1mod color_contrast;
2mod persistence;
3pub mod terminal_element;
4pub mod terminal_panel;
5pub mod terminal_scrollbar;
6mod terminal_slash_command;
7pub mod terminal_tab_tooltip;
8
9use assistant_slash_command::SlashCommandRegistry;
10use editor::{Editor, EditorSettings, actions::SelectAll, scroll::ScrollbarAutoHide};
11use gpui::{
12 Action, AnyElement, App, DismissEvent, Entity, EventEmitter, FocusHandle, Focusable,
13 KeyContext, KeyDownEvent, Keystroke, MouseButton, MouseDownEvent, Pixels, Render,
14 ScrollWheelEvent, Stateful, Styled, Subscription, Task, WeakEntity, actions, anchored,
15 deferred, div,
16};
17use itertools::Itertools;
18use persistence::TERMINAL_DB;
19use project::{Entry, Metadata, Project, search::SearchQuery, terminals::TerminalKind};
20use schemars::JsonSchema;
21use task::TaskId;
22use terminal::{
23 Clear, Copy, Event, HoveredWord, MaybeNavigationTarget, Paste, ScrollLineDown, ScrollLineUp,
24 ScrollPageDown, ScrollPageUp, ScrollToBottom, ScrollToTop, ShowCharacterPalette, TaskState,
25 TaskStatus, Terminal, TerminalBounds, ToggleViMode,
26 alacritty_terminal::{
27 index::Point,
28 term::{TermMode, point_to_viewport, search::RegexSearch},
29 },
30 terminal_settings::{self, CursorShape, TerminalBlink, TerminalSettings, WorkingDirectory},
31};
32use terminal_element::TerminalElement;
33use terminal_panel::TerminalPanel;
34use terminal_scrollbar::TerminalScrollHandle;
35use terminal_slash_command::TerminalSlashCommand;
36use terminal_tab_tooltip::TerminalTooltip;
37use ui::{
38 ContextMenu, Icon, IconName, Label, Scrollbar, ScrollbarState, Tooltip, h_flex, prelude::*,
39};
40use util::{ResultExt, debug_panic, paths::PathWithPosition};
41use workspace::{
42 CloseActiveItem, NewCenterTerminal, NewTerminal, OpenOptions, OpenVisible, ToolbarItemLocation,
43 Workspace, WorkspaceId, delete_unloaded_items,
44 item::{
45 BreadcrumbText, Item, ItemEvent, SerializableItem, TabContentParams, TabTooltipContent,
46 },
47 register_serializable_item,
48 searchable::{Direction, SearchEvent, SearchOptions, SearchableItem, SearchableItemHandle},
49};
50
51use anyhow::Context as _;
52use serde::Deserialize;
53use settings::{Settings, SettingsStore};
54use smol::Timer;
55use zed_actions::assistant::InlineAssist;
56
57use std::{
58 cmp,
59 ops::{Range, RangeInclusive},
60 path::{Path, PathBuf},
61 rc::Rc,
62 sync::Arc,
63 time::Duration,
64};
65
66const CURSOR_BLINK_INTERVAL: Duration = Duration::from_millis(500);
67
68const GIT_DIFF_PATH_PREFIXES: &[&str] = &["a", "b"];
69
70/// Event to transmit the scroll from the element to the view
71#[derive(Clone, Debug, PartialEq)]
72pub struct ScrollTerminal(pub i32);
73
74/// Sends the specified text directly to the terminal.
75#[derive(Clone, Debug, Default, Deserialize, JsonSchema, PartialEq, Action)]
76#[action(namespace = terminal)]
77pub struct SendText(String);
78
79/// Sends a keystroke sequence to the terminal.
80#[derive(Clone, Debug, Default, Deserialize, JsonSchema, PartialEq, Action)]
81#[action(namespace = terminal)]
82pub struct SendKeystroke(String);
83
84actions!(
85 terminal,
86 [
87 /// Reruns the last executed task in the terminal.
88 RerunTask
89 ]
90);
91
92pub fn init(cx: &mut App) {
93 assistant_slash_command::init(cx);
94 terminal_panel::init(cx);
95 terminal::init(cx);
96
97 register_serializable_item::<TerminalView>(cx);
98
99 cx.observe_new(|workspace: &mut Workspace, _window, _cx| {
100 workspace.register_action(TerminalView::deploy);
101 })
102 .detach();
103 SlashCommandRegistry::global(cx).register_command(TerminalSlashCommand, true);
104}
105
106pub struct BlockProperties {
107 pub height: u8,
108 pub render: Box<dyn Send + Fn(&mut BlockContext) -> AnyElement>,
109}
110
111pub struct BlockContext<'a, 'b> {
112 pub window: &'a mut Window,
113 pub context: &'b mut App,
114 pub dimensions: TerminalBounds,
115}
116
117///A terminal view, maintains the PTY's file handles and communicates with the terminal
118pub struct TerminalView {
119 terminal: Entity<Terminal>,
120 workspace: WeakEntity<Workspace>,
121 project: WeakEntity<Project>,
122 focus_handle: FocusHandle,
123 //Currently using iTerm bell, show bell emoji in tab until input is received
124 has_bell: bool,
125 context_menu: Option<(Entity<ContextMenu>, gpui::Point<Pixels>, Subscription)>,
126 cursor_shape: CursorShape,
127 blink_state: bool,
128 mode: TerminalMode,
129 blinking_terminal_enabled: bool,
130 cwd_serialized: bool,
131 blinking_paused: bool,
132 blink_epoch: usize,
133 hover: Option<HoverTarget>,
134 hover_tooltip_update: Task<()>,
135 workspace_id: Option<WorkspaceId>,
136 show_breadcrumbs: bool,
137 block_below_cursor: Option<Rc<BlockProperties>>,
138 scroll_top: Pixels,
139 scrollbar_state: ScrollbarState,
140 scroll_handle: TerminalScrollHandle,
141 show_scrollbar: bool,
142 hide_scrollbar_task: Option<Task<()>>,
143 marked_text: Option<String>,
144 marked_range_utf16: Option<Range<usize>>,
145 _subscriptions: Vec<Subscription>,
146 _terminal_subscriptions: Vec<Subscription>,
147}
148
149#[derive(Default, Clone)]
150pub enum TerminalMode {
151 #[default]
152 Standalone,
153 Embedded {
154 max_lines_when_unfocused: Option<usize>,
155 },
156}
157
158#[derive(Clone)]
159pub enum ContentMode {
160 Scrollable,
161 Inline {
162 displayed_lines: usize,
163 total_lines: usize,
164 },
165}
166
167impl ContentMode {
168 pub fn is_limited(&self) -> bool {
169 match self {
170 ContentMode::Scrollable => false,
171 ContentMode::Inline {
172 displayed_lines,
173 total_lines,
174 } => displayed_lines < total_lines,
175 }
176 }
177
178 pub fn is_scrollable(&self) -> bool {
179 matches!(self, ContentMode::Scrollable)
180 }
181}
182
183#[derive(Debug)]
184struct HoverTarget {
185 tooltip: String,
186 hovered_word: HoveredWord,
187}
188
189impl EventEmitter<Event> for TerminalView {}
190impl EventEmitter<ItemEvent> for TerminalView {}
191impl EventEmitter<SearchEvent> for TerminalView {}
192
193impl Focusable for TerminalView {
194 fn focus_handle(&self, _cx: &App) -> FocusHandle {
195 self.focus_handle.clone()
196 }
197}
198
199impl TerminalView {
200 ///Create a new Terminal in the current working directory or the user's home directory
201 pub fn deploy(
202 workspace: &mut Workspace,
203 _: &NewCenterTerminal,
204 window: &mut Window,
205 cx: &mut Context<Workspace>,
206 ) {
207 let working_directory = default_working_directory(workspace, cx);
208 TerminalPanel::add_center_terminal(
209 workspace,
210 TerminalKind::Shell(working_directory),
211 window,
212 cx,
213 )
214 .detach_and_log_err(cx);
215 }
216
217 pub fn new(
218 terminal: Entity<Terminal>,
219 workspace: WeakEntity<Workspace>,
220 workspace_id: Option<WorkspaceId>,
221 project: WeakEntity<Project>,
222 window: &mut Window,
223 cx: &mut Context<Self>,
224 ) -> Self {
225 let workspace_handle = workspace.clone();
226 let terminal_subscriptions =
227 subscribe_for_terminal_events(&terminal, workspace, window, cx);
228
229 let focus_handle = cx.focus_handle();
230 let focus_in = cx.on_focus_in(&focus_handle, window, |terminal_view, window, cx| {
231 terminal_view.focus_in(window, cx);
232 });
233 let focus_out = cx.on_focus_out(
234 &focus_handle,
235 window,
236 |terminal_view, _event, window, cx| {
237 terminal_view.focus_out(window, cx);
238 },
239 );
240 let cursor_shape = TerminalSettings::get_global(cx)
241 .cursor_shape
242 .unwrap_or_default();
243
244 let scroll_handle = TerminalScrollHandle::new(terminal.read(cx));
245
246 Self {
247 terminal,
248 workspace: workspace_handle,
249 project,
250 has_bell: false,
251 focus_handle,
252 context_menu: None,
253 cursor_shape,
254 blink_state: true,
255 blinking_terminal_enabled: false,
256 blinking_paused: false,
257 blink_epoch: 0,
258 hover: None,
259 hover_tooltip_update: Task::ready(()),
260 mode: TerminalMode::Standalone,
261 workspace_id,
262 show_breadcrumbs: TerminalSettings::get_global(cx).toolbar.breadcrumbs,
263 block_below_cursor: None,
264 scroll_top: Pixels::ZERO,
265 scrollbar_state: ScrollbarState::new(scroll_handle.clone()),
266 scroll_handle,
267 show_scrollbar: !Self::should_autohide_scrollbar(cx),
268 hide_scrollbar_task: None,
269 cwd_serialized: false,
270 marked_text: None,
271 marked_range_utf16: None,
272 _subscriptions: vec![
273 focus_in,
274 focus_out,
275 cx.observe_global::<SettingsStore>(Self::settings_changed),
276 ],
277 _terminal_subscriptions: terminal_subscriptions,
278 }
279 }
280
281 /// Enable 'embedded' mode where the terminal displays the full content with an optional limit of lines.
