1//! Project-wide storage of the tasks available, capable of updating itself from the sources set.
2
3use std::{
4 borrow::Cow,
5 cmp::{self, Reverse},
6 collections::hash_map,
7 path::PathBuf,
8 sync::Arc,
9};
10
11use anyhow::Result;
12use collections::{HashMap, HashSet, VecDeque};
13use dap::DapRegistry;
14use gpui::{App, AppContext as _, Context, Entity, SharedString, Task, WeakEntity};
15use itertools::Itertools;
16use language::{
17 Buffer, ContextLocation, ContextProvider, File, Language, LanguageToolchainStore, Location,
18 language_settings::language_settings,
19};
20use lsp::{LanguageServerId, LanguageServerName};
21use paths::{debug_task_file_name, task_file_name};
22use settings::{InvalidSettingsError, parse_json_with_comments};
23use task::{
24 DebugScenario, ResolvedTask, TaskContext, TaskId, TaskTemplate, TaskTemplates, TaskVariables,
25 VariableName,
26};
27use text::{BufferId, Point, ToPoint};
28use util::{NumericPrefixWithSuffix, ResultExt as _, post_inc, rel_path::RelPath};
29use worktree::WorktreeId;
30
31use crate::{task_store::TaskSettingsLocation, worktree_store::WorktreeStore};
32
33#[derive(Clone, Debug, Default)]
34pub struct DebugScenarioContext {
35 pub task_context: TaskContext,
36 pub worktree_id: Option<WorktreeId>,
37 pub active_buffer: Option<WeakEntity<Buffer>>,
38}
39
40/// Inventory tracks available tasks for a given project.
41pub struct Inventory {
42 last_scheduled_tasks: VecDeque<(TaskSourceKind, ResolvedTask)>,
43 last_scheduled_scenarios: VecDeque<(DebugScenario, DebugScenarioContext)>,
44 templates_from_settings: InventoryFor<TaskTemplate>,
45 scenarios_from_settings: InventoryFor<DebugScenario>,
46}
47
48impl std::fmt::Debug for Inventory {
49 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
50 f.debug_struct("Inventory")
51 .field("last_scheduled_tasks", &self.last_scheduled_tasks)
52 .field("last_scheduled_scenarios", &self.last_scheduled_scenarios)
53 .field("templates_from_settings", &self.templates_from_settings)
54 .field("scenarios_from_settings", &self.scenarios_from_settings)
55 .finish()
56 }
57}
58
59// Helper trait for better error messages in [InventoryFor]
60trait InventoryContents: Clone {
61 const GLOBAL_SOURCE_FILE: &'static str;
62 const LABEL: &'static str;
63}
64
65impl InventoryContents for TaskTemplate {
66 const GLOBAL_SOURCE_FILE: &'static str = "tasks.json";
67 const LABEL: &'static str = "tasks";
68}
69
70impl InventoryContents for DebugScenario {
71 const GLOBAL_SOURCE_FILE: &'static str = "debug.json";
72
73 const LABEL: &'static str = "debug scenarios";
74}
75
76#[derive(Debug)]
77struct InventoryFor<T> {
78 global: HashMap<PathBuf, Vec<T>>,
79 worktree: HashMap<WorktreeId, HashMap<Arc<RelPath>, Vec<T>>>,
80}
81
82impl<T: InventoryContents> InventoryFor<T> {
83 fn worktree_scenarios(
84 &self,
85 worktree: WorktreeId,
86 ) -> impl '_ + Iterator<Item = (TaskSourceKind, T)> {
87 self.worktree
88 .get(&worktree)
89 .into_iter()
90 .flatten()
91 .flat_map(|(directory, templates)| {
92 templates.iter().map(move |template| (directory, template))
93 })
94 .map(move |(directory, template)| {
95 (
96 TaskSourceKind::Worktree {
97 id: worktree,
98 directory_in_worktree: directory.clone(),
99 id_base: Cow::Owned(format!(
100 "local worktree {} from directory {directory:?}",
101 T::LABEL
102 )),
103 },
104 template.clone(),
105 )
106 })
107 }
108
109 fn global_scenarios(&self) -> impl '_ + Iterator<Item = (TaskSourceKind, T)> {
110 self.global.iter().flat_map(|(file_path, templates)| {
111 templates.iter().map(|template| {
112 (
113 TaskSourceKind::AbsPath {
114 id_base: Cow::Owned(format!("global {}", T::GLOBAL_SOURCE_FILE)),
115 abs_path: file_path.clone(),
116 },
117 template.clone(),
118 )
119 })
120 })
121 }
122}
123
124impl<T> Default for InventoryFor<T> {
125 fn default() -> Self {
126 Self {
127 global: HashMap::default(),
128 worktree: HashMap::default(),
129 }
130 }
131}
132
133/// Kind of a source the tasks are fetched from, used to display more source information in the UI.
134#[derive(Debug, Clone, PartialEq, Eq, Hash, PartialOrd, Ord)]
135pub enum TaskSourceKind {
136 /// bash-like commands spawned by users, not associated with any path
137 UserInput,
138 /// Tasks from the worktree's .zed/task.json
139 Worktree {
140 id: WorktreeId,
141 directory_in_worktree: Arc<RelPath>,
142 id_base: Cow<'static, str>,
143 },
144 /// ~/.config/zed/task.json - like global files with task definitions, applicable to any path
145 AbsPath {
146 id_base: Cow<'static, str>,
147 abs_path: PathBuf,
148 },
149 /// Languages-specific tasks coming from extensions.
150 Language { name: SharedString },
151 /// Language-specific tasks coming from LSP servers.
152 Lsp {
153 language_name: SharedString,
154 server: LanguageServerId,
155 },
156}
157
158/// A collection of task contexts, derived from the current state of the workspace.
159/// Only contains worktrees that are visible and with their root being a directory.
160#[derive(Debug, Default)]
161pub struct TaskContexts {
162 /// A context, related to the currently opened item.
163 /// Item can be opened from an invisible worktree, or any other, not necessarily active worktree.
164 pub active_item_context: Option<(Option<WorktreeId>, Option<Location>, TaskContext)>,
165 /// A worktree that corresponds to the active item, or the only worktree in the workspace.
166 pub active_worktree_context: Option<(WorktreeId, TaskContext)>,
167 /// If there are multiple worktrees in the workspace, all non-active ones are included here.
