self) -> bool { self.0.is_zero() } pub fn row(self) -> u32 { self.0.row } pub fn column(self) -> u32 { self.0.column } pub fn row_mut(&mut self) -> &mut u32 { &mut self.0.row } pub fn column_mut(&mut self) -> &mut u32 { &mut self.0.column } pub fn to_point(self, map: &DisplaySnapshot) -> Point { map.display_point_to_point(self, Bias::Left) } pub fn to_offset(self, map: &DisplaySnapshot, bias: Bias) -> usize { let wrap_point = map.block_snapshot.to_wrap_point(self.0); let tab_point = map.wrap_snapshot.to_tab_point(wrap_point); let inlay_point = map.tab_snapshot.to_inlay_point(tab_point, bias).0; let suggestion_point = map.inlay_snapshot.to_suggestion_point(inlay_point, bias); let fold_point = map.suggestion_snapshot.to_fold_point(suggestion_point); fold_point.to_buffer_offset(&map.fold_snapshot) } } impl ToDisplayPoint for usize { fn to_display_point(&self, map: &DisplaySnapshot) -> DisplayPoint { map.point_to_display_point(self.to_point(&map.buffer_snapshot), Bias::Left) } } impl ToDisplayPoint for OffsetUtf16 { fn to_display_point(&self, map: &DisplaySnapshot) -> DisplayPoint { self.to_offset(&map.buffer_snapshot).to_display_point(map) } } impl ToDisplayPoint for Point { fn to_display_point(&self, map: &DisplaySnapshot) -> DisplayPoint { map.point_to_display_point(*self, Bias::Left) } } impl ToDisplayPoint for Anchor { fn to_display_point(&self, map: &DisplaySnapshot) -> DisplayPoint { self.to_point(&map.buffer_snapshot).to_display_point(map) } } pub fn next_rows(display_row: u32, display_map: &DisplaySnapshot) -> impl Iterator { let max_row = display_map.max_point().row(); let start_row = display_row + 1; let mut current = None; std::iter::from_fn(move || { if current == None { current = Some(start_row); } else { current = Some(current.unwrap() + 1) } if current.unwrap() > max_row { None } else { current } }) } #[cfg(test)] pub mod tests { use super::*; use crate::{movement, test::marked_display_snapshot}; use gpui::{color::Color, elements::*, test::observe, AppContext}; use language::{ language_settings::{AllLanguageSettings, AllLanguageSettingsContent}, Buffer, Language, LanguageConfig, SelectionGoal, }; use rand::{prelude::*, Rng}; use settings::SettingsStore; use smol::stream::StreamExt; use std::{env, sync::Arc}; use theme::SyntaxTheme; use util::test::{marked_text_offsets, marked_text_ranges, sample_text}; use Bias::*; #[gpui::test(iterations = 100)] async fn test_random_display_map(cx: &mut gpui::TestAppContext, mut rng: StdRng) { cx.foreground().set_block_on_ticks(0..=50); cx.foreground().forbid_parking(); let operations = env::var("OPERATIONS") .map(|i| i.parse().expect("invalid `OPERATIONS` variable")) .unwrap_or(10); let font_cache = cx.font_cache().clone(); let mut tab_size = rng.gen_range(1..=4); let buffer_start_excerpt_header_height = rng.gen_range(1..=5); let excerpt_header_height = rng.gen_range(1..=5); let family_id = font_cache .load_family(&["Helvetica"], &Default::default()) .unwrap(); let font_id = font_cache .select_font(family_id, &Default::default()) .unwrap(); let font_size = 14.0; let max_wrap_width = 300.0; let mut wrap_width = if rng.gen_bool(0.1) { None } else { Some(rng.gen_range(0.0..=max_wrap_width)) }; log::info!("tab size: {}", tab_size); log::info!("wrap width: {:?