1use crate::{
2 Action, AnyView, AnyWindowHandle, App, AppCell, AppContext, AsyncApp, AvailableSpace,
3 BackgroundExecutor, BorrowAppContext, Bounds, Capslock, ClipboardItem, DrawPhase, Drawable,
4 Element, Empty, EventEmitter, ForegroundExecutor, Global, InputEvent, Keystroke, Modifiers,
5 ModifiersChangedEvent, MouseButton, MouseDownEvent, MouseMoveEvent, MouseUpEvent, Pixels,
6 Platform, Point, Render, Result, Size, Task, TestDispatcher, TestPlatform,
7 TestScreenCaptureSource, TestWindow, TextSystem, VisualContext, Window, WindowBounds,
8 WindowHandle, WindowOptions,
9};
10use anyhow::{anyhow, bail};
11use futures::{Stream, StreamExt, channel::oneshot};
12use rand::{SeedableRng, rngs::StdRng};
13use std::{cell::RefCell, future::Future, ops::Deref, rc::Rc, sync::Arc, time::Duration};
14
15/// A TestAppContext is provided to tests created with `#[gpui::test]`, it provides
16/// an implementation of `Context` with additional methods that are useful in tests.
17#[derive(Clone)]
18pub struct TestAppContext {
19 #[doc(hidden)]
20 pub app: Rc<AppCell>,
21 #[doc(hidden)]
22 pub background_executor: BackgroundExecutor,
23 #[doc(hidden)]
24 pub foreground_executor: ForegroundExecutor,
25 #[doc(hidden)]
26 pub dispatcher: TestDispatcher,
27 test_platform: Rc<TestPlatform>,
28 text_system: Arc<TextSystem>,
29 fn_name: Option<&'static str>,
30 on_quit: Rc<RefCell<Vec<Box<dyn FnOnce() + 'static>>>>,
31}
32
33impl AppContext for TestAppContext {
34 type Result<T> = T;
35
36 fn new<T: 'static>(
37 &mut self,
38 build_entity: impl FnOnce(&mut Context<T>) -> T,
39 ) -> Self::Result<Entity<T>> {
40 let mut app = self.app.borrow_mut();
41 app.new(build_entity)
42 }
43
44 fn reserve_entity<T: 'static>(&mut self) -> Self::Result<crate::Reservation<T>> {
45 let mut app = self.app.borrow_mut();
46 app.reserve_entity()
47 }
48
49 fn insert_entity<T: 'static>(
50 &mut self,
51 reservation: crate::Reservation<T>,
52 build_entity: impl FnOnce(&mut Context<T>) -> T,
53 ) -> Self::Result<Entity<T>> {
54 let mut app = self.app.borrow_mut();
55 app.insert_entity(reservation, build_entity)
56 }
57
58 fn update_entity<T: 'static, R>(
59 &mut self,
60 handle: &Entity<T>,
61 update: impl FnOnce(&mut T, &mut Context<T>) -> R,
62 ) -> Self::Result<R> {
63 let mut app = self.app.borrow_mut();
64 app.update_entity(handle, update)
65 }
66
67 fn as_mut<'a, T>(&'a mut self, _: &Entity<T>) -> Self::Result<super::GpuiBorrow<'a, T>>
68 where
69 T: 'static,
70 {
71 panic!("Cannot use as_mut with a test app context. Try calling update() first")
72 }
73
74 fn read_entity<T, R>(
75 &self,
76 handle: &Entity<T>,
77 read: impl FnOnce(&T, &App) -> R,
78 ) -> Self::Result<R>
79 where
80 T: 'static,
81 {
82 let app = self.app.borrow();
83 app.read_entity(handle, read)
84 }
85
86 fn update_window<T, F>(&mut self, window: AnyWindowHandle, f: F) -> Result<T>
87 where
88 F: FnOnce(AnyView, &mut Window, &mut App) -> T,
89 {
90 let mut lock = self.app.borrow_mut();
91 lock.update_window(window, f)
92 }
93
94 fn read_window<T, R>(
95 &self,
96 window: &WindowHandle<T>,
97 read: impl FnOnce(Entity<T>, &App) -> R,
98 ) -> Result<R>
99 where
100 T: 'static,
101 {
102 let app = self.app.borrow();
103 app.read_window(window, read)
104 }
105
106 fn background_spawn<R>(&self, future: impl Future<Output = R> + Send + 'static) -> Task<R>
107 where
108 R: Send + 'static,
109 {
110 self.background_executor.spawn(future)
111 }
112
113 fn read_global<G, R>(&self, callback: impl FnOnce(&G, &App) -> R) -> Self::Result<R>
114 where
115 G: Global,
116 {
117 let app = self.app.borrow();
118 app.read_global(callback)
119 }
120}
121
122impl TestAppContext {
123 /// Creates a new `TestAppContext`. Usually you can rely on `#[gpui::test]` to do this for you.
