1use std::{
2 cmp, fmt, iter, mem,
3 ops::{AddAssign, Deref, DerefMut, Range, Sub},
4 sync::Arc,
5};
6
7use collections::HashMap;
8use gpui::Pixels;
9use itertools::Itertools as _;
10use language::{Bias, Point, Selection, SelectionGoal};
11use multi_buffer::{MultiBufferDimension, MultiBufferOffset};
12use util::post_inc;
13
14use crate::{
15 Anchor, DisplayPoint, DisplayRow, ExcerptId, MultiBufferSnapshot, SelectMode, ToOffset,
16 display_map::{DisplaySnapshot, ToDisplayPoint},
17 movement::TextLayoutDetails,
18};
19
20#[derive(Debug, Clone)]
21pub struct PendingSelection {
22 selection: Selection<Anchor>,
23 mode: SelectMode,
24}
25
26#[derive(Debug, Clone)]
27pub struct SelectionsCollection {
28 next_selection_id: usize,
29 line_mode: bool,
30 /// The non-pending, non-overlapping selections.
31 /// The [SelectionsCollection::pending] selection could possibly overlap these
32 disjoint: Arc<[Selection<Anchor>]>,
33 /// A pending selection, such as when the mouse is being dragged
34 pending: Option<PendingSelection>,
35 select_mode: SelectMode,
36 is_extending: bool,
37}
38
39impl SelectionsCollection {
40 pub fn new() -> Self {
41 Self {
42 next_selection_id: 1,
43 line_mode: false,
44 disjoint: Arc::default(),
45 pending: Some(PendingSelection {
46 selection: Selection {
47 id: 0,
48 start: Anchor::min(),
49 end: Anchor::min(),
50 reversed: false,
51 goal: SelectionGoal::None,
52 },
53 mode: SelectMode::Character,
54 }),
55 select_mode: SelectMode::Character,
56 is_extending: false,
57 }
58 }
59
60 pub fn clone_state(&mut self, other: &SelectionsCollection) {
61 self.next_selection_id = other.next_selection_id;
62 self.line_mode = other.line_mode;
63 self.disjoint = other.disjoint.clone();
64 self.pending.clone_from(&other.pending);
65 }
66
67 pub fn count(&self) -> usize {
68 let mut count = self.disjoint.len();
69 if self.pending.is_some() {
70 count += 1;
71 }
72 count
73 }
74
75 /// The non-pending, non-overlapping selections. There could be a pending selection that
76 /// overlaps these if the mouse is being dragged, etc. This could also be empty if there is a
77 /// pending selection. Returned as selections over Anchors.
78 pub fn disjoint_anchors_arc(&self) -> Arc<[Selection<Anchor>]> {
79 self.disjoint.clone()
80 }
81
82 /// The non-pending, non-overlapping selections. There could be a pending selection that
83 /// overlaps these if the mouse is being dragged, etc. This could also be empty if there is a
84 /// pending selection. Returned as selections over Anchors.
85 pub fn disjoint_anchors(&self) -> &[Selection<Anchor>] {
86 &self.disjoint
87 }
88
89 pub fn disjoint_anchor_ranges(&self) -> impl Iterator<Item = Range<Anchor>> {
90 // Mapping the Arc slice would borrow it, whereas indexing captures it.
91 let disjoint = self.disjoint_anchors_arc();
92 (0..disjoint.len()).map(move |ix| disjoint[ix].range())
93 }
94
95 /// Non-overlapping selections using anchors, including the pending selection.
