1mod persistence;
2pub mod terminal_element;
3
4use std::{
5 ops::RangeInclusive,
6 path::{Path, PathBuf},
7 time::Duration,
8};
9
10use context_menu::{ContextMenu, ContextMenuItem};
11use dirs::home_dir;
12use gpui::{
13 actions,
14 elements::{AnchorCorner, ChildView, Flex, Label, ParentElement, Stack, Text},
15 geometry::vector::Vector2F,
16 impl_actions, impl_internal_actions,
17 keymap_matcher::{KeymapContext, Keystroke},
18 AnyViewHandle, AppContext, Element, ElementBox, Entity, ModelHandle, MutableAppContext, Task,
19 View, ViewContext, ViewHandle, WeakViewHandle,
20};
21use project::{LocalWorktree, Project};
22use serde::Deserialize;
23use settings::{Settings, TerminalBlink, WorkingDirectory};
24use smallvec::{smallvec, SmallVec};
25use smol::Timer;
26use terminal::{
27 alacritty_terminal::{
28 index::Point,
29 term::{search::RegexSearch, TermMode},
30 },
31 Event, Terminal,
32};
33use util::{truncate_and_trailoff, ResultExt};
34use workspace::{
35 item::{Item, ItemEvent},
36 notifications::NotifyResultExt,
37 pane, register_deserializable_item,
38 searchable::{SearchEvent, SearchOptions, SearchableItem, SearchableItemHandle},
39 Pane, ToolbarItemLocation, Workspace, WorkspaceId,
40};
41
42use crate::{persistence::TERMINAL_DB, terminal_element::TerminalElement};
43
44const CURSOR_BLINK_INTERVAL: Duration = Duration::from_millis(500);
45
46///Event to transmit the scroll from the element to the view
47#[derive(Clone, Debug, PartialEq)]
48pub struct ScrollTerminal(pub i32);
49
50#[derive(Clone, PartialEq)]
51pub struct DeployContextMenu {
52 pub position: Vector2F,
53}
54
55#[derive(Clone, Default, Deserialize, PartialEq)]
56pub struct SendText(String);
57
58#[derive(Clone, Default, Deserialize, PartialEq)]
59pub struct SendKeystroke(String);
60
61actions!(
62 terminal,
63 [Clear, Copy, Paste, ShowCharacterPalette, SearchTest]
64);
65
66impl_actions!(terminal, [SendText, SendKeystroke]);
67
68impl_internal_actions!(project_panel, [DeployContextMenu]);
69
70pub fn init(cx: &mut MutableAppContext) {
71 cx.add_action(TerminalView::deploy);
72
73 register_deserializable_item::<TerminalView>(cx);
74
75 //Useful terminal views
76 cx.add_action(TerminalView::send_text);
77 cx.add_action(TerminalView::send_keystroke);
78 cx.add_action(TerminalView::deploy_context_menu);
79 cx.add_action(TerminalView::copy);
80 cx.add_action(TerminalView::paste);
81 cx.add_action(TerminalView::clear);
82 cx.add_action(TerminalView::show_character_palette);
83}
84
85///A terminal view, maintains the PTY's file handles and communicates with the terminal
86pub struct TerminalView {
87 terminal: ModelHandle<Terminal>,
88 has_new_content: bool,
89 //Currently using iTerm bell, show bell emoji in tab until input is received
90 has_bell: bool,
91 context_menu: ViewHandle<ContextMenu>,
92 blink_state: bool,
93 blinking_on: bool,
94 blinking_paused: bool,
95 blink_epoch: usize,
96 workspace_id: WorkspaceId,
97}
98
99impl Entity for TerminalView {
100 type Event = Event;
101}
102
103impl TerminalView {
104 ///Create a new Terminal in the current working directory or the user's home directory
105 pub fn deploy(
106 workspace: &mut Workspace,
107 _: &workspace::NewTerminal,
108 cx: &mut ViewContext<Workspace>,
109 ) {
110 let strategy = cx.global::<Settings>().terminal_strategy();
111
112 let working_directory = get_working_directory(workspace, cx, strategy);
113
114 let window_id = cx.window_id();
115 let terminal = workspace
116 .project()
117 .update(cx, |project, cx| {
118 project.create_terminal(working_directory, window_id, cx)
119 })