282 pub fn set_embedded_mode(
283 &mut self,
284 max_lines_when_unfocused: Option<usize>,
285 cx: &mut Context<Self>,
286 ) {
287 self.mode = TerminalMode::Embedded {
288 max_lines_when_unfocused,
289 };
290 cx.notify();
291 }
292
293 const MAX_EMBEDDED_LINES: usize = 1_000;
294
295 /// Returns the current `ContentMode` depending on the set `TerminalMode` and the current number of lines
296 ///
297 /// Note: Even in embedded mode, the terminal will fallback to scrollable when its content exceeds `MAX_EMBEDDED_LINES`
298 pub fn content_mode(&self, window: &Window, cx: &App) -> ContentMode {
299 match &self.mode {
300 TerminalMode::Standalone => ContentMode::Scrollable,
301 TerminalMode::Embedded {
302 max_lines_when_unfocused,
303 } => {
304 let total_lines = self.terminal.read(cx).total_lines();
305
306 if total_lines > Self::MAX_EMBEDDED_LINES {
307 ContentMode::Scrollable
308 } else {
309 let mut displayed_lines = total_lines;
310
311 if !self.focus_handle.is_focused(window) {
312 if let Some(max_lines) = max_lines_when_unfocused {
313 displayed_lines = displayed_lines.min(*max_lines)
314 }
315 }
316
317 ContentMode::Inline {
318 displayed_lines,
319 total_lines,
320 }
321 }
322 }
323 }
324 }
325
326 /// Sets the marked (pre-edit) text from the IME.
327 pub(crate) fn set_marked_text(
328 &mut self,
329 text: String,
330 range: Range<usize>,
331 cx: &mut Context<Self>,
332 ) {
333 self.marked_text = Some(text);
334 self.marked_range_utf16 = Some(range);
335 cx.notify();
336 }
337
338 /// Gets the current marked range (UTF-16).
339 pub(crate) fn marked_text_range(&self) -> Option<Range<usize>> {
340 self.marked_range_utf16.clone()
341 }
342
343 /// Clears the marked (pre-edit) text state.
344 pub(crate) fn clear_marked_text(&mut self, cx: &mut Context<Self>) {
345 if self.marked_text.is_some() {
346 self.marked_text = None;
347 self.marked_range_utf16 = None;
348 cx.notify();
349 }
350 }
351
352 /// Commits (sends) the given text to the PTY. Called by InputHandler::replace_text_in_range.
353 pub(crate) fn commit_text(&mut self, text: &str, cx: &mut Context<Self>) {
354 if !text.is_empty() {
355 self.terminal.update(cx, |term, _| {
356 term.input(text.to_string().into_bytes());
357 });
358 }
359 }
360
361 pub(crate) fn terminal_bounds(&self, cx: &App) -> TerminalBounds {
362 self.terminal.read(cx).last_content().terminal_bounds
363 }
364
365 pub fn entity(&self) -> &Entity<Terminal> {
366 &self.terminal
367 }
368
369 pub fn has_bell(&self) -> bool {
370 self.has_bell
371 }
372
373 pub fn clear_bell(&mut self, cx: &mut Context<TerminalView>) {
374 self.has_bell = false;
375 cx.emit(Event::Wakeup);
376 }
377
378 pub fn deploy_context_menu(
379 &mut self,
380 position: gpui::Point<Pixels>,
381 window: &mut Window,
382 cx: &mut Context<Self>,
383 ) {
384 let assistant_enabled = self
385 .workspace
386 .upgrade()
387 .and_then(|workspace| workspace.read(cx).panel::<TerminalPanel>(cx))
388 .map_or(false, |terminal_panel| {
389 terminal_panel.read(cx).assistant_enabled()
390 });
391 let context_menu = ContextMenu::build(window, cx, |menu, _, _| {
392 menu.context(self.focus_handle.clone())
393 .action("New Terminal", Box::new(NewTerminal))
394 .separator()
395 .action("Copy", Box::new(Copy))
396 .action("Paste", Box::new(Paste))
397 .action("Select All", Box::new(SelectAll))
398 .action("Clear", Box::new(Clear))
399 .when(assistant_enabled, |menu| {
400 menu.separator()
401 .action("Inline Assist", Box::new(InlineAssist::default()))
402 })
403 .separator()
404 .action(
405 "Close Terminal Tab",
406 Box::new(CloseActiveItem {
407 save_intent: None,
408 close_pinned: true,
409 }),
410 )
411 });
412
413 window.focus(&context_menu.focus_handle(cx));
414 let subscription = cx.subscribe_in(
415 &context_menu,
416 window,
417 |this, _, _: &DismissEvent, window, cx| {
418 if this.context_menu.as_ref().is_some_and(|context_menu| {
419 context_menu.0.focus_handle(cx).contains_focused(window, cx)
420 }) {
421 cx.focus_self(window);
422 }
423 this.context_menu.take();
424 cx.notify();
425 },
426 );
427
428 self.context_menu = Some((context_menu, position, subscription));
429 }
430
431 fn settings_changed(&mut self, cx: &mut Context<Self>) {
432 let settings = TerminalSettings::get_global(cx);
433 let breadcrumb_visibility_changed = self.show_breadcrumbs != settings.toolbar.breadcrumbs;
434 self.show_breadcrumbs = settings.toolbar.breadcrumbs;
435
436 let new_cursor_shape = settings.cursor_shape.unwrap_or_default();
437 let old_cursor_shape = self.cursor_shape;
438 if old_cursor_shape != new_cursor_shape {
439 self.cursor_shape = new_cursor_shape;
440 self.terminal.update(cx, |term, _| {
441 term.set_cursor_shape(self.cursor_shape);
442 });
443 }
444
445 if breadcrumb_visibility_changed {
446 cx.emit(ItemEvent::UpdateBreadcrumbs);
447 }
448 cx.notify();
449 }
450
451 fn show_character_palette(
452 &mut self,
453 _: &ShowCharacterPalette,
454 window: &mut Window,
455 cx: &mut Context<Self>,
456 ) {
457 if self
458 .terminal
459 .read(cx)
460 .last_content
461 .mode
462 .contains(TermMode::ALT_SCREEN)
463 {
464 self.terminal.update(cx, |term, cx| {
465 term.try_keystroke(
466 &Keystroke::parse("ctrl-cmd-space").unwrap(),
467 TerminalSettings::get_global(cx).option_as_meta,
468 )
469 });
470 } else {
471 window.show_character_palette();
472 }
473 }
474
475 fn select_all(&mut self, _: &SelectAll, _: &mut Window, cx: &mut Context<Self>) {
476 self.terminal.update(cx, |term, _| term.select_all());
477 cx.notify();
478 }
479
480 fn rerun_task(&mut self, _: &RerunTask, window: &mut Window, cx: &mut Context<Self>) {
481 let task = self
482 .terminal
483 .read(cx)
484 .task()
485 .map(|task| terminal_rerun_override(&task.id))
486 .unwrap_or_default();
487 window.dispatch_action(Box::new(task), cx);
488 }
489
490 fn clear(&mut self, _: &Clear, _: &mut Window, cx: &mut Context<Self>) {
491 self.scroll_top = px(0.);
492 self.terminal.update(cx, |term, _| term.clear());
493 cx.notify();
494 }
495
496 fn max_scroll_top(&self, cx: &App) -> Pixels {
497 let terminal = self.terminal.read(cx);
498
499 let Some(block) = self.block_below_cursor.as_ref() else {
500 return Pixels::ZERO;
501 };
502
503 let line_height = terminal.last_content().terminal_bounds.line_height;
504 let viewport_lines = terminal.viewport_lines();
505 let cursor = point_to_viewport(
506 terminal.last_content.display_offset,
507 terminal.last_content.cursor.point,
508 )
509 .unwrap_or_default();
510 let max_scroll_top_in_lines =
511 (block.height as usize).saturating_sub(viewport_lines.saturating_sub(cursor.line + 1));
512
513 max_scroll_top_in_lines as f32 * line_height
514 }
515
516 fn scroll_wheel(&mut self, event: &ScrollWheelEvent, cx: &mut Context<Self>) {
517 let terminal_content = self.terminal.read(cx).last_content();
518
519 if self.block_below_cursor.is_some() && terminal_content.display_offset == 0 {
520 let line_height = terminal_content.terminal_bounds.line_height;
521 let y_delta = event.delta.pixel_delta(line_height).y;
522 if y_delta < Pixels::ZERO || self.scroll_top > Pixels::ZERO {
523 self.scroll_top = cmp::max(
524 Pixels::ZERO,
525 cmp::min(self.scroll_top - y_delta, self.max_scroll_top(cx)),
526 );
527 cx.notify();
528 return;
529 }
530 }
531 self.terminal.update(cx, |term, _| term.scroll_wheel(event));
532 }
533
534 fn scroll_line_up(&mut self, _: &ScrollLineUp, _: &mut Window, cx: &mut Context<Self>) {
535 let terminal_content = self.terminal.read(cx).last_content();
536 if self.block_below_cursor.is_some()
537 && terminal_content.display_offset == 0
538 && self.scroll_top > Pixels::ZERO
539 {
540 let line_height = terminal_content.terminal_bounds.line_height;
541 self.scroll_top = cmp::max(self.scroll_top - line_height, Pixels::ZERO);
542 return;
543 }
544
545 self.terminal.update(cx, |term, _| term.scroll_line_up());
546 cx.notify();
547 }
548
549 fn scroll_line_down(&mut self, _: &ScrollLineDown, _: &mut Window, cx: &mut Context<Self>) {
550 let terminal_content = self.terminal.read(cx).last_content();
551 if self.block_below_cursor.is_some() && terminal_content.display_offset == 0 {
552 let max_scroll_top = self.max_scroll_top(cx);
553 if self.scroll_top < max_scroll_top {
554 let line_height = terminal_content.terminal_bounds.line_height;
555 self.scroll_top = cmp::min(self.scroll_top + line_height, max_scroll_top);
556 }
557 return;
