mirror of
https://github.com/italicsjenga/winit-sonoma-fix.git
synced 2024-12-27 15:41:31 +11:00
d103dc2631
Certain platforms like Wayland don't have a concept of primary Monitor in particular. To indicate that 'primary_monitor' will return 'None' as well as in cases where the primary monitor can't be detected. Fixes #1683.
345 lines
11 KiB
Rust
345 lines
11 KiB
Rust
use std::{
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collections::VecDeque,
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ffi::c_void,
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fmt::{self, Debug},
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marker::PhantomData,
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mem, ptr,
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sync::mpsc::{self, Receiver, Sender},
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};
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use crate::{
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dpi::LogicalSize,
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event::Event,
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event_loop::{
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ControlFlow, EventLoopClosed, EventLoopWindowTarget as RootEventLoopWindowTarget,
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},
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monitor::MonitorHandle as RootMonitorHandle,
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platform::ios::Idiom,
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};
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use crate::platform_impl::platform::{
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app_state,
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ffi::{
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id, kCFRunLoopAfterWaiting, kCFRunLoopBeforeWaiting, kCFRunLoopCommonModes,
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kCFRunLoopDefaultMode, kCFRunLoopEntry, kCFRunLoopExit, nil, CFIndex, CFRelease,
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CFRunLoopActivity, CFRunLoopAddObserver, CFRunLoopAddSource, CFRunLoopGetMain,
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CFRunLoopObserverCreate, CFRunLoopObserverRef, CFRunLoopSourceContext,
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CFRunLoopSourceCreate, CFRunLoopSourceInvalidate, CFRunLoopSourceRef,
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CFRunLoopSourceSignal, CFRunLoopWakeUp, NSStringRust, UIApplicationMain,
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UIUserInterfaceIdiom,
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},
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monitor, view, MonitorHandle,
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};
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#[derive(Debug)]
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pub enum EventWrapper {
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StaticEvent(Event<'static, Never>),
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EventProxy(EventProxy),
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}
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#[derive(Debug, PartialEq)]
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pub enum EventProxy {
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DpiChangedProxy {
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window_id: id,
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suggested_size: LogicalSize<f64>,
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scale_factor: f64,
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},
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}
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pub struct EventLoopWindowTarget<T: 'static> {
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receiver: Receiver<T>,
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sender_to_clone: Sender<T>,
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}
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impl<T: 'static> EventLoopWindowTarget<T> {
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pub fn available_monitors(&self) -> VecDeque<MonitorHandle> {
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// guaranteed to be on main thread
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unsafe { monitor::uiscreens() }
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}
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pub fn primary_monitor(&self) -> Option<RootMonitorHandle> {
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// guaranteed to be on main thread
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let monitor = unsafe { monitor::main_uiscreen() };
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Some(RootMonitorHandle { inner: monitor })
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}
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}
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pub struct EventLoop<T: 'static> {
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window_target: RootEventLoopWindowTarget<T>,
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}
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impl<T: 'static> EventLoop<T> {
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pub fn new() -> EventLoop<T> {
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static mut SINGLETON_INIT: bool = false;
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unsafe {
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assert_main_thread!("`EventLoop` can only be created on the main thread on iOS");
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assert!(
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!SINGLETON_INIT,
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"Only one `EventLoop` is supported on iOS. \
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`EventLoopProxy` might be helpful"
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);
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SINGLETON_INIT = true;
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view::create_delegate_class();
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}
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let (sender_to_clone, receiver) = mpsc::channel();
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// this line sets up the main run loop before `UIApplicationMain`
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setup_control_flow_observers();
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EventLoop {
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window_target: RootEventLoopWindowTarget {
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p: EventLoopWindowTarget {
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receiver,
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sender_to_clone,
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},
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_marker: PhantomData,
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},
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}
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}
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pub fn run<F>(self, event_handler: F) -> !