96 pub fn all_anchors(&self, snapshot: &DisplaySnapshot) -> Arc<[Selection<Anchor>]> {
97 if self.pending.is_none() {
98 self.disjoint_anchors_arc()
99 } else {
100 let all_offset_selections = self.all::<MultiBufferOffset>(snapshot);
101 all_offset_selections
102 .into_iter()
103 .map(|selection| selection_to_anchor_selection(selection, snapshot))
104 .collect()
105 }
106 }
107
108 pub fn pending_anchor(&self) -> Option<&Selection<Anchor>> {
109 self.pending.as_ref().map(|pending| &pending.selection)
110 }
111
112 pub fn pending_anchor_mut(&mut self) -> Option<&mut Selection<Anchor>> {
113 self.pending.as_mut().map(|pending| &mut pending.selection)
114 }
115
116 pub fn pending<D>(&self, snapshot: &DisplaySnapshot) -> Option<Selection<D>>
117 where
118 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord,
119 {
120 resolve_selections_wrapping_blocks(self.pending_anchor(), &snapshot).next()
121 }
122
123 pub(crate) fn pending_mode(&self) -> Option<SelectMode> {
124 self.pending.as_ref().map(|pending| pending.mode.clone())
125 }
126
127 pub fn all<D>(&self, snapshot: &DisplaySnapshot) -> Vec<Selection<D>>
128 where
129 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord,
130 {
131 let disjoint_anchors = &self.disjoint;
132 let mut disjoint =
133 resolve_selections_wrapping_blocks::<D, _>(disjoint_anchors.iter(), &snapshot)
134 .peekable();
135 let mut pending_opt = self.pending::<D>(&snapshot);
136 iter::from_fn(move || {
137 if let Some(pending) = pending_opt.as_mut() {
138 while let Some(next_selection) = disjoint.peek() {
139 if pending.start <= next_selection.end && pending.end >= next_selection.start {
140 let next_selection = disjoint.next().unwrap();
141 if next_selection.start < pending.start {
142 pending.start = next_selection.start;
143 }
144 if next_selection.end > pending.end {
145 pending.end = next_selection.end;
146 }
147 } else if next_selection.end < pending.start {
148 return disjoint.next();
149 } else {
150 break;
151 }
152 }
153
154 pending_opt.take()
155 } else {
156 disjoint.next()
157 }
158 })
159 .collect()
160 }
161
162 /// Returns all of the selections, adjusted to take into account the selection line_mode
163 pub fn all_adjusted(&self, snapshot: &DisplaySnapshot) -> Vec<Selection<Point>> {
164 let mut selections = self.all::<Point>(&snapshot);
165 if self.line_mode {
166 for selection in &mut selections {
167 let new_range = snapshot.expand_to_line(selection.range());
168 selection.start = new_range.start;
169 selection.end = new_range.end;
170 }
171 }
172 selections
173 }
174
175 /// Returns the newest selection, adjusted to take into account the selection line_mode
176 pub fn newest_adjusted(&self, snapshot: &DisplaySnapshot) -> Selection<Point> {
177 let mut selection = self.newest::<Point>(&snapshot);
178 if self.line_mode {
179 let new_range = snapshot.expand_to_line(selection.range());
180 selection.start = new_range.start;
181 selection.end = new_range.end;
182 }
183 selection
184 }
185
186 pub fn all_adjusted_display(
187 &self,
188 display_map: &DisplaySnapshot,
189 ) -> Vec<Selection<DisplayPoint>> {
190 if self.line_mode {
191 let selections = self.all::<Point>(&display_map);
192 let result = selections
193 .into_iter()
194 .map(|mut selection| {
195 let new_range = display_map.expand_to_line(selection.range());
196 selection.start = new_range.start;
197 selection.end = new_range.end;
198 selection.map(|point| point.to_display_point(&display_map))
199 })
200 .collect();
201 result
202 } else {
203 self.all_display(display_map)
204 }
205 }
206
207 pub fn disjoint_in_range<D>(
208 &self,
209 range: Range<Anchor>,
210 snapshot: &DisplaySnapshot,
211 ) -> Vec<Selection<D>>
212 where
213 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord + std::fmt::Debug,
214 {
215 let start_ix = match self
216 .disjoint
217 .binary_search_by(|probe| probe.end.cmp(&range.start, snapshot.buffer_snapshot()))
218 {
219 Ok(ix) | Err(ix) => ix,
220 };
221 let end_ix = match self
222 .disjoint
223 .binary_search_by(|probe| probe.start.cmp(&range.end, snapshot.buffer_snapshot()))
224 {
225 Ok(ix) => ix + 1,
226 Err(ix) => ix,
227 };