558 }
559
560 self.terminal.update(cx, |term, _| term.scroll_line_down());
561 cx.notify();
562 }
563
564 fn scroll_page_up(&mut self, _: &ScrollPageUp, _: &mut Window, cx: &mut Context<Self>) {
565 if self.scroll_top == Pixels::ZERO {
566 self.terminal.update(cx, |term, _| term.scroll_page_up());
567 } else {
568 let line_height = self
569 .terminal
570 .read(cx)
571 .last_content
572 .terminal_bounds
573 .line_height();
574 let visible_block_lines = (self.scroll_top / line_height) as usize;
575 let viewport_lines = self.terminal.read(cx).viewport_lines();
576 let visible_content_lines = viewport_lines - visible_block_lines;
577
578 if visible_block_lines >= viewport_lines {
579 self.scroll_top = ((visible_block_lines - viewport_lines) as f32) * line_height;
580 } else {
581 self.scroll_top = px(0.);
582 self.terminal
583 .update(cx, |term, _| term.scroll_up_by(visible_content_lines));
584 }
585 }
586 cx.notify();
587 }
588
589 fn scroll_page_down(&mut self, _: &ScrollPageDown, _: &mut Window, cx: &mut Context<Self>) {
590 self.terminal.update(cx, |term, _| term.scroll_page_down());
591 let terminal = self.terminal.read(cx);
592 if terminal.last_content().display_offset < terminal.viewport_lines() {
593 self.scroll_top = self.max_scroll_top(cx);
594 }
595 cx.notify();
596 }
597
598 fn scroll_to_top(&mut self, _: &ScrollToTop, _: &mut Window, cx: &mut Context<Self>) {
599 self.terminal.update(cx, |term, _| term.scroll_to_top());
600 cx.notify();
601 }
602
603 fn scroll_to_bottom(&mut self, _: &ScrollToBottom, _: &mut Window, cx: &mut Context<Self>) {
604 self.terminal.update(cx, |term, _| term.scroll_to_bottom());
605 if self.block_below_cursor.is_some() {
606 self.scroll_top = self.max_scroll_top(cx);
607 }
608 cx.notify();
609 }
610
611 fn toggle_vi_mode(&mut self, _: &ToggleViMode, _: &mut Window, cx: &mut Context<Self>) {
612 self.terminal.update(cx, |term, _| term.toggle_vi_mode());
613 cx.notify();
614 }
615
616 pub fn should_show_cursor(&self, focused: bool, cx: &mut Context<Self>) -> bool {
617 //Don't blink the cursor when not focused, blinking is disabled, or paused
618 if !focused
619 || self.blinking_paused
620 || self
621 .terminal
622 .read(cx)
623 .last_content
624 .mode
625 .contains(TermMode::ALT_SCREEN)
626 {
627 return true;
628 }
629
630 match TerminalSettings::get_global(cx).blinking {
631 //If the user requested to never blink, don't blink it.
632 TerminalBlink::Off => true,
633 //If the terminal is controlling it, check terminal mode
634 TerminalBlink::TerminalControlled => {
635 !self.blinking_terminal_enabled || self.blink_state
636 }
637 TerminalBlink::On => self.blink_state,
638 }
639 }
640
641 fn blink_cursors(&mut self, epoch: usize, window: &mut Window, cx: &mut Context<Self>) {
642 if epoch == self.blink_epoch && !self.blinking_paused {
643 self.blink_state = !self.blink_state;
644 cx.notify();
645
646 let epoch = self.next_blink_epoch();
647 cx.spawn_in(window, async move |this, cx| {
648 Timer::after(CURSOR_BLINK_INTERVAL).await;
649 this.update_in(cx, |this, window, cx| this.blink_cursors(epoch, window, cx))
650 .ok();
651 })
652 .detach();
653 }
654 }
655
656 pub fn pause_cursor_blinking(&mut self, window: &mut Window, cx: &mut Context<Self>) {
657 self.blink_state = true;
658 cx.notify();
659
660 let epoch = self.next_blink_epoch();
661 cx.spawn_in(window, async move |this, cx| {
662 Timer::after(CURSOR_BLINK_INTERVAL).await;
663 this.update_in(cx, |this, window, cx| {
664 this.resume_cursor_blinking(epoch, window, cx)
665 })
666 .ok();
667 })
668 .detach();
669 }
670
671 pub fn terminal(&self) -> &Entity<Terminal> {
672 &self.terminal
673 }
674
675 pub fn set_block_below_cursor(
676 &mut self,
677 block: BlockProperties,
678 window: &mut Window,
679 cx: &mut Context<Self>,
680 ) {
681 self.block_below_cursor = Some(Rc::new(block));
682 self.scroll_to_bottom(&ScrollToBottom, window, cx);
683 cx.notify();
684 }
685
686 pub fn clear_block_below_cursor(&mut self, cx: &mut Context<Self>) {
687 self.block_below_cursor = None;
688 self.scroll_top = Pixels::ZERO;
689 cx.notify();
690 }
691
692 fn next_blink_epoch(&mut self) -> usize {
693 self.blink_epoch += 1;
694 self.blink_epoch
695 }
696
697 fn resume_cursor_blinking(
698 &mut self,
699 epoch: usize,
700 window: &mut Window,
701 cx: &mut Context<Self>,
702 ) {
703 if epoch == self.blink_epoch {
704 self.blinking_paused = false;
705 self.blink_cursors(epoch, window, cx);
706 }
707 }
708
709 ///Attempt to paste the clipboard into the terminal
710 fn copy(&mut self, _: &Copy, _: &mut Window, cx: &mut Context<Self>) {
711 self.terminal.update(cx, |term, _| term.copy(None));
712 cx.notify();
713 }
714
715 ///Attempt to paste the clipboard into the terminal
716 fn paste(&mut self, _: &Paste, _: &mut Window, cx: &mut Context<Self>) {
717 if let Some(clipboard_string) = cx.read_from_clipboard().and_then(|item| item.text()) {
718 self.terminal
719 .update(cx, |terminal, _cx| terminal.paste(&clipboard_string));
720 }
721 }
722
723 fn send_text(&mut self, text: &SendText, _: &mut Window, cx: &mut Context<Self>) {
724 self.clear_bell(cx);
725 self.terminal.update(cx, |term, _| {
726 term.input(text.0.to_string().into_bytes());
727 });
728 }
729
730 fn send_keystroke(&mut self, text: &SendKeystroke, _: &mut Window, cx: &mut Context<Self>) {
731 if let Some(keystroke) = Keystroke::parse(&text.0).log_err() {
732 self.clear_bell(cx);
733 self.terminal.update(cx, |term, cx| {
734 let processed =
735 term.try_keystroke(&keystroke, TerminalSettings::get_global(cx).option_as_meta);
736 if processed && term.vi_mode_enabled() {
737 cx.notify();
738 }
739 processed
740 });
741 }
742 }
743
744 fn dispatch_context(&self, cx: &App) -> KeyContext {
745 let mut dispatch_context = KeyContext::new_with_defaults();
746 dispatch_context.add("Terminal");
747
748 if self.terminal.read(cx).vi_mode_enabled() {
749 dispatch_context.add("vi_mode");
750 }
751
752 let mode = self.terminal.read(cx).last_content.mode;
753 dispatch_context.set(
754 "screen",
755 if mode.contains(TermMode::ALT_SCREEN) {
756 "alt"
757 } else {
758 "normal"
759 },
760 );
761
762 if mode.contains(TermMode::APP_CURSOR) {
763 dispatch_context.add("DECCKM");
764 }
765 if mode.contains(TermMode::APP_KEYPAD) {
766 dispatch_context.add("DECPAM");
767 } else {
768 dispatch_context.add("DECPNM");
769 }
770 if mode.contains(TermMode::SHOW_CURSOR) {
771 dispatch_context.add("DECTCEM");
772 }
773 if mode.contains(TermMode::LINE_WRAP) {
774 dispatch_context.add("DECAWM");
775 }
776 if mode.contains(TermMode::ORIGIN) {
777 dispatch_context.add("DECOM");
778 }
779 if mode.contains(TermMode::INSERT) {
780 dispatch_context.add("IRM");
781 }
782 //LNM is apparently the name for this. https://vt100.net/docs/vt510-rm/LNM.html
783 if mode.contains(TermMode::LINE_FEED_NEW_LINE) {
784 dispatch_context.add("LNM");
785 }
786 if mode.contains(TermMode::FOCUS_IN_OUT) {
787 dispatch_context.add("report_focus");
788 }
789 if mode.contains(TermMode::ALTERNATE_SCROLL) {
790 dispatch_context.add("alternate_scroll");
791 }
792 if mode.contains(TermMode::BRACKETED_PASTE) {
793 dispatch_context.add("bracketed_paste");
794 }
795 if mode.intersects(TermMode::MOUSE_MODE) {
796 dispatch_context.add("any_mouse_reporting");
797 }
798 {
799 let mouse_reporting = if mode.contains(TermMode::MOUSE_REPORT_CLICK) {
800 "click"
801 } else if mode.contains(TermMode::MOUSE_DRAG) {
802 "drag"
803 } else if mode.contains(TermMode::MOUSE_MOTION) {
804 "motion"
805 } else {
806 "off"
807 };
808 dispatch_context.set("mouse_reporting", mouse_reporting);
809 }
810 {
811 let format = if mode.contains(TermMode::SGR_MOUSE) {
812 "sgr"
813 } else if mode.contains(TermMode::UTF8_MOUSE) {
814 "utf8"
815 } else {
816 "normal"
817 };
818 dispatch_context.set("mouse_format", format);
819 };
820
821 if self.terminal.read(cx).last_content.selection.is_some() {
822 dispatch_context.add("selection");
823 }
824
825 dispatch_context
826 }
827
828 fn set_terminal(
829 &mut self,
830 terminal: Entity<Terminal>,
831 window: &mut Window,
832 cx: &mut Context<TerminalView>,
833 ) {
834 self._terminal_subscriptions =
835 subscribe_for_terminal_events(&terminal, self.workspace.clone(), window, cx);
836 self.terminal = terminal;
837 }
838
839 // Hack: Using editor in terminal causes cyclic dependency i.e. editor -> terminal -> project -> editor.