124 pub fn build(dispatcher: TestDispatcher, fn_name: Option<&'static str>) -> Self {
125 let arc_dispatcher = Arc::new(dispatcher.clone());
126 let background_executor = BackgroundExecutor::new(arc_dispatcher.clone());
127 let foreground_executor = ForegroundExecutor::new(arc_dispatcher);
128 let platform = TestPlatform::new(background_executor.clone(), foreground_executor.clone());
129 let asset_source = Arc::new(());
130 let http_client = http_client::FakeHttpClient::with_404_response();
131 let text_system = Arc::new(TextSystem::new(platform.text_system()));
132
133 Self {
134 app: App::new_app(platform.clone(), asset_source, http_client),
135 background_executor,
136 foreground_executor,
137 dispatcher,
138 test_platform: platform,
139 text_system,
140 fn_name,
141 on_quit: Rc::new(RefCell::new(Vec::default())),
142 }
143 }
144
145 /// Create a single TestAppContext, for non-multi-client tests
146 pub fn single() -> Self {
147 let dispatcher = TestDispatcher::new(StdRng::seed_from_u64(0));
148 Self::build(dispatcher, None)
149 }
150
151 /// The name of the test function that created this `TestAppContext`
152 pub fn test_function_name(&self) -> Option<&'static str> {
153 self.fn_name
154 }
155
156 /// Checks whether there have been any new path prompts received by the platform.
157 pub fn did_prompt_for_new_path(&self) -> bool {
158 self.test_platform.did_prompt_for_new_path()
159 }
160
161 /// returns a new `TestAppContext` re-using the same executors to interleave tasks.
162 pub fn new_app(&self) -> TestAppContext {
163 Self::build(self.dispatcher.clone(), self.fn_name)
164 }
165
166 /// Called by the test helper to end the test.
167 /// public so the macro can call it.
168 pub fn quit(&self) {
169 self.on_quit.borrow_mut().drain(..).for_each(|f| f());
170 self.app.borrow_mut().shutdown();
171 }
172
173 /// Register cleanup to run when the test ends.
174 pub fn on_quit(&mut self, f: impl FnOnce() + 'static) {
175 self.on_quit.borrow_mut().push(Box::new(f));
176 }
177
178 /// Schedules all windows to be redrawn on the next effect cycle.
179 pub fn refresh(&mut self) -> Result<()> {
180 let mut app = self.app.borrow_mut();
181 app.refresh_windows();
182 Ok(())
183 }
184
185 /// Returns an executor (for running tasks in the background)
186 pub fn executor(&self) -> BackgroundExecutor {
187 self.background_executor.clone()
188 }
189
190 /// Returns an executor (for running tasks on the main thread)
191 pub fn foreground_executor(&self) -> &ForegroundExecutor {
192 &self.foreground_executor
193 }
194
195 #[expect(clippy::wrong_self_convention)]
196 fn new<T: 'static>(&mut self, build_entity: impl FnOnce(&mut Context<T>) -> T) -> Entity<T> {
197 let mut cx = self.app.borrow_mut();
198 cx.new(build_entity)
199 }
200
201 /// Gives you an `&mut App` for the duration of the closure
202 pub fn update<R>(&self, f: impl FnOnce(&mut App) -> R) -> R {
203 let mut cx = self.app.borrow_mut();
204 cx.update(f)
205 }
206
207 /// Gives you an `&App` for the duration of the closure
208 pub fn read<R>(&self, f: impl FnOnce(&App) -> R) -> R {
209 let cx = self.app.borrow();
210 f(&cx)
211 }
212
213 /// Adds a new window. The Window will always be backed by a `TestWindow` which
214 /// can be retrieved with `self.test_window(handle)`
215 pub fn add_window<F, V>(&mut self, build_window: F) -> WindowHandle<V>
216 where
217 F: FnOnce(&mut Window, &mut Context<V>) -> V,
218 V: 'static + Render,
219 {
220 let mut cx = self.app.borrow_mut();
221
222 // Some tests rely on the window size matching the bounds of the test display
223 let bounds = Bounds::maximized(None, &cx);
224 cx.open_window(
225 WindowOptions {
226 window_bounds: Some(WindowBounds::Windowed(bounds)),
227 ..Default::default()
228 },
229 |window, cx| cx.new(|cx| build_window(window, cx)),
230 )
231 .unwrap()
232 }
233
234 /// Adds a new window with no content.