168 pub other_worktree_contexts: Vec<(WorktreeId, TaskContext)>,
169 pub lsp_task_sources: HashMap<LanguageServerName, Vec<BufferId>>,
170 pub latest_selection: Option<text::Anchor>,
171}
172
173impl TaskContexts {
174 pub fn active_context(&self) -> Option<&TaskContext> {
175 self.active_item_context
176 .as_ref()
177 .map(|(_, _, context)| context)
178 .or_else(|| {
179 self.active_worktree_context
180 .as_ref()
181 .map(|(_, context)| context)
182 })
183 }
184
185 pub fn location(&self) -> Option<&Location> {
186 self.active_item_context
187 .as_ref()
188 .and_then(|(_, location, _)| location.as_ref())
189 }
190
191 pub fn file(&self, cx: &App) -> Option<Arc<dyn File>> {
192 self.active_item_context
193 .as_ref()
194 .and_then(|(_, location, _)| location.as_ref())
195 .and_then(|location| location.buffer.read(cx).file().cloned())
196 }
197
198 pub fn worktree(&self) -> Option<WorktreeId> {
199 self.active_item_context
200 .as_ref()
201 .and_then(|(worktree_id, _, _)| worktree_id.as_ref())
202 .or_else(|| {
203 self.active_worktree_context
204 .as_ref()
205 .map(|(worktree_id, _)| worktree_id)
206 })
207 .copied()
208 }
209
210 pub fn task_context_for_worktree_id(&self, worktree_id: WorktreeId) -> Option<&TaskContext> {
211 self.active_worktree_context
212 .iter()
213 .chain(self.other_worktree_contexts.iter())
214 .find(|(id, _)| *id == worktree_id)
215 .map(|(_, context)| context)
216 }
217}
218
219impl TaskSourceKind {
220 pub fn to_id_base(&self) -> String {
221 match self {
222 Self::UserInput => "oneshot".to_string(),
223 Self::AbsPath { id_base, abs_path } => {
224 format!("{id_base}_{}", abs_path.display())
225 }
226 Self::Worktree {
227 id,
228 id_base,
229 directory_in_worktree,
230 } => {
231 format!("{id_base}_{id}_{}", directory_in_worktree.as_unix_str())
232 }
233 Self::Language { name } => format!("language_{name}"),
234 Self::Lsp {
235 server,
236 language_name,
237 } => format!("lsp_{language_name}_{server}"),
238 }
239 }
240}
241
242impl Inventory {
243 pub fn new(cx: &mut App) -> Entity<Self> {
244 cx.new(|_| Self {
245 last_scheduled_tasks: VecDeque::default(),
246 last_scheduled_scenarios: VecDeque::default(),
247 templates_from_settings: InventoryFor::default(),
248 scenarios_from_settings: InventoryFor::default(),
249 })
250 }
251
252 pub fn scenario_scheduled(
253 &mut self,
254 scenario: DebugScenario,
255 task_context: TaskContext,
256 worktree_id: Option<WorktreeId>,
257 active_buffer: Option<WeakEntity<Buffer>>,
258 ) {
259 self.last_scheduled_scenarios
260 .retain(|(s, _)| s.label != scenario.label);
261 self.last_scheduled_scenarios.push_front((
262 scenario,
263 DebugScenarioContext {
264 task_context,
265 worktree_id,
266 active_buffer,
267 },
268 ));
269 if self.last_scheduled_scenarios.len() > 5_000 {
270 self.last_scheduled_scenarios.pop_front();
271 }
272 }
273
274 pub fn last_scheduled_scenario(&self) -> Option<&(DebugScenario, DebugScenarioContext)> {
275 self.last_scheduled_scenarios.back()
276 }
277
278 pub fn list_debug_scenarios(
279 &self,
280 task_contexts: &TaskContexts,
281 lsp_tasks: Vec<(TaskSourceKind, task::ResolvedTask)>,
282 current_resolved_tasks: Vec<(TaskSourceKind, task::ResolvedTask)>,
283 add_current_language_tasks: bool,
284 cx: &mut App,
285 ) -> Task<(
286 Vec<(DebugScenario, DebugScenarioContext)>,
287 Vec<(TaskSourceKind, DebugScenario)>,
288 )> {
289 let mut scenarios = Vec::new();
290
291 if let Some(worktree_id) = task_contexts
292 .active_worktree_context
293 .iter()
294 .chain(task_contexts.other_worktree_contexts.iter())
295 .map(|context| context.0)
296 .next()
297 {
298 scenarios.extend(self.worktree_scenarios_from_settings(worktree_id));
299 }
300 scenarios.extend(self.global_debug_scenarios_from_settings());
301
302 let last_scheduled_scenarios = self.last_scheduled_scenarios.iter().cloned().collect();
303
304 let adapter = task_contexts.location().and_then(|location| {
305 let (file, language) = {
306 let buffer = location.buffer.read(cx);
307 (buffer.file(), buffer.language())
308 };
309 let language_name = language.as_ref().map(|l| l.name());
310 let adapter = language_settings(language_name, file, cx)
311 .debuggers
312 .first()
313 .map(SharedString::from)
314 .or_else(|| {
315 language.and_then(|l| l.config().debuggers.first().map(SharedString::from))
316 });
317 adapter.map(|adapter| (adapter, DapRegistry::global(cx).locators()))
318 });
319 cx.background_spawn(async move {
320 if let Some((adapter, locators)) = adapter {
321 for (kind, task) in
322 lsp_tasks
323 .into_iter()
324 .chain(current_resolved_tasks.into_iter().filter(|(kind, _)| {
325 add_current_language_tasks
326 || !matches!(kind, TaskSourceKind::Language { .. })
327 }))
328 {
329 let adapter = adapter.clone().into();
330
331 for locator in locators.values() {
332 if let Some(scenario) = locator
333 .create_scenario(task.original_task(), task.display_label(), &adapter)
334 .await
335 {
336 scenarios.push((kind, scenario));
337 break;
338 }
339 }
340 }
341 }
342 (last_scheduled_scenarios, scenarios)
343 })
344 }
345
346 pub fn task_template_by_label(
347 &self,
348 buffer: Option<Entity<Buffer>>,
349 worktree_id: Option<WorktreeId>,
350 label: &str,
351 cx: &App,
352 ) -> Task<Option<TaskTemplate>> {
353 let (buffer_worktree_id, file, language) = buffer
354 .map(|buffer| {
355 let buffer = buffer.read(cx);
356 let file = buffer.file().cloned();
357 (
358 file.as_ref().map(|file| file.worktree_id(cx)),
359 file,
360 buffer.language().cloned(),
361 )
362 })
363 .unwrap_or((None, None, None));
364
365 let tasks = self.list_tasks(file, language, worktree_id.or(buffer_worktree_id), cx);
366 let label = label.to_owned();
367 cx.background_spawn(async move {
368 tasks
369 .await
370 .into_iter()
371 .find(|(_, template)| template.label == label)
372 .map(|val| val.1)
373 })
374 }
375
376 /// Pulls its task sources relevant to the worktree and the language given,
377 /// returns all task templates with their source kinds, worktree tasks first, language tasks second
378 /// and global tasks last. No specific order inside source kinds groups.
379 pub fn list_tasks(
380 &self,
381 file: Option<Arc<dyn File>>,
382 language: Option<Arc<Language>>,
383 worktree: Option<WorktreeId>,
384 cx: &App,
385 ) -> Task<Vec<(TaskSourceKind, TaskTemplate)>> {
386 let global_tasks = self.global_templates_from_settings().collect::<Vec<_>>();
387 let mut worktree_tasks = worktree
388 .into_iter()
389 .flat_map(|worktree| self.worktree_templates_from_settings(worktree))
390 .collect::<Vec<_>>();
391
392 let task_source_kind = language.as_ref().map(|language| TaskSourceKind::Language {
393 name: language.name().into(),
394 });
395 let language_tasks = language
396 .filter(|language| {
397 language_settings(Some(language.name()), file.as_ref(), cx)
398 .tasks
399 .enabled
400 })
401 .and_then(|language| {
402 language
403 .context_provider()
404 .map(|provider| provider.associated_tasks(file, cx))
405 });
406 cx.background_spawn(async move {
407 if let Some(t) = language_tasks {
408 worktree_tasks.extend(t.await.into_iter().flat_map(|tasks| {
409 tasks
410 .0
411 .into_iter()
412 .filter_map(|task| Some((task_source_kind.clone()?, task)))
413 }));
414 }
415 worktree_tasks.extend(global_tasks);
416 worktree_tasks
417 })
418 }
419
420 /// Pulls its task sources relevant to the worktree and the language given and resolves them with the [`TaskContexts`] given.