840 fn map_show_scrollbar_from_editor_to_terminal(
841 show_scrollbar: editor::ShowScrollbar,
842 ) -> terminal_settings::ShowScrollbar {
843 match show_scrollbar {
844 editor::ShowScrollbar::Auto => terminal_settings::ShowScrollbar::Auto,
845 editor::ShowScrollbar::System => terminal_settings::ShowScrollbar::System,
846 editor::ShowScrollbar::Always => terminal_settings::ShowScrollbar::Always,
847 editor::ShowScrollbar::Never => terminal_settings::ShowScrollbar::Never,
848 }
849 }
850
851 fn should_show_scrollbar(cx: &App) -> bool {
852 let show = TerminalSettings::get_global(cx)
853 .scrollbar
854 .show
855 .unwrap_or_else(|| {
856 Self::map_show_scrollbar_from_editor_to_terminal(
857 EditorSettings::get_global(cx).scrollbar.show,
858 )
859 });
860 match show {
861 terminal_settings::ShowScrollbar::Auto => true,
862 terminal_settings::ShowScrollbar::System => true,
863 terminal_settings::ShowScrollbar::Always => true,
864 terminal_settings::ShowScrollbar::Never => false,
865 }
866 }
867
868 fn should_autohide_scrollbar(cx: &App) -> bool {
869 let show = TerminalSettings::get_global(cx)
870 .scrollbar
871 .show
872 .unwrap_or_else(|| {
873 Self::map_show_scrollbar_from_editor_to_terminal(
874 EditorSettings::get_global(cx).scrollbar.show,
875 )
876 });
877 match show {
878 terminal_settings::ShowScrollbar::Auto => true,
879 terminal_settings::ShowScrollbar::System => cx
880 .try_global::<ScrollbarAutoHide>()
881 .map_or_else(|| cx.should_auto_hide_scrollbars(), |autohide| autohide.0),
882 terminal_settings::ShowScrollbar::Always => false,
883 terminal_settings::ShowScrollbar::Never => true,
884 }
885 }
886
887 fn hide_scrollbar(&mut self, cx: &mut Context<Self>) {
888 const SCROLLBAR_SHOW_INTERVAL: Duration = Duration::from_secs(1);
889 if !Self::should_autohide_scrollbar(cx) {
890 return;
891 }
892 self.hide_scrollbar_task = Some(cx.spawn(async move |panel, cx| {
893 cx.background_executor()
894 .timer(SCROLLBAR_SHOW_INTERVAL)
895 .await;
896 panel
897 .update(cx, |panel, cx| {
898 panel.show_scrollbar = false;
899 cx.notify();
900 })
901 .log_err();
902 }))
903 }
904
905 fn render_scrollbar(&self, window: &Window, cx: &mut Context<Self>) -> Option<Stateful<Div>> {
906 if !Self::should_show_scrollbar(cx)
907 || !(self.show_scrollbar || self.scrollbar_state.is_dragging())
908 || !self.content_mode(window, cx).is_scrollable()
909 {
910 return None;
911 }
912
913 if self.terminal.read(cx).total_lines() == self.terminal.read(cx).viewport_lines() {
914 return None;
915 }
916
917 self.scroll_handle.update(self.terminal.read(cx));
918
919 if let Some(new_display_offset) = self.scroll_handle.future_display_offset.take() {
920 self.terminal.update(cx, |term, _| {
921 let delta = new_display_offset as i32 - term.last_content.display_offset as i32;
922 match delta.cmp(&0) {
923 std::cmp::Ordering::Greater => term.scroll_up_by(delta as usize),
924 std::cmp::Ordering::Less => term.scroll_down_by(-delta as usize),
925 std::cmp::Ordering::Equal => {}
926 }
927 });
928 }
929
930 Some(
931 div()
932 .occlude()
933 .id("terminal-view-scroll")
934 .on_mouse_move(cx.listener(|_, _, _window, cx| {
935 cx.notify();
936 cx.stop_propagation()
937 }))
938 .on_hover(|_, _window, cx| {
939 cx.stop_propagation();
940 })
941 .on_any_mouse_down(|_, _window, cx| {
942 cx.stop_propagation();
943 })
944 .on_mouse_up(
945 MouseButton::Left,
946 cx.listener(|terminal_view, _, window, cx| {
947 if !terminal_view.scrollbar_state.is_dragging()
948 && !terminal_view.focus_handle.contains_focused(window, cx)
949 {
950 terminal_view.hide_scrollbar(cx);
951 cx.notify();
952 }
953 cx.stop_propagation();
954 }),
955 )
956 .on_scroll_wheel(cx.listener(|_, _, _window, cx| {
957 cx.notify();
958 }))
959 .h_full()
960 .absolute()
961 .right_1()
962 .top_1()
963 .bottom_0()
964 .w(px(12.))
965 .cursor_default()
966 .children(Scrollbar::vertical(self.scrollbar_state.clone())),
967 )
968 }
969
970 fn rerun_button(task: &TaskState) -> Option<IconButton> {
971 if !task.show_rerun {
972 return None;
973 }
974
975 let task_id = task.id.clone();
976 Some(
977 IconButton::new("rerun-icon", IconName::Rerun)
978 .icon_size(IconSize::Small)
979 .size(ButtonSize::Compact)
980 .icon_color(Color::Default)
981 .shape(ui::IconButtonShape::Square)
982 .tooltip(move |window, cx| {
983 Tooltip::for_action("Rerun task", &RerunTask, window, cx)
984 })
985 .on_click(move |_, window, cx| {
986 window.dispatch_action(Box::new(terminal_rerun_override(&task_id)), cx);
987 }),
988 )
989 }
990}
991
992fn terminal_rerun_override(task: &TaskId) -> zed_actions::Rerun {
993 zed_actions::Rerun {
994 task_id: Some(task.0.clone()),
995 allow_concurrent_runs: Some(true),
996 use_new_terminal: Some(false),
997 reevaluate_context: false,
998 }
999}
1000
1001fn subscribe_for_terminal_events(
1002 terminal: &Entity<Terminal>,
1003 workspace: WeakEntity<Workspace>,
1004 window: &mut Window,
1005 cx: &mut Context<TerminalView>,
1006) -> Vec<Subscription> {
1007 let terminal_subscription = cx.observe(terminal, |_, _, cx| cx.notify());
1008 let mut previous_cwd = None;
1009 let terminal_events_subscription = cx.subscribe_in(
1010 terminal,
1011 window,
1012 move |terminal_view, terminal, event, window, cx| {
1013 let current_cwd = terminal.read(cx).working_directory();
1014 if current_cwd != previous_cwd {
1015 previous_cwd = current_cwd;
1016 terminal_view.cwd_serialized = false;
1017 }
1018
1019 match event {
1020 Event::Wakeup => {
1021 cx.notify();
1022 cx.emit(Event::Wakeup);
1023 cx.emit(ItemEvent::UpdateTab);
1024 cx.emit(SearchEvent::MatchesInvalidated);
1025 }
1026
1027 Event::Bell => {
1028 terminal_view.has_bell = true;
1029 cx.emit(Event::Wakeup);
1030 }
1031
1032 Event::BlinkChanged(blinking) => {
1033 if matches!(
1034 TerminalSettings::get_global(cx).blinking,
1035 TerminalBlink::TerminalControlled
1036 ) {
1037 terminal_view.blinking_terminal_enabled = *blinking;
1038 }
1039 }
1040
1041 Event::TitleChanged => {
1042 cx.emit(ItemEvent::UpdateTab);
1043 }
1044
1045 Event::NewNavigationTarget(maybe_navigation_target) => {
1046 match maybe_navigation_target
1047 .as_ref()
1048 .zip(terminal.read(cx).last_content.last_hovered_word.as_ref())
1049 {
1050 Some((MaybeNavigationTarget::Url(url), hovered_word)) => {
1051 if Some(hovered_word)
1052 != terminal_view
1053 .hover
1054 .as_ref()
1055 .map(|hover| &hover.hovered_word)
1056 {
1057 terminal_view.hover = Some(HoverTarget {
1058 tooltip: url.clone(),
1059 hovered_word: hovered_word.clone(),
1060 });
1061 terminal_view.hover_tooltip_update = Task::ready(());
1062 cx.notify();
1063 }
1064 }
1065 Some((MaybeNavigationTarget::PathLike(path_like_target), hovered_word)) => {
1066 if Some(hovered_word)
1067 != terminal_view
1068 .hover
1069 .as_ref()
1070 .map(|hover| &hover.hovered_word)
1071 {
1072 let valid_files_to_open_task = possible_open_target(
1073 &workspace,
1074 &path_like_target.terminal_dir,
1075 &path_like_target.maybe_path,
1076 cx,
1077 );
1078 let hovered_word = hovered_word.clone();
1079
1080 terminal_view.hover = None;
1081 terminal_view.hover_tooltip_update =
1082 cx.spawn(async move |terminal_view, cx| {
1083 let file_to_open = valid_files_to_open_task.await;
1084 terminal_view
1085 .update(cx, |terminal_view, _| match file_to_open {
1086 Some(
1087 OpenTarget::File(path, _)
1088 | OpenTarget::Worktree(path, _),
1089 ) => {
1090 terminal_view.hover = Some(HoverTarget {
1091 tooltip: path.to_string(|path| {
1092 path.to_string_lossy().to_string()
1093 }),
1094 hovered_word,
1095 });
1096 }
1097 None => {
1098 terminal_view.hover = None;
1099 }
1100 })
1101 .ok();
1102 });
1103 cx.notify();
1104 }
1105 }
1106 None => {
1107 terminal_view.hover = None;
1108 terminal_view.hover_tooltip_update = Task::ready(());
1109 cx.notify();
1110 }
1111 }
1112 }
1113
1114 Event::Open(maybe_navigation_target) => match maybe_navigation_target {
1115 MaybeNavigationTarget::Url(url) => cx.open_url(url),
1116
1117 MaybeNavigationTarget::PathLike(path_like_target) => {
1118 if terminal_view.hover.is_none() {
1119 return;
1120 }
1121 let task_workspace = workspace.clone();
1122 let path_like_target = path_like_target.clone();
1123 cx.spawn_in(window, async move |terminal_view, cx| {
1124 let open_target = terminal_view
1125 .update(cx, |_, cx| {
1126 possible_open_target(
1127 &task_workspace,
1128 &path_like_target.terminal_dir,
1129 &path_like_target.maybe_path,
1130 cx,
1131 )
1132 })?