}", wrap_width); cx.update(|cx| { init_test(cx, |s| s.defaults.tab_size = NonZeroU32::new(tab_size)); }); let buffer = cx.update(|cx| { if rng.gen() { let len = rng.gen_range(0..10); let text = util::RandomCharIter::new(&mut rng) .take(len) .collect::(); MultiBuffer::build_simple(&text, cx) } else { MultiBuffer::build_random(&mut rng, cx) } }); let map = cx.add_model(|cx| { DisplayMap::new( buffer.clone(), font_id, font_size, wrap_width, buffer_start_excerpt_header_height, excerpt_header_height, cx, ) }); let mut notifications = observe(&map, cx); let mut fold_count = 0; let mut blocks = Vec::new(); let snapshot = map.update(cx, |map, cx| map.snapshot(cx)); log::info!("buffer text: {:?}", snapshot.buffer_snapshot.text()); log::info!("fold text: {:?}", snapshot.fold_snapshot.text()); log::info!("tab text: {:?}", snapshot.tab_snapshot.text()); log::info!("wrap text: {:?}", snapshot.wrap_snapshot.text()); log::info!("block text: {:?}", snapshot.block_snapshot.text()); log::info!("display text: {:?}", snapshot.text()); for _i in 0..operations { match rng.gen_range(0..100) { 0..=19 => { wrap_width = if rng.gen_bool(0.2) { None } else { Some(rng.gen_range(0.0..=max_wrap_width)) }; log::info!("setting wrap width to {:?}", wrap_width); map.update(cx, |map, cx| map.set_wrap_width(wrap_width, cx)); } 20..=29 => { let mut tab_sizes = vec![1, 2, 3, 4]; tab_sizes.remove((tab_size - 1) as usize); tab_size = *tab_sizes.choose(&mut rng).unwrap(); log::info!("setting tab size to {:?}", tab_size); cx.update(|cx| { cx.update_global::(|store, cx| { store.update_user_settings::(cx, |s| { s.defaults.tab_size = NonZeroU32::new(tab_size); }); }); }); } 30..=44 => { map.update(cx, |map, cx| { if rng.gen() || blocks.is_empty() { let buffer = map.snapshot(cx).buffer_snapshot; let block_properties = (0..rng.gen_range(1..=1)) .map(|_| { let position = buffer.anchor_after(buffer.clip_offset( rng.gen_range(0..=buffer.len()), Bias::Left, )); let disposition = if rng.gen() { BlockDisposition::Above } else { BlockDisposition::Below }; let height = rng.gen_range(1..5); log::info!( "inserting block {:?} {:?} with height {}", disposition, position.to_point(&buffer), height ); BlockProperties { style: BlockStyle::Fixed, position, height, disposition, render: Arc::new(|_| Empty::new().into_any()), } }) .collect::>(); blocks.extend(map.insert_blocks(block_properties, cx)); } else { blocks.shuffle(&mut rng); let remove_count = rng.gen_range(1..=4.min(blocks.len())); let block_ids_to_remove = (0..remove_count) .map(|_| blocks.remove(rng.gen_range(0..blocks.len()))) .collect(); log::info!("removing block ids {:?}", block_ids_to_remove); map.remove_blocks(block_ids_to_remove, cx); } }); } 45..=79 => { let mut ranges = Vec::new(); for _ in 0..rng.gen_range(1..=3) { buffer.read_with(cx, |buffer, cx| { let buffer = buffer.read(cx); let end = buffer.clip_offset(rng.gen_range(0..=buffer.len()), Right); let start = buffer.clip_offset(rng.gen_range(0..=end), Left); ranges.push(start..end); }); } if rng.gen() && fold_count > 0 { log::info!("unfolding ranges: {:?}", ranges); map.update(cx, |map, cx| { map.unfold(ranges, true, cx); }); } else { log::info!("folding ranges: {:?}", ranges); map.update(cx, |map, cx| { map.fold(ranges, cx); }); } } _ => { buffer.update(cx, |buffer, cx| buffer.randomly_mutate(&mut rng, 5, cx)); } } if map.read_with(cx, |map, cx| map.is_rewrapping(cx)) { notifications.next().await.unwrap(); } let snapshot = map.update(cx, |map, cx| map.snapshot(cx)); fold_count = snapshot.fold_count(); log::info!("buffer text: {:?}", snapshot.buffer_snapshot.text()); log::info!("fold text: {:?}", snapshot.fold_snapshot.text()); log::info!("tab text: {:?}", snapshot.tab_snapshot.text()); log::info!("wrap text: {:?}", snapshot.wrap_snapshot.text()); log::info!("block text: {:?