421 /// Joins the new resolutions with the resolved tasks that were used (spawned) before,
422 /// orders them so that the most recently used come first, all equally used ones are ordered so that the most specific tasks come first.
423 /// Deduplicates the tasks by their labels and context and splits the ordered list into two: used tasks and the rest, newly resolved tasks.
424 pub fn used_and_current_resolved_tasks(
425 &self,
426 task_contexts: Arc<TaskContexts>,
427 cx: &mut Context<Self>,
428 ) -> Task<(
429 Vec<(TaskSourceKind, ResolvedTask)>,
430 Vec<(TaskSourceKind, ResolvedTask)>,
431 )> {
432 let worktree = task_contexts.worktree();
433 let location = task_contexts.location();
434 let language = location.and_then(|location| location.buffer.read(cx).language());
435 let task_source_kind = language.as_ref().map(|language| TaskSourceKind::Language {
436 name: language.name().into(),
437 });
438 let file = location.and_then(|location| location.buffer.read(cx).file().cloned());
439
440 let mut task_labels_to_ids = HashMap::<String, HashSet<TaskId>>::default();
441 let mut lru_score = 0_u32;
442 let previously_spawned_tasks = self
443 .last_scheduled_tasks
444 .iter()
445 .rev()
446 .filter(|(task_kind, _)| {
447 if matches!(task_kind, TaskSourceKind::Language { .. }) {
448 Some(task_kind) == task_source_kind.as_ref()
449 } else {
450 true
451 }
452 })
453 .filter(|(_, resolved_task)| {
454 match task_labels_to_ids.entry(resolved_task.resolved_label.clone()) {
455 hash_map::Entry::Occupied(mut o) => {
456 o.get_mut().insert(resolved_task.id.clone());
457 // Neber allow duplicate reused tasks with the same labels
458 false
459 }
460 hash_map::Entry::Vacant(v) => {
461 v.insert(HashSet::from_iter(Some(resolved_task.id.clone())));
462 true
463 }
464 }
465 })
466 .map(|(task_source_kind, resolved_task)| {
467 (
468 task_source_kind.clone(),
469 resolved_task.clone(),
470 post_inc(&mut lru_score),
471 )
472 })
473 .sorted_unstable_by(task_lru_comparator)
474 .map(|(kind, task, _)| (kind, task))
475 .collect::<Vec<_>>();
476
477 let not_used_score = post_inc(&mut lru_score);
478 let global_tasks = self.global_templates_from_settings().collect::<Vec<_>>();
479 let associated_tasks = language
480 .filter(|language| {
481 language_settings(Some(language.name()), file.as_ref(), cx)
482 .tasks
483 .enabled
484 })
485 .and_then(|language| {
486 language
487 .context_provider()
488 .map(|provider| provider.associated_tasks(file, cx))
489 });
490 let worktree_tasks = worktree
491 .into_iter()
492 .flat_map(|worktree| self.worktree_templates_from_settings(worktree))
493 .collect::<Vec<_>>();
494 let task_contexts = task_contexts.clone();
495 cx.background_spawn(async move {
496 let language_tasks = if let Some(task) = associated_tasks {
497 task.await.map(|templates| {
498 templates
499 .0
500 .into_iter()
501 .flat_map(|task| Some((task_source_kind.clone()?, task)))
502 })
503 } else {
504 None
505 };
506
507 let worktree_tasks = worktree_tasks
508 .into_iter()
509 .chain(language_tasks.into_iter().flatten())
510 .chain(global_tasks);
511
512 let new_resolved_tasks = worktree_tasks
513 .flat_map(|(kind, task)| {
514 let id_base = kind.to_id_base();
515 if let TaskSourceKind::Worktree { id, .. } = &kind {
516 None.or_else(|| {
517 let (_, _, item_context) =
518 task_contexts.active_item_context.as_ref().filter(
519 |(worktree_id, _, _)| Some(id) == worktree_id.as_ref(),
520 )?;
521 task.resolve_task(&id_base, item_context)
522 })
523 .or_else(|| {
524 let (_, worktree_context) = task_contexts
525 .active_worktree_context
526 .as_ref()
527 .filter(|(worktree_id, _)| id == worktree_id)?;
528 task.resolve_task(&id_base, worktree_context)
529 })
530 .or_else(|| {
531 if let TaskSourceKind::Worktree { id, .. } = &kind {
532 let worktree_context = task_contexts
533 .other_worktree_contexts
534 .iter()
535 .find(|(worktree_id, _)| worktree_id == id)
536 .map(|(_, context)| context)?;
537 task.resolve_task(&id_base, worktree_context)
538 } else {
539 None
540 }
541 })
542 } else {
543 None.or_else(|| {
544 let (_, _, item_context) =
545 task_contexts.active_item_context.as_ref()?;
546 task.resolve_task(&id_base, item_context)
547 })
548 .or_else(|| {
549 let (_, worktree_context) =
550 task_contexts.active_worktree_context.as_ref()?;
551 task.resolve_task(&id_base, worktree_context)
552 })
553 }
554 .or_else(|| task.resolve_task(&id_base, &TaskContext::default()))
555 .map(move |resolved_task| (kind.clone(), resolved_task, not_used_score))
556 })
557 .filter(|(_, resolved_task, _)| {
558 match task_labels_to_ids.entry(resolved_task.resolved_label.clone()) {
559 hash_map::Entry::Occupied(mut o) => {
560 // Allow new tasks with the same label, if their context is different
561 o.get_mut().insert(resolved_task.id.clone())
562 }
563 hash_map::Entry::Vacant(v) => {
564 v.insert(HashSet::from_iter(Some(resolved_task.id.clone())));
565 true
566 }
567 }
568 })
569 .sorted_unstable_by(task_lru_comparator)
570 .map(|(kind, task, _)| (kind, task))
571 .collect::<Vec<_>>();
572
573 (previously_spawned_tasks, new_resolved_tasks)
574 })
575 }
576
577 /// Returns the last scheduled task by task_id if provided.
578 /// Otherwise, returns the last scheduled task.
579 pub fn last_scheduled_task(
580 &self,
581 task_id: Option<&TaskId>,
582 ) -> Option<(TaskSourceKind, ResolvedTask)> {
583 if let Some(task_id) = task_id {
584 self.last_scheduled_tasks
585 .iter()
586 .find(|(_, task)| &task.id == task_id)
587 .cloned()
588 } else {
589 self.last_scheduled_tasks.back().cloned()
590 }
591 }
592
593 /// Registers task "usage" as being scheduled – to be used for LRU sorting when listing all tasks.
