1use std::{
2 any::{type_name, TypeId},
3 cell::{Ref, RefCell, RefMut},
4 marker::PhantomData,
5 ops::{Deref, DerefMut},
6 path::{Path, PathBuf},
7 rc::{Rc, Weak},
8 sync::{atomic::Ordering::SeqCst, Arc},
9 time::Duration,
10};
11
12use anyhow::{anyhow, Result};
13use derive_more::{Deref, DerefMut};
14use futures::{channel::oneshot, future::LocalBoxFuture, Future};
15use slotmap::SlotMap;
16use smol::future::FutureExt;
17use time::UtcOffset;
18
19pub use async_context::*;
20use collections::{FxHashMap, FxHashSet, VecDeque};
21pub use entity_map::*;
22pub use model_context::*;
23#[cfg(any(test, feature = "test-support"))]
24pub use test_context::*;
25use util::{
26 http::{self, HttpClient},
27 ResultExt,
28};
29
30use crate::{
31 current_platform, init_app_menus, Action, ActionRegistry, Any, AnyView, AnyWindowHandle,
32 AppMetadata, AssetCache, AssetSource, BackgroundExecutor, ClipboardItem, Context,
33 DispatchPhase, DisplayId, Entity, EventEmitter, ForegroundExecutor, Global, KeyBinding, Keymap,
34 Keystroke, LayoutId, Menu, PathPromptOptions, Pixels, Platform, PlatformDisplay, Point,
35 PromptBuilder, PromptHandle, PromptLevel, Render, RenderablePromptHandle, Reservation,
36 SharedString, SubscriberSet, Subscription, SvgRenderer, Task, TextSystem, View, ViewContext,
37 Window, WindowAppearance, WindowContext, WindowHandle, WindowId,
38};
39
40mod async_context;
41mod entity_map;
42mod model_context;
43#[cfg(any(test, feature = "test-support"))]
44mod test_context;
45
46/// The duration for which futures returned from [AppContext::on_app_context] or [ModelContext::on_app_quit] can run before the application fully quits.
47pub const SHUTDOWN_TIMEOUT: Duration = Duration::from_millis(100);
48
49/// Temporary(?) wrapper around [`RefCell<AppContext>`] to help us debug any double borrows.
50/// Strongly consider removing after stabilization.
51#[doc(hidden)]
52pub struct AppCell {
53 app: RefCell<AppContext>,
54}
55
56impl AppCell {
57 #[doc(hidden)]
58 #[track_caller]
59 pub fn borrow(&self) -> AppRef {
60 if option_env!("TRACK_THREAD_BORROWS").is_some() {
61 let thread_id = std::thread::current().id();
62 eprintln!("borrowed {thread_id:?}");
63 }
64 AppRef(self.app.borrow())
65 }
66
67 #[doc(hidden)]
68 #[track_caller]
69 pub fn borrow_mut(&self) -> AppRefMut {
70 if option_env!("TRACK_THREAD_BORROWS").is_some() {
71 let thread_id = std::thread::current().id();
72 eprintln!("borrowed {thread_id:?}");
73 }
74 AppRefMut(self.app.borrow_mut())
75 }
76}
77
78#[doc(hidden)]
79#[derive(Deref, DerefMut)]
80pub struct AppRef<'a>(Ref<'a, AppContext>);
81
82impl<'a> Drop for AppRef<'a> {
83 fn drop(&mut self) {
84 if option_env!("TRACK_THREAD_BORROWS").is_some() {
85 let thread_id = std::thread::current().id();
86 eprintln!("dropped borrow from {thread_id:?}");
87 }
88 }
89}
90
91#[doc(hidden)]
92#[derive(Deref, DerefMut)]
93pub struct AppRefMut<'a>(RefMut<'a, AppContext>);
94
95impl<'a> Drop for AppRefMut<'a> {
96 fn drop(&mut self) {
97 if option_env!("TRACK_THREAD_BORROWS").is_some() {
98 let thread_id = std::thread::current().id();
99 eprintln!("dropped {thread_id:?}");
100 }
101 }
102}
103
104/// A reference to a GPUI application, typically constructed in the `main` function of your app.
105/// You won't interact with this type much outside of initial configuration and startup.
106pub struct App(Rc<AppCell>);
107
108/// Represents an application before it is fully launched. Once your app is
109/// configured, you'll start the app with `App::run`.
110impl App {
111 /// Builds an app with the given asset source.
112 #[allow(clippy::new_without_default)]
113 pub fn new() -> Self {
114 #[cfg(any(test, feature = "test-support"))]
115 log::info!("GPUI was compiled in test mode");
116
117 Self(AppContext::new(
118 current_platform(),
119 Arc::new(()),
120 http::client(),
121 ))
122 }
123
124 /// Assign
125 pub fn with_assets(self, asset_source: impl AssetSource) -> Self {
126 let mut context_lock = self.0.borrow_mut();
127 let asset_source = Arc::new(asset_source);
128 context_lock.asset_source = asset_source.clone();
129 context_lock.svg_renderer = SvgRenderer::new(asset_source);
130 drop(context_lock);
131 self
132 }
133
134 /// Start the application. The provided callback will be called once the
135 /// app is fully launched.
136 pub fn run<F>(self, on_finish_launching: F)
137 where
138 F: 'static + FnOnce(&mut AppContext),
139 {
140 let this = self.0.clone();
141 let platform = self.0.borrow().platform.clone();
142 platform.run(Box::new(move || {
143 let cx = &mut *this.borrow_mut();
144 on_finish_launching(cx);
145 }));
146 }
147
148 /// Register a handler to be invoked when the platform instructs the application
149 /// to open one or more URLs.
150 pub fn on_open_urls<F>(&self, mut callback: F) -> &Self
151 where
152 F: 'static + FnMut(Vec<String>),
153 {
154 self.0.borrow().platform.on_open_urls(Box::new(callback));
155 self
156 }
157
158 /// Invokes a handler when an already-running application is launched.
159 /// On macOS, this can occur when the application icon is double-clicked or the app is launched via the dock.
160 pub fn on_reopen<F>(&self, mut callback: F) -> &Self
161 where
162 F: 'static + FnMut(&mut AppContext),
163 {
164 let this = Rc::downgrade(&self.0);
165 self.0.borrow_mut().platform.on_reopen(Box::new(move || {
166 if let Some(app) = this.upgrade() {
167 callback(&mut app.borrow_mut());
168 }
169 }));
170 self
171 }
172
173 /// Returns metadata associated with the application
174 pub fn metadata(&self) -> AppMetadata {
175 self.0.borrow().app_metadata.clone()
176 }
177
178 /// Returns a handle to the [`BackgroundExecutor`] associated with this app, which can be used to spawn futures in the background.
