1mod completion_diff_element;
2mod init;
3mod input_excerpt;
4mod license_detection;
5mod onboarding_modal;
6mod onboarding_telemetry;
7mod rate_completion_modal;
8
9pub(crate) use completion_diff_element::*;
10use db::kvp::{Dismissable, KEY_VALUE_STORE};
11use edit_prediction::DataCollectionState;
12pub use init::*;
13use license_detection::LICENSE_FILES_TO_CHECK;
14pub use license_detection::is_license_eligible_for_data_collection;
15pub use rate_completion_modal::*;
16
17use anyhow::{Context as _, Result, anyhow};
18use arrayvec::ArrayVec;
19use client::{Client, EditPredictionUsage, UserStore};
20use cloud_llm_client::{
21 AcceptEditPredictionBody, EXPIRED_LLM_TOKEN_HEADER_NAME, MINIMUM_REQUIRED_VERSION_HEADER_NAME,
22 PredictEditsBody, PredictEditsGitInfo, PredictEditsResponse, ZED_VERSION_HEADER_NAME,
23};
24use collections::{HashMap, HashSet, VecDeque};
25use futures::AsyncReadExt;
26use gpui::{
27 App, AppContext as _, AsyncApp, Context, Entity, EntityId, Global, SemanticVersion,
28 Subscription, Task, WeakEntity, actions,
29};
30use http_client::{AsyncBody, HttpClient, Method, Request, Response};
31use input_excerpt::excerpt_for_cursor_position;
32use language::{
33 Anchor, Buffer, BufferSnapshot, EditPreview, OffsetRangeExt, ToOffset, ToPoint, text_diff,
34};
35use language_model::{LlmApiToken, RefreshLlmTokenListener};
36use postage::watch;
37use project::{Project, ProjectPath};
38use release_channel::AppVersion;
39use settings::WorktreeId;
40use std::str::FromStr;
41use std::{
42 borrow::Cow,
43 cmp,
44 fmt::Write,
45 future::Future,
46 mem,
47 ops::Range,
48 path::Path,
49 rc::Rc,
50 sync::Arc,
51 time::{Duration, Instant},
52};
53use telemetry_events::EditPredictionRating;
54use thiserror::Error;
55use util::ResultExt;
56use uuid::Uuid;
57use workspace::Workspace;
58use workspace::notifications::{ErrorMessagePrompt, NotificationId};
59use worktree::Worktree;
60
61const CURSOR_MARKER: &'static str = "<|user_cursor_is_here|>";
62const START_OF_FILE_MARKER: &'static str = "<|start_of_file|>";
63const EDITABLE_REGION_START_MARKER: &'static str = "<|editable_region_start|>";
64const EDITABLE_REGION_END_MARKER: &'static str = "<|editable_region_end|>";
65const BUFFER_CHANGE_GROUPING_INTERVAL: Duration = Duration::from_secs(1);
66const ZED_PREDICT_DATA_COLLECTION_CHOICE: &str = "zed_predict_data_collection_choice";
67
68const MAX_CONTEXT_TOKENS: usize = 150;
69const MAX_REWRITE_TOKENS: usize = 350;
70const MAX_EVENT_TOKENS: usize = 500;
71
72/// Maximum number of events to track.
73const MAX_EVENT_COUNT: usize = 16;
74
75actions!(
76 edit_prediction,
77 [
78 /// Clears the edit prediction history.
79 ClearHistory
80 ]
81);
82
83#[derive(Copy, Clone, Default, Debug, PartialEq, Eq, Hash)]
84pub struct EditPredictionId(Uuid);
85
86impl From<EditPredictionId> for gpui::ElementId {
87 fn from(value: EditPredictionId) -> Self {
88 gpui::ElementId::Uuid(value.0)
89 }
90}
91
92impl std::fmt::Display for EditPredictionId {
93 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
94 write!(f, "{}", self.0)
95 }
96}
97
98struct ZedPredictUpsell;
99
100impl Dismissable for ZedPredictUpsell {
101 const KEY: &'static str = "dismissed-edit-predict-upsell";
102
103 fn dismissed() -> bool {
104 // To make this backwards compatible with older versions of Zed, we
105 // check if the user has seen the previous Edit Prediction Onboarding
106 // before, by checking the data collection choice which was written to
107 // the database once the user clicked on "Accept and Enable"
108 if KEY_VALUE_STORE
109 .read_kvp(ZED_PREDICT_DATA_COLLECTION_CHOICE)
110 .log_err()
111 .map_or(false, |s| s.is_some())
112 {
113 return true;
114 }
115
116 KEY_VALUE_STORE
117 .read_kvp(Self::KEY)
118 .log_err()
119 .map_or(false, |s| s.is_some())
120 }
121}
122
123pub fn should_show_upsell_modal(user_store: &Entity<UserStore>, cx: &App) -> bool {
124 if user_store.read(cx).has_accepted_terms_of_service() {
125 !ZedPredictUpsell::dismissed()
126 } else {
127 true
128 }
129}
130
131#[derive(Clone)]
132struct ZetaGlobal(Entity<Zeta>);
133
134impl Global for ZetaGlobal {}
135
136#[derive(Clone)]
137pub struct EditPrediction {
138 id: EditPredictionId,
139 path: Arc<Path>,
140 excerpt_range: Range<usize>,
141 cursor_offset: usize,
142 edits: Arc<[(Range<Anchor>, String)]>,
143 snapshot: BufferSnapshot,
144 edit_preview: EditPreview,
145 input_outline: Arc<str>,
146 input_events: Arc<str>,
147 input_excerpt: Arc<str>,
148 output_excerpt: Arc<str>,
149 buffer_snapshotted_at: Instant,
150 response_received_at: Instant,
151}
152
153impl EditPrediction {
154 fn latency(&self) -> Duration {
155 self.response_received_at
156 .duration_since(self.buffer_snapshotted_at)
157 }
158
159 fn interpolate(&self, new_snapshot: &BufferSnapshot) -> Option<Vec<(Range<Anchor>, String)>> {
160 interpolate(&self.snapshot, new_snapshot, self.edits.clone())
161 }
162}
163
164fn interpolate(
165 old_snapshot: &BufferSnapshot,
166 new_snapshot: &BufferSnapshot,
167 current_edits: Arc<[(Range<Anchor>, String)]>,
168) -> Option<Vec<(Range<Anchor>, String)>> {
169 let mut edits = Vec::new();
170
171 let mut model_edits = current_edits.into_iter().peekable();
172 for user_edit in new_snapshot.edits_since::<usize>(&old_snapshot.version) {
173 while let Some((model_old_range, _)) = model_edits.peek() {
174 let model_old_range = model_old_range.to_offset(old_snapshot);
175 if model_old_range.end < user_edit.old.start {
176 let (model_old_range, model_new_text) = model_edits.next().unwrap();
177 edits.push((model_old_range.clone(), model_new_text.clone()));
178 } else {
179 break;
180 }
181 }
182
183 if let Some((model_old_range, model_new_text)) = model_edits.peek() {
184 let model_old_offset_range = model_old_range.to_offset(old_snapshot);
185 if user_edit.old == model_old_offset_range {
186 let user_new_text = new_snapshot
187 .text_for_range(user_edit.new.clone())
188 .collect::<String>();
189
190 if let Some(model_suffix) = model_new_text.strip_prefix(&user_new_text) {
191 if !model_suffix.is_empty() {
192 let anchor = old_snapshot.anchor_after(user_edit.old.end);
193 edits.push((anchor..anchor, model_suffix.to_string()));
194 }
195
196 model_edits.next();
197 continue;
198 }
199 }
200 }
201
202 return None;
203 }
204
205 edits.extend(model_edits.cloned());
206
207 if edits.is_empty() { None } else { Some(edits) }
208}
209
210impl std::fmt::Debug for EditPrediction {
211 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
212 f.debug_struct("EditPrediction")
213 .field("id", &self.id)
214 .field("path", &self.path)
215 .field("edits", &self.edits)
216 .finish_non_exhaustive()
217 }
218}
219
220pub struct Zeta {
221 workspace: Option<WeakEntity<Workspace>>,
222 client: Arc<Client>,
223 events: VecDeque<Event>,
224 registered_buffers: HashMap<gpui::EntityId, RegisteredBuffer>,
225 shown_completions: VecDeque<EditPrediction>,
226 rated_completions: HashSet<EditPredictionId>,
227 data_collection_choice: Entity<DataCollectionChoice>,
228 llm_token: LlmApiToken,
229 _llm_token_subscription: Subscription,
230 /// Whether an update to a newer version of Zed is required to continue using Zeta.