235 pub fn add_empty_window(&mut self) -> &mut VisualTestContext {
236 let mut cx = self.app.borrow_mut();
237 let bounds = Bounds::maximized(None, &cx);
238 let window = cx
239 .open_window(
240 WindowOptions {
241 window_bounds: Some(WindowBounds::Windowed(bounds)),
242 ..Default::default()
243 },
244 |_, cx| cx.new(|_| Empty),
245 )
246 .unwrap();
247 drop(cx);
248 let cx = VisualTestContext::from_window(*window.deref(), self).into_mut();
249 cx.run_until_parked();
250 cx
251 }
252
253 /// Adds a new window, and returns its root view and a `VisualTestContext` which can be used
254 /// as a `Window` and `App` for the rest of the test. Typically you would shadow this context with
255 /// the returned one. `let (view, cx) = cx.add_window_view(...);`
256 pub fn add_window_view<F, V>(
257 &mut self,
258 build_root_view: F,
259 ) -> (Entity<V>, &mut VisualTestContext)
260 where
261 F: FnOnce(&mut Window, &mut Context<V>) -> V,
262 V: 'static + Render,
263 {
264 let mut cx = self.app.borrow_mut();
265 let bounds = Bounds::maximized(None, &cx);
266 let window = cx
267 .open_window(
268 WindowOptions {
269 window_bounds: Some(WindowBounds::Windowed(bounds)),
270 ..Default::default()
271 },
272 |window, cx| cx.new(|cx| build_root_view(window, cx)),
273 )
274 .unwrap();
275 drop(cx);
276 let view = window.root(self).unwrap();
277 let cx = VisualTestContext::from_window(*window.deref(), self).into_mut();
278 cx.run_until_parked();
279
280 // it might be nice to try and cleanup these at the end of each test.
281 (view, cx)
282 }
283
284 /// returns the TextSystem
285 pub fn text_system(&self) -> &Arc<TextSystem> {
286 &self.text_system
287 }
288
289 /// Simulates writing to the platform clipboard
290 pub fn write_to_clipboard(&self, item: ClipboardItem) {
291 self.test_platform.write_to_clipboard(item)
292 }
293
294 /// Simulates reading from the platform clipboard.
295 /// This will return the most recent value from `write_to_clipboard`.
296 pub fn read_from_clipboard(&self) -> Option<ClipboardItem> {
297 self.test_platform.read_from_clipboard()
298 }
299
300 /// Simulates choosing a File in the platform's "Open" dialog.
301 pub fn simulate_new_path_selection(
302 &self,
303 select_path: impl FnOnce(&std::path::Path) -> Option<std::path::PathBuf>,
304 ) {
305 self.test_platform.simulate_new_path_selection(select_path);
306 }
307
308 /// Simulates clicking a button in an platform-level alert dialog.
309 #[track_caller]
310 pub fn simulate_prompt_answer(&self, button: &str) {
311 self.test_platform.simulate_prompt_answer(button);
312 }
313
314 /// Returns true if there's an alert dialog open.
315 pub fn has_pending_prompt(&self) -> bool {
316 self.test_platform.has_pending_prompt()
317 }
318
319 /// Returns true if there's an alert dialog open.
320 pub fn pending_prompt(&self) -> Option<(String, String)> {
321 self.test_platform.pending_prompt()
322 }
323
324 /// All the urls that have been opened with cx.open_url() during this test.
325 pub fn opened_url(&self) -> Option<String> {
326 self.test_platform.opened_url.borrow().clone()
327 }
328
329 /// Simulates the user resizing the window to the new size.
330 pub fn simulate_window_resize(&self, window_handle: AnyWindowHandle, size: Size<Pixels>) {
331 self.test_window(window_handle).simulate_resize(size);
332 }
333
334 /// Causes the given sources to be returned if the application queries for screen
335 /// capture sources.
336 pub fn set_screen_capture_sources(&self, sources: Vec<TestScreenCaptureSource>) {
337 self.test_platform.set_screen_capture_sources(sources);
338 }
339
340 /// Returns all windows open in the test.
341 pub fn windows(&self) -> Vec<AnyWindowHandle> {
342 self.app.borrow().windows()
343 }
344
345 /// Run the given task on the main thread.
346 #[track_caller]
347 pub fn spawn<Fut, R>(&self, f: impl FnOnce(AsyncApp) -> Fut) -> Task<R>
348 where
349 Fut: Future<Output = R> + 'static,
350 R: 'static,
351 {
352 self.foreground_executor.spawn(f(self.to_async()))
353 }
354
355 /// true if the given global is defined
356 pub fn has_global<G: Global>(&self) -> bool {
357 let app = self.app.borrow();
358 app.has_global::<G>()
359 }
360
361 /// runs the given closure with a reference to the global
362 /// panics if `has_global` would return false.