594 pub fn task_scheduled(
595 &mut self,
596 task_source_kind: TaskSourceKind,
597 resolved_task: ResolvedTask,
598 ) {
599 self.last_scheduled_tasks
600 .push_back((task_source_kind, resolved_task));
601 if self.last_scheduled_tasks.len() > 5_000 {
602 self.last_scheduled_tasks.pop_front();
603 }
604 }
605
606 /// Deletes a resolved task from history, using its id.
607 /// A similar may still resurface in `used_and_current_resolved_tasks` when its [`TaskTemplate`] is resolved again.
608 pub fn delete_previously_used(&mut self, id: &TaskId) {
609 self.last_scheduled_tasks.retain(|(_, task)| &task.id != id);
610 }
611
612 fn global_templates_from_settings(
613 &self,
614 ) -> impl '_ + Iterator<Item = (TaskSourceKind, TaskTemplate)> {
615 self.templates_from_settings.global_scenarios()
616 }
617
618 fn global_debug_scenarios_from_settings(
619 &self,
620 ) -> impl '_ + Iterator<Item = (TaskSourceKind, DebugScenario)> {
621 self.scenarios_from_settings.global_scenarios()
622 }
623
624 fn worktree_scenarios_from_settings(
625 &self,
626 worktree: WorktreeId,
627 ) -> impl '_ + Iterator<Item = (TaskSourceKind, DebugScenario)> {
628 self.scenarios_from_settings.worktree_scenarios(worktree)
629 }
630
631 fn worktree_templates_from_settings(
632 &self,
633 worktree: WorktreeId,
634 ) -> impl '_ + Iterator<Item = (TaskSourceKind, TaskTemplate)> {
635 self.templates_from_settings.worktree_scenarios(worktree)
636 }
637
638 /// Updates in-memory task metadata from the JSON string given.
639 /// Will fail if the JSON is not a valid array of objects, but will continue if any object will not parse into a [`TaskTemplate`].
640 ///
641 /// Global tasks are updated for no worktree provided, otherwise the worktree metadata for a given path will be updated.
642 pub(crate) fn update_file_based_tasks(
643 &mut self,
644 location: TaskSettingsLocation<'_>,
645 raw_tasks_json: Option<&str>,
646 ) -> Result<(), InvalidSettingsError> {
647 let raw_tasks = match parse_json_with_comments::<Vec<serde_json::Value>>(
648 raw_tasks_json.unwrap_or("[]"),
649 ) {
650 Ok(tasks) => tasks,
651 Err(e) => {
652 return Err(InvalidSettingsError::Tasks {
653 path: match location {
654 TaskSettingsLocation::Global(path) => path.to_owned(),
655 TaskSettingsLocation::Worktree(settings_location) => {
656 settings_location.path.as_std_path().join(task_file_name())
657 }
658 },
659 message: format!("Failed to parse tasks file content as a JSON array: {e}"),
660 });
661 }
662 };
663 let new_templates = raw_tasks.into_iter().filter_map(|raw_template| {
664 serde_json::from_value::<TaskTemplate>(raw_template).log_err()
665 });
666
667 let parsed_templates = &mut self.templates_from_settings;
668 match location {
669 TaskSettingsLocation::Global(path) => {
670 parsed_templates
671 .global
672 .entry(path.to_owned())
673 .insert_entry(new_templates.collect());
674 self.last_scheduled_tasks.retain(|(kind, _)| {
675 if let TaskSourceKind::AbsPath { abs_path, .. } = kind {
676 abs_path != path
677 } else {
678 true
679 }
680 });
681 }
682 TaskSettingsLocation::Worktree(location) => {
683 let new_templates = new_templates.collect::<Vec<_>>();
684 if new_templates.is_empty() {
685 if let Some(worktree_tasks) =
686 parsed_templates.worktree.get_mut(&location.worktree_id)
687 {
688 worktree_tasks.remove(location.path);
689 }
690 } else {
691 parsed_templates
692 .worktree
693 .entry(location.worktree_id)
694 .or_default()
695 .insert(Arc::from(location.path), new_templates);
696 }
697 self.last_scheduled_tasks.retain(|(kind, _)| {
698 if let TaskSourceKind::Worktree {
699 directory_in_worktree,
700 id,
701 ..
702 } = kind
703 {
704 *id != location.worktree_id
705 || directory_in_worktree.as_ref() != location.path
706 } else {
707 true
708 }
709 });
710 }
711 }
712
713 Ok(())
714 }
715
716 /// Updates in-memory task metadata from the JSON string given.
717 /// Will fail if the JSON is not a valid array of objects, but will continue if any object will not parse into a [`TaskTemplate`].
718 ///
719 /// Global tasks are updated for no worktree provided, otherwise the worktree metadata for a given path will be updated.
720 pub(crate) fn update_file_based_scenarios(
721 &mut self,
722 location: TaskSettingsLocation<'_>,
723 raw_tasks_json: Option<&str>,
724 ) -> Result<(), InvalidSettingsError> {
725 let raw_tasks = match parse_json_with_comments::<Vec<serde_json::Value>>(
726 raw_tasks_json.unwrap_or("[]"),
727 ) {
728 Ok(tasks) => tasks,
729 Err(e) => {
730 return Err(InvalidSettingsError::Debug {
731 path: match location {
732 TaskSettingsLocation::Global(path) => path.to_owned(),
733 TaskSettingsLocation::Worktree(settings_location) => settings_location
734 .path
735 .as_std_path()
736 .join(debug_task_file_name()),
737 },
738 message: format!("Failed to parse tasks file content as a JSON array: {e}"),
739 });
740 }
741 };
742
743 let new_templates = raw_tasks
744 .into_iter()
745 .filter_map(|raw_template| {
746 serde_json::from_value::<DebugScenario>(raw_template).log_err()
747 })
748 .collect::<Vec<_>>();
749
750 let parsed_scenarios = &mut self.scenarios_from_settings;
751 let mut new_definitions: HashMap<_, _> = new_templates
752 .iter()
753 .map(|template| (template.label.clone(), template.clone()))
754 .collect();
755 let previously_existing_scenarios;
756
757 match location {
758 TaskSettingsLocation::Global(path) => {
759 previously_existing_scenarios = parsed_scenarios
760 .global_scenarios()
761 .map(|(_, scenario)| scenario.label)
762 .collect::<HashSet<_>>();
763 parsed_scenarios
764 .global
765 .entry(path.to_owned())
766 .insert_entry(new_templates);
767 }
768 TaskSettingsLocation::Worktree(location) => {
769 previously_existing_scenarios = parsed_scenarios
770 .worktree_scenarios(location.worktree_id)
771 .map(|(_, scenario)| scenario.label)
772 .collect::<HashSet<_>>();
773
774 if new_templates.is_empty() {
775 if let Some(worktree_tasks) =
776 parsed_scenarios.worktree.get_mut(&location.worktree_id)
777 {
778 worktree_tasks.remove(location.path);
779 }
780 } else {
781 parsed_scenarios
782 .worktree
783 .entry(location.worktree_id)
784 .or_default()
785 .insert(Arc::from(location.path), new_templates);
786 }
787 }
788 }
789 self.last_scheduled_scenarios.retain_mut(|(scenario, _)| {
790 if !previously_existing_scenarios.contains(&scenario.label) {
791 return true;
792 }
793 if let Some(new_definition) = new_definitions.remove(&scenario.label) {
794 *scenario = new_definition;
795 true
796 } else {
797 false
798 }
799 });
800
801 Ok(())
802 }
803}
804
805fn task_lru_comparator(
806 (kind_a, task_a, lru_score_a): &(TaskSourceKind, ResolvedTask, u32),
807 (kind_b, task_b, lru_score_b): &(TaskSourceKind, ResolvedTask, u32),
808) -> cmp::Ordering {
809 lru_score_a
810 // First, display recently used templates above all.
