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169 Commits
v0.30.0 ... notgull/in

Author SHA1 Message Date
John Nunley
19477d3f03 doc: Add installation instructions to docs 
This commit adds installation instructions to the top-level
documentation for lib.rs. The main goal is to give the dependencies that
X11/Wayland use in a formal place, since it's not written down anywhere
to my knowledge.

Signed-off-by: John Nunley <dev@notgull.net>
 2024-12-08 08:30:31 -08:00
Mads Marquart
e47081e385 docs: show less of the unstable docs in the README 2024-12-06 13:16:30 +03:00
Benjamin Brienen
171d53c042 Update smol_str (#3991) 2024-12-03 23:07:19 +01:00
Mads Marquart
35379f305a Remove feature description in FEATURES.md (#3479) 
It easily becomes out of date.
 2024-12-03 21:24:57 +01:00
Mads Marquart
4d2a0dd2b3 iOS: Never queue application-level events (#3905) 
Events like `resumed`, `new_events`, `about_to_wait`, and so on will
never happen as a result of programmer action, so we'll never need to
queue those. This allows us to remove the need for the old `Event`
struct in the iOS backend.

Furthermore, we can now remove `InUserCallback`, since that state is
already stored inside `EventHandler`.

I've tried to otherwise keep the semantics as close to the original by
calling `handle_nonuser_events(mtm, [])`, which flushes pending events.
 2024-12-03 19:53:29 +01:00
Mads Marquart
4a8b659228 Fix MonitorHandle PartialEq and Hash on iOS (#4013) 2024-12-03 19:02:53 +01:00
Mads Marquart
f314cd2b9a macOS: Fix crash when pressing Caps Lock (#4024) 
Events emitted by `flagsChanged:` cannot access
`charactersIgnoringModifiers`. We were previously doing this because we
were trying to re-use the `create_key_event` function, but that is unsuited
for this purpose, so I have separated the `flagsChanged:` logic out from it.
 2024-12-03 18:48:23 +01:00
Mads Marquart
3657506f6e macOS: Avoid redundant initial resize event (#3913) 
The `NSViewFrameDidChangeNotification` that we listen to is emitted when
`-[NSWindow setContentView]` is called, since that sets the frame of the
view as well.

So now we register the notification later, so that it's not triggered at
window creation.

This behaviour is well described in the documentation:
https://developer.apple.com/documentation/appkit/nsview/postsframechangednotifications?language=objc
 2024-12-03 18:35:04 +01:00
Mads Marquart
edca3ebc41 macOS: Align scancode conversions with Chromium and Firefox (#4019) 
Also fix missing codes in physicalkey_to_scancode - This had become out of
sync with scancode_to_physicalkey.
 2024-12-03 18:17:57 +01:00
Mads Marquart
ca46e29203 macOS: Fix surface position (#4027) 2024-12-03 17:31:32 +01:00
Mads Marquart
132fbe14d5 macOS: Fix safe area on macOS 10.14 and below (#4028) 2024-12-03 17:19:45 +01:00
Mads Marquart
164bf85b5b Windows: Add scancode conversions from Chromium sources (#4020) 2024-12-03 11:05:22 +01:00
Mads Marquart
cfa8f027cc AppKit/UIKit: Do not emit default state events upon window creation (#3912) 
Do not emit redundant ScaleFactorChanged, SurfaceResized and Focused.
 2024-12-02 23:10:33 +01:00
Mads Marquart
2e5db75101 Linux: Align scancode conversions with Firefox (#4021) 2024-12-02 13:38:37 +01:00
Mads Marquart
19e5bee3d1 chore: fix clippy lints 2024-12-02 14:51:26 +03:00
Hamir Mahal
fc6cf89ac0 style: simplify string formatting for readability (#4001) 2024-11-22 22:14:11 +01:00
Mads Marquart
dbcdb6f1b4 Add safe area and document coordinate systems (#3890) 
Added `Window::safe_area`, which describes the area of the surface that
is unobstructed by notches, bezels etc. The drawing code in the examples
have been updated to draw a star inside the safe area, and the plain
background outside of it.

Also renamed `Window::inner_position` to `Window::surface_position`, and
changed it to from screen coordinates to window coordinates, to better
align how these coordinate systems work together.

Finally, added some SVG images and documentation to describe how all of
this works.

This is fully implemented on macOS and iOS, and partially on the web.

Co-authored-by: daxpedda <daxpedda@gmail.com>
 2024-11-21 17:37:03 +01:00
Rodrigo Rivas Costa
d0c6c34eaa x11: move up XInput2 event registration 
It should be done before mapping the window, or we could
lose the firsst XInput2 events, such as the first FocusIn.

Fixes #2841.
 2024-11-21 14:04:55 +03:00
Mads Marquart
f2688d94ea ci: fix cargo deny 2024-11-21 10:28:32 +03:00
Nico Burns
f6b20852bf macOS: set activation policy by default if app is not bundled (#3961) 2024-11-18 21:19:45 +01:00
Kirill Chibisov
59b1eb5410 api: make OwnedDisplayHandle wrap an opaque type 
This will help in case we want to linger the event loop during drop
to prevent use after free in the consumers code.
 2024-11-13 15:29:05 +03:00
Aaron Muir Hamilton
f781e13166 X11: Use bottom-right corner of IME cursor area as caret position 
XIM servers currently do not support preedit area reporting from
clients and there may be no standard way to report it.

Fcitx and iBus both place the candidate window descending descending
from the caret, with the reported X font; but since winit does not
report a font, the height of the line is assumed 0, so when we report
the top left corner of the cursor area they will tend to obscure it.

Taking this into account, the best default option is to report the
bottom right corner of the cursor area, because it will tend not to
obscure the preedit area when using `Window::set_ime_cursor_area` in
the way suggested by documentation.
 2024-11-13 15:13:09 +03:00
Piotr Podusowski
9f8ac8feb5 android: use show_soft_input to summon the keyboard 
Route it via the `Window::set_ime_allowed` like on iOS.
 2024-11-13 14:43:59 +03:00
Mads Marquart
74958ecc6f docs: add fn main to root examples 
This is not strictly required, but makes the examples a bit easier to
read understand (especially since the `EventLoop` really _should_ be
created inside `fn main`, and not in some random function potentially
running on a random thread).
 2024-11-12 16:52:48 +03:00
Kirill Chibisov
3a60cbaba5 api: make EventLoopProxy wrap an opaque type 
The proxy is intended to be Clone, thus use `Arc` for it internally and
don't require backends for it to be `Clone`. Use `EventLoopProxyProvider`
to hide the backend's proxy implementation details.

Co-authored-by: daxpedda <daxpedda@gmail.com>
 2024-11-12 10:56:20 +03:00
Matěj Laitl
ae4c449670 x11: fix WindowAttributesExtX11::with_x11_screen() 
Based on https://github.com/rust-windowing/winit/pull/3973, which should be merged first.

There's an API to programmatically specify X11 screen id (override what is determined from the `DISPLAY` env variable), but it doesn't work.

Seeting up X Server with 2 screens and calling `DISPLAY=:0 X11_SCREEN_ID=1 cargo run --example window` should be equivalent to calling `DISPLAY=:0.1 cargo run --example window`

The latter works (and places the window on the correct screen), but the former yields

`failed to create initial window: Os(OsError { line: 620, file: "src/platform_impl/linux/x11/window.rs", error: X11Error(X11Error { error_kind: Match, error_code: 8, sequence: 219, bad_value: 1319, minor_opcode: 0, major_opcode: 1, extension_name: None, request_name: Some("CreateWindow") }) })`

_Here `1319` is the root window id for screen 0, which doesn't match the screen 1 that we request._

The problem is that we need to factor in the screen id when determining the parent (root) window when not explicitly set. This patch does that.

---

Also: Extend the window example with X11_{SCREEN,VISUAL}_ID env variables
 2024-11-06 08:30:25 -08:00
Kirill Chibisov
b2896d7408 chore: always pull raw-window-handle 
Winit is not useful without it and we don't provide older versions
anymore.
 2024-11-03 00:39:01 +03:00
Kirill Chibisov
edfb4b03f4 chore: remove platform FingerId 
The same as for `WindowId`.
 2024-11-02 17:10:32 +03:00
Kirill Chibisov
c8c1eca3c7 api: move primary from FingerId to Pointer events 
Whether the pointer event is primary or not generally matters for the
context where all input is done by the same event, so users can
_ignore_ non-primary events since they are likely from users clicking
something else with their other fingers.

Having it only on a FingerId made it useless, since it's usually used
to avoid multi-touch, but if you start mapping on touch event you
already can track things like that yourself.

Fixes #3943.

Co-authored-by: daxpedda <daxpedda@gmail.com>
 2024-11-02 17:10:32 +03:00
Matěj Laitl
d3207a8d76 Apply @notgull's suggestion 2024-10-29 17:54:21 -07:00
Matěj Laitl
9d347b72d9 Add changelog entry 2024-10-29 17:54:21 -07:00
Matěj Laitl
13bb51c7e0 x11: iterate only visuals from the matching screen 2024-10-29 17:54:21 -07:00
AngelicosPhosphoros
bb4aa22cf9 Improve waiting for messages on Windows 
Previous version used [`SetTimer`] with `GetMessageW` for waiting.
The downside of UI timers like ones created by `SetTimer`,
is that they may be late by up to 15-16 ms.

To fix this behaviour, I added use of high resolution timers created by [`CreateWaitableTimerExW`] with the flag `CREATE_WAITABLE_TIMER_HIGH_RESOLUTION`.
In my previous experience, waiting on such timers have precision of roundly 0.5 ms which is the best available on Windows at the moment.
I use [`MsgWaitForMultipleObjectsEx`] to wait simultaneously for both timer and newly arriving events.

Unfortunately, high resolution timers are available only since Windows 10 1803. However:

1. Win 10 is already getting to the end of support, like all previous versions, so it is OK to rely on APIs introduced in it;
2. I use `dwMilliseconds` parameter of `MsgWaitForMultipleObjectsEx` as a fallback. It should perform not worse compared to waiting for events from `SetTimer`.

I also refactored code to remove event dispatching from function responsible for waiting for events. This provides more clear separations of concern and avoids unnecessary duplication of dispatching logic.

After [review] from @rib, I also moved the waiting itself from `wait_for_messages` method to separate function, so it is clearly seen that `wait_for_messages` do 3 things: notify app that we about to wait, wait, notify that we have new events.

I have tested behaviour using a egui app with Vulkan rendering with `VK_PRESENT_MODE_IMMEDIATE_KHR`, and older version consistently have twice less FPS than requested (e.g. 30 FPS when limit is 60 and 60 FPS when limit is 120) while newer version works more correctly (almost always 60 FPS when limit is 60, and only 5-10 frames missing when FPS is set to 120 or more).

Fixes https://github.com/rust-windowing/winit/issues/1610

[`CreateWaitableTimerExW`]: https://learn.microsoft.com/en-us/windows/win32/api/synchapi/nf-synchapi-createwaitabletimerexw
[`MsgWaitForMultipleObjectsEx`]: https://learn.microsoft.com/en-us/windows/win32/api/winuser/nf-winuser-msgwaitformultipleobjectsex
[`SetTimer`]: https://learn.microsoft.com/en-us/windows/win32/api/winuser/nf-winuser-settimer
[review]: https://github.com/rust-windowing/winit/pull/3950#discussion_r1800184479
 2024-10-28 16:38:17 -07:00
Valentine Briese
3e9b80d47a macOS: add ability to make titlebar unified (#3960) 
Adds `WindowExtMacOS::set_unified_titlebar` and
`WindowAttributesExtMacOS::with_unified_titlebar`,
which allow you to use a larger titlebar style on macOS.
 2024-10-25 23:22:52 +02:00
Nico Burns
c913cdab0b macOS: add a way to hook standard keybinding events 
Add macOS specific application handler to deliver macOS specific
events.

Co-authored-by: Mads Marquart <mads@marquart.dk>
 2024-10-23 08:33:42 +00:00
Shane Celis
a5f5ce6a3d macOS: fix panic during drag_window 
Return error from it instead of unwrapping.
 2024-10-22 11:00:53 +00:00
Kirill Chibisov
fb6b1d487b deps: bump redox-syscall to 0.5.7 2024-10-21 21:33:51 +00:00
Marijn Suijten
7d77ccfad3 android: Forward suspended() and resumed() events and patch up platform-specific documentation (#3786) 
Key them off of `onStop()` and `onStart()` which seems to match the
other backends most closely.  These [Android Activity lifecycle] events
denote when the application is visible on-screen, and recommend that any
heavy lifting for startup and shutdown happens here, as the application
may be demoted to the background and later shut down entirely unless the
user navigates back to it.

[Android Activity lifecycle]: https://developer.android.com/guide/components/activities/activity-lifecycle
 2024-10-16 12:17:59 +02:00
Kirill Chibisov
c23bed20b8 x11: don't forward key events to IME when it's disabled 
Fixes #3815.
 2024-10-13 21:57:02 +03:00
Hiroaki Yutani
8fe2b62adf docs: fix function name of with_any_thread 2024-10-13 21:34:11 +03:00
Kirill Chibisov
4e3165f3d8 chore: remove platform DeviceId 
The same as for `WindowId`.
 2024-10-11 11:15:54 +03:00
Mads Marquart
da2268ae22 chore: remove platform WindowId's 
WindowId is a window _identifier_, and as such doesn't store anything
(unlike a _handle_). So we can safely make only be defined once, in the
core crate.

There are a few backends where we still use `into_raw` internally; I
consider these patterns discouraged, we should not be passing around
important state in the window id.
 2024-10-08 16:29:40 +03:00
daxpedda
eccd9e415d api: overhaul pointer API 
- Rename `CursorMoved` to `PointerMoved`.
- Rename `CursorEntered` to `PointerEntered`.
- Rename `CursorLeft` to `PointerLeft`.
- Rename `MouseInput` to `PointerButton`.
- Add `position` to every `PointerEvent`.
- Remove `Touch`, which is folded into the `Pointer*` events.
- New `PointerType` added to `PointerEntered` and `PointerLeft`,
  signifying which pointer type is the source of this event.
- New `PointerSource` added to `PointerMoved`, similar to `PointerType`
  but holding additional data.
- New `ButtonSource` added to `PointerButton`, similar to `PointerType`
  but holding pointer type specific buttons. Use
  `ButtonSource::mouse_button()` to easily normalize any pointer button
  type to a generic mouse button.
- In the same spirit rename `DeviceEvent::MouseMotion` to `PointerMotion`.
- Remove `Force::Calibrated::altitude_angle`.

Fixes #3833.
Fixes #883.
Fixes #336.

Co-authored-by: Kirill Chibisov <contact@kchibisov.com>
 2024-10-08 15:19:00 +03:00
daxpedda
32cd1ad9a7 api: remove ::dummy from Id types 
`::dummy` was used for testing purposes and became redundant after
adding e.g. `from_raw` and `into_raw` methods on `Id` types.
 2024-09-29 16:49:45 +03:00
daxpedda
6e1b9fa24d api: replace WindowId From/Into u64 with WindowId::{from,into}_raw() 
Co-authored-by: Mads Marquart <mads@marquart.dk>
Co-authored-by: Kirill Chibisov <contact@kchibisov.com>
 2024-09-27 23:12:50 +03:00
Mads Marquart
380eea0072 macOS: Fix move event sometimes being triggered on resize (#3914) 2024-09-24 01:06:10 +02:00
Kirill Chibisov
a18658284c chore: fix nightly CI on linux/ios 
Co-authored-by: Mads Marquart <mads@marquart.dk>
 2024-09-23 22:26:21 +03:00
Philpax
8ddd10a7f9 doc: link DeviceEvent::MouseMotion from cursor moved 2024-09-22 17:02:40 +03:00
John Nunley
4f1c5b6129 docs: Explicitly demarcate platform support 
As discussed in today's meeting, this commit creates two tiers of
support. Tier 1, which is what we actively test, and Tier 2, what we
hope compiles.

Signed-off-by: John Nunley <dev@notgull.net>
Co-authored-by: daxpedda <daxpedda@gmail.com>
 2024-09-19 17:09:10 -07:00
purajit
7e819bb2ce Prevent winit from overriding LSUIElement in package manifests (#3920) 2024-09-16 15:49:18 +02:00
Mads Marquart
dfea49f488 Support drawing on iOS in examples 
Softbuffer v0.4.6 added support for iOS.
 2024-09-10 17:36:04 +03:00
Kirill Chibisov
b674d20edf api: unify error handling 
Make error infrastructure more backend agnostic and let backends
just forward the os errors opaquely.
 2024-09-06 17:20:11 +03:00
Mads Marquart
8db3e0e043 Rename "inner size" to "surface size" (#3889) 
* Rename `WindowEvent::Resized` to `SurfaceResized`
* Rename `InnerSizeWriter` to `SurfaceSizeWriter`
* Replace `inner_size` with `surface_size`
* Rename `resize_increments` to `surface_resize_increments`
 2024-09-04 15:04:48 +02:00
Tarek Abdel Sater
d37c591378 macOS: add option to explicitly hide menu/dock in Borderless (#3882) 2024-09-04 14:44:05 +02:00
Bruce Mitchener
9419e4e1a7 Fix spelling of "inner" (#3896) 2024-09-01 23:31:45 +02:00
Kirill Chibisov
241b7a80bb api: convert Window to dyn Window 
This should allow us to make future split of backends much easier.
The `Box<dyn Window>` is a _temporary_ solution, which will be
removed with the future updates when we decide on how the Window
should be stored.
 2024-08-23 23:40:27 +03:00
John Nunley
e716adcc0a x11: use more information in X11 "not supported" errors 
This makes it so, when X11 fails to initialize due to not loading a
library, it provides more verbose information on what exactly happened.

Fixes #3883.
Signed-off-by: John Nunley <dev@notgull.net>
Co-authored-by: Kirill Chibisov <contact@kchibisov.com>
 2024-08-23 14:47:40 +03:00
John Nunley
aee95114db m: Replace libxcursor with custom cursor code 
Another one bites the dust.

This replaces the code dependent on libxcursor with equivalent code
written using x11rb, featuring its special "cursor" module.

cc #3198

Signed-off-by: John Nunley <dev@notgull.net>
 2024-08-22 19:30:43 -07:00
John Nunley
8f4a8efa99 m: Ignore mutex poisoning in X11_BACKEND 
A panic doesn't really put any of the fields in XConnection into an invalid
state, so there is no real reason to panic when poisoning is detected.
So just ignore the poison.

Closes #3870

Signed-off-by: John Nunley <dev@notgull.net>
 2024-08-22 18:03:22 -07:00
lucasmerlin
1e1f0fd7e9 Basic iOS IME support (#3823) 
This implements basic iOS IME support (typing, backspace, support for emojis
etc but no autocomplete or copy / paste menu).

Co-authored-by: Mads Marquart <mads@marquart.dk>
 2024-08-19 22:04:29 +02:00
Mads Marquart
6e008b39e9 Improve iOS documentation (#3873) 
* Update version docs to link to `rustc`'s supported versions

* Document how to run Winit on Mac Catalyst

* Improve instructions for building iOS applications

The old instructions are outdated, and suggested a workaround that is
unnecessary.

The user-story in the ecosystem is sadly not very clear-cut, so the
instructions here are still woefully incomplete.

* iOS: Clean up notes on main thread safety

These platform-specific notes on `Window` methods were unnecessary, as
it's already discussed in the top-level `Window` docs.
 2024-08-19 12:41:29 +02:00
Mads Marquart
6c4da19197 macOS/iOS: Remove window activation hacks (#3872) 
No longer necessary after a8c7109 and facb809.
 2024-08-18 23:50:10 +02:00
Mads Marquart
a61e7bb4f4 iOS: Refactor event handling to share code with macOS (#3865) 
Instead of storing the event handler within the AppState, and extracting
it our every time we need it, we now use the same event handling
implementation as for macOS that ensures we don't re-entrantly call the
event handler, and that we un-register the handler again after we're
done using it (`UIApplicationMain` won't return, but may still unwind,
so this is very important for panic safety).
 2024-08-15 23:19:57 +02:00
daxpedda
7fbc2118b6 Add support for MacOS ARM64 (#3862) 2024-08-13 23:01:17 +02:00
daxpedda
a96491f302 Web: return MonitorHandle in Window::fullscreen() (#3861) 
- Change `OrientationData::natural` type from `bool` to `Orientation`, just telling the user what the natural orientation is.
- Fix and improve some monitor related documentation.
 2024-08-13 22:13:12 +02:00
daxpedda
d96fd02f33 Update minimum version of wasm-bindgen (#3860) 2024-08-13 21:54:03 +02:00
Mads Marquart
92e9bfe0fc Allow the user to register the application delegate on macOS and iOS (#3758) 
This allows the user to override the application delegate themselves,
which opens several doors for customization that were previously closed.

To do this, we use notifications instead of top-level application delegate
methods.

One effect of not providing an application delegate on iOS is that we no
longer act as-if the application successfully open all URLs there.

This is a breaking change, although unlikely to matter in practice, since the
return value of `application:didFinishLaunchingWithOptions:` is seldom used by
the system (and is likely the preferred behaviour anyhow).
 2024-08-11 23:14:18 +02:00
Kirill Chibisov
3392e9c1de chore: use our own AsAny to provide &dyn Any 
This removes the direct requirement to implement `as_any` and it could
be just derived.

Also implement HasDisplayHandle for dyn ActiveEventLoop + '_.

Suggested-by: daxpedda <daxpedda@gmail.com>
 2024-08-11 21:24:34 +03:00
Mads Marquart
038ef5c3ad Properly implement event loop extension traits 
This was implemented for `&dyn ActiveEventLoop` before, but that's less
general than implementing it directly for `dyn ActiveEventLoop`.

The `+ '_` is required to tell the compiler that we want to implement
this for all `dyn ActiveEventLoop`s, not just `'static` ones (even
though they're all going to be `'static`).
 2024-08-11 19:33:12 +03:00
Kirill Chibisov
70c54ee0ff Bump version on master 
This commit does not represent a release and only synchronizes CHANGELOG
from the latest release.
 2024-08-08 21:40:08 +03:00
daxpedda
3bab4ef4fb Android: remove MonitorHandle support 
Because we don't want to force all methods on `VideoModeHandle` to return `Option`, we decided to remove the already incomplete support in Android for both types.
 2024-08-08 01:29:53 +02:00
daxpedda
58142680ce Various Monitor/VideoModeHandle methods now return an Option 
`VideoModeHandle::refresh_rate_millihertz()` and `bit_depth()` now return a `Option<NonZero*>`.
`MonitorHandle::position()` now returns an `Option`.
On Orbital `MonitorHandle::name()` now returns `None` instead of a dummy name.
 2024-08-08 01:29:51 +02:00
daxpedda
0ffcfd8a3a Remove MonitorHandle::size/refresh_rate_millihertz() 2024-08-08 00:53:01 +02:00
daxpedda
2e53533cc1 Add MonitorHandle::current_video_mode() 2024-08-08 00:47:20 +02:00
daxpedda
1168cd4113 Implement common Std traits on many types (#3796) 2024-08-08 00:46:28 +02:00
daxpedda
9dff801f93 Introduce FingerId (#3783) 2024-08-08 00:36:36 +02:00
Kirill Chibisov
f07153b8e0 api: refactor ActiveEventLoop into trait 
This should help with further extensions because the backend event
loops are used directly now.
 2024-08-06 21:02:53 +03:00
daxpedda
f5304815a1 Change create_custom_cursor() to return Result (#3844) 2024-08-06 18:57:03 +02:00
Kirill Chibisov
29e1041987 chore: drop libera link 
It has low amount of users and not active, so better direct people
straight to matrix at this point.
 2024-08-06 15:04:58 +03:00
daxpedda
15b79b18e1 Add ActiveEventLoop::system_theme() 
This also fixes macOS returning `None` in `Window::theme()` if no theme
override is set, instead it now returns the system theme.

MacOS and Wayland were the only ones working correctly according to the
documentation, which was an oversight. The documentation was "fixed"
now.

Fixes #3837.
 2024-08-05 21:51:38 +03:00
Pascal Hertleif
54ff9c3bb5 macOS: skip releasing unavailable monitors 
Prevent assertion error when trying to close a fullscreen window that
was on a display that got disconnected.
 2024-08-05 13:44:18 +03:00
daxpedda
546962c904 Remove DeviceEvent::Motion and WindowEvent::AxisMotion 
We decided to remove them because they contained too little information
for the user to be useful. The assumption is that they were originally
implemented to enable gamepad support, which we already decided we are
not going to add directly to Winit.
 2024-08-05 13:15:53 +03:00
daxpedda
b7a7f59298 Remove DeviceEvent::Added and Removed 
This had no real use because we don't expose any information on
`DeviceId` except on Windows. But there we only expose the name. The
assumption is that this was originally added for gamepad support, which
never made it into Winit.
 2024-08-05 13:01:31 +03:00
daxpedda
586255ac0a Web: monitor API improvements (#3847) 
- Improved the documentation to point users into the right direction from all kinds of methods and types.
- De-duplicated some code and added more comments.
- Implement an ID system to correctly and efficiently implement `Eq`, `Hash`, `Ord`, `PartialEq` and `PartialOrd`.
- Fixed screen locking support being cached thread local, ergo calling from a different thread would require to make the check again, not fulfilling its purpose as a fast-path at all.
 2024-08-04 16:49:19 +02:00
dependabot[bot]
42ba0a74e0 build(deps): bump EmbarkStudios/cargo-deny-action 
Signed-off-by: dependabot[bot] <support@github.com>
Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
Co-authored-by: daxpedda <daxpedda@gmail.com>
 2024-08-04 15:14:12 +03:00
daxpedda
34a37b8747 Windows: use Box::leak() instead of Box::into_raw() 
This was detected by a new change in Nightly Rust that applied
`#[must_use]` to the return value of `Box::into_raw()`.
 2024-08-04 13:03:26 +03:00
daxpedda
02a0a91a94 Remove raw-window-handle v0.4 and v0.5 support (#3831) 2024-08-04 00:18:39 +02:00
dependabot[bot]
e3fbfb81d7 Web: bump ESLint to v9 (#3843) 2024-07-31 20:37:10 +02:00
daxpedda
0909bf3d9d Add to .git-blame-ignore-revs file 2024-07-28 17:39:04 +02:00
daxpedda
3398ebe467 Use Taplo for TOML formatting 2024-07-28 17:38:44 +02:00
dependabot[bot]
21c121f9b3 Bump GitHub Actions actions/cache and actions/configure-pages (#3836) 2024-07-28 17:06:44 +02:00
daxpedda
ce0d1dfe1b Add GitHub Actions to Dependabot (#3834) 
Add GitHub Issues label to NPM package upgrades.
 2024-07-28 16:55:49 +02:00
daxpedda
7892e86731 Move to TypeScript (#3830) 
This moves our JS file to use TS instead, which allows us to use a proper linter to check the code.
All related files where moved out from the root in a dedicated folder to avoid polluting the Rust environment.
 2024-07-27 18:26:52 +02:00
Kirill Chibisov
7b0104b54c android: add {Active,}EventLoopExtAndroid::android_app 
This type comes from the user and stored for the entire lifetime, so
no need to hide it from them after they've passed it to winit.

Fixes #3818.
 2024-07-26 21:49:32 +03:00
Kirill Chibisov
facb809f12 chore: drop v0.30 deprecated APIs 
Co-authored-by: daxpedda <daxpedda@gmail.com>
 2024-07-26 16:44:47 +03:00
daxpedda
4e2e764e4a Fix CI for Rust v1.80 (#3822) 
`clippy::doc_lazy_continuation` was added, which needed some fixing from our side.
 2024-07-25 15:15:21 +02:00
daxpedda
a0bc3e5dc8 Web: Implement MonitorHandle (#3801) 
Requires getting permission from the user to get "detailed" support.
Also enables users to go fullscreen on specific monitors.
Exposes platform-specific orientation API.

Most functionality depends on browser support, currently only Chromium.
 2024-07-23 20:33:10 +02:00
daxpedda
2e97ab3d4f Web: use raw data in DeviceEvent::MouseMotion (#3803) 
Only supported on Chrome MacOS and Windows.
 2024-07-23 17:05:55 +02:00
daxpedda
ef580b817d Web: async improvements (#3805) 
- Internal: Fix dropping `Notifier` without sending a result causing `Future`s to never complete. This should never happen anyway, but now we get a panic instead of nothing if we hit a bug.
- Internal: Remove a bunch of `unwrap()`s that aren't required when correctly using `MainThreadMarker`.
- `Window::canvas()` is now able to return a reference instead of an owned value.

Extracted from #3801.
 2024-07-23 16:47:35 +02:00
daxpedda
5ec934b1b0 Web: don't block pen input (#3813) 2024-07-23 15:32:20 +02:00
daxpedda
c9c260ca08 Exclude Redox OS from the MSRV policy (#3811) 
Redox OS requires a Rust nightly toolchain to compile at the moment.
 2024-07-23 13:46:35 +02:00
daxpedda
b6109d4a17 macOS: fix building with feature = "rwh_04" 2024-07-22 13:11:27 +03:00
Speykious
eef2848c98 feat: Implement smooth resizing on X11 with _NET_WM_SYNC_REQUEST 
Without smooth resizing, the window will appear to jitter when it is being
resized. This is because X11 completes the resize before the client gets a
chance to draw a new frame.

This is fixed by using the "sync" extension to ensure that the resize of the
X11 window is synchronized with the server.

Closes #2153
 2024-07-21 09:39:43 -07:00
daxpedda
73c01fff96 Run doc tests on Web as well (#3799) 2024-07-20 21:20:18 +02:00
daxpedda
88bbdb33da Web: avoid using js_sys::Reflect (#3804) 2024-07-20 20:33:21 +02:00
daxpedda
652ff7576c Web: remove unused CustomCursorError::Animation (#3794) 2024-07-17 10:38:30 +02:00
daxpedda
d741c58ac3 Web: implement Error for CustomCursorError (#3793) 2024-07-17 02:33:06 +02:00
Kirill Chibisov
944ab60eda Bump version on master 
This commit does not represent a release and only synchronizes CHANGELOG
from the latest release.
 2024-07-16 22:04:12 +03:00
daxpedda
8e23d1608a Web: fix WindowEvent::Resized not using rAF (#3790) 2024-07-16 12:29:27 +02:00
Kirill Chibisov
dc99920612 wayland: bump dependencies 
Update SCTK as a follow-up to 1170554dbd (ignore events to dead
objects) fixing it for wl_output.
 2024-07-16 12:58:03 +03:00
Mads Marquart
ee3ab33a7c Remove internal ActiveEventLoop::clear_exit 
How to store and clear the internal state should be internal to the
implementation on each backend.
 2024-07-14 21:51:38 +03:00
daxpedda
5b8f5cb54a Make DeviceId/WindowId::dummy() safe (#3784) 2024-07-14 13:14:32 +02:00
Mads Marquart
bf97def398 Change run_app(app: &mut A) to run_app(app: A) (#3721) 
This allows the user more control over how they pass their application state
to Winit, and will hopefully allow `Drop` implementations on the application
handler to work in the future on all platforms.
 2024-07-11 15:38:09 +02:00
daxpedda
d5fd8682eb Web: use the word "Web" correctly and consistently (#3785) 2024-07-10 16:17:39 +02:00
daxpedda
39a7d5b738 Add to .git-blame-ignore-revs file 2024-07-07 18:43:32 +02:00
daxpedda
2665c12098 Rustfmt: use group_imports 2024-07-07 18:38:50 +02:00
daxpedda
936da131c2 Web: fix MouseMotion coordinate space (#3770) 2024-07-05 16:07:01 +02:00
daxpedda
850dd97177 Fix CI (#3775) 2024-07-05 15:54:46 +02:00
Kirill Chibisov
1170554dbd wayland: ignore events for dead objects 
Nothing wrong will happen if we ignore events when compositor is at
wrong, at least crashing because compositor is just _wrong_ probably is
not a great option.

Links: https://github.com/alacritty/alacritty/issues/8065
 2024-07-05 13:09:23 +03:00
daxpedda
75ce71f05a Implement ApplicationHandler::can_create|destroy_surfaces() (#3765) 2024-06-30 00:41:57 +02:00
daxpedda
a0d69c782a add: ActiveEventLoop::create_proxy() 
Co-authored-by: Kirill Chibisov <contact@kchibisov.com>
 2024-06-29 18:19:09 +03:00
daxpedda
2e93e48a3b Web: Remove some unnecessary compatibility code (#3766) 2024-06-29 00:52:05 +02:00
Mads Marquart
82d9bbe559 Remove EventLoopExtIOS::idiom and ios::Idiom (#2924) 
Introduced in 3a7350c with unclear motivation.

Nowadays, this feature is incomplete and unsound, and the equivalent
functionality can be trivially achieved outside of `winit` using
`objc2-ui-kit`.
 2024-06-24 22:56:20 +02:00
Mads Marquart
8bdd4d620e Use self:: when re-importing local module (#3757) 
Follow-up to https://github.com/rust-windowing/winit/pull/3755.
 2024-06-24 22:40:49 +02:00
Mads Marquart
9d5412ffe1 Move iOS and macOS implementations into new apple module (#3756) 
Move iOS and macOS implementations to a shared folder called `apple`, to allow
us to reduce the code-duplication between these platforms in the future.

The folder structure is now:
- `src/platform_impl/apple/`
  - `appkit/`
  - `uikit/`
  - `example_shared_file.rs`
  - `mod.rs`

* Add preliminary support for tvOS, watchOS and visionOS
* Reduce duplication in Cargo.toml when specifying dependencies
 2024-06-24 13:26:49 +02:00
Kirill Chibisov
ecb887e5c3 event_loop: remove generic user event 
Let the users wake up the event loop and then they could poll their
user sources.

Co-authored-by: Mads Marquart <mads@marquart.dk>
Co-authored-by: daxpedda <daxpedda@gmail.com>
 2024-06-24 13:04:55 +03:00
Mads Marquart
7d1287958f Avoid path when importing modules (#3755) 
Rust tooling generally works better this way. This includes
rust-analyzer, but more noticeably the output from `tracing` typically
prints the module path, which did not correspond to the actual file
system before.

Concretely, tracing output from the macOS backend changes from printing:
`winit::platform_impl::platform::util`
To printing:
`winit::platform_impl::macos::util`
 2024-06-24 03:57:48 +02:00
Mads Marquart
c0c14aaf00 macOS: Call ApplicationHandler directly instead of using Event (#3753) 
Additionally, always queue events in `handle_scale_factor_changed`.

These events were intentionally not queued before, since they are
executed inside `handle_scale_factor_changed`, which is itself queued.
Though that's a bit too subtle, so let's just take the minuscule perf
hit of redundantly checking whether we need to queue again.

Co-authored-by: Kirill Chibisov <contact@kchibisov.com>
 2024-06-23 23:14:22 +02:00
John Nunley
10dc0674bb ci: Use taiki-e/checkout-action 
taiki-e/checkout-action has a few advantages over actions/checkout,
such as:

- It is written in Bash rather than Node.js
- It does not have frequent breaking changes, reducing churn

Signed-off-by: John Nunley <dev@notgull.net>
 2024-06-23 12:28:58 -07:00
msiglreith
4f59796e8a Add notgull as Windows maintainer 2024-06-22 08:41:37 -07:00
msiglreith
32097d75c7 Update codeowner list 2024-06-22 08:41:37 -07:00
Bruce Mitchener
c6c4395c3b Use default-features, not default_features (#3746) 
The latter syntax is deprecated and will be removed in Rust
2024 edition. This also generates a warning with current
versions of Rust.
 2024-06-22 11:38:42 +02:00
Kirill Chibisov
38e6f9ad84 Bump version on master 
This commit does not represent a release and only synchronizes CHANGELOG
from the latest release.
 2024-06-21 21:40:16 +03:00
daxpedda
3e6092b8ed Web: implement WaitUntilStrategy (#3739) 2024-06-20 23:07:42 +02:00
daxpedda
b4e83a5966 Web: set control flow strategies on EventLoop (#3740) 2024-06-20 22:56:08 +02:00
Mads Marquart
db2c97a995 macOS: set the theme on the NSWindow, instead of application-wide 
This new implementation uses:
- The NSAppearanceCustomization protocol for retrieving the appearance
  of the window, instead of using the application-wide
  `-[NSApplication effectiveAppearance]`.
- Key-Value observing for observing the `effectiveAppearance` to compute
  the `ThemeChanged` event, instead of using the undocumented
  `AppleInterfaceThemeChangedNotification` notification.

This also fixes `WindowBuilder::with_theme` not having any effect, and
the conversion between `Theme` and `NSAppearance` is made a bit more
robust.
 2024-06-20 17:05:34 +03:00
daxpedda
1552eb21f7 Bump MSRV to v1.73 (#3743) 2024-06-20 11:09:15 +02:00
Kirill Chibisov
d8ffd4bb26 x11: fix build on arm 
The c_char type, which was used under the hood is different depending
on arch, thus use it directly instead of i8.

Fixes #3735.
 2024-06-17 13:51:08 +03:00
Kirill Chibisov
34c15608e0 Bump version on master 
This commit does not represent a release and only synchronizes CHANGELOG
from the latest release.
 2024-06-15 23:50:40 +03:00
Kirill Chibisov
eef6977f45 macOS: fix opacity handling 
Not using `NSColor::clearColor()` results in Quartz thinking that the
window is not transparent at all, which results in artifacts.

However, not setting the `windowBackgroundColor` in
`Window::set_transparent` results in border not properly rendered.

Fixes: 94664ff687 (Don't set the background color)
 2024-06-15 15:41:34 +03:00
Kirill Chibisov
078b46720b chore: address 1.79 clippy lints 2024-06-15 15:26:26 +03:00
daxpedda
3b4e064a07 Web: fix crash InnerSizeWriter::request_inner_size() (#3727) 2024-06-12 00:22:03 +02:00
daxpedda
39bc139500 Web: don't overwrite cursor with CursorIcon::Default (#3729) 2024-06-12 00:12:14 +02:00
daxpedda
9522670081 Web: queue EventLoopProxy::send_event() to microtask 2024-06-12 00:02:26 +02:00
Kirill Chibisov
9a1ef49dc3 Bump version on master 
This commit does not represent a release and only synchronizes CHANGELOG
from the latest release.
 2024-06-10 17:13:33 -07:00
Mads Marquart
3a624e0f52 macOS/iOS: Various refactorings in application state (#3720) 
I'm preparing to get rid of our application delegate in favour of registering
notification observers, to do so I'm renaming `app_delegate.rs` to
`app_state.rs`, and moving the functionality out of the Objective-C method
into a normal method.

Additionally, `AppState` previously implemented `Default`, but really, this
was a hack done because someone (probably myself) was too lazy to write out
the full initialization in `AppDelegate::new`.
 2024-06-06 14:39:31 +02:00
Mads Marquart
279e3edc54 macOS: Improve event queuing (#3708) 
* Use AppKit's internal queuing mechanisms

This allows events to be queued in a more consistent order, they're now
interleaved with events that we handle immediately (like redraw events),
instead of being handled afterwards.

* Only queue events if necessary

This makes the call stack / backtraces easier to understand whenever
possible, and generally improves upon the order in which events are
delivered.
 2024-06-06 12:32:02 +02:00
Philippe Renon
0e74d37ff5 doc: clarify Window::pre_present_notify availability 
Fixes #3703.
 2024-06-06 12:11:06 +03:00
ShikiSuen
2d1382f7d6 Handle _selected_range sent to NSTextInputClient.setMarkedText(). (#3619) 
Co-authored-by: Mads Marquart <mads@marquart.dk>
 2024-05-31 08:54:20 +02:00
Mads Marquart
5d8091fc7f Implement ApplicationHandler for &mut A and Box<A> (#3709) 2024-05-29 11:51:53 +02:00
Mads Marquart
d7abe0316e Update objc2 to v0.2.2 (#3702) 
- Use new `bitflags!` support.
- Use `objc2-ui-kit`.
- Change usage of `Id` to `Retained`.
 2024-05-27 14:49:22 +02:00
Diggory Hardy
5ea20fc905 event_loop: add is_x11 and is_wayland on EventLoop 2024-05-26 17:38:10 +04:00
Golden Water
e108fa2fbf Resize when size changes on scale change on macOS 
This fixes an issue where the window glitched due to resize
when the user doesn't actually change the window, but macOS
function to update window size was still called.
 2024-05-23 20:40:07 +04:00
Kirill Chibisov
fff6788c12 chore: explicitly use cfg_aliases 0.2.1 
This correctly handles recent nightly lint that requires to explicitly
define the CFG guards.
 2024-05-22 15:51:29 +04:00
Kirill Chibisov
3e8fa41073 event_loop: remove deprecated run APIs 
The APIs are not well suited for the `&dyn ApplicationHandler` model and
`Box<dyn EventLoop>` structure, thus remove them.
 2024-05-20 20:27:36 +04:00
Kevin Müller
2b1c8cea1b bugfix: Replace pointer dereference with read_unaligned 
On Raspberry Pi, using the Rust crate eframe caused the program to crash on
mouse movement. The Backtrace lead to this specific line of code, and the exact
error was a "misaligned pointer dereference: address must be a multiple of 0x8
but is xxxx"

The edit has been tested with the Raspberry Pi, which works now.
 2024-05-19 15:08:14 -07:00
Ryan Burleson
ab33fb8eda fix doc typo in application.rs (#3676) 2024-05-07 21:24:02 +02:00
linkmauve
b0b64a9a15 Reexport older versions of raw-window-handle 
When the user decides to use an older version of raw-window-handle,
through the rwh_04 or rwh_05 features, it makes sense to reexport the
crate so they don’t have to depend on it manually and can instead use
winit::raw_window_handle.
 2024-05-06 19:50:25 +04:00
Mads Marquart
d5d202d60e Reduce usage of direct msg_send! 2024-05-06 19:09:38 +04:00
Mads Marquart
cb39ab29f4 macOS: Move util::EMPTY_RANGE to usage spot (#3685) 2024-05-06 16:54:52 +02:00
Mads Marquart
0a3cacd577 Retain ApplicationDelegate in NSWindowDelegate and NSView 
The delegate is only weakly referenced by NSApplication, so getting it
from there may fail if the event loop has been dropped.

Fixes #3668.
 2024-05-06 18:29:07 +04:00
Mads Marquart
16fd2baba0 Use rustc-check-cfg (#3682) 2024-05-06 07:11:57 +02:00
daxpedda
7f8771a362 Web: fix Clippy v1.78 FPs (#3678) 2024-05-03 22:24:54 +02:00
Kirill Chibisov
337d50779c Bump version on master 
This commit does not represent a release and only synchronizes CHANGELOG
from the latest release.
 2024-04-27 20:02:40 +04:00
Joshua Pedrick
fd477986de Add UIGestureRecognizerDelegate and PanGestureRecogniser (#3597) 
- Allow all gestures simultaneously recognized.
- Add PanGestureRecogniser with min/max number of touches.
- Fix sending delta values relative to Update instead to match macOS.
- Fix rotation gesture units from iOS to be in degrees instead of radians.

Co-authored-by: Mads Marquart <mads@marquart.dk>
 2024-04-27 15:55:04 +02:00
Mads Marquart
94664ff687 Don't set the background color when initializing with transparency (#3657) 
Setting the background color changes how the window title bar appears,
which is something that the application should customize itself if it
wants this behaviour (and also, it wasn't set when calling
`set_transparent`, so the behaviour wasn't consistent).
 2024-04-27 15:41:14 +02:00
growfrow
0fc8c37721 chore: fix some typos in comments (#3635) 
Signed-off-by: growfrow <growfrow@outlook.com>
 2024-04-27 15:29:11 +02:00
Kirill Chibisov
ec29c81ad2 chore: ensure that .cargo config is not published 
Just in case, so the correct changelog will be rendered when pulling
the crate from the crates.io as archive and trying to build it.
 2024-04-27 17:03:28 +04:00
Marijn Suijten
304a585493 android: bump to ndk 0.9.0 and android-activity 0.6.0 2024-04-27 13:35:11 +04:00
205 changed files with 16724 additions and 13910 deletions
Expand all files Collapse all files

5
.cargo/config.toml
View File

@@ -2,5 +2,8 @@
#
# Note that these flags are (intentionally) not included when building from the downloaded crate.
[build]
rustflags = ["--cfg=unreleased_changelogs"]
rustdocflags = ["--cfg=unreleased_changelogs"]
rustflags = ["--cfg=unreleased_changelogs"]
[target.wasm32-unknown-unknown]
runner = "wasm-bindgen-test-runner"

4
.git-blame-ignore-revs
View File

@@ -2,3 +2,7 @@
# chore(rustfmt): use nightly
7b0c7b6cb2c62767ca0c73c857b299883f55a883
# Rustfmt: use `group_imports`
2665c120981af548433645c6383b3580dd8f8fc4
# Use Taplo for TOML formatting
3398ebe467c43ccfd91916c5b81ff3c68f598556

17
.github/CODEOWNERS vendored
View File

@@ -1,10 +1,11 @@
# Android
/src/platform/android.rs @msiglreith @MarijnS95
/src/platform_impl/android @msiglreith @MarijnS95
/src/platform/android.rs @MarijnS95
/src/platform_impl/android @MarijnS95
# iOS
# Apple (AppKit + UIKit)
/src/platform/ios.rs @madsmtm
/src/platform_impl/ios @madsmtm
/src/platform/macos.rs @madsmtm
/src/platform_impl/apple @madsmtm
# Unix
/src/platform_impl/linux/mod.rs @kchibisov
@@ -17,17 +18,13 @@
/src/platform/x11.rs @kchibisov @notgull
/src/platform_impl/linux/x11 @kchibisov @notgull
# macOS
/src/platform/macos.rs @madsmtm
/src/platform_impl/macos @madsmtm
# Web
/src/platform/web.rs @daxpedda
/src/platform_impl/web @daxpedda
# Windows
/src/platform/windows.rs @msiglreith
/src/platform_impl/windows @msiglreith
/src/platform/windows.rs @notgull
/src/platform_impl/windows @notgull
# Orbital (Redox OS)
/src/platform/orbital.rs @jackpot51

2
.github/ISSUE_TEMPLATE/bug_web.yml vendored
View File

@@ -1,5 +1,5 @@
name: Web bug
description: Create a web-specific bug report
description: Create a Web-specific bug report
labels:
- B - bug
- DS - web

1
.github/PULL_REQUEST_TEMPLATE.md vendored
View File

@@ -2,4 +2,3 @@
- [ ] Added an entry to the `changelog` module if knowledge of this change could be valuable to users
- [ ] Updated documentation to reflect any user-facing changes, including notes of platform-specific behavior
- [ ] Created or updated an example program if it would help users understand this functionality
- [ ] Updated [feature matrix](https://github.com/rust-windowing/winit/blob/master/FEATURES.md), if new features were added or implemented

22
.github/dependabot.yaml vendored Normal file
View File

@@ -0,0 +1,22 @@
version: 2
updates:
- package-ecosystem: github-actions
directory: /
schedule:
interval: daily
groups:
github-actions:
patterns:
- "*"
- package-ecosystem: npm
directory: src/platform_impl/web/script
schedule:
interval: daily
groups:
github-actions:
patterns:
- '*'
labels:
- "DS - web"

131
.github/workflows/ci.yml vendored
View File

@@ -10,19 +10,32 @@ jobs:
name: Check formatting
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- uses: taiki-e/checkout-action@v1
- uses: dtolnay/rust-toolchain@nightly
with:
components: rustfmt
- name: Check Formatting
run: cargo fmt -- --check
taplo:
name: Taplo
runs-on: ubuntu-latest
steps:
- name: Checkout
uses: taiki-e/checkout-action@v1
- name: Install Taplo
uses: taiki-e/install-action@v2
with:
tool: taplo-cli
- name: Run Taplo
run: taplo fmt --check
typos:
name: Check for typos
runs-on: ubuntu-latest
timeout-minutes: 30
steps:
- uses: actions/checkout@v4
- uses: taiki-e/checkout-action@v1
- uses: taiki-e/install-action@v2
with:
tool: typos-cli
@@ -42,7 +55,7 @@ jobs:
strategy:
fail-fast: false
matrix:
toolchain: [stable, nightly, '1.70.0']
toolchain: [stable, nightly, '1.73']
platform:
# Note: Make sure that we test all the `docs.rs` targets defined in Cargo.toml!
- { name: 'Windows 64bit MSVC', target: x86_64-pc-windows-msvc, os: windows-latest, }
@@ -55,25 +68,35 @@ jobs:
- { name: 'Wayland', target: x86_64-unknown-linux-gnu, os: ubuntu-latest, options: '--no-default-features --features=wayland,wayland-dlopen' }
- { name: 'Android', target: aarch64-linux-android, os: ubuntu-latest, options: '--package=winit --features=android-native-activity', cmd: 'apk --' }
- { name: 'Redox OS', target: x86_64-unknown-redox, os: ubuntu-latest, }
- { name: 'macOS', target: x86_64-apple-darwin, os: macos-latest, }
- { name: 'macOS x86_64', target: x86_64-apple-darwin, os: macos-latest, }
- { name: 'macOS Aarch64', target: aarch64-apple-darwin, os: macos-latest, }
- { name: 'iOS x86_64', target: x86_64-apple-ios, os: macos-latest, }
- { name: 'iOS Aarch64', target: aarch64-apple-ios, os: macos-latest, }
- { name: 'web', target: wasm32-unknown-unknown, os: ubuntu-latest, }
- { name: 'Web', target: wasm32-unknown-unknown, os: ubuntu-latest, }
exclude:
# Web on nightly needs extra arguments
- toolchain: nightly
platform: { name: 'Web', target: wasm32-unknown-unknown, os: ubuntu-latest }
# Android is tested on stable-3
- toolchain: '1.70.0'
- toolchain: '1.73'
platform: { name: 'Android', target: aarch64-linux-android, os: ubuntu-latest, options: '--package=winit --features=android-native-activity', cmd: 'apk --' }
# Redox OS doesn't follow MSRV
- toolchain: '1.73'
platform: { name: 'Redox OS', target: x86_64-unknown-redox, os: ubuntu-latest }
include:
- toolchain: '1.70.0'
- toolchain: '1.73'
platform: { name: 'Android', target: aarch64-linux-android, os: ubuntu-latest, options: '--package=winit --features=android-native-activity', cmd: 'apk --' }
- toolchain: 'nightly'
platform: { name: 'Web', target: wasm32-unknown-unknown, os: ubuntu-latest, test-options: -Zdoctest-xcompile }
- toolchain: 'nightly'
platform: {
name: 'web Atomic',
target: wasm32-unknown-unknown,
os: ubuntu-latest,
options: '-Zbuild-std=panic_abort,std',
rustflags: '-Ctarget-feature=+atomics,+bulk-memory',
components: rust-src,
name: 'Web Atomic',
target: wasm32-unknown-unknown,
os: ubuntu-latest,
options: '-Zbuild-std=panic_abort,std',
test-options: -Zdoctest-xcompile,
rustflags: '-Ctarget-feature=+atomics,+bulk-memory',
components: rust-src,
}
env:
@@ -83,19 +106,21 @@ jobs:
# Faster compilation and error on warnings
RUSTFLAGS: '--codegen=debuginfo=0 --deny=warnings ${{ matrix.platform.rustflags }}'
RUSTDOCFLAGS: ${{ matrix.platform.rustflags }}
OPTIONS: --target=${{ matrix.platform.target }} ${{ matrix.platform.options }}
TEST_OPTIONS: ${{ matrix.platform.test-options }}
CMD: ${{ matrix.platform.cmd }}
steps:
- uses: actions/checkout@v4
- uses: taiki-e/checkout-action@v1
- name: Restore cache of cargo folder
# We use `restore` and later `save`, so that we can create the key after
# the cache has been downloaded.
#
# This could be avoided if we added Cargo.lock to the repository.
uses: actions/cache/restore@v3
uses: actions/cache/restore@v4
with:
# https://doc.rust-lang.org/cargo/guide/cargo-home.html#caching-the-cargo-home-in-ci
path: |
@@ -116,7 +141,7 @@ jobs:
- name: Cache cargo-apk
if: contains(matrix.platform.target, 'android')
id: cargo-apk-cache
uses: actions/cache@v3
uses: actions/cache@v4
with:
path: ~/.cargo/bin/cargo-apk
# Change this key if we update the required cargo-apk version
@@ -131,6 +156,11 @@ jobs:
if: contains(matrix.platform.target, 'android') && (steps.cargo-apk-cache.outputs.cache-hit != 'true')
run: cargo install cargo-apk --version=^0.9.7 --locked
- uses: taiki-e/cache-cargo-install-action@v2
if: contains(matrix.platform.target, 'wasm32') && matrix.toolchain == 'nightly'
with:
tool: wasm-bindgen-cli
- uses: dtolnay/rust-toolchain@master
with:
toolchain: ${{ matrix.toolchain }}${{ matrix.platform.host }}
@@ -149,52 +179,52 @@ jobs:
- name: Test dpi crate
if: >
contains(matrix.platform.name, 'Linux 64bit') &&
matrix.toolchain != '1.70.0'
matrix.toolchain != '1.73'
run: cargo test -p dpi
- name: Build tests
if: >
!contains(matrix.platform.target, 'redox') &&
matrix.toolchain != '1.70.0'
matrix.toolchain != '1.73'
run: cargo $CMD test --no-run $OPTIONS
- name: Run tests
if: >
!contains(matrix.platform.target, 'android') &&
!contains(matrix.platform.target, 'ios') &&
!contains(matrix.platform.target, 'wasm32') &&
(!contains(matrix.platform.target, 'wasm32') || matrix.toolchain == 'nightly') &&
!contains(matrix.platform.target, 'redox') &&
matrix.toolchain != '1.70.0'
matrix.toolchain != '1.73'
run: cargo $CMD test $OPTIONS
- name: Lint with clippy
if: (matrix.toolchain == 'stable') && !contains(matrix.platform.options, '--no-default-features')
run: cargo clippy --all-targets $OPTIONS -- -Dwarnings
run: cargo clippy --all-targets $OPTIONS $TEST_OPTIONS -- -Dwarnings
- name: Build tests with serde enabled
if: >
!contains(matrix.platform.target, 'redox') &&
matrix.toolchain != '1.70.0'
run: cargo $CMD test --no-run $OPTIONS --features serde
matrix.toolchain != '1.73'
run: cargo $CMD test --no-run $OPTIONS $TEST_OPTIONS --features serde
- name: Run tests with serde enabled
if: >
!contains(matrix.platform.target, 'android') &&
!contains(matrix.platform.target, 'ios') &&
!contains(matrix.platform.target, 'wasm32') &&
(!contains(matrix.platform.target, 'wasm32') || matrix.toolchain == 'nightly') &&
!contains(matrix.platform.target, 'redox') &&
matrix.toolchain != '1.70.0'
run: cargo $CMD test $OPTIONS --features serde
matrix.toolchain != '1.73'
run: cargo $CMD test $OPTIONS $TEST_OPTIONS --features serde
- name: Check docs.rs documentation
if: matrix.toolchain == 'nightly'
run: cargo doc --no-deps $OPTIONS --features=rwh_04,rwh_05,rwh_06,serde,mint,android-native-activity
run: cargo doc --no-deps $OPTIONS --features=serde,mint,android-native-activity
env:
RUSTDOCFLAGS: '--deny=warnings ${{ matrix.platform.rustflags }} --cfg=docsrs --cfg=unreleased_changelogs'
# See restore step above
- name: Save cache of cargo folder
uses: actions/cache/save@v3
uses: actions/cache/save@v4
with:
path: |
~/.cargo/registry/index/
@@ -214,15 +244,50 @@ jobs:
- { name: 'Android', target: aarch64-linux-android }
- { name: 'iOS', target: aarch64-apple-ios }
- { name: 'Linux', target: x86_64-unknown-linux-gnu }
- { name: 'macOS', target: x86_64-apple-darwin }
- { name: 'macOS', target: aarch64-apple-darwin }
- { name: 'Redox OS', target: x86_64-unknown-redox }
- { name: 'web', target: wasm32-unknown-unknown }
- { name: 'Windows', target: x86_64-pc-windows-gnu }
- { name: 'Web', target: wasm32-unknown-unknown }
- { name: 'Windows GNU', target: x86_64-pc-windows-gnu }
- { name: 'Windows MSVC', target: x86_64-pc-windows-msvc }
steps:
- uses: actions/checkout@v4
- uses: EmbarkStudios/cargo-deny-action@v1
- uses: taiki-e/checkout-action@v1
- uses: EmbarkStudios/cargo-deny-action@v2
with:
command: check
log-level: error
arguments: --all-features --target ${{ matrix.platform.target }}
eslint:
name: ESLint
runs-on: ubuntu-latest
defaults:
run:
working-directory: ./src/platform_impl/web/script
steps:
- uses: taiki-e/checkout-action@v1
- name: Setup NPM
run: npm install
- name: Run ESLint
run: npx eslint
swc:
name: Minimize JavaScript
runs-on: ubuntu-latest
defaults:
run:
working-directory: ./src/platform_impl/web/script
steps:
- uses: taiki-e/checkout-action@v1
- name: Install SWC
run: sudo npm i -g @swc/cli
- name: Run SWC
run: |
swc . --ignore node_modules,**/*.d.ts --only **/*.ts -d . --out-file-extension min.js
- name: Check for diff
run: |
[[ -z $(git status -s) ]]

4
.github/workflows/docs.yml vendored
View File

@@ -29,10 +29,10 @@ jobs:
env:
RUSTDOCFLAGS: --crate-version master --cfg=docsrs --cfg=unreleased_changelogs
run: |
cargo doc --no-deps -Z rustdoc-map -Z rustdoc-scrape-examples --features=rwh_04,rwh_05,rwh_06,serde,mint,android-native-activity
cargo doc --no-deps -Z rustdoc-map -Z rustdoc-scrape-examples --features=serde,mint,android-native-activity
- name: Setup Pages
uses: actions/configure-pages@v4
uses: actions/configure-pages@v5
- name: Fix permissions
run: |

6
.gitignore vendored
View File

@@ -3,8 +3,8 @@ target/
rls/
.vscode/
*~
*.wasm
*.ts
*.js
#*#
.DS_Store
# NPM package used to run ESLint.
/src/platform_impl/web/script/node_modules
/src/platform_impl/web/script/package-lock.json

324
Cargo.toml
View File

@@ -1,53 +1,62 @@
[package]
name = "winit"
version = "0.29.15"
authors = [
"The winit contributors",
"Pierre Krieger <pierre.krieger1708@gmail.com>",
]
description = "Cross-platform window creation library."
keywords = ["windowing"]
readme = "README.md"
documentation = "https://docs.rs/winit"
authors = ["The winit contributors", "Pierre Krieger <pierre.krieger1708@gmail.com>"]
categories = ["gui"]
rust-version.workspace = true
repository.workspace = true
license.workspace = true
description = "Cross-platform window creation library."
documentation = "https://docs.rs/winit"
edition.workspace = true
include = [
"/build.rs",
"/docs",
"/examples",
"/FEATURES.md",
"/LICENSE",
"/src",
"!/src/platform_impl/web/script",
"/src/platform_impl/web/script/**/*.min.js",
"/tests",
]
keywords = ["windowing"]
license.workspace = true
name = "winit"
readme = "README.md"
repository.workspace = true
rust-version.workspace = true
version = "0.30.5"
[package.metadata.docs.rs]
features = [
"rwh_04",
"rwh_05",
"rwh_06",
"serde",
"mint",
# Enabled to get docs to compile
"android-native-activity",
]
# These are all tested in CI
rustdoc-args = ["--cfg", "docsrs"]
targets = [
# Windows
"i686-pc-windows-msvc",
"x86_64-pc-windows-msvc",
# macOS
"aarch64-apple-darwin",
"x86_64-apple-darwin",
# Unix (X11 & Wayland)
"i686-unknown-linux-gnu",
"x86_64-unknown-linux-gnu",
# iOS
"x86_64-apple-ios",
"aarch64-apple-ios",
# Android
"aarch64-linux-android",
# Web
"wasm32-unknown-unknown",
]
rustdoc-args = ["--cfg", "docsrs"]
# Features are documented in either `lib.rs` or under `winit::platform`.
[features]
default = ["rwh_06", "x11", "wayland", "wayland-dlopen", "wayland-csd-adwaita"]
x11 = ["x11-dl", "bytemuck", "percent-encoding", "xkbcommon-dl/x11", "x11rb"]
android-game-activity = ["android-activity/game-activity"]
android-native-activity = ["android-activity/native-activity"]
default = ["x11", "wayland", "wayland-dlopen", "wayland-csd-adwaita"]
mint = ["dpi/mint"]
serde = ["dep:serde", "cursor-icon/serde", "smol_str/serde", "dpi/serde", "bitflags/serde"]
wayland = [
"wayland-client",
"wayland-backend",
@@ -57,82 +66,52 @@ wayland = [
"ahash",
"memmap2",
]
wayland-dlopen = ["wayland-backend/dlopen"]
wayland-csd-adwaita = ["sctk-adwaita", "sctk-adwaita/ab_glyph"]
wayland-csd-adwaita-crossfont = ["sctk-adwaita", "sctk-adwaita/crossfont"]
wayland-csd-adwaita-notitle = ["sctk-adwaita"]
android-native-activity = ["android-activity/native-activity"]
android-game-activity = ["android-activity/game-activity"]
serde = ["dep:serde", "cursor-icon/serde", "smol_str/serde", "dpi/serde"]
mint = ["dpi/mint"]
rwh_04 = ["dep:rwh_04", "ndk/rwh_04"]
rwh_05 = ["dep:rwh_05", "ndk/rwh_05"]
rwh_06 = ["dep:rwh_06", "ndk/rwh_06"]
wayland-dlopen = ["wayland-backend/dlopen"]
x11 = ["x11-dl", "bytemuck", "percent-encoding", "xkbcommon-dl/x11", "x11rb"]
[build-dependencies]
cfg_aliases = "0.2.0"
cfg_aliases = "0.2.1"
[dependencies]
bitflags = "2"
cursor-icon = "1.1.0"
dpi = { version = "0.1.1", path = "dpi" }
rwh_04 = { package = "raw-window-handle", version = "0.4", optional = true }
rwh_05 = { package = "raw-window-handle", version = "0.5.2", features = [
"std",
], optional = true }
rwh_06 = { package = "raw-window-handle", version = "0.6", features = [
"std",
], optional = true }
rwh_06 = { package = "raw-window-handle", version = "0.6", features = ["std"] }
serde = { workspace = true, optional = true }
smol_str = "0.2.0"
tracing = { version = "0.1.40", default_features = false }
smol_str = "0.3"
tracing = { version = "0.1.40", default-features = false }
[dev-dependencies]
image = { version = "0.25.0", default-features = false, features = ["png"] }
tracing = { version = "0.1.40", default_features = false, features = ["log"] }
tracing = { version = "0.1.40", default-features = false, features = ["log"] }
tracing-subscriber = { version = "0.3.18", features = ["env-filter"] }
winit = { path = ".", features = ["rwh_05"] }
[target.'cfg(not(any(target_os = "android", target_os = "ios")))'.dev-dependencies]
softbuffer = { version = "0.4.0", default-features = false, features = [
[target.'cfg(not(target_os = "android"))'.dev-dependencies]
softbuffer = { version = "0.4.6", default-features = false, features = [
"x11",
"x11-dlopen",
"wayland",
"wayland-dlopen",
] }
# Android
[target.'cfg(target_os = "android")'.dependencies]
android-activity = "0.5.0"
ndk = { version = "0.8.0", default-features = false }
ndk-sys = "0.5.0"
android-activity = "0.6.0"
ndk = { version = "0.9.0", features = ["rwh_06"], default-features = false }
[target.'cfg(any(target_os = "ios", target_os = "macos"))'.dependencies]
# AppKit or UIKit
[target.'cfg(target_vendor = "apple")'.dependencies]
block2 = "0.5.1"
core-foundation = "0.9.3"
objc2 = "0.5.1"
objc2 = "0.5.2"
# AppKit
[target.'cfg(target_os = "macos")'.dependencies]
core-graphics = "0.23.1"
[target.'cfg(target_os = "macos")'.dependencies.objc2-foundation]
version = "0.2.0"
features = [
"dispatch",
"NSArray",
"NSAttributedString",
"NSData",
"NSDictionary",
"NSEnumerator",
"NSObjCRuntime",
"NSString",
"NSPathUtilities",
"NSProcessInfo",
"NSThread",
"NSValue",
]
[target.'cfg(target_os = "macos")'.dependencies.objc2-app-kit]
version = "0.2.0"
features = [
objc2-app-kit = { version = "0.2.2", features = [
"NSAppearance",
"NSApplication",
"NSBitmapImageRep",
@@ -155,32 +134,76 @@ features = [
"NSScreen",
"NSTextInputClient",
"NSTextInputContext",
"NSToolbar",
"NSView",
"NSWindow",
"NSWindowScripting",
"NSWindowTabGroup",
]
] }
objc2-foundation = { version = "0.2.2", features = [
"block2",
"dispatch",
"NSArray",
"NSAttributedString",
"NSData",
"NSDictionary",
"NSDistributedNotificationCenter",
"NSEnumerator",
"NSGeometry",
"NSKeyValueObserving",
"NSNotification",
"NSObjCRuntime",
"NSOperation",
"NSPathUtilities",
"NSProcessInfo",
"NSRunLoop",
"NSString",
"NSThread",
"NSValue",
] }
[target.'cfg(target_os = "ios")'.dependencies.objc2-foundation]
version = "0.2.0"
features = [
# UIKit
[target.'cfg(all(target_vendor = "apple", not(target_os = "macos")))'.dependencies]
objc2-foundation = { version = "0.2.2", features = [
"block2",
"dispatch",
"NSArray",
"NSEnumerator",
"NSGeometry",
"NSObjCRuntime",
"NSOperation",
"NSString",
"NSProcessInfo",
"NSThread",
"NSSet",
]
] }
objc2-ui-kit = { version = "0.2.2", features = [
"UIApplication",
"UIDevice",
"UIEvent",
"UIGeometry",
"UIGestureRecognizer",
"UITextInput",
"UITextInputTraits",
"UIOrientation",
"UIPanGestureRecognizer",
"UIPinchGestureRecognizer",
"UIResponder",
"UIRotationGestureRecognizer",
"UIScreen",
"UIScreenMode",
"UITapGestureRecognizer",
"UITouch",
"UITraitCollection",
"UIView",
"UIViewController",
"UIWindow",
] }
# Windows
[target.'cfg(target_os = "windows")'.dependencies]
unicode-segmentation = "1.7.1"
[target.'cfg(target_os = "windows")'.dependencies.windows-sys]
version = "0.52.0"
features = [
windows-sys = { version = "0.52.0", features = [
"Win32_Devices_HumanInterfaceDevice",
"Win32_Foundation",
"Win32_Globalization",
@@ -191,6 +214,7 @@ features = [
"Win32_System_Com",
"Win32_System_LibraryLoader",
"Win32_System_Ole",
"Win32_Security",
"Win32_System_SystemInformation",
"Win32_System_SystemServices",
"Win32_System_Threading",
@@ -205,12 +229,13 @@ features = [
"Win32_UI_Shell",
"Win32_UI_TextServices",
"Win32_UI_WindowsAndMessaging",
]
] }
[target.'cfg(all(unix, not(any(target_os = "redox", target_family = "wasm", target_os = "android", target_os = "ios", target_os = "macos"))))'.dependencies]
# Linux
[target.'cfg(all(unix, not(any(target_os = "redox", target_family = "wasm", target_os = "android", target_vendor = "apple"))))'.dependencies]
ahash = { version = "0.8.7", features = ["no-rng"], optional = true }
bytemuck = { version = "1.13.1", default-features = false, optional = true }
calloop = "0.12.3"
calloop = "0.13.0"
libc = "0.2.64"
memmap2 = { version = "0.9.0", optional = true }
percent-encoding = { version = "2.0", optional = true }
@@ -220,86 +245,93 @@ rustix = { version = "0.38.4", default-features = false, features = [
"thread",
"process",
] }
sctk = { package = "smithay-client-toolkit", version = "0.18.0", default-features = false, features = [
sctk = { package = "smithay-client-toolkit", version = "0.19.2", default-features = false, features = [
"calloop",
], optional = true }
sctk-adwaita = { version = "0.9.0", default_features = false, optional = true }
wayland-backend = { version = "0.3.0", default_features = false, features = [
sctk-adwaita = { version = "0.10.1", default-features = false, optional = true }
wayland-backend = { version = "0.3.5", default-features = false, features = [
"client_system",
], optional = true }
wayland-client = { version = "0.31.1", optional = true }
wayland-protocols = { version = "0.31.0", features = [
"staging",
], optional = true }
wayland-protocols-plasma = { version = "0.2.0", features = [
"client",
], optional = true }
wayland-client = { version = "0.31.4", optional = true }
wayland-protocols = { version = "0.32.2", features = ["staging"], optional = true }
wayland-protocols-plasma = { version = "0.3.2", features = ["client"], optional = true }
x11-dl = { version = "2.19.1", optional = true }
x11rb = { version = "0.13.0", default-features = false, features = [
"allow-unsafe-code",
"cursor",
"dl-libxcb",
"randr",
"resource_manager",
"sync",
"xinput",
"xkb",
], optional = true }
xkbcommon-dl = "0.4.2"
# Orbital
[target.'cfg(target_os = "redox")'.dependencies]
orbclient = { version = "0.3.47", default-features = false }
redox_syscall = "0.4.1"
[target.'cfg(target_family = "wasm")'.dependencies.web_sys]
package = "web-sys"
version = "0.3.64"
features = [
'AbortController',
'AbortSignal',
'Blob',
'console',
'CssStyleDeclaration',
'Document',
'DomException',
'DomRect',
'DomRectReadOnly',
'Element',
'Event',
'EventTarget',
'FocusEvent',
'HtmlCanvasElement',
'HtmlElement',
'HtmlImageElement',
'ImageBitmap',
'ImageBitmapOptions',
'ImageBitmapRenderingContext',
'ImageData',
'IntersectionObserver',
'IntersectionObserverEntry',
'KeyboardEvent',
'MediaQueryList',
'MessageChannel',
'MessagePort',
'Node',
'PageTransitionEvent',
'PointerEvent',
'PremultiplyAlpha',
'ResizeObserver',
'ResizeObserverBoxOptions',
'ResizeObserverEntry',
'ResizeObserverOptions',
'ResizeObserverSize',
'VisibilityState',
'Window',
'WheelEvent',
'Url',
]
redox_syscall = "0.5.7"
# Web
[target.'cfg(target_family = "wasm")'.dependencies]
js-sys = "0.3.64"
js-sys = "0.3.70"
pin-project = "1"
wasm-bindgen = "0.2"
wasm-bindgen-futures = "0.4"
wasm-bindgen = "0.2.93"
wasm-bindgen-futures = "0.4.43"
web-time = "1"
web_sys = { package = "web-sys", version = "0.3.70", features = [
"AbortController",
"AbortSignal",
"Blob",
"BlobPropertyBag",
"console",
"CssStyleDeclaration",
"Document",
"DomException",
"DomRect",
"DomRectReadOnly",
"Element",
"Event",
"EventTarget",
"FocusEvent",
"HtmlCanvasElement",
"HtmlElement",
"HtmlHtmlElement",
"HtmlImageElement",
"ImageBitmap",
"ImageBitmapOptions",
"ImageBitmapRenderingContext",
"ImageData",
"IntersectionObserver",
"IntersectionObserverEntry",
"KeyboardEvent",
"MediaQueryList",
"MessageChannel",
"MessagePort",
"Navigator",
"Node",
"OrientationLockType",
"OrientationType",
"PageTransitionEvent",
"Permissions",
"PermissionState",
"PermissionStatus",
"PointerEvent",
"PremultiplyAlpha",
"ResizeObserver",
"ResizeObserverBoxOptions",
"ResizeObserverEntry",
"ResizeObserverOptions",
"ResizeObserverSize",
"Screen",
"ScreenOrientation",
"Url",
"VisibilityState",
"WheelEvent",
"Window",
"Worker",
] }
[target.'cfg(all(target_family = "wasm", target_feature = "atomics"))'.dependencies]
atomic-waker = "1"
@@ -308,21 +340,25 @@ concurrent-queue = { version = "2", default-features = false }
[target.'cfg(target_family = "wasm")'.dev-dependencies]
console_error_panic_hook = "0.1"
tracing-web = "0.1"
wasm-bindgen-test = "0.3"
[[example]]
doc-scrape-examples = true
name = "window"
[[example]]
name = "child_window"
[workspace]
resolver = "2"
members = ["dpi"]
resolver = "2"
[workspace.package]
rust-version = "1.70.0"
repository = "https://github.com/rust-windowing/winit"
license = "Apache-2.0"
edition = "2021"
license = "Apache-2.0"
repository = "https://github.com/rust-windowing/winit"
rust-version = "1.73"
[workspace.dependencies]
serde = { version = "1", features = ["serde_derive"] }
mint = "0.5.6"
serde = { version = "1", features = ["serde_derive"] }