363 pub fn read_global<G: Global, R>(&self, read: impl FnOnce(&G, &App) -> R) -> R {
364 let app = self.app.borrow();
365 read(app.global(), &app)
366 }
367
368 /// runs the given closure with a reference to the global (if set)
369 pub fn try_read_global<G: Global, R>(&self, read: impl FnOnce(&G, &App) -> R) -> Option<R> {
370 let lock = self.app.borrow();
371 Some(read(lock.try_global()?, &lock))
372 }
373
374 /// sets the global in this context.
375 pub fn set_global<G: Global>(&mut self, global: G) {
376 let mut lock = self.app.borrow_mut();
377 lock.update(|cx| cx.set_global(global))
378 }
379
380 /// updates the global in this context. (panics if `has_global` would return false)
381 pub fn update_global<G: Global, R>(&mut self, update: impl FnOnce(&mut G, &mut App) -> R) -> R {
382 let mut lock = self.app.borrow_mut();
383 lock.update(|cx| cx.update_global(update))
384 }
385
386 /// Returns an `AsyncApp` which can be used to run tasks that expect to be on a background
387 /// thread on the current thread in tests.
388 pub fn to_async(&self) -> AsyncApp {
389 AsyncApp {
390 app: Rc::downgrade(&self.app),
391 background_executor: self.background_executor.clone(),
392 foreground_executor: self.foreground_executor.clone(),
393 }
394 }
395
396 /// Wait until there are no more pending tasks.
397 pub fn run_until_parked(&mut self) {
398 self.background_executor.run_until_parked()
399 }
400
401 /// Simulate dispatching an action to the currently focused node in the window.
402 pub fn dispatch_action<A>(&mut self, window: AnyWindowHandle, action: A)
403 where
404 A: Action,
405 {
406 window
407 .update(self, |_, window, cx| {
408 window.dispatch_action(action.boxed_clone(), cx)
409 })
410 .unwrap();
411
412 self.background_executor.run_until_parked()
413 }
414
415 /// simulate_keystrokes takes a space-separated list of keys to type.
416 /// cx.simulate_keystrokes("cmd-shift-p b k s p enter")
417 /// in Zed, this will run backspace on the current editor through the command palette.
418 /// This will also run the background executor until it's parked.
419 pub fn simulate_keystrokes(&mut self, window: AnyWindowHandle, keystrokes: &str) {
420 for keystroke in keystrokes
421 .split(' ')
422 .map(Keystroke::parse)
423 .map(Result::unwrap)
424 {
425 self.dispatch_keystroke(window, keystroke);
426 }
427
428 self.background_executor.run_until_parked()
429 }
430
431 /// simulate_input takes a string of text to type.
432 /// cx.simulate_input("abc")
433 /// will type abc into your current editor
434 /// This will also run the background executor until it's parked.
435 pub fn simulate_input(&mut self, window: AnyWindowHandle, input: &str) {
436 for keystroke in input.split("").map(Keystroke::parse).map(Result::unwrap) {
437 self.dispatch_keystroke(window, keystroke);
438 }
439
440 self.background_executor.run_until_parked()
441 }
442
443 /// dispatches a single Keystroke (see also `simulate_keystrokes` and `simulate_input`)
444 pub fn dispatch_keystroke(&mut self, window: AnyWindowHandle, keystroke: Keystroke) {
445 self.update_window(window, |_, window, cx| {
446 window.dispatch_keystroke(keystroke, cx)
447 })
448 .unwrap();
449 }
450
451 /// Returns the `TestWindow` backing the given handle.
452 pub(crate) fn test_window(&self, window: AnyWindowHandle) -> TestWindow {
453 self.app
454 .borrow_mut()
455 .windows
456 .get_mut(window.id)
457 .unwrap()
458 .as_deref_mut()
459 .unwrap()
460 .platform_window
461 .as_test()
462 .unwrap()
463 .clone()
464 }
465
466 /// Returns a stream of notifications whenever the Entity is updated.
467 pub fn notifications<T: 'static>(
468 &mut self,
469 entity: &Entity<T>,
470 ) -> impl Stream<Item = ()> + use<T> {
471 let (tx, rx) = futures::channel::mpsc::unbounded();
472 self.update(|cx| {
473 cx.observe(entity, {
474 let tx = tx.clone();
475 move |_, _| {
476 let _ = tx.unbounded_send(());
477 }
478 })
479 .detach();
480 cx.observe_release(entity, move |_, _| tx.close_channel())
481 .detach()
482 });
483 rx
484 }
485
486 /// Returns a stream of events emitted by the given Entity.