231 update_required: bool,
232 user_store: Entity<UserStore>,
233 license_detection_watchers: HashMap<WorktreeId, Rc<LicenseDetectionWatcher>>,
234}
235
236impl Zeta {
237 pub fn global(cx: &mut App) -> Option<Entity<Self>> {
238 cx.try_global::<ZetaGlobal>().map(|global| global.0.clone())
239 }
240
241 pub fn register(
242 workspace: Option<WeakEntity<Workspace>>,
243 worktree: Option<Entity<Worktree>>,
244 client: Arc<Client>,
245 user_store: Entity<UserStore>,
246 cx: &mut App,
247 ) -> Entity<Self> {
248 let this = Self::global(cx).unwrap_or_else(|| {
249 let entity = cx.new(|cx| Self::new(workspace, client, user_store, cx));
250 cx.set_global(ZetaGlobal(entity.clone()));
251 entity
252 });
253
254 this.update(cx, move |this, cx| {
255 if let Some(worktree) = worktree {
256 worktree.update(cx, |worktree, cx| {
257 this.license_detection_watchers
258 .entry(worktree.id())
259 .or_insert_with(|| Rc::new(LicenseDetectionWatcher::new(worktree, cx)));
260 });
261 }
262 });
263
264 this
265 }
266
267 pub fn clear_history(&mut self) {
268 self.events.clear();
269 }
270
271 pub fn usage(&self, cx: &App) -> Option<EditPredictionUsage> {
272 self.user_store.read(cx).edit_prediction_usage()
273 }
274
275 fn new(
276 workspace: Option<WeakEntity<Workspace>>,
277 client: Arc<Client>,
278 user_store: Entity<UserStore>,
279 cx: &mut Context<Self>,
280 ) -> Self {
281 let refresh_llm_token_listener = RefreshLlmTokenListener::global(cx);
282
283 let data_collection_choice = Self::load_data_collection_choices();
284 let data_collection_choice = cx.new(|_| data_collection_choice);
285
286 Self {
287 workspace,
288 client,
289 events: VecDeque::new(),
290 shown_completions: VecDeque::new(),
291 rated_completions: HashSet::default(),
292 registered_buffers: HashMap::default(),
293 data_collection_choice,
294 llm_token: LlmApiToken::default(),
295 _llm_token_subscription: cx.subscribe(
296 &refresh_llm_token_listener,
297 |this, _listener, _event, cx| {
298 let client = this.client.clone();
299 let llm_token = this.llm_token.clone();
300 cx.spawn(async move |_this, _cx| {
301 llm_token.refresh(&client).await?;
302 anyhow::Ok(())
303 })
304 .detach_and_log_err(cx);
305 },
306 ),
307 update_required: false,
308 license_detection_watchers: HashMap::default(),
309 user_store,
310 }
311 }
312
313 fn push_event(&mut self, event: Event) {
314 if let Some(Event::BufferChange {
315 new_snapshot: last_new_snapshot,
316 timestamp: last_timestamp,
317 ..
318 }) = self.events.back_mut()
319 {
320 // Coalesce edits for the same buffer when they happen one after the other.
321 let Event::BufferChange {
322 old_snapshot,
323 new_snapshot,
324 timestamp,
325 } = &event;
326
327 if timestamp.duration_since(*last_timestamp) <= BUFFER_CHANGE_GROUPING_INTERVAL
328 && old_snapshot.remote_id() == last_new_snapshot.remote_id()
329 && old_snapshot.version == last_new_snapshot.version
330 {
331 *last_new_snapshot = new_snapshot.clone();
332 *last_timestamp = *timestamp;
333 return;
334 }
335 }
336
337 self.events.push_back(event);
338 if self.events.len() >= MAX_EVENT_COUNT {
339 // These are halved instead of popping to improve prompt caching.
340 self.events.drain(..MAX_EVENT_COUNT / 2);
341 }
342 }
343
344 pub fn register_buffer(&mut self, buffer: &Entity<Buffer>, cx: &mut Context<Self>) {
345 let buffer_id = buffer.entity_id();
346 let weak_buffer = buffer.downgrade();
347
348 if let std::collections::hash_map::Entry::Vacant(entry) =
349 self.registered_buffers.entry(buffer_id)
350 {
351 let snapshot = buffer.read(cx).snapshot();
352
353 entry.insert(RegisteredBuffer {
354 snapshot,
355 _subscriptions: [
356 cx.subscribe(buffer, move |this, buffer, event, cx| {
357 this.handle_buffer_event(buffer, event, cx);
358 }),
359 cx.observe_release(buffer, move |this, _buffer, _cx| {
360 this.registered_buffers.remove(&weak_buffer.entity_id());
361 }),
362 ],
363 });
364 };
365 }
366
367 fn handle_buffer_event(
368 &mut self,
369 buffer: Entity<Buffer>,
370 event: &language::BufferEvent,
371 cx: &mut Context<Self>,
372 ) {
373 if let language::BufferEvent::Edited = event {
374 self.report_changes_for_buffer(&buffer, cx);
375 }
376 }
377
378 fn request_completion_impl<F, R>(
379 &mut self,
380 workspace: Option<Entity<Workspace>>,
381 project: Option<&Entity<Project>>,
382 buffer: &Entity<Buffer>,
383 cursor: language::Anchor,
384 can_collect_data: bool,
385 cx: &mut Context<Self>,
386 perform_predict_edits: F,
387 ) -> Task<Result<Option<EditPrediction>>>
388 where
389 F: FnOnce(PerformPredictEditsParams) -> R + 'static,
390 R: Future<Output = Result<(PredictEditsResponse, Option<EditPredictionUsage>)>>
391 + Send
392 + 'static,
393 {
394 let buffer = buffer.clone();
395 let buffer_snapshotted_at = Instant::now();
396 let snapshot = self.report_changes_for_buffer(&buffer, cx);
397 let zeta = cx.entity();
398 let events = self.events.clone();
399 let client = self.client.clone();
400 let llm_token = self.llm_token.clone();
401 let app_version = AppVersion::global(cx);
402
403 let git_info = if let (true, Some(project), Some(file)) =
404 (can_collect_data, project, snapshot.file())
405 {
406 git_info_for_file(project, &ProjectPath::from_file(file.as_ref(), cx), cx)
407 } else {
408 None
409 };
410
411 let full_path: Arc<Path> = snapshot
412 .file()
413 .map(|f| Arc::from(f.full_path(cx).as_path()))
414 .unwrap_or_else(|| Arc::from(Path::new("untitled")));
415 let full_path_str = full_path.to_string_lossy().to_string();
416 let cursor_point = cursor.to_point(&snapshot);
417 let cursor_offset = cursor_point.to_offset(&snapshot);
418 let make_events_prompt = move || prompt_for_events(&events, MAX_EVENT_TOKENS);
419 let gather_task = gather_context(
420 project,
421 full_path_str,
422 &snapshot,
423 cursor_point,
424 make_events_prompt,
425 can_collect_data,
426 git_info,
427 cx,
428 );
429
430 cx.spawn(async move |this, cx| {
431 let GatherContextOutput {
432 body,
433 editable_range,
434 } = gather_task.await?;
435
436 log::debug!(
437 "Events:\n{}\nExcerpt:\n{:?}",
438 body.input_events,
439 body.input_excerpt
440 );
441
442 let input_outline = body.outline.clone().unwrap_or_default();
443 let input_events = body.input_events.clone();
444 let input_excerpt = body.input_excerpt.clone();
445
446 let response = perform_predict_edits(PerformPredictEditsParams {
447 client,
448 llm_token,
449 app_version,
450 body,
451 })
452 .await;
453 let (response, usage) = match response {
454 Ok(response) => response,
455 Err(err) => {
456 if err.is::<ZedUpdateRequiredError>() {
457 cx.update(|cx| {
458 zeta.update(cx, |zeta, _cx| {
459 zeta.update_required = true;
460 });
461
462 if let Some(workspace) = workspace {
463 workspace.update(cx, |workspace, cx| {
464 workspace.show_notification(
465 NotificationId::unique::<ZedUpdateRequiredError>(),
466 cx,
467 |cx| {
468 cx.new(|cx| {
469 ErrorMessagePrompt::new(err.to_string(), cx)
470 .with_link_button(
471 "Update Zed",
472 "https://zed.dev/releases",
473 )
474 })
475 },
476 );
477 });
478 }
479 })
480 .ok();
481 }
482
483 return Err(err);
484 }
485 };
486
487 log::debug!("completion response: {}", &response.output_excerpt);
488
489 if let Some(usage) = usage {
490 this.update(cx, |this, cx| {
491 this.user_store.update(cx, |user_store, cx| {
492 user_store.update_edit_prediction_usage(usage, cx);
493 });
494 })
495 .ok();
496 }
497
498 Self::process_completion_response(
499 response,
500 buffer,
501 &snapshot,
502 editable_range,
503 cursor_offset,
504 full_path,
505 input_outline,
506 input_events,
507 input_excerpt,
508 buffer_snapshotted_at,
509 &cx,
510 )
511 .await
512 })
513 }
514
515 // Generates several example completions of various states to fill the Zeta completion modal
516 #[cfg(any(test, feature = "test-support"))]
517 pub fn fill_with_fake_completions(&mut self, cx: &mut Context<Self>) -> Task<()> {
518 use language::Point;
519
520 let test_buffer_text = indoc::indoc! {r#"a longggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg line
521 And maybe a short line
522
523 Then a few lines
524
525 and then another
526 "#};
527
528 let project = None;
529 let buffer = cx.new(|cx| Buffer::local(test_buffer_text, cx));
530 let position = buffer.read(cx).anchor_before(Point::new(1, 0));
531
532 let completion_tasks = vec![
533 self.fake_completion(
534 project,
535 &buffer,
536 position,
537 PredictEditsResponse {
538 request_id: Uuid::parse_str("e7861db5-0cea-4761-b1c5-ad083ac53a80").unwrap(),
539 output_excerpt: format!("{EDITABLE_REGION_START_MARKER}
540a longggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg line
541[here's an edit]
542And maybe a short line
543Then a few lines
544and then another
545{EDITABLE_REGION_END_MARKER}
546 ", ),
547 },
548 cx,
549 ),
550 self.fake_completion(
551 project,
552 &buffer,
553 position,
554 PredictEditsResponse {
555 request_id: Uuid::parse_str("077c556a-2c49-44e2-bbc6-dafc09032a5e").unwrap(),
556 output_excerpt: format!(r#"{EDITABLE_REGION_START_MARKER}
