use super::{ inlay_map::{InlayBufferRows, InlayChunks, InlayEdit, InlayOffset, InlayPoint, InlaySnapshot}, Highlights, }; use crate::{Anchor, AnchorRangeExt, MultiBufferSnapshot, ToOffset}; use gpui::{HighlightStyle, Hsla}; use language::{Chunk, Edit, Point, TextSummary}; use std::{ any::TypeId, cmp::{self, Ordering}, iter, ops::{Add, AddAssign, Range, Sub}, }; use sum_tree::{Bias, Cursor, FilterCursor, SumTree}; #[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)] pub struct FoldPoint(pub Point); impl FoldPoint { pub fn new(row: u32, column: u32) -> Self { Self(Point::new(row, column)) } 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 } #[cfg(test)] pub fn column_mut(&mut self) -> &mut u32 { &mut self.0.column } pub fn to_inlay_point(self, snapshot: &FoldSnapshot) -> InlayPoint { let mut cursor = snapshot.transforms.cursor::<(FoldPoint, InlayPoint)>(); cursor.seek(&self, Bias::Right, &()); let overshoot = self.0 - cursor.start().0 .0; InlayPoint(cursor.start().1 .0 + overshoot) } pub fn to_offset(self, snapshot: &FoldSnapshot) -> FoldOffset { let mut cursor = snapshot .transforms .cursor::<(FoldPoint, TransformSummary)>(); cursor.seek(&self, Bias::Right, &()); let overshoot = self.0 - cursor.start().1.output.lines; let mut offset = cursor.start().1.output.len; if !overshoot.is_zero() { let transform = cursor.item().expect("display point out of range"); assert!(transform.output_text.is_none()); let end_inlay_offset = snapshot .inlay_snapshot .to_offset(InlayPoint(cursor.start().1.input.lines + overshoot)); offset += end_inlay_offset.0 - cursor.start().1.input.len; } FoldOffset(offset) } } impl<'a> sum_tree::Dimension<'a, TransformSummary> for FoldPoint { fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) { self.0 += &summary.output.lines; } } pub struct FoldMapWriter<'a>(&'a mut FoldMap); impl<'a> FoldMapWriter<'a> { pub fn fold( &mut self, ranges: impl IntoIterator>, ) -> (FoldSnapshot, Vec) { let mut edits = Vec::new(); let mut folds = Vec::new(); let snapshot = self.0.snapshot.inlay_snapshot.clone(); for range in ranges.into_iter() { let buffer = &snapshot.buffer; let range = range.start.to_offset(&buffer)..range.end.to_offset(&buffer); // Ignore any empty ranges. if range.start == range.end { continue; } // For now, ignore any ranges that span an excerpt boundary. let fold = Fold(buffer.anchor_after(range.start)..buffer.anchor_before(range.end)); if fold.0.start.excerpt_id != fold.0.end.excerpt_id { continue; } folds.push(fold); let inlay_range = snapshot.to_inlay_offset(range.start)..snapshot.to_inlay_offset(range.end); edits.push(InlayEdit { old: inlay_range.clone(), new: inlay_range, }); } let buffer = &snapshot.buffer; folds.sort_unstable_by(|a, b| sum_tree::SeekTarget::cmp(a, b, buffer)); self.0.snapshot.folds = { let mut new_tree = SumTree::new(); let mut cursor = self.0.snapshot.folds.cursor::(); for fold in folds { new_tree.append(cursor.slice(&fold, Bias::Right, buffer), buffer); new_tree.push(fold, buffer); } new_tree.append(cursor.suffix(buffer), buffer); new_tree }; consolidate_inlay_edits(&mut edits); let edits = self.0.sync(snapshot.clone(), edits); (self.0.snapshot.clone(), edits) } pub fn unfold( &mut self, ranges: impl IntoIterator>, inclusive: bool, ) -> (FoldSnapshot, Vec) { let mut edits = Vec::new(); let mut fold_ixs_to_delete = Vec::new(); let snapshot = self.0.snapshot.inlay_snapshot.clone(); let buffer = &snapshot.buffer; for range in ranges.into_iter() { // Remove intersecting folds and add their ranges to edits that are passed to sync. let mut folds_cursor = intersecting_folds(&snapshot, &self.0.snapshot.folds, range, inclusive); while let Some(fold) = folds_cursor.item() { let offset_range = fold.0.start.to_offset(buffer)..fold.0.end.to_offset(buffer); if offset_range.end > offset_range.start { let inlay_range = snapshot.to_inlay_offset(offset_range.start) ..snapshot.to_inlay_offset(offset_range.end); edits.push(InlayEdit { old: inlay_range.clone(), new: inlay_range, }); } fold_ixs_to_delete.push(*folds_cursor.start()); folds_cursor.next(buffer); } } fold_ixs_to_delete.sort_unstable(); fold_ixs_to_delete.dedup(); self.0.snapshot.folds = { let mut cursor = self.0.snapshot.folds.cursor::(); let mut folds = SumTree::new(); for fold_ix in fold_ixs_to_delete { folds.append(cursor.slice(&fold_ix, Bias::Right, buffer), buffer); cursor.next(buffer); } folds.append(cursor.suffix(buffer), buffer); folds }; consolidate_inlay_edits(&mut edits); let edits = self.0.sync(snapshot.clone(), edits); (self.0.snapshot.clone(), edits) } } pub struct FoldMap { snapshot: FoldSnapshot, ellipses_color: Option, } impl FoldMap { pub fn new(inlay_snapshot: InlaySnapshot) -> (Self, FoldSnapshot) { let this = Self { snapshot: FoldSnapshot { folds: Default::default(), transforms: SumTree::from_item( Transform { summary: TransformSummary { input: inlay_snapshot.text_summary(), output: inlay_snapshot.text_summary(), }, output_text: None, }, &(), ), inlay_snapshot: inlay_snapshot.clone(), version: 0, ellipses_color: None, }, ellipses_color: None, }; let snapshot = this.snapshot.clone(); (this, snapshot) } pub fn read( &mut self, inlay_snapshot: InlaySnapshot, edits: Vec, ) -> (FoldSnapshot, Vec) { let edits = self.sync(inlay_snapshot, edits); self.check_invariants(); (self.snapshot.clone(), edits) } pub fn write( &mut self, inlay_snapshot: InlaySnapshot, edits: Vec, ) -> (FoldMapWriter, FoldSnapshot, Vec) { let (snapshot, edits) = self.read(inlay_snapshot, edits); (FoldMapWriter(self), snapshot, edits) } pub fn set_ellipses_color(&mut self, color: Hsla) -> bool { if self.ellipses_color != Some(color) { self.ellipses_color = Some(color); true } else { false } } fn check_invariants(&self) { if cfg!