120 .notify_err(workspace, cx);
121
122 if let Some(terminal) = terminal {
123 let view = cx.add_view(|cx| TerminalView::new(terminal, workspace.database_id(), cx));
124 workspace.add_item(Box::new(view), cx)
125 }
126 }
127
128 pub fn new(
129 terminal: ModelHandle<Terminal>,
130 workspace_id: WorkspaceId,
131 cx: &mut ViewContext<Self>,
132 ) -> Self {
133 cx.observe(&terminal, |_, _, cx| cx.notify()).detach();
134 cx.subscribe(&terminal, |this, _, event, cx| match event {
135 Event::Wakeup => {
136 if !cx.is_self_focused() {
137 this.has_new_content = true;
138 cx.notify();
139 }
140 cx.emit(Event::Wakeup);
141 }
142 Event::Bell => {
143 this.has_bell = true;
144 cx.emit(Event::Wakeup);
145 }
146 Event::BlinkChanged => this.blinking_on = !this.blinking_on,
147 Event::TitleChanged => {
148 if let Some(foreground_info) = &this.terminal().read(cx).foreground_process_info {
149 let cwd = foreground_info.cwd.clone();
150
151 let item_id = cx.view_id();
152 let workspace_id = this.workspace_id;
153 cx.background()
154 .spawn(async move {
155 TERMINAL_DB
156 .save_working_directory(item_id, workspace_id, cwd)
157 .await
158 .log_err();
159 })
160 .detach();
161 }
162 }
163 _ => cx.emit(*event),
164 })
165 .detach();
166
167 Self {
168 terminal,
169 has_new_content: true,
170 has_bell: false,
171 context_menu: cx.add_view(ContextMenu::new),
172 blink_state: true,
173 blinking_on: false,
174 blinking_paused: false,
175 blink_epoch: 0,
176 workspace_id,
177 }
178 }
179
180 pub fn handle(&self) -> ModelHandle<Terminal> {
181 self.terminal.clone()
182 }
183
184 pub fn has_new_content(&self) -> bool {
185 self.has_new_content
186 }
187
188 pub fn has_bell(&self) -> bool {
189 self.has_bell
190 }
191
192 pub fn clear_bel(&mut self, cx: &mut ViewContext<TerminalView>) {
193 self.has_bell = false;
194 cx.emit(Event::Wakeup);
195 }
196
197 pub fn deploy_context_menu(&mut self, action: &DeployContextMenu, cx: &mut ViewContext<Self>) {
198 let menu_entries = vec![
199 ContextMenuItem::item("Clear", Clear),
200 ContextMenuItem::item("Close", pane::CloseActiveItem),
201 ];
202
203 self.context_menu.update(cx, |menu, cx| {
204 menu.show(action.position, AnchorCorner::TopLeft, menu_entries, cx)
205 });
206
207 cx.notify();
208 }
209
210 fn show_character_palette(&mut self, _: &ShowCharacterPalette, cx: &mut ViewContext<Self>) {
211 if !self
212 .terminal
213 .read(cx)
214 .last_content
215 .mode
216 .contains(TermMode::ALT_SCREEN)
217 {
218 cx.show_character_palette();
219 } else {
220 self.terminal.update(cx, |term, cx| {
221 term.try_keystroke(
222 &Keystroke::parse("ctrl-cmd-space").unwrap(),
223 cx.global::<Settings>()
224 .terminal_overrides
225 .option_as_meta
226 .unwrap_or(false),
227 )
228 });
229 }
230 }
231
232 fn clear(&mut self, _: &Clear, cx: &mut ViewContext<Self>) {
233 self.terminal.update(cx, |term, _| term.clear());
234 cx.notify();
235 }
236
237 pub fn should_show_cursor(
238 &self,
239 focused: bool,
240 cx: &mut gpui::RenderContext<'_, Self>,
241 ) -> bool {
242 //Don't blink the cursor when not focused, blinking is disabled, or paused
243 if !focused
244 || !self.blinking_on
245 || self.blinking_paused
246 || self
247 .terminal
248 .read(cx)
249 .last_content
250 .mode
251 .contains(TermMode::ALT_SCREEN)
252 {
253 return true;
254 }
255
256 let setting = {
257 let settings = cx.global::<Settings>();
258 settings
259 .terminal_overrides
260 .blinking
261 .clone()
262 .unwrap_or(TerminalBlink::TerminalControlled)
263 };
264
265 match setting {
266 //If the user requested to never blink, don't blink it.