487 pub fn events<Evt, T: 'static + EventEmitter<Evt>>(
488 &mut self,
489 entity: &Entity<T>,
490 ) -> futures::channel::mpsc::UnboundedReceiver<Evt>
491 where
492 Evt: 'static + Clone,
493 {
494 let (tx, rx) = futures::channel::mpsc::unbounded();
495 entity
496 .update(self, |_, cx: &mut Context<T>| {
497 cx.subscribe(entity, move |_entity, _handle, event, _cx| {
498 let _ = tx.unbounded_send(event.clone());
499 })
500 })
501 .detach();
502 rx
503 }
504
505 /// Runs until the given condition becomes true. (Prefer `run_until_parked` if you
506 /// don't need to jump in at a specific time).
507 pub async fn condition<T: 'static>(
508 &mut self,
509 entity: &Entity<T>,
510 mut predicate: impl FnMut(&mut T, &mut Context<T>) -> bool,
511 ) {
512 let timer = self.executor().timer(Duration::from_secs(3));
513 let mut notifications = self.notifications(entity);
514
515 use futures::FutureExt as _;
516 use smol::future::FutureExt as _;
517
518 async {
519 loop {
520 if entity.update(self, &mut predicate) {
521 return Ok(());
522 }
523
524 if notifications.next().await.is_none() {
525 bail!("entity dropped")
526 }
527 }
528 }
529 .race(timer.map(|_| Err(anyhow!("condition timed out"))))
530 .await
531 .unwrap();
532 }
533
534 /// Set a name for this App.
535 #[cfg(any(test, feature = "test-support"))]
536 pub fn set_name(&mut self, name: &'static str) {
537 self.update(|cx| cx.name = Some(name))
538 }
539}
540
541impl<T: 'static> Entity<T> {
542 /// Block until the next event is emitted by the entity, then return it.
543 pub fn next_event<Event>(&self, cx: &mut TestAppContext) -> impl Future<Output = Event>
544 where
545 Event: Send + Clone + 'static,
546 T: EventEmitter<Event>,
547 {
548 let (tx, mut rx) = oneshot::channel();
549 let mut tx = Some(tx);
550 let subscription = self.update(cx, |_, cx| {
551 cx.subscribe(self, move |_, _, event, _| {
552 if let Some(tx) = tx.take() {
553 _ = tx.send(event.clone());
554 }
555 })
556 });
557
558 async move {
559 let event = rx.await.expect("no event emitted");
560 drop(subscription);
561 event
562 }
563 }
564}
565
566impl<V: 'static> Entity<V> {
567 /// Returns a future that resolves when the view is next updated.
568 pub fn next_notification(
569 &self,
570 advance_clock_by: Duration,
571 cx: &TestAppContext,
572 ) -> impl Future<Output = ()> {
573 use postage::prelude::{Sink as _, Stream as _};
574
575 let (mut tx, mut rx) = postage::mpsc::channel(1);
576 let subscription = cx.app.borrow_mut().observe(self, move |_, _| {
577 tx.try_send(()).ok();
578 });
579
580 let duration = if std::env::var("CI").is_ok() {
581 Duration::from_secs(5)
582 } else {
583 Duration::from_secs(1)
584 };
585
586 cx.executor().advance_clock(advance_clock_by);
587
588 async move {
589 let notification = crate::util::smol_timeout(duration, rx.recv())
590 .await
591 .expect("next notification timed out");
592 drop(subscription);
593 notification.expect("entity dropped while test was waiting for its next notification")
594 }
595 }
596}
597
598impl<V> Entity<V> {
599 /// Returns a future that resolves when the condition becomes true.