}", snapshot.block_snapshot.text()); log::info!("display text: {:?}", snapshot.text()); // Line boundaries let buffer = &snapshot.buffer_snapshot; for _ in 0..5 { let row = rng.gen_range(0..=buffer.max_point().row); let column = rng.gen_range(0..=buffer.line_len(row)); let point = buffer.clip_point(Point::new(row, column), Left); let (prev_buffer_bound, prev_display_bound) = snapshot.prev_line_boundary(point); let (next_buffer_bound, next_display_bound) = snapshot.next_line_boundary(point); assert!(prev_buffer_bound <= point); assert!(next_buffer_bound >= point); assert_eq!(prev_buffer_bound.column, 0); assert_eq!(prev_display_bound.column(), 0); if next_buffer_bound < buffer.max_point() { assert_eq!(buffer.chars_at(next_buffer_bound).next(), Some('\n')); } assert_eq!( prev_display_bound, prev_buffer_bound.to_display_point(&snapshot), "row boundary before {:?}. reported buffer row boundary: {:?}", point, prev_buffer_bound ); assert_eq!( next_display_bound, next_buffer_bound.to_display_point(&snapshot), "display row boundary after {:?}. reported buffer row boundary: {:?}", point, next_buffer_bound ); assert_eq!( prev_buffer_bound, prev_display_bound.to_point(&snapshot), "row boundary before {:?}. reported display row boundary: {:?}", point, prev_display_bound ); assert_eq!( next_buffer_bound, next_display_bound.to_point(&snapshot), "row boundary after {:?}. reported display row boundary: {:?}", point, next_display_bound ); } // Movement let min_point = snapshot.clip_point(DisplayPoint::new(0, 0), Left); let max_point = snapshot.clip_point(snapshot.max_point(), Right); for _ in 0..5 { let row = rng.gen_range(0..=snapshot.max_point().row()); let column = rng.gen_range(0..=snapshot.line_len(row)); let point = snapshot.clip_point(DisplayPoint::new(row, column), Left); log::info!("Moving from point {:?}", point); let moved_right = movement::right(&snapshot, point); log::info!("Right {:?}", moved_right); if point < max_point { assert!(moved_right > point); if point.column() == snapshot.line_len(point.row()) || snapshot.soft_wrap_indent(point.row()).is_some() && point.column() == snapshot.line_len(point.row()) - 1 { assert!(moved_right.row() > point.row()); } } else { assert_eq!(moved_right, point); } let moved_left = movement::left(&snapshot, point); log::info!("Left {:?}", moved_left); if point > min_point { assert!(moved_left < point); if point.column() == 0 { assert!(moved_left.row() < point.row()); } } else { assert_eq!(moved_left, point); } } } } #[gpui::test(retries = 5)] fn test_soft_wraps(cx: &mut AppContext) { cx.foreground().set_block_on_ticks(usize::MAX..=usize::MAX); init_test(cx, |_| {}); let font_cache = cx.font_cache(); let family_id = font_cache .load_family(&["Helvetica"], &Default::default()) .unwrap(); let font_id = font_cache .select_font(family_id, &Default::default()) .unwrap(); let font_size = 12.0; let wrap_width = Some(64.); let text = "one two three four five\nsix seven eight"; let buffer = MultiBuffer::build_simple(text, cx); let map = cx.add_model(|cx| { DisplayMap::new(buffer.clone(), font_id, font_size, wrap_width, 1, 1, cx) }); let snapshot = map.update(cx, |map, cx| map.snapshot(cx)); assert_eq!( snapshot.text_chunks(0).collect::(), "one two \nthree four \nfive\nsix seven \neight" ); assert_eq!( snapshot.clip_point(DisplayPoint::new(0, 8), Bias::Left), DisplayPoint::new(0, 7) ); assert_eq!( snapshot.clip_point(DisplayPoint::new(0, 8), Bias::Right), DisplayPoint::new(1, 0) ); assert_eq!( movement::right(&snapshot, DisplayPoint::new(0, 7)), DisplayPoint::new(1, 0) ); assert_eq!