179 pub fn background_executor(&self) -> BackgroundExecutor {
180 self.0.borrow().background_executor.clone()
181 }
182
183 /// Returns a handle to the [`ForegroundExecutor`] associated with this app, which can be used to spawn futures in the foreground.
184 pub fn foreground_executor(&self) -> ForegroundExecutor {
185 self.0.borrow().foreground_executor.clone()
186 }
187
188 /// Returns a reference to the [`TextSystem`] associated with this app.
189 pub fn text_system(&self) -> Arc<TextSystem> {
190 self.0.borrow().text_system.clone()
191 }
192
193 /// Returns the file URL of the executable with the specified name in the application bundle
194 pub fn path_for_auxiliary_executable(&self, name: &str) -> Result<PathBuf> {
195 self.0.borrow().path_for_auxiliary_executable(name)
196 }
197}
198
199type Handler = Box<dyn FnMut(&mut AppContext) -> bool + 'static>;
200type Listener = Box<dyn FnMut(&dyn Any, &mut AppContext) -> bool + 'static>;
201type KeystrokeObserver = Box<dyn FnMut(&KeystrokeEvent, &mut WindowContext) + 'static>;
202type QuitHandler = Box<dyn FnOnce(&mut AppContext) -> LocalBoxFuture<'static, ()> + 'static>;
203type ReleaseListener = Box<dyn FnOnce(&mut dyn Any, &mut AppContext) + 'static>;
204type NewViewListener = Box<dyn FnMut(AnyView, &mut WindowContext) + 'static>;
205
206/// Contains the state of the full application, and passed as a reference to a variety of callbacks.
207/// Other contexts such as [ModelContext], [WindowContext], and [ViewContext] deref to this type, making it the most general context type.
208/// You need a reference to an `AppContext` to access the state of a [Model].
209pub struct AppContext {
210 pub(crate) this: Weak<AppCell>,
211 pub(crate) platform: Rc<dyn Platform>,
212 app_metadata: AppMetadata,
213 text_system: Arc<TextSystem>,
214 flushing_effects: bool,
215 pending_updates: usize,
216 pub(crate) actions: Rc<ActionRegistry>,
217 pub(crate) active_drag: Option<AnyDrag>,
218 pub(crate) background_executor: BackgroundExecutor,
219 pub(crate) foreground_executor: ForegroundExecutor,
220 pub(crate) loading_assets: FxHashMap<(TypeId, u64), Box<dyn Any>>,
221 pub(crate) asset_cache: AssetCache,
222 asset_source: Arc<dyn AssetSource>,
223 pub(crate) svg_renderer: SvgRenderer,
224 http_client: Arc<dyn HttpClient>,
225 pub(crate) globals_by_type: FxHashMap<TypeId, Box<dyn Any>>,
226 pub(crate) entities: EntityMap,
227 pub(crate) new_view_observers: SubscriberSet<TypeId, NewViewListener>,
228 pub(crate) windows: SlotMap<WindowId, Option<Window>>,
229 pub(crate) window_handles: FxHashMap<WindowId, AnyWindowHandle>,
230 pub(crate) keymap: Rc<RefCell<Keymap>>,
231 pub(crate) global_action_listeners:
232 FxHashMap<TypeId, Vec<Rc<dyn Fn(&dyn Any, DispatchPhase, &mut Self)>>>,
233 pending_effects: VecDeque<Effect>,
234 pub(crate) pending_notifications: FxHashSet<EntityId>,
235 pub(crate) pending_global_notifications: FxHashSet<TypeId>,
236 pub(crate) observers: SubscriberSet<EntityId, Handler>,
237 // TypeId is the type of the event that the listener callback expects
238 pub(crate) event_listeners: SubscriberSet<EntityId, (TypeId, Listener)>,
239 pub(crate) keystroke_observers: SubscriberSet<(), KeystrokeObserver>,
240 pub(crate) release_listeners: SubscriberSet<EntityId, ReleaseListener>,
241 pub(crate) global_observers: SubscriberSet<TypeId, Handler>,
242 pub(crate) quit_observers: SubscriberSet<(), QuitHandler>,
243 pub(crate) layout_id_buffer: Vec<LayoutId>, // We recycle this memory across layout requests.
244 pub(crate) propagate_event: bool,
245 pub(crate) prompt_builder: Option<PromptBuilder>,
246}
247
248impl AppContext {
249 #[allow(clippy::new_ret_no_self)]
250 pub(crate) fn new(
251 platform: Rc<dyn Platform>,
252 asset_source: Arc<dyn AssetSource>,
253 http_client: Arc<dyn HttpClient>,
254 ) -> Rc<AppCell> {
255 let executor = platform.background_executor();
256 let foreground_executor = platform.foreground_executor();
257 assert!(
258 executor.is_main_thread(),
259 "must construct App on main thread"
260 );
261
262 let text_system = Arc::new(TextSystem::new(platform.text_system()));
263 let entities = EntityMap::new();
264
265 let app_metadata = AppMetadata {
266 os_name: platform.os_name(),
267 os_version: platform.os_version().ok(),
268 app_version: platform.app_version().ok(),
269 };
270
271 let app = Rc::new_cyclic(|this| AppCell {
272 app: RefCell::new(AppContext {
273 this: this.clone(),
274 platform: platform.clone(),
275 app_metadata,
276 text_system,
277 actions: Rc::new(ActionRegistry::default()),
278 flushing_effects: false,
279 pending_updates: 0,
280 active_drag: None,
281 background_executor: executor,
282 foreground_executor,
283 svg_renderer: SvgRenderer::new(asset_source.clone()),
284 asset_cache: AssetCache::new(),
285 loading_assets: Default::default(),
286 asset_source,
287 http_client,
288 globals_by_type: FxHashMap::default(),
289 entities,
290 new_view_observers: SubscriberSet::new(),
291 window_handles: FxHashMap::default(),
292 windows: SlotMap::with_key(),
293 keymap: Rc::new(RefCell::new(Keymap::default())),
294 global_action_listeners: FxHashMap::default(),
295 pending_effects: VecDeque::new(),
296 pending_notifications: FxHashSet::default(),
297 pending_global_notifications: FxHashSet::default(),
298 observers: SubscriberSet::new(),
299 event_listeners: SubscriberSet::new(),
300 release_listeners: SubscriberSet::new(),
301 keystroke_observers: SubscriberSet::new(),
302 global_observers: SubscriberSet::new(),
303 quit_observers: SubscriberSet::new(),
304 layout_id_buffer: Default::default(),
305 propagate_event: true,
306 prompt_builder: Some(PromptBuilder::Default),
307 }),
308 });
309
310 init_app_menus(platform.as_ref(), &mut app.borrow_mut());
311
312 platform.on_quit(Box::new({
313 let cx = app.clone();
314 move || {
315 cx.borrow_mut().shutdown();
316 }
317 }));
318
319 app
320 }
321
322 /// Quit the application gracefully. Handlers registered with [`ModelContext::on_app_quit`]
323 /// will be given 100ms to complete before exiting.