(test) { assert_eq!( self.snapshot.transforms.summary().input.len, self.snapshot.inlay_snapshot.len().0, "transform tree does not match inlay snapshot's length" ); let mut folds = self.snapshot.folds.iter().peekable(); while let Some(fold) = folds.next() { if let Some(next_fold) = folds.peek() { let comparison = fold .0 .cmp(&next_fold.0, &self.snapshot.inlay_snapshot.buffer); assert!(comparison.is_le()); } } } } fn sync( &mut self, inlay_snapshot: InlaySnapshot, inlay_edits: Vec, ) -> Vec { if inlay_edits.is_empty() { if self.snapshot.inlay_snapshot.version != inlay_snapshot.version { self.snapshot.version += 1; } self.snapshot.inlay_snapshot = inlay_snapshot; Vec::new() } else { let mut inlay_edits_iter = inlay_edits.iter().cloned().peekable(); let mut new_transforms = SumTree::new(); let mut cursor = self.snapshot.transforms.cursor::(); cursor.seek(&InlayOffset(0), Bias::Right, &()); while let Some(mut edit) = inlay_edits_iter.next() { new_transforms.append(cursor.slice(&edit.old.start, Bias::Left, &()), &()); edit.new.start -= edit.old.start - *cursor.start(); edit.old.start = *cursor.start(); cursor.seek(&edit.old.end, Bias::Right, &()); cursor.next(&()); let mut delta = edit.new_len().0 as isize - edit.old_len().0 as isize; loop { edit.old.end = *cursor.start(); if let Some(next_edit) = inlay_edits_iter.peek() { if next_edit.old.start > edit.old.end { break; } let next_edit = inlay_edits_iter.next().unwrap(); delta += next_edit.new_len().0 as isize - next_edit.old_len().0 as isize; if next_edit.old.end >= edit.old.end { edit.old.end = next_edit.old.end; cursor.seek(&edit.old.end, Bias::Right, &()); cursor.next(&()); } } else { break; } } edit.new.end = InlayOffset(((edit.new.start + edit.old_len()).0 as isize + delta) as usize); let anchor = inlay_snapshot .buffer .anchor_before(inlay_snapshot.to_buffer_offset(edit.new.start)); let mut folds_cursor = self.snapshot.folds.cursor::(); folds_cursor.seek( &Fold(anchor..Anchor::max()), Bias::Left, &inlay_snapshot.buffer, ); let mut folds = iter::from_fn({ let inlay_snapshot = &inlay_snapshot; move || { let item = folds_cursor.item().map(|f| { let buffer_start = f.0.start.to_offset(&inlay_snapshot.buffer); let buffer_end = f.0.end.to_offset(&inlay_snapshot.buffer); inlay_snapshot.to_inlay_offset(buffer_start) ..inlay_snapshot.to_inlay_offset(buffer_end) }); folds_cursor.next(&inlay_snapshot.buffer); item } }) .peekable(); while folds.peek().map_or(false, |fold| fold.start < edit.new.end) { let mut fold = folds.next().unwrap(); let sum = new_transforms.summary(); assert!(fold.start.0 >= sum.input.len); while folds .peek() .map_or(false, |next_fold| next_fold.start <= fold.end) { let next_fold = folds.next().unwrap(); if next_fold.end > fold.end { fold.end = next_fold.end; } } if fold.start.0 > sum.input.len { let text_summary = inlay_snapshot .text_summary_for_range(InlayOffset(sum.input.len)..fold.start); new_transforms.push( Transform { summary: TransformSummary { output: text_summary.clone(), input: text_summary, }, output_text: None, }, &(), ); } if fold.end > fold.start { let output_text = "⋯"; new_transforms.push( Transform { summary: TransformSummary { output: TextSummary::from(output_text), input: inlay_snapshot .text_summary_for_range(fold.start..fold.end), }, output_text: Some(output_text), }, &(), ); } } let sum = new_transforms.summary(); if sum.input.len < edit.new.end.0 { let text_summary = inlay_snapshot .text_summary_for_range(InlayOffset(sum.input.len)..edit.new.end); new_transforms.push( Transform { summary: TransformSummary { output: text_summary.clone(), input: text_summary, }, output_text: None, }, &(), ); } } new_transforms.append(cursor.suffix(&()), &()); if new_transforms.is_empty() { let text_summary = inlay_snapshot.text_summary(); new_transforms.push( Transform { summary: TransformSummary { output: text_summary.clone(), input: text_summary, }, output_text: None, }, &(), ); } drop(cursor); let mut fold_edits = Vec::with_capacity(inlay_edits.len()); { let mut old_transforms = self .snapshot .transforms .cursor::<(InlayOffset, FoldOffset)>(); let mut new_transforms = new_transforms.cursor::<(InlayOffset, FoldOffset)>(); for mut edit in inlay_edits { old_transforms.seek(&edit.old.start, Bias::Left, &()); if old_transforms.item().map_or(false, |t| t.is_fold()) { edit.old.start = old_transforms.start().0; } let old_start = old_transforms.start().1 .0 + (edit.old.start - old_transforms.start().0).0; old_transforms.seek_forward(&edit.old.end, Bias::Right, &()); if old_transforms.item().map_or(false, |t| t.is_fold()) { old_transforms.next(&()); edit.old.end = old_transforms.start().0; } let old_end = old_transforms.start().1 .0 + (edit.old.end - old_transforms.start().0).0; new_transforms.seek(&edit.new.start, Bias::Left, &()); if new_transforms.item().map_or(false, |t| t.is_fold()) { edit.new.start = new_transforms.start().0; } let new_start = new_transforms.start().1 .0 + (edit.new.start - new_transforms.start().0).0; new_transforms.seek_forward(&edit.new.end, Bias::Right, &()); if new_transforms.item().map_or(false, |t| t.is_fold()) { new_transforms.next(&()); edit.new.end = new_transforms.start().0; } let new_end = new_transforms.start().1 .0 + (edit.new.end - new_transforms.start().0).0; fold_edits.push(FoldEdit { old: FoldOffset(old_start)..FoldOffset(old_end), new: FoldOffset(new_start)..FoldOffset(new_end), }); } consolidate_fold_edits(&mut fold_edits); } self.snapshot.transforms = new_transforms; self.snapshot.inlay_snapshot = inlay_snapshot; self.snapshot.version += 1; fold_edits } } } #[derive(Clone)] pub struct FoldSnapshot { transforms: SumTree, folds: SumTree, pub inlay_snapshot: InlaySnapshot, pub version: usize, pub ellipses_color: Option, } impl FoldSnapshot { #[cfg(test)] pub fn text(&self) -> String { self.chunks(FoldOffset(0)..self.len(), false, Highlights::default()) .map(|c| c.text) .collect() } #[cfg(test)] pub fn fold_count(&self) -> usize { self.folds.items(&self.inlay_snapshot.buffer).len() } pub fn text_summary_for_range(&self, range: Range) -> TextSummary { let mut summary = TextSummary::default(); let mut cursor = self.transforms.cursor::<(FoldPoint, InlayPoint)>(); cursor.seek(&range.start, Bias::Right, &()); if let Some(transform) = cursor.item() { let start_in_transform = range.start.0 - cursor.start().0 .0; let end_in_transform = cmp::min(range.end, cursor.end(&()).0).0 - cursor.start().0 .0; if let Some(output_text) = transform.output_text { summary = TextSummary::from( &output_text [start_in_transform.column as usize..end_in_transform.column as usize], ); } else { let inlay_start = self .inlay_snapshot .to_offset(InlayPoint(cursor.start().1 .0 + start_in_transform)); let inlay_end = self .inlay_snapshot .to_offset(InlayPoint(cursor.start().1 .0 + end_in_transform)); summary = self .inlay_snapshot .text_summary_for_range(inlay_start..inlay_end); } } if range.end > cursor.end(&()).0 { cursor.next(&()); summary += &cursor .summary::<_, TransformSummary>(&range.end, Bias::Right, &()) .output; if let Some(transform) = cursor.item() { let end_in_transform = range.end.0 - cursor.start().0 .0; if let Some(output_text) = transform.output_text { summary += TextSummary::from(&output_text[..end_in_transform.column as usize]); } else { let inlay_start = self.inlay_snapshot.to_offset(cursor.start().1); let inlay_end = self .inlay_snapshot .to_offset(InlayPoint(cursor.start().1 .0 + end_in_transform)); summary += self .inlay_snapshot .text_summary_for_range(inlay_start..inlay_end); } } } summary } pub fn to_fold_point(&self, point: InlayPoint, bias: Bias) -> FoldPoint { let mut cursor = self.transforms.cursor::<(InlayPoint, FoldPoint)>(); cursor.seek(&point, Bias::Right, &()); if cursor.item().map_or(false, |t| t.is_fold()) { if bias == Bias::Left || point == cursor.start().0 { cursor.start().1 } else { cursor.end(&()).1 } } else { let overshoot = point.0 - cursor.start().0 .0; FoldPoint(cmp::min( cursor.start().1 .0 + overshoot, cursor.end(&()).1 .0, )) } } pub fn len(&self) -> FoldOffset { FoldOffset(self.transforms.summary().output.len) } pub fn line_len(&self, row: u32) -> u32 { let line_start = FoldPoint::new(row, 0).to_offset(self).0; let line_end = if row >= self.max_point().row() { self.len().0 } else { FoldPoint::new(row + 1, 0).to_offset(self).0 - 1 }; (line_end - line_start) as u32 } pub fn buffer_rows(&self, start_row: u32) -> FoldBufferRows { if start_row > self.transforms.summary().output.lines.row { panic!("invalid display row {}", start_row); } let fold_point = FoldPoint::new(start_row, 0); let mut cursor = self.transforms.cursor::<(FoldPoint, InlayPoint)>(); cursor.seek(&fold_point, Bias::Left, &()); let overshoot = fold_point.0 - cursor.start().0 .0; let inlay_point = InlayPoint(cursor.start().1 .0 + overshoot); let input_buffer_rows = self.inlay_snapshot.buffer_rows(inlay_point.row()); FoldBufferRows { fold_point, input_buffer_rows, cursor, } } pub fn max_point(&self) -> FoldPoint { FoldPoint(self.transforms.summary().output.lines) } #[cfg(test)] pub fn longest_row(&self) -> u32 { self.transforms.summary().output.longest_row } pub fn folds_in_range(&self, range: Range) -> impl Iterator> where T: ToOffset, { let mut folds = intersecting_folds(&self.inlay_snapshot, &self.folds, range, false); iter::from_fn(move || { let item = folds.item().map(|f| &f.0); folds.next(&self.inlay_snapshot.buffer); item }) } pub fn intersects_fold(&self, offset: T) -> bool where T: ToOffset, { let buffer_offset = offset.to_offset(&self.inlay_snapshot.buffer); let inlay_offset = self.inlay_snapshot.to_inlay_offset(buffer_offset); let mut cursor = self.transforms.cursor::(); cursor.seek(&inlay_offset, Bias::Right, &()); cursor.item().map_or(false, |t| t.output_text.is_some()) } pub fn is_line_folded(&self, buffer_row: u32) -> bool { let mut inlay_point = self .inlay_snapshot .to_inlay_point(Point::new(buffer_row, 0)); let mut cursor = self.transforms.cursor::(); cursor.seek(&inlay_point, Bias::Right, &()); loop { match cursor.item() { Some(transform) => { let buffer_point = self.inlay_snapshot.to_buffer_point(inlay_point); if buffer_point.row != buffer_row { return false; } else if transform.output_text.is_some() { return true; } } None => return false, } if cursor.end(&()).row() == inlay_point.row() { cursor.next(&()); } else { inlay_point.0 += Point::new(1, 0); cursor.seek(&inlay_point, Bias::Right, &()); } } } pub fn chunks<'a>( &'a self, range: Range, language_aware: bool, highlights: Highlights<'a>, ) -> FoldChunks<'a> { let mut transform_cursor = self.transforms.cursor::<(FoldOffset, InlayOffset)>(); let inlay_end = { transform_cursor.seek(&range.end, Bias::Right, &()); let overshoot = range.end.0 - transform_cursor.start().0 .0; transform_cursor.start().1 + InlayOffset(overshoot) }; let inlay_start = { transform_cursor.seek(&range.start, Bias::Right, &()); let overshoot = range.start.0 - transform_cursor.start().0 .0; transform_cursor.start().1 + InlayOffset(overshoot) }; FoldChunks { transform_cursor, inlay_chunks: self.inlay_snapshot.chunks( inlay_start..inlay_end, language_aware, highlights, ), inlay_chunk: None, inlay_offset: inlay_start, output_offset: range.start.0, max_output_offset: range.end.0, ellipses_color: self.ellipses_color, } } pub fn chars_at(&self, start: FoldPoint) -> impl '_ + Iterator { self.chunks( start.to_offset(self)..self.len(), false, Highlights::default(), ) .flat_map(|chunk| chunk.text.chars()) } #[cfg(test)] pub fn clip_offset(&self, offset: FoldOffset, bias: Bias) -> FoldOffset { if offset > self.len() { self.len() } else { self.clip_point(offset.to_point(self), bias).to_offset(self) } } pub fn clip_point(&self, point: FoldPoint, bias: Bias) -> FoldPoint { let mut cursor = self.transforms.cursor::<(FoldPoint, InlayPoint)>(); cursor.seek(&point, Bias::Right, &()); if let Some(transform) = cursor.item() { let transform_start = cursor.start().0 .0; if transform.output_text.is_some() { if point.0 == transform_start || matches!(bias, Bias::Left) { FoldPoint(transform_start) } else { FoldPoint(cursor.end(&()).0 .0) } } else { let overshoot = InlayPoint(point.0 - transform_start); let inlay_point = cursor.start().1 + overshoot; let clipped_inlay_point = self.inlay_snapshot.clip_point(inlay_point, bias); FoldPoint(cursor.start().0 .0 + (clipped_inlay_point - cursor.start().1).0) } } else { FoldPoint(self.transforms.summary().output.lines) } } } fn intersecting_folds<'a, T>( inlay_snapshot: &'a InlaySnapshot, folds: &'a SumTree, range: Range, inclusive: bool, ) -> FilterCursor<'a, impl 'a + FnMut(&FoldSummary) -> bool, Fold, usize> where T: ToOffset, { let buffer = &inlay_snapshot.buffer; let start = buffer.anchor_before(range.start.to_offset(buffer)); let end = buffer.anchor_after(range.end.to_offset(buffer)); let mut cursor = folds.filter::<_, usize>(move |summary| { let start_cmp = start.cmp(&summary.max_end, buffer); let end_cmp = end.cmp(&summary.min_start, buffer); if inclusive { start_cmp <= Ordering::Equal && end_cmp >= Ordering::Equal } else { start_cmp == Ordering::Less && end_cmp == Ordering::Greater } }); cursor.next(buffer); cursor } fn consolidate_inlay_edits(edits: &mut Vec) { edits.sort_unstable_by(|a, b| { a.old .start .cmp(&b.old.start) .then_with(|| b.old.end.cmp(&a.old.end)) }); let mut i = 1; while i < edits.len() { let edit = edits[i].clone(); let prev_edit = &mut edits[i - 1]; if prev_edit.old.end >= edit.old.start { prev_edit.old.end = prev_edit.old.end.max(edit.old.end); prev_edit.new.start = prev_edit.new.start.min(edit.new.start); prev_edit.new.end = prev_edit.new.end.max(edit.new.end); edits.remove(i); continue; } i += 1; } } fn consolidate_fold_edits(edits: &mut Vec) { edits.sort_unstable_by(|a, b| { a.old .start .cmp(&b.old.start) .then_with(|| b.old.end.cmp(&a.old.end)) }); let mut i = 1; while i < edits.len() { let edit = edits[i].clone(); let prev_edit = &mut edits[i - 1]; if prev_edit.old.end >= edit.old.start { prev_edit.old.end = prev_edit.old.end.max(edit.old.end); prev_edit.new.start = prev_edit.new.start.min(edit.new.start); prev_edit.new.end = prev_edit.new.end.max(edit.new.end); edits.remove(i); continue; } i += 1; } } #[derive(Clone, Debug, Default, Eq, PartialEq)] struct Transform { summary: TransformSummary, output_text: Option<&'static str>, } impl Transform { fn is_fold(&self) -> bool { self.output_text.is_some() } } #[derive(Clone, Debug, Default, Eq, PartialEq)] struct TransformSummary { output: TextSummary, input: TextSummary, } impl sum_tree::Item for Transform { type Summary = TransformSummary; fn summary(&self) -> Self::Summary { self.summary.clone() } } impl sum_tree::Summary for TransformSummary { type Context = (); fn add_summary(&mut self, other: &Self, _: &()) { self.input += &other.input; self.output += &other.output; } } #[derive(Clone, Debug)] struct Fold(Range); impl Default for Fold { fn default() -> Self { Self(Anchor::min()..Anchor::max()) } } impl sum_tree::Item for Fold { type Summary = FoldSummary; fn summary(&self) -> Self::Summary { FoldSummary { start: self.0.start.clone(), end: self.0.end.clone(), min_start: self.0.start.clone(), max_end: self.0.end.clone(), count: 1, } } } #[derive(Clone, Debug)] struct FoldSummary { start: Anchor, end: Anchor, min_start: Anchor, max_end: Anchor, count: usize, } impl Default for FoldSummary { fn default() -> Self { Self { start: Anchor::min(), end: Anchor::max(), min_start: Anchor::max(), max_end: Anchor::min(), count: 0, } } } impl sum_tree::Summary for FoldSummary { type Context = MultiBufferSnapshot; fn add_summary(&mut self, other: &Self, buffer: &Self::Context) { if other.min_start.cmp(&self.min_start, buffer) == Ordering::Less { self.min_start = other.min_start.clone(); } if other.max_end.cmp(&self.max_end, buffer) == Ordering::Greater { self.max_end = other.max_end.clone(); } #[cfg(debug_assertions)] { let start_comparison = self.start.cmp(&other.start, buffer); assert!(start_comparison <= Ordering::Equal); if start_comparison == Ordering::Equal { assert!