557a longggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg line
558And maybe a short line
559[and another edit]
560Then a few lines
561and then another
562{EDITABLE_REGION_END_MARKER}
563 "#),
564 },
565 cx,
566 ),
567 self.fake_completion(
568 project,
569 &buffer,
570 position,
571 PredictEditsResponse {
572 request_id: Uuid::parse_str("df8c7b23-3d1d-4f99-a306-1f6264a41277").unwrap(),
573 output_excerpt: format!(r#"{EDITABLE_REGION_START_MARKER}
574a longggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg line
575And maybe a short line
576
577Then a few lines
578
579and then another
580{EDITABLE_REGION_END_MARKER}
581 "#),
582 },
583 cx,
584 ),
585 self.fake_completion(
586 project,
587 &buffer,
588 position,
589 PredictEditsResponse {
590 request_id: Uuid::parse_str("c743958d-e4d8-44a8-aa5b-eb1e305c5f5c").unwrap(),
591 output_excerpt: format!(r#"{EDITABLE_REGION_START_MARKER}
592a longggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg line
593And maybe a short line
594
595Then a few lines
596
597and then another
598{EDITABLE_REGION_END_MARKER}
599 "#),
600 },
601 cx,
602 ),
603 self.fake_completion(
604 project,
605 &buffer,
606 position,
607 PredictEditsResponse {
608 request_id: Uuid::parse_str("ff5cd7ab-ad06-4808-986e-d3391e7b8355").unwrap(),
609 output_excerpt: format!(r#"{EDITABLE_REGION_START_MARKER}
610a longggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg line
611And maybe a short line
612Then a few lines
613[a third completion]
614and then another
615{EDITABLE_REGION_END_MARKER}
616 "#),
617 },
618 cx,
619 ),
620 self.fake_completion(
621 project,
622 &buffer,
623 position,
624 PredictEditsResponse {
625 request_id: Uuid::parse_str("83cafa55-cdba-4b27-8474-1865ea06be94").unwrap(),
626 output_excerpt: format!(r#"{EDITABLE_REGION_START_MARKER}
627a longggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg line
628And maybe a short line
629and then another
630[fourth completion example]
631{EDITABLE_REGION_END_MARKER}
632 "#),
633 },
634 cx,
635 ),
636 self.fake_completion(
637 project,
638 &buffer,
639 position,
640 PredictEditsResponse {
641 request_id: Uuid::parse_str("d5bd3afd-8723-47c7-bd77-15a3a926867b").unwrap(),
642 output_excerpt: format!(r#"{EDITABLE_REGION_START_MARKER}
643a longggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg line
644And maybe a short line
645Then a few lines
646and then another
647[fifth and final completion]
648{EDITABLE_REGION_END_MARKER}
649 "#),
650 },
651 cx,
652 ),
653 ];
654
655 cx.spawn(async move |zeta, cx| {
656 for task in completion_tasks {
657 task.await.unwrap();
658 }
659
660 zeta.update(cx, |zeta, _cx| {
661 zeta.shown_completions.get_mut(2).unwrap().edits = Arc::new([]);
662 zeta.shown_completions.get_mut(3).unwrap().edits = Arc::new([]);
663 })
664 .ok();
665 })
666 }
667
668 #[cfg(any(test, feature = "test-support"))]
669 pub fn fake_completion(
670 &mut self,
671 project: Option<&Entity<Project>>,
672 buffer: &Entity<Buffer>,
673 position: language::Anchor,
674 response: PredictEditsResponse,
675 cx: &mut Context<Self>,
676 ) -> Task<Result<Option<EditPrediction>>> {
677 use std::future::ready;
678
679 self.request_completion_impl(None, project, buffer, position, false, cx, |_params| {
680 ready(Ok((response, None)))
681 })
682 }
683
684 pub fn request_completion(
685 &mut self,
686 project: Option<&Entity<Project>>,
687 buffer: &Entity<Buffer>,
688 position: language::Anchor,
689 can_collect_data: bool,
690 cx: &mut Context<Self>,
691 ) -> Task<Result<Option<EditPrediction>>> {
692 let workspace = self
693 .workspace
694 .as_ref()
695 .and_then(|workspace| workspace.upgrade());
696 self.request_completion_impl(
697 workspace,
698 project,
699 buffer,
700 position,
701 can_collect_data,
702 cx,
703 Self::perform_predict_edits,
704 )
705 }
706
707 pub fn perform_predict_edits(
708 params: PerformPredictEditsParams,
709 ) -> impl Future<Output = Result<(PredictEditsResponse, Option<EditPredictionUsage>)>> {
710 async move {
711 let PerformPredictEditsParams {
712 client,
713 llm_token,
714 app_version,
715 body,
716 ..
717 } = params;
718
719 let http_client = client.http_client();
720 let mut token = llm_token.acquire(&client).await?;
721 let mut did_retry = false;
722
723 loop {
724 let request_builder = http_client::Request::builder().method(Method::POST);
725 let request_builder =
726 if let Ok(predict_edits_url) = std::env::var("ZED_PREDICT_EDITS_URL") {
727 request_builder.uri(predict_edits_url)
728 } else {
729 request_builder.uri(
730 http_client
731 .build_zed_llm_url("/predict_edits/v2", &[])?
732 .as_ref(),
733 )
734 };
735 let request = request_builder
736 .header("Content-Type", "application/json")
737 .header("Authorization", format!("Bearer {}", token))
738 .header(ZED_VERSION_HEADER_NAME, app_version.to_string())
739 .body(serde_json::to_string(&body)?.into())?;
740
741 let mut response = http_client.send(request).await?;
742
743 if let Some(minimum_required_version) = response
744 .headers()
745 .get(MINIMUM_REQUIRED_VERSION_HEADER_NAME)
746 .and_then(|version| SemanticVersion::from_str(version.to_str().ok()?).ok())
747 {
748 anyhow::ensure!(
749 app_version >= minimum_required_version,
750 ZedUpdateRequiredError {
751 minimum_version: minimum_required_version
752 }
753 );
754 }
755
756 if response.status().is_success() {
757 let usage = EditPredictionUsage::from_headers(response.headers()).ok();
758
759 let mut body = String::new();
760 response.body_mut().read_to_string(&mut body).await?;
761 return Ok((serde_json::from_str(&body)?, usage));
762 } else if !did_retry
763 && response
764 .headers()
765 .get(EXPIRED_LLM_TOKEN_HEADER_NAME)
766 .is_some()
767 {
768 did_retry = true;
769 token = llm_token.refresh(&client).await?;
770 } else {
771 let mut body = String::new();
772 response.body_mut().read_to_string(&mut body).await?;
773 anyhow::bail!(
774 "error predicting edits.\nStatus: {:?}\nBody: {}",
775 response.status(),
776 body
777 );
778 }
779 }
780 }
781 }
782
783 fn accept_edit_prediction(
784 &mut self,
785 request_id: EditPredictionId,
786 cx: &mut Context<Self>,
787 ) -> Task<Result<()>> {
788 let client = self.client.clone();
789 let llm_token = self.llm_token.clone();
790 let app_version = AppVersion::global(cx);
791 cx.spawn(async move |this, cx| {
792 let http_client = client.http_client();
793 let mut response = llm_token_retry(&llm_token, &client, |token| {
794 let request_builder = http_client::Request::builder().method(Method::POST);
795 let request_builder =
796 if let Ok(accept_prediction_url) = std::env::var("ZED_ACCEPT_PREDICTION_URL") {
797 request_builder.uri(accept_prediction_url)
798 } else {
799 request_builder.uri(
800 http_client
801 .build_zed_llm_url("/predict_edits/accept", &[])?
802 .as_ref(),
803 )
804 };
805 Ok(request_builder
806 .header("Content-Type", "application/json")
807 .header("Authorization", format!("Bearer {}", token))
808 .header(ZED_VERSION_HEADER_NAME, app_version.to_string())
809 .body(
810 serde_json::to_string(&AcceptEditPredictionBody {
811 request_id: request_id.0,
812 })?
813 .into(),
814 )?)
815 })
816 .await?;
817
818 if let Some(minimum_required_version) = response
819 .headers()
820 .get(MINIMUM_REQUIRED_VERSION_HEADER_NAME)
821 .and_then(|version| SemanticVersion::from_str(version.to_str().ok()?).ok())
822 {
823 if app_version < minimum_required_version {
824 return Err(anyhow!(ZedUpdateRequiredError {
825 minimum_version: minimum_required_version
826 }));
827 }
828 }
829
830 if response.status().is_success() {
831 if let Some(usage) = EditPredictionUsage::from_headers(response.headers()).ok() {
832 this.update(cx, |this, cx| {
833 this.user_store.update(cx, |user_store, cx| {
834 user_store.update_edit_prediction_usage(usage, cx);
835 });
836 })?;
837 }
838
839 Ok(())
840 } else {
841 let mut body = String::new();
842 response.body_mut().read_to_string(&mut body).await?;
843 Err(anyhow!(
844 "error accepting edit prediction.\nStatus: {:?}\nBody: {}",
845 response.status(),
846 body
847 ))
848 }
849 })
850 }
851
852 fn process_completion_response(
853 prediction_response: PredictEditsResponse,
854 buffer: Entity<Buffer>,
855 snapshot: &BufferSnapshot,
856 editable_range: Range<usize>,
857 cursor_offset: usize,
858 path: Arc<Path>,
859 input_outline: String,
860 input_events: String,
861 input_excerpt: String,
862 buffer_snapshotted_at: Instant,
863 cx: &AsyncApp,
864 ) -> Task<Result<Option<EditPrediction>>> {
865 let snapshot = snapshot.clone();
866 let request_id = prediction_response.request_id;
867 let output_excerpt = prediction_response.output_excerpt;
868 cx.spawn(async move |cx| {
869 let output_excerpt: Arc<str> = output_excerpt.into();
870
871 let edits: Arc<[(Range<Anchor>, String)]> = cx
872 .background_spawn({
873 let output_excerpt = output_excerpt.clone();
874 let editable_range = editable_range.clone();
875 let snapshot = snapshot.clone();
876 async move { Self::parse_edits(output_excerpt, editable_range, &snapshot) }
877 })
878 .await?
