1use super::TextHighlights;
2use crate::{
3 multi_buffer::MultiBufferRows, Anchor, AnchorRangeExt, MultiBufferChunks, MultiBufferSnapshot,
4 ToOffset,
5};
6use collections::BTreeMap;
7use gpui::fonts::HighlightStyle;
8use language::{Chunk, Edit, Point, PointUtf16, TextSummary};
9use parking_lot::Mutex;
10use std::{
11 any::TypeId,
12 cmp::{self, Ordering},
13 iter::{self, Peekable},
14 ops::{Range, Sub},
15 sync::atomic::{AtomicUsize, Ordering::SeqCst},
16 vec,
17};
18use sum_tree::{Bias, Cursor, FilterCursor, SumTree};
19
20#[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)]
21pub struct FoldPoint(pub super::Point);
22
23impl FoldPoint {
24 pub fn new(row: u32, column: u32) -> Self {
25 Self(super::Point::new(row, column))
26 }
27
28 pub fn row(self) -> u32 {
29 self.0.row
30 }
31
32 pub fn column(self) -> u32 {
33 self.0.column
34 }
35
36 pub fn row_mut(&mut self) -> &mut u32 {
37 &mut self.0.row
38 }
39
40 pub fn column_mut(&mut self) -> &mut u32 {
41 &mut self.0.column
42 }
43
44 pub fn to_buffer_point(&self, snapshot: &FoldSnapshot) -> Point {
45 let mut cursor = snapshot.transforms.cursor::<(FoldPoint, Point)>();
46 cursor.seek(self, Bias::Right, &());
47 let overshoot = self.0 - cursor.start().0 .0;
48 cursor.start().1 + overshoot
49 }
50
51 pub fn to_buffer_offset(&self, snapshot: &FoldSnapshot) -> usize {
52 let mut cursor = snapshot.transforms.cursor::<(FoldPoint, Point)>();
53 cursor.seek(self, Bias::Right, &());
54 let overshoot = self.0 - cursor.start().0 .0;
55 snapshot
56 .buffer_snapshot
57 .point_to_offset(cursor.start().1 + overshoot)
58 }
59
60 pub fn to_offset(&self, snapshot: &FoldSnapshot) -> FoldOffset {
61 let mut cursor = snapshot
62 .transforms
63 .cursor::<(FoldPoint, TransformSummary)>();
64 cursor.seek(self, Bias::Right, &());
65 let overshoot = self.0 - cursor.start().1.output.lines;
66 let mut offset = cursor.start().1.output.bytes;
67 if !overshoot.is_zero() {
68 let transform = cursor.item().expect("display point out of range");
69 assert!(transform.output_text.is_none());
70 let end_buffer_offset = snapshot
71 .buffer_snapshot
72 .point_to_offset(cursor.start().1.input.lines + overshoot);
73 offset += end_buffer_offset - cursor.start().1.input.bytes;
74 }
75 FoldOffset(offset)
76 }
77}
78
79impl<'a> sum_tree::Dimension<'a, TransformSummary> for FoldPoint {
80 fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
81 self.0 += &summary.output.lines;
82 }
83}
84
85pub struct FoldMapWriter<'a>(&'a mut FoldMap);
86
87impl<'a> FoldMapWriter<'a> {
88 pub fn fold<T: ToOffset>(
89 &mut self,
90 ranges: impl IntoIterator<Item = Range<T>>,
91 ) -> (FoldSnapshot, Vec<FoldEdit>) {
92 let mut edits = Vec::new();
93 let mut folds = Vec::new();
94 let buffer = self.0.buffer.lock().clone();
95 for range in ranges.into_iter() {
96 let range = range.start.to_offset(&buffer)..range.end.to_offset(&buffer);
97
98 // Ignore any empty ranges.
99 if range.start == range.end {
100 continue;
101 }
102
103 // For now, ignore any ranges that span an excerpt boundary.
104 let fold = Fold(buffer.anchor_after(range.start)..buffer.anchor_before(range.end));
105 if fold.0.start.excerpt_id() != fold.0.end.excerpt_id() {
106 continue;
107 }
108
109 folds.push(fold);
110 edits.push(text::Edit {
111 old: range.clone(),
112 new: range,
113 });
114 }
115
116 folds.sort_unstable_by(|a, b| sum_tree::SeekTarget::cmp(a, b, &buffer));
117
118 self.0.folds = {
119 let mut new_tree = SumTree::new();
120 let mut cursor = self.0.folds.cursor::<Fold>();
121 for fold in folds {
122 new_tree.push_tree(cursor.slice(&fold, Bias::Right, &buffer), &buffer);
123 new_tree.push(fold, &buffer);
124 }
125 new_tree.push_tree(cursor.suffix(&buffer), &buffer);
126 new_tree
127 };
128
129 consolidate_buffer_edits(&mut edits);
130 let edits = self.0.sync(buffer.clone(), edits);
131 let snapshot = FoldSnapshot {
132 transforms: self.0.transforms.lock().clone(),
133 folds: self.0.folds.clone(),
134 buffer_snapshot: buffer,
135 version: self.0.version.load(SeqCst),
136 };
137 (snapshot, edits)
138 }
139
140 pub fn unfold<T: ToOffset>(
141 &mut self,
142 ranges: impl IntoIterator<Item = Range<T>>,
143 ) -> (FoldSnapshot, Vec<FoldEdit>) {
144 let mut edits = Vec::new();
145 let mut fold_ixs_to_delete = Vec::new();
146 let buffer = self.0.buffer.lock().clone();
147 for range in ranges.into_iter() {
148 // Remove intersecting folds and add their ranges to edits that are passed to sync.
149 let mut folds_cursor = intersecting_folds(&buffer, &self.0.folds, range, true);
150 while let Some(fold) = folds_cursor.item() {
151 let offset_range = fold.0.start.to_offset(&buffer)..fold.0.end.to_offset(&buffer);
152 if offset_range.end > offset_range.start {
153 edits.push(text::Edit {
154 old: offset_range.clone(),
155 new: offset_range,
156 });
157 }
158 fold_ixs_to_delete.push(*folds_cursor.start());
159 folds_cursor.next(&buffer);
160 }
161 }
162
163 fold_ixs_to_delete.sort_unstable();
164 fold_ixs_to_delete.dedup();
165
166 self.0.folds = {
167 let mut cursor = self.0.folds.cursor::<usize>();
168 let mut folds = SumTree::new();
169 for fold_ix in fold_ixs_to_delete {
170 folds.push_tree(cursor.slice(&fold_ix, Bias::Right, &buffer), &buffer);
171 cursor.next(&buffer);
172 }
173 folds.push_tree(cursor.suffix(&buffer), &buffer);
174 folds
175 };
176
177 consolidate_buffer_edits(&mut edits);
178 let edits = self.0.sync(buffer.clone(), edits);
179 let snapshot = FoldSnapshot {
180 transforms: self.0.transforms.lock().clone(),
181 folds: self.0.folds.clone(),
182 buffer_snapshot: buffer,
183 version: self.0.version.load(SeqCst),
184 };
185 (snapshot, edits)
186 }
187}
188
189pub struct FoldMap {
190 buffer: Mutex<MultiBufferSnapshot>,
191 transforms: Mutex<SumTree<Transform>>,
192 folds: SumTree<Fold>,
193 version: AtomicUsize,
194}
195
196impl FoldMap {
197 pub fn new(buffer: MultiBufferSnapshot) -> (Self, FoldSnapshot) {
198 let this = Self {
199 buffer: Mutex::new(buffer.clone()),
200 folds: Default::default(),
201 transforms: Mutex::new(SumTree::from_item(
202 Transform {
203 summary: TransformSummary {
204 input: buffer.text_summary(),
205 output: buffer.text_summary(),
206 },
207 output_text: None,
208 },
209 &(),
210 )),
211 version: Default::default(),
212 };
213
214 let snapshot = FoldSnapshot {
215 transforms: this.transforms.lock().clone(),
216 folds: this.folds.clone(),