228 resolve_selections_wrapping_blocks(&self.disjoint[start_ix..end_ix], snapshot).collect()
229 }
230
231 pub fn all_display(&self, snapshot: &DisplaySnapshot) -> Vec<Selection<DisplayPoint>> {
232 let disjoint_anchors = &self.disjoint;
233 let mut disjoint =
234 resolve_selections_display(disjoint_anchors.iter(), &snapshot).peekable();
235 let mut pending_opt = resolve_selections_display(self.pending_anchor(), &snapshot).next();
236 iter::from_fn(move || {
237 if let Some(pending) = pending_opt.as_mut() {
238 while let Some(next_selection) = disjoint.peek() {
239 if pending.start <= next_selection.end && pending.end >= next_selection.start {
240 let next_selection = disjoint.next().unwrap();
241 if next_selection.start < pending.start {
242 pending.start = next_selection.start;
243 }
244 if next_selection.end > pending.end {
245 pending.end = next_selection.end;
246 }
247 } else if next_selection.end < pending.start {
248 return disjoint.next();
249 } else {
250 break;
251 }
252 }
253
254 pending_opt.take()
255 } else {
256 disjoint.next()
257 }
258 })
259 .collect()
260 }
261
262 pub fn newest_anchor(&self) -> &Selection<Anchor> {
263 self.pending
264 .as_ref()
265 .map(|s| &s.selection)
266 .or_else(|| self.disjoint.iter().max_by_key(|s| s.id))
267 .unwrap()
268 }
269
270 pub fn newest<D>(&self, snapshot: &DisplaySnapshot) -> Selection<D>
271 where
272 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord,
273 {
274 resolve_selections_wrapping_blocks([self.newest_anchor()], &snapshot)
275 .next()
276 .unwrap()
277 }
278
279 pub fn newest_display(&self, snapshot: &DisplaySnapshot) -> Selection<DisplayPoint> {
280 resolve_selections_display([self.newest_anchor()], &snapshot)
281 .next()
282 .unwrap()
283 }
284
285 pub fn oldest_anchor(&self) -> &Selection<Anchor> {
286 self.disjoint
287 .iter()
288 .min_by_key(|s| s.id)
289 .or_else(|| self.pending.as_ref().map(|p| &p.selection))
290 .unwrap()
291 }
292
293 pub fn oldest<D>(&self, snapshot: &DisplaySnapshot) -> Selection<D>
294 where
295 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord,
296 {
297 resolve_selections_wrapping_blocks([self.oldest_anchor()], &snapshot)
298 .next()
299 .unwrap()
300 }
301
302 pub fn first_anchor(&self) -> Selection<Anchor> {
303 self.pending
304 .as_ref()
305 .map(|pending| pending.selection.clone())
306 .unwrap_or_else(|| self.disjoint.first().cloned().unwrap())
307 }
308
309 pub fn first<D>(&self, snapshot: &DisplaySnapshot) -> Selection<D>
310 where
311 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord,
312 {
313 self.all(snapshot).first().unwrap().clone()
314 }
315
316 pub fn last<D>(&self, snapshot: &DisplaySnapshot) -> Selection<D>
317 where
318 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord,
319 {
320 self.all(snapshot).last().unwrap().clone()
321 }
322
323 /// Returns a list of (potentially backwards!) ranges representing the selections.
324 /// Useful for test assertions, but prefer `.all()` instead.
325 #[cfg(any(test, feature = "test-support"))]
326 pub fn ranges<D>(&self, snapshot: &DisplaySnapshot) -> Vec<Range<D>>
327 where
328 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord,
329 {
330 self.all::<D>(snapshot)
331 .iter()
332 .map(|s| {
333 if s.reversed {
334 s.end..s.start
335 } else {
336 s.start..s.end
337 }
338 })
339 .collect()
340 }
341
342 #[cfg(any(test, feature = "test-support"))]
343 pub fn display_ranges(&self, display_snapshot: &DisplaySnapshot) -> Vec<Range<DisplayPoint>> {
344 self.disjoint_anchors_arc()
345 .iter()
346 .chain(self.pending_anchor())
347 .map(|s| {
348 if s.reversed {
349 s.end.to_display_point(display_snapshot)
350 ..s.start.to_display_point(display_snapshot)
351 } else {
352 s.start.to_display_point(display_snapshot)
353 ..s.end.to_display_point(display_snapshot)
354 }
355 })
356 .collect()
357 }
358
359 /// Attempts to build a selection in the provided `DisplayRow` within the
360 /// same range as the provided range of `Pixels`.
361 /// Returns `None` if the range is not empty but it starts past the line's
362 /// length, meaning that the line isn't long enough to be contained within
363 /// part of the provided range.
