1mod dragged_item_receiver;
2
3use super::{ItemHandle, SplitDirection};
4use crate::{
5 dock::{icon_for_dock_anchor, AnchorDockBottom, AnchorDockRight, ExpandDock, HideDock},
6 toolbar::Toolbar,
7 Item, NewFile, NewSearch, NewTerminal, WeakItemHandle, Workspace,
8};
9use anyhow::Result;
10use collections::{HashMap, HashSet, VecDeque};
11use context_menu::{ContextMenu, ContextMenuItem};
12use drag_and_drop::Draggable;
13pub use dragged_item_receiver::{dragged_item_receiver, handle_dropped_item};
14use futures::StreamExt;
15use gpui::{
16 actions,
17 elements::*,
18 geometry::{
19 rect::RectF,
20 vector::{vec2f, Vector2F},
21 },
22 impl_actions, impl_internal_actions,
23 platform::{CursorStyle, NavigationDirection},
24 Action, AnyViewHandle, AnyWeakViewHandle, AppContext, AsyncAppContext, Entity, EventContext,
25 ModelHandle, MouseButton, MutableAppContext, PromptLevel, Quad, RenderContext, Task, View,
26 ViewContext, ViewHandle, WeakViewHandle,
27};
28use project::{Project, ProjectEntryId, ProjectPath};
29use serde::Deserialize;
30use settings::{Autosave, DockAnchor, Settings};
31use std::{any::Any, cell::RefCell, cmp, mem, path::Path, rc::Rc};
32use theme::Theme;
33use util::ResultExt;
34
35#[derive(Clone, Deserialize, PartialEq)]
36pub struct ActivateItem(pub usize);
37
38actions!(
39 pane,
40 [
41 ActivatePrevItem,
42 ActivateNextItem,
43 ActivateLastItem,
44 CloseActiveItem,
45 CloseInactiveItems,
46 ReopenClosedItem,
47 SplitLeft,
48 SplitUp,
49 SplitRight,
50 SplitDown,
51 ]
52);
53
54#[derive(Clone, PartialEq)]
55pub struct CloseItem {
56 pub item_id: usize,
57 pub pane: WeakViewHandle<Pane>,
58}
59
60#[derive(Clone, PartialEq)]
61pub struct MoveItem {
62 pub item_id: usize,
63 pub from: WeakViewHandle<Pane>,
64 pub to: WeakViewHandle<Pane>,
65 pub destination_index: usize,
66}
67
68#[derive(Clone, Deserialize, PartialEq)]
69pub struct GoBack {
70 #[serde(skip_deserializing)]
71 pub pane: Option<WeakViewHandle<Pane>>,
72}
73
74#[derive(Clone, Deserialize, PartialEq)]
75pub struct GoForward {
76 #[serde(skip_deserializing)]
77 pub pane: Option<WeakViewHandle<Pane>>,
78}
79
80#[derive(Clone, PartialEq)]
81pub struct DeploySplitMenu {
82 position: Vector2F,
83}
84
85#[derive(Clone, PartialEq)]
86pub struct DeployDockMenu {
87 position: Vector2F,
88}
89
90#[derive(Clone, PartialEq)]
91pub struct DeployNewMenu {
92 position: Vector2F,
93}
94
95impl_actions!(pane, [GoBack, GoForward, ActivateItem]);
96impl_internal_actions!(
97 pane,
98 [
99 CloseItem,
100 DeploySplitMenu,
101 DeployNewMenu,
102 DeployDockMenu,
103 MoveItem,
104 ]
105);
106
107const MAX_NAVIGATION_HISTORY_LEN: usize = 1024;
108
109pub fn init(cx: &mut MutableAppContext) {
110 cx.add_action(|pane: &mut Pane, action: &ActivateItem, cx| {
111 pane.activate_item(action.0, true, true, cx);
112 });
113 cx.add_action(|pane: &mut Pane, _: &ActivateLastItem, cx| {
114 pane.activate_item(pane.items.len() - 1, true, true, cx);
115 });
116 cx.add_action(|pane: &mut Pane, _: &ActivatePrevItem, cx| {
117 pane.activate_prev_item(true, cx);
118 });
119 cx.add_action(|pane: &mut Pane, _: &ActivateNextItem, cx| {
120 pane.activate_next_item(true, cx);
121 });
122 cx.add_async_action(Pane::close_active_item);
123 cx.add_async_action(Pane::close_inactive_items);
124 cx.add_async_action(|workspace: &mut Workspace, action: &CloseItem, cx| {
125 let pane = action.pane.upgrade(cx)?;
126 let task = Pane::close_item(workspace, pane, action.item_id, cx);
127 Some(cx.foreground().spawn(async move {
128 task.await?;
129 Ok(())
130 }))
131 });
132 cx.add_action(
133 |workspace,
134 MoveItem {
135 from,
136 to,
137 item_id,
138 destination_index,
139 },
140 cx| {
141 // Get item handle to move
142 let from = if let Some(from) = from.upgrade(cx) {
143 from
144 } else {
145 return;
146 };
147
148 // Add item to new pane at given index
149 let to = if let Some(to) = to.upgrade(cx) {
150 to
151 } else {
152 return;
153 };
154
155 Pane::move_item(workspace, from, to, *item_id, *destination_index, cx)
156 },
157 );
158 cx.add_action(|pane: &mut Pane, _: &SplitLeft, cx| pane.split(SplitDirection::Left, cx));
159 cx.add_action(|pane: &mut Pane, _: &SplitUp, cx| pane.split(SplitDirection::Up, cx));
160 cx.add_action(|pane: &mut Pane, _: &SplitRight, cx| pane.split(SplitDirection::Right, cx));
161 cx.add_action(|pane: &mut Pane, _: &SplitDown, cx| pane.split(SplitDirection::Down, cx));
162 cx.add_action(Pane::deploy_split_menu);
163 cx.add_action(Pane::deploy_new_menu);
164 cx.add_action(Pane::deploy_dock_menu);
165 cx.add_action(|workspace: &mut Workspace, _: &ReopenClosedItem, cx| {
166 Pane::reopen_closed_item(workspace, cx).detach();
167 });
168 cx.add_action(|workspace: &mut Workspace, action: &GoBack, cx| {
169 Pane::go_back(
170 workspace,
171 action
172 .pane
173 .as_ref()
174 .and_then(|weak_handle| weak_handle.upgrade(cx)),
175 cx,
176 )
177 .detach();
178 });
179 cx.add_action(|workspace: &mut Workspace, action: &GoForward, cx| {
180 Pane::go_forward(
181 workspace,
182 action
183 .pane
184 .as_ref()
185 .and_then(|weak_handle| weak_handle.upgrade(cx)),
186 cx,
187 )
188 .detach();
189 });
190}
191
192#[derive(Debug)]
193pub enum Event {
194 ActivateItem { local: bool },
195 Remove,
196 RemoveItem { item_id: usize },
197 Split(SplitDirection),
198 ChangeItemTitle,
199}
200
201pub struct Pane {
202 items: Vec<Box<dyn ItemHandle>>,
203 activation_history: Vec<usize>,
204 is_active: bool,
205 active_item_index: usize,
206 last_focused_view_by_item: HashMap<usize, AnyWeakViewHandle>,
207 autoscroll: bool,
208 nav_history: Rc<RefCell<NavHistory>>,
209 toolbar: ViewHandle<Toolbar>,
210 tab_bar_context_menu: ViewHandle<ContextMenu>,
211 docked: Option<DockAnchor>,
212}
213
214pub struct ItemNavHistory {
215 history: Rc<RefCell<NavHistory>>,
216 item: Rc<dyn WeakItemHandle>,
217}
218
219struct NavHistory {
220 mode: NavigationMode,
221 backward_stack: VecDeque<NavigationEntry>,
222 forward_stack: VecDeque<NavigationEntry>,
223 closed_stack: VecDeque<NavigationEntry>,
224 paths_by_item: HashMap<usize, ProjectPath>,
225 pane: WeakViewHandle<Pane>,
226}
227
228#[derive(Copy, Clone)]
229enum NavigationMode {
230 Normal,
231 GoingBack,
232 GoingForward,
233 ClosingItem,
234 ReopeningClosedItem,
235 Disabled,
236}
237
238impl Default for NavigationMode {
239 fn default() -> Self {
240 Self::Normal
241 }
242}
243
244pub struct NavigationEntry {
245 pub item: Rc<dyn WeakItemHandle>,
246 pub data: Option<Box<dyn Any>>,
247}
248
249struct DraggedItem {
250 item: Box<dyn ItemHandle>,
251 pane: WeakViewHandle<Pane>,
252}
253
254pub enum ReorderBehavior {
255 None,
256 MoveAfterActive,
257 MoveToIndex(usize),
258}
259
260impl Pane {
261 pub fn new(docked: Option<DockAnchor>, cx: &mut ViewContext<Self>) -> Self {
262 let handle = cx.weak_handle();
263 let context_menu = cx.add_view(ContextMenu::new);