267 TerminalBlink::Off => true,
268 //If the terminal is controlling it, check terminal mode
269 TerminalBlink::TerminalControlled | TerminalBlink::On => self.blink_state,
270 }
271 }
272
273 fn blink_cursors(&mut self, epoch: usize, cx: &mut ViewContext<Self>) {
274 if epoch == self.blink_epoch && !self.blinking_paused {
275 self.blink_state = !self.blink_state;
276 cx.notify();
277
278 let epoch = self.next_blink_epoch();
279 cx.spawn(|this, mut cx| {
280 let this = this.downgrade();
281 async move {
282 Timer::after(CURSOR_BLINK_INTERVAL).await;
283 if let Some(this) = this.upgrade(&cx) {
284 this.update(&mut cx, |this, cx| this.blink_cursors(epoch, cx));
285 }
286 }
287 })
288 .detach();
289 }
290 }
291
292 pub fn pause_cursor_blinking(&mut self, cx: &mut ViewContext<Self>) {
293 self.blink_state = true;
294 cx.notify();
295
296 let epoch = self.next_blink_epoch();
297 cx.spawn(|this, mut cx| {
298 let this = this.downgrade();
299 async move {
300 Timer::after(CURSOR_BLINK_INTERVAL).await;
301 if let Some(this) = this.upgrade(&cx) {
302 this.update(&mut cx, |this, cx| this.resume_cursor_blinking(epoch, cx))
303 }
304 }
305 })
306 .detach();
307 }
308
309 pub fn find_matches(
310 &mut self,
311 query: project::search::SearchQuery,
312 cx: &mut ViewContext<Self>,
313 ) -> Task<Vec<RangeInclusive<Point>>> {
314 let searcher = regex_search_for_query(query);
315
316 if let Some(searcher) = searcher {
317 self.terminal
318 .update(cx, |term, cx| term.find_matches(searcher, cx))
319 } else {
320 cx.background().spawn(async { Vec::new() })
321 }
322 }
323
324 pub fn terminal(&self) -> &ModelHandle<Terminal> {
325 &self.terminal
326 }
327
328 fn next_blink_epoch(&mut self) -> usize {
329 self.blink_epoch += 1;
330 self.blink_epoch
331 }
332
333 fn resume_cursor_blinking(&mut self, epoch: usize, cx: &mut ViewContext<Self>) {
334 if epoch == self.blink_epoch {
335 self.blinking_paused = false;
336 self.blink_cursors(epoch, cx);
337 }
338 }
339
340 ///Attempt to paste the clipboard into the terminal
341 fn copy(&mut self, _: &Copy, cx: &mut ViewContext<Self>) {
342 self.terminal.update(cx, |term, _| term.copy())
343 }
344
345 ///Attempt to paste the clipboard into the terminal
346 fn paste(&mut self, _: &Paste, cx: &mut ViewContext<Self>) {
347 if let Some(item) = cx.read_from_clipboard() {
348 self.terminal
349 .update(cx, |terminal, _cx| terminal.paste(item.text()));
350 }
351 }
352
353 fn send_text(&mut self, text: &SendText, cx: &mut ViewContext<Self>) {
354 self.clear_bel(cx);
355 self.terminal.update(cx, |term, _| {
356 term.input(text.0.to_string());
357 });
358 }
359
360 fn send_keystroke(&mut self, text: &SendKeystroke, cx: &mut ViewContext<Self>) {
361 if let Some(keystroke) = Keystroke::parse(&text.0).log_err() {
362 self.clear_bel(cx);
363 self.terminal.update(cx, |term, cx| {
364 term.try_keystroke(
365 &keystroke,
366 cx.global::<Settings>()
367 .terminal_overrides
368 .option_as_meta
369 .unwrap_or(false),
370 );
371 });
372 }
373 }
374}
375
376pub fn regex_search_for_query(query: project::search::SearchQuery) -> Option<RegexSearch> {
377 let searcher = match query {
378 project::search::SearchQuery::Text { query, .. } => RegexSearch::new(&query),
379 project::search::SearchQuery::Regex { query, .. } => RegexSearch::new(&query),
380 };
381 searcher.ok()
382}
383
384impl View for TerminalView {
385 fn ui_name() -> &'static str {
386 "Terminal"
387 }
388
389 fn render(&mut self, cx: &mut gpui::RenderContext<'_, Self>) -> ElementBox {
390 let terminal_handle = self.terminal.clone().downgrade();
391
392 let self_id = cx.view_id();
393 let focused = cx