217 buffer_snapshot: this.buffer.lock().clone(),
218 version: this.version.load(SeqCst),
219 };
220 (this, snapshot)
221 }
222
223 pub fn read(
224 &self,
225 buffer: MultiBufferSnapshot,
226 edits: Vec<Edit<usize>>,
227 ) -> (FoldSnapshot, Vec<FoldEdit>) {
228 let edits = self.sync(buffer, edits);
229 self.check_invariants();
230 let snapshot = FoldSnapshot {
231 transforms: self.transforms.lock().clone(),
232 folds: self.folds.clone(),
233 buffer_snapshot: self.buffer.lock().clone(),
234 version: self.version.load(SeqCst),
235 };
236 (snapshot, edits)
237 }
238
239 pub fn write(
240 &mut self,
241 buffer: MultiBufferSnapshot,
242 edits: Vec<Edit<usize>>,
243 ) -> (FoldMapWriter, FoldSnapshot, Vec<FoldEdit>) {
244 let (snapshot, edits) = self.read(buffer, edits);
245 (FoldMapWriter(self), snapshot, edits)
246 }
247
248 fn check_invariants(&self) {
249 if cfg!(test) {
250 assert_eq!(
251 self.transforms.lock().summary().input.bytes,
252 self.buffer.lock().len(),
253 "transform tree does not match buffer's length"
254 );
255
256 let mut folds = self.folds.iter().peekable();
257 while let Some(fold) = folds.next() {
258 if let Some(next_fold) = folds.peek() {
259 let comparison = fold.0.cmp(&next_fold.0, &self.buffer.lock());
260 assert!(comparison.is_le());
261 }
262 }
263 }
264 }
265
266 fn sync(
267 &self,
268 new_buffer: MultiBufferSnapshot,
269 buffer_edits: Vec<text::Edit<usize>>,
270 ) -> Vec<FoldEdit> {
271 if buffer_edits.is_empty() {
272 let mut buffer = self.buffer.lock();
273 if buffer.parse_count() != new_buffer.parse_count()
274 || buffer.diagnostics_update_count() != new_buffer.diagnostics_update_count()
275 || buffer.trailing_excerpt_update_count()
276 != new_buffer.trailing_excerpt_update_count()
277 {
278 self.version.fetch_add(1, SeqCst);
279 }
280 *buffer = new_buffer;
281 Vec::new()
282 } else {
283 let mut buffer_edits_iter = buffer_edits.iter().cloned().peekable();
284
285 let mut new_transforms = SumTree::new();
286 let mut transforms = self.transforms.lock();
287 let mut cursor = transforms.cursor::<usize>();
288 cursor.seek(&0, Bias::Right, &());
289
290 while let Some(mut edit) = buffer_edits_iter.next() {
291 new_transforms.push_tree(cursor.slice(&edit.old.start, Bias::Left, &()), &());
292 edit.new.start -= edit.old.start - cursor.start();
293 edit.old.start = *cursor.start();
294
295 cursor.seek(&edit.old.end, Bias::Right, &());
296 cursor.next(&());
297
298 let mut delta = edit.new.len() as isize - edit.old.len() as isize;
299 loop {
300 edit.old.end = *cursor.start();
301
302 if let Some(next_edit) = buffer_edits_iter.peek() {
303 if next_edit.old.start > edit.old.end {
304 break;
305 }
306
307 let next_edit = buffer_edits_iter.next().unwrap();
308 delta += next_edit.new.len() as isize - next_edit.old.len() as isize;
309
310 if next_edit.old.end >= edit.old.end {
311 edit.old.end = next_edit.old.end;
312 cursor.seek(&edit.old.end, Bias::Right, &());
313 cursor.next(&());
314 }
315 } else {
316 break;
317 }
318 }
319
320 edit.new.end = ((edit.new.start + edit.old.len()) as isize + delta) as usize;
321
322 let anchor = new_buffer.anchor_before(edit.new.start);
323 let mut folds_cursor = self.folds.cursor::<Fold>();
324 folds_cursor.seek(&Fold(anchor..Anchor::max()), Bias::Left, &new_buffer);
325
326 let mut folds = iter::from_fn({
327 let buffer = &new_buffer;
328 move || {
329 let item = folds_cursor
330 .item()
331 .map(|f| f.0.start.to_offset(buffer)..f.0.end.to_offset(buffer));
332 folds_cursor.next(buffer);
333 item
334 }
335 })
336 .peekable();
337
338 while folds.peek().map_or(false, |fold| fold.start < edit.new.end) {
339 let mut fold = folds.next().unwrap();
340 let sum = new_transforms.summary();
341
342 assert!(fold.start >= sum.input.bytes);
343
344 while folds
345 .peek()
346 .map_or(false, |next_fold| next_fold.start <= fold.end)
347 {
348 let next_fold = folds.next().unwrap();
349 if next_fold.end > fold.end {
350 fold.end = next_fold.end;
351 }
352 }
353
354 if fold.start > sum.input.bytes {
355 let text_summary = new_buffer
356 .text_summary_for_range::<TextSummary, _>(sum.input.bytes..fold.start);
357 new_transforms.push(
358 Transform {
359 summary: TransformSummary {
360 output: text_summary.clone(),
361 input: text_summary,
362 },
363 output_text: None,
364 },
365 &(),
366 );
367 }
368
369 if fold.end > fold.start {
370 let output_text = "…";
371 let chars = output_text.chars().count() as u32;
372 let lines = Point::new(0, output_text.len() as u32);
373 let lines_utf16 =
374 PointUtf16::new(0, output_text.encode_utf16().count() as u32);
375 new_transforms.push(
376 Transform {
377 summary: TransformSummary {
378 output: TextSummary {
379 bytes: output_text.len(),
380 lines,
381 lines_utf16,
382 first_line_chars: chars,
383 last_line_chars: chars,
384 longest_row: 0,
385 longest_row_chars: chars,
386 },
387 input: new_buffer.text_summary_for_range(fold.start..fold.end),
388 },
389 output_text: Some(output_text),
390 },
391 &(),
392 );
393 }
394 }
395
396 let sum = new_transforms.summary();
397 if sum.input.bytes < edit.new.end {
398 let text_summary = new_buffer
399 .text_summary_for_range::<TextSummary, _>(sum.input.bytes..edit.new.end);
400 new_transforms.push(
401 Transform {
402 summary: TransformSummary {
403 output: text_summary.clone(),
404 input: text_summary,
405 },
406 output_text: None,
407 },
408 &(),
409 );
410 }
411 }
412
413 new_transforms.push_tree(cursor.suffix(&()), &());
414 if new_transforms.is_empty() {
415 let text_summary = new_buffer.text_summary();
416 new_transforms.push(
417 Transform {
418 summary: TransformSummary {
419 output: text_summary.clone(),
420 input: text_summary,
421 },
422 output_text: None,
423 },
424 &(),
425 );
426 }
427
428 drop(cursor);
429
430 let mut fold_edits = Vec::with_capacity(buffer_edits.len());
431 {
432 let mut old_transforms = transforms.cursor::<(usize, FoldOffset)>();
433 let mut new_transforms = new_transforms.cursor::<(usize, FoldOffset)>();
434
435 for mut edit in buffer_edits {
436 old_transforms.seek(&edit.old.start, Bias::Left, &());
437 if old_transforms.item().map_or(false, |t| t.is_fold()) {
438 edit.old.start = old_transforms.start().0;
439 }
440 let old_start =
441 old_transforms.start().1 .0 + (edit.old.start - old_transforms.start().0);
442
443 old_transforms.seek_forward(&edit.old.end, Bias::Right, &());