264 Self {
265 items: Vec::new(),
266 activation_history: Vec::new(),
267 is_active: true,
268 active_item_index: 0,
269 last_focused_view_by_item: Default::default(),
270 autoscroll: false,
271 nav_history: Rc::new(RefCell::new(NavHistory {
272 mode: NavigationMode::Normal,
273 backward_stack: Default::default(),
274 forward_stack: Default::default(),
275 closed_stack: Default::default(),
276 paths_by_item: Default::default(),
277 pane: handle.clone(),
278 })),
279 toolbar: cx.add_view(|_| Toolbar::new(handle)),
280 tab_bar_context_menu: context_menu,
281 docked,
282 }
283 }
284
285 pub fn is_active(&self) -> bool {
286 self.is_active
287 }
288
289 pub fn set_active(&mut self, is_active: bool, cx: &mut ViewContext<Self>) {
290 self.is_active = is_active;
291 cx.notify();
292 }
293
294 pub fn set_docked(&mut self, docked: Option<DockAnchor>, cx: &mut ViewContext<Self>) {
295 self.docked = docked;
296 cx.notify();
297 }
298
299 pub fn nav_history_for_item<T: Item>(&self, item: &ViewHandle<T>) -> ItemNavHistory {
300 ItemNavHistory {
301 history: self.nav_history.clone(),
302 item: Rc::new(item.downgrade()),
303 }
304 }
305
306 pub fn go_back(
307 workspace: &mut Workspace,
308 pane: Option<ViewHandle<Pane>>,
309 cx: &mut ViewContext<Workspace>,
310 ) -> Task<()> {
311 Self::navigate_history(
312 workspace,
313 pane.unwrap_or_else(|| workspace.active_pane().clone()),
314 NavigationMode::GoingBack,
315 cx,
316 )
317 }
318
319 pub fn go_forward(
320 workspace: &mut Workspace,
321 pane: Option<ViewHandle<Pane>>,
322 cx: &mut ViewContext<Workspace>,
323 ) -> Task<()> {
324 Self::navigate_history(
325 workspace,
326 pane.unwrap_or_else(|| workspace.active_pane().clone()),
327 NavigationMode::GoingForward,
328 cx,
329 )
330 }
331
332 pub fn reopen_closed_item(
333 workspace: &mut Workspace,
334 cx: &mut ViewContext<Workspace>,
335 ) -> Task<()> {
336 Self::navigate_history(
337 workspace,
338 workspace.active_pane().clone(),
339 NavigationMode::ReopeningClosedItem,
340 cx,
341 )
342 }
343
344 pub fn disable_history(&mut self) {
345 self.nav_history.borrow_mut().disable();
346 }
347
348 pub fn enable_history(&mut self) {
349 self.nav_history.borrow_mut().enable();
350 }
351
352 pub fn can_navigate_backward(&self) -> bool {
353 !self.nav_history.borrow().backward_stack.is_empty()
354 }
355
356 pub fn can_navigate_forward(&self) -> bool {
357 !self.nav_history.borrow().forward_stack.is_empty()
358 }
359
360 fn history_updated(&mut self, cx: &mut ViewContext<Self>) {
361 self.toolbar.update(cx, |_, cx| cx.notify());
362 }
363
364 fn navigate_history(
365 workspace: &mut Workspace,
366 pane: ViewHandle<Pane>,
367 mode: NavigationMode,
368 cx: &mut ViewContext<Workspace>,
369 ) -> Task<()> {
370 cx.focus(pane.clone());
371
372 let to_load = pane.update(cx, |pane, cx| {
373 loop {
374 // Retrieve the weak item handle from the history.
375 let entry = pane.nav_history.borrow_mut().pop(mode, cx)?;
376
377 // If the item is still present in this pane, then activate it.
378 if let Some(index) = entry
379 .item
380 .upgrade(cx)
381 .and_then(|v| pane.index_for_item(v.as_ref()))
382 {
383 let prev_active_item_index = pane.active_item_index;
384 pane.nav_history.borrow_mut().set_mode(mode);
385 pane.activate_item(index, true, true, cx);
386 pane.nav_history
387 .borrow_mut()
388 .set_mode(NavigationMode::Normal);
389
390 let mut navigated = prev_active_item_index != pane.active_item_index;
391 if let Some(data) = entry.data {
392 navigated |= pane.active_item()?.navigate(data, cx);
393 }
394
395 if navigated {
396 break None;
397 }
398 }
399 // If the item is no longer present in this pane, then retrieve its
400 // project path in order to reopen it.
401 else {
402 break pane
403 .nav_history
404 .borrow()
405 .paths_by_item
406 .get(&entry.item.id())
407 .cloned()
408 .map(|project_path| (project_path, entry));
409 }
410 }
411 });
412
413 if let Some((project_path, entry)) = to_load {
414 // If the item was no longer present, then load it again from its previous path.
415 let pane = pane.downgrade();
416 let task = workspace.load_path(project_path, cx);
417 cx.spawn(|workspace, mut cx| async move {
418 let task = task.await;
419 if let Some(pane) = pane.upgrade(&cx) {
420 let mut navigated = false;
421 if let Some((project_entry_id, build_item)) = task.log_err() {
422 let prev_active_item_id = pane.update(&mut cx, |pane, _| {
423 pane.nav_history.borrow_mut().set_mode(mode);
424 pane.active_item().map(|p| p.id())
425 });
426
427 let item = workspace.update(&mut cx, |workspace, cx| {
428 Self::open_item(
429 workspace,
430 pane.clone(),
431 project_entry_id,
432 true,
433 cx,
434 build_item,
435 )
436 });
437
438 pane.update(&mut cx, |pane, cx| {
439 navigated |= Some(item.id()) != prev_active_item_id;
440 pane.nav_history
441 .borrow_mut()
442 .set_mode(NavigationMode::Normal);
443 if let Some(data) = entry.data {
444 navigated |= item.navigate(data, cx);
445 }
446 });
447 }
448
449 if !navigated {
450 workspace
451 .update(&mut cx, |workspace, cx| {
452 Self::navigate_history(workspace, pane, mode, cx)
453 })
454 .await;
455 }
456 }
457 })
458 } else {
459 Task::ready(())
460 }
461 }
462
463 pub(crate) fn open_item(
464 workspace: &mut Workspace,
465 pane: ViewHandle<Pane>,
466 project_entry_id: ProjectEntryId,
467 focus_item: bool,
468 cx: &mut ViewContext<Workspace>,
469 build_item: impl FnOnce(&mut ViewContext<Pane>) -> Box<dyn ItemHandle>,
470 ) -> Box<dyn ItemHandle> {
471 let existing_item = pane.update(cx, |pane, cx| {
472 for (index, item) in pane.items.iter().enumerate() {
473 if item.project_path(cx).is_some()
474 && item.project_entry_ids(cx).as_slice() == [project_entry_id]
475 {
476 let item = item.boxed_clone();
477 return Some((index, item));
478 }
479 }
480 None
481 });
482
483 if let Some((index, existing_item)) = existing_item {
484 pane.update(cx, |pane, cx| {
485 pane.activate_item(index, focus_item, focus_item, cx);
486 });
487 existing_item
488 } else {
489 let new_item = pane.update(cx, |_, cx| build_item(cx));
490 Pane::add_item(
491 workspace,
492 &pane,
493 new_item.clone(),
494 true,
495 focus_item,
496 None,
497 cx,
498 );
499 new_item
500 }
501 }
502
503 pub(crate) fn add_item(
504 workspace: &mut Workspace,
505 pane: &ViewHandle<Pane>,
506 item: Box<dyn ItemHandle>,
507 activate_pane: bool,
508 focus_item: bool,
509 destination_index: Option<usize>,
510 cx: &mut ViewContext<Workspace>,
511 ) {
512 // If no destination index is specified, add or move the item after the active item.
513 let mut insertion_index = {
514 let pane = pane.read(cx);
515 cmp::min(
516 if let Some(destination_index) = destination_index {
517 destination_index
518 } else {
519 pane.active_item_index + 1
520 },
521 pane.items.len(),
522 )
523 };
524
525 item.added_to_pane(workspace, pane.clone(), cx);
526
527 // Does the item already exist?