811 .cmp(lru_score_b)
812 // Then, ensure more specific sources are displayed first.
813 .then(task_source_kind_preference(kind_a).cmp(&task_source_kind_preference(kind_b)))
814 // After that, display first more specific tasks, using more template variables.
815 // Bonus points for tasks with symbol variables.
816 .then(task_variables_preference(task_a).cmp(&task_variables_preference(task_b)))
817 // Finally, sort by the resolved label, but a bit more specifically, to avoid mixing letters and digits.
818 .then({
819 NumericPrefixWithSuffix::from_numeric_prefixed_str(&task_a.resolved_label)
820 .cmp(&NumericPrefixWithSuffix::from_numeric_prefixed_str(
821 &task_b.resolved_label,
822 ))
823 .then(task_a.resolved_label.cmp(&task_b.resolved_label))
824 .then(kind_a.cmp(kind_b))
825 })
826}
827
828const fn task_source_kind_preference(kind: &TaskSourceKind) -> u32 {
829 match kind {
830 TaskSourceKind::Lsp { .. } => 0,
831 TaskSourceKind::Language { .. } => 1,
832 TaskSourceKind::UserInput => 2,
833 TaskSourceKind::Worktree { .. } => 3,
834 TaskSourceKind::AbsPath { .. } => 4,
835 }
836}
837
838fn task_variables_preference(task: &ResolvedTask) -> Reverse<usize> {
839 let task_variables = task.substituted_variables();
840 Reverse(if task_variables.contains(&VariableName::Symbol) {
841 task_variables.len() + 1
842 } else {
843 task_variables.len()
844 })
845}
846
847#[cfg(test)]
848mod test_inventory {
849 use gpui::{AppContext as _, Entity, Task, TestAppContext};
850 use itertools::Itertools;
851 use task::TaskContext;
852 use worktree::WorktreeId;
853
854 use crate::Inventory;
855
856 use super::TaskSourceKind;
857
858 pub(super) fn task_template_names(
859 inventory: &Entity<Inventory>,
860 worktree: Option<WorktreeId>,
861 cx: &mut TestAppContext,
862 ) -> Task<Vec<String>> {
863 let new_tasks = inventory.update(cx, |inventory, cx| {
864 inventory.list_tasks(None, None, worktree, cx)
865 });
866 cx.background_spawn(async move {
867 new_tasks
868 .await
869 .into_iter()
870 .map(|(_, task)| task.label)
871 .sorted()
872 .collect()
873 })
874 }
875
876 pub(super) fn register_task_used(
877 inventory: &Entity<Inventory>,
878 task_name: &str,
879 cx: &mut TestAppContext,
880 ) -> Task<()> {
881 let tasks = inventory.update(cx, |inventory, cx| {
882 inventory.list_tasks(None, None, None, cx)
883 });
884
885 let task_name = task_name.to_owned();
886 let inventory = inventory.clone();
887 cx.spawn(|mut cx| async move {
888 let (task_source_kind, task) = tasks
889 .await
890 .into_iter()
891 .find(|(_, task)| task.label == task_name)
892 .unwrap_or_else(|| panic!("Failed to find task with name {task_name}"));
893
894 let id_base = task_source_kind.to_id_base();
895 inventory
896 .update(&mut cx, |inventory, _| {
897 inventory.task_scheduled(
898 task_source_kind.clone(),
899 task.resolve_task(&id_base, &TaskContext::default())
900 .unwrap_or_else(|| {
901 panic!("Failed to resolve task with name {task_name}")
902 }),
903 )
904 })
905 .unwrap();
906 })
907 }
908
909 pub(super) fn register_worktree_task_used(
910 inventory: &Entity<Inventory>,
911 worktree_id: WorktreeId,
912 task_name: &str,
913 cx: &mut TestAppContext,
914 ) -> Task<()> {
915 let tasks = inventory.update(cx, |inventory, cx| {
916 inventory.list_tasks(None, None, Some(worktree_id), cx)
917 });
918
919 let inventory = inventory.clone();
920 let task_name = task_name.to_owned();
921 cx.spawn(|mut cx| async move {
922 let (task_source_kind, task) = tasks
923 .await
924 .into_iter()
925 .find(|(_, task)| task.label == task_name)
926 .unwrap_or_else(|| panic!("Failed to find task with name {task_name}"));
927 let id_base = task_source_kind.to_id_base();
928 inventory
929 .update(&mut cx, |inventory, _| {
930 inventory.task_scheduled(
931 task_source_kind.clone(),
932 task.resolve_task(&id_base, &TaskContext::default())
933 .unwrap_or_else(|| {
934 panic!("Failed to resolve task with name {task_name}")
935 }),
936 );
937 })
938 .unwrap();
939 })
940 }
941
942 pub(super) async fn list_tasks(
943 inventory: &Entity<Inventory>,
944 worktree: Option<WorktreeId>,
945 cx: &mut TestAppContext,
946 ) -> Vec<(TaskSourceKind, String)> {
947 let task_context = &TaskContext::default();
948 inventory
949 .update(cx, |inventory, cx| {
950 inventory.list_tasks(None, None, worktree, cx)
951 })
952 .await
953 .into_iter()
954 .filter_map(|(source_kind, task)| {
955 let id_base = source_kind.to_id_base();
956 Some((source_kind, task.resolve_task(&id_base, task_context)?))
957 })
958 .map(|(source_kind, resolved_task)| (source_kind, resolved_task.resolved_label))
959 .collect()
960 }
961}
962
963/// A context provided that tries to provide values for all non-custom [`VariableName`] variants for a currently opened file.
964/// Applied as a base for every custom [`ContextProvider`] unless explicitly oped out.