394 .focused_view_id(cx.window_id())
395 .filter(|view_id| *view_id == self_id)
396 .is_some();
397
398 Stack::new()
399 .with_child(
400 TerminalElement::new(
401 cx.handle(),
402 terminal_handle,
403 focused,
404 self.should_show_cursor(focused, cx),
405 )
406 .contained()
407 .boxed(),
408 )
409 .with_child(ChildView::new(&self.context_menu, cx).boxed())
410 .boxed()
411 }
412
413 fn focus_in(&mut self, _: AnyViewHandle, cx: &mut ViewContext<Self>) {
414 self.has_new_content = false;
415 self.terminal.read(cx).focus_in();
416 self.blink_cursors(self.blink_epoch, cx);
417 cx.notify();
418 }
419
420 fn focus_out(&mut self, _: AnyViewHandle, cx: &mut ViewContext<Self>) {
421 self.terminal.update(cx, |terminal, _| {
422 terminal.focus_out();
423 });
424 cx.notify();
425 }
426
427 fn key_down(&mut self, event: &gpui::KeyDownEvent, cx: &mut ViewContext<Self>) -> bool {
428 self.clear_bel(cx);
429 self.pause_cursor_blinking(cx);
430
431 self.terminal.update(cx, |term, cx| {
432 term.try_keystroke(
433 &event.keystroke,
434 cx.global::<Settings>()
435 .terminal_overrides
436 .option_as_meta
437 .unwrap_or(false),
438 )
439 })
440 }
441
442 //IME stuff
443 fn selected_text_range(&self, cx: &AppContext) -> Option<std::ops::Range<usize>> {
444 if self
445 .terminal
446 .read(cx)
447 .last_content
448 .mode
449 .contains(TermMode::ALT_SCREEN)
450 {
451 None
452 } else {
453 Some(0..0)
454 }
455 }
456
457 fn replace_text_in_range(
458 &mut self,
459 _: Option<std::ops::Range<usize>>,
460 text: &str,
461 cx: &mut ViewContext<Self>,
462 ) {
463 self.terminal.update(cx, |terminal, _| {
464 terminal.input(text.into());
465 });
466 }
467
468 fn keymap_context(&self, cx: &gpui::AppContext) -> KeymapContext {
469 let mut context = Self::default_keymap_context();
470
471 let mode = self.terminal.read(cx).last_content.mode;
472 context.add_key(
473 "screen",
474 if mode.contains(TermMode::ALT_SCREEN) {
475 "alt"
476 } else {
477 "normal"
478 },
479 );
480
481 if mode.contains(TermMode::APP_CURSOR) {
482 context.add_identifier("DECCKM");
483 }
484 if mode.contains(TermMode::APP_KEYPAD) {
485 context.add_identifier("DECPAM");
486 } else {
487 context.add_identifier("DECPNM");
488 }
489 if mode.contains(TermMode::SHOW_CURSOR) {
490 context.add_identifier("DECTCEM");
491 }
492 if mode.contains(TermMode::LINE_WRAP) {
493 context.add_identifier("DECAWM");
494 }
495 if mode.contains(TermMode::ORIGIN) {
496 context.add_identifier("DECOM");
497 }
498 if mode.contains(TermMode::INSERT) {
499 context.add_identifier("IRM");
500 }
501 //LNM is apparently the name for this. https://vt100.net/docs/vt510-rm/LNM.html
502 if mode.contains(TermMode::LINE_FEED_NEW_LINE) {
503 context.add_identifier("LNM");
504 }
505 if mode.contains(TermMode::FOCUS_IN_OUT) {
506 context.add_identifier("report_focus");
507 }
508 if mode.contains(TermMode::ALTERNATE_SCROLL) {
509 context.add_identifier("alternate_scroll");
510 }
511 if mode.contains(TermMode::BRACKETED_PASTE) {
512 context.add_identifier("bracketed_paste");
513 }
514 if mode.intersects(TermMode::MOUSE_MODE) {
515 context.add_identifier("any_mouse_reporting");
516 }
517 {
518 let mouse_reporting = if mode.contains(TermMode::MOUSE_REPORT_CLICK) {
519 "click"
520 } else if mode.contains(TermMode::MOUSE_DRAG) {
521 "drag"
522 } else if mode.contains(TermMode::MOUSE_MOTION) {
523 "motion"
524 } else {
525 "off"
526 };
527 context.add_key("mouse_reporting", mouse_reporting);
528 }
529 {
530 let format = if mode.contains(TermMode::SGR_MOUSE) {
531 "sgr"
532 } else if mode.contains(TermMode::UTF8_MOUSE) {
533 "utf8"
534 } else {
535 "normal"
