winit-sonoma-fix/src/platform/ios/mod.rs

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//! iOS support
//!
//! # Building app
//! To build ios app you will need rustc built for this targets:
//!
//! - armv7-apple-ios
//! - armv7s-apple-ios
//! - i386-apple-ios
//! - aarch64-apple-ios
//! - x86_64-apple-ios
//!
//! Then
//!
//! ```
//! cargo build --target=...
//! ```
//! The simplest way to integrate your app into xcode environment is to build it
//! as a static library. Wrap your main function and export it.
//!
//! ```rust, ignore
//! #[no_mangle]
//! pub extern fn start_glutin_app() {
//! start_inner()
//! }
//!
//! fn start_inner() {
//! ...
//! }
//!
//! ```
//!
//! Compile project and then drag resulting .a into Xcode project. Add glutin.h to xcode.
//!
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//! ```ignore
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//! void start_glutin_app();
//! ```
//!
//! Use start_glutin_app inside your xcode's main function.
//!
//!
//! # App lifecycle and events
//!
//! iOS environment is very different from other platforms and you must be very
//! careful with it's events. Familiarize yourself with
//! [app lifecycle](https://developer.apple.com/library/ios/documentation/UIKit/Reference/UIApplicationDelegate_Protocol/).
//!
//!
//! This is how those event are represented in glutin:
//!
//! - applicationDidBecomeActive is Focused(true)
//! - applicationWillResignActive is Focused(false)
//! - applicationDidEnterBackground is Suspended(true)
//! - applicationWillEnterForeground is Suspended(false)
//! - applicationWillTerminate is Destroyed
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//!
//! Keep in mind that after Destroyed event is received every attempt to draw with
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//! opengl will result in segfault.
//!
//! Also note that app will not receive Destroyed event if suspended, it will be SIGKILL'ed
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#![cfg(target_os = "ios")]
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use std::collections::VecDeque;
use std::ptr;
use std::mem;
use std::os::raw::c_void;
use libc;
use libc::c_int;
use objc::runtime::{Class, Object, Sel, BOOL, YES };
use objc::declare::{ ClassDecl };
Move fullscreen modes to not touch physical resolutions (#270) * Fix X11 screen resolution change using XrandR The previous XF86 resolution switching was broken and everything seems to have moved on to xrandr. Use that instead while cleaning up the code a bit as well. * Use XRandR for actual multiscreen support in X11 * Use actual monitor names in X11 * Get rid of ptr::read usage in X11 * Use a bog standard Vec instead of VecDeque * Get rid of the XRandR mode switching stuff Wayland has made the decision that apps shouldn't change screen resolutions and just take the screens as they've been setup. In the modern world where GPU scaling is cheap and LCD panels are scaling anyway it makes no sense to make "physical" resolution changes when software should be taking care of it. This massively simplifies the code and makes it easier to extend to more niche setups like MST and videowalls. * Rename fullscreen options to match new semantics * Implement XRandR 1.5 support * Get rid of the FullScreen enum Moving to just having two states None and Some(MonitorId) and then being able to set full screen in the current monitor with something like: window.set_fullscreen(Some(window.current_monitor())); * Implement Window::get_current_monitor() Do it by iterating over the available monitors and finding which has the biggest overlap with the window. For this MonitorId needs a new get_position() that needs to be implemented for all platforms. * Add unimplemented get_position() to all MonitorId * Make get_current_monitor() platform specific * Add unimplemented get_current_monitor() to all * Implement proper primary monitor selection in X11 * Shut up some warnings * Remove libxxf86vm package from travis Since we're no longer using XF86 there's no need to keep the package around for CI. * Don't use new struct syntax * Fix indentation * Adjust Android/iOS fullscreen/maximized On Android and iOS we can assume single screen apps that are already fullscreen and maximized so there are a few methods that are implemented by just returning a fixed value or not doing anything. * Mark OSX/Win fullscreen/maximized unimplemented()! These would be safe as no-ops but we should make it explicit so there is more of an incentive to actually implement them.
