1mod anchor;
2pub mod locator;
3pub mod operation_queue;
4mod patch;
5mod point;
6mod point_utf16;
7#[cfg(any(test, feature = "test-support"))]
8pub mod random_char_iter;
9pub mod rope;
10mod selection;
11pub mod subscription;
12#[cfg(test)]
13mod tests;
14
15pub use anchor::*;
16use anyhow::Result;
17use clock::ReplicaId;
18use collections::{HashMap, HashSet};
19use locator::Locator;
20use operation_queue::OperationQueue;
21pub use patch::Patch;
22pub use point::*;
23pub use point_utf16::*;
24use postage::{barrier, oneshot, prelude::*};
25#[cfg(any(test, feature = "test-support"))]
26pub use random_char_iter::*;
27use rope::TextDimension;
28pub use rope::{Chunks, Rope, TextSummary};
29pub use selection::*;
30use std::{
31 cmp::{self, Ordering},
32 future::Future,
33 iter::Iterator,
34 ops::{self, Deref, Range, Sub},
35 str,
36 sync::Arc,
37 time::{Duration, Instant},
38};
39pub use subscription::*;
40pub use sum_tree::Bias;
41use sum_tree::{FilterCursor, SumTree};
42
43pub type TransactionId = clock::Local;
44
45pub struct Buffer {
46 snapshot: BufferSnapshot,
47 history: History,
48 deferred_ops: OperationQueue<Operation>,
49 deferred_replicas: HashSet<ReplicaId>,
50 replica_id: ReplicaId,
51 remote_id: u64,
52 local_clock: clock::Local,
53 pub lamport_clock: clock::Lamport,
54 subscriptions: Topic,
55 edit_id_resolvers: HashMap<clock::Local, Vec<oneshot::Sender<()>>>,
56 version_barriers: Vec<(clock::Global, barrier::Sender)>,
57}
58
59#[derive(Clone, Debug)]
60pub struct BufferSnapshot {
61 replica_id: ReplicaId,
62 visible_text: Rope,
63 deleted_text: Rope,
64 undo_map: UndoMap,
65 fragments: SumTree<Fragment>,
66 insertions: SumTree<InsertionFragment>,
67 pub version: clock::Global,
68}
69
70#[derive(Clone, Debug)]
71pub struct HistoryEntry {
72 transaction: Transaction,
73 first_edit_at: Instant,
74 last_edit_at: Instant,
75 suppress_grouping: bool,
76}
77
78#[derive(Clone, Debug)]
79pub struct Transaction {
80 pub id: TransactionId,
81 pub edit_ids: Vec<clock::Local>,
82 pub start: clock::Global,
83 pub end: clock::Global,
84 pub ranges: Vec<Range<FullOffset>>,
85}
86
87impl HistoryEntry {
88 pub fn transaction_id(&self) -> TransactionId {
89 self.transaction.id
90 }
91
92 fn push_edit(&mut self, edit: &EditOperation) {
93 self.transaction.edit_ids.push(edit.timestamp.local());
94 self.transaction.end.observe(edit.timestamp.local());
95
96 let mut other_ranges = edit.ranges.iter().peekable();
97 let mut new_ranges = Vec::new();
98 let insertion_len = edit.new_text.as_ref().map_or(0, |t| t.len());
99 let mut delta = 0;
100
101 for mut self_range in self.transaction.ranges.iter().cloned() {
102 self_range.start += delta;
103 self_range.end += delta;
104
105 while let Some(other_range) = other_ranges.peek() {
106 let mut other_range = (*other_range).clone();
107 other_range.start += delta;
108 other_range.end += delta;
109
110 if other_range.start <= self_range.end {
111 other_ranges.next().unwrap();
112 delta += insertion_len;
113
114 if other_range.end < self_range.start {
115 new_ranges.push(other_range.start..other_range.end + insertion_len);
116 self_range.start += insertion_len;
117 self_range.end += insertion_len;
118 } else {
119 self_range.start = cmp::min(self_range.start, other_range.start);
120 self_range.end = cmp::max(self_range.end, other_range.end) + insertion_len;
121 }
122 } else {
123 break;
124 }
125 }
126
127 new_ranges.push(self_range);
128 }
129
130 for other_range in other_ranges {
131 new_ranges.push(other_range.start + delta..other_range.end + delta + insertion_len);
132 delta += insertion_len;
133 }
134
135 self.transaction.ranges = new_ranges;
136 }
137}
138
139#[derive(Clone)]
140pub struct History {
141 // TODO: Turn this into a String or Rope, maybe.
142 pub base_text: Arc<str>,
143 operations: HashMap<clock::Local, Operation>,
144 undo_stack: Vec<HistoryEntry>,
145 redo_stack: Vec<HistoryEntry>,
146 transaction_depth: usize,
147 group_interval: Duration,
148}
149
150impl History {
151 pub fn new(base_text: Arc<str>) -> Self {
152 Self {
153 base_text,
154 operations: Default::default(),
155 undo_stack: Vec::new(),
156 redo_stack: Vec::new(),
157 transaction_depth: 0,
158 group_interval: Duration::from_millis(300),
159 }
160 }
161
162 fn push(&mut self, op: Operation) {
163 self.operations.insert(op.local_timestamp(), op);
164 }
165
166 fn start_transaction(
167 &mut self,
168 start: clock::Global,
169 now: Instant,
170 local_clock: &mut clock::Local,
171 ) -> Option<TransactionId> {
172 self.transaction_depth += 1;
173 if self.transaction_depth == 1 {
174 let id = local_clock.tick();
175 self.undo_stack.push(HistoryEntry {
176 transaction: Transaction {
177 id,
178 start: start.clone(),
179 end: start,
180 edit_ids: Default::default(),
181 ranges: Default::default(),
182 },
183 first_edit_at: now,
184 last_edit_at: now,
185 suppress_grouping: false,
186 });
187 Some(id)
188 } else {
189 None
190 }
191 }
192
193 fn end_transaction(&mut self, now: Instant) -> Option<&HistoryEntry> {
194 assert_ne!(self.transaction_depth, 0);
195 self.transaction_depth -= 1;
196 if self.transaction_depth == 0 {
197 if self
198 .undo_stack
199 .last()
200 .unwrap()
201 .transaction
202 .ranges
203 .is_empty()
204 {
205 self.undo_stack.pop();
206 None
207 } else {
208 let entry = self.undo_stack.last_mut().unwrap();
209 entry.last_edit_at = now;
210 Some(entry)
211 }
212 } else {
213 None
214 }
215 }
216
217 fn group(&mut self) -> Option<TransactionId> {
218 let mut new_len = self.undo_stack.len();
219 let mut entries = self.undo_stack.iter_mut();
220
221 if let Some(mut entry) = entries.next_back() {
222 while let Some(prev_entry) = entries.next_back() {
223 if !prev_entry.suppress_grouping
224 && entry.first_edit_at - prev_entry.last_edit_at <= self.group_interval
225 && entry.transaction.start == prev_entry.transaction.end
226 {
227 entry = prev_entry;
228 new_len -= 1;
229 } else {
230 break;
231 }
232 }
233 }
234
235 let (entries_to_keep, entries_to_merge) = self.undo_stack.split_at_mut(new_len);
236 if let Some(last_entry) = entries_to_keep.last_mut() {
237 for entry in &*entries_to_merge {
238 for edit_id in &entry.transaction.edit_ids {
239 last_entry.push_edit(self.operations[edit_id].as_edit().unwrap());
240 }
241 }
242
243 if let Some(entry) = entries_to_merge.last_mut() {
244 last_entry.last_edit_at = entry.last_edit_at;
245 last_entry.transaction.end = entry.transaction.end.clone();
246 }
247 }
248
249 self.undo_stack.truncate(new_len);
250 self.undo_stack.last().map(|e| e.transaction.id)
251 }
252
253 fn finalize_last_transaction(&mut self) -> Option<&Transaction> {
254 self.undo_stack.last_mut().map(|entry| {
255 entry.suppress_grouping = true;
256 &entry.transaction
257 })
258 }
259
260 fn push_transaction(&mut self, transaction: Transaction, now: Instant) {
261 assert_eq!(self.transaction_depth, 0);
262 self.undo_stack.push(HistoryEntry {
263 transaction,
264 first_edit_at: now,
265 last_edit_at: now,
266 suppress_grouping: false,
267 });
268 }
269
270 fn push_undo(&mut self, op_id: clock::Local) {
271 assert_ne!(self.transaction_depth, 0);
272 if let Some(Operation::Edit(edit)) = self.operations.get(&op_id) {
273 let last_transaction = self.undo_stack.last_mut().unwrap();
274 last_transaction.push_edit(&edit);
275 }
276 }
277
278 fn pop_undo(&mut self) -> Option<&HistoryEntry> {
279 assert_eq!(self.transaction_depth, 0);
280 if let Some(entry) = self.undo_stack.pop() {
281 self.redo_stack.push(entry);
282 self.redo_stack.last()
283 } else {
284 None
285 }
286 }
287
288 fn remove_from_undo(&mut self, transaction_id: TransactionId) -> &[HistoryEntry] {
289 assert_eq!(self.transaction_depth, 0);
290
291 let redo_stack_start_len = self.redo_stack.len();
292 if let Some(entry_ix) = self
293 .undo_stack
294 .iter()
295 .rposition(|entry| entry.transaction.id == transaction_id)
296 {
297 self.redo_stack
298 .extend(self.undo_stack.drain(entry_ix..).rev());
299 }
300 &self.redo_stack[redo_stack_start_len..]
301 }
302
303 fn forget(&mut self, transaction_id: TransactionId) {
304 assert_eq!(self.transaction_depth, 0);
305 if let Some(entry_ix) = self
306 .undo_stack
307 .iter()
308 .rposition(|entry| entry.transaction.id == transaction_id)
309 {
310 self.undo_stack.remove(entry_ix);
311 } else if let Some(entry_ix) = self
312 .redo_stack
313 .iter()
314 .rposition(|entry| entry.transaction.id == transaction_id)
315 {
316 self.undo_stack.remove(entry_ix);
317 }
318 }
319
320 fn pop_redo(&mut self) -> Option<&HistoryEntry> {
321 assert_eq!(self.transaction_depth, 0);
322 if let Some(entry) = self.redo_stack.pop() {
323 self.undo_stack.push(entry);
324 self.undo_stack.last()
325 } else {
326 None
327 }
328 }
329
330 fn remove_from_redo(&mut self, transaction_id: TransactionId) -> &[HistoryEntry] {
331 assert_eq!(self.transaction_depth, 0);
332
333 let undo_stack_start_len = self.undo_stack.len();
334 if let Some(entry_ix) = self
335 .redo_stack
336 .iter()
337 .rposition(|entry| entry.transaction.id == transaction_id)
338 {
339 self.undo_stack
340 .extend(self.redo_stack.drain(entry_ix..).rev());
341 }
342 &self.undo_stack[undo_stack_start_len..]