528 let project_entry_id = if item.is_singleton(cx) {
529 item.project_entry_ids(cx).get(0).copied()
530 } else {
531 None
532 };
533
534 let existing_item_index = pane.read(cx).items.iter().position(|existing_item| {
535 if existing_item.id() == item.id() {
536 true
537 } else if existing_item.is_singleton(cx) {
538 existing_item
539 .project_entry_ids(cx)
540 .get(0)
541 .map_or(false, |existing_entry_id| {
542 Some(existing_entry_id) == project_entry_id.as_ref()
543 })
544 } else {
545 false
546 }
547 });
548
549 if let Some(existing_item_index) = existing_item_index {
550 // If the item already exists, move it to the desired destination and activate it
551 pane.update(cx, |pane, cx| {
552 if existing_item_index != insertion_index {
553 cx.reparent(&item);
554 let existing_item_is_active = existing_item_index == pane.active_item_index;
555
556 // If the caller didn't specify a destination and the added item is already
557 // the active one, don't move it
558 if existing_item_is_active && destination_index.is_none() {
559 insertion_index = existing_item_index;
560 } else {
561 pane.items.remove(existing_item_index);
562 if existing_item_index < pane.active_item_index {
563 pane.active_item_index -= 1;
564 }
565 insertion_index = insertion_index.min(pane.items.len());
566
567 pane.items.insert(insertion_index, item.clone());
568
569 if existing_item_is_active {
570 pane.active_item_index = insertion_index;
571 } else if insertion_index <= pane.active_item_index {
572 pane.active_item_index += 1;
573 }
574 }
575
576 cx.notify();
577 }
578
579 pane.activate_item(insertion_index, activate_pane, focus_item, cx);
580 });
581 } else {
582 pane.update(cx, |pane, cx| {
583 cx.reparent(&item);
584 pane.items.insert(insertion_index, item);
585 if insertion_index <= pane.active_item_index {
586 pane.active_item_index += 1;
587 }
588
589 pane.activate_item(insertion_index, activate_pane, focus_item, cx);
590 cx.notify();
591 });
592 }
593 }
594
595 pub fn items_len(&self) -> usize {
596 self.items.len()
597 }
598
599 pub fn items(&self) -> impl Iterator<Item = &Box<dyn ItemHandle>> {
600 self.items.iter()
601 }
602
603 pub fn items_of_type<T: View>(&self) -> impl '_ + Iterator<Item = ViewHandle<T>> {
604 self.items
605 .iter()
606 .filter_map(|item| item.to_any().downcast())
607 }
608
609 pub fn active_item(&self) -> Option<Box<dyn ItemHandle>> {
610 self.items.get(self.active_item_index).cloned()
611 }
612
613 pub fn item_for_entry(
614 &self,
615 entry_id: ProjectEntryId,
616 cx: &AppContext,
617 ) -> Option<Box<dyn ItemHandle>> {
618 self.items.iter().find_map(|item| {
619 if item.is_singleton(cx) && item.project_entry_ids(cx).as_slice() == [entry_id] {
620 Some(item.boxed_clone())
621 } else {
622 None
623 }
624 })
625 }
626
627 pub fn index_for_item(&self, item: &dyn ItemHandle) -> Option<usize> {
628 self.items.iter().position(|i| i.id() == item.id())
629 }
630
631 pub fn activate_item(
632 &mut self,
633 index: usize,
634 activate_pane: bool,
635 focus_item: bool,
636 cx: &mut ViewContext<Self>,
637 ) {
638 use NavigationMode::{GoingBack, GoingForward};
639
640 if index < self.items.len() {
641 let prev_active_item_ix = mem::replace(&mut self.active_item_index, index);
642 if prev_active_item_ix != self.active_item_index
643 || matches!(self.nav_history.borrow().mode, GoingBack | GoingForward)
644 {
645 if let Some(prev_item) = self.items.get(prev_active_item_ix) {
646 prev_item.deactivated(cx);
647 }
648
649 cx.emit(Event::ActivateItem {
650 local: activate_pane,
651 });
652 }
653
654 if let Some(newly_active_item) = self.items.get(index) {
655 self.activation_history
656 .retain(|&previously_active_item_id| {
657 previously_active_item_id != newly_active_item.id()
658 });
659 self.activation_history.push(newly_active_item.id());
660 }
661
662 self.update_toolbar(cx);
663
664 if focus_item {
665 self.focus_active_item(cx);
666 }
667
668 self.autoscroll = true;
669 cx.notify();
670 }
671 }
672
673 pub fn activate_prev_item(&mut self, activate_pane: bool, cx: &mut ViewContext<Self>) {
674 let mut index = self.active_item_index;
675 if index > 0 {
676 index -= 1;
677 } else if !self.items.is_empty() {
678 index = self.items.len() - 1;
679 }
680 self.activate_item(index, activate_pane, activate_pane, cx);
681 }
682
683 pub fn activate_next_item(&mut self, activate_pane: bool, cx: &mut ViewContext<Self>) {
684 let mut index = self.active_item_index;
685 if index + 1 < self.items.len() {
686 index += 1;
687 } else {
688 index = 0;
689 }
690 self.activate_item(index, activate_pane, activate_pane, cx);
691 }
692
693 pub fn close_active_item(
694 workspace: &mut Workspace,
695 _: &CloseActiveItem,
696 cx: &mut ViewContext<Workspace>,
697 ) -> Option<Task<Result<()>>> {
698 let pane_handle = workspace.active_pane().clone();
699 let pane = pane_handle.read(cx);
700 if pane.items.is_empty() {
701 None
702 } else {
703 let item_id_to_close = pane.items[pane.active_item_index].id();
704 let task = Self::close_items(workspace, pane_handle, cx, move |item_id| {
705 item_id == item_id_to_close
706 });
707 Some(cx.foreground().spawn(async move {
708 task.await?;
709 Ok(())
710 }))
711 }
712 }
713
714 pub fn close_inactive_items(
715 workspace: &mut Workspace,
716 _: &CloseInactiveItems,
717 cx: &mut ViewContext<Workspace>,
718 ) -> Option<Task<Result<()>>> {
719 let pane_handle = workspace.active_pane().clone();
720 let pane = pane_handle.read(cx);
721 if pane.items.is_empty() {
722 None
723 } else {
724 let active_item_id = pane.items[pane.active_item_index].id();
725 let task =
726 Self::close_items(workspace, pane_handle, cx, move |id| id != active_item_id);
727 Some(cx.foreground().spawn(async move {
728 task.await?;
729 Ok(())
730 }))
731 }
732 }
733
734 pub fn close_item(
735 workspace: &mut Workspace,
736 pane: ViewHandle<Pane>,
737 item_id_to_close: usize,
738 cx: &mut ViewContext<Workspace>,
739 ) -> Task<Result<()>> {
740 Self::close_items(workspace, pane, cx, move |view_id| {
741 view_id == item_id_to_close
742 })
743 }
744
745 pub fn close_items(
746 workspace: &mut Workspace,
747 pane: ViewHandle<Pane>,
748 cx: &mut ViewContext<Workspace>,
749 should_close: impl 'static + Fn(usize) -> bool,
750 ) -> Task<Result<()>> {
751 let project = workspace.project().clone();
752
753 // Find the items to close.
754 let mut items_to_close = Vec::new();
755 for item in &pane.read(cx).items {
756 if should_close(item.id()) {
757 items_to_close.push(item.boxed_clone());
758 }
759 }
760
761 // If a buffer is open both in a singleton editor and in a multibuffer, make sure
762 // to focus the singleton buffer when prompting to save that buffer, as opposed
763 // to focusing the multibuffer, because this gives the user a more clear idea
764 // of what content they would be saving.
765 items_to_close.sort_by_key(|item| !item.is_singleton(cx));
766
767 cx.spawn(|workspace, mut cx| async move {
768 let mut saved_project_entry_ids = HashSet::default();
769 for item in items_to_close.clone() {
770 // Find the item's current index and its set of project entries. Avoid
771 // storing these in advance, in case they have changed since this task
772 // was started.
773 let (item_ix, mut project_entry_ids) = pane.read_with(&cx, |pane, cx| {
774 (pane.index_for_item(&*item), item.project_entry_ids(cx))
775 });
776 let item_ix = if let Some(ix) = item_ix {
777 ix
778 } else {
779 continue;
780 };
781
782 // If an item hasn't yet been associated with a project entry, then always
783 // prompt to save it before closing it. Otherwise, check if the item has
784 // any project entries that are not open anywhere else in the workspace,
785 // AND that the user has not already been prompted to save. If there are
786 // any such project entries, prompt the user to save this item.
787 let should_save = if project_entry_ids.is_empty() {
788 true
789 } else {
790 workspace.read_with(&cx, |workspace, cx| {
791 for item in workspace.items(cx) {
792 if !items_to_close
793 .iter()
794 .any(|item_to_close| item_to_close.id() == item.id())
795 {
796 let other_project_entry_ids = item.project_entry_ids(cx);
797 project_entry_ids
798 .retain(|id| !other_project_entry_ids.contains(id));
799 }
800 }
801 });
802 project_entry_ids
803 .iter()
804 .any(|id| saved_project_entry_ids.insert(*id))
805 };
806
807 if should_save
808 && !Self::save_item(project.clone(), &pane, item_ix, &*item, true, &mut cx)
809 .await?