324 pub fn shutdown(&mut self) {
325 let mut futures = Vec::new();
326
327 for observer in self.quit_observers.remove(&()) {
328 futures.push(observer(self));
329 }
330
331 self.windows.clear();
332 self.window_handles.clear();
333 self.flush_effects();
334
335 let futures = futures::future::join_all(futures);
336 if self
337 .background_executor
338 .block_with_timeout(SHUTDOWN_TIMEOUT, futures)
339 .is_err()
340 {
341 log::error!("timed out waiting on app_will_quit");
342 }
343 }
344
345 /// Gracefully quit the application via the platform's standard routine.
346 pub fn quit(&mut self) {
347 self.platform.quit();
348 }
349
350 /// Get metadata about the app and platform.
351 pub fn app_metadata(&self) -> AppMetadata {
352 self.app_metadata.clone()
353 }
354
355 /// Schedules all windows in the application to be redrawn. This can be called
356 /// multiple times in an update cycle and still result in a single redraw.
357 pub fn refresh(&mut self) {
358 self.pending_effects.push_back(Effect::Refresh);
359 }
360
361 pub(crate) fn update<R>(&mut self, update: impl FnOnce(&mut Self) -> R) -> R {
362 self.pending_updates += 1;
363 let result = update(self);
364 if !self.flushing_effects && self.pending_updates == 1 {
365 self.flushing_effects = true;
366 self.flush_effects();
367 self.flushing_effects = false;
368 }
369 self.pending_updates -= 1;
370 result
371 }
372
373 /// Arrange a callback to be invoked when the given model or view calls `notify` on its respective context.
374 pub fn observe<W, E>(
375 &mut self,
376 entity: &E,
377 mut on_notify: impl FnMut(E, &mut AppContext) + 'static,
378 ) -> Subscription
379 where
380 W: 'static,
381 E: Entity<W>,
382 {
383 self.observe_internal(entity, move |e, cx| {
384 on_notify(e, cx);
385 true
386 })
387 }
388
389 pub(crate) fn new_observer(&mut self, key: EntityId, value: Handler) -> Subscription {
390 let (subscription, activate) = self.observers.insert(key, value);
391 self.defer(move |_| activate());
392 subscription
393 }
394 pub(crate) fn observe_internal<W, E>(
395 &mut self,
396 entity: &E,
397 mut on_notify: impl FnMut(E, &mut AppContext) -> bool + 'static,
398 ) -> Subscription
399 where
400 W: 'static,
401 E: Entity<W>,
402 {
403 let entity_id = entity.entity_id();
404 let handle = entity.downgrade();
405 self.new_observer(
406 entity_id,
407 Box::new(move |cx| {
408 if let Some(handle) = E::upgrade_from(&handle) {
409 on_notify(handle, cx)
410 } else {
411 false
412 }
413 }),
414 )
415 }
416
417 /// Arrange for the given callback to be invoked whenever the given model or view emits an event of a given type.
418 /// The callback is provided a handle to the emitting entity and a reference to the emitted event.
419 pub fn subscribe<T, E, Event>(
420 &mut self,
421 entity: &E,
422 mut on_event: impl FnMut(E, &Event, &mut AppContext) + 'static,
423 ) -> Subscription
424 where
425 T: 'static + EventEmitter<Event>,
426 E: Entity<T>,
427 Event: 'static,
428 {
429 self.subscribe_internal(entity, move |entity, event, cx| {
430 on_event(entity, event, cx);
431 true
432 })
433 }
434
435 pub(crate) fn new_subscription(
436 &mut self,
437 key: EntityId,
438 value: (TypeId, Listener),
439 ) -> Subscription {
440 let (subscription, activate) = self.event_listeners.insert(key, value);
441 self.defer(move |_| activate());
442 subscription
443 }
444 pub(crate) fn subscribe_internal<T, E, Evt>(
445 &mut self,
446 entity: &E,
447 mut on_event: impl FnMut(E, &Evt, &mut AppContext) -> bool + 'static,
448 ) -> Subscription
449 where
450 T: 'static + EventEmitter<Evt>,
451 E: Entity<T>,
452 Evt: 'static,
453 {
454 let entity_id = entity.entity_id();
455 let entity = entity.downgrade();
456 self.new_subscription(
457 entity_id,
458 (
459 TypeId::of::<Evt>(),
460 Box::new(move |event, cx| {
461 let event: &Evt = event.downcast_ref().expect("invalid event type");
462 if let Some(handle) = E::upgrade_from(&entity) {
463 on_event(handle, event, cx)
464 } else {
465 false
466 }
467 }),
468 ),
469 )
470 }
471
472 /// Returns handles to all open windows in the application.
473 /// Each handle could be downcast to a handle typed for the root view of that window.
474 /// To find all windows of a given type, you could filter on
475 pub fn windows(&self) -> Vec<AnyWindowHandle> {
476 self.windows
477 .keys()
478 .flat_map(|window_id| self.window_handles.get(&window_id).copied())
479 .collect()
480 }
481
482 /// Returns a handle to the window that is currently focused at the platform level, if one exists.
483 pub fn active_window(&self) -> Option<AnyWindowHandle> {
484 self.platform.active_window()
485 }
486
487 /// Opens a new window with the given option and the root view returned by the given function.
488 /// The function is invoked with a `WindowContext`, which can be used to interact with window-specific
489 /// functionality.
490 pub fn open_window<V: 'static + Render>(
491 &mut self,
492 options: crate::WindowOptions,
493 build_root_view: impl FnOnce(&mut WindowContext) -> View<V>,
494 ) -> WindowHandle<V> {
495 self.update(|cx| {
496 let id = cx.windows.insert(None);
497 let handle = WindowHandle::new(id);
498 let mut window = Window::new(handle.into(), options, cx);
499 let root_view = build_root_view(&mut WindowContext::new(cx, &mut window));
500 window.root_view.replace(root_view.into());
501 cx.window_handles.insert(id, window.handle);
502 cx.windows.get_mut(id).unwrap().replace(window);
503 handle
504 })
505 }
506
507 /// Instructs the platform to activate the application by bringing it to the foreground.
