//! The `EventLoop` struct and assorted supporting types, including `ControlFlow`. //! //! If you want to send custom events to the event loop, use [`EventLoop::create_proxy()`][create_proxy] //! to acquire an [`EventLoopProxy`][event_loop_proxy] and call its [`send_event`][send_event] method. //! //! See the root-level documentation for information on how to create and use an event loop to //! handle events. //! //! [create_proxy]: crate::event_loop::EventLoop::create_proxy //! [event_loop_proxy]: crate::event_loop::EventLoopProxy //! [send_event]: crate::event_loop::EventLoopProxy::send_event use instant::Instant; use std::marker::PhantomData; use std::ops::Deref; use std::{error, fmt}; use crate::{event::Event, monitor::MonitorHandle, platform_impl}; /// Provides a way to retrieve events from the system and from the windows that were registered to /// the events loop. /// /// An `EventLoop` can be seen more or less as a "context". Calling `EventLoop::new()` /// initializes everything that will be required to create windows. For example on Linux creating /// an event loop opens a connection to the X or Wayland server. /// /// To wake up an `EventLoop` from a another thread, see the `EventLoopProxy` docs. /// /// Note that the `EventLoop` cannot be shared across threads (due to platform-dependant logic /// forbidding it), as such it is neither `Send` nor `Sync`. If you need cross-thread access, the /// `Window` created from this `EventLoop` _can_ be sent to an other thread, and the /// `EventLoopProxy` allows you to wake up an `EventLoop` from another thread. /// pub struct EventLoop { pub(crate) event_loop: platform_impl::EventLoop, pub(crate) _marker: PhantomData<*mut ()>, // Not Send nor Sync } /// Target that associates windows with an `EventLoop`. /// /// This type exists to allow you to create new windows while Winit executes /// your callback. `EventLoop` will coerce into this type (`impl Deref for /// EventLoop`), so functions that take this as a parameter can also take /// `&EventLoop`. pub struct EventLoopWindowTarget { pub(crate) p: platform_impl::EventLoopWindowTarget, pub(crate) _marker: PhantomData<*mut ()>, // Not Send nor Sync } /// Object that allows building the event loop. /// /// This is used to make specifying options that affect the whole application /// easier. But note that constructing multiple event loops is not supported. #[derive(Default)] pub struct EventLoopBuilder { pub(crate) platform_specific: platform_impl::PlatformSpecificEventLoopAttributes, _p: PhantomData, } impl EventLoopBuilder<()> { /// Start building a new event loop. #[inline] pub fn new() -> Self { Self::with_user_event() } } impl EventLoopBuilder { /// Start building a new event loop, with the given type as the user event /// type. #[inline] pub fn with_user_event() -> Self { Self { platform_specific: Default::default(), _p: PhantomData, } } /// Builds a new event loop. /// /// ***For cross-platform compatibility, the `EventLoop` must be created on the main thread.*** /// Attempting to create the event loop on a different thread will panic. This restriction isn't /// strictly necessary on all platforms, but is imposed to eliminate any nasty surprises when /// porting to platforms that require it. `EventLoopBuilderExt::any_thread` functions are exposed /// in the relevant `platform` module if the target platform supports creating an event loop on /// any thread. /// /// Calling this function will result in display backend initialisation. /// /// ## Platform-specific /// /// - **Linux:** Backend type can be controlled using an environment variable /// `WINIT_UNIX_BACKEND`. Legal values are `x11` and `wayland`. /// If it is not set, winit will try to connect to a Wayland connection, and if that fails, /// will fall back on X11. If this variable is set with any other value, winit will panic. #[inline] pub fn build(&mut self) -> EventLoop { // Certain platforms accept a mutable reference in their API. #[allow(clippy::unnecessary_mut_passed)] EventLoop { event_loop: platform_impl::EventLoop::new(&mut