810 {
811 break;
812 }
813
814 // Remove the item from the pane.
815 pane.update(&mut cx, |pane, cx| {
816 if let Some(item_ix) = pane.items.iter().position(|i| i.id() == item.id()) {
817 pane.remove_item(item_ix, false, cx);
818 }
819 });
820 }
821
822 pane.update(&mut cx, |_, cx| cx.notify());
823 Ok(())
824 })
825 }
826
827 fn remove_item(&mut self, item_index: usize, activate_pane: bool, cx: &mut ViewContext<Self>) {
828 self.activation_history
829 .retain(|&history_entry| history_entry != self.items[item_index].id());
830
831 if item_index == self.active_item_index {
832 let index_to_activate = self
833 .activation_history
834 .pop()
835 .and_then(|last_activated_item| {
836 self.items.iter().enumerate().find_map(|(index, item)| {
837 (item.id() == last_activated_item).then_some(index)
838 })
839 })
840 // We didn't have a valid activation history entry, so fallback
841 // to activating the item to the left
842 .unwrap_or_else(|| item_index.min(self.items.len()).saturating_sub(1));
843
844 self.activate_item(index_to_activate, activate_pane, activate_pane, cx);
845 }
846
847 let item = self.items.remove(item_index);
848
849 cx.emit(Event::RemoveItem { item_id: item.id() });
850 if self.items.is_empty() {
851 item.deactivated(cx);
852 self.update_toolbar(cx);
853 cx.emit(Event::Remove);
854 }
855
856 if item_index < self.active_item_index {
857 self.active_item_index -= 1;
858 }
859
860 self.nav_history
861 .borrow_mut()
862 .set_mode(NavigationMode::ClosingItem);
863 item.deactivated(cx);
864 self.nav_history
865 .borrow_mut()
866 .set_mode(NavigationMode::Normal);
867
868 if let Some(path) = item.project_path(cx) {
869 self.nav_history
870 .borrow_mut()
871 .paths_by_item
872 .insert(item.id(), path);
873 } else {
874 self.nav_history
875 .borrow_mut()
876 .paths_by_item
877 .remove(&item.id());
878 }
879
880 cx.notify();
881 }
882
883 pub async fn save_item(
884 project: ModelHandle<Project>,
885 pane: &ViewHandle<Pane>,
886 item_ix: usize,
887 item: &dyn ItemHandle,
888 should_prompt_for_save: bool,
889 cx: &mut AsyncAppContext,
890 ) -> Result<bool> {
891 const CONFLICT_MESSAGE: &str =
892 "This file has changed on disk since you started editing it. Do you want to overwrite it?";
893 const DIRTY_MESSAGE: &str = "This file contains unsaved edits. Do you want to save it?";
894
895 let (has_conflict, is_dirty, can_save, is_singleton) = cx.read(|cx| {
896 (
897 item.has_conflict(cx),
898 item.is_dirty(cx),
899 item.can_save(cx),
900 item.is_singleton(cx),
901 )
902 });
903
904 if has_conflict && can_save {
905 let mut answer = pane.update(cx, |pane, cx| {
906 pane.activate_item(item_ix, true, true, cx);
907 cx.prompt(
908 PromptLevel::Warning,
909 CONFLICT_MESSAGE,
910 &["Overwrite", "Discard", "Cancel"],
911 )
912 });
913 match answer.next().await {
914 Some(0) => cx.update(|cx| item.save(project, cx)).await?,
915 Some(1) => cx.update(|cx| item.reload(project, cx)).await?,
916 _ => return Ok(false),
917 }
918 } else if is_dirty && (can_save || is_singleton) {
919 let will_autosave = cx.read(|cx| {
920 matches!(
921 cx.global::<Settings>().autosave,
922 Autosave::OnFocusChange | Autosave::OnWindowChange
923 ) && Self::can_autosave_item(&*item, cx)
924 });
925 let should_save = if should_prompt_for_save && !will_autosave {
926 let mut answer = pane.update(cx, |pane, cx| {
927 pane.activate_item(item_ix, true, true, cx);
928 cx.prompt(
929 PromptLevel::Warning,
930 DIRTY_MESSAGE,
931 &["Save", "Don't Save", "Cancel"],
932 )
933 });
934 match answer.next().await {
935 Some(0) => true,
936 Some(1) => false,
937 _ => return Ok(false),
938 }
939 } else {
940 true
941 };
942
943 if should_save {
944 if can_save {
945 cx.update(|cx| item.save(project, cx)).await?;
946 } else if is_singleton {
947 let start_abs_path = project
948 .read_with(cx, |project, cx| {
949 let worktree = project.visible_worktrees(cx).next()?;
950 Some(worktree.read(cx).as_local()?.abs_path().to_path_buf())
951 })
952 .unwrap_or_else(|| Path::new("").into());
953
954 let mut abs_path = cx.update(|cx| cx.prompt_for_new_path(&start_abs_path));
955 if let Some(abs_path) = abs_path.next().await.flatten() {
956 cx.update(|cx| item.save_as(project, abs_path, cx)).await?;
957 } else {
958 return Ok(false);
959 }
960 }
961 }
962 }
963 Ok(true)
964 }
965
966 fn can_autosave_item(item: &dyn ItemHandle, cx: &AppContext) -> bool {
967 let is_deleted = item.project_entry_ids(cx).is_empty();
968 item.is_dirty(cx) && !item.has_conflict(cx) && item.can_save(cx) && !is_deleted
969 }
970
971 pub fn autosave_item(
972 item: &dyn ItemHandle,
973 project: ModelHandle<Project>,
974 cx: &mut MutableAppContext,
975 ) -> Task<Result<()>> {
976 if Self::can_autosave_item(item, cx) {
977 item.save(project, cx)
978 } else {
979 Task::ready(Ok(()))
980 }
981 }
982
983 pub fn focus_active_item(&mut self, cx: &mut ViewContext<Self>) {
984 if let Some(active_item) = self.active_item() {
985 cx.focus(active_item);
986 }
987 }
988
989 pub fn move_item(
990 workspace: &mut Workspace,
991 from: ViewHandle<Pane>,
992 to: ViewHandle<Pane>,
993 item_id_to_move: usize,
994 destination_index: usize,
995 cx: &mut ViewContext<Workspace>,
996 ) {
997 let item_to_move = from
998 .read(cx)
999 .items()
1000 .enumerate()
1001 .find(|(_, item_handle)| item_handle.id() == item_id_to_move);
1002
1003 if item_to_move.is_none() {
1004 log::warn!("Tried to move item handle which was not in `from` pane. Maybe tab was closed during drop");
1005 return;
1006 }
1007 let (item_ix, item_handle) = item_to_move.unwrap();
1008 let item_handle = item_handle.clone();
1009
1010 if from != to {
1011 // Close item from previous pane
1012 from.update(cx, |from, cx| {
1013 from.remove_item(item_ix, false, cx);
1014 });
1015 }
1016
1017 // This automatically removes duplicate items in the pane
1018 Pane::add_item(
1019 workspace,
1020 &to,
1021 item_handle,
1022 true,
1023 true,
1024 Some(destination_index),
1025 cx,
1026 );
1027
1028 cx.focus(to);
1029 }
1030
1031 pub fn split(&mut self, direction: SplitDirection, cx: &mut ViewContext<Self>) {
1032 cx.emit(Event::Split(direction));
1033 }
1034
1035 fn deploy_split_menu(&mut self, action: &DeploySplitMenu, cx: &mut ViewContext<Self>) {
1036 self.tab_bar_context_menu.update(cx, |menu, cx| {
1037 menu.show(
1038 action.position,
1039 AnchorCorner::TopRight,
1040 vec![
1041 ContextMenuItem::item("Split Right", SplitRight),
1042 ContextMenuItem::item("Split Left", SplitLeft),
1043 ContextMenuItem::item("Split Up", SplitUp),
1044 ContextMenuItem::item("Split Down", SplitDown),
1045 ],
1046 cx,
1047 );
1048 });
1049 }
1050
1051 fn deploy_dock_menu(&mut self, action: &DeployDockMenu, cx: &mut ViewContext<Self>) {
1052 self.tab_bar_context_menu.update(cx, |menu, cx| {
1053 menu.show(
1054 action.position,