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use { CreationError, CursorState, MouseCursor, WindowAttributes };
use WindowId as RootEventId;
use WindowEvent;
use Event;
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use events::{ Touch, TouchPhase };
Move fullscreen modes to not touch physical resolutions (#270) * Fix X11 screen resolution change using XrandR The previous XF86 resolution switching was broken and everything seems to have moved on to xrandr. Use that instead while cleaning up the code a bit as well. * Use XRandR for actual multiscreen support in X11 * Use actual monitor names in X11 * Get rid of ptr::read usage in X11 * Use a bog standard Vec instead of VecDeque * Get rid of the XRandR mode switching stuff Wayland has made the decision that apps shouldn't change screen resolutions and just take the screens as they've been setup. In the modern world where GPU scaling is cheap and LCD panels are scaling anyway it makes no sense to make "physical" resolution changes when software should be taking care of it. This massively simplifies the code and makes it easier to extend to more niche setups like MST and videowalls. * Rename fullscreen options to match new semantics * Implement XRandR 1.5 support * Get rid of the FullScreen enum Moving to just having two states None and Some(MonitorId) and then being able to set full screen in the current monitor with something like: window.set_fullscreen(Some(window.current_monitor())); * Implement Window::get_current_monitor() Do it by iterating over the available monitors and finding which has the biggest overlap with the window. For this MonitorId needs a new get_position() that needs to be implemented for all platforms. * Add unimplemented get_position() to all MonitorId * Make get_current_monitor() platform specific * Add unimplemented get_current_monitor() to all * Implement proper primary monitor selection in X11 * Shut up some warnings * Remove libxxf86vm package from travis Since we're no longer using XF86 there's no need to keep the package around for CI. * Don't use new struct syntax * Fix indentation * Adjust Android/iOS fullscreen/maximized On Android and iOS we can assume single screen apps that are already fullscreen and maximized so there are a few methods that are implemented by just returning a fixed value or not doing anything. * Mark OSX/Win fullscreen/maximized unimplemented()! These would be safe as no-ops but we should make it explicit so there is more of an incentive to actually implement them.
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use window::MonitorId as RootMonitorId;
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mod ffi;
use self::ffi::{
setjmp,
UIApplicationMain,
CFTimeInterval,
CFRunLoopRunInMode,
kCFRunLoopDefaultMode,
kCFRunLoopRunHandledSource,
id,
nil,
NSString,
CGFloat,
longjmp,
CGRect,
CGPoint
};
static mut jmpbuf: [c_int;27] = [0;27];
#[derive(Clone)]
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pub struct MonitorId;
pub struct Window {
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delegate_state: *mut DelegateState
}
#[derive(Clone)]
pub struct WindowProxy;
#[derive(Debug)]
struct DelegateState {
events_queue: VecDeque<Event>,
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window: id,
controller: id,
size: (u32,u32),
scale: f32
}
impl DelegateState {
#[inline]
fn new(window: id, controller:id, size: (u32,u32), scale: f32) -> DelegateState {
DelegateState {
events_queue: VecDeque::new(),
window: window,
controller: controller,
size: size,
scale: scale
}
}
}
impl MonitorId {
#[inline]
pub fn get_name(&self) -> Option<String> {
Some("Primary".to_string())
}
#[inline]
pub fn get_dimensions(&self) -> (u32, u32) {
unimplemented!()
}