600 pub fn condition<Evt>(
601 &self,
602 cx: &TestAppContext,
603 mut predicate: impl FnMut(&V, &App) -> bool,
604 ) -> impl Future<Output = ()>
605 where
606 Evt: 'static,
607 V: EventEmitter<Evt>,
608 {
609 use postage::prelude::{Sink as _, Stream as _};
610
611 let (tx, mut rx) = postage::mpsc::channel(1024);
612
613 let mut cx = cx.app.borrow_mut();
614 let subscriptions = (
615 cx.observe(self, {
616 let mut tx = tx.clone();
617 move |_, _| {
618 tx.blocking_send(()).ok();
619 }
620 }),
621 cx.subscribe(self, {
622 let mut tx = tx;
623 move |_, _: &Evt, _| {
624 tx.blocking_send(()).ok();
625 }
626 }),
627 );
628
629 let cx = cx.this.upgrade().unwrap();
630 let handle = self.downgrade();
631
632 async move {
633 crate::util::smol_timeout(Duration::from_secs(1), async move {
634 loop {
635 {
636 let cx = cx.borrow();
637 let cx = &*cx;
638 if predicate(
639 handle
640 .upgrade()
641 .expect("view dropped with pending condition")
642 .read(cx),
643 cx,
644 ) {
645 break;
646 }
647 }
648
649 cx.borrow().background_executor().start_waiting();
650 rx.recv()
651 .await
652 .expect("view dropped with pending condition");
653 cx.borrow().background_executor().finish_waiting();
654 }
655 })
656 .await
657 .expect("condition timed out");
658 drop(subscriptions);
659 }
660 }
661}
662
663use derive_more::{Deref, DerefMut};
664
665use super::{Context, Entity};
666#[derive(Deref, DerefMut, Clone)]
667/// A VisualTestContext is the test-equivalent of a `Window` and `App`. It allows you to
668/// run window-specific test code. It can be dereferenced to a `TextAppContext`.
669pub struct VisualTestContext {
670 #[deref]
671 #[deref_mut]
672 /// cx is the original TestAppContext (you can more easily access this using Deref)
673 pub cx: TestAppContext,
674 window: AnyWindowHandle,
675}
676
677impl VisualTestContext {
678 /// Provides a `Window` and `App` for the duration of the closure.
679 pub fn update<R>(&mut self, f: impl FnOnce(&mut Window, &mut App) -> R) -> R {
680 self.cx
681 .update_window(self.window, |_, window, cx| f(window, cx))
682 .unwrap()
683 }
684
685 /// Creates a new VisualTestContext. You would typically shadow the passed in
686 /// TestAppContext with this, as this is typically more useful.
687 /// `let cx = VisualTestContext::from_window(window, cx);`
688 pub fn from_window(window: AnyWindowHandle, cx: &TestAppContext) -> Self {
689 Self {
690 cx: cx.clone(),
691 window,
692 }
693 }
694
695 /// Wait until there are no more pending tasks.
696 pub fn run_until_parked(&self) {
697 self.cx.background_executor.run_until_parked();
698 }
699
700 /// Dispatch the action to the currently focused node.
701 pub fn dispatch_action<A>(&mut self, action: A)
702 where
703 A: Action,
704 {
705 self.cx.dispatch_action(self.window, action)
706 }
707
708 /// Read the title off the window (set by `Window#set_window_title`)
709 pub fn window_title(&mut self) -> Option<String> {
710 self.cx.test_window(self.window).0.lock().title.clone()
711 }
712
713 /// Simulate a sequence of keystrokes `cx.simulate_keystrokes("cmd-p escape")`
714 /// Automatically runs until parked.
715 pub fn simulate_keystrokes(&mut self, keystrokes: &str) {
716 self.cx.simulate_keystrokes(self.window, keystrokes)
717 }
718
719 /// Simulate typing text `cx.simulate_input("hello")`
720 /// Automatically runs until parked.
721 pub fn simulate_input(&mut self, input: &str) {
722 self.cx.simulate_input(self.window, input)
723 }
724
725 /// Simulate a mouse move event to the given point
726 pub fn simulate_mouse_move(
727 &mut self,
728 position: Point<Pixels>,
729 button: impl Into<Option<MouseButton>>,
730 modifiers: Modifiers,
731 ) {
732 self.simulate_event(MouseMoveEvent {
733 position,
734 modifiers,
735 pressed_button: button.into(),
736 })
737 }
738
739 /// Simulate a mouse down event to the given point
740 pub fn simulate_mouse_down(
741 &mut self,
742 position: Point<Pixels>,
743 button: MouseButton,
744 modifiers: Modifiers,
745 ) {
746 self.simulate_event(MouseDownEvent {
747 position,
748 modifiers,
749 button,
750 click_count: 1,
751 first_mouse: false,
752 })
753 }
754
755 /// Simulate a mouse up event to the given point
756 pub fn simulate_mouse_up(
757 &mut self,
758 position: Point<Pixels>,
759 button: MouseButton,
760 modifiers: Modifiers,
761 ) {
762 self.simulate_event(MouseUpEvent {
763 position,
764 modifiers,
765 button,
766 click_count: 1,
767 })
768 }
769
770 /// Simulate a primary mouse click at the given point
771 pub fn simulate_click(&mut self, position: Point<Pixels>, modifiers: Modifiers) {
772 self.simulate_event(MouseDownEvent {
773 position,
774 modifiers,
775 button: MouseButton::Left,
776 click_count: 1,
777 first_mouse: false,
778 });
779 self.simulate_event(MouseUpEvent {
780 position,
781 modifiers,
782 button: MouseButton::Left,
783 click_count: 1,
784 });
785 }
786
787 /// Simulate a modifiers changed event
788 pub fn simulate_modifiers_change(&mut self, modifiers: Modifiers) {
789 self.simulate_event(ModifiersChangedEvent {
790 modifiers,
791 capslock: Capslock { on: false },
792 })
793 }
794
795 /// Simulate a capslock changed event
796 pub fn simulate_capslock_change(&mut self, on: bool) {
797 self.simulate_event(ModifiersChangedEvent {
798 modifiers: Modifiers::none(),
799 capslock: Capslock { on },
800 })
801 }
802
803 /// Simulates the user resizing the window to the new size.