1133 .await;
1134 if let Some(open_target) = open_target {
1135 let path_to_open = open_target.path();
1136 let opened_items = task_workspace
1137 .update_in(cx, |workspace, window, cx| {
1138 workspace.open_paths(
1139 vec![path_to_open.path.clone()],
1140 OpenOptions {
1141 visible: Some(OpenVisible::OnlyDirectories),
1142 ..Default::default()
1143 },
1144 None,
1145 window,
1146 cx,
1147 )
1148 })
1149 .context("workspace update")?
1150 .await;
1151 if opened_items.len() != 1 {
1152 debug_panic!(
1153 "Received {} items for one path {path_to_open:?}",
1154 opened_items.len(),
1155 );
1156 }
1157
1158 if let Some(opened_item) = opened_items.first() {
1159 if open_target.is_file() {
1160 if let Some(Ok(opened_item)) = opened_item {
1161 if let Some(row) = path_to_open.row {
1162 let col = path_to_open.column.unwrap_or(0);
1163 if let Some(active_editor) =
1164 opened_item.downcast::<Editor>()
1165 {
1166 active_editor
1167 .downgrade()
1168 .update_in(cx, |editor, window, cx| {
1169 editor.go_to_singleton_buffer_point(
1170 language::Point::new(
1171 row.saturating_sub(1),
1172 col.saturating_sub(1),
1173 ),
1174 window,
1175 cx,
1176 )
1177 })
1178 .log_err();
1179 }
1180 }
1181 }
1182 } else if open_target.is_dir() {
1183 task_workspace.update(cx, |workspace, cx| {
1184 workspace.project().update(cx, |_, cx| {
1185 cx.emit(project::Event::ActivateProjectPanel);
1186 })
1187 })?;
1188 }
1189 }
1190 }
1191
1192 anyhow::Ok(())
1193 })
1194 .detach_and_log_err(cx)
1195 }
1196 },
1197 Event::BreadcrumbsChanged => cx.emit(ItemEvent::UpdateBreadcrumbs),
1198 Event::CloseTerminal => cx.emit(ItemEvent::CloseItem),
1199 Event::SelectionsChanged => {
1200 window.invalidate_character_coordinates();
1201 cx.emit(SearchEvent::ActiveMatchChanged)
1202 }
1203 }
1204 },
1205 );
1206 vec![terminal_subscription, terminal_events_subscription]
1207}
1208
1209#[derive(Debug, Clone)]
1210enum OpenTarget {
1211 Worktree(PathWithPosition, Entry),
1212 File(PathWithPosition, Metadata),
1213}
1214
1215impl OpenTarget {
1216 fn is_file(&self) -> bool {
1217 match self {
1218 OpenTarget::Worktree(_, entry) => entry.is_file(),
1219 OpenTarget::File(_, metadata) => !metadata.is_dir,
1220 }
1221 }
1222
1223 fn is_dir(&self) -> bool {
1224 match self {
1225 OpenTarget::Worktree(_, entry) => entry.is_dir(),
1226 OpenTarget::File(_, metadata) => metadata.is_dir,
1227 }
1228 }
1229
1230 fn path(&self) -> &PathWithPosition {
1231 match self {
1232 OpenTarget::Worktree(path, _) => path,
1233 OpenTarget::File(path, _) => path,
1234 }
1235 }
1236}
1237
1238fn possible_open_target(
1239 workspace: &WeakEntity<Workspace>,
1240 cwd: &Option<PathBuf>,
1241 maybe_path: &str,
1242 cx: &App,
1243) -> Task<Option<OpenTarget>> {
1244 let Some(workspace) = workspace.upgrade() else {
1245 return Task::ready(None);
1246 };
1247 // We have to check for both paths, as on Unix, certain paths with positions are valid file paths too.
1248 // We can be on FS remote part, without real FS, so cannot canonicalize or check for existence the path right away.
1249 let mut potential_paths = Vec::new();
1250 let original_path = PathWithPosition::from_path(PathBuf::from(maybe_path));
1251 let path_with_position = PathWithPosition::parse_str(maybe_path);
1252 let worktree_candidates = workspace
1253 .read(cx)
1254 .worktrees(cx)
1255 .sorted_by_key(|worktree| {
1256 let worktree_root = worktree.read(cx).abs_path();
1257 match cwd
1258 .as_ref()
1259 .and_then(|cwd| worktree_root.strip_prefix(cwd).ok())
1260 {
1261 Some(cwd_child) => cwd_child.components().count(),
1262 None => usize::MAX,
1263 }
1264 })
1265 .collect::<Vec<_>>();
1266 // Since we do not check paths via FS and joining, we need to strip off potential `./`, `a/`, `b/` prefixes out of it.
1267 for prefix_str in GIT_DIFF_PATH_PREFIXES.iter().chain(std::iter::once(&".")) {
1268 if let Some(stripped) = original_path.path.strip_prefix(prefix_str).ok() {
1269 potential_paths.push(PathWithPosition {
1270 path: stripped.to_owned(),
1271 row: original_path.row,
1272 column: original_path.column,
1273 });
1274 }
1275 if let Some(stripped) = path_with_position.path.strip_prefix(prefix_str).ok() {
1276 potential_paths.push(PathWithPosition {
1277 path: stripped.to_owned(),
1278 row: path_with_position.row,
1279 column: path_with_position.column,
1280 });
1281 }
1282 }
1283
1284 let insert_both_paths = original_path != path_with_position;
1285 potential_paths.insert(0, original_path);
1286 if insert_both_paths {
1287 potential_paths.insert(1, path_with_position);
1288 }
1289
1290 // If we won't find paths "easily", we can traverse the entire worktree to look what ends with the potential path suffix.
1291 // That will be slow, though, so do the fast checks first.
1292 let mut worktree_paths_to_check = Vec::new();
1293 for worktree in &worktree_candidates {
1294 let worktree_root = worktree.read(cx).abs_path();
1295 let mut paths_to_check = Vec::with_capacity(potential_paths.len());
1296
1297 for path_with_position in &potential_paths {
1298 let path_to_check = if worktree_root.ends_with(&path_with_position.path) {
1299 let root_path_with_position = PathWithPosition {
1300 path: worktree_root.to_path_buf(),
1301 row: path_with_position.row,
1302 column: path_with_position.column,
1303 };
1304 match worktree.read(cx).root_entry() {
1305 Some(root_entry) => {
1306 return Task::ready(Some(OpenTarget::Worktree(
1307 root_path_with_position,
1308 root_entry.clone(),
1309 )));
1310 }
1311 None => root_path_with_position,
1312 }
1313 } else {
1314 PathWithPosition {
1315 path: path_with_position
1316 .path
1317 .strip_prefix(&worktree_root)
1318 .unwrap_or(&path_with_position.path)
1319 .to_owned(),
1320 row: path_with_position.row,
1321 column: path_with_position.column,
1322 }
1323 };
1324
1325 if path_to_check.path.is_relative() {
1326 if let Some(entry) = worktree.read(cx).entry_for_path(&path_to_check.path) {
1327 return Task::ready(Some(OpenTarget::Worktree(
1328 PathWithPosition {
1329 path: worktree_root.join(&entry.path),
1330 row: path_to_check.row,
1331 column: path_to_check.column,
1332 },
1333 entry.clone(),
1334 )));
1335 }
1336 }
1337
1338 paths_to_check.push(path_to_check);
1339 }
1340
1341 if !paths_to_check.is_empty() {
1342 worktree_paths_to_check.push((worktree.clone(), paths_to_check));
1343 }
1344 }
1345
1346 // Before entire worktree traversal(s), make an attempt to do FS checks if available.