(self.end.cmp(&other.end, buffer) >= Ordering::Equal); } } self.start = other.start.clone(); self.end = other.end.clone(); self.count += other.count; } } impl<'a> sum_tree::Dimension<'a, FoldSummary> for Fold { fn add_summary(&mut self, summary: &'a FoldSummary, _: &MultiBufferSnapshot) { self.0.start = summary.start.clone(); self.0.end = summary.end.clone(); } } impl<'a> sum_tree::SeekTarget<'a, FoldSummary, Fold> for Fold { fn cmp(&self, other: &Self, buffer: &MultiBufferSnapshot) -> Ordering { self.0.cmp(&other.0, buffer) } } impl<'a> sum_tree::Dimension<'a, FoldSummary> for usize { fn add_summary(&mut self, summary: &'a FoldSummary, _: &MultiBufferSnapshot) { *self += summary.count; } } #[derive(Clone)] pub struct FoldBufferRows<'a> { cursor: Cursor<'a, Transform, (FoldPoint, InlayPoint)>, input_buffer_rows: InlayBufferRows<'a>, fold_point: FoldPoint, } impl<'a> Iterator for FoldBufferRows<'a> { type Item = Option; fn next(&mut self) -> Option { let mut traversed_fold = false; while self.fold_point > self.cursor.end(&()).0 { self.cursor.next(&()); traversed_fold = true; if self.cursor.item().is_none() { break; } } if self.cursor.item().is_some() { if traversed_fold { self.input_buffer_rows.seek(self.cursor.start().1.row()); self.input_buffer_rows.next(); } *self.fold_point.row_mut() += 1; self.input_buffer_rows.next() } else { None } } } pub struct FoldChunks<'a> { transform_cursor: Cursor<'a, Transform, (FoldOffset, InlayOffset)>, inlay_chunks: InlayChunks<'a>, inlay_chunk: Option<(InlayOffset, Chunk<'a>)>, inlay_offset: InlayOffset, output_offset: usize, max_output_offset: usize, ellipses_color: Option, } impl<'a> Iterator for FoldChunks<'a> { type Item = Chunk<'a>; fn next(&mut self) -> Option { if self.output_offset >= self.max_output_offset { return None; } let transform = self.transform_cursor.item()?; // If we're in a fold, then return the fold's display text and // advance the transform and buffer cursors to the end of the fold. if let Some(output_text) = transform.output_text { self.inlay_chunk.take(); self.inlay_offset += InlayOffset(transform.summary.input.len); self.inlay_chunks.seek(self.inlay_offset); while self.inlay_offset >= self.transform_cursor.end(&()).1 && self.transform_cursor.item().is_some() { self.transform_cursor.next(&()); } self.output_offset += output_text.len(); return Some(Chunk { text: output_text, highlight_style: self.ellipses_color.map(|color| HighlightStyle { color: Some(color), ..Default::default() }), ..Default::default() }); } // Retrieve a chunk from the current location in the buffer. if self.inlay_chunk.is_none() { let chunk_offset = self.inlay_chunks.offset(); self.inlay_chunk = self.inlay_chunks.next().map(|chunk| (chunk_offset, chunk)); } // Otherwise, take a chunk from the buffer's text. if let Some((buffer_chunk_start, mut chunk)) = self.inlay_chunk { let buffer_chunk_end = buffer_chunk_start + InlayOffset(chunk.text.len()); let transform_end = self.transform_cursor.end(&()).1; let chunk_end = buffer_chunk_end.min(transform_end); chunk.text = &chunk.text [(self.inlay_offset - buffer_chunk_start).0..(chunk_end - buffer_chunk_start).0]; if chunk_end == transform_end { self.transform_cursor.next(&()); } else if chunk_end == buffer_chunk_end { self.inlay_chunk.take(); } self.inlay_offset = chunk_end; self.output_offset += chunk.text.len(); return Some(chunk); } None } } #[derive(Copy, Clone, Eq, PartialEq)] struct HighlightEndpoint { offset: InlayOffset, is_start: bool, tag: Option, style: HighlightStyle, } impl PartialOrd for HighlightEndpoint { fn partial_cmp(&self, other: &Self) -> Option { Some(self.cmp(other)) } } impl Ord for HighlightEndpoint { fn cmp(&self, other: &Self) -> Ordering { self.offset .cmp(&other.offset) .then_with(|| other.is_start.cmp(&self.is_start)) } } #[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)] pub struct FoldOffset(pub usize); impl FoldOffset { pub fn to_point(self, snapshot: &FoldSnapshot) -> FoldPoint { let mut cursor = snapshot .transforms .cursor::<(FoldOffset, TransformSummary)>(); cursor.seek(&self, Bias::Right, &()); let overshoot = if cursor.item().map_or(true, |t| t.is_fold()) { Point::new(0, (self.0 - cursor.start().0 .0) as u32) } else { let inlay_offset = cursor.start().1.input.len + self.0 - cursor.start().0 .0; let inlay_point = snapshot.inlay_snapshot.to_point(InlayOffset(inlay_offset)); inlay_point.0 - cursor.start().1.input.lines }; FoldPoint(cursor.start().1.output.lines + overshoot) } #[cfg(test)] pub fn to_inlay_offset(self, snapshot: &FoldSnapshot) -> InlayOffset { let mut cursor = snapshot.transforms.cursor::<(FoldOffset, InlayOffset)>(); cursor.seek(&self, Bias::Right, &()); let overshoot = self.0 - cursor.start().0 .0; InlayOffset(cursor.start().1 .0 + overshoot) } } impl Add for FoldOffset { type Output = Self; fn add(self, rhs: Self) -> Self::Output { Self(self.0 + rhs.0) } } impl AddAssign for FoldOffset { fn add_assign(&mut self, rhs: Self) { self.0 += rhs.0; } } impl Sub for FoldOffset { type Output = Self; fn sub(self, rhs: Self) -> Self::Output { Self(self.0 - rhs.0) } } impl<'a> sum_tree::Dimension<'a, TransformSummary> for FoldOffset { fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) { self.0 += &summary.output.len; } } impl<'a> sum_tree::Dimension<'a, TransformSummary> for InlayPoint { fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) { self.0 += &summary.input.lines; } } impl<'a> sum_tree::Dimension<'a, TransformSummary> for InlayOffset { fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) { self.0 += &summary.input.len; } } pub type FoldEdit = Edit; #[cfg(test)] mod tests { use super::*; use crate::{display_map::inlay_map::InlayMap, MultiBuffer, ToPoint}; use collections::HashSet; use rand::prelude::*; use settings::SettingsStore; use std::{env, mem}; use text::Patch; use util::test::sample_text; use util::RandomCharIter; use Bias::{Left, Right}; #[gpui::test] fn test_basic_folds(cx: &mut gpui::AppContext) { init_test(cx); let buffer = MultiBuffer::build_simple(&sample_text(5, 6, 'a'), cx); let subscription = buffer.update(cx, |buffer, _| buffer.subscribe()); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (mut inlay_map, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); let mut map = FoldMap::new(inlay_snapshot.clone()).0; let (mut writer, _, _) = map.write(inlay_snapshot, vec![]); let (snapshot2, edits) = writer.fold(vec![ Point::new(0, 2)..Point::new(2, 2), Point::new(2, 4)..Point::new(4, 1), ]); assert_eq!