364 pub fn build_columnar_selection(
365 &mut self,
366 display_map: &DisplaySnapshot,
367 row: DisplayRow,
368 positions: &Range<Pixels>,
369 reversed: bool,
370 text_layout_details: &TextLayoutDetails,
371 ) -> Option<Selection<Point>> {
372 let is_empty = positions.start == positions.end;
373 let line_len = display_map.line_len(row);
374 let line = display_map.layout_row(row, text_layout_details);
375 let start_col = line.closest_index_for_x(positions.start) as u32;
376
377 let (start, end) = if is_empty {
378 let point = DisplayPoint::new(row, std::cmp::min(start_col, line_len));
379 (point, point)
380 } else {
381 if start_col >= line_len {
382 return None;
383 }
384 let start = DisplayPoint::new(row, start_col);
385 let end_col = line.closest_index_for_x(positions.end) as u32;
386 let end = DisplayPoint::new(row, end_col);
387 (start, end)
388 };
389
390 Some(Selection {
391 id: post_inc(&mut self.next_selection_id),
392 start: start.to_point(display_map),
393 end: end.to_point(display_map),
394 reversed,
395 goal: SelectionGoal::HorizontalRange {
396 start: positions.start.into(),
397 end: positions.end.into(),
398 },
399 })
400 }
401
402 pub fn change_with<R>(
403 &mut self,
404 snapshot: &DisplaySnapshot,
405 change: impl FnOnce(&mut MutableSelectionsCollection<'_, '_>) -> R,
406 ) -> (bool, R) {
407 let mut mutable_collection = MutableSelectionsCollection {
408 snapshot,
409 collection: self,
410 selections_changed: false,
411 };
412
413 let result = change(&mut mutable_collection);
414 assert!(
415 !mutable_collection.disjoint.is_empty() || mutable_collection.pending.is_some(),
416 "There must be at least one selection"
417 );
418 (mutable_collection.selections_changed, result)
419 }
420
421 pub fn next_selection_id(&self) -> usize {
422 self.next_selection_id
423 }
424
425 pub fn line_mode(&self) -> bool {
426 self.line_mode
427 }
428
429 pub fn set_line_mode(&mut self, line_mode: bool) {
430 self.line_mode = line_mode;
431 }
432
433 pub fn select_mode(&self) -> &SelectMode {
434 &self.select_mode
435 }
436
437 pub fn set_select_mode(&mut self, select_mode: SelectMode) {
438 self.select_mode = select_mode;
439 }
440
441 pub fn is_extending(&self) -> bool {
442 self.is_extending
443 }
444
445 pub fn set_is_extending(&mut self, is_extending: bool) {
446 self.is_extending = is_extending;
447 }
448}
449
450pub struct MutableSelectionsCollection<'snap, 'a> {
451 collection: &'a mut SelectionsCollection,
452 snapshot: &'snap DisplaySnapshot,
453 selections_changed: bool,
454}
455
456impl<'snap, 'a> fmt::Debug for MutableSelectionsCollection<'snap, 'a> {
457 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
458 f.debug_struct("MutableSelectionsCollection")
459 .field("collection", &self.collection)
460 .field("selections_changed", &self.selections_changed)
461 .finish()
462 }
463}
464
465impl<'snap, 'a> MutableSelectionsCollection<'snap, 'a> {
466 pub fn display_snapshot(&self) -> DisplaySnapshot {
467 self.snapshot.clone()
468 }
469
470 pub fn clear_disjoint(&mut self) {
471 self.collection.disjoint = Arc::default();
472 }
473
474 pub fn delete(&mut self, selection_id: usize) {
475 let mut changed = false;
476 self.collection.disjoint = self
477 .disjoint
478 .iter()
479 .filter(|selection| {
480 let found = selection.id == selection_id;
481 changed |= found;
482 !found
483 })
484 .cloned()
485 .collect();
486
487 self.selections_changed |= changed;
488 }
489
490 pub fn remove_selections_from_buffer(&mut self, buffer_id: language::BufferId) {
491 let mut changed = false;
492
493 let filtered_selections: Arc<[Selection<Anchor>]> = {
494 self.disjoint
495 .iter()
496 .filter(|selection| {
497 if let Some(selection_buffer_id) =
498 self.snapshot.buffer_id_for_anchor(selection.start)
499 {
500 let should_remove = selection_buffer_id == buffer_id;
501 changed |= should_remove;
502 !should_remove
503 } else {
504 true
505 }
506 })
507 .cloned()
508 .collect()
509 };
510
511 if filtered_selections.is_empty() {
512 let default_anchor = self.snapshot.anchor_before(MultiBufferOffset(0));
513 self.collection.disjoint = Arc::from([Selection {
514 id: post_inc(&mut self.collection.next_selection_id),
515 start: default_anchor,
516 end: default_anchor,
517 reversed: false,
518 goal: SelectionGoal::None,
519 }]);
520 } else {
521 self.collection.disjoint = filtered_selections;
522 }
523
524 self.selections_changed |= changed;
525 }
526
527 pub fn clear_pending(&mut self) {
528 if self.collection.pending.is_some() {
529 self.collection.pending = None;
530 self.selections_changed = true;
531 }
532 }
533
534 pub(crate) fn set_pending_anchor_range(&mut self, range: Range<Anchor>, mode: SelectMode) {
535 self.collection.pending = Some(PendingSelection {