1347 let fs_paths_to_check = if workspace.read(cx).project().read(cx).is_local() {
1348 potential_paths
1349 .into_iter()
1350 .flat_map(|path_to_check| {
1351 let mut paths_to_check = Vec::new();
1352 let maybe_path = &path_to_check.path;
1353 if maybe_path.starts_with("~") {
1354 if let Some(home_path) =
1355 maybe_path
1356 .strip_prefix("~")
1357 .ok()
1358 .and_then(|stripped_maybe_path| {
1359 Some(dirs::home_dir()?.join(stripped_maybe_path))
1360 })
1361 {
1362 paths_to_check.push(PathWithPosition {
1363 path: home_path,
1364 row: path_to_check.row,
1365 column: path_to_check.column,
1366 });
1367 }
1368 } else {
1369 paths_to_check.push(PathWithPosition {
1370 path: maybe_path.clone(),
1371 row: path_to_check.row,
1372 column: path_to_check.column,
1373 });
1374 if maybe_path.is_relative() {
1375 if let Some(cwd) = &cwd {
1376 paths_to_check.push(PathWithPosition {
1377 path: cwd.join(maybe_path),
1378 row: path_to_check.row,
1379 column: path_to_check.column,
1380 });
1381 }
1382 for worktree in &worktree_candidates {
1383 paths_to_check.push(PathWithPosition {
1384 path: worktree.read(cx).abs_path().join(maybe_path),
1385 row: path_to_check.row,
1386 column: path_to_check.column,
1387 });
1388 }
1389 }
1390 }
1391 paths_to_check
1392 })
1393 .collect()
1394 } else {
1395 Vec::new()
1396 };
1397
1398 let worktree_check_task = cx.spawn(async move |cx| {
1399 for (worktree, worktree_paths_to_check) in worktree_paths_to_check {
1400 let found_entry = worktree
1401 .update(cx, |worktree, _| {
1402 let worktree_root = worktree.abs_path();
1403 let mut traversal = worktree.traverse_from_path(true, true, false, "".as_ref());
1404 while let Some(entry) = traversal.next() {
1405 if let Some(path_in_worktree) = worktree_paths_to_check
1406 .iter()
1407 .find(|path_to_check| entry.path.ends_with(&path_to_check.path))
1408 {
1409 return Some(OpenTarget::Worktree(
1410 PathWithPosition {
1411 path: worktree_root.join(&entry.path),
1412 row: path_in_worktree.row,
1413 column: path_in_worktree.column,
1414 },
1415 entry.clone(),
1416 ));
1417 }
1418 }
1419 None
1420 })
1421 .ok()?;
1422 if let Some(found_entry) = found_entry {
1423 return Some(found_entry);
1424 }
1425 }
1426 None
1427 });
1428
1429 let fs = workspace.read(cx).project().read(cx).fs().clone();
1430 cx.background_spawn(async move {
1431 for mut path_to_check in fs_paths_to_check {
1432 if let Some(fs_path_to_check) = fs.canonicalize(&path_to_check.path).await.ok() {
1433 if let Some(metadata) = fs.metadata(&fs_path_to_check).await.ok().flatten() {
1434 path_to_check.path = fs_path_to_check;
1435 return Some(OpenTarget::File(path_to_check, metadata));
1436 }
1437 }
1438 }
1439
1440 worktree_check_task.await
1441 })
1442}
1443
1444fn regex_search_for_query(query: &project::search::SearchQuery) -> Option<RegexSearch> {
1445 let str = query.as_str();
1446 if query.is_regex() {
1447 if str == "." {
1448 return None;
1449 }
1450 RegexSearch::new(str).ok()
1451 } else {
1452 RegexSearch::new(®ex::escape(str)).ok()
1453 }
1454}
1455
1456impl TerminalView {
1457 fn key_down(&mut self, event: &KeyDownEvent, window: &mut Window, cx: &mut Context<Self>) {
1458 self.clear_bell(cx);
1459 self.pause_cursor_blinking(window, cx);
1460
1461 self.terminal.update(cx, |term, cx| {
1462 let handled = term.try_keystroke(
1463 &event.keystroke,
1464 TerminalSettings::get_global(cx).option_as_meta,
1465 );
1466 if handled {
1467 cx.stop_propagation();
1468 }
1469 });
1470 }
1471
1472 fn focus_in(&mut self, window: &mut Window, cx: &mut Context<Self>) {
1473 self.terminal.update(cx, |terminal, _| {
1474 terminal.set_cursor_shape(self.cursor_shape);
1475 terminal.focus_in();
1476 });
1477 self.blink_cursors(self.blink_epoch, window, cx);
1478 window.invalidate_character_coordinates();
1479 cx.notify();
1480 }
1481
1482 fn focus_out(&mut self, _: &mut Window, cx: &mut Context<Self>) {
1483 self.terminal.update(cx, |terminal, _| {
1484 terminal.focus_out();
1485 terminal.set_cursor_shape(CursorShape::Hollow);
1486 });
1487 self.hide_scrollbar(cx);
1488 cx.notify();
1489 }
1490}
1491
1492impl Render for TerminalView {
1493 fn render(&mut self, window: &mut Window, cx: &mut Context<Self>) -> impl IntoElement {
1494 let terminal_handle = self.terminal.clone();
1495 let terminal_view_handle = cx.entity().clone();
1496
1497 let focused = self.focus_handle.is_focused(window);
1498
1499 div()
1500 .id("terminal-view")
1501 .size_full()
1502 .relative()
1503 .track_focus(&self.focus_handle(cx))
1504 .key_context(self.dispatch_context(cx))
1505 .on_action(cx.listener(TerminalView::send_text))
1506 .on_action(cx.listener(TerminalView::send_keystroke))
1507 .on_action(cx.listener(TerminalView::copy))
1508 .on_action(cx.listener(TerminalView::paste))
1509 .on_action(cx.listener(TerminalView::clear))
1510 .on_action(cx.listener(TerminalView::scroll_line_up))
1511 .on_action(cx.listener(TerminalView::scroll_line_down))
1512 .on_action(cx.listener(TerminalView::scroll_page_up))
1513 .on_action(cx.listener(TerminalView::scroll_page_down))
1514 .on_action(cx.listener(TerminalView::scroll_to_top))
1515 .on_action(cx.listener(TerminalView::scroll_to_bottom))
1516 .on_action(cx.listener(TerminalView::toggle_vi_mode))
1517 .on_action(cx.listener(TerminalView::show_character_palette))
1518 .on_action(cx.listener(TerminalView::select_all))
1519 .on_action(cx.listener(TerminalView::rerun_task))
1520 .on_key_down(cx.listener(Self::key_down))
1521 .on_mouse_down(
1522 MouseButton::Right,
1523 cx.listener(|this, event: &MouseDownEvent, window, cx| {
1524 if !this.terminal.read(cx).mouse_mode(event.modifiers.shift) {
1525 if this.terminal.read(cx).last_content.selection.is_none() {
1526 this.terminal.update(cx, |terminal, _| {
1527 terminal.select_word_at_event_position(event);
1528 });
1529 };
1530 this.deploy_context_menu(event.position, window, cx);
1531 cx.notify();
1532 }
1533 }),
1534 )
1535 .on_hover(cx.listener(|this, hovered, window, cx| {
1536 if *hovered {
1537 this.show_scrollbar = true;
1538 this.hide_scrollbar_task.take();
1539 cx.notify();
1540 } else if !this.focus_handle.contains_focused(window, cx) {
1541 this.hide_scrollbar(cx);
1542 }
1543 }))
1544 .child(
1545 // TODO: Oddly this wrapper div is needed for TerminalElement to not steal events from the context menu
1546 div()
1547 .size_full()
1548 .child(TerminalElement::new(
1549 terminal_handle,
1550 terminal_view_handle,
1551 self.workspace.clone(),
1552 self.focus_handle.clone(),
1553 focused,
1554 self.should_show_cursor(focused, cx),
1555 self.block_below_cursor.clone(),
1556 self.mode.clone(),
1557 ))
1558 .when_some(self.render_scrollbar(window, cx), |div, scrollbar| {
1559 div.child(scrollbar)
1560 }),
1561 )
1562 .children(self.context_menu.as_ref().map(|(menu, position, _)| {
1563 deferred(
1564 anchored()
1565 .position(*position)
1566 .anchor(gpui::Corner::TopLeft)
1567 .child(menu.clone()),
1568 )
1569 .with_priority(1)
1570 }))
1571 }
1572}
1573
1574impl Item for TerminalView {
1575 type Event = ItemEvent;
1576
1577 fn tab_tooltip_content(&self, cx: &App) -> Option<TabTooltipContent> {
1578 let terminal = self.terminal().read(cx);
1579 let title = terminal.title(false);
1580 let pid = terminal.pty_info.pid_getter().fallback_pid();
1581
1582 Some(TabTooltipContent::Custom(Box::new(move |_window, cx| {
1583 cx.new(|_| TerminalTooltip::new(title.clone(), pid)).into()
1584 })))
1585 }
1586
1587 fn tab_content(&self, params: TabContentParams, _window: &Window, cx: &App) -> AnyElement {
1588 let terminal = self.terminal().read(cx);
1589 let title = terminal.title(true);
1590
1591 let (icon, icon_color, rerun_button) = match terminal.task() {
1592 Some(terminal_task) => match &terminal_task.status {
1593 TaskStatus::Running => (
1594 IconName::PlayOutlined,
1595 Color::Disabled,
1596 TerminalView::rerun_button(&terminal_task),
1597 ),
1598 TaskStatus::Unknown => (
1599 IconName::Warning,
1600 Color::Warning,
1601 TerminalView::rerun_button(&terminal_task),
1602 ),
1603 TaskStatus::Completed { success } => {
1604 let rerun_button = TerminalView::rerun_button(&terminal_task);
1605
1606 if *success {
1607 (IconName::Check, Color::Success, rerun_button)
1608 } else {
1609 (IconName::XCircle, Color::Error, rerun_button)
1610 }
1611 }
1612 },
1613 None => (IconName::Terminal, Color::Muted, None),
1614 };
1615
1616 h_flex()
1617 .gap_1()
1618 .group("term-tab-icon")
1619 .child(
1620 h_flex()
1621 .group("term-tab-icon")
1622 .child(
1623 div()
1624 .when(rerun_button.is_some(), |this| {
1625 this.hover(|style| style.invisible().w_0())
1626 })
1627 .child(Icon::new(icon).color(icon_color)),
1628 )
1629 .when_some(rerun_button, |this, rerun_button| {
1630 this.child(
1631 div()
1632 .absolute()
1633 .visible_on_hover("term-tab-icon")
1634 .child(rerun_button),
1635 )
1636 }),
1637 )
1638 .child(Label::new(title).color(params.text_color()))
1639 .into_any()
1640 }
1641
1642 fn tab_content_text(&self, detail: usize, cx: &App) -> SharedString {
1643 let terminal = self.terminal().read(cx);
1644 terminal.title(detail == 0).into()
1645 }
1646
1647 fn telemetry_event_text(&self) -> Option<&'static str> {
1648 None
1649 }
1650
1651 fn clone_on_split(
1652 &self,
1653 workspace_id: Option<WorkspaceId>,
1654 window: &mut Window,
1655 cx: &mut Context<Self>,
1656 ) -> Option<Entity<Self>> {
1657 let terminal = self
1658 .project
1659 .update(cx, |project, cx| {
1660 let terminal = self.terminal().read(cx);
1661 let working_directory = terminal
1662 .working_directory()
1663 .or_else(|| Some(project.active_project_directory(cx)?.to_path_buf()));
1664 let python_venv_directory = terminal.python_venv_directory.clone();
1665 project.create_terminal_with_venv(
1666 TerminalKind::Shell(working_directory),
1667 python_venv_directory,
1668 cx,
1669 )
1670 })
1671 .ok()?