1055 AnchorCorner::TopRight,
1056 vec![
1057 ContextMenuItem::item("Anchor Dock Right", AnchorDockRight),
1058 ContextMenuItem::item("Anchor Dock Bottom", AnchorDockBottom),
1059 ContextMenuItem::item("Expand Dock", ExpandDock),
1060 ],
1061 cx,
1062 );
1063 });
1064 }
1065
1066 fn deploy_new_menu(&mut self, action: &DeployNewMenu, cx: &mut ViewContext<Self>) {
1067 self.tab_bar_context_menu.update(cx, |menu, cx| {
1068 menu.show(
1069 action.position,
1070 AnchorCorner::TopRight,
1071 vec![
1072 ContextMenuItem::item("New File", NewFile),
1073 ContextMenuItem::item("New Terminal", NewTerminal),
1074 ContextMenuItem::item("New Search", NewSearch),
1075 ],
1076 cx,
1077 );
1078 });
1079 }
1080
1081 pub fn toolbar(&self) -> &ViewHandle<Toolbar> {
1082 &self.toolbar
1083 }
1084
1085 fn update_toolbar(&mut self, cx: &mut ViewContext<Self>) {
1086 let active_item = self
1087 .items
1088 .get(self.active_item_index)
1089 .map(|item| item.as_ref());
1090 self.toolbar.update(cx, |toolbar, cx| {
1091 toolbar.set_active_pane_item(active_item, cx);
1092 });
1093 }
1094
1095 fn render_tabs(&mut self, cx: &mut RenderContext<Self>) -> impl Element {
1096 let theme = cx.global::<Settings>().theme.clone();
1097
1098 let pane = cx.handle();
1099 let autoscroll = if mem::take(&mut self.autoscroll) {
1100 Some(self.active_item_index)
1101 } else {
1102 None
1103 };
1104
1105 let pane_active = self.is_active;
1106
1107 enum Tabs {}
1108 let mut row = Flex::row().scrollable::<Tabs, _>(1, autoscroll, cx);
1109 for (ix, (item, detail)) in self
1110 .items
1111 .iter()
1112 .cloned()
1113 .zip(self.tab_details(cx))
1114 .enumerate()
1115 {
1116 let detail = if detail == 0 { None } else { Some(detail) };
1117 let tab_active = ix == self.active_item_index;
1118
1119 row.add_child({
1120 enum Tab {}
1121 dragged_item_receiver::<Tab, _>(ix, ix, true, None, cx, {
1122 let item = item.clone();
1123 let pane = pane.clone();
1124 let detail = detail.clone();
1125
1126 let theme = cx.global::<Settings>().theme.clone();
1127
1128 move |mouse_state, cx| {
1129 let tab_style = theme.workspace.tab_bar.tab_style(pane_active, tab_active);
1130 let hovered = mouse_state.hovered();
1131 Self::render_tab(&item, pane, ix == 0, detail, hovered, tab_style, cx)
1132 }
1133 })
1134 .with_cursor_style(if pane_active && tab_active {
1135 CursorStyle::Arrow
1136 } else {
1137 CursorStyle::PointingHand
1138 })
1139 .on_down(MouseButton::Left, move |_, cx| {
1140 cx.dispatch_action(ActivateItem(ix));
1141 cx.propagate_event();
1142 })
1143 .on_click(MouseButton::Middle, {
1144 let item = item.clone();
1145 let pane = pane.clone();
1146 move |_, cx: &mut EventContext| {
1147 cx.dispatch_action(CloseItem {
1148 item_id: item.id(),
1149 pane: pane.clone(),
1150 })
1151 }
1152 })
1153 .as_draggable(
1154 DraggedItem {
1155 item,
1156 pane: pane.clone(),
1157 },
1158 {
1159 let theme = cx.global::<Settings>().theme.clone();
1160
1161 let detail = detail.clone();
1162 move |dragged_item, cx: &mut RenderContext<Workspace>| {
1163 let tab_style = &theme.workspace.tab_bar.dragged_tab;
1164 Self::render_tab(
1165 &dragged_item.item,
1166 dragged_item.pane.clone(),
1167 false,
1168 detail,
1169 false,
1170 &tab_style,
1171 cx,
1172 )
1173 }
1174 },
1175 )
1176 .boxed()
1177 })
1178 }
1179
1180 // Use the inactive tab style along with the current pane's active status to decide how to render
1181 // the filler
1182 let filler_index = self.items.len();
1183 let filler_style = theme.workspace.tab_bar.tab_style(pane_active, false);
1184 enum Filler {}
1185 row.add_child(
1186 dragged_item_receiver::<Filler, _>(0, filler_index, true, None, cx, |_, _| {
1187 Empty::new()
1188 .contained()
1189 .with_style(filler_style.container)
1190 .with_border(filler_style.container.border)
1191 .boxed()
1192 })
1193 .flex(1., true)
1194 .named("filler"),
1195 );
1196
1197 row
1198 }
1199
1200 fn tab_details(&self, cx: &AppContext) -> Vec<usize> {
1201 let mut tab_details = (0..self.items.len()).map(|_| 0).collect::<Vec<_>>();
1202
1203 let mut tab_descriptions = HashMap::default();
1204 let mut done = false;
1205 while !done {
1206 done = true;
1207
1208 // Store item indices by their tab description.
1209 for (ix, (item, detail)) in self.items.iter().zip(&tab_details).enumerate() {
1210 if let Some(description) = item.tab_description(*detail, cx) {
1211 if *detail == 0
1212 || Some(&description) != item.tab_description(detail - 1, cx).as_ref()
1213 {
1214 tab_descriptions
1215 .entry(description)
1216 .or_insert(Vec::new())
1217 .push(ix);
1218 }
1219 }
1220 }
1221
1222 // If two or more items have the same tab description, increase their level
1223 // of detail and try again.
1224 for (_, item_ixs) in tab_descriptions.drain() {
1225 if item_ixs.len() > 1 {
1226 done = false;
1227 for ix in item_ixs {
1228 tab_details[ix] += 1;
1229 }
1230 }
1231 }
1232 }
1233
1234 tab_details
1235 }
1236
1237 fn render_tab<V: View>(
1238 item: &Box<dyn ItemHandle>,
1239 pane: WeakViewHandle<Pane>,
1240 first: bool,
1241 detail: Option<usize>,
1242 hovered: bool,
1243 tab_style: &theme::Tab,
1244 cx: &mut RenderContext<V>,
1245 ) -> ElementBox {
1246 let title = item.tab_content(detail, &tab_style, cx);
1247 let mut container = tab_style.container.clone();
1248 if first {
1249 container.border.left = false;
1250 }
1251
1252 Flex::row()
1253 .with_child(
1254 Align::new({
1255 let diameter = 7.0;
1256 let icon_color = if item.has_conflict(cx) {
1257 Some(tab_style.icon_conflict)
1258 } else if item.is_dirty(cx) {
1259 Some(tab_style.icon_dirty)
1260 } else {
1261 None
1262 };
1263
1264 ConstrainedBox::new(
1265 Canvas::new(move |bounds, _, cx| {
1266 if let Some(color) = icon_color {
1267 let square = RectF::new(bounds.origin(), vec2f(diameter, diameter));
1268 cx.scene.push_quad(Quad {
1269 bounds: square,
1270 background: Some(color),
1271 border: Default::default(),
1272 corner_radius: diameter / 2.,
1273 });
1274 }
1275 })
1276 .boxed(),
1277 )
1278 .with_width(diameter)
1279 .with_height(diameter)
1280 .boxed()
1281 })
1282 .boxed(),
1283 )
1284 .with_child(
1285 Container::new(Align::new(title).boxed())
1286 .with_style(ContainerStyle {
1287 margin: Margin {
1288 left: tab_style.spacing,
1289 right: tab_style.spacing,
1290 ..Default::default()
1291 },
1292 ..Default::default()
1293 })
1294 .boxed(),
1295 )
1296 .with_child(
1297 Align::new(
1298 ConstrainedBox::new(if hovered {
1299 let item_id = item.id();
1300 enum TabCloseButton {}
1301 let icon = Svg::new("icons/x_mark_8.svg");
1302 MouseEventHandler::<TabCloseButton>::new(item_id, cx, |mouse_state, _| {
1303 if mouse_state.hovered() {
1304 icon.with_color(tab_style.icon_close_active).boxed()
1305 } else {
1306 icon.with_color(tab_style.icon_close).boxed()
1307 }
1308 })
1309 .with_padding(Padding::uniform(4.))
