use crate::{ div, Action, AnyView, AnyWindowHandle, AppCell, AppContext, AsyncAppContext, BackgroundExecutor, Bounds, Context, Div, Entity, EventEmitter, ForegroundExecutor, InputEvent, KeyDownEvent, Keystroke, Model, ModelContext, Pixels, PlatformWindow, Point, Render, Result, Size, Task, TestDispatcher, TestPlatform, TestWindow, TestWindowHandlers, View, ViewContext, VisualContext, WindowBounds, WindowContext, WindowHandle, WindowOptions, }; use anyhow::{anyhow, bail}; use futures::{Stream, StreamExt}; use std::{future::Future, mem, ops::Deref, rc::Rc, sync::Arc, time::Duration}; #[derive(Clone)] pub struct TestAppContext { pub app: Rc, pub background_executor: BackgroundExecutor, pub foreground_executor: ForegroundExecutor, pub dispatcher: TestDispatcher, pub test_platform: Rc, } impl Context for TestAppContext { type Result = T; fn build_model( &mut self, build_model: impl FnOnce(&mut ModelContext<'_, T>) -> T, ) -> Self::Result> where T: 'static, { let mut app = self.app.borrow_mut(); app.build_model(build_model) } fn update_model( &mut self, handle: &Model, update: impl FnOnce(&mut T, &mut ModelContext<'_, T>) -> R, ) -> Self::Result { let mut app = self.app.borrow_mut(); app.update_model(handle, update) } fn update_window(&mut self, window: AnyWindowHandle, f: F) -> Result where F: FnOnce(AnyView, &mut WindowContext<'_>) -> T, { let mut lock = self.app.borrow_mut(); lock.update_window(window, f) } fn read_model( &self, handle: &Model, read: impl FnOnce(&T, &AppContext) -> R, ) -> Self::Result where T: 'static, { let app = self.app.borrow(); app.read_model(handle, read) } fn read_window( &self, window: &WindowHandle, read: impl FnOnce(View, &AppContext) -> R, ) -> Result where T: 'static, { let app = self.app.borrow(); app.read_window(window, read) } } impl TestAppContext { pub fn new(dispatcher: TestDispatcher) -> Self { let arc_dispatcher = Arc::new(dispatcher.clone()); let background_executor = BackgroundExecutor::new(arc_dispatcher.clone()); let foreground_executor = ForegroundExecutor::new(arc_dispatcher); let platform = TestPlatform::new(background_executor.clone(), foreground_executor.clone()); let asset_source = Arc::new(()); let http_client = util::http::FakeHttpClient::with_404_response(); Self { app: AppContext::new(platform.clone(), asset_source, http_client), background_executor, foreground_executor, dispatcher: dispatcher.clone(), test_platform: platform, } } pub fn new_app(&self) -> TestAppContext { Self::new(self.dispatcher.clone()) } pub fn quit(&self) { self.app.borrow_mut().shutdown(); } pub fn refresh(&mut self) -> Result<()> { let mut app = self.app.borrow_mut(); app.refresh(); Ok(()) } pub fn executor(&self) -> BackgroundExecutor { self.background_executor.clone() } pub fn foreground_executor(&self) -> &ForegroundExecutor { &self.foreground_executor } pub fn update(&self, f: impl FnOnce(&mut AppContext) -> R) -> R { let mut cx = self.app.borrow_mut(); cx.update(f) } pub fn read(&self, f: impl FnOnce(&AppContext) -> R) -> R { let cx = self.app.borrow(); f(&*cx) } pub fn add_window(&mut self, build_window: F) -> WindowHandle where F: FnOnce(&mut ViewContext) -> V, V: 'static + Render, { let mut cx = self.app.borrow_mut(); cx.open_window(WindowOptions::default(), |cx| cx.build_view(build_window)) } pub fn add_empty_window(&mut self) -> AnyWindowHandle { let mut cx = self.app.borrow_mut(); cx.open_window(WindowOptions::default(), |cx| { cx.build_view(|_| EmptyView {}) }) .any_handle } pub fn add_window_view(&mut self, build_window: F) -> (View, &mut VisualTestContext) where F: FnOnce(&mut ViewContext) -> V, V: 'static + Render, { let mut cx = self.app.borrow_mut(); let window = cx.open_window(WindowOptions::default(), |cx| cx.build_view(build_window)); drop(cx); let view = window.root_view(self).unwrap(); let cx = Box::new(VisualTestContext::from_window(*window.deref(), self)); // it