444 if old_transforms.item().map_or(false, |t| t.is_fold()) {
445 old_transforms.next(&());
446 edit.old.end = old_transforms.start().0;
447 }
448 let old_end =
449 old_transforms.start().1 .0 + (edit.old.end - old_transforms.start().0);
450
451 new_transforms.seek(&edit.new.start, Bias::Left, &());
452 if new_transforms.item().map_or(false, |t| t.is_fold()) {
453 edit.new.start = new_transforms.start().0;
454 }
455 let new_start =
456 new_transforms.start().1 .0 + (edit.new.start - new_transforms.start().0);
457
458 new_transforms.seek_forward(&edit.new.end, Bias::Right, &());
459 if new_transforms.item().map_or(false, |t| t.is_fold()) {
460 new_transforms.next(&());
461 edit.new.end = new_transforms.start().0;
462 }
463 let new_end =
464 new_transforms.start().1 .0 + (edit.new.end - new_transforms.start().0);
465
466 fold_edits.push(FoldEdit {
467 old: FoldOffset(old_start)..FoldOffset(old_end),
468 new: FoldOffset(new_start)..FoldOffset(new_end),
469 });
470 }
471
472 consolidate_fold_edits(&mut fold_edits);
473 }
474
475 *transforms = new_transforms;
476 *self.buffer.lock() = new_buffer;
477 self.version.fetch_add(1, SeqCst);
478 fold_edits
479 }
480 }
481}
482
483#[derive(Clone)]
484pub struct FoldSnapshot {
485 transforms: SumTree<Transform>,
486 folds: SumTree<Fold>,
487 buffer_snapshot: MultiBufferSnapshot,
488 pub version: usize,
489}
490
491impl FoldSnapshot {
492 pub fn buffer_snapshot(&self) -> &MultiBufferSnapshot {
493 &self.buffer_snapshot
494 }
495
496 #[cfg(test)]
497 pub fn text(&self) -> String {
498 self.chunks(FoldOffset(0)..self.len(), false, None)
499 .map(|c| c.text)
500 .collect()
501 }
502
503 #[cfg(test)]
504 pub fn fold_count(&self) -> usize {
505 self.folds.items(&self.buffer_snapshot).len()
506 }
507
508 pub fn text_summary_for_range(&self, range: Range<FoldPoint>) -> TextSummary {
509 let mut summary = TextSummary::default();
510
511 let mut cursor = self.transforms.cursor::<(FoldPoint, Point)>();
512 cursor.seek(&range.start, Bias::Right, &());
513 if let Some(transform) = cursor.item() {
514 let start_in_transform = range.start.0 - cursor.start().0 .0;
515 let end_in_transform = cmp::min(range.end, cursor.end(&()).0).0 - cursor.start().0 .0;
516 if let Some(output_text) = transform.output_text {
517 summary = TextSummary::from(
518 &output_text
519 [start_in_transform.column as usize..end_in_transform.column as usize],
520 );
521 } else {
522 let buffer_start = cursor.start().1 + start_in_transform;
523 let buffer_end = cursor.start().1 + end_in_transform;
524 summary = self
525 .buffer_snapshot
526 .text_summary_for_range(buffer_start..buffer_end);
527 }
528 }
529
530 if range.end > cursor.end(&()).0 {
531 cursor.next(&());
532 summary += &cursor
533 .summary::<_, TransformSummary>(&range.end, Bias::Right, &())
534 .output;
535 if let Some(transform) = cursor.item() {
536 let end_in_transform = range.end.0 - cursor.start().0 .0;
537 if let Some(output_text) = transform.output_text {
538 summary += TextSummary::from(&output_text[..end_in_transform.column as usize]);
539 } else {
540 let buffer_start = cursor.start().1;
541 let buffer_end = cursor.start().1 + end_in_transform;
542 summary += self
543 .buffer_snapshot
544 .text_summary_for_range::<TextSummary, _>(buffer_start..buffer_end);
545 }
546 }
547 }
548
549 summary
550 }
551
552 pub fn to_fold_point(&self, point: Point, bias: Bias) -> FoldPoint {
553 let mut cursor = self.transforms.cursor::<(Point, FoldPoint)>();
554 cursor.seek(&point, Bias::Right, &());
555 if cursor.item().map_or(false, |t| t.is_fold()) {
556 if bias == Bias::Left || point == cursor.start().0 {
557 cursor.start().1
558 } else {
559 cursor.end(&()).1
560 }
561 } else {
562 let overshoot = point - cursor.start().0;
563 FoldPoint(cmp::min(
564 cursor.start().1 .0 + overshoot,
565 cursor.end(&()).1 .0,
566 ))
567 }
568 }
569
570 pub fn len(&self) -> FoldOffset {
571 FoldOffset(self.transforms.summary().output.bytes)
572 }
573
574 pub fn line_len(&self, row: u32) -> u32 {
575 let line_start = FoldPoint::new(row, 0).to_offset(self).0;
576 let line_end = if row >= self.max_point().row() {
577 self.len().0
578 } else {
579 FoldPoint::new(row + 1, 0).to_offset(self).0 - 1
580 };
581 (line_end - line_start) as u32
582 }
583
584 pub fn buffer_rows(&self, start_row: u32) -> FoldBufferRows {
585 if start_row > self.transforms.summary().output.lines.row {
586 panic!("invalid display row {}", start_row);
587 }
588
589 let fold_point = FoldPoint::new(start_row, 0);
590 let mut cursor = self.transforms.cursor::<(FoldPoint, Point)>();
591 cursor.seek(&fold_point, Bias::Left, &());
592
593 let overshoot = fold_point.0 - cursor.start().0 .0;
594 let buffer_point = cursor.start().1 + overshoot;
595 let input_buffer_rows = self.buffer_snapshot.buffer_rows(buffer_point.row);
596
597 FoldBufferRows {
598 fold_point,
599 input_buffer_rows,
600 cursor,
601 }
602 }
603
604 pub fn max_point(&self) -> FoldPoint {
605 FoldPoint(self.transforms.summary().output.lines)
606 }
607
608 #[cfg(test)]
609 pub fn longest_row(&self) -> u32 {
610 self.transforms.summary().output.longest_row
611 }
612
613 pub fn folds_in_range<'a, T>(
614 &'a self,
615 range: Range<T>,
616 ) -> impl Iterator<Item = &'a Range<Anchor>>
617 where
618 T: ToOffset,
619 {
620 let mut folds = intersecting_folds(&self.buffer_snapshot, &self.folds, range, false);
621 iter::from_fn(move || {
622 let item = folds.item().map(|f| &f.0);
623 folds.next(&self.buffer_snapshot);
624 item
625 })
626 }
627
628 pub fn intersects_fold<T>(&self, offset: T) -> bool
629 where
630 T: ToOffset,
631 {
632 let offset = offset.to_offset(&self.buffer_snapshot);
633 let mut cursor = self.transforms.cursor::<usize>();
634 cursor.seek(&offset, Bias::Right, &());
635 cursor.item().map_or(false, |t| t.output_text.is_some())
636 }
637
638 pub fn is_line_folded(&self, output_row: u32) -> bool {
639 let mut cursor = self.transforms.cursor::<FoldPoint>();
640 cursor.seek(&FoldPoint::new(output_row, 0), Bias::Right, &());
641 while let Some(transform) = cursor.item() {
642 if transform.output_text.is_some() {
643 return true;
644 }
645 if cursor.end(&()).row() == output_row {
646 cursor.next(&())
647 } else {
648 break;
649 }
650 }
651 false
652 }
653
654 pub fn chars_at(&self, start: FoldPoint) -> impl '_ + Iterator<Item = char> {
655 let start = start.to_offset(self);