1310 .with_cursor_style(CursorStyle::PointingHand)
1311 .on_click(MouseButton::Left, {
1312 let pane = pane.clone();
1313 move |_, cx| {
1314 cx.dispatch_action(CloseItem {
1315 item_id,
1316 pane: pane.clone(),
1317 })
1318 }
1319 })
1320 .named("close-tab-icon")
1321 } else {
1322 Empty::new().boxed()
1323 })
1324 .with_width(tab_style.icon_width)
1325 .boxed(),
1326 )
1327 .boxed(),
1328 )
1329 .contained()
1330 .with_style(container)
1331 .constrained()
1332 .with_height(tab_style.height)
1333 .boxed()
1334 }
1335
1336 fn render_tab_bar_buttons(
1337 &mut self,
1338 theme: &Theme,
1339 cx: &mut RenderContext<Self>,
1340 ) -> ElementBox {
1341 Flex::row()
1342 // New menu
1343 .with_child(tab_bar_button(0, "icons/plus_12.svg", cx, |position| {
1344 DeployNewMenu { position }
1345 }))
1346 .with_child(
1347 self.docked
1348 .map(|anchor| {
1349 // Add the dock menu button if this pane is a dock
1350 let dock_icon = icon_for_dock_anchor(anchor);
1351
1352 tab_bar_button(1, dock_icon, cx, |position| DeployDockMenu { position })
1353 })
1354 .unwrap_or_else(|| {
1355 // Add the split menu if this pane is not a dock
1356 tab_bar_button(2, "icons/split_12.svg", cx, |position| DeploySplitMenu {
1357 position,
1358 })
1359 }),
1360 )
1361 // Add the close dock button if this pane is a dock
1362 .with_children(
1363 self.docked
1364 .map(|_| tab_bar_button(3, "icons/x_mark_8.svg", cx, |_| HideDock)),
1365 )
1366 .contained()
1367 .with_style(theme.workspace.tab_bar.pane_button_container)
1368 .flex(1., false)
1369 .boxed()
1370 }
1371}
1372
1373impl Entity for Pane {
1374 type Event = Event;
1375}
1376
1377impl View for Pane {
1378 fn ui_name() -> &'static str {
1379 "Pane"
1380 }
1381
1382 fn render(&mut self, cx: &mut RenderContext<Self>) -> ElementBox {
1383 let this = cx.handle();
1384
1385 enum MouseNavigationHandler {}
1386
1387 Stack::new()
1388 .with_child(
1389 MouseEventHandler::<MouseNavigationHandler>::new(0, cx, |_, cx| {
1390 if let Some(active_item) = self.active_item() {
1391 Flex::column()
1392 .with_child({
1393 let mut tab_row = Flex::row()
1394 .with_child(self.render_tabs(cx).flex(1., true).named("tabs"));
1395
1396 // Render pane buttons
1397 let theme = cx.global::<Settings>().theme.clone();
1398 if self.is_active {
1399 tab_row.add_child(self.render_tab_bar_buttons(&theme, cx))
1400 }
1401
1402 tab_row
1403 .constrained()
1404 .with_height(theme.workspace.tab_bar.height)
1405 .contained()
1406 .with_style(theme.workspace.tab_bar.container)
1407 .flex(1., false)
1408 .named("tab bar")
1409 })
1410 .with_child({
1411 enum PaneContentTabDropTarget {}
1412 dragged_item_receiver::<PaneContentTabDropTarget, _>(
1413 0,
1414 self.active_item_index + 1,
1415 false,
1416 Some(100.),
1417 cx,
1418 {
1419 let toolbar = self.toolbar.clone();
1420 move |_, cx| {
1421 Flex::column()
1422 .with_child(
1423 ChildView::new(&toolbar, cx).expanded().boxed(),
1424 )
1425 .with_child(
1426 ChildView::new(active_item, cx)
1427 .flex(1., true)
1428 .boxed(),
1429 )
1430 .boxed()
1431 }
1432 },
1433 )
1434 .flex(1., true)
1435 .boxed()
1436 })
1437 .boxed()
1438 } else {
1439 enum EmptyPane {}
1440 let theme = cx.global::<Settings>().theme.clone();
1441
1442 dragged_item_receiver::<EmptyPane, _>(0, 0, false, None, cx, |_, _| {
1443 Empty::new()
1444 .contained()
1445 .with_background_color(theme.workspace.background)
1446 .boxed()
1447 })
1448 .on_down(MouseButton::Left, |_, cx| {
1449 cx.focus_parent_view();
1450 })
1451 .boxed()
1452 }
1453 })
1454 .on_down(MouseButton::Navigate(NavigationDirection::Back), {
1455 let this = this.clone();
1456 move |_, cx| {
1457 cx.dispatch_action(GoBack {
1458 pane: Some(this.clone()),
1459 });
1460 }
1461 })
1462 .on_down(MouseButton::Navigate(NavigationDirection::Forward), {
1463 let this = this.clone();
1464 move |_, cx| {
1465 cx.dispatch_action(GoForward {
1466 pane: Some(this.clone()),
1467 })
1468 }
1469 })
1470 .boxed(),
1471 )
1472 .with_child(ChildView::new(&self.tab_bar_context_menu, cx).boxed())
1473 .named("pane")
1474 }
1475
1476 fn focus_in(&mut self, focused: AnyViewHandle, cx: &mut ViewContext<Self>) {
1477 if let Some(active_item) = self.active_item() {
1478 if cx.is_self_focused() {
1479 // Pane was focused directly. We need to either focus a view inside the active item,
1480 // or focus the active item itself
1481 if let Some(weak_last_focused_view) =
1482 self.last_focused_view_by_item.get(&active_item.id())
1483 {
1484 if let Some(last_focused_view) = weak_last_focused_view.upgrade(cx) {
1485 cx.focus(last_focused_view);
1486 return;
1487 } else {
1488 self.last_focused_view_by_item.remove(&active_item.id());
1489 }
1490 }
1491
1492 cx.focus(active_item);
1493 } else {
1494 self.last_focused_view_by_item
1495 .insert(active_item.id(), focused.downgrade());
1496 }
1497 }
1498 }
1499}
1500
1501fn tab_bar_button<A: Action>(
1502 index: usize,
1503 icon: &'static str,
1504 cx: &mut RenderContext<Pane>,
1505 action_builder: impl 'static + Fn(Vector2F) -> A,
1506) -> ElementBox {
1507 enum TabBarButton {}
1508
1509 MouseEventHandler::<TabBarButton>::new(index, cx, |mouse_state, cx| {
1510 let theme = &cx.global::<Settings>().theme.workspace.tab_bar;
1511 let style = theme.pane_button.style_for(mouse_state, false);
1512 Svg::new(icon)
1513 .with_color(style.color)
1514 .constrained()
1515 .with_width(style.icon_width)
1516 .aligned()
1517 .constrained()
1518 .with_width(style.button_width)
1519 .with_height(style.button_width)
1520 // .aligned()
1521 .boxed()
1522 })
1523 .with_cursor_style(CursorStyle::PointingHand)
1524 .on_click(MouseButton::Left, move |e, cx| {
1525 cx.dispatch_action(action_builder(e.region.lower_right()));
1526 })
1527 .flex(1., false)
1528 .boxed()
1529}
1530
1531impl ItemNavHistory {
1532 pub fn push<D: 'static + Any>(&self, data: Option<D>, cx: &mut MutableAppContext) {
1533 self.history.borrow_mut().push(data, self.item.clone(), cx);
1534 }
1535
1536 pub fn pop_backward(&self, cx: &mut MutableAppContext) -> Option<NavigationEntry> {
1537 self.history.borrow_mut().pop(NavigationMode::GoingBack, cx)
1538 }
1539
1540 pub fn pop_forward(&self, cx: &mut MutableAppContext) -> Option<NavigationEntry> {
1541 self.history
1542 .borrow_mut()
1543 .pop(NavigationMode::GoingForward, cx)
1544 }
1545}
1546
1547impl NavHistory {
1548 fn set_mode(&mut self, mode: NavigationMode) {
1549 self.mode = mode;
1550 }
1551
1552 fn disable(&mut self) {
1553 self.mode = NavigationMode::Disabled;
1554 }
1555
1556 fn enable(&mut self) {
1557 self.mode = NavigationMode::Normal;
1558 }
1559
1560 fn pop(&mut self, mode: NavigationMode, cx: &mut MutableAppContext) -> Option<NavigationEntry> {
1561 let entry = match mode {
1562 NavigationMode::Normal | NavigationMode::Disabled | NavigationMode::ClosingItem => {
1563 return None
1564 }
1565 NavigationMode::GoingBack => &mut self.backward_stack,
1566 NavigationMode::GoingForward => &mut self.forward_stack,
1567 NavigationMode::ReopeningClosedItem => &mut self.closed_stack,
1568 }
1569 .pop_back();
1570 if entry.is_some() {
1571 self.did_update(cx);
1572 }
1573 entry
1574 }
1575
1576 fn push<D: 'static + Any>(
1577 &mut self,
1578 data: Option<D>,
1579 item: Rc<dyn WeakItemHandle>,
1580 cx: &mut MutableAppContext,
1581 ) {
1582 match self.mode {