536 };
537 context.add_key("mouse_format", format);
538 }
539 context
540 }
541}
542
543impl Item for TerminalView {
544 fn tab_content(
545 &self,
546 _detail: Option<usize>,
547 tab_theme: &theme::Tab,
548 cx: &gpui::AppContext,
549 ) -> ElementBox {
550 let title = self
551 .terminal()
552 .read(cx)
553 .foreground_process_info
554 .as_ref()
555 .map(|fpi| {
556 format!(
557 "{} — {}",
558 truncate_and_trailoff(
559 &fpi.cwd
560 .file_name()
561 .map(|name| name.to_string_lossy().to_string())
562 .unwrap_or_default(),
563 25
564 ),
565 truncate_and_trailoff(
566 &{
567 format!(
568 "{}{}",
569 fpi.name,
570 if fpi.argv.len() >= 1 {
571 format!(" {}", (&fpi.argv[1..]).join(" "))
572 } else {
573 "".to_string()
574 }
575 )
576 },
577 25
578 )
579 )
580 })
581 .unwrap_or_else(|| "Terminal".to_string());
582
583 Flex::row()
584 .with_child(
585 gpui::elements::Svg::new("icons/terminal_12.svg")
586 .with_color(tab_theme.label.text.color)
587 .constrained()
588 .with_width(tab_theme.type_icon_width)
589 .aligned()
590 .contained()
591 .with_margin_right(tab_theme.spacing)
592 .boxed(),
593 )
594 .with_child(Label::new(title, tab_theme.label.clone()).aligned().boxed())
595 .boxed()
596 }
597
598 fn clone_on_split(
599 &self,
600 _workspace_id: WorkspaceId,
601 _cx: &mut ViewContext<Self>,
602 ) -> Option<Self> {
603 //From what I can tell, there's no way to tell the current working
604 //Directory of the terminal from outside the shell. There might be
605 //solutions to this, but they are non-trivial and require more IPC
606
607 // Some(TerminalContainer::new(
608 // Err(anyhow::anyhow!("failed to instantiate terminal")),
609 // workspace_id,
610 // cx,
611 // ))
612
613 // TODO
614 None
615 }
616
617 fn is_dirty(&self, _cx: &gpui::AppContext) -> bool {
618 self.has_bell()
619 }
620
621 fn has_conflict(&self, _cx: &AppContext) -> bool {
622 false
623 }
624
625 fn as_searchable(&self, handle: &ViewHandle<Self>) -> Option<Box<dyn SearchableItemHandle>> {
626 Some(Box::new(handle.clone()))
627 }
628
629 fn to_item_events(event: &Self::Event) -> SmallVec<[ItemEvent; 2]> {
630 match event {
631 Event::BreadcrumbsChanged => smallvec![ItemEvent::UpdateBreadcrumbs],
632 Event::TitleChanged | Event::Wakeup => smallvec![ItemEvent::UpdateTab],
633 Event::CloseTerminal => smallvec![ItemEvent::CloseItem],
634 _ => smallvec![],
635 }
636 }
637
638 fn breadcrumb_location(&self) -> ToolbarItemLocation {
639 ToolbarItemLocation::PrimaryLeft { flex: None }
640 }
641
642 fn breadcrumbs(&self, theme: &theme::Theme, cx: &AppContext) -> Option<Vec<ElementBox>> {
643 Some(vec![Text::new(
644 self.terminal().read(cx).breadcrumb_text.clone(),
645 theme.breadcrumbs.text.clone(),
646 )
647 .boxed()])
648 }
649
650 fn serialized_item_kind() -> Option<&'static str> {
651 Some("Terminal")
652 }
653
654 fn deserialize(
655 project: ModelHandle<Project>,
656 workspace: WeakViewHandle<Workspace>,
657 workspace_id: workspace::WorkspaceId,
658 item_id: workspace::ItemId,
659 cx: &mut ViewContext<Pane>,
660 ) -> Task<anyhow::Result<ViewHandle<Self>>> {
661 let window_id = cx.window_id();
662 cx.spawn(|pane, mut cx| async move {
663 let cwd = TERMINAL_DB
664 .get_working_directory(item_id, workspace_id)
665 .log_err()
666 .flatten()
667 .or_else(|| {
668 cx.read(|cx| {
669 let strategy = cx.global::<Settings>().terminal_strategy();
670 workspace
671 .upgrade(cx)
672 .map(|workspace| {
673 get_working_directory(workspace.read(cx), cx, strategy)
674 })
675 .flatten()
676 })
677 });
678
679 cx.update(|cx| {
680 let terminal = project.update(cx, |project, cx| {
681 project.create_terminal(cwd, window_id, cx)