( movement::left(&snapshot, DisplayPoint::new(1, 0)), DisplayPoint::new(0, 7) ); assert_eq!( movement::up( &snapshot, DisplayPoint::new(1, 10), SelectionGoal::None, false ), (DisplayPoint::new(0, 7), SelectionGoal::Column(10)) ); assert_eq!( movement::down( &snapshot, DisplayPoint::new(0, 7), SelectionGoal::Column(10), false ), (DisplayPoint::new(1, 10), SelectionGoal::Column(10)) ); assert_eq!( movement::down( &snapshot, DisplayPoint::new(1, 10), SelectionGoal::Column(10), false ), (DisplayPoint::new(2, 4), SelectionGoal::Column(10)) ); let ix = snapshot.buffer_snapshot.text().find("seven").unwrap(); buffer.update(cx, |buffer, cx| { buffer.edit([(ix..ix, "and ")], None, cx); }); let snapshot = map.update(cx, |map, cx| map.snapshot(cx)); assert_eq!( snapshot.text_chunks(1).collect::(), "three four \nfive\nsix and \nseven eight" ); // Re-wrap on font size changes map.update(cx, |map, cx| map.set_font(font_id, font_size + 3., cx)); let snapshot = map.update(cx, |map, cx| map.snapshot(cx)); assert_eq!( snapshot.text_chunks(1).collect::(), "three \nfour five\nsix and \nseven \neight" ) } #[gpui::test] fn test_text_chunks(cx: &mut gpui::AppContext) { init_test(cx, |_| {}); let text = sample_text(6, 6, 'a'); let buffer = MultiBuffer::build_simple(&text, cx); let family_id = cx .font_cache() .load_family(&["Helvetica"], &Default::default()) .unwrap(); let font_id = cx .font_cache() .select_font(family_id, &Default::default()) .unwrap(); let font_size = 14.0; let map = cx.add_model(|cx| DisplayMap::new(buffer.clone(), font_id, font_size, None, 1, 1, cx)); buffer.update(cx, |buffer, cx| { buffer.edit( vec![ (Point::new(1, 0)..Point::new(1, 0), "\t"), (Point::new(1, 1)..Point::new(1, 1), "\t"), (Point::new(2, 1)..Point::new(2, 1), "\t"), ], None, cx, ) }); assert_eq!( map.update(cx, |map, cx| map.snapshot(cx)) .text_chunks(1) .collect::() .lines() .next(), Some(" b bbbbb") ); assert_eq!( map.update(cx, |map, cx| map.snapshot(cx)) .text_chunks(2) .collect::() .lines() .next(), Some("c ccccc") ); } #[gpui::test] async fn test_chunks(cx: &mut gpui::TestAppContext) { use unindent::Unindent as _; let text = r#" fn outer() {} mod module { fn inner() {} }"# .unindent(); let theme = SyntaxTheme::new(vec![ ("mod.body".to_string(), Color::red().into()), ("fn.name".to_string(), Color::blue().into()), ]); let language = Arc::new( Language::new( LanguageConfig { name: "Test".into(), path_suffixes: vec![".test".to_string()], ..Default::default() }, Some(tree_sitter_rust::language()), ) .with_highlights_query( r#" (mod_item name: (identifier) body: _ @mod.body) (function_item name: (identifier) @fn.name) "#, ) .unwrap(), ); language.set_theme(&theme); cx.update(|cx| init_test(cx, |s| s.defaults.tab_size = Some(2.try_into().unwrap()))); let buffer = cx.add_model(|cx| Buffer::new(0, text, cx).with_language(language, cx)); buffer.condition(cx, |buf, _| !buf.is_parsing()).await; let buffer = cx.add_model(|cx| MultiBuffer::singleton(buffer, cx)); let font_cache = cx.font_cache(); let family_id = font_cache .load_family(&["Helvetica"], &Default::default()) .unwrap(); let font_id = font_cache .select_font(family_id, &Default::default()) .unwrap(); let font_size = 14.0; let map = cx.add_model(|cx| DisplayMap::new(buffer, font_id, font_size, None, 1, 1, cx)); assert_eq!( cx.update(|cx| syntax_chunks(0..5, &map, &theme, cx)), vec![ ("fn ".to_string(), None), ("outer".to_string(), Some(Color::blue())), ("() {}\n\nmod module ".to_string(), None), ("{\n fn ".to_string(), Some(Color::red())), ("inner".to_string(), Some(Color::blue())), ("() {}\n}".to_string(), Some(Color::red())), ] ); assert_eq!