343 }
344}
345
346#[derive(Clone, Default, Debug)]
347struct UndoMap(HashMap<clock::Local, Vec<(clock::Local, u32)>>);
348
349impl UndoMap {
350 fn insert(&mut self, undo: &UndoOperation) {
351 for (edit_id, count) in &undo.counts {
352 self.0.entry(*edit_id).or_default().push((undo.id, *count));
353 }
354 }
355
356 fn is_undone(&self, edit_id: clock::Local) -> bool {
357 self.undo_count(edit_id) % 2 == 1
358 }
359
360 fn was_undone(&self, edit_id: clock::Local, version: &clock::Global) -> bool {
361 let undo_count = self
362 .0
363 .get(&edit_id)
364 .unwrap_or(&Vec::new())
365 .iter()
366 .filter(|(undo_id, _)| version.observed(*undo_id))
367 .map(|(_, undo_count)| *undo_count)
368 .max()
369 .unwrap_or(0);
370 undo_count % 2 == 1
371 }
372
373 fn undo_count(&self, edit_id: clock::Local) -> u32 {
374 self.0
375 .get(&edit_id)
376 .unwrap_or(&Vec::new())
377 .iter()
378 .map(|(_, undo_count)| *undo_count)
379 .max()
380 .unwrap_or(0)
381 }
382}
383
384struct Edits<'a, D: TextDimension, F: FnMut(&FragmentSummary) -> bool> {
385 visible_cursor: rope::Cursor<'a>,
386 deleted_cursor: rope::Cursor<'a>,
387 fragments_cursor: Option<FilterCursor<'a, F, Fragment, FragmentTextSummary>>,
388 undos: &'a UndoMap,
389 since: &'a clock::Global,
390 old_end: D,
391 new_end: D,
392 range: Range<(&'a Locator, usize)>,
393}
394
395#[derive(Clone, Debug, Default, Eq, PartialEq)]
396pub struct Edit<D> {
397 pub old: Range<D>,
398 pub new: Range<D>,
399}
400
401impl<D> Edit<D>
402where
403 D: Sub<D, Output = D> + PartialEq + Copy,
404{
405 pub fn old_len(&self) -> D {
406 self.old.end - self.old.start
407 }
408
409 pub fn new_len(&self) -> D {
410 self.new.end - self.new.start
411 }
412
413 pub fn is_empty(&self) -> bool {
414 self.old.start == self.old.end && self.new.start == self.new.end
415 }
416}
417
418impl<D1, D2> Edit<(D1, D2)> {
419 pub fn flatten(self) -> (Edit<D1>, Edit<D2>) {
420 (
421 Edit {
422 old: self.old.start.0..self.old.end.0,
423 new: self.new.start.0..self.new.end.0,
424 },
425 Edit {
426 old: self.old.start.1..self.old.end.1,
427 new: self.new.start.1..self.new.end.1,
428 },
429 )
430 }
431}
432
433#[derive(Copy, Clone, Debug, Default, Eq, PartialEq, PartialOrd, Ord)]
434pub struct InsertionTimestamp {
435 pub replica_id: ReplicaId,
436 pub local: clock::Seq,
437 pub lamport: clock::Seq,
438}
439
440impl InsertionTimestamp {
441 pub fn local(&self) -> clock::Local {
442 clock::Local {
443 replica_id: self.replica_id,
444 value: self.local,
445 }
446 }
447
448 pub fn lamport(&self) -> clock::Lamport {
449 clock::Lamport {
450 replica_id: self.replica_id,
451 value: self.lamport,
452 }
453 }
454}
455
456#[derive(Eq, PartialEq, Clone, Debug)]
457pub struct Fragment {
458 pub id: Locator,
459 pub insertion_timestamp: InsertionTimestamp,
460 pub insertion_offset: usize,
461 pub len: usize,
462 pub visible: bool,
463 pub deletions: HashSet<clock::Local>,
464 pub max_undos: clock::Global,
465}
466
467#[derive(Eq, PartialEq, Clone, Debug)]
468pub struct FragmentSummary {
469 text: FragmentTextSummary,
470 max_id: Locator,
471 max_version: clock::Global,
472 min_insertion_version: clock::Global,
473 max_insertion_version: clock::Global,
474}
475
476#[derive(Copy, Default, Clone, Debug, PartialEq, Eq)]
477struct FragmentTextSummary {
478 visible: usize,
479 deleted: usize,
480}
481
482impl<'a> sum_tree::Dimension<'a, FragmentSummary> for FragmentTextSummary {
483 fn add_summary(&mut self, summary: &'a FragmentSummary, _: &Option<clock::Global>) {
484 self.visible += summary.text.visible;
485 self.deleted += summary.text.deleted;
486 }
487}
488
489#[derive(Eq, PartialEq, Clone, Debug)]
490struct InsertionFragment {
491 timestamp: clock::Local,
492 split_offset: usize,
493 fragment_id: Locator,
494}
495
496#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, PartialOrd, Ord)]
497struct InsertionFragmentKey {
498 timestamp: clock::Local,
499 split_offset: usize,
500}
501
502#[derive(Clone, Debug, Eq, PartialEq)]
503pub enum Operation {
504 Edit(EditOperation),
505 Undo {
506 undo: UndoOperation,
507 lamport_timestamp: clock::Lamport,
508 },
509}
510
511#[derive(Clone, Debug, Eq, PartialEq)]
512pub struct EditOperation {
513 pub timestamp: InsertionTimestamp,
514 pub version: clock::Global,
515 pub ranges: Vec<Range<FullOffset>>,
516 pub new_text: Option<String>,
517}
518
519#[derive(Clone, Debug, Eq, PartialEq)]
520pub struct UndoOperation {
521 pub id: clock::Local,
522 pub counts: HashMap<clock::Local, u32>,
523 pub ranges: Vec<Range<FullOffset>>,
524 pub version: clock::Global,
525}
526
527impl Buffer {
528 pub fn new(replica_id: u16, remote_id: u64, history: History) -> Buffer {
529 let mut fragments = SumTree::new();
530 let mut insertions = SumTree::new();
531
532 let mut local_clock = clock::Local::new(replica_id);
533 let mut lamport_clock = clock::Lamport::new(replica_id);
534 let mut version = clock::Global::new();
535 let visible_text = Rope::from(history.base_text.as_ref());
536 if visible_text.len() > 0 {
537 let insertion_timestamp = InsertionTimestamp {
538 replica_id: 0,
539 local: 1,
540 lamport: 1,
541 };
542 local_clock.observe(insertion_timestamp.local());
543 lamport_clock.observe(insertion_timestamp.lamport());
544 version.observe(insertion_timestamp.local());
545 let fragment_id = Locator::between(&Locator::min(), &Locator::max());
546 let fragment = Fragment {
547 id: fragment_id,
548 insertion_timestamp,
549 insertion_offset: 0,
550 len: visible_text.len(),
551 visible: true,
552 deletions: Default::default(),
553 max_undos: Default::default(),
554 };
555 insertions.push(InsertionFragment::new(&fragment), &());
556 fragments.push(fragment, &None);
557 }
558
559 Buffer {
560 snapshot: BufferSnapshot {
561 replica_id,
562 visible_text,
563 deleted_text: Rope::new(),
564 fragments,
565 insertions,
566 version,
567 undo_map: Default::default(),
568 },
569 history,
570 deferred_ops: OperationQueue::new(),
571 deferred_replicas: HashSet::default(),
572 replica_id,
573 remote_id,
574 local_clock,
575 lamport_clock,
576 subscriptions: Default::default(),
577 edit_id_resolvers: Default::default(),
578 version_barriers: Default::default(),
579 }
580 }
581
582 pub fn version(&self) -> clock::Global {
583 self.version.clone()
584 }
585
586 pub fn snapshot(&self) -> BufferSnapshot {
587 self.snapshot.clone()
588 }
589
590 pub fn replica_id(&self) -> ReplicaId {
591 self.local_clock.replica_id
592 }
593
594 pub fn remote_id(&self) -> u64 {
595 self.remote_id
596 }
597
598 pub fn deferred_ops_len(&self) -> usize {
599 self.deferred_ops.len()
600 }
601
602 pub fn transaction_group_interval(&self) -> Duration {
603 self.history.group_interval
604 }
605
606 pub fn edit<R, I, S, T>(&mut self, ranges: R, new_text: T) -> Operation
607 where
608 R: IntoIterator<IntoIter = I>,
609 I: ExactSizeIterator<Item = Range<S>>,
610 S: ToOffset,
611 T: Into<String>,
612 {
613 let new_text = new_text.into();
614 let new_text_len = new_text.len();
615 let new_text = if new_text_len > 0 {
616 Some(new_text)
617 } else {
618 None
619 };
620
621 self.start_transaction();
622 let timestamp = InsertionTimestamp {
623 replica_id: self.replica_id,
624 local: self.local_clock.tick().value,
625 lamport: self.lamport_clock.tick().value,
626 };
627 let operation =
628 Operation::Edit(self.apply_local_edit(ranges.into_iter(), new_text, timestamp));
629
630 self.history.push(operation.clone());
631 self.history.push_undo(operation.local_timestamp());
632 self.snapshot.version.observe(operation.local_timestamp());
633 self.end_transaction();
634 operation
635 }
636
637 fn apply_local_edit<S: ToOffset>(
638 &mut self,
639 ranges: impl ExactSizeIterator<Item = Range<S>>,
640 new_text: Option<String>,
641 timestamp: InsertionTimestamp,
642 ) -> EditOperation {
643 let mut edits = Patch::default();
644 let mut edit_op = EditOperation {
645 timestamp,
646 version: self.version(),
647 ranges: Vec::with_capacity(ranges.len()),
648 new_text: None,
649 };
650 let mut new_insertions = Vec::new();
651 let mut insertion_offset = 0;
652
653 let mut ranges = ranges
654 .map(|range| range.start.to_offset(&*self)..range.end.to_offset(&*self))
655 .peekable();
656
657 let mut new_ropes =
658 RopeBuilder::new(self.visible_text.cursor(0), self.deleted_text.cursor(0));
659 let mut old_fragments = self.fragments.cursor::<FragmentTextSummary>();
660 let mut new_fragments =
661 old_fragments.slice(&ranges.peek().unwrap().start, Bias::Right, &None);
662 new_ropes.push_tree(new_fragments.summary().text);
663
664 let mut fragment_start = old_fragments.start().visible;
665 for range in ranges {
666 let fragment_end = old_fragments.end(&None).visible;
667
668 // If the current fragment ends before this range, then jump ahead to the first fragment
669 // that extends past the start of this range, reusing any intervening fragments.
670 if fragment_end < range.start {
671 // If the current fragment has been partially consumed, then consume the rest of it
672 // and advance to the next fragment before slicing.