656 self.chunks(start..self.len(), false, None)
657 .flat_map(|chunk| chunk.text.chars())
658 }
659
660 pub fn chunks<'a>(
661 &'a self,
662 range: Range<FoldOffset>,
663 language_aware: bool,
664 text_highlights: Option<&'a TextHighlights>,
665 ) -> FoldChunks<'a> {
666 let mut highlight_endpoints = Vec::new();
667 let mut transform_cursor = self.transforms.cursor::<(FoldOffset, usize)>();
668
669 let buffer_end = {
670 transform_cursor.seek(&range.end, Bias::Right, &());
671 let overshoot = range.end.0 - transform_cursor.start().0 .0;
672 transform_cursor.start().1 + overshoot
673 };
674
675 let buffer_start = {
676 transform_cursor.seek(&range.start, Bias::Right, &());
677 let overshoot = range.start.0 - transform_cursor.start().0 .0;
678 transform_cursor.start().1 + overshoot
679 };
680
681 if let Some(text_highlights) = text_highlights {
682 if !text_highlights.is_empty() {
683 while transform_cursor.start().0 < range.end {
684 if !transform_cursor.item().unwrap().is_fold() {
685 let transform_start = self
686 .buffer_snapshot
687 .anchor_after(cmp::max(buffer_start, transform_cursor.start().1));
688
689 let transform_end = {
690 let overshoot = range.end.0 - transform_cursor.start().0 .0;
691 self.buffer_snapshot.anchor_before(cmp::min(
692 transform_cursor.end(&()).1,
693 transform_cursor.start().1 + overshoot,
694 ))
695 };
696
697 for (tag, highlights) in text_highlights.iter() {
698 let style = highlights.0;
699 let ranges = &highlights.1;
700
701 let start_ix = match ranges.binary_search_by(|probe| {
702 let cmp = probe.end.cmp(&transform_start, &self.buffer_snapshot());
703 if cmp.is_gt() {
704 Ordering::Greater
705 } else {
706 Ordering::Less
707 }
708 }) {
709 Ok(i) | Err(i) => i,
710 };
711 for range in &ranges[start_ix..] {
712 if range
713 .start
714 .cmp(&transform_end, &self.buffer_snapshot)
715 .is_ge()
716 {
717 break;
718 }
719
720 highlight_endpoints.push(HighlightEndpoint {
721 offset: range.start.to_offset(&self.buffer_snapshot),
722 is_start: true,
723 tag: *tag,
724 style,
725 });
726 highlight_endpoints.push(HighlightEndpoint {
727 offset: range.end.to_offset(&self.buffer_snapshot),
728 is_start: false,
729 tag: *tag,
730 style,
731 });
732 }
733 }
734 }
735
736 transform_cursor.next(&());
737 }
738 highlight_endpoints.sort();
739 transform_cursor.seek(&range.start, Bias::Right, &());
740 }
741 }
742
743 FoldChunks {
744 transform_cursor,
745 buffer_chunks: self
746 .buffer_snapshot
747 .chunks(buffer_start..buffer_end, language_aware),
748 buffer_chunk: None,
749 buffer_offset: buffer_start,
750 output_offset: range.start.0,
751 max_output_offset: range.end.0,
752 highlight_endpoints: highlight_endpoints.into_iter().peekable(),
753 active_highlights: Default::default(),
754 }
755 }
756
757 #[cfg(test)]
758 pub fn clip_offset(&self, offset: FoldOffset, bias: Bias) -> FoldOffset {
759 let mut cursor = self.transforms.cursor::<(FoldOffset, usize)>();
760 cursor.seek(&offset, Bias::Right, &());
761 if let Some(transform) = cursor.item() {
762 let transform_start = cursor.start().0 .0;
763 if transform.output_text.is_some() {
764 if offset.0 == transform_start || matches!(bias, Bias::Left) {
765 FoldOffset(transform_start)
766 } else {
767 FoldOffset(cursor.end(&()).0 .0)
768 }
769 } else {
770 let overshoot = offset.0 - transform_start;
771 let buffer_offset = cursor.start().1 + overshoot;
772 let clipped_buffer_offset = self.buffer_snapshot.clip_offset(buffer_offset, bias);
773 FoldOffset(
774 (offset.0 as isize + (clipped_buffer_offset as isize - buffer_offset as isize))
775 as usize,
776 )
777 }
778 } else {
779 FoldOffset(self.transforms.summary().output.bytes)
780 }
781 }
782
783 pub fn clip_point(&self, point: FoldPoint, bias: Bias) -> FoldPoint {
784 let mut cursor = self.transforms.cursor::<(FoldPoint, Point)>();
785 cursor.seek(&point, Bias::Right, &());
786 if let Some(transform) = cursor.item() {
787 let transform_start = cursor.start().0 .0;
788 if transform.output_text.is_some() {
789 if point.0 == transform_start || matches!(bias, Bias::Left) {
790 FoldPoint(transform_start)
791 } else {
792 FoldPoint(cursor.end(&()).0 .0)
793 }
794 } else {
795 let overshoot = point.0 - transform_start;
796 let buffer_position = cursor.start().1 + overshoot;
797 let clipped_buffer_position =
798 self.buffer_snapshot.clip_point(buffer_position, bias);
799 FoldPoint(cursor.start().0 .0 + (clipped_buffer_position - cursor.start().1))
800 }
801 } else {
802 FoldPoint(self.transforms.summary().output.lines)
803 }
804 }
805}
806
807fn intersecting_folds<'a, T>(
808 buffer: &'a MultiBufferSnapshot,
809 folds: &'a SumTree<Fold>,
810 range: Range<T>,
811 inclusive: bool,
812) -> FilterCursor<'a, impl 'a + FnMut(&FoldSummary) -> bool, Fold, usize>
813where
814 T: ToOffset,
815{
816 let start = buffer.anchor_before(range.start.to_offset(buffer));
817 let end = buffer.anchor_after(range.end.to_offset(buffer));
818 let mut cursor = folds.filter::<_, usize>(move |summary| {
819 let start_cmp = start.cmp(&summary.max_end, buffer);
820 let end_cmp = end.cmp(&summary.min_start, buffer);
821
822 if inclusive {
823 start_cmp <= Ordering::Equal && end_cmp >= Ordering::Equal
824 } else {
825 start_cmp == Ordering::Less && end_cmp == Ordering::Greater
826 }
827 });
828 cursor.next(buffer);
829 cursor
830}
831
832fn consolidate_buffer_edits(edits: &mut Vec<text::Edit<usize>>) {
833 edits.sort_unstable_by(|a, b| {
834 a.old
835 .start
836 .cmp(&b.old.start)
837 .then_with(|| b.old.end.cmp(&a.old.end))
838 });
839
840 let mut i = 1;
841 while i < edits.len() {
842 let edit = edits[i].clone();
843 let prev_edit = &mut edits[i - 1];
844 if prev_edit.old.end >= edit.old.start {
845 prev_edit.old.end = prev_edit.old.end.max(edit.old.end);
846 prev_edit.new.start = prev_edit.new.start.min(edit.new.start);
847 prev_edit.new.end = prev_edit.new.end.max(edit.new.end);
848 edits.remove(i);
849 continue;
850 }
851 i += 1;
852 }
853}
854
855fn consolidate_fold_edits(edits: &mut Vec<FoldEdit>) {
856 edits.sort_unstable_by(|a, b| {
857 a.old
858 .start
859 .cmp(&b.old.start)
860 .then_with(|| b.old.end.cmp(&a.old.end))
861 });
862
863 let mut i = 1;
864 while i < edits.len() {
865 let edit = edits[i].clone();
866 let prev_edit = &mut edits[i - 1];
867 if prev_edit.old.end >= edit.old.start {
868 prev_edit.old.end = prev_edit.old.end.max(edit.old.end);