682 })?;
683
684 Ok(cx.add_view(pane, |cx| TerminalView::new(terminal, workspace_id, cx)))
685 })
686 })
687 }
688
689 fn added_to_workspace(&mut self, workspace: &mut Workspace, cx: &mut ViewContext<Self>) {
690 cx.background()
691 .spawn(TERMINAL_DB.update_workspace_id(
692 workspace.database_id(),
693 self.workspace_id,
694 cx.view_id(),
695 ))
696 .detach();
697 self.workspace_id = workspace.database_id();
698 }
699}
700
701impl SearchableItem for TerminalView {
702 type Match = RangeInclusive<Point>;
703
704 fn supported_options() -> SearchOptions {
705 SearchOptions {
706 case: false,
707 word: false,
708 regex: false,
709 }
710 }
711
712 /// Convert events raised by this item into search-relevant events (if applicable)
713 fn to_search_event(event: &Self::Event) -> Option<SearchEvent> {
714 match event {
715 Event::Wakeup => Some(SearchEvent::MatchesInvalidated),
716 Event::SelectionsChanged => Some(SearchEvent::ActiveMatchChanged),
717 _ => None,
718 }
719 }
720
721 /// Clear stored matches
722 fn clear_matches(&mut self, cx: &mut ViewContext<Self>) {
723 self.terminal().update(cx, |term, _| term.matches.clear())
724 }
725
726 /// Store matches returned from find_matches somewhere for rendering
727 fn update_matches(&mut self, matches: Vec<Self::Match>, cx: &mut ViewContext<Self>) {
728 self.terminal().update(cx, |term, _| term.matches = matches)
729 }
730
731 /// Return the selection content to pre-load into this search
732 fn query_suggestion(&mut self, cx: &mut ViewContext<Self>) -> String {
733 self.terminal()
734 .read(cx)
735 .last_content
736 .selection_text
737 .clone()
738 .unwrap_or_default()
739 }
740
741 /// Focus match at given index into the Vec of matches
742 fn activate_match(&mut self, index: usize, _: Vec<Self::Match>, cx: &mut ViewContext<Self>) {
743 self.terminal()
744 .update(cx, |term, _| term.activate_match(index));
745 cx.notify();
746 }
747
748 /// Get all of the matches for this query, should be done on the background
749 fn find_matches(
750 &mut self,
751 query: project::search::SearchQuery,
752 cx: &mut ViewContext<Self>,
753 ) -> Task<Vec<Self::Match>> {
754 if let Some(searcher) = regex_search_for_query(query) {
755 self.terminal()
756 .update(cx, |term, cx| term.find_matches(searcher, cx))
757 } else {
758 Task::ready(vec![])
759 }
760 }
761
762 /// Reports back to the search toolbar what the active match should be (the selection)
763 fn active_match_index(
764 &mut self,
765 matches: Vec<Self::Match>,
766 cx: &mut ViewContext<Self>,
767 ) -> Option<usize> {
768 // Selection head might have a value if there's a selection that isn't
769 // associated with a match. Therefore, if there are no matches, we should
770 // report None, no matter the state of the terminal
771 let res = if matches.len() > 0 {
772 if let Some(selection_head) = self.terminal().read(cx).selection_head {
773 // If selection head is contained in a match. Return that match
774 if let Some(ix) = matches
775 .iter()
776 .enumerate()
777 .find(|(_, search_match)| {
778 search_match.contains(&selection_head)
779 || search_match.start() > &selection_head
780 })
781 .map(|(ix, _)| ix)
782 {
783 Some(ix)
784 } else {
785 // If no selection after selection head, return the last match
786 Some(matches.len().saturating_sub(1))
787 }
788 } else {
789 // Matches found but no active selection, return the first last one (closest to cursor)
790 Some(matches.len().saturating_sub(1))
791 }
792 } else {
793 None
794 };
795
796 res
797 }
798}
799
800///Get's the working directory for the given workspace, respecting the user's settings.