673 if fragment_start > old_fragments.start().visible {
674 if fragment_end > fragment_start {
675 let mut suffix = old_fragments.item().unwrap().clone();
676 suffix.len = fragment_end - fragment_start;
677 suffix.insertion_offset += fragment_start - old_fragments.start().visible;
678 new_insertions.push(InsertionFragment::insert_new(&suffix));
679 new_ropes.push_fragment(&suffix, suffix.visible);
680 new_fragments.push(suffix, &None);
681 }
682 old_fragments.next(&None);
683 }
684
685 let slice = old_fragments.slice(&range.start, Bias::Right, &None);
686 new_ropes.push_tree(slice.summary().text);
687 new_fragments.push_tree(slice, &None);
688 fragment_start = old_fragments.start().visible;
689 }
690
691 let full_range_start = FullOffset(range.start + old_fragments.start().deleted);
692
693 // Preserve any portion of the current fragment that precedes this range.
694 if fragment_start < range.start {
695 let mut prefix = old_fragments.item().unwrap().clone();
696 prefix.len = range.start - fragment_start;
697 prefix.insertion_offset += fragment_start - old_fragments.start().visible;
698 prefix.id = Locator::between(&new_fragments.summary().max_id, &prefix.id);
699 new_insertions.push(InsertionFragment::insert_new(&prefix));
700 new_ropes.push_fragment(&prefix, prefix.visible);
701 new_fragments.push(prefix, &None);
702 fragment_start = range.start;
703 }
704
705 // Insert the new text before any existing fragments within the range.
706 if let Some(new_text) = new_text.as_deref() {
707 let new_start = new_fragments.summary().text.visible;
708 edits.push(Edit {
709 old: fragment_start..fragment_start,
710 new: new_start..new_start + new_text.len(),
711 });
712 let fragment = Fragment {
713 id: Locator::between(
714 &new_fragments.summary().max_id,
715 old_fragments
716 .item()
717 .map_or(&Locator::max(), |old_fragment| &old_fragment.id),
718 ),
719 insertion_timestamp: timestamp,
720 insertion_offset,
721 len: new_text.len(),
722 deletions: Default::default(),
723 max_undos: Default::default(),
724 visible: true,
725 };
726 new_insertions.push(InsertionFragment::insert_new(&fragment));
727 new_ropes.push_str(new_text);
728 new_fragments.push(fragment, &None);
729 insertion_offset += new_text.len();
730 }
731
732 // Advance through every fragment that intersects this range, marking the intersecting
733 // portions as deleted.
734 while fragment_start < range.end {
735 let fragment = old_fragments.item().unwrap();
736 let fragment_end = old_fragments.end(&None).visible;
737 let mut intersection = fragment.clone();
738 let intersection_end = cmp::min(range.end, fragment_end);
739 if fragment.visible {
740 intersection.len = intersection_end - fragment_start;
741 intersection.insertion_offset += fragment_start - old_fragments.start().visible;
742 intersection.id =
743 Locator::between(&new_fragments.summary().max_id, &intersection.id);
744 intersection.deletions.insert(timestamp.local());
745 intersection.visible = false;
746 }
747 if intersection.len > 0 {
748 if fragment.visible && !intersection.visible {
749 let new_start = new_fragments.summary().text.visible;
750 edits.push(Edit {
751 old: fragment_start..intersection_end,
752 new: new_start..new_start,
753 });
754 }
755 new_insertions.push(InsertionFragment::insert_new(&intersection));
756 new_ropes.push_fragment(&intersection, fragment.visible);
757 new_fragments.push(intersection, &None);
758 fragment_start = intersection_end;
759 }
760 if fragment_end <= range.end {
761 old_fragments.next(&None);
762 }
763 }
764
765 let full_range_end = FullOffset(range.end + old_fragments.start().deleted);
766 edit_op.ranges.push(full_range_start..full_range_end);
767 }
768
769 // If the current fragment has been partially consumed, then consume the rest of it
770 // and advance to the next fragment before slicing.
771 if fragment_start > old_fragments.start().visible {
772 let fragment_end = old_fragments.end(&None).visible;
773 if fragment_end > fragment_start {
774 let mut suffix = old_fragments.item().unwrap().clone();
775 suffix.len = fragment_end - fragment_start;
776 suffix.insertion_offset += fragment_start - old_fragments.start().visible;
777 new_insertions.push(InsertionFragment::insert_new(&suffix));
778 new_ropes.push_fragment(&suffix, suffix.visible);
779 new_fragments.push(suffix, &None);
780 }
781 old_fragments.next(&None);
782 }
783
784 let suffix = old_fragments.suffix(&None);
785 new_ropes.push_tree(suffix.summary().text);
786 new_fragments.push_tree(suffix, &None);
787 let (visible_text, deleted_text) = new_ropes.finish();
788 drop(old_fragments);
789
790 self.snapshot.fragments = new_fragments;
791 self.snapshot.insertions.edit(new_insertions, &());
792 self.snapshot.visible_text = visible_text;
793 self.snapshot.deleted_text = deleted_text;
794 self.subscriptions.publish_mut(&edits);
795 edit_op.new_text = new_text;
796 edit_op
797 }
798
799 pub fn apply_ops<I: IntoIterator<Item = Operation>>(&mut self, ops: I) -> Result<()> {
800 let mut deferred_ops = Vec::new();
801 for op in ops {
802 self.history.push(op.clone());
803 if self.can_apply_op(&op) {
804 self.apply_op(op)?;
805 } else {
806 self.deferred_replicas.insert(op.replica_id());
807 deferred_ops.push(op);
808 }
809 }
810 self.deferred_ops.insert(deferred_ops);
811 self.flush_deferred_ops()?;
812 Ok(())
813 }
814
815 fn apply_op(&mut self, op: Operation) -> Result<()> {
816 match op {
817 Operation::Edit(edit) => {
818 if !self.version.observed(edit.timestamp.local()) {
819 self.apply_remote_edit(
820 &edit.version,
821 &edit.ranges,
822 edit.new_text.as_deref(),
823 edit.timestamp,
824 );
825 self.snapshot.version.observe(edit.timestamp.local());
826 self.resolve_edit(edit.timestamp.local());
827 }
828 }
829 Operation::Undo {
830 undo,
831 lamport_timestamp,
832 } => {
833 if !self.version.observed(undo.id) {
834 self.apply_undo(&undo)?;
835 self.snapshot.version.observe(undo.id);
836 self.lamport_clock.observe(lamport_timestamp);
837 }
838 }
839 }
840 self.version_barriers
841 .retain(|(version, _)| !self.snapshot.version().observed_all(version));
842 Ok(())
843 }
844
845 fn apply_remote_edit(
846 &mut self,
847 version: &clock::Global,
848 ranges: &[Range<FullOffset>],
849 new_text: Option<&str>,
850 timestamp: InsertionTimestamp,
851 ) {
852 if ranges.is_empty() {
853 return;
854 }
855
856 let mut edits = Patch::default();
857 let cx = Some(version.clone());
858 let mut new_insertions = Vec::new();
859 let mut insertion_offset = 0;
860 let mut new_ropes =
861 RopeBuilder::new(self.visible_text.cursor(0), self.deleted_text.cursor(0));
862 let mut old_fragments = self.fragments.cursor::<(VersionedFullOffset, usize)>();
863 let mut new_fragments = old_fragments.slice(
864 &VersionedFullOffset::Offset(ranges[0].start),
865 Bias::Left,
866 &cx,
867 );
868 new_ropes.push_tree(new_fragments.summary().text);
869
870 let mut fragment_start = old_fragments.start().0.full_offset();
871 for range in ranges {
872 let fragment_end = old_fragments.end(&cx).0.full_offset();
873
874 // If the current fragment ends before this range, then jump ahead to the first fragment
875 // that extends past the start of this range, reusing any intervening fragments.
876 if fragment_end < range.start {
877 // If the current fragment has been partially consumed, then consume the rest of it
878 // and advance to the next fragment before slicing.
879 if fragment_start > old_fragments.start().0.full_offset() {
880 if fragment_end > fragment_start {
881 let mut suffix = old_fragments.item().unwrap().clone();
882 suffix.len = fragment_end.0 - fragment_start.0;
883 suffix.insertion_offset +=
884 fragment_start - old_fragments.start().0.full_offset();
885 new_insertions.push(InsertionFragment::insert_new(&suffix));
886 new_ropes.push_fragment(&suffix, suffix.visible);
887 new_fragments.push(suffix, &None);
888 }
889 old_fragments.next(&cx);
890 }
891
892 let slice =
893 old_fragments.slice(&VersionedFullOffset::Offset(range.start), Bias::Left, &cx);
894 new_ropes.push_tree(slice.summary().text);
895 new_fragments.push_tree(slice, &None);
896 fragment_start = old_fragments.start().0.full_offset();
897 }
898
899 // If we are at the end of a non-concurrent fragment, advance to the next one.
900 let fragment_end = old_fragments.end(&cx).0.full_offset();
901 if fragment_end == range.start && fragment_end > fragment_start {
902 let mut fragment = old_fragments.item().unwrap().clone();
903 fragment.len = fragment_end.0 - fragment_start.0;
904 fragment.insertion_offset += fragment_start - old_fragments.start().0.full_offset();
905 new_insertions.push(InsertionFragment::insert_new(&fragment));
906 new_ropes.push_fragment(&fragment, fragment.visible);
907 new_fragments.push(fragment, &None);
908 old_fragments.next(&cx);
909 fragment_start = old_fragments.start().0.full_offset();
910 }
911
912 // Skip over insertions that are concurrent to this edit, but have a lower lamport
913 // timestamp.
914 while let Some(fragment) = old_fragments.item() {
915 if fragment_start == range.start
916 && fragment.insertion_timestamp.lamport() > timestamp.lamport()
917 {
918 new_ropes.push_fragment(fragment, fragment.visible);
919 new_fragments.push(fragment.clone(), &None);
920 old_fragments.next(&cx);
921 debug_assert_eq!(fragment_start, range.start);
922 } else {
923 break;
924 }
925 }
926 debug_assert!(fragment_start <= range.start);
927
928 // Preserve any portion of the current fragment that precedes this range.
929 if fragment_start < range.start {
930 let mut prefix = old_fragments.item().unwrap().clone();
931 prefix.len = range.start.0 - fragment_start.0;
932 prefix.insertion_offset += fragment_start - old_fragments.start().0.full_offset();
933 prefix.id = Locator::between(&new_fragments.summary().max_id, &prefix.id);
934 new_insertions.push(InsertionFragment::insert_new(&prefix));
935 fragment_start = range.start;
936 new_ropes.push_fragment(&prefix, prefix.visible);
937 new_fragments.push(prefix, &None);
938 }
939
940 // Insert the new text before any existing fragments within the range.