( cx.update(|cx| syntax_chunks(3..5, &map, &theme, cx)), vec![ (" fn ".to_string(), Some(Color::red())), ("inner".to_string(), Some(Color::blue())), ("() {}\n}".to_string(), Some(Color::red())), ] ); map.update(cx, |map, cx| { map.fold(vec![Point::new(0, 6)..Point::new(3, 2)], cx) }); assert_eq!( cx.update(|cx| syntax_chunks(0..2, &map, &theme, cx)), vec![ ("fn ".to_string(), None), ("out".to_string(), Some(Color::blue())), ("⋯".to_string(), None), (" fn ".to_string(), Some(Color::red())), ("inner".to_string(), Some(Color::blue())), ("() {}\n}".to_string(), Some(Color::red())), ] ); } #[gpui::test] async fn test_chunks_with_soft_wrapping(cx: &mut gpui::TestAppContext) { use unindent::Unindent as _; cx.foreground().set_block_on_ticks(usize::MAX..=usize::MAX); let text = r#" fn outer() {} mod module { fn inner() {} }"# .unindent(); let theme = SyntaxTheme::new(vec![ ("mod.body".to_string(), Color::red().into()), ("fn.name".to_string(), Color::blue().into()), ]); let language = Arc::new( Language::new( LanguageConfig { name: "Test".into(), path_suffixes: vec![".test".to_string()], ..Default::default() }, Some(tree_sitter_rust::language()), ) .with_highlights_query( r#" (mod_item name: (identifier) body: _ @mod.body) (function_item name: (identifier) @fn.name) "#, ) .unwrap(), ); language.set_theme(&theme); cx.update(|cx| init_test(cx, |_| {})); let buffer = cx.add_model(|cx| Buffer::new(0, text, cx).with_language(language, cx)); buffer.condition(cx, |buf, _| !buf.is_parsing()).await; let buffer = cx.add_model(|cx| MultiBuffer::singleton(buffer, cx)); let font_cache = cx.font_cache(); let family_id = font_cache .load_family(&["Courier"], &Default::default()) .unwrap(); let font_id = font_cache .select_font(family_id, &Default::default()) .unwrap(); let font_size = 16.0; let map = cx.add_model(|cx| DisplayMap::new(buffer, font_id, font_size, Some(40.0), 1, 1, cx)); assert_eq!( cx.update(|cx| syntax_chunks(0..5, &map, &theme, cx)), [ ("fn \n".to_string(), None), ("oute\nr".to_string(), Some(Color::blue())), ("() \n{}\n\n".to_string(), None), ] ); assert_eq!( cx.update(|cx| syntax_chunks(3..5, &map, &theme, cx)), [("{}\n\n".to_string(), None)] ); map.update(cx, |map, cx| { map.fold(vec![Point::new(0, 6)..Point::new(3, 2)], cx) }); assert_eq!( cx.update(|cx| syntax_chunks(1..4, &map, &theme, cx)), [ ("out".to_string(), Some(Color::blue())), ("⋯\n".to_string(), None), (" \nfn ".to_string(), Some(Color::red())), ("i\n".to_string(), Some(Color::blue())) ] ); } #[gpui::test] async fn test_chunks_with_text_highlights(cx: &mut gpui::TestAppContext) { cx.update(|cx| init_test(cx, |_| {})); let theme = SyntaxTheme::new(vec![ ("operator".to_string(), Color::red().into()), ("string".to_string(), Color::green().into()), ]); let language = Arc::new( Language::new( LanguageConfig { name: "Test".into(), path_suffixes: vec![".test".to_string()], ..Default::default() }, Some(tree_sitter_rust::language()), ) .with_highlights_query( r#" ":" @operator (string_literal) @string "#, ) .unwrap(), ); language.set_theme(&theme); let (text, highlighted_ranges) = marked_text_ranges(r#"constˇ «a»: B = "c «d»""#, false); let buffer = cx.add_model(|cx| Buffer::new(0, text, cx).with_language(language, cx)); buffer.condition(cx, |buf, _| !buf.is_parsing()).await; let buffer = cx.add_model(|cx| MultiBuffer::singleton(buffer, cx)); let buffer_snapshot = buffer.read_with(cx, |buffer, cx| buffer.snapshot(cx)); let font_cache = cx.font_cache(); let family_id = font_cache .load_family(&["Courier"], &Default::default()) .unwrap(); let font_id = font_cache .select_font(family_id, &Default::default()) .unwrap(); let font_size = 16.0; let map = cx.add_model(|cx| DisplayMap::new(buffer, font_id, font_size, None, 1, 1, cx)); enum MyType {} let style = HighlightStyle { color: Some(Color::blue()), ..Default::default() }; map.update(cx, |map, _cx| { map.highlight_text( TypeId::of::(), highlighted_ranges .into_iter() .map(|range| { buffer_snapshot.anchor_before(range.start) ..buffer_snapshot.anchor_before(range.end) }) .collect(), style, ); }); assert_eq!( cx.update(|cx| chunks(0..10, &map, &theme, cx)), [ ("const ".to_string(), None, None), ("a".to_string(), None, Some(Color::blue())), (":".to_string(), Some(Color::red()), None), (" B = ".to_string(), None, None), ("\"c ".to_string(), Some(Color::green()), None), ("d".to_string(), Some(Color::green()), Some(Color::blue())), ("\"".to_string(), Some(Color::green()), None), ] ); } #[gpui::test] fn test_clip_point(cx: &mut gpui::AppContext) { init_test(cx, |_| {}); fn assert(text: &str, shift_right: bool, bias: Bias, cx: &mut gpui::AppContext) { let (unmarked_snapshot, mut markers) = marked_display_snapshot(text, cx); match bias { Bias::Left => { if shift_right { *markers[1].column_mut() += 1; } assert_eq!(unmarked_snapshot.clip_point(markers[1], bias), markers[0]) } Bias::Right => { if shift_right { *markers[0].column_mut() += 1; } assert_eq!(unmarked_snapshot.clip_point(markers[0], bias), markers[1]) } }; } use Bias::{Left, Right}; assert("ˇˇα", false, Left, cx); assert("ˇˇα", true, Left, cx); assert("ˇˇα", false, Right, cx); assert("ˇαˇ", true, Right, cx); assert("ˇˇ✋", false, Left, cx); assert("ˇˇ✋", true, Left, cx); assert("ˇˇ✋", false, Right, cx); assert("ˇ✋ˇ", true, Right, cx); assert("ˇˇ🍐", false, Left, cx); assert("ˇˇ🍐", true, Left, cx); assert("ˇˇ🍐", false, Right, cx); assert("ˇ🍐ˇ", true, Right, cx); assert("ˇˇ\t", false, Left, cx); assert("ˇˇ\t", true, Left, cx); assert("ˇˇ\t", false, Right, cx); assert("ˇ\tˇ", true, Right, cx); assert(" ˇˇ\t", false, Left, cx); assert(" ˇˇ\t", true, Left, cx); assert(" ˇˇ\t", false, Right, cx); assert(" ˇ\tˇ", true, Right, cx); assert(" ˇˇ\t", false, Left, cx); assert(" ˇˇ\t", false, Right, cx); } #[gpui::test] fn test_clip_at_line_ends(cx: &mut gpui::AppContext) { init_test(cx, |_| {}); fn assert(text: &str, cx: &mut gpui::AppContext) { let (mut unmarked_snapshot, markers) = marked_display_snapshot(text, cx); unmarked_snapshot.clip_at_line_ends = true; assert_eq!( unmarked_snapshot.clip_point(markers[1], Bias::Left), markers[0] ); } assert("ˇˇ", cx); assert("ˇaˇ", cx); assert("aˇbˇ", cx); assert("aˇαˇ", cx); } #[gpui::test] fn test_tabs_with_multibyte_chars(cx: &mut gpui::AppContext) { init_test(cx, |_| {}); let text = "✅\t\tα\nβ\t\n🏀β\t\tγ"; let buffer = MultiBuffer::build_simple(text, cx); let font_cache = cx.font_cache(); let family_id = font_cache .load_family(&["Helvetica"], &Default::default()) .unwrap(); let font_id = font_cache .select_font(family_id, &Default::default()) .unwrap(); let font_size = 14.0; let map = cx.add_model(|cx| DisplayMap::new(buffer.clone(), font_id, font_size, None, 1, 1, cx)); let map = map.update(cx, |map, cx| map.snapshot(cx)); assert_eq!(map.text(), "✅ α\nβ \n🏀β γ"); assert_eq!( map.text_chunks(0).collect::(), "✅ α\nβ \n🏀β γ" ); assert_eq!(map.text_chunks(1).collect::(), "β \n🏀β γ"); assert_eq!(map.text_chunks(2).collect::(), "🏀β γ"); let point = Point::new(0, "✅\t\t".len() as u32); let display_point = DisplayPoint::new(0, "✅ ".len() as u32); assert_eq!