1583 NavigationMode::Disabled => {}
1584 NavigationMode::Normal | NavigationMode::ReopeningClosedItem => {
1585 if self.backward_stack.len() >= MAX_NAVIGATION_HISTORY_LEN {
1586 self.backward_stack.pop_front();
1587 }
1588 self.backward_stack.push_back(NavigationEntry {
1589 item,
1590 data: data.map(|data| Box::new(data) as Box<dyn Any>),
1591 });
1592 self.forward_stack.clear();
1593 }
1594 NavigationMode::GoingBack => {
1595 if self.forward_stack.len() >= MAX_NAVIGATION_HISTORY_LEN {
1596 self.forward_stack.pop_front();
1597 }
1598 self.forward_stack.push_back(NavigationEntry {
1599 item,
1600 data: data.map(|data| Box::new(data) as Box<dyn Any>),
1601 });
1602 }
1603 NavigationMode::GoingForward => {
1604 if self.backward_stack.len() >= MAX_NAVIGATION_HISTORY_LEN {
1605 self.backward_stack.pop_front();
1606 }
1607 self.backward_stack.push_back(NavigationEntry {
1608 item,
1609 data: data.map(|data| Box::new(data) as Box<dyn Any>),
1610 });
1611 }
1612 NavigationMode::ClosingItem => {
1613 if self.closed_stack.len() >= MAX_NAVIGATION_HISTORY_LEN {
1614 self.closed_stack.pop_front();
1615 }
1616 self.closed_stack.push_back(NavigationEntry {
1617 item,
1618 data: data.map(|data| Box::new(data) as Box<dyn Any>),
1619 });
1620 }
1621 }
1622 self.did_update(cx);
1623 }
1624
1625 fn did_update(&self, cx: &mut MutableAppContext) {
1626 if let Some(pane) = self.pane.upgrade(cx) {
1627 cx.defer(move |cx| pane.update(cx, |pane, cx| pane.history_updated(cx)));
1628 }
1629 }
1630}
1631
1632#[cfg(test)]
1633mod tests {
1634 use std::sync::Arc;
1635
1636 use super::*;
1637 use crate::tests::TestItem;
1638 use gpui::{executor::Deterministic, TestAppContext};
1639 use project::FakeFs;
1640
1641 #[gpui::test]
1642 async fn test_add_item_with_new_item(cx: &mut TestAppContext) {
1643 cx.foreground().forbid_parking();
1644 Settings::test_async(cx);
1645 let fs = FakeFs::new(cx.background());
1646
1647 let project = Project::test(fs, None, cx).await;
1648 let (_, workspace) =
1649 cx.add_window(|cx| Workspace::new(project, |_, _| unimplemented!(), cx));
1650 let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone());
1651
1652 // 1. Add with a destination index
1653 // a. Add before the active item
1654 set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx);
1655 workspace.update(cx, |workspace, cx| {
1656 Pane::add_item(
1657 workspace,
1658 &pane,
1659 Box::new(cx.add_view(|_| TestItem::new().with_label("D"))),
1660 false,
1661 false,
1662 Some(0),
1663 cx,
1664 );
1665 });
1666 assert_item_labels(&pane, ["D*", "A", "B", "C"], cx);
1667
1668 // b. Add after the active item
1669 set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx);
1670 workspace.update(cx, |workspace, cx| {
1671 Pane::add_item(
1672 workspace,
1673 &pane,
1674 Box::new(cx.add_view(|_| TestItem::new().with_label("D"))),
1675 false,
1676 false,
1677 Some(2),
1678 cx,
1679 );
1680 });
1681 assert_item_labels(&pane, ["A", "B", "D*", "C"], cx);
1682
1683 // c. Add at the end of the item list (including off the length)
1684 set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx);
1685 workspace.update(cx, |workspace, cx| {
1686 Pane::add_item(
1687 workspace,
1688 &pane,
1689 Box::new(cx.add_view(|_| TestItem::new().with_label("D"))),
1690 false,
1691 false,
1692 Some(5),
1693 cx,
1694 );
1695 });
1696 assert_item_labels(&pane, ["A", "B", "C", "D*"], cx);
1697
1698 // 2. Add without a destination index
1699 // a. Add with active item at the start of the item list
1700 set_labeled_items(&workspace, &pane, ["A*", "B", "C"], cx);
1701 workspace.update(cx, |workspace, cx| {
1702 Pane::add_item(
1703 workspace,
1704 &pane,
1705 Box::new(cx.add_view(|_| TestItem::new().with_label("D"))),
1706 false,
1707 false,
1708 None,
1709 cx,
1710 );
1711 });
1712 set_labeled_items(&workspace, &pane, ["A", "D*", "B", "C"], cx);
1713
1714 // b. Add with active item at the end of the item list
1715 set_labeled_items(&workspace, &pane, ["A", "B", "C*"], cx);
1716 workspace.update(cx, |workspace, cx| {
1717 Pane::add_item(
1718 workspace,
1719 &pane,
1720 Box::new(cx.add_view(|_| TestItem::new().with_label("D"))),
1721 false,
1722 false,
1723 None,
1724 cx,
1725 );
1726 });
1727 assert_item_labels(&pane, ["A", "B", "C", "D*"], cx);
1728 }
1729
1730 #[gpui::test]
1731 async fn test_add_item_with_existing_item(cx: &mut TestAppContext) {
1732 cx.foreground().forbid_parking();
1733 Settings::test_async(cx);
1734 let fs = FakeFs::new(cx.background());
1735
1736 let project = Project::test(fs, None, cx).await;
1737 let (_, workspace) =
1738 cx.add_window(|cx| Workspace::new(project, |_, _| unimplemented!(), cx));
1739 let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone());
1740
1741 // 1. Add with a destination index
1742 // 1a. Add before the active item
1743 let [_, _, _, d] = set_labeled_items(&workspace, &pane, ["A", "B*", "C", "D"], cx);
1744 workspace.update(cx, |workspace, cx| {
1745 Pane::add_item(workspace, &pane, d, false, false, Some(0), cx);
1746 });
1747 assert_item_labels(&pane, ["D*", "A", "B", "C"], cx);
1748
1749 // 1b. Add after the active item
1750 let [_, _, _, d] = set_labeled_items(&workspace, &pane, ["A", "B*", "C", "D"], cx);
1751 workspace.update(cx, |workspace, cx| {
1752 Pane::add_item(workspace, &pane, d, false, false, Some(2), cx);
1753 });
1754 assert_item_labels(&pane, ["A", "B", "D*", "C"], cx);
1755
1756 // 1c. Add at the end of the item list (including off the length)
1757 let [a, _, _, _] = set_labeled_items(&workspace, &pane, ["A", "B*", "C", "D"], cx);
1758 workspace.update(cx, |workspace, cx| {
1759 Pane::add_item(workspace, &pane, a, false, false, Some(5), cx);
1760 });
1761 assert_item_labels(&pane, ["B", "C", "D", "A*"], cx);
1762
1763 // 1d. Add same item to active index
1764 let [_, b, _] = set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx);
1765 workspace.update(cx, |workspace, cx| {
1766 Pane::add_item(workspace, &pane, b, false, false, Some(1), cx);
1767 });
1768 assert_item_labels(&pane, ["A", "B*", "C"], cx);
1769
1770 // 1e. Add item to index after same item in last position
1771 let [_, _, c] = set_labeled_items(&workspace, &pane, ["A", "B*", "C"], cx);
1772 workspace.update(cx, |workspace, cx| {
1773 Pane::add_item(workspace, &pane, c, false, false, Some(2), cx);
1774 });
1775 assert_item_labels(&pane, ["A", "B", "C*"], cx);
1776
1777 // 2. Add without a destination index
1778 // 2a. Add with active item at the start of the item list
1779 let [_, _, _, d] = set_labeled_items(&workspace, &pane, ["A*", "B", "C", "D"], cx);
1780 workspace.update(cx, |workspace, cx| {
1781 Pane::add_item(workspace, &pane, d, false, false, None, cx);
1782 });
1783 assert_item_labels(&pane, ["A", "D*", "B", "C"], cx);
1784
1785 // 2b. Add with active item at the end of the item list
1786 let [a, _, _, _] = set_labeled_items(&workspace, &pane, ["A", "B", "C", "D*"], cx);
1787 workspace.update(cx, |workspace, cx| {
1788 Pane::add_item(workspace, &pane, a, false, false, None, cx);
1789 });
1790 assert_item_labels(&pane, ["B", "C", "D", "A*"], cx);
1791
1792 // 2c. Add active item to active item at end of list
1793 let [_, _, c] = set_labeled_items(&workspace, &pane, ["A", "B", "C*"], cx);
1794 workspace.update(cx, |workspace, cx| {