Move fullscreen modes to not touch physical resolutions (#270) * Fix X11 screen resolution change using XrandR The previous XF86 resolution switching was broken and everything seems to have moved on to xrandr. Use that instead while cleaning up the code a bit as well. * Use XRandR for actual multiscreen support in X11 * Use actual monitor names in X11 * Get rid of ptr::read usage in X11 * Use a bog standard Vec instead of VecDeque * Get rid of the XRandR mode switching stuff Wayland has made the decision that apps shouldn't change screen resolutions and just take the screens as they've been setup. In the modern world where GPU scaling is cheap and LCD panels are scaling anyway it makes no sense to make "physical" resolution changes when software should be taking care of it. This massively simplifies the code and makes it easier to extend to more niche setups like MST and videowalls. * Rename fullscreen options to match new semantics * Implement XRandR 1.5 support * Get rid of the FullScreen enum Moving to just having two states None and Some(MonitorId) and then being able to set full screen in the current monitor with something like: window.set_fullscreen(Some(window.current_monitor())); * Implement Window::get_current_monitor() Do it by iterating over the available monitors and finding which has the biggest overlap with the window. For this MonitorId needs a new get_position() that needs to be implemented for all platforms. * Add unimplemented get_position() to all MonitorId * Make get_current_monitor() platform specific * Add unimplemented get_current_monitor() to all * Implement proper primary monitor selection in X11 * Shut up some warnings * Remove libxxf86vm package from travis Since we're no longer using XF86 there's no need to keep the package around for CI. * Don't use new struct syntax * Fix indentation * Adjust Android/iOS fullscreen/maximized On Android and iOS we can assume single screen apps that are already fullscreen and maximized so there are a few methods that are implemented by just returning a fixed value or not doing anything. * Mark OSX/Win fullscreen/maximized unimplemented()! These would be safe as no-ops but we should make it explicit so there is more of an incentive to actually implement them.
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#[inline]
pub fn get_position(&self) -> (i32, i32) {
Move fullscreen modes to not touch physical resolutions (#270) * Fix X11 screen resolution change using XrandR The previous XF86 resolution switching was broken and everything seems to have moved on to xrandr. Use that instead while cleaning up the code a bit as well. * Use XRandR for actual multiscreen support in X11 * Use actual monitor names in X11 * Get rid of ptr::read usage in X11 * Use a bog standard Vec instead of VecDeque * Get rid of the XRandR mode switching stuff Wayland has made the decision that apps shouldn't change screen resolutions and just take the screens as they've been setup. In the modern world where GPU scaling is cheap and LCD panels are scaling anyway it makes no sense to make "physical" resolution changes when software should be taking care of it. This massively simplifies the code and makes it easier to extend to more niche setups like MST and videowalls. * Rename fullscreen options to match new semantics * Implement XRandR 1.5 support * Get rid of the FullScreen enum Moving to just having two states None and Some(MonitorId) and then being able to set full screen in the current monitor with something like: window.set_fullscreen(Some(window.current_monitor())); * Implement Window::get_current_monitor() Do it by iterating over the available monitors and finding which has the biggest overlap with the window. For this MonitorId needs a new get_position() that needs to be implemented for all platforms. * Add unimplemented get_position() to all MonitorId * Make get_current_monitor() platform specific * Add unimplemented get_current_monitor() to all * Implement proper primary monitor selection in X11 * Shut up some warnings * Remove libxxf86vm package from travis Since we're no longer using XF86 there's no need to keep the package around for CI. * Don't use new struct syntax * Fix indentation * Adjust Android/iOS fullscreen/maximized On Android and iOS we can assume single screen apps that are already fullscreen and maximized so there are a few methods that are implemented by just returning a fixed value or not doing anything. * Mark OSX/Win fullscreen/maximized unimplemented()! These would be safe as no-ops but we should make it explicit so there is more of an incentive to actually implement them.