might be nice to try and cleanup these at the end of each test. (view, Box::leak(cx)) } pub fn simulate_new_path_selection( &self, select_path: impl FnOnce(&std::path::Path) -> Option, ) { self.test_platform.simulate_new_path_selection(select_path); } pub fn simulate_prompt_answer(&self, button_ix: usize) { self.test_platform.simulate_prompt_answer(button_ix); } pub fn has_pending_prompt(&self) -> bool { self.test_platform.has_pending_prompt() } pub fn simulate_window_resize(&self, window_handle: AnyWindowHandle, size: Size) { let (mut handlers, scale_factor) = self .app .borrow_mut() .update_window(window_handle, |_, cx| { let platform_window = cx.window.platform_window.as_test().unwrap(); let scale_factor = platform_window.scale_factor(); match &mut platform_window.bounds { WindowBounds::Fullscreen | WindowBounds::Maximized => { platform_window.bounds = WindowBounds::Fixed(Bounds { origin: Point::default(), size: size.map(|pixels| f64::from(pixels).into()), }); } WindowBounds::Fixed(bounds) => { bounds.size = size.map(|pixels| f64::from(pixels).into()); } } ( mem::take(&mut platform_window.handlers.lock().resize), scale_factor, ) }) .unwrap(); for handler in &mut handlers { handler(size, scale_factor); } self.app .borrow_mut() .update_window(window_handle, |_, cx| { let platform_window = cx.window.platform_window.as_test().unwrap(); platform_window.handlers.lock().resize = handlers; }) .unwrap(); } pub fn spawn(&self, f: impl FnOnce(AsyncAppContext) -> Fut) -> Task where Fut: Future + 'static, R: 'static, { self.foreground_executor.spawn(f(self.to_async())) } pub fn has_global(&self) -> bool { let app = self.app.borrow(); app.has_global::() } pub fn read_global(&self, read: impl FnOnce(&G, &AppContext) -> R) -> R { let app = self.app.borrow(); read(app.global(), &app) } pub fn try_read_global( &self, read: impl FnOnce(&G, &AppContext) -> R, ) -> Option { let lock = self.app.borrow(); Some(read(lock.try_global()?, &lock)) } pub fn set_global(&mut self, global: G) { let mut lock = self.app.borrow_mut(); lock.set_global(global); } pub fn update_global( &mut self, update: impl FnOnce(&mut G, &mut AppContext) -> R, ) -> R { let mut lock = self.app.borrow_mut(); lock.update_global(update) } pub fn to_async(&self) -> AsyncAppContext { AsyncAppContext { app: Rc::downgrade(&self.app), background_executor: self.background_executor.clone(), foreground_executor: self.foreground_executor.clone(), } } pub fn dispatch_action(&mut self, window: AnyWindowHandle, action: A) where A: Action, { window .update(self, |_, cx| cx.dispatch_action(action.boxed_clone())) .unwrap(); self.background_executor.run_until_parked() } /// simulate_keystrokes takes a space-separated list of keys to type. /// cx.simulate_keystrokes("cmd-shift-p b k s p enter") /// will run backspace on the current editor through the command palette. pub fn simulate_keystrokes(&mut self, window: AnyWindowHandle, keystrokes: &str) { for keystroke in keystrokes .split(" ") .map(Keystroke::parse) .map(Result::unwrap) { self.dispatch_keystroke(window, keystroke.into(), false); } self.background_executor.run_until_parked() } /// simulate_input takes a string of text to type. /// cx.simulate_input("abc") /// will type abc into your current editor. pub fn simulate_input(&mut self, window: AnyWindowHandle, input: &str) { for keystroke in input.split("").map(Keystroke::parse).map(Result::unwrap) { self.dispatch_keystroke(window, keystroke.into(), false); } self.background_executor.run_until_parked() } pub fn dispatch_keystroke( &mut self, window: AnyWindowHandle, keystroke: Keystroke, is_held: bool, ) { let keystroke2 = keystroke.clone(); let handled = window .update(self, |_, cx| { cx.dispatch_event(InputEvent::KeyDown(KeyDownEvent { keystroke, is_held })) }) .is_ok_and(|handled| handled); if handled { return; } let input_handler = self.update_test_window(window, |window| window.input_handler.clone()); let Some(input_handler) = input_handler else { panic!