536 selection: {
537 let mut start = range.start;
538 let mut end = range.end;
539 let reversed = if start.cmp(&end, self.snapshot).is_gt() {
540 mem::swap(&mut start, &mut end);
541 true
542 } else {
543 false
544 };
545 Selection {
546 id: post_inc(&mut self.collection.next_selection_id),
547 start,
548 end,
549 reversed,
550 goal: SelectionGoal::None,
551 }
552 },
553 mode,
554 });
555 self.selections_changed = true;
556 }
557
558 pub(crate) fn set_pending(&mut self, selection: Selection<Anchor>, mode: SelectMode) {
559 self.collection.pending = Some(PendingSelection { selection, mode });
560 self.selections_changed = true;
561 }
562
563 pub fn try_cancel(&mut self) -> bool {
564 if let Some(pending) = self.collection.pending.take() {
565 if self.disjoint.is_empty() {
566 self.collection.disjoint = Arc::from([pending.selection]);
567 }
568 self.selections_changed = true;
569 return true;
570 }
571
572 let mut oldest = self.oldest_anchor().clone();
573 if self.count() > 1 {
574 self.collection.disjoint = Arc::from([oldest]);
575 self.selections_changed = true;
576 return true;
577 }
578
579 if !oldest.start.cmp(&oldest.end, self.snapshot).is_eq() {
580 let head = oldest.head();
581 oldest.start = head;
582 oldest.end = head;
583 self.collection.disjoint = Arc::from([oldest]);
584 self.selections_changed = true;
585 return true;
586 }
587
588 false
589 }
590
591 pub fn insert_range<T>(&mut self, range: Range<T>)
592 where
593 T: ToOffset,
594 {
595 let display_map = self.display_snapshot();
596 let mut selections = self.collection.all(&display_map);
597 let mut start = range.start.to_offset(self.snapshot);
598 let mut end = range.end.to_offset(self.snapshot);
599 let reversed = if start > end {
600 mem::swap(&mut start, &mut end);
601 true
602 } else {
603 false
604 };
605 selections.push(Selection {
606 id: post_inc(&mut self.collection.next_selection_id),
607 start,
608 end,
609 reversed,
610 goal: SelectionGoal::None,
611 });
612 self.select(selections);
613 }
614
615 pub fn select<T>(&mut self, selections: Vec<Selection<T>>)
616 where
617 T: ToOffset + std::marker::Copy + std::fmt::Debug,
618 {
619 let mut selections = selections
620 .into_iter()
621 .map(|selection| selection.map(|it| it.to_offset(self.snapshot)))
622 .map(|mut selection| {
623 if selection.start > selection.end {
624 mem::swap(&mut selection.start, &mut selection.end);
625 selection.reversed = true
626 }
627 selection
628 })
629 .collect::<Vec<_>>();
630 selections.sort_unstable_by_key(|s| s.start);
631 // Merge overlapping selections.
632 let mut i = 1;
633 while i < selections.len() {
634 if selections[i].start <= selections[i - 1].end {
635 let removed = selections.remove(i);
636 if removed.start < selections[i - 1].start {
637 selections[i - 1].start = removed.start;
638 }
639 if selections[i - 1].end < removed.end {
640 selections[i - 1].end = removed.end;
641 }
642 } else {
643 i += 1;
644 }
645 }
646
647 self.collection.disjoint = Arc::from_iter(
648 selections
649 .into_iter()
650 .map(|selection| selection_to_anchor_selection(selection, self.snapshot)),
651 );
652 self.collection.pending = None;
653 self.selections_changed = true;
654 }
655
656 pub fn select_anchors(&mut self, selections: Vec<Selection<Anchor>>) {
657 let map = self.display_snapshot();
658 let resolved_selections =
659 resolve_selections_wrapping_blocks::<MultiBufferOffset, _>(&selections, &map)
660 .collect::<Vec<_>>();
661 self.select(resolved_selections);
662 }
663
664 pub fn select_ranges<I, T>(&mut self, ranges: I)
665 where
666 I: IntoIterator<Item = Range<T>>,
667 T: ToOffset,
668 {
669 let ranges = ranges
670 .into_iter()
671 .map(|range| range.start.to_offset(self.snapshot)..range.end.to_offset(self.snapshot));
672 self.select_offset_ranges(ranges);
673 }
674
675 fn select_offset_ranges<I>(&mut self, ranges: I)
676 where
677 I: IntoIterator<Item = Range<MultiBufferOffset>>,
678 {
679 let selections = ranges
680 .into_iter()
681 .map(|range| {
682 let mut start = range.start;
683 let mut end = range.end;
684 let reversed = if start > end {
685 mem::swap(&mut start, &mut end);
686 true
687 } else {
688 false
689 };
690 Selection {
691 id: post_inc(&mut self.collection.next_selection_id),
692 start,
693 end,
694 reversed,
695 goal: SelectionGoal::None,
696 }
697 })
698 .collect::<Vec<_>>();
699
700 self.select(selections)
701 }
702
703 pub fn select_anchor_ranges<I>(&mut self, ranges: I)
704 where
705 I: IntoIterator<Item = Range<Anchor>>,
706 {
707 let selections = ranges
708 .into_iter()
709 .map(|range| {
710 let mut start = range.start;
711 let mut end = range.end;
712 let reversed = if start.cmp(&end, self.snapshot).is_gt() {
713 mem::swap(&mut start, &mut end);
714 true