869 prev_edit.new.start = prev_edit.new.start.min(edit.new.start);
870 prev_edit.new.end = prev_edit.new.end.max(edit.new.end);
871 edits.remove(i);
872 continue;
873 }
874 i += 1;
875 }
876}
877
878#[derive(Clone, Debug, Default, Eq, PartialEq)]
879struct Transform {
880 summary: TransformSummary,
881 output_text: Option<&'static str>,
882}
883
884impl Transform {
885 fn is_fold(&self) -> bool {
886 self.output_text.is_some()
887 }
888}
889
890#[derive(Clone, Debug, Default, Eq, PartialEq)]
891struct TransformSummary {
892 output: TextSummary,
893 input: TextSummary,
894}
895
896impl sum_tree::Item for Transform {
897 type Summary = TransformSummary;
898
899 fn summary(&self) -> Self::Summary {
900 self.summary.clone()
901 }
902}
903
904impl sum_tree::Summary for TransformSummary {
905 type Context = ();
906
907 fn add_summary(&mut self, other: &Self, _: &()) {
908 self.input += &other.input;
909 self.output += &other.output;
910 }
911}
912
913#[derive(Clone, Debug)]
914struct Fold(Range<Anchor>);
915
916impl Default for Fold {
917 fn default() -> Self {
918 Self(Anchor::min()..Anchor::max())
919 }
920}
921
922impl sum_tree::Item for Fold {
923 type Summary = FoldSummary;
924
925 fn summary(&self) -> Self::Summary {
926 FoldSummary {
927 start: self.0.start.clone(),
928 end: self.0.end.clone(),
929 min_start: self.0.start.clone(),
930 max_end: self.0.end.clone(),
931 count: 1,
932 }
933 }
934}
935
936#[derive(Clone, Debug)]
937struct FoldSummary {
938 start: Anchor,
939 end: Anchor,
940 min_start: Anchor,
941 max_end: Anchor,
942 count: usize,
943}
944
945impl Default for FoldSummary {
946 fn default() -> Self {
947 Self {
948 start: Anchor::min(),
949 end: Anchor::max(),
950 min_start: Anchor::max(),
951 max_end: Anchor::min(),
952 count: 0,
953 }
954 }
955}
956
957impl sum_tree::Summary for FoldSummary {
958 type Context = MultiBufferSnapshot;
959
960 fn add_summary(&mut self, other: &Self, buffer: &MultiBufferSnapshot) {
961 if other.min_start.cmp(&self.min_start, buffer) == Ordering::Less {
962 self.min_start = other.min_start.clone();
963 }
964 if other.max_end.cmp(&self.max_end, buffer) == Ordering::Greater {
965 self.max_end = other.max_end.clone();
966 }
967
968 #[cfg(debug_assertions)]
969 {
970 let start_comparison = self.start.cmp(&other.start, buffer);
971 assert!(start_comparison <= Ordering::Equal);
972 if start_comparison == Ordering::Equal {
973 assert!(self.end.cmp(&other.end, buffer) >= Ordering::Equal);
974 }
975 }
976
977 self.start = other.start.clone();
978 self.end = other.end.clone();
979 self.count += other.count;
980 }
981}
982
983impl<'a> sum_tree::Dimension<'a, FoldSummary> for Fold {
984 fn add_summary(&mut self, summary: &'a FoldSummary, _: &MultiBufferSnapshot) {
985 self.0.start = summary.start.clone();
986 self.0.end = summary.end.clone();
987 }
988}
989
990impl<'a> sum_tree::SeekTarget<'a, FoldSummary, Fold> for Fold {
991 fn cmp(&self, other: &Self, buffer: &MultiBufferSnapshot) -> Ordering {
992 self.0.cmp(&other.0, buffer)
993 }
994}
995
996impl<'a> sum_tree::Dimension<'a, FoldSummary> for usize {
997 fn add_summary(&mut self, summary: &'a FoldSummary, _: &MultiBufferSnapshot) {
998 *self += summary.count;
999 }
1000}
1001
1002pub struct FoldBufferRows<'a> {
1003 cursor: Cursor<'a, Transform, (FoldPoint, Point)>,
1004 input_buffer_rows: MultiBufferRows<'a>,
1005 fold_point: FoldPoint,
1006}
1007
1008impl<'a> Iterator for FoldBufferRows<'a> {
1009 type Item = Option<u32>;
1010
1011 fn next(&mut self) -> Option<Self::Item> {
1012 let mut traversed_fold = false;
1013 while self.fold_point > self.cursor.end(&()).0 {
1014 self.cursor.next(&());
1015 traversed_fold = true;
1016 if self.cursor.item().is_none() {
1017 break;
1018 }
1019 }
1020
1021 if self.cursor.item().is_some() {
1022 if traversed_fold {
1023 self.input_buffer_rows.seek(self.cursor.start().1.row);
1024 self.input_buffer_rows.next();
1025 }
1026 *self.fold_point.row_mut() += 1;
1027 self.input_buffer_rows.next()
1028 } else {
1029 None
1030 }
1031 }
1032}
1033
1034pub struct FoldChunks<'a> {
1035 transform_cursor: Cursor<'a, Transform, (FoldOffset, usize)>,
1036 buffer_chunks: MultiBufferChunks<'a>,
1037 buffer_chunk: Option<(usize, Chunk<'a>)>,
1038 buffer_offset: usize,
1039 output_offset: usize,
1040 max_output_offset: usize,
1041 highlight_endpoints: Peekable<vec::IntoIter<HighlightEndpoint>>,
1042 active_highlights: BTreeMap<Option<TypeId>, HighlightStyle>,
1043}
1044
1045impl<'a> Iterator for FoldChunks<'a> {
1046 type Item = Chunk<'a>;
1047
1048 fn next(&mut self) -> Option<Self::Item> {
1049 if self.output_offset >= self.max_output_offset {
1050 return None;
1051 }
1052
1053 let transform = if let Some(item) = self.transform_cursor.item() {
1054 item
1055 } else {
1056 return None;
1057 };
1058
1059 // If we're in a fold, then return the fold's display text and
1060 // advance the transform and buffer cursors to the end of the fold.
1061 if let Some(output_text) = transform.output_text {
1062 self.buffer_chunk.take();
1063 self.buffer_offset += transform.summary.input.bytes;
1064 self.buffer_chunks.seek(self.buffer_offset);
1065
1066 while self.buffer_offset >= self.transform_cursor.end(&()).1
1067 && self.transform_cursor.item().is_some()
1068 {
1069 self.transform_cursor.next(&());
1070 }
1071
1072 self.output_offset += output_text.len();
1073 return Some(Chunk {
1074 text: output_text,
1075 syntax_highlight_id: None,
1076 highlight_style: None,
1077 diagnostic_severity: None,
1078 is_unnecessary: false,
1079 });
1080 }
1081
1082 let mut next_highlight_endpoint = usize::MAX;
1083 while let Some(endpoint) = self.highlight_endpoints.peek().copied() {
1084 if endpoint.offset <= self.buffer_offset {
1085 if endpoint.is_start {
1086 self.active_highlights.insert(endpoint.tag, endpoint.style);
1087 } else {
1088 self.active_highlights.remove(&endpoint.tag);
1089 }
1090 self.highlight_endpoints.next();
1091 } else {
1092 next_highlight_endpoint = endpoint.offset;
1093 break;
1094 }
1095 }
1096
1097 // Retrieve a chunk from the current location in the buffer.
1098 if self.buffer_chunk.is_none() {
1099 let chunk_offset = self.buffer_chunks.offset();
1100 self.buffer_chunk = self.buffer_chunks.next().map(|chunk| (chunk_offset, chunk));
1101 }
1102
1103 // Otherwise, take a chunk from the buffer's text.