508 pub fn activate(&self, ignoring_other_apps: bool) {
509 self.platform.activate(ignoring_other_apps);
510 }
511
512 /// Hide the application at the platform level.
513 pub fn hide(&self) {
514 self.platform.hide();
515 }
516
517 /// Hide other applications at the platform level.
518 pub fn hide_other_apps(&self) {
519 self.platform.hide_other_apps();
520 }
521
522 /// Unhide other applications at the platform level.
523 pub fn unhide_other_apps(&self) {
524 self.platform.unhide_other_apps();
525 }
526
527 /// Returns the list of currently active displays.
528 pub fn displays(&self) -> Vec<Rc<dyn PlatformDisplay>> {
529 self.platform.displays()
530 }
531
532 /// Returns the primary display that will be used for new windows.
533 pub fn primary_display(&self) -> Option<Rc<dyn PlatformDisplay>> {
534 self.platform.primary_display()
535 }
536
537 /// Returns the display with the given ID, if one exists.
538 pub fn find_display(&self, id: DisplayId) -> Option<Rc<dyn PlatformDisplay>> {
539 self.displays()
540 .iter()
541 .find(|display| display.id() == id)
542 .cloned()
543 }
544
545 /// Returns the appearance of the application's windows.
546 pub fn window_appearance(&self) -> WindowAppearance {
547 self.platform.window_appearance()
548 }
549
550 /// Writes data to the primary selection buffer.
551 /// Only available on Linux.
552 pub fn write_to_primary(&self, item: ClipboardItem) {
553 self.platform.write_to_primary(item)
554 }
555
556 /// Writes data to the platform clipboard.
557 pub fn write_to_clipboard(&self, item: ClipboardItem) {
558 self.platform.write_to_clipboard(item)
559 }
560
561 /// Reads data from the primary selection buffer.
562 /// Only available on Linux.
563 pub fn read_from_primary(&self) -> Option<ClipboardItem> {
564 self.platform.read_from_primary()
565 }
566
567 /// Reads data from the platform clipboard.
568 pub fn read_from_clipboard(&self) -> Option<ClipboardItem> {
569 self.platform.read_from_clipboard()
570 }
571
572 /// Writes credentials to the platform keychain.
573 pub fn write_credentials(
574 &self,
575 url: &str,
576 username: &str,
577 password: &[u8],
578 ) -> Task<Result<()>> {
579 self.platform.write_credentials(url, username, password)
580 }
581
582 /// Reads credentials from the platform keychain.
583 pub fn read_credentials(&self, url: &str) -> Task<Result<Option<(String, Vec<u8>)>>> {
584 self.platform.read_credentials(url)
585 }
586
587 /// Deletes credentials from the platform keychain.
588 pub fn delete_credentials(&self, url: &str) -> Task<Result<()>> {
589 self.platform.delete_credentials(url)
590 }
591
592 /// Directs the platform's default browser to open the given URL.
593 pub fn open_url(&self, url: &str) {
594 self.platform.open_url(url);
595 }
596
597 /// register_url_scheme requests that the given scheme (e.g. `zed` for `zed://` urls)
598 /// is opened by the current app.
599 /// On some platforms (e.g. macOS) you may be able to register URL schemes as part of app
600 /// distribution, but this method exists to let you register schemes at runtime.
601 pub fn register_url_scheme(&self, scheme: &str) -> Task<Result<()>> {
602 self.platform.register_url_scheme(scheme)
603 }
604
605 /// Returns the full pathname of the current app bundle.
606 /// If the app is not being run from a bundle, returns an error.
607 pub fn app_path(&self) -> Result<PathBuf> {
608 self.platform.app_path()
609 }
610
611 /// Returns the file URL of the executable with the specified name in the application bundle
612 pub fn path_for_auxiliary_executable(&self, name: &str) -> Result<PathBuf> {
613 self.platform.path_for_auxiliary_executable(name)
614 }
615
616 /// Displays a platform modal for selecting paths.
617 /// When one or more paths are selected, they'll be relayed asynchronously via the returned oneshot channel.
618 /// If cancelled, a `None` will be relayed instead.
619 pub fn prompt_for_paths(
620 &self,
621 options: PathPromptOptions,
622 ) -> oneshot::Receiver<Option<Vec<PathBuf>>> {
623 self.platform.prompt_for_paths(options)
624 }
625
626 /// Displays a platform modal for selecting a new path where a file can be saved.
627 /// The provided directory will be used to set the initial location.
628 /// When a path is selected, it is relayed asynchronously via the returned oneshot channel.
629 /// If cancelled, a `None` will be relayed instead.
630 pub fn prompt_for_new_path(&self, directory: &Path) -> oneshot::Receiver<Option<PathBuf>> {
631 self.platform.prompt_for_new_path(directory)
632 }
633
634 /// Reveals the specified path at the platform level, such as in Finder on macOS.
635 pub fn reveal_path(&self, path: &Path) {
636 self.platform.reveal_path(path)
637 }
638
639 /// Returns whether the user has configured scrollbars to auto-hide at the platform level.
640 pub fn should_auto_hide_scrollbars(&self) -> bool {
641 self.platform.should_auto_hide_scrollbars()
642 }
643
644 /// Restart the application.
645 pub fn restart(&self, binary_path: Option<PathBuf>) {
646 self.platform.restart(binary_path)
647 }
648
649 /// Returns the local timezone at the platform level.
650 pub fn local_timezone(&self) -> UtcOffset {
651 self.platform.local_timezone()
652 }
653
654 /// Returns the http client assigned to GPUI
655 pub fn http_client(&self) -> Arc<dyn HttpClient> {
656 self.http_client.clone()
657 }
658
659 /// Returns the SVG renderer GPUI uses
660 pub(crate) fn svg_renderer(&self) -> SvgRenderer {
661 self.svg_renderer.clone()
662 }
663
664 pub(crate) fn push_effect(&mut self, effect: Effect) {
665 match &effect {
666 Effect::Notify { emitter } => {
667 if !self.pending_notifications.insert(*emitter) {
668 return;
669 }
670 }
671 Effect::NotifyGlobalObservers { global_type } => {
672 if !self.pending_global_notifications.insert(*global_type) {
673 return;
674 }
675 }
676 _ => {}
677 };
678
679 self.pending_effects.push_back(effect);
680 }
681
682 /// Called at the end of [`AppContext::update`] to complete any side effects
683 /// such as notifying observers, emitting events, etc. Effects can themselves
684 /// cause effects, so we continue looping until all effects are processed.