(point.to_display_point(&map), display_point); assert_eq!(display_point.to_point(&map), point); let point = Point::new(1, "β\t".len() as u32); let display_point = DisplayPoint::new(1, "β ".len() as u32); assert_eq!(point.to_display_point(&map), display_point); assert_eq!(display_point.to_point(&map), point,); let point = Point::new(2, "🏀β\t\t".len() as u32); let display_point = DisplayPoint::new(2, "🏀β ".len() as u32); assert_eq!(point.to_display_point(&map), display_point); assert_eq!(display_point.to_point(&map), point,); // Display points inside of expanded tabs assert_eq!( DisplayPoint::new(0, "✅ ".len() as u32).to_point(&map), Point::new(0, "✅\t".len() as u32), ); assert_eq!( DisplayPoint::new(0, "✅ ".len() as u32).to_point(&map), Point::new(0, "✅".len() as u32), ); // Clipping display points inside of multi-byte characters assert_eq!( map.clip_point(DisplayPoint::new(0, "✅".len() as u32 - 1), Left), DisplayPoint::new(0, 0) ); assert_eq!( map.clip_point(DisplayPoint::new(0, "✅".len() as u32 - 1), Bias::Right), DisplayPoint::new(0, "✅".len() as u32) ); } #[gpui::test] fn test_max_point(cx: &mut gpui::AppContext) { init_test(cx, |_| {}); let buffer = MultiBuffer::build_simple("aaa\n\t\tbbb", cx); let font_cache = cx.font_cache(); let family_id = font_cache .load_family(&["Helvetica"], &Default::default()) .unwrap(); let font_id = font_cache .select_font(family_id, &Default::default()) .unwrap(); let font_size = 14.0; let map = cx.add_model(|cx| DisplayMap::new(buffer.clone(), font_id, font_size, None, 1, 1, cx)); assert_eq!( map.update(cx, |map, cx| map.snapshot(cx)).max_point(), DisplayPoint::new(1, 11) ) } #[test] fn test_find_internal() { assert("This is a ˇtest of find internal", "test"); assert("Some text ˇaˇaˇaa with repeated characters", "aa"); fn assert(marked_text: &str, target: &str) { let (text, expected_offsets) = marked_text_offsets(marked_text); let chars = text .chars() .enumerate() .map(|(index, ch)| (ch, DisplayPoint::new(0, index as u32))); let target = target.chars(); assert_eq!( expected_offsets .into_iter() .map(|offset| offset as u32) .collect::>(), DisplaySnapshot::find_internal(chars, target.collect(), |_, _| true) .map(|point| point.column()) .collect::>() ) } } fn syntax_chunks<'a>( rows: Range, map: &ModelHandle, theme: &'a SyntaxTheme, cx: &mut AppContext, ) -> Vec<(String, Option)> { chunks(rows, map, theme, cx) .into_iter() .map(|(text, color, _)| (text, color)) .collect() } fn chunks<'a>( rows: Range, map: &ModelHandle, theme: &'a SyntaxTheme, cx: &mut AppContext, ) -> Vec<(String, Option, Option)> { let snapshot = map.update(cx, |map, cx| map.snapshot(cx)); let mut chunks: Vec<(String, Option, Option)> = Vec::new(); for chunk in snapshot.chunks(rows, true, None) { let syntax_color = chunk .syntax_highlight_id .and_then(|id| id.style(theme)?.color); let highlight_color = chunk.highlight_style.and_then(|style| style.color); if let Some((last_chunk, last_syntax_color, last_highlight_color)) = chunks.last_mut() { if syntax_color == *last_syntax_color && highlight_color == *last_highlight_color { last_chunk.push_str(chunk.text); continue; } } chunks.push((chunk.text.to_string(), syntax_color, highlight_color)); } chunks } fn init_test(cx: &mut AppContext, f: impl Fn(&mut AllLanguageSettingsContent)) { cx.foreground().forbid_parking(); cx.set_global(SettingsStore::test(cx)); language::init(cx); cx.update_global::(|store, cx| { store.update_user_settings::(cx, f); }); } }