801pub fn get_working_directory(
802 workspace: &Workspace,
803 cx: &AppContext,
804 strategy: WorkingDirectory,
805) -> Option<PathBuf> {
806 let res = match strategy {
807 WorkingDirectory::CurrentProjectDirectory => current_project_directory(workspace, cx)
808 .or_else(|| first_project_directory(workspace, cx)),
809 WorkingDirectory::FirstProjectDirectory => first_project_directory(workspace, cx),
810 WorkingDirectory::AlwaysHome => None,
811 WorkingDirectory::Always { directory } => {
812 shellexpand::full(&directory) //TODO handle this better
813 .ok()
814 .map(|dir| Path::new(&dir.to_string()).to_path_buf())
815 .filter(|dir| dir.is_dir())
816 }
817 };
818 res.or_else(home_dir)
819}
820
821///Get's the first project's home directory, or the home directory
822fn first_project_directory(workspace: &Workspace, cx: &AppContext) -> Option<PathBuf> {
823 workspace
824 .worktrees(cx)
825 .next()
826 .and_then(|worktree_handle| worktree_handle.read(cx).as_local())
827 .and_then(get_path_from_wt)
828}
829
830///Gets the intuitively correct working directory from the given workspace
831///If there is an active entry for this project, returns that entry's worktree root.
832///If there's no active entry but there is a worktree, returns that worktrees root.
833///If either of these roots are files, or if there are any other query failures,
834/// returns the user's home directory
835fn current_project_directory(workspace: &Workspace, cx: &AppContext) -> Option<PathBuf> {
836 let project = workspace.project().read(cx);
837
838 project
839 .active_entry()
840 .and_then(|entry_id| project.worktree_for_entry(entry_id, cx))
841 .or_else(|| workspace.worktrees(cx).next())
842 .and_then(|worktree_handle| worktree_handle.read(cx).as_local())
843 .and_then(get_path_from_wt)
844}
845
846fn get_path_from_wt(wt: &LocalWorktree) -> Option<PathBuf> {
847 wt.root_entry()
848 .filter(|re| re.is_dir())
849 .map(|_| wt.abs_path().to_path_buf())
850}
851
852#[cfg(test)]
853mod tests {
854
855 use super::*;
856 use gpui::TestAppContext;
857 use project::{Entry, Project, ProjectPath, Worktree};
858 use workspace::AppState;
859
860 use std::path::Path;
861
862 ///Working directory calculation tests
863
864 ///No Worktrees in project -> home_dir()
865 #[gpui::test]
866 async fn no_worktree(cx: &mut TestAppContext) {
867 //Setup variables
868 let (project, workspace) = blank_workspace(cx).await;
869 //Test
870 cx.read(|cx| {
871 let workspace = workspace.read(cx);
872 let active_entry = project.read(cx).active_entry();
873
874 //Make sure enviroment is as expeted
875 assert!(active_entry.is_none());
876 assert!(workspace.worktrees(cx).next().is_none());
877
878 let res = current_project_directory(workspace, cx);
879 assert_eq!(res, None);
880 let res = first_project_directory(workspace, cx);
881 assert_eq!(res, None);
882 });
883 }
884
885 ///No active entry, but a worktree, worktree is a file -> home_dir()
886 #[gpui::test]
887 async fn no_active_entry_worktree_is_file(cx: &mut TestAppContext) {
888 //Setup variables
889
890 let (project, workspace) = blank_workspace(cx).await;
891 create_file_wt(project.clone(), "/root.txt", cx).await;
892
893 cx.read(|cx| {
894 let workspace = workspace.read(cx);
895 let active_entry = project.read(cx).active_entry();
896
897 //Make sure enviroment is as expeted
898 assert!(active_entry.is_none());
899 assert!(workspace.worktrees(cx).next().is_some());
900
901 let res = current_project_directory(workspace, cx);
902 assert_eq!(res, None);
903 let res = first_project_directory(workspace, cx);
904 assert_eq!(res, None);
905 });
906 }
907
908 //No active entry, but a worktree, worktree is a folder -> worktree_folder
909 #[gpui::test]
910 async fn no_active_entry_worktree_is_dir(cx: &mut TestAppContext) {
911 //Setup variables
912 let (project, workspace) = blank_workspace(cx).await;
913 let (_wt, _entry) = create_folder_wt(project.clone(), "/root/", cx).await;
914
915 //Test
916 cx.update(|cx| {
917 let workspace = workspace.read(cx);
918 let active_entry = project.read(cx).active_entry();