879 .into();
880
881 let Some((edits, snapshot, edit_preview)) = buffer.read_with(cx, {
882 let edits = edits.clone();
883 |buffer, cx| {
884 let new_snapshot = buffer.snapshot();
885 let edits: Arc<[(Range<Anchor>, String)]> =
886 interpolate(&snapshot, &new_snapshot, edits)?.into();
887 Some((edits.clone(), new_snapshot, buffer.preview_edits(edits, cx)))
888 }
889 })?
890 else {
891 return anyhow::Ok(None);
892 };
893
894 let edit_preview = edit_preview.await;
895
896 Ok(Some(EditPrediction {
897 id: EditPredictionId(request_id),
898 path,
899 excerpt_range: editable_range,
900 cursor_offset,
901 edits,
902 edit_preview,
903 snapshot,
904 input_outline: input_outline.into(),
905 input_events: input_events.into(),
906 input_excerpt: input_excerpt.into(),
907 output_excerpt,
908 buffer_snapshotted_at,
909 response_received_at: Instant::now(),
910 }))
911 })
912 }
913
914 fn parse_edits(
915 output_excerpt: Arc<str>,
916 editable_range: Range<usize>,
917 snapshot: &BufferSnapshot,
918 ) -> Result<Vec<(Range<Anchor>, String)>> {
919 let content = output_excerpt.replace(CURSOR_MARKER, "");
920
921 let start_markers = content
922 .match_indices(EDITABLE_REGION_START_MARKER)
923 .collect::<Vec<_>>();
924 anyhow::ensure!(
925 start_markers.len() == 1,
926 "expected exactly one start marker, found {}",
927 start_markers.len()
928 );
929
930 let end_markers = content
931 .match_indices(EDITABLE_REGION_END_MARKER)
932 .collect::<Vec<_>>();
933 anyhow::ensure!(
934 end_markers.len() == 1,
935 "expected exactly one end marker, found {}",
936 end_markers.len()
937 );
938
939 let sof_markers = content
940 .match_indices(START_OF_FILE_MARKER)
941 .collect::<Vec<_>>();
942 anyhow::ensure!(
943 sof_markers.len() <= 1,
944 "expected at most one start-of-file marker, found {}",
945 sof_markers.len()
946 );
947
948 let codefence_start = start_markers[0].0;
949 let content = &content[codefence_start..];
950
951 let newline_ix = content.find('\n').context("could not find newline")?;
952 let content = &content[newline_ix + 1..];
953
954 let codefence_end = content
955 .rfind(&format!("\n{EDITABLE_REGION_END_MARKER}"))
956 .context("could not find end marker")?;
957 let new_text = &content[..codefence_end];
958
959 let old_text = snapshot
960 .text_for_range(editable_range.clone())
961 .collect::<String>();
962
963 Ok(Self::compute_edits(
964 old_text,
965 new_text,
966 editable_range.start,
967 &snapshot,
968 ))
969 }
970
971 pub fn compute_edits(
972 old_text: String,
973 new_text: &str,
974 offset: usize,
975 snapshot: &BufferSnapshot,
976 ) -> Vec<(Range<Anchor>, String)> {
977 text_diff(&old_text, &new_text)
978 .into_iter()
979 .map(|(mut old_range, new_text)| {
980 old_range.start += offset;
981 old_range.end += offset;
982
983 let prefix_len = common_prefix(
984 snapshot.chars_for_range(old_range.clone()),
985 new_text.chars(),
986 );
987 old_range.start += prefix_len;
988
989 let suffix_len = common_prefix(
990 snapshot.reversed_chars_for_range(old_range.clone()),
991 new_text[prefix_len..].chars().rev(),
992 );
993 old_range.end = old_range.end.saturating_sub(suffix_len);
994
995 let new_text = new_text[prefix_len..new_text.len() - suffix_len].to_string();
996 let range = if old_range.is_empty() {
997 let anchor = snapshot.anchor_after(old_range.start);
998 anchor..anchor
999 } else {
1000 snapshot.anchor_after(old_range.start)..snapshot.anchor_before(old_range.end)
1001 };
1002 (range, new_text)
1003 })
1004 .collect()
1005 }
1006
1007 pub fn is_completion_rated(&self, completion_id: EditPredictionId) -> bool {
1008 self.rated_completions.contains(&completion_id)
1009 }
1010
1011 pub fn completion_shown(&mut self, completion: &EditPrediction, cx: &mut Context<Self>) {
1012 self.shown_completions.push_front(completion.clone());
1013 if self.shown_completions.len() > 50 {
1014 let completion = self.shown_completions.pop_back().unwrap();
1015 self.rated_completions.remove(&completion.id);
1016 }
1017 cx.notify();
1018 }
1019
1020 pub fn rate_completion(
1021 &mut self,
1022 completion: &EditPrediction,
1023 rating: EditPredictionRating,
1024 feedback: String,
1025 cx: &mut Context<Self>,
1026 ) {
1027 self.rated_completions.insert(completion.id);
1028 telemetry::event!(
1029 "Edit Prediction Rated",
1030 rating,
1031 input_events = completion.input_events,
1032 input_excerpt = completion.input_excerpt,
1033 input_outline = completion.input_outline,
1034 output_excerpt = completion.output_excerpt,
1035 feedback
1036 );
1037 self.client.telemetry().flush_events().detach();
1038 cx.notify();
1039 }
1040
1041 pub fn shown_completions(&self) -> impl DoubleEndedIterator<Item = &EditPrediction> {
1042 self.shown_completions.iter()
1043 }
1044
1045 pub fn shown_completions_len(&self) -> usize {
1046 self.shown_completions.len()
1047 }
1048
1049 fn report_changes_for_buffer(
1050 &mut self,
1051 buffer: &Entity<Buffer>,
1052 cx: &mut Context<Self>,
1053 ) -> BufferSnapshot {
1054 self.register_buffer(buffer, cx);
1055
1056 let registered_buffer = self
1057 .registered_buffers
1058 .get_mut(&buffer.entity_id())
1059 .unwrap();
1060 let new_snapshot = buffer.read(cx).snapshot();
1061
1062 if new_snapshot.version != registered_buffer.snapshot.version {
1063 let old_snapshot = mem::replace(&mut registered_buffer.snapshot, new_snapshot.clone());
1064 self.push_event(Event::BufferChange {
1065 old_snapshot,
1066 new_snapshot: new_snapshot.clone(),
1067 timestamp: Instant::now(),
1068 });
1069 }
1070
1071 new_snapshot
1072 }
1073
1074 fn load_data_collection_choices() -> DataCollectionChoice {
1075 let choice = KEY_VALUE_STORE
1076 .read_kvp(ZED_PREDICT_DATA_COLLECTION_CHOICE)
1077 .log_err()
1078 .flatten();
1079
1080 match choice.as_deref() {
1081 Some("true") => DataCollectionChoice::Enabled,
1082 Some("false") => DataCollectionChoice::Disabled,
1083 Some(_) => {
1084 log::error!("unknown value in '{ZED_PREDICT_DATA_COLLECTION_CHOICE}'");
1085 DataCollectionChoice::NotAnswered
1086 }
1087 None => DataCollectionChoice::NotAnswered,
1088 }
1089 }
1090}
1091
1092pub struct PerformPredictEditsParams {
1093 pub client: Arc<Client>,
1094 pub llm_token: LlmApiToken,
1095 pub app_version: SemanticVersion,
1096 pub body: PredictEditsBody,
1097}
1098
1099#[derive(Error, Debug)]
1100#[error(
1101 "You must update to Zed version {minimum_version} or higher to continue using edit predictions."