( "dispatch_keystroke {:?} failed to dispatch action or input", &keystroke2 ); }; let text = keystroke2.ime_key.unwrap_or(keystroke2.key); input_handler.lock().replace_text_in_range(None, &text); } pub fn update_test_window( &mut self, window: AnyWindowHandle, f: impl FnOnce(&mut TestWindow) -> R, ) -> R { window .update(self, |_, cx| { f(cx.window .platform_window .as_any_mut() .downcast_mut::() .unwrap()) }) .unwrap() } pub fn notifications(&mut self, entity: &impl Entity) -> impl Stream { let (tx, rx) = futures::channel::mpsc::unbounded(); self.update(|cx| { cx.observe(entity, { let tx = tx.clone(); move |_, _| { let _ = tx.unbounded_send(()); } }) .detach(); cx.observe_release(entity, move |_, _| tx.close_channel()) .detach() }); rx } pub fn events>( &mut self, entity: &Model, ) -> futures::channel::mpsc::UnboundedReceiver where Evt: 'static + Clone, { let (tx, rx) = futures::channel::mpsc::unbounded(); entity .update(self, |_, cx: &mut ModelContext| { cx.subscribe(entity, move |_model, _handle, event, _cx| { let _ = tx.unbounded_send(event.clone()); }) }) .detach(); rx } pub async fn condition( &mut self, model: &Model, mut predicate: impl FnMut(&mut T, &mut ModelContext) -> bool, ) { let timer = self.executor().timer(Duration::from_secs(3)); let mut notifications = self.notifications(model); use futures::FutureExt as _; use smol::future::FutureExt as _; async { loop { if model.update(self, &mut predicate) { return Ok(()); } if notifications.next().await.is_none() { bail!("model dropped") } } } .race(timer.map(|_| Err(anyhow!("condition timed out")))) .await .unwrap(); } } impl Model { pub fn next_event(&self, cx: &mut TestAppContext) -> Evt where Evt: Send + Clone + 'static, T: EventEmitter, { let (tx, mut rx) = futures::channel::mpsc::unbounded(); let _subscription = self.update(cx, |_, cx| { cx.subscribe(self, move |_, _, event, _| { tx.unbounded_send(event.clone()).ok(); }) }); // Run other tasks until the event is emitted. loop { match rx.try_next() { Ok(Some(event)) => return event, Ok(None) => panic!("model was dropped"), Err(_) => { if !cx.executor().tick() { break; } } } } panic!("no event received") } } impl View { pub fn next_notification(&self, cx: &TestAppContext) -> impl Future { use postage::prelude::{Sink as _, Stream as _}; let (mut tx, mut rx) = postage::mpsc::channel(1); let mut cx = cx.app.app.borrow_mut(); let subscription = cx.observe(self, move |_, _| { tx.try_send(()).ok(); }); let duration = if std::env::var("CI").is_ok() { Duration::from_secs(5) } else { Duration::from_secs(1) }; async move { let notification = crate::util::timeout(duration, rx.recv()) .await .expect("next notification timed out"); drop(subscription); notification.expect("model dropped while test was waiting for its next notification") } } } impl View { pub fn condition( &self, cx: &TestAppContext, mut predicate: impl FnMut(&V, &AppContext) -> bool, ) -> impl Future where Evt: 'static, V: EventEmitter, { use postage::prelude::{Sink as _, Stream as _}; let (tx, mut rx) = postage::mpsc::channel(1024); let timeout_duration = Duration::from_millis(100); //todo!() cx.condition_duration(); let mut cx = cx.app.borrow_mut(); let subscriptions = ( cx.observe(self, { let mut tx = tx.clone(); move |_, _| { tx.blocking_send(()).ok(); } }), cx.subscribe(self, { let mut tx = tx.clone(); move |_, _: &Evt, _| { tx.blocking_send(()).ok(); } }), ); let cx = cx.this.upgrade().unwrap(); let handle = self.downgrade(); async move { crate::util::timeout(timeout_duration, async move { loop { { let cx = cx.borrow(); let cx = &*cx; if predicate( handle .upgrade() .expect("view dropped with pending condition") .read(cx), cx, ) { break; } } // todo!