199
FEATURES.md
View File

@@ -47,202 +47,3 @@ through the implementation work necessary to function on all platforms. When one
gets implemented across all platforms, a PR can be opened to upgrade the feature to a core feature.
If that gets accepted, the platform-specific functions get deprecated and become permanently
exposed through the core, cross-platform API.
# Features
## Extending this section
If your PR makes notable changes to Winit's features, please update this section as follows:
- If your PR adds a new feature, add a brief description to the relevant section. If the feature is a core
feature, add a row to the feature matrix and describe what platforms the feature has been implemented on.
- If your PR begins a new API rework, add a row to the `Pending API Reworks` table. If the PR implements the
API rework on all relevant platforms, please move it to the `Completed API Reworks` table.
- If your PR implements an already-existing feature on a new platform, either mark the feature as *completed*,
or mark it as *mostly completed* and link to an issue describing the problems with the implementation.
## Core
### Windowing
- **Window initialization**: Winit allows the creation of a window
- **Providing pointer to init OpenGL**: Winit provides the necessary pointers to initialize a working opengl context
- **Providing pointer to init Vulkan**: Same as OpenGL but for Vulkan
- **Window decorations**: The windows created by winit are properly decorated, and the decorations can
be deactivated
- **Window decorations toggle**: Decorations can be turned on or off after window creation
- **Window resizing**: The windows created by winit can be resized and generate the appropriate events
when they are. The application can precisely control its window size if desired.
- **Window resize increments**: When the window gets resized, the application can choose to snap the window's
size to specific values.
- **Window transparency**: Winit allows the creation of windows with a transparent background.
- **Window maximization**: The windows created by winit can be maximized upon creation.
- **Window maximization toggle**: The windows created by winit can be maximized and unmaximized after
creation.
- **Window minimization**: The windows created by winit can be minimized after creation.
- **Fullscreen**: The windows created by winit can be put into fullscreen mode.
- **Fullscreen toggle**: The windows created by winit can be switched to and from fullscreen after
creation.
- **Exclusive fullscreen**: Winit allows changing the video mode of the monitor
for fullscreen windows and, if applicable, captures the monitor for exclusive
use by this application.
- **HiDPI support**: Winit assists developers in appropriately scaling HiDPI content.
- **Popup / modal windows**: Windows can be created relative to the client area of other windows, and parent
windows can be disabled in favor of popup windows. This feature also guarantees that popup windows
get drawn above their owner.
### System Information
- **Monitor list**: Retrieve the list of monitors and their metadata, including which one is primary.
- **Video mode query**: Monitors can be queried for their supported fullscreen video modes (consisting of resolution, refresh rate, and bit depth).
### Input Handling
- **Mouse events**: Generating mouse events associated with pointer motion, click, and scrolling events.
- **Mouse set location**: Forcibly changing the location of the pointer.
- **Cursor locking**: Locking the cursor inside the window so it cannot move.
- **Cursor confining**: Confining the cursor to the window bounds so it cannot leave them.
- **Cursor icon**: Changing the cursor icon or hiding the cursor.
- **Cursor image**: Changing the cursor to your own image.
- **Cursor hittest**: Handle or ignore mouse events for a window.
- **Touch events**: Single-touch events.
- **Touch pressure**: Touch events contain information about the amount of force being applied.
- **Multitouch**: Multi-touch events, including cancellation of a gesture.
- **Keyboard events**: Properly processing keyboard events using the user-specified keymap and
translating keypresses into UTF-8 characters, handling dead keys and IMEs.
- **Drag & Drop**: Dragging content into winit, detecting when content enters, drops, or if the drop is cancelled.
- **Raw Device Events**: Capturing input from input devices without any OS filtering.
- **Gamepad/Joystick events**: Capturing input from gamepads and joysticks.
- **Device movement events**: Capturing input from the device gyroscope and accelerometer.
## Platform
### Windows
* Setting the name of the internal window class
* Setting the taskbar icon
* Setting the parent window
* Setting a menu bar
* `WS_EX_NOREDIRECTIONBITMAP` support
* Theme the title bar according to Windows 10 Dark Mode setting or set a preferred theme
* Changing a system-drawn backdrop
* Setting the window border color
* Setting the title bar background color
* Setting the title color
* Setting the corner rounding preference
### macOS
* Window activation policy
* Window movable by background
* Transparent titlebar
* Hidden titlebar
* Hidden titlebar buttons
* Full-size content view
* Accepts first mouse
* Set a preferred theme and get current theme.
### Unix
* Window urgency
* X11 Window Class
* X11 Override Redirect Flag
* GTK Theme Variant
* Base window size
* Setting the X11 parent window
### iOS
* Get the `UIScreen` object pointer
* Setting the `UIView` hidpi factor
* Valid orientations
* Home indicator visibility
* Status bar visibility and style
* Deferring system gestures
* Getting the device idiom
* Getting the preferred video mode
### Web
* Get if the systems preferred color scheme is "dark"
## Compatibility Matrix
Legend:
- ✔️: Works as intended
- ▢: Mostly works, but some bugs are known
- ❌: Missing feature or large bugs making it unusable
- **N/A**: Not applicable for this platform
- ❓: Unknown status
### Windowing
|Feature |Windows|MacOS |Linux x11 |Linux Wayland |Android|iOS |Web |Redox OS|
|-------------------------------- | ----- | ---- | ------- | ----------- | ----- | ----- | -------- | ------ |
|Window initialization |✔️ |✔️ |▢[#5] |✔️ |▢[#33]|▢[#33] |✔️ |✔️ |
|Providing pointer to init OpenGL |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |**N/A**|✔️ |
|Providing pointer to init Vulkan |✔️ |✔️ |✔️ |✔️ |✔️ |❓ |**N/A**|**N/A** |
|Window decorations |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|**N/A**|✔️ |
|Window decorations toggle |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|**N/A**|**N/A** |
|Window resizing |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|✔️ |✔️ |
|Window resize increments |✔️ |✔️ |✔️ |❌ |**N/A**|**N/A**|**N/A**|**N/A** |
|Window transparency |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|N/A |✔️ |
|Window blur |❌ |❌ |❌ |✔️ |**N/A**|**N/A**|N/A |❌ |
|Window maximization |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|**N/A**|**N/A** |
|Window maximization toggle |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|**N/A**|**N/A** |
|Window minimization |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|**N/A**|**N/A** |
|Fullscreen |✔️ |✔️ |✔️ |✔️ |**N/A**|✔️ |✔️ |**N/A** |
|Fullscreen toggle |✔️ |✔️ |✔️ |✔️ |**N/A**|✔️ |✔️ |**N/A** |
|Exclusive fullscreen |✔️ |✔️ |✔️ |**N/A** |❌ |✔️ |**N/A**|**N/A** |
|HiDPI support |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |❌ |
|Popup windows |❌ |❌ |❌ |❌ |❌ |❌ |**N/A**|**N/A** |
### System information
|Feature |Windows|MacOS |Linux x11|Linux Wayland|Android|iOS |Web |Redox OS|
|---------------- | ----- | ---- | ------- | ----------- | ----- | ------- | -------- | ------ |
|Monitor list |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |**N/A**|❌ |
|Video mode query |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |**N/A**|❌ |
### Input handling
|Feature |Windows |MacOS |Linux x11|Linux Wayland|Android|iOS |Web |Redox OS|
|----------------------- | ----- | ---- | ------- | ----------- | ----- | ----- | -------- | ------ |
|Mouse events |✔️ |▢[#63] |✔️ |✔️ |**N/A**|**N/A**|✔️ |✔️ |
|Mouse set location |✔️ |✔️ |✔️ |✔️(when locked) |**N/A**|**N/A**|**N/A**|**N/A** |
|Cursor locking |❌ |✔️ |❌ |✔️ |**N/A**|**N/A**|✔️ |❌ |
|Cursor confining |✔️ |❌ |✔️ |✔️ |**N/A**|**N/A**|❌ |❌ |
|Cursor icon |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|✔️ |**N/A** |
|Cursor image |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|✔️ |**N/A** |
|Cursor hittest |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|❌ |❌ |
|Touch events |✔️ |❌ |✔️ |✔️ |✔️ |✔️ |✔️ |**N/A** |
|Touch pressure |✔️ |❌ |❌ |❌ |❌ |✔️ |✔️ |**N/A** |
|Multitouch |✔️ |❌ |✔️ |✔️ |✔️ |✔️ |❌ |**N/A** |
|Keyboard events |✔️ |✔️ |✔️ |✔️ |✔️ |❌ |✔️ |✔️ |
|Drag & Drop |▢[#720] |▢[#720] |▢[#720] |▢[#720] |**N/A**|**N/A**|❓ |**N/A** |
|Raw Device Events |▢[#750] |▢[#750] |▢[#750] |❌ |❌ |❌ |❓ |**N/A** |
|Gamepad/Joystick events |❌[#804] |❌ |❌ |❌ |❌ |❌ |❓ |**N/A** |
|Device movement events |❓ |❓ |❓ |❓ |❌ |❌ |❓ |**N/A** |
|Drag window with cursor |✔️ |✔️ |✔️ |✔️ |**N/A**|**N/A**|**N/A** |**N/A** |
|Resize with cursor |✔️ |❌ |✔️ |✔️ |**N/A**|**N/A**|**N/A** |**N/A** |
### Pending API Reworks
Changes in the API that have been agreed upon but aren't implemented across all platforms.
|Feature |Windows|MacOS |Linux x11|Linux Wayland|Android|iOS |Web |Redox OS|
|------------------------------ | ----- | ---- | ------- | ----------- | ----- | ----- | -------- | ------ |
|New API for HiDPI ([#315] [#319]) |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |❓ |❓ |
|Event Loop 2.0 ([#459]) |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |❓ |✔️ |
|Keyboard Input 2.0 ([#753]) |✔️ |✔️ |✔️ |✔️ |✔️ |❌ |✔️ |✔️ |
### Completed API Reworks
|Feature |Windows|MacOS |Linux x11|Linux Wayland|Android|iOS |Web |Redox OS|
|------------------------------ | ----- | ---- | ------- | ----------- | ----- | ----- | -------- | ------ |
[#165]: https://github.com/rust-windowing/winit/issues/165
[#219]: https://github.com/rust-windowing/winit/issues/219
[#242]: https://github.com/rust-windowing/winit/issues/242
[#306]: https://github.com/rust-windowing/winit/issues/306
[#315]: https://github.com/rust-windowing/winit/issues/315
[#319]: https://github.com/rust-windowing/winit/issues/319
[#33]: https://github.com/rust-windowing/winit/issues/33
[#459]: https://github.com/rust-windowing/winit/issues/459
[#5]: https://github.com/rust-windowing/winit/issues/5
[#63]: https://github.com/rust-windowing/winit/issues/63
[#720]: https://github.com/rust-windowing/winit/issues/720
[#721]: https://github.com/rust-windowing/winit/issues/721
[#750]: https://github.com/rust-windowing/winit/issues/750
[#753]: https://github.com/rust-windowing/winit/issues/753
[#804]: https://github.com/rust-windowing/winit/issues/804

15
README.md
View File

@@ -2,13 +2,13 @@
[![Crates.io](https://img.shields.io/crates/v/winit.svg)](https://crates.io/crates/winit)
[![Docs.rs](https://docs.rs/winit/badge.svg)](https://docs.rs/winit)
[![Master Docs](https://img.shields.io/github/actions/workflow/status/rust-windowing/winit/docs.yml?branch=master&label=master%20docs
[![UNSTABLE docs](https://img.shields.io/github/actions/workflow/status/rust-windowing/winit/docs.yml?branch=master&label=UNSTABLE%20docs
)](https://rust-windowing.github.io/winit/winit/index.html)
[![CI Status](https://github.com/rust-windowing/winit/workflows/CI/badge.svg)](https://github.com/rust-windowing/winit/actions)
```toml
[dependencies]
winit = "0.29.15"
winit = "0.30.5"
```
## [Documentation](https://docs.rs/winit)
@@ -19,7 +19,7 @@ For features _outside_ the scope of winit, see [Are we GUI Yet?](https://arewegu
## Contact Us
Join us in our [![Matrix](https://img.shields.io/badge/Matrix-%23rust--windowing%3Amatrix.org-blueviolet.svg)](https://matrix.to/#/#rust-windowing:matrix.org) room. If you don't get an answer there, try [![Libera.Chat](https://img.shields.io/badge/libera.chat-%23winit-red.svg)](https://web.libera.chat/#winit).
Join us in our [![Matrix](https://img.shields.io/badge/Matrix-%23rust--windowing%3Amatrix.org-blueviolet.svg)](https://matrix.to/#/#rust-windowing:matrix.org) room.
The maintainers have a meeting every friday at UTC 15. The meeting notes can be found [here](https://hackmd.io/@winit-meetings).
@@ -35,7 +35,7 @@ another library.
## MSRV Policy
This crate's Minimum Supported Rust Version (MSRV) is **1.70**. Changes to
This crate's Minimum Supported Rust Version (MSRV) is **1.73**. Changes to
the MSRV will be accompanied by a minor version bump.
As a **tentative** policy, the upper bound of the MSRV is given by the following
@@ -50,12 +50,15 @@ Where `sid` is the current version of `rustc` provided by [Debian Sid], and
[Debian Sid]: https://packages.debian.org/sid/rustc
The exception is for the Android platform, where a higher Rust version
An exception is made for the Android platform, where a higher Rust version
must be used for certain Android features. In this case, the MSRV will be
capped at the latest stable version of Rust minus three. This inconsistency is
not reflected in Cargo metadata, as it is not powerful enough to expose this
restriction.
Redox OS is also not covered by this MSRV policy, as it requires a Rust nightly
toolchain to compile.
All crates in the [`rust-windowing`] organizations have the
same MSRV policy.
@@ -63,4 +66,4 @@ same MSRV policy.
### Platform-specific usage
Check out the [`winit::platform`](https://rust-windowing.github.io/winit/winit/platform/index.html) module for platform-specific usage.
Check out the [`winit::platform`](https://docs.rs/winit/latest/winit/platform/index.html) module for platform-specific usage.

12
build.rs
View File

@@ -1,19 +1,18 @@
use cfg_aliases::cfg_aliases;
fn main() {
// The script doesn't depend on our code
// The script doesn't depend on our code.
println!("cargo:rerun-if-changed=build.rs");
// Setup cfg aliases
// Setup cfg aliases.
cfg_aliases! {
// Systems.
android_platform: { target_os = "android" },
web_platform: { all(target_family = "wasm", target_os = "unknown") },
macos_platform: { target_os = "macos" },
ios_platform: { target_os = "ios" },
ios_platform: { all(target_vendor = "apple", not(target_os = "macos")) },
windows_platform: { target_os = "windows" },
apple: { any(target_os = "ios", target_os = "macos") },
free_unix: { all(unix, not(apple), not(android_platform), not(target_os = "emscripten")) },
free_unix: { all(unix, not(target_vendor = "apple"), not(android_platform), not(target_os = "emscripten")) },
redox: { target_os = "redox" },
// Native displays.
@@ -21,4 +20,7 @@ fn main() {
wayland_platform: { all(feature = "wayland", free_unix, not(redox)) },
orbital_platform: { redox },
}
// Winit defined cfgs.
println!("cargo:rustc-check-cfg=cfg(unreleased_changelogs)");
}

23
clippy.toml
View File

@@ -1,15 +1,16 @@
disallowed-methods = [
{ path = "web_sys::window", reason = "is not available in every context" },
{ path = "web_sys::HtmlCanvasElement::width", reason = "Winit shouldn't touch the internal canvas size" },
{ path = "web_sys::HtmlCanvasElement::height", reason = "Winit shouldn't touch the internal canvas size" },
{ path = "web_sys::HtmlCanvasElement::set_width", reason = "Winit shouldn't touch the internal canvas size" },
{ path = "web_sys::HtmlCanvasElement::set_height", reason = "Winit shouldn't touch the internal canvas size" },
{ path = "web_sys::Window::document", reason = "cache this to reduce calls to JS" },
{ path = "web_sys::Window::get_computed_style", reason = "cache this to reduce calls to JS" },
{ path = "web_sys::HtmlElement::style", reason = "cache this to reduce calls to JS" },
{ path = "web_sys::Element::request_fullscreen", reason = "Doesn't account for compatibility with Safari" },
{ path = "web_sys::Document::exit_fullscreen", reason = "Doesn't account for compatibility with Safari" },
{ path = "web_sys::Document::fullscreen_element", reason = "Doesn't account for compatibility with Safari" },
{ path = "objc2_app_kit::NSView::visibleRect", reason = "We expose a render target to the user, and visibility is not really relevant to that (and can break if you don't use the rectangle position as well). Use `frame` instead." },
{ path = "objc2_app_kit::NSWindow::setFrameTopLeftPoint", reason = "Not sufficient when working with Winit's coordinate system, use `flip_window_screen_coordinates` instead" },
{ path = "web_sys::Document::exit_fullscreen", reason = "Doesn't account for compatibility with Safari" },
{ path = "web_sys::Document::fullscreen_element", reason = "Doesn't account for compatibility with Safari" },
{ path = "web_sys::Element::request_fullscreen", reason = "Doesn't account for compatibility with Safari" },
{ path = "web_sys::HtmlCanvasElement::height", reason = "Winit shouldn't touch the internal canvas size" },
{ path = "web_sys::HtmlCanvasElement::set_height", reason = "Winit shouldn't touch the internal canvas size" },
{ path = "web_sys::HtmlCanvasElement::set_width", reason = "Winit shouldn't touch the internal canvas size" },
{ path = "web_sys::HtmlCanvasElement::width", reason = "Winit shouldn't touch the internal canvas size" },
{ path = "web_sys::HtmlElement::style", reason = "cache this to reduce calls to JS" },
{ path = "web_sys::Window::document", reason = "cache this to reduce calls to JS" },
{ path = "web_sys::Window::get_computed_style", reason = "cache this to reduce calls to JS" },
{ path = "web_sys::Window::navigator", reason = "cache this to reduce calls to JS" },
{ path = "web_sys::window", reason = "is not available in every context" },
]

87
deny.toml
View File

@@ -1,15 +1,21 @@
# https://embarkstudios.github.io/cargo-deny/
# https://embarkstudios.github.io/cargo-deny
# cargo install cargo-deny
# cargo update && cargo deny --all-features --log-level error --target aarch64-apple-ios check
# cargo update && cargo deny --target aarch64-apple-ios check
# Note: running just `cargo deny check` without a `--target` will result in
# false positives due to https://github.com/EmbarkStudios/cargo-deny/issues/324
[graph]
all-features = true
exclude-dev = true
targets = [
{ triple = "aarch64-apple-darwin" },
{ triple = "aarch64-apple-ios" },
{ triple = "aarch64-linux-android" },
{ triple = "i686-pc-windows-gnu" },
{ triple = "i686-pc-windows-msvc" },
{ triple = "i686-unknown-linux-gnu" },
{ triple = "wasm32-unknown-unknown" },
{ triple = "wasm32-unknown-unknown", features = [
"atomics",
] },
{ triple = "x86_64-apple-darwin" },
{ triple = "x86_64-apple-ios" },
{ triple = "x86_64-pc-windows-gnu" },
@@ -18,46 +24,49 @@ targets = [
{ triple = "x86_64-unknown-redox" },
]
[advisories]
vulnerability = "deny"
unmaintained = "warn"
yanked = "deny"
ignore = []
[licenses]
allow = [
"Apache-2.0", # https://tldrlegal.com/license/apache-license-2.0-(apache-2.0)
"BSD-2-Clause", # https://tldrlegal.com/license/bsd-2-clause-license-(freebsd)
"BSD-3-Clause", # https://tldrlegal.com/license/bsd-3-clause-license-(revised)
"ISC", # https://tldrlegal.com/license/isc-license
"MIT", # https://tldrlegal.com/license/mit-license
"Unicode-3.0", # https://spdx.org/licenses/Unicode-3.0.html
]
confidence-threshold = 1.0
private = { ignore = true }
[bans]
multiple-versions = "deny"
wildcards = "allow" # at least until https://github.com/EmbarkStudios/cargo-deny/issues/241 is fixed
deny = []
skip = [
{ name = "raw-window-handle" }, # we intentionally have multiple versions of this
{ name = "bitflags" }, # the ecosystem is in the process of migrating.
{ name = "libloading" }, # x11rb uses a different version until the next update
]
skip-tree = []
skip = [{ crate = "bitflags@1", reason = "the ecosystem is in the process of migrating" }]
wildcards = "allow" # at least until https://github.com/EmbarkStudios/cargo-deny/issues/241 is fixed
[bans.build]
include-archives = true
interpreted = "deny"
[licenses]
private = { ignore = true }
unlicensed = "deny"
allow-osi-fsf-free = "neither"
confidence-threshold = 0.92 # We want really high confidence when inferring licenses from text
copyleft = "deny"
[[bans.build.bypass]]
allow = [
"Apache-2.0 WITH LLVM-exception", # https://spdx.org/licenses/LLVM-exception.html
"Apache-2.0", # https://tldrlegal.com/license/apache-license-2.0-(apache-2.0)
"BSD-2-Clause", # https://tldrlegal.com/license/bsd-2-clause-license-(freebsd)
"BSD-3-Clause", # https://tldrlegal.com/license/bsd-3-clause-license-(revised)
"BSL-1.0", # https://tldrlegal.com/license/boost-software-license-1.0-explained
"CC0-1.0", # https://creativecommons.org/publicdomain/zero/1.0/
"ISC", # https://tldrlegal.com/license/-isc-license
"LicenseRef-UFL-1.0", # https://tldrlegal.com/license/ubuntu-font-license,-1.0 - no official SPDX, see https://github.com/emilk/egui/issues/2321
"MIT-0", # https://choosealicense.com/licenses/mit-0/
"MIT", # https://tldrlegal.com/license/mit-license
"MPL-2.0", # https://www.mozilla.org/en-US/MPL/2.0/FAQ/ - see Q11. Used by webpki-roots on Linux.
"OFL-1.1", # https://spdx.org/licenses/OFL-1.1.html
"OpenSSL", # https://www.openssl.org/source/license.html - used on Linux
"Unicode-DFS-2016", # https://spdx.org/licenses/Unicode-DFS-2016.html
"Zlib", # https://tldrlegal.com/license/zlib-libpng-license-(zlib)
{ path = "generate-bindings.sh", checksum = "268ec23248218d779e33853cdc60e2985e70214ff004716cd734270de1f6b561" },
]
crate = "android-activity"
[[bans.build.bypass]]
allow-globs = ["freetype2/*"]
crate = "freetype-sys"
[[bans.build.bypass]]
allow-globs = ["lib/*.a"]
crate = "windows_i686_gnu"
[[bans.build.bypass]]
allow-globs = ["lib/*.lib"]
crate = "windows_i686_msvc"
[[bans.build.bypass]]
allow-globs = ["lib/*.a"]
crate = "windows_x86_64_gnu"
[[bans.build.bypass]]
allow-globs = ["lib/*.lib"]
crate = "windows_x86_64_msvc"

7
docs/res/ATTRIBUTION.md → docs/ATTRIBUTION.md
View File

@@ -9,3 +9,10 @@ by [Tomiĉo] (https://commons.wikimedia.org/wiki/User:Tomi%C4%89o). It was
originally released under the [CC-BY-SA 4.0](https://creativecommons.org/licenses/by-sa/4.0/deed.en)
License. Minor modifications have been made by [John Nunley](https://github.com/notgull),
which have been released under the same license as a derivative work.
## `coordinate-systems*`
These files are created by [Mads Marquart](https://github.com/madsmtm) using
[draw.io](https://draw.io/), and compressed using [svgomg.net](https://svgomg.net/).
They are licensed under the [CC-BY 4.0](https://creativecommons.org/licenses/by/4.0/) license.

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2
dpi/CHANGELOG.md
View File

@@ -11,6 +11,8 @@ Unreleased` header.
## Unreleased
- Added `Insets`, `LogicalInsets` and `PhysicalInsets` types.
## 0.1.1
- Derive `Debug`, `Copy`, `Clone`, `PartialEq`, `Serialize`, `Deserialize` traits for `PixelUnit`.

25
dpi/Cargo.toml
View File

@@ -1,39 +1,40 @@
[package]
name = "dpi"
version = "0.1.1"
description = "Types for handling UI scaling"
keywords = ["DPI", "HiDPI", "scale-factor"]
categories = ["gui"]
rust-version.workspace = true
repository.workspace = true
license.workspace = true
description = "Types for handling UI scaling"
edition.workspace = true
keywords = ["DPI", "HiDPI", "scale-factor"]
license.workspace = true
name = "dpi"
repository.workspace = true
rust-version.workspace = true
version = "0.1.1"
[features]
serde = ["dep:serde"]
mint = ["dep:mint"]
serde = ["dep:serde"]
[dependencies]
serde = { workspace = true, optional = true }
mint = { workspace = true, optional = true }
serde = { workspace = true, optional = true }
[package.metadata.docs.rs]
features = ["serde", "mint"]
features = ["mint", "serde"]
# These are all tested in CI
rustdoc-args = ["--cfg", "docsrs"]
targets = [
# Windows
"i686-pc-windows-msvc",
"x86_64-pc-windows-msvc",
# macOS
"aarch64-apple-darwin",
"x86_64-apple-darwin",
# Unix (X11 & Wayland)
"i686-unknown-linux-gnu",
"x86_64-unknown-linux-gnu",
# iOS
"x86_64-apple-ios",
"aarch64-apple-ios",
# Android
"aarch64-linux-android",
# Web
"wasm32-unknown-unknown",
]
rustdoc-args = ["--cfg", "docsrs"]

147
dpi/src/lib.rs
View File

@@ -759,11 +759,156 @@ impl<P: Pixel> From<LogicalPosition<P>> for Position {
}
}
/// The logical distance between the edges of two rectangles.
#[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Default, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct LogicalInsets<P> {
/// The distance to the top edge.
pub top: P,
/// The distance to the left edge.
pub left: P,
/// The distance to the bottom edge.
pub bottom: P,
/// The distance to the right edge.
pub right: P,
}
impl<P> LogicalInsets<P> {
#[inline]
pub const fn new(top: P, left: P, bottom: P, right: P) -> Self {
Self { top, left, bottom, right }
}
}
impl<P: Pixel> LogicalInsets<P> {
#[inline]
pub fn from_physical<T: Into<PhysicalInsets<X>>, X: Pixel>(
physical: T,
scale_factor: f64,
) -> Self {
physical.into().to_logical(scale_factor)
}
#[inline]
pub fn to_physical<X: Pixel>(&self, scale_factor: f64) -> PhysicalInsets<X> {
assert!(validate_scale_factor(scale_factor));
let top = self.top.into() * scale_factor;
let left = self.left.into() * scale_factor;
let bottom = self.bottom.into() * scale_factor;
let right = self.right.into() * scale_factor;
PhysicalInsets::new(top, left, bottom, right).cast()
}
#[inline]
pub fn cast<X: Pixel>(&self) -> LogicalInsets<X> {
LogicalInsets {
top: self.top.cast(),
left: self.left.cast(),
bottom: self.bottom.cast(),
right: self.right.cast(),
}
}
}
/// The physical distance between the edges of two rectangles.
#[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Default, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct PhysicalInsets<P> {
/// The distance to the top edge.
pub top: P,
/// The distance to the left edge.
pub left: P,
/// The distance to the bottom edge.
pub bottom: P,
/// The distance to the right edge.
pub right: P,
}
impl<P> PhysicalInsets<P> {
#[inline]
pub const fn new(top: P, left: P, bottom: P, right: P) -> Self {
Self { top, left, bottom, right }
}
}
impl<P: Pixel> PhysicalInsets<P> {
#[inline]
pub fn from_logical<T: Into<LogicalInsets<X>>, X: Pixel>(
logical: T,
scale_factor: f64,
) -> Self {
logical.into().to_physical(scale_factor)
}
#[inline]
pub fn to_logical<X: Pixel>(&self, scale_factor: f64) -> LogicalInsets<X> {
assert!(validate_scale_factor(scale_factor));
let top = self.top.into() / scale_factor;
let left = self.left.into() / scale_factor;
let bottom = self.bottom.into() / scale_factor;
let right = self.right.into() / scale_factor;
LogicalInsets::new(top, left, bottom, right).cast()
}
#[inline]
pub fn cast<X: Pixel>(&self) -> PhysicalInsets<X> {
PhysicalInsets {
top: self.top.cast(),
left: self.left.cast(),
bottom: self.bottom.cast(),
right: self.right.cast(),
}
}
}
/// Insets that are either physical or logical.
#[derive(Debug, Copy, Clone, PartialEq)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum Insets {
Physical(PhysicalInsets<u32>),
Logical(LogicalInsets<f64>),
}
impl Insets {
pub fn new<S: Into<Self>>(insets: S) -> Self {
insets.into()
}
pub fn to_logical<P: Pixel>(&self, scale_factor: f64) -> LogicalInsets<P> {
match *self {
Self::Physical(insets) => insets.to_logical(scale_factor),
Self::Logical(insets) => insets.cast(),
}
}
pub fn to_physical<P: Pixel>(&self, scale_factor: f64) -> PhysicalInsets<P> {
match *self {
Self::Physical(insets) => insets.cast(),
Self::Logical(insets) => insets.to_physical(scale_factor),
}
}
}
impl<P: Pixel> From<PhysicalInsets<P>> for Insets {
#[inline]
fn from(insets: PhysicalInsets<P>) -> Self {
Self::Physical(insets.cast())
}
}
impl<P: Pixel> From<LogicalInsets<P>> for Insets {
#[inline]
fn from(insets: LogicalInsets<P>) -> Self {
Self::Logical(insets.cast())
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::collections::HashSet;
use super::*;
macro_rules! test_pixel_int_impl {
($($name:ident => $ty:ty),*) => {$(
#[test]

97
examples/child_window.rs
View File

@@ -1,55 +1,50 @@
#[cfg(all(feature = "rwh_06", any(x11_platform, macos_platform, windows_platform)))]
#[cfg(any(x11_platform, macos_platform, windows_platform))]
#[allow(deprecated)]
fn main() -> Result<(), impl std::error::Error> {
use std::collections::HashMap;
use winit::application::ApplicationHandler;
use winit::dpi::{LogicalPosition, LogicalSize, Position};
use winit::event::{ElementState, Event, KeyEvent, WindowEvent};
use winit::event::{ElementState, KeyEvent, WindowEvent};
use winit::event_loop::{ActiveEventLoop, EventLoop};
use winit::raw_window_handle::HasRawWindowHandle;
use winit::window::Window;
use winit::window::{Window, WindowAttributes, WindowId};
#[path = "util/fill.rs"]
mod fill;
fn spawn_child_window(parent: &Window, event_loop: &ActiveEventLoop) -> Window {
let parent = parent.raw_window_handle().unwrap();
let mut window_attributes = Window::default_attributes()
.with_title("child window")
.with_inner_size(LogicalSize::new(200.0f32, 200.0f32))
.with_position(Position::Logical(LogicalPosition::new(0.0, 0.0)))
.with_visible(true);
// `with_parent_window` is unsafe. Parent window must be a valid window.
window_attributes = unsafe { window_attributes.with_parent_window(Some(parent)) };
event_loop.create_window(window_attributes).unwrap()
#[derive(Default)]
struct Application {
parent_window_id: Option<WindowId>,
windows: HashMap<WindowId, Box<dyn Window>>,
}
let mut windows = HashMap::new();
impl ApplicationHandler for Application {
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
let attributes = WindowAttributes::default()
.with_title("parent window")
.with_position(Position::Logical(LogicalPosition::new(0.0, 0.0)))
.with_surface_size(LogicalSize::new(640.0f32, 480.0f32));
let window = event_loop.create_window(attributes).unwrap();
let event_loop: EventLoop<()> = EventLoop::new().unwrap();
let mut parent_window_id = None;
println!("Parent window id: {:?})", window.id());
self.parent_window_id = Some(window.id());
event_loop.run(move |event: Event<()>, event_loop| {
match event {
Event::Resumed => {
let attributes = Window::default_attributes()
.with_title("parent window")
.with_position(Position::Logical(LogicalPosition::new(0.0, 0.0)))
.with_inner_size(LogicalSize::new(640.0f32, 480.0f32));
let window = event_loop.create_window(attributes).unwrap();
self.windows.insert(window.id(), window);
}
parent_window_id = Some(window.id());
println!("Parent window id: {parent_window_id:?})");
windows.insert(window.id(), window);
},
Event::WindowEvent { window_id, event } => match event {
fn window_event(
&mut self,
event_loop: &dyn ActiveEventLoop,
window_id: winit::window::WindowId,
event: WindowEvent,
) {
match event {
WindowEvent::CloseRequested => {
windows.clear();
self.windows.clear();
event_loop.exit();
},
WindowEvent::CursorEntered { device_id: _ } => {
WindowEvent::PointerEntered { device_id: _, .. } => {
// On x11, println when the cursor entered in a window even if the child window
// is created by some key inputs.
// the child windows are always placed at (0, 0) with size (200, 200) in the
@@ -61,25 +56,43 @@ fn main() -> Result<(), impl std::error::Error> {
event: KeyEvent { state: ElementState::Pressed, .. },
..
} => {
let parent_window = windows.get(&parent_window_id.unwrap()).unwrap();
let child_window = spawn_child_window(parent_window, event_loop);
let parent_window = self.windows.get(&self.parent_window_id.unwrap()).unwrap();
let child_window = spawn_child_window(parent_window.as_ref(), event_loop);
let child_id = child_window.id();
println!("Child window created with id: {child_id:?}");
windows.insert(child_id, child_window);
self.windows.insert(child_id, child_window);
},
WindowEvent::RedrawRequested => {
if let Some(window) = windows.get(&window_id) {
fill::fill_window(window);
if let Some(window) = self.windows.get(&window_id) {
fill::fill_window(window.as_ref());
}
},
_ => (),
},
_ => (),
}
}
})
}
fn spawn_child_window(
parent: &dyn Window,
event_loop: &dyn ActiveEventLoop,
) -> Box<dyn Window> {
let parent = parent.raw_window_handle().unwrap();
let mut window_attributes = WindowAttributes::default()
.with_title("child window")
.with_surface_size(LogicalSize::new(200.0f32, 200.0f32))
.with_position(Position::Logical(LogicalPosition::new(0.0, 0.0)))
.with_visible(true);
// `with_parent_window` is unsafe. Parent window must be a valid window.
window_attributes = unsafe { window_attributes.with_parent_window(Some(parent)) };
event_loop.create_window(window_attributes).unwrap()
}
let event_loop = EventLoop::new().unwrap();
event_loop.run_app(Application::default())
}
#[cfg(all(feature = "rwh_06", not(any(x11_platform, macos_platform, windows_platform))))]
#[cfg(not(any(x11_platform, macos_platform, windows_platform)))]
fn main() {
panic!(
"This example is supported only on x11, macOS, and Windows, with the `rwh_06` feature \

20
examples/control_flow.rs
View File

@@ -7,12 +7,11 @@ use std::time;
use ::tracing::{info, warn};
#[cfg(web_platform)]
use web_time as time;
use winit::application::ApplicationHandler;
use winit::event::{ElementState, KeyEvent, StartCause, WindowEvent};
use winit::event_loop::{ActiveEventLoop, ControlFlow, EventLoop};
use winit::keyboard::{Key, NamedKey};
use winit::window::{Window, WindowId};
use winit::window::{Window, WindowAttributes, WindowId};
#[path = "util/fill.rs"]
mod fill;
@@ -44,8 +43,7 @@ fn main() -> Result<(), impl std::error::Error> {
let event_loop = EventLoop::new().unwrap();
let mut app = ControlFlowDemo::default();
event_loop.run_app(&mut app)
event_loop.run_app(ControlFlowDemo::default())
}
#[derive(Default)]
@@ -54,11 +52,11 @@ struct ControlFlowDemo {
request_redraw: bool,
wait_cancelled: bool,
close_requested: bool,
window: Option<Window>,
window: Option<Box<dyn Window>>,
}
impl ApplicationHandler for ControlFlowDemo {
fn new_events(&mut self, _event_loop: &ActiveEventLoop, cause: StartCause) {
fn new_events(&mut self, _event_loop: &dyn ActiveEventLoop, cause: StartCause) {
info!("new_events: {cause:?}");
self.wait_cancelled = match cause {
@@ -67,8 +65,8 @@ impl ApplicationHandler for ControlFlowDemo {
}
}
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
let window_attributes = Window::default_attributes().with_title(
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
let window_attributes = WindowAttributes::default().with_title(
"Press 1, 2, 3 to change control flow mode. Press R to toggle redraw requests.",
);
self.window = Some(event_loop.create_window(window_attributes).unwrap());
@@ -76,7 +74,7 @@ impl ApplicationHandler for ControlFlowDemo {
fn window_event(
&mut self,
_event_loop: &ActiveEventLoop,
_event_loop: &dyn ActiveEventLoop,
_window_id: WindowId,
event: WindowEvent,
) {
@@ -116,13 +114,13 @@ impl ApplicationHandler for ControlFlowDemo {
WindowEvent::RedrawRequested => {
let window = self.window.as_ref().unwrap();
window.pre_present_notify();
fill::fill_window(window);
fill::fill_window(window.as_ref());
},
_ => (),
}
}
fn about_to_wait(&mut self, event_loop: &ActiveEventLoop) {
fn about_to_wait(&mut self, event_loop: &dyn ActiveEventLoop) {
if self.request_redraw && !self.wait_cancelled && !self.close_requested {
self.window.as_ref().unwrap().request_redraw();
}

12
examples/pump_events.rs
View File

@@ -11,25 +11,25 @@ fn main() -> std::process::ExitCode {
use winit::event::WindowEvent;
use winit::event_loop::{ActiveEventLoop, EventLoop};
use winit::platform::pump_events::{EventLoopExtPumpEvents, PumpStatus};
use winit::window::{Window, WindowId};
use winit::window::{Window, WindowAttributes, WindowId};
#[path = "util/fill.rs"]
mod fill;
#[derive(Default)]
struct PumpDemo {
window: Option<Window>,
window: Option<Box<dyn Window>>,
}
impl ApplicationHandler for PumpDemo {
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
let window_attributes = Window::default_attributes().with_title("A fantastic window!");
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
let window_attributes = WindowAttributes::default().with_title("A fantastic window!");
self.window = Some(event_loop.create_window(window_attributes).unwrap());
}
fn window_event(
&mut self,
event_loop: &ActiveEventLoop,
event_loop: &dyn ActiveEventLoop,
_window_id: WindowId,
event: WindowEvent,
) {
@@ -43,7 +43,7 @@ fn main() -> std::process::ExitCode {
match event {
WindowEvent::CloseRequested => event_loop.exit(),
WindowEvent::RedrawRequested => {
fill::fill_window(window);
fill::fill_window(window.as_ref());
window.request_redraw();
},
_ => (),

18
examples/run_on_demand.rs
View File

@@ -9,7 +9,7 @@ fn main() -> Result<(), Box<dyn std::error::Error>> {
use winit::event::WindowEvent;
use winit::event_loop::{ActiveEventLoop, EventLoop};
use winit::platform::run_on_demand::EventLoopExtRunOnDemand;
use winit::window::{Window, WindowId};
use winit::window::{Window, WindowAttributes, WindowId};
#[path = "util/fill.rs"]
mod fill;
@@ -18,20 +18,20 @@ fn main() -> Result<(), Box<dyn std::error::Error>> {
struct App {
idx: usize,
window_id: Option<WindowId>,
window: Option<Window>,
window: Option<Box<dyn Window>>,
}
impl ApplicationHandler for App {
fn about_to_wait(&mut self, _event_loop: &ActiveEventLoop) {
fn about_to_wait(&mut self, _event_loop: &dyn ActiveEventLoop) {
if let Some(window) = self.window.as_ref() {
window.request_redraw();
}
}
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
let window_attributes = Window::default_attributes()
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
let window_attributes = WindowAttributes::default()
.with_title("Fantastic window number one!")
.with_inner_size(winit::dpi::LogicalSize::new(128.0, 128.0));
.with_surface_size(winit::dpi::LogicalSize::new(128.0, 128.0));
let window = event_loop.create_window(window_attributes).unwrap();
self.window_id = Some(window.id());
self.window = Some(window);
@@ -39,7 +39,7 @@ fn main() -> Result<(), Box<dyn std::error::Error>> {
fn window_event(
&mut self,
event_loop: &ActiveEventLoop,
event_loop: &dyn ActiveEventLoop,
window_id: WindowId,
event: WindowEvent,
) {
@@ -65,11 +65,11 @@ fn main() -> Result<(), Box<dyn std::error::Error>> {
CloseRequested",
self.idx
);
fill::cleanup_window(window);
fill::cleanup_window(window.as_ref());
self.window = None;
},
WindowEvent::RedrawRequested => {
fill::fill_window(window);
fill::fill_window(window.as_ref());
},
_ => (),
}

34
examples/util/fill.rs
View File

@@ -11,7 +11,7 @@
pub use platform::cleanup_window;
pub use platform::fill_window;
#[cfg(all(feature = "rwh_05", not(any(target_os = "android", target_os = "ios"))))]
#[cfg(not(any(target_os = "android", target_os = "ios")))]
mod platform {
use std::cell::RefCell;
use std::collections::HashMap;
@@ -34,18 +34,20 @@ mod platform {
/// The graphics context used to draw to a window.
struct GraphicsContext {
/// The global softbuffer context.
context: RefCell<Context<&'static Window>>,
context: RefCell<Context<&'static dyn Window>>,
/// The hash map of window IDs to surfaces.
surfaces: HashMap<WindowId, Surface<&'static Window, &'static Window>>,
surfaces: HashMap<WindowId, Surface<&'static dyn Window, &'static dyn Window>>,
}
impl GraphicsContext {
fn new(w: &Window) -> Self {
fn new(w: &dyn Window) -> Self {
Self {
context: RefCell::new(
Context::new(unsafe { mem::transmute::<&'_ Window, &'static Window>(w) })
.expect("Failed to create a softbuffer context"),
Context::new(unsafe {
mem::transmute::<&'_ dyn Window, &'static dyn Window>(w)
})
.expect("Failed to create a softbuffer context"),
),
surfaces: HashMap::new(),
}
@@ -53,24 +55,24 @@ mod platform {
fn create_surface(
&mut self,
window: &Window,
) -> &mut Surface<&'static Window, &'static Window> {
window: &dyn Window,
) -> &mut Surface<&'static dyn Window, &'static dyn Window> {
self.surfaces.entry(window.id()).or_insert_with(|| {
Surface::new(&self.context.borrow(), unsafe {
mem::transmute::<&'_ Window, &'static Window>(window)
mem::transmute::<&'_ dyn Window, &'static dyn Window>(window)
})
.expect("Failed to create a softbuffer surface")
})
}
fn destroy_surface(&mut self, window: &Window) {
fn destroy_surface(&mut self, window: &dyn Window) {
self.surfaces.remove(&window.id());
}
}
pub fn fill_window(window: &Window) {
pub fn fill_window(window: &dyn Window) {
GC.with(|gc| {
let size = window.inner_size();
let size = window.surface_size();
let (Some(width), Some(height)) =
(NonZeroU32::new(size.width), NonZeroU32::new(size.height))
else {
@@ -94,7 +96,7 @@ mod platform {
}
#[allow(dead_code)]
pub fn cleanup_window(window: &Window) {
pub fn cleanup_window(window: &dyn Window) {
GC.with(|gc| {
let mut gc = gc.borrow_mut();
if let Some(context) = gc.as_mut() {
@@ -104,14 +106,14 @@ mod platform {
}
}
#[cfg(not(all(feature = "rwh_05", not(any(target_os = "android", target_os = "ios")))))]
#[cfg(any(target_os = "android", target_os = "ios"))]
mod platform {
pub fn fill_window(_window: &winit::window::Window) {
pub fn fill_window(_window: &dyn winit::window::Window) {
// No-op on mobile platforms.
}
#[allow(dead_code)]
pub fn cleanup_window(_window: &winit::window::Window) {
pub fn cleanup_window(_window: &dyn winit::window::Window) {
// No-op on mobile platforms.
}
}

451
examples/window.rs
View File

@@ -3,34 +3,40 @@
use std::collections::HashMap;
use std::error::Error;
use std::fmt::Debug;
#[cfg(not(any(android_platform, ios_platform)))]
#[cfg(not(android_platform))]
use std::num::NonZeroU32;
use std::sync::mpsc::{self, Receiver, Sender};
use std::sync::Arc;
use std::{fmt, mem};
use ::tracing::{error, info};
use cursor_icon::CursorIcon;
#[cfg(not(any(android_platform, ios_platform)))]
#[cfg(not(android_platform))]
use rwh_06::{DisplayHandle, HasDisplayHandle};
#[cfg(not(any(android_platform, ios_platform)))]
#[cfg(not(android_platform))]
use softbuffer::{Context, Surface};
use winit::application::ApplicationHandler;
use winit::dpi::{LogicalSize, PhysicalPosition, PhysicalSize};
use winit::error::RequestError;
use winit::event::{DeviceEvent, DeviceId, Ime, MouseButton, MouseScrollDelta, WindowEvent};
use winit::event_loop::{ActiveEventLoop, EventLoop};
use winit::keyboard::{Key, ModifiersState};
use winit::window::{
Cursor, CursorGrabMode, CustomCursor, CustomCursorSource, Fullscreen, Icon, ResizeDirection,
Theme, Window, WindowId,
};
#[cfg(macos_platform)]
use winit::platform::macos::{OptionAsAlt, WindowAttributesExtMacOS, WindowExtMacOS};
use winit::platform::macos::{
ApplicationHandlerExtMacOS, OptionAsAlt, WindowAttributesExtMacOS, WindowExtMacOS,
};
#[cfg(any(x11_platform, wayland_platform))]
use winit::platform::startup_notify::{
self, EventLoopExtStartupNotify, WindowAttributesExtStartupNotify, WindowExtStartupNotify,
};
#[cfg(web_platform)]
use winit::platform::web::{ActiveEventLoopExtWeb, CustomCursorExtWeb, WindowAttributesExtWeb};
#[cfg(x11_platform)]
use winit::platform::x11::WindowAttributesExtX11;
use winit::window::{
Cursor, CursorGrabMode, CustomCursor, CustomCursorSource, Fullscreen, Icon, ResizeDirection,
Theme, Window, WindowAttributes, WindowId,
};
#[path = "util/tracing.rs"]
mod tracing;
@@ -44,50 +50,51 @@ fn main() -> Result<(), Box<dyn Error>> {
tracing::init();
let event_loop = EventLoop::<UserEvent>::with_user_event().build()?;
let _event_loop_proxy = event_loop.create_proxy();
let event_loop = EventLoop::new()?;
let (sender, receiver) = mpsc::channel();
// Wire the user event from another thread.
#[cfg(not(web_platform))]
std::thread::spawn(move || {
// Wake up the `event_loop` once every second and dispatch a custom event
// from a different thread.
info!("Starting to send user event every second");
loop {
let _ = _event_loop_proxy.send_event(UserEvent::WakeUp);
std::thread::sleep(std::time::Duration::from_secs(1));
}
});
{
let event_loop_proxy = event_loop.create_proxy();
let sender = sender.clone();
std::thread::spawn(move || {
// Wake up the `event_loop` once every second and dispatch a custom event
// from a different thread.
info!("Starting to send user event every second");
loop {
let _ = sender.send(Action::Message);
event_loop_proxy.wake_up();
std::thread::sleep(std::time::Duration::from_secs(1));
}
});
}
let mut state = Application::new(&event_loop);
event_loop.run_app(&mut state).map_err(Into::into)
}
#[allow(dead_code)]
#[derive(Debug, Clone, Copy)]
enum UserEvent {
WakeUp,
let app = Application::new(&event_loop, receiver, sender);
Ok(event_loop.run_app(app)?)
}
/// Application state and event handling.
struct Application {
/// Trigger actions through proxy wake up.
receiver: Receiver<Action>,
sender: Sender<Action>,
/// Custom cursors assets.
custom_cursors: Vec<CustomCursor>,
custom_cursors: Result<Vec<CustomCursor>, RequestError>,
/// Application icon.
icon: Icon,
windows: HashMap<WindowId, WindowState>,
/// Drawing context.
///
/// With OpenGL it could be EGLDisplay.
#[cfg(not(any(android_platform, ios_platform)))]
#[cfg(not(android_platform))]
context: Option<Context<DisplayHandle<'static>>>,
}
impl Application {
fn new<T>(event_loop: &EventLoop<T>) -> Self {
fn new(event_loop: &EventLoop, receiver: Receiver<Action>, sender: Sender<Action>) -> Self {
// SAFETY: we drop the context right before the event loop is stopped, thus making it safe.
#[cfg(not(any(android_platform, ios_platform)))]
#[cfg(not(android_platform))]
let context = Some(
Context::new(unsafe {
std::mem::transmute::<DisplayHandle<'_>, DisplayHandle<'static>>(
@@ -105,14 +112,18 @@ impl Application {
let icon = load_icon(include_bytes!("data/icon.png"));
info!("Loading cursor assets");
let custom_cursors = vec![
let custom_cursors = [
event_loop.create_custom_cursor(decode_cursor(include_bytes!("data/cross.png"))),
event_loop.create_custom_cursor(decode_cursor(include_bytes!("data/cross2.png"))),
event_loop.create_custom_cursor(decode_cursor(include_bytes!("data/gradient.png"))),
];
]
.into_iter()
.collect();
Self {
#[cfg(not(any(android_platform, ios_platform)))]
receiver,
sender,
#[cfg(not(android_platform))]
context,
custom_cursors,
icon,
@@ -122,13 +133,13 @@ impl Application {
fn create_window(
&mut self,
event_loop: &ActiveEventLoop,
event_loop: &dyn ActiveEventLoop,
_tab_id: Option<String>,
) -> Result<WindowId, Box<dyn Error>> {
// TODO read-out activation token.
#[allow(unused_mut)]
let mut window_attributes = Window::default_attributes()
let mut window_attributes = WindowAttributes::default()
.with_title("Winit window")
.with_transparent(true)
.with_window_icon(Some(self.icon.clone()));
@@ -140,6 +151,28 @@ impl Application {
window_attributes = window_attributes.with_activation_token(token);
}
#[cfg(x11_platform)]
match std::env::var("X11_VISUAL_ID") {
Ok(visual_id_str) => {
info!("Using X11 visual id {visual_id_str}");
let visual_id = visual_id_str.parse()?;
window_attributes = window_attributes.with_x11_visual(visual_id);
},
Err(_) => info!("Set the X11_VISUAL_ID env variable to request specific X11 visual"),
}
#[cfg(x11_platform)]
match std::env::var("X11_SCREEN_ID") {
Ok(screen_id_str) => {
info!("Placing the window on X11 screen {screen_id_str}");
let screen_id = screen_id_str.parse()?;
window_attributes = window_attributes.with_x11_screen(screen_id);
},
Err(_) => info!(
"Set the X11_SCREEN_ID env variable to place the window on non-default screen"
),
}
#[cfg(macos_platform)]
if let Some(tab_id) = _tab_id {
window_attributes = window_attributes.with_tabbing_identifier(&tab_id);
@@ -147,7 +180,6 @@ impl Application {
#[cfg(web_platform)]
{
use winit::platform::web::WindowAttributesExtWebSys;
window_attributes = window_attributes.with_append(true);
}
@@ -159,6 +191,7 @@ impl Application {
window.recognize_doubletap_gesture(true);
window.recognize_pinch_gesture(true);
window.recognize_rotation_gesture(true);
window.recognize_pan_gesture(true, 2, 2);
}
let window_state = WindowState::new(self, window)?;
@@ -168,7 +201,23 @@ impl Application {
Ok(window_id)
}
fn handle_action(&mut self, event_loop: &ActiveEventLoop, window_id: WindowId, action: Action) {
fn handle_action_from_proxy(&mut self, _event_loop: &dyn ActiveEventLoop, action: Action) {
match action {
#[cfg(web_platform)]
Action::DumpMonitors => self.dump_monitors(_event_loop),
Action::Message => {
info!("User wake up");
},
_ => unreachable!("Tried to execute invalid action without `WindowId`"),
}
}
fn handle_action_with_window(
&mut self,
event_loop: &dyn ActiveEventLoop,
window_id: WindowId,
action: Action,
) {
// let cursor_position = self.cursor_position;
let window = self.windows.get_mut(&window_id).unwrap();
info!("Executing action: {action:?}");
@@ -193,16 +242,35 @@ impl Application {
Action::ToggleResizable => window.toggle_resizable(),
Action::ToggleDecorations => window.toggle_decorations(),
Action::ToggleFullscreen => window.toggle_fullscreen(),
#[cfg(macos_platform)]
Action::ToggleSimpleFullscreen => {
window.window.set_simple_fullscreen(!window.window.simple_fullscreen());
},
Action::ToggleMaximize => window.toggle_maximize(),
Action::ToggleImeInput => window.toggle_ime(),
Action::Minimize => window.minimize(),
Action::NextCursor => window.next_cursor(),
Action::NextCustomCursor => window.next_custom_cursor(&self.custom_cursors),
Action::NextCustomCursor => {
if let Err(err) = self.custom_cursors.as_ref().map(|c| window.next_custom_cursor(c))
{
error!("Error creating custom cursor: {err}");
}
},
#[cfg(web_platform)]
Action::UrlCustomCursor => window.url_custom_cursor(event_loop),
Action::UrlCustomCursor => {
if let Err(err) = window.url_custom_cursor(event_loop) {
error!("Error creating custom cursor from URL: {err}");
}
},
#[cfg(web_platform)]
Action::AnimationCustomCursor => {
window.animation_custom_cursor(event_loop, &self.custom_cursors)
if let Err(err) = self
.custom_cursors
.as_ref()
.map(|c| window.animation_custom_cursor(event_loop, c))
{
error!("Error creating animated custom cursor: {err}");
}
},
Action::CycleCursorGrab => window.cycle_cursor_grab(),
Action::DragWindow => window.drag_window(),
@@ -211,6 +279,12 @@ impl Application {
Action::PrintHelp => self.print_help(),
#[cfg(macos_platform)]
Action::CycleOptionAsAlt => window.cycle_option_as_alt(),
Action::SetTheme(theme) => {
window.window.set_theme(theme);
// Get the resulting current theme to draw with
let actual_theme = theme.or_else(|| window.window.theme()).unwrap_or(Theme::Dark);
window.set_draw_theme(actual_theme);
},
#[cfg(macos_platform)]
Action::CreateNewTab => {
let tab_id = window.window.tabbing_identifier();
@@ -219,10 +293,30 @@ impl Application {
}
},
Action::RequestResize => window.swap_dimensions(),
#[cfg(web_platform)]
Action::DumpMonitors => {
let future = event_loop.request_detailed_monitor_permission();
let proxy = event_loop.create_proxy();
let sender = self.sender.clone();
wasm_bindgen_futures::spawn_local(async move {
if let Err(error) = future.await {
error!("{error}")
}
let _ = sender.send(Action::DumpMonitors);
proxy.wake_up();
});
},
#[cfg(not(web_platform))]
Action::DumpMonitors => self.dump_monitors(event_loop),
Action::Message => {
self.sender.send(Action::Message).unwrap();
event_loop.create_proxy().wake_up();
},
}
}
fn dump_monitors(&self, event_loop: &ActiveEventLoop) {
fn dump_monitors(&self, event_loop: &dyn ActiveEventLoop) {
info!("Monitors information");
let primary_monitor = event_loop.primary_monitor();
for monitor in event_loop.available_monitors() {
@@ -238,27 +332,32 @@ impl Application {
info!("{intro}: [no name]");
}
let PhysicalSize { width, height } = monitor.size();
info!(
" Current mode: {width}x{height}{}",
if let Some(m_hz) = monitor.refresh_rate_millihertz() {
format!(" @ {}.{} Hz", m_hz / 1000, m_hz % 1000)
} else {
String::new()
}
);
if let Some(current_mode) = monitor.current_video_mode() {
let PhysicalSize { width, height } = current_mode.size();
let bits =
current_mode.bit_depth().map(|bits| format!("x{bits}")).unwrap_or_default();
let m_hz = current_mode
.refresh_rate_millihertz()
.map(|m_hz| format!(" @ {}.{} Hz", m_hz.get() / 1000, m_hz.get() % 1000))
.unwrap_or_default();
info!(" {width}x{height}{bits}{m_hz}");
}
let PhysicalPosition { x, y } = monitor.position();
info!(" Position: {x},{y}");
if let Some(PhysicalPosition { x, y }) = monitor.position() {
info!(" Position: {x},{y}");
}
info!(" Scale factor: {}", monitor.scale_factor());
info!(" Available modes (width x height x bit-depth):");
for mode in monitor.video_modes() {
let PhysicalSize { width, height } = mode.size();
let bits = mode.bit_depth();
let m_hz = mode.refresh_rate_millihertz();
info!(" {width}x{height}x{bits} @ {}.{} Hz", m_hz / 1000, m_hz % 1000);
let bits = mode.bit_depth().map(|bits| format!("x{bits}")).unwrap_or_default();
let m_hz = mode
.refresh_rate_millihertz()
.map(|m_hz| format!(" @ {}.{} Hz", m_hz.get() / 1000, m_hz.get() % 1000))
.unwrap_or_default();
info!(" {width}x{height}{bits}{m_hz}");
}
}
}
@@ -301,14 +400,16 @@ impl Application {
}
}
impl ApplicationHandler<UserEvent> for Application {
fn user_event(&mut self, _event_loop: &ActiveEventLoop, event: UserEvent) {
info!("User event: {event:?}");
impl ApplicationHandler for Application {
fn proxy_wake_up(&mut self, event_loop: &dyn ActiveEventLoop) {
while let Ok(action) = self.receiver.try_recv() {
self.handle_action_from_proxy(event_loop, action)
}
}
fn window_event(
&mut self,
event_loop: &ActiveEventLoop,
event_loop: &dyn ActiveEventLoop,
window_id: WindowId,
event: WindowEvent,
) {
@@ -318,7 +419,7 @@ impl ApplicationHandler<UserEvent> for Application {
};
match event {
WindowEvent::Resized(size) => {
WindowEvent::SurfaceResized(size) => {
window.resize(size);
},
WindowEvent::Focused(focused) => {
@@ -333,7 +434,7 @@ impl ApplicationHandler<UserEvent> for Application {
},
WindowEvent::ThemeChanged(theme) => {
info!("Theme changed to {theme:?}");
window.set_theme(theme);
window.set_draw_theme(theme);
},
WindowEvent::RedrawRequested => {
if let Err(err) = window.draw() {
@@ -371,24 +472,27 @@ impl ApplicationHandler<UserEvent> for Application {
};
if let Some(action) = action {
self.handle_action(event_loop, window_id, action);
self.handle_action_with_window(event_loop, window_id, action);
}
}
},
WindowEvent::MouseInput { button, state, .. } => {
WindowEvent::PointerButton { button, state, .. } => {
info!("Pointer button {button:?} {state:?}");
let mods = window.modifiers;
if let Some(action) =
state.is_pressed().then(|| Self::process_mouse_binding(button, &mods)).flatten()
if let Some(action) = state
.is_pressed()
.then(|| Self::process_mouse_binding(button.mouse_button(), &mods))
.flatten()
{
self.handle_action(event_loop, window_id, action);
self.handle_action_with_window(event_loop, window_id, action);
}
},
WindowEvent::CursorLeft { .. } => {
info!("Cursor left Window={window_id:?}");
WindowEvent::PointerLeft { .. } => {
info!("Pointer left Window={window_id:?}");
window.cursor_left();
},
WindowEvent::CursorMoved { position, .. } => {
info!("Moved cursor to {position:?}");
WindowEvent::PointerMoved { position, .. } => {
info!("Moved pointer to {position:?}");
window.cursor_moved(position);
},
WindowEvent::ActivationTokenDone { token: _token, .. } => {
@@ -428,33 +532,36 @@ impl ApplicationHandler<UserEvent> for Application {
info!("Rotated clockwise {delta:.5} (now: {rotated:.5})");
}
},
WindowEvent::PanGesture { delta, phase, .. } => {
window.panned.x += delta.x;
window.panned.y += delta.y;
info!("Panned ({delta:?})) (now: {:?}), {phase:?}", window.panned);
},
WindowEvent::DoubleTapGesture { .. } => {
info!("Smart zoom");
},
WindowEvent::TouchpadPressure { .. }
| WindowEvent::HoveredFileCancelled
| WindowEvent::KeyboardInput { .. }
| WindowEvent::CursorEntered { .. }
| WindowEvent::AxisMotion { .. }
| WindowEvent::PointerEntered { .. }
| WindowEvent::DroppedFile(_)
| WindowEvent::HoveredFile(_)
| WindowEvent::Destroyed
| WindowEvent::Touch(_)
| WindowEvent::Moved(_) => (),
}
}
fn device_event(
&mut self,
_event_loop: &ActiveEventLoop,
device_id: DeviceId,
_event_loop: &dyn ActiveEventLoop,
device_id: Option<DeviceId>,
event: DeviceEvent,
) {
info!("Device {device_id:?} event: {event:?}");
}
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
info!("Resumed the event loop");
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
info!("Ready to create surfaces");
self.dump_monitors(event_loop);
// Create initial window.
@@ -463,18 +570,35 @@ impl ApplicationHandler<UserEvent> for Application {
self.print_help();
}
fn about_to_wait(&mut self, event_loop: &ActiveEventLoop) {
fn about_to_wait(&mut self, event_loop: &dyn ActiveEventLoop) {
if self.windows.is_empty() {
info!("No windows left, exiting...");
event_loop.exit();
}
}
#[cfg(not(any(android_platform, ios_platform)))]
fn exiting(&mut self, _event_loop: &ActiveEventLoop) {
#[cfg(not(android_platform))]
fn exiting(&mut self, _event_loop: &dyn ActiveEventLoop) {
// We must drop the context here.
self.context = None;
}
#[cfg(target_os = "macos")]
fn macos_handler(&mut self) -> Option<&mut dyn ApplicationHandlerExtMacOS> {
Some(self)
}
}
#[cfg(target_os = "macos")]
impl ApplicationHandlerExtMacOS for Application {
fn standard_key_binding(
&mut self,
_event_loop: &dyn ActiveEventLoop,
window_id: WindowId,
action: &str,
) {
info!(?window_id, ?action, "macOS standard key binding");
}
}
/// State of the window.
@@ -484,10 +608,10 @@ struct WindowState {
/// Render surface.
///
/// NOTE: This surface must be dropped before the `Window`.
#[cfg(not(any(android_platform, ios_platform)))]
surface: Surface<DisplayHandle<'static>, Arc<Window>>,
#[cfg(not(android_platform))]
surface: Surface<DisplayHandle<'static>, Arc<dyn Window>>,
/// The actual winit Window.
window: Arc<Window>,
window: Arc<dyn Window>,
/// The window theme we're drawing with.
theme: Theme,
/// Cursor position over the window.
@@ -502,6 +626,8 @@ struct WindowState {
zoom: f64,
/// The amount of rotation of the window.
rotated: f32,
/// The amount of pan of the window.
panned: PhysicalPosition<f32>,
#[cfg(macos_platform)]
option_as_alt: OptionAsAlt,
@@ -513,31 +639,31 @@ struct WindowState {
}
impl WindowState {
fn new(app: &Application, window: Window) -> Result<Self, Box<dyn Error>> {
let window = Arc::new(window);
fn new(app: &Application, window: Box<dyn Window>) -> Result<Self, Box<dyn Error>> {
let window: Arc<dyn Window> = Arc::from(window);
// SAFETY: the surface is dropped before the `window` which provided it with handle, thus
// it doesn't outlive it.
#[cfg(not(any(android_platform, ios_platform)))]
#[cfg(not(android_platform))]
let surface = Surface::new(app.context.as_ref().unwrap(), Arc::clone(&window))?;
let theme = window.theme().unwrap_or(Theme::Dark);
info!("Theme: {theme:?}");
let named_idx = 0;
window.set_cursor(CURSORS[named_idx]);
window.set_cursor(CURSORS[named_idx].into());
// Allow IME out of the box.
let ime = true;
window.set_ime_allowed(ime);
let size = window.inner_size();
let size = window.surface_size();
let mut state = Self {
#[cfg(macos_platform)]
option_as_alt: window.option_as_alt(),
custom_idx: app.custom_cursors.len() - 1,
custom_idx: app.custom_cursors.as_ref().map(Vec::len).unwrap_or(1) - 1,
cursor_grab: CursorGrabMode::None,
named_idx,
#[cfg(not(any(android_platform, ios_platform)))]
#[cfg(not(android_platform))]
surface,
window,
theme,
@@ -547,6 +673,7 @@ impl WindowState {
modifiers: Default::default(),
occluded: Default::default(),
rotated: Default::default(),
panned: Default::default(),
zoom: Default::default(),
};
@@ -558,7 +685,7 @@ impl WindowState {
self.ime = !self.ime;
self.window.set_ime_allowed(self.ime);
if let Some(position) = self.ime.then_some(self.cursor_position).flatten() {
self.window.set_ime_cursor_area(position, PhysicalSize::new(20, 20));
self.window.set_ime_cursor_area(position.into(), PhysicalSize::new(20, 20).into());
}
}
@@ -569,7 +696,7 @@ impl WindowState {
pub fn cursor_moved(&mut self, position: PhysicalPosition<f64>) {
self.cursor_position = Some(position);
if self.ime {
self.window.set_ime_cursor_area(position, PhysicalSize::new(20, 20));
self.window.set_ime_cursor_area(position.into(), PhysicalSize::new(20, 20).into());
}
}
@@ -603,12 +730,12 @@ impl WindowState {
/// Toggle resize increments on a window.
fn toggle_resize_increments(&mut self) {
let new_increments = match self.window.resize_increments() {
let new_increments = match self.window.surface_resize_increments() {
Some(_) => None,
None => Some(LogicalSize::new(25.0, 25.0)),
None => Some(LogicalSize::new(25.0, 25.0).into()),
};
info!("Had increments: {}", new_increments.is_none());
self.window.set_resize_increments(new_increments);
self.window.set_surface_resize_increments(new_increments);
}
/// Toggle fullscreen.
@@ -647,22 +774,22 @@ impl WindowState {
self.window.set_option_as_alt(self.option_as_alt);
}
/// Swap the window dimensions with `request_inner_size`.
/// Swap the window dimensions with `request_surface_size`.
fn swap_dimensions(&mut self) {
let old_inner_size = self.window.inner_size();
let mut inner_size = old_inner_size;
let old_surface_size = self.window.surface_size();
let mut surface_size = old_surface_size;
mem::swap(&mut inner_size.width, &mut inner_size.height);
info!("Requesting resize from {old_inner_size:?} to {inner_size:?}");
mem::swap(&mut surface_size.width, &mut surface_size.height);
info!("Requesting resize from {old_surface_size:?} to {surface_size:?}");
if let Some(new_inner_size) = self.window.request_inner_size(inner_size) {
if old_inner_size == new_inner_size {
if let Some(new_surface_size) = self.window.request_surface_size(surface_size.into()) {
if old_surface_size == new_surface_size {
info!("Inner size change got ignored");
} else {
self.resize(new_inner_size);
self.resize(new_surface_size);
}
} else {
info!("Request inner size is asynchronous");
info!("Requesting surface size is asynchronous");
}
}
@@ -682,37 +809,43 @@ impl WindowState {
/// Custom cursor from an URL.
#[cfg(web_platform)]
fn url_custom_cursor(&mut self, event_loop: &ActiveEventLoop) {
let cursor = event_loop.create_custom_cursor(url_custom_cursor());
fn url_custom_cursor(
&mut self,
event_loop: &dyn ActiveEventLoop,
) -> Result<(), Box<dyn Error>> {
let cursor = event_loop.create_custom_cursor(url_custom_cursor())?;
self.window.set_cursor(cursor);
self.window.set_cursor(cursor.into());
Ok(())
}
/// Custom cursor from a URL.
#[cfg(web_platform)]
fn animation_custom_cursor(
&mut self,
event_loop: &ActiveEventLoop,
event_loop: &dyn ActiveEventLoop,
custom_cursors: &[CustomCursor],
) {
) -> Result<(), Box<dyn Error>> {
use std::time::Duration;
use winit::platform::web::CustomCursorExtWebSys;
let cursors = vec![
custom_cursors[0].clone(),
custom_cursors[1].clone(),
event_loop.create_custom_cursor(url_custom_cursor()),
event_loop.create_custom_cursor(url_custom_cursor())?,
];
let cursor = CustomCursor::from_animation(Duration::from_secs(3), cursors).unwrap();
let cursor = event_loop.create_custom_cursor(cursor);
let cursor = event_loop.create_custom_cursor(cursor)?;
self.window.set_cursor(cursor);
self.window.set_cursor(cursor.into());
Ok(())
}
/// Resize the window to the new size.
/// Resize the surface to the new size.
fn resize(&mut self, size: PhysicalSize<u32>) {
info!("Resized to {size:?}");
#[cfg(not(any(android_platform, ios_platform)))]
info!("Surface resized to {size:?}");
#[cfg(not(android_platform))]
{
let (width, height) = match (NonZeroU32::new(size.width), NonZeroU32::new(size.height))
{
@@ -724,8 +857,8 @@ impl WindowState {
self.window.request_redraw();
}
/// Change the theme.
fn set_theme(&mut self, theme: Theme) {
/// Change the theme that things are drawn in.
fn set_draw_theme(&mut self, theme: Theme) {
self.theme = theme;
self.window.request_redraw();
}
@@ -733,7 +866,7 @@ impl WindowState {
/// Show window menu.
fn show_menu(&self) {
if let Some(position) = self.cursor_position {
self.window.show_window_menu(position);
self.window.show_window_menu(position.into());
}
}
@@ -756,7 +889,7 @@ impl WindowState {
},
};
let win_size = self.window.inner_size();
let win_size = self.window.surface_size();
let border_size = BORDER_SIZE * self.window.scale_factor();
let x_direction = if position.x < border_size {
@@ -805,29 +938,49 @@ impl WindowState {
}
/// Draw the window contents.
#[cfg(not(any(android_platform, ios_platform)))]
#[cfg(not(android_platform))]
fn draw(&mut self) -> Result<(), Box<dyn Error>> {
if self.occluded {
info!("Skipping drawing occluded window={:?}", self.window.id());
return Ok(());
}
const WHITE: u32 = 0xffffffff;
const DARK_GRAY: u32 = 0xff181818;
let color = match self.theme {
Theme::Light => WHITE,
Theme::Dark => DARK_GRAY,
};
let mut buffer = self.surface.buffer_mut()?;
buffer.fill(color);
// Draw a different color inside the safe area
let surface_size = self.window.surface_size();
let insets = self.window.safe_area();
for y in 0..surface_size.height {
for x in 0..surface_size.width {
let index = y as usize * surface_size.width as usize + x as usize;
if insets.left <= x
&& x <= (surface_size.width - insets.right)
&& insets.top <= y
&& y <= (surface_size.height - insets.bottom)
{
// In safe area
buffer[index] = match self.theme {
Theme::Light => 0xffe8e8e8, // Light gray
Theme::Dark => 0xff525252, // Medium gray
};
} else {
// Outside safe area
buffer[index] = match self.theme {
Theme::Light => 0xffffffff, // White
Theme::Dark => 0xff181818, // Dark gray
};
}
}
}
// Present the buffer
self.window.pre_present_notify();
buffer.present()?;
Ok(())
}
#[cfg(any(android_platform, ios_platform))]
#[cfg(android_platform)]
fn draw(&mut self) -> Result<(), Box<dyn Error>> {
info!("Drawing but without rendering...");
Ok(())
@@ -860,6 +1013,8 @@ enum Action {
ToggleDecorations,
ToggleResizable,
ToggleFullscreen,
#[cfg(macos_platform)]
ToggleSimpleFullscreen,
ToggleMaximize,
Minimize,
NextCursor,
@@ -875,9 +1030,12 @@ enum Action {
ShowWindowMenu,
#[cfg(macos_platform)]
CycleOptionAsAlt,
SetTheme(Option<Theme>),
#[cfg(macos_platform)]
CreateNewTab,
RequestResize,
DumpMonitors,
Message,
}
impl Action {
@@ -890,6 +1048,8 @@ impl Action {
Action::ToggleDecorations => "Toggle decorations",
Action::ToggleResizable => "Toggle window resizable state",
Action::ToggleFullscreen => "Toggle fullscreen",
#[cfg(macos_platform)]
Action::ToggleSimpleFullscreen => "Toggle simple fullscreen",
Action::ToggleMaximize => "Maximize",
Action::Minimize => "Minimize",
Action::ToggleResizeIncrements => "Use resize increments when resizing window",
@@ -906,9 +1066,20 @@ impl Action {
Action::ShowWindowMenu => "Show window menu",
#[cfg(macos_platform)]
Action::CycleOptionAsAlt => "Cycle option as alt mode",
Action::SetTheme(None) => "Change to the system theme",
Action::SetTheme(Some(Theme::Light)) => "Change to a light theme",
Action::SetTheme(Some(Theme::Dark)) => "Change to a dark theme",
#[cfg(macos_platform)]
Action::CreateNewTab => "Create new tab",
Action::RequestResize => "Request a resize",
#[cfg(not(web_platform))]
Action::DumpMonitors => "Dump monitor information",
#[cfg(web_platform)]
Action::DumpMonitors => {
"Request permission to query detailed monitor information and dump monitor \
information"
},
Action::Message => "Prints a message through a user wake up",
}
}
}
@@ -931,8 +1102,6 @@ fn decode_cursor(bytes: &[u8]) -> CustomCursorSource {
fn url_custom_cursor() -> CustomCursorSource {
use std::sync::atomic::{AtomicU64, Ordering};
use winit::platform::web::CustomCursorExtWebSys;
static URL_COUNTER: AtomicU64 = AtomicU64::new(0);
CustomCursor::from_url(
@@ -1023,6 +1192,8 @@ const KEY_BINDINGS: &[Binding<&'static str>] = &[
Binding::new("Q", ModifiersState::CONTROL, Action::CloseWindow),
Binding::new("H", ModifiersState::CONTROL, Action::PrintHelp),
Binding::new("F", ModifiersState::CONTROL, Action::ToggleFullscreen),
#[cfg(macos_platform)]
Binding::new("F", ModifiersState::ALT, Action::ToggleSimpleFullscreen),
Binding::new("D", ModifiersState::CONTROL, Action::ToggleDecorations),
Binding::new("I", ModifiersState::CONTROL, Action::ToggleImeInput),
Binding::new("L", ModifiersState::CONTROL, Action::CycleCursorGrab),
@@ -1030,6 +1201,7 @@ const KEY_BINDINGS: &[Binding<&'static str>] = &[
Binding::new("R", ModifiersState::CONTROL, Action::ToggleResizable),
Binding::new("R", ModifiersState::ALT, Action::RequestResize),
// M.
Binding::new("M", ModifiersState::CONTROL.union(ModifiersState::ALT), Action::DumpMonitors),
Binding::new("M", ModifiersState::CONTROL, Action::ToggleMaximize),
Binding::new("M", ModifiersState::ALT, Action::Minimize),
// N.
@@ -1050,10 +1222,15 @@ const KEY_BINDINGS: &[Binding<&'static str>] = &[
Action::AnimationCustomCursor,
),
Binding::new("Z", ModifiersState::CONTROL, Action::ToggleCursorVisibility),
// K.
Binding::new("K", ModifiersState::empty(), Action::SetTheme(None)),
Binding::new("K", ModifiersState::SUPER, Action::SetTheme(Some(Theme::Light))),
Binding::new("K", ModifiersState::CONTROL, Action::SetTheme(Some(Theme::Dark))),
#[cfg(macos_platform)]
Binding::new("T", ModifiersState::SUPER, Action::CreateNewTab),
#[cfg(macos_platform)]
Binding::new("O", ModifiersState::CONTROL, Action::CycleOptionAsAlt),
Binding::new("S", ModifiersState::CONTROL, Action::Message),
];
const MOUSE_BINDINGS: &[Binding<MouseButton>] = &[