1104 if let Some((buffer_chunk_start, mut chunk)) = self.buffer_chunk {
1105 let buffer_chunk_end = buffer_chunk_start + chunk.text.len();
1106 let transform_end = self.transform_cursor.end(&()).1;
1107 let chunk_end = buffer_chunk_end
1108 .min(transform_end)
1109 .min(next_highlight_endpoint);
1110
1111 chunk.text = &chunk.text
1112 [self.buffer_offset - buffer_chunk_start..chunk_end - buffer_chunk_start];
1113
1114 if !self.active_highlights.is_empty() {
1115 let mut highlight_style = HighlightStyle::default();
1116 for active_highlight in self.active_highlights.values() {
1117 highlight_style.highlight(*active_highlight);
1118 }
1119 chunk.highlight_style = Some(highlight_style);
1120 }
1121
1122 if chunk_end == transform_end {
1123 self.transform_cursor.next(&());
1124 } else if chunk_end == buffer_chunk_end {
1125 self.buffer_chunk.take();
1126 }
1127
1128 self.buffer_offset = chunk_end;
1129 self.output_offset += chunk.text.len();
1130 return Some(chunk);
1131 }
1132
1133 None
1134 }
1135}
1136
1137#[derive(Copy, Clone, Eq, PartialEq)]
1138struct HighlightEndpoint {
1139 offset: usize,
1140 is_start: bool,
1141 tag: Option<TypeId>,
1142 style: HighlightStyle,
1143}
1144
1145impl PartialOrd for HighlightEndpoint {
1146 fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
1147 Some(self.cmp(other))
1148 }
1149}
1150
1151impl Ord for HighlightEndpoint {
1152 fn cmp(&self, other: &Self) -> Ordering {
1153 self.offset
1154 .cmp(&other.offset)
1155 .then_with(|| other.is_start.cmp(&self.is_start))
1156 }
1157}
1158
1159#[derive(Copy, Clone, Debug, Default, Eq, Ord, PartialOrd, PartialEq)]
1160pub struct FoldOffset(pub usize);
1161
1162impl FoldOffset {
1163 pub fn to_point(&self, snapshot: &FoldSnapshot) -> FoldPoint {
1164 let mut cursor = snapshot
1165 .transforms
1166 .cursor::<(FoldOffset, TransformSummary)>();
1167 cursor.seek(self, Bias::Right, &());
1168 let overshoot = if cursor.item().map_or(true, |t| t.is_fold()) {
1169 Point::new(0, (self.0 - cursor.start().0 .0) as u32)
1170 } else {
1171 let buffer_offset = cursor.start().1.input.bytes + self.0 - cursor.start().0 .0;
1172 let buffer_point = snapshot.buffer_snapshot.offset_to_point(buffer_offset);
1173 buffer_point - cursor.start().1.input.lines
1174 };
1175 FoldPoint(cursor.start().1.output.lines + overshoot)
1176 }
1177}
1178
1179impl Sub for FoldOffset {
1180 type Output = Self;
1181
1182 fn sub(self, rhs: Self) -> Self::Output {
1183 Self(self.0 - rhs.0)
1184 }
1185}
1186
1187impl<'a> sum_tree::Dimension<'a, TransformSummary> for FoldOffset {
1188 fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
1189 self.0 += &summary.output.bytes;
1190 }
1191}
1192
1193impl<'a> sum_tree::Dimension<'a, TransformSummary> for Point {
1194 fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
1195 *self += &summary.input.lines;
1196 }
1197}
1198
1199impl<'a> sum_tree::Dimension<'a, TransformSummary> for usize {
1200 fn add_summary(&mut self, summary: &'a TransformSummary, _: &()) {
1201 *self += &summary.input.bytes;
1202 }
1203}
1204
1205pub type FoldEdit = Edit<FoldOffset>;
1206
1207#[cfg(test)]
1208mod tests {
1209 use super::*;
1210 use crate::{MultiBuffer, ToPoint};
1211 use rand::prelude::*;
1212 use std::{cmp::Reverse, env, mem, sync::Arc};
1213 use sum_tree::TreeMap;
1214 use text::RandomCharIter;
1215 use util::test::sample_text;
1216 use Bias::{Left, Right};
1217
1218 #[gpui::test]
1219 fn test_basic_folds(cx: &mut gpui::MutableAppContext) {
1220 let buffer = MultiBuffer::build_simple(&sample_text(5, 6, 'a'), cx);
1221 let subscription = buffer.update(cx, |buffer, _| buffer.subscribe());
1222 let buffer_snapshot = buffer.read(cx).snapshot(cx);
1223 let mut map = FoldMap::new(buffer_snapshot.clone()).0;
1224
1225 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1226 let (snapshot2, edits) = writer.fold(vec![
1227 Point::new(0, 2)..Point::new(2, 2),
1228 Point::new(2, 4)..Point::new(4, 1),
1229 ]);
1230 assert_eq!(snapshot2.text(), "aa…cc…eeeee");
1231 assert_eq!(
1232 edits,
1233 &[
1234 FoldEdit {
1235 old: FoldOffset(2)..FoldOffset(16),
1236 new: FoldOffset(2)..FoldOffset(5),
1237 },
1238 FoldEdit {
1239 old: FoldOffset(18)..FoldOffset(29),
1240 new: FoldOffset(7)..FoldOffset(10)
1241 },
1242 ]
1243 );
1244
1245 let buffer_snapshot = buffer.update(cx, |buffer, cx| {
1246 buffer.edit(
1247 vec![
1248 Point::new(0, 0)..Point::new(0, 1),
1249 Point::new(2, 3)..Point::new(2, 3),
1250 ],
1251 "123",
1252 cx,
1253 );
1254 buffer.snapshot(cx)
1255 });
1256 let (snapshot3, edits) =
1257 map.read(buffer_snapshot.clone(), subscription.consume().into_inner());
1258 assert_eq!(snapshot3.text(), "123a…c123c…eeeee");
1259 assert_eq!(
1260 edits,
1261 &[
1262 FoldEdit {
1263 old: FoldOffset(0)..FoldOffset(1),
1264 new: FoldOffset(0)..FoldOffset(3),
1265 },
1266 FoldEdit {
1267 old: FoldOffset(6)..FoldOffset(6),
1268 new: FoldOffset(8)..FoldOffset(11),
1269 },
1270 ]
1271 );
1272
1273 let buffer_snapshot = buffer.update(cx, |buffer, cx| {
1274 buffer.edit(vec![Point::new(2, 6)..Point::new(4, 3)], "456", cx);
1275 buffer.snapshot(cx)
1276 });
1277 let (snapshot4, _) = map.read(buffer_snapshot.clone(), subscription.consume().into_inner());
1278 assert_eq!(snapshot4.text(), "123a…c123456eee");
1279
1280 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1281 writer.unfold(Some(Point::new(0, 4)..Point::new(0, 5)));
1282 let (snapshot5, _) = map.read(buffer_snapshot.clone(), vec![]);
1283 assert_eq!(snapshot5.text(), "123aaaaa\nbbbbbb\nccc123456eee");
1284 }
1285
1286 #[gpui::test]
1287 fn test_adjacent_folds(cx: &mut gpui::MutableAppContext) {
1288 let buffer = MultiBuffer::build_simple("abcdefghijkl", cx);
1289 let subscription = buffer.update(cx, |buffer, _| buffer.subscribe());
1290 let buffer_snapshot = buffer.read(cx).snapshot(cx);
1291
1292 {
1293 let mut map = FoldMap::new(buffer_snapshot.clone()).0;
1294
1295 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1296 writer.fold(vec![5..8]);
1297 let (snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1298 assert_eq!(snapshot.text(), "abcde…ijkl");
1299
1300 // Create an fold adjacent to the start of the first fold.
1301 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1302 writer.fold(vec![0..1, 2..5]);
1303 let (snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1304 assert_eq!(snapshot.text(), "…b…ijkl");
1305
1306 // Create an fold adjacent to the end of the first fold.
1307 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1308 writer.fold(vec![11..11, 8..10]);
1309 let (snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1310 assert_eq!(snapshot.text(), "…b…kl");
1311 }
1312
1313 {
1314 let mut map = FoldMap::new(buffer_snapshot.clone()).0;
1315
1316 // Create two adjacent folds.
1317 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1318 writer.fold(vec![0..2, 2..5]);
1319 let (snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1320 assert_eq!(snapshot.text(), "…fghijkl");
1321
1322 // Edit within one of the folds.