965pub struct BasicContextProvider {
966 worktree_store: Entity<WorktreeStore>,
967}
968
969impl BasicContextProvider {
970 pub const fn new(worktree_store: Entity<WorktreeStore>) -> Self {
971 Self { worktree_store }
972 }
973}
974
975impl ContextProvider for BasicContextProvider {
976 fn build_context(
977 &self,
978 _: &TaskVariables,
979 location: ContextLocation<'_>,
980 _: Option<HashMap<String, String>>,
981 _: Arc<dyn LanguageToolchainStore>,
982 cx: &mut App,
983 ) -> Task<Result<TaskVariables>> {
984 let location = location.file_location;
985 let buffer = location.buffer.read(cx);
986 let buffer_snapshot = buffer.snapshot();
987 let symbols = buffer_snapshot.symbols_containing(location.range.start, None);
988 let symbol = symbols.last().map(|symbol| {
989 let range = symbol
990 .name_ranges
991 .last()
992 .cloned()
993 .unwrap_or(0..symbol.text.len());
994 symbol.text[range].to_string()
995 });
996
997 let current_file = buffer.file().and_then(|file| file.as_local());
998 let Point { row, column } = location.range.start.to_point(&buffer_snapshot);
999 let row = row + 1;
1000 let column = column + 1;
1001 let selected_text = buffer
1002 .chars_for_range(location.range.clone())
1003 .collect::<String>();
1004
1005 let mut task_variables = TaskVariables::from_iter([
1006 (VariableName::Row, row.to_string()),
1007 (VariableName::Column, column.to_string()),
1008 ]);
1009
1010 if let Some(symbol) = symbol {
1011 task_variables.insert(VariableName::Symbol, symbol);
1012 }
1013 if !selected_text.trim().is_empty() {
1014 task_variables.insert(VariableName::SelectedText, selected_text);
1015 }
1016 let worktree = buffer
1017 .file()
1018 .map(|file| file.worktree_id(cx))
1019 .and_then(|worktree_id| {
1020 self.worktree_store
1021 .read(cx)
1022 .worktree_for_id(worktree_id, cx)
1023 });
1024
1025 if let Some(worktree) = worktree {
1026 let worktree = worktree.read(cx);
1027 let path_style = worktree.path_style();
1028 task_variables.insert(
1029 VariableName::WorktreeRoot,
1030 worktree.abs_path().to_string_lossy().into_owned(),
1031 );
1032 if let Some(current_file) = current_file.as_ref() {
1033 let relative_path = current_file.path();
1034 task_variables.insert(
1035 VariableName::RelativeFile,
1036 relative_path.display(path_style).to_string(),
1037 );
1038 if let Some(relative_dir) = relative_path.parent() {
1039 task_variables.insert(
1040 VariableName::RelativeDir,
1041 if relative_dir.is_empty() {
1042 String::from(".")
1043 } else {
1044 relative_dir.display(path_style).to_string()
1045 },
1046 );
1047 }
1048 }
1049 }
1050
1051 if let Some(current_file) = current_file {
1052 let path = current_file.abs_path(cx);
1053 if let Some(filename) = path.file_name().and_then(|f| f.to_str()) {
1054 task_variables.insert(VariableName::Filename, String::from(filename));
1055 }
1056
1057 if let Some(stem) = path.file_stem().and_then(|s| s.to_str()) {
1058 task_variables.insert(VariableName::Stem, stem.into());
1059 }
1060
1061 if let Some(dirname) = path.parent().and_then(|s| s.to_str()) {
1062 task_variables.insert(VariableName::Dirname, dirname.into());
1063 }
1064
1065 task_variables.insert(VariableName::File, path.to_string_lossy().into_owned());
1066 }
1067
1068 Task::ready(Ok(task_variables))
1069 }
1070}
1071
1072/// A ContextProvider that doesn't provide any task variables on it's own, though it has some associated tasks.
1073pub struct ContextProviderWithTasks {
1074 templates: TaskTemplates,
1075}
1076
1077impl ContextProviderWithTasks {
1078 pub const fn new(definitions: TaskTemplates) -> Self {
1079 Self {
1080 templates: definitions,
1081 }
1082 }
1083}
1084
1085impl ContextProvider for ContextProviderWithTasks {
1086 fn associated_tasks(&self, _: Option<Arc<dyn File>>, _: &App) -> Task<Option<TaskTemplates>> {
1087 Task::ready(Some(self.templates.clone()))
1088 }
1089}
1090
1091#[cfg(test)]
1092mod tests {
1093 use gpui::TestAppContext;
1094 use paths::tasks_file;
1095 use pretty_assertions::assert_eq;
1096 use serde_json::json;
1097 use settings::SettingsLocation;
1098 use std::path::Path;
1099 use util::rel_path::rel_path;
1100
1101 use crate::task_store::TaskStore;
1102
1103 use super::test_inventory::*;
1104 use super::*;
1105
1106 #[gpui::test]
1107 async fn test_task_list_sorting(cx: &mut TestAppContext) {
1108 init_test(cx);
1109 let inventory = cx.update(|cx| Inventory::new(cx));
1110 let initial_tasks = resolved_task_names(&inventory, None, cx).await;
1111 assert!(
1112 initial_tasks.is_empty(),
1113 "No tasks expected for empty inventory, but got {initial_tasks:?}"
1114 );
1115 let initial_tasks = task_template_names(&inventory, None, cx).await;
1116 assert!(
1117 initial_tasks.is_empty(),
1118 "No tasks expected for empty inventory, but got {initial_tasks:?}"
1119 );
1120 cx.run_until_parked();
1121 let expected_initial_state = [
1122 "1_a_task".to_string(),
1123 "1_task".to_string(),
1124 "2_task".to_string(),
1125 "3_task".to_string(),
1126 ];
1127
1128 inventory.update(cx, |inventory, _| {
1129 inventory
1130 .update_file_based_tasks(
1131 TaskSettingsLocation::Global(tasks_file()),
1132 Some(&mock_tasks_from_names(
1133 expected_initial_state.iter().map(|name| name.as_str()),
1134 )),
1135 )
1136 .unwrap();
1137 });
1138 assert_eq!(
1139 task_template_names(&inventory, None, cx).await,
1140 &expected_initial_state,
1141 );
1142 assert_eq!(
1143 resolved_task_names(&inventory, None, cx).await,
1144 &expected_initial_state,
1145 "Tasks with equal amount of usages should be sorted alphanumerically"
1146 );
1147
1148 register_task_used(&inventory, "2_task", cx).await;
1149 assert_eq!(
1150 task_template_names(&inventory, None, cx).await,
1151 &expected_initial_state,
1152 );
1153 assert_eq!(
1154 resolved_task_names(&inventory, None, cx).await,
1155 vec![
1156 "2_task".to_string(),
1157 "1_a_task".to_string(),
1158 "1_task".to_string(),
1159 "3_task".to_string()
1160 ],
1161 );
1162
1163 register_task_used(&inventory, "1_task", cx).await;