19
examples/x11_embed.rs
View File

@@ -7,21 +7,21 @@ fn main() -> Result<(), Box<dyn Error>> {
use winit::event::WindowEvent;
use winit::event_loop::{ActiveEventLoop, EventLoop};
use winit::platform::x11::WindowAttributesExtX11;
use winit::window::{Window, WindowId};
use winit::window::{Window, WindowAttributes, WindowId};
#[path = "util/fill.rs"]
mod fill;
pub struct XEmbedDemo {
parent_window_id: u32,
window: Option<Window>,
window: Option<Box<dyn Window>>,
}
impl ApplicationHandler for XEmbedDemo {
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
let window_attributes = Window::default_attributes()
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
let window_attributes = WindowAttributes::default()
.with_title("An embedded window!")
.with_inner_size(winit::dpi::LogicalSize::new(128.0, 128.0))
.with_surface_size(winit::dpi::LogicalSize::new(128.0, 128.0))
.with_embed_parent_window(self.parent_window_id);
self.window = Some(event_loop.create_window(window_attributes).unwrap());
@@ -29,7 +29,7 @@ fn main() -> Result<(), Box<dyn Error>> {
fn window_event(
&mut self,
event_loop: &ActiveEventLoop,
event_loop: &dyn ActiveEventLoop,
_window_id: WindowId,
event: WindowEvent,
) {
@@ -38,13 +38,13 @@ fn main() -> Result<(), Box<dyn Error>> {
WindowEvent::CloseRequested => event_loop.exit(),
WindowEvent::RedrawRequested => {
window.pre_present_notify();
fill::fill_window(window);
fill::fill_window(window.as_ref());
},
_ => (),
}
}
fn about_to_wait(&mut self, _event_loop: &ActiveEventLoop) {
fn about_to_wait(&mut self, _event_loop: &dyn ActiveEventLoop) {
self.window.as_ref().unwrap().request_redraw();
}
}
@@ -58,8 +58,7 @@ fn main() -> Result<(), Box<dyn Error>> {
tracing_subscriber::fmt::init();
let event_loop = EventLoop::new()?;
let mut app = XEmbedDemo { parent_window_id, window: None };
event_loop.run_app(&mut app).map_err(Into::into)
Ok(event_loop.run_app(XEmbedDemo { parent_window_id, window: None })?)
}
#[cfg(not(x11_platform))]

27
rustfmt.toml
View File

@@ -1,19 +1,20 @@
format_code_in_doc_comments = true
match_block_trailing_comma = true
comment_width = 100
condense_wildcard_suffixes = true
use_field_init_shorthand = true
error_on_unformatted = true
format_code_in_doc_comments = true
format_macro_bodies = true
format_macro_matchers = true
format_strings = true
group_imports = "StdExternalCrate"
hex_literal_case = "Lower"
imports_granularity = "Module"
match_block_trailing_comma = true
newline_style = "Unix"
normalize_comments = true
normalize_doc_attributes = true
overflow_delimited_expr = true
imports_granularity = "Module"
use_small_heuristics = "Max"
format_macro_matchers = true
error_on_unformatted = true
format_macro_bodies = true
hex_literal_case = "Lower"
normalize_comments = true
# Some macros break with this.
reorder_impl_items = false
newline_style = "Unix"
format_strings = true
use_field_init_shorthand = true
use_small_heuristics = "Max"
wrap_comments = true
comment_width = 100

508
src/application.rs
View File

@@ -2,97 +2,202 @@
use crate::event::{DeviceEvent, DeviceId, StartCause, WindowEvent};
use crate::event_loop::ActiveEventLoop;
#[cfg(any(docsrs, macos_platform))]
use crate::platform::macos::ApplicationHandlerExtMacOS;
use crate::window::WindowId;
/// The handler of the application events.
pub trait ApplicationHandler<T: 'static = ()> {
pub trait ApplicationHandler {
/// Emitted when new events arrive from the OS to be processed.
///
/// This is a useful place to put code that should be done before you start processing
/// events, such as updating frame timing information for benchmarking or checking the
/// [`StartCause`] to see if a timer set by
/// [`ControlFlow::WaitUntil`][crate::event_loop::ControlFlow::WaitUntil] has elapsed.
fn new_events(&mut self, event_loop: &ActiveEventLoop, cause: StartCause) {
fn new_events(&mut self, event_loop: &dyn ActiveEventLoop, cause: StartCause) {
let _ = (event_loop, cause);
}
/// Emitted when the application has been resumed.
///
/// For consistency, all platforms emit a `Resumed` event even if they don't themselves have a
/// formal suspend/resume lifecycle. For systems without a formal suspend/resume lifecycle
/// the `Resumed` event is always emitted after the
/// [`NewEvents(StartCause::Init)`][StartCause::Init] event.
/// See [`suspended()`][Self::suspended].
///
/// # Portability
/// ## Platform-specific
///
/// It's recommended that applications should only initialize their graphics context and create
/// a window after they have received their first `Resumed` event. Some systems
/// (specifically Android) won't allow applications to create a render surface until they are
/// resumed.
/// ### iOS
///
/// Considering that the implementation of [`Suspended`] and `Resumed` events may be internally
/// driven by multiple platform-specific events, and that there may be subtle differences across
/// platforms with how these internal events are delivered, it's recommended that applications
/// be able to gracefully handle redundant (i.e. back-to-back) [`Suspended`] or `Resumed`
/// events.
///
/// Also see [`Suspended`] notes.
///
/// ## Android
///
/// On Android, the `Resumed` event is sent when a new [`SurfaceView`] has been created. This is
/// expected to closely correlate with the [`onResume`] lifecycle event but there may
/// technically be a discrepancy.
///
/// [`onResume`]: https://developer.android.com/reference/android/app/Activity#onResume()
///
/// Applications that need to run on Android must wait until they have been `Resumed`
/// before they will be able to create a render surface (such as an `EGLSurface`,
/// [`VkSurfaceKHR`] or [`wgpu::Surface`]) which depend on having a
/// [`SurfaceView`]. Applications must also assume that if they are [`Suspended`], then their
/// render surfaces are invalid and should be dropped.
///
/// Also see [`Suspended`] notes.
///
/// [`SurfaceView`]: https://developer.android.com/reference/android/view/SurfaceView
/// [Activity lifecycle]: https://developer.android.com/guide/components/activities/activity-lifecycle
/// [`VkSurfaceKHR`]: https://www.khronos.org/registry/vulkan/specs/1.3-extensions/man/html/VkSurfaceKHR.html
/// [`wgpu::Surface`]: https://docs.rs/wgpu/latest/wgpu/struct.Surface.html
///
/// ## iOS
///
/// On iOS, the `Resumed` event is emitted in response to an [`applicationDidBecomeActive`]
/// callback which means the application is "active" (according to the
/// [iOS application lifecycle]).
/// On iOS, the [`resumed()`] method is called in response to an [`applicationDidBecomeActive`]
/// callback which means the application is about to transition from the inactive to active
/// state (according to the [iOS application lifecycle]).
///
/// [`applicationDidBecomeActive`]: https://developer.apple.com/documentation/uikit/uiapplicationdelegate/1622956-applicationdidbecomeactive
/// [iOS application lifecycle]: https://developer.apple.com/documentation/uikit/app_and_environment/managing_your_app_s_life_cycle
///
/// ## Web
/// ### Web
///
/// On Web, the `Resumed` event is emitted in response to a [`pageshow`] event
/// with the property [`persisted`] being true, which means that the page is being
/// restored from the [`bfcache`] (back/forward cache) - an in-memory cache that
/// stores a complete snapshot of a page (including the JavaScript heap) as the
/// user is navigating away.
/// On Web, the [`resumed()`] method is called in response to a [`pageshow`] event if the
/// page is being restored from the [`bfcache`] (back/forward cache) - an in-memory cache
/// that stores a complete snapshot of a page (including the JavaScript heap) as the user is
/// navigating away.
///
/// [`pageshow`]: https://developer.mozilla.org/en-US/docs/Web/API/Window/pageshow_event
/// [`persisted`]: https://developer.mozilla.org/en-US/docs/Web/API/PageTransitionEvent/persisted
/// [`bfcache`]: https://web.dev/bfcache/
/// [`Suspended`]: Self::suspended
fn resumed(&mut self, event_loop: &ActiveEventLoop);
/// Emitted when an event is sent from [`EventLoopProxy::send_event`].
///
/// [`EventLoopProxy::send_event`]: crate::event_loop::EventLoopProxy::send_event
fn user_event(&mut self, event_loop: &ActiveEventLoop, event: T) {
let _ = (event_loop, event);
/// ### Android
///
/// On Android, the [`resumed()`] method is called when the `Activity` is (again, if after a
/// prior [`suspended()`]) being displayed to the user. This is a good place to begin drawing
/// visual elements, running animations, etc. It is driven by Android's [`onStart()`] method.
///
/// [`onStart()`]: https://developer.android.com/reference/android/app/Activity#onStart()
///
/// ### Others
///
/// **macOS / Orbital / Wayland / Windows / X11:** Unsupported.
///
/// [`resumed()`]: Self::resumed()
/// [`suspended()`]: Self::suspended()
/// [`exiting()`]: Self::exiting()
fn resumed(&mut self, event_loop: &dyn ActiveEventLoop) {
let _ = event_loop;
}
/// Emitted from the point onwards the application should create render surfaces.
///
/// See [`destroy_surfaces()`].
///
/// ## Portability
///
/// It's recommended that applications should only initialize their render surfaces after the
/// [`can_create_surfaces()`] method is called. Some systems (specifically Android) won't allow
/// applications to create a render surface until that point.
///
/// For consistency, all platforms call this method even if they don't themselves have a formal
/// surface destroy/create lifecycle. For systems without a surface destroy/create lifecycle the
/// [`can_create_surfaces()`] event is always emitted after the [`StartCause::Init`] event.
///
/// Applications should be able to gracefully handle back-to-back [`can_create_surfaces()`] and
/// [`destroy_surfaces()`] calls.
///
/// ## Platform-specific
///
/// ### Android
///
/// On Android, the [`can_create_surfaces()`] method is called when a new [`NativeWindow`]
/// (native [`Surface`]) is created which backs the application window. This is expected to
/// closely correlate with the [`onStart`] lifecycle event which typically results in a surface
/// to be created after the app becomes visible.
///
/// Applications that need to run on Android must wait until they have received a surface before
/// they will be able to create a render surface (such as an `EGLSurface`, [`VkSurfaceKHR`]
/// or [`wgpu::Surface`]) which depend on having a [`NativeWindow`]. Applications must handle
/// [`destroy_surfaces()`], where their render surfaces are invalid and should be dropped.
///
/// [`NativeWindow`]: https://developer.android.com/ndk/reference/group/a-native-window
/// [`Surface`]: https://developer.android.com/reference/android/view/Surface
/// [`onStart`]: https://developer.android.com/reference/android/app/Activity#onStart()
/// [`VkSurfaceKHR`]: https://www.khronos.org/registry/vulkan/specs/1.3-extensions/man/html/VkSurfaceKHR.html
/// [`wgpu::Surface`]: https://docs.rs/wgpu/latest/wgpu/struct.Surface.html
///
/// [`can_create_surfaces()`]: Self::can_create_surfaces()
/// [`destroy_surfaces()`]: Self::destroy_surfaces()
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop);
/// Called after a wake up is requested using [`EventLoopProxy::wake_up()`].
///
/// Multiple calls to the aforementioned method will be merged, and will only wake the event
/// loop once; however, due to the nature of multi-threading some wake ups may appear
/// spuriously. For these reasons, you should not rely on the number of times that this was
/// called.
///
/// The order in which this is emitted in relation to other events is not guaranteed. The time
/// at which this will be emitted is not guaranteed, only that it will happen "soon". That is,
/// there may be several executions of the event loop, including multiple redraws to windows,
/// between [`EventLoopProxy::wake_up()`] being called and the event being delivered.
///
/// [`EventLoopProxy::wake_up()`]: crate::event_loop::EventLoopProxy::wake_up
///
/// # Example
///
/// Use a [`std::sync::mpsc`] channel to handle events from a different thread.
///
/// ```no_run
/// use std::sync::mpsc;
/// use std::thread;
/// use std::time::Duration;
///
/// use winit::application::ApplicationHandler;
/// use winit::event_loop::{ActiveEventLoop, EventLoop};
///
/// struct MyApp {
/// receiver: mpsc::Receiver<u64>,
/// }
///
/// impl ApplicationHandler for MyApp {
/// # fn window_event(
/// # &mut self,
/// # _event_loop: &dyn ActiveEventLoop,
/// # _window_id: winit::window::WindowId,
/// # _event: winit::event::WindowEvent,
/// # ) {
/// # }
/// #
/// # fn can_create_surfaces(&mut self, _event_loop: &dyn ActiveEventLoop) {}
/// #
/// fn proxy_wake_up(&mut self, _event_loop: &dyn ActiveEventLoop) {
/// // Iterate current events, since wake-ups may have been merged.
/// //
/// // Note: We take care not to use `recv` or `iter` here, as those are blocking,
/// // and that would be bad for performance and might lead to a deadlock.
/// for i in self.receiver.try_iter() {
/// println!("received: {i}");
/// }
/// }
///
/// // Rest of `ApplicationHandler`
/// }
///
/// fn main() -> Result<(), Box<dyn std::error::Error>> {
/// let event_loop = EventLoop::new()?;
///
/// let (sender, receiver) = mpsc::channel();
///
/// let mut app = MyApp { receiver };
///
/// // Send an event in a loop
/// let proxy = event_loop.create_proxy();
/// let background_thread = thread::spawn(move || {
/// let mut i = 0;
/// loop {
/// println!("sending: {i}");
/// if sender.send(i).is_err() {
/// // Stop sending once `MyApp` is dropped
/// break;
/// }
/// // Trigger the wake-up _after_ we placed the event in the channel.
/// // Otherwise, `proxy_wake_up` might be triggered prematurely.
/// proxy.wake_up();
/// i += 1;
/// thread::sleep(Duration::from_secs(1));
/// }
/// });
///
/// event_loop.run_app(&mut app)?;
///
/// drop(app);
/// background_thread.join().unwrap();
///
/// Ok(())
/// }
/// ```
fn proxy_wake_up(&mut self, event_loop: &dyn ActiveEventLoop) {
let _ = event_loop;
}
/// Emitted when the OS sends an event to a winit window.
fn window_event(
&mut self,
event_loop: &ActiveEventLoop,
event_loop: &dyn ActiveEventLoop,
window_id: WindowId,
event: WindowEvent,
);
@@ -100,8 +205,8 @@ pub trait ApplicationHandler<T: 'static = ()> {
/// Emitted when the OS sends an event to a device.
fn device_event(
&mut self,
event_loop: &ActiveEventLoop,
device_id: DeviceId,
event_loop: &dyn ActiveEventLoop,
device_id: Option<DeviceId>,
event: DeviceEvent,
) {
let _ = (event_loop, device_id, event);
@@ -118,80 +223,98 @@ pub trait ApplicationHandler<T: 'static = ()> {
///
/// This is not an ideal event to drive application rendering from and instead applications
/// should render in response to [`WindowEvent::RedrawRequested`] events.
fn about_to_wait(&mut self, event_loop: &ActiveEventLoop) {
fn about_to_wait(&mut self, event_loop: &dyn ActiveEventLoop) {
let _ = event_loop;
}
/// Emitted when the application has been suspended.
///
/// # Portability
/// See [`resumed()`][Self::resumed].
///
/// Not all platforms support the notion of suspending applications, and there may be no
/// technical way to guarantee being able to emit a `Suspended` event if the OS has
/// no formal application lifecycle (currently only Android, iOS, and Web do). For this reason,
/// Winit does not currently try to emit pseudo `Suspended` events before the application
/// quits on platforms without an application lifecycle.
/// ## Platform-specific
///
/// Considering that the implementation of `Suspended` and [`Resumed`] events may be internally
/// driven by multiple platform-specific events, and that there may be subtle differences across
/// platforms with how these internal events are delivered, it's recommended that applications
/// be able to gracefully handle redundant (i.e. back-to-back) `Suspended` or [`Resumed`]
/// events.
/// ### iOS
///
/// Also see [`Resumed`] notes.
///
/// ## Android
///
/// On Android, the `Suspended` event is only sent when the application's associated
/// [`SurfaceView`] is destroyed. This is expected to closely correlate with the [`onPause`]
/// lifecycle event but there may technically be a discrepancy.
///
/// [`onPause`]: https://developer.android.com/reference/android/app/Activity#onPause()
///
/// Applications that need to run on Android should assume their [`SurfaceView`] has been
/// destroyed, which indirectly invalidates any existing render surfaces that may have been
/// created outside of Winit (such as an `EGLSurface`, [`VkSurfaceKHR`] or [`wgpu::Surface`]).
///
/// After being `Suspended` on Android applications must drop all render surfaces before
/// the event callback completes, which may be re-created when the application is next
/// [`Resumed`].
///
/// [`SurfaceView`]: https://developer.android.com/reference/android/view/SurfaceView
/// [Activity lifecycle]: https://developer.android.com/guide/components/activities/activity-lifecycle
/// [`VkSurfaceKHR`]: https://www.khronos.org/registry/vulkan/specs/1.3-extensions/man/html/VkSurfaceKHR.html
/// [`wgpu::Surface`]: https://docs.rs/wgpu/latest/wgpu/struct.Surface.html
///
/// ## iOS
///
/// On iOS, the `Suspended` event is currently emitted in response to an
/// [`applicationWillResignActive`] callback which means that the application is
/// about to transition from the active to inactive state (according to the
/// [iOS application lifecycle]).
/// On iOS, the [`suspended()`] method is called in response to an
/// [`applicationWillResignActive`] callback which means that the application is about to
/// transition from the active to inactive state (according to the [iOS application lifecycle]).
///
/// [`applicationWillResignActive`]: https://developer.apple.com/documentation/uikit/uiapplicationdelegate/1622950-applicationwillresignactive
/// [iOS application lifecycle]: https://developer.apple.com/documentation/uikit/app_and_environment/managing_your_app_s_life_cycle
///
/// ## Web
/// ### Web
///
/// On Web, the `Suspended` event is emitted in response to a [`pagehide`] event
/// with the property [`persisted`] being true, which means that the page is being
/// put in the [`bfcache`] (back/forward cache) - an in-memory cache that stores a
/// complete snapshot of a page (including the JavaScript heap) as the user is
/// On Web, the [`suspended()`] method is called in response to a [`pagehide`] event if the
/// page is being stored in the [`bfcache`] (back/forward cache) - an in-memory cache that
/// stores a complete snapshot of a page (including the JavaScript heap) as the user is
/// navigating away.
///
/// [`pagehide`]: https://developer.mozilla.org/en-US/docs/Web/API/Window/pagehide_event
/// [`persisted`]: https://developer.mozilla.org/en-US/docs/Web/API/PageTransitionEvent/persisted
/// [`bfcache`]: https://web.dev/bfcache/
/// [`Resumed`]: Self::resumed
fn suspended(&mut self, event_loop: &ActiveEventLoop) {
///
/// ### Android
///
/// On Android, the [`suspended()`] method is called when the `Activity` is no longer visible
/// to the user. This is a good place to stop refreshing UI, running animations and other visual
/// things. It is driven by Android's [`onStop()`] method.
///
/// After this event the application either receives [`resumed()`] again, or [`exiting()`].
///
/// [`onStop()`]: https://developer.android.com/reference/android/app/Activity#onStop()
///
/// ### Others
///
/// **macOS / Orbital / Wayland / Windows / X11:** Unsupported.
///
/// [`resumed()`]: Self::resumed()
/// [`suspended()`]: Self::suspended()
/// [`exiting()`]: Self::exiting()
fn suspended(&mut self, event_loop: &dyn ActiveEventLoop) {
let _ = event_loop;
}
/// Emitted when the application must destroy its render surfaces.
///
/// See [`can_create_surfaces()`] for more details.
///
/// ## Platform-specific
///
/// ### Android
///
/// On Android, the [`destroy_surfaces()`] method is called when the application's
/// [`NativeWindow`] (native [`Surface`]) is destroyed. This is expected to closely correlate
/// with the [`onStop`] lifecycle event which typically results in the surface to be destroyed
/// after the app becomes invisible.
///
/// Applications that need to run on Android should assume their [`NativeWindow`] has been
/// destroyed, which indirectly invalidates any existing render surfaces that may have been
/// created outside of Winit (such as an `EGLSurface`, [`VkSurfaceKHR`] or [`wgpu::Surface`]).
///
/// When receiving [`destroy_surfaces()`] Android applications should drop all render surfaces
/// before the event callback completes, which may be re-created when the application next
/// receives [`can_create_surfaces()`].
///
/// [`NativeWindow`]: https://developer.android.com/ndk/reference/group/a-native-window
/// [`Surface`]: https://developer.android.com/reference/android/view/Surface
/// [`onStop`]: https://developer.android.com/reference/android/app/Activity#onStop()
/// [`VkSurfaceKHR`]: https://www.khronos.org/registry/vulkan/specs/1.3-extensions/man/html/VkSurfaceKHR.html
/// [`wgpu::Surface`]: https://docs.rs/wgpu/latest/wgpu/struct.Surface.html
///
/// ### Others
///
/// - **iOS / macOS / Orbital / Wayland / Web / Windows / X11:** Unsupported.
///
/// [`can_create_surfaces()`]: Self::can_create_surfaces()
/// [`destroy_surfaces()`]: Self::destroy_surfaces()
fn destroy_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
let _ = event_loop;
}
/// Emitted when the event loop is being shut down.
///
/// This is irreversible - if this method is called, it is guaranteed that the event loop
/// will exist right after.
fn exiting(&mut self, event_loop: &ActiveEventLoop) {
/// will exit right after.
fn exiting(&mut self, event_loop: &dyn ActiveEventLoop) {
let _ = event_loop;
}
@@ -219,7 +342,164 @@ pub trait ApplicationHandler<T: 'static = ()> {
/// ### Others
///
/// - **macOS / Orbital / Wayland / Web / Windows:** Unsupported.
fn memory_warning(&mut self, event_loop: &ActiveEventLoop) {
fn memory_warning(&mut self, event_loop: &dyn ActiveEventLoop) {
let _ = event_loop;
}
/// The macOS-specific handler.
///
/// The return value from this should not change at runtime.
#[cfg(any(docsrs, macos_platform))]
#[inline(always)]
fn macos_handler(&mut self) -> Option<&mut dyn ApplicationHandlerExtMacOS> {
None
}
}
#[deny(clippy::missing_trait_methods)]
impl<A: ?Sized + ApplicationHandler> ApplicationHandler for &mut A {
#[inline]
fn new_events(&mut self, event_loop: &dyn ActiveEventLoop, cause: StartCause) {
(**self).new_events(event_loop, cause);
}
#[inline]
fn resumed(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).resumed(event_loop);
}
#[inline]
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).can_create_surfaces(event_loop);
}
#[inline]
fn proxy_wake_up(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).proxy_wake_up(event_loop);
}
#[inline]
fn window_event(
&mut self,
event_loop: &dyn ActiveEventLoop,
window_id: WindowId,
event: WindowEvent,
) {
(**self).window_event(event_loop, window_id, event);
}
#[inline]
fn device_event(
&mut self,
event_loop: &dyn ActiveEventLoop,
device_id: Option<DeviceId>,
event: DeviceEvent,
) {
(**self).device_event(event_loop, device_id, event);
}
#[inline]
fn about_to_wait(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).about_to_wait(event_loop);
}
#[inline]
fn suspended(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).suspended(event_loop);
}
#[inline]
fn destroy_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).destroy_surfaces(event_loop);
}
#[inline]
fn exiting(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).exiting(event_loop);
}
#[inline]
fn memory_warning(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).memory_warning(event_loop);
}
#[cfg(any(docsrs, macos_platform))]
#[inline]
fn macos_handler(&mut self) -> Option<&mut dyn ApplicationHandlerExtMacOS> {
(**self).macos_handler()
}
}
#[deny(clippy::missing_trait_methods)]
impl<A: ?Sized + ApplicationHandler> ApplicationHandler for Box<A> {
#[inline]
fn new_events(&mut self, event_loop: &dyn ActiveEventLoop, cause: StartCause) {
(**self).new_events(event_loop, cause);
}
#[inline]
fn resumed(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).resumed(event_loop);
}
#[inline]
fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).can_create_surfaces(event_loop);
}
#[inline]
fn proxy_wake_up(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).proxy_wake_up(event_loop);
}
#[inline]
fn window_event(
&mut self,
event_loop: &dyn ActiveEventLoop,
window_id: WindowId,
event: WindowEvent,
) {
(**self).window_event(event_loop, window_id, event);
}
#[inline]
fn device_event(
&mut self,
event_loop: &dyn ActiveEventLoop,
device_id: Option<DeviceId>,
event: DeviceEvent,
) {
(**self).device_event(event_loop, device_id, event);
}
#[inline]
fn about_to_wait(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).about_to_wait(event_loop);
}
#[inline]
fn suspended(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).suspended(event_loop);
}
#[inline]
fn destroy_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).destroy_surfaces(event_loop);
}
#[inline]
fn exiting(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).exiting(event_loop);
}
#[inline]
fn memory_warning(&mut self, event_loop: &dyn ActiveEventLoop) {
(**self).memory_warning(event_loop);
}
#[cfg(any(docsrs, macos_platform))]
#[inline]
fn macos_handler(&mut self) -> Option<&mut dyn ApplicationHandlerExtMacOS> {
(**self).macos_handler()
}
}

5
src/changelog/mod.rs
View File

@@ -5,7 +5,10 @@
// Put the current entry at the top of this page, for discoverability.
// See `.cargo/config.toml` for details about `unreleased_changelogs`.
#![cfg_attr(unreleased_changelogs, doc = include_str!("unreleased.md"))]
#![cfg_attr(not(unreleased_changelogs), doc = include_str!("v0.29.md"))]
#![cfg_attr(not(unreleased_changelogs), doc = include_str!("v0.30.md"))]
#[doc = include_str!("v0.30.md")]
pub mod v0_30 {}
#[doc = include_str!("v0.29.md")]
pub mod v0_29 {}

362
src/changelog/unreleased.md
View File

@@ -42,219 +42,177 @@ changelog entry.
### Added
- Add `OwnedDisplayHandle` type for allowing safe display handle usage outside of
trivial cases.
- Add `ApplicationHandler<T>` trait which mimics `Event<T>`.
- Add `WindowBuilder::with_cursor` and `Window::set_cursor` which takes a
`CursorIcon` or `CustomCursor`.
- Add `Sync` implementation for `EventLoopProxy<T: Send>`.
- Add `Window::default_attributes` to get default `WindowAttributes`.
- Add `EventLoop::builder` to get `EventLoopBuilder` without export.
- Add `CustomCursor::from_rgba` to allow creating cursor images from RGBA data.
- Add `CustomCursorExtWebSys::from_url` to allow loading cursor images from URLs.
- Add `CustomCursorExtWebSys::from_animation` to allow creating animated
cursors from other `CustomCursor`s.
- Add `{Active,}EventLoop::create_custom_cursor` to load custom cursor image sources.
- Add `ActiveEventLoop::create_window` and `EventLoop::create_window`.
- Add `CustomCursor` which could be set via `Window::set_cursor`, implemented on
Windows, macOS, X11, Wayland, and Web.
- On Web, add to toggle calling `Event.preventDefault()` on `Window`.
- On iOS, add `PinchGesture`, `DoubleTapGesture`, and `RotationGesture`
- On macOS, add services menu.
- On Windows, add `with_title_text_color`, and `with_corner_preference` on
`WindowAttributesExtWindows`.
- On Windows, implement resize increments.
- On Windows, add `AnyThread` API to access window handle off the main thread.
- Add `ActiveEventLoop::create_proxy()`.
- On Web, add `ActiveEventLoopExtWeb::is_cursor_lock_raw()` to determine if
`DeviceEvent::MouseMotion` is returning raw data, not OS accelerated, when using
`CursorGrabMode::Locked`.
- On Web, implement `MonitorHandle` and `VideoModeHandle`.
Without prompting the user for permission, only the current monitor is returned. But when
prompting and being granted permission through
`ActiveEventLoop::request_detailed_monitor_permission()`, access to all monitors and their
details is available. Handles created with "detailed monitor permissions" can be used in
`Window::set_fullscreen()` as well.
Keep in mind that handles do not auto-upgrade after permissions are granted and have to be
re-created to make full use of this feature.
- Implement `Clone`, `Copy`, `Debug`, `Deserialize`, `Eq`, `Hash`, `Ord`, `PartialEq`, `PartialOrd`
and `Serialize` on many types.
- Add `MonitorHandle::current_video_mode()`.
- On Android, the soft keyboard can now be shown using `Window::set_ime_allowed`.
- Add basic iOS IME support. The soft keyboard can now be shown using `Window::set_ime_allowed`.
- Add `ApplicationHandlerExtMacOS` trait, and a `macos_handler` method to `ApplicationHandler` which returns a `dyn ApplicationHandlerExtMacOS` which allows for macOS specific extensions to winit.
- Add a `standard_key_binding` method to the `ApplicationHandlerExtMacOS` trait. This allows handling of standard keybindings such as "go to end of line" on macOS.
- On macOS, add `WindowExtMacOS::set_borderless_game` and `WindowAttributesExtMacOS::with_borderless_game`
to fully disable the menu bar and dock in Borderless Fullscreen as commonly done in games.
- On macOS, add `WindowExtMacOS::set_unified_titlebar` and `WindowAttributesExtMacOS::with_unified_titlebar`
to use a larger style of titlebar.
- Add `WindowId::into_raw()` and `from_raw()`.
- Add `PointerKind`, `PointerSource`, `ButtonSource`, `FingerId`, `primary` and `position` to all
pointer events as part of the pointer event overhaul.
- Add `DeviceId::into_raw()` and `from_raw()`.
- On X11, the `window` example now understands the `X11_VISUAL_ID` and `X11_SCREEN_ID` env
variables to test the respective modifiers of window creation.
- Added `Window::surface_position`, which is the position of the surface inside the window.
- Added `Window::safe_area`, which describes the area of the surface that is unobstructed.
- On X11, Wayland, Windows and macOS, improved scancode conversions for more obscure key codes.
### Changed
- Bump MSRV from `1.65` to `1.70`.
- On Wayland, bump `sctk-adwaita` to `0.9.0`, which changed system library
crates. This change is a **cascading breaking change**, you must do breaking
change as well, even if you don't expose winit.
- Rename `TouchpadMagnify` to `PinchGesture`.
- Rename `SmartMagnify` to `DoubleTapGesture`.
- Rename `TouchpadRotate` to `RotationGesture`.
- Rename `EventLoopWindowTarget` to `ActiveEventLoop`.
- Rename `platform::x11::XWindowType` to `platform::x11::WindowType`.
- Rename `VideoMode` to `VideoModeHandle` to represent that it doesn't hold
static data.
- Make `Debug` formatting of `WindowId` more concise.
- Move `dpi` types to its own crate, and re-export it from the root crate.
- Replace `log` with `tracing`, use `log` feature on `tracing` to restore old
behavior.
- `EventLoop::with_user_event` now returns `EventLoopBuilder`.
- On Web, return `HandleError::Unavailable` when a window handle is not available.
- On Web, return `RawWindowHandle::WebCanvas` instead of `RawWindowHandle::Web`.
- On Web, remove queuing fullscreen request in absence of transient activation.
- On iOS, return `HandleError::Unavailable` when a window handle is not available.
- On macOS, return `HandleError::Unavailable` when a window handle is not available.
- On Windows, remove `WS_CAPTION`, `WS_BORDER`, and `WS_EX_WINDOWEDGE` styles
for child windows without decorations.
- Change `ActiveEventLoop` to be a trait.
- Change `Window` to be a trait.
- `ActiveEventLoop::create_window` now returns `Box<dyn Window>`.
- `ApplicationHandler` now uses `dyn ActiveEventLoop`.
- On Web, let events wake up event loop immediately when using `ControlFlow::Poll`.
- Bump MSRV from `1.70` to `1.73`.
- Changed `ApplicationHandler::user_event` to `user_wake_up`, removing the
generic user event.
### Deprecated
Winit will now only indicate that wake up happened, you will have to pair
this with an external mechanism like `std::sync::mpsc::channel` if you want
to send specific data to be processed on the main thread.
- Changed `EventLoopProxy::send_event` to `EventLoopProxy::wake_up`, it now
only wakes up the loop.
- On X11, implement smooth resizing through the sync extension API.
- `ApplicationHandler::can_create|destroy_surfaces()` was split off from
`ApplicationHandler::resumed/suspended()`.
- Deprecate `EventLoop::run`, use `EventLoop::run_app`.
- Deprecate `EventLoopExtRunOnDemand::run_on_demand`, use `EventLoop::run_app_on_demand`.
- Deprecate `EventLoopExtPumpEvents::pump_events`, use `EventLoopExtPumpEvents::pump_app_events`.
`ApplicationHandler::can_create_surfaces()` should, for portability reasons
to Android, be the only place to create render surfaces.
The new `app` APIs accept a newly added `ApplicationHandler<T>` instead of
`Fn`. The semantics are mostly the same, given that the capture list of the
closure is your new `State`. Consider the following code:
`ApplicationHandler::resumed/suspended()` are now only emitted by iOS, Web
and Android, and now signify actually resuming/suspending the application.
- Rename `platform::web::*ExtWebSys` to `*ExtWeb`.
- Change signature of `EventLoop::run_app`, `EventLoopExtPumpEvents::pump_app_events` and
`EventLoopExtRunOnDemand::run_app_on_demand` to accept a `impl ApplicationHandler` directly,
instead of requiring a `&mut` reference to it.
- On Web, `Window::canvas()` now returns a reference.
- On Web, `CursorGrabMode::Locked` now lets `DeviceEvent::MouseMotion` return raw data, not OS
accelerated, if the browser supports it.
- `(Active)EventLoop::create_custom_cursor()` now returns a `Result<CustomCursor, ExternalError>`.
- Changed how `ModifiersState` is serialized by Serde.
- `VideoModeHandle::refresh_rate_millihertz()` and `bit_depth()` now return a `Option<NonZero*>`.
- `MonitorHandle::position()` now returns an `Option`.
- On iOS and macOS, remove custom application delegates. You are now allowed to override the
application delegate yourself.
- On iOS, no longer act as-if the application successfully open all URLs. Override
`application:didFinishLaunchingWithOptions:` and provide the desired behaviour yourself.
- On X11, remove our dependency on libXcursor. (#3749)
- Renamed the following APIs to make it clearer that the sizes apply to the underlying surface:
- `WindowEvent::Resized` to `SurfaceResized`.
- `InnerSizeWriter` to `SurfaceSizeWriter`.
- `WindowAttributes.inner_size` to `surface_size`.
- `WindowAttributes.min_inner_size` to `min_surface_size`.
- `WindowAttributes.max_inner_size` to `max_surface_size`.
- `WindowAttributes.resize_increments` to `surface_resize_increments`.
- `WindowAttributes::with_inner_size` to `with_surface_size`.
- `WindowAttributes::with_min_inner_size` to `with_min_surface_size`.
- `WindowAttributes::with_max_inner_size` to `with_max_surface_size`.
- `WindowAttributes::with_resize_increments` to `with_surface_resize_increments`.
- `Window::inner_size` to `surface_size`.
- `Window::request_inner_size` to `request_surface_size`.
- `Window::set_min_inner_size` to `set_min_surface_size`.
- `Window::set_max_inner_size` to `set_max_surface_size`.
```rust,no_run
use winit::event::Event;
use winit::event_loop::EventLoop;
use winit::window::Window;
struct MyUserEvent;
let event_loop = EventLoop::<MyUserEvent>::with_user_event().build().unwrap();
let window = event_loop.create_window(Window::default_attributes()).unwrap();
let mut counter = 0;
let _ = event_loop.run(move |event, event_loop| {
match event {
Event::AboutToWait => {
window.request_redraw();
counter += 1;
}
Event::WindowEvent { window_id, event } => {
// Handle window event.
}
Event::UserEvent(event) => {
// Handle user event.
}
Event::DeviceEvent { device_id, event } => {
// Handle device event.
}
_ => (),
}
});
```
To migrate this code, you should move all the captured values into some
newtype `State` and implement `ApplicationHandler` for this type. Finally,
we move particular `match event` arms into methods on `ApplicationHandler`,
for example:
```rust,no_run
use winit::application::ApplicationHandler;
use winit::event::{Event, WindowEvent, DeviceEvent, DeviceId};
use winit::event_loop::{EventLoop, ActiveEventLoop};
use winit::window::{Window, WindowId};
struct MyUserEvent;
struct State {
window: Window,
counter: i32,
}
impl ApplicationHandler<MyUserEvent> for State {
fn user_event(&mut self, event_loop: &ActiveEventLoop, user_event: MyUserEvent) {
// Handle user event.
}
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
// Your application got resumed.
}
fn window_event(&mut self, event_loop: &ActiveEventLoop, window_id: WindowId, event: WindowEvent) {
// Handle window event.
}
fn device_event(&mut self, event_loop: &ActiveEventLoop, device_id: DeviceId, event: DeviceEvent) {
// Handle device event.
}
fn about_to_wait(&mut self, event_loop: &ActiveEventLoop) {
self.window.request_redraw();
self.counter += 1;
}
}
let event_loop = EventLoop::<MyUserEvent>::with_user_event().build().unwrap();
#[allow(deprecated)]
let window = event_loop.create_window(Window::default_attributes()).unwrap();
let mut state = State { window, counter: 0 };
let _ = event_loop.run_app(&mut state);
```
Please submit your feedback after migrating in [this issue](https://github.com/rust-windowing/winit/issues/3626).
- Deprecate `Window::set_cursor_icon`, use `Window::set_cursor`.
To migrate, you can probably just replace all instances of `inner_size` with `surface_size` in your codebase.
- Every event carrying a `DeviceId` now uses `Option<DeviceId>` instead. A `None` value signifies that the
device can't be uniquely identified.
- Pointer `WindowEvent`s were overhauled. The new events can handle any type of pointer, serving as
a single pointer input source. Now your application can handle any pointer type without having to
explicitly handle e.g. `Touch`:
- Rename `CursorMoved` to `PointerMoved`.
- Rename `CursorEntered` to `PointerEntered`.
- Rename `CursorLeft` to `PointerLeft`.
- Rename `MouseInput` to `PointerButton`.
- Add `primary` to every `PointerEvent` as a way to identify discard non-primary pointers in a
multi-touch interaction.
- Add `position` to every `PointerEvent`.
- `PointerMoved` is **not sent** after `PointerEntered` anymore.
- Remove `Touch`, which is folded into the `Pointer*` events.
- New `PointerKind` added to `PointerEntered` and `PointerLeft`, signifying which pointer type is
the source of this event.
- New `PointerSource` added to `PointerMoved`, similar to `PointerKind` but holding additional
data.
- New `ButtonSource` added to `PointerButton`, similar to `PointerKind` but holding pointer type
specific buttons. Use `ButtonSource::mouse_button()` to easily normalize any pointer button
type to a generic mouse button.
- New `FingerId` added to `PointerKind::Touch` and `PointerSource::Touch` able to uniquely
identify a finger in a multi-touch interaction. Replaces the old `Touch::id`.
- In the same spirit rename `DeviceEvent::MouseMotion` to `PointerMotion`.
- Remove `Force::Calibrated::altitude_angle`.
- On X11, use bottom-right corner for IME hotspot in `Window::set_ime_cursor_area`.
- On macOS and iOS, no longer emit `ScaleFactorChanged` upon window creation.
- On macOS, no longer emit `Focused` upon window creation.
- On iOS, emit more events immediately, instead of queuing them.
- Update `smol_str` to version `0.3`
### Removed
- Remove `Window::new`, use `ActiveEventLoop::create_window` instead.
- Remove `Event`.
- Remove already deprecated APIs:
- `EventLoop::create_window()`
- `EventLoop::run`.
- `EventLoopBuilder::new()`
- `EventLoopExtPumpEvents::pump_events`.
- `EventLoopExtRunOnDemand::run_on_demand`.
- `VideoMode`
- `WindowAttributes::new()`
- `Window::set_cursor_icon()`
- On iOS, remove `platform::ios::EventLoopExtIOS` and related `platform::ios::Idiom` type.
You now have to create your windows inside the actively running event loop
(usually the `new_events(cause: StartCause::Init)` or `resumed()` events),
and can no longer do it before the application has properly launched.
This change is done to fix many long-standing issues on iOS and macOS, and
will improve things on Wayland once fully implemented.
To ease migration, we provide the deprecated `EventLoop::create_window` that
will allow you to bypass this restriction in this release.
Using the migration example from above, you can change your code as follows:
```rust,no_run
use winit::application::ApplicationHandler;
use winit::event::{Event, WindowEvent, DeviceEvent, DeviceId};
use winit::event_loop::{EventLoop, ActiveEventLoop};
use winit::window::{Window, WindowId};
#[derive(Default)]
struct State {
// Use an `Option` to allow the window to not be available until the
// application is properly running.
window: Option<Window>,
counter: i32,
}
impl ApplicationHandler for State {
// This is a common indicator that you can create a window.
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
self.window = Some(event_loop.create_window(Window::default_attributes()).unwrap());
}
fn window_event(&mut self, event_loop: &ActiveEventLoop, window_id: WindowId, event: WindowEvent) {
// `unwrap` is fine, the window will always be available when
// receiving a window event.
let window = self.window.as_ref().unwrap();
// Handle window event.
}
fn device_event(&mut self, event_loop: &ActiveEventLoop, device_id: DeviceId, event: DeviceEvent) {
// Handle window event.
}
fn about_to_wait(&mut self, event_loop: &ActiveEventLoop) {
if let Some(window) = self.window.as_ref() {
window.request_redraw();
self.counter += 1;
}
}
}
let event_loop = EventLoop::new().unwrap();
let mut state = State::default();
let _ = event_loop.run_app(&mut state);
```
- Remove `Deref` implementation for `EventLoop` that gave `EventLoopWindowTarget`.
- Remove `WindowBuilder` in favor of `WindowAttributes`.
- Remove Generic parameter `T` from `ActiveEventLoop`.
- Remove `EventLoopBuilder::with_user_event`, use `EventLoop::with_user_event`.
- Remove Redundant `EventLoopError::AlreadyRunning`.
- Remove `WindowAttributes::fullscreen` and expose as field directly.
- On X11, remove `platform::x11::XNotSupported` export.
This feature was incomplete, and the equivalent functionality can be trivially achieved outside
of `winit` using `objc2-ui-kit` and calling `UIDevice::currentDevice().userInterfaceIdiom()`.
- On Web, remove unused `platform::web::CustomCursorError::Animation`.
- Remove the `rwh_04` and `rwh_05` cargo feature and the corresponding `raw-window-handle` v0.4 and
v0.5 support. v0.6 remains in place and is enabled by default.
- Remove `DeviceEvent::Added` and `DeviceEvent::Removed`.
- Remove `DeviceEvent::Motion` and `WindowEvent::AxisMotion`.
- Remove `MonitorHandle::size()` and `refresh_rate_millihertz()` in favor of
`MonitorHandle::current_video_mode()`.
- On Android, remove all `MonitorHandle` support instead of emitting false data.
- Remove `impl From<u64> for WindowId` and `impl From<WindowId> for u64`. Replaced with
`WindowId::into_raw()` and `from_raw()`.
- Remove `dummy()` from `WindowId` and `DeviceId`.
- Remove `WindowEvent::Touch` and `Touch` in favor of the new `PointerKind`, `PointerSource` and
`ButtonSource` as part of the new pointer event overhaul.
- Remove `Force::altitude_angle`.
- Removed `Window::inner_position`, use the new `Window::surface_position` instead.
### Fixed
- On Web, fix setting cursor icon overriding cursor visibility.
- On Windows, fix cursor not confined to center of window when grabbed and hidden.
- On macOS, fix sequence of mouse events being out of order when dragging on the trackpad.
- On Wayland, fix decoration glitch on close with some compositors.
- On Android, fix a regression introduced in #2748 to allow volume key events to be received again.
- On Windows, don't return a valid window handle outside of the GUI thread.
- On Orbital, `MonitorHandle::name()` now returns `None` instead of a dummy name.
- On macOS, fix `WindowEvent::Moved` sometimes being triggered unnecessarily on resize.
- On macOS, package manifest definitions of `LSUIElement` will no longer be overridden with the
default activation policy, unless explicitly provided during initialization.
- On macOS, fix crash when calling `drag_window()` without a left click present.
- On X11, key events forward to IME anyway, even when it's disabled.
- On Windows, make `ControlFlow::WaitUntil` work more precisely using `CREATE_WAITABLE_TIMER_HIGH_RESOLUTION`.
- On X11, creating windows on screen that is not the first one (e.g. `DISPLAY=:0.1`) works again.
- On X11, creating windows while passing `with_x11_screen(non_default_screen)` works again.
- On X11, fix XInput handling that prevented a new window from getting the focus in some cases.
- On iOS, fixed `SurfaceResized` and `Window::surface_size` not reporting the size of the actual surface.
- On macOS, fixed the scancode conversion for audio volume keys.
- On macOS, fixed the scancode conversion for `IntlBackslash`.
- On macOS, fixed redundant `SurfaceResized` event at window creation.
- On macOS, fix crash when pressing Caps Lock in certain configurations.
- On iOS, fixed `MonitorHandle`'s `PartialEq` and `Hash` implementations.

2
src/changelog/v0.20.md
View File

@@ -137,7 +137,7 @@
- On X11, non-resizable windows now have maximize explicitly disabled.
- On Windows, support paths longer than MAX_PATH (260 characters) in `WindowEvent::DroppedFile`
and `WindowEvent::HoveredFile`.
and `WindowEvent::HoveredFile`.
- On Mac, implement `DeviceEvent::Button`.
- Change `Event::Suspended(true / false)` to `Event::Suspended` and `Event::Resumed`.
- On X11, fix sanity check which checks that a monitor's reported width and height (in millimeters) are non-zero when calculating the DPI factor.

300
src/changelog/v0.30.md Normal file
View File

@@ -0,0 +1,300 @@
## 0.30.5
### Added
- Add `ActiveEventLoop::system_theme()`, returning the current system theme.
- On Web, implement `Error` for `platform::web::CustomCursorError`.
- On Android, add `{Active,}EventLoopExtAndroid::android_app()` to access the app used to create the loop.
### Fixed
- On MacOS, fix building with `feature = "rwh_04"`.
- On Web, pen events are now routed through to `WindowEvent::Cursor*`.
- On macOS, fix panic when releasing not available monitor.
- On MacOS, return the system theme in `Window::theme()` if no theme override is set.
## 0.30.4
### Changed
- `DeviceId::dummy()` and `WindowId::dummy()` are no longer marked `unsafe`.
### Fixed
- On Wayland, avoid crashing when compositor is misbehaving.
- On Web, fix `WindowEvent::Resized` not using `requestAnimationFrame` when sending
`WindowEvent::RedrawRequested` and also potentially causing `WindowEvent::RedrawRequested`
to not be de-duplicated.
- Account for different browser engine implementations of pointer movement coordinate space.
## 0.30.3
### Added
- On Web, add `EventLoopExtWebSys::(set_)poll_strategy()` to allow setting
control flow strategies before starting the event loop.
- On Web, add `WaitUntilStrategy`, which allows to set different strategies for
`ControlFlow::WaitUntil`. By default the Prioritized Task Scheduling API is
used, with a fallback to `setTimeout()` with a trick to circumvent throttling
to 4ms. But an option to use a Web worker to schedule the timer is available
as well, which commonly prevents any throttling when the window is not focused.
### Changed
- On macOS, set the window theme on the `NSWindow` instead of application-wide.
### Fixed
- On X11, build on arm platforms.
- On macOS, fixed `WindowBuilder::with_theme` not having any effect on the window.
## 0.30.2
### Fixed
- On Web, fix `EventLoopProxy::send_event()` triggering event loop immediately
when not called from inside the event loop. Now queues a microtask instead.
- On Web, stop overwriting default cursor with `CursorIcon::Default`.
- On Web, prevent crash when using `InnerSizeWriter::request_inner_size()`.
- On macOS, fix not working opacity for entire window.
## 0.30.1
### Added
- Reexport `raw-window-handle` versions 0.4 and 0.5 as `raw_window_handle_04` and `raw_window_handle_05`.
- Implement `ApplicationHandler` for `&mut` references and heap allocations to something that implements `ApplicationHandler`.
- Add traits `EventLoopExtWayland` and `EventLoopExtX11`, providing methods `is_wayland` and `is_x11` on `EventLoop`.
### Fixed
- On macOS, fix panic on exit when dropping windows outside the event loop.
- On macOS, fix window dragging glitches when dragging across a monitor boundary with different scale factor.
- On macOS, fix the range in `Ime::Preedit`.
- On macOS, use the system's internal mechanisms for queuing events.
- On macOS, handle events directly instead of queuing when possible.
## 0.30.0
### Added
- Add `OwnedDisplayHandle` type for allowing safe display handle usage outside of
trivial cases.
- Add `ApplicationHandler<T>` trait which mimics `Event<T>`.
- Add `WindowBuilder::with_cursor` and `Window::set_cursor` which takes a
`CursorIcon` or `CustomCursor`.
- Add `Sync` implementation for `EventLoopProxy<T: Send>`.
- Add `Window::default_attributes` to get default `WindowAttributes`.
- Add `EventLoop::builder` to get `EventLoopBuilder` without export.
- Add `CustomCursor::from_rgba` to allow creating cursor images from RGBA data.
- Add `CustomCursorExtWebSys::from_url` to allow loading cursor images from URLs.
- Add `CustomCursorExtWebSys::from_animation` to allow creating animated
cursors from other `CustomCursor`s.
- Add `{Active,}EventLoop::create_custom_cursor` to load custom cursor image sources.
- Add `ActiveEventLoop::create_window` and `EventLoop::create_window`.
- Add `CustomCursor` which could be set via `Window::set_cursor`, implemented on
Windows, macOS, X11, Wayland, and Web.
- On Web, add to toggle calling `Event.preventDefault()` on `Window`.
- On iOS, add `PinchGesture`, `DoubleTapGesture`, `PanGesture` and `RotationGesture`.
- on iOS, use `UIGestureRecognizerDelegate` for fine grained control of gesture recognizers.
- On macOS, add services menu.
- On Windows, add `with_title_text_color`, and `with_corner_preference` on
`WindowAttributesExtWindows`.
- On Windows, implement resize increments.
- On Windows, add `AnyThread` API to access window handle off the main thread.
### Changed
- Bump MSRV from `1.65` to `1.70`.
- On Wayland, bump `sctk-adwaita` to `0.9.0`, which changed system library
crates. This change is a **cascading breaking change**, you must do breaking
change as well, even if you don't expose winit.
- Rename `TouchpadMagnify` to `PinchGesture`.
- Rename `SmartMagnify` to `DoubleTapGesture`.
- Rename `TouchpadRotate` to `RotationGesture`.
- Rename `EventLoopWindowTarget` to `ActiveEventLoop`.
- Rename `platform::x11::XWindowType` to `platform::x11::WindowType`.
- Rename `VideoMode` to `VideoModeHandle` to represent that it doesn't hold
static data.
- Make `Debug` formatting of `WindowId` more concise.
- Move `dpi` types to its own crate, and re-export it from the root crate.
- Replace `log` with `tracing`, use `log` feature on `tracing` to restore old
behavior.
- `EventLoop::with_user_event` now returns `EventLoopBuilder`.
- On Web, return `HandleError::Unavailable` when a window handle is not available.
- On Web, return `RawWindowHandle::WebCanvas` instead of `RawWindowHandle::Web`.
- On Web, remove queuing fullscreen request in absence of transient activation.
- On iOS, return `HandleError::Unavailable` when a window handle is not available.
- On macOS, return `HandleError::Unavailable` when a window handle is not available.
- On Windows, remove `WS_CAPTION`, `WS_BORDER`, and `WS_EX_WINDOWEDGE` styles
for child windows without decorations.
- On Android, bump `ndk` to `0.9.0` and `android-activity` to `0.6.0`,
and remove unused direct dependency on `ndk-sys`.
### Deprecated
- Deprecate `EventLoop::run`, use `EventLoop::run_app`.
- Deprecate `EventLoopExtRunOnDemand::run_on_demand`, use `EventLoop::run_app_on_demand`.
- Deprecate `EventLoopExtPumpEvents::pump_events`, use `EventLoopExtPumpEvents::pump_app_events`.
The new `app` APIs accept a newly added `ApplicationHandler<T>` instead of
`Fn`. The semantics are mostly the same, given that the capture list of the
closure is your new `State`. Consider the following code:
```rust,no_run,ignore
use winit::event::Event;
use winit::event_loop::EventLoop;
use winit::window::Window;
struct MyUserEvent;
let event_loop = EventLoop::<MyUserEvent>::with_user_event().build().unwrap();
let window = event_loop.create_window(Window::default_attributes()).unwrap();
let mut counter = 0;
let _ = event_loop.run(move |event, event_loop| {
match event {
Event::AboutToWait => {
window.request_redraw();
counter += 1;
}
Event::WindowEvent { window_id, event } => {
// Handle window event.
}
Event::UserEvent(event) => {
// Handle user event.
}
Event::DeviceEvent { device_id, event } => {
// Handle device event.
}
_ => (),
}
});
```
To migrate this code, you should move all the captured values into some
newtype `State` and implement `ApplicationHandler` for this type. Finally,
we move particular `match event` arms into methods on `ApplicationHandler`,
for example:
```rust,no_run,ignore
use winit::application::ApplicationHandler;
use winit::event::{Event, WindowEvent, DeviceEvent, DeviceId};
use winit::event_loop::{EventLoop, ActiveEventLoop};
use winit::window::{Window, WindowId};
struct MyUserEvent;
struct State {
window: Window,
counter: i32,
}
impl ApplicationHandler<MyUserEvent> for State {
fn user_event(&mut self, event_loop: &ActiveEventLoop, user_event: MyUserEvent) {
// Handle user event.
}
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
// Your application got resumed.
}
fn window_event(&mut self, event_loop: &ActiveEventLoop, window_id: WindowId, event: WindowEvent) {
// Handle window event.
}
fn device_event(&mut self, event_loop: &ActiveEventLoop, device_id: DeviceId, event: DeviceEvent) {
// Handle device event.
}
fn about_to_wait(&mut self, event_loop: &ActiveEventLoop) {
self.window.request_redraw();
self.counter += 1;
}
}
let event_loop = EventLoop::<MyUserEvent>::with_user_event().build().unwrap();
#[allow(deprecated)]
let window = event_loop.create_window(Window::default_attributes()).unwrap();
let mut state = State { window, counter: 0 };
let _ = event_loop.run_app(&mut state);
```
Please submit your feedback after migrating in [this issue](https://github.com/rust-windowing/winit/issues/3626).
- Deprecate `Window::set_cursor_icon`, use `Window::set_cursor`.
### Removed
- Remove `Window::new`, use `ActiveEventLoop::create_window` instead.
You now have to create your windows inside the actively running event loop
(usually the `new_events(cause: StartCause::Init)` or `resumed()` events),
and can no longer do it before the application has properly launched.
This change is done to fix many long-standing issues on iOS and macOS, and
will improve things on Wayland once fully implemented.
To ease migration, we provide the deprecated `EventLoop::create_window` that
will allow you to bypass this restriction in this release.
Using the migration example from above, you can change your code as follows:
```rust,no_run,ignore
use winit::application::ApplicationHandler;
use winit::event::{Event, WindowEvent, DeviceEvent, DeviceId};
use winit::event_loop::{EventLoop, ActiveEventLoop};
use winit::window::{Window, WindowId};
#[derive(Default)]
struct State {
// Use an `Option` to allow the window to not be available until the
// application is properly running.
window: Option<Window>,
counter: i32,
}
impl ApplicationHandler for State {
// This is a common indicator that you can create a window.
fn resumed(&mut self, event_loop: &ActiveEventLoop) {
self.window = Some(event_loop.create_window(Window::default_attributes()).unwrap());
}
fn window_event(&mut self, event_loop: &ActiveEventLoop, window_id: WindowId, event: WindowEvent) {
// `unwrap` is fine, the window will always be available when
// receiving a window event.
let window = self.window.as_ref().unwrap();
// Handle window event.
}
fn device_event(&mut self, event_loop: &ActiveEventLoop, device_id: DeviceId, event: DeviceEvent) {
// Handle window event.
}
fn about_to_wait(&mut self, event_loop: &ActiveEventLoop) {
if let Some(window) = self.window.as_ref() {
window.request_redraw();
self.counter += 1;
}
}
}
let event_loop = EventLoop::new().unwrap();
let mut state = State::default();
let _ = event_loop.run_app(&mut state);
```
- Remove `Deref` implementation for `EventLoop` that gave `EventLoopWindowTarget`.
- Remove `WindowBuilder` in favor of `WindowAttributes`.
- Remove Generic parameter `T` from `ActiveEventLoop`.
- Remove `EventLoopBuilder::with_user_event`, use `EventLoop::with_user_event`.
- Remove Redundant `EventLoopError::AlreadyRunning`.
- Remove `WindowAttributes::fullscreen` and expose as field directly.
- On X11, remove `platform::x11::XNotSupported` export.
### Fixed
- On Web, fix setting cursor icon overriding cursor visibility.
- On Windows, fix cursor not confined to center of window when grabbed and hidden.
- On macOS, fix sequence of mouse events being out of order when dragging on the trackpad.
- On Wayland, fix decoration glitch on close with some compositors.
- On Android, fix a regression introduced in #2748 to allow volume key events to be received again.
- On Windows, don't return a valid window handle outside of the GUI thread.
- On macOS, don't set the background color when initializing a window with transparency.