1323 let buffer_snapshot = buffer.update(cx, |buffer, cx| {
1324 buffer.edit(vec![0..1], "12345", cx);
1325 buffer.snapshot(cx)
1326 });
1327 let (snapshot, _) =
1328 map.read(buffer_snapshot.clone(), subscription.consume().into_inner());
1329 assert_eq!(snapshot.text(), "12345…fghijkl");
1330 }
1331 }
1332
1333 #[gpui::test]
1334 fn test_overlapping_folds(cx: &mut gpui::MutableAppContext) {
1335 let buffer = MultiBuffer::build_simple(&sample_text(5, 6, 'a'), cx);
1336 let buffer_snapshot = buffer.read(cx).snapshot(cx);
1337 let mut map = FoldMap::new(buffer_snapshot.clone()).0;
1338 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1339 writer.fold(vec![
1340 Point::new(0, 2)..Point::new(2, 2),
1341 Point::new(0, 4)..Point::new(1, 0),
1342 Point::new(1, 2)..Point::new(3, 2),
1343 Point::new(3, 1)..Point::new(4, 1),
1344 ]);
1345 let (snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1346 assert_eq!(snapshot.text(), "aa…eeeee");
1347 }
1348
1349 #[gpui::test]
1350 fn test_merging_folds_via_edit(cx: &mut gpui::MutableAppContext) {
1351 let buffer = MultiBuffer::build_simple(&sample_text(5, 6, 'a'), cx);
1352 let subscription = buffer.update(cx, |buffer, _| buffer.subscribe());
1353 let buffer_snapshot = buffer.read(cx).snapshot(cx);
1354 let mut map = FoldMap::new(buffer_snapshot.clone()).0;
1355
1356 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1357 writer.fold(vec![
1358 Point::new(0, 2)..Point::new(2, 2),
1359 Point::new(3, 1)..Point::new(4, 1),
1360 ]);
1361 let (snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1362 assert_eq!(snapshot.text(), "aa…cccc\nd…eeeee");
1363
1364 let buffer_snapshot = buffer.update(cx, |buffer, cx| {
1365 buffer.edit(Some(Point::new(2, 2)..Point::new(3, 1)), "", cx);
1366 buffer.snapshot(cx)
1367 });
1368 let (snapshot, _) = map.read(buffer_snapshot.clone(), subscription.consume().into_inner());
1369 assert_eq!(snapshot.text(), "aa…eeeee");
1370 }
1371
1372 #[gpui::test]
1373 fn test_folds_in_range(cx: &mut gpui::MutableAppContext) {
1374 let buffer = MultiBuffer::build_simple(&sample_text(5, 6, 'a'), cx);
1375 let buffer_snapshot = buffer.read(cx).snapshot(cx);
1376 let mut map = FoldMap::new(buffer_snapshot.clone()).0;
1377
1378 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1379 writer.fold(vec![
1380 Point::new(0, 2)..Point::new(2, 2),
1381 Point::new(0, 4)..Point::new(1, 0),
1382 Point::new(1, 2)..Point::new(3, 2),
1383 Point::new(3, 1)..Point::new(4, 1),
1384 ]);
1385 let (snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1386 let fold_ranges = snapshot
1387 .folds_in_range(Point::new(1, 0)..Point::new(1, 3))
1388 .map(|fold| fold.start.to_point(&buffer_snapshot)..fold.end.to_point(&buffer_snapshot))
1389 .collect::<Vec<_>>();
1390 assert_eq!(
1391 fold_ranges,
1392 vec![
1393 Point::new(0, 2)..Point::new(2, 2),
1394 Point::new(1, 2)..Point::new(3, 2)
1395 ]
1396 );
1397 }
1398
1399 #[gpui::test(iterations = 100)]
1400 fn test_random_folds(cx: &mut gpui::MutableAppContext, mut rng: StdRng) {
1401 let operations = env::var("OPERATIONS")
1402 .map(|i| i.parse().expect("invalid `OPERATIONS` variable"))
1403 .unwrap_or(10);
1404
1405 let len = rng.gen_range(0..10);
1406 let text = RandomCharIter::new(&mut rng).take(len).collect::<String>();
1407 let buffer = if rng.gen() {
1408 MultiBuffer::build_simple(&text, cx)
1409 } else {
1410 MultiBuffer::build_random(&mut rng, cx)
1411 };
1412 let mut buffer_snapshot = buffer.read(cx).snapshot(cx);
1413 let mut map = FoldMap::new(buffer_snapshot.clone()).0;
1414
1415 let (mut initial_snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1416 let mut snapshot_edits = Vec::new();
1417
1418 let mut highlights = TreeMap::default();
1419 let highlight_count = rng.gen_range(0_usize..10);
1420 let mut highlight_ranges = (0..highlight_count)
1421 .map(|_| buffer_snapshot.random_byte_range(0, &mut rng))
1422 .collect::<Vec<_>>();
1423 highlight_ranges.sort_by_key(|range| (range.start, Reverse(range.end)));
1424 log::info!("highlighting ranges {:?}", highlight_ranges);
1425 let highlight_ranges = highlight_ranges
1426 .into_iter()
1427 .map(|range| {
1428 buffer_snapshot.anchor_before(range.start)..buffer_snapshot.anchor_after(range.end)
1429 })
1430 .collect::<Vec<_>>();
1431
1432 highlights.insert(
1433 Some(TypeId::of::<()>()),
1434 Arc::new((HighlightStyle::default(), highlight_ranges)),
1435 );
1436
1437 for _ in 0..operations {
1438 log::info!("text: {:?}", buffer_snapshot.text());
1439 let mut buffer_edits = Vec::new();
1440 match rng.gen_range(0..=100) {
1441 0..=59 => {
1442 snapshot_edits.extend(map.randomly_mutate(&mut rng));
1443 }
1444 _ => buffer.update(cx, |buffer, cx| {
1445 let subscription = buffer.subscribe();
1446 let edit_count = rng.gen_range(1..=5);
1447 buffer.randomly_mutate(&mut rng, edit_count, cx);
1448 buffer_snapshot = buffer.snapshot(cx);
1449 let edits = subscription.consume().into_inner();
1450 log::info!("editing {:?}", edits);
1451 buffer_edits.extend(edits);
1452 }),
1453 };
1454
1455 let (snapshot, edits) = map.read(buffer_snapshot.clone(), buffer_edits);
1456 snapshot_edits.push((snapshot.clone(), edits));
1457
1458 let mut expected_text: String = buffer_snapshot.text().to_string();
1459 for fold_range in map.merged_fold_ranges().into_iter().rev() {
1460 expected_text.replace_range(fold_range.start..fold_range.end, "…");
1461 }
1462
1463 assert_eq!(snapshot.text(), expected_text);
1464 log::info!(
1465 "fold text {:?} ({} lines)",
1466 expected_text,
1467 expected_text.matches('\n').count() + 1
1468 );
1469
1470 let mut prev_row = 0;
1471 let mut expected_buffer_rows = Vec::new();
1472 for fold_range in map.merged_fold_ranges().into_iter() {
1473 let fold_start = buffer_snapshot.offset_to_point(fold_range.start).row;
1474 let fold_end = buffer_snapshot.offset_to_point(fold_range.end).row;
1475 expected_buffer_rows.extend(
1476 buffer_snapshot
1477 .buffer_rows(prev_row)
1478 .take((1 + fold_start - prev_row) as usize),
1479 );
1480 prev_row = 1 + fold_end;
1481 }
1482 expected_buffer_rows.extend(buffer_snapshot.buffer_rows(prev_row));
1483
1484 assert_eq!(
1485 expected_buffer_rows.len(),
1486 expected_text.matches('\n').count() + 1,
1487 "wrong expected buffer rows {:?}. text: {:?}",
1488 expected_buffer_rows,
1489 expected_text
1490 );
1491
1492 for (output_row, line) in expected_text.lines().enumerate() {
1493 let line_len = snapshot.line_len(output_row as u32);
1494 assert_eq!(line_len, line.len() as u32);
1495 }
1496
1497 let longest_row = snapshot.longest_row();
1498 let longest_char_column = expected_text
1499 .split('\n')
1500 .nth(longest_row as usize)
1501 .unwrap()
1502 .chars()
1503 .count();
1504 let mut fold_point = FoldPoint::new(0, 0);
1505 let mut fold_offset = FoldOffset(0);
1506 let mut char_column = 0;
1507 for c in expected_text.chars() {
1508 let buffer_point = fold_point.to_buffer_point(&snapshot);
1509 let buffer_offset = buffer_point.to_offset(&buffer_snapshot);
1510 assert_eq!(
1511 snapshot.to_fold_point(buffer_point, Right),
1512 fold_point,
1513 "{:?} -> fold point",
1514 buffer_point,
1515 );
1516 assert_eq!(