1164 register_task_used(&inventory, "1_task", cx).await;
1165 register_task_used(&inventory, "1_task", cx).await;
1166 register_task_used(&inventory, "3_task", cx).await;
1167 assert_eq!(
1168 task_template_names(&inventory, None, cx).await,
1169 &expected_initial_state,
1170 );
1171 assert_eq!(
1172 resolved_task_names(&inventory, None, cx).await,
1173 vec![
1174 "3_task".to_string(),
1175 "1_task".to_string(),
1176 "2_task".to_string(),
1177 "1_a_task".to_string(),
1178 ],
1179 "Most recently used task should be at the top"
1180 );
1181
1182 let worktree_id = WorktreeId::from_usize(0);
1183 let local_worktree_location = SettingsLocation {
1184 worktree_id,
1185 path: rel_path("foo"),
1186 };
1187 inventory.update(cx, |inventory, _| {
1188 inventory
1189 .update_file_based_tasks(
1190 TaskSettingsLocation::Worktree(local_worktree_location),
1191 Some(&mock_tasks_from_names(["worktree_task_1"])),
1192 )
1193 .unwrap();
1194 });
1195 assert_eq!(
1196 resolved_task_names(&inventory, None, cx).await,
1197 vec![
1198 "3_task".to_string(),
1199 "1_task".to_string(),
1200 "2_task".to_string(),
1201 "1_a_task".to_string(),
1202 ],
1203 "Most recently used task should be at the top"
1204 );
1205 assert_eq!(
1206 resolved_task_names(&inventory, Some(worktree_id), cx).await,
1207 vec![
1208 "3_task".to_string(),
1209 "1_task".to_string(),
1210 "2_task".to_string(),
1211 "worktree_task_1".to_string(),
1212 "1_a_task".to_string(),
1213 ],
1214 );
1215 register_worktree_task_used(&inventory, worktree_id, "worktree_task_1", cx).await;
1216 assert_eq!(
1217 resolved_task_names(&inventory, Some(worktree_id), cx).await,
1218 vec![
1219 "worktree_task_1".to_string(),
1220 "3_task".to_string(),
1221 "1_task".to_string(),
1222 "2_task".to_string(),
1223 "1_a_task".to_string(),
1224 ],
1225 "Most recently used worktree task should be at the top"
1226 );
1227
1228 inventory.update(cx, |inventory, _| {
1229 inventory
1230 .update_file_based_tasks(
1231 TaskSettingsLocation::Global(tasks_file()),
1232 Some(&mock_tasks_from_names(
1233 ["10_hello", "11_hello"]
1234 .into_iter()
1235 .chain(expected_initial_state.iter().map(|name| name.as_str())),
1236 )),
1237 )
1238 .unwrap();
1239 });
1240 cx.run_until_parked();
1241 let expected_updated_state = [
1242 "10_hello".to_string(),
1243 "11_hello".to_string(),
1244 "1_a_task".to_string(),
1245 "1_task".to_string(),
1246 "2_task".to_string(),
1247 "3_task".to_string(),
1248 ];
1249 assert_eq!(
1250 task_template_names(&inventory, None, cx).await,
1251 &expected_updated_state,
1252 );
1253 assert_eq!(
1254 resolved_task_names(&inventory, None, cx).await,
1255 vec![
1256 "worktree_task_1".to_string(),
1257 "1_a_task".to_string(),
1258 "1_task".to_string(),
1259 "2_task".to_string(),
1260 "3_task".to_string(),
1261 "10_hello".to_string(),
1262 "11_hello".to_string(),
1263 ],
1264 "After global tasks update, worktree task usage is not erased and it's the first still; global task is back to regular order as its file was updated"
1265 );
1266
1267 register_task_used(&inventory, "11_hello", cx).await;
1268 assert_eq!(
1269 task_template_names(&inventory, None, cx).await,
1270 &expected_updated_state,
1271 );
1272 assert_eq!(
1273 resolved_task_names(&inventory, None, cx).await,
1274 vec![
1275 "11_hello".to_string(),
1276 "worktree_task_1".to_string(),
1277 "1_a_task".to_string(),
1278 "1_task".to_string(),
1279 "2_task".to_string(),
1280 "3_task".to_string(),
1281 "10_hello".to_string(),
1282 ],
1283 );
1284 }
1285
1286 #[gpui::test]
1287 async fn test_reloading_debug_scenarios(cx: &mut TestAppContext) {
1288 init_test(cx);
1289 let inventory = cx.update(|cx| Inventory::new(cx));
1290 inventory.update(cx, |inventory, _| {
1291 inventory
1292 .update_file_based_scenarios(
1293 TaskSettingsLocation::Global(Path::new("")),
1294 Some(
1295 r#"
1296 [{
1297 "label": "test scenario",
1298 "adapter": "CodeLLDB",
1299 "request": "launch",
1300 "program": "wowzer",
1301 }]
1302 "#,
1303 ),
1304 )
1305 .unwrap();
1306 });
1307
1308 let (_, scenario) = inventory
1309 .update(cx, |this, cx| {
1310 this.list_debug_scenarios(&TaskContexts::default(), vec![], vec![], false, cx)
1311 })
1312 .await
1313 .1
1314 .first()
1315 .unwrap()
1316 .clone();
1317
1318 inventory.update(cx, |this, _| {
1319 this.scenario_scheduled(scenario.clone(), TaskContext::default(), None, None);
1320 });
1321
1322 assert_eq!(
1323 inventory
1324 .update(cx, |this, cx| {
1325 this.list_debug_scenarios(&TaskContexts::default(), vec![], vec![], false, cx)
1326 })
1327 .await
1328 .0
1329 .first()
1330 .unwrap()
1331 .clone()
1332 .0,
1333 scenario
1334 );
1335
1336 inventory.update(cx, |this, _| {
1337 this.update_file_based_scenarios(
1338 TaskSettingsLocation::Global(Path::new("")),
1339 Some(
1340 r#"
1341 [{
1342 "label": "test scenario",
1343 "adapter": "Delve",
1344 "request": "launch",
1345 "program": "wowzer",
1346 }]
1347 "#,
1348 ),
1349 )
1350 .unwrap();
1351 });
1352
1353 assert_eq!(
1354 inventory
1355 .update(cx, |this, cx| {
1356 this.list_debug_scenarios(&TaskContexts::default(), vec![], vec![], false, cx)
1357 })
1358 .await
1359 .0
1360 .first()
1361 .unwrap()
1362 .0
1363 .adapter,
1364 "Delve",
1365 );
1366
1367 inventory.update(cx, |this, _| {
1368 this.update_file_based_scenarios(
1369 TaskSettingsLocation::Global(Path::new("")),
1370 Some(
1371 r#"
1372 [{
1373 "label": "testing scenario",
1374 "adapter": "Delve",
1375 "request": "launch",
1376 "program": "wowzer",
1377 }]
1378 "#,
1379 ),
1380 )
1381 .unwrap();
1382 });
1383
1384 assert!(
1385 inventory
1386 .update(cx, |this, cx| {
1387 this.list_debug_scenarios(&TaskContexts::default(), vec![], vec![], false, cx)
1388 })
1389 .await
1390 .0
1391 .is_empty(),
1392 );
1393 }
1394
1395 #[gpui::test]
1396 async fn test_inventory_static_task_filters(cx: &mut TestAppContext) {
1397 init_test(cx);
1398 let inventory = cx.update(|cx| Inventory::new(cx));
1399 let common_name = "common_task_name";