1102)]
1103pub struct ZedUpdateRequiredError {
1104 minimum_version: SemanticVersion,
1105}
1106
1107struct LicenseDetectionWatcher {
1108 is_open_source_rx: watch::Receiver<bool>,
1109 _is_open_source_task: Task<()>,
1110}
1111
1112impl LicenseDetectionWatcher {
1113 pub fn new(worktree: &Worktree, cx: &mut Context<Worktree>) -> Self {
1114 let (mut is_open_source_tx, is_open_source_rx) = watch::channel_with::<bool>(false);
1115
1116 // Check if worktree is a single file, if so we do not need to check for a LICENSE file
1117 let task = if worktree.abs_path().is_file() {
1118 Task::ready(())
1119 } else {
1120 let loaded_files = LICENSE_FILES_TO_CHECK
1121 .iter()
1122 .map(Path::new)
1123 .map(|file| worktree.load_file(file, cx))
1124 .collect::<ArrayVec<_, { LICENSE_FILES_TO_CHECK.len() }>>();
1125
1126 cx.background_spawn(async move {
1127 for loaded_file in loaded_files.into_iter() {
1128 let Ok(loaded_file) = loaded_file.await else {
1129 continue;
1130 };
1131
1132 let path = &loaded_file.file.path;
1133 if is_license_eligible_for_data_collection(&loaded_file.text) {
1134 log::info!("detected '{path:?}' as open source license");
1135 *is_open_source_tx.borrow_mut() = true;
1136 } else {
1137 log::info!("didn't detect '{path:?}' as open source license");
1138 }
1139
1140 // stop on the first license that successfully read
1141 return;
1142 }
1143
1144 log::debug!("didn't find a license file to check, assuming closed source");
1145 })
1146 };
1147
1148 Self {
1149 is_open_source_rx,
1150 _is_open_source_task: task,
1151 }
1152 }
1153
1154 /// Answers false until we find out it's open source
1155 pub fn is_project_open_source(&self) -> bool {
1156 *self.is_open_source_rx.borrow()
1157 }
1158}
1159
1160fn common_prefix<T1: Iterator<Item = char>, T2: Iterator<Item = char>>(a: T1, b: T2) -> usize {
1161 a.zip(b)
1162 .take_while(|(a, b)| a == b)
1163 .map(|(a, _)| a.len_utf8())
1164 .sum()
1165}
1166
1167fn git_info_for_file(
1168 project: &Entity<Project>,
1169 project_path: &ProjectPath,
1170 cx: &App,
1171) -> Option<PredictEditsGitInfo> {
1172 let git_store = project.read(cx).git_store().read(cx);
1173 if let Some((repository, _repo_path)) =
1174 git_store.repository_and_path_for_project_path(project_path, cx)
1175 {
1176 let repository = repository.read(cx);
1177 let head_sha = repository
1178 .head_commit
1179 .as_ref()
1180 .map(|head_commit| head_commit.sha.to_string());
1181 let remote_origin_url = repository.remote_origin_url.clone();
1182 let remote_upstream_url = repository.remote_upstream_url.clone();
1183 if head_sha.is_none() && remote_origin_url.is_none() && remote_upstream_url.is_none() {
1184 return None;
1185 }
1186 Some(PredictEditsGitInfo {
1187 head_sha,
1188 remote_origin_url,
1189 remote_upstream_url,
1190 })
1191 } else {
1192 None
1193 }
1194}
1195
1196pub struct GatherContextOutput {
1197 pub body: PredictEditsBody,
1198 pub editable_range: Range<usize>,
1199}
1200
1201pub fn gather_context(
1202 project: Option<&Entity<Project>>,
1203 full_path_str: String,
1204 snapshot: &BufferSnapshot,
1205 cursor_point: language::Point,
1206 make_events_prompt: impl FnOnce() -> String + Send + 'static,
1207 can_collect_data: bool,
1208 git_info: Option<PredictEditsGitInfo>,
1209 cx: &App,
1210) -> Task<Result<GatherContextOutput>> {
1211 let local_lsp_store =
1212 project.and_then(|project| project.read(cx).lsp_store().read(cx).as_local());
1213 let diagnostic_groups: Vec<(String, serde_json::Value)> =
1214 if let Some(local_lsp_store) = local_lsp_store {
1215 snapshot
1216 .diagnostic_groups(None)
1217 .into_iter()
1218 .filter_map(|(language_server_id, diagnostic_group)| {
1219 let language_server =
1220 local_lsp_store.running_language_server_for_id(language_server_id)?;
1221 let diagnostic_group = diagnostic_group.resolve::<usize>(&snapshot);
1222 let language_server_name = language_server.name().to_string();
1223 let serialized = serde_json::to_value(diagnostic_group).unwrap();
1224 Some((language_server_name, serialized))
1225 })
1226 .collect::<Vec<_>>()
1227 } else {
1228 Vec::new()
1229 };
1230
1231 cx.background_spawn({
1232 let snapshot = snapshot.clone();
1233 async move {
1234 let diagnostic_groups = if diagnostic_groups.is_empty() {
1235 None
1236 } else {
1237 Some(diagnostic_groups)
1238 };
1239
1240 let input_excerpt = excerpt_for_cursor_position(
1241 cursor_point,
1242 &full_path_str,
1243 &snapshot,
1244 MAX_REWRITE_TOKENS,
1245 MAX_CONTEXT_TOKENS,
1246 );
1247 let input_events = make_events_prompt();
1248 let input_outline = prompt_for_outline(&snapshot);
1249 let editable_range = input_excerpt.editable_range.to_offset(&snapshot);
1250
1251 let body = PredictEditsBody {
1252 input_events,
1253 input_excerpt: input_excerpt.prompt,
1254 speculated_output: Some(input_excerpt.speculated_output),
1255 outline: Some(input_outline),
1256 can_collect_data,
1257 diagnostic_groups,
1258 git_info,
1259 };
1260
1261 Ok(GatherContextOutput {
1262 body,
1263 editable_range,
1264 })
1265 }
1266 })
1267}
1268
1269fn prompt_for_outline(snapshot: &BufferSnapshot) -> String {
1270 let mut input_outline = String::new();
1271
1272 writeln!(
1273 input_outline,
1274 "```{}",
1275 snapshot
1276 .file()
1277 .map_or(Cow::Borrowed("untitled"), |file| file
1278 .path()
1279 .to_string_lossy())
1280 )
1281 .unwrap();
1282
1283 if let Some(outline) = snapshot.outline(None) {
1284 for item in &outline.items {
1285 let spacing = " ".repeat(item.depth);
1286 writeln!(input_outline, "{}{}", spacing, item.text).unwrap();
1287 }
1288 }
1289
1290 writeln!(input_outline, "```").unwrap();
1291
1292 input_outline
1293}
1294
1295fn prompt_for_events(events: &VecDeque<Event>, mut remaining_tokens: usize) -> String {
1296 let mut result = String::new();
1297 for event in events.iter().rev() {
1298 let event_string = event.to_prompt();
1299 let event_tokens = tokens_for_bytes(event_string.len());
1300 if event_tokens > remaining_tokens {
1301 break;
1302 }
1303
1304 if !result.is_empty() {
1305 result.insert_str(0, "\n\n");
1306 }
1307 result.insert_str(0, &event_string);
1308 remaining_tokens -= event_tokens;
1309 }
1310 result
1311}
1312
1313struct RegisteredBuffer {
1314 snapshot: BufferSnapshot,
1315 _subscriptions: [gpui::Subscription; 2],
1316}
1317
1318#[derive(Clone)]
1319pub enum Event {
1320 BufferChange {
1321 old_snapshot: BufferSnapshot,
1322 new_snapshot: BufferSnapshot,
1323 timestamp: Instant,
1324 },
1325}
1326
1327impl Event {
1328 fn to_prompt(&self) -> String {
1329 match self {
1330 Event::BufferChange {
1331 old_snapshot,
1332 new_snapshot,
1333 ..