685 fn flush_effects(&mut self) {
686 loop {
687 self.release_dropped_entities();
688 self.release_dropped_focus_handles();
689
690 if let Some(effect) = self.pending_effects.pop_front() {
691 match effect {
692 Effect::Notify { emitter } => {
693 self.apply_notify_effect(emitter);
694 }
695
696 Effect::Emit {
697 emitter,
698 event_type,
699 event,
700 } => self.apply_emit_effect(emitter, event_type, event),
701
702 Effect::Refresh => {
703 self.apply_refresh_effect();
704 }
705
706 Effect::NotifyGlobalObservers { global_type } => {
707 self.apply_notify_global_observers_effect(global_type);
708 }
709
710 Effect::Defer { callback } => {
711 self.apply_defer_effect(callback);
712 }
713 }
714 } else {
715 #[cfg(any(test, feature = "test-support"))]
716 for window in self
717 .windows
718 .values()
719 .filter_map(|window| {
720 let window = window.as_ref()?;
721 window.dirty.get().then_some(window.handle)
722 })
723 .collect::<Vec<_>>()
724 {
725 self.update_window(window, |_, cx| cx.draw()).unwrap();
726 }
727
728 if self.pending_effects.is_empty() {
729 break;
730 }
731 }
732 }
733 }
734
735 /// Repeatedly called during `flush_effects` to release any entities whose
736 /// reference count has become zero. We invoke any release observers before dropping
737 /// each entity.
738 fn release_dropped_entities(&mut self) {
739 loop {
740 let dropped = self.entities.take_dropped();
741 if dropped.is_empty() {
742 break;
743 }
744
745 for (entity_id, mut entity) in dropped {
746 self.observers.remove(&entity_id);
747 self.event_listeners.remove(&entity_id);
748 for release_callback in self.release_listeners.remove(&entity_id) {
749 release_callback(entity.as_mut(), self);
750 }
751 }
752 }
753 }
754
755 /// Repeatedly called during `flush_effects` to handle a focused handle being dropped.
756 fn release_dropped_focus_handles(&mut self) {
757 for window_handle in self.windows() {
758 window_handle
759 .update(self, |_, cx| {
760 let mut blur_window = false;
761 let focus = cx.window.focus;
762 cx.window.focus_handles.write().retain(|handle_id, count| {
763 if count.load(SeqCst) == 0 {
764 if focus == Some(handle_id) {
765 blur_window = true;
766 }
767 false
768 } else {
769 true
770 }
771 });
772
773 if blur_window {
774 cx.blur();
775 }
776 })
777 .unwrap();
778 }
779 }
780
781 fn apply_notify_effect(&mut self, emitter: EntityId) {
782 self.pending_notifications.remove(&emitter);
783
784 self.observers
785 .clone()
786 .retain(&emitter, |handler| handler(self));
787 }
788
789 fn apply_emit_effect(&mut self, emitter: EntityId, event_type: TypeId, event: Box<dyn Any>) {
790 self.event_listeners
791 .clone()
792 .retain(&emitter, |(stored_type, handler)| {
793 if *stored_type == event_type {
794 handler(event.as_ref(), self)
795 } else {
796 true
797 }
798 });
799 }
800
801 fn apply_refresh_effect(&mut self) {
802 for window in self.windows.values_mut() {
803 if let Some(window) = window.as_mut() {
804 window.dirty.set(true);
805 }
806 }
807 }
808
809 fn apply_notify_global_observers_effect(&mut self, type_id: TypeId) {
810 self.pending_global_notifications.remove(&type_id);
811 self.global_observers
812 .clone()
813 .retain(&type_id, |observer| observer(self));
814 }
815
816 fn apply_defer_effect(&mut self, callback: Box<dyn FnOnce(&mut Self) + 'static>) {
817 callback(self);
818 }
819
820 /// Creates an `AsyncAppContext`, which can be cloned and has a static lifetime
821 /// so it can be held across `await` points.
822 pub fn to_async(&self) -> AsyncAppContext {
823 AsyncAppContext {
824 app: self.this.clone(),
825 background_executor: self.background_executor.clone(),
826 foreground_executor: self.foreground_executor.clone(),
827 }
828 }
829
830 /// Obtains a reference to the executor, which can be used to spawn futures.
831 pub fn background_executor(&self) -> &BackgroundExecutor {
832 &self.background_executor
833 }
834
835 /// Obtains a reference to the executor, which can be used to spawn futures.
836 pub fn foreground_executor(&self) -> &ForegroundExecutor {
837 &self.foreground_executor
838 }
839
840 /// Spawns the future returned by the given function on the thread pool. The closure will be invoked
841 /// with [AsyncAppContext], which allows the application state to be accessed across await points.
842 pub fn spawn<Fut, R>(&self, f: impl FnOnce(AsyncAppContext) -> Fut) -> Task<R>
843 where
844 Fut: Future<Output = R> + 'static,
845 R: 'static,
846 {
847 self.foreground_executor.spawn(f(self.to_async()))
848 }
849
850 /// Schedules the given function to be run at the end of the current effect cycle, allowing entities
851 /// that are currently on the stack to be returned to the app.
852 pub fn defer(&mut self, f: impl FnOnce(&mut AppContext) + 'static) {
853 self.push_effect(Effect::Defer {
854 callback: Box::new(f),
855 });
856 }
857
858 /// Accessor for the application's asset source, which is provided when constructing the `App`.
859 pub fn asset_source(&self) -> &Arc<dyn AssetSource> {
860 &self.asset_source
861 }
862
863 /// Accessor for the text system.
864 pub fn text_system(&self) -> &Arc<TextSystem> {
865 &self.text_system
866 }
867
868 /// Check whether a global of the given type has been assigned.
869 pub fn has_global<G: Global>(&self) -> bool {
870 self.globals_by_type.contains_key(&TypeId::of::<G>())
871 }
872
873 /// Access the global of the given type. Panics if a global for that type has not been assigned.
874 #[track_caller]
875 pub fn global<G: Global>(&self) -> &G {
876 self.globals_by_type
877 .get(&TypeId::of::<G>())
878 .map(|any_state| any_state.downcast_ref::<G>().unwrap())
879 .ok_or_else(|| anyhow!("no state of type {} exists", type_name::<G>()))
880 .unwrap()
881 }
882
883 /// Access the global of the given type if a value has been assigned.
884 pub fn try_global<G: Global>(&self) -> Option<&G> {
885 self.globals_by_type
886 .get(&TypeId::of::<G>())
887 .map(|any_state| any_state.downcast_ref::<G>().unwrap())
888 }
889
890 /// Access the global of the given type mutably. Panics if a global for that type has not been assigned.