6
src/changelog/v0.9.md
View File

@@ -3,20 +3,20 @@
- Added event `WindowEvent::HiDPIFactorChanged`.
- Added method `MonitorId::get_hidpi_factor`.
- Deprecated `get_inner_size_pixels` and `get_inner_size_points` methods of `Window` in favor of
`get_inner_size`.
`get_inner_size`.
- **Breaking:** `EventsLoop` is `!Send` and `!Sync` because of platform-dependant constraints,
but `Window`, `WindowId`, `DeviceId` and `MonitorId` guaranteed to be `Send`.
- `MonitorId::get_position` now returns `(i32, i32)` instead of `(u32, u32)`.
- Rewrite of the wayland backend to use wayland-client-0.11
- Support for dead keys on wayland for keyboard utf8 input
- Monitor enumeration on Windows is now implemented using `EnumDisplayMonitors` instead of
`EnumDisplayDevices`. This changes the value returned by `MonitorId::get_name()`.
`EnumDisplayDevices`. This changes the value returned by `MonitorId::get_name()`.
- On Windows added `MonitorIdExt::hmonitor` method
- Impl `Clone` for `EventsLoopProxy`
- `EventsLoop::get_primary_monitor()` on X11 will fallback to any available monitor if no primary is found
- Support for touch event on wayland
- `WindowEvent`s `MouseMoved`, `MouseEntered`, and `MouseLeft` have been renamed to
`CursorMoved`, `CursorEntered`, and `CursorLeft`.
`CursorMoved`, `CursorEntered`, and `CursorLeft`.
- New `DeviceEvent`s added, `MouseMotion` and `MouseWheel`.
- Send `CursorMoved` event after `CursorEntered` and `Focused` events.
- Add support for `ModifiersState`, `MouseMove`, `MouseInput`, `MouseMotion` for emscripten backend.

21
src/cursor.rs
View File

@@ -50,7 +50,7 @@ impl From<CustomCursor> for Cursor {
/// ```no_run
/// # use winit::event_loop::ActiveEventLoop;
/// # use winit::window::Window;
/// # fn scope(event_loop: &ActiveEventLoop, window: &Window) {
/// # fn scope(event_loop: &dyn ActiveEventLoop, window: &dyn Window) {
/// use winit::window::CustomCursor;
///
/// let w = 10;
@@ -62,13 +62,13 @@ impl From<CustomCursor> for Cursor {
///
/// #[cfg(target_family = "wasm")]
/// let source = {
/// use winit::platform::web::CustomCursorExtWebSys;
/// use winit::platform::web::CustomCursorExtWeb;
/// CustomCursor::from_url(String::from("http://localhost:3000/cursor.png"), 0, 0)
/// };
///
/// let custom_cursor = event_loop.create_custom_cursor(source);
///
/// window.set_cursor(custom_cursor.clone());
/// if let Ok(custom_cursor) = event_loop.create_custom_cursor(source) {
/// window.set_cursor(custom_cursor.clone().into());
/// }
/// # }
/// ```
#[derive(Clone, Debug, Eq, Hash, PartialEq)]
@@ -107,13 +107,16 @@ impl CustomCursor {
/// Source for [`CustomCursor`].
///
/// See [`CustomCursor`] for more details.
#[derive(Debug)]
#[derive(Debug, Clone, Eq, Hash, PartialEq)]
pub struct CustomCursorSource {
// Some platforms don't support custom cursors.
#[allow(dead_code)]
pub(crate) inner: PlatformCustomCursorSource,
}
/// An error produced when using [`CustomCursor::from_rgba`] with invalid arguments.
#[derive(Debug, Clone)]
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
pub enum BadImage {
/// Produced when the image dimensions are larger than [`MAX_CURSOR_SIZE`]. This doesn't
/// guarantee that the cursor will work, but should avoid many platform and device specific
@@ -164,7 +167,7 @@ impl Error for BadImage {}
/// Platforms export this directly as `PlatformCustomCursorSource` if they need to only work with
/// images.
#[allow(dead_code)]
#[derive(Debug)]
#[derive(Debug, Clone, Eq, Hash, PartialEq)]
pub(crate) struct OnlyCursorImageSource(pub(crate) CursorImage);
#[allow(dead_code)]
@@ -199,7 +202,7 @@ impl PartialEq for OnlyCursorImage {
impl Eq for OnlyCursorImage {}
#[derive(Debug)]
#[derive(Debug, Clone, Eq, Hash, PartialEq)]
#[allow(dead_code)]
pub(crate) struct CursorImage {
pub(crate) rgba: Vec<u8>,

223
src/error.rs
View File

@@ -1,44 +1,40 @@
use std::{error, fmt};
use std::error::Error;
use std::fmt::{self, Display};
use crate::platform_impl;
// TODO: Rename
/// An error that may be generated when requesting Winit state
#[derive(Debug)]
pub enum ExternalError {
/// The operation is not supported by the backend.
NotSupported(NotSupportedError),
/// The operation was ignored.
Ignored,
/// The OS cannot perform the operation.
Os(OsError),
}
/// The error type for when the requested operation is not supported by the backend.
#[derive(Clone)]
pub struct NotSupportedError {
_marker: (),
}
/// The error type for when the OS cannot perform the requested operation.
#[derive(Debug)]
pub struct OsError {
line: u32,
file: &'static str,
error: platform_impl::OsError,
}
/// A general error that may occur while running the Winit event loop
/// A general error that may occur while running or creating
/// the event loop.
#[derive(Debug)]
#[non_exhaustive]
pub enum EventLoopError {
/// The operation is not supported by the backend.
NotSupported(NotSupportedError),
/// The OS cannot perform the operation.
Os(OsError),
/// The event loop can't be re-created.
RecreationAttempt,
/// Application has exit with an error status.
ExitFailure(i32),
/// Got unspecified OS-specific error during the request.
Os(OsError),
/// Creating the event loop with the requested configuration is not supported.
NotSupported(NotSupportedError),
}
impl fmt::Display for EventLoopError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::RecreationAttempt => write!(f, "EventLoop can't be recreated"),
Self::Os(err) => err.fmt(f),
Self::ExitFailure(status) => write!(f, "Exit Failure: {status}"),
Self::NotSupported(err) => err.fmt(f),
}
}
}
impl Error for EventLoopError {
fn source(&self) -> Option<&(dyn Error + 'static)> {
if let Self::Os(err) = self {
err.source()
} else {
None
}
}
}
impl From<OsError> for EventLoopError {
@@ -47,18 +43,102 @@ impl From<OsError> for EventLoopError {
}
}
impl NotSupportedError {
#[inline]
#[allow(dead_code)]
pub(crate) fn new() -> NotSupportedError {
NotSupportedError { _marker: () }
impl From<NotSupportedError> for EventLoopError {
fn from(value: NotSupportedError) -> Self {
Self::NotSupported(value)
}
}
/// A general error that may occur during a request to the windowing system.
#[derive(Debug)]
#[non_exhaustive]
pub enum RequestError {
/// The request is not supported.
NotSupported(NotSupportedError),
/// The request was ignored by the operating system.
Ignored,
/// Got unspecified OS specific error during the request.
Os(OsError),
}
impl Display for RequestError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::NotSupported(err) => err.fmt(f),
Self::Ignored => write!(f, "The request was ignored"),
Self::Os(err) => err.fmt(f),
}
}
}
impl Error for RequestError {
fn source(&self) -> Option<&(dyn Error + 'static)> {
if let Self::Os(err) = self {
err.source()
} else {
None
}
}
}
impl From<NotSupportedError> for RequestError {
fn from(value: NotSupportedError) -> Self {
Self::NotSupported(value)
}
}
impl From<OsError> for RequestError {
fn from(value: OsError) -> Self {
Self::Os(value)
}
}
/// The requested operation is not supported.
#[derive(Debug)]
pub struct NotSupportedError {
/// The reason why a certain operation is not supported.
reason: &'static str,
}
impl NotSupportedError {
pub(crate) fn new(reason: &'static str) -> Self {
Self { reason }
}
}
impl fmt::Display for NotSupportedError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "Operation is not supported: {}", self.reason)
}
}
impl Error for NotSupportedError {}
/// Unclassified error from the OS.
#[derive(Debug)]
pub struct OsError {
line: u32,
file: &'static str,
error: Box<dyn Error + Send + Sync + 'static>,
}
impl OsError {
#[allow(dead_code)]
pub(crate) fn new(line: u32, file: &'static str, error: platform_impl::OsError) -> OsError {
OsError { line, file, error }
pub(crate) fn new(
line: u32,
file: &'static str,
error: impl Into<Box<dyn Error + Send + Sync + 'static>>,
) -> Self {
Self { line, file, error: error.into() }
}
}
impl Display for OsError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.pad(&format!("os error at {}:{}: {}", self.file, self.line, self.error))
}
}
impl Error for OsError {
fn source(&self) -> Option<&(dyn Error + 'static)> {
Some(self.error.as_ref())
}
}
@@ -68,64 +148,3 @@ macro_rules! os_error {
crate::error::OsError::new(line!(), file!(), $error)
}};
}
impl fmt::Display for OsError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
f.pad(&format!("os error at {}:{}: {}", self.file, self.line, self.error))
}
}
impl fmt::Display for ExternalError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
match self {
ExternalError::NotSupported(e) => e.fmt(f),
ExternalError::Ignored => write!(f, "Operation was ignored"),
ExternalError::Os(e) => e.fmt(f),
}
}
}
impl fmt::Debug for NotSupportedError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
f.debug_struct("NotSupportedError").finish()
}
}
impl fmt::Display for NotSupportedError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
f.pad("the requested operation is not supported by Winit")
}
}
impl fmt::Display for EventLoopError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
match self {
EventLoopError::RecreationAttempt => write!(f, "EventLoop can't be recreated"),
EventLoopError::NotSupported(e) => e.fmt(f),
EventLoopError::Os(e) => e.fmt(f),
EventLoopError::ExitFailure(status) => write!(f, "Exit Failure: {status}"),
}
}
}
impl error::Error for OsError {}
impl error::Error for ExternalError {}
impl error::Error for NotSupportedError {}
impl error::Error for EventLoopError {}
#[cfg(test)]
#[allow(clippy::redundant_clone)]
mod tests {
use super::*;
// Eat attributes for testing
#[test]
fn ensure_fmt_does_not_panic() {
let _ = format!("{:?}, {}", NotSupportedError::new(), NotSupportedError::new().clone());
let _ = format!(
"{:?}, {}",
ExternalError::NotSupported(NotSupportedError::new()),
ExternalError::NotSupported(NotSupportedError::new())
);
}
}

770
src/event.rs
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File diff suppressed because it is too large Load Diff

444
src/event_loop.rs
View File

@@ -3,27 +3,30 @@
//!
//! If you want to send custom events to the event loop, use
//! [`EventLoop::create_proxy`] to acquire an [`EventLoopProxy`] and call its
//! [`send_event`][EventLoopProxy::send_event] method.
//! [`wake_up`][EventLoopProxy::wake_up] method. Then during handling the wake up
//! you can poll your event sources.
//!
//! See the root-level documentation for information on how to create and use an event loop to
//! handle events.
use std::fmt;
use std::marker::PhantomData;
#[cfg(any(x11_platform, wayland_platform))]
use std::os::unix::io::{AsFd, AsRawFd, BorrowedFd, RawFd};
use std::sync::atomic::{AtomicBool, AtomicUsize, Ordering};
use std::{error, fmt};
use std::sync::Arc;
#[cfg(not(web_platform))]
use std::time::{Duration, Instant};
use rwh_06::{DisplayHandle, HandleError, HasDisplayHandle};
#[cfg(web_platform)]
use web_time::{Duration, Instant};
use crate::application::ApplicationHandler;
use crate::error::{EventLoopError, OsError};
use crate::event::Event;
use crate::error::{EventLoopError, RequestError};
use crate::monitor::MonitorHandle;
use crate::platform_impl;
use crate::window::{CustomCursor, CustomCursorSource, Window, WindowAttributes};
use crate::utils::AsAny;
use crate::window::{CustomCursor, CustomCursorSource, Theme, Window, WindowAttributes};
/// Provides a way to retrieve events from the system and from the windows that were registered to
/// the events loop.
@@ -40,17 +43,8 @@ use crate::window::{CustomCursor, CustomCursorSource, Window, WindowAttributes};
/// [`EventLoopProxy`] allows you to wake up an `EventLoop` from another thread.
///
/// [`Window`]: crate::window::Window
pub struct EventLoop<T: 'static> {
pub(crate) event_loop: platform_impl::EventLoop<T>,
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.
pub struct ActiveEventLoop {
pub(crate) p: platform_impl::ActiveEventLoop,
pub struct EventLoop {
pub(crate) event_loop: platform_impl::EventLoop,
pub(crate) _marker: PhantomData<*mut ()>, // Not Send nor Sync
}
@@ -59,25 +53,15 @@ pub struct ActiveEventLoop {
/// This is used to make specifying options that affect the whole application
/// easier. But note that constructing multiple event loops is not supported.
///
/// This can be created using [`EventLoop::new`] or [`EventLoop::with_user_event`].
#[derive(Default)]
pub struct EventLoopBuilder<T: 'static> {
/// This can be created using [`EventLoop::builder`].
#[derive(Default, PartialEq, Eq, Hash)]
pub struct EventLoopBuilder {
pub(crate) platform_specific: platform_impl::PlatformSpecificEventLoopAttributes,
_p: PhantomData<T>,
}
static EVENT_LOOP_CREATED: AtomicBool = AtomicBool::new(false);
impl EventLoopBuilder<()> {
/// Start building a new event loop.
#[inline]
#[deprecated = "use `EventLoop::builder` instead"]
pub fn new() -> Self {
EventLoop::builder()
}
}
impl<T> EventLoopBuilder<T> {
impl EventLoopBuilder {
/// Builds a new event loop.
///
/// ***For cross-platform compatibility, the [`EventLoop`] must be created on the main thread,
@@ -90,7 +74,7 @@ impl<T> EventLoopBuilder<T> {
/// Attempting to create the event loop off the main 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
/// `EventLoopBuilderExt::with_any_thread` functions are exposed in the relevant
/// [`platform`] module if the target platform supports creating an event
/// loop on any thread.
///
@@ -103,13 +87,16 @@ impl<T> EventLoopBuilder<T> {
///
/// [`platform`]: crate::platform
#[cfg_attr(
android,
android_platform,
doc = "[`.with_android_app(app)`]: \
crate::platform::android::EventLoopBuilderExtAndroid::with_android_app"
)]
#[cfg_attr(not(android), doc = "[`.with_android_app(app)`]: #only-available-on-android")]
#[cfg_attr(
not(android_platform),
doc = "[`.with_android_app(app)`]: #only-available-on-android"
)]
#[inline]
pub fn build(&mut self) -> Result<EventLoop<T>, EventLoopError> {
pub fn build(&mut self) -> Result<EventLoop, EventLoopError> {
let _span = tracing::debug_span!("winit::EventLoopBuilder::build").entered();
if EVENT_LOOP_CREATED.swap(true, Ordering::Relaxed) {
@@ -130,26 +117,27 @@ impl<T> EventLoopBuilder<T> {
}
}
impl<T> fmt::Debug for EventLoop<T> {
impl fmt::Debug for EventLoopBuilder {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.pad("EventLoop { .. }")
f.debug_struct("EventLoopBuilder").finish_non_exhaustive()
}
}
impl fmt::Debug for ActiveEventLoop {
impl fmt::Debug for EventLoop {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.pad("ActiveEventLoop { .. }")
f.debug_struct("EventLoop").finish_non_exhaustive()
}
}
/// Set through [`ActiveEventLoop::set_control_flow()`].
///
/// Indicates the desired behavior of the event loop after [`Event::AboutToWait`] is emitted.
/// Indicates the desired behavior of the event loop after [`about_to_wait`] is called.
///
/// Defaults to [`Wait`].
///
/// [`Wait`]: Self::Wait
#[derive(Copy, Clone, Debug, Default, PartialEq, Eq)]
/// [`about_to_wait`]: crate::application::ApplicationHandler::about_to_wait
#[derive(Copy, Clone, Debug, Default, PartialEq, Eq, Hash)]
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.
@@ -186,12 +174,12 @@ impl ControlFlow {
}
}
impl EventLoop<()> {
impl EventLoop {
/// Create the event loop.
///
/// This is an alias of `EventLoop::builder().build()`.
#[inline]
pub fn new() -> Result<EventLoop<()>, EventLoopError> {
pub fn new() -> Result<EventLoop, EventLoopError> {
Self::builder().build()
}
@@ -201,33 +189,12 @@ impl EventLoop<()> {
///
/// To get the actual event loop, call [`build`][EventLoopBuilder::build] on that.
#[inline]
pub fn builder() -> EventLoopBuilder<()> {
Self::with_user_event()
pub fn builder() -> EventLoopBuilder {
EventLoopBuilder { platform_specific: Default::default() }
}
}
impl<T> EventLoop<T> {
/// Start building a new event loop, with the given type as the user event
/// type.
pub fn with_user_event() -> EventLoopBuilder<T> {
EventLoopBuilder { platform_specific: Default::default(), _p: PhantomData }
}
/// See [`run_app`].
///
/// [`run_app`]: Self::run_app
#[inline]
#[deprecated = "use `EventLoop::run_app` instead"]
#[cfg(not(all(web_platform, target_feature = "exception-handling")))]
pub fn run<F>(self, event_handler: F) -> Result<(), EventLoopError>
where
F: FnMut(Event<T>, &ActiveEventLoop),
{
let _span = tracing::debug_span!("winit::EventLoop::run").entered();
self.event_loop.run(event_handler)
}
impl EventLoop {
/// Run the application with the event loop on the calling thread.
///
/// See the [`set_control_flow()`] docs on how to change the event loop's behavior.
@@ -242,37 +209,38 @@ impl<T> EventLoop<T> {
///
/// Web applications are recommended to use
#[cfg_attr(
web_platform,
doc = "[`EventLoopExtWebSys::spawn_app()`][crate::platform::web::EventLoopExtWebSys::spawn_app()]"
any(web_platform, docsrs),
doc = " [`EventLoopExtWeb::spawn_app()`][crate::platform::web::EventLoopExtWeb::spawn_app()]"
)]
#[cfg_attr(not(web_platform), doc = "`EventLoopExtWebSys::spawn()`")]
/// [^1] instead of [`run_app()`] to avoid the need
/// for the Javascript exception trick, and to make it clearer that the event loop runs
/// asynchronously (via the browser's own, internal, event loop) and doesn't block the
/// current thread of execution like it does on other platforms.
#[cfg_attr(not(any(web_platform, docsrs)), doc = " `EventLoopExtWeb::spawn_app()`")]
/// [^1] instead of [`run_app()`] to avoid the need for the Javascript exception trick, and to
/// make it clearer that the event loop runs asynchronously (via the browser's own,
/// internal, event loop) and doesn't block the current thread of execution like it does
/// on other platforms.
///
/// This function won't be available with `target_feature = "exception-handling"`.
///
/// [^1]: `spawn_app()` is only available on the Web platform.
///
/// [`set_control_flow()`]: ActiveEventLoop::set_control_flow()
/// [`run_app()`]: Self::run_app()
/// [^1]: `EventLoopExtWebSys::spawn_app()` is only available on Web.
#[inline]
#[cfg(not(all(web_platform, target_feature = "exception-handling")))]
pub fn run_app<A: ApplicationHandler<T>>(self, app: &mut A) -> Result<(), EventLoopError> {
self.event_loop.run(|event, event_loop| dispatch_event_for_app(app, event_loop, event))
pub fn run_app<A: ApplicationHandler>(self, app: A) -> Result<(), EventLoopError> {
self.event_loop.run_app(app)
}
/// Creates an [`EventLoopProxy`] that can be used to dispatch user events
/// to the main event loop, possibly from another thread.
pub fn create_proxy(&self) -> EventLoopProxy<T> {
EventLoopProxy { event_loop_proxy: self.event_loop.create_proxy() }
pub fn create_proxy(&self) -> EventLoopProxy {
self.event_loop.window_target().create_proxy()
}
/// Gets a persistent reference to the underlying platform display.
///
/// See the [`OwnedDisplayHandle`] type for more information.
pub fn owned_display_handle(&self) -> OwnedDisplayHandle {
OwnedDisplayHandle { platform: self.event_loop.window_target().p.owned_display_handle() }
self.event_loop.window_target().owned_display_handle()
}
/// Change if or when [`DeviceEvent`]s are captured.
@@ -286,56 +254,35 @@ impl<T> EventLoop<T> {
allowed = ?allowed
)
.entered();
self.event_loop.window_target().p.listen_device_events(allowed);
self.event_loop.window_target().listen_device_events(allowed)
}
/// Sets the [`ControlFlow`].
pub fn set_control_flow(&self, control_flow: ControlFlow) {
self.event_loop.window_target().p.set_control_flow(control_flow)
}
/// Create a window.
///
/// Creating window without event loop running often leads to improper window creation;
/// use [`ActiveEventLoop::create_window`] instead.
#[deprecated = "use `ActiveEventLoop::create_window` instead"]
#[inline]
pub fn create_window(&self, window_attributes: WindowAttributes) -> Result<Window, OsError> {
let _span = tracing::debug_span!(
"winit::EventLoop::create_window",
window_attributes = ?window_attributes
)
.entered();
let window =
platform_impl::Window::new(&self.event_loop.window_target().p, window_attributes)?;
Ok(Window { window })
self.event_loop.window_target().set_control_flow(control_flow);
}
/// Create custom cursor.
pub fn create_custom_cursor(&self, custom_cursor: CustomCursorSource) -> CustomCursor {
self.event_loop.window_target().p.create_custom_cursor(custom_cursor)
///
/// ## Platform-specific
///
/// **iOS / Android / Orbital:** Unsupported.
pub fn create_custom_cursor(
&self,
custom_cursor: CustomCursorSource,
) -> Result<CustomCursor, RequestError> {
self.event_loop.window_target().create_custom_cursor(custom_cursor)
}
}
#[cfg(feature = "rwh_06")]
impl<T> rwh_06::HasDisplayHandle for EventLoop<T> {
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
rwh_06::HasDisplayHandle::display_handle(self.event_loop.window_target())
}
}
#[cfg(feature = "rwh_05")]
unsafe impl<T> rwh_05::HasRawDisplayHandle for EventLoop<T> {
/// Returns a [`rwh_05::RawDisplayHandle`] for the event loop.
fn raw_display_handle(&self) -> rwh_05::RawDisplayHandle {
rwh_05::HasRawDisplayHandle::raw_display_handle(self.event_loop.window_target())
impl HasDisplayHandle for EventLoop {
fn display_handle(&self) -> Result<DisplayHandle<'_>, HandleError> {
HasDisplayHandle::display_handle(self.event_loop.window_target().rwh_06_handle())
}
}
#[cfg(any(x11_platform, wayland_platform))]
impl<T> AsFd for EventLoop<T> {
impl AsFd for EventLoop {
/// Get the underlying [EventLoop]'s `fd` which you can register
/// into other event loop, like [`calloop`] or [`mio`]. When doing so, the
/// loop must be polled with the [`pump_app_events`] API.
@@ -349,7 +296,7 @@ impl<T> AsFd for EventLoop<T> {
}
#[cfg(any(x11_platform, wayland_platform))]
impl<T> AsRawFd for EventLoop<T> {
impl AsRawFd for EventLoop {
/// Get the underlying [EventLoop]'s raw `fd` which you can register
/// into other event loop, like [`calloop`] or [`mio`]. When doing so, the
/// loop must be polled with the [`pump_app_events`] API.
@@ -362,42 +309,45 @@ impl<T> AsRawFd for EventLoop<T> {
}
}
impl ActiveEventLoop {
pub trait ActiveEventLoop: AsAny {
/// Creates an [`EventLoopProxy`] that can be used to dispatch user events
/// to the main event loop, possibly from another thread.
fn create_proxy(&self) -> EventLoopProxy;
/// Create the window.
///
/// Possible causes of error include denied permission, incompatible system, and lack of memory.
///
/// ## Platform-specific
///
/// - **Web:** The window is created but not inserted into the web page automatically. Please
/// see the web platform module for more information.
#[inline]
pub fn create_window(&self, window_attributes: WindowAttributes) -> Result<Window, OsError> {
let _span = tracing::debug_span!(
"winit::ActiveEventLoop::create_window",
window_attributes = ?window_attributes
)
.entered();
let window = platform_impl::Window::new(&self.p, window_attributes)?;
Ok(Window { window })
}
/// - **Web:** The window is created but not inserted into the Web page automatically. Please
/// see the Web platform module for more information.
fn create_window(
&self,
window_attributes: WindowAttributes,
) -> Result<Box<dyn Window>, RequestError>;
/// Create custom cursor.
pub fn create_custom_cursor(&self, custom_cursor: CustomCursorSource) -> CustomCursor {
let _span = tracing::debug_span!("winit::ActiveEventLoop::create_custom_cursor",).entered();
self.p.create_custom_cursor(custom_cursor)
}
///
/// ## Platform-specific
///
/// **iOS / Android / Orbital:** Unsupported.
fn create_custom_cursor(
&self,
custom_cursor: CustomCursorSource,
) -> Result<CustomCursor, RequestError>;
/// Returns the list of all the monitors available on the system.
#[inline]
pub fn available_monitors(&self) -> impl Iterator<Item = MonitorHandle> {
let _span = tracing::debug_span!("winit::ActiveEventLoop::available_monitors",).entered();
#[allow(clippy::useless_conversion)] // false positive on some platforms
self.p.available_monitors().into_iter().map(|inner| MonitorHandle { inner })
}
///
/// ## Platform-specific
///
/// **Web:** Only returns the current monitor without
#[cfg_attr(
any(web_platform, docsrs),
doc = "[detailed monitor permissions][crate::platform::web::ActiveEventLoopExtWeb::request_detailed_monitor_permission]."
)]
#[cfg_attr(not(any(web_platform, docsrs)), doc = "detailed monitor permissions.")]
fn available_monitors(&self) -> Box<dyn Iterator<Item = MonitorHandle>>;
/// Returns the primary monitor of the system.
///
@@ -405,13 +355,14 @@ impl ActiveEventLoop {
///
/// ## Platform-specific
///
/// **Wayland / Web:** Always returns `None`.
#[inline]
pub fn primary_monitor(&self) -> Option<MonitorHandle> {
let _span = tracing::debug_span!("winit::ActiveEventLoop::primary_monitor",).entered();
self.p.primary_monitor().map(|inner| MonitorHandle { inner })
}
/// - **Wayland:** Always returns `None`.
/// - **Web:** Always returns `None` without
#[cfg_attr(
any(web_platform, docsrs),
doc = " [detailed monitor permissions][crate::platform::web::ActiveEventLoopExtWeb::request_detailed_monitor_permission]."
)]
#[cfg_attr(not(any(web_platform, docsrs)), doc = " detailed monitor permissions.")]
fn primary_monitor(&self) -> Option<MonitorHandle>;
/// Change if or when [`DeviceEvent`]s are captured.
///
@@ -424,70 +375,51 @@ impl ActiveEventLoop {
/// - **Wayland / macOS / iOS / Android / Orbital:** Unsupported.
///
/// [`DeviceEvent`]: crate::event::DeviceEvent
pub fn listen_device_events(&self, allowed: DeviceEvents) {
let _span = tracing::debug_span!(
"winit::ActiveEventLoop::listen_device_events",
allowed = ?allowed
)
.entered();
fn listen_device_events(&self, allowed: DeviceEvents);
self.p.listen_device_events(allowed);
}
/// Returns the current system theme.
///
/// Returns `None` if it cannot be determined on the current platform.
///
/// ## Platform-specific
///
/// - **iOS / Android / Wayland / x11 / Orbital:** Unsupported.
fn system_theme(&self) -> Option<Theme>;
/// Sets the [`ControlFlow`].
pub fn set_control_flow(&self, control_flow: ControlFlow) {
self.p.set_control_flow(control_flow)
}
fn set_control_flow(&self, control_flow: ControlFlow);
/// Gets the current [`ControlFlow`].
pub fn control_flow(&self) -> ControlFlow {
self.p.control_flow()
}
fn control_flow(&self) -> ControlFlow;
/// This exits the event loop.
///
/// See [`LoopExiting`][Event::LoopExiting].
pub fn exit(&self) {
let _span = tracing::debug_span!("winit::ActiveEventLoop::exit",).entered();
self.p.exit()
}
/// See [`exiting`][crate::application::ApplicationHandler::exiting].
fn exit(&self);
/// Returns if the [`EventLoop`] is about to stop.
///
/// See [`exit()`][Self::exit].
pub fn exiting(&self) -> bool {
self.p.exiting()
}
fn exiting(&self) -> bool;
/// Gets a persistent reference to the underlying platform display.
///
/// See the [`OwnedDisplayHandle`] type for more information.
pub fn owned_display_handle(&self) -> OwnedDisplayHandle {
OwnedDisplayHandle { platform: self.p.owned_display_handle() }
}
fn owned_display_handle(&self) -> OwnedDisplayHandle;
/// Get the raw-window-handle handle.
fn rwh_06_handle(&self) -> &dyn HasDisplayHandle;
}
#[cfg(feature = "rwh_06")]
impl rwh_06::HasDisplayHandle for ActiveEventLoop {
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
let raw = self.p.raw_display_handle_rwh_06()?;
// SAFETY: The display will never be deallocated while the event loop is alive.
Ok(unsafe { rwh_06::DisplayHandle::borrow_raw(raw) })
}
}
#[cfg(feature = "rwh_05")]
unsafe impl rwh_05::HasRawDisplayHandle for ActiveEventLoop {
/// Returns a [`rwh_05::RawDisplayHandle`] for the event loop.
fn raw_display_handle(&self) -> rwh_05::RawDisplayHandle {
self.p.raw_display_handle_rwh_05()
impl HasDisplayHandle for dyn ActiveEventLoop + '_ {
fn display_handle(&self) -> Result<DisplayHandle<'_>, HandleError> {
self.rwh_06_handle().display_handle()
}
}
/// A proxy for the underlying display handle.
///
/// The purpose of this type is to provide a cheaply clonable handle to the underlying
/// The purpose of this type is to provide a cheaply cloneable handle to the underlying
/// display handle. This is often used by graphics APIs to connect to the underlying APIs.
/// It is difficult to keep a handle to the [`EventLoop`] type or the [`ActiveEventLoop`]
/// type. In contrast, this type involves no lifetimes and can be persisted for as long as
@@ -499,87 +431,83 @@ unsafe impl rwh_05::HasRawDisplayHandle for ActiveEventLoop {
/// - A reference-counted pointer to the underlying type.
#[derive(Clone)]
pub struct OwnedDisplayHandle {
#[cfg_attr(not(any(feature = "rwh_05", feature = "rwh_06")), allow(dead_code))]
platform: platform_impl::OwnedDisplayHandle,
pub(crate) handle: Arc<dyn HasDisplayHandle>,
}
impl OwnedDisplayHandle {
pub(crate) fn new(handle: Arc<dyn HasDisplayHandle>) -> Self {
Self { handle }
}
}
impl HasDisplayHandle for OwnedDisplayHandle {
fn display_handle(&self) -> Result<DisplayHandle<'_>, HandleError> {
self.handle.display_handle()
}
}
impl fmt::Debug for OwnedDisplayHandle {
#[inline]
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("OwnedDisplayHandle").finish_non_exhaustive()
}
}
#[cfg(feature = "rwh_06")]
impl rwh_06::HasDisplayHandle for OwnedDisplayHandle {
#[inline]
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
let raw = self.platform.raw_display_handle_rwh_06()?;
// SAFETY: The underlying display handle should be safe.
let handle = unsafe { rwh_06::DisplayHandle::borrow_raw(raw) };
Ok(handle)
impl PartialEq for OwnedDisplayHandle {
fn eq(&self, other: &Self) -> bool {
match (self.display_handle(), other.display_handle()) {
(Ok(lhs), Ok(rhs)) => lhs == rhs,
_ => false,
}
}
}
#[cfg(feature = "rwh_05")]
unsafe impl rwh_05::HasRawDisplayHandle for OwnedDisplayHandle {
#[inline]
fn raw_display_handle(&self) -> rwh_05::RawDisplayHandle {
self.platform.raw_display_handle_rwh_05()
}
impl Eq for OwnedDisplayHandle {}
pub(crate) trait EventLoopProxyProvider: Send + Sync {
/// See [`EventLoopProxy::wake_up`] for details.
fn wake_up(&self);
}
/// Used to send custom events to [`EventLoop`].
pub struct EventLoopProxy<T: 'static> {
event_loop_proxy: platform_impl::EventLoopProxy<T>,
/// Control the [`EventLoop`], possibly from a different thread, without referencing it directly.
#[derive(Clone)]
pub struct EventLoopProxy {
pub(crate) proxy: Arc<dyn EventLoopProxyProvider>,
}
impl<T: 'static> Clone for EventLoopProxy<T> {
fn clone(&self) -> Self {
Self { event_loop_proxy: self.event_loop_proxy.clone() }
}
}
impl<T: 'static> EventLoopProxy<T> {
/// 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.
///
/// [`UserEvent(event)`]: Event::UserEvent
pub fn send_event(&self, event: T) -> Result<(), EventLoopClosed<T>> {
let _span = tracing::debug_span!("winit::EventLoopProxy::send_event",).entered();
self.event_loop_proxy.send_event(event)
}
}
impl<T: 'static> fmt::Debug for EventLoopProxy<T> {
impl fmt::Debug for EventLoopProxy {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.pad("EventLoopProxy { .. }")
f.debug_struct("EventLoopProxy").finish_non_exhaustive()
}
}
/// The error that is returned when an [`EventLoopProxy`] attempts to wake up an [`EventLoop`] that
/// no longer exists.
///
/// Contains the original event given to [`EventLoopProxy::send_event`].
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub struct EventLoopClosed<T>(pub T);
impl EventLoopProxy {
/// Wake up the [`EventLoop`], resulting in [`ApplicationHandler::proxy_wake_up()`] being
/// called.
///
/// Calls to this method are coalesced into a single call to [`proxy_wake_up`], see the
/// documentation on that for details.
///
/// If the event loop is no longer running, this is a no-op.
///
/// [`proxy_wake_up`]: ApplicationHandler::proxy_wake_up
///
/// # Platform-specific
///
/// - **Windows**: The wake-up may be ignored under high contention, see [#3687].
///
/// [#3687]: https://github.com/rust-windowing/winit/pull/3687
pub fn wake_up(&self) {
self.proxy.wake_up();
}
impl<T> fmt::Display for EventLoopClosed<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.write_str("Tried to wake up a closed `EventLoop`")
pub(crate) fn new(proxy: Arc<dyn EventLoopProxyProvider>) -> Self {
Self { proxy }
}
}
impl<T: fmt::Debug> error::Error for EventLoopClosed<T> {}
/// Control when device events are captured.
#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, Default)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
pub enum DeviceEvents {
/// Report device events regardless of window focus.
Always,
@@ -599,7 +527,7 @@ pub enum DeviceEvents {
/// containing [`AsyncRequestSerial`] and some closure associated with it.
/// Then once event is arriving the working list is being traversed and a job
/// executed and removed from the list.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct AsyncRequestSerial {
serial: usize,
}
@@ -615,23 +543,3 @@ impl AsyncRequestSerial {
Self { serial }
}
}
/// Shim for various run APIs.
#[inline(always)]
pub(crate) fn dispatch_event_for_app<T: 'static, A: ApplicationHandler<T>>(
app: &mut A,
event_loop: &ActiveEventLoop,
event: Event<T>,
) {
match event {
Event::NewEvents(cause) => app.new_events(event_loop, cause),
Event::WindowEvent { window_id, event } => app.window_event(event_loop, window_id, event),
Event::DeviceEvent { device_id, event } => app.device_event(event_loop, device_id, event),
Event::UserEvent(event) => app.user_event(event_loop, event),
Event::Suspended => app.suspended(event_loop),
Event::Resumed => app.resumed(event_loop),
Event::AboutToWait => app.about_to_wait(event_loop),
Event::LoopExiting => app.exiting(event_loop),
Event::MemoryWarning => app.memory_warning(event_loop),
}
}

11
src/icon.rs
View File

@@ -1,7 +1,8 @@
use crate::platform_impl::PlatformIcon;
use std::error::Error;
use std::{fmt, io, mem};
use crate::platform_impl::PlatformIcon;
#[repr(C)]
#[derive(Debug)]
pub(crate) struct Pixel {
@@ -49,15 +50,15 @@ impl fmt::Display for BadIcon {
impl Error for BadIcon {}
#[derive(Debug, Clone, PartialEq, Eq)]
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub(crate) struct RgbaIcon {
pub(crate) rgba: Vec<u8>,
pub(crate) width: u32,
pub(crate) height: u32,
}
/// For platforms which don't have window icons (e.g. web)
#[derive(Debug, Clone, PartialEq, Eq)]
/// For platforms which don't have window icons (e.g. Web)
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub(crate) struct NoIcon;
#[allow(dead_code)] // These are not used on every platform
@@ -93,7 +94,7 @@ mod constructors {
}
/// An icon used for the window titlebar, taskbar, etc.
#[derive(Clone)]
#[derive(Clone, Eq, Hash, PartialEq)]
pub struct Icon {
pub(crate) inner: PlatformIcon,
}

66
src/keyboard.rs
View File

@@ -84,7 +84,7 @@ pub use smol_str::SmolStr;
/// haven't mapped for you yet, this lets you use use [`KeyCode`] to:
///
/// - Correctly match key press and release events.
/// - On non-web platforms, support assigning keybinds to virtually any key through a UI.
/// - On non-Web platforms, support assigning keybinds to virtually any key through a UI.
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum NativeKeyCode {
@@ -1568,10 +1568,15 @@ impl NamedKey {
/// # Examples
///
/// ```
/// # #[cfg(web_platform)]
/// # wasm_bindgen_test::wasm_bindgen_test_configure!(run_in_browser);
/// # #[cfg_attr(web_platform, wasm_bindgen_test::wasm_bindgen_test)]
/// # fn main() {
/// use winit::keyboard::NamedKey;
///
/// assert_eq!(NamedKey::Enter.to_text(), Some("\r"));
/// assert_eq!(NamedKey::F20.to_text(), None);
/// # }
/// ```
pub fn to_text(&self) -> Option<&str> {
match self {
@@ -1591,11 +1596,16 @@ impl Key {
/// # Examples
///
/// ```
/// # #[cfg(web_platform)]
/// # wasm_bindgen_test::wasm_bindgen_test_configure!(run_in_browser);
/// # #[cfg_attr(web_platform, wasm_bindgen_test::wasm_bindgen_test)]
/// # fn main() {
/// use winit::keyboard::{Key, NamedKey};
///
/// assert_eq!(Key::Character("a".into()).to_text(), Some("a"));
/// assert_eq!(Key::Named(NamedKey::Enter).to_text(), Some("\r"));
/// assert_eq!(Key::Named(NamedKey::F20).to_text(), None);
/// # }
/// ```
pub fn to_text(&self) -> Option<&str> {
match self {
@@ -1618,7 +1628,7 @@ impl Key {
///
/// [`location`]: ../event/struct.KeyEvent.html#structfield.location
/// [`KeyEvent`]: crate::event::KeyEvent
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum KeyLocation {
/// The key is in its "normal" location on the keyboard.
@@ -1690,6 +1700,7 @@ bitflags! {
///
/// Each flag represents a modifier and is set if this modifier is active.
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct ModifiersState: u32 {
/// The "shift" key.
const SHIFT = 0b100;
@@ -1725,7 +1736,8 @@ impl ModifiersState {
}
/// The state of the particular modifiers key.
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq)]
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum ModifiersKeyState {
/// The particular key is pressed.
Pressed,
@@ -1744,6 +1756,7 @@ pub enum ModifiersKeyState {
// on macOS due to their AltGr/Option situation.
bitflags! {
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub(crate) struct ModifiersKeys: u8 {
const LSHIFT = 0b0000_0001;
const RSHIFT = 0b0000_0010;
@@ -1755,50 +1768,3 @@ bitflags! {
const RSUPER = 0b1000_0000;
}
}
#[cfg(feature = "serde")]
mod modifiers_serde {
use super::ModifiersState;
use serde::{Deserialize, Deserializer, Serialize, Serializer};
#[derive(Default, Serialize, Deserialize)]
#[serde(default)]
#[serde(rename = "ModifiersState")]
pub struct ModifiersStateSerialize {
pub shift_key: bool,
pub control_key: bool,
pub alt_key: bool,
pub super_key: bool,
}
impl Serialize for ModifiersState {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
let s = ModifiersStateSerialize {
shift_key: self.shift_key(),
control_key: self.control_key(),
alt_key: self.alt_key(),
super_key: self.super_key(),
};
s.serialize(serializer)
}
}
impl<'de> Deserialize<'de> for ModifiersState {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let ModifiersStateSerialize { shift_key, control_key, alt_key, super_key } =
ModifiersStateSerialize::deserialize(deserializer)?;
let mut m = ModifiersState::empty();
m.set(ModifiersState::SHIFT, shift_key);
m.set(ModifiersState::CONTROL, control_key);
m.set(ModifiersState::ALT, alt_key);
m.set(ModifiersState::SUPER, super_key);
Ok(m)
}
}
}

205
src/lib.rs
View File

@@ -1,5 +1,59 @@
//! Winit is a cross-platform window creation and event loop management library.
//!
//! # Usage
//!
//! `winit` can be added to `Cargo.toml` as a dependency. It can be added via `cargo add`.
//!
//! ```bash
//! $ cargo add winit
//! ```
//!
//! To only enable the X11 backend on Free Unix[^unix] systems, disable default features
//! and enable the `x11` feature.
//!
//! ```bash
//! $ cargo add winit --no-default-features --features x11
//! ```
//!
//! To only enable the Wayland backend on Free Unix systems, disable default features
//! and enable the `wayland` feature.
//!
//! ```bash
//! $ cargo add winit --no-default-features --features wayland
//! ```
//!
//! These features have no effect on systems that are not Free Unix.
//!
//! ## Dependencies
//!
//! Dependencies on non-system libraries is managed through Cargo. For the X11
//! backend, the following Ubuntu packages or their equivalents must[^must] be installed.
//!
//! - `libx11-dev`
//! - `libxcb1-dev`
//! - `libxi-dev`
//! - `libxcbcommon-dev`
//! - `libxcbcommon-x11-dev`
//!
//! For the Wayland backend, the following Ubuntu packages or their equivalents
//! must be installed.
//!
//! - `libwayland-dev`
//! - `libxcbcommon-dev`
//! - `libfontconfig` (only with `sctk-adwaita` feature)
//! - `freetype` (only with `sctk-adwaita` feature)
//!
//! The "dev" packages are only needed for building binaries that use `winit`. On
//! deployed system the non-`dev` equivalents need to be installed.
//!
//! The other backends (Windows, macOS, etc) do not have any dependencies on system libraries
//! that don't already come with the operating system. However, note that the Windows backend
//! only supports Windows 10 and above, and the macOS backend only supports macOS
//! 10.14 and above.
//!
//! [^unix]: Unix systems outside of Android and Apple, like Linux or FreeBSD.
//! [^must]: This is not a "must" when the "dlopen" features are enabled
//!
//! # Building windows
//!
//! Before you can create a [`Window`], you first need to build an [`EventLoop`]. This is done with
@@ -7,7 +61,12 @@
//!
//! ```no_run
//! use winit::event_loop::EventLoop;
//! let event_loop = EventLoop::new().unwrap();
//!
//! # // Intentionally use `fn main` for clarity
//! fn main() {
//! let event_loop = EventLoop::new().unwrap();
//! // ...
//! }
//! ```
//!
//! Then you create a [`Window`] with [`create_window`].
@@ -19,15 +78,14 @@
//! window or a key getting pressed while the window is focused. Devices can generate
//! [`DeviceEvent`]s, which contain unfiltered event data that isn't specific to a certain window.
//! Some user activity, like mouse movement, can generate both a [`WindowEvent`] *and* a
//! [`DeviceEvent`]. You can also create and handle your own custom [`Event::UserEvent`]s, if
//! desired.
//! [`DeviceEvent`].
//!
//! You can retrieve events by calling [`EventLoop::run_app()`]. This function will
//! dispatch events for every [`Window`] that was created with that particular [`EventLoop`], and
//! will run until [`exit()`] is used, at which point [`Event::LoopExiting`].
//! will run until [`exit()`] is used, at which point [`exiting()`] is called.
//!
//! Winit no longer uses a `EventLoop::poll_events() -> impl Iterator<Event>`-based event loop
//! model, since that can't be implemented properly on some platforms (e.g web, iOS) and works
//! model, since that can't be implemented properly on some platforms (e.g Web, iOS) and works
//! poorly on most other platforms. However, this model can be re-implemented to an extent with
#![cfg_attr(
any(windows_platform, macos_platform, android_platform, x11_platform, wayland_platform),
@@ -45,19 +103,19 @@
//! use winit::application::ApplicationHandler;
//! use winit::event::WindowEvent;
//! use winit::event_loop::{ActiveEventLoop, ControlFlow, EventLoop};
//! use winit::window::{Window, WindowId};
//! use winit::window::{Window, WindowId, WindowAttributes};
//!
//! #[derive(Default)]
//! struct App {
//! window: Option<Window>,
//! window: Option<Box<dyn Window>>,
//! }
//!
//! impl ApplicationHandler for App {
//! fn resumed(&mut self, event_loop: &ActiveEventLoop) {
//! self.window = Some(event_loop.create_window(Window::default_attributes()).unwrap());
//! fn can_create_surfaces(&mut self, event_loop: &dyn ActiveEventLoop) {
//! self.window = Some(event_loop.create_window(WindowAttributes::default()).unwrap());
//! }
//!
//! fn window_event(&mut self, event_loop: &ActiveEventLoop, id: WindowId, event: WindowEvent) {
//! fn window_event(&mut self, event_loop: &dyn ActiveEventLoop, id: WindowId, event: WindowEvent) {
//! match event {
//! WindowEvent::CloseRequested => {
//! println!("The close button was pressed; stopping");
@@ -84,19 +142,22 @@
//! }
//! }
//!
//! let event_loop = EventLoop::new().unwrap();
//! # // Intentionally use `fn main` for clarity
//! fn main() {
//! let event_loop = EventLoop::new().unwrap();
//!
//! // ControlFlow::Poll continuously runs the event loop, even if the OS hasn't
//! // dispatched any events. This is ideal for games and similar applications.
//! event_loop.set_control_flow(ControlFlow::Poll);
//! // ControlFlow::Poll continuously runs the event loop, even if the OS hasn't
//! // dispatched any events. This is ideal for games and similar applications.
//! event_loop.set_control_flow(ControlFlow::Poll);
//!
//! // ControlFlow::Wait pauses the event loop if no events are available to process.
//! // This is ideal for non-game applications that only update in response to user
//! // input, and uses significantly less power/CPU time than ControlFlow::Poll.
//! event_loop.set_control_flow(ControlFlow::Wait);
//! // ControlFlow::Wait pauses the event loop if no events are available to process.
//! // This is ideal for non-game applications that only update in response to user
//! // input, and uses significantly less power/CPU time than ControlFlow::Poll.
//! event_loop.set_control_flow(ControlFlow::Wait);
//!
//! let mut app = App::default();
//! event_loop.run_app(&mut app);
//! let mut app = App::default();
//! event_loop.run_app(&mut app);
//! }
//! ```
//!
//! [`WindowEvent`] has a [`WindowId`] member. In multi-window environments, it should be
@@ -116,6 +177,45 @@
//! [`visible` set to `false`][crate::window::WindowAttributes::with_visible] and explicitly make
//! the window visible only once you're ready to render into it.
//!
//! There is another important concept you need to know about when drawing: the "safe area". This
//! can be accessed with [`Window::safe_area`], and describes a rectangle in the surface that is not
//! obscured by notches, the status bar, and so on. You should be drawing your background and
//! non-important content on the entire surface, but restrict important content (such as
//! interactable UIs, text, etc.) to only being drawn inside the safe area.
//!
//! [`Window::safe_area`]: crate::window::Window::safe_area
//!
//! # Coordinate systems
//!
//! Windowing systems use many different coordinate systems, and this is reflected in Winit as well;
//! there are "desktop coordinates", which is the coordinates of a window or monitor relative to the
//! desktop at large, "window coordinates" which is the coordinates of the surface, relative to the
//! window, and finally "surface coordinates", which is the coordinates relative to the drawn
//! surface. All of these coordinates are relative to the top-left corner of their respective
//! origin.
//!
//! Most of the functionality in Winit works with surface coordinates, so usually you only need to
//! concern yourself with those. In case you need to convert to some other coordinate system, Winit
//! provides [`Window::surface_position`] and [`Window::surface_size`] to describe the surface's
//! location in window coordinates, and Winit provides [`Window::outer_position`] and
//! [`Window::outer_size`] to describe the window's location in desktop coordinates. Using these
//! methods, you should be able to convert a position in one coordinate system to another.
//!
//! An overview of how these four methods fit together can be seen in the image below:
#![doc = concat!("\n\n", include_str!("../docs/res/coordinate-systems-desktop.svg"), "\n\n")] // Rustfmt removes \n, adding them like this works around that.
//! On mobile, the situation is usually a bit different; because of the smaller screen space,
//! windows usually fill the whole screen at a time, and as such there is _rarely_ a difference
//! between these three coordinate systems, although you should still strive to handle this, as
//! they're still relevant in more niche area such as Mac Catalyst, or multi-tasking on tablets.
//!
//! This is illustrated in the image below, along with the safe area since it's often relevant on
//! mobile.
#![doc = concat!("\n\n", include_str!("../docs/res/coordinate-systems-mobile.svg"), "\n\n")] // Rustfmt removes \n, adding them like this works around that.
//! [`Window::surface_position`]: crate::window::Window::surface_position
//! [`Window::surface_size`]: crate::window::Window::surface_size
//! [`Window::outer_position`]: crate::window::Window::outer_position
//! [`Window::outer_size`]: crate::window::Window::outer_size
//!
//! # UI scaling
//!
//! UI scaling is important, go read the docs for the [`dpi`] crate for an
@@ -141,8 +241,6 @@
//!
//! * `x11` (enabled by default): On Unix platforms, enables the X11 backend.
//! * `wayland` (enabled by default): On Unix platforms, enables the Wayland backend.
//! * `rwh_04`: Implement `raw-window-handle v0.4` traits.
//! * `rwh_05`: Implement `raw-window-handle v0.5` traits.
//! * `rwh_06`: Implement `raw-window-handle v0.6` traits.
//! * `serde`: Enables serialization/deserialization of certain types with [Serde](https://crates.io/crates/serde).
//! * `mint`: Enables mint (math interoperability standard types) conversions.
@@ -150,6 +248,62 @@
//! See the [`platform`] module for documentation on platform-specific cargo
//! features.
//!
//! # Platform/Architecture Support
//!
//! Platform support on `winit` has two tiers: Tier 1 and Tier 2.
//!
//! - Tier 1 is **guaranteed to work**. Targets in this tier are actively tested both in CI and by
//! maintainers.
//! - Tier 2 is **guaranteed to build**. Code compilation is tested in CI, but deeper testing is not
//! done.
//!
//! Please open an issue if you would like to add a Tier 2 target, or if you would
//! like a Tier 2 target moved to Tier 1.
//!
//! ## Tier 1 Targets
//!
//! |Target Name |Target Triple |APIs |
//! |-------------------------------|------------------------------------|---------------|
//! |32-Bit x86 Windows with MSVC |`i686-pc-windows-msvc` |Win32 |
//! |64-Bit x86 Windows with MSVC |`x86_64-pc-windows-msvc` |Win32 |
//! |32-Bit x86 Windows with glibc |`i686-pc-windows-gnu` |Win32 |
//! |64-Bit x86 Windows with glibc |`x86_64-pc-windows-gnu` |Win32 |
//! |32-Bit x86 Linux with glibc |`i686-unknown-linux-gnu` |X11, Wayland |
//! |64-Bit x86 Linux with glibc |`x86_64-unknown-linux-gnu` |X11, Wayland |
//! |64-Bit ARM Android |`aarch64-linux-android` |Android |
//! |64-Bit x86 Redox OS |`x86_64-unknown-redox` |Orbital |
//! |32-Bit x86 Redox OS |`i686-unknown-redox` |Orbital |
//! |64-Bit ARM Redox OS |`aarch64-unknown-redox` |Orbital |
//! |64-bit x64 macOS |`x86_64-apple-darwin` |AppKit |
//! |64-bit ARM macOS |`aarch64-apple-darwin` |AppKit |
//! |32-bit Wasm Web browser |`wasm32-unknown-unknown` |`wasm-bindgen` |
//!
//! ## Tier 2 Targets
//!
//! |Target Name |Target Triple |APIs |
//! |------------------------------------|------------------------------------|---------------|
//! |64-Bit ARM Windows with MSVC |`aarch64-pc-windows-msvc` |Win32 |
//! |32-Bit x86 Windows 7 with MSVC |`i686-win7-windows-msvc` |Win32 |
//! |64-Bit x86 Windows 7 with MSVC |`x86_64-win7-windows-msvc` |Win32 |
//! |64-bit x86 Linux with Musl |`x86_64-unknown-linux-musl` |X11, Wayland |
//! |64-bit x86 Linux with 32-bit glibc |`x86_64-unknown-linux-gnux32` |X11, Wayland |
//! |64-bit x86 Android |`x86_64-linux-android` |Android |
//! |64-bit x64 iOS |`x86_64-apple-ios` |UIKit |
//! |64-bit ARM iOS |`aarch64-apple-ios` |UIKit |
//! |64-bit ARM Mac Catalyst |`aarch64-apple-ios-macabi` |UIKit |
//! |32-bit x86 Android |`i686-linux-android` |Android |
//! |64-bit x86 FreeBSD |`x86_64-unknown-freebsd` |X11, Wayland |
//! |64-bit x86 NetBSD |`x86_64-unknown-netbsd` |X11 |
//! |32-bit x86 Linux with Musl |`i686-unknown-linux-musl` |X11, Wayland |
//! |64-bit RISC-V Linux with glibc |`riscv64gc-unknown-linux-gnu` |X11, Wayland |
//! |64-bit ARM Linux with glibc |`aarch64-unknown-linux-gnu` |X11, Wayland |
//! |64-bit ARM Linux with Musl |`aarch64-unknown-linux-musl` |X11, Wayland |
//! |64-bit PowerPC Linux with glibc |`powerpc64le-unknown-linux-gnu` |X11, Wayland |
//! |32-Bit ARM Linux with glibc |`armv5te-unknown-linux-gnueabi` |X11, Wayland |
//! |64-Bit Linux on IBM Supercomputers |`s390x-unknown-linux-gnu` |X11, Wayland |
//! |32-bit ARM Android |`arm-linux-androideabi` |Android |
//! |64-bit SPARC Linux with glibc |`sparc64-unknown-linux-gnu` |X11, Wayland |
//!
//! [`EventLoop`]: event_loop::EventLoop
//! [`EventLoop::new()`]: event_loop::EventLoop::new
//! [`EventLoop::run_app()`]: event_loop::EventLoop::run_app
@@ -163,7 +317,7 @@
//! [`WindowEvent`]: event::WindowEvent
//! [`DeviceEvent`]: event::DeviceEvent
//! [`Event::UserEvent`]: event::Event::UserEvent
//! [`Event::LoopExiting`]: event::Event::LoopExiting
//! [`exiting()`]: crate::application::ApplicationHandler::exiting
//! [`raw_window_handle`]: ./window/struct.Window.html#method.raw_window_handle
//! [`raw_display_handle`]: ./window/struct.Window.html#method.raw_display_handle
//! [^1]: `EventLoopExtPumpEvents::pump_app_events()` is only available on Windows, macOS, Android, X11 and Wayland.
@@ -177,13 +331,12 @@
// doc
#![cfg_attr(docsrs, feature(doc_auto_cfg, doc_cfg_hide), doc(cfg_hide(doc, docsrs)))]
#![allow(clippy::missing_safety_doc)]
#[cfg(feature = "rwh_06")]
pub use rwh_06 as raw_window_handle;
#![warn(clippy::uninlined_format_args)]
// Re-export DPI types so that users don't have to put it in Cargo.toml.
#[doc(inline)]
pub use dpi;
pub use rwh_06 as raw_window_handle;
pub mod application;
#[cfg(any(doc, doctest, test))]

133
src/monitor.rs
View File

@@ -1,20 +1,12 @@
//! Types useful for interacting with a user's monitors.
//!
//! If you want to get basic information about a monitor, you can use the
//! [`MonitorHandle`] type. This is retrieved from one of the following
//! methods, which return an iterator of [`MonitorHandle`]:
//! - [`ActiveEventLoop::available_monitors`][crate::event_loop::ActiveEventLoop::available_monitors].
//! - [`Window::available_monitors`][crate::window::Window::available_monitors].
use std::num::{NonZeroU16, NonZeroU32};
use crate::dpi::{PhysicalPosition, PhysicalSize};
use crate::platform_impl;
/// Deprecated! Use `VideoModeHandle` instead.
#[deprecated = "Renamed to `VideoModeHandle`"]
pub type VideoMode = VideoModeHandle;
/// Describes a fullscreen video mode of a monitor.
/// A handle to a fullscreen video mode of a specific monitor.
///
/// Can be acquired with [`MonitorHandle::video_modes`].
/// This can be acquired with [`MonitorHandle::video_modes`].
#[derive(Clone, PartialEq, Eq, Hash)]
pub struct VideoModeHandle {
pub(crate) video_mode: platform_impl::VideoModeHandle,
@@ -48,7 +40,10 @@ impl Ord for VideoModeHandle {
}
impl VideoModeHandle {
/// Returns the resolution of this video mode.
/// Returns the resolution of this video mode. This **must not** be used to create your
/// rendering surface. Use [`Window::surface_size()`] instead.
///
/// [`Window::surface_size()`]: crate::window::Window::surface_size
#[inline]
pub fn size(&self) -> PhysicalSize<u32> {
self.video_mode.size()
@@ -57,19 +52,14 @@ impl VideoModeHandle {
/// Returns the bit depth of this video mode, as in how many bits you have
/// available per color. This is generally 24 bits or 32 bits on modern
/// systems, depending on whether the alpha channel is counted or not.
///
/// ## Platform-specific
///
/// - **Wayland / Orbital:** Always returns 32.
/// - **iOS:** Always returns 32.
#[inline]
pub fn bit_depth(&self) -> u16 {
pub fn bit_depth(&self) -> Option<NonZeroU16> {
self.video_mode.bit_depth()
}
/// Returns the refresh rate of this video mode in mHz.
#[inline]
pub fn refresh_rate_millihertz(&self) -> u32 {
pub fn refresh_rate_millihertz(&self) -> Option<NonZeroU32> {
self.video_mode.refresh_rate_millihertz()
}
@@ -85,59 +75,93 @@ impl std::fmt::Display for VideoModeHandle {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(
f,
"{}x{} @ {} mHz ({} bpp)",
"{}x{} {}{}",
self.size().width,
self.size().height,
self.refresh_rate_millihertz(),
self.bit_depth()
self.refresh_rate_millihertz().map(|rate| format!("@ {rate} mHz ")).unwrap_or_default(),
self.bit_depth().map(|bit_depth| format!("({bit_depth} bpp)")).unwrap_or_default(),
)
}
}
/// Handle to a monitor.
///
/// Allows you to retrieve information about a given monitor and can be used in [`Window`] creation.
/// Allows you to retrieve basic information and metadata about a monitor.
///
/// Can be used in [`Window`] creation to place the window on a specific
/// monitor.
///
/// This can be retrieved from one of the following methods, which return an
/// iterator of [`MonitorHandle`]s:
/// - [`ActiveEventLoop::available_monitors`](crate::event_loop::ActiveEventLoop::available_monitors).
/// - [`Window::available_monitors`](crate::window::Window::available_monitors).
///
/// ## Platform-specific
///
/// **Web:** A [`MonitorHandle`] created without
#[cfg_attr(
any(web_platform, docsrs),
doc = "[detailed monitor permissions][crate::platform::web::ActiveEventLoopExtWeb::request_detailed_monitor_permission]."
)]
#[cfg_attr(not(any(web_platform, docsrs)), doc = "detailed monitor permissions.")]
/// will always represent the current monitor the browser window is in instead of a specific
/// monitor. See
#[cfg_attr(
any(web_platform, docsrs),
doc = "[`MonitorHandleExtWeb::is_detailed()`][crate::platform::web::MonitorHandleExtWeb::is_detailed]"
)]
#[cfg_attr(not(any(web_platform, docsrs)), doc = "`MonitorHandleExtWeb::is_detailed()`")]
/// to check.
///
/// [`Window`]: crate::window::Window
#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord)]
#[derive(Clone, PartialEq, Eq, Hash, PartialOrd, Ord)]
pub struct MonitorHandle {
pub(crate) inner: platform_impl::MonitorHandle,
}
impl std::fmt::Debug for MonitorHandle {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
self.inner.fmt(f)
}
}
impl MonitorHandle {
/// Returns a human-readable name of the monitor.
///
/// Returns `None` if the monitor doesn't exist anymore.
///
/// ## Platform-specific
///
/// **Web:** Always returns [`None`] without
#[cfg_attr(
any(web_platform, docsrs),
doc = "[detailed monitor permissions][crate::platform::web::ActiveEventLoopExtWeb::request_detailed_monitor_permission]."
)]
#[cfg_attr(not(any(web_platform, docsrs)), doc = "detailed monitor permissions.")]
#[inline]
pub fn name(&self) -> Option<String> {
self.inner.name()
}
/// Returns the monitor's resolution.
/// Returns the top-left corner position of the monitor in desktop coordinates.
///
/// This position is in the same coordinate system as [`Window::outer_position`].
///
/// [`Window::outer_position`]: crate::window::Window::outer_position
///
/// ## Platform-specific
///
/// **Web:** Always returns [`None`] without
#[cfg_attr(
any(web_platform, docsrs),
doc = "[detailed monitor permissions][crate::platform::web::ActiveEventLoopExtWeb::request_detailed_monitor_permission]."
)]
#[cfg_attr(not(any(web_platform, docsrs)), doc = "detailed monitor permissions.")]
#[inline]
pub fn size(&self) -> PhysicalSize<u32> {
self.inner.size()
}
/// Returns the top-left corner position of the monitor relative to the larger full
/// screen area.
#[inline]
pub fn position(&self) -> PhysicalPosition<i32> {
pub fn position(&self) -> Option<PhysicalPosition<i32>> {
self.inner.position()
}
/// The monitor refresh rate used by the system.
///
/// Return `Some` if succeed, or `None` if failed, which usually happens when the monitor
/// the window is on is removed.
///
/// When using exclusive fullscreen, the refresh rate of the [`VideoModeHandle`] that was
/// used to enter fullscreen should be used instead.
#[inline]
pub fn refresh_rate_millihertz(&self) -> Option<u32> {
self.inner.refresh_rate_millihertz()
}
/// Returns the scale factor of the underlying monitor. To map logical pixels to physical
/// pixels and vice versa, use [`Window::scale_factor`].
///
@@ -148,18 +172,27 @@ impl MonitorHandle {
/// - **X11:** Can be overridden using the `WINIT_X11_SCALE_FACTOR` environment variable.
/// - **Wayland:** May differ from [`Window::scale_factor`].
/// - **Android:** Always returns 1.0.
/// - **Web:** Always returns `0.0` without
#[cfg_attr(
any(web_platform, docsrs),
doc = " [detailed monitor permissions][crate::platform::web::ActiveEventLoopExtWeb::request_detailed_monitor_permission]."
)]
#[cfg_attr(not(any(web_platform, docsrs)), doc = " detailed monitor permissions.")]
///
#[rustfmt::skip]
/// [`Window::scale_factor`]: crate::window::Window::scale_factor
#[inline]
pub fn scale_factor(&self) -> f64 {
self.inner.scale_factor()
}
/// Returns the currently active video mode of this monitor.
#[inline]
pub fn current_video_mode(&self) -> Option<VideoModeHandle> {
self.inner.current_video_mode().map(|video_mode| VideoModeHandle { video_mode })
}
/// Returns all fullscreen video modes supported by this monitor.
///
/// ## Platform-specific
///
/// - **Web:** Always returns an empty iterator
#[inline]
pub fn video_modes(&self) -> impl Iterator<Item = VideoModeHandle> {
self.inner.video_modes().map(|video_mode| VideoModeHandle { video_mode })