1334 } => {
1335 let mut prompt = String::new();
1336
1337 let old_path = old_snapshot
1338 .file()
1339 .map(|f| f.path().as_ref())
1340 .unwrap_or(Path::new("untitled"));
1341 let new_path = new_snapshot
1342 .file()
1343 .map(|f| f.path().as_ref())
1344 .unwrap_or(Path::new("untitled"));
1345 if old_path != new_path {
1346 writeln!(prompt, "User renamed {:?} to {:?}\n", old_path, new_path).unwrap();
1347 }
1348
1349 let diff = language::unified_diff(&old_snapshot.text(), &new_snapshot.text());
1350 if !diff.is_empty() {
1351 write!(
1352 prompt,
1353 "User edited {:?}:\n```diff\n{}\n```",
1354 new_path, diff
1355 )
1356 .unwrap();
1357 }
1358
1359 prompt
1360 }
1361 }
1362 }
1363}
1364
1365#[derive(Debug, Clone)]
1366struct CurrentEditPrediction {
1367 buffer_id: EntityId,
1368 completion: EditPrediction,
1369}
1370
1371impl CurrentEditPrediction {
1372 fn should_replace_completion(&self, old_completion: &Self, snapshot: &BufferSnapshot) -> bool {
1373 if self.buffer_id != old_completion.buffer_id {
1374 return true;
1375 }
1376
1377 let Some(old_edits) = old_completion.completion.interpolate(&snapshot) else {
1378 return true;
1379 };
1380 let Some(new_edits) = self.completion.interpolate(&snapshot) else {
1381 return false;
1382 };
1383
1384 if old_edits.len() == 1 && new_edits.len() == 1 {
1385 let (old_range, old_text) = &old_edits[0];
1386 let (new_range, new_text) = &new_edits[0];
1387 new_range == old_range && new_text.starts_with(old_text)
1388 } else {
1389 true
1390 }
1391 }
1392}
1393
1394struct PendingCompletion {
1395 id: usize,
1396 _task: Task<()>,
1397}
1398
1399#[derive(Debug, Clone, Copy)]
1400pub enum DataCollectionChoice {
1401 NotAnswered,
1402 Enabled,
1403 Disabled,
1404}
1405
1406impl DataCollectionChoice {
1407 pub fn is_enabled(self) -> bool {
1408 match self {
1409 Self::Enabled => true,
1410 Self::NotAnswered | Self::Disabled => false,
1411 }
1412 }
1413
1414 pub fn is_answered(self) -> bool {
1415 match self {
1416 Self::Enabled | Self::Disabled => true,
1417 Self::NotAnswered => false,
1418 }
1419 }
1420
1421 pub fn toggle(&self) -> DataCollectionChoice {
1422 match self {
1423 Self::Enabled => Self::Disabled,
1424 Self::Disabled => Self::Enabled,
1425 Self::NotAnswered => Self::Enabled,
1426 }
1427 }
1428}
1429
1430impl From<bool> for DataCollectionChoice {
1431 fn from(value: bool) -> Self {
1432 match value {
1433 true => DataCollectionChoice::Enabled,
1434 false => DataCollectionChoice::Disabled,
1435 }
1436 }
1437}
1438
1439pub struct ProviderDataCollection {
1440 /// When set to None, data collection is not possible in the provider buffer
1441 choice: Option<Entity<DataCollectionChoice>>,
1442 license_detection_watcher: Option<Rc<LicenseDetectionWatcher>>,
1443}
1444
1445impl ProviderDataCollection {
1446 pub fn new(zeta: Entity<Zeta>, buffer: Option<Entity<Buffer>>, cx: &mut App) -> Self {
1447 let choice_and_watcher = buffer.and_then(|buffer| {
1448 let file = buffer.read(cx).file()?;
1449
1450 if !file.is_local() || file.is_private() {
1451 return None;
1452 }
1453
1454 let zeta = zeta.read(cx);
1455 let choice = zeta.data_collection_choice.clone();
1456
1457 let license_detection_watcher = zeta
1458 .license_detection_watchers
1459 .get(&file.worktree_id(cx))
1460 .cloned()?;
1461
1462 Some((choice, license_detection_watcher))
1463 });
1464
1465 if let Some((choice, watcher)) = choice_and_watcher {
1466 ProviderDataCollection {
1467 choice: Some(choice),
1468 license_detection_watcher: Some(watcher),
1469 }
1470 } else {
1471 ProviderDataCollection {
1472 choice: None,
1473 license_detection_watcher: None,
1474 }
1475 }
1476 }
1477
1478 pub fn can_collect_data(&self, cx: &App) -> bool {
1479 self.is_data_collection_enabled(cx) && self.is_project_open_source()
1480 }
1481
1482 pub fn is_data_collection_enabled(&self, cx: &App) -> bool {
1483 self.choice
1484 .as_ref()
1485 .is_some_and(|choice| choice.read(cx).is_enabled())
1486 }
1487
1488 fn is_project_open_source(&self) -> bool {
1489 self.license_detection_watcher
1490 .as_ref()
1491 .is_some_and(|watcher| watcher.is_project_open_source())
1492 }
1493
1494 pub fn toggle(&mut self, cx: &mut App) {
1495 if let Some(choice) = self.choice.as_mut() {
1496 let new_choice = choice.update(cx, |choice, _cx| {
1497 let new_choice = choice.toggle();
1498 *choice = new_choice;
1499 new_choice
1500 });
1501
1502 db::write_and_log(cx, move || {
1503 KEY_VALUE_STORE.write_kvp(
1504 ZED_PREDICT_DATA_COLLECTION_CHOICE.into(),
1505 new_choice.is_enabled().to_string(),
1506 )
1507 });
1508 }
1509 }
1510}
1511
1512async fn llm_token_retry(
1513 llm_token: &LlmApiToken,
1514 client: &Arc<Client>,
1515 build_request: impl Fn(String) -> Result<Request<AsyncBody>>,
1516) -> Result<Response<AsyncBody>> {
1517 let mut did_retry = false;
1518 let http_client = client.http_client();
1519 let mut token = llm_token.acquire(client).await?;
1520 loop {
1521 let request = build_request(token.clone())?;
1522 let response = http_client.send(request).await?;
1523
1524 if !did_retry
1525 && !response.status().is_success()
1526 && response
1527 .headers()
1528 .get(EXPIRED_LLM_TOKEN_HEADER_NAME)
1529 .is_some()
1530 {
1531 did_retry = true;
1532 token = llm_token.refresh(client).await?;
1533 continue;
1534 }
1535
1536 return Ok(response);
1537 }
1538}
1539
1540pub struct ZetaEditPredictionProvider {
1541 zeta: Entity<Zeta>,
1542 pending_completions: ArrayVec<PendingCompletion, 2>,
1543 next_pending_completion_id: usize,
1544 current_completion: Option<CurrentEditPrediction>,
1545 /// None if this is entirely disabled for this provider
1546 provider_data_collection: ProviderDataCollection,
1547 last_request_timestamp: Instant,
1548}
1549
1550impl ZetaEditPredictionProvider {
1551 pub const THROTTLE_TIMEOUT: Duration = Duration::from_millis(300);
1552
1553 pub fn new(zeta: Entity<Zeta>, provider_data_collection: ProviderDataCollection) -> Self {
1554 Self {
1555 zeta,
1556 pending_completions: ArrayVec::new(),
1557 next_pending_completion_id: 0,
1558 current_completion: None,
1559 provider_data_collection,
1560 last_request_timestamp: Instant::now(),
1561 }
1562 }
1563}
1564
1565impl edit_prediction::EditPredictionProvider for ZetaEditPredictionProvider {
1566 fn name() -> &'static str {
1567 "zed-predict"
1568 }
1569
1570 fn display_name() -> &'static str {
1571 "Zed's Edit Predictions"
1572 }
1573
1574 fn show_completions_in_menu() -> bool {
1575 true
1576 }
1577
1578 fn show_tab_accept_marker() -> bool {
1579 true
1580 }
1581
1582 fn data_collection_state(&self, cx: &App) -> DataCollectionState {
1583 let is_project_open_source = self.provider_data_collection.is_project_open_source();
1584
1585 if self.provider_data_collection.is_data_collection_enabled(cx) {
1586 DataCollectionState::Enabled {
1587 is_project_open_source,
1588 }
1589 } else {
1590 DataCollectionState::Disabled {
1591 is_project_open_source,
1592 }
1593 }
1594 }
1595
1596 fn toggle_data_collection(&mut self, cx: &mut App) {
1597 self.provider_data_collection.toggle(cx);
1598 }
1599
1600 fn usage(&self, cx: &App) -> Option<EditPredictionUsage> {
1601 self.zeta.read(cx).usage(cx)
1602 }
1603
1604 fn is_enabled(
1605 &self,
1606 _buffer: &Entity<Buffer>,
1607 _cursor_position: language::Anchor,
1608 _cx: &App,
1609 ) -> bool {
1610 true
1611 }
1612
1613 fn needs_terms_acceptance(&self, cx: &App) -> bool {
1614 !self
1615 .zeta
1616 .read(cx)
1617 .user_store
1618 .read(cx)
1619 .has_accepted_terms_of_service()
1620 }
1621
1622 fn is_refreshing(&self) -> bool {
1623 !self.pending_completions.is_empty()
1624 }
1625
1626 fn refresh(
1627 &mut self,
1628 project: Option<Entity<Project>>,
1629 buffer: Entity<Buffer>,
1630 position: language::Anchor,
1631 _debounce: bool,
1632 cx: &mut Context<Self>,
1633 ) {
1634 if self.needs_terms_acceptance(cx) {
1635 return;
1636 }
1637
1638 if self.zeta.read(cx).update_required {
1639 return;
1640 }
1641
1642 if self
1643 .zeta
1644 .read(cx)
1645 .user_store
1646 .read_with(cx, |user_store, _cx| {
1647 user_store.account_too_young() || user_store.has_overdue_invoices()
1648 })
1649 {
1650 return;
1651 }
1652
1653 if let Some(current_completion) = self.current_completion.as_ref() {
1654 let snapshot = buffer.read(cx).snapshot();
1655 if current_completion
1656 .completion
1657 .interpolate(&snapshot)
1658 .is_some()
1659 {
1660 return;
1661 }
1662 }
1663
1664 let pending_completion_id = self.next_pending_completion_id;
1665 self.next_pending_completion_id += 1;
1666 let can_collect_data = self.provider_data_collection.can_collect_data(cx);
1667 let last_request_timestamp = self.last_request_timestamp;
1668
1669 let task = cx.spawn(async move |this, cx| {
1670 if let Some(timeout) = (last_request_timestamp + Self::THROTTLE_TIMEOUT)
1671 .checked_duration_since(Instant::now())
1672 {
1673 cx.background_executor().timer(timeout).await;
1674 }
1675
1676 let completion_request = this.update(cx, |this, cx| {
1677 this.last_request_timestamp = Instant::now();
1678 this.zeta.update(cx, |zeta, cx| {
1679 zeta.request_completion(
1680 project.as_ref(),
1681 &buffer,
1682 position,
1683 can_collect_data,
1684 cx,
1685 )
1686 })
1687 });
1688
1689 let completion = match completion_request {
1690 Ok(completion_request) => {
1691 let completion_request = completion_request.await;
1692 completion_request.map(|c| {
1693 c.map(|completion| CurrentEditPrediction {
1694 buffer_id: buffer.entity_id(),
1695 completion,
1696 })
1697 })
1698 }
1699 Err(error) => Err(error),
1700 };
1701 let Some(new_completion) = completion
1702 .context("edit prediction failed")
1703 .log_err()
1704 .flatten()
1705 else {
1706 this.update(cx, |this, cx| {
1707 if this.pending_completions[0].id == pending_completion_id {
1708 this.pending_completions.remove(0);
1709 } else {
1710 this.pending_completions.clear();
1711 }
1712
1713 cx.notify();
1714 })
1715 .ok();
1716 return;
1717 };
1718
1719 this.update(cx, |this, cx| {
1720 if this.pending_completions[0].id == pending_completion_id {
1721 this.pending_completions.remove(0);
1722 } else {
1723 this.pending_completions.clear();
1724 }
1725
1726 if let Some(old_completion) = this.current_completion.as_ref() {
1727 let snapshot = buffer.read(cx).snapshot();
1728 if new_completion.should_replace_completion(&old_completion, &snapshot) {
1729 this.zeta.update(cx, |zeta, cx| {
1730 zeta.completion_shown(&new_completion.completion, cx);
1731 });
1732 this.current_completion = Some(new_completion);
1733 }
1734 } else {
1735 this.zeta.update(cx, |zeta, cx| {
1736 zeta.completion_shown(&new_completion.completion, cx);
1737 });
1738 this.current_completion = Some(new_completion);
1739 }
1740
1741 cx.notify();
1742 })
1743 .ok();
1744 });
1745
1746 // We always maintain at most two pending completions. When we already
1747 // have two, we replace the newest one.