715 } else {
716 false
717 };
718 Selection {
719 id: post_inc(&mut self.collection.next_selection_id),
720 start,
721 end,
722 reversed,
723 goal: SelectionGoal::None,
724 }
725 })
726 .collect::<Vec<_>>();
727 self.select_anchors(selections)
728 }
729
730 pub fn new_selection_id(&mut self) -> usize {
731 post_inc(&mut self.next_selection_id)
732 }
733
734 pub fn select_display_ranges<T>(&mut self, ranges: T)
735 where
736 T: IntoIterator<Item = Range<DisplayPoint>>,
737 {
738 let selections = ranges
739 .into_iter()
740 .map(|range| {
741 let mut start = range.start;
742 let mut end = range.end;
743 let reversed = if start > end {
744 mem::swap(&mut start, &mut end);
745 true
746 } else {
747 false
748 };
749 Selection {
750 id: post_inc(&mut self.collection.next_selection_id),
751 start: start.to_point(self.snapshot),
752 end: end.to_point(self.snapshot),
753 reversed,
754 goal: SelectionGoal::None,
755 }
756 })
757 .collect();
758 self.select(selections);
759 }
760
761 pub fn reverse_selections(&mut self) {
762 let mut new_selections: Vec<Selection<Point>> = Vec::new();
763 let disjoint = self.disjoint.clone();
764 for selection in disjoint
765 .iter()
766 .sorted_by(|first, second| Ord::cmp(&second.id, &first.id))
767 .collect::<Vec<&Selection<Anchor>>>()
768 {
769 new_selections.push(Selection {
770 id: self.new_selection_id(),
771 start: selection
772 .start
773 .to_display_point(self.snapshot)
774 .to_point(self.snapshot),
775 end: selection
776 .end
777 .to_display_point(self.snapshot)
778 .to_point(self.snapshot),
779 reversed: selection.reversed,
780 goal: selection.goal,
781 });
782 }
783 self.select(new_selections);
784 }
785
786 pub fn move_with(
787 &mut self,
788 mut move_selection: impl FnMut(&DisplaySnapshot, &mut Selection<DisplayPoint>),
789 ) {
790 let mut changed = false;
791 let display_map = self.display_snapshot();
792 let selections = self.collection.all_display(&display_map);
793 let selections = selections
794 .into_iter()
795 .map(|selection| {
796 let mut moved_selection = selection.clone();
797 move_selection(&display_map, &mut moved_selection);
798 if selection != moved_selection {
799 changed = true;
800 }
801 moved_selection.map(|display_point| display_point.to_point(&display_map))
802 })
803 .collect();
804
805 if changed {
806 self.select(selections)
807 }
808 }
809
810 pub fn move_offsets_with(
811 &mut self,
812 mut move_selection: impl FnMut(&MultiBufferSnapshot, &mut Selection<MultiBufferOffset>),
813 ) {
814 let mut changed = false;
815 let display_map = self.display_snapshot();
816 let selections = self
817 .collection
818 .all::<MultiBufferOffset>(&display_map)
819 .into_iter()
820 .map(|selection| {
821 let mut moved_selection = selection.clone();
822 move_selection(self.snapshot, &mut moved_selection);
823 if selection != moved_selection {
824 changed = true;
825 }
826 moved_selection
827 })
828 .collect();
829
830 if changed {
831 self.select(selections)
832 }
833 }
834
835 pub fn move_heads_with(
836 &mut self,
837 mut update_head: impl FnMut(
838 &DisplaySnapshot,
839 DisplayPoint,
840 SelectionGoal,
841 ) -> (DisplayPoint, SelectionGoal),
842 ) {
843 self.move_with(|map, selection| {
844 let (new_head, new_goal) = update_head(map, selection.head(), selection.goal);
845 selection.set_head(new_head, new_goal);
846 });
847 }
848
849 pub fn move_cursors_with(
850 &mut self,
851 mut update_cursor_position: impl FnMut(
852 &DisplaySnapshot,
853 DisplayPoint,
854 SelectionGoal,
855 ) -> (DisplayPoint, SelectionGoal),
856 ) {
857 self.move_with(|map, selection| {
858 let (cursor, new_goal) = update_cursor_position(map, selection.head(), selection.goal);
859 selection.collapse_to(cursor, new_goal)
860 });
861 }
862
863 pub fn maybe_move_cursors_with(
864 &mut self,
865 mut update_cursor_position: impl FnMut(
866 &DisplaySnapshot,
867 DisplayPoint,
868 SelectionGoal,
869 ) -> Option<(DisplayPoint, SelectionGoal)>,
870 ) {
871 self.move_cursors_with(|map, point, goal| {
872 update_cursor_position(map, point, goal).unwrap_or((point, goal))
873 })
874 }
875
876 pub fn replace_cursors_with(
877 &mut self,
878 find_replacement_cursors: impl FnOnce(&DisplaySnapshot) -> Vec<DisplayPoint>,
879 ) {
880 let new_selections = find_replacement_cursors(self.snapshot)
881 .into_iter()
882 .map(|cursor| {
883 let cursor_point = cursor.to_point(self.snapshot);
884 Selection {
885 id: post_inc(&mut self.collection.next_selection_id),
886 start: cursor_point,
887 end: cursor_point,
888 reversed: false,
889 goal: SelectionGoal::None,
890 }
891 })
892 .collect();
893 self.select(new_selections);
894 }
895
896 /// Compute new ranges for any selections that were located in excerpts that have
897 /// since been removed.