804 pub fn simulate_resize(&self, size: Size<Pixels>) {
805 self.simulate_window_resize(self.window, size)
806 }
807
808 /// debug_bounds returns the bounds of the element with the given selector.
809 pub fn debug_bounds(&mut self, selector: &'static str) -> Option<Bounds<Pixels>> {
810 self.update(|window, _| window.rendered_frame.debug_bounds.get(selector).copied())
811 }
812
813 /// Draw an element to the window. Useful for simulating events or actions
814 pub fn draw<E>(
815 &mut self,
816 origin: Point<Pixels>,
817 space: impl Into<Size<AvailableSpace>>,
818 f: impl FnOnce(&mut Window, &mut App) -> E,
819 ) -> (E::RequestLayoutState, E::PrepaintState)
820 where
821 E: Element,
822 {
823 self.update(|window, cx| {
824 window.invalidator.set_phase(DrawPhase::Prepaint);
825 let mut element = Drawable::new(f(window, cx));
826 element.layout_as_root(space.into(), window, cx);
827 window.with_absolute_element_offset(origin, |window| element.prepaint(window, cx));
828
829 window.invalidator.set_phase(DrawPhase::Paint);
830 let (request_layout_state, prepaint_state) = element.paint(window, cx);
831
832 window.invalidator.set_phase(DrawPhase::None);
833 window.refresh();
834
835 (request_layout_state, prepaint_state)
836 })
837 }
838
839 /// Simulate an event from the platform, e.g. a ScrollWheelEvent
840 /// Make sure you've called [VisualTestContext::draw] first!
841 pub fn simulate_event<E: InputEvent>(&mut self, event: E) {
842 self.test_window(self.window)
843 .simulate_input(event.to_platform_input());
844 self.background_executor.run_until_parked();
845 }
846
847 /// Simulates the user blurring the window.
848 pub fn deactivate_window(&mut self) {
849 if Some(self.window) == self.test_platform.active_window() {
850 self.test_platform.set_active_window(None)
851 }
852 self.background_executor.run_until_parked();
853 }
854
855 /// Simulates the user closing the window.
856 /// Returns true if the window was closed.
857 pub fn simulate_close(&mut self) -> bool {
858 let handler = self
859 .cx
860 .update_window(self.window, |_, window, _| {
861 window
862 .platform_window
863 .as_test()
864 .unwrap()
865 .0
866 .lock()
867 .should_close_handler
868 .take()
869 })
870 .unwrap();
871 if let Some(mut handler) = handler {
872 let should_close = handler();
873 self.cx
874 .update_window(self.window, |_, window, _| {
875 window.platform_window.on_should_close(handler);
876 })
877 .unwrap();
878 should_close
879 } else {
880 false
881 }
882 }
883
884 /// Get an &mut VisualTestContext (which is mostly what you need to pass to other methods).
885 /// This method internally retains the VisualTestContext until the end of the test.
886 pub fn into_mut(self) -> &'static mut Self {
887 let ptr = Box::into_raw(Box::new(self));
888 // safety: on_quit will be called after the test has finished.
889 // the executor will ensure that all tasks related to the test have stopped.
890 // so there is no way for cx to be accessed after on_quit is called.
891 // todo: This is unsound under stacked borrows (also tree borrows probably?)