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// iOS assumes single screen
(0, 0)
}
#[inline]
pub fn get_hidpi_factor(&self) -> f32 {
1.0
}
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}
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pub struct EventsLoop {
delegate_state: *mut DelegateState
}
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#[derive(Clone)]
pub struct EventsLoopProxy;
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impl EventsLoop {
pub fn new() -> EventsLoop {
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unsafe {
if setjmp(mem::transmute(&mut jmpbuf)) != 0 {
let app: id = msg_send![Class::get("UIApplication").unwrap(), sharedApplication];
let delegate: id = msg_send![app, delegate];
let state: *mut c_void = *(&*delegate).get_ivar("glutinState");
let state = state as *mut DelegateState;
let events_loop = EventsLoop {
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delegate_state: state
};
return events_loop;
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}
}
create_delegate_class();
create_view_class();
start_app();
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panic!("Couldn't create UIApplication")
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}
#[inline]
pub fn get_available_monitors(&self) -> VecDeque<MonitorId> {
let mut rb = VecDeque::new();
rb.push_back(MonitorId);
rb
}
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#[inline]
pub fn get_primary_monitor(&self) -> MonitorId {
MonitorId
}
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pub fn poll_events<F>(&mut self, mut callback: F)
where F: FnMut(::Event)
{
unsafe {
let state = &mut *self.delegate_state;
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if let Some(event) = state.events_queue.pop_front() {
callback(event);
return;
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}
// jump hack, so we won't quit on willTerminate event before processing it
if setjmp(mem::transmute(&mut jmpbuf)) != 0 {
if let Some(event) = state.events_queue.pop_front() {
callback(event);
return;
}
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}
// run runloop
let seconds: CFTimeInterval = 0.000002;
while CFRunLoopRunInMode(kCFRunLoopDefaultMode, seconds, 1) == kCFRunLoopRunHandledSource {}
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if let Some(event) = state.events_queue.pop_front() {
callback(event)
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}
}
}
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pub fn run_forever<F>(&mut self, mut callback: F)
where F: FnMut(::Event) -> ::ControlFlow,
{
// Yeah that's a very bad implementation.
loop {
let mut control_flow = ::ControlFlow::Continue;
self.poll_events(|e| {
if let ::ControlFlow::Break = callback(e) {
control_flow = ::ControlFlow::Break;
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}
});
if let ::ControlFlow::Break = control_flow {
break;
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}
::std::thread::sleep(::std::time::Duration::from_millis(5));
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}
}
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pub fn create_proxy(&self) -> EventsLoopProxy {
EventsLoopProxy
}
}
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impl EventsLoopProxy {
pub fn wakeup(&self) -> Result<(), ::EventsLoopClosed> {
unimplemented!()
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}
}
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#[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct WindowId;
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#[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct DeviceId;
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#[derive(Clone, Default)]
pub struct PlatformSpecificWindowBuilderAttributes;
impl Window {
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pub fn new(ev: &EventsLoop, _: WindowAttributes, _: PlatformSpecificWindowBuilderAttributes)
-> Result<Window, CreationError>
{
Ok(Window {
delegate_state: ev.delegate_state,
})
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}
#[inline]
pub fn set_title(&self, _: &str) {
}
#[inline]
pub fn show(&self) {
}
#[inline]
pub fn hide(&self) {
}
#[inline]
pub fn get_position(&self) -> Option<(i32, i32)> {
None
}
#[inline]
pub fn get_inner_position(&self) -> Option<(i32, i32)> {
None
}