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where
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F: 'static + FnMut(Event<'_, T>, &RootEventLoopWindowTarget<T>, &mut ControlFlow),
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{
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unsafe {
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let application: *mut c_void = msg_send![class!(UIApplication), sharedApplication];
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assert_eq!(
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application,
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ptr::null_mut(),
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"\
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`EventLoop` cannot be `run` after a call to `UIApplicationMain` on iOS\n\
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Note: `EventLoop::run` calls `UIApplicationMain` on iOS"
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);
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app_state::will_launch(Box::new(EventLoopHandler {
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f: event_handler,
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event_loop: self.window_target,
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}));
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UIApplicationMain(
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0,
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ptr::null(),
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nil,
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NSStringRust::alloc(nil).init_str("AppDelegate"),
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);
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unreachable!()
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}
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}
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pub fn create_proxy(&self) -> EventLoopProxy<T> {
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EventLoopProxy::new(self.window_target.p.sender_to_clone.clone())
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}
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pub fn window_target(&self) -> &RootEventLoopWindowTarget<T> {
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&self.window_target
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}
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}
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// EventLoopExtIOS
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impl<T: 'static> EventLoop<T> {
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pub fn idiom(&self) -> Idiom {
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// guaranteed to be on main thread
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unsafe { self::get_idiom() }
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}
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}
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pub struct EventLoopProxy<T> {
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sender: Sender<T>,
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source: CFRunLoopSourceRef,
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}
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unsafe impl<T: Send> Send for EventLoopProxy<T> {}
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impl<T> Clone for EventLoopProxy<T> {
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fn clone(&self) -> EventLoopProxy<T> {
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EventLoopProxy::new(self.sender.clone())
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}
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}
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impl<T> Drop for EventLoopProxy<T> {
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fn drop(&mut self) {
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unsafe {
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CFRunLoopSourceInvalidate(self.source);
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CFRelease(self.source as _);
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}
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}
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}
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impl<T> EventLoopProxy<T> {
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fn new(sender: Sender<T>) -> EventLoopProxy<T> {
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unsafe {
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// just wake up the eventloop
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extern "C" fn event_loop_proxy_handler(_: *mut c_void) {}
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// adding a Source to the main CFRunLoop lets us wake it up and
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// process user events through the normal OS EventLoop mechanisms.
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let rl = CFRunLoopGetMain();
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// we want all the members of context to be zero/null, except one
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let mut context: CFRunLoopSourceContext = mem::zeroed();
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context.perform = Some(event_loop_proxy_handler);
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let source =
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CFRunLoopSourceCreate(ptr::null_mut(), CFIndex::max_value() - 1, &mut context);
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CFRunLoopAddSource(rl, source, kCFRunLoopCommonModes);
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CFRunLoopWakeUp(rl);
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EventLoopProxy { sender, source }
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}
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}
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pub fn send_event(&self, event: T) -> Result<(), EventLoopClosed<T>> {
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self.sender
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.send(event)
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.map_err(|::std::sync::mpsc::SendError(x)| EventLoopClosed(x))?;
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unsafe {
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// let the main thread know there's a new event
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CFRunLoopSourceSignal(self.source);
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let rl = CFRunLoopGetMain();
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CFRunLoopWakeUp(rl);
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}
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Ok(())
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}
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}
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fn setup_control_flow_observers() {
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unsafe {
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// begin is queued with the highest priority to ensure it is processed before other observers
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extern "C" fn control_flow_begin_handler(
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_: CFRunLoopObserverRef,
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activity: CFRunLoopActivity,
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_: *mut c_void,
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) {
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unsafe {
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#[allow(non_upper_case_globals)]
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match activity {
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kCFRunLoopAfterWaiting => app_state::handle_wakeup_transition(),
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kCFRunLoopEntry => unimplemented!(), // not expected to ever happen
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_ => unreachable!(),
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}
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}
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}
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// Core Animation registers its `CFRunLoopObserver` that performs drawing operations in
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// `CA::Transaction::ensure_implicit` with a priority of `0x1e8480`. We set the main_end
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// priority to be 0, in order to send MainEventsCleared before RedrawRequested. This value was
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// chosen conservatively to guard against apple using different priorities for their redraw
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// observers in different OS's or on different devices. If it so happens that it's too
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// conservative, the main symptom would be non-redraw events coming in after `MainEventsCleared`.