(snapshot2.text(), "aa⋯cc⋯eeeee"); assert_eq!( edits, &[ FoldEdit { old: FoldOffset(2)..FoldOffset(16), new: FoldOffset(2)..FoldOffset(5), }, FoldEdit { old: FoldOffset(18)..FoldOffset(29), new: FoldOffset(7)..FoldOffset(10) }, ] ); let buffer_snapshot = buffer.update(cx, |buffer, cx| { buffer.edit( vec![ (Point::new(0, 0)..Point::new(0, 1), "123"), (Point::new(2, 3)..Point::new(2, 3), "123"), ], None, cx, ); buffer.snapshot(cx) }); let (inlay_snapshot, inlay_edits) = inlay_map.sync(buffer_snapshot, subscription.consume().into_inner()); let (snapshot3, edits) = map.read(inlay_snapshot, inlay_edits); assert_eq!(snapshot3.text(), "123a⋯c123c⋯eeeee"); assert_eq!( edits, &[ FoldEdit { old: FoldOffset(0)..FoldOffset(1), new: FoldOffset(0)..FoldOffset(3), }, FoldEdit { old: FoldOffset(6)..FoldOffset(6), new: FoldOffset(8)..FoldOffset(11), }, ] ); let buffer_snapshot = buffer.update(cx, |buffer, cx| { buffer.edit([(Point::new(2, 6)..Point::new(4, 3), "456")], None, cx); buffer.snapshot(cx) }); let (inlay_snapshot, inlay_edits) = inlay_map.sync(buffer_snapshot, subscription.consume().into_inner()); let (snapshot4, _) = map.read(inlay_snapshot.clone(), inlay_edits); assert_eq!(snapshot4.text(), "123a⋯c123456eee"); let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.unfold(Some(Point::new(0, 4)..Point::new(0, 4)), false); let (snapshot5, _) = map.read(inlay_snapshot.clone(), vec![]); assert_eq!(snapshot5.text(), "123a⋯c123456eee"); let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.unfold(Some(Point::new(0, 4)..Point::new(0, 4)), true); let (snapshot6, _) = map.read(inlay_snapshot, vec![]); assert_eq!(snapshot6.text(), "123aaaaa\nbbbbbb\nccc123456eee"); } #[gpui::test] fn test_adjacent_folds(cx: &mut gpui::AppContext) { init_test(cx); let buffer = MultiBuffer::build_simple("abcdefghijkl", cx); let subscription = buffer.update(cx, |buffer, _| buffer.subscribe()); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (mut inlay_map, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); { let mut map = FoldMap::new(inlay_snapshot.clone()).0; let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.fold(vec![5..8]); let (snapshot, _) = map.read(inlay_snapshot.clone(), vec![]); assert_eq!(snapshot.text(), "abcde⋯ijkl"); // Create an fold adjacent to the start of the first fold. let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.fold(vec![0..1, 2..5]); let (snapshot, _) = map.read(inlay_snapshot.clone(), vec![]); assert_eq!(snapshot.text(), "⋯b⋯ijkl"); // Create an fold adjacent to the end of the first fold. let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.fold(vec![11..11, 8..10]); let (snapshot, _) = map.read(inlay_snapshot.clone(), vec![]); assert_eq!(snapshot.text(), "⋯b⋯kl"); } { let mut map = FoldMap::new(inlay_snapshot.clone()).0; // Create two adjacent folds. let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.fold(vec![0..2, 2..5]); let (snapshot, _) = map.read(inlay_snapshot, vec![]); assert_eq!(snapshot.text(), "⋯fghijkl"); // Edit within one of the folds. let buffer_snapshot = buffer.update(cx, |buffer, cx| { buffer.edit([(0..1, "12345")], None, cx); buffer.snapshot(cx) }); let (inlay_snapshot, inlay_edits) = inlay_map.sync(buffer_snapshot, subscription.consume().into_inner()); let (snapshot, _) = map.read(inlay_snapshot, inlay_edits); assert_eq!(snapshot.text(), "12345⋯fghijkl"); } } #[gpui::test] fn test_overlapping_folds(cx: &mut gpui::AppContext) { let buffer = MultiBuffer::build_simple(&sample_text(5, 6, 'a'), cx); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (_, inlay_snapshot) = InlayMap::new(buffer_snapshot); let mut map = FoldMap::new(inlay_snapshot.clone()).0; let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.fold(vec![ Point::new(0, 2)..Point::new(2, 2), Point::new(0, 4)..Point::new(1, 0), Point::new(1, 2)..Point::new(3, 2), Point::new(3, 1)..Point::new(4, 1), ]); let (snapshot, _) = map.read(inlay_snapshot, vec![]); assert_eq!(snapshot.text(), "aa⋯eeeee"); } #[gpui::test] fn test_merging_folds_via_edit(cx: &mut gpui::AppContext) { init_test(cx); let buffer = MultiBuffer::build_simple(&sample_text(5, 6, 'a'), cx); let subscription = buffer.update(cx, |buffer, _| buffer.subscribe()); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (mut inlay_map, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); let mut map = FoldMap::new(inlay_snapshot.clone()).0; let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.fold(vec![ Point::new(0, 2)..Point::new(2, 2), Point::new(3, 1)..Point::new(4, 1), ]); let (snapshot, _) = map.read(inlay_snapshot.clone(), vec![]); assert_eq!(snapshot.text(), "aa⋯cccc\nd⋯eeeee"); let buffer_snapshot = buffer.update(cx, |buffer, cx| { buffer.edit([(Point::new(2, 2)..Point::new(3, 1), "")], None, cx); buffer.snapshot(cx) }); let (inlay_snapshot, inlay_edits) = inlay_map.sync(buffer_snapshot, subscription.consume().into_inner()); let (snapshot, _) = map.read(inlay_snapshot, inlay_edits); assert_eq!