46
src/platform/android.rs
View File

@@ -19,6 +19,7 @@
//!
//! | winit | ndk-glue |
//! | :---: | :--------------------------: |
//! | 0.30 | `android-activity = "0.6"` |
//! | 0.29 | `android-activity = "0.5"` |
//! | 0.28 | `android-activity = "0.4"` |
//! | 0.27 | `ndk-glue = "0.7"` |
@@ -61,7 +62,7 @@
//! If your application is currently based on `NativeActivity` via the `ndk-glue` crate and building
//! with `cargo apk`, then the minimal changes would be:
//! 1. Remove `ndk-glue` from your `Cargo.toml`
//! 2. Enable the `"android-native-activity"` feature for Winit: `winit = { version = "0.29.15",
//! 2. Enable the `"android-native-activity"` feature for Winit: `winit = { version = "0.30.5",
//! features = [ "android-native-activity" ] }`
//! 3. Add an `android_main` entrypoint (as above), instead of using the '`[ndk_glue::main]` proc
//! macro from `ndk-macros` (optionally add a dependency on `android_logger` and initialize
@@ -69,18 +70,27 @@
//! 4. Pass a clone of the `AndroidApp` that your application receives to Winit when building your
//! event loop (as shown above).
use self::activity::{AndroidApp, ConfigurationRef, Rect};
use crate::event_loop::{ActiveEventLoop, EventLoop, EventLoopBuilder};
use crate::window::{Window, WindowAttributes};
use self::activity::{AndroidApp, ConfigurationRef, Rect};
/// Additional methods on [`EventLoop`] that are specific to Android.
pub trait EventLoopExtAndroid {}
pub trait EventLoopExtAndroid {
/// Get the [`AndroidApp`] which was used to create this event loop.
fn android_app(&self) -> &AndroidApp;
}
impl<T> EventLoopExtAndroid for EventLoop<T> {}
impl EventLoopExtAndroid for EventLoop {
fn android_app(&self) -> &AndroidApp {
&self.event_loop.android_app
}
}
/// Additional methods on [`ActiveEventLoop`] that are specific to Android.
pub trait ActiveEventLoopExtAndroid {}
pub trait ActiveEventLoopExtAndroid {
/// Get the [`AndroidApp`] which was used to create this event loop.
fn android_app(&self) -> &AndroidApp;
}
/// Additional methods on [`Window`] that are specific to Android.
pub trait WindowExtAndroid {
@@ -89,17 +99,25 @@ pub trait WindowExtAndroid {
fn config(&self) -> ConfigurationRef;
}
impl WindowExtAndroid for Window {
impl WindowExtAndroid for dyn Window + '_ {
fn content_rect(&self) -> Rect {
self.window.content_rect()
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.content_rect()
}
fn config(&self) -> ConfigurationRef {
self.window.config()
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.config()
}
}
impl ActiveEventLoopExtAndroid for ActiveEventLoop {}
impl ActiveEventLoopExtAndroid for dyn ActiveEventLoop + '_ {
fn android_app(&self) -> &AndroidApp {
let event_loop =
self.as_any().downcast_ref::<crate::platform_impl::ActiveEventLoop>().unwrap();
&event_loop.app
}
}
/// Additional methods on [`WindowAttributes`] that are specific to Android.
pub trait WindowAttributesExtAndroid {}
@@ -107,9 +125,9 @@ pub trait WindowAttributesExtAndroid {}
impl WindowAttributesExtAndroid for WindowAttributes {}
pub trait EventLoopBuilderExtAndroid {
/// Associates the `AndroidApp` that was passed to `android_main()` with the event loop
/// Associates the [`AndroidApp`] that was passed to `android_main()` with the event loop
///
/// This must be called on Android since the `AndroidApp` is not global state.
/// This must be called on Android since the [`AndroidApp`] is not global state.
fn with_android_app(&mut self, app: AndroidApp) -> &mut Self;
/// Calling this will mark the volume keys to be manually handled by the application
@@ -118,7 +136,7 @@ pub trait EventLoopBuilderExtAndroid {
fn handle_volume_keys(&mut self) -> &mut Self;
}
impl<T> EventLoopBuilderExtAndroid for EventLoopBuilder<T> {
impl EventLoopBuilderExtAndroid for EventLoopBuilder {
fn with_android_app(&mut self, app: AndroidApp) -> &mut Self {
self.platform_specific.android_app = Some(app);
self
@@ -146,7 +164,7 @@ impl<T> EventLoopBuilderExtAndroid for EventLoopBuilder<T> {
/// depending on the `android_activity` crate, and instead consume the API that
/// is re-exported by Winit.
///
/// For compatibility applications should then import the `AndroidApp` type for
/// For compatibility applications should then import the [`AndroidApp`] type for
/// their `android_main(app: AndroidApp)` function like:
/// ```rust
/// #[cfg(target_os = "android")]

212
src/platform/ios.rs
View File

@@ -1,51 +1,79 @@
//! # iOS / UIKit
//!
//! Winit has an OS requirement of iOS 8 or higher, and is regularly tested on
//! iOS 9.3.
//! Winit has [the same iOS version requirements as `rustc`][rustc-ios-version], although it's
//! frequently only tested on newer iOS versions.
//!
//! iOS's main `UIApplicationMain` does some init work that's required by all
//! UI-related code (see issue [#1705]). It is best to create your windows
//! inside `Event::Resumed`.
//! [rustc-ios-version]: https://doc.rust-lang.org/rustc/platform-support/apple-ios.html#os-version
//!
//! [#1705]: https://github.com/rust-windowing/winit/issues/1705
//! ## Running on Mac Catalyst
//!
//! ## Building app
//! Mac Catalyst allows running applications using UIKit on macOS, which can be very useful for
//! testing. See [`rustc`'s documentation on Mac Catalyst][rustc-mac-catalyst] for details on how to
//! use these targets. To use these with Winit, you'll need to bundle your application before
//! running it, otherwise UIKit will exit with an error.
//!
//! To build ios app you will need rustc built for this targets:
//! To run e.g. the `window` example in the Winit repository, you can use [`cargo-bundle`] as
//! follows:
//!
//! - 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_winit_app() {
//! start_inner()
//! }
//!
//! fn start_inner() {
//! ...
//! }
//! ```console
//! $ cargo +nightly bundle --format=ios --target=aarch64-apple-ios-macabi --example=window
//! $ ./target/aarch64-apple-ios-macabi/debug/examples/bundle/ios/winit.app/window
//! ```
//!
//! Compile project and then drag resulting .a into Xcode project. Add winit.h to xcode.
//! [rustc-mac-catalyst]: https://doc.rust-lang.org/rustc/platform-support/apple-ios-macabi.html
//! [`cargo-bundle`]: https://github.com/burtonageo/cargo-bundle
//!
//! ```ignore
//! void start_winit_app();
//! ## Introduction to building an app
//!
//! Building and running your application in the iOS simulator, or on a real device, is a bit more
//! complicated than Mac Catalyst - fundamentally, you must use Xcode, since the binary needs to be
//! bundled, signed, notarized and uploaded to the device (there is [an open source work-in-progress
//! on re-implementing parts of this][apple-platform-rs], but the user-story around it is not yet
//! clear).
//!
//! This means that you're left with effectively two options: Use a tool that manages the Xcode
//! configuration for you, or use Xcode directly. [`cargo-dinghy`] and [`cargo-mobile2`] are notable
//! projects in the ecosystem that attempt the former, and [`cargo-xcode`] is an excellent project
//! that attempts the latter. We will also attempt to describe here how you would go about using
//! Xcode directly:
//!
//! First off, you'll need the correct Rust targets, see [`rustc`'s documentation on iOS][rustc-ios]
//! for details. Nowadays, the correct targets are usually `aarch64-apple-ios-sim` for the
//! simulator, and `aarch64-apple-ios` for the actual device.
//!
//! Next, create a new Xcode project using the "App" template. The exact configuration does not
//! really matter, as we're going to delete most of it, since it's tailored for Objective-C and/or
//! Swift, and Rust/Winit is neither. Specifically, we need to delete:
//! - Everything relating to storyboards (unless you want to use e.g. a launch screen). This
//! includes the relevant keys in `Info.plist`.
//! - All the generated C header, Objective-C and/or Swift files.
//!
//! Now that we have a fairly clean slate that we can build upon, you can add a "run script" build
//! phase to your Xcode target, which will get invoked instead of the "compile sources" and "link
//! binary" steps. The basic script should look something like:
//!
//! ```sh
//! # Build desired targets based on `ARCHS` environment variable
//! cargo build --target=aarch64-apple-ios --target=armv7s-apple-ios
//! # Merge these with `lipo`, and place the result in "$TARGET_BUILD_DIR/$EXECUTABLE_PATH", which
//! # is understood by Xcode
//! lipo "$TARGET_BUILD_DIR/$EXECUTABLE_PATH" target/aarch64-apple-ios/debug/my_app target/armv7s-apple-ios/debug/my_app
//! ```
//!
//! Use start_winit_app inside your xcode's main function.
//! Note that this is very much the overall idea; the script needs to be much more involved to
//! properly deal with different target architectures, invoking `lipo` when needed, incremental
//! rebuild change detection, and so on. `cargo-xcode` has a script [here][cargo-xcode-script] that
//! handles most of this complexity, you might be able to build upon that.
//!
//! Apologies that we're not able to provide you with more than this; work is in-progress on
//! improving the situation, but it's slow-going.
//!
//! [apple-platform-rs]: https://github.com/indygreg/apple-platform-rs
//! [`cargo-dinghy`]: https://github.com/sonos/dinghy
//! [`cargo-mobile2`]: https://github.com/tauri-apps/cargo-mobile2
//! [`cargo-xcode`]: https://crates.io/crates/cargo-xcode
//! [rustc-ios]: https://doc.rust-lang.org/rustc/platform-support/apple-ios.html
//! [cargo-xcode-script]: https://gitlab.com/kornelski/cargo-xcode/-/blob/main/src/xcodebuild.sh
//!
//! ## App lifecycle and events
//!
@@ -63,25 +91,25 @@
//! opengl will result in segfault.
//!
//! Also note that app may not receive the LoopExiting event if suspended; it might be SIGKILL'ed.
//!
//! ## Custom `UIApplicationDelegate`
//!
//! Winit usually handles everything related to the lifecycle events of the application. Sometimes,
//! though, you might want to access some of the more niche stuff that [the application
//! delegate][app-delegate] provides. This functionality is not exposed directly in Winit, since it
//! would increase the API surface by quite a lot. Instead, Winit guarantees that it will not
//! register an application delegate, so you can set up a custom one in a nib file instead.
//!
//! [app-delegate]: https://developer.apple.com/documentation/uikit/uiapplicationdelegate?language=objc
use std::os::raw::c_void;
use crate::event_loop::EventLoop;
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
use crate::monitor::{MonitorHandle, VideoModeHandle};
use crate::window::{Window, WindowAttributes};
/// Additional methods on [`EventLoop`] that are specific to iOS.
pub trait EventLoopExtIOS {
/// Returns the [`Idiom`] (phone/tablet/tv/etc) for the current device.
fn idiom(&self) -> Idiom;
}
impl<T: 'static> EventLoopExtIOS for EventLoop<T> {
fn idiom(&self) -> Idiom {
self.event_loop.idiom()
}
}
/// Additional methods on [`Window`] that are specific to iOS.
pub trait WindowExtIOS {
/// Sets the [`contentScaleFactor`] of the underlying [`UIWindow`] to `scale_factor`.
@@ -155,6 +183,21 @@ pub trait WindowExtIOS {
/// The default is to not recognize gestures.
fn recognize_pinch_gesture(&self, should_recognize: bool);
/// Sets whether the [`Window`] should recognize pan gestures.
///
/// The default is to not recognize gestures.
/// Installs [`UIPanGestureRecognizer`](https://developer.apple.com/documentation/uikit/uipangesturerecognizer) onto view
///
/// Set the minimum number of touches required: [`minimumNumberOfTouches`](https://developer.apple.com/documentation/uikit/uipangesturerecognizer/1621208-minimumnumberoftouches)
///
/// Set the maximum number of touches recognized: [`maximumNumberOfTouches`](https://developer.apple.com/documentation/uikit/uipangesturerecognizer/1621208-maximumnumberoftouches)
fn recognize_pan_gesture(
&self,
should_recognize: bool,
minimum_number_of_touches: u8,
maximum_number_of_touches: u8,
);
/// Sets whether the [`Window`] should recognize double tap gestures.
///
/// The default is to not recognize gestures.
@@ -166,52 +209,78 @@ pub trait WindowExtIOS {
fn recognize_rotation_gesture(&self, should_recognize: bool);
}
impl WindowExtIOS for Window {
impl WindowExtIOS for dyn Window + '_ {
#[inline]
fn set_scale_factor(&self, scale_factor: f64) {
self.window.maybe_queue_on_main(move |w| w.set_scale_factor(scale_factor))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_scale_factor(scale_factor));
}
#[inline]
fn set_valid_orientations(&self, valid_orientations: ValidOrientations) {
self.window.maybe_queue_on_main(move |w| w.set_valid_orientations(valid_orientations))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_valid_orientations(valid_orientations));
}
#[inline]
fn set_prefers_home_indicator_hidden(&self, hidden: bool) {
self.window.maybe_queue_on_main(move |w| w.set_prefers_home_indicator_hidden(hidden))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_prefers_home_indicator_hidden(hidden));
}
#[inline]
fn set_preferred_screen_edges_deferring_system_gestures(&self, edges: ScreenEdge) {
self.window.maybe_queue_on_main(move |w| {
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| {
w.set_preferred_screen_edges_deferring_system_gestures(edges)
})
});
}
#[inline]
fn set_prefers_status_bar_hidden(&self, hidden: bool) {
self.window.maybe_queue_on_main(move |w| w.set_prefers_status_bar_hidden(hidden))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_prefers_status_bar_hidden(hidden));
}
#[inline]
fn set_preferred_status_bar_style(&self, status_bar_style: StatusBarStyle) {
self.window.maybe_queue_on_main(move |w| w.set_preferred_status_bar_style(status_bar_style))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_preferred_status_bar_style(status_bar_style))
}
#[inline]
fn recognize_pinch_gesture(&self, should_recognize: bool) {
self.window.maybe_queue_on_main(move |w| w.recognize_pinch_gesture(should_recognize));
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.recognize_pinch_gesture(should_recognize));
}
#[inline]
fn recognize_pan_gesture(
&self,
should_recognize: bool,
minimum_number_of_touches: u8,
maximum_number_of_touches: u8,
) {
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| {
w.recognize_pan_gesture(
should_recognize,
minimum_number_of_touches,
maximum_number_of_touches,
)
});
}
#[inline]
fn recognize_doubletap_gesture(&self, should_recognize: bool) {
self.window.maybe_queue_on_main(move |w| w.recognize_doubletap_gesture(should_recognize));
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.recognize_doubletap_gesture(should_recognize));
}
#[inline]
fn recognize_rotation_gesture(&self, should_recognize: bool) {
self.window.maybe_queue_on_main(move |w| w.recognize_rotation_gesture(should_recognize));
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.recognize_rotation_gesture(should_recognize));
}
}
@@ -326,7 +395,7 @@ impl MonitorHandleExtIOS for MonitorHandle {
fn ui_screen(&self) -> *mut c_void {
// SAFETY: The marker is only used to get the pointer of the screen
let mtm = unsafe { objc2_foundation::MainThreadMarker::new_unchecked() };
objc2::rc::Id::as_ptr(self.inner.ui_screen(mtm)) as *mut c_void
objc2::rc::Retained::as_ptr(self.inner.ui_screen(mtm)) as *mut c_void
}
#[inline]
@@ -337,6 +406,7 @@ impl MonitorHandleExtIOS for MonitorHandle {
/// Valid orientations for a particular [`Window`].
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum ValidOrientations {
/// Excludes `PortraitUpsideDown` on iphone
#[default]
@@ -348,29 +418,12 @@ pub enum ValidOrientations {
Portrait,
}
/// The device [idiom].
///
/// [idiom]: https://developer.apple.com/documentation/uikit/uidevice/1620037-userinterfaceidiom?language=objc
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum Idiom {
Unspecified,
/// iPhone and iPod touch.
Phone,
/// iPad.
Pad,
/// tvOS and Apple TV.
TV,
CarPlay,
}
bitflags::bitflags! {
/// The [edges] of a screen.
///
/// [edges]: https://developer.apple.com/documentation/uikit/uirectedge?language=objc
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct ScreenEdge: u8 {
const NONE = 0;
const TOP = 1 << 0;
@@ -382,7 +435,8 @@ bitflags::bitflags! {
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq)]
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum StatusBarStyle {
#[default]
Default,

278
src/platform/macos.rs
View File

@@ -1,27 +1,84 @@
//! # macOS / AppKit
//!
//! Winit has an OS requirement of macOS 10.11 or higher (same as Rust
//! itself), and is regularly tested on macOS 10.14.
//! Winit has [the same macOS version requirements as `rustc`][rustc-macos-version], and is tested
//! once in a while on as low as macOS 10.14.
//!
//! A lot of functionality expects the application to be ready before you
//! start doing anything; this includes creating windows, fetching monitors,
//! drawing, and so on, see issues [#2238], [#2051] and [#2087].
//! [rustc-macos-version]: https://doc.rust-lang.org/rustc/platform-support/apple-darwin.html#os-version
//!
//! If you encounter problems, you should try doing your initialization inside
//! `Event::Resumed`.
//! ## Custom `NSApplicationDelegate`
//!
//! [#2238]: https://github.com/rust-windowing/winit/issues/2238
//! [#2051]: https://github.com/rust-windowing/winit/issues/2051
//! [#2087]: https://github.com/rust-windowing/winit/issues/2087
//! Winit usually handles everything related to the lifecycle events of the application. Sometimes,
//! though, you might want to do more niche stuff, such as [handle when the user re-activates the
//! application][reopen]. Such functionality is not exposed directly in Winit, since it would
//! increase the API surface by quite a lot.
//!
//! [reopen]: https://developer.apple.com/documentation/appkit/nsapplicationdelegate/1428638-applicationshouldhandlereopen?language=objc
//!
//! Instead, Winit guarantees that it will not register an application delegate, so the solution is
//! to register your own application delegate, as outlined in the following example (see
//! `objc2-app-kit` for more detailed information).
#![cfg_attr(target_os = "macos", doc = "```")]
#![cfg_attr(not(target_os = "macos"), doc = "```ignore")]
//! use objc2::rc::Retained;
//! use objc2::runtime::ProtocolObject;
//! use objc2::{declare_class, msg_send_id, mutability, ClassType, DeclaredClass};
//! use objc2_app_kit::{NSApplication, NSApplicationDelegate};
//! use objc2_foundation::{NSArray, NSURL, MainThreadMarker, NSObject, NSObjectProtocol};
//! use winit::event_loop::EventLoop;
//!
//! declare_class!(
//! struct AppDelegate;
//!
//! unsafe impl ClassType for AppDelegate {
//! type Super = NSObject;
//! type Mutability = mutability::MainThreadOnly;
//! const NAME: &'static str = "MyAppDelegate";
//! }
//!
//! impl DeclaredClass for AppDelegate {}
//!
//! unsafe impl NSObjectProtocol for AppDelegate {}
//!
//! unsafe impl NSApplicationDelegate for AppDelegate {
//! #[method(application:openURLs:)]
//! fn application_openURLs(&self, application: &NSApplication, urls: &NSArray<NSURL>) {
//! // Note: To specifically get `application:openURLs:` to work, you _might_
//! // have to bundle your application. This is not done in this example.
//! println!("open urls: {application:?}, {urls:?}");
//! }
//! }
//! );
//!
//! impl AppDelegate {
//! fn new(mtm: MainThreadMarker) -> Retained<Self> {
//! unsafe { msg_send_id![super(mtm.alloc().set_ivars(())), init] }
//! }
//! }
//!
//! fn main() -> Result<(), Box<dyn std::error::Error>> {
//! let event_loop = EventLoop::new()?;
//!
//! let mtm = MainThreadMarker::new().unwrap();
//! let delegate = AppDelegate::new(mtm);
//! // Important: Call `sharedApplication` after `EventLoop::new`,
//! // doing it before is not yet supported.
//! let app = NSApplication::sharedApplication(mtm);
//! app.setDelegate(Some(ProtocolObject::from_ref(&*delegate)));
//!
//! // event_loop.run_app(&mut my_app);
//! Ok(())
//! }
//! ```
use std::os::raw::c_void;
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
use crate::application::ApplicationHandler;
use crate::event_loop::{ActiveEventLoop, EventLoopBuilder};
use crate::monitor::MonitorHandle;
use crate::window::{Window, WindowAttributes};
use crate::window::{Window, WindowAttributes, WindowId};
/// Additional methods on [`Window`] that are specific to MacOS.
pub trait WindowExtMacOS {
@@ -35,6 +92,9 @@ pub trait WindowExtMacOS {
/// This is how fullscreen used to work on macOS in versions before Lion.
/// And allows the user to have a fullscreen window without using another
/// space or taking control over the entire monitor.
///
/// Make sure you only draw your important content inside the safe area so that it does not
/// overlap with the notch on newer devices, see [`Window::safe_area`] for details.
fn set_simple_fullscreen(&self, fullscreen: bool) -> bool;
/// Returns whether or not the window has shadow.
@@ -94,82 +154,134 @@ pub trait WindowExtMacOS {
/// Getter for the [`WindowExtMacOS::set_option_as_alt`].
fn option_as_alt(&self) -> OptionAsAlt;
/// Disable the Menu Bar and Dock in Borderless Fullscreen mode. Useful for games.
fn set_borderless_game(&self, borderless_game: bool);
/// Getter for the [`WindowExtMacOS::set_borderless_game`].
fn is_borderless_game(&self) -> bool;
/// Makes the titlebar bigger, effectively adding more space around the
/// window controls if the titlebar is invisible.
fn set_unified_titlebar(&self, unified_titlebar: bool);
/// Getter for the [`WindowExtMacOS::set_unified_titlebar`].
fn unified_titlebar(&self) -> bool;
}
impl WindowExtMacOS for Window {
impl WindowExtMacOS for dyn Window + '_ {
#[inline]
fn simple_fullscreen(&self) -> bool {
self.window.maybe_wait_on_main(|w| w.simple_fullscreen())
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.simple_fullscreen())
}
#[inline]
fn set_simple_fullscreen(&self, fullscreen: bool) -> bool {
self.window.maybe_wait_on_main(move |w| w.set_simple_fullscreen(fullscreen))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_simple_fullscreen(fullscreen))
}
#[inline]
fn has_shadow(&self) -> bool {
self.window.maybe_wait_on_main(|w| w.has_shadow())
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.has_shadow())
}
#[inline]
fn set_has_shadow(&self, has_shadow: bool) {
self.window.maybe_queue_on_main(move |w| w.set_has_shadow(has_shadow))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_has_shadow(has_shadow));
}
#[inline]
fn set_tabbing_identifier(&self, identifier: &str) {
self.window.maybe_wait_on_main(|w| w.set_tabbing_identifier(identifier))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.set_tabbing_identifier(identifier))
}
#[inline]
fn tabbing_identifier(&self) -> String {
self.window.maybe_wait_on_main(|w| w.tabbing_identifier())
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.tabbing_identifier())
}
#[inline]
fn select_next_tab(&self) {
self.window.maybe_queue_on_main(|w| w.select_next_tab())
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.select_next_tab());
}
#[inline]
fn select_previous_tab(&self) {
self.window.maybe_queue_on_main(|w| w.select_previous_tab())
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.select_previous_tab());
}
#[inline]
fn select_tab_at_index(&self, index: usize) {
self.window.maybe_queue_on_main(move |w| w.select_tab_at_index(index))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.select_tab_at_index(index));
}
#[inline]
fn num_tabs(&self) -> usize {
self.window.maybe_wait_on_main(|w| w.num_tabs())
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.num_tabs())
}
#[inline]
fn is_document_edited(&self) -> bool {
self.window.maybe_wait_on_main(|w| w.is_document_edited())
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.is_document_edited())
}
#[inline]
fn set_document_edited(&self, edited: bool) {
self.window.maybe_queue_on_main(move |w| w.set_document_edited(edited))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_document_edited(edited));
}
#[inline]
fn set_option_as_alt(&self, option_as_alt: OptionAsAlt) {
self.window.maybe_queue_on_main(move |w| w.set_option_as_alt(option_as_alt))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(move |w| w.set_option_as_alt(option_as_alt));
}
#[inline]
fn option_as_alt(&self) -> OptionAsAlt {
self.window.maybe_wait_on_main(|w| w.option_as_alt())
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.option_as_alt())
}
#[inline]
fn set_borderless_game(&self, borderless_game: bool) {
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.set_borderless_game(borderless_game))
}
#[inline]
fn is_borderless_game(&self) -> bool {
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.is_borderless_game())
}
#[inline]
fn set_unified_titlebar(&self, unified_titlebar: bool) {
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.set_unified_titlebar(unified_titlebar))
}
#[inline]
fn unified_titlebar(&self) -> bool {
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.maybe_wait_on_main(|w| w.unified_titlebar())
}
}
/// Corresponds to `NSApplicationActivationPolicy`.
#[derive(Debug, Default, Clone, Copy, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum ActivationPolicy {
/// Corresponds to `NSApplicationActivationPolicyRegular`.
#[default]
@@ -216,6 +328,10 @@ pub trait WindowAttributesExtMacOS {
///
/// See [`WindowExtMacOS::set_option_as_alt`] for details on what this means if set.
fn with_option_as_alt(self, option_as_alt: OptionAsAlt) -> Self;
/// See [`WindowExtMacOS::set_borderless_game`] for details on what this means if set.
fn with_borderless_game(self, borderless_game: bool) -> Self;
/// See [`WindowExtMacOS::set_unified_titlebar`] for details on what this means if set.
fn with_unified_titlebar(self, unified_titlebar: bool) -> Self;
}
impl WindowAttributesExtMacOS for WindowAttributes {
@@ -284,23 +400,38 @@ impl WindowAttributesExtMacOS for WindowAttributes {
self.platform_specific.option_as_alt = option_as_alt;
self
}
#[inline]
fn with_borderless_game(mut self, borderless_game: bool) -> Self {
self.platform_specific.borderless_game = borderless_game;
self
}
#[inline]
fn with_unified_titlebar(mut self, unified_titlebar: bool) -> Self {
self.platform_specific.unified_titlebar = unified_titlebar;
self
}
}
pub trait EventLoopBuilderExtMacOS {
/// Sets the activation policy for the application.
/// Sets the activation policy for the application. If used, this will override
/// any relevant settings provided in the package manifest.
/// For instance, `with_activation_policy(ActivationPolicy::Regular)` will prevent
/// the application from running as an "agent", even if LSUIElement is set to true.
///
/// It is set to [`ActivationPolicy::Regular`] by default.
/// If unused, the Winit will honor the package manifest.
///
/// # Example
///
/// Set the activation policy to "accessory".
///
/// ```
/// use winit::event_loop::EventLoopBuilder;
/// use winit::event_loop::EventLoop;
/// #[cfg(target_os = "macos")]
/// use winit::platform::macos::{ActivationPolicy, EventLoopBuilderExtMacOS};
///
/// let mut builder = EventLoopBuilder::new();
/// let mut builder = EventLoop::builder();
/// #[cfg(target_os = "macos")]
/// builder.with_activation_policy(ActivationPolicy::Accessory);
/// # if false { // We can't test this part
@@ -318,11 +449,11 @@ pub trait EventLoopBuilderExtMacOS {
/// Disable creating a default menubar.
///
/// ```
/// use winit::event_loop::EventLoopBuilder;
/// use winit::event_loop::EventLoop;
/// #[cfg(target_os = "macos")]
/// use winit::platform::macos::EventLoopBuilderExtMacOS;
///
/// let mut builder = EventLoopBuilder::new();
/// let mut builder = EventLoop::builder();
/// #[cfg(target_os = "macos")]
/// builder.with_default_menu(false);
/// # if false { // We can't test this part
@@ -338,10 +469,10 @@ pub trait EventLoopBuilderExtMacOS {
fn with_activate_ignoring_other_apps(&mut self, ignore: bool) -> &mut Self;
}
impl<T> EventLoopBuilderExtMacOS for EventLoopBuilder<T> {
impl EventLoopBuilderExtMacOS for EventLoopBuilder {
#[inline]
fn with_activation_policy(&mut self, activation_policy: ActivationPolicy) -> &mut Self {
self.platform_specific.activation_policy = activation_policy;
self.platform_specific.activation_policy = Some(activation_policy);
self
}
@@ -375,7 +506,7 @@ impl MonitorHandleExtMacOS for MonitorHandle {
fn ns_screen(&self) -> Option<*mut c_void> {
// SAFETY: We only use the marker to get a pointer
let mtm = unsafe { objc2_foundation::MainThreadMarker::new_unchecked() };
self.inner.ns_screen(mtm).map(|s| objc2::rc::Id::as_ptr(&s) as _)
self.inner.ns_screen(mtm).map(|s| objc2::rc::Retained::as_ptr(&s) as _)
}
}
@@ -395,28 +526,44 @@ pub trait ActiveEventLoopExtMacOS {
fn allows_automatic_window_tabbing(&self) -> bool;
}
impl ActiveEventLoopExtMacOS for ActiveEventLoop {
impl ActiveEventLoopExtMacOS for dyn ActiveEventLoop + '_ {
fn hide_application(&self) {
self.p.hide_application()
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non macOS event loop on macOS");
event_loop.hide_application()
}
fn hide_other_applications(&self) {
self.p.hide_other_applications()
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non macOS event loop on macOS");
event_loop.hide_other_applications()
}
fn set_allows_automatic_window_tabbing(&self, enabled: bool) {
self.p.set_allows_automatic_window_tabbing(enabled);
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non macOS event loop on macOS");
event_loop.set_allows_automatic_window_tabbing(enabled);
}
fn allows_automatic_window_tabbing(&self) -> bool {
self.p.allows_automatic_window_tabbing()
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non macOS event loop on macOS");
event_loop.allows_automatic_window_tabbing()
}
}
/// Option as alt behavior.
///
/// The default is `None`.
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq)]
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum OptionAsAlt {
/// The left `Option` key is treated as `Alt`.
@@ -432,3 +579,52 @@ pub enum OptionAsAlt {
#[default]
None,
}
/// Additional events on [`ApplicationHandler`] that are specific to macOS.
///
/// This can be registered with [`ApplicationHandler::macos_handler`].
pub trait ApplicationHandlerExtMacOS: ApplicationHandler {
/// The system interpreted a keypress as a standard key binding command.
///
/// Examples include inserting tabs and newlines, or moving the insertion point, see
/// [`NSStandardKeyBindingResponding`] for the full list of key bindings. They are often text
/// editing related.
///
/// This corresponds to the [`doCommandBySelector:`] method on `NSTextInputClient`.
///
/// The `action` parameter contains the string representation of the selector. Examples include
/// `"insertBacktab:"`, `"indent:"` and `"noop:"`.
///
/// # Example
///
/// ```ignore
/// impl ApplicationHandlerExtMacOS for App {
/// fn standard_key_binding(
/// &mut self,
/// event_loop: &dyn ActiveEventLoop,
/// window_id: WindowId,
/// action: &str,
/// ) {
/// match action {
/// "moveBackward:" => self.cursor.position -= 1,
/// "moveForward:" => self.cursor.position += 1,
/// _ => {} // Ignore other actions
/// }
/// }
/// }
/// ```
///
/// [`NSStandardKeyBindingResponding`]: https://developer.apple.com/documentation/appkit/nsstandardkeybindingresponding?language=objc
/// [`doCommandBySelector:`]: https://developer.apple.com/documentation/appkit/nstextinputclient/1438256-docommandbyselector?language=objc
#[doc(alias = "doCommandBySelector:")]
fn standard_key_binding(
&mut self,
event_loop: &dyn ActiveEventLoop,
window_id: WindowId,
action: &str,
) {
let _ = event_loop;
let _ = window_id;
let _ = action;
}
}

1
src/platform/mod.rs
View File

@@ -21,6 +21,7 @@ pub mod windows;
#[cfg(any(x11_platform, docsrs))]
pub mod x11;
#[allow(unused_imports)]
#[cfg(any(
windows_platform,
macos_platform,

67
src/platform/pump_events.rs
View File

@@ -1,14 +1,10 @@
use std::time::Duration;
use crate::application::ApplicationHandler;
use crate::event::Event;
use crate::event_loop::{self, ActiveEventLoop, EventLoop};
use crate::event_loop::EventLoop;
/// Additional methods on [`EventLoop`] for pumping events within an external event loop
pub trait EventLoopExtPumpEvents {
/// A type provided by the user that can be passed through [`Event::UserEvent`].
type UserEvent: 'static;
/// Pump the `EventLoop` to check for and dispatch pending events.
///
/// This API is designed to enable applications to integrate Winit into an
@@ -52,18 +48,18 @@ pub trait EventLoopExtPumpEvents {
/// - `RedrawRequested` events, used to schedule rendering.
///
/// macOS for example uses a `drawRect` callback to drive rendering
/// within applications and expects rendering to be finished before
/// the `drawRect` callback returns.
/// within applications and expects rendering to be finished before
/// the `drawRect` callback returns.
///
/// For portability it's strongly recommended that applications should
/// keep their rendering inside the closure provided to Winit.
/// keep their rendering inside the closure provided to Winit.
/// - Any lifecycle events, such as `Suspended` / `Resumed`.
///
/// The handling of these events needs to be synchronized with the
/// operating system and it would never be appropriate to buffer a
/// notification that your application has been suspended or resumed and
/// then handled that later since there would always be a chance that
/// other lifecycle events occur while the event is buffered.
/// operating system and it would never be appropriate to buffer a
/// notification that your application has been suspended or resumed and
/// then handled that later since there would always be a chance that
/// other lifecycle events occur while the event is buffered.
///
/// ## Supported Platforms
///
@@ -74,13 +70,13 @@ pub trait EventLoopExtPumpEvents {
///
/// ## Unsupported Platforms
///
/// - **Web:** This API is fundamentally incompatible with the event-based way in which
/// Web browsers work because it's not possible to have a long-running external
/// loop that would block the browser and there is nothing that can be
/// polled to ask for new new events. Events are delivered via callbacks based
/// on an event loop that is internal to the browser itself.
/// - **Web:** This API is fundamentally incompatible with the event-based way in which Web
/// browsers work because it's not possible to have a long-running external loop that would
/// block the browser and there is nothing that can be polled to ask for new new events.
/// Events are delivered via callbacks based on an event loop that is internal to the browser
/// itself.
/// - **iOS:** It's not possible to stop and start an `NSApplication` repeatedly on iOS so
/// there's no way to support the same approach to polling as on MacOS.
/// there's no way to support the same approach to polling as on MacOS.
///
/// ## Platform-specific
///
@@ -103,38 +99,25 @@ pub trait EventLoopExtPumpEvents {
/// If you render outside of Winit you are likely to see window resizing artifacts
/// since MacOS expects applications to render synchronously during any `drawRect`
/// callback.
fn pump_app_events<A: ApplicationHandler<Self::UserEvent>>(
fn pump_app_events<A: ApplicationHandler>(
&mut self,
timeout: Option<Duration>,
app: &mut A,
) -> PumpStatus {
#[allow(deprecated)]
self.pump_events(timeout, |event, event_loop| {
event_loop::dispatch_event_for_app(app, event_loop, event)
})
}
/// See [`pump_app_events`].
///
/// [`pump_app_events`]: Self::pump_app_events
#[deprecated = "use EventLoopExtPumpEvents::pump_app_events"]
fn pump_events<F>(&mut self, timeout: Option<Duration>, event_handler: F) -> PumpStatus
where
F: FnMut(Event<Self::UserEvent>, &ActiveEventLoop);
app: A,
) -> PumpStatus;
}
impl<T> EventLoopExtPumpEvents for EventLoop<T> {
type UserEvent = T;
fn pump_events<F>(&mut self, timeout: Option<Duration>, event_handler: F) -> PumpStatus
where
F: FnMut(Event<Self::UserEvent>, &ActiveEventLoop),
{
self.event_loop.pump_events(timeout, event_handler)
impl EventLoopExtPumpEvents for EventLoop {
fn pump_app_events<A: ApplicationHandler>(
&mut self,
timeout: Option<Duration>,
app: A,
) -> PumpStatus {
self.event_loop.pump_app_events(timeout, app)
}
}
/// The return status for `pump_events`
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub enum PumpStatus {
/// Continue running external loop.
Continue,

60
src/platform/run_on_demand.rs
View File

@@ -1,24 +1,13 @@
use crate::application::ApplicationHandler;
use crate::error::EventLoopError;
use crate::event::Event;
use crate::event_loop::{self, ActiveEventLoop, EventLoop};
use crate::event_loop::EventLoop;
#[cfg(doc)]
use crate::{platform::pump_events::EventLoopExtPumpEvents, window::Window};
use crate::{
event_loop::ActiveEventLoop, platform::pump_events::EventLoopExtPumpEvents, window::Window,
};
/// Additional methods on [`EventLoop`] to return control flow to the caller.
pub trait EventLoopExtRunOnDemand {
/// A type provided by the user that can be passed through [`Event::UserEvent`].
type UserEvent: 'static;
/// See [`run_app_on_demand`].
///
/// [`run_app_on_demand`]: Self::run_app_on_demand
#[deprecated = "use EventLoopExtRunOnDemand::run_app_on_demand"]
fn run_on_demand<F>(&mut self, event_handler: F) -> Result<(), EventLoopError>
where
F: FnMut(Event<Self::UserEvent>, &ActiveEventLoop);
/// Run the application with the event loop on the calling thread.
///
/// Unlike [`EventLoop::run_app`], this function accepts non-`'static` (i.e. non-`move`)
@@ -42,7 +31,13 @@ pub trait EventLoopExtRunOnDemand {
/// # Caveats
/// - This extension isn't available on all platforms, since it's not always possible to return
/// to the caller (specifically this is impossible on iOS and Web - though with the Web
/// backend it is possible to use `EventLoopExtWebSys::spawn()`[^1] more than once instead).
/// backend it is possible to use
#[cfg_attr(
any(web_platform, docsrs),
doc = " [`EventLoopExtWeb::spawn_app()`][crate::platform::web::EventLoopExtWeb::spawn_app()]"
)]
#[cfg_attr(not(any(web_platform, docsrs)), doc = " `EventLoopExtWeb::spawn_app()`")]
/// [^1] more than once instead).
/// - No [`Window`] state can be carried between separate runs of the event loop.
///
/// You are strongly encouraged to use [`EventLoop::run_app()`] for portability, unless you
@@ -60,38 +55,17 @@ pub trait EventLoopExtRunOnDemand {
/// block the browser and there is nothing that can be polled to ask for new events. Events
/// are delivered via callbacks based on an event loop that is internal to the browser itself.
/// - **iOS:** It's not possible to stop and start an `UIApplication` repeatedly on iOS.
#[cfg_attr(not(web_platform), doc = "[^1]: `spawn()` is only available on `wasm` platforms.")]
#[rustfmt::skip]
///
/// [^1]: `spawn_app()` is only available on the Web platforms.
///
/// [`exit()`]: ActiveEventLoop::exit()
/// [`set_control_flow()`]: ActiveEventLoop::set_control_flow()
fn run_app_on_demand<A: ApplicationHandler<Self::UserEvent>>(
&mut self,
app: &mut A,
) -> Result<(), EventLoopError> {
#[allow(deprecated)]
self.run_on_demand(|event, event_loop| {
event_loop::dispatch_event_for_app(app, event_loop, event)
})
}
fn run_app_on_demand<A: ApplicationHandler>(&mut self, app: A) -> Result<(), EventLoopError>;
}
impl<T> EventLoopExtRunOnDemand for EventLoop<T> {
type UserEvent = T;
fn run_on_demand<F>(&mut self, event_handler: F) -> Result<(), EventLoopError>
where
F: FnMut(Event<Self::UserEvent>, &ActiveEventLoop),
{
self.event_loop.window_target().clear_exit();
self.event_loop.run_on_demand(event_handler)
}
}
impl ActiveEventLoop {
/// Clear exit status.
pub(crate) fn clear_exit(&self) {
self.p.clear_exit()
impl EventLoopExtRunOnDemand for EventLoop {
fn run_app_on_demand<A: ApplicationHandler>(&mut self, app: A) -> Result<(), EventLoopError> {
self.event_loop.run_app_on_demand(app)
}
}

43
src/platform/startup_notify.rs
View File

@@ -23,8 +23,10 @@
use std::env;
use crate::error::NotSupportedError;
use crate::error::{NotSupportedError, RequestError};
use crate::event_loop::{ActiveEventLoop, AsyncRequestSerial};
#[cfg(wayland_platform)]
use crate::platform::wayland::ActiveEventLoopExtWayland;
use crate::window::{ActivationToken, Window, WindowAttributes};
/// The variable which is used mostly on X11.
@@ -44,7 +46,7 @@ pub trait WindowExtStartupNotify {
/// Request a new activation token.
///
/// The token will be delivered inside
fn request_activation_token(&self) -> Result<AsyncRequestSerial, NotSupportedError>;
fn request_activation_token(&self) -> Result<AsyncRequestSerial, RequestError>;
}
pub trait WindowAttributesExtStartupNotify {
@@ -55,22 +57,37 @@ pub trait WindowAttributesExtStartupNotify {
fn with_activation_token(self, token: ActivationToken) -> Self;
}
impl EventLoopExtStartupNotify for ActiveEventLoop {
impl EventLoopExtStartupNotify for dyn ActiveEventLoop + '_ {
fn read_token_from_env(&self) -> Option<ActivationToken> {
match self.p {
#[cfg(wayland_platform)]
crate::platform_impl::ActiveEventLoop::Wayland(_) => env::var(WAYLAND_VAR),
#[cfg(x11_platform)]
crate::platform_impl::ActiveEventLoop::X(_) => env::var(X11_VAR),
#[cfg(x11_platform)]
let _is_wayland = false;
#[cfg(wayland_platform)]
let _is_wayland = self.is_wayland();
if _is_wayland {
env::var(WAYLAND_VAR).ok().map(ActivationToken::_new)
} else {
env::var(X11_VAR).ok().map(ActivationToken::_new)
}
.ok()
.map(ActivationToken::_new)
}
}
impl WindowExtStartupNotify for Window {
fn request_activation_token(&self) -> Result<AsyncRequestSerial, NotSupportedError> {
self.window.request_activation_token()
impl WindowExtStartupNotify for dyn Window + '_ {
fn request_activation_token(&self) -> Result<AsyncRequestSerial, RequestError> {
#[cfg(wayland_platform)]
if let Some(window) = self.as_any().downcast_ref::<crate::platform_impl::wayland::Window>()
{
return window.request_activation_token();
}
#[cfg(x11_platform)]
if let Some(window) =
self.as_any().downcast_ref::<crate::platform_impl::x11::window::Window>()
{
return window.request_activation_token();
}
Err(NotSupportedError::new("startup notify is not supported").into())
}
}

28
src/platform/wayland.rs
View File

@@ -13,11 +13,10 @@
//! * `wayland-csd-adwaita` (default).
//! * `wayland-csd-adwaita-crossfont`.
//! * `wayland-csd-adwaita-notitle`.
use crate::event_loop::{ActiveEventLoop, EventLoopBuilder};
use crate::event_loop::{ActiveEventLoop, EventLoop, EventLoopBuilder};
use crate::monitor::MonitorHandle;
use crate::window::{Window, WindowAttributes};
pub use crate::window::Theme;
use crate::window::{Window as CoreWindow, WindowAttributes};
/// Additional methods on [`ActiveEventLoop`] that are specific to Wayland.
pub trait ActiveEventLoopExtWayland {
@@ -25,10 +24,23 @@ pub trait ActiveEventLoopExtWayland {
fn is_wayland(&self) -> bool;
}
impl ActiveEventLoopExtWayland for ActiveEventLoop {
impl ActiveEventLoopExtWayland for dyn ActiveEventLoop + '_ {
#[inline]
fn is_wayland(&self) -> bool {
self.p.is_wayland()
self.as_any().downcast_ref::<crate::platform_impl::wayland::ActiveEventLoop>().is_some()
}
}
/// Additional methods on [`EventLoop`] that are specific to Wayland.
pub trait EventLoopExtWayland {
/// True if the [`EventLoop`] uses Wayland.
fn is_wayland(&self) -> bool;
}
impl EventLoopExtWayland for EventLoop {
#[inline]
fn is_wayland(&self) -> bool {
self.event_loop.is_wayland()
}
}
@@ -44,7 +56,7 @@ pub trait EventLoopBuilderExtWayland {
fn with_any_thread(&mut self, any_thread: bool) -> &mut Self;
}
impl<T> EventLoopBuilderExtWayland for EventLoopBuilder<T> {
impl EventLoopBuilderExtWayland for EventLoopBuilder {
#[inline]
fn with_wayland(&mut self) -> &mut Self {
self.platform_specific.forced_backend = Some(crate::platform_impl::Backend::Wayland);
@@ -59,9 +71,11 @@ impl<T> EventLoopBuilderExtWayland for EventLoopBuilder<T> {
}
/// Additional methods on [`Window`] that are specific to Wayland.
///
/// [`Window`]: crate::window::Window
pub trait WindowExtWayland {}
impl WindowExtWayland for Window {}
impl WindowExtWayland for dyn CoreWindow + '_ {}
/// Additional methods on [`WindowAttributes`] that are specific to Wayland.
pub trait WindowAttributesExtWayland {

587
src/platform/web.rs
View File

@@ -1,24 +1,23 @@
//! # Web
//!
//! The officially supported browsers are Chrome, Firefox and Safari 13.1+,
//! though forks of these should work fine.
//! Winit supports running in Browsers by compiling to WebAssembly with
//! [`wasm-bindgen`][wasm_bindgen]. For information on using Rust on WebAssembly, check out the
//! [Rust and WebAssembly book].
//!
//! Winit supports compiling to the `wasm32-unknown-unknown` target with
//! `web-sys`.
//! The officially supported browsers are Chrome, Firefox and Safari 13.1+, though forks of these
//! should work fine.
//!
//! On the web platform, a Winit window is backed by a `<canvas>` element. You
//! can either [provide Winit with a `<canvas>` element][with_canvas], or
//! [let Winit create a `<canvas>` element which you can then retrieve][get]
//! and insert it into the DOM yourself.
//! On the Web platform, a Winit [`Window`] is backed by a [`HTMLCanvasElement`][canvas]. Winit will
//! create that canvas for you or you can [provide your own][with_canvas]. Then you can either let
//! Winit [insert it into the DOM for you][insert], or [retrieve the canvas][get] and insert it
//! yourself.
//!
//! Currently, there is no example code using Winit on Web, see [#3473]. For
//! information on using Rust on WebAssembly, check out the [Rust and
//! WebAssembly book].
//!
//! [with_canvas]: WindowAttributesExtWebSys::with_canvas
//! [get]: WindowExtWebSys::canvas
//! [#3473]: https://github.com/rust-windowing/winit/issues/3473
//! [Rust and WebAssembly book]: https://rustwasm.github.io/book/
//! [canvas]: https://developer.mozilla.org/en-US/docs/Web/API/HTMLCanvasElement
//! [with_canvas]: WindowAttributesExtWeb::with_canvas
//! [get]: WindowExtWeb::canvas
//! [insert]: WindowAttributesExtWeb::with_append
#![cfg_attr(not(web_platform), doc = "[wasm_bindgen]: https://docs.rs/wasm-bindgen")]
//! [Rust and WebAssembly book]: https://rustwasm.github.io/book
//!
//! ## CSS properties
//!
@@ -28,21 +27,21 @@
//! - [`padding`](https://developer.mozilla.org/en-US/docs/Web/CSS/padding)
//!
//! The following APIs can't take them into account and will therefore provide inaccurate results:
//! - [`WindowEvent::Resized`] and [`Window::(set_)inner_size()`]
//! - [`WindowEvent::SurfaceResized`] and [`Window::(set_)surface_size()`]
//! - [`WindowEvent::Occluded`]
//! - [`WindowEvent::CursorMoved`], [`WindowEvent::CursorEntered`], [`WindowEvent::CursorLeft`], and
//! [`WindowEvent::Touch`].
//! - [`WindowEvent::PointerMoved`], [`WindowEvent::PointerEntered`] and
//! [`WindowEvent::PointerLeft`].
//! - [`Window::set_outer_position()`]
//!
//! [`WindowEvent::Resized`]: crate::event::WindowEvent::Resized
//! [`Window::(set_)inner_size()`]: crate::window::Window::inner_size
//! [`WindowEvent::SurfaceResized`]: crate::event::WindowEvent::SurfaceResized
//! [`Window::(set_)surface_size()`]: crate::window::Window::surface_size
//! [`WindowEvent::Occluded`]: crate::event::WindowEvent::Occluded
//! [`WindowEvent::CursorMoved`]: crate::event::WindowEvent::CursorMoved
//! [`WindowEvent::CursorEntered`]: crate::event::WindowEvent::CursorEntered
//! [`WindowEvent::CursorLeft`]: crate::event::WindowEvent::CursorLeft
//! [`WindowEvent::Touch`]: crate::event::WindowEvent::Touch
//! [`WindowEvent::PointerMoved`]: crate::event::WindowEvent::PointerMoved
//! [`WindowEvent::PointerEntered`]: crate::event::WindowEvent::PointerEntered
//! [`WindowEvent::PointerLeft`]: crate::event::WindowEvent::PointerLeft
//! [`Window::set_outer_position()`]: crate::window::Window::set_outer_position
use std::cell::Ref;
use std::error::Error;
use std::fmt::{self, Display, Formatter};
use std::future::Future;
@@ -50,30 +49,38 @@ use std::pin::Pin;
use std::task::{Context, Poll};
use std::time::Duration;
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
#[cfg(web_platform)]
use web_sys::HtmlCanvasElement;
use crate::application::ApplicationHandler;
use crate::cursor::CustomCursorSource;
use crate::event::Event;
use crate::event_loop::{self, ActiveEventLoop, EventLoop};
#[cfg(web_platform)]
use crate::platform_impl::CustomCursorFuture as PlatformCustomCursorFuture;
use crate::error::NotSupportedError;
use crate::event_loop::{ActiveEventLoop, EventLoop};
use crate::monitor::MonitorHandle;
use crate::platform_impl::PlatformCustomCursorSource;
#[cfg(web_platform)]
use crate::platform_impl::{
CustomCursorFuture as PlatformCustomCursorFuture,
HasMonitorPermissionFuture as PlatformHasMonitorPermissionFuture,
MonitorPermissionFuture as PlatformMonitorPermissionFuture,
OrientationLockFuture as PlatformOrientationLockFuture,
};
use crate::window::{CustomCursor, Window, WindowAttributes};
#[cfg(not(web_platform))]
#[doc(hidden)]
pub struct HtmlCanvasElement;
pub trait WindowExtWebSys {
pub trait WindowExtWeb {
/// Only returns the canvas if called from inside the window context (the
/// main thread).
fn canvas(&self) -> Option<HtmlCanvasElement>;
fn canvas(&self) -> Option<Ref<'_, HtmlCanvasElement>>;
/// Returns [`true`] if calling `event.preventDefault()` is enabled.
///
/// See [`Window::set_prevent_default()`] for more details.
/// See [`WindowExtWeb::set_prevent_default()`] for more details.
fn prevent_default(&self) -> bool;
/// Sets whether `event.preventDefault()` should be called on events on the
@@ -85,28 +92,52 @@ pub trait WindowExtWebSys {
/// Some events are impossible to prevent. E.g. Firefox allows to access the native browser
/// context menu with Shift+Rightclick.
fn set_prevent_default(&self, prevent_default: bool);
/// Returns whether using [`CursorGrabMode::Locked`] returns raw, un-accelerated mouse input.
///
/// This is the same as [`ActiveEventLoopExtWeb::is_cursor_lock_raw()`], and is provided for
/// convenience.
///
/// [`CursorGrabMode::Locked`]: crate::window::CursorGrabMode::Locked
fn is_cursor_lock_raw(&self) -> bool;
}
impl WindowExtWebSys for Window {
impl WindowExtWeb for dyn Window + '_ {
#[inline]
fn canvas(&self) -> Option<HtmlCanvasElement> {
self.window.canvas()
fn canvas(&self) -> Option<Ref<'_, HtmlCanvasElement>> {
self.as_any()
.downcast_ref::<crate::platform_impl::Window>()
.expect("non Web window on Web")
.canvas()
}
fn prevent_default(&self) -> bool {
self.window.prevent_default()
self.as_any()
.downcast_ref::<crate::platform_impl::Window>()
.expect("non Web window on Web")
.prevent_default()
}
fn set_prevent_default(&self, prevent_default: bool) {
self.window.set_prevent_default(prevent_default)
self.as_any()
.downcast_ref::<crate::platform_impl::Window>()
.expect("non Web window on Web")
.set_prevent_default(prevent_default)
}
fn is_cursor_lock_raw(&self) -> bool {
self.as_any()
.downcast_ref::<crate::platform_impl::Window>()
.expect("non Web window on Web")
.is_cursor_lock_raw()
}
}
pub trait WindowAttributesExtWebSys {
pub trait WindowAttributesExtWeb {
/// Pass an [`HtmlCanvasElement`] to be used for this [`Window`]. If [`None`],
/// [`WindowAttributes::default()`] will create one.
///
/// In any case, the canvas won't be automatically inserted into the web page.
/// In any case, the canvas won't be automatically inserted into the Web page.
///
/// [`None`] by default.
#[cfg_attr(not(web_platform), doc = "", doc = "[`HtmlCanvasElement`]: #only-available-on-wasm")]
@@ -115,7 +146,7 @@ pub trait WindowAttributesExtWebSys {
/// Sets whether `event.preventDefault()` should be called on events on the
/// canvas that have side effects.
///
/// See [`Window::set_prevent_default()`] for more details.
/// See [`WindowExtWeb::set_prevent_default()`] for more details.
///
/// Enabled by default.
fn with_prevent_default(self, prevent_default: bool) -> Self;
@@ -126,13 +157,13 @@ pub trait WindowAttributesExtWebSys {
/// Enabled by default.
fn with_focusable(self, focusable: bool) -> Self;
/// On window creation, append the canvas element to the web page if it isn't already.
/// On window creation, append the canvas element to the Web page if it isn't already.
///
/// Disabled by default.
fn with_append(self, append: bool) -> Self;
}
impl WindowAttributesExtWebSys for WindowAttributes {
impl WindowAttributesExtWeb for WindowAttributes {
fn with_canvas(mut self, canvas: Option<HtmlCanvasElement>) -> Self {
self.platform_specific.set_canvas(canvas);
self
@@ -154,11 +185,8 @@ impl WindowAttributesExtWebSys for WindowAttributes {
}
}
/// Additional methods on `EventLoop` that are specific to the web.
pub trait EventLoopExtWebSys {
/// A type provided by the user that can be passed through `Event::UserEvent`.
type UserEvent: 'static;
/// Additional methods on `EventLoop` that are specific to the Web.
pub trait EventLoopExtWeb {
/// Initializes the winit event loop.
///
/// Unlike
@@ -180,36 +208,9 @@ pub trait EventLoopExtWebSys {
not(all(web_platform, target_feature = "exception-handling")),
doc = "[`run_app()`]: EventLoop::run_app()"
)]
/// [^1]: `run_app()` is _not_ available on WASM when the target supports `exception-handling`.
fn spawn_app<A: ApplicationHandler<Self::UserEvent> + 'static>(self, app: A);
/// [^1]: `run_app()` is _not_ available on Wasm when the target supports `exception-handling`.
fn spawn_app<A: ApplicationHandler + 'static>(self, app: A);
/// See [`spawn_app`].
///
/// [`spawn_app`]: Self::spawn_app
#[deprecated = "use EventLoopExtWebSys::spawn_app"]
fn spawn<F>(self, event_handler: F)
where
F: 'static + FnMut(Event<Self::UserEvent>, &ActiveEventLoop);
}
impl<T> EventLoopExtWebSys for EventLoop<T> {
type UserEvent = T;
fn spawn_app<A: ApplicationHandler<Self::UserEvent> + 'static>(self, mut app: A) {
self.event_loop.spawn(move |event, event_loop| {
event_loop::dispatch_event_for_app(&mut app, event_loop, event)
});
}
fn spawn<F>(self, event_handler: F)
where
F: 'static + FnMut(Event<Self::UserEvent>, &ActiveEventLoop),
{
self.event_loop.spawn(event_handler)
}
}
pub trait ActiveEventLoopExtWebSys {
/// Sets the strategy for [`ControlFlow::Poll`].
///
/// See [`PollStrategy`].
@@ -224,30 +225,224 @@ pub trait ActiveEventLoopExtWebSys {
/// [`ControlFlow::Poll`]: crate::event_loop::ControlFlow::Poll
fn poll_strategy(&self) -> PollStrategy;
/// Sets the strategy for [`ControlFlow::WaitUntil`].
///
/// See [`WaitUntilStrategy`].
///
/// [`ControlFlow::WaitUntil`]: crate::event_loop::ControlFlow::WaitUntil
fn set_wait_until_strategy(&self, strategy: WaitUntilStrategy);
/// Gets the strategy for [`ControlFlow::WaitUntil`].
///
/// See [`WaitUntilStrategy`].
///
/// [`ControlFlow::WaitUntil`]: crate::event_loop::ControlFlow::WaitUntil
fn wait_until_strategy(&self) -> WaitUntilStrategy;
/// Returns if the users device has multiple screens. Useful to check before prompting the user
/// with [`EventLoopExtWeb::request_detailed_monitor_permission()`].
///
/// Browsers might always return [`false`] to reduce fingerprinting.
fn has_multiple_screens(&self) -> Result<bool, NotSupportedError>;
/// Prompts the user for permission to query detailed information about available monitors. The
/// returned [`MonitorPermissionFuture`] can be dropped without aborting the request.
///
/// Check [`EventLoopExtWeb::has_multiple_screens()`] before unnecessarily prompting the user
/// for such permissions.
///
/// [`MonitorHandle`]s don't automatically make use of this after permission is granted. New
/// [`MonitorHandle`]s have to be created instead.
fn request_detailed_monitor_permission(&self) -> MonitorPermissionFuture;
/// Returns whether the user has given permission to access detailed monitor information.
///
/// [`MonitorHandle`]s don't automatically make use of detailed monitor information after
/// permission is granted. New [`MonitorHandle`]s have to be created instead.
fn has_detailed_monitor_permission(&self) -> HasMonitorPermissionFuture;
}
impl EventLoopExtWeb for EventLoop {
fn spawn_app<A: ApplicationHandler + 'static>(self, app: A) {
self.event_loop.spawn_app(app);
}
fn set_poll_strategy(&self, strategy: PollStrategy) {
self.event_loop.set_poll_strategy(strategy);
}
fn poll_strategy(&self) -> PollStrategy {
self.event_loop.poll_strategy()
}
fn set_wait_until_strategy(&self, strategy: WaitUntilStrategy) {
self.event_loop.set_wait_until_strategy(strategy);
}
fn wait_until_strategy(&self) -> WaitUntilStrategy {
self.event_loop.wait_until_strategy()
}
fn has_multiple_screens(&self) -> Result<bool, NotSupportedError> {
self.event_loop.has_multiple_screens()
}
fn request_detailed_monitor_permission(&self) -> MonitorPermissionFuture {
MonitorPermissionFuture(self.event_loop.request_detailed_monitor_permission())
}
fn has_detailed_monitor_permission(&self) -> HasMonitorPermissionFuture {
HasMonitorPermissionFuture(self.event_loop.has_detailed_monitor_permission())
}
}
pub trait ActiveEventLoopExtWeb {
/// Sets the strategy for [`ControlFlow::Poll`].
///
/// See [`PollStrategy`].
///
/// [`ControlFlow::Poll`]: crate::event_loop::ControlFlow::Poll
fn set_poll_strategy(&self, strategy: PollStrategy);
/// Gets the strategy for [`ControlFlow::Poll`].
///
/// See [`PollStrategy`].
///
/// [`ControlFlow::Poll`]: crate::event_loop::ControlFlow::Poll
fn poll_strategy(&self) -> PollStrategy;
/// Sets the strategy for [`ControlFlow::WaitUntil`].
///
/// See [`WaitUntilStrategy`].
///
/// [`ControlFlow::WaitUntil`]: crate::event_loop::ControlFlow::WaitUntil
fn set_wait_until_strategy(&self, strategy: WaitUntilStrategy);
/// Gets the strategy for [`ControlFlow::WaitUntil`].
///
/// See [`WaitUntilStrategy`].
///
/// [`ControlFlow::WaitUntil`]: crate::event_loop::ControlFlow::WaitUntil
fn wait_until_strategy(&self) -> WaitUntilStrategy;
/// Async version of [`ActiveEventLoop::create_custom_cursor()`] which waits until the
/// cursor has completely finished loading.
fn create_custom_cursor_async(&self, source: CustomCursorSource) -> CustomCursorFuture;
/// Returns whether using [`CursorGrabMode::Locked`] returns raw, un-accelerated mouse input.
///
/// [`CursorGrabMode::Locked`]: crate::window::CursorGrabMode::Locked
fn is_cursor_lock_raw(&self) -> bool;
/// Returns if the users device has multiple screens. Useful to check before prompting the user
/// with [`EventLoopExtWeb::request_detailed_monitor_permission()`].
///
/// Browsers might always return [`false`] to reduce fingerprinting.
fn has_multiple_screens(&self) -> Result<bool, NotSupportedError>;
/// Prompts the user for permission to query detailed information about available monitors. The
/// returned [`MonitorPermissionFuture`] can be dropped without aborting the request.
///
/// Check [`EventLoopExtWeb::has_multiple_screens()`] before unnecessarily prompting the user
/// for such permissions.
///
/// [`MonitorHandle`]s don't automatically make use of this after permission is granted. New
/// [`MonitorHandle`]s have to be created instead.
fn request_detailed_monitor_permission(&self) -> MonitorPermissionFuture;
/// Returns whether the user has given permission to access detailed monitor information.
///
/// [`MonitorHandle`]s don't automatically make use of detailed monitor information after
/// permission is granted. New [`MonitorHandle`]s have to be created instead.
fn has_detailed_monitor_permission(&self) -> bool;
}
impl ActiveEventLoopExtWebSys for ActiveEventLoop {
impl ActiveEventLoopExtWeb for dyn ActiveEventLoop + '_ {
#[inline]
fn create_custom_cursor_async(&self, source: CustomCursorSource) -> CustomCursorFuture {
self.p.create_custom_cursor_async(source)
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
event_loop.create_custom_cursor_async(source)
}
#[inline]
fn set_poll_strategy(&self, strategy: PollStrategy) {
self.p.set_poll_strategy(strategy);
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
event_loop.set_poll_strategy(strategy);
}
#[inline]
fn poll_strategy(&self) -> PollStrategy {
self.p.poll_strategy()
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
event_loop.poll_strategy()
}
#[inline]
fn set_wait_until_strategy(&self, strategy: WaitUntilStrategy) {
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
event_loop.set_wait_until_strategy(strategy);
}
#[inline]
fn wait_until_strategy(&self) -> WaitUntilStrategy {
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
event_loop.wait_until_strategy()
}
#[inline]
fn is_cursor_lock_raw(&self) -> bool {
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
event_loop.is_cursor_lock_raw()
}
#[inline]
fn has_multiple_screens(&self) -> Result<bool, NotSupportedError> {
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
event_loop.has_multiple_screens()
}
#[inline]
fn request_detailed_monitor_permission(&self) -> MonitorPermissionFuture {
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
MonitorPermissionFuture(event_loop.request_detailed_monitor_permission())
}
#[inline]
fn has_detailed_monitor_permission(&self) -> bool {
let event_loop = self
.as_any()
.downcast_ref::<crate::platform_impl::ActiveEventLoop>()
.expect("non Web event loop on Web");
event_loop.has_detailed_monitor_permission()
}
}
/// Strategy used for [`ControlFlow::Poll`][crate::event_loop::ControlFlow::Poll].
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq)]
#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum PollStrategy {
/// Uses [`Window.requestIdleCallback()`] to queue the next event loop. If not available
/// this will fallback to [`setTimeout()`].
@@ -272,7 +467,31 @@ pub enum PollStrategy {
Scheduler,
}
pub trait CustomCursorExtWebSys {
/// Strategy used for [`ControlFlow::WaitUntil`][crate::event_loop::ControlFlow::WaitUntil].
#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum WaitUntilStrategy {
/// Uses the [Prioritized Task Scheduling API] to queue the next event loop. If not available
/// this will fallback to [`setTimeout()`].
///
/// This strategy is commonly not affected by browser throttling unless the window is not
/// focused.
///
/// This is the default strategy.
///
/// [Prioritized Task Scheduling API]: https://developer.mozilla.org/en-US/docs/Web/API/Prioritized_Task_Scheduling_API
/// [`setTimeout()`]: https://developer.mozilla.org/en-US/docs/Web/API/setTimeout
#[default]
Scheduler,
/// Equal to [`Scheduler`][Self::Scheduler] but wakes up the event loop from a [worker].
///
/// This strategy is commonly not affected by browser throttling regardless of window focus.
///
/// [worker]: https://developer.mozilla.org/en-US/docs/Web/API/Web_Workers_API
Worker,
}
pub trait CustomCursorExtWeb {
/// Returns if this cursor is an animation.
fn is_animation(&self) -> bool;
@@ -291,7 +510,7 @@ pub trait CustomCursorExtWebSys {
) -> Result<CustomCursorSource, BadAnimation>;
}
impl CustomCursorExtWebSys for CustomCursor {
impl CustomCursorExtWeb for CustomCursor {
fn is_animation(&self) -> bool {
self.inner.animation
}
@@ -319,7 +538,8 @@ impl CustomCursorExtWebSys for CustomCursor {
}
/// An error produced when using [`CustomCursor::from_animation`] with invalid arguments.
#[derive(Debug, Clone)]
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum BadAnimation {
/// Produced when no cursors were supplied.
Empty,
@@ -331,7 +551,7 @@ impl fmt::Display for BadAnimation {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::Empty => write!(f, "No cursors supplied"),
Self::Animation => write!(f, "A supplied cursor is an animtion"),
Self::Animation => write!(f, "A supplied cursor is an animation"),
}
}
}
@@ -352,11 +572,11 @@ impl Future for CustomCursorFuture {
}
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Eq, Hash, PartialEq)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum CustomCursorError {
Blob,
Decode(String),
Animation,
}
impl Display for CustomCursorError {
@@ -364,9 +584,198 @@ impl Display for CustomCursorError {
match self {
Self::Blob => write!(f, "failed to create `Blob`"),
Self::Decode(error) => write!(f, "failed to decode image: {error}"),
Self::Animation => {
write!(f, "found `CustomCursor` that is an animation when building an animation")
}
}
}
impl Error for CustomCursorError {}
#[cfg(not(web_platform))]
struct PlatformMonitorPermissionFuture;
/// Can be dropped without aborting the request for detailed monitor permissions.
#[derive(Debug)]
pub struct MonitorPermissionFuture(pub(crate) PlatformMonitorPermissionFuture);
impl Future for MonitorPermissionFuture {
type Output = Result<(), MonitorPermissionError>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
Pin::new(&mut self.0).poll(cx)
}
}
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub enum MonitorPermissionError {
/// User has explicitly denied permission to query detailed monitor information.
Denied,
/// User has not decided to give permission to query detailed monitor information.
Prompt,
/// Browser does not support detailed monitor information.
Unsupported,
}
impl Display for MonitorPermissionError {
fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
match self {
MonitorPermissionError::Denied => write!(
f,
"User has explicitly denied permission to query detailed monitor information"
),
MonitorPermissionError::Prompt => write!(
f,
"User has not decided to give permission to query detailed monitor information"
),
MonitorPermissionError::Unsupported => {
write!(f, "Browser does not support detailed monitor information")
},
}
}
}
impl Error for MonitorPermissionError {}
#[cfg(not(web_platform))]
struct PlatformHasMonitorPermissionFuture;
#[derive(Debug)]
pub struct HasMonitorPermissionFuture(PlatformHasMonitorPermissionFuture);
impl Future for HasMonitorPermissionFuture {
type Output = bool;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
Pin::new(&mut self.0).poll(cx)
}
}
/// Additional methods on [`MonitorHandle`] that are specific to the Web.
pub trait MonitorHandleExtWeb {
/// Returns whether the screen is internal to the device or external.
///
/// External devices are generally manufactured separately from the device they are attached to
/// and can be connected and disconnected as needed, whereas internal screens are part of
/// the device and not intended to be disconnected.
fn is_internal(&self) -> Option<bool>;
/// Returns screen orientation data for this monitor.
fn orientation(&self) -> OrientationData;
/// Lock the screen orientation. The returned [`OrientationLockFuture`] can be dropped without
/// aborting the request.
///
/// Will fail if another locking call is in progress.
fn request_lock(&self, orientation: OrientationLock) -> OrientationLockFuture;
/// Unlock the screen orientation.
///
/// Will fail if a locking call is in progress.
fn unlock(&self) -> Result<(), OrientationLockError>;
/// Returns whether this [`MonitorHandle`] was created using detailed monitor permissions. If
/// [`false`] will always represent the current monitor the browser window is in instead of a
/// specific monitor.
///
/// See [`ActiveEventLoopExtWeb::request_detailed_monitor_permission()`].
fn is_detailed(&self) -> bool;
}
impl MonitorHandleExtWeb for MonitorHandle {
fn is_internal(&self) -> Option<bool> {
self.inner.is_internal()
}
fn orientation(&self) -> OrientationData {
self.inner.orientation()
}
fn request_lock(&self, orientation_lock: OrientationLock) -> OrientationLockFuture {
OrientationLockFuture(self.inner.request_lock(orientation_lock))
}
fn unlock(&self) -> Result<(), OrientationLockError> {
self.inner.unlock()
}
fn is_detailed(&self) -> bool {
self.inner.is_detailed()
}
}
/// Screen orientation data.
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub struct OrientationData {
/// The orientation.
pub orientation: Orientation,
/// [`true`] if the [`orientation`](Self::orientation) is flipped upside down.
pub flipped: bool,
/// The most natural orientation for the screen. Computer monitors are commonly naturally
/// landscape mode, while mobile phones are commonly naturally portrait mode.
pub natural: Orientation,
}
/// Screen orientation.
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub enum Orientation {
/// The screen's aspect ratio has a width greater than the height.
Landscape,
/// The screen's aspect ratio has a height greater than the width.
Portrait,
}
/// Screen orientation lock options. Reoresents which orientations a user can use.
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub enum OrientationLock {
/// User is free to use any orientation.
Any,
/// User is locked to the most upright natural orientation for the screen. Computer monitors
/// are commonly naturally landscape mode, while mobile phones are commonly
/// naturally portrait mode.
Natural,
/// User is locked to landscape mode.
Landscape {
/// - [`None`]: User is locked to both upright or upside down landscape mode.
/// - [`true`]: User is locked to upright landscape mode.
/// - [`false`]: User is locked to upside down landscape mode.
flipped: Option<bool>,
},
/// User is locked to portrait mode.
Portrait {
/// - [`None`]: User is locked to both upright or upside down portrait mode.
/// - [`true`]: User is locked to upright portrait mode.
/// - [`false`]: User is locked to upside down portrait mode.
flipped: Option<bool>,
},
}
#[cfg(not(web_platform))]
struct PlatformOrientationLockFuture;
/// Can be dropped without aborting the request to lock the screen.
#[derive(Debug)]
pub struct OrientationLockFuture(PlatformOrientationLockFuture);
impl Future for OrientationLockFuture {
type Output = Result<(), OrientationLockError>;
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
Pin::new(&mut self.0).poll(cx)
}
}
#[derive(Clone, Copy, Debug, Eq, Hash, PartialEq)]
pub enum OrientationLockError {
Unsupported,
Busy,
}
impl Display for OrientationLockError {
fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
match self {
Self::Unsupported => write!(f, "Locking the screen orientation is not supported"),
Self::Busy => write!(f, "Another locking call is in progress"),
}
}
}
impl Error for OrientationLockError {}