941 if let Some(new_text) = new_text {
942 let mut old_start = old_fragments.start().1;
943 if old_fragments.item().map_or(false, |f| f.visible) {
944 old_start += fragment_start.0 - old_fragments.start().0.full_offset().0;
945 }
946 let new_start = new_fragments.summary().text.visible;
947 edits.push(Edit {
948 old: old_start..old_start,
949 new: new_start..new_start + new_text.len(),
950 });
951 let fragment = Fragment {
952 id: Locator::between(
953 &new_fragments.summary().max_id,
954 old_fragments
955 .item()
956 .map_or(&Locator::max(), |old_fragment| &old_fragment.id),
957 ),
958 insertion_timestamp: timestamp,
959 insertion_offset,
960 len: new_text.len(),
961 deletions: Default::default(),
962 max_undos: Default::default(),
963 visible: true,
964 };
965 new_insertions.push(InsertionFragment::insert_new(&fragment));
966 new_ropes.push_str(new_text);
967 new_fragments.push(fragment, &None);
968 insertion_offset += new_text.len();
969 }
970
971 // Advance through every fragment that intersects this range, marking the intersecting
972 // portions as deleted.
973 while fragment_start < range.end {
974 let fragment = old_fragments.item().unwrap();
975 let fragment_end = old_fragments.end(&cx).0.full_offset();
976 let mut intersection = fragment.clone();
977 let intersection_end = cmp::min(range.end, fragment_end);
978 if fragment.was_visible(version, &self.undo_map) {
979 intersection.len = intersection_end.0 - fragment_start.0;
980 intersection.insertion_offset +=
981 fragment_start - old_fragments.start().0.full_offset();
982 intersection.id =
983 Locator::between(&new_fragments.summary().max_id, &intersection.id);
984 intersection.deletions.insert(timestamp.local());
985 intersection.visible = false;
986 }
987 if intersection.len > 0 {
988 if fragment.visible && !intersection.visible {
989 let old_start = old_fragments.start().1
990 + (fragment_start.0 - old_fragments.start().0.full_offset().0);
991 let new_start = new_fragments.summary().text.visible;
992 edits.push(Edit {
993 old: old_start..old_start + intersection.len,
994 new: new_start..new_start,
995 });
996 }
997 new_insertions.push(InsertionFragment::insert_new(&intersection));
998 new_ropes.push_fragment(&intersection, fragment.visible);
999 new_fragments.push(intersection, &None);
1000 fragment_start = intersection_end;
1001 }
1002 if fragment_end <= range.end {
1003 old_fragments.next(&cx);
1004 }
1005 }
1006 }
1007
1008 // If the current fragment has been partially consumed, then consume the rest of it
1009 // and advance to the next fragment before slicing.
1010 if fragment_start > old_fragments.start().0.full_offset() {
1011 let fragment_end = old_fragments.end(&cx).0.full_offset();
1012 if fragment_end > fragment_start {
1013 let mut suffix = old_fragments.item().unwrap().clone();
1014 suffix.len = fragment_end.0 - fragment_start.0;
1015 suffix.insertion_offset += fragment_start - old_fragments.start().0.full_offset();
1016 new_insertions.push(InsertionFragment::insert_new(&suffix));
1017 new_ropes.push_fragment(&suffix, suffix.visible);
1018 new_fragments.push(suffix, &None);
1019 }
1020 old_fragments.next(&cx);
1021 }
1022
1023 let suffix = old_fragments.suffix(&cx);
1024 new_ropes.push_tree(suffix.summary().text);
1025 new_fragments.push_tree(suffix, &None);
1026 let (visible_text, deleted_text) = new_ropes.finish();
1027 drop(old_fragments);
1028
1029 self.snapshot.fragments = new_fragments;
1030 self.snapshot.visible_text = visible_text;
1031 self.snapshot.deleted_text = deleted_text;
1032 self.snapshot.insertions.edit(new_insertions, &());
1033 self.local_clock.observe(timestamp.local());
1034 self.lamport_clock.observe(timestamp.lamport());
1035 self.subscriptions.publish_mut(&edits);
1036 }
1037
1038 fn apply_undo(&mut self, undo: &UndoOperation) -> Result<()> {
1039 let mut edits = Patch::default();
1040 self.snapshot.undo_map.insert(undo);
1041
1042 let mut cx = undo.version.clone();
1043 for edit_id in undo.counts.keys().copied() {
1044 cx.observe(edit_id);
1045 }
1046 let cx = Some(cx);
1047
1048 let mut old_fragments = self.fragments.cursor::<(VersionedFullOffset, usize)>();
1049 let mut new_fragments = old_fragments.slice(
1050 &VersionedFullOffset::Offset(undo.ranges[0].start),
1051 Bias::Right,
1052 &cx,
1053 );
1054 let mut new_ropes =
1055 RopeBuilder::new(self.visible_text.cursor(0), self.deleted_text.cursor(0));
1056 new_ropes.push_tree(new_fragments.summary().text);
1057
1058 for range in &undo.ranges {
1059 let mut end_offset = old_fragments.end(&cx).0.full_offset();
1060
1061 if end_offset < range.start {
1062 let preceding_fragments = old_fragments.slice(
1063 &VersionedFullOffset::Offset(range.start),
1064 Bias::Right,
1065 &cx,
1066 );
1067 new_ropes.push_tree(preceding_fragments.summary().text);
1068 new_fragments.push_tree(preceding_fragments, &None);
1069 }
1070
1071 while end_offset <= range.end {
1072 if let Some(fragment) = old_fragments.item() {
1073 let mut fragment = fragment.clone();
1074 let fragment_was_visible = fragment.visible;
1075
1076 if fragment.was_visible(&undo.version, &self.undo_map)
1077 || undo
1078 .counts
1079 .contains_key(&fragment.insertion_timestamp.local())
1080 {
1081 fragment.visible = fragment.is_visible(&self.undo_map);
1082 fragment.max_undos.observe(undo.id);
1083 }
1084
1085 let old_start = old_fragments.start().1;
1086 let new_start = new_fragments.summary().text.visible;
1087 if fragment_was_visible && !fragment.visible {
1088 edits.push(Edit {
1089 old: old_start..old_start + fragment.len,
1090 new: new_start..new_start,
1091 });
1092 } else if !fragment_was_visible && fragment.visible {
1093 edits.push(Edit {
1094 old: old_start..old_start,
1095 new: new_start..new_start + fragment.len,
1096 });
1097 }
1098 new_ropes.push_fragment(&fragment, fragment_was_visible);
1099 new_fragments.push(fragment, &None);
1100
1101 old_fragments.next(&cx);
1102 if end_offset == old_fragments.end(&cx).0.full_offset() {
1103 let unseen_fragments = old_fragments.slice(
1104 &VersionedFullOffset::Offset(end_offset),
1105 Bias::Right,
1106 &cx,
1107 );
1108 new_ropes.push_tree(unseen_fragments.summary().text);
1109 new_fragments.push_tree(unseen_fragments, &None);
1110 }
1111 end_offset = old_fragments.end(&cx).0.full_offset();
1112 } else {
1113 break;
1114 }
1115 }
1116 }
1117
1118 let suffix = old_fragments.suffix(&cx);
1119 new_ropes.push_tree(suffix.summary().text);
1120 new_fragments.push_tree(suffix, &None);
1121
1122 drop(old_fragments);
1123 let (visible_text, deleted_text) = new_ropes.finish();
1124 self.snapshot.fragments = new_fragments;
1125 self.snapshot.visible_text = visible_text;
1126 self.snapshot.deleted_text = deleted_text;
1127 self.subscriptions.publish_mut(&edits);
1128 Ok(())
1129 }
1130
1131 fn flush_deferred_ops(&mut self) -> Result<()> {
1132 self.deferred_replicas.clear();
1133 let mut deferred_ops = Vec::new();
1134 for op in self.deferred_ops.drain().iter().cloned() {
1135 if self.can_apply_op(&op) {
1136 self.apply_op(op)?;
1137 } else {
1138 self.deferred_replicas.insert(op.replica_id());
1139 deferred_ops.push(op);
1140 }
1141 }
1142 self.deferred_ops.insert(deferred_ops);
1143 Ok(())
1144 }
1145
1146 fn can_apply_op(&self, op: &Operation) -> bool {
1147 if self.deferred_replicas.contains(&op.replica_id()) {
1148 false
1149 } else {
1150 match op {
1151 Operation::Edit(edit) => self.version.observed_all(&edit.version),
1152 Operation::Undo { undo, .. } => self.version.observed_all(&undo.version),
1153 }
1154 }
1155 }
1156
1157 pub fn peek_undo_stack(&self) -> Option<&HistoryEntry> {
1158 self.history.undo_stack.last()
1159 }
1160
1161 pub fn peek_redo_stack(&self) -> Option<&HistoryEntry> {
1162 self.history.redo_stack.last()
1163 }
1164
1165 pub fn start_transaction(&mut self) -> Option<TransactionId> {
1166 self.start_transaction_at(Instant::now())
1167 }
1168
1169 pub fn start_transaction_at(&mut self, now: Instant) -> Option<TransactionId> {
1170 self.history
1171 .start_transaction(self.version.clone(), now, &mut self.local_clock)
1172 }
1173
1174 pub fn end_transaction(&mut self) -> Option<(TransactionId, clock::Global)> {
1175 self.end_transaction_at(Instant::now())
1176 }
1177
1178 pub fn end_transaction_at(&mut self, now: Instant) -> Option<(TransactionId, clock::Global)> {
1179 if let Some(entry) = self.history.end_transaction(now) {
1180 let since = entry.transaction.start.clone();
1181 let id = self.history.group().unwrap();
1182 Some((id, since))
1183 } else {
1184 None
1185 }
1186 }
1187
1188 pub fn finalize_last_transaction(&mut self) -> Option<&Transaction> {
1189 self.history.finalize_last_transaction()
1190 }
1191
1192 pub fn base_text(&self) -> &Arc<str> {
1193 &self.history.base_text
1194 }
1195
1196 pub fn history(&self) -> impl Iterator<Item = &Operation> {
1197 self.history.operations.values()
1198 }
1199
1200 pub fn undo_history(&self) -> impl Iterator<Item = (&clock::Local, &[(clock::Local, u32)])> {
1201 self.undo_map
1202 .0
1203 .iter()