1672 .log_err()?;
1673
1674 Some(cx.new(|cx| {
1675 TerminalView::new(
1676 terminal,
1677 self.workspace.clone(),
1678 workspace_id,
1679 self.project.clone(),
1680 window,
1681 cx,
1682 )
1683 }))
1684 }
1685
1686 fn is_dirty(&self, cx: &gpui::App) -> bool {
1687 match self.terminal.read(cx).task() {
1688 Some(task) => task.status == TaskStatus::Running,
1689 None => self.has_bell(),
1690 }
1691 }
1692
1693 fn has_conflict(&self, _cx: &App) -> bool {
1694 false
1695 }
1696
1697 fn can_save_as(&self, _cx: &App) -> bool {
1698 false
1699 }
1700
1701 fn is_singleton(&self, _cx: &App) -> bool {
1702 true
1703 }
1704
1705 fn as_searchable(&self, handle: &Entity<Self>) -> Option<Box<dyn SearchableItemHandle>> {
1706 Some(Box::new(handle.clone()))
1707 }
1708
1709 fn breadcrumb_location(&self, cx: &App) -> ToolbarItemLocation {
1710 if self.show_breadcrumbs && !self.terminal().read(cx).breadcrumb_text.trim().is_empty() {
1711 ToolbarItemLocation::PrimaryLeft
1712 } else {
1713 ToolbarItemLocation::Hidden
1714 }
1715 }
1716
1717 fn breadcrumbs(&self, _: &theme::Theme, cx: &App) -> Option<Vec<BreadcrumbText>> {
1718 Some(vec![BreadcrumbText {
1719 text: self.terminal().read(cx).breadcrumb_text.clone(),
1720 highlights: None,
1721 font: None,
1722 }])
1723 }
1724
1725 fn added_to_workspace(
1726 &mut self,
1727 workspace: &mut Workspace,
1728 _: &mut Window,
1729 cx: &mut Context<Self>,
1730 ) {
1731 if self.terminal().read(cx).task().is_none() {
1732 if let Some((new_id, old_id)) = workspace.database_id().zip(self.workspace_id) {
1733 log::debug!(
1734 "Updating workspace id for the terminal, old: {old_id:?}, new: {new_id:?}",
1735 );
1736 cx.background_spawn(TERMINAL_DB.update_workspace_id(
1737 new_id,
1738 old_id,
1739 cx.entity_id().as_u64(),
1740 ))
1741 .detach();
1742 }
1743 self.workspace_id = workspace.database_id();
1744 }
1745 }
1746
1747 fn to_item_events(event: &Self::Event, mut f: impl FnMut(ItemEvent)) {
1748 f(*event)
1749 }
1750}
1751
1752impl SerializableItem for TerminalView {
1753 fn serialized_item_kind() -> &'static str {
1754 "Terminal"
1755 }
1756
1757 fn cleanup(
1758 workspace_id: WorkspaceId,
1759 alive_items: Vec<workspace::ItemId>,
1760 _window: &mut Window,
1761 cx: &mut App,
1762 ) -> Task<anyhow::Result<()>> {
1763 delete_unloaded_items(alive_items, workspace_id, "terminals", &TERMINAL_DB, cx)
1764 }
1765
1766 fn serialize(
1767 &mut self,
1768 _workspace: &mut Workspace,
1769 item_id: workspace::ItemId,
1770 _closing: bool,
1771 _: &mut Window,
1772 cx: &mut Context<Self>,
1773 ) -> Option<Task<anyhow::Result<()>>> {
1774 let terminal = self.terminal().read(cx);
1775 if terminal.task().is_some() {
1776 return None;
1777 }
1778
1779 if let Some((cwd, workspace_id)) = terminal.working_directory().zip(self.workspace_id) {
1780 self.cwd_serialized = true;
1781 Some(cx.background_spawn(async move {
1782 TERMINAL_DB
1783 .save_working_directory(item_id, workspace_id, cwd)
1784 .await
1785 }))
1786 } else {
1787 None
1788 }
1789 }
1790
1791 fn should_serialize(&self, _: &Self::Event) -> bool {
1792 !self.cwd_serialized
1793 }
1794
1795 fn deserialize(
1796 project: Entity<Project>,
1797 workspace: WeakEntity<Workspace>,
1798 workspace_id: workspace::WorkspaceId,
1799 item_id: workspace::ItemId,
1800 window: &mut Window,
1801 cx: &mut App,
1802 ) -> Task<anyhow::Result<Entity<Self>>> {
1803 window.spawn(cx, async move |cx| {
1804 let cwd = cx
1805 .update(|_window, cx| {
1806 let from_db = TERMINAL_DB
1807 .get_working_directory(item_id, workspace_id)
1808 .log_err()
1809 .flatten();
1810 if from_db
1811 .as_ref()
1812 .is_some_and(|from_db| !from_db.as_os_str().is_empty())
1813 {
1814 from_db
1815 } else {
1816 workspace
1817 .upgrade()
1818 .and_then(|workspace| default_working_directory(workspace.read(cx), cx))
1819 }
1820 })
1821 .ok()
1822 .flatten();
1823
1824 let terminal = project
1825 .update(cx, |project, cx| {
1826 project.create_terminal(TerminalKind::Shell(cwd), cx)
1827 })?
1828 .await?;
1829 cx.update(|window, cx| {
1830 cx.new(|cx| {
1831 TerminalView::new(
1832 terminal,
1833 workspace,
1834 Some(workspace_id),
1835 project.downgrade(),
1836 window,
1837 cx,
1838 )
1839 })
1840 })
1841 })
1842 }
1843}
1844
1845impl SearchableItem for TerminalView {
1846 type Match = RangeInclusive<Point>;
1847
1848 fn supported_options(&self) -> SearchOptions {
1849 SearchOptions {
1850 case: false,
1851 word: false,
1852 regex: true,
1853 replacement: false,
1854 selection: false,
1855 find_in_results: false,
1856 }
1857 }
1858
1859 /// Clear stored matches
1860 fn clear_matches(&mut self, _window: &mut Window, cx: &mut Context<Self>) {
1861 self.terminal().update(cx, |term, _| term.matches.clear())
1862 }
1863
1864 /// Store matches returned from find_matches somewhere for rendering
1865 fn update_matches(
1866 &mut self,
1867 matches: &[Self::Match],
1868 _window: &mut Window,
1869 cx: &mut Context<Self>,
1870 ) {
1871 self.terminal()
1872 .update(cx, |term, _| term.matches = matches.to_vec())
1873 }
1874
1875 /// Returns the selection content to pre-load into this search
1876 fn query_suggestion(&mut self, _window: &mut Window, cx: &mut Context<Self>) -> String {
1877 self.terminal()
1878 .read(cx)
1879 .last_content
1880 .selection_text
1881 .clone()
1882 .unwrap_or_default()
1883 }
1884
1885 /// Focus match at given index into the Vec of matches
1886 fn activate_match(
1887 &mut self,
1888 index: usize,
1889 _: &[Self::Match],
1890 _window: &mut Window,
1891 cx: &mut Context<Self>,
1892 ) {
1893 self.terminal()
1894 .update(cx, |term, _| term.activate_match(index));
1895 cx.notify();
1896 }
1897
1898 /// Add selections for all matches given.
1899 fn select_matches(&mut self, matches: &[Self::Match], _: &mut Window, cx: &mut Context<Self>) {
1900 self.terminal()
1901 .update(cx, |term, _| term.select_matches(matches));
1902 cx.notify();
1903 }
1904
1905 /// Get all of the matches for this query, should be done on the background
1906 fn find_matches(
1907 &mut self,
1908 query: Arc<SearchQuery>,
1909 _: &mut Window,
1910 cx: &mut Context<Self>,
1911 ) -> Task<Vec<Self::Match>> {
1912 if let Some(s) = regex_search_for_query(&query) {
1913 self.terminal()
1914 .update(cx, |term, cx| term.find_matches(s, cx))
1915 } else {
1916 Task::ready(vec![])
1917 }
1918 }
1919
1920 /// Reports back to the search toolbar what the active match should be (the selection)
1921 fn active_match_index(
1922 &mut self,
1923 direction: Direction,
1924 matches: &[Self::Match],
1925 _: &mut Window,
1926 cx: &mut Context<Self>,
1927 ) -> Option<usize> {
1928 // Selection head might have a value if there's a selection that isn't
1929 // associated with a match. Therefore, if there are no matches, we should
1930 // report None, no matter the state of the terminal
1931 let res = if !matches.is_empty() {
1932 if let Some(selection_head) = self.terminal().read(cx).selection_head {
1933 // If selection head is contained in a match. Return that match
1934 match direction {
1935 Direction::Prev => {
1936 // If no selection before selection head, return the first match
1937 Some(
1938 matches
1939 .iter()
1940 .enumerate()
1941 .rev()
1942 .find(|(_, search_match)| {
1943 search_match.contains(&selection_head)
1944 || search_match.start() < &selection_head
1945 })
1946 .map(|(ix, _)| ix)
1947 .unwrap_or(0),
1948 )
1949 }
1950 Direction::Next => {
1951 // If no selection after selection head, return the last match
1952 Some(
1953 matches
1954 .iter()
1955 .enumerate()
1956 .find(|(_, search_match)| {
1957 search_match.contains(&selection_head)
1958 || search_match.start() > &selection_head
1959 })
1960 .map(|(ix, _)| ix)
1961 .unwrap_or(matches.len().saturating_sub(1)),
1962 )
1963 }
1964 }
1965 } else {
1966 // Matches found but no active selection, return the first last one (closest to cursor)
1967 Some(matches.len().saturating_sub(1))
1968 }
1969 } else {
1970 None
1971 };
1972
1973 res
1974 }
1975 fn replace(
1976 &mut self,
1977 _: &Self::Match,
1978 _: &SearchQuery,
1979 _window: &mut Window,
1980 _: &mut Context<Self>,
1981 ) {
1982 // Replacement is not supported in terminal view, so this is a no-op.