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#[inline]
pub fn set_position(&self, _x: i32, _y: i32) {
}
#[inline]
pub fn get_inner_size(&self) -> Option<(u32, u32)> {
unsafe { Some((&*self.delegate_state).size) }
}
#[inline]
pub fn get_outer_size(&self) -> Option<(u32, u32)> {
self.get_inner_size()
}
#[inline]
pub fn set_inner_size(&self, _x: u32, _y: u32) {
}
#[inline]
pub fn set_min_dimensions(&self, _dimensions: Option<(u32, u32)>) { }
#[inline]
pub fn set_max_dimensions(&self, _dimensions: Option<(u32, u32)>) { }
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#[inline]
pub fn platform_display(&self) -> *mut libc::c_void {
unimplemented!();
}
#[inline]
pub fn platform_window(&self) -> *mut libc::c_void {
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unimplemented!()
}
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#[inline]
pub fn set_window_resize_callback(&mut self, _: Option<fn(u32, u32)>) {
}
#[inline]
pub fn set_cursor(&self, _: MouseCursor) {
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}
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#[inline]
pub fn set_cursor_state(&self, _: CursorState) -> Result<(), String> {
Ok(())
}
#[inline]
pub fn hidpi_factor(&self) -> f32 {
unsafe { (&*self.delegate_state) }.scale
}
#[inline]
pub fn set_cursor_position(&self, _x: i32, _y: i32) -> Result<(), ()> {
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unimplemented!();
}
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#[inline]
pub fn create_window_proxy(&self) -> WindowProxy {
WindowProxy
}
#[inline]
Move fullscreen modes to not touch physical resolutions (#270) * Fix X11 screen resolution change using XrandR The previous XF86 resolution switching was broken and everything seems to have moved on to xrandr. Use that instead while cleaning up the code a bit as well. * Use XRandR for actual multiscreen support in X11 * Use actual monitor names in X11 * Get rid of ptr::read usage in X11 * Use a bog standard Vec instead of VecDeque * Get rid of the XRandR mode switching stuff Wayland has made the decision that apps shouldn't change screen resolutions and just take the screens as they've been setup. In the modern world where GPU scaling is cheap and LCD panels are scaling anyway it makes no sense to make "physical" resolution changes when software should be taking care of it. This massively simplifies the code and makes it easier to extend to more niche setups like MST and videowalls. * Rename fullscreen options to match new semantics * Implement XRandR 1.5 support * Get rid of the FullScreen enum Moving to just having two states None and Some(MonitorId) and then being able to set full screen in the current monitor with something like: window.set_fullscreen(Some(window.current_monitor())); * Implement Window::get_current_monitor() Do it by iterating over the available monitors and finding which has the biggest overlap with the window. For this MonitorId needs a new get_position() that needs to be implemented for all platforms. * Add unimplemented get_position() to all MonitorId * Make get_current_monitor() platform specific * Add unimplemented get_current_monitor() to all * Implement proper primary monitor selection in X11 * Shut up some warnings * Remove libxxf86vm package from travis Since we're no longer using XF86 there's no need to keep the package around for CI. * Don't use new struct syntax * Fix indentation * Adjust Android/iOS fullscreen/maximized On Android and iOS we can assume single screen apps that are already fullscreen and maximized so there are a few methods that are implemented by just returning a fixed value or not doing anything. * Mark OSX/Win fullscreen/maximized unimplemented()! These would be safe as no-ops but we should make it explicit so there is more of an incentive to actually implement them.
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pub fn set_maximized(&self, _maximized: bool) {
// iOS has single screen maximized apps so nothing to do
}
#[inline]
pub fn set_fullscreen(&self, _monitor: Option<RootMonitorId>) {
// iOS has single screen maximized apps so nothing to do
}
#[inline]
pub fn set_decorations(&self, _decorations: bool) {
// N/A
}
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#[inline]
pub fn set_window_icon(&self, _icon: Option<::Icon>) {
// N/A
}
#[inline]