1204 .map(|(edit_id, undo_counts)| (edit_id, undo_counts.as_slice()))
1205 }
1206
1207 pub fn undo(&mut self) -> Option<(TransactionId, Operation)> {
1208 if let Some(entry) = self.history.pop_undo() {
1209 let transaction = entry.transaction.clone();
1210 let transaction_id = transaction.id;
1211 let op = self.undo_or_redo(transaction).unwrap();
1212 Some((transaction_id, op))
1213 } else {
1214 None
1215 }
1216 }
1217
1218 pub fn undo_to_transaction(&mut self, transaction_id: TransactionId) -> Vec<Operation> {
1219 let transactions = self
1220 .history
1221 .remove_from_undo(transaction_id)
1222 .iter()
1223 .map(|entry| entry.transaction.clone())
1224 .collect::<Vec<_>>();
1225 transactions
1226 .into_iter()
1227 .map(|transaction| self.undo_or_redo(transaction).unwrap())
1228 .collect()
1229 }
1230
1231 pub fn forget_transaction(&mut self, transaction_id: TransactionId) {
1232 self.history.forget(transaction_id);
1233 }
1234
1235 pub fn redo(&mut self) -> Option<(TransactionId, Operation)> {
1236 if let Some(entry) = self.history.pop_redo() {
1237 let transaction = entry.transaction.clone();
1238 let transaction_id = transaction.id;
1239 let op = self.undo_or_redo(transaction).unwrap();
1240 Some((transaction_id, op))
1241 } else {
1242 None
1243 }
1244 }
1245
1246 pub fn redo_to_transaction(&mut self, transaction_id: TransactionId) -> Vec<Operation> {
1247 let transactions = self
1248 .history
1249 .remove_from_redo(transaction_id)
1250 .iter()
1251 .map(|entry| entry.transaction.clone())
1252 .collect::<Vec<_>>();
1253 transactions
1254 .into_iter()
1255 .map(|transaction| self.undo_or_redo(transaction).unwrap())
1256 .collect()
1257 }
1258
1259 fn undo_or_redo(&mut self, transaction: Transaction) -> Result<Operation> {
1260 let mut counts = HashMap::default();
1261 for edit_id in transaction.edit_ids {
1262 counts.insert(edit_id, self.undo_map.undo_count(edit_id) + 1);
1263 }
1264
1265 let undo = UndoOperation {
1266 id: self.local_clock.tick(),
1267 counts,
1268 ranges: transaction.ranges,
1269 version: transaction.start.clone(),
1270 };
1271 self.apply_undo(&undo)?;
1272 let operation = Operation::Undo {
1273 undo,
1274 lamport_timestamp: self.lamport_clock.tick(),
1275 };
1276 self.snapshot.version.observe(operation.local_timestamp());
1277 self.history.push(operation.clone());
1278 Ok(operation)
1279 }
1280
1281 pub fn push_transaction(&mut self, transaction: Transaction, now: Instant) {
1282 self.history.push_transaction(transaction, now);
1283 self.history.finalize_last_transaction();
1284 }
1285
1286 pub fn subscribe(&mut self) -> Subscription {
1287 self.subscriptions.subscribe()
1288 }
1289
1290 pub fn wait_for_edits(
1291 &mut self,
1292 edit_ids: impl IntoIterator<Item = clock::Local>,
1293 ) -> impl 'static + Future<Output = ()> {
1294 let mut futures = Vec::new();
1295 for edit_id in edit_ids {
1296 if !self.version.observed(edit_id) {
1297 let (tx, rx) = oneshot::channel();
1298 self.edit_id_resolvers.entry(edit_id).or_default().push(tx);
1299 futures.push(rx);
1300 }
1301 }
1302
1303 async move {
1304 for mut future in futures {
1305 future.recv().await;
1306 }
1307 }
1308 }
1309
1310 pub fn wait_for_anchors<'a>(
1311 &mut self,
1312 anchors: impl IntoIterator<Item = &'a Anchor>,
1313 ) -> impl 'static + Future<Output = ()> {
1314 let mut futures = Vec::new();
1315 for anchor in anchors {
1316 if !self.version.observed(anchor.timestamp)
1317 && *anchor != Anchor::max()
1318 && *anchor != Anchor::min()
1319 {
1320 let (tx, rx) = oneshot::channel();
1321 self.edit_id_resolvers
1322 .entry(anchor.timestamp)
1323 .or_default()
1324 .push(tx);
1325 futures.push(rx);
1326 }
1327 }
1328
1329 async move {
1330 for mut future in futures {
1331 future.recv().await;
1332 }
1333 }
1334 }
1335
1336 pub fn wait_for_version(&mut self, version: clock::Global) -> impl Future<Output = ()> {
1337 let (tx, mut rx) = barrier::channel();
1338 if !self.snapshot.version.observed_all(&version) {
1339 self.version_barriers.push((version, tx));
1340 }
1341 async move {
1342 rx.recv().await;
1343 }
1344 }
1345
1346 fn resolve_edit(&mut self, edit_id: clock::Local) {
1347 for mut tx in self
1348 .edit_id_resolvers
1349 .remove(&edit_id)
1350 .into_iter()
1351 .flatten()
1352 {
1353 let _ = tx.try_send(());
1354 }
1355 }
1356}
1357
1358#[cfg(any(test, feature = "test-support"))]
1359impl Buffer {
1360 pub fn check_invariants(&self) {
1361 // Ensure every fragment is ordered by locator in the fragment tree and corresponds
1362 // to an insertion fragment in the insertions tree.
1363 let mut prev_fragment_id = Locator::min();
1364 for fragment in self.snapshot.fragments.items(&None) {
1365 assert!(fragment.id > prev_fragment_id);
1366 prev_fragment_id = fragment.id.clone();
1367
1368 let insertion_fragment = self
1369 .snapshot
1370 .insertions
1371 .get(
1372 &InsertionFragmentKey {
1373 timestamp: fragment.insertion_timestamp.local(),
1374 split_offset: fragment.insertion_offset,
1375 },
1376 &(),
1377 )
1378 .unwrap();
1379 assert_eq!(insertion_fragment.fragment_id, fragment.id);
1380 }
1381
1382 let mut cursor = self.snapshot.fragments.cursor::<Option<&Locator>>();
1383 for insertion_fragment in self.snapshot.insertions.cursor::<()>() {
1384 cursor.seek(&Some(&insertion_fragment.fragment_id), Bias::Left, &None);
1385 let fragment = cursor.item().unwrap();
1386 assert_eq!(insertion_fragment.fragment_id, fragment.id);
1387 assert_eq!(insertion_fragment.split_offset, fragment.insertion_offset);
1388 }
1389
1390 let fragment_summary = self.snapshot.fragments.summary();
1391 assert_eq!(
1392 fragment_summary.text.visible,
1393 self.snapshot.visible_text.len()
1394 );
1395 assert_eq!(
1396 fragment_summary.text.deleted,
1397 self.snapshot.deleted_text.len()
1398 );
1399 }
1400
1401 pub fn set_group_interval(&mut self, group_interval: Duration) {
1402 self.history.group_interval = group_interval;
1403 }
1404
1405 pub fn random_byte_range(&self, start_offset: usize, rng: &mut impl rand::Rng) -> Range<usize> {
1406 let end = self.clip_offset(rng.gen_range(start_offset..=self.len()), Bias::Right);
1407 let start = self.clip_offset(rng.gen_range(start_offset..=end), Bias::Right);
1408 start..end
1409 }
1410
1411 pub fn randomly_edit<T>(
1412 &mut self,
1413 rng: &mut T,
1414 old_range_count: usize,
1415 ) -> (Vec<Range<usize>>, String, Operation)
1416 where
1417 T: rand::Rng,
1418 {
1419 let mut old_ranges: Vec<Range<usize>> = Vec::new();
1420 for _ in 0..old_range_count {
1421 let last_end = old_ranges.last().map_or(0, |last_range| last_range.end + 1);
1422 if last_end > self.len() {
1423 break;
1424 }
1425 old_ranges.push(self.random_byte_range(last_end, rng));
1426 }
1427 let new_text_len = rng.gen_range(0..10);
1428 let new_text: String = crate::random_char_iter::RandomCharIter::new(&mut *rng)
1429 .take(new_text_len)
1430 .collect();
1431 log::info!(
1432 "mutating buffer {} at {:?}: {:?}",
1433 self.replica_id,
1434 old_ranges,
1435 new_text
1436 );
1437 let op = self.edit(old_ranges.iter().cloned(), new_text.as_str());
1438 (old_ranges, new_text, op)
1439 }
1440
1441 pub fn randomly_undo_redo(&mut self, rng: &mut impl rand::Rng) -> Vec<Operation> {
1442 use rand::prelude::*;
1443
1444 let mut ops = Vec::new();
1445 for _ in 0..rng.gen_range(1..=5) {
1446 if let Some(entry) = self.history.undo_stack.choose(rng) {
1447 let transaction = entry.transaction.clone();
1448 log::info!(
1449 "undoing buffer {} transaction {:?}",
1450 self.replica_id,
1451 transaction
1452 );
1453 ops.push(self.undo_or_redo(transaction).unwrap());
1454 }
1455 }
1456 ops
1457 }
1458}
1459
1460impl Deref for Buffer {
1461 type Target = BufferSnapshot;
1462
1463 fn deref(&self) -> &Self::Target {
1464 &self.snapshot
1465 }
1466}
1467
1468impl BufferSnapshot {
1469 pub fn as_rope(&self) -> &Rope {
1470 &self.visible_text
1471 }
1472
1473 pub fn replica_id(&self) -> ReplicaId {
1474 self.replica_id
1475 }
1476
1477 pub fn row_count(&self) -> u32 {
1478 self.max_point().row + 1
1479 }
1480
1481 pub fn len(&self) -> usize {
1482 self.visible_text.len()
1483 }
1484
1485 pub fn chars(&self) -> impl Iterator<Item = char> + '_ {
1486 self.chars_at(0)
1487 }
1488
1489 pub fn chars_for_range<T: ToOffset>(&self, range: Range<T>) -> impl Iterator<Item = char> + '_ {
1490 self.text_for_range(range).flat_map(str::chars)
1491 }
1492
1493 pub fn contains_str_at<T>(&self, position: T, needle: &str) -> bool
1494 where
1495 T: ToOffset,
1496 {
1497 let position = position.to_offset(self);
1498 position == self.clip_offset(position, Bias::Left)
1499 && self
1500 .bytes_in_range(position..self.len())
1501 .flatten()
1502 .copied()
1503 .take(needle.len())
1504 .eq(needle.bytes())
1505 }
1506
1507 pub fn text(&self) -> String {
1508 self.visible_text.to_string()
1509 }
1510
1511 pub fn deleted_text(&self) -> String {
1512 self.deleted_text.to_string()
1513 }
1514
1515 pub fn fragments(&self) -> impl Iterator<Item = &Fragment> {
1516 self.fragments.iter()
1517 }
1518