1983 }
1984}
1985
1986///Gets the working directory for the given workspace, respecting the user's settings.
1987/// None implies "~" on whichever machine we end up on.
1988pub(crate) fn default_working_directory(workspace: &Workspace, cx: &App) -> Option<PathBuf> {
1989 match &TerminalSettings::get_global(cx).working_directory {
1990 WorkingDirectory::CurrentProjectDirectory => workspace
1991 .project()
1992 .read(cx)
1993 .active_project_directory(cx)
1994 .as_deref()
1995 .map(Path::to_path_buf),
1996 WorkingDirectory::FirstProjectDirectory => first_project_directory(workspace, cx),
1997 WorkingDirectory::AlwaysHome => None,
1998 WorkingDirectory::Always { directory } => {
1999 shellexpand::full(&directory) //TODO handle this better
2000 .ok()
2001 .map(|dir| Path::new(&dir.to_string()).to_path_buf())
2002 .filter(|dir| dir.is_dir())
2003 }
2004 }
2005}
2006///Gets the first project's home directory, or the home directory
2007fn first_project_directory(workspace: &Workspace, cx: &App) -> Option<PathBuf> {
2008 let worktree = workspace.worktrees(cx).next()?.read(cx);
2009 if !worktree.root_entry()?.is_dir() {
2010 return None;
2011 }
2012 Some(worktree.abs_path().to_path_buf())
2013}
2014
2015#[cfg(test)]
2016mod tests {
2017 use super::*;
2018 use gpui::TestAppContext;
2019 use project::{Entry, Project, ProjectPath, Worktree};
2020 use std::path::Path;
2021 use workspace::AppState;
2022
2023 // Working directory calculation tests
2024
2025 // No Worktrees in project -> home_dir()
2026 #[gpui::test]
2027 async fn no_worktree(cx: &mut TestAppContext) {
2028 let (project, workspace) = init_test(cx).await;
2029 cx.read(|cx| {
2030 let workspace = workspace.read(cx);
2031 let active_entry = project.read(cx).active_entry();
2032
2033 //Make sure environment is as expected
2034 assert!(active_entry.is_none());
2035 assert!(workspace.worktrees(cx).next().is_none());
2036
2037 let res = default_working_directory(workspace, cx);
2038 assert_eq!(res, None);
2039 let res = first_project_directory(workspace, cx);
2040 assert_eq!(res, None);
2041 });
2042 }
2043
2044 // No active entry, but a worktree, worktree is a file -> home_dir()
2045 #[gpui::test]
2046 async fn no_active_entry_worktree_is_file(cx: &mut TestAppContext) {
2047 let (project, workspace) = init_test(cx).await;
2048
2049 create_file_wt(project.clone(), "/root.txt", cx).await;
2050 cx.read(|cx| {
2051 let workspace = workspace.read(cx);
2052 let active_entry = project.read(cx).active_entry();
2053
2054 //Make sure environment is as expected
2055 assert!(active_entry.is_none());
2056 assert!(workspace.worktrees(cx).next().is_some());
2057
2058 let res = default_working_directory(workspace, cx);
2059 assert_eq!(res, None);
2060 let res = first_project_directory(workspace, cx);
2061 assert_eq!(res, None);
2062 });
2063 }
2064
2065 // No active entry, but a worktree, worktree is a folder -> worktree_folder
2066 #[gpui::test]
2067 async fn no_active_entry_worktree_is_dir(cx: &mut TestAppContext) {
2068 let (project, workspace) = init_test(cx).await;
2069
2070 let (_wt, _entry) = create_folder_wt(project.clone(), "/root/", cx).await;
2071 cx.update(|cx| {
2072 let workspace = workspace.read(cx);
2073 let active_entry = project.read(cx).active_entry();
2074
2075 assert!(active_entry.is_none());
2076 assert!(workspace.worktrees(cx).next().is_some());
2077
2078 let res = default_working_directory(workspace, cx);
2079 assert_eq!(res, Some((Path::new("/root/")).to_path_buf()));
2080 let res = first_project_directory(workspace, cx);
2081 assert_eq!(res, Some((Path::new("/root/")).to_path_buf()));
2082 });
2083 }
2084
2085 // Active entry with a work tree, worktree is a file -> worktree_folder()
2086 #[gpui::test]
2087 async fn active_entry_worktree_is_file(cx: &mut TestAppContext) {
2088 let (project, workspace) = init_test(cx).await;
2089
2090 let (_wt, _entry) = create_folder_wt(project.clone(), "/root1/", cx).await;
2091 let (wt2, entry2) = create_file_wt(project.clone(), "/root2.txt", cx).await;
2092 insert_active_entry_for(wt2, entry2, project.clone(), cx);
2093
2094 cx.update(|cx| {
2095 let workspace = workspace.read(cx);
2096 let active_entry = project.read(cx).active_entry();
2097
2098 assert!(active_entry.is_some());
2099
2100 let res = default_working_directory(workspace, cx);
2101 assert_eq!(res, Some((Path::new("/root1/")).to_path_buf()));
2102 let res = first_project_directory(workspace, cx);
2103 assert_eq!(res, Some((Path::new("/root1/")).to_path_buf()));
2104 });
2105 }
2106
2107 // Active entry, with a worktree, worktree is a folder -> worktree_folder
2108 #[gpui::test]
2109 async fn active_entry_worktree_is_dir(cx: &mut TestAppContext) {
2110 let (project, workspace) = init_test(cx).await;
2111
2112 let (_wt, _entry) = create_folder_wt(project.clone(), "/root1/", cx).await;
2113 let (wt2, entry2) = create_folder_wt(project.clone(), "/root2/", cx).await;
2114 insert_active_entry_for(wt2, entry2, project.clone(), cx);
2115
2116 cx.update(|cx| {
2117 let workspace = workspace.read(cx);
2118 let active_entry = project.read(cx).active_entry();
2119
2120 assert!(active_entry.is_some());
2121
2122 let res = default_working_directory(workspace, cx);
2123 assert_eq!(res, Some((Path::new("/root2/")).to_path_buf()));
2124 let res = first_project_directory(workspace, cx);
2125 assert_eq!(res, Some((Path::new("/root1/")).to_path_buf()));
2126 });
2127 }
2128
2129 /// Creates a worktree with 1 file: /root.txt
2130 pub async fn init_test(cx: &mut TestAppContext) -> (Entity<Project>, Entity<Workspace>) {
2131 let params = cx.update(AppState::test);
2132 cx.update(|cx| {
2133 terminal::init(cx);
2134 theme::init(theme::LoadThemes::JustBase, cx);
2135 Project::init_settings(cx);
2136 language::init(cx);
2137 });
2138
2139 let project = Project::test(params.fs.clone(), [], cx).await;
2140 let workspace = cx
2141 .add_window(|window, cx| Workspace::test_new(project.clone(), window, cx))
2142 .root(cx)
2143 .unwrap();
2144
2145 (project, workspace)
2146 }
2147
2148 /// Creates a worktree with 1 folder: /root{suffix}/
2149 async fn create_folder_wt(
2150 project: Entity<Project>,
2151 path: impl AsRef<Path>,
2152 cx: &mut TestAppContext,
2153 ) -> (Entity<Worktree>, Entry) {
2154 create_wt(project, true, path, cx).await
2155 }
2156
2157 /// Creates a worktree with 1 file: /root{suffix}.txt
2158 async fn create_file_wt(
2159 project: Entity<Project>,
2160 path: impl AsRef<Path>,
2161 cx: &mut TestAppContext,
2162 ) -> (Entity<Worktree>, Entry) {
2163 create_wt(project, false, path, cx).await
2164 }
2165
2166 async fn create_wt(
2167 project: Entity<Project>,
2168 is_dir: bool,
2169 path: impl AsRef<Path>,
2170 cx: &mut TestAppContext,
2171 ) -> (Entity<Worktree>, Entry) {
2172 let (wt, _) = project
2173 .update(cx, |project, cx| {
2174 project.find_or_create_worktree(path, true, cx)
2175 })
2176 .await
2177 .unwrap();
2178
2179 let entry = cx
2180 .update(|cx| {
2181 wt.update(cx, |wt, cx| {
2182 wt.create_entry(Path::new(""), is_dir, None, cx)
2183 })
2184 })
2185 .await
2186 .unwrap()
2187 .to_included()
2188 .unwrap();
2189
2190 (wt, entry)
2191 }
2192
2193 pub fn insert_active_entry_for(
2194 wt: Entity<Worktree>,
2195 entry: Entry,
2196 project: Entity<Project>,
2197 cx: &mut TestAppContext,
2198 ) {
2199 cx.update(|cx| {
2200 let p = ProjectPath {
2201 worktree_id: wt.read(cx).id(),
2202 path: entry.path,
2203 };
2204 project.update(cx, |project, cx| project.set_active_path(Some(p), cx));
2205 });
2206 }
2207}