891 #[track_caller]
892 pub fn global_mut<G: Global>(&mut self) -> &mut G {
893 let global_type = TypeId::of::<G>();
894 self.push_effect(Effect::NotifyGlobalObservers { global_type });
895 self.globals_by_type
896 .get_mut(&global_type)
897 .and_then(|any_state| any_state.downcast_mut::<G>())
898 .ok_or_else(|| anyhow!("no state of type {} exists", type_name::<G>()))
899 .unwrap()
900 }
901
902 /// Access the global of the given type mutably. A default value is assigned if a global of this type has not
903 /// yet been assigned.
904 pub fn default_global<G: Global + Default>(&mut self) -> &mut G {
905 let global_type = TypeId::of::<G>();
906 self.push_effect(Effect::NotifyGlobalObservers { global_type });
907 self.globals_by_type
908 .entry(global_type)
909 .or_insert_with(|| Box::<G>::default())
910 .downcast_mut::<G>()
911 .unwrap()
912 }
913
914 /// Sets the value of the global of the given type.
915 pub fn set_global<G: Global>(&mut self, global: G) {
916 let global_type = TypeId::of::<G>();
917 self.push_effect(Effect::NotifyGlobalObservers { global_type });
918 self.globals_by_type.insert(global_type, Box::new(global));
919 }
920
921 /// Clear all stored globals. Does not notify global observers.
922 #[cfg(any(test, feature = "test-support"))]
923 pub fn clear_globals(&mut self) {
924 self.globals_by_type.drain();
925 }
926
927 /// Remove the global of the given type from the app context. Does not notify global observers.
928 pub fn remove_global<G: Global>(&mut self) -> G {
929 let global_type = TypeId::of::<G>();
930 self.push_effect(Effect::NotifyGlobalObservers { global_type });
931 *self
932 .globals_by_type
933 .remove(&global_type)
934 .unwrap_or_else(|| panic!("no global added for {}", std::any::type_name::<G>()))
935 .downcast()
936 .unwrap()
937 }
938
939 /// Register a callback to be invoked when a global of the given type is updated.
940 pub fn observe_global<G: Global>(
941 &mut self,
942 mut f: impl FnMut(&mut Self) + 'static,
943 ) -> Subscription {
944 let (subscription, activate) = self.global_observers.insert(
945 TypeId::of::<G>(),
946 Box::new(move |cx| {
947 f(cx);
948 true
949 }),
950 );
951 self.defer(move |_| activate());
952 subscription
953 }
954
955 /// Move the global of the given type to the stack.
956 pub(crate) fn lease_global<G: Global>(&mut self) -> GlobalLease<G> {
957 GlobalLease::new(
958 self.globals_by_type
959 .remove(&TypeId::of::<G>())
960 .ok_or_else(|| anyhow!("no global registered of type {}", type_name::<G>()))
961 .unwrap(),
962 )
963 }
964
965 /// Restore the global of the given type after it is moved to the stack.
966 pub(crate) fn end_global_lease<G: Global>(&mut self, lease: GlobalLease<G>) {
967 let global_type = TypeId::of::<G>();
968 self.push_effect(Effect::NotifyGlobalObservers { global_type });
969 self.globals_by_type.insert(global_type, lease.global);
970 }
971
972 pub(crate) fn new_view_observer(
973 &mut self,
974 key: TypeId,
975 value: NewViewListener,
976 ) -> Subscription {
977 let (subscription, activate) = self.new_view_observers.insert(key, value);
978 activate();
979 subscription
980 }
981 /// Arrange for the given function to be invoked whenever a view of the specified type is created.
982 /// The function will be passed a mutable reference to the view along with an appropriate context.
983 pub fn observe_new_views<V: 'static>(
984 &mut self,
985 on_new: impl 'static + Fn(&mut V, &mut ViewContext<V>),
986 ) -> Subscription {
987 self.new_view_observer(
988 TypeId::of::<V>(),
989 Box::new(move |any_view: AnyView, cx: &mut WindowContext| {
990 any_view
991 .downcast::<V>()
992 .unwrap()
993 .update(cx, |view_state, cx| {
994 on_new(view_state, cx);
995 })
996 }),
997 )
998 }
999
1000 /// Observe the release of a model or view. The callback is invoked after the model or view
1001 /// has no more strong references but before it has been dropped.
1002 pub fn observe_release<E, T>(
1003 &mut self,
1004 handle: &E,
1005 on_release: impl FnOnce(&mut T, &mut AppContext) + 'static,
1006 ) -> Subscription
1007 where
1008 E: Entity<T>,
1009 T: 'static,
1010 {
1011 let (subscription, activate) = self.release_listeners.insert(
1012 handle.entity_id(),
1013 Box::new(move |entity, cx| {
1014 let entity = entity.downcast_mut().expect("invalid entity type");
1015 on_release(entity, cx)
1016 }),
1017 );
1018 activate();
1019 subscription
1020 }
1021
1022 /// Register a callback to be invoked when a keystroke is received by the application
1023 /// in any window. Note that this fires after all other action and event mechanisms have resolved
1024 /// and that this API will not be invoked if the event's propagation is stopped.
1025 pub fn observe_keystrokes(
1026 &mut self,
1027 f: impl FnMut(&KeystrokeEvent, &mut WindowContext) + 'static,
1028 ) -> Subscription {
1029 fn inner(
1030 keystroke_observers: &mut SubscriberSet<(), KeystrokeObserver>,
1031 handler: KeystrokeObserver,
1032 ) -> Subscription {
1033 let (subscription, activate) = keystroke_observers.insert((), handler);
1034 activate();
1035 subscription
1036 }
1037 inner(&mut self.keystroke_observers, Box::new(f))
1038 }
1039
1040 /// Register key bindings.
1041 pub fn bind_keys(&mut self, bindings: impl IntoIterator<Item = KeyBinding>) {
1042 self.keymap.borrow_mut().add_bindings(bindings);
1043 self.pending_effects.push_back(Effect::Refresh);
1044 }
1045
1046 /// Clear all key bindings in the app.
1047 pub fn clear_key_bindings(&mut self) {
1048 self.keymap.borrow_mut().clear();
1049 self.pending_effects.push_back(Effect::Refresh);
1050 }
1051
1052 /// Register a global listener for actions invoked via the keyboard.
1053 pub fn on_action<A: Action>(&mut self, listener: impl Fn(&A, &mut Self) + 'static) {
1054 self.global_action_listeners
1055 .entry(TypeId::of::<A>())
1056 .or_default()
1057 .push(Rc::new(move |action, phase, cx| {
1058 if phase == DispatchPhase::Bubble {
1059 let action = action.downcast_ref().unwrap();
1060 listener(action, cx)
1061 }
1062 }));
1063 }
1064
1065 /// Event handlers propagate events by default. Call this method to stop dispatching to
1066 /// event handlers with a lower z-index (mouse) or higher in the tree (keyboard). This is
1067 /// the opposite of [`Self::propagate`]. It's also possible to cancel a call to [`Self::propagate`] by
1068 /// calling this method before effects are flushed.