(snapshot.text(), "aa⋯eeeee"); } #[gpui::test] fn test_folds_in_range(cx: &mut gpui::AppContext) { let buffer = MultiBuffer::build_simple(&sample_text(5, 6, 'a'), cx); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (_, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); let mut map = FoldMap::new(inlay_snapshot.clone()).0; let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.fold(vec![ Point::new(0, 2)..Point::new(2, 2), Point::new(0, 4)..Point::new(1, 0), Point::new(1, 2)..Point::new(3, 2), Point::new(3, 1)..Point::new(4, 1), ]); let (snapshot, _) = map.read(inlay_snapshot.clone(), vec![]); let fold_ranges = snapshot .folds_in_range(Point::new(1, 0)..Point::new(1, 3)) .map(|fold| fold.start.to_point(&buffer_snapshot)..fold.end.to_point(&buffer_snapshot)) .collect::>(); assert_eq!( fold_ranges, vec![ Point::new(0, 2)..Point::new(2, 2), Point::new(1, 2)..Point::new(3, 2) ] ); } #[gpui::test(iterations = 100)] fn test_random_folds(cx: &mut gpui::AppContext, mut rng: StdRng) { init_test(cx); let operations = env::var("OPERATIONS") .map(|i| i.parse().expect("invalid `OPERATIONS` variable")) .unwrap_or(10); let len = rng.gen_range(0..10); let text = RandomCharIter::new(&mut rng).take(len).collect::(); let buffer = if rng.gen() { MultiBuffer::build_simple(&text, cx) } else { MultiBuffer::build_random(&mut rng, cx) }; let mut buffer_snapshot = buffer.read(cx).snapshot(cx); let (mut inlay_map, inlay_snapshot) = InlayMap::new(buffer_snapshot.clone()); let mut map = FoldMap::new(inlay_snapshot.clone()).0; let (mut initial_snapshot, _) = map.read(inlay_snapshot.clone(), vec![]); let mut snapshot_edits = Vec::new(); let mut next_inlay_id = 0; for _ in 0..operations { log::info!("text: {:?}", buffer_snapshot.text()); let mut buffer_edits = Vec::new(); let mut inlay_edits = Vec::new(); match rng.gen_range(0..=100) { 0..=39 => { snapshot_edits.extend(map.randomly_mutate(&mut rng)); } 40..=59 => { let (_, edits) = inlay_map.randomly_mutate(&mut next_inlay_id, &mut rng); inlay_edits = edits; } _ => buffer.update(cx, |buffer, cx| { let subscription = buffer.subscribe(); let edit_count = rng.gen_range(1..=5); buffer.randomly_mutate(&mut rng, edit_count, cx); buffer_snapshot = buffer.snapshot(cx); let edits = subscription.consume().into_inner(); log::info!("editing {:?}", edits); buffer_edits.extend(edits); }), }; let (inlay_snapshot, new_inlay_edits) = inlay_map.sync(buffer_snapshot.clone(), buffer_edits); log::info!("inlay text {:?}", inlay_snapshot.text()); let inlay_edits = Patch::new(inlay_edits) .compose(new_inlay_edits) .into_inner(); let (snapshot, edits) = map.read(inlay_snapshot.clone(), inlay_edits); snapshot_edits.push((snapshot.clone(), edits)); let mut expected_text: String = inlay_snapshot.text().to_string(); for fold_range in map.merged_fold_ranges().into_iter().rev() { let fold_inlay_start = inlay_snapshot.to_inlay_offset(fold_range.start); let fold_inlay_end = inlay_snapshot.to_inlay_offset(fold_range.end); expected_text.replace_range(fold_inlay_start.0..fold_inlay_end.0, "⋯"); } assert_eq!(snapshot.text(), expected_text); log::info!( "fold text {:?} ({} lines)", expected_text, expected_text.matches('\n').count() + 1 ); let mut prev_row = 0; let mut expected_buffer_rows = Vec::new(); for fold_range in map.merged_fold_ranges().into_iter() { let fold_start = inlay_snapshot .to_point(inlay_snapshot.to_inlay_offset(fold_range.start)) .row(); let fold_end = inlay_snapshot .to_point(inlay_snapshot.to_inlay_offset(fold_range.end)) .row(); expected_buffer_rows.extend( inlay_snapshot .buffer_rows(prev_row) .take((1 + fold_start - prev_row) as usize), ); prev_row = 1 + fold_end; } expected_buffer_rows.extend(inlay_snapshot.buffer_rows(prev_row)); assert_eq!( expected_buffer_rows.len(), expected_text.matches('\n').count() + 1, "wrong expected buffer rows {:?}. text: {:?}", expected_buffer_rows, expected_text ); for (output_row, line) in expected_text.lines().enumerate() { let line_len = snapshot.line_len(output_row as u32); assert_eq!(line_len, line.len() as u32); } let longest_row = snapshot.longest_row(); let longest_char_column = expected_text .split('\n') .nth(longest_row as usize) .unwrap() .chars() .count(); let mut fold_point = FoldPoint::new(0, 0); let mut fold_offset = FoldOffset(0); let mut char_column = 0; for c in expected_text.chars() { let inlay_point = fold_point.to_inlay_point(&snapshot); let inlay_offset = fold_offset.to_inlay_offset(&snapshot); assert_eq!( snapshot.to_fold_point(inlay_point, Right), fold_point, "{:?} -> fold point", inlay_point, ); assert_eq!( inlay_snapshot.to_offset(inlay_point), inlay_offset, "inlay_snapshot.to_offset({:?})", inlay_point, ); assert_eq!( fold_point.to_offset(&snapshot), fold_offset, "fold_point.to_offset({:?})", fold_point, ); if c == '\n' { *fold_point.row_mut() += 1; *fold_point.column_mut() = 0; char_column = 0; } else { *fold_point.column_mut() += c.len_utf8() as u32; char_column += 1; } fold_offset.0 += c.len_utf8(); if char_column > longest_char_column { panic!( "invalid longest row {:?} (chars {}), found row {:?} (chars: {})", longest_row, longest_char_column, fold_point.row(), char_column ); } } for _ in 0..5 { let mut start = snapshot .clip_offset(FoldOffset(rng.gen_range(0..=snapshot.len().0)), Bias::Left); let mut end = snapshot .clip_offset(FoldOffset(rng.gen_range(0..=snapshot.len().0)), Bias::Right); if start > end { mem::swap(&mut start, &mut end); } let text = &expected_text[start.0..end.0]; assert_eq!