1519 pub fn text_summary(&self) -> TextSummary {
1520 self.visible_text.summary()
1521 }
1522
1523 pub fn max_point(&self) -> Point {
1524 self.visible_text.max_point()
1525 }
1526
1527 pub fn point_to_offset(&self, point: Point) -> usize {
1528 self.visible_text.point_to_offset(point)
1529 }
1530
1531 pub fn point_utf16_to_offset(&self, point: PointUtf16) -> usize {
1532 self.visible_text.point_utf16_to_offset(point)
1533 }
1534
1535 pub fn point_utf16_to_point(&self, point: PointUtf16) -> Point {
1536 self.visible_text.point_utf16_to_point(point)
1537 }
1538
1539 pub fn offset_to_point(&self, offset: usize) -> Point {
1540 self.visible_text.offset_to_point(offset)
1541 }
1542
1543 pub fn offset_to_point_utf16(&self, offset: usize) -> PointUtf16 {
1544 self.visible_text.offset_to_point_utf16(offset)
1545 }
1546
1547 pub fn point_to_point_utf16(&self, point: Point) -> PointUtf16 {
1548 self.visible_text.point_to_point_utf16(point)
1549 }
1550
1551 pub fn version(&self) -> &clock::Global {
1552 &self.version
1553 }
1554
1555 pub fn chars_at<'a, T: ToOffset>(&'a self, position: T) -> impl Iterator<Item = char> + 'a {
1556 let offset = position.to_offset(self);
1557 self.visible_text.chars_at(offset)
1558 }
1559
1560 pub fn reversed_chars_at<'a, T: ToOffset>(
1561 &'a self,
1562 position: T,
1563 ) -> impl Iterator<Item = char> + 'a {
1564 let offset = position.to_offset(self);
1565 self.visible_text.reversed_chars_at(offset)
1566 }
1567
1568 pub fn reversed_chunks_in_range<T: ToOffset>(&self, range: Range<T>) -> rope::Chunks {
1569 let range = range.start.to_offset(self)..range.end.to_offset(self);
1570 self.visible_text.reversed_chunks_in_range(range)
1571 }
1572
1573 pub fn bytes_in_range<'a, T: ToOffset>(&'a self, range: Range<T>) -> rope::Bytes<'a> {
1574 let start = range.start.to_offset(self);
1575 let end = range.end.to_offset(self);
1576 self.visible_text.bytes_in_range(start..end)
1577 }
1578
1579 pub fn text_for_range<'a, T: ToOffset>(&'a self, range: Range<T>) -> Chunks<'a> {
1580 let start = range.start.to_offset(self);
1581 let end = range.end.to_offset(self);
1582 self.visible_text.chunks_in_range(start..end)
1583 }
1584
1585 pub fn line_len(&self, row: u32) -> u32 {
1586 let row_start_offset = Point::new(row, 0).to_offset(self);
1587 let row_end_offset = if row >= self.max_point().row {
1588 self.len()
1589 } else {
1590 Point::new(row + 1, 0).to_offset(self) - 1
1591 };
1592 (row_end_offset - row_start_offset) as u32
1593 }
1594
1595 pub fn is_line_blank(&self, row: u32) -> bool {
1596 self.text_for_range(Point::new(row, 0)..Point::new(row, self.line_len(row)))
1597 .all(|chunk| chunk.matches(|c: char| !c.is_whitespace()).next().is_none())
1598 }
1599
1600 pub fn indent_column_for_line(&self, row: u32) -> u32 {
1601 let mut result = 0;
1602 for c in self.chars_at(Point::new(row, 0)) {
1603 if c == ' ' {
1604 result += 1;
1605 } else {
1606 break;
1607 }
1608 }
1609 result
1610 }
1611
1612 pub fn text_summary_for_range<'a, D, O: ToOffset>(&'a self, range: Range<O>) -> D
1613 where
1614 D: TextDimension,
1615 {
1616 self.visible_text
1617 .cursor(range.start.to_offset(self))
1618 .summary(range.end.to_offset(self))
1619 }
1620
1621 pub fn summaries_for_anchors<'a, D, A>(&'a self, anchors: A) -> impl 'a + Iterator<Item = D>
1622 where
1623 D: 'a + TextDimension,
1624 A: 'a + IntoIterator<Item = &'a Anchor>,
1625 {
1626 let anchors = anchors.into_iter();
1627 let mut insertion_cursor = self.insertions.cursor::<InsertionFragmentKey>();
1628 let mut fragment_cursor = self.fragments.cursor::<(Option<&Locator>, usize)>();
1629 let mut text_cursor = self.visible_text.cursor(0);
1630 let mut position = D::default();
1631
1632 anchors.map(move |anchor| {
1633 if *anchor == Anchor::min() {
1634 return D::default();
1635 } else if *anchor == Anchor::max() {
1636 return D::from_text_summary(&self.visible_text.summary());
1637 }
1638
1639 let anchor_key = InsertionFragmentKey {
1640 timestamp: anchor.timestamp,
1641 split_offset: anchor.offset,
1642 };
1643 insertion_cursor.seek(&anchor_key, anchor.bias, &());
1644 if let Some(insertion) = insertion_cursor.item() {
1645 let comparison = sum_tree::KeyedItem::key(insertion).cmp(&anchor_key);
1646 if comparison == Ordering::Greater
1647 || (anchor.bias == Bias::Left
1648 && comparison == Ordering::Equal
1649 && anchor.offset > 0)
1650 {
1651 insertion_cursor.prev(&());
1652 }
1653 } else {
1654 insertion_cursor.prev(&());
1655 }
1656 let insertion = insertion_cursor.item().expect("invalid insertion");
1657 assert_eq!(insertion.timestamp, anchor.timestamp, "invalid insertion");
1658
1659 fragment_cursor.seek_forward(&Some(&insertion.fragment_id), Bias::Left, &None);
1660 let fragment = fragment_cursor.item().unwrap();
1661 let mut fragment_offset = fragment_cursor.start().1;
1662 if fragment.visible {
1663 fragment_offset += anchor.offset - insertion.split_offset;
1664 }
1665
1666 position.add_assign(&text_cursor.summary(fragment_offset));
1667 position.clone()
1668 })
1669 }
1670
1671 fn summary_for_anchor<'a, D>(&'a self, anchor: &Anchor) -> D
1672 where
1673 D: TextDimension,
1674 {
1675 if *anchor == Anchor::min() {
1676 D::default()
1677 } else if *anchor == Anchor::max() {
1678 D::from_text_summary(&self.visible_text.summary())
1679 } else {
1680 let anchor_key = InsertionFragmentKey {
1681 timestamp: anchor.timestamp,
1682 split_offset: anchor.offset,
1683 };
1684 let mut insertion_cursor = self.insertions.cursor::<InsertionFragmentKey>();
1685 insertion_cursor.seek(&anchor_key, anchor.bias, &());
1686 if let Some(insertion) = insertion_cursor.item() {
1687 let comparison = sum_tree::KeyedItem::key(insertion).cmp(&anchor_key);
1688 if comparison == Ordering::Greater
1689 || (anchor.bias == Bias::Left
1690 && comparison == Ordering::Equal
1691 && anchor.offset > 0)
1692 {
1693 insertion_cursor.prev(&());
1694 }
1695 } else {
1696 insertion_cursor.prev(&());
1697 }
1698 let insertion = insertion_cursor.item().expect("invalid insertion");
1699 assert_eq!(insertion.timestamp, anchor.timestamp, "invalid insertion");
1700
1701 let mut fragment_cursor = self.fragments.cursor::<(Option<&Locator>, usize)>();
1702 fragment_cursor.seek(&Some(&insertion.fragment_id), Bias::Left, &None);
1703 let fragment = fragment_cursor.item().unwrap();
1704 let mut fragment_offset = fragment_cursor.start().1;
1705 if fragment.visible {
1706 fragment_offset += anchor.offset - insertion.split_offset;
1707 }
1708 self.text_summary_for_range(0..fragment_offset)
1709 }
1710 }
1711
1712 fn fragment_id_for_anchor(&self, anchor: &Anchor) -> &Locator {
1713 if *anchor == Anchor::min() {
1714 &locator::MIN
1715 } else if *anchor == Anchor::max() {
1716 &locator::MAX
1717 } else {
1718 let anchor_key = InsertionFragmentKey {
1719 timestamp: anchor.timestamp,
1720 split_offset: anchor.offset,
1721 };
1722 let mut insertion_cursor = self.insertions.cursor::<InsertionFragmentKey>();
1723 insertion_cursor.seek(&anchor_key, anchor.bias, &());
1724 if let Some(insertion) = insertion_cursor.item() {
1725 let comparison = sum_tree::KeyedItem::key(insertion).cmp(&anchor_key);
1726 if comparison == Ordering::Greater
1727 || (anchor.bias == Bias::Left
1728 && comparison == Ordering::Equal
1729 && anchor.offset > 0)
1730 {
1731 insertion_cursor.prev(&());
1732 }
1733 } else {
1734 insertion_cursor.prev(&());
1735 }
1736 let insertion = insertion_cursor.item().expect("invalid insertion");
1737 debug_assert_eq!(insertion.timestamp, anchor.timestamp, "invalid insertion");
1738 &insertion.fragment_id
1739 }
1740 }
1741
1742 pub fn anchor_before<T: ToOffset>(&self, position: T) -> Anchor {
1743 self.anchor_at(position, Bias::Left)
1744 }
1745
1746 pub fn anchor_after<T: ToOffset>(&self, position: T) -> Anchor {
1747 self.anchor_at(position, Bias::Right)
1748 }
1749
1750 pub fn anchor_at<T: ToOffset>(&self, position: T, bias: Bias) -> Anchor {
1751 let offset = position.to_offset(self);
1752 if bias == Bias::Left && offset == 0 {
1753 Anchor::min()
1754 } else if bias == Bias::Right && offset == self.len() {
1755 Anchor::max()
1756 } else {
1757 let mut fragment_cursor = self.fragments.cursor::<usize>();
1758 fragment_cursor.seek(&offset, bias, &None);
1759 let fragment = fragment_cursor.item().unwrap();
1760 let overshoot = offset - *fragment_cursor.start();
1761 Anchor {
1762 timestamp: fragment.insertion_timestamp.local(),
1763 offset: fragment.insertion_offset + overshoot,
1764 bias,
1765 }
1766 }
1767 }
1768
1769 pub fn can_resolve(&self, anchor: &Anchor) -> bool {
1770 *anchor == Anchor::min()
1771 || *anchor == Anchor::max()
1772 || self.version.observed(anchor.timestamp)
1773 }
1774
1775 pub fn clip_offset(&self, offset: usize, bias: Bias) -> usize {
1776 self.visible_text.clip_offset(offset, bias)
1777 }
1778
1779 pub fn clip_point(&self, point: Point, bias: Bias) -> Point {
1780 self.visible_text.clip_point(point, bias)
1781 }
1782
1783 pub fn clip_point_utf16(&self, point: PointUtf16, bias: Bias) -> PointUtf16 {