1748 if self.pending_completions.len() <= 1 {
1749 self.pending_completions.push(PendingCompletion {
1750 id: pending_completion_id,
1751 _task: task,
1752 });
1753 } else if self.pending_completions.len() == 2 {
1754 self.pending_completions.pop();
1755 self.pending_completions.push(PendingCompletion {
1756 id: pending_completion_id,
1757 _task: task,
1758 });
1759 }
1760 }
1761
1762 fn cycle(
1763 &mut self,
1764 _buffer: Entity<Buffer>,
1765 _cursor_position: language::Anchor,
1766 _direction: edit_prediction::Direction,
1767 _cx: &mut Context<Self>,
1768 ) {
1769 // Right now we don't support cycling.
1770 }
1771
1772 fn accept(&mut self, cx: &mut Context<Self>) {
1773 let completion_id = self
1774 .current_completion
1775 .as_ref()
1776 .map(|completion| completion.completion.id);
1777 if let Some(completion_id) = completion_id {
1778 self.zeta
1779 .update(cx, |zeta, cx| {
1780 zeta.accept_edit_prediction(completion_id, cx)
1781 })
1782 .detach();
1783 }
1784 self.pending_completions.clear();
1785 }
1786
1787 fn discard(&mut self, _cx: &mut Context<Self>) {
1788 self.pending_completions.clear();
1789 self.current_completion.take();
1790 }
1791
1792 fn suggest(
1793 &mut self,
1794 buffer: &Entity<Buffer>,
1795 cursor_position: language::Anchor,
1796 cx: &mut Context<Self>,
1797 ) -> Option<edit_prediction::EditPrediction> {
1798 let CurrentEditPrediction {
1799 buffer_id,
1800 completion,
1801 ..
1802 } = self.current_completion.as_mut()?;
1803
1804 // Invalidate previous completion if it was generated for a different buffer.
1805 if *buffer_id != buffer.entity_id() {
1806 self.current_completion.take();
1807 return None;
1808 }
1809
1810 let buffer = buffer.read(cx);
1811 let Some(edits) = completion.interpolate(&buffer.snapshot()) else {
1812 self.current_completion.take();
1813 return None;
1814 };
1815
1816 let cursor_row = cursor_position.to_point(buffer).row;
1817 let (closest_edit_ix, (closest_edit_range, _)) =
1818 edits.iter().enumerate().min_by_key(|(_, (range, _))| {
1819 let distance_from_start = cursor_row.abs_diff(range.start.to_point(buffer).row);
1820 let distance_from_end = cursor_row.abs_diff(range.end.to_point(buffer).row);
1821 cmp::min(distance_from_start, distance_from_end)
1822 })?;
1823
1824 let mut edit_start_ix = closest_edit_ix;
1825 for (range, _) in edits[..edit_start_ix].iter().rev() {
1826 let distance_from_closest_edit =
1827 closest_edit_range.start.to_point(buffer).row - range.end.to_point(buffer).row;
1828 if distance_from_closest_edit <= 1 {
1829 edit_start_ix -= 1;
1830 } else {
1831 break;
1832 }
1833 }
1834
1835 let mut edit_end_ix = closest_edit_ix + 1;
1836 for (range, _) in &edits[edit_end_ix..] {
1837 let distance_from_closest_edit =
1838 range.start.to_point(buffer).row - closest_edit_range.end.to_point(buffer).row;
1839 if distance_from_closest_edit <= 1 {
1840 edit_end_ix += 1;
1841 } else {
1842 break;
1843 }
1844 }
1845
1846 Some(edit_prediction::EditPrediction {
1847 id: Some(completion.id.to_string().into()),
1848 edits: edits[edit_start_ix..edit_end_ix].to_vec(),
1849 edit_preview: Some(completion.edit_preview.clone()),
1850 })
1851 }
1852}
1853
1854fn tokens_for_bytes(bytes: usize) -> usize {
1855 /// Typical number of string bytes per token for the purposes of limiting model input. This is
1856 /// intentionally low to err on the side of underestimating limits.
1857 const BYTES_PER_TOKEN_GUESS: usize = 3;
1858 bytes / BYTES_PER_TOKEN_GUESS
1859}
1860
1861#[cfg(test)]
1862mod tests {
1863 use client::UserStore;
1864 use client::test::FakeServer;
1865 use clock::FakeSystemClock;
1866 use cloud_api_types::{CreateLlmTokenResponse, LlmToken};
1867 use gpui::TestAppContext;
1868 use http_client::FakeHttpClient;
1869 use indoc::indoc;
1870 use language::Point;
1871 use settings::SettingsStore;
1872
1873 use super::*;
1874
1875 #[gpui::test]
1876 async fn test_edit_prediction_basic_interpolation(cx: &mut TestAppContext) {
1877 let buffer = cx.new(|cx| Buffer::local("Lorem ipsum dolor", cx));
1878 let edits: Arc<[(Range<Anchor>, String)]> = cx.update(|cx| {
1879 to_completion_edits(
1880 [(2..5, "REM".to_string()), (9..11, "".to_string())],
1881 &buffer,
1882 cx,
1883 )
1884 .into()
1885 });
1886
1887 let edit_preview = cx
1888 .read(|cx| buffer.read(cx).preview_edits(edits.clone(), cx))
1889 .await;
1890
1891 let completion = EditPrediction {
1892 edits,
1893 edit_preview,
1894 path: Path::new("").into(),
1895 snapshot: cx.read(|cx| buffer.read(cx).snapshot()),
1896 id: EditPredictionId(Uuid::new_v4()),
1897 excerpt_range: 0..0,
1898 cursor_offset: 0,
1899 input_outline: "".into(),
1900 input_events: "".into(),
1901 input_excerpt: "".into(),
1902 output_excerpt: "".into(),
1903 buffer_snapshotted_at: Instant::now(),
1904 response_received_at: Instant::now(),
1905 };
1906
1907 cx.update(|cx| {
1908 assert_eq!(
1909 from_completion_edits(
1910 &completion.interpolate(&buffer.read(cx).snapshot()).unwrap(),
1911 &buffer,
1912 cx
1913 ),
1914 vec![(2..5, "REM".to_string()), (9..11, "".to_string())]
1915 );
1916
1917 buffer.update(cx, |buffer, cx| buffer.edit([(2..5, "")], None, cx));
1918 assert_eq!(
1919 from_completion_edits(
1920 &completion.interpolate(&buffer.read(cx).snapshot()).unwrap(),
1921 &buffer,
1922 cx
1923 ),
1924 vec![(2..2, "REM".to_string()), (6..8, "".to_string())]
1925 );
1926
1927 buffer.update(cx, |buffer, cx| buffer.undo(cx));
1928 assert_eq!(
1929 from_completion_edits(
1930 &completion.interpolate(&buffer.read(cx).snapshot()).unwrap(),
1931 &buffer,
1932 cx
1933 ),
1934 vec![(2..5, "REM".to_string()), (9..11, "".to_string())]
1935 );
1936
1937 buffer.update(cx, |buffer, cx| buffer.edit([(2..5, "R")], None, cx));
1938 assert_eq!(
1939 from_completion_edits(
1940 &completion.interpolate(&buffer.read(cx).snapshot()).unwrap(),
1941 &buffer,
1942 cx
1943 ),
1944 vec![(3..3, "EM".to_string()), (7..9, "".to_string())]
1945 );
1946
1947 buffer.update(cx, |buffer, cx| buffer.edit([(3..3, "E")], None, cx));
1948 assert_eq!(
1949 from_completion_edits(
1950 &completion.interpolate(&buffer.read(cx).snapshot()).unwrap(),
1951 &buffer,
1952 cx
1953 ),
1954 vec![(4..4, "M".to_string()), (8..10, "".to_string())]
1955 );
1956
1957 buffer.update(cx, |buffer, cx| buffer.edit([(4..4, "M")], None, cx));
1958 assert_eq!(
1959 from_completion_edits(
1960 &completion.interpolate(&buffer.read(cx).snapshot()).unwrap(),
1961 &buffer,
1962 cx
1963 ),
1964 vec![(9..11, "".to_string())]
1965 );
1966
1967 buffer.update(cx, |buffer, cx| buffer.edit([(4..5, "")], None, cx));
1968 assert_eq!(
1969 from_completion_edits(
1970 &completion.interpolate(&buffer.read(cx).snapshot()).unwrap(),
1971 &buffer,
1972 cx
1973 ),
1974 vec![(4..4, "M".to_string()), (8..10, "".to_string())]
1975 );
1976
1977 buffer.update(cx, |buffer, cx| buffer.edit([(8..10, "")], None, cx));
1978 assert_eq!(
1979 from_completion_edits(
1980 &completion.interpolate(&buffer.read(cx).snapshot()).unwrap(),
1981 &buffer,
1982 cx
1983 ),
1984 vec![(4..4, "M".to_string())]