1069 pub fn stop_propagation(&mut self) {
1070 self.propagate_event = false;
1071 }
1072
1073 /// Action handlers stop propagation by default during the bubble phase of action dispatch
1074 /// dispatching to action handlers higher in the element tree. This is the opposite of
1075 /// [`Self::stop_propagation`]. It's also possible to cancel a call to [`Self::stop_propagation`] by calling
1076 /// this method before effects are flushed.
1077 pub fn propagate(&mut self) {
1078 self.propagate_event = true;
1079 }
1080
1081 /// Build an action from some arbitrary data, typically a keymap entry.
1082 pub fn build_action(
1083 &self,
1084 name: &str,
1085 data: Option<serde_json::Value>,
1086 ) -> Result<Box<dyn Action>> {
1087 self.actions.build_action(name, data)
1088 }
1089
1090 /// Get a list of all action names that have been registered.
1091 /// in the application. Note that registration only allows for
1092 /// actions to be built dynamically, and is unrelated to binding
1093 /// actions in the element tree.
1094 pub fn all_action_names(&self) -> &[SharedString] {
1095 self.actions.all_action_names()
1096 }
1097
1098 /// Register a callback to be invoked when the application is about to quit.
1099 /// It is not possible to cancel the quit event at this point.
1100 pub fn on_app_quit<Fut>(
1101 &mut self,
1102 mut on_quit: impl FnMut(&mut AppContext) -> Fut + 'static,
1103 ) -> Subscription
1104 where
1105 Fut: 'static + Future<Output = ()>,
1106 {
1107 let (subscription, activate) = self.quit_observers.insert(
1108 (),
1109 Box::new(move |cx| {
1110 let future = on_quit(cx);
1111 future.boxed_local()
1112 }),
1113 );
1114 activate();
1115 subscription
1116 }
1117
1118 pub(crate) fn clear_pending_keystrokes(&mut self) {
1119 for window in self.windows() {
1120 window
1121 .update(self, |_, cx| {
1122 cx.window
1123 .rendered_frame
1124 .dispatch_tree
1125 .clear_pending_keystrokes();
1126 cx.window
1127 .next_frame
1128 .dispatch_tree
1129 .clear_pending_keystrokes();
1130 })
1131 .ok();
1132 }
1133 }
1134
1135 /// Checks if the given action is bound in the current context, as defined by the app's current focus,
1136 /// the bindings in the element tree, and any global action listeners.
1137 pub fn is_action_available(&mut self, action: &dyn Action) -> bool {
1138 let mut action_available = false;
1139 if let Some(window) = self.active_window() {
1140 if let Ok(window_action_available) =
1141 window.update(self, |_, cx| cx.is_action_available(action))
1142 {
1143 action_available = window_action_available;
1144 }
1145 }
1146
1147 action_available
1148 || self
1149 .global_action_listeners
1150 .contains_key(&action.as_any().type_id())
1151 }
1152
1153 /// Sets the menu bar for this application. This will replace any existing menu bar.
1154 pub fn set_menus(&mut self, menus: Vec<Menu>) {
1155 self.platform.set_menus(menus, &self.keymap.borrow());
1156 }
1157
1158 /// Adds given path to the bottom of the list of recent paths for the application.
1159 /// The list is usually shown on the application icon's context menu in the dock,
1160 /// and allows to open the recent files via that context menu.
1161 /// If the path is already in the list, it will be moved to the bottom of the list.
1162 pub fn add_recent_document(&mut self, path: &Path) {
1163 self.platform.add_recent_document(path);
1164 }
1165
1166 /// Dispatch an action to the currently active window or global action handler
1167 /// See [action::Action] for more information on how actions work
1168 pub fn dispatch_action(&mut self, action: &dyn Action) {
1169 if let Some(active_window) = self.active_window() {
1170 active_window
1171 .update(self, |_, cx| cx.dispatch_action(action.boxed_clone()))
1172 .log_err();
1173 } else {
1174 self.dispatch_global_action(action);
1175 }
1176 }
1177
1178 fn dispatch_global_action(&mut self, action: &dyn Action) {
1179 self.propagate_event = true;
1180
1181 if let Some(mut global_listeners) = self
1182 .global_action_listeners
1183 .remove(&action.as_any().type_id())
1184 {
1185 for listener in &global_listeners {
1186 listener(action.as_any(), DispatchPhase::Capture, self);
1187 if !self.propagate_event {
1188 break;
1189 }
1190 }
1191
1192 global_listeners.extend(
1193 self.global_action_listeners
1194 .remove(&action.as_any().type_id())
1195 .unwrap_or_default(),
1196 );
1197
1198 self.global_action_listeners
1199 .insert(action.as_any().type_id(), global_listeners);
1200 }
1201
1202 if self.propagate_event {
1203 if let Some(mut global_listeners) = self
1204 .global_action_listeners
1205 .remove(&action.as_any().type_id())
1206 {
1207 for listener in global_listeners.iter().rev() {
1208 listener(action.as_any(), DispatchPhase::Bubble, self);
1209 if !self.propagate_event {
1210 break;
1211 }
1212 }
1213
1214 global_listeners.extend(
1215 self.global_action_listeners
1216 .remove(&action.as_any().type_id())
1217 .unwrap_or_default(),
1218 );
1219
1220 self.global_action_listeners
1221 .insert(action.as_any().type_id(), global_listeners);
1222 }
1223 }
1224 }
1225
1226 /// Is there currently something being dragged?
1227 pub fn has_active_drag(&self) -> bool {
1228 self.active_drag.is_some()
1229 }
1230
1231 /// Set the prompt renderer for GPUI. This will replace the default or platform specific
1232 /// prompts with this custom implementation.
1233 pub fn set_prompt_builder(
1234 &mut self,
1235 renderer: impl Fn(
1236 PromptLevel,
1237 &str,
1238 Option<&str>,
1239 &[&str],
1240 PromptHandle,
1241 &mut WindowContext,
1242 ) -> RenderablePromptHandle
1243 + 'static,
1244 ) {
1245 self.prompt_builder = Some(PromptBuilder::Custom(Box::new(renderer)))
1246 }
1247}
1248
1249impl Context for AppContext {
1250 type Result<T> = T;
1251
1252 /// Build an entity that is owned by the application. The given function will be invoked with
1253 /// a `ModelContext` and must return an object representing the entity. A `Model` handle will be returned,
1254 /// which can be used to access the entity in a context.