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//
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// The value of `0x1e8480` was determined by inspecting stack traces and the associated
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// registers for every `CFRunLoopAddObserver` call on an iPad Air 2 running iOS 11.4.
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//
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// Also tested to be `0x1e8480` on iPhone 8, iOS 13 beta 4.
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extern "C" fn control_flow_main_end_handler(
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_: CFRunLoopObserverRef,
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activity: CFRunLoopActivity,
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_: *mut c_void,
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) {
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unsafe {
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#[allow(non_upper_case_globals)]
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match activity {
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kCFRunLoopBeforeWaiting => app_state::handle_main_events_cleared(),
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kCFRunLoopExit => unimplemented!(), // not expected to ever happen
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_ => unreachable!(),
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}
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}
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}
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// end is queued with the lowest priority to ensure it is processed after other observers
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extern "C" fn control_flow_end_handler(
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_: CFRunLoopObserverRef,
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activity: CFRunLoopActivity,
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_: *mut c_void,
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) {
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unsafe {
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#[allow(non_upper_case_globals)]
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match activity {
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kCFRunLoopBeforeWaiting => app_state::handle_events_cleared(),
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kCFRunLoopExit => unimplemented!(), // not expected to ever happen
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_ => unreachable!(),
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}
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}
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}
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let main_loop = CFRunLoopGetMain();
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let begin_observer = CFRunLoopObserverCreate(
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ptr::null_mut(),
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kCFRunLoopEntry | kCFRunLoopAfterWaiting,
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1, // repeat = true
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CFIndex::min_value(),
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control_flow_begin_handler,
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ptr::null_mut(),
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);
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CFRunLoopAddObserver(main_loop, begin_observer, kCFRunLoopDefaultMode);
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let main_end_observer = CFRunLoopObserverCreate(
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ptr::null_mut(),
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kCFRunLoopExit | kCFRunLoopBeforeWaiting,
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1, // repeat = true
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0, // see comment on `control_flow_main_end_handler`
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control_flow_main_end_handler,
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ptr::null_mut(),
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);
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CFRunLoopAddObserver(main_loop, main_end_observer, kCFRunLoopDefaultMode);
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let end_observer = CFRunLoopObserverCreate(
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ptr::null_mut(),
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kCFRunLoopExit | kCFRunLoopBeforeWaiting,
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1, // repeat = true
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CFIndex::max_value(),
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control_flow_end_handler,
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ptr::null_mut(),
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);
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CFRunLoopAddObserver(main_loop, end_observer, kCFRunLoopDefaultMode);
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}
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}
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#[derive(Debug)]
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pub enum Never {}
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pub trait EventHandler: Debug {
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fn handle_nonuser_event(&mut self, event: Event<'_, Never>, control_flow: &mut ControlFlow);
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fn handle_user_events(&mut self, control_flow: &mut ControlFlow);
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}
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struct EventLoopHandler<F, T: 'static> {
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f: F,
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event_loop: RootEventLoopWindowTarget<T>,
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}
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impl<F, T: 'static> Debug for EventLoopHandler<F, T> {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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f.debug_struct("EventLoopHandler")
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.field("event_loop", &self.event_loop)
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.finish()
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}
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}
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impl<F, T> EventHandler for EventLoopHandler<F, T>
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where
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F: 'static + FnMut(Event<'_, T>, &RootEventLoopWindowTarget<T>, &mut ControlFlow),
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T: 'static,
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{
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fn handle_nonuser_event(&mut self, event: Event<'_, Never>, control_flow: &mut ControlFlow) {
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(self.f)(
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event.map_nonuser_event().unwrap(),
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&self.event_loop,
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control_flow,
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);
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}
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fn handle_user_events(&mut self, control_flow: &mut ControlFlow) {
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for event in self.event_loop.p.receiver.try_iter() {
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(self.f)(Event::UserEvent(event), &self.event_loop, control_flow);
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}
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}
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}
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// must be called on main thread
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pub unsafe fn get_idiom() -> Idiom {
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let device: id = msg_send![class!(UIDevice), currentDevice];
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let raw_idiom: UIUserInterfaceIdiom = msg_send![device, userInterfaceIdiom];
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raw_idiom.into()
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}
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