(start_waiting) // cx.borrow().foreground_executor().start_waiting(); rx.recv() .await .expect("view dropped with pending condition"); // cx.borrow().foreground_executor().finish_waiting(); } }) .await .expect("condition timed out"); drop(subscriptions); } } } use derive_more::{Deref, DerefMut}; #[derive(Deref, DerefMut)] pub struct VisualTestContext<'a> { #[deref] #[deref_mut] cx: &'a mut TestAppContext, window: AnyWindowHandle, } impl<'a> VisualTestContext<'a> { pub fn from_window(window: AnyWindowHandle, cx: &'a mut TestAppContext) -> Self { Self { cx, window } } pub fn run_until_parked(&self) { self.cx.background_executor.run_until_parked(); } pub fn dispatch_action(&mut self, action: A) where A: Action, { self.cx.dispatch_action(self.window, action) } pub fn window_title(&mut self) -> Option { self.cx .update_window(self.window, |_, cx| { cx.window .platform_window .as_test() .unwrap() .window_title .clone() }) .unwrap() } pub fn simulate_keystrokes(&mut self, keystrokes: &str) { self.cx.simulate_keystrokes(self.window, keystrokes) } pub fn simulate_input(&mut self, input: &str) { self.cx.simulate_input(self.window, input) } pub fn simulate_activation(&mut self) { self.simulate_window_events(&mut |handlers| { handlers .active_status_change .iter_mut() .for_each(|f| f(true)); }) } pub fn simulate_deactivation(&mut self) { self.simulate_window_events(&mut |handlers| { handlers .active_status_change .iter_mut() .for_each(|f| f(false)); }) } fn simulate_window_events(&mut self, f: &mut dyn FnMut(&mut TestWindowHandlers)) { let handlers = self .cx .update_window(self.window, |_, cx| { cx.window .platform_window .as_test() .unwrap() .handlers .clone() }) .unwrap(); f(&mut *handlers.lock()); } } impl<'a> Context for VisualTestContext<'a> { type Result = ::Result; fn build_model( &mut self, build_model: impl FnOnce(&mut ModelContext<'_, T>) -> T, ) -> Self::Result> { self.cx.build_model(build_model) } fn update_model( &mut self, handle: &Model, update: impl FnOnce(&mut T, &mut ModelContext<'_, T>) -> R, ) -> Self::Result where T: 'static, { self.cx.update_model(handle, update) } fn read_model( &self, handle: &Model, read: impl FnOnce(&T, &AppContext) -> R, ) -> Self::Result where T: 'static, { self.cx.read_model(handle, read) } fn update_window(&mut self, window: AnyWindowHandle, f: F) -> Result where F: FnOnce(AnyView, &mut WindowContext<'_>) -> T, { self.cx.update_window(window, f) } fn read_window( &self, window: &WindowHandle, read: impl FnOnce(View, &AppContext) -> R, ) -> Result where T: 'static, { self.cx.read_window(window, read) } } impl<'a> VisualContext for VisualTestContext<'a> { fn build_view( &mut self, build_view: impl FnOnce(&mut ViewContext<'_, V>) -> V, ) -> Self::Result> where V: 'static + Render, { self.window .update(self.cx, |_, cx| cx.build_view(build_view)) .unwrap() } fn update_view( &mut self, view: &View, update: impl FnOnce(&mut V, &mut ViewContext<'_, V>) -> R, ) -> Self::Result { self.window .update(self.cx, |_, cx| cx.update_view(view, update)) .unwrap() } fn replace_root_view( &mut self, build_view: impl FnOnce(&mut ViewContext<'_, V>) -> V, ) -> Self::Result> where V: 'static + Render, { self.window .update(self.cx, |_, cx| cx.replace_root_view(build_view)) .unwrap() } fn focus_view(&mut self, view: &View) -> Self::Result<()> { self.window .update(self.cx, |_, cx| { view.read(cx).focus_handle(cx).clone().focus(cx) }) .unwrap() } fn dismiss_view(&mut self, view: &View) -> Self::Result<()> where V: crate::ManagedView, { self.window .update(self.cx, |_, cx| { view.update(cx, |_, cx| cx.emit(crate::DismissEvent)) }) .unwrap() } } impl AnyWindowHandle { pub fn build_view( &self, cx: &mut TestAppContext, build_view: impl FnOnce(&mut ViewContext<'_, V>) -> V, ) -> View { self.update(cx, |_, cx| cx.build_view(build_view)).unwrap() } } pub struct EmptyView {} impl Render for EmptyView { type Element = Div; fn render(&mut self, _cx: &mut crate::ViewContext) -> Self::Element { div() } }