1517 fold_point.to_buffer_offset(&snapshot),
1518 buffer_offset,
1519 "fold_point.to_buffer_offset({:?})",
1520 fold_point,
1521 );
1522 assert_eq!(
1523 fold_point.to_offset(&snapshot),
1524 fold_offset,
1525 "fold_point.to_offset({:?})",
1526 fold_point,
1527 );
1528
1529 if c == '\n' {
1530 *fold_point.row_mut() += 1;
1531 *fold_point.column_mut() = 0;
1532 char_column = 0;
1533 } else {
1534 *fold_point.column_mut() += c.len_utf8() as u32;
1535 char_column += 1;
1536 }
1537 fold_offset.0 += c.len_utf8();
1538 if char_column > longest_char_column {
1539 panic!(
1540 "invalid longest row {:?} (chars {}), found row {:?} (chars: {})",
1541 longest_row,
1542 longest_char_column,
1543 fold_point.row(),
1544 char_column
1545 );
1546 }
1547 }
1548
1549 for _ in 0..5 {
1550 let mut start = snapshot
1551 .clip_offset(FoldOffset(rng.gen_range(0..=snapshot.len().0)), Bias::Left);
1552 let mut end = snapshot
1553 .clip_offset(FoldOffset(rng.gen_range(0..=snapshot.len().0)), Bias::Right);
1554 if start > end {
1555 mem::swap(&mut start, &mut end);
1556 }
1557
1558 let text = &expected_text[start.0..end.0];
1559 assert_eq!(
1560 snapshot
1561 .chunks(start..end, false, Some(&highlights))
1562 .map(|c| c.text)
1563 .collect::<String>(),
1564 text,
1565 );
1566 }
1567
1568 let mut fold_row = 0;
1569 while fold_row < expected_buffer_rows.len() as u32 {
1570 fold_row = snapshot
1571 .clip_point(FoldPoint::new(fold_row, 0), Bias::Right)
1572 .row();
1573 assert_eq!(
1574 snapshot.buffer_rows(fold_row).collect::<Vec<_>>(),
1575 expected_buffer_rows[(fold_row as usize)..],
1576 "wrong buffer rows starting at fold row {}",
1577 fold_row,
1578 );
1579 fold_row += 1;
1580 }
1581
1582 for fold_range in map.merged_fold_ranges() {
1583 let fold_point =
1584 snapshot.to_fold_point(fold_range.start.to_point(&buffer_snapshot), Right);
1585 assert!(snapshot.is_line_folded(fold_point.row()));
1586 }
1587
1588 for _ in 0..5 {
1589 let end =
1590 buffer_snapshot.clip_offset(rng.gen_range(0..=buffer_snapshot.len()), Right);
1591 let start = buffer_snapshot.clip_offset(rng.gen_range(0..=end), Left);
1592 let expected_folds = map
1593 .folds
1594 .items(&buffer_snapshot)
1595 .into_iter()
1596 .filter(|fold| {
1597 let start = buffer_snapshot.anchor_before(start);
1598 let end = buffer_snapshot.anchor_after(end);
1599 start.cmp(&fold.0.end, &buffer_snapshot) == Ordering::Less
1600 && end.cmp(&fold.0.start, &buffer_snapshot) == Ordering::Greater
1601 })
1602 .map(|fold| fold.0)
1603 .collect::<Vec<_>>();
1604
1605 assert_eq!(
1606 snapshot
1607 .folds_in_range(start..end)
1608 .cloned()
1609 .collect::<Vec<_>>(),
1610 expected_folds
1611 );
1612 }
1613
1614 let text = snapshot.text();
1615 for _ in 0..5 {
1616 let start_row = rng.gen_range(0..=snapshot.max_point().row());
1617 let start_column = rng.gen_range(0..=snapshot.line_len(start_row));
1618 let end_row = rng.gen_range(0..=snapshot.max_point().row());
1619 let end_column = rng.gen_range(0..=snapshot.line_len(end_row));
1620 let mut start =
1621 snapshot.clip_point(FoldPoint::new(start_row, start_column), Bias::Left);
1622 let mut end = snapshot.clip_point(FoldPoint::new(end_row, end_column), Bias::Right);
1623 if start > end {
1624 mem::swap(&mut start, &mut end);
1625 }
1626
1627 let lines = start..end;
1628 let bytes = start.to_offset(&snapshot)..end.to_offset(&snapshot);
1629 assert_eq!(
1630 snapshot.text_summary_for_range(lines),
1631 TextSummary::from(&text[bytes.start.0..bytes.end.0])
1632 )
1633 }
1634
1635 let mut text = initial_snapshot.text();
1636 for (snapshot, edits) in snapshot_edits.drain(..) {
1637 let new_text = snapshot.text();
1638 for edit in edits {
1639 let old_bytes = edit.new.start.0..edit.new.start.0 + edit.old_len().0;
1640 let new_bytes = edit.new.start.0..edit.new.end.0;
1641 text.replace_range(old_bytes, &new_text[new_bytes]);
1642 }
1643
1644 assert_eq!(text, new_text);
1645 initial_snapshot = snapshot;
1646 }
1647 }
1648 }
1649
1650 #[gpui::test]
1651 fn test_buffer_rows(cx: &mut gpui::MutableAppContext) {
1652 let text = sample_text(6, 6, 'a') + "\n";
1653 let buffer = MultiBuffer::build_simple(&text, cx);
1654
1655 let buffer_snapshot = buffer.read(cx).snapshot(cx);
1656 let mut map = FoldMap::new(buffer_snapshot.clone()).0;
1657
1658 let (mut writer, _, _) = map.write(buffer_snapshot.clone(), vec![]);
1659 writer.fold(vec![
1660 Point::new(0, 2)..Point::new(2, 2),
1661 Point::new(3, 1)..Point::new(4, 1),
1662 ]);
1663
1664 let (snapshot, _) = map.read(buffer_snapshot.clone(), vec![]);
1665 assert_eq!(snapshot.text(), "aa…cccc\nd…eeeee\nffffff\n");
1666 assert_eq!(
1667 snapshot.buffer_rows(0).collect::<Vec<_>>(),
1668 [Some(0), Some(3), Some(5), Some(6)]
1669 );
1670 assert_eq!(snapshot.buffer_rows(3).collect::<Vec<_>>(), [Some(6)]);
1671 }
1672
1673 impl FoldMap {
1674 fn merged_fold_ranges(&self) -> Vec<Range<usize>> {
1675 let buffer = self.buffer.lock().clone();
1676 let mut folds = self.folds.items(&buffer);
1677 // Ensure sorting doesn't change how folds get merged and displayed.
1678 folds.sort_by(|a, b| a.0.cmp(&b.0, &buffer));
1679 let mut fold_ranges = folds
1680 .iter()
1681 .map(|fold| fold.0.start.to_offset(&buffer)..fold.0.end.to_offset(&buffer))
1682 .peekable();
1683
1684 let mut merged_ranges = Vec::new();
1685 while let Some(mut fold_range) = fold_ranges.next() {
1686 while let Some(next_range) = fold_ranges.peek() {
1687 if fold_range.end >= next_range.start {
1688 if next_range.end > fold_range.end {
1689 fold_range.end = next_range.end;
1690 }
1691 fold_ranges.next();
1692 } else {
1693 break;
1694 }
1695 }
1696 if fold_range.end > fold_range.start {
1697 merged_ranges.push(fold_range);
1698 }
1699 }
1700 merged_ranges
1701 }
1702
1703 pub fn randomly_mutate(
1704 &mut self,
1705 rng: &mut impl Rng,
1706 ) -> Vec<(FoldSnapshot, Vec<FoldEdit>)> {
1707 let mut snapshot_edits = Vec::new();
1708 match rng.gen_range(0..=100) {
1709 0..=39 if !self.folds.is_empty() => {
1710 let buffer = self.buffer.lock().clone();
1711 let mut to_unfold = Vec::new();
1712 for _ in 0..rng.gen_range(1..=3) {
1713 let end = buffer.clip_offset(rng.gen_range(0..=buffer.len()), Right);
1714 let start = buffer.clip_offset(rng.gen_range(0..=end), Left);
1715 to_unfold.push(start..end);
1716 }
1717 log::info!("unfolding {:?}", to_unfold);
1718 let (mut writer, snapshot, edits) = self.write(buffer, vec![]);
1719 snapshot_edits.push((snapshot, edits));
1720 let (snapshot, edits) = writer.fold(to_unfold);
1721 snapshot_edits.push((snapshot, edits));
1722 }
1723 _ => {
1724 let buffer = self.buffer.lock().clone();
1725 let mut to_fold = Vec::new();
1726 for _ in 0..rng.gen_range(1..=2) {
1727 let end = buffer.clip_offset(rng.gen_range(0..=buffer.len()), Right);
1728 let start = buffer.clip_offset(rng.gen_range(0..=end), Left);
1729 to_fold.push(start..end);
1730 }
1731 log::info!("folding {:?}", to_fold);
1732 let (mut writer, snapshot, edits) = self.write(buffer, vec![]);
1733 snapshot_edits.push((snapshot, edits));
1734 let (snapshot, edits) = writer.fold(to_fold);
1735 snapshot_edits.push((snapshot, edits));
1736 }
1737 }
1738 snapshot_edits
1739 }
1740 }
1741}