( snapshot .chunks(start..end, false, Highlights::default()) .map(|c| c.text) .collect::(), text, ); } let mut fold_row = 0; while fold_row < expected_buffer_rows.len() as u32 { assert_eq!( snapshot.buffer_rows(fold_row).collect::>(), expected_buffer_rows[(fold_row as usize)..], "wrong buffer rows starting at fold row {}", fold_row, ); fold_row += 1; } let folded_buffer_rows = map .merged_fold_ranges() .iter() .flat_map(|range| { let start_row = range.start.to_point(&buffer_snapshot).row; let end = range.end.to_point(&buffer_snapshot); if end.column == 0 { start_row..end.row } else { start_row..end.row + 1 } }) .collect::>(); for row in 0..=buffer_snapshot.max_point().row { assert_eq!( snapshot.is_line_folded(row), folded_buffer_rows.contains(&row), "expected buffer row {}{} to be folded", row, if folded_buffer_rows.contains(&row) { "" } else { " not" } ); } for _ in 0..5 { let end = buffer_snapshot.clip_offset(rng.gen_range(0..=buffer_snapshot.len()), Right); let start = buffer_snapshot.clip_offset(rng.gen_range(0..=end), Left); let expected_folds = map .snapshot .folds .items(&buffer_snapshot) .into_iter() .filter(|fold| { let start = buffer_snapshot.anchor_before(start); let end = buffer_snapshot.anchor_after(end); start.cmp(&fold.0.end, &buffer_snapshot) == Ordering::Less && end.cmp(&fold.0.start, &buffer_snapshot) == Ordering::Greater }) .map(|fold| fold.0) .collect::>(); assert_eq!( snapshot .folds_in_range(start..end) .cloned() .collect::>(), expected_folds ); } let text = snapshot.text(); for _ in 0..5 { let start_row = rng.gen_range(0..=snapshot.max_point().row()); let start_column = rng.gen_range(0..=snapshot.line_len(start_row)); let end_row = rng.gen_range(0..=snapshot.max_point().row()); let end_column = rng.gen_range(0..=snapshot.line_len(end_row)); let mut start = snapshot.clip_point(FoldPoint::new(start_row, start_column), Bias::Left); let mut end = snapshot.clip_point(FoldPoint::new(end_row, end_column), Bias::Right); if start > end { mem::swap(&mut start, &mut end); } let lines = start..end; let bytes = start.to_offset(&snapshot)..end.to_offset(&snapshot); assert_eq!( snapshot.text_summary_for_range(lines), TextSummary::from(&text[bytes.start.0..bytes.end.0]) ) } let mut text = initial_snapshot.text(); for (snapshot, edits) in snapshot_edits.drain(..) { let new_text = snapshot.text(); for edit in edits { let old_bytes = edit.new.start.0..edit.new.start.0 + edit.old_len().0; let new_bytes = edit.new.start.0..edit.new.end.0; text.replace_range(old_bytes, &new_text[new_bytes]); } assert_eq!(text, new_text); initial_snapshot = snapshot; } } } #[gpui::test] fn test_buffer_rows(cx: &mut gpui::AppContext) { let text = sample_text(6, 6, 'a') + "\n"; let buffer = MultiBuffer::build_simple(&text, cx); let buffer_snapshot = buffer.read(cx).snapshot(cx); let (_, inlay_snapshot) = InlayMap::new(buffer_snapshot); let mut map = FoldMap::new(inlay_snapshot.clone()).0; let (mut writer, _, _) = map.write(inlay_snapshot.clone(), vec![]); writer.fold(vec![ Point::new(0, 2)..Point::new(2, 2), Point::new(3, 1)..Point::new(4, 1), ]); let (snapshot, _) = map.read(inlay_snapshot, vec![]); assert_eq!(snapshot.text(), "aa⋯cccc\nd⋯eeeee\nffffff\n"); assert_eq!( snapshot.buffer_rows(0).collect::>(), [Some(0), Some(3), Some(5), Some(6)] ); assert_eq!(snapshot.buffer_rows(3).collect::>(), [Some(6)]); } fn init_test(cx: &mut gpui::AppContext) { cx.set_global(SettingsStore::test(cx)); } impl FoldMap { fn merged_fold_ranges(&self) -> Vec> { let inlay_snapshot = self.snapshot.inlay_snapshot.clone(); let buffer = &inlay_snapshot.buffer; let mut folds = self.snapshot.folds.items(buffer); // Ensure sorting doesn't change how folds get merged and displayed. folds.sort_by(|a, b| a.0.cmp(&b.0, buffer)); let mut fold_ranges = folds .iter() .map(|fold| fold.0.start.to_offset(buffer)..fold.0.end.to_offset(buffer)) .peekable(); let mut merged_ranges = Vec::new(); while let Some(mut fold_range) = fold_ranges.next() { while let Some(next_range) = fold_ranges.peek() { if fold_range.end >= next_range.start { if next_range.end > fold_range.end { fold_range.end = next_range.end; } fold_ranges.next(); } else { break; } } if fold_range.end > fold_range.start { merged_ranges.push(fold_range); } } merged_ranges } pub fn randomly_mutate( &mut self, rng: &mut impl Rng, ) -> Vec<(FoldSnapshot, Vec)> { let mut snapshot_edits = Vec::new(); match rng.gen_range(0..=100) { 0..=39 if !self.snapshot.folds.is_empty() => { let inlay_snapshot = self.snapshot.inlay_snapshot.clone(); let buffer = &inlay_snapshot.buffer; let mut to_unfold = Vec::new(); for _ in 0..rng.gen_range(1..=3) { let end = buffer.clip_offset(rng.gen_range(0..=buffer.len()), Right); let start = buffer.clip_offset(rng.gen_range(0..=end), Left); to_unfold.push(start..end); } log::info!("unfolding {:?}", to_unfold); let (mut writer, snapshot, edits) = self.write(inlay_snapshot, vec![]); snapshot_edits.push((snapshot, edits)); let (snapshot, edits) = writer.fold(to_unfold); snapshot_edits.push((snapshot, edits)); } _ => { let inlay_snapshot = self.snapshot.inlay_snapshot.clone(); let buffer = &inlay_snapshot.buffer; let mut to_fold = Vec::new(); for _ in 0..rng.gen_range(1..=2) { let end = buffer.clip_offset(rng.gen_range(0..=buffer.len()), Right); let start = buffer.clip_offset(rng.gen_range(0..=end), Left); to_fold.push(start..end); } log::info!("folding {:?}", to_fold); let (mut writer, snapshot, edits) = self.write(inlay_snapshot, vec![]); snapshot_edits.push((snapshot, edits)); let (snapshot, edits) = writer.fold(to_fold); snapshot_edits.push((snapshot, edits)); } } snapshot_edits } } }