122
src/platform/windows.rs
View File

@@ -4,8 +4,14 @@
//! tested regularly.
use std::borrow::Borrow;
use std::ffi::c_void;
use std::ops::Deref;
use std::path::Path;
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
#[cfg(windows_platform)]
use windows_sys::Win32::Foundation::HANDLE;
use crate::dpi::PhysicalSize;
use crate::event::DeviceId;
use crate::event_loop::EventLoopBuilder;
@@ -25,6 +31,7 @@ pub type HMONITOR = isize;
///
/// [`DWM_SYSTEMBACKDROP_TYPE docs`]: https://learn.microsoft.com/en-us/windows/win32/api/dwmapi/ne-dwmapi-dwm_systembackdrop_type
#[derive(Debug, Default, Clone, Copy, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum BackdropType {
/// Corresponds to `DWMSBT_AUTO`.
///
@@ -54,6 +61,7 @@ pub enum BackdropType {
/// Describes a color used by Windows
#[repr(transparent)]
#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct Color(u32);
impl Color {
@@ -82,6 +90,7 @@ impl Default for Color {
/// [`DWM_WINDOW_CORNER_PREFERENCE docs`]: https://learn.microsoft.com/en-us/windows/win32/api/dwmapi/ne-dwmapi-dwm_window_corner_preference
#[repr(i32)]
#[derive(Debug, Default, Clone, Copy, PartialEq, Eq, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub enum CornerPreference {
/// Corresponds to `DWMWCP_DEFAULT`.
///
@@ -108,51 +117,25 @@ pub enum CornerPreference {
/// A wrapper around a [`Window`] that ignores thread-specific window handle limitations.
///
/// See [`WindowBorrowExtWindows::any_thread`] for more information.
#[derive(Debug)]
pub struct AnyThread<W>(W);
#[derive(Clone, Debug)]
pub struct AnyThread<W: Window>(W);
impl<W: Borrow<Window>> AnyThread<W> {
impl<W: Window> AnyThread<W> {
/// Get a reference to the inner window.
#[inline]
pub fn get_ref(&self) -> &Window {
self.0.borrow()
}
/// Get a reference to the inner object.
#[inline]
pub fn inner(&self) -> &W {
pub fn get_ref(&self) -> &dyn Window {
&self.0
}
/// Unwrap and get the inner window.
#[inline]
pub fn into_inner(self) -> W {
self.0
}
}
impl<W: Borrow<Window>> AsRef<Window> for AnyThread<W> {
fn as_ref(&self) -> &Window {
self.get_ref()
}
}
impl<W: Borrow<Window>> Borrow<Window> for AnyThread<W> {
fn borrow(&self) -> &Window {
self.get_ref()
}
}
impl<W: Borrow<Window>> std::ops::Deref for AnyThread<W> {
type Target = Window;
impl<W: Window> Deref for AnyThread<W> {
type Target = W;
fn deref(&self) -> &Self::Target {
self.get_ref()
&self.0
}
}
#[cfg(feature = "rwh_06")]
impl<W: Borrow<Window>> rwh_06::HasWindowHandle for AnyThread<W> {
impl<W: Window> rwh_06::HasWindowHandle for AnyThread<W> {
fn window_handle(&self) -> Result<rwh_06::WindowHandle<'_>, rwh_06::HandleError> {
// SAFETY: The top level user has asserted this is only used safely.
unsafe { self.get_ref().window_handle_any_thread() }
@@ -183,11 +166,11 @@ pub trait EventLoopBuilderExtWindows {
/// Disable process-wide DPI awareness.
///
/// ```
/// use winit::event_loop::EventLoopBuilder;
/// use winit::event_loop::EventLoop;
/// #[cfg(target_os = "windows")]
/// use winit::platform::windows::EventLoopBuilderExtWindows;
///
/// let mut builder = EventLoopBuilder::new();
/// let mut builder = EventLoop::builder();
/// #[cfg(target_os = "windows")]
/// builder.with_dpi_aware(false);
/// # if false { // We can't test this part
@@ -203,11 +186,11 @@ pub trait EventLoopBuilderExtWindows {
///
/// ```
/// # use windows_sys::Win32::UI::WindowsAndMessaging::{ACCEL, CreateAcceleratorTableW, TranslateAcceleratorW, DispatchMessageW, TranslateMessage, MSG};
/// use winit::event_loop::EventLoopBuilder;
/// use winit::event_loop::EventLoop;
/// #[cfg(target_os = "windows")]
/// use winit::platform::windows::EventLoopBuilderExtWindows;
///
/// let mut builder = EventLoopBuilder::new();
/// let mut builder = EventLoop::builder();
/// #[cfg(target_os = "windows")]
/// builder.with_msg_hook(|msg|{
/// let msg = msg as *const MSG;
@@ -227,7 +210,7 @@ pub trait EventLoopBuilderExtWindows {
F: FnMut(*const c_void) -> bool + 'static;
}
impl<T> EventLoopBuilderExtWindows for EventLoopBuilder<T> {
impl EventLoopBuilderExtWindows for EventLoopBuilder {
#[inline]
fn with_any_thread(&mut self, any_thread: bool) -> &mut Self {
self.platform_specific.any_thread = any_thread;
@@ -335,8 +318,9 @@ pub trait WindowExtWindows {
///
/// ```no_run
/// # use winit::window::Window;
/// # fn scope(window: Window) {
/// # fn scope(window: Box<dyn Window>) {
/// use std::thread;
///
/// use winit::platform::windows::WindowExtWindows;
/// use winit::raw_window_handle::HasWindowHandle;
///
@@ -352,41 +336,46 @@ pub trait WindowExtWindows {
/// });
/// # }
/// ```
#[cfg(feature = "rwh_06")]
unsafe fn window_handle_any_thread(
&self,
) -> Result<rwh_06::WindowHandle<'_>, rwh_06::HandleError>;
}
impl WindowExtWindows for Window {
impl WindowExtWindows for dyn Window + '_ {
#[inline]
fn set_enable(&self, enabled: bool) {
self.window.set_enable(enabled)
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_enable(enabled)
}
#[inline]
fn set_taskbar_icon(&self, taskbar_icon: Option<Icon>) {
self.window.set_taskbar_icon(taskbar_icon)
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_taskbar_icon(taskbar_icon)
}
#[inline]
fn set_skip_taskbar(&self, skip: bool) {
self.window.set_skip_taskbar(skip)
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_skip_taskbar(skip)
}
#[inline]
fn set_undecorated_shadow(&self, shadow: bool) {
self.window.set_undecorated_shadow(shadow)
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_undecorated_shadow(shadow)
}
#[inline]
fn set_system_backdrop(&self, backdrop_type: BackdropType) {
self.window.set_system_backdrop(backdrop_type)
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_system_backdrop(backdrop_type)
}
#[inline]
fn set_border_color(&self, color: Option<Color>) {
self.window.set_border_color(color.unwrap_or(Color::NONE))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_border_color(color.unwrap_or(Color::NONE))
}
#[inline]
@@ -394,25 +383,28 @@ impl WindowExtWindows for Window {
// The windows docs don't mention NONE as a valid options but it works in practice and is
// useful to circumvent the Windows option "Show accent color on title bars and
// window borders"
self.window.set_title_background_color(color.unwrap_or(Color::NONE))
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_title_background_color(color.unwrap_or(Color::NONE))
}
#[inline]
fn set_title_text_color(&self, color: Color) {
self.window.set_title_text_color(color)
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_title_text_color(color)
}
#[inline]
fn set_corner_preference(&self, preference: CornerPreference) {
self.window.set_corner_preference(preference)
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
window.set_corner_preference(preference)
}
#[cfg(feature = "rwh_06")]
unsafe fn window_handle_any_thread(
&self,
) -> Result<rwh_06::WindowHandle<'_>, rwh_06::HandleError> {
let window = self.as_any().downcast_ref::<crate::platform_impl::Window>().unwrap();
unsafe {
let handle = self.window.rwh_06_no_thread_check()?;
let handle = window.rwh_06_no_thread_check()?;
// SAFETY: The handle is valid in this context.
Ok(rwh_06::WindowHandle::borrow_raw(handle))
@@ -423,7 +415,7 @@ impl WindowExtWindows for Window {
/// Additional methods for anything that dereference to [`Window`].
///
/// [`Window`]: crate::window::Window
pub trait WindowBorrowExtWindows: Borrow<Window> + Sized {
pub trait WindowBorrowExtWindows: Borrow<dyn Window> + Sized {
/// Create an object that allows accessing the inner window handle in a thread-unsafe way.
///
/// It is possible to call [`window_handle_any_thread`] to get around Windows's thread
@@ -439,15 +431,18 @@ pub trait WindowBorrowExtWindows: Borrow<Window> + Sized {
/// It is the responsibility of the user to only pass the window handle into thread-safe
/// Win32 APIs.
///
/// [`window_handle_any_thread`]: WindowExtWindows::window_handle_any_thread
/// [`Window`]: crate::window::Window
/// [`HasWindowHandle`]: rwh_06::HasWindowHandle
unsafe fn any_thread(self) -> AnyThread<Self> {
/// [`window_handle_any_thread`]: WindowExtWindows::window_handle_any_thread
unsafe fn any_thread(self) -> AnyThread<Self>
where
Self: Window,
{
AnyThread(self)
}
}
impl<W: Borrow<Window> + Sized> WindowBorrowExtWindows for W {}
impl<W: Borrow<dyn Window> + Sized> WindowBorrowExtWindows for W {}
/// Additional methods on `WindowAttributes` that are specific to Windows.
#[allow(rustdoc::broken_intra_doc_links)]
@@ -476,10 +471,10 @@ pub trait WindowAttributesExtWindows {
/// the menus look. If you use this, it is recommended that you combine it with
/// `with_theme(Some(Theme::Light))` to avoid a jarring effect.
#[cfg_attr(
platform_windows,
windows_platform,
doc = "[`CreateMenu`]: windows_sys::Win32::UI::WindowsAndMessaging::CreateMenu"
)]
#[cfg_attr(not(platform_windows), doc = "[`CreateMenu`]: #only-available-on-windows")]
#[cfg_attr(not(windows_platform), doc = "[`CreateMenu`]: #only-available-on-windows")]
fn with_menu(self, menu: HMENU) -> Self;
/// This sets `ICON_BIG`. A good ceiling here is 256x256.
@@ -652,10 +647,15 @@ pub trait DeviceIdExtWindows {
fn persistent_identifier(&self) -> Option<String>;
}
#[cfg(windows_platform)]
impl DeviceIdExtWindows for DeviceId {
#[inline]
fn persistent_identifier(&self) -> Option<String> {
self.0.persistent_identifier()
let raw_id = self.into_raw();
if raw_id != 0 {
crate::platform_impl::raw_input::get_raw_input_device_name(raw_id as HANDLE)
} else {
None
}
}
}

46
src/platform/x11.rs
View File

@@ -2,11 +2,10 @@
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
use crate::event_loop::{ActiveEventLoop, EventLoopBuilder};
use crate::monitor::MonitorHandle;
use crate::window::{Window, WindowAttributes};
use crate::dpi::Size;
use crate::event_loop::{ActiveEventLoop, EventLoop, EventLoopBuilder};
use crate::monitor::MonitorHandle;
use crate::window::{Window as CoreWindow, WindowAttributes};
/// X window type. Maps directly to
/// [`_NET_WM_WINDOW_TYPE`](https://specifications.freedesktop.org/wm-spec/wm-spec-1.5.html).
@@ -81,9 +80,7 @@ pub type XWindow = u32;
#[inline]
pub fn register_xlib_error_hook(hook: XlibErrorHook) {
// Append new hook.
unsafe {
crate::platform_impl::XLIB_ERROR_HOOKS.lock().unwrap().push(hook);
}
crate::platform_impl::XLIB_ERROR_HOOKS.lock().unwrap().push(hook);
}
/// Additional methods on [`ActiveEventLoop`] that are specific to X11.
@@ -92,10 +89,23 @@ pub trait ActiveEventLoopExtX11 {
fn is_x11(&self) -> bool;
}
impl ActiveEventLoopExtX11 for ActiveEventLoop {
impl ActiveEventLoopExtX11 for dyn ActiveEventLoop + '_ {
#[inline]
fn is_x11(&self) -> bool {
!self.p.is_wayland()
self.as_any().downcast_ref::<crate::platform_impl::x11::ActiveEventLoop>().is_some()
}
}
/// Additional methods on [`EventLoop`] that are specific to X11.
pub trait EventLoopExtX11 {
/// True if the [`EventLoop`] uses X11.
fn is_x11(&self) -> bool;
}
impl EventLoopExtX11 for EventLoop {
#[inline]
fn is_x11(&self) -> bool {
!self.event_loop.is_wayland()
}
}
@@ -111,7 +121,7 @@ pub trait EventLoopBuilderExtX11 {
fn with_any_thread(&mut self, any_thread: bool) -> &mut Self;
}
impl<T> EventLoopBuilderExtX11 for EventLoopBuilder<T> {
impl EventLoopBuilderExtX11 for EventLoopBuilder {
#[inline]
fn with_x11(&mut self) -> &mut Self {
self.platform_specific.forced_backend = Some(crate::platform_impl::Backend::X);
@@ -126,9 +136,11 @@ impl<T> EventLoopBuilderExtX11 for EventLoopBuilder<T> {
}
/// Additional methods on [`Window`] that are specific to X11.
///
/// [`Window`]: crate::window::Window
pub trait WindowExtX11 {}
impl WindowExtX11 for Window {}
impl WindowExtX11 for dyn CoreWindow {}
/// Additional methods on [`WindowAttributes`] that are specific to X11.
pub trait WindowAttributesExtX11 {
@@ -157,13 +169,13 @@ pub trait WindowAttributesExtX11 {
///
/// ```
/// # use winit::dpi::{LogicalSize, PhysicalSize};
/// # use winit::window::Window;
/// # use winit::window::{Window, WindowAttributes};
/// # use winit::platform::x11::WindowAttributesExtX11;
/// // Specify the size in logical dimensions like this:
/// Window::default_attributes().with_base_size(LogicalSize::new(400.0, 200.0));
/// WindowAttributes::default().with_base_size(LogicalSize::new(400.0, 200.0));
///
/// // Or specify the size in physical dimensions like this:
/// Window::default_attributes().with_base_size(PhysicalSize::new(400, 200));
/// WindowAttributes::default().with_base_size(PhysicalSize::new(400, 200));
/// ```
fn with_base_size<S: Into<Size>>(self, base_size: S) -> Self;
@@ -172,12 +184,12 @@ pub trait WindowAttributesExtX11 {
/// # Example
///
/// ```no_run
/// use winit::window::Window;
/// use winit::window::{Window, WindowAttributes};
/// use winit::event_loop::ActiveEventLoop;
/// use winit::platform::x11::{XWindow, WindowAttributesExtX11};
/// # fn create_window(event_loop: &ActiveEventLoop) -> Result<(), Box<dyn std::error::Error>> {
/// # fn create_window(event_loop: &dyn ActiveEventLoop) -> Result<(), Box<dyn std::error::Error>> {
/// let parent_window_id = std::env::args().nth(1).unwrap().parse::<XWindow>()?;
/// let window_attributes = Window::default_attributes().with_embed_parent_window(parent_window_id);
/// let window_attributes = WindowAttributes::default().with_embed_parent_window(parent_window_id);
/// let window = event_loop.create_window(window_attributes)?;
/// # Ok(()) }
/// ```

1151
src/platform_impl/android/mod.rs
View File

File diff suppressed because it is too large Load Diff

45
src/platform_impl/macos/app.rs → src/platform_impl/apple/appkit/app.rs
View File

@@ -1,11 +1,12 @@
#![allow(clippy::unnecessary_cast)]
use std::rc::Rc;
use objc2::{declare_class, msg_send, mutability, ClassType, DeclaredClass};
use objc2_app_kit::{NSApplication, NSEvent, NSEventModifierFlags, NSEventType, NSResponder};
use objc2_foundation::{MainThreadMarker, NSObject};
use super::app_delegate::ApplicationDelegate;
use super::event::flags_contains;
use super::app_state::AppState;
use crate::event::{DeviceEvent, ElementState};
declare_class!(
@@ -32,21 +33,21 @@ declare_class!(
let event_type = unsafe { event.r#type() };
let modifier_flags = unsafe { event.modifierFlags() };
if event_type == NSEventType::KeyUp
&& flags_contains(modifier_flags, NSEventModifierFlags::NSEventModifierFlagCommand)
&& modifier_flags.contains(NSEventModifierFlags::NSEventModifierFlagCommand)
{
if let Some(key_window) = self.keyWindow() {
key_window.sendEvent(event);
}
} else {
let delegate = ApplicationDelegate::get(MainThreadMarker::from(self));
maybe_dispatch_device_event(&delegate, event);
let app_state = AppState::get(MainThreadMarker::from(self));
maybe_dispatch_device_event(&app_state, event);
unsafe { msg_send![super(self), sendEvent: event] }
}
}
}
);
fn maybe_dispatch_device_event(delegate: &ApplicationDelegate, event: &NSEvent) {
fn maybe_dispatch_device_event(app_state: &Rc<AppState>, event: &NSEvent) {
let event_type = unsafe { event.r#type() };
#[allow(non_upper_case_globals)]
match event_type {
@@ -57,28 +58,30 @@ fn maybe_dispatch_device_event(delegate: &ApplicationDelegate, event: &NSEvent)
let delta_x = unsafe { event.deltaX() } as f64;
let delta_y = unsafe { event.deltaY() } as f64;
if delta_x != 0.0 {
delegate.queue_device_event(DeviceEvent::Motion { axis: 0, value: delta_x });
}
if delta_y != 0.0 {
delegate.queue_device_event(DeviceEvent::Motion { axis: 1, value: delta_y })
}
if delta_x != 0.0 || delta_y != 0.0 {
delegate.queue_device_event(DeviceEvent::MouseMotion { delta: (delta_x, delta_y) });
app_state.maybe_queue_with_handler(move |app, event_loop| {
app.device_event(event_loop, None, DeviceEvent::PointerMotion {
delta: (delta_x, delta_y),
});
});
}
},
NSEventType::LeftMouseDown | NSEventType::RightMouseDown | NSEventType::OtherMouseDown => {
delegate.queue_device_event(DeviceEvent::Button {
button: unsafe { event.buttonNumber() } as u32,
state: ElementState::Pressed,
let button = unsafe { event.buttonNumber() } as u32;
app_state.maybe_queue_with_handler(move |app, event_loop| {
app.device_event(event_loop, None, DeviceEvent::Button {
button,
state: ElementState::Pressed,
});
});
},
NSEventType::LeftMouseUp | NSEventType::RightMouseUp | NSEventType::OtherMouseUp => {
delegate.queue_device_event(DeviceEvent::Button {
button: unsafe { event.buttonNumber() } as u32,
state: ElementState::Released,
let button = unsafe { event.buttonNumber() } as u32;
app_state.maybe_queue_with_handler(move |app, event_loop| {
app.device_event(event_loop, None, DeviceEvent::Button {
button,
state: ElementState::Released,
});
});
},
_ => (),

403
src/platform_impl/apple/appkit/app_state.rs Normal file
View File

@@ -0,0 +1,403 @@
use std::cell::{Cell, OnceCell, RefCell};
use std::mem;
use std::rc::{Rc, Weak};
use std::sync::atomic::Ordering as AtomicOrdering;
use std::sync::Arc;
use std::time::Instant;
use objc2_app_kit::{NSApplication, NSApplicationActivationPolicy, NSRunningApplication};
use objc2_foundation::{MainThreadMarker, NSNotification};
use super::super::event_handler::EventHandler;
use super::event_loop::{stop_app_immediately, ActiveEventLoop, EventLoopProxy, PanicInfo};
use super::menu;
use super::observer::{EventLoopWaker, RunLoop};
use crate::application::ApplicationHandler;
use crate::event::{StartCause, WindowEvent};
use crate::event_loop::ControlFlow;
use crate::window::WindowId;
#[derive(Debug)]
pub(super) struct AppState {
mtm: MainThreadMarker,
activation_policy: Option<NSApplicationActivationPolicy>,
default_menu: bool,
activate_ignoring_other_apps: bool,
run_loop: RunLoop,
event_loop_proxy: Arc<EventLoopProxy>,
event_handler: EventHandler,
stop_on_launch: Cell<bool>,
stop_before_wait: Cell<bool>,
stop_after_wait: Cell<bool>,
stop_on_redraw: Cell<bool>,
/// Whether `applicationDidFinishLaunching:` has been run or not.
is_launched: Cell<bool>,
/// Whether an `EventLoop` is currently running.
is_running: Cell<bool>,
/// Whether the user has requested the event loop to exit.
exit: Cell<bool>,
control_flow: Cell<ControlFlow>,
waker: RefCell<EventLoopWaker>,
start_time: Cell<Option<Instant>>,
wait_timeout: Cell<Option<Instant>>,
pending_redraw: RefCell<Vec<WindowId>>,
// NOTE: This is strongly referenced by our `NSWindowDelegate` and our `NSView` subclass, and
// as such should be careful to not add fields that, in turn, strongly reference those.
}
// TODO(madsmtm): Use `MainThreadBound` once that is possible in `static`s.
struct StaticMainThreadBound<T>(T);
impl<T> StaticMainThreadBound<T> {
const fn get(&self, _mtm: MainThreadMarker) -> &T {
&self.0
}
}
unsafe impl<T> Send for StaticMainThreadBound<T> {}
unsafe impl<T> Sync for StaticMainThreadBound<T> {}
// SAFETY: Creating `StaticMainThreadBound` in a `const` context, where there is no concept of the
// main thread.
static GLOBAL: StaticMainThreadBound<OnceCell<Rc<AppState>>> =
StaticMainThreadBound(OnceCell::new());
impl AppState {
pub(super) fn setup_global(
mtm: MainThreadMarker,
activation_policy: Option<NSApplicationActivationPolicy>,
default_menu: bool,
activate_ignoring_other_apps: bool,
) -> Rc<Self> {
let this = Rc::new(AppState {
mtm,
activation_policy,
event_loop_proxy: Arc::new(EventLoopProxy::new()),
default_menu,
activate_ignoring_other_apps,
run_loop: RunLoop::main(mtm),
event_handler: EventHandler::new(),
stop_on_launch: Cell::new(false),
stop_before_wait: Cell::new(false),
stop_after_wait: Cell::new(false),
stop_on_redraw: Cell::new(false),
is_launched: Cell::new(false),
is_running: Cell::new(false),
exit: Cell::new(false),
control_flow: Cell::new(ControlFlow::default()),
waker: RefCell::new(EventLoopWaker::new()),
start_time: Cell::new(None),
wait_timeout: Cell::new(None),
pending_redraw: RefCell::new(vec![]),
});
GLOBAL.get(mtm).set(this.clone()).expect("application state can only be set once");
this
}
pub fn get(mtm: MainThreadMarker) -> Rc<Self> {
GLOBAL
.get(mtm)
.get()
.expect("tried to get application state before it was registered")
.clone()
}
// NOTE: This notification will, globally, only be emitted once,
// no matter how many `EventLoop`s the user creates.
pub fn did_finish_launching(self: &Rc<Self>, _notification: &NSNotification) {
trace_scope!("NSApplicationDidFinishLaunchingNotification");
self.is_launched.set(true);
let app = NSApplication::sharedApplication(self.mtm);
// We need to delay setting the activation policy and activating the app
// until `applicationDidFinishLaunching` has been called. Otherwise the
// menu bar is initially unresponsive on macOS 10.15.
if let Some(activation_policy) = self.activation_policy {
app.setActivationPolicy(activation_policy);
} else {
// If no activation policy is explicitly provided, and the application
// is bundled, do not set the activation policy at all, to allow the
// package manifest to define the behavior via LSUIElement.
//
// See:
// - https://github.com/rust-windowing/winit/issues/261
// - https://github.com/rust-windowing/winit/issues/3958
let is_bundled =
unsafe { NSRunningApplication::currentApplication().bundleIdentifier().is_some() };
if !is_bundled {
app.setActivationPolicy(NSApplicationActivationPolicy::Regular);
}
}
#[allow(deprecated)]
app.activateIgnoringOtherApps(self.activate_ignoring_other_apps);
if self.default_menu {
// The menubar initialization should be before the `NewEvents` event, to allow
// overriding of the default menu even if it's created
menu::initialize(&app);
}
self.waker.borrow_mut().start();
self.set_is_running(true);
self.dispatch_init_events();
// If the application is being launched via `EventLoop::pump_app_events()` then we'll
// want to stop the app once it is launched (and return to the external loop)
//
// In this case we still want to consider Winit's `EventLoop` to be "running",
// so we call `start_running()` above.
if self.stop_on_launch.get() {
// NOTE: the original idea had been to only stop the underlying `RunLoop`
// for the app but that didn't work as expected (`-[NSApplication run]`
// effectively ignored the attempt to stop the RunLoop and re-started it).
//
// So we return from `pump_events` by stopping the application.
let app = NSApplication::sharedApplication(self.mtm);
stop_app_immediately(&app);
}
}
pub fn will_terminate(self: &Rc<Self>, _notification: &NSNotification) {
trace_scope!("NSApplicationWillTerminateNotification");
// TODO: Notify every window that it will be destroyed, like done in iOS?
self.internal_exit();
}
/// Place the event handler in the application state for the duration
/// of the given closure.
pub fn set_event_handler<R>(
&self,
handler: &mut dyn ApplicationHandler,
closure: impl FnOnce() -> R,
) -> R {
self.event_handler.set(handler, closure)
}
pub fn event_loop_proxy(&self) -> &Arc<EventLoopProxy> {
&self.event_loop_proxy
}
/// If `pump_events` is called to progress the event loop then we
/// bootstrap the event loop via `-[NSApplication run]` but will use
/// `CFRunLoopRunInMode` for subsequent calls to `pump_events`.
pub fn set_stop_on_launch(&self) {
self.stop_on_launch.set(true);
}
pub fn set_stop_before_wait(&self, value: bool) {
self.stop_before_wait.set(value)
}
pub fn set_stop_after_wait(&self, value: bool) {
self.stop_after_wait.set(value)
}
pub fn set_stop_on_redraw(&self, value: bool) {
self.stop_on_redraw.set(value)
}
pub fn set_wait_timeout(&self, value: Option<Instant>) {
self.wait_timeout.set(value)
}
/// Clears the `running` state and resets the `control_flow` state when an `EventLoop` exits.
///
/// NOTE: that if the `NSApplication` has been launched then that state is preserved,
/// and we won't need to re-launch the app if subsequent EventLoops are run.
pub fn internal_exit(self: &Rc<Self>) {
self.with_handler(|app, event_loop| {
app.exiting(event_loop);
});
self.set_is_running(false);
self.set_stop_on_redraw(false);
self.set_stop_before_wait(false);
self.set_stop_after_wait(false);
self.set_wait_timeout(None);
}
pub fn is_launched(&self) -> bool {
self.is_launched.get()
}
pub fn set_is_running(&self, value: bool) {
self.is_running.set(value)
}
pub fn is_running(&self) -> bool {
self.is_running.get()
}
pub fn exit(&self) {
self.exit.set(true)
}
pub fn clear_exit(&self) {
self.exit.set(false)
}
pub fn exiting(&self) -> bool {
self.exit.get()
}
pub fn set_control_flow(&self, value: ControlFlow) {
self.control_flow.set(value)
}
pub fn control_flow(&self) -> ControlFlow {
self.control_flow.get()
}
pub fn handle_redraw(self: &Rc<Self>, window_id: WindowId) {
// Redraw request might come out of order from the OS.
// -> Don't go back into the event handler when our callstack originates from there
if !self.event_handler.in_use() {
self.with_handler(|app, event_loop| {
app.window_event(event_loop, window_id, WindowEvent::RedrawRequested);
});
// `pump_events` will request to stop immediately _after_ dispatching RedrawRequested
// events as a way to ensure that `pump_events` can't block an external loop
// indefinitely
if self.stop_on_redraw.get() {
let app = NSApplication::sharedApplication(self.mtm);
stop_app_immediately(&app);
}
}
}
pub fn queue_redraw(&self, window_id: WindowId) {
let mut pending_redraw = self.pending_redraw.borrow_mut();
if !pending_redraw.contains(&window_id) {
pending_redraw.push(window_id);
}
self.run_loop.wakeup();
}
#[track_caller]
pub fn maybe_queue_with_handler(
self: &Rc<Self>,
callback: impl FnOnce(&mut dyn ApplicationHandler, &ActiveEventLoop) + 'static,
) {
// Most programmer actions in AppKit (e.g. change window fullscreen, set focused, etc.)
// result in an event being queued, and applied at a later point.
//
// However, it is not documented which actions do this, and which ones are done immediately,
// so to make sure that we don't encounter re-entrancy issues, we first check if we're
// currently handling another event, and if we are, we queue the event instead.
if !self.event_handler.in_use() {
self.with_handler(callback);
} else {
tracing::debug!("had to queue event since another is currently being handled");
let this = Rc::clone(self);
self.run_loop.queue_closure(move || {
this.with_handler(callback);
});
}
}
#[track_caller]
fn with_handler(
self: &Rc<Self>,
callback: impl FnOnce(&mut dyn ApplicationHandler, &ActiveEventLoop),
) {
let event_loop = ActiveEventLoop { app_state: Rc::clone(self), mtm: self.mtm };
self.event_handler.handle(|app| callback(app, &event_loop));
}
/// dispatch `NewEvents(Init)` + `Resumed`
pub fn dispatch_init_events(self: &Rc<Self>) {
self.with_handler(|app, event_loop| app.new_events(event_loop, StartCause::Init));
// NB: For consistency all platforms must call `can_create_surfaces` even though macOS
// applications don't themselves have a formal surface destroy/create lifecycle.
self.with_handler(|app, event_loop| app.can_create_surfaces(event_loop));
}
// Called by RunLoopObserver after finishing waiting for new events
pub fn wakeup(self: &Rc<Self>, panic_info: Weak<PanicInfo>) {
let panic_info = panic_info
.upgrade()
.expect("The panic info must exist here. This failure indicates a developer error.");
// Return when in event handler due to https://github.com/rust-windowing/winit/issues/1779
if panic_info.is_panicking() || !self.event_handler.ready() || !self.is_running() {
return;
}
if self.stop_after_wait.get() {
let app = NSApplication::sharedApplication(self.mtm);
stop_app_immediately(&app);
}
let start = self.start_time.get().unwrap();
let cause = match self.control_flow() {
ControlFlow::Poll => StartCause::Poll,
ControlFlow::Wait => StartCause::WaitCancelled { start, requested_resume: None },
ControlFlow::WaitUntil(requested_resume) => {
if Instant::now() >= requested_resume {
StartCause::ResumeTimeReached { start, requested_resume }
} else {
StartCause::WaitCancelled { start, requested_resume: Some(requested_resume) }
}
},
};
self.with_handler(|app, event_loop| app.new_events(event_loop, cause));
}
// Called by RunLoopObserver before waiting for new events
pub fn cleared(self: &Rc<Self>, panic_info: Weak<PanicInfo>) {
let panic_info = panic_info
.upgrade()
.expect("The panic info must exist here. This failure indicates a developer error.");
// Return when in event handler due to https://github.com/rust-windowing/winit/issues/1779
// XXX: how does it make sense that `event_handler.ready()` can ever return `false` here if
// we're about to return to the `CFRunLoop` to poll for new events?
if panic_info.is_panicking() || !self.event_handler.ready() || !self.is_running() {
return;
}
if self.event_loop_proxy.wake_up.swap(false, AtomicOrdering::Relaxed) {
self.with_handler(|app, event_loop| app.proxy_wake_up(event_loop));
}
let redraw = mem::take(&mut *self.pending_redraw.borrow_mut());
for window_id in redraw {
self.with_handler(|app, event_loop| {
app.window_event(event_loop, window_id, WindowEvent::RedrawRequested);
});
}
self.with_handler(|app, event_loop| {
app.about_to_wait(event_loop);
});
if self.exiting() {
let app = NSApplication::sharedApplication(self.mtm);
stop_app_immediately(&app);
}
if self.stop_before_wait.get() {
let app = NSApplication::sharedApplication(self.mtm);
stop_app_immediately(&app);
}
self.start_time.set(Some(Instant::now()));
let wait_timeout = self.wait_timeout.get(); // configured by pump_events
let app_timeout = match self.control_flow() {
ControlFlow::Wait => None,
ControlFlow::Poll => Some(Instant::now()),
ControlFlow::WaitUntil(instant) => Some(instant),
};
self.waker.borrow_mut().start_at(min_timeout(wait_timeout, app_timeout));
}
}
/// Returns the minimum `Option<Instant>`, taking into account that `None`
/// equates to an infinite timeout, not a zero timeout (so can't just use
/// `Option::min`)
fn min_timeout(a: Option<Instant>, b: Option<Instant>) -> Option<Instant> {
a.map_or(b, |a_timeout| b.map_or(Some(a_timeout), |b_timeout| Some(a_timeout.min(b_timeout))))
}

39
src/platform_impl/macos/cursor.rs → src/platform_impl/apple/appkit/cursor.rs
View File

@@ -2,7 +2,7 @@ use std::ffi::c_uchar;
use std::slice;
use std::sync::OnceLock;
use objc2::rc::Id;
use objc2::rc::Retained;
use objc2::runtime::Sel;
use objc2::{msg_send_id, sel, ClassType};
use objc2_app_kit::{NSBitmapImageRep, NSCursor, NSDeviceRGBColorSpace, NSImage};
@@ -12,10 +12,11 @@ use objc2_foundation::{
};
use crate::cursor::{CursorImage, OnlyCursorImageSource};
use crate::error::RequestError;
use crate::window::CursorIcon;
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub struct CustomCursor(pub(crate) Id<NSCursor>);
pub struct CustomCursor(pub(crate) Retained<NSCursor>);
// SAFETY: NSCursor is immutable and thread-safe
// TODO(madsmtm): Put this logic in objc2-app-kit itself
@@ -23,12 +24,12 @@ unsafe impl Send for CustomCursor {}
unsafe impl Sync for CustomCursor {}
impl CustomCursor {
pub(crate) fn new(cursor: OnlyCursorImageSource) -> CustomCursor {
Self(cursor_from_image(&cursor.0))
pub(crate) fn new(cursor: OnlyCursorImageSource) -> Result<CustomCursor, RequestError> {
cursor_from_image(&cursor.0).map(Self)
}
}
pub(crate) fn cursor_from_image(cursor: &CursorImage) -> Id<NSCursor> {
pub(crate) fn cursor_from_image(cursor: &CursorImage) -> Result<Retained<NSCursor>, RequestError> {
let width = cursor.width;
let height = cursor.height;
@@ -45,8 +46,8 @@ pub(crate) fn cursor_from_image(cursor: &CursorImage) -> Id<NSCursor> {
NSDeviceRGBColorSpace,
width as isize * 4,
32,
).unwrap()
};
)
}.ok_or_else(|| os_error!("parent view should be installed in a window"))?;
let bitmap_data = unsafe { slice::from_raw_parts_mut(bitmap.bitmapData(), cursor.rgba.len()) };
bitmap_data.copy_from_slice(&cursor.rgba);
@@ -57,17 +58,17 @@ pub(crate) fn cursor_from_image(cursor: &CursorImage) -> Id<NSCursor> {
let hotspot = NSPoint::new(cursor.hotspot_x as f64, cursor.hotspot_y as f64);
NSCursor::initWithImage_hotSpot(NSCursor::alloc(), &image, hotspot)
Ok(NSCursor::initWithImage_hotSpot(NSCursor::alloc(), &image, hotspot))
}
pub(crate) fn default_cursor() -> Id<NSCursor> {
pub(crate) fn default_cursor() -> Retained<NSCursor> {
NSCursor::arrowCursor()
}
unsafe fn try_cursor_from_selector(sel: Sel) -> Option<Id<NSCursor>> {
unsafe fn try_cursor_from_selector(sel: Sel) -> Option<Retained<NSCursor>> {
let cls = NSCursor::class();
if cls.responds_to(sel) {
let cursor: Id<NSCursor> = unsafe { msg_send_id![cls, performSelector: sel] };
let cursor: Retained<NSCursor> = unsafe { msg_send_id![cls, performSelector: sel] };
Some(cursor)
} else {
tracing::warn!("cursor `{sel}` appears to be invalid");
@@ -82,7 +83,7 @@ macro_rules! def_undocumented_cursor {
)*} => {$(
$(#[$($m)*])*
#[allow(non_snake_case)]
fn $name() -> Id<NSCursor> {
fn $name() -> Retained<NSCursor> {
unsafe { try_cursor_from_selector(sel!($name)).unwrap_or_else(|| default_cursor()) }
}
)*};
@@ -112,7 +113,7 @@ def_undocumented_cursor!(
// Note that loading `busybutclickable` with this code won't animate
// the frames; instead you'll just get them all in a column.
unsafe fn load_webkit_cursor(name: &NSString) -> Id<NSCursor> {
unsafe fn load_webkit_cursor(name: &NSString) -> Retained<NSCursor> {
// Snatch a cursor from WebKit; They fit the style of the native
// cursors, and will seem completely standard to macOS users.
//
@@ -128,7 +129,7 @@ unsafe fn load_webkit_cursor(name: &NSString) -> Id<NSCursor> {
// TODO: Handle PLists better
let info_path = cursor_path.stringByAppendingPathComponent(ns_string!("info.plist"));
let info: Id<NSDictionary<NSObject, NSObject>> = unsafe {
let info: Retained<NSDictionary<NSObject, NSObject>> = unsafe {
msg_send_id![
<NSDictionary<NSObject, NSObject>>::class(),
dictionaryWithContentsOfFile: &*info_path,
@@ -155,15 +156,15 @@ unsafe fn load_webkit_cursor(name: &NSString) -> Id<NSCursor> {
NSCursor::initWithImage_hotSpot(NSCursor::alloc(), &image, hotspot)
}
fn webkit_move() -> Id<NSCursor> {
fn webkit_move() -> Retained<NSCursor> {
unsafe { load_webkit_cursor(ns_string!("move")) }
}
fn webkit_cell() -> Id<NSCursor> {
fn webkit_cell() -> Retained<NSCursor> {
unsafe { load_webkit_cursor(ns_string!("cell")) }
}
pub(crate) fn invisible_cursor() -> Id<NSCursor> {
pub(crate) fn invisible_cursor() -> Retained<NSCursor> {
// 16x16 GIF data for invisible cursor
// You can reproduce this via ImageMagick.
// $ convert -size 16x16 xc:none cursor.gif
@@ -174,7 +175,7 @@ pub(crate) fn invisible_cursor() -> Id<NSCursor> {
0xa3, 0x9c, 0xb4, 0xda, 0x8b, 0xb3, 0x3e, 0x05, 0x00, 0x3b,
];
fn new_invisible() -> Id<NSCursor> {
fn new_invisible() -> Retained<NSCursor> {
// TODO: Consider using `dataWithBytesNoCopy:`
let data = NSData::with_bytes(CURSOR_BYTES);
let image = NSImage::initWithData(NSImage::alloc(), &data).unwrap();
@@ -187,7 +188,7 @@ pub(crate) fn invisible_cursor() -> Id<NSCursor> {
CURSOR.get_or_init(|| CustomCursor(new_invisible())).0.clone()
}
pub(crate) fn cursor_from_icon(icon: CursorIcon) -> Id<NSCursor> {
pub(crate) fn cursor_from_icon(icon: CursorIcon) -> Retained<NSCursor> {
match icon {
CursorIcon::Default => default_cursor(),
CursorIcon::Pointer => NSCursor::pointingHandCursor(),

140
src/platform_impl/macos/event.rs → src/platform_impl/apple/appkit/event.rs
View File

@@ -2,17 +2,17 @@ use std::ffi::c_void;
use core_foundation::base::CFRelease;
use core_foundation::data::{CFDataGetBytePtr, CFDataRef};
use objc2::rc::Id;
use objc2::rc::Retained;
use objc2_app_kit::{NSEvent, NSEventModifierFlags, NSEventSubtype, NSEventType};
use objc2_foundation::{run_on_main, NSPoint};
use smol_str::SmolStr;
use super::ffi;
use crate::event::{ElementState, KeyEvent, Modifiers};
use crate::keyboard::{
Key, KeyCode, KeyLocation, ModifiersKeys, ModifiersState, NamedKey, NativeKey, NativeKeyCode,
PhysicalKey,
};
use crate::platform_impl::platform::ffi;
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct KeyEventExtra {
@@ -92,17 +92,12 @@ fn get_logical_key_char(ns_event: &NSEvent, modifierless_chars: &str) -> Key {
/// Create `KeyEvent` for the given `NSEvent`.
///
/// This function shouldn't be called when the IME input is in process.
pub(crate) fn create_key_event(
ns_event: &NSEvent,
is_press: bool,
is_repeat: bool,
key_override: Option<PhysicalKey>,
) -> KeyEvent {
pub(crate) fn create_key_event(ns_event: &NSEvent, is_press: bool, is_repeat: bool) -> KeyEvent {
use ElementState::{Pressed, Released};
let state = if is_press { Pressed } else { Released };
let scancode = unsafe { ns_event.keyCode() };
let mut physical_key = key_override.unwrap_or_else(|| scancode_to_physicalkey(scancode as u32));
let mut physical_key = scancode_to_physicalkey(scancode as u32);
// NOTE: The logical key should heed both SHIFT and ALT if possible.
// For instance:
@@ -111,20 +106,15 @@ pub(crate) fn create_key_event(
// * Pressing CTRL SHIFT A: logical key should also be "A"
// This is not easy to tease out of `NSEvent`, but we do our best.
let text_with_all_modifiers: Option<SmolStr> = if key_override.is_some() {
let characters = unsafe { ns_event.characters() }.map(|s| s.to_string()).unwrap_or_default();
let text_with_all_modifiers = if characters.is_empty() {
None
} else {
let characters =
unsafe { ns_event.characters() }.map(|s| s.to_string()).unwrap_or_default();
if characters.is_empty() {
None
} else {
if matches!(physical_key, PhysicalKey::Unidentified(_)) {
// The key may be one of the funky function keys
physical_key = extra_function_key_to_code(scancode, &characters);
}
Some(SmolStr::new(characters))
if matches!(physical_key, PhysicalKey::Unidentified(_)) {
// The key may be one of the funky function keys
physical_key = extra_function_key_to_code(scancode, &characters);
}
Some(SmolStr::new(characters))
};
let key_from_code = code_to_key(physical_key, scancode);
@@ -133,8 +123,8 @@ pub(crate) fn create_key_event(
let key_without_modifiers = get_modifierless_char(scancode);
let modifiers = unsafe { ns_event.modifierFlags() };
let has_ctrl = flags_contains(modifiers, NSEventModifierFlags::NSEventModifierFlagControl);
let has_cmd = flags_contains(modifiers, NSEventModifierFlags::NSEventModifierFlagCommand);
let has_ctrl = modifiers.contains(NSEventModifierFlags::NSEventModifierFlagControl);
let has_cmd = modifiers.contains(NSEventModifierFlags::NSEventModifierFlagCommand);
let logical_key = match text_with_all_modifiers.as_ref() {
// Only checking for ctrl and cmd here, not checking for alt because we DO want to
@@ -305,16 +295,12 @@ const NX_DEVICELALTKEYMASK: NSEventModifierFlags = NSEventModifierFlags(0x000000
const NX_DEVICERALTKEYMASK: NSEventModifierFlags = NSEventModifierFlags(0x00000040);
const NX_DEVICERCTLKEYMASK: NSEventModifierFlags = NSEventModifierFlags(0x00002000);
pub(super) fn flags_contains(flags: NSEventModifierFlags, value: NSEventModifierFlags) -> bool {
flags.0 & value.0 == value.0
}
pub(super) fn lalt_pressed(event: &NSEvent) -> bool {
flags_contains(unsafe { event.modifierFlags() }, NX_DEVICELALTKEYMASK)
unsafe { event.modifierFlags() }.contains(NX_DEVICELALTKEYMASK)
}
pub(super) fn ralt_pressed(event: &NSEvent) -> bool {
flags_contains(unsafe { event.modifierFlags() }, NX_DEVICERALTKEYMASK)
unsafe { event.modifierFlags() }.contains(NX_DEVICERALTKEYMASK)
}
pub(super) fn event_mods(event: &NSEvent) -> Modifiers {
@@ -322,38 +308,33 @@ pub(super) fn event_mods(event: &NSEvent) -> Modifiers {
let mut state = ModifiersState::empty();
let mut pressed_mods = ModifiersKeys::empty();
state.set(
ModifiersState::SHIFT,
flags_contains(flags, NSEventModifierFlags::NSEventModifierFlagShift),
);
pressed_mods.set(ModifiersKeys::LSHIFT, flags_contains(flags, NX_DEVICELSHIFTKEYMASK));
pressed_mods.set(ModifiersKeys::RSHIFT, flags_contains(flags, NX_DEVICERSHIFTKEYMASK));
state
.set(ModifiersState::SHIFT, flags.contains(NSEventModifierFlags::NSEventModifierFlagShift));
pressed_mods.set(ModifiersKeys::LSHIFT, flags.contains(NX_DEVICELSHIFTKEYMASK));
pressed_mods.set(ModifiersKeys::RSHIFT, flags.contains(NX_DEVICERSHIFTKEYMASK));
state.set(
ModifiersState::CONTROL,
flags_contains(flags, NSEventModifierFlags::NSEventModifierFlagControl),
flags.contains(NSEventModifierFlags::NSEventModifierFlagControl),
);
pressed_mods.set(ModifiersKeys::LCONTROL, flags_contains(flags, NX_DEVICELCTLKEYMASK));
pressed_mods.set(ModifiersKeys::RCONTROL, flags_contains(flags, NX_DEVICERCTLKEYMASK));
pressed_mods.set(ModifiersKeys::LCONTROL, flags.contains(NX_DEVICELCTLKEYMASK));
pressed_mods.set(ModifiersKeys::RCONTROL, flags.contains(NX_DEVICERCTLKEYMASK));
state.set(
ModifiersState::ALT,
flags_contains(flags, NSEventModifierFlags::NSEventModifierFlagOption),
);
pressed_mods.set(ModifiersKeys::LALT, flags_contains(flags, NX_DEVICELALTKEYMASK));
pressed_mods.set(ModifiersKeys::RALT, flags_contains(flags, NX_DEVICERALTKEYMASK));
state.set(ModifiersState::ALT, flags.contains(NSEventModifierFlags::NSEventModifierFlagOption));
pressed_mods.set(ModifiersKeys::LALT, flags.contains(NX_DEVICELALTKEYMASK));
pressed_mods.set(ModifiersKeys::RALT, flags.contains(NX_DEVICERALTKEYMASK));
state.set(
ModifiersState::SUPER,
flags_contains(flags, NSEventModifierFlags::NSEventModifierFlagCommand),
flags.contains(NSEventModifierFlags::NSEventModifierFlagCommand),
);
pressed_mods.set(ModifiersKeys::LSUPER, flags_contains(flags, NX_DEVICELCMDKEYMASK));
pressed_mods.set(ModifiersKeys::RSUPER, flags_contains(flags, NX_DEVICERCMDKEYMASK));
pressed_mods.set(ModifiersKeys::LSUPER, flags.contains(NX_DEVICELCMDKEYMASK));
pressed_mods.set(ModifiersKeys::RSUPER, flags.contains(NX_DEVICERCMDKEYMASK));
Modifiers { state, pressed_mods }
}
pub(super) fn dummy_event() -> Option<Id<NSEvent>> {
pub(super) fn dummy_event() -> Option<Retained<NSEvent>> {
unsafe {
NSEvent::otherEventWithType_location_modifierFlags_timestamp_windowNumber_context_subtype_data1_data2(
NSEventType::ApplicationDefined,
@@ -386,6 +367,7 @@ pub(crate) fn physicalkey_to_scancode(physical_key: PhysicalKey) -> Option<u32>
KeyCode::KeyX => Some(0x07),
KeyCode::KeyC => Some(0x08),
KeyCode::KeyV => Some(0x09),
KeyCode::IntlBackslash => Some(0x0a),
KeyCode::KeyB => Some(0x0b),
KeyCode::KeyQ => Some(0x0c),
KeyCode::KeyW => Some(0x0d),
@@ -431,18 +413,21 @@ pub(crate) fn physicalkey_to_scancode(physical_key: PhysicalKey) -> Option<u32>
KeyCode::SuperRight => Some(0x36),
KeyCode::SuperLeft => Some(0x37),
KeyCode::ShiftLeft => Some(0x38),
KeyCode::CapsLock => Some(0x39),
KeyCode::AltLeft => Some(0x3a),
KeyCode::ControlLeft => Some(0x3b),
KeyCode::ShiftRight => Some(0x3c),
KeyCode::AltRight => Some(0x3d),
KeyCode::ControlRight => Some(0x3e),
KeyCode::Fn => Some(0x3f),
KeyCode::F17 => Some(0x40),
KeyCode::NumpadDecimal => Some(0x41),
KeyCode::NumpadMultiply => Some(0x43),
KeyCode::NumpadAdd => Some(0x45),
KeyCode::NumLock => Some(0x47),
KeyCode::AudioVolumeUp => Some(0x49),
KeyCode::AudioVolumeDown => Some(0x4a),
KeyCode::AudioVolumeUp => Some(0x48),
KeyCode::AudioVolumeDown => Some(0x49),
KeyCode::AudioVolumeMute => Some(0x4a),
KeyCode::NumpadDivide => Some(0x4b),
KeyCode::NumpadEnter => Some(0x4c),
KeyCode::NumpadSubtract => Some(0x4e),
@@ -461,17 +446,22 @@ pub(crate) fn physicalkey_to_scancode(physical_key: PhysicalKey) -> Option<u32>
KeyCode::Numpad8 => Some(0x5b),
KeyCode::Numpad9 => Some(0x5c),
KeyCode::IntlYen => Some(0x5d),
KeyCode::IntlRo => Some(0x5e),
KeyCode::NumpadComma => Some(0x5f),
KeyCode::F5 => Some(0x60),
KeyCode::F6 => Some(0x61),
KeyCode::F7 => Some(0x62),
KeyCode::F3 => Some(0x63),
KeyCode::F8 => Some(0x64),
KeyCode::F9 => Some(0x65),
KeyCode::Lang2 => Some(0x66),
KeyCode::F11 => Some(0x67),
KeyCode::Lang1 => Some(0x68),
KeyCode::F13 => Some(0x69),
KeyCode::F16 => Some(0x6a),
KeyCode::F14 => Some(0x6b),
KeyCode::F10 => Some(0x6d),
KeyCode::ContextMenu => Some(0x6e),
KeyCode::F12 => Some(0x6f),
KeyCode::F15 => Some(0x71),
KeyCode::Insert => Some(0x72),
@@ -487,11 +477,26 @@ pub(crate) fn physicalkey_to_scancode(physical_key: PhysicalKey) -> Option<u32>
KeyCode::ArrowRight => Some(0x7c),
KeyCode::ArrowDown => Some(0x7d),
KeyCode::ArrowUp => Some(0x7e),
KeyCode::Power => Some(0x7f),
_ => None,
}
}
pub(crate) fn scancode_to_physicalkey(scancode: u32) -> PhysicalKey {
// Follows what Chromium and Firefox do:
// https://chromium.googlesource.com/chromium/src.git/+/3e1a26c44c024d97dc9a4c09bbc6a2365398ca2c/ui/events/keycodes/dom/dom_code_data.inc
// https://searchfox.org/mozilla-central/rev/c597e9c789ad36af84a0370d395be066b7dc94f4/widget/NativeKeyToDOMCodeName.h
//
// See also:
// Carbon.framework/Versions/A/Frameworks/HIToolbox.framework/Versions/A/Headers/Events.h
//
// Also see https://developer.apple.com/documentation/appkit/function-key-unicode-values:
//
// > the system handles some function keys at a lower level and your app never sees them.
// > Examples include the Volume Up key, Volume Down key, Volume Mute key, Eject key, and
// > Function key found on many Macs.
//
// So the handling of some of these is mostly for show.
PhysicalKey::Code(match scancode {
0x00 => KeyCode::KeyA,
0x01 => KeyCode::KeyS,
@@ -503,7 +508,11 @@ pub(crate) fn scancode_to_physicalkey(scancode: u32) -> PhysicalKey {
0x07 => KeyCode::KeyX,
0x08 => KeyCode::KeyC,
0x09 => KeyCode::KeyV,
// 0x0a => World 1,
// This key is typically located near LeftShift key, roughly the same location as backquote
// (`) on Windows' US layout.
//
// The keycap varies on international keyboards.
0x0a => KeyCode::IntlBackslash,
0x0b => KeyCode::KeyB,
0x0c => KeyCode::KeyQ,
0x0d => KeyCode::KeyW,
@@ -545,7 +554,7 @@ pub(crate) fn scancode_to_physicalkey(scancode: u32) -> PhysicalKey {
0x31 => KeyCode::Space,
0x32 => KeyCode::Backquote,
0x33 => KeyCode::Backspace,
// 0x34 => unknown,
// 0x34 => unknown, // kVK_Powerbook_KeypadEnter
0x35 => KeyCode::Escape,
0x36 => KeyCode::SuperRight,
0x37 => KeyCode::SuperLeft,
@@ -564,15 +573,10 @@ pub(crate) fn scancode_to_physicalkey(scancode: u32) -> PhysicalKey {
// 0x44 => unknown,
0x45 => KeyCode::NumpadAdd,
// 0x46 => unknown,
0x47 => KeyCode::NumLock,
// 0x48 => KeyCode::NumpadClear,
// TODO: (Artur) for me, kVK_VolumeUp is 0x48
// macOS 10.11
// /System/Library/Frameworks/Carbon.framework/Versions/A/Frameworks/HIToolbox.framework/
// Versions/A/Headers/Events.h
0x49 => KeyCode::AudioVolumeUp,
0x4a => KeyCode::AudioVolumeDown,
0x47 => KeyCode::NumLock, // kVK_ANSI_KeypadClear
0x48 => KeyCode::AudioVolumeUp,
0x49 => KeyCode::AudioVolumeDown,
0x4a => KeyCode::AudioVolumeMute,
0x4b => KeyCode::NumpadDivide,
0x4c => KeyCode::NumpadEnter,
// 0x4d => unknown,
@@ -592,23 +596,23 @@ pub(crate) fn scancode_to_physicalkey(scancode: u32) -> PhysicalKey {
0x5b => KeyCode::Numpad8,
0x5c => KeyCode::Numpad9,
0x5d => KeyCode::IntlYen,
// 0x5e => JIS Ro,
// 0x5f => unknown,
0x5e => KeyCode::IntlRo,
0x5f => KeyCode::NumpadComma,
0x60 => KeyCode::F5,
0x61 => KeyCode::F6,
0x62 => KeyCode::F7,
0x63 => KeyCode::F3,
0x64 => KeyCode::F8,
0x65 => KeyCode::F9,
// 0x66 => JIS Eisuu (macOS),
0x66 => KeyCode::Lang2,
0x67 => KeyCode::F11,
// 0x68 => JIS Kanna (macOS),
0x68 => KeyCode::Lang1,
0x69 => KeyCode::F13,
0x6a => KeyCode::F16,
0x6b => KeyCode::F14,
// 0x6c => unknown,
0x6d => KeyCode::F10,
// 0x6e => unknown,
0x6e => KeyCode::ContextMenu,
0x6f => KeyCode::F12,
// 0x70 => unknown,
0x71 => KeyCode::F15,
@@ -625,11 +629,7 @@ pub(crate) fn scancode_to_physicalkey(scancode: u32) -> PhysicalKey {
0x7c => KeyCode::ArrowRight,
0x7d => KeyCode::ArrowDown,
0x7e => KeyCode::ArrowUp,
// 0x7f => unknown,
// 0xA is the caret (^) an macOS's German QERTZ layout. This key is at the same location as
// backquote (`) on Windows' US layout.
0xa => KeyCode::Backquote,
0x7f => KeyCode::Power, // On 10.7 and 10.8 only
_ => return PhysicalKey::Unidentified(NativeKeyCode::MacOS(scancode as u16)),
})
}

426
src/platform_impl/macos/event_loop.rs → src/platform_impl/apple/appkit/event_loop.rs
View File