1784 self.visible_text.clip_point_utf16(point, bias)
1785 }
1786
1787 pub fn edits_since<'a, D>(
1788 &'a self,
1789 since: &'a clock::Global,
1790 ) -> impl 'a + Iterator<Item = Edit<D>>
1791 where
1792 D: TextDimension + Ord,
1793 {
1794 self.edits_since_in_range(since, Anchor::min()..Anchor::max())
1795 }
1796
1797 pub fn edited_ranges_for_transaction<'a, D>(
1798 &'a self,
1799 transaction: &'a Transaction,
1800 ) -> impl 'a + Iterator<Item = Range<D>>
1801 where
1802 D: TextDimension,
1803 {
1804 let mut cursor = self.fragments.cursor::<(VersionedFullOffset, usize)>();
1805 let mut rope_cursor = self.visible_text.cursor(0);
1806 let cx = Some(transaction.end.clone());
1807 let mut position = D::default();
1808 transaction.ranges.iter().map(move |range| {
1809 cursor.seek_forward(&VersionedFullOffset::Offset(range.start), Bias::Right, &cx);
1810 let mut start_offset = cursor.start().1;
1811 if cursor
1812 .item()
1813 .map_or(false, |fragment| fragment.is_visible(&self.undo_map))
1814 {
1815 start_offset += range.start - cursor.start().0.full_offset()
1816 }
1817 position.add_assign(&rope_cursor.summary(start_offset));
1818 let start = position.clone();
1819
1820 cursor.seek_forward(&VersionedFullOffset::Offset(range.end), Bias::Left, &cx);
1821 let mut end_offset = cursor.start().1;
1822 if cursor
1823 .item()
1824 .map_or(false, |fragment| fragment.is_visible(&self.undo_map))
1825 {
1826 end_offset += range.end - cursor.start().0.full_offset();
1827 }
1828 position.add_assign(&rope_cursor.summary(end_offset));
1829 start..position.clone()
1830 })
1831 }
1832
1833 pub fn edits_since_in_range<'a, D>(
1834 &'a self,
1835 since: &'a clock::Global,
1836 range: Range<Anchor>,
1837 ) -> impl 'a + Iterator<Item = Edit<D>>
1838 where
1839 D: TextDimension + Ord,
1840 {
1841 let fragments_cursor = if *since == self.version {
1842 None
1843 } else {
1844 Some(self.fragments.filter(
1845 move |summary| !since.observed_all(&summary.max_version),
1846 &None,
1847 ))
1848 };
1849 let mut cursor = self
1850 .fragments
1851 .cursor::<(Option<&Locator>, FragmentTextSummary)>();
1852
1853 let start_fragment_id = self.fragment_id_for_anchor(&range.start);
1854 cursor.seek(&Some(start_fragment_id), Bias::Left, &None);
1855 let mut visible_start = cursor.start().1.visible;
1856 let mut deleted_start = cursor.start().1.deleted;
1857 if let Some(fragment) = cursor.item() {
1858 let overshoot = range.start.offset - fragment.insertion_offset;
1859 if fragment.visible {
1860 visible_start += overshoot;
1861 } else {
1862 deleted_start += overshoot;
1863 }
1864 }
1865 let end_fragment_id = self.fragment_id_for_anchor(&range.end);
1866
1867 Edits {
1868 visible_cursor: self.visible_text.cursor(visible_start),
1869 deleted_cursor: self.deleted_text.cursor(deleted_start),
1870 fragments_cursor,
1871 undos: &self.undo_map,
1872 since,
1873 old_end: Default::default(),
1874 new_end: Default::default(),
1875 range: (start_fragment_id, range.start.offset)..(end_fragment_id, range.end.offset),
1876 }
1877 }
1878}
1879
1880struct RopeBuilder<'a> {
1881 old_visible_cursor: rope::Cursor<'a>,
1882 old_deleted_cursor: rope::Cursor<'a>,
1883 new_visible: Rope,
1884 new_deleted: Rope,
1885}
1886
1887impl<'a> RopeBuilder<'a> {
1888 fn new(old_visible_cursor: rope::Cursor<'a>, old_deleted_cursor: rope::Cursor<'a>) -> Self {
1889 Self {
1890 old_visible_cursor,
1891 old_deleted_cursor,
1892 new_visible: Rope::new(),
1893 new_deleted: Rope::new(),
1894 }
1895 }
1896
1897 fn push_tree(&mut self, len: FragmentTextSummary) {
1898 self.push(len.visible, true, true);
1899 self.push(len.deleted, false, false);
1900 }
1901
1902 fn push_fragment(&mut self, fragment: &Fragment, was_visible: bool) {
1903 debug_assert!(fragment.len > 0);
1904 self.push(fragment.len, was_visible, fragment.visible)
1905 }
1906
1907 fn push(&mut self, len: usize, was_visible: bool, is_visible: bool) {
1908 let text = if was_visible {
1909 self.old_visible_cursor
1910 .slice(self.old_visible_cursor.offset() + len)
1911 } else {
1912 self.old_deleted_cursor
1913 .slice(self.old_deleted_cursor.offset() + len)
1914 };
1915 if is_visible {
1916 self.new_visible.append(text);
1917 } else {
1918 self.new_deleted.append(text);
1919 }
1920 }
1921
1922 fn push_str(&mut self, text: &str) {
1923 self.new_visible.push(text);
1924 }
1925
1926 fn finish(mut self) -> (Rope, Rope) {
1927 self.new_visible.append(self.old_visible_cursor.suffix());
1928 self.new_deleted.append(self.old_deleted_cursor.suffix());
1929 (self.new_visible, self.new_deleted)
1930 }
1931}
1932
1933impl<'a, D: TextDimension + Ord, F: FnMut(&FragmentSummary) -> bool> Iterator for Edits<'a, D, F> {
1934 type Item = Edit<D>;
1935
1936 fn next(&mut self) -> Option<Self::Item> {
1937 let mut pending_edit: Option<Edit<D>> = None;
1938 let cursor = self.fragments_cursor.as_mut()?;
1939
1940 while let Some(fragment) = cursor.item() {
1941 if fragment.id < *self.range.start.0 {
1942 cursor.next(&None);
1943 continue;
1944 } else if fragment.id > *self.range.end.0 {
1945 break;
1946 }
1947
1948 if cursor.start().visible > self.visible_cursor.offset() {
1949 let summary = self.visible_cursor.summary(cursor.start().visible);
1950 self.old_end.add_assign(&summary);
1951 self.new_end.add_assign(&summary);
1952 }
1953
1954 if pending_edit
1955 .as_ref()
1956 .map_or(false, |change| change.new.end < self.new_end)
1957 {
1958 break;
1959 }
1960
1961 if !fragment.was_visible(&self.since, &self.undos) && fragment.visible {
1962 let mut visible_end = cursor.end(&None).visible;
1963 if fragment.id == *self.range.end.0 {
1964 visible_end = cmp::min(
1965 visible_end,
1966 cursor.start().visible + (self.range.end.1 - fragment.insertion_offset),
1967 );
1968 }
1969
1970 let fragment_summary = self.visible_cursor.summary(visible_end);
1971 let mut new_end = self.new_end.clone();
1972 new_end.add_assign(&fragment_summary);
1973 if let Some(pending_edit) = pending_edit.as_mut() {
1974 pending_edit.new.end = new_end.clone();
1975 } else {
1976 pending_edit = Some(Edit {
1977 old: self.old_end.clone()..self.old_end.clone(),
1978 new: self.new_end.clone()..new_end.clone(),
1979 });
1980 }
1981
1982 self.new_end = new_end;
1983 } else if fragment.was_visible(&self.since, &self.undos) && !fragment.visible {
1984 let mut deleted_end = cursor.end(&None).deleted;
1985 if fragment.id == *self.range.end.0 {
1986 deleted_end = cmp::min(
1987 deleted_end,
1988 cursor.start().deleted + (self.range.end.1 - fragment.insertion_offset),
1989 );
1990 }
1991
1992 if cursor.start().deleted > self.deleted_cursor.offset() {
1993 self.deleted_cursor.seek_forward(cursor.start().deleted);
1994 }
1995 let fragment_summary = self.deleted_cursor.summary(deleted_end);
1996 let mut old_end = self.old_end.clone();
1997 old_end.add_assign(&fragment_summary);
1998 if let Some(pending_edit) = pending_edit.as_mut() {
1999 pending_edit.old.end = old_end.clone();
2000 } else {
2001 pending_edit = Some(Edit {
2002 old: self.old_end.clone()..old_end.clone(),
2003 new: self.new_end.clone()..self.new_end.clone(),
2004 });
2005 }
2006
2007 self.old_end = old_end;
2008 }
2009
2010 cursor.next(&None);
2011 }
2012
2013 pending_edit
2014 }
2015}
2016
2017impl Fragment {
2018 fn is_visible(&self, undos: &UndoMap) -> bool {
2019 !undos.is_undone(self.insertion_timestamp.local())
2020 && self.deletions.iter().all(|d| undos.is_undone(*d))
2021 }
2022
2023 fn was_visible(&self, version: &clock::Global, undos: &UndoMap) -> bool {
2024 (version.observed(self.insertion_timestamp.local())
2025 && !undos.was_undone(self.insertion_timestamp.local(), version))
2026 && self
2027 .deletions
2028 .iter()
2029 .all(|d| !version.observed(*d) || undos.was_undone(*d, version))
2030 }
2031}
2032
2033impl sum_tree::Item for Fragment {
2034 type Summary = FragmentSummary;
2035
2036 fn summary(&self) -> Self::Summary {
2037 let mut max_version = clock::Global::new();
2038 max_version.observe(self.insertion_timestamp.local());
2039 for deletion in &self.deletions {
2040 max_version.observe(*deletion);
2041 }
2042 max_version.join(&self.max_undos);
2043
2044 let mut min_insertion_version = clock::Global::new();
2045 min_insertion_version.observe(self.insertion_timestamp.local());
2046 let max_insertion_version = min_insertion_version.clone();
2047 if self.visible {
2048 FragmentSummary {
2049 max_id: self.id.clone(),
2050 text: FragmentTextSummary {
2051 visible: self.len,
2052 deleted: 0,
2053 },
2054 max_version,
2055 min_insertion_version,
2056 max_insertion_version,
2057 }
2058 } else {
2059 FragmentSummary {
2060 max_id: self.id.clone(),
2061 text: FragmentTextSummary {
2062 visible: 0,
2063 deleted: self.len,
2064 },
2065 max_version,
2066 min_insertion_version,
2067 max_insertion_version,
2068 }
2069 }
2070 }
2071}
2072
2073impl sum_tree::Summary for FragmentSummary {
2074 type Context = Option<clock::Global>;
2075
2076 fn add_summary(&mut self, other: &Self, _: &Self::Context) {
2077 self.max_id.assign(&other.max_id);