1255 fn new_model<T: 'static>(
1256 &mut self,
1257 build_model: impl FnOnce(&mut ModelContext<'_, T>) -> T,
1258 ) -> Model<T> {
1259 self.update(|cx| {
1260 let slot = cx.entities.reserve();
1261 let entity = build_model(&mut ModelContext::new(cx, slot.downgrade()));
1262 cx.entities.insert(slot, entity)
1263 })
1264 }
1265
1266 fn reserve_model<T: 'static>(&mut self) -> Self::Result<Reservation<T>> {
1267 Reservation(self.entities.reserve())
1268 }
1269
1270 fn insert_model<T: 'static>(
1271 &mut self,
1272 reservation: Reservation<T>,
1273 build_model: impl FnOnce(&mut ModelContext<'_, T>) -> T,
1274 ) -> Self::Result<Model<T>> {
1275 self.update(|cx| {
1276 let slot = reservation.0;
1277 let entity = build_model(&mut ModelContext::new(cx, slot.downgrade()));
1278 cx.entities.insert(slot, entity)
1279 })
1280 }
1281
1282 /// Updates the entity referenced by the given model. The function is passed a mutable reference to the
1283 /// entity along with a `ModelContext` for the entity.
1284 fn update_model<T: 'static, R>(
1285 &mut self,
1286 model: &Model<T>,
1287 update: impl FnOnce(&mut T, &mut ModelContext<'_, T>) -> R,
1288 ) -> R {
1289 self.update(|cx| {
1290 let mut entity = cx.entities.lease(model);
1291 let result = update(&mut entity, &mut ModelContext::new(cx, model.downgrade()));
1292 cx.entities.end_lease(entity);
1293 result
1294 })
1295 }
1296
1297 fn read_model<T, R>(
1298 &self,
1299 handle: &Model<T>,
1300 read: impl FnOnce(&T, &AppContext) -> R,
1301 ) -> Self::Result<R>
1302 where
1303 T: 'static,
1304 {
1305 let entity = self.entities.read(handle);
1306 read(entity, self)
1307 }
1308
1309 fn update_window<T, F>(&mut self, handle: AnyWindowHandle, update: F) -> Result<T>
1310 where
1311 F: FnOnce(AnyView, &mut WindowContext<'_>) -> T,
1312 {
1313 self.update(|cx| {
1314 let mut window = cx
1315 .windows
1316 .get_mut(handle.id)
1317 .ok_or_else(|| anyhow!("window not found"))?
1318 .take()
1319 .ok_or_else(|| anyhow!("window not found"))?;
1320
1321 let root_view = window.root_view.clone().unwrap();
1322 let result = update(root_view, &mut WindowContext::new(cx, &mut window));
1323
1324 if window.removed {
1325 cx.window_handles.remove(&handle.id);
1326 cx.windows.remove(handle.id);
1327 } else {
1328 cx.windows
1329 .get_mut(handle.id)
1330 .ok_or_else(|| anyhow!("window not found"))?
1331 .replace(window);
1332 }
1333
1334 Ok(result)
1335 })
1336 }
1337
1338 fn read_window<T, R>(
1339 &self,
1340 window: &WindowHandle<T>,
1341 read: impl FnOnce(View<T>, &AppContext) -> R,
1342 ) -> Result<R>
1343 where
1344 T: 'static,
1345 {
1346 let window = self
1347 .windows
1348 .get(window.id)
1349 .ok_or_else(|| anyhow!("window not found"))?
1350 .as_ref()
1351 .unwrap();
1352
1353 let root_view = window.root_view.clone().unwrap();
1354 let view = root_view
1355 .downcast::<T>()
1356 .map_err(|_| anyhow!("root view's type has changed"))?;
1357
1358 Ok(read(view, self))
1359 }
1360}
1361
1362/// These effects are processed at the end of each application update cycle.
1363pub(crate) enum Effect {
1364 Notify {
1365 emitter: EntityId,
1366 },
1367 Emit {
1368 emitter: EntityId,
1369 event_type: TypeId,
1370 event: Box<dyn Any>,
1371 },
1372 Refresh,
1373 NotifyGlobalObservers {
1374 global_type: TypeId,
1375 },
1376 Defer {
1377 callback: Box<dyn FnOnce(&mut AppContext) + 'static>,
1378 },
1379}
1380
1381/// Wraps a global variable value during `update_global` while the value has been moved to the stack.
1382pub(crate) struct GlobalLease<G: Global> {
1383 global: Box<dyn Any>,
1384 global_type: PhantomData<G>,
1385}
1386
1387impl<G: Global> GlobalLease<G> {
1388 fn new(global: Box<dyn Any>) -> Self {
1389 GlobalLease {
1390 global,
1391 global_type: PhantomData,
1392 }
1393 }
1394}
1395
1396impl<G: Global> Deref for GlobalLease<G> {
1397 type Target = G;
1398
1399 fn deref(&self) -> &Self::Target {
1400 self.global.downcast_ref().unwrap()
1401 }
1402}
1403
1404impl<G: Global> DerefMut for GlobalLease<G> {
1405 fn deref_mut(&mut self) -> &mut Self::Target {
1406 self.global.downcast_mut().unwrap()
1407 }
1408}
1409
1410/// Contains state associated with an active drag operation, started by dragging an element
1411/// within the window or by dragging into the app from the underlying platform.
1412pub struct AnyDrag {
1413 /// The view used to render this drag
1414 pub view: AnyView,
1415
1416 /// The value of the dragged item, to be dropped
1417 pub value: Box<dyn Any>,
1418
1419 /// This is used to render the dragged item in the same place
1420 /// on the original element that the drag was initiated
1421 pub cursor_offset: Point<Pixels>,
1422}
1423
1424/// Contains state associated with a tooltip. You'll only need this struct if you're implementing
1425/// tooltip behavior on a custom element. Otherwise, use [Div::tooltip].
1426#[derive(Clone)]
1427pub struct AnyTooltip {
1428 /// The view used to display the tooltip
1429 pub view: AnyView,
1430
1431 /// The absolute position of the mouse when the tooltip was deployed.
1432 pub mouse_position: Point<Pixels>,
1433}
1434
1435/// A keystroke event, and potentially the associated action
1436#[derive(Debug)]
1437pub struct KeystrokeEvent {
1438 /// The keystroke that occurred
1439 pub keystroke: Keystroke,
1440
1441 /// The action that was resolved for the keystroke, if any
1442 pub action: Option<Box<dyn Action>>,
1443}