898 ///
899 /// Returns a `HashMap` indicating which selections whose former head position
900 /// was no longer present. The keys of the map are selection ids. The values are
901 /// the id of the new excerpt where the head of the selection has been moved.
902 pub fn refresh(&mut self) -> HashMap<usize, ExcerptId> {
903 let mut pending = self.collection.pending.take();
904 let mut selections_with_lost_position = HashMap::default();
905
906 let anchors_with_status = {
907 let disjoint_anchors = self
908 .disjoint
909 .iter()
910 .flat_map(|selection| [&selection.start, &selection.end]);
911 self.snapshot.refresh_anchors(disjoint_anchors)
912 };
913 let adjusted_disjoint: Vec<_> = anchors_with_status
914 .chunks(2)
915 .map(|selection_anchors| {
916 let (anchor_ix, start, kept_start) = selection_anchors[0];
917 let (_, end, kept_end) = selection_anchors[1];
918 let selection = &self.disjoint[anchor_ix / 2];
919 let kept_head = if selection.reversed {
920 kept_start
921 } else {
922 kept_end
923 };
924 if !kept_head {
925 selections_with_lost_position.insert(selection.id, selection.head().excerpt_id);
926 }
927
928 Selection {
929 id: selection.id,
930 start,
931 end,
932 reversed: selection.reversed,
933 goal: selection.goal,
934 }
935 })
936 .collect();
937
938 if !adjusted_disjoint.is_empty() {
939 let map = self.display_snapshot();
940 let resolved_selections =
941 resolve_selections_wrapping_blocks(adjusted_disjoint.iter(), &map).collect();
942 self.select::<MultiBufferOffset>(resolved_selections);
943 }
944
945 if let Some(pending) = pending.as_mut() {
946 let anchors = self
947 .snapshot
948 .refresh_anchors([&pending.selection.start, &pending.selection.end]);
949 let (_, start, kept_start) = anchors[0];
950 let (_, end, kept_end) = anchors[1];
951 let kept_head = if pending.selection.reversed {
952 kept_start
953 } else {
954 kept_end
955 };
956 if !kept_head {
957 selections_with_lost_position
958 .insert(pending.selection.id, pending.selection.head().excerpt_id);
959 }
960
961 pending.selection.start = start;
962 pending.selection.end = end;
963 }
964 self.collection.pending = pending;
965 self.selections_changed = true;
966
967 selections_with_lost_position
968 }
969}
970
971impl Deref for MutableSelectionsCollection<'_, '_> {
972 type Target = SelectionsCollection;
973 fn deref(&self) -> &Self::Target {
974 self.collection
975 }
976}
977
978impl DerefMut for MutableSelectionsCollection<'_, '_> {
979 fn deref_mut(&mut self) -> &mut Self::Target {
980 self.collection
981 }
982}
983
984fn selection_to_anchor_selection(
985 selection: Selection<MultiBufferOffset>,
986 buffer: &MultiBufferSnapshot,
987) -> Selection<Anchor> {
988 let end_bias = if selection.start == selection.end {
989 Bias::Right
990 } else {
991 Bias::Left
992 };
993 Selection {
994 id: selection.id,
995 start: buffer.anchor_after(selection.start),
996 end: buffer.anchor_at(selection.end, end_bias),
997 reversed: selection.reversed,
998 goal: selection.goal,
999 }
1000}
1001
1002fn resolve_selections_point<'a>(
1003 selections: impl 'a + IntoIterator<Item = &'a Selection<Anchor>>,
1004 map: &'a DisplaySnapshot,
1005) -> impl 'a + Iterator<Item = Selection<Point>> {
1006 let (to_summarize, selections) = selections.into_iter().tee();
1007 let mut summaries = map
1008 .buffer_snapshot()
1009 .summaries_for_anchors::<Point, _>(to_summarize.flat_map(|s| [&s.start, &s.end]))
1010 .into_iter();
1011 selections.map(move |s| {
1012 let start = summaries.next().unwrap();
1013 let end = summaries.next().unwrap();