1795 Pane::add_item(workspace, &pane, c, false, false, None, cx);
1796 });
1797 assert_item_labels(&pane, ["A", "B", "C*"], cx);
1798
1799 // 2d. Add active item to active item at start of list
1800 let [a, _, _] = set_labeled_items(&workspace, &pane, ["A*", "B", "C"], cx);
1801 workspace.update(cx, |workspace, cx| {
1802 Pane::add_item(workspace, &pane, a, false, false, None, cx);
1803 });
1804 assert_item_labels(&pane, ["A*", "B", "C"], cx);
1805 }
1806
1807 #[gpui::test]
1808 async fn test_add_item_with_same_project_entries(cx: &mut TestAppContext) {
1809 cx.foreground().forbid_parking();
1810 Settings::test_async(cx);
1811 let fs = FakeFs::new(cx.background());
1812
1813 let project = Project::test(fs, None, cx).await;
1814 let (_, workspace) =
1815 cx.add_window(|cx| Workspace::new(project, |_, _| unimplemented!(), cx));
1816 let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone());
1817
1818 // singleton view
1819 workspace.update(cx, |workspace, cx| {
1820 let item = TestItem::new()
1821 .with_singleton(true)
1822 .with_label("buffer 1")
1823 .with_project_entry_ids(&[1]);
1824
1825 Pane::add_item(
1826 workspace,
1827 &pane,
1828 Box::new(cx.add_view(|_| item)),
1829 false,
1830 false,
1831 None,
1832 cx,
1833 );
1834 });
1835 assert_item_labels(&pane, ["buffer 1*"], cx);
1836
1837 // new singleton view with the same project entry
1838 workspace.update(cx, |workspace, cx| {
1839 let item = TestItem::new()
1840 .with_singleton(true)
1841 .with_label("buffer 1")
1842 .with_project_entry_ids(&[1]);
1843
1844 Pane::add_item(
1845 workspace,
1846 &pane,
1847 Box::new(cx.add_view(|_| item)),
1848 false,
1849 false,
1850 None,
1851 cx,
1852 );
1853 });
1854 assert_item_labels(&pane, ["buffer 1*"], cx);
1855
1856 // new singleton view with different project entry
1857 workspace.update(cx, |workspace, cx| {
1858 let item = TestItem::new()
1859 .with_singleton(true)
1860 .with_label("buffer 2")
1861 .with_project_entry_ids(&[2]);
1862
1863 Pane::add_item(
1864 workspace,
1865 &pane,
1866 Box::new(cx.add_view(|_| item)),
1867 false,
1868 false,
1869 None,
1870 cx,
1871 );
1872 });
1873 assert_item_labels(&pane, ["buffer 1", "buffer 2*"], cx);
1874
1875 // new multibuffer view with the same project entry
1876 workspace.update(cx, |workspace, cx| {
1877 let item = TestItem::new()
1878 .with_singleton(false)
1879 .with_label("multibuffer 1")
1880 .with_project_entry_ids(&[1]);
1881
1882 Pane::add_item(
1883 workspace,
1884 &pane,
1885 Box::new(cx.add_view(|_| item)),
1886 false,
1887 false,
1888 None,
1889 cx,
1890 );
1891 });
1892 assert_item_labels(&pane, ["buffer 1", "buffer 2", "multibuffer 1*"], cx);
1893
1894 // another multibuffer view with the same project entry
1895 workspace.update(cx, |workspace, cx| {
1896 let item = TestItem::new()
1897 .with_singleton(false)
1898 .with_label("multibuffer 1b")
1899 .with_project_entry_ids(&[1]);
1900
1901 Pane::add_item(
1902 workspace,
1903 &pane,
1904 Box::new(cx.add_view(|_| item)),
1905 false,
1906 false,
1907 None,
1908 cx,
1909 );
1910 });
1911 assert_item_labels(
1912 &pane,
1913 ["buffer 1", "buffer 2", "multibuffer 1", "multibuffer 1b*"],
1914 cx,
1915 );
1916 }
1917
1918 #[gpui::test]
1919 async fn test_remove_item_ordering(deterministic: Arc<Deterministic>, cx: &mut TestAppContext) {
1920 Settings::test_async(cx);
1921 let fs = FakeFs::new(cx.background());
1922
1923 let project = Project::test(fs, None, cx).await;
1924 let (_, workspace) =
1925 cx.add_window(|cx| Workspace::new(project, |_, _| unimplemented!(), cx));
1926 let pane = workspace.read_with(cx, |workspace, _| workspace.active_pane().clone());
1927
1928 add_labled_item(&workspace, &pane, "A", cx);
1929 add_labled_item(&workspace, &pane, "B", cx);
1930 add_labled_item(&workspace, &pane, "C", cx);
1931 add_labled_item(&workspace, &pane, "D", cx);
1932 assert_item_labels(&pane, ["A", "B", "C", "D*"], cx);
1933
1934 pane.update(cx, |pane, cx| pane.activate_item(1, false, false, cx));
1935 add_labled_item(&workspace, &pane, "1", cx);
1936 assert_item_labels(&pane, ["A", "B", "1*", "C", "D"], cx);
1937
1938 workspace.update(cx, |workspace, cx| {
1939 Pane::close_active_item(workspace, &CloseActiveItem, cx);
1940 });
1941 deterministic.run_until_parked();
1942 assert_item_labels(&pane, ["A", "B*", "C", "D"], cx);
1943
1944 pane.update(cx, |pane, cx| pane.activate_item(3, false, false, cx));
1945 assert_item_labels(&pane, ["A", "B", "C", "D*"], cx);
1946
1947 workspace.update(cx, |workspace, cx| {
1948 Pane::close_active_item(workspace, &CloseActiveItem, cx);
1949 });
1950 deterministic.run_until_parked();
1951 assert_item_labels(&pane, ["A", "B*", "C"], cx);
1952
1953 workspace.update(cx, |workspace, cx| {
1954 Pane::close_active_item(workspace, &CloseActiveItem, cx);
1955 });
1956 deterministic.run_until_parked();
1957 assert_item_labels(&pane, ["A", "C*"], cx);
1958
1959 workspace.update(cx, |workspace, cx| {
1960 Pane::close_active_item(workspace, &CloseActiveItem, cx);
1961 });
1962 deterministic.run_until_parked();
1963 assert_item_labels(&pane, ["A*"], cx);
1964 }
1965
1966 fn add_labled_item(
1967 workspace: &ViewHandle<Workspace>,
1968 pane: &ViewHandle<Pane>,
1969 label: &str,
1970 cx: &mut TestAppContext,
1971 ) -> Box<ViewHandle<TestItem>> {
1972 workspace.update(cx, |workspace, cx| {
1973 let labeled_item = Box::new(cx.add_view(|_| TestItem::new().with_label(label)));
1974
1975 Pane::add_item(
1976 workspace,
1977 pane,
1978 labeled_item.clone(),
1979 false,
1980 false,
1981 None,
1982 cx,
1983 );
1984
1985 labeled_item
1986 })
1987 }
1988
1989 fn set_labeled_items<const COUNT: usize>(
1990 workspace: &ViewHandle<Workspace>,
1991 pane: &ViewHandle<Pane>,
1992 labels: [&str; COUNT],
1993 cx: &mut TestAppContext,
1994 ) -> [Box<ViewHandle<TestItem>>; COUNT] {
1995 pane.update(cx, |pane, _| {
1996 pane.items.clear();
1997 });
1998
1999 workspace.update(cx, |workspace, cx| {
2000 let mut active_item_index = 0;
2001
2002 let mut index = 0;
2003 let items = labels.map(|mut label| {
2004 if label.ends_with("*") {
2005 label = label.trim_end_matches("*");
2006 active_item_index = index;
2007 }
2008
2009 let labeled_item = Box::new(cx.add_view(|_| TestItem::new().with_label(label)));
2010 Pane::add_item(
2011 workspace,
2012 pane,
2013 labeled_item.clone(),
2014 false,
2015 false,
2016 None,
2017 cx,
2018 );
2019 index += 1;
2020 labeled_item
2021 });
2022
2023 pane.update(cx, |pane, cx| {
2024 pane.activate_item(active_item_index, false, false, cx)
2025 });
2026
2027 items
2028 })
2029 }
2030
2031 // Assert the item label, with the active item label suffixed with a '*'
2032 fn assert_item_labels<const COUNT: usize>(
2033 pane: &ViewHandle<Pane>,
2034 expected_states: [&str; COUNT],
2035 cx: &mut TestAppContext,
2036 ) {
2037 pane.read_with(cx, |pane, cx| {
2038 let actual_states = pane
2039 .items
2040 .iter()
2041 .enumerate()
2042 .map(|(ix, item)| {
2043 let mut state = item
2044 .to_any()
2045 .downcast::<TestItem>()
2046 .unwrap()
2047 .read(cx)
2048 .label
2049 .clone();
2050 if ix == pane.active_item_index {
2051 state.push('*');
2052 }
2053 state
2054 })
2055 .collect::<Vec<_>>();
2056
2057 assert_eq!(
2058 actual_states, expected_states,
2059 "pane items do not match expectation"
2060 );
2061 })
2062 }
2063}