@@ -1,12 +1,11 @@
use std::any::Any;
use std::cell::Cell;
use std::collections::VecDeque;
use std::marker::PhantomData;
use std::os::raw::c_void;
use std::panic::{catch_unwind, resume_unwind, RefUnwindSafe, UnwindSafe};
use std::ptr;
use std::rc::{Rc, Weak};
use std::sync::mpsc;
use std::sync::atomic::{AtomicBool, Ordering as AtomicOrdering};
use std::sync::Arc;
use std::time::{Duration, Instant};
use core_foundation::base::{CFIndex, CFRelease};
@@ -14,26 +13,34 @@ use core_foundation::runloop::{
kCFRunLoopCommonModes, CFRunLoopAddSource, CFRunLoopGetMain, CFRunLoopSourceContext,
CFRunLoopSourceCreate, CFRunLoopSourceRef, CFRunLoopSourceSignal, CFRunLoopWakeUp,
};
use objc2::rc::{autoreleasepool, Id};
use objc2::runtime::ProtocolObject;
use objc2::{msg_send_id, ClassType};
use objc2_app_kit::{NSApplication, NSApplicationActivationPolicy, NSWindow};
use objc2_foundation::{MainThreadMarker, NSObjectProtocol};
use super::app::WinitApplication;
use super::app_delegate::{ApplicationDelegate, HandlePendingUserEvents};
use super::event::dummy_event;
use super::monitor::{self, MonitorHandle};
use super::observer::setup_control_flow_observers;
use crate::error::EventLoopError;
use crate::event::Event;
use crate::event_loop::{
ActiveEventLoop as RootWindowTarget, ControlFlow, DeviceEvents, EventLoopClosed,
use objc2::rc::{autoreleasepool, Retained};
use objc2::{msg_send_id, sel, ClassType};
use objc2_app_kit::{
NSApplication, NSApplicationActivationPolicy, NSApplicationDidFinishLaunchingNotification,
NSApplicationWillTerminateNotification, NSWindow,
};
use objc2_foundation::{MainThreadMarker, NSNotificationCenter, NSObject, NSObjectProtocol};
use rwh_06::HasDisplayHandle;
use super::super::notification_center::create_observer;
use super::app::WinitApplication;
use super::app_state::AppState;
use super::cursor::CustomCursor;
use super::event::dummy_event;
use super::monitor;
use super::observer::setup_control_flow_observers;
use crate::application::ApplicationHandler;
use crate::error::{EventLoopError, RequestError};
use crate::event_loop::{
ActiveEventLoop as RootActiveEventLoop, ControlFlow, DeviceEvents,
EventLoopProxy as CoreEventLoopProxy, EventLoopProxyProvider,
OwnedDisplayHandle as CoreOwnedDisplayHandle,
};
use crate::monitor::MonitorHandle as RootMonitorHandle;
use crate::platform::macos::ActivationPolicy;
use crate::platform::pump_events::PumpStatus;
use crate::platform_impl::platform::cursor::CustomCursor;
use crate::window::{CustomCursor as RootCustomCursor, CustomCursorSource};
use crate::platform_impl::Window;
use crate::window::{CustomCursor as RootCustomCursor, CustomCursorSource, Theme};
#[derive(Default)]
pub struct PanicInfo {
@@ -53,7 +60,7 @@ impl PanicInfo {
result
}
/// Overwrites the curret state if the current state is not panicking
/// Overwrites the current state if the current state is not panicking
pub fn set_panic(&self, p: Box<dyn Any + Send + 'static>) {
if !self.is_panicking() {
self.inner.set(Some(p));
@@ -67,74 +74,10 @@ impl PanicInfo {
#[derive(Debug)]
pub struct ActiveEventLoop {
delegate: Id<ApplicationDelegate>,
pub(super) app_state: Rc<AppState>,
pub(super) mtm: MainThreadMarker,
}
impl ActiveEventLoop {
pub(super) fn new_root(delegate: Id<ApplicationDelegate>) -> RootWindowTarget {
let mtm = MainThreadMarker::from(&*delegate);
let p = Self { delegate, mtm };
RootWindowTarget { p, _marker: PhantomData }
}
pub fn create_custom_cursor(&self, source: CustomCursorSource) -> RootCustomCursor {
RootCustomCursor { inner: CustomCursor::new(source.inner) }
}
#[inline]
pub fn available_monitors(&self) -> VecDeque<MonitorHandle> {
monitor::available_monitors()
}
#[inline]
pub fn primary_monitor(&self) -> Option<MonitorHandle> {
let monitor = monitor::primary_monitor();
Some(monitor)
}
#[inline]
pub fn listen_device_events(&self, _allowed: DeviceEvents) {}
#[cfg(feature = "rwh_05")]
#[inline]
pub fn raw_display_handle_rwh_05(&self) -> rwh_05::RawDisplayHandle {
rwh_05::RawDisplayHandle::AppKit(rwh_05::AppKitDisplayHandle::empty())
}
#[cfg(feature = "rwh_06")]
#[inline]
pub fn raw_display_handle_rwh_06(
&self,
) -> Result<rwh_06::RawDisplayHandle, rwh_06::HandleError> {
Ok(rwh_06::RawDisplayHandle::AppKit(rwh_06::AppKitDisplayHandle::new()))
}
pub(crate) fn set_control_flow(&self, control_flow: ControlFlow) {
self.delegate.set_control_flow(control_flow)
}
pub(crate) fn control_flow(&self) -> ControlFlow {
self.delegate.control_flow()
}
pub(crate) fn exit(&self) {
self.delegate.exit()
}
pub(crate) fn clear_exit(&self) {
self.delegate.clear_exit()
}
pub(crate) fn exiting(&self) -> bool {
self.delegate.exiting()
}
pub(crate) fn owned_display_handle(&self) -> OwnedDisplayHandle {
OwnedDisplayHandle
}
}
impl ActiveEventLoop {
pub(crate) fn hide_application(&self) {
NSApplication::sharedApplication(self.mtm).hide(None)
@@ -153,65 +96,118 @@ impl ActiveEventLoop {
}
}
fn map_user_event<T: 'static>(
mut handler: impl FnMut(Event<T>, &RootWindowTarget),
receiver: Rc<mpsc::Receiver<T>>,
) -> impl FnMut(Event<HandlePendingUserEvents>, &RootWindowTarget) {
move |event, window_target| match event.map_nonuser_event() {
Ok(event) => (handler)(event, window_target),
Err(_) => {
for event in receiver.try_iter() {
(handler)(Event::UserEvent(event), window_target);
}
},
impl RootActiveEventLoop for ActiveEventLoop {
fn create_proxy(&self) -> CoreEventLoopProxy {
CoreEventLoopProxy::new(self.app_state.event_loop_proxy().clone())
}
fn create_window(
&self,
window_attributes: crate::window::WindowAttributes,
) -> Result<Box<dyn crate::window::Window>, RequestError> {
Ok(Box::new(Window::new(self, window_attributes)?))
}
fn create_custom_cursor(
&self,
source: CustomCursorSource,
) -> Result<RootCustomCursor, RequestError> {
Ok(RootCustomCursor { inner: CustomCursor::new(source.inner)? })
}
fn available_monitors(&self) -> Box<dyn Iterator<Item = RootMonitorHandle>> {
Box::new(monitor::available_monitors().into_iter().map(|inner| RootMonitorHandle { inner }))
}
fn primary_monitor(&self) -> Option<crate::monitor::MonitorHandle> {
let monitor = monitor::primary_monitor();
Some(RootMonitorHandle { inner: monitor })
}
fn listen_device_events(&self, _allowed: DeviceEvents) {}
fn system_theme(&self) -> Option<Theme> {
let app = NSApplication::sharedApplication(self.mtm);
if app.respondsToSelector(sel!(effectiveAppearance)) {
Some(super::window_delegate::appearance_to_theme(&app.effectiveAppearance()))
} else {
Some(Theme::Light)
}
}
fn set_control_flow(&self, control_flow: ControlFlow) {
self.app_state.set_control_flow(control_flow)
}
fn control_flow(&self) -> ControlFlow {
self.app_state.control_flow()
}
fn exit(&self) {
self.app_state.exit()
}
fn exiting(&self) -> bool {
self.app_state.exiting()
}
fn owned_display_handle(&self) -> CoreOwnedDisplayHandle {
CoreOwnedDisplayHandle::new(Arc::new(OwnedDisplayHandle))
}
fn rwh_06_handle(&self) -> &dyn rwh_06::HasDisplayHandle {
self
}
}
pub struct EventLoop<T: 'static> {
impl rwh_06::HasDisplayHandle for ActiveEventLoop {
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
let raw = rwh_06::RawDisplayHandle::AppKit(rwh_06::AppKitDisplayHandle::new());
unsafe { Ok(rwh_06::DisplayHandle::borrow_raw(raw)) }
}
}
pub struct EventLoop {
/// Store a reference to the application for convenience.
///
/// We intentionally don't store `WinitApplication` since we want to have
/// the possibility of swapping that out at some point.
app: Id<NSApplication>,
/// The application delegate that we've registered.
///
/// The delegate is only weakly referenced by NSApplication, so we must
/// keep it around here as well.
delegate: Id<ApplicationDelegate>,
app: Retained<NSApplication>,
app_state: Rc<AppState>,
// Event sender and receiver, used for EventLoopProxy.
sender: mpsc::Sender<T>,
receiver: Rc<mpsc::Receiver<T>>,
window_target: RootWindowTarget,
window_target: ActiveEventLoop,
panic_info: Rc<PanicInfo>,
// Since macOS 10.11, we no longer need to remove the observers before they are deallocated;
// the system instead cleans it up next time it would have posted a notification to it.
//
// Though we do still need to keep the observers around to prevent them from being deallocated.
_did_finish_launching_observer: Retained<NSObject>,
_will_terminate_observer: Retained<NSObject>,
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub(crate) struct PlatformSpecificEventLoopAttributes {
pub(crate) activation_policy: ActivationPolicy,
pub(crate) activation_policy: Option<ActivationPolicy>,
pub(crate) default_menu: bool,
pub(crate) activate_ignoring_other_apps: bool,
}
impl Default for PlatformSpecificEventLoopAttributes {
fn default() -> Self {
Self {
activation_policy: Default::default(), // Regular
default_menu: true,
activate_ignoring_other_apps: true,
}
Self { activation_policy: None, default_menu: true, activate_ignoring_other_apps: true }
}
}
impl<T> EventLoop<T> {
impl EventLoop {
pub(crate) fn new(
attributes: &PlatformSpecificEventLoopAttributes,
) -> Result<Self, EventLoopError> {
let mtm = MainThreadMarker::new()
.expect("on macOS, `EventLoop` must be created on the main thread!");
let app: Id<NSApplication> =
let app: Retained<NSApplication> =
unsafe { msg_send_id![WinitApplication::class(), sharedApplication] };
if !app.is_kind_of::<WinitApplication>() {
@@ -222,71 +218,87 @@ impl<T> EventLoop<T> {
}
let activation_policy = match attributes.activation_policy {
ActivationPolicy::Regular => NSApplicationActivationPolicy::Regular,
ActivationPolicy::Accessory => NSApplicationActivationPolicy::Accessory,
ActivationPolicy::Prohibited => NSApplicationActivationPolicy::Prohibited,
None => None,
Some(ActivationPolicy::Regular) => Some(NSApplicationActivationPolicy::Regular),
Some(ActivationPolicy::Accessory) => Some(NSApplicationActivationPolicy::Accessory),
Some(ActivationPolicy::Prohibited) => Some(NSApplicationActivationPolicy::Prohibited),
};
let delegate = ApplicationDelegate::new(
let app_state = AppState::setup_global(
mtm,
activation_policy,
attributes.default_menu,
attributes.activate_ignoring_other_apps,
);
autoreleasepool(|_| {
app.setDelegate(Some(ProtocolObject::from_ref(&*delegate)));
});
let center = unsafe { NSNotificationCenter::defaultCenter() };
let weak_app_state = Rc::downgrade(&app_state);
let _did_finish_launching_observer = create_observer(
&center,
// `applicationDidFinishLaunching:`
unsafe { NSApplicationDidFinishLaunchingNotification },
move |notification| {
if let Some(app_state) = weak_app_state.upgrade() {
app_state.did_finish_launching(notification);
}
},
);
let weak_app_state = Rc::downgrade(&app_state);
let _will_terminate_observer = create_observer(
&center,
// `applicationWillTerminate:`
unsafe { NSApplicationWillTerminateNotification },
move |notification| {
if let Some(app_state) = weak_app_state.upgrade() {
app_state.will_terminate(notification);
}
},
);
let panic_info: Rc<PanicInfo> = Default::default();
setup_control_flow_observers(Rc::downgrade(&panic_info));
setup_control_flow_observers(mtm, Rc::downgrade(&panic_info));
let (sender, receiver) = mpsc::channel();
Ok(EventLoop {
app,
delegate: delegate.clone(),
sender,
receiver: Rc::new(receiver),
window_target: RootWindowTarget {
p: ActiveEventLoop { delegate, mtm },
_marker: PhantomData,
},
app_state: app_state.clone(),
window_target: ActiveEventLoop { app_state, mtm },
panic_info,
_did_finish_launching_observer,
_will_terminate_observer,
})
}
pub fn window_target(&self) -> &RootWindowTarget {
pub fn window_target(&self) -> &dyn RootActiveEventLoop {
&self.window_target
}
pub fn run<F>(mut self, handler: F) -> Result<(), EventLoopError>
where
F: FnMut(Event<T>, &RootWindowTarget),
{
self.run_on_demand(handler)
pub fn run_app<A: ApplicationHandler>(mut self, app: A) -> Result<(), EventLoopError> {
self.run_app_on_demand(app)
}
// NB: we don't base this on `pump_events` because for `MacOs` we can't support
// `pump_events` elegantly (we just ask to run the loop for a "short" amount of
// time and so a layered implementation would end up using a lot of CPU due to
// redundant wake ups.
pub fn run_on_demand<F>(&mut self, handler: F) -> Result<(), EventLoopError>
where
F: FnMut(Event<T>, &RootWindowTarget),
{
let handler = map_user_event(handler, self.receiver.clone());
self.delegate.set_event_handler(handler, || {
pub fn run_app_on_demand<A: ApplicationHandler>(
&mut self,
mut app: A,
) -> Result<(), EventLoopError> {
self.app_state.clear_exit();
self.app_state.set_event_handler(&mut app, || {
autoreleasepool(|_| {
// clear / normalize pump_events state
self.delegate.set_wait_timeout(None);
self.delegate.set_stop_before_wait(false);
self.delegate.set_stop_after_wait(false);
self.delegate.set_stop_on_redraw(false);
self.app_state.set_wait_timeout(None);
self.app_state.set_stop_before_wait(false);
self.app_state.set_stop_after_wait(false);
self.app_state.set_stop_on_redraw(false);
if self.delegate.is_launched() {
debug_assert!(!self.delegate.is_running());
self.delegate.set_is_running(true);
self.delegate.dispatch_init_events();
if self.app_state.is_launched() {
debug_assert!(!self.app_state.is_running());
self.app_state.set_is_running(true);
self.app_state.dispatch_init_events();
}
// SAFETY: We do not run the application re-entrantly
@@ -301,60 +313,59 @@ impl<T> EventLoop<T> {
resume_unwind(panic);
}
self.delegate.internal_exit()
self.app_state.internal_exit()
})
});
Ok(())
}
pub fn pump_events<F>(&mut self, timeout: Option<Duration>, handler: F) -> PumpStatus
where
F: FnMut(Event<T>, &RootWindowTarget),
{
let handler = map_user_event(handler, self.receiver.clone());
self.delegate.set_event_handler(handler, || {
pub fn pump_app_events<A: ApplicationHandler>(
&mut self,
timeout: Option<Duration>,
mut app: A,
) -> PumpStatus {
self.app_state.set_event_handler(&mut app, || {
autoreleasepool(|_| {
// As a special case, if the application hasn't been launched yet then we at least
// run the loop until it has fully launched.
if !self.delegate.is_launched() {
debug_assert!(!self.delegate.is_running());
if !self.app_state.is_launched() {
debug_assert!(!self.app_state.is_running());
self.delegate.set_stop_on_launch();
self.app_state.set_stop_on_launch();
// SAFETY: We do not run the application re-entrantly
unsafe { self.app.run() };
// Note: we dispatch `NewEvents(Init)` + `Resumed` events after the application
// has launched
} else if !self.delegate.is_running() {
} else if !self.app_state.is_running() {
// Even though the application may have been launched, it's possible we aren't
// running if the `EventLoop` was run before and has since
// exited. This indicates that we just starting to re-run
// the same `EventLoop` again.
self.delegate.set_is_running(true);
self.delegate.dispatch_init_events();
self.app_state.set_is_running(true);
self.app_state.dispatch_init_events();
} else {
// Only run for as long as the given `Duration` allows so we don't block the
// external loop.
match timeout {
Some(Duration::ZERO) => {
self.delegate.set_wait_timeout(None);
self.delegate.set_stop_before_wait(true);
self.app_state.set_wait_timeout(None);
self.app_state.set_stop_before_wait(true);
},
Some(duration) => {
self.delegate.set_stop_before_wait(false);
self.app_state.set_stop_before_wait(false);
let timeout = Instant::now() + duration;
self.delegate.set_wait_timeout(Some(timeout));
self.delegate.set_stop_after_wait(true);
self.app_state.set_wait_timeout(Some(timeout));
self.app_state.set_stop_after_wait(true);
},
None => {
self.delegate.set_wait_timeout(None);
self.delegate.set_stop_before_wait(false);
self.delegate.set_stop_after_wait(true);
self.app_state.set_wait_timeout(None);
self.app_state.set_stop_before_wait(false);
self.app_state.set_stop_after_wait(true);
},
}
self.delegate.set_stop_on_redraw(true);
self.app_state.set_stop_on_redraw(true);
// SAFETY: We do not run the application re-entrantly
unsafe { self.app.run() };
}
@@ -368,8 +379,8 @@ impl<T> EventLoop<T> {
resume_unwind(panic);
}
if self.delegate.exiting() {
self.delegate.internal_exit();
if self.app_state.exiting() {
self.app_state.internal_exit();
PumpStatus::Exit(0)
} else {
PumpStatus::Continue
@@ -377,28 +388,14 @@ impl<T> EventLoop<T> {
})
})
}
pub fn create_proxy(&self) -> EventLoopProxy<T> {
EventLoopProxy::new(self.sender.clone())
}
}
#[derive(Clone)]
pub(crate) struct OwnedDisplayHandle;
impl OwnedDisplayHandle {
#[cfg(feature = "rwh_05")]
#[inline]
pub fn raw_display_handle_rwh_05(&self) -> rwh_05::RawDisplayHandle {
rwh_05::AppKitDisplayHandle::empty().into()
}
#[cfg(feature = "rwh_06")]
#[inline]
pub fn raw_display_handle_rwh_06(
&self,
) -> Result<rwh_06::RawDisplayHandle, rwh_06::HandleError> {
Ok(rwh_06::AppKitDisplayHandle::new().into())
impl HasDisplayHandle for OwnedDisplayHandle {
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
let raw = rwh_06::RawDisplayHandle::AppKit(rwh_06::AppKitDisplayHandle::new());
unsafe { Ok(rwh_06::DisplayHandle::borrow_raw(raw)) }
}
}
@@ -437,15 +434,16 @@ pub fn stop_app_on_panic<F: FnOnce() -> R + UnwindSafe, R>(
}
}
pub struct EventLoopProxy<T> {
sender: mpsc::Sender<T>,
#[derive(Debug)]
pub struct EventLoopProxy {
pub(crate) wake_up: AtomicBool,
source: CFRunLoopSourceRef,
}
unsafe impl<T: Send> Send for EventLoopProxy<T> {}
unsafe impl<T: Send> Sync for EventLoopProxy<T> {}
unsafe impl Send for EventLoopProxy {}
unsafe impl Sync for EventLoopProxy {}
impl<T> Drop for EventLoopProxy<T> {
impl Drop for EventLoopProxy {
fn drop(&mut self) {
unsafe {
CFRelease(self.source as _);
@@ -453,14 +451,8 @@ impl<T> Drop for EventLoopProxy<T> {
}
}
impl<T> Clone for EventLoopProxy<T> {
fn clone(&self) -> Self {
EventLoopProxy::new(self.sender.clone())
}
}
impl<T> EventLoopProxy<T> {
fn new(sender: mpsc::Sender<T>) -> Self {
impl EventLoopProxy {
pub(crate) fn new() -> Self {
unsafe {
// just wake up the eventloop
extern "C" fn event_loop_proxy_handler(_: *const c_void) {}
@@ -480,23 +472,23 @@ impl<T> EventLoopProxy<T> {
cancel: None,
perform: event_loop_proxy_handler,
};
let source =
CFRunLoopSourceCreate(ptr::null_mut(), CFIndex::max_value() - 1, &mut context);
let source = CFRunLoopSourceCreate(ptr::null_mut(), CFIndex::MAX - 1, &mut context);
CFRunLoopAddSource(rl, source, kCFRunLoopCommonModes);
CFRunLoopWakeUp(rl);
EventLoopProxy { sender, source }
EventLoopProxy { wake_up: AtomicBool::new(false), source }
}
}
}
pub fn send_event(&self, event: T) -> Result<(), EventLoopClosed<T>> {
self.sender.send(event).map_err(|mpsc::SendError(x)| EventLoopClosed(x))?;
impl EventLoopProxyProvider for EventLoopProxy {
fn wake_up(&self) {
self.wake_up.store(true, AtomicOrdering::Relaxed);
unsafe {
// let the main thread know there's a new event
// Let the main thread know there's a new event.
CFRunLoopSourceSignal(self.source);
let rl = CFRunLoopGetMain();
CFRunLoopWakeUp(rl);
}
Ok(())
}
}

0
src/platform_impl/macos/ffi.rs → src/platform_impl/apple/appkit/ffi.rs
View File

12
src/platform_impl/macos/menu.rs → src/platform_impl/apple/appkit/menu.rs
View File

@@ -1,4 +1,4 @@
use objc2::rc::Id;
use objc2::rc::Retained;
use objc2::runtime::Sel;
use objc2::sel;
use objc2_app_kit::{NSApplication, NSEventModifierFlags, NSMenu, NSMenuItem};
@@ -48,10 +48,10 @@ pub fn initialize(app: &NSApplication) {
Some(sel!(hideOtherApplications:)),
Some(KeyEquivalent {
key: ns_string!("h"),
masks: Some(NSEventModifierFlags(
NSEventModifierFlags::NSEventModifierFlagOption.0
| NSEventModifierFlags::NSEventModifierFlagCommand.0,
)),
masks: Some(
NSEventModifierFlags::NSEventModifierFlagOption
| NSEventModifierFlags::NSEventModifierFlagCommand,
),
}),
);
@@ -91,7 +91,7 @@ fn menu_item(
title: &NSString,
selector: Option<Sel>,
key_equivalent: Option<KeyEquivalent<'_>>,
) -> Id<NSMenuItem> {
) -> Retained<NSMenuItem> {
let (key, masks) = match key_equivalent {
Some(ke) => (ke.key, ke.masks),
None => (ns_string!(""), None),

27
src/platform_impl/apple/appkit/mod.rs Normal file
View File

@@ -0,0 +1,27 @@
#[macro_use]
mod util;
mod app;
mod app_state;
mod cursor;
mod event;
mod event_loop;
mod ffi;
mod menu;
mod monitor;
mod observer;
mod view;
mod window;
mod window_delegate;
pub(crate) use self::cursor::CustomCursor as PlatformCustomCursor;
pub(crate) use self::event::{physicalkey_to_scancode, scancode_to_physicalkey, KeyEventExtra};
pub(crate) use self::event_loop::{
ActiveEventLoop, EventLoop, PlatformSpecificEventLoopAttributes,
};
pub(crate) use self::monitor::{MonitorHandle, VideoModeHandle};
pub(crate) use self::window::Window;
pub(crate) use self::window_delegate::PlatformSpecificWindowAttributes;
pub(crate) use crate::cursor::OnlyCursorImageSource as PlatformCustomCursorSource;
pub(crate) use crate::icon::NoIcon as PlatformIcon;
pub(crate) use crate::platform_impl::Fullscreen;

147
src/platform_impl/macos/monitor.rs → src/platform_impl/apple/appkit/monitor.rs
View File

@@ -2,6 +2,7 @@
use std::collections::VecDeque;
use std::fmt;
use std::num::{NonZeroU16, NonZeroU32};
use core_foundation::array::{CFArrayGetCount, CFArrayGetValueAtIndex};
use core_foundation::base::{CFRelease, TCFType};
@@ -9,7 +10,7 @@ use core_foundation::string::CFString;
use core_graphics::display::{
CGDirectDisplayID, CGDisplay, CGDisplayBounds, CGDisplayCopyDisplayMode,
};
use objc2::rc::Id;
use objc2::rc::Retained;
use objc2::runtime::AnyObject;
use objc2_app_kit::NSScreen;
use objc2_foundation::{ns_string, run_on_main, MainThreadMarker, NSNumber, NSPoint, NSRect};
@@ -20,8 +21,8 @@ use crate::dpi::{LogicalPosition, PhysicalPosition, PhysicalSize};
#[derive(Clone)]
pub struct VideoModeHandle {
size: PhysicalSize<u32>,
bit_depth: u16,
refresh_rate_millihertz: u32,
bit_depth: Option<NonZeroU16>,
refresh_rate_millihertz: Option<NonZeroU32>,
pub(crate) monitor: MonitorHandle,
pub(crate) native_mode: NativeDisplayMode,
}
@@ -80,15 +81,47 @@ impl Clone for NativeDisplayMode {
}
impl VideoModeHandle {
fn new(
monitor: MonitorHandle,
mode: NativeDisplayMode,
refresh_rate_millihertz: Option<NonZeroU32>,
) -> Self {
unsafe {
let pixel_encoding =
CFString::wrap_under_create_rule(ffi::CGDisplayModeCopyPixelEncoding(mode.0))
.to_string();
let bit_depth = if pixel_encoding.eq_ignore_ascii_case(ffi::IO32BitDirectPixels) {
32
} else if pixel_encoding.eq_ignore_ascii_case(ffi::IO16BitDirectPixels) {
16
} else if pixel_encoding.eq_ignore_ascii_case(ffi::kIO30BitDirectPixels) {
30
} else {
unimplemented!()
};
VideoModeHandle {
size: PhysicalSize::new(
ffi::CGDisplayModeGetPixelWidth(mode.0) as u32,
ffi::CGDisplayModeGetPixelHeight(mode.0) as u32,
),
refresh_rate_millihertz,
bit_depth: NonZeroU16::new(bit_depth),
monitor: monitor.clone(),
native_mode: mode,
}
}
}
pub fn size(&self) -> PhysicalSize<u32> {
self.size
}
pub fn bit_depth(&self) -> u16 {
pub fn bit_depth(&self) -> Option<NonZeroU16> {
self.bit_depth
}
pub fn refresh_rate_millihertz(&self) -> u32 {
pub fn refresh_rate_millihertz(&self) -> Option<NonZeroU32> {
self.refresh_rate_millihertz
}
@@ -158,10 +191,8 @@ impl fmt::Debug for MonitorHandle {
f.debug_struct("MonitorHandle")
.field("name", &self.name())
.field("native_identifier", &self.native_identifier())
.field("size", &self.size())
.field("position", &self.position())
.field("scale_factor", &self.scale_factor())
.field("refresh_rate_millihertz", &self.refresh_rate_millihertz())
.finish_non_exhaustive()
}
}
@@ -184,22 +215,14 @@ impl MonitorHandle {
self.0
}
pub fn size(&self) -> PhysicalSize<u32> {
let MonitorHandle(display_id) = *self;
let display = CGDisplay::new(display_id);
let height = display.pixels_high();
let width = display.pixels_wide();
PhysicalSize::from_logical::<_, f64>((width as f64, height as f64), self.scale_factor())
}
#[inline]
pub fn position(&self) -> PhysicalPosition<i32> {
pub fn position(&self) -> Option<PhysicalPosition<i32>> {
// This is already in screen coordinates. If we were using `NSScreen`,
// then a conversion would've been needed:
// flip_window_screen_coordinates(self.ns_screen(mtm)?.frame())
let bounds = unsafe { CGDisplayBounds(self.native_identifier()) };
let position = LogicalPosition::new(bounds.origin.x, bounds.origin.y);
position.to_physical(self.scale_factor())
Some(position.to_physical(self.scale_factor()))
}
pub fn scale_factor(&self) -> f64 {
@@ -211,34 +234,20 @@ impl MonitorHandle {
})
}
pub fn refresh_rate_millihertz(&self) -> Option<u32> {
unsafe {
let current_display_mode = NativeDisplayMode(CGDisplayCopyDisplayMode(self.0) as _);
let refresh_rate = ffi::CGDisplayModeGetRefreshRate(current_display_mode.0);
if refresh_rate > 0.0 {
return Some((refresh_rate * 1000.0).round() as u32);
}
fn refresh_rate_millihertz(&self) -> Option<NonZeroU32> {
let current_display_mode =
NativeDisplayMode(unsafe { CGDisplayCopyDisplayMode(self.0) } as _);
refresh_rate_millihertz(self.0, &current_display_mode)
}
let mut display_link = std::ptr::null_mut();
if ffi::CVDisplayLinkCreateWithCGDisplay(self.0, &mut display_link)
!= ffi::kCVReturnSuccess
{
return None;
}
let time = ffi::CVDisplayLinkGetNominalOutputVideoRefreshPeriod(display_link);
ffi::CVDisplayLinkRelease(display_link);
// This value is indefinite if an invalid display link was specified
if time.flags & ffi::kCVTimeIsIndefinite != 0 {
return None;
}
(time.time_scale as i64).checked_div(time.time_value).map(|v| (v * 1000) as u32)
}
pub fn current_video_mode(&self) -> Option<VideoModeHandle> {
let mode = NativeDisplayMode(unsafe { CGDisplayCopyDisplayMode(self.0) } as _);
let refresh_rate_millihertz = refresh_rate_millihertz(self.0, &mode);
Some(VideoModeHandle::new(self.clone(), mode, refresh_rate_millihertz))
}
pub fn video_modes(&self) -> impl Iterator<Item = VideoModeHandle> {
let refresh_rate_millihertz = self.refresh_rate_millihertz().unwrap_or(0);
let refresh_rate_millihertz = self.refresh_rate_millihertz();
let monitor = self.clone();
unsafe {
@@ -263,39 +272,21 @@ impl MonitorHandle {
// CGDisplayModeGetRefreshRate returns 0.0 for any display that
// isn't a CRT
let refresh_rate_millihertz = if cg_refresh_rate_hertz > 0 {
(cg_refresh_rate_hertz * 1000) as u32
NonZeroU32::new((cg_refresh_rate_hertz * 1000) as u32)
} else {
refresh_rate_millihertz
};
let pixel_encoding =
CFString::wrap_under_create_rule(ffi::CGDisplayModeCopyPixelEncoding(mode))
.to_string();
let bit_depth = if pixel_encoding.eq_ignore_ascii_case(ffi::IO32BitDirectPixels) {
32
} else if pixel_encoding.eq_ignore_ascii_case(ffi::IO16BitDirectPixels) {
16
} else if pixel_encoding.eq_ignore_ascii_case(ffi::kIO30BitDirectPixels) {
30
} else {
unimplemented!()
};
VideoModeHandle {
size: PhysicalSize::new(
ffi::CGDisplayModeGetPixelWidth(mode) as u32,
ffi::CGDisplayModeGetPixelHeight(mode) as u32,
),
VideoModeHandle::new(
monitor.clone(),
NativeDisplayMode(mode),
refresh_rate_millihertz,
bit_depth,
monitor: monitor.clone(),
native_mode: NativeDisplayMode(mode),
}
)
})
}
}
pub(crate) fn ns_screen(&self, mtm: MainThreadMarker) -> Option<Id<NSScreen>> {
pub(crate) fn ns_screen(&self, mtm: MainThreadMarker) -> Option<Retained<NSScreen>> {
let uuid = unsafe { ffi::CGDisplayCreateUUIDFromDisplayID(self.0) };
NSScreen::screens(mtm).into_iter().find(|screen| {
let other_native_id = get_display_id(screen);
@@ -349,3 +340,29 @@ pub(crate) fn flip_window_screen_coordinates(frame: NSRect) -> NSPoint {
let y = main_screen_height - frame.size.height - frame.origin.y;
NSPoint::new(frame.origin.x, y)
}
fn refresh_rate_millihertz(id: CGDirectDisplayID, mode: &NativeDisplayMode) -> Option<NonZeroU32> {
unsafe {
let refresh_rate = ffi::CGDisplayModeGetRefreshRate(mode.0);
if refresh_rate > 0.0 {
return NonZeroU32::new((refresh_rate * 1000.0).round() as u32);
}
let mut display_link = std::ptr::null_mut();
if ffi::CVDisplayLinkCreateWithCGDisplay(id, &mut display_link) != ffi::kCVReturnSuccess {
return None;
}
let time = ffi::CVDisplayLinkGetNominalOutputVideoRefreshPeriod(display_link);
ffi::CVDisplayLinkRelease(display_link);
// This value is indefinite if an invalid display link was specified
if time.flags & ffi::kCVTimeIsIndefinite != 0 {
return None;
}
(time.time_scale as i64)
.checked_div(time.time_value)
.map(|v| (v * 1000) as u32)
.and_then(NonZeroU32::new)
}
}

122
src/platform_impl/macos/observer.rs → src/platform_impl/apple/appkit/observer.rs
View File

@@ -1,21 +1,28 @@
//! Utilities for working with `CFRunLoop`.
//!
//! See Apple's documentation on Run Loops for details:
//! <https://developer.apple.com/library/archive/documentation/Cocoa/Conceptual/Multithreading/RunLoopManagement/RunLoopManagement.html>
use std::cell::Cell;
use std::ffi::c_void;
use std::panic::{AssertUnwindSafe, UnwindSafe};
use std::ptr;
use std::rc::Weak;
use std::time::Instant;
use core_foundation::base::{CFIndex, CFOptionFlags, CFRelease};
use block2::Block;
use core_foundation::base::{CFIndex, CFOptionFlags, CFRelease, CFTypeRef};
use core_foundation::date::CFAbsoluteTimeGetCurrent;
use core_foundation::runloop::{
kCFRunLoopAfterWaiting, kCFRunLoopBeforeWaiting, kCFRunLoopCommonModes, kCFRunLoopExit,
CFRunLoopActivity, CFRunLoopAddObserver, CFRunLoopAddTimer, CFRunLoopGetMain,
kCFRunLoopAfterWaiting, kCFRunLoopBeforeWaiting, kCFRunLoopCommonModes, kCFRunLoopDefaultMode,
kCFRunLoopExit, CFRunLoopActivity, CFRunLoopAddObserver, CFRunLoopAddTimer, CFRunLoopGetMain,
CFRunLoopObserverCallBack, CFRunLoopObserverContext, CFRunLoopObserverCreate,
CFRunLoopObserverRef, CFRunLoopRef, CFRunLoopTimerCreate, CFRunLoopTimerInvalidate,
CFRunLoopTimerRef, CFRunLoopTimerSetNextFireDate, CFRunLoopWakeUp,
};
use objc2_foundation::MainThreadMarker;
use tracing::error;
use super::app_delegate::ApplicationDelegate;
use super::app_state::AppState;
use super::event_loop::{stop_app_on_panic, PanicInfo};
use super::ffi;
@@ -52,7 +59,7 @@ extern "C" fn control_flow_begin_handler(
match activity {
kCFRunLoopAfterWaiting => {
// trace!("Triggered `CFRunLoopAfterWaiting`");
ApplicationDelegate::get(MainThreadMarker::new().unwrap()).wakeup(panic_info);
AppState::get(MainThreadMarker::new().unwrap()).wakeup(panic_info);
// trace!("Completed `CFRunLoopAfterWaiting`");
},
_ => unreachable!(),
@@ -74,7 +81,7 @@ extern "C" fn control_flow_end_handler(
match activity {
kCFRunLoopBeforeWaiting => {
// trace!("Triggered `CFRunLoopBeforeWaiting`");
ApplicationDelegate::get(MainThreadMarker::new().unwrap()).cleared(panic_info);
AppState::get(MainThreadMarker::new().unwrap()).cleared(panic_info);
// trace!("Completed `CFRunLoopBeforeWaiting`");
},
kCFRunLoopExit => (), // unimplemented!(), // not expected to ever happen
@@ -84,10 +91,20 @@ extern "C" fn control_flow_end_handler(
}
}
#[derive(Debug)]
pub struct RunLoop(CFRunLoopRef);
impl Default for RunLoop {
fn default() -> Self {
Self(ptr::null_mut())
}
}
impl RunLoop {
pub unsafe fn get() -> Self {
pub fn main(mtm: MainThreadMarker) -> Self {
// SAFETY: We have a MainThreadMarker here, which means we know we're on the main thread, so
// scheduling (and scheduling a non-`Send` block) to that thread is allowed.
let _ = mtm;
RunLoop(unsafe { CFRunLoopGetMain() })
}
@@ -114,9 +131,79 @@ impl RunLoop {
};
unsafe { CFRunLoopAddObserver(self.0, observer, kCFRunLoopCommonModes) };
}
/// Submit a closure to run on the main thread as the next step in the run loop, before other
/// event sources are processed.
///
/// This is used for running event handlers, as those are not allowed to run re-entrantly.
///
/// # Implementation
///
/// This queuing could be implemented in the following several ways with subtle differences in
/// timing. This list is sorted in rough order in which they are run:
///
/// 1. Using `CFRunLoopPerformBlock` or `-[NSRunLoop performBlock:]`.
///
/// 2. Using `-[NSObject performSelectorOnMainThread:withObject:waitUntilDone:]` or wrapping the
/// event in `NSEvent` and posting that to `-[NSApplication postEvent:atStart:]` (both
/// creates a custom `CFRunLoopSource`, and signals that to wake up the main event loop).
///
/// a. `atStart = true`.
///
/// b. `atStart = false`.
///
/// 3. `dispatch_async` or `dispatch_async_f`. Note that this may appear before 2b, it does not
/// respect the ordering that runloop events have.
///
/// We choose the first one, both for ease-of-implementation, but mostly for consistency, as we
/// want the event to be queued in a way that preserves the order the events originally arrived
/// in.
///
/// As an example, let's assume that we receive two events from the user, a mouse click which we
/// handled by queuing it, and a window resize which we handled immediately. If we allowed
/// AppKit to choose the ordering when queuing the mouse event, it might get put in the back of
/// the queue, and the events would appear out of order to the user of Winit. So we must instead
/// put the event at the very front of the queue, to be handled as soon as possible after
/// handling whatever event it's currently handling.
pub fn queue_closure(&self, closure: impl FnOnce() + 'static) {
extern "C" {
fn CFRunLoopPerformBlock(rl: CFRunLoopRef, mode: CFTypeRef, block: &Block<dyn Fn()>);
}
// Convert `FnOnce()` to `Block<dyn Fn()>`.
let closure = Cell::new(Some(closure));
let block = block2::RcBlock::new(move || {
if let Some(closure) = closure.take() {
closure()
} else {
error!("tried to execute queued closure on main thread twice");
}
});
// There are a few common modes (`kCFRunLoopCommonModes`) defined by Cocoa:
// - `NSDefaultRunLoopMode`, alias of `kCFRunLoopDefaultMode`.
// - `NSEventTrackingRunLoopMode`, used when mouse-dragging and live-resizing a window.
// - `NSModalPanelRunLoopMode`, used when running a modal inside the Winit event loop.
// - `NSConnectionReplyMode`: TODO.
//
// We only want to run event handlers in the default mode, as we support running a blocking
// modal inside a Winit event handler (see [#1779]) which outrules the modal panel mode, and
// resizing such panel window enters the event tracking run loop mode, so we can't directly
// trigger events inside that mode either.
//
// Any events that are queued while running a modal or when live-resizing will instead wait,
// and be delivered to the application afterwards.
//
// [#1779]: https://github.com/rust-windowing/winit/issues/1779
let mode = unsafe { kCFRunLoopDefaultMode as CFTypeRef };
// SAFETY: The runloop is valid, the mode is a `CFStringRef`, and the block is `'static`.
unsafe { CFRunLoopPerformBlock(self.0, mode, &block) }
}
}
pub fn setup_control_flow_observers(panic_info: Weak<PanicInfo>) {
pub fn setup_control_flow_observers(mtm: MainThreadMarker, panic_info: Weak<PanicInfo>) {
let run_loop = RunLoop::main(mtm);
unsafe {
let mut context = CFRunLoopObserverContext {
info: Weak::into_raw(panic_info) as *mut _,
@@ -125,16 +212,15 @@ pub fn setup_control_flow_observers(panic_info: Weak<PanicInfo>) {
release: None,
copyDescription: None,
};
let run_loop = RunLoop::get();
run_loop.add_observer(
kCFRunLoopAfterWaiting,
CFIndex::min_value(),
CFIndex::MIN,
control_flow_begin_handler,
&mut context as *mut _,
);
run_loop.add_observer(
kCFRunLoopExit | kCFRunLoopBeforeWaiting,
CFIndex::max_value(),
CFIndex::MAX,
control_flow_end_handler,
&mut context as *mut _,
);
@@ -165,8 +251,8 @@ impl Drop for EventLoopWaker {
}
}
impl Default for EventLoopWaker {
fn default() -> EventLoopWaker {
impl EventLoopWaker {
pub(crate) fn new() -> Self {
extern "C" fn wakeup_main_loop(_timer: CFRunLoopTimerRef, _info: *mut c_void) {}
unsafe {
// Create a timer with a 0.1µs interval (1ns does not work) to mimic polling.
@@ -174,7 +260,7 @@ impl Default for EventLoopWaker {
// future, but that gets changed to fire immediately in did_finish_launching
let timer = CFRunLoopTimerCreate(
ptr::null_mut(),
std::f64::MAX,
f64::MAX,
0.000_000_1,
0,
0,
@@ -182,23 +268,21 @@ impl Default for EventLoopWaker {
ptr::null_mut(),
);
CFRunLoopAddTimer(CFRunLoopGetMain(), timer, kCFRunLoopCommonModes);
EventLoopWaker { timer, start_instant: Instant::now(), next_fire_date: None }
Self { timer, start_instant: Instant::now(), next_fire_date: None }
}
}
}
impl EventLoopWaker {
pub fn stop(&mut self) {
if self.next_fire_date.is_some() {
self.next_fire_date = None;
unsafe { CFRunLoopTimerSetNextFireDate(self.timer, std::f64::MAX) }
unsafe { CFRunLoopTimerSetNextFireDate(self.timer, f64::MAX) }
}
}
pub fn start(&mut self) {
if self.next_fire_date != Some(self.start_instant) {
self.next_fire_date = Some(self.start_instant);
unsafe { CFRunLoopTimerSetNextFireDate(self.timer, std::f64::MIN) }
unsafe { CFRunLoopTimerSetNextFireDate(self.timer, f64::MIN) }
}
}

6
src/platform_impl/macos/util.rs → src/platform_impl/apple/appkit/util.rs
View File

@@ -1,11 +1,9 @@
use objc2_foundation::{NSNotFound, NSRange, NSUInteger};
use tracing::trace;
pub static EMPTY_RANGE: NSRange = NSRange { location: NSNotFound as NSUInteger, length: 0 };
macro_rules! trace_scope {
($s:literal) => {
let _crate = $crate::platform_impl::platform::util::TraceGuard::new(module_path!(), $s);
let _crate =
$crate::platform_impl::platform::appkit::util::TraceGuard::new(module_path!(), $s);
};
}

294
src/platform_impl/macos/view.rs → src/platform_impl/apple/appkit/view.rs
View File

@@ -2,34 +2,32 @@
use std::cell::{Cell, RefCell};
use std::collections::{HashMap, VecDeque};
use std::ptr;
use std::rc::Rc;
use objc2::rc::{Id, WeakId};
use objc2::rc::Retained;
use objc2::runtime::{AnyObject, Sel};
use objc2::{
class, declare_class, msg_send, msg_send_id, mutability, sel, ClassType, DeclaredClass,
};
use objc2::{declare_class, msg_send_id, mutability, ClassType, DeclaredClass};
use objc2_app_kit::{
NSApplication, NSCursor, NSEvent, NSEventPhase, NSResponder, NSTextInputClient,
NSTrackingRectTag, NSView,
};
use objc2_foundation::{
MainThreadMarker, NSArray, NSAttributedString, NSAttributedStringKey, NSCopying,
NSMutableAttributedString, NSObject, NSObjectProtocol, NSPoint, NSRange, NSRect, NSSize,
NSString, NSUInteger,
NSMutableAttributedString, NSNotFound, NSObject, NSObjectProtocol, NSPoint, NSRange, NSRect,
NSSize, NSString, NSUInteger,
};
use super::app_delegate::ApplicationDelegate;
use super::app_state::AppState;
use super::cursor::{default_cursor, invisible_cursor};
use super::event::{
code_to_key, code_to_location, create_key_event, event_mods, lalt_pressed, ralt_pressed,
scancode_to_physicalkey,
scancode_to_physicalkey, KeyEventExtra,
};
use super::window::WinitWindow;
use super::{util, DEVICE_ID};
use crate::dpi::{LogicalPosition, LogicalSize};
use crate::event::{
DeviceEvent, ElementState, Ime, Modifiers, MouseButton, MouseScrollDelta, TouchPhase,
WindowEvent,
DeviceEvent, ElementState, Ime, KeyEvent, Modifiers, MouseButton, MouseScrollDelta,
PointerKind, PointerSource, TouchPhase, WindowEvent,
};
use crate::keyboard::{Key, KeyCode, KeyLocation, ModifiersState, NamedKey};
use crate::platform::macos::OptionAsAlt;
@@ -37,7 +35,7 @@ use crate::platform::macos::OptionAsAlt;
#[derive(Debug)]
struct CursorState {
visible: bool,
cursor: Id<NSCursor>,
cursor: Retained<NSCursor>,
}
impl Default for CursorState {
@@ -110,8 +108,11 @@ fn get_left_modifier_code(key: &Key) -> KeyCode {
}
}
#[derive(Debug, Default)]
#[derive(Debug)]
pub struct ViewState {
/// Strong reference to the global application state.
app_state: Rc<AppState>,
cursor_state: RefCell<CursorState>,
ime_position: Cell<NSPoint>,
ime_size: Cell<NSSize>,
@@ -130,12 +131,9 @@ pub struct ViewState {
/// to the application, even during IME
forward_key_to_app: Cell<bool>,
marked_text: RefCell<Id<NSMutableAttributedString>>,
marked_text: RefCell<Retained<NSMutableAttributedString>>,
accepts_first_mouse: bool,
// Weak reference because the window keeps a strong reference to the view
_ns_window: WeakId<WinitWindow>,
/// The state of the `Option` as `Alt`.
option_as_alt: Cell<OptionAsAlt>,
}
@@ -176,9 +174,10 @@ declare_class!(
self.ivars().tracking_rect.set(Some(tracking_rect));
}
#[method(frameDidChange:)]
fn frame_did_change(&self, _event: &NSEvent) {
trace_scope!("frameDidChange:");
// Not a normal method on `NSView`, it's triggered by `NSViewFrameDidChangeNotification`.
#[method(viewFrameDidChangeNotification:)]
fn frame_did_change(&self, _notification: Option<&AnyObject>) {
trace_scope!("NSViewFrameDidChangeNotification");
if let Some(tracking_rect) = self.ivars().tracking_rect.take() {
self.removeTrackingRect(tracking_rect);
}
@@ -195,23 +194,16 @@ declare_class!(
// 2. Even when a window resize does occur on a new tabbed window, it contains the wrong size (includes tab height).
let logical_size = LogicalSize::new(rect.size.width as f64, rect.size.height as f64);
let size = logical_size.to_physical::<u32>(self.scale_factor());
self.queue_event(WindowEvent::Resized(size));
self.queue_event(WindowEvent::SurfaceResized(size));
}
#[method(drawRect:)]
fn draw_rect(&self, rect: NSRect) {
fn draw_rect(&self, _rect: NSRect) {
trace_scope!("drawRect:");
// It's a workaround for https://github.com/rust-windowing/winit/issues/2640, don't replace with `self.window_id()`.
if let Some(window) = self.ivars()._ns_window.load() {
let app_delegate = ApplicationDelegate::get(MainThreadMarker::from(self));
app_delegate.handle_redraw(window.id());
}
self.ivars().app_state.handle_redraw(self.window().id());
#[allow(clippy::let_unit_value)]
unsafe {
let _: () = msg_send![super(self), drawRect: rect];
}
// This is a direct subclass of NSView, no need to call superclass' drawRect:
}
#[method(acceptsFirstResponder)]
@@ -224,7 +216,7 @@ declare_class!(
// IMKInputSession [0x7fc573576ff0 presentFunctionRowItemTextInputViewWithEndpoint:completionHandler:] : [self textInputContext]=0x7fc573558e10 *NO* NSRemoteViewController to client, NSError=Error Domain=NSCocoaErrorDomain Code=4099 "The connection from pid 0 was invalidated from this process." UserInfo={NSDebugDescription=The connection from pid 0 was invalidated from this process.}, com.apple.inputmethod.EmojiFunctionRowItem
// TODO: Add an API extension for using `NSTouchBar`
#[method_id(touchBar)]
fn touch_bar(&self) -> Option<Id<NSObject>> {
fn touch_bar(&self) -> Option<Retained<NSObject>> {
trace_scope!("touchBar");
None
}
@@ -257,33 +249,36 @@ declare_class!(
if length > 0 {
NSRange::new(0, length)
} else {
util::EMPTY_RANGE
// Documented to return `{NSNotFound, 0}` if there is no marked range.
NSRange::new(NSNotFound as NSUInteger, 0)
}
}
#[method(selectedRange)]
fn selected_range(&self) -> NSRange {
trace_scope!("selectedRange");
util::EMPTY_RANGE
// Documented to return `{NSNotFound, 0}` if there is no selection.
NSRange::new(NSNotFound as NSUInteger, 0)
}
#[method(setMarkedText:selectedRange:replacementRange:)]
fn set_marked_text(
&self,
string: &NSObject,
_selected_range: NSRange,
selected_range: NSRange,
_replacement_range: NSRange,
) {
// TODO: Use _replacement_range, requires changing the event to report surrounding text.
trace_scope!("setMarkedText:selectedRange:replacementRange:");
// SAFETY: This method is guaranteed to get either a `NSString` or a `NSAttributedString`.
let (marked_text, preedit_string) = if string.is_kind_of::<NSAttributedString>() {
let (marked_text, string) = if string.is_kind_of::<NSAttributedString>() {
let string: *const NSObject = string;
let string: *const NSAttributedString = string.cast();
let string = unsafe { &*string };
(
NSMutableAttributedString::from_attributed_nsstring(string),
string.string().to_string(),
string.string(),
)
} else {
let string: *const NSObject = string;
@@ -291,7 +286,7 @@ declare_class!(
let string = unsafe { &*string };
(
NSMutableAttributedString::from_nsstring(string),
string.to_string(),
string.copy(),
)
};
@@ -311,16 +306,21 @@ declare_class!(
self.ivars().ime_state.set(ImeState::Ground);
}
// Empty string basically means that there's no preedit, so indicate that by sending
// `None` cursor range.
let cursor_range = if preedit_string.is_empty() {
let cursor_range = if string.is_empty() {
// An empty string basically means that there's no preedit, so indicate that by
// sending a `None` cursor range.
None
} else {
Some((preedit_string.len(), preedit_string.len()))
// Convert the selected range from UTF-16 indices to UTF-8 indices.
let sub_string_a = unsafe { string.substringToIndex(selected_range.location) };
let sub_string_b = unsafe { string.substringToIndex(selected_range.end()) };
let lowerbound_utf8 = sub_string_a.len();
let upperbound_utf8 = sub_string_b.len();
Some((lowerbound_utf8, upperbound_utf8))
};
// Send WindowEvent for updating marked text
self.queue_event(WindowEvent::Ime(Ime::Preedit(preedit_string, cursor_range)));
self.queue_event(WindowEvent::Ime(Ime::Preedit(string.to_string(), cursor_range)));
}
#[method(unmarkText)]
@@ -341,7 +341,7 @@ declare_class!(
}
#[method_id(validAttributesForMarkedText)]
fn valid_attributes_for_marked_text(&self) -> Id<NSArray<NSAttributedStringKey>> {
fn valid_attributes_for_marked_text(&self) -> Retained<NSArray<NSAttributedStringKey>> {
trace_scope!("validAttributesForMarkedText");
NSArray::new()
}
@@ -351,7 +351,7 @@ declare_class!(
&self,
_range: NSRange,
_actual_range: *mut NSRange,
) -> Option<Id<NSAttributedString>> {
) -> Option<Retained<NSAttributedString>> {
trace_scope!("attributedSubstringForProposedRange:actualRange:");
None
}
@@ -380,6 +380,7 @@ declare_class!(
#[method(insertText:replacementRange:)]
fn insert_text(&self, string: &NSObject, _replacement_range: NSRange) {
// TODO: Use _replacement_range, requires changing the event to report surrounding text.
trace_scope!("insertText:replacementRange:");
// SAFETY: This method is guaranteed to get either a `NSString` or a `NSAttributedString`.
@@ -393,7 +394,7 @@ declare_class!(
unsafe { &*string }.to_string()
};
let is_control = string.chars().next().map_or(false, |c| c.is_control());
let is_control = string.chars().next().is_some_and(|c| c.is_control());
// Commit only if we have marked text.
if unsafe { self.hasMarkedText() } && self.is_ime_enabled() && !is_control {
@@ -406,8 +407,9 @@ declare_class!(
// Basically, we're sent this message whenever a keyboard event that doesn't generate a "human
// readable" character happens, i.e. newlines, tabs, and Ctrl+C.
#[method(doCommandBySelector:)]
fn do_command_by_selector(&self, _command: Sel) {
fn do_command_by_selector(&self, command: Sel) {
trace_scope!("doCommandBySelector:");
// We shouldn't forward any character from just committed text, since we'll end up sending
// it twice with some IMEs like Korean one. We'll also always send `Enter` in that case,
// which is not desired given it was used to confirm IME input.
@@ -422,6 +424,18 @@ declare_class!(
// Leave preedit so that we also report the key-up for this key.
self.ivars().ime_state.set(ImeState::Ground);
}
// Send command action to user if they requested it.
let window_id = self.window().id();
self.ivars().app_state.maybe_queue_with_handler(move |app, event_loop| {
if let Some(handler) = app.macos_handler() {
handler.standard_key_binding(event_loop, window_id, command.name());
}
});
// The documentation for `-[NSTextInputClient doCommandBySelector:]` clearly states that
// we should not be forwarding this event up the responder chain, so no calling `super`
// here either.
}
}
@@ -476,9 +490,9 @@ declare_class!(
};
if !had_ime_input || self.ivars().forward_key_to_app.get() {
let key_event = create_key_event(&event, true, unsafe { event.isARepeat() }, None);
let key_event = create_key_event(&event, true, unsafe { event.isARepeat() });
self.queue_event(WindowEvent::KeyboardInput {
device_id: DEVICE_ID,
device_id: None,
event: key_event,
is_synthetic: false,
});
@@ -498,8 +512,8 @@ declare_class!(
ImeState::Ground | ImeState::Disabled
) {
self.queue_event(WindowEvent::KeyboardInput {
device_id: DEVICE_ID,
event: create_key_event(&event, false, false, None),
device_id: None,
event: create_key_event(&event, false, false),
is_synthetic: false,
});
}
@@ -546,10 +560,10 @@ declare_class!(
.expect("could not find current event");
self.update_modifiers(&event, false);
let event = create_key_event(&event, true, unsafe { event.isARepeat() }, None);
let event = create_key_event(&event, true, unsafe { event.isARepeat() });
self.queue_event(WindowEvent::KeyboardInput {
device_id: DEVICE_ID,
device_id: None,
event,
is_synthetic: false,
});
@@ -631,19 +645,30 @@ declare_class!(
}
#[method(mouseEntered:)]
fn mouse_entered(&self, _event: &NSEvent) {
fn mouse_entered(&self, event: &NSEvent) {
trace_scope!("mouseEntered:");
self.queue_event(WindowEvent::CursorEntered {
device_id: DEVICE_ID,
let position = self.mouse_view_point(event).to_physical(self.scale_factor());
self.queue_event(WindowEvent::PointerEntered {
device_id: None,
primary: true,
position,
kind: PointerKind::Mouse,
});
}
#[method(mouseExited:)]
fn mouse_exited(&self, _event: &NSEvent) {
fn mouse_exited(&self, event: &NSEvent) {
trace_scope!("mouseExited:");
self.queue_event(WindowEvent::CursorLeft {
device_id: DEVICE_ID,
let position = self.mouse_view_point(event).to_physical(self.scale_factor());
self.queue_event(WindowEvent::PointerLeft {
device_id: None,
primary: true,
position: Some(position),
kind: PointerKind::Mouse,
});
}
@@ -680,9 +705,11 @@ declare_class!(
self.update_modifiers(event, false);
self.queue_device_event(DeviceEvent::MouseWheel { delta });
self.ivars().app_state.maybe_queue_with_handler(move |app, event_loop|
app.device_event(event_loop, None, DeviceEvent::MouseWheel { delta })
);
self.queue_event(WindowEvent::MouseWheel {
device_id: DEVICE_ID,
device_id: None,
delta,
phase,
});
@@ -704,7 +731,7 @@ declare_class!(
};
self.queue_event(WindowEvent::PinchGesture {
device_id: DEVICE_ID,
device_id: None,
delta: unsafe { event.magnification() },
phase,
});
@@ -717,7 +744,7 @@ declare_class!(
self.mouse_motion(event);
self.queue_event(WindowEvent::DoubleTapGesture {
device_id: DEVICE_ID,
device_id: None,
});
}
@@ -737,7 +764,7 @@ declare_class!(
};
self.queue_event(WindowEvent::RotationGesture {
device_id: DEVICE_ID,
device_id: None,
delta: unsafe { event.rotation() },
phase,
});
@@ -748,7 +775,7 @@ declare_class!(
trace_scope!("pressureChangeWithEvent:");
self.queue_event(WindowEvent::TouchpadPressure {
device_id: DEVICE_ID,
device_id: None,
pressure: unsafe { event.pressure() },
stage: unsafe { event.stage() } as i64,
});
@@ -773,58 +800,50 @@ declare_class!(
impl WinitView {
pub(super) fn new(
window: &WinitWindow,
app_state: &Rc<AppState>,
accepts_first_mouse: bool,
option_as_alt: OptionAsAlt,
) -> Id<Self> {
let mtm = MainThreadMarker::from(window);
mtm: MainThreadMarker,
) -> Retained<Self> {
let this = mtm.alloc().set_ivars(ViewState {
app_state: Rc::clone(app_state),
cursor_state: Default::default(),
ime_position: Default::default(),
ime_size: Default::default(),
modifiers: Default::default(),
phys_modifiers: Default::default(),
tracking_rect: Default::default(),
ime_state: Default::default(),
input_source: Default::default(),
ime_allowed: Default::default(),
forward_key_to_app: Default::default(),
marked_text: Default::default(),
accepts_first_mouse,
_ns_window: WeakId::new(&window.retain()),
option_as_alt: Cell::new(option_as_alt),
..Default::default()
});
let this: Id<Self> = unsafe { msg_send_id![super(this), init] };
this.setPostsFrameChangedNotifications(true);
let notification_center: &AnyObject =
unsafe { msg_send![class!(NSNotificationCenter), defaultCenter] };
// About frame change
let frame_did_change_notification_name =
NSString::from_str("NSViewFrameDidChangeNotification");
#[allow(clippy::let_unit_value)]
unsafe {
let _: () = msg_send![
notification_center,
addObserver: &*this,
selector: sel!(frameDidChange:),
name: &*frame_did_change_notification_name,
object: &*this,
];
}
let this: Retained<Self> = unsafe { msg_send_id![super(this), init] };
*this.ivars().input_source.borrow_mut() = this.current_input_source();
this
}
fn window(&self) -> Id<WinitWindow> {
// TODO: Simply use `window` property on `NSView`.
// That only returns a window _after_ the view has been attached though!
// (which is incompatible with `frameDidChange:`)
//
// unsafe { msg_send_id![self, window] }
self.ivars()._ns_window.load().expect("view to have a window")
fn window(&self) -> Retained<WinitWindow> {
let window = (**self).window().expect("view must be installed in a window");
if !window.isKindOfClass(WinitWindow::class()) {
unreachable!("view installed in non-WinitWindow");
}
// SAFETY: Just checked that the window is `WinitWindow`
unsafe { Retained::cast(window) }
}
fn queue_event(&self, event: WindowEvent) {
let app_delegate = ApplicationDelegate::get(MainThreadMarker::from(self));
app_delegate.queue_window_event(self.window().id(), event);
}
fn queue_device_event(&self, event: DeviceEvent) {
let app_delegate = ApplicationDelegate::get(MainThreadMarker::from(self));
app_delegate.queue_device_event(event);
let window_id = self.window().id();
self.ivars().app_state.maybe_queue_with_handler(move |app, event_loop| {
app.window_event(event_loop, window_id, event);
});
}
fn scale_factor(&self) -> f64 {
@@ -843,11 +862,11 @@ impl WinitView {
.unwrap_or_default()
}
pub(super) fn cursor_icon(&self) -> Id<NSCursor> {
pub(super) fn cursor_icon(&self) -> Retained<NSCursor> {
self.ivars().cursor_state.borrow().cursor.clone()
}
pub(super) fn set_cursor_icon(&self, icon: Id<NSCursor>) {
pub(super) fn set_cursor_icon(&self, icon: Retained<NSCursor>) {
let mut cursor_state = self.ivars().cursor_state.borrow_mut();
cursor_state.cursor = icon;
}
@@ -927,22 +946,36 @@ impl WinitView {
let scancode = unsafe { ns_event.keyCode() };
let physical_key = scancode_to_physicalkey(scancode as u32);
// We'll correct the `is_press` later.
let mut event = create_key_event(ns_event, false, false, Some(physical_key));
let key = code_to_key(physical_key, scancode);
let logical_key = code_to_key(physical_key, scancode);
// Ignore processing of unknown modifiers because we can't determine whether
// it was pressed or release reliably.
let Some(event_modifier) = key_to_modifier(&key) else {
//
// Furthermore, sometimes normal keys are reported inside flagsChanged:, such as
// when holding Caps Lock while pressing another key, see:
// https://github.com/alacritty/alacritty/issues/8268
let Some(event_modifier) = key_to_modifier(&logical_key) else {
break 'send_event;
};
event.physical_key = physical_key;
event.logical_key = key.clone();
event.location = code_to_location(physical_key);
let mut event = KeyEvent {
location: code_to_location(physical_key),
logical_key: logical_key.clone(),
physical_key,
repeat: false,
// We'll correct this later.
state: Pressed,
text: None,
platform_specific: KeyEventExtra {
text_with_all_modifiers: None,
key_without_modifiers: logical_key.clone(),
},
};
let location_mask = ModLocationMask::from_location(event.location);
let mut phys_mod_state = self.ivars().phys_modifiers.borrow_mut();
let phys_mod = phys_mod_state.entry(key).or_insert(ModLocationMask::empty());
let phys_mod =
phys_mod_state.entry(logical_key).or_insert(ModLocationMask::empty());
let is_active = current_modifiers.state().contains(event_modifier);
let mut events = VecDeque::with_capacity(2);
@@ -959,7 +992,7 @@ impl WinitView {
event.location = KeyLocation::Left;
event.physical_key = get_left_modifier_code(&event.logical_key).into();
events.push_back(WindowEvent::KeyboardInput {
device_id: DEVICE_ID,
device_id: None,
event,
is_synthetic: false,
});
@@ -968,7 +1001,7 @@ impl WinitView {
event.location = KeyLocation::Right;
event.physical_key = get_right_modifier_code(&event.logical_key).into();
events.push_back(WindowEvent::KeyboardInput {
device_id: DEVICE_ID,
device_id: None,
event,
is_synthetic: false,
});
@@ -999,7 +1032,7 @@ impl WinitView {
}
events.push_back(WindowEvent::KeyboardInput {
device_id: DEVICE_ID,
device_id: None,
event,
is_synthetic: false,
});
@@ -1021,20 +1054,22 @@ impl WinitView {
}
fn mouse_click(&self, event: &NSEvent, button_state: ElementState) {
let position = self.mouse_view_point(event).to_physical(self.scale_factor());
let button = mouse_button(event);
self.update_modifiers(event, false);
self.queue_event(WindowEvent::MouseInput {
device_id: DEVICE_ID,
self.queue_event(WindowEvent::PointerButton {
device_id: None,
primary: true,
state: button_state,
button,
position,
button: button.into(),
});
}
fn mouse_motion(&self, event: &NSEvent) {
let window_point = unsafe { event.locationInWindow() };
let view_point = self.convertPoint_fromView(window_point, None);
let view_point = self.mouse_view_point(event);
let frame = self.frame();
if view_point.x.is_sign_negative()
@@ -1049,15 +1084,22 @@ impl WinitView {
}
}
let view_point = LogicalPosition::new(view_point.x, view_point.y);
self.update_modifiers(event, false);
self.queue_event(WindowEvent::CursorMoved {
device_id: DEVICE_ID,
self.queue_event(WindowEvent::PointerMoved {
device_id: None,
primary: true,
position: view_point.to_physical(self.scale_factor()),
source: PointerSource::Mouse,
});
}
fn mouse_view_point(&self, event: &NSEvent) -> LogicalPosition<f64> {
let window_point = unsafe { event.locationInWindow() };
let view_point = self.convertPoint_fromView(window_point, None);
LogicalPosition::new(view_point.x, view_point.y)
}
}
/// Get the mouse button from the NSEvent.
@@ -1080,7 +1122,7 @@ fn mouse_button(event: &NSEvent) -> MouseButton {
// NOTE: to get option as alt working we need to rewrite events
// we're getting from the operating system, which makes it
// impossible to provide such events as extra in `KeyEvent`.
fn replace_event(event: &NSEvent, option_as_alt: OptionAsAlt) -> Id<NSEvent> {
fn replace_event(event: &NSEvent, option_as_alt: OptionAsAlt) -> Retained<NSEvent> {
let ev_mods = event_mods(event).state;
let ignore_alt_characters = match option_as_alt {
OptionAsAlt::OnlyLeft if lalt_pressed(event) => true,

367
src/platform_impl/apple/appkit/window.rs Normal file
View File

@@ -0,0 +1,367 @@
#![allow(clippy::unnecessary_cast)]
use dpi::{Position, Size};
use objc2::rc::{autoreleasepool, Retained};
use objc2::{declare_class, mutability, ClassType, DeclaredClass};
use objc2_app_kit::{NSResponder, NSWindow};
use objc2_foundation::{MainThreadBound, MainThreadMarker, NSObject};
use super::event_loop::ActiveEventLoop;
use super::window_delegate::WindowDelegate;
use crate::error::RequestError;
use crate::monitor::MonitorHandle as CoreMonitorHandle;
use crate::window::{
Cursor, Fullscreen, Icon, ImePurpose, Theme, UserAttentionType, Window as CoreWindow,
WindowAttributes, WindowButtons, WindowId, WindowLevel,
};
pub(crate) struct Window {
window: MainThreadBound<Retained<WinitWindow>>,
/// The window only keeps a weak reference to this, so we must keep it around here.
delegate: MainThreadBound<Retained<WindowDelegate>>,
}
impl Window {
pub(crate) fn new(
window_target: &ActiveEventLoop,
attributes: WindowAttributes,
) -> Result<Self, RequestError> {
let mtm = window_target.mtm;
let delegate =
autoreleasepool(|_| WindowDelegate::new(&window_target.app_state, attributes, mtm))?;
Ok(Window {
window: MainThreadBound::new(delegate.window().retain(), mtm),
delegate: MainThreadBound::new(delegate, mtm),
})
}
pub(crate) fn maybe_wait_on_main<R: Send>(
&self,
f: impl FnOnce(&WindowDelegate) -> R + Send,
) -> R {
self.delegate.get_on_main(|delegate| f(delegate))
}
#[inline]
pub(crate) fn raw_window_handle_rwh_06(
&self,
) -> Result<rwh_06::RawWindowHandle, rwh_06::HandleError> {
if let Some(mtm) = MainThreadMarker::new() {
Ok(self.delegate.get(mtm).raw_window_handle_rwh_06())
} else {
Err(rwh_06::HandleError::Unavailable)
}
}
#[inline]
pub(crate) fn raw_display_handle_rwh_06(
&self,
) -> Result<rwh_06::RawDisplayHandle, rwh_06::HandleError> {
Ok(rwh_06::RawDisplayHandle::AppKit(rwh_06::AppKitDisplayHandle::new()))
}
}
impl Drop for Window {
fn drop(&mut self) {
// Restore the video mode.
if matches!(self.fullscreen(), Some(Fullscreen::Exclusive(_))) {
self.set_fullscreen(None);
}
self.window.get_on_main(|window| autoreleasepool(|_| window.close()))
}
}
impl rwh_06::HasDisplayHandle for Window {
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
let raw = self.raw_display_handle_rwh_06()?;
unsafe { Ok(rwh_06::DisplayHandle::borrow_raw(raw)) }
}
}
impl rwh_06::HasWindowHandle for Window {
fn window_handle(&self) -> Result<rwh_06::WindowHandle<'_>, rwh_06::HandleError> {
let raw = self.raw_window_handle_rwh_06()?;
unsafe { Ok(rwh_06::WindowHandle::borrow_raw(raw)) }
}
}
impl CoreWindow for Window {
fn id(&self) -> crate::window::WindowId {
self.maybe_wait_on_main(|delegate| delegate.id())
}
fn scale_factor(&self) -> f64 {
self.maybe_wait_on_main(|delegate| delegate.scale_factor())
}
fn request_redraw(&self) {
self.maybe_wait_on_main(|delegate| delegate.request_redraw());
}
fn pre_present_notify(&self) {
self.maybe_wait_on_main(|delegate| delegate.pre_present_notify());
}
fn reset_dead_keys(&self) {
self.maybe_wait_on_main(|delegate| delegate.reset_dead_keys());
}
fn surface_position(&self) -> dpi::PhysicalPosition<i32> {
self.maybe_wait_on_main(|delegate| delegate.surface_position())
}
fn outer_position(&self) -> Result<dpi::PhysicalPosition<i32>, RequestError> {
self.maybe_wait_on_main(|delegate| delegate.outer_position())
}
fn set_outer_position(&self, position: Position) {
self.maybe_wait_on_main(|delegate| delegate.set_outer_position(position));
}
fn surface_size(&self) -> dpi::PhysicalSize<u32> {
self.maybe_wait_on_main(|delegate| delegate.surface_size())
}
fn request_surface_size(&self, size: Size) -> Option<dpi::PhysicalSize<u32>> {
self.maybe_wait_on_main(|delegate| delegate.request_surface_size(size))
}
fn outer_size(&self) -> dpi::PhysicalSize<u32> {
self.maybe_wait_on_main(|delegate| delegate.outer_size())
}
fn safe_area(&self) -> dpi::PhysicalInsets<u32> {
self.maybe_wait_on_main(|delegate| delegate.safe_area())
}
fn set_min_surface_size(&self, min_size: Option<Size>) {
self.maybe_wait_on_main(|delegate| delegate.set_min_surface_size(min_size))
}
fn set_max_surface_size(&self, max_size: Option<Size>) {
self.maybe_wait_on_main(|delegate| delegate.set_max_surface_size(max_size));
}
fn surface_resize_increments(&self) -> Option<dpi::PhysicalSize<u32>> {
self.maybe_wait_on_main(|delegate| delegate.surface_resize_increments())
}
fn set_surface_resize_increments(&self, increments: Option<Size>) {
self.maybe_wait_on_main(|delegate| delegate.set_surface_resize_increments(increments));
}
fn set_title(&self, title: &str) {
self.maybe_wait_on_main(|delegate| delegate.set_title(title));
}
fn set_transparent(&self, transparent: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_transparent(transparent));
}
fn set_blur(&self, blur: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_blur(blur));
}
fn set_visible(&self, visible: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_visible(visible));
}
fn is_visible(&self) -> Option<bool> {
self.maybe_wait_on_main(|delegate| delegate.is_visible())
}
fn set_resizable(&self, resizable: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_resizable(resizable))
}
fn is_resizable(&self) -> bool {
self.maybe_wait_on_main(|delegate| delegate.is_resizable())
}
fn set_enabled_buttons(&self, buttons: WindowButtons) {
self.maybe_wait_on_main(|delegate| delegate.set_enabled_buttons(buttons))
}
fn enabled_buttons(&self) -> WindowButtons {
self.maybe_wait_on_main(|delegate| delegate.enabled_buttons())
}
fn set_minimized(&self, minimized: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_minimized(minimized));
}
fn is_minimized(&self) -> Option<bool> {
self.maybe_wait_on_main(|delegate| delegate.is_minimized())
}
fn set_maximized(&self, maximized: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_maximized(maximized));
}
fn is_maximized(&self) -> bool {
self.maybe_wait_on_main(|delegate| delegate.is_maximized())
}
fn set_fullscreen(&self, fullscreen: Option<Fullscreen>) {
self.maybe_wait_on_main(|delegate| delegate.set_fullscreen(fullscreen.map(Into::into)))
}
fn fullscreen(&self) -> Option<Fullscreen> {
self.maybe_wait_on_main(|delegate| delegate.fullscreen().map(Into::into))
}
fn set_decorations(&self, decorations: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_decorations(decorations));
}
fn is_decorated(&self) -> bool {
self.maybe_wait_on_main(|delegate| delegate.is_decorated())
}
fn set_window_level(&self, level: WindowLevel) {
self.maybe_wait_on_main(|delegate| delegate.set_window_level(level));
}
fn set_window_icon(&self, window_icon: Option<Icon>) {
self.maybe_wait_on_main(|delegate| delegate.set_window_icon(window_icon));
}
fn set_ime_cursor_area(&self, position: Position, size: Size) {
self.maybe_wait_on_main(|delegate| delegate.set_ime_cursor_area(position, size));
}
fn set_ime_allowed(&self, allowed: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_ime_allowed(allowed));
}
fn set_ime_purpose(&self, purpose: ImePurpose) {
self.maybe_wait_on_main(|delegate| delegate.set_ime_purpose(purpose));
}
fn focus_window(&self) {
self.maybe_wait_on_main(|delegate| delegate.focus_window());
}
fn has_focus(&self) -> bool {
self.maybe_wait_on_main(|delegate| delegate.has_focus())
}
fn request_user_attention(&self, request_type: Option<UserAttentionType>) {
self.maybe_wait_on_main(|delegate| delegate.request_user_attention(request_type));
}
fn set_theme(&self, theme: Option<Theme>) {
self.maybe_wait_on_main(|delegate| delegate.set_theme(theme));
}
fn theme(&self) -> Option<Theme> {
self.maybe_wait_on_main(|delegate| delegate.theme())
}
fn set_content_protected(&self, protected: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_content_protected(protected));
}
fn title(&self) -> String {
self.maybe_wait_on_main(|delegate| delegate.title())
}
fn set_cursor(&self, cursor: Cursor) {
self.maybe_wait_on_main(|delegate| delegate.set_cursor(cursor));
}
fn set_cursor_position(&self, position: Position) -> Result<(), RequestError> {
self.maybe_wait_on_main(|delegate| delegate.set_cursor_position(position))
}
fn set_cursor_grab(&self, mode: crate::window::CursorGrabMode) -> Result<(), RequestError> {
self.maybe_wait_on_main(|delegate| delegate.set_cursor_grab(mode))
}
fn set_cursor_visible(&self, visible: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_cursor_visible(visible))
}
fn drag_window(&self) -> Result<(), RequestError> {
self.maybe_wait_on_main(|delegate| delegate.drag_window())
}
fn drag_resize_window(
&self,
direction: crate::window::ResizeDirection,
) -> Result<(), RequestError> {
Ok(self.maybe_wait_on_main(|delegate| delegate.drag_resize_window(direction))?)
}
fn show_window_menu(&self, position: Position) {
self.maybe_wait_on_main(|delegate| delegate.show_window_menu(position))
}
fn set_cursor_hittest(&self, hittest: bool) -> Result<(), RequestError> {
self.maybe_wait_on_main(|delegate| delegate.set_cursor_hittest(hittest));
Ok(())
}
fn current_monitor(&self) -> Option<CoreMonitorHandle> {
self.maybe_wait_on_main(|delegate| {
delegate.current_monitor().map(|inner| CoreMonitorHandle { inner })
})
}
fn available_monitors(&self) -> Box<dyn Iterator<Item = CoreMonitorHandle>> {
self.maybe_wait_on_main(|delegate| {
Box::new(
delegate.available_monitors().into_iter().map(|inner| CoreMonitorHandle { inner }),
)
})
}
fn primary_monitor(&self) -> Option<CoreMonitorHandle> {
self.maybe_wait_on_main(|delegate| {
delegate.primary_monitor().map(|inner| CoreMonitorHandle { inner })
})
}
fn rwh_06_display_handle(&self) -> &dyn rwh_06::HasDisplayHandle {
self
}
fn rwh_06_window_handle(&self) -> &dyn rwh_06::HasWindowHandle {
self
}
}
declare_class!(
#[derive(Debug)]
pub struct WinitWindow;
unsafe impl ClassType for WinitWindow {
#[inherits(NSResponder, NSObject)]
type Super = NSWindow;
type Mutability = mutability::MainThreadOnly;
const NAME: &'static str = "WinitWindow";
}
impl DeclaredClass for WinitWindow {}
unsafe impl WinitWindow {
#[method(canBecomeMainWindow)]
fn can_become_main_window(&self) -> bool {
trace_scope!("canBecomeMainWindow");
true
}
#[method(canBecomeKeyWindow)]
fn can_become_key_window(&self) -> bool {
trace_scope!("canBecomeKeyWindow");
true
}
}
);
impl WinitWindow {
pub(super) fn id(&self) -> WindowId {
WindowId::from_raw(self as *const Self as usize)
}
}