1014 assert!(start <= end, "start: {:?}, end: {:?}", start, end);
1015 Selection {
1016 id: s.id,
1017 start,
1018 end,
1019 reversed: s.reversed,
1020 goal: s.goal,
1021 }
1022 })
1023}
1024
1025/// Panics if passed selections are not in order
1026/// Resolves the anchors to display positions
1027fn resolve_selections_display<'a>(
1028 selections: impl 'a + IntoIterator<Item = &'a Selection<Anchor>>,
1029 map: &'a DisplaySnapshot,
1030) -> impl 'a + Iterator<Item = Selection<DisplayPoint>> {
1031 let selections = resolve_selections_point(selections, map).map(move |s| {
1032 let display_start = map.point_to_display_point(s.start, Bias::Left);
1033 let display_end = map.point_to_display_point(
1034 s.end,
1035 if s.start == s.end {
1036 Bias::Right
1037 } else {
1038 Bias::Left
1039 },
1040 );
1041 assert!(
1042 display_start <= display_end,
1043 "display_start: {:?}, display_end: {:?}",
1044 display_start,
1045 display_end
1046 );
1047 Selection {
1048 id: s.id,
1049 start: display_start,
1050 end: display_end,
1051 reversed: s.reversed,
1052 goal: s.goal,
1053 }
1054 });
1055 coalesce_selections(selections)
1056}
1057
1058/// Resolves the passed in anchors to [`MultiBufferDimension`]s `D`
1059/// wrapping around blocks inbetween.
1060///
1061/// # Panics
1062///
1063/// Panics if passed selections are not in order
1064pub(crate) fn resolve_selections_wrapping_blocks<'a, D, I>(
1065 selections: I,
1066 map: &'a DisplaySnapshot,
1067) -> impl 'a + Iterator<Item = Selection<D>>
1068where
1069 D: MultiBufferDimension + Sub + AddAssign<<D as Sub>::Output> + Ord,
1070 I: 'a + IntoIterator<Item = &'a Selection<Anchor>>,
1071{
1072 // Transforms `Anchor -> DisplayPoint -> Point -> DisplayPoint -> D`
1073 // todo(lw): We should be able to short circuit the `Anchor -> DisplayPoint -> Point` to `Anchor -> Point`
1074 let (to_convert, selections) = resolve_selections_display(selections, map).tee();
1075 let mut converted_endpoints =
1076 map.buffer_snapshot()
1077 .dimensions_from_points::<D>(to_convert.flat_map(|s| {
1078 let start = map.display_point_to_point(s.start, Bias::Left);
1079 let end = map.display_point_to_point(s.end, Bias::Right);
1080 assert!(start <= end, "start: {:?}, end: {:?}", start, end);
1081 [start, end]
1082 }));
1083 selections.map(move |s| {
1084 let start = converted_endpoints.next().unwrap();
1085 let end = converted_endpoints.next().unwrap();
1086 assert!(start <= end, "start: {:?}, end: {:?}", start, end);
1087 Selection {
1088 id: s.id,
1089 start,
1090 end,
1091 reversed: s.reversed,
1092 goal: s.goal,
1093 }
1094 })
1095}
1096
1097fn coalesce_selections<D: Ord + fmt::Debug + Copy>(
1098 selections: impl Iterator<Item = Selection<D>>,
1099) -> impl Iterator<Item = Selection<D>> {
1100 let mut selections = selections.peekable();
1101 iter::from_fn(move || {
1102 let mut selection = selections.next()?;
1103 while let Some(next_selection) = selections.peek() {
1104 if selection.end >= next_selection.start {
1105 if selection.reversed == next_selection.reversed {
1106 selection.end = cmp::max(selection.end, next_selection.end);
1107 selections.next();
1108 } else {
1109 selection.end = cmp::max(selection.start, next_selection.start);
1110 break;
1111 }
1112 } else {
1113 break;
1114 }
1115 }
1116 assert!(
1117 selection.start <= selection.end,
1118 "selection.start: {:?}, selection.end: {:?}, selection.reversed: {:?}",
1119 selection.start,
1120 selection.end,
1121 selection.reversed
1122 );
1123 Some(selection)
1124 })
1125}