2078 self.text.visible += &other.text.visible;
2079 self.text.deleted += &other.text.deleted;
2080 self.max_version.join(&other.max_version);
2081 self.min_insertion_version
2082 .meet(&other.min_insertion_version);
2083 self.max_insertion_version
2084 .join(&other.max_insertion_version);
2085 }
2086}
2087
2088impl Default for FragmentSummary {
2089 fn default() -> Self {
2090 FragmentSummary {
2091 max_id: Locator::min(),
2092 text: FragmentTextSummary::default(),
2093 max_version: clock::Global::new(),
2094 min_insertion_version: clock::Global::new(),
2095 max_insertion_version: clock::Global::new(),
2096 }
2097 }
2098}
2099
2100impl sum_tree::Item for InsertionFragment {
2101 type Summary = InsertionFragmentKey;
2102
2103 fn summary(&self) -> Self::Summary {
2104 InsertionFragmentKey {
2105 timestamp: self.timestamp,
2106 split_offset: self.split_offset,
2107 }
2108 }
2109}
2110
2111impl sum_tree::KeyedItem for InsertionFragment {
2112 type Key = InsertionFragmentKey;
2113
2114 fn key(&self) -> Self::Key {
2115 sum_tree::Item::summary(self)
2116 }
2117}
2118
2119impl InsertionFragment {
2120 fn new(fragment: &Fragment) -> Self {
2121 Self {
2122 timestamp: fragment.insertion_timestamp.local(),
2123 split_offset: fragment.insertion_offset,
2124 fragment_id: fragment.id.clone(),
2125 }
2126 }
2127
2128 fn insert_new(fragment: &Fragment) -> sum_tree::Edit<Self> {
2129 sum_tree::Edit::Insert(Self::new(fragment))
2130 }
2131}
2132
2133impl sum_tree::Summary for InsertionFragmentKey {
2134 type Context = ();
2135
2136 fn add_summary(&mut self, summary: &Self, _: &()) {
2137 *self = *summary;
2138 }
2139}
2140
2141#[derive(Copy, Clone, Debug, Default, PartialEq, Eq, PartialOrd, Ord, Hash)]
2142pub struct FullOffset(pub usize);
2143
2144impl ops::AddAssign<usize> for FullOffset {
2145 fn add_assign(&mut self, rhs: usize) {
2146 self.0 += rhs;
2147 }
2148}
2149
2150impl ops::Add<usize> for FullOffset {
2151 type Output = Self;
2152
2153 fn add(mut self, rhs: usize) -> Self::Output {
2154 self += rhs;
2155 self
2156 }
2157}
2158
2159impl ops::Sub for FullOffset {
2160 type Output = usize;
2161
2162 fn sub(self, rhs: Self) -> Self::Output {
2163 self.0 - rhs.0
2164 }
2165}
2166
2167impl<'a> sum_tree::Dimension<'a, FragmentSummary> for usize {
2168 fn add_summary(&mut self, summary: &FragmentSummary, _: &Option<clock::Global>) {
2169 *self += summary.text.visible;
2170 }
2171}
2172
2173impl<'a> sum_tree::Dimension<'a, FragmentSummary> for FullOffset {
2174 fn add_summary(&mut self, summary: &FragmentSummary, _: &Option<clock::Global>) {
2175 self.0 += summary.text.visible + summary.text.deleted;
2176 }
2177}
2178
2179impl<'a> sum_tree::Dimension<'a, FragmentSummary> for Option<&'a Locator> {
2180 fn add_summary(&mut self, summary: &'a FragmentSummary, _: &Option<clock::Global>) {
2181 *self = Some(&summary.max_id);
2182 }
2183}
2184
2185impl<'a> sum_tree::SeekTarget<'a, FragmentSummary, FragmentTextSummary> for usize {
2186 fn cmp(
2187 &self,
2188 cursor_location: &FragmentTextSummary,
2189 _: &Option<clock::Global>,
2190 ) -> cmp::Ordering {
2191 Ord::cmp(self, &cursor_location.visible)
2192 }
2193}
2194
2195#[derive(Copy, Clone, Debug, Eq, PartialEq)]
2196enum VersionedFullOffset {
2197 Offset(FullOffset),
2198 Invalid,
2199}
2200
2201impl VersionedFullOffset {
2202 fn full_offset(&self) -> FullOffset {
2203 if let Self::Offset(position) = self {
2204 *position
2205 } else {
2206 panic!("invalid version")
2207 }
2208 }
2209}
2210
2211impl Default for VersionedFullOffset {
2212 fn default() -> Self {
2213 Self::Offset(Default::default())
2214 }
2215}
2216
2217impl<'a> sum_tree::Dimension<'a, FragmentSummary> for VersionedFullOffset {
2218 fn add_summary(&mut self, summary: &'a FragmentSummary, cx: &Option<clock::Global>) {
2219 if let Self::Offset(offset) = self {
2220 let version = cx.as_ref().unwrap();
2221 if version.observed_all(&summary.max_insertion_version) {
2222 *offset += summary.text.visible + summary.text.deleted;
2223 } else if version.observed_any(&summary.min_insertion_version) {
2224 *self = Self::Invalid;
2225 }
2226 }
2227 }
2228}
2229
2230impl<'a> sum_tree::SeekTarget<'a, FragmentSummary, Self> for VersionedFullOffset {
2231 fn cmp(&self, cursor_position: &Self, _: &Option<clock::Global>) -> cmp::Ordering {
2232 match (self, cursor_position) {
2233 (Self::Offset(a), Self::Offset(b)) => Ord::cmp(a, b),
2234 (Self::Offset(_), Self::Invalid) => cmp::Ordering::Less,
2235 (Self::Invalid, _) => unreachable!(),
2236 }
2237 }
2238}
2239
2240impl Operation {
2241 fn replica_id(&self) -> ReplicaId {
2242 operation_queue::Operation::lamport_timestamp(self).replica_id
2243 }
2244
2245 pub fn local_timestamp(&self) -> clock::Local {
2246 match self {
2247 Operation::Edit(edit) => edit.timestamp.local(),
2248 Operation::Undo { undo, .. } => undo.id,
2249 }
2250 }
2251
2252 pub fn as_edit(&self) -> Option<&EditOperation> {
2253 match self {
2254 Operation::Edit(edit) => Some(edit),
2255 _ => None,
2256 }
2257 }
2258
2259 pub fn is_edit(&self) -> bool {
2260 match self {
2261 Operation::Edit { .. } => true,
2262 _ => false,
2263 }
2264 }
2265}
2266
2267impl operation_queue::Operation for Operation {
2268 fn lamport_timestamp(&self) -> clock::Lamport {
2269 match self {
2270 Operation::Edit(edit) => edit.timestamp.lamport(),
2271 Operation::Undo {
2272 lamport_timestamp, ..
2273 } => *lamport_timestamp,
2274 }
2275 }
2276}
2277
2278pub trait ToOffset {
2279 fn to_offset<'a>(&self, snapshot: &BufferSnapshot) -> usize;
2280}
2281
2282impl ToOffset for Point {
2283 fn to_offset<'a>(&self, snapshot: &BufferSnapshot) -> usize {
2284 snapshot.point_to_offset(*self)
2285 }
2286}
2287
2288impl ToOffset for PointUtf16 {
2289 fn to_offset<'a>(&self, snapshot: &BufferSnapshot) -> usize {
2290 snapshot.point_utf16_to_offset(*self)
2291 }
2292}
2293
2294impl ToOffset for usize {
2295 fn to_offset<'a>(&self, snapshot: &BufferSnapshot) -> usize {
2296 assert!(*self <= snapshot.len(), "offset is out of range");
2297 *self
2298 }
2299}
2300
2301impl ToOffset for Anchor {
2302 fn to_offset<'a>(&self, snapshot: &BufferSnapshot) -> usize {
2303 snapshot.summary_for_anchor(self)
2304 }
2305}
2306
2307impl<'a, T: ToOffset> ToOffset for &'a T {
2308 fn to_offset(&self, content: &BufferSnapshot) -> usize {
2309 (*self).to_offset(content)
2310 }
2311}
2312
2313pub trait ToPoint {
2314 fn to_point<'a>(&self, snapshot: &BufferSnapshot) -> Point;
2315}
2316
2317impl ToPoint for Anchor {
2318 fn to_point<'a>(&self, snapshot: &BufferSnapshot) -> Point {
2319 snapshot.summary_for_anchor(self)
2320 }
2321}
2322
2323impl ToPoint for usize {
2324 fn to_point<'a>(&self, snapshot: &BufferSnapshot) -> Point {
2325 snapshot.offset_to_point(*self)
2326 }
2327}
2328
2329impl ToPoint for PointUtf16 {
2330 fn to_point<'a>(&self, snapshot: &BufferSnapshot) -> Point {
2331 snapshot.point_utf16_to_point(*self)
2332 }
2333}
2334
2335impl ToPoint for Point {
2336 fn to_point<'a>(&self, _: &BufferSnapshot) -> Point {
2337 *self
2338 }
2339}
2340
2341pub trait ToPointUtf16 {
2342 fn to_point_utf16<'a>(&self, snapshot: &BufferSnapshot) -> PointUtf16;
2343}
2344
2345impl ToPointUtf16 for Anchor {
2346 fn to_point_utf16<'a>(&self, snapshot: &BufferSnapshot) -> PointUtf16 {
2347 snapshot.summary_for_anchor(self)
2348 }
2349}
2350
2351impl ToPointUtf16 for usize {
2352 fn to_point_utf16<'a>(&self, snapshot: &BufferSnapshot) -> PointUtf16 {
2353 snapshot.offset_to_point_utf16(*self)
2354 }
2355}
2356
2357impl ToPointUtf16 for PointUtf16 {
2358 fn to_point_utf16<'a>(&self, _: &BufferSnapshot) -> PointUtf16 {
2359 *self
2360 }
2361}
2362
2363impl ToPointUtf16 for Point {
2364 fn to_point_utf16<'a>(&self, snapshot: &BufferSnapshot) -> PointUtf16 {
2365 snapshot.point_to_point_utf16(*self)
2366 }
2367}
2368
2369pub trait Clip {
2370 fn clip(&self, bias: Bias, snapshot: &BufferSnapshot) -> Self;
2371}
2372
2373impl Clip for usize {
2374 fn clip(&self, bias: Bias, snapshot: &BufferSnapshot) -> Self {
2375 snapshot.clip_offset(*self, bias)
2376 }
2377}
2378
2379impl Clip for Point {
2380 fn clip(&self, bias: Bias, snapshot: &BufferSnapshot) -> Self {
2381 snapshot.clip_point(*self, bias)
2382 }
2383}
2384
2385impl Clip for PointUtf16 {
2386 fn clip(&self, bias: Bias, snapshot: &BufferSnapshot) -> Self {
2387 snapshot.clip_point_utf16(*self, bias)
2388 }
2389}
2390
2391pub trait FromAnchor {
2392 fn from_anchor(anchor: &Anchor, snapshot: &BufferSnapshot) -> Self;
2393}
2394
2395impl FromAnchor for Point {
2396 fn from_anchor(anchor: &Anchor, snapshot: &BufferSnapshot) -> Self {
2397 snapshot.summary_for_anchor(anchor)
2398 }
2399}
2400
2401impl FromAnchor for PointUtf16 {
2402 fn from_anchor(anchor: &Anchor, snapshot: &BufferSnapshot) -> Self {
2403 snapshot.summary_for_anchor(anchor)
2404 }
2405}
2406
2407impl FromAnchor for usize {
2408 fn from_anchor(anchor: &Anchor, snapshot: &BufferSnapshot) -> Self {
2409 snapshot.summary_for_anchor(anchor)
2410 }
2411}