self.platform_specific), _marker: PhantomData, } } } impl fmt::Debug for EventLoop { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.pad("EventLoop { .. }") } } impl fmt::Debug for EventLoopWindowTarget { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.pad("EventLoopWindowTarget { .. }") } } /// Set by the user callback given to the `EventLoop::run` method. /// /// Indicates the desired behavior of the event loop after [`Event::RedrawEventsCleared`][events_cleared] /// is emitted. Defaults to `Poll`. /// /// ## Persistency /// Almost every change is persistent between multiple calls to the event loop closure within a /// given run loop. The only exception to this is `ExitWithCode` which, once set, cannot be unset. /// Changes are **not** persistent between multiple calls to `run_return` - issuing a new call will /// reset the control flow to `Poll`. /// /// [events_cleared]: crate::event::Event::RedrawEventsCleared #[derive(Copy, Clone, Debug, PartialEq, Eq)] pub enum ControlFlow { /// When the current loop iteration finishes, immediately begin a new iteration regardless of /// whether or not new events are available to process. /// /// ## Platform-specific /// - **Web:** Events are queued and usually sent when `requestAnimationFrame` fires but sometimes /// the events in the queue may be sent before the next `requestAnimationFrame` callback, for /// example when the scaling of the page has changed. This should be treated as an implementation /// detail which should not be relied on. Poll, /// When the current loop iteration finishes, suspend the thread until another event arrives. Wait, /// When the current loop iteration finishes, suspend the thread until either another event /// arrives or the given time is reached. /// /// Useful for implementing efficient timers. Applications which want to render at the display's /// native refresh rate should instead use `Poll` and the VSync functionality of a graphics API /// to reduce odds of missed frames. WaitUntil(Instant), /// Send a `LoopDestroyed` event and stop the event loop. This variant is *sticky* - once set, /// `control_flow` cannot be changed from `ExitWithCode`, and any future attempts to do so will /// result in the `control_flow` parameter being reset to `ExitWithCode`. /// /// The contained number will be used as exit code. The [`Exit`] constant is a shortcut for this /// with exit code 0. /// /// ## Platform-specific /// /// - **Android / iOS / WASM**: The supplied exit code is unused. /// - **Unix**: On most Unix-like platforms, only the 8 least significant bits will be used, /// which can cause surprises with negative exit values (`-42` would end up as `214`). See /// [`std::process::exit`]. /// /// [`Exit`]: ControlFlow::Exit ExitWithCode(i32), } impl ControlFlow { /// Alias for [`ExitWithCode`]`(0)`. /// /// [`ExitWithCode`]: ControlFlow::ExitWithCode #[allow(non_upper_case_globals)] pub const Exit: Self = Self::ExitWithCode(0); /// Sets this to [`Poll`]. /// /// [`Poll`]: ControlFlow::Poll pub fn set_poll(&mut self) { *self = Self::Poll; } /// Sets this to [`Wait`]. /// /// [`Wait`]: ControlFlow::Wait pub fn set_wait(&mut self) { *self = Self::Wait; } /// Sets this to [`WaitUntil`]`(instant)`. /// /// [`WaitUntil`]: ControlFlow::WaitUntil pub fn set_wait_until(&mut self, instant: Instant) { *self = Self::WaitUntil(instant); } /// Sets this to [`ExitWithCode`]`(code)`. /// /// [`ExitWithCode`]: ControlFlow::ExitWithCode pub fn set_exit_with_code(&mut self, code: i32) { *self = Self::ExitWithCode(code); } /// Sets this to [`Exit`]. /// /// [`Exit`]: ControlFlow::Exit pub fn set_exit(&mut self) { *self = Self::Exit; } } impl Default for ControlFlow { #[inline(always)] fn default() -> ControlFlow { ControlFlow::Poll } } impl EventLoop<()> { /// Alias for `EventLoopBuilder::new().build()`. #[inline] pub fn new() -> EventLoop<()> { EventLoopBuilder::new().build() } } impl Default for EventLoop<()> { fn default() -> Self { Self::new() } } impl EventLoop { #[deprecated = "Use `EventLoopBuilder::::with_user_event().build()` instead."] pub