Move fullscreen modes to not touch physical resolutions (#270) * Fix X11 screen resolution change using XrandR The previous XF86 resolution switching was broken and everything seems to have moved on to xrandr. Use that instead while cleaning up the code a bit as well. * Use XRandR for actual multiscreen support in X11 * Use actual monitor names in X11 * Get rid of ptr::read usage in X11 * Use a bog standard Vec instead of VecDeque * Get rid of the XRandR mode switching stuff Wayland has made the decision that apps shouldn't change screen resolutions and just take the screens as they've been setup. In the modern world where GPU scaling is cheap and LCD panels are scaling anyway it makes no sense to make "physical" resolution changes when software should be taking care of it. This massively simplifies the code and makes it easier to extend to more niche setups like MST and videowalls. * Rename fullscreen options to match new semantics * Implement XRandR 1.5 support * Get rid of the FullScreen enum Moving to just having two states None and Some(MonitorId) and then being able to set full screen in the current monitor with something like: window.set_fullscreen(Some(window.current_monitor())); * Implement Window::get_current_monitor() Do it by iterating over the available monitors and finding which has the biggest overlap with the window. For this MonitorId needs a new get_position() that needs to be implemented for all platforms. * Add unimplemented get_position() to all MonitorId * Make get_current_monitor() platform specific * Add unimplemented get_current_monitor() to all * Implement proper primary monitor selection in X11 * Shut up some warnings * Remove libxxf86vm package from travis Since we're no longer using XF86 there's no need to keep the package around for CI. * Don't use new struct syntax * Fix indentation * Adjust Android/iOS fullscreen/maximized On Android and iOS we can assume single screen apps that are already fullscreen and maximized so there are a few methods that are implemented by just returning a fixed value or not doing anything. * Mark OSX/Win fullscreen/maximized unimplemented()! These would be safe as no-ops but we should make it explicit so there is more of an incentive to actually implement them.
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pub fn get_current_monitor(&self) -> RootMonitorId {
RootMonitorId{inner: MonitorId}
}
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#[inline]
pub fn id(&self) -> WindowId {
WindowId
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}
}
fn create_delegate_class() {
extern fn did_finish_launching(this: &mut Object, _: Sel, _: id, _: id) -> BOOL {
unsafe {
let main_screen: id = msg_send![Class::get("UIScreen").unwrap(), mainScreen];
let bounds: CGRect = msg_send![main_screen, bounds];
let scale: CGFloat = msg_send![main_screen, nativeScale];
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let window: id = msg_send![Class::get("UIWindow").unwrap(), alloc];
let window: id = msg_send![window, initWithFrame:bounds.clone()];
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let size = (bounds.size.width as u32, bounds.size.height as u32);
let view_controller: id = msg_send![Class::get("MainViewController").unwrap(), alloc];
let view_controller: id = msg_send![view_controller, init];
let _: () = msg_send![window, setRootViewController:view_controller];
let _: () = msg_send![window, makeKeyAndVisible];
let state = Box::new(DelegateState::new(window, view_controller, size, scale as f32));
let state_ptr: *mut DelegateState = mem::transmute(state);
this.set_ivar("glutinState", state_ptr as *mut c_void);
let _: () = msg_send![this, performSelector:sel!(postLaunch:) withObject:nil afterDelay:0.0];
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}
YES
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}
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extern fn post_launch(_: &Object, _: Sel, _: id) {
unsafe { longjmp(mem::transmute(&mut jmpbuf),1); }
}
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extern fn did_become_active(this: &Object, _: Sel, _: id) {
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unsafe {
let state: *mut c_void = *this.get_ivar("glutinState");
let state = &mut *(state as *mut DelegateState);
state.events_queue.push_back(Event::WindowEvent {