919
920 assert!(active_entry.is_none());
921 assert!(workspace.worktrees(cx).next().is_some());
922
923 let res = current_project_directory(workspace, cx);
924 assert_eq!(res, Some((Path::new("/root/")).to_path_buf()));
925 let res = first_project_directory(workspace, cx);
926 assert_eq!(res, Some((Path::new("/root/")).to_path_buf()));
927 });
928 }
929
930 //Active entry with a work tree, worktree is a file -> home_dir()
931 #[gpui::test]
932 async fn active_entry_worktree_is_file(cx: &mut TestAppContext) {
933 //Setup variables
934
935 let (project, workspace) = blank_workspace(cx).await;
936 let (_wt, _entry) = create_folder_wt(project.clone(), "/root1/", cx).await;
937 let (wt2, entry2) = create_file_wt(project.clone(), "/root2.txt", cx).await;
938 insert_active_entry_for(wt2, entry2, project.clone(), cx);
939
940 //Test
941 cx.update(|cx| {
942 let workspace = workspace.read(cx);
943 let active_entry = project.read(cx).active_entry();
944
945 assert!(active_entry.is_some());
946
947 let res = current_project_directory(workspace, cx);
948 assert_eq!(res, None);
949 let res = first_project_directory(workspace, cx);
950 assert_eq!(res, Some((Path::new("/root1/")).to_path_buf()));
951 });
952 }
953
954 //Active entry, with a worktree, worktree is a folder -> worktree_folder
955 #[gpui::test]
956 async fn active_entry_worktree_is_dir(cx: &mut TestAppContext) {
957 //Setup variables
958 let (project, workspace) = blank_workspace(cx).await;
959 let (_wt, _entry) = create_folder_wt(project.clone(), "/root1/", cx).await;
960 let (wt2, entry2) = create_folder_wt(project.clone(), "/root2/", cx).await;
961 insert_active_entry_for(wt2, entry2, project.clone(), cx);
962
963 //Test
964 cx.update(|cx| {
965 let workspace = workspace.read(cx);
966 let active_entry = project.read(cx).active_entry();
967
968 assert!(active_entry.is_some());
969
970 let res = current_project_directory(workspace, cx);
971 assert_eq!(res, Some((Path::new("/root2/")).to_path_buf()));
972 let res = first_project_directory(workspace, cx);
973 assert_eq!(res, Some((Path::new("/root1/")).to_path_buf()));
974 });
975 }
976
977 ///Creates a worktree with 1 file: /root.txt
978 pub async fn blank_workspace(
979 cx: &mut TestAppContext,
980 ) -> (ModelHandle<Project>, ViewHandle<Workspace>) {
981 let params = cx.update(AppState::test);
982
983 let project = Project::test(params.fs.clone(), [], cx).await;
984 let (_, workspace) = cx.add_window(|cx| Workspace::test_new(project.clone(), cx));
985
986 (project, workspace)
987 }
988
989 ///Creates a worktree with 1 folder: /root{suffix}/
990 async fn create_folder_wt(
991 project: ModelHandle<Project>,
992 path: impl AsRef<Path>,
993 cx: &mut TestAppContext,
994 ) -> (ModelHandle<Worktree>, Entry) {
995 create_wt(project, true, path, cx).await
996 }
997
998 ///Creates a worktree with 1 file: /root{suffix}.txt
999 async fn create_file_wt(
1000 project: ModelHandle<Project>,
1001 path: impl AsRef<Path>,
1002 cx: &mut TestAppContext,
1003 ) -> (ModelHandle<Worktree>, Entry) {
1004 create_wt(project, false, path, cx).await
1005 }
1006
1007 async fn create_wt(
1008 project: ModelHandle<Project>,
1009 is_dir: bool,
1010 path: impl AsRef<Path>,
1011 cx: &mut TestAppContext,
1012 ) -> (ModelHandle<Worktree>, Entry) {
1013 let (wt, _) = project
1014 .update(cx, |project, cx| {
1015 project.find_or_create_local_worktree(path, true, cx)
1016 })
1017 .await
1018 .unwrap();
1019
1020 let entry = cx
1021 .update(|cx| {
1022 wt.update(cx, |wt, cx| {
1023 wt.as_local()
1024 .unwrap()
1025 .create_entry(Path::new(""), is_dir, cx)
1026 })
1027 })
1028 .await
1029 .unwrap();
1030
1031 (wt, entry)
1032 }
1033
1034 pub fn insert_active_entry_for(
1035 wt: ModelHandle<Worktree>,
1036 entry: Entry,
1037 project: ModelHandle<Project>,
1038 cx: &mut TestAppContext,
1039 ) {
1040 cx.update(|cx| {
1041 let p = ProjectPath {
1042 worktree_id: wt.read(cx).id(),
1043 path: entry.path,
1044 };
1045 project.update(cx, |project, cx| project.set_active_path(Some(p), cx));
1046 });
1047 }
1048}