fn with_user_event() -> EventLoop { EventLoopBuilder::::with_user_event().build() } /// Hijacks the calling thread and initializes the winit event loop with the provided /// closure. Since the closure is `'static`, it must be a `move` closure if it needs to /// access any data from the calling context. /// /// See the [`ControlFlow`] docs for information on how changes to `&mut ControlFlow` impact the /// event loop's behavior. /// /// Any values not passed to this function will *not* be dropped. /// /// ## Platform-specific /// /// - **X11 / Wayland**: The program terminates with exit code 1 if the display server /// disconnects. /// /// [`ControlFlow`]: crate::event_loop::ControlFlow #[inline] pub fn run(self, event_handler: F) -> ! where F: 'static + FnMut(Event<'_, T>, &EventLoopWindowTarget, &mut ControlFlow), { self.event_loop.run(event_handler) } /// Creates an `EventLoopProxy` that can be used to dispatch user events to the main event loop. pub fn create_proxy(&self) -> EventLoopProxy { EventLoopProxy { event_loop_proxy: self.event_loop.create_proxy(), } } } impl Deref for EventLoop { type Target = EventLoopWindowTarget; fn deref(&self) -> &EventLoopWindowTarget { self.event_loop.window_target() } } impl EventLoopWindowTarget { /// Returns the list of all the monitors available on the system. #[inline] pub fn available_monitors(&self) -> impl Iterator { self.p .available_monitors() .into_iter() .map(|inner| MonitorHandle { inner }) } /// Returns the primary monitor of the system. /// /// Returns `None` if it can't identify any monitor as a primary one. /// /// ## Platform-specific /// /// **Wayland:** Always returns `None`. #[inline] pub fn primary_monitor(&self) -> Option { self.p.primary_monitor() } /// Change [`DeviceEvent`] filter mode. /// /// Since the [`DeviceEvent`] capture can lead to high CPU usage for unfocused windows, winit /// will ignore them by default for unfocused windows on Linux/BSD. This method allows changing /// this filter at runtime to explicitly capture them again. /// /// ## Platform-specific /// /// - **Wayland / Windows / macOS / iOS / Android / Web**: Unsupported. /// /// [`DeviceEvent`]: crate::event::DeviceEvent pub fn set_device_event_filter(&mut self, _filter: DeviceEventFilter) { #[cfg(any( target_os = "linux", target_os = "dragonfly", target_os = "freebsd", target_os = "netbsd", target_os = "openbsd" ))] self.p.set_device_event_filter(_filter); } } /// Used to send custom events to `EventLoop`. pub struct EventLoopProxy { event_loop_proxy: platform_impl::EventLoopProxy, } impl Clone for EventLoopProxy { fn clone(&self) -> Self { Self { event_loop_proxy: self.event_loop_proxy.clone(), } } } impl EventLoopProxy { /// Send an event to the `EventLoop` from which this proxy was created. This emits a /// `UserEvent(event)` event in the event loop, where `event` is the value passed to this /// function. /// /// Returns an `Err` if the associated `EventLoop` no longer exists. pub fn send_event(&self, event: T) -> Result<(), EventLoopClosed> { self.event_loop_proxy.send_event(event) } } impl fmt::Debug for EventLoopProxy { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.pad("EventLoopProxy { .. }") } } /// The error that is returned when an `EventLoopProxy` attempts to wake up an `EventLoop` that /// no longer exists. Contains the original event given to `send_event`. #[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)] pub struct EventLoopClosed(pub T); impl fmt::Display for EventLoopClosed { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.write_str("Tried to wake up a closed `EventLoop`") } } impl error::Error for EventLoopClosed {} /// Fiter controlling the propagation of device events. #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug)] pub enum DeviceEventFilter { /// Always filter out device events. Always, /// Filter out device events while the window is not focused. Unfocused, /// Report all device events regardless of window focus. Never, } impl Default for DeviceEventFilter { fn default() -> Self { Self::Unfocused } }