1985 );
1986
1987 buffer.update(cx, |buffer, cx| buffer.edit([(4..6, "")], None, cx));
1988 assert_eq!(completion.interpolate(&buffer.read(cx).snapshot()), None);
1989 })
1990 }
1991
1992 #[gpui::test]
1993 async fn test_clean_up_diff(cx: &mut TestAppContext) {
1994 cx.update(|cx| {
1995 let settings_store = SettingsStore::test(cx);
1996 cx.set_global(settings_store);
1997 client::init_settings(cx);
1998 });
1999
2000 let edits = edits_for_prediction(
2001 indoc! {"
2002 fn main() {
2003 let word_1 = \"lorem\";
2004 let range = word.len()..word.len();
2005 }
2006 "},
2007 indoc! {"
2008 <|editable_region_start|>
2009 fn main() {
2010 let word_1 = \"lorem\";
2011 let range = word_1.len()..word_1.len();
2012 }
2013
2014 <|editable_region_end|>
2015 "},
2016 cx,
2017 )
2018 .await;
2019 assert_eq!(
2020 edits,
2021 [
2022 (Point::new(2, 20)..Point::new(2, 20), "_1".to_string()),
2023 (Point::new(2, 32)..Point::new(2, 32), "_1".to_string()),
2024 ]
2025 );
2026
2027 let edits = edits_for_prediction(
2028 indoc! {"
2029 fn main() {
2030 let story = \"the quick\"
2031 }
2032 "},
2033 indoc! {"
2034 <|editable_region_start|>
2035 fn main() {
2036 let story = \"the quick brown fox jumps over the lazy dog\";
2037 }
2038
2039 <|editable_region_end|>
2040 "},
2041 cx,
2042 )
2043 .await;
2044 assert_eq!(
2045 edits,
2046 [
2047 (
2048 Point::new(1, 26)..Point::new(1, 26),
2049 " brown fox jumps over the lazy dog".to_string()
2050 ),
2051 (Point::new(1, 27)..Point::new(1, 27), ";".to_string()),
2052 ]
2053 );
2054 }
2055
2056 #[gpui::test]
2057 async fn test_edit_prediction_end_of_buffer(cx: &mut TestAppContext) {
2058 cx.update(|cx| {
2059 let settings_store = SettingsStore::test(cx);
2060 cx.set_global(settings_store);
2061 client::init_settings(cx);
2062 });
2063
2064 let buffer_content = "lorem\n";
2065 let completion_response = indoc! {"
2066 ```animals.js
2067 <|start_of_file|>
2068 <|editable_region_start|>
2069 lorem
2070 ipsum
2071 <|editable_region_end|>
2072 ```"};
2073
2074 let http_client = FakeHttpClient::create(move |req| async move {
2075 match (req.method(), req.uri().path()) {
2076 (&Method::POST, "/client/llm_tokens") => Ok(http_client::Response::builder()
2077 .status(200)
2078 .body(
2079 serde_json::to_string(&CreateLlmTokenResponse {
2080 token: LlmToken("the-llm-token".to_string()),
2081 })
2082 .unwrap()
2083 .into(),
2084 )
2085 .unwrap()),
2086 (&Method::POST, "/predict_edits/v2") => Ok(http_client::Response::builder()
2087 .status(200)
2088 .body(
2089 serde_json::to_string(&PredictEditsResponse {
2090 request_id: Uuid::parse_str("7e86480f-3536-4d2c-9334-8213e3445d45")
2091 .unwrap(),
2092 output_excerpt: completion_response.to_string(),
2093 })
2094 .unwrap()
2095 .into(),
2096 )
2097 .unwrap()),
2098 _ => Ok(http_client::Response::builder()
2099 .status(404)
2100 .body("Not Found".into())
2101 .unwrap()),
2102 }
2103 });
2104
2105 let client = cx.update(|cx| Client::new(Arc::new(FakeSystemClock::new()), http_client, cx));
2106 cx.update(|cx| {
2107 RefreshLlmTokenListener::register(client.clone(), cx);
2108 });
2109 // Construct the fake server to authenticate.
2110 let _server = FakeServer::for_client(42, &client, cx).await;
2111 let user_store = cx.new(|cx| UserStore::new(client.clone(), cx));
2112 let zeta = cx.new(|cx| Zeta::new(None, client, user_store.clone(), cx));
2113
2114 let buffer = cx.new(|cx| Buffer::local(buffer_content, cx));
2115 let cursor = buffer.read_with(cx, |buffer, _| buffer.anchor_before(Point::new(1, 0)));
2116 let completion_task = zeta.update(cx, |zeta, cx| {
2117 zeta.request_completion(None, &buffer, cursor, false, cx)
2118 });
2119
2120 let completion = completion_task.await.unwrap().unwrap();
2121 buffer.update(cx, |buffer, cx| {
2122 buffer.edit(completion.edits.iter().cloned(), None, cx)
2123 });
2124 assert_eq!(
2125 buffer.read_with(cx, |buffer, _| buffer.text()),
2126 "lorem\nipsum"
2127 );
2128 }
2129
2130 async fn edits_for_prediction(
2131 buffer_content: &str,
2132 completion_response: &str,
2133 cx: &mut TestAppContext,
2134 ) -> Vec<(Range<Point>, String)> {
2135 let completion_response = completion_response.to_string();
2136 let http_client = FakeHttpClient::create(move |req| {
2137 let completion = completion_response.clone();
2138 async move {
2139 match (req.method(), req.uri().path()) {
2140 (&Method::POST, "/client/llm_tokens") => Ok(http_client::Response::builder()
2141 .status(200)
2142 .body(
2143 serde_json::to_string(&CreateLlmTokenResponse {
2144 token: LlmToken("the-llm-token".to_string()),
2145 })
2146 .unwrap()
2147 .into(),
2148 )
2149 .unwrap()),
2150 (&Method::POST, "/predict_edits/v2") => Ok(http_client::Response::builder()
2151 .status(200)
2152 .body(
2153 serde_json::to_string(&PredictEditsResponse {
2154 request_id: Uuid::new_v4(),
2155 output_excerpt: completion,
2156 })
2157 .unwrap()
2158 .into(),
2159 )
2160 .unwrap()),
2161 _ => Ok(http_client::Response::builder()
2162 .status(404)
2163 .body("Not Found".into())
2164 .unwrap()),
2165 }
2166 }
2167 });
2168
2169 let client = cx.update(|cx| Client::new(Arc::new(FakeSystemClock::new()), http_client, cx));
2170 cx.update(|cx| {
2171 RefreshLlmTokenListener::register(client.clone(), cx);
2172 });
2173 // Construct the fake server to authenticate.
2174 let _server = FakeServer::for_client(42, &client, cx).await;
2175 let user_store = cx.new(|cx| UserStore::new(client.clone(), cx));
2176 let zeta = cx.new(|cx| Zeta::new(None, client, user_store.clone(), cx));
2177
2178 let buffer = cx.new(|cx| Buffer::local(buffer_content, cx));
2179 let snapshot = buffer.read_with(cx, |buffer, _| buffer.snapshot());
2180 let cursor = buffer.read_with(cx, |buffer, _| buffer.anchor_before(Point::new(1, 0)));
2181 let completion_task = zeta.update(cx, |zeta, cx| {
2182 zeta.request_completion(None, &buffer, cursor, false, cx)
2183 });
2184
2185 let completion = completion_task.await.unwrap().unwrap();
2186 completion
2187 .edits
2188 .into_iter()
2189 .map(|(old_range, new_text)| (old_range.to_point(&snapshot), new_text.clone()))
2190 .collect::<Vec<_>>()
2191 }
2192
2193 fn to_completion_edits(
2194 iterator: impl IntoIterator<Item = (Range<usize>, String)>,
2195 buffer: &Entity<Buffer>,
2196 cx: &App,
2197 ) -> Vec<(Range<Anchor>, String)> {
2198 let buffer = buffer.read(cx);
2199 iterator
2200 .into_iter()
2201 .map(|(range, text)| {
2202 (
2203 buffer.anchor_after(range.start)..buffer.anchor_before(range.end),
2204 text,
2205 )
2206 })
2207 .collect()
2208 }
2209
2210 fn from_completion_edits(
2211 editor_edits: &[(Range<Anchor>, String)],
2212 buffer: &Entity<Buffer>,
2213 cx: &App,
2214 ) -> Vec<(Range<usize>, String)> {
2215 let buffer = buffer.read(cx);
2216 editor_edits
2217 .iter()
2218 .map(|(range, text)| {
2219 (
2220 range.start.to_offset(buffer)..range.end.to_offset(buffer),
2221 text.clone(),
2222 )
2223 })
2224 .collect()
2225 }
2226
2227 #[ctor::ctor]
2228 fn init_logger() {
2229 zlog::init_test();
2230 }
2231}