1400 let worktree_1 = WorktreeId::from_usize(1);
1401 let worktree_2 = WorktreeId::from_usize(2);
1402
1403 cx.run_until_parked();
1404 let worktree_independent_tasks = vec![
1405 (
1406 TaskSourceKind::AbsPath {
1407 id_base: "global tasks.json".into(),
1408 abs_path: paths::tasks_file().clone(),
1409 },
1410 common_name.to_string(),
1411 ),
1412 (
1413 TaskSourceKind::AbsPath {
1414 id_base: "global tasks.json".into(),
1415 abs_path: paths::tasks_file().clone(),
1416 },
1417 "static_source_1".to_string(),
1418 ),
1419 (
1420 TaskSourceKind::AbsPath {
1421 id_base: "global tasks.json".into(),
1422 abs_path: paths::tasks_file().clone(),
1423 },
1424 "static_source_2".to_string(),
1425 ),
1426 ];
1427 let worktree_1_tasks = [
1428 (
1429 TaskSourceKind::Worktree {
1430 id: worktree_1,
1431 directory_in_worktree: rel_path(".zed").into(),
1432 id_base: "local worktree tasks from directory \".zed\"".into(),
1433 },
1434 common_name.to_string(),
1435 ),
1436 (
1437 TaskSourceKind::Worktree {
1438 id: worktree_1,
1439 directory_in_worktree: rel_path(".zed").into(),
1440 id_base: "local worktree tasks from directory \".zed\"".into(),
1441 },
1442 "worktree_1".to_string(),
1443 ),
1444 ];
1445 let worktree_2_tasks = [
1446 (
1447 TaskSourceKind::Worktree {
1448 id: worktree_2,
1449 directory_in_worktree: rel_path(".zed").into(),
1450 id_base: "local worktree tasks from directory \".zed\"".into(),
1451 },
1452 common_name.to_string(),
1453 ),
1454 (
1455 TaskSourceKind::Worktree {
1456 id: worktree_2,
1457 directory_in_worktree: rel_path(".zed").into(),
1458 id_base: "local worktree tasks from directory \".zed\"".into(),
1459 },
1460 "worktree_2".to_string(),
1461 ),
1462 ];
1463
1464 inventory.update(cx, |inventory, _| {
1465 inventory
1466 .update_file_based_tasks(
1467 TaskSettingsLocation::Global(tasks_file()),
1468 Some(&mock_tasks_from_names(
1469 worktree_independent_tasks
1470 .iter()
1471 .map(|(_, name)| name.as_str()),
1472 )),
1473 )
1474 .unwrap();
1475 inventory
1476 .update_file_based_tasks(
1477 TaskSettingsLocation::Worktree(SettingsLocation {
1478 worktree_id: worktree_1,
1479 path: rel_path(".zed"),
1480 }),
1481 Some(&mock_tasks_from_names(
1482 worktree_1_tasks.iter().map(|(_, name)| name.as_str()),
1483 )),
1484 )
1485 .unwrap();
1486 inventory
1487 .update_file_based_tasks(
1488 TaskSettingsLocation::Worktree(SettingsLocation {
1489 worktree_id: worktree_2,
1490 path: rel_path(".zed"),
1491 }),
1492 Some(&mock_tasks_from_names(
1493 worktree_2_tasks.iter().map(|(_, name)| name.as_str()),
1494 )),
1495 )
1496 .unwrap();
1497 });
1498
1499 assert_eq!(
1500 list_tasks_sorted_by_last_used(&inventory, None, cx).await,
1501 worktree_independent_tasks,
1502 "Without a worktree, only worktree-independent tasks should be listed"
1503 );
1504 assert_eq!(
1505 list_tasks_sorted_by_last_used(&inventory, Some(worktree_1), cx).await,
1506 worktree_1_tasks
1507 .iter()
1508 .chain(worktree_independent_tasks.iter())
1509 .cloned()
1510 .sorted_by_key(|(kind, label)| (task_source_kind_preference(kind), label.clone()))
1511 .collect::<Vec<_>>(),
1512 );
1513 assert_eq!(
1514 list_tasks_sorted_by_last_used(&inventory, Some(worktree_2), cx).await,
1515 worktree_2_tasks
1516 .iter()
1517 .chain(worktree_independent_tasks.iter())
1518 .cloned()
1519 .sorted_by_key(|(kind, label)| (task_source_kind_preference(kind), label.clone()))
1520 .collect::<Vec<_>>(),
1521 );
1522
1523 assert_eq!(
1524 list_tasks(&inventory, None, cx).await,
1525 worktree_independent_tasks,
1526 "Without a worktree, only worktree-independent tasks should be listed"
1527 );
1528 assert_eq!(
1529 list_tasks(&inventory, Some(worktree_1), cx).await,
1530 worktree_1_tasks
1531 .iter()
1532 .chain(worktree_independent_tasks.iter())
1533 .cloned()
1534 .collect::<Vec<_>>(),
1535 );
1536 assert_eq!(
1537 list_tasks(&inventory, Some(worktree_2), cx).await,
1538 worktree_2_tasks
1539 .iter()
1540 .chain(worktree_independent_tasks.iter())
1541 .cloned()
1542 .collect::<Vec<_>>(),
1543 );
1544 }
1545
1546 fn init_test(_cx: &mut TestAppContext) {
1547 zlog::init_test();
1548 TaskStore::init(None);
1549 }
1550
1551 fn resolved_task_names(
1552 inventory: &Entity<Inventory>,
1553 worktree: Option<WorktreeId>,
1554 cx: &mut TestAppContext,
1555 ) -> Task<Vec<String>> {
1556 let tasks = inventory.update(cx, |inventory, cx| {
1557 let mut task_contexts = TaskContexts::default();
1558 task_contexts.active_worktree_context =
1559 worktree.map(|worktree| (worktree, TaskContext::default()));
1560
1561 inventory.used_and_current_resolved_tasks(Arc::new(task_contexts), cx)
1562 });
1563
1564 cx.background_spawn(async move {
1565 let (used, current) = tasks.await;
1566 used.into_iter()
1567 .chain(current)
1568 .map(|(_, task)| task.original_task().label.clone())
1569 .collect()
1570 })
1571 }
1572
1573 fn mock_tasks_from_names<'a>(task_names: impl IntoIterator<Item = &'a str> + 'a) -> String {
1574 serde_json::to_string(&serde_json::Value::Array(
1575 task_names
1576 .into_iter()
1577 .map(|task_name| {
1578 json!({
1579 "label": task_name,
1580 "command": "echo",
1581 "args": vec![task_name],
1582 })
1583 })
1584 .collect::<Vec<_>>(),
1585 ))
1586 .unwrap()
1587 }
1588
1589 async fn list_tasks_sorted_by_last_used(
1590 inventory: &Entity<Inventory>,
1591 worktree: Option<WorktreeId>,
1592 cx: &mut TestAppContext,
1593 ) -> Vec<(TaskSourceKind, String)> {
1594 let (used, current) = inventory
1595 .update(cx, |inventory, cx| {
1596 let mut task_contexts = TaskContexts::default();
1597 task_contexts.active_worktree_context =
1598 worktree.map(|worktree| (worktree, TaskContext::default()));
1599
1600 inventory.used_and_current_resolved_tasks(Arc::new(task_contexts), cx)
1601 })
1602 .await;
1603 let mut all = used;
1604 all.extend(current);
1605 all.into_iter()
1606 .map(|(source_kind, task)| (source_kind, task.resolved_label))
1607 .sorted_by_key(|(kind, label)| (task_source_kind_preference(kind), label.clone()))
1608 .collect()
1609 }
1610}