window_id: RootEventId(WindowId),
event: WindowEvent::Focused(true),
});
}
}
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extern fn will_resign_active(this: &Object, _: Sel, _: id) {
unsafe {
let state: *mut c_void = *this.get_ivar("glutinState");
let state = &mut *(state as *mut DelegateState);
state.events_queue.push_back(Event::WindowEvent {
window_id: RootEventId(WindowId),
event: WindowEvent::Focused(false),
});
}
}
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extern fn will_enter_foreground(this: &Object, _: Sel, _: id) {
unsafe {
let state: *mut c_void = *this.get_ivar("glutinState");
let state = &mut *(state as *mut DelegateState);
state.events_queue.push_back(Event::Suspended(false));
}
}
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extern fn did_enter_background(this: &Object, _: Sel, _: id) {
unsafe {
let state: *mut c_void = *this.get_ivar("glutinState");
let state = &mut *(state as *mut DelegateState);
state.events_queue.push_back(Event::Suspended(true));
}
}
extern fn will_terminate(this: &Object, _: Sel, _: id) {
unsafe {
let state: *mut c_void = *this.get_ivar("glutinState");
let state = &mut *(state as *mut DelegateState);
// push event to the front to garantee that we'll process it
// immidiatly after jump
state.events_queue.push_front(Event::WindowEvent {
window_id: RootEventId(WindowId),
event: WindowEvent::Destroyed,
});
longjmp(mem::transmute(&mut jmpbuf),1);
}
}
extern fn handle_touches(this: &Object, _: Sel, touches: id, _:id) {
unsafe {
let state: *mut c_void = *this.get_ivar("glutinState");
let state = &mut *(state as *mut DelegateState);
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let touches_enum: id = msg_send![touches, objectEnumerator];
loop {
let touch: id = msg_send![touches_enum, nextObject];
if touch == nil {
break
}
let location: CGPoint = msg_send![touch, locationInView:nil];
let touch_id = touch as u64;
let phase: i32 = msg_send![touch, phase];
state.events_queue.push_back(Event::WindowEvent {
window_id: RootEventId(WindowId),
event: WindowEvent::Touch(Touch {
device_id: DEVICE_ID,
id: touch_id,
location: (location.x as f64, location.y as f64),
phase: match phase {
0 => TouchPhase::Started,
1 => TouchPhase::Moved,
// 2 is UITouchPhaseStationary and is not expected here
3 => TouchPhase::Ended,
4 => TouchPhase::Cancelled,
_ => panic!("unexpected touch phase: {:?}", phase)
}
}),
});
}
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}
}
let ui_responder = Class::get("UIResponder").unwrap();
let mut decl = ClassDecl::new("AppDelegate", ui_responder).unwrap();
unsafe {
decl.add_method(sel!(application:didFinishLaunchingWithOptions:),
did_finish_launching as extern fn(&mut Object, Sel, id, id) -> BOOL);
decl.add_method(sel!(applicationDidBecomeActive:),
did_become_active as extern fn(&Object, Sel, id));
decl.add_method(sel!(applicationWillResignActive:),
will_resign_active as extern fn(&Object, Sel, id));
decl.add_method(sel!(applicationWillEnterForeground:),
will_enter_foreground as extern fn(&Object, Sel, id));
decl.add_method(sel!(applicationDidEnterBackground:),
did_enter_background as extern fn(&Object, Sel, id));
decl.add_method(sel!(applicationWillTerminate:),
will_terminate as extern fn(&Object, Sel, id));
decl.add_method(sel!(touchesBegan:withEvent:),
handle_touches as extern fn(this: &Object, _: Sel, _: id, _:id));
decl.add_method(sel!(touchesMoved:withEvent:),
handle_touches as extern fn(this: &Object, _: Sel, _: id, _:id));
decl.add_method(sel!(touchesEnded:withEvent:),
handle_touches as extern fn(this: &Object, _: Sel, _: id, _:id));
decl.add_method(sel!(touchesCancelled:withEvent:),
handle_touches as extern fn(this: &Object, _: Sel, _: id, _:id));
decl.add_method(sel!(postLaunch:),
post_launch as extern fn(&Object, Sel, id));
decl.add_ivar::<*mut c_void>("glutinState");
decl.register();
}
}
fn create_view_class() {
let ui_view_controller = Class::get("UIViewController").unwrap();
let decl = ClassDecl::new("MainViewController", ui_view_controller).unwrap();
decl.register();
}
#[inline]
fn start_app() {
unsafe {
UIApplicationMain(0, ptr::null(), nil, NSString::alloc(nil).init_str("AppDelegate"));
}
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}
// Constant device ID, to be removed when this backend is updated to report real device IDs.
const DEVICE_ID: ::DeviceId = ::DeviceId(DeviceId);