892 // the mutable reference invalidates `ptr` which is later used in the closure
893 let cx = unsafe { &mut *ptr };
894 cx.on_quit(move || unsafe {
895 drop(Box::from_raw(ptr));
896 });
897 cx
898 }
899}
900
901impl AppContext for VisualTestContext {
902 type Result<T> = <TestAppContext as AppContext>::Result<T>;
903
904 fn new<T: 'static>(
905 &mut self,
906 build_entity: impl FnOnce(&mut Context<T>) -> T,
907 ) -> Self::Result<Entity<T>> {
908 self.cx.new(build_entity)
909 }
910
911 fn reserve_entity<T: 'static>(&mut self) -> Self::Result<crate::Reservation<T>> {
912 self.cx.reserve_entity()
913 }
914
915 fn insert_entity<T: 'static>(
916 &mut self,
917 reservation: crate::Reservation<T>,
918 build_entity: impl FnOnce(&mut Context<T>) -> T,
919 ) -> Self::Result<Entity<T>> {
920 self.cx.insert_entity(reservation, build_entity)
921 }
922
923 fn update_entity<T, R>(
924 &mut self,
925 handle: &Entity<T>,
926 update: impl FnOnce(&mut T, &mut Context<T>) -> R,
927 ) -> Self::Result<R>
928 where
929 T: 'static,
930 {
931 self.cx.update_entity(handle, update)
932 }
933
934 fn as_mut<'a, T>(&'a mut self, handle: &Entity<T>) -> Self::Result<super::GpuiBorrow<'a, T>>
935 where
936 T: 'static,
937 {
938 self.cx.as_mut(handle)
939 }
940
941 fn read_entity<T, R>(
942 &self,
943 handle: &Entity<T>,
944 read: impl FnOnce(&T, &App) -> R,
945 ) -> Self::Result<R>
946 where
947 T: 'static,
948 {
949 self.cx.read_entity(handle, read)
950 }
951
952 fn update_window<T, F>(&mut self, window: AnyWindowHandle, f: F) -> Result<T>
953 where
954 F: FnOnce(AnyView, &mut Window, &mut App) -> T,
955 {
956 self.cx.update_window(window, f)
957 }
958
959 fn read_window<T, R>(
960 &self,
961 window: &WindowHandle<T>,
962 read: impl FnOnce(Entity<T>, &App) -> R,
963 ) -> Result<R>
964 where
965 T: 'static,
966 {
967 self.cx.read_window(window, read)
968 }
969
970 fn background_spawn<R>(&self, future: impl Future<Output = R> + Send + 'static) -> Task<R>
971 where
972 R: Send + 'static,
973 {
974 self.cx.background_spawn(future)
975 }
976
977 fn read_global<G, R>(&self, callback: impl FnOnce(&G, &App) -> R) -> Self::Result<R>
978 where
979 G: Global,
980 {
981 self.cx.read_global(callback)
982 }
983}
984
985impl VisualContext for VisualTestContext {
986 /// Get the underlying window handle underlying this context.
987 fn window_handle(&self) -> AnyWindowHandle {
988 self.window
989 }
990
991 fn new_window_entity<T: 'static>(
992 &mut self,
993 build_entity: impl FnOnce(&mut Window, &mut Context<T>) -> T,
994 ) -> Self::Result<Entity<T>> {
995 self.window
996 .update(&mut self.cx, |_, window, cx| {
997 cx.new(|cx| build_entity(window, cx))
998 })
999 .unwrap()
1000 }
1001
1002 fn update_window_entity<V: 'static, R>(
1003 &mut self,
1004 view: &Entity<V>,
1005 update: impl FnOnce(&mut V, &mut Window, &mut Context<V>) -> R,
1006 ) -> Self::Result<R> {
1007 self.window
1008 .update(&mut self.cx, |_, window, cx| {
1009 view.update(cx, |v, cx| update(v, window, cx))
1010 })
1011 .unwrap()
1012 }
1013
1014 fn replace_root_view<V>(
1015 &mut self,
1016 build_view: impl FnOnce(&mut Window, &mut Context<V>) -> V,
1017 ) -> Self::Result<Entity<V>>
1018 where
1019 V: 'static + Render,
1020 {
1021 self.window
1022 .update(&mut self.cx, |_, window, cx| {
1023 window.replace_root(cx, build_view)
1024 })
1025 .unwrap()
1026 }
1027
1028 fn focus<V: crate::Focusable>(&mut self, view: &Entity<V>) -> Self::Result<()> {
1029 self.window
1030 .update(&mut self.cx, |_, window, cx| {
1031 view.read(cx).focus_handle(cx).focus(window)
1032 })
1033 .unwrap()
1034 }
1035}
1036
1037impl AnyWindowHandle {
1038 /// Creates the given view in this window.
1039 pub fn build_entity<V: Render + 'static>(
1040 &self,
1041 cx: &mut TestAppContext,
1042 build_view: impl FnOnce(&mut Window, &mut Context<V>) -> V,
1043 ) -> Entity<V> {
1044 self.update(cx, |_, window, cx| cx.new(|cx| build_view(window, cx)))
1045 .unwrap()
1046 }
1047}