844
src/platform_impl/macos/window_delegate.rs → src/platform_impl/apple/appkit/window_delegate.rs
View File

File diff suppressed because it is too large Load Diff

59
src/platform_impl/macos/event_handler.rs → src/platform_impl/apple/event_handler.rs
View File

@@ -1,31 +1,35 @@
use std::cell::RefCell;
use std::{fmt, mem};
use super::app_delegate::HandlePendingUserEvents;
use crate::event::Event;
use crate::event_loop::ActiveEventLoop as RootActiveEventLoop;
use crate::application::ApplicationHandler;
struct EventHandlerData {
#[allow(clippy::type_complexity)]
handler: Box<dyn FnMut(Event<HandlePendingUserEvents>, &RootActiveEventLoop) + 'static>,
}
impl fmt::Debug for EventHandlerData {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("EventHandlerData").finish_non_exhaustive()
}
}
#[derive(Debug, Default)]
/// A helper type for storing a reference to `ApplicationHandler`, allowing interior mutable access
/// to it within the execution of a closure.
#[derive(Default)]
pub(crate) struct EventHandler {
/// This can be in the following states:
/// - Not registered by the event loop (None).
/// - Present (Some(handler)).
/// - Currently executing the handler / in use (RefCell borrowed).
inner: RefCell<Option<EventHandlerData>>,
inner: RefCell<Option<&'static mut dyn ApplicationHandler>>,
}
impl fmt::Debug for EventHandler {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let state = match self.inner.try_borrow().as_deref() {
Ok(Some(_)) => "<available>",
Ok(None) => "<not set>",
Err(_) => "<in use>",
};
f.debug_struct("EventHandler").field("state", &state).finish_non_exhaustive()
}
}
impl EventHandler {
pub(crate) fn new() -> Self {
Self { inner: RefCell::new(None) }
}
/// Set the event loop handler for the duration of the given closure.
///
/// This is similar to using the `scoped-tls` or `scoped-tls-hkt` crates
@@ -33,7 +37,7 @@ impl EventHandler {
/// from within the closure.
pub(crate) fn set<'handler, R>(
&self,
handler: impl FnMut(Event<HandlePendingUserEvents>, &RootActiveEventLoop) + 'handler,
app: &'handler mut dyn ApplicationHandler,
closure: impl FnOnce() -> R,
) -> R {
// SAFETY: We extend the lifetime of the handler here so that we can
@@ -44,9 +48,9 @@ impl EventHandler {
// extended beyond `'handler`.
let handler = unsafe {
mem::transmute::<
Box<dyn FnMut(Event<HandlePendingUserEvents>, &RootActiveEventLoop) + 'handler>,
Box<dyn FnMut(Event<HandlePendingUserEvents>, &RootActiveEventLoop) + 'static>,
>(Box::new(handler))
&'handler mut dyn ApplicationHandler,
&'static mut dyn ApplicationHandler,
>(app)
};
match self.inner.try_borrow_mut().as_deref_mut() {
@@ -54,7 +58,7 @@ impl EventHandler {
unreachable!("tried to set handler while another was already set");
},
Ok(data @ None) => {
*data = Some(EventHandlerData { handler });
*data = Some(handler);
},
Err(_) => {
unreachable!("tried to set handler that is currently in use");
@@ -97,6 +101,7 @@ impl EventHandler {
// soundness.
}
#[cfg(target_os = "macos")]
pub(crate) fn in_use(&self) -> bool {
self.inner.try_borrow().is_err()
}
@@ -105,23 +110,19 @@ impl EventHandler {
matches!(self.inner.try_borrow().as_deref(), Ok(Some(_)))
}
pub(crate) fn handle_event(
&self,
event: Event<HandlePendingUserEvents>,
event_loop: &RootActiveEventLoop,
) {
pub(crate) fn handle(&self, callback: impl FnOnce(&mut dyn ApplicationHandler)) {
match self.inner.try_borrow_mut().as_deref_mut() {
Ok(Some(EventHandlerData { handler })) => {
Ok(Some(user_app)) => {
// It is important that we keep the reference borrowed here,
// so that `in_use` can properly detect that the handler is
// still in use.
//
// If the handler unwinds, the `RefMut` will ensure that the
// handler is no longer borrowed.
(handler)(event, event_loop);
callback(*user_app);
},
Ok(None) => {
// `NSApplication`, our app delegate and this handler are all
// `NSApplication`, our app state and this handler are all
// global state and so it's not impossible that we could get
// an event after the application has exited the `EventLoop`.
tracing::error!("tried to run event handler, but no handler was set");

15
src/platform_impl/apple/mod.rs Normal file
View File

@@ -0,0 +1,15 @@
//! Apple/Darwin-specific implementations
#[cfg(target_os = "macos")]
mod appkit;
mod event_handler;
mod notification_center;
#[cfg(not(target_os = "macos"))]
mod uikit;
#[allow(unused_imports)]
#[cfg(target_os = "macos")]
pub use self::appkit::*;
#[allow(unused_imports)]
#[cfg(not(target_os = "macos"))]
pub use self::uikit::*;

27
src/platform_impl/apple/notification_center.rs Normal file
View File

@@ -0,0 +1,27 @@
use std::ptr::NonNull;
use block2::RcBlock;
use objc2::rc::Retained;
use objc2_foundation::{NSNotification, NSNotificationCenter, NSNotificationName, NSObject};
/// Observe the given notification.
///
/// This is used in Winit as an alternative to declaring an application delegate, as we want to
/// give the user full control over those.
pub fn create_observer(
center: &NSNotificationCenter,
name: &NSNotificationName,
handler: impl Fn(&NSNotification) + 'static,
) -> Retained<NSObject> {
let block = RcBlock::new(move |notification: NonNull<NSNotification>| {
handler(unsafe { notification.as_ref() });
});
unsafe {
center.addObserverForName_object_queue_usingBlock(
Some(name),
None, // No sender filter
None, // No queue, run on posting thread (i.e. main thread)
&block,
)
}
}

714
src/platform_impl/apple/uikit/app_state.rs Normal file
View File

@@ -0,0 +1,714 @@
#![deny(unused_results)]
use std::cell::{OnceCell, RefCell, RefMut};
use std::collections::HashSet;
use std::os::raw::c_void;
use std::sync::atomic::Ordering;
use std::sync::{Arc, Mutex, OnceLock};
use std::time::Instant;
use std::{mem, ptr};
use core_foundation::base::CFRelease;
use core_foundation::date::CFAbsoluteTimeGetCurrent;
use core_foundation::runloop::{
kCFRunLoopCommonModes, CFRunLoopAddTimer, CFRunLoopGetMain, CFRunLoopRef, CFRunLoopTimerCreate,
CFRunLoopTimerInvalidate, CFRunLoopTimerRef, CFRunLoopTimerSetNextFireDate,
};
use objc2::rc::Retained;
use objc2::sel;
use objc2_foundation::{
CGRect, CGSize, MainThreadMarker, NSInteger, NSObjectProtocol, NSOperatingSystemVersion,
NSProcessInfo,
};
use objc2_ui_kit::{UIApplication, UICoordinateSpace, UIView, UIWindow};
use super::super::event_handler::EventHandler;
use super::window::WinitUIWindow;
use super::{ActiveEventLoop, EventLoopProxy};
use crate::application::ApplicationHandler;
use crate::dpi::PhysicalSize;
use crate::event::{StartCause, SurfaceSizeWriter, WindowEvent};
use crate::event_loop::ControlFlow;
use crate::window::WindowId;
macro_rules! bug {
($($msg:tt)*) => {
panic!("winit iOS bug, file an issue: {}", format!($($msg)*))
};
}
macro_rules! bug_assert {
($test:expr, $($msg:tt)*) => {
assert!($test, "winit iOS bug, file an issue: {}", format!($($msg)*))
};
}
/// Get the global event handler for the application.
///
/// This is stored separately from AppState, since AppState needs to be accessible while the handler
/// is executing.
fn get_handler(mtm: MainThreadMarker) -> &'static EventHandler {
// TODO(madsmtm): Use `MainThreadBound` once that is possible in `static`s.
struct StaticMainThreadBound<T>(T);
impl<T> StaticMainThreadBound<T> {
const fn get(&self, _mtm: MainThreadMarker) -> &T {
&self.0
}
}
unsafe impl<T> Send for StaticMainThreadBound<T> {}
unsafe impl<T> Sync for StaticMainThreadBound<T> {}
// SAFETY: Creating `StaticMainThreadBound` in a `const` context, where there is no concept
// of the main thread.
static GLOBAL: StaticMainThreadBound<OnceCell<EventHandler>> =
StaticMainThreadBound(OnceCell::new());
GLOBAL.get(mtm).get_or_init(EventHandler::new)
}
#[derive(Debug)]
pub(crate) enum EventWrapper {
Window { window_id: WindowId, event: WindowEvent },
ScaleFactorChanged(ScaleFactorChanged),
}
#[derive(Debug)]
pub struct ScaleFactorChanged {
pub(super) window: Retained<WinitUIWindow>,
pub(super) suggested_size: PhysicalSize<u32>,
pub(super) scale_factor: f64,
}
impl EventWrapper {
fn is_redraw(&self) -> bool {
matches!(self, Self::Window { event: WindowEvent::RedrawRequested, .. })
}
}
// this is the state machine for the app lifecycle
#[derive(Debug)]
#[must_use = "dropping `AppStateImpl` without inspecting it is probably a bug"]
enum AppStateImpl {
Initial {
queued_gpu_redraws: HashSet<Retained<WinitUIWindow>>,
},
ProcessingEvents {
queued_gpu_redraws: HashSet<Retained<WinitUIWindow>>,
active_control_flow: ControlFlow,
},
ProcessingRedraws {
active_control_flow: ControlFlow,
},
Waiting {
start: Instant,
},
PollFinished,
Terminated,
}
pub(crate) struct AppState {
// This should never be `None`, except for briefly during a state transition.
app_state: Option<AppStateImpl>,
control_flow: ControlFlow,
waker: EventLoopWaker,
event_loop_proxy: Arc<EventLoopProxy>,
queued_events: Vec<EventWrapper>,
}
impl AppState {
pub(crate) fn get_mut(_mtm: MainThreadMarker) -> RefMut<'static, AppState> {
// basically everything in UIKit requires the main thread, so it's pointless to use the
// std::sync APIs.
// must be mut because plain `static` requires `Sync`
static mut APP_STATE: RefCell<Option<AppState>> = RefCell::new(None);
#[allow(unknown_lints)] // New lint below
#[allow(static_mut_refs)] // TODO: Use `MainThreadBound` instead.
let mut guard = unsafe { APP_STATE.borrow_mut() };
if guard.is_none() {
#[inline(never)]
#[cold]
fn init_guard(guard: &mut RefMut<'static, Option<AppState>>) {
let waker = EventLoopWaker::new(unsafe { CFRunLoopGetMain() });
**guard = Some(AppState {
app_state: Some(AppStateImpl::Initial { queued_gpu_redraws: HashSet::new() }),
control_flow: ControlFlow::default(),
waker,
event_loop_proxy: Arc::new(EventLoopProxy::new()),
queued_events: Vec::new(),
});
}
init_guard(&mut guard);
}
RefMut::map(guard, |state| state.as_mut().unwrap())
}
fn state(&self) -> &AppStateImpl {
match &self.app_state {
Some(ref state) => state,
None => bug!("`AppState` previously failed a state transition"),
}
}
fn state_mut(&mut self) -> &mut AppStateImpl {
match &mut self.app_state {
Some(ref mut state) => state,
None => bug!("`AppState` previously failed a state transition"),
}
}
fn take_state(&mut self) -> AppStateImpl {
match self.app_state.take() {
Some(state) => state,
None => bug!("`AppState` previously failed a state transition"),
}
}
fn set_state(&mut self, new_state: AppStateImpl) {
bug_assert!(
self.app_state.is_none(),
"attempted to set an `AppState` without calling `take_state` first {:?}",
self.app_state
);
self.app_state = Some(new_state)
}
fn replace_state(&mut self, new_state: AppStateImpl) -> AppStateImpl {
match &mut self.app_state {
Some(ref mut state) => mem::replace(state, new_state),
None => bug!("`AppState` previously failed a state transition"),
}
}
fn has_launched(&self) -> bool {
!matches!(self.state(), AppStateImpl::Initial { .. })
}
fn has_terminated(&self) -> bool {
matches!(self.state(), AppStateImpl::Terminated)
}
fn did_finish_launching_transition(&mut self) {
let queued_gpu_redraws = match self.take_state() {
AppStateImpl::Initial { queued_gpu_redraws } => queued_gpu_redraws,
s => bug!("unexpected state {:?}", s),
};
self.set_state(AppStateImpl::ProcessingEvents {
active_control_flow: self.control_flow,
queued_gpu_redraws,
});
}
fn wakeup_transition(&mut self) -> Option<StartCause> {
// before `AppState::did_finish_launching` is called, pretend there is no running
// event loop.
if !self.has_launched() || self.has_terminated() {
return None;
}
let start_cause = match (self.control_flow, self.take_state()) {
(ControlFlow::Poll, AppStateImpl::PollFinished) => StartCause::Poll,
(ControlFlow::Wait, AppStateImpl::Waiting { start }) => {
StartCause::WaitCancelled { start, requested_resume: None }
},
(ControlFlow::WaitUntil(requested_resume), AppStateImpl::Waiting { start }) => {
if Instant::now() >= requested_resume {
StartCause::ResumeTimeReached { start, requested_resume }
} else {
StartCause::WaitCancelled { start, requested_resume: Some(requested_resume) }
}
},
s => bug!("`EventHandler` unexpectedly woke up {:?}", s),
};
self.set_state(AppStateImpl::ProcessingEvents {
queued_gpu_redraws: Default::default(),
active_control_flow: self.control_flow,
});
Some(start_cause)
}
fn main_events_cleared_transition(&mut self) -> HashSet<Retained<WinitUIWindow>> {
let (queued_gpu_redraws, active_control_flow) = match self.take_state() {
AppStateImpl::ProcessingEvents { queued_gpu_redraws, active_control_flow } => {
(queued_gpu_redraws, active_control_flow)
},
s => bug!("unexpected state {:?}", s),
};
self.set_state(AppStateImpl::ProcessingRedraws { active_control_flow });
queued_gpu_redraws
}
fn events_cleared_transition(&mut self) {
if !self.has_launched() || self.has_terminated() {
return;
}
let old = match self.take_state() {
AppStateImpl::ProcessingRedraws { active_control_flow } => active_control_flow,
s => bug!("unexpected state {:?}", s),
};
let new = self.control_flow;
match (old, new) {
(ControlFlow::Wait, ControlFlow::Wait) => {
let start = Instant::now();
self.set_state(AppStateImpl::Waiting { start });
},
(ControlFlow::WaitUntil(old_instant), ControlFlow::WaitUntil(new_instant))
if old_instant == new_instant =>
{
let start = Instant::now();
self.set_state(AppStateImpl::Waiting { start });
},
(_, ControlFlow::Wait) => {
let start = Instant::now();
self.set_state(AppStateImpl::Waiting { start });
self.waker.stop()
},
(_, ControlFlow::WaitUntil(new_instant)) => {
let start = Instant::now();
self.set_state(AppStateImpl::Waiting { start });
self.waker.start_at(new_instant)
},
// Unlike on macOS, handle Poll to Poll transition here to call the waker
(_, ControlFlow::Poll) => {
self.set_state(AppStateImpl::PollFinished);
self.waker.start()
},
}
}
fn terminated_transition(&mut self) {
match self.replace_state(AppStateImpl::Terminated) {
AppStateImpl::ProcessingEvents { .. } => {},
s => bug!("terminated while not processing events {:?}", s),
}
}
pub fn event_loop_proxy(&self) -> &Arc<EventLoopProxy> {
&self.event_loop_proxy
}
pub(crate) fn set_control_flow(&mut self, control_flow: ControlFlow) {
self.control_flow = control_flow;
}
pub(crate) fn control_flow(&self) -> ControlFlow {
self.control_flow
}
}
pub(crate) fn queue_gl_or_metal_redraw(mtm: MainThreadMarker, window: Retained<WinitUIWindow>) {
let mut this = AppState::get_mut(mtm);
match this.state_mut() {
&mut AppStateImpl::Initial { ref mut queued_gpu_redraws, .. }
| &mut AppStateImpl::ProcessingEvents { ref mut queued_gpu_redraws, .. } => {
let _ = queued_gpu_redraws.insert(window);
},
s @ &mut AppStateImpl::ProcessingRedraws { .. }
| s @ &mut AppStateImpl::Waiting { .. }
| s @ &mut AppStateImpl::PollFinished { .. } => bug!("unexpected state {:?}", s),
&mut AppStateImpl::Terminated => {
panic!("Attempt to create a `Window` after the app has terminated")
},
}
}
pub(crate) fn launch(mtm: MainThreadMarker, app: &mut dyn ApplicationHandler, run: impl FnOnce()) {
get_handler(mtm).set(app, run)
}
pub fn did_finish_launching(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
this.waker.start();
// have to drop RefMut because the window setup code below can trigger new events
drop(this);
AppState::get_mut(mtm).did_finish_launching_transition();
get_handler(mtm).handle(|app| app.new_events(&ActiveEventLoop { mtm }, StartCause::Init));
get_handler(mtm).handle(|app| app.can_create_surfaces(&ActiveEventLoop { mtm }));
handle_nonuser_events(mtm, []);
}
// AppState::did_finish_launching handles the special transition `Init`
pub fn handle_wakeup_transition(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
let cause = match this.wakeup_transition() {
None => return,
Some(cause) => cause,
};
drop(this);
get_handler(mtm).handle(|app| app.new_events(&ActiveEventLoop { mtm }, cause));
handle_nonuser_events(mtm, []);
}
pub(crate) fn handle_nonuser_event(mtm: MainThreadMarker, event: EventWrapper) {
handle_nonuser_events(mtm, std::iter::once(event))
}
pub(crate) fn handle_nonuser_events<I: IntoIterator<Item = EventWrapper>>(
mtm: MainThreadMarker,
events: I,
) {
let mut this = AppState::get_mut(mtm);
if this.has_terminated() {
return;
}
if !get_handler(mtm).ready() {
// Prevent re-entrancy; queue the events up for once we're done handling the event instead.
this.queued_events.extend(events);
return;
}
let processing_redraws = matches!(this.state(), AppStateImpl::ProcessingRedraws { .. });
drop(this);
for event in events {
if !processing_redraws && event.is_redraw() {
tracing::info!("processing `RedrawRequested` during the main event loop");
} else if processing_redraws && !event.is_redraw() {
tracing::warn!(
"processing non `RedrawRequested` event after the main event loop: {:#?}",
event
);
}
handle_wrapped_event(mtm, event)
}
loop {
let mut this = AppState::get_mut(mtm);
let queued_events = mem::take(&mut this.queued_events);
if queued_events.is_empty() {
break;
}
drop(this);
for event in queued_events {
if !processing_redraws && event.is_redraw() {
tracing::info!("processing `RedrawRequested` during the main event loop");
} else if processing_redraws && !event.is_redraw() {
tracing::warn!(
"processing non-`RedrawRequested` event after the main event loop: {:#?}",
event
);
}
handle_wrapped_event(mtm, event);
}
}
}
fn handle_user_events(mtm: MainThreadMarker) {
let this = AppState::get_mut(mtm);
if matches!(this.state(), AppStateImpl::ProcessingRedraws { .. }) {
bug!("user events attempted to be sent out while `ProcessingRedraws`");
}
let event_loop_proxy = this.event_loop_proxy().clone();
drop(this);
if event_loop_proxy.wake_up.swap(false, Ordering::Relaxed) {
get_handler(mtm).handle(|app| app.proxy_wake_up(&ActiveEventLoop { mtm }));
}
loop {
let mut this = AppState::get_mut(mtm);
let queued_events = mem::take(&mut this.queued_events);
if queued_events.is_empty() {
break;
}
drop(this);
for event in queued_events {
handle_wrapped_event(mtm, event);
}
if event_loop_proxy.wake_up.swap(false, Ordering::Relaxed) {
get_handler(mtm).handle(|app| app.proxy_wake_up(&ActiveEventLoop { mtm }));
}
}
}
pub(crate) fn send_occluded_event_for_all_windows(application: &UIApplication, occluded: bool) {
let mtm = MainThreadMarker::from(application);
let mut events = Vec::new();
#[allow(deprecated)]
for window in application.windows().iter() {
if window.is_kind_of::<WinitUIWindow>() {
// SAFETY: We just checked that the window is a `winit` window
let window = unsafe {
let ptr: *const UIWindow = window;
let ptr: *const WinitUIWindow = ptr.cast();
&*ptr
};
events.push(EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::Occluded(occluded),
});
}
}
handle_nonuser_events(mtm, events);
}
pub fn handle_main_events_cleared(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
if !this.has_launched() || this.has_terminated() {
return;
}
match this.state_mut() {
AppStateImpl::ProcessingEvents { .. } => {},
_ => bug!("`ProcessingRedraws` happened unexpectedly"),
};
drop(this);
handle_user_events(mtm);
let mut this = AppState::get_mut(mtm);
let redraw_events: Vec<EventWrapper> = this
.main_events_cleared_transition()
.into_iter()
.map(|window| EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::RedrawRequested,
})
.collect();
drop(this);
handle_nonuser_events(mtm, redraw_events);
get_handler(mtm).handle(|app| app.about_to_wait(&ActiveEventLoop { mtm }));
handle_nonuser_events(mtm, []);
}
pub fn handle_events_cleared(mtm: MainThreadMarker) {
AppState::get_mut(mtm).events_cleared_transition();
}
pub(crate) fn handle_resumed(mtm: MainThreadMarker) {
get_handler(mtm).handle(|app| app.resumed(&ActiveEventLoop { mtm }));
handle_nonuser_events(mtm, []);
}
pub(crate) fn handle_suspended(mtm: MainThreadMarker) {
get_handler(mtm).handle(|app| app.suspended(&ActiveEventLoop { mtm }));
handle_nonuser_events(mtm, []);
}
pub(crate) fn handle_memory_warning(mtm: MainThreadMarker) {
get_handler(mtm).handle(|app| app.memory_warning(&ActiveEventLoop { mtm }));
handle_nonuser_events(mtm, []);
}
pub(crate) fn terminated(application: &UIApplication) {
let mtm = MainThreadMarker::from(application);
let mut events = Vec::new();
#[allow(deprecated)]
for window in application.windows().iter() {
if window.is_kind_of::<WinitUIWindow>() {
// SAFETY: We just checked that the window is a `winit` window
let window = unsafe {
let ptr: *const UIWindow = window;
let ptr: *const WinitUIWindow = ptr.cast();
&*ptr
};
events.push(EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::Destroyed,
});
}
}
handle_nonuser_events(mtm, events);
let mut this = AppState::get_mut(mtm);
this.terminated_transition();
drop(this);
get_handler(mtm).handle(|app| app.exiting(&ActiveEventLoop { mtm }));
}
fn handle_wrapped_event(mtm: MainThreadMarker, event: EventWrapper) {
match event {
EventWrapper::Window { window_id, event } => get_handler(mtm)
.handle(|app| app.window_event(&ActiveEventLoop { mtm }, window_id, event)),
EventWrapper::ScaleFactorChanged(event) => handle_hidpi_proxy(mtm, event),
}
}
fn handle_hidpi_proxy(mtm: MainThreadMarker, event: ScaleFactorChanged) {
let ScaleFactorChanged { suggested_size, scale_factor, window } = event;
let new_surface_size = Arc::new(Mutex::new(suggested_size));
get_handler(mtm).handle(|app| {
app.window_event(&ActiveEventLoop { mtm }, window.id(), WindowEvent::ScaleFactorChanged {
scale_factor,
surface_size_writer: SurfaceSizeWriter::new(Arc::downgrade(&new_surface_size)),
});
});
let (view, screen_frame) = get_view_and_screen_frame(&window);
let physical_size = *new_surface_size.lock().unwrap();
drop(new_surface_size);
let logical_size = physical_size.to_logical(scale_factor);
let size = CGSize::new(logical_size.width, logical_size.height);
let new_frame: CGRect = CGRect::new(screen_frame.origin, size);
view.setFrame(new_frame);
}
fn get_view_and_screen_frame(window: &WinitUIWindow) -> (Retained<UIView>, CGRect) {
let view_controller = window.rootViewController().unwrap();
let view = view_controller.view().unwrap();
let bounds = window.bounds();
let screen = window.screen();
let screen_space = screen.coordinateSpace();
let screen_frame = window.convertRect_toCoordinateSpace(bounds, &screen_space);
(view, screen_frame)
}
struct EventLoopWaker {
timer: CFRunLoopTimerRef,
}
impl Drop for EventLoopWaker {
fn drop(&mut self) {
unsafe {
CFRunLoopTimerInvalidate(self.timer);
CFRelease(self.timer as _);
}
}
}
impl EventLoopWaker {
fn new(rl: CFRunLoopRef) -> EventLoopWaker {
extern "C" fn wakeup_main_loop(_timer: CFRunLoopTimerRef, _info: *mut c_void) {}
unsafe {
// Create a timer with a 0.1µs interval (1ns does not work) to mimic polling.
// It is initially setup with a first fire time really far into the
// future, but that gets changed to fire immediately in did_finish_launching
let timer = CFRunLoopTimerCreate(
ptr::null_mut(),
f64::MAX,
0.000_000_1,
0,
0,
wakeup_main_loop,
ptr::null_mut(),
);
CFRunLoopAddTimer(rl, timer, kCFRunLoopCommonModes);
EventLoopWaker { timer }
}
}
fn stop(&mut self) {
unsafe { CFRunLoopTimerSetNextFireDate(self.timer, f64::MAX) }
}
fn start(&mut self) {
unsafe { CFRunLoopTimerSetNextFireDate(self.timer, f64::MIN) }
}
fn start_at(&mut self, instant: Instant) {
let now = Instant::now();
if now >= instant {
self.start();
} else {
unsafe {
let current = CFAbsoluteTimeGetCurrent();
let duration = instant - now;
let fsecs =
duration.subsec_nanos() as f64 / 1_000_000_000.0 + duration.as_secs() as f64;
CFRunLoopTimerSetNextFireDate(self.timer, current + fsecs)
}
}
}
}
macro_rules! os_capabilities {
(
$(
$(#[$attr:meta])*
$error_name:ident: $objc_call:literal,
$name:ident: $major:literal-$minor:literal
),*
$(,)*
) => {
#[derive(Clone, Debug)]
pub struct OSCapabilities {
$(
pub $name: bool,
)*
os_version: NSOperatingSystemVersion,
}
impl OSCapabilities {
fn from_os_version(os_version: NSOperatingSystemVersion) -> Self {
$(let $name = meets_requirements(os_version, $major, $minor);)*
Self { $($name,)* os_version, }
}
}
impl OSCapabilities {$(
$(#[$attr])*
pub fn $error_name(&self, extra_msg: &str) {
tracing::warn!(
concat!("`", $objc_call, "` requires iOS {}.{}+. This device is running iOS {}.{}.{}. {}"),
$major, $minor, self.os_version.majorVersion, self.os_version.minorVersion, self.os_version.patchVersion,
extra_msg
)
}
)*}
};
}
os_capabilities! {
/// <https://developer.apple.com/documentation/uikit/uiview/2891103-safeareainsets?language=objc>
#[allow(unused)] // error message unused
safe_area_err_msg: "-[UIView safeAreaInsets]",
safe_area: 11-0,
/// <https://developer.apple.com/documentation/uikit/uiviewcontroller/2887509-setneedsupdateofhomeindicatoraut?language=objc>
home_indicator_hidden_err_msg: "-[UIViewController setNeedsUpdateOfHomeIndicatorAutoHidden]",
home_indicator_hidden: 11-0,
/// <https://developer.apple.com/documentation/uikit/uiviewcontroller/2887507-setneedsupdateofscreenedgesdefer?language=objc>
defer_system_gestures_err_msg: "-[UIViewController setNeedsUpdateOfScreenEdgesDeferringSystem]",
defer_system_gestures: 11-0,
/// <https://developer.apple.com/documentation/uikit/uiscreen/2806814-maximumframespersecond?language=objc>
maximum_frames_per_second_err_msg: "-[UIScreen maximumFramesPerSecond]",
maximum_frames_per_second: 10-3,
/// <https://developer.apple.com/documentation/uikit/uitouch/1618110-force?language=objc>
#[allow(unused)] // error message unused
force_touch_err_msg: "-[UITouch force]",
force_touch: 9-0,
}
fn meets_requirements(
version: NSOperatingSystemVersion,
required_major: NSInteger,
required_minor: NSInteger,
) -> bool {
(version.majorVersion, version.minorVersion) >= (required_major, required_minor)
}
fn get_version() -> NSOperatingSystemVersion {
let process_info = NSProcessInfo::processInfo();
let atleast_ios_8 = process_info.respondsToSelector(sel!(operatingSystemVersion));
// Winit requires atleast iOS 8 because no one has put the time into supporting earlier os
// versions. Older iOS versions are increasingly difficult to test. For example, Xcode 11 does
// not support debugging on devices with an iOS version of less than 8. Another example, in
// order to use an iOS simulator older than iOS 8, you must download an older version of Xcode
// (<9), and at least Xcode 7 has been tested to not even run on macOS 10.15 - Xcode 8 might?
//
// The minimum required iOS version is likely to grow in the future.
assert!(atleast_ios_8, "`winit` requires iOS version 8 or greater");
process_info.operatingSystemVersion()
}
pub fn os_capabilities() -> OSCapabilities {
// Cache the version lookup for efficiency
static OS_CAPABILITIES: OnceLock<OSCapabilities> = OnceLock::new();
OS_CAPABILITIES.get_or_init(|| OSCapabilities::from_os_version(get_version())).clone()
}

428
src/platform_impl/apple/uikit/event_loop.rs Normal file
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@@ -0,0 +1,428 @@
use std::ffi::{c_char, c_int, c_void};
use std::ptr::{self, NonNull};
use std::sync::atomic::{AtomicBool, Ordering as AtomicOrdering};
use std::sync::Arc;
use core_foundation::base::{CFIndex, CFRelease};
use core_foundation::runloop::{
kCFRunLoopAfterWaiting, kCFRunLoopBeforeWaiting, kCFRunLoopCommonModes, kCFRunLoopDefaultMode,
kCFRunLoopExit, CFRunLoopActivity, CFRunLoopAddObserver, CFRunLoopAddSource, CFRunLoopGetMain,
CFRunLoopObserverCreate, CFRunLoopObserverRef, CFRunLoopSourceContext, CFRunLoopSourceCreate,
CFRunLoopSourceInvalidate, CFRunLoopSourceRef, CFRunLoopSourceSignal, CFRunLoopWakeUp,
};
use objc2::rc::Retained;
use objc2::{msg_send_id, ClassType};
use objc2_foundation::{MainThreadMarker, NSNotificationCenter, NSObject};
use objc2_ui_kit::{
UIApplication, UIApplicationDidBecomeActiveNotification,
UIApplicationDidEnterBackgroundNotification, UIApplicationDidFinishLaunchingNotification,
UIApplicationDidReceiveMemoryWarningNotification, UIApplicationMain,
UIApplicationWillEnterForegroundNotification, UIApplicationWillResignActiveNotification,
UIApplicationWillTerminateNotification, UIScreen,
};
use rwh_06::HasDisplayHandle;
use super::super::notification_center::create_observer;
use super::app_state::{send_occluded_event_for_all_windows, AppState};
use super::{app_state, monitor, MonitorHandle};
use crate::application::ApplicationHandler;
use crate::error::{EventLoopError, NotSupportedError, RequestError};
use crate::event_loop::{
ActiveEventLoop as RootActiveEventLoop, ControlFlow, DeviceEvents,
EventLoopProxy as CoreEventLoopProxy, EventLoopProxyProvider,
OwnedDisplayHandle as CoreOwnedDisplayHandle,
};
use crate::monitor::MonitorHandle as RootMonitorHandle;
use crate::platform_impl::Window;
use crate::window::{CustomCursor, CustomCursorSource, Theme, Window as CoreWindow};
#[derive(Debug)]
pub(crate) struct ActiveEventLoop {
pub(super) mtm: MainThreadMarker,
}
impl RootActiveEventLoop for ActiveEventLoop {
fn create_proxy(&self) -> CoreEventLoopProxy {
CoreEventLoopProxy::new(AppState::get_mut(self.mtm).event_loop_proxy().clone())
}
fn create_window(
&self,
window_attributes: crate::window::WindowAttributes,
) -> Result<Box<dyn CoreWindow>, RequestError> {
Ok(Box::new(Window::new(self, window_attributes)?))
}
fn create_custom_cursor(
&self,
_source: CustomCursorSource,
) -> Result<CustomCursor, RequestError> {
Err(NotSupportedError::new("create_custom_cursor is not supported").into())
}
fn available_monitors(&self) -> Box<dyn Iterator<Item = RootMonitorHandle>> {
Box::new(monitor::uiscreens(self.mtm).into_iter().map(|inner| RootMonitorHandle { inner }))
}
fn primary_monitor(&self) -> Option<crate::monitor::MonitorHandle> {
#[allow(deprecated)]
let monitor = MonitorHandle::new(UIScreen::mainScreen(self.mtm));
Some(RootMonitorHandle { inner: monitor })
}
fn listen_device_events(&self, _allowed: DeviceEvents) {}
fn set_control_flow(&self, control_flow: ControlFlow) {
AppState::get_mut(self.mtm).set_control_flow(control_flow)
}
fn system_theme(&self) -> Option<Theme> {
None
}
fn control_flow(&self) -> ControlFlow {
AppState::get_mut(self.mtm).control_flow()
}
fn exit(&self) {
// https://developer.apple.com/library/archive/qa/qa1561/_index.html
// it is not possible to quit an iOS app gracefully and programmatically
tracing::warn!("`ControlFlow::Exit` ignored on iOS");
}
fn exiting(&self) -> bool {
false
}
fn owned_display_handle(&self) -> CoreOwnedDisplayHandle {
CoreOwnedDisplayHandle::new(Arc::new(OwnedDisplayHandle))
}
fn rwh_06_handle(&self) -> &dyn rwh_06::HasDisplayHandle {
self
}
}
impl rwh_06::HasDisplayHandle for ActiveEventLoop {
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
let raw = rwh_06::RawDisplayHandle::UiKit(rwh_06::UiKitDisplayHandle::new());
unsafe { Ok(rwh_06::DisplayHandle::borrow_raw(raw)) }
}
}
#[derive(Clone, PartialEq, Eq)]
pub(crate) struct OwnedDisplayHandle;
impl HasDisplayHandle for OwnedDisplayHandle {
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
let raw = rwh_06::RawDisplayHandle::UiKit(rwh_06::UiKitDisplayHandle::new());
unsafe { Ok(rwh_06::DisplayHandle::borrow_raw(raw)) }
}
}
pub struct EventLoop {
mtm: MainThreadMarker,
window_target: ActiveEventLoop,
// Since iOS 9.0, we no longer need to remove the observers before they are deallocated; the
// system instead cleans it up next time it would have posted a notification to it.
//
// Though we do still need to keep the observers around to prevent them from being deallocated.
_did_finish_launching_observer: Retained<NSObject>,
_did_become_active_observer: Retained<NSObject>,
_will_resign_active_observer: Retained<NSObject>,
_will_enter_foreground_observer: Retained<NSObject>,
_did_enter_background_observer: Retained<NSObject>,
_will_terminate_observer: Retained<NSObject>,
_did_receive_memory_warning_observer: Retained<NSObject>,
}
#[derive(Default, Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub(crate) struct PlatformSpecificEventLoopAttributes {}
impl EventLoop {
pub(crate) fn new(
_: &PlatformSpecificEventLoopAttributes,
) -> Result<EventLoop, EventLoopError> {
let mtm = MainThreadMarker::new()
.expect("On iOS, `EventLoop` must be created on the main thread");
static mut SINGLETON_INIT: bool = false;
unsafe {
assert!(
!SINGLETON_INIT,
"Only one `EventLoop` is supported on iOS. `EventLoopProxy` might be helpful"
);
SINGLETON_INIT = true;
}
// this line sets up the main run loop before `UIApplicationMain`
setup_control_flow_observers();
let center = unsafe { NSNotificationCenter::defaultCenter() };
let _did_finish_launching_observer = create_observer(
&center,
// `application:didFinishLaunchingWithOptions:`
unsafe { UIApplicationDidFinishLaunchingNotification },
move |_| {
app_state::did_finish_launching(mtm);
},
);
let _did_become_active_observer = create_observer(
&center,
// `applicationDidBecomeActive:`
unsafe { UIApplicationDidBecomeActiveNotification },
move |_| app_state::handle_resumed(mtm),
);
let _will_resign_active_observer = create_observer(
&center,
// `applicationWillResignActive:`
unsafe { UIApplicationWillResignActiveNotification },
move |_| app_state::handle_suspended(mtm),
);
let _will_enter_foreground_observer = create_observer(
&center,
// `applicationWillEnterForeground:`
unsafe { UIApplicationWillEnterForegroundNotification },
move |notification| {
let app = unsafe { notification.object() }.expect(
"UIApplicationWillEnterForegroundNotification to have application object",
);
// SAFETY: The `object` in `UIApplicationWillEnterForegroundNotification` is
// documented to be `UIApplication`.
let app: Retained<UIApplication> = unsafe { Retained::cast(app) };
send_occluded_event_for_all_windows(&app, false);
},
);
let _did_enter_background_observer = create_observer(
&center,
// `applicationDidEnterBackground:`
unsafe { UIApplicationDidEnterBackgroundNotification },
move |notification| {
let app = unsafe { notification.object() }.expect(
"UIApplicationDidEnterBackgroundNotification to have application object",
);
// SAFETY: The `object` in `UIApplicationDidEnterBackgroundNotification` is
// documented to be `UIApplication`.
let app: Retained<UIApplication> = unsafe { Retained::cast(app) };
send_occluded_event_for_all_windows(&app, true);
},
);
let _will_terminate_observer = create_observer(
&center,
// `applicationWillTerminate:`
unsafe { UIApplicationWillTerminateNotification },
move |notification| {
let app = unsafe { notification.object() }
.expect("UIApplicationWillTerminateNotification to have application object");
// SAFETY: The `object` in `UIApplicationWillTerminateNotification` is
// (somewhat) documented to be `UIApplication`.
let app: Retained<UIApplication> = unsafe { Retained::cast(app) };
app_state::terminated(&app);
},
);
let _did_receive_memory_warning_observer = create_observer(
&center,
// `applicationDidReceiveMemoryWarning:`
unsafe { UIApplicationDidReceiveMemoryWarningNotification },
move |_| app_state::handle_memory_warning(mtm),
);
Ok(EventLoop {
mtm,
window_target: ActiveEventLoop { mtm },
_did_finish_launching_observer,
_did_become_active_observer,
_will_resign_active_observer,
_will_enter_foreground_observer,
_did_enter_background_observer,
_will_terminate_observer,
_did_receive_memory_warning_observer,
})
}
pub fn run_app<A: ApplicationHandler>(self, mut app: A) -> ! {
let application: Option<Retained<UIApplication>> =
unsafe { msg_send_id![UIApplication::class(), sharedApplication] };
assert!(
application.is_none(),
"\
`EventLoop` cannot be `run` after a call to `UIApplicationMain` on iOS\nNote: \
`EventLoop::run_app` calls `UIApplicationMain` on iOS",
);
extern "C" {
// These functions are in crt_externs.h.
fn _NSGetArgc() -> *mut c_int;
fn _NSGetArgv() -> *mut *mut *mut c_char;
}
app_state::launch(self.mtm, &mut app, || unsafe {
UIApplicationMain(
*_NSGetArgc(),
NonNull::new(*_NSGetArgv()).unwrap(),
// We intentionally override neither the application nor the delegate, to allow
// the user to do so themselves!
None,
None,
);
});
unreachable!()
}
pub fn window_target(&self) -> &dyn RootActiveEventLoop {
&self.window_target
}
}
pub struct EventLoopProxy {
pub(crate) wake_up: AtomicBool,
source: CFRunLoopSourceRef,
}
unsafe impl Send for EventLoopProxy {}
unsafe impl Sync for EventLoopProxy {}
impl Drop for EventLoopProxy {
fn drop(&mut self) {
unsafe {
CFRunLoopSourceInvalidate(self.source);
CFRelease(self.source as _);
}
}
}
impl EventLoopProxy {
pub(crate) fn new() -> EventLoopProxy {
unsafe {
// just wake up the eventloop
extern "C" fn event_loop_proxy_handler(_: *const c_void) {}
// adding a Source to the main CFRunLoop lets us wake it up and
// process user events through the normal OS EventLoop mechanisms.
let rl = CFRunLoopGetMain();
let mut context = CFRunLoopSourceContext {
version: 0,
info: ptr::null_mut(),
retain: None,
release: None,
copyDescription: None,
equal: None,
hash: None,
schedule: None,
cancel: None,
perform: event_loop_proxy_handler,
};
let source = CFRunLoopSourceCreate(ptr::null_mut(), CFIndex::MAX - 1, &mut context);
CFRunLoopAddSource(rl, source, kCFRunLoopCommonModes);
CFRunLoopWakeUp(rl);
EventLoopProxy { wake_up: AtomicBool::new(false), source }
}
}
}
impl EventLoopProxyProvider for EventLoopProxy {
fn wake_up(&self) {
self.wake_up.store(true, AtomicOrdering::Relaxed);
unsafe {
// let the main thread know there's a new event
CFRunLoopSourceSignal(self.source);
let rl = CFRunLoopGetMain();
CFRunLoopWakeUp(rl);
}
}
}
fn setup_control_flow_observers() {
unsafe {
// begin is queued with the highest priority to ensure it is processed before other
// observers
extern "C" fn control_flow_begin_handler(
_: CFRunLoopObserverRef,
activity: CFRunLoopActivity,
_: *mut c_void,
) {
let mtm = MainThreadMarker::new().unwrap();
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopAfterWaiting => app_state::handle_wakeup_transition(mtm),
_ => unreachable!(),
}
}
// Core Animation registers its `CFRunLoopObserver` that performs drawing operations in
// `CA::Transaction::ensure_implicit` with a priority of `0x1e8480`. We set the main_end
// priority to be 0, in order to send AboutToWait before RedrawRequested. This value was
// chosen conservatively to guard against apple using different priorities for their redraw
// observers in different OS's or on different devices. If it so happens that it's too
// conservative, the main symptom would be non-redraw events coming in after `AboutToWait`.
//
// The value of `0x1e8480` was determined by inspecting stack traces and the associated
// registers for every `CFRunLoopAddObserver` call on an iPad Air 2 running iOS 11.4.
//
// Also tested to be `0x1e8480` on iPhone 8, iOS 13 beta 4.
extern "C" fn control_flow_main_end_handler(
_: CFRunLoopObserverRef,
activity: CFRunLoopActivity,
_: *mut c_void,
) {
let mtm = MainThreadMarker::new().unwrap();
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopBeforeWaiting => app_state::handle_main_events_cleared(mtm),
kCFRunLoopExit => {}, // may happen when running on macOS
_ => unreachable!(),
}
}
// end is queued with the lowest priority to ensure it is processed after other observers
extern "C" fn control_flow_end_handler(
_: CFRunLoopObserverRef,
activity: CFRunLoopActivity,
_: *mut c_void,
) {
let mtm = MainThreadMarker::new().unwrap();
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopBeforeWaiting => app_state::handle_events_cleared(mtm),
kCFRunLoopExit => {}, // may happen when running on macOS
_ => unreachable!(),
}
}
let main_loop = CFRunLoopGetMain();
let begin_observer = CFRunLoopObserverCreate(
ptr::null_mut(),
kCFRunLoopAfterWaiting,
1, // repeat = true
CFIndex::MIN,
control_flow_begin_handler,
ptr::null_mut(),
);
CFRunLoopAddObserver(main_loop, begin_observer, kCFRunLoopDefaultMode);
let main_end_observer = CFRunLoopObserverCreate(
ptr::null_mut(),
kCFRunLoopExit | kCFRunLoopBeforeWaiting,
1, // repeat = true
0, // see comment on `control_flow_main_end_handler`
control_flow_main_end_handler,
ptr::null_mut(),
);
CFRunLoopAddObserver(main_loop, main_end_observer, kCFRunLoopDefaultMode);
let end_observer = CFRunLoopObserverCreate(
ptr::null_mut(),
kCFRunLoopExit | kCFRunLoopBeforeWaiting,
1, // repeat = true
CFIndex::MAX,
control_flow_end_handler,
ptr::null_mut(),
);
CFRunLoopAddObserver(main_loop, end_observer, kCFRunLoopDefaultMode);
}
}

25
src/platform_impl/ios/mod.rs → src/platform_impl/apple/uikit/mod.rs
View File

@@ -1,46 +1,25 @@
#![cfg(ios_platform)]
#![allow(clippy::let_unit_value)]
mod app_delegate;
mod app_state;
mod event_loop;
mod monitor;
mod uikit;
mod view;
mod view_controller;
mod window;
use std::fmt;
use crate::event::DeviceId as RootDeviceId;
pub(crate) use self::event_loop::{
ActiveEventLoop, EventLoop, EventLoopProxy, OwnedDisplayHandle,
PlatformSpecificEventLoopAttributes,
ActiveEventLoop, EventLoop, EventLoopProxy, PlatformSpecificEventLoopAttributes,
};
pub(crate) use self::monitor::{MonitorHandle, VideoModeHandle};
pub(crate) use self::window::{PlatformSpecificWindowAttributes, Window, WindowId};
pub(crate) use self::window::{PlatformSpecificWindowAttributes, Window};
pub(crate) use crate::cursor::{
NoCustomCursor as PlatformCustomCursor, NoCustomCursor as PlatformCustomCursorSource,
};
pub(crate) use crate::icon::NoIcon as PlatformIcon;
pub(crate) use crate::platform_impl::Fullscreen;
/// There is no way to detect which device that performed a certain event in
/// UIKit (i.e. you can't differentiate between different external keyboards,
/// or whether it was the main touchscreen, assistive technologies, or some
/// other pointer device that caused a touch event).
#[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct DeviceId;
impl DeviceId {
pub const unsafe fn dummy() -> Self {
DeviceId
}
}
pub(crate) const DEVICE_ID: RootDeviceId = RootDeviceId(DeviceId);
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct KeyEventExtra {}

110
src/platform_impl/ios/monitor.rs → src/platform_impl/apple/uikit/monitor.rs
View File

@@ -1,25 +1,26 @@
#![allow(clippy::unnecessary_cast)]
use std::collections::{BTreeSet, VecDeque};
use std::num::{NonZeroU16, NonZeroU32};
use std::{fmt, hash, ptr};
use objc2::mutability::IsRetainable;
use objc2::rc::Id;
use objc2::rc::Retained;
use objc2::Message;
use objc2_foundation::{run_on_main, MainThreadBound, MainThreadMarker, NSInteger};
use objc2_ui_kit::{UIScreen, UIScreenMode};
use super::uikit::{UIScreen, UIScreenMode};
use super::app_state;
use crate::dpi::{PhysicalPosition, PhysicalSize};
use crate::monitor::VideoModeHandle as RootVideoModeHandle;
use crate::platform_impl::platform::app_state;
// Workaround for `MainThreadBound` implementing almost no traits
#[derive(Debug)]
struct MainThreadBoundDelegateImpls<T>(MainThreadBound<Id<T>>);
struct MainThreadBoundDelegateImpls<T>(MainThreadBound<Retained<T>>);
impl<T: IsRetainable + Message> Clone for MainThreadBoundDelegateImpls<T> {
fn clone(&self) -> Self {
Self(run_on_main(|mtm| MainThreadBound::new(Id::clone(self.0.get(mtm)), mtm)))
Self(run_on_main(|mtm| MainThreadBound::new(Retained::clone(self.0.get(mtm)), mtm)))
}
}
@@ -27,7 +28,7 @@ impl<T: IsRetainable + Message> hash::Hash for MainThreadBoundDelegateImpls<T> {
fn hash<H: hash::Hasher>(&self, state: &mut H) {
// SAFETY: Marker only used to get the pointer
let mtm = unsafe { MainThreadMarker::new_unchecked() };
Id::as_ptr(self.0.get(mtm)).hash(state);
Retained::as_ptr(self.0.get(mtm)).hash(state);
}
}
@@ -35,7 +36,7 @@ impl<T: IsRetainable + Message> PartialEq for MainThreadBoundDelegateImpls<T> {
fn eq(&self, other: &Self) -> bool {
// SAFETY: Marker only used to get the pointer
let mtm = unsafe { MainThreadMarker::new_unchecked() };
Id::as_ptr(self.0.get(mtm)) == Id::as_ptr(other.0.get(mtm))
Retained::as_ptr(self.0.get(mtm)) == Retained::as_ptr(other.0.get(mtm))
}
}
@@ -44,23 +45,21 @@ impl<T: IsRetainable + Message> Eq for MainThreadBoundDelegateImpls<T> {}
#[derive(Debug, PartialEq, Eq, Hash, Clone)]
pub struct VideoModeHandle {
pub(crate) size: (u32, u32),
pub(crate) bit_depth: u16,
pub(crate) refresh_rate_millihertz: u32,
pub(crate) refresh_rate_millihertz: Option<NonZeroU32>,
screen_mode: MainThreadBoundDelegateImpls<UIScreenMode>,
pub(crate) monitor: MonitorHandle,
}
impl VideoModeHandle {
fn new(
uiscreen: Id<UIScreen>,
screen_mode: Id<UIScreenMode>,
uiscreen: Retained<UIScreen>,
screen_mode: Retained<UIScreenMode>,
mtm: MainThreadMarker,
) -> VideoModeHandle {
let refresh_rate_millihertz = refresh_rate_millihertz(&uiscreen);
let size = screen_mode.size();
VideoModeHandle {
size: (size.width as u32, size.height as u32),
bit_depth: 32,
refresh_rate_millihertz,
screen_mode: MainThreadBoundDelegateImpls(MainThreadBound::new(screen_mode, mtm)),
monitor: MonitorHandle::new(uiscreen),
@@ -71,11 +70,11 @@ impl VideoModeHandle {
self.size.into()
}
pub fn bit_depth(&self) -> u16 {
self.bit_depth
pub fn bit_depth(&self) -> Option<NonZeroU16> {
None
}
pub fn refresh_rate_millihertz(&self) -> u32 {
pub fn refresh_rate_millihertz(&self) -> Option<NonZeroU32> {
self.refresh_rate_millihertz
}
@@ -83,13 +82,13 @@ impl VideoModeHandle {
self.monitor.clone()
}
pub(super) fn screen_mode(&self, mtm: MainThreadMarker) -> &Id<UIScreenMode> {
pub(super) fn screen_mode(&self, mtm: MainThreadMarker) -> &Retained<UIScreenMode> {
self.screen_mode.0.get(mtm)
}
}
pub struct MonitorHandle {
ui_screen: MainThreadBound<Id<UIScreen>>,
ui_screen: MainThreadBound<Retained<UIScreen>>,
}
impl Clone for MonitorHandle {
@@ -102,13 +101,20 @@ impl Clone for MonitorHandle {
impl hash::Hash for MonitorHandle {
fn hash<H: hash::Hasher>(&self, state: &mut H) {
(self as *const Self).hash(state);
// SAFETY: Only getting the pointer.
let mtm = unsafe { MainThreadMarker::new_unchecked() };
Retained::as_ptr(self.ui_screen.get(mtm)).hash(state);
}
}
impl PartialEq for MonitorHandle {
fn eq(&self, other: &Self) -> bool {
ptr::eq(self, other)
// SAFETY: Only getting the pointer.
let mtm = unsafe { MainThreadMarker::new_unchecked() };
ptr::eq(
Retained::as_ptr(self.ui_screen.get(mtm)),
Retained::as_ptr(other.ui_screen.get(mtm)),
)
}
}
@@ -122,8 +128,10 @@ impl PartialOrd for MonitorHandle {
impl Ord for MonitorHandle {
fn cmp(&self, other: &Self) -> std::cmp::Ordering {
// SAFETY: Only getting the pointer.
// TODO: Make a better ordering
(self as *const Self).cmp(&(other as *const Self))
let mtm = unsafe { MainThreadMarker::new_unchecked() };
Retained::as_ptr(self.ui_screen.get(mtm)).cmp(&Retained::as_ptr(other.ui_screen.get(mtm)))
}
}
@@ -131,29 +139,29 @@ impl fmt::Debug for MonitorHandle {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("MonitorHandle")
.field("name", &self.name())
.field("size", &self.size())
.field("position", &self.position())
.field("scale_factor", &self.scale_factor())
.field("refresh_rate_millihertz", &self.refresh_rate_millihertz())
.finish_non_exhaustive()
}
}
impl MonitorHandle {
pub(crate) fn new(ui_screen: Id<UIScreen>) -> Self {
// Holding `Id<UIScreen>` implies we're on the main thread.
pub(crate) fn new(ui_screen: Retained<UIScreen>) -> Self {
// Holding `Retained<UIScreen>` implies we're on the main thread.
let mtm = MainThreadMarker::new().unwrap();
Self { ui_screen: MainThreadBound::new(ui_screen, mtm) }
}
pub fn name(&self) -> Option<String> {
run_on_main(|mtm| {
let main = UIScreen::main(mtm);
#[allow(deprecated)]
let main = UIScreen::mainScreen(mtm);
if *self.ui_screen(mtm) == main {
Some("Primary".to_string())
} else if *self.ui_screen(mtm) == main.mirroredScreen() {
} else if Some(self.ui_screen(mtm)) == main.mirroredScreen().as_ref() {
Some("Mirrored".to_string())
} else {
#[allow(deprecated)]
UIScreen::screens(mtm)
.iter()
.position(|rhs| rhs == &**self.ui_screen(mtm))
@@ -162,22 +170,23 @@ impl MonitorHandle {
})
}
pub fn size(&self) -> PhysicalSize<u32> {
pub fn position(&self) -> Option<PhysicalPosition<i32>> {
let bounds = self.ui_screen.get_on_main(|ui_screen| ui_screen.nativeBounds());
PhysicalSize::new(bounds.size.width as u32, bounds.size.height as u32)
}
pub fn position(&self) -> PhysicalPosition<i32> {
let bounds = self.ui_screen.get_on_main(|ui_screen| ui_screen.nativeBounds());
(bounds.origin.x as f64, bounds.origin.y as f64).into()
Some((bounds.origin.x as f64, bounds.origin.y as f64).into())
}
pub fn scale_factor(&self) -> f64 {
self.ui_screen.get_on_main(|ui_screen| ui_screen.nativeScale()) as f64
}
pub fn refresh_rate_millihertz(&self) -> Option<u32> {
Some(self.ui_screen.get_on_main(|ui_screen| refresh_rate_millihertz(ui_screen)))
pub fn current_video_mode(&self) -> Option<VideoModeHandle> {
Some(run_on_main(|mtm| {
VideoModeHandle::new(
self.ui_screen(mtm).clone(),
self.ui_screen(mtm).currentMode().unwrap(),
mtm,
)
}))
}
pub fn video_modes(&self) -> impl Iterator<Item = VideoModeHandle> {
@@ -197,7 +206,7 @@ impl MonitorHandle {
})
}
pub(crate) fn ui_screen(&self, mtm: MainThreadMarker) -> &Id<UIScreen> {
pub(crate) fn ui_screen(&self, mtm: MainThreadMarker) -> &Retained<UIScreen> {
self.ui_screen.get(mtm)
}
@@ -212,7 +221,7 @@ impl MonitorHandle {
}
}
fn refresh_rate_millihertz(uiscreen: &UIScreen) -> u32 {
fn refresh_rate_millihertz(uiscreen: &UIScreen) -> Option<NonZeroU32> {
let refresh_rate_millihertz: NSInteger = {
let os_capabilities = app_state::os_capabilities();
if os_capabilities.maximum_frames_per_second {
@@ -233,9 +242,34 @@ fn refresh_rate_millihertz(uiscreen: &UIScreen) -> u32 {
}
};
refresh_rate_millihertz as u32 * 1000
NonZeroU32::new(refresh_rate_millihertz as u32 * 1000)
}
pub fn uiscreens(mtm: MainThreadMarker) -> VecDeque<MonitorHandle> {
#[allow(deprecated)]
UIScreen::screens(mtm).into_iter().map(MonitorHandle::new).collect()
}
#[cfg(test)]
mod tests {
use objc2_foundation::NSSet;
use super::*;
// Test that UIScreen pointer comparisons are correct.
#[test]
#[allow(deprecated)]
fn screen_comparisons() {
// Test code, doesn't matter that it's not thread safe
let mtm = unsafe { MainThreadMarker::new_unchecked() };
assert!(ptr::eq(&*UIScreen::mainScreen(mtm), &*UIScreen::mainScreen(mtm)));
let main = UIScreen::mainScreen(mtm);
assert!(UIScreen::screens(mtm).iter().any(|screen| ptr::eq(screen, &*main)));
assert!(unsafe {
NSSet::setWithArray(&UIScreen::screens(mtm)).containsObject(&UIScreen::mainScreen(mtm))
});
}
}

697
src/platform_impl/apple/uikit/view.rs Normal file
View File

@@ -0,0 +1,697 @@
#![allow(clippy::unnecessary_cast)]
use std::cell::{Cell, RefCell};
use objc2::rc::Retained;
use objc2::runtime::{NSObjectProtocol, ProtocolObject};
use objc2::{declare_class, msg_send, msg_send_id, mutability, sel, ClassType, DeclaredClass};
use objc2_foundation::{CGFloat, CGPoint, CGRect, MainThreadMarker, NSObject, NSSet, NSString};
use objc2_ui_kit::{
UIEvent, UIForceTouchCapability, UIGestureRecognizer, UIGestureRecognizerDelegate,
UIGestureRecognizerState, UIKeyInput, UIPanGestureRecognizer, UIPinchGestureRecognizer,
UIResponder, UIRotationGestureRecognizer, UITapGestureRecognizer, UITextInputTraits, UITouch,
UITouchPhase, UITouchType, UITraitEnvironment, UIView,
};
use tracing::debug;
use super::app_state::{self, EventWrapper};
use super::window::WinitUIWindow;
use crate::dpi::PhysicalPosition;
use crate::event::{
ButtonSource, ElementState, FingerId, Force, KeyEvent, PointerKind, PointerSource, TouchPhase,
WindowEvent,
};
use crate::keyboard::{Key, KeyCode, KeyLocation, NamedKey, NativeKeyCode, PhysicalKey};
use crate::platform_impl::KeyEventExtra;
use crate::window::WindowAttributes;
pub struct WinitViewState {
pinch_gesture_recognizer: RefCell<Option<Retained<UIPinchGestureRecognizer>>>,
doubletap_gesture_recognizer: RefCell<Option<Retained<UITapGestureRecognizer>>>,
rotation_gesture_recognizer: RefCell<Option<Retained<UIRotationGestureRecognizer>>>,
pan_gesture_recognizer: RefCell<Option<Retained<UIPanGestureRecognizer>>>,
// for iOS delta references the start of the Gesture
rotation_last_delta: Cell<CGFloat>,
pinch_last_delta: Cell<CGFloat>,
pan_last_delta: Cell<CGPoint>,
primary_finger: Cell<Option<FingerId>>,
fingers: Cell<u8>,
}
declare_class!(
pub(crate) struct WinitView;
unsafe impl ClassType for WinitView {
#[inherits(UIResponder, NSObject)]
type Super = UIView;
type Mutability = mutability::MainThreadOnly;
const NAME: &'static str = "WinitUIView";
}
impl DeclaredClass for WinitView {
type Ivars = WinitViewState;
}
unsafe impl WinitView {
#[method(drawRect:)]
fn draw_rect(&self, rect: CGRect) {
let mtm = MainThreadMarker::new().unwrap();
let window = self.window().unwrap();
app_state::handle_nonuser_event(
mtm,
EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::RedrawRequested,
},
);
let _: () = unsafe { msg_send![super(self), drawRect: rect] };
}
#[method(layoutSubviews)]
fn layout_subviews(&self) {
let mtm = MainThreadMarker::new().unwrap();
let _: () = unsafe { msg_send![super(self), layoutSubviews] };
let frame = self.frame();
let scale_factor = self.contentScaleFactor() as f64;
let size = crate::dpi::LogicalSize {
width: frame.size.width as f64,
height: frame.size.height as f64,
}
.to_physical(scale_factor);
let window = self.window().unwrap();
app_state::handle_nonuser_event(
mtm,
EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::SurfaceResized(size),
},
);
}
#[method(setContentScaleFactor:)]
fn set_content_scale_factor(&self, untrusted_scale_factor: CGFloat) {
let mtm = MainThreadMarker::new().unwrap();
let _: () =
unsafe { msg_send![super(self), setContentScaleFactor: untrusted_scale_factor] };
// `window` is null when `setContentScaleFactor` is invoked prior to `[UIWindow
// makeKeyAndVisible]` at window creation time (either manually or internally by
// UIKit when the `UIView` is first created), in which case we send no events here
let window = match self.window() {
Some(window) => window,
None => return,
};
// `setContentScaleFactor` may be called with a value of 0, which means "reset the
// content scale factor to a device-specific default value", so we can't use the
// parameter here. We can query the actual factor using the getter
let scale_factor = self.contentScaleFactor();
assert!(
!scale_factor.is_nan()
&& scale_factor.is_finite()
&& scale_factor.is_sign_positive()
&& scale_factor > 0.0,
"invalid scale_factor set on UIView",
);
let scale_factor = scale_factor as f64;
let frame = self.frame();
let size = crate::dpi::LogicalSize {
width: frame.size.width as f64,
height: frame.size.height as f64,
};
let window_id = window.id();
app_state::handle_nonuser_events(
mtm,
std::iter::once(EventWrapper::ScaleFactorChanged(
app_state::ScaleFactorChanged {
window,
scale_factor,
suggested_size: size.to_physical(scale_factor),
},
))
.chain(std::iter::once(EventWrapper::Window {
window_id,
event: WindowEvent::SurfaceResized(size.to_physical(scale_factor)),
},
)),
);
}
#[method(safeAreaInsetsDidChange)]
fn safe_area_changed(&self) {
debug!("safeAreaInsetsDidChange was called, requesting redraw");
// When the safe area changes we want to make sure to emit a redraw event
self.setNeedsDisplay();
}
#[method(touchesBegan:withEvent:)]
fn touches_began(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesMoved:withEvent:)]
fn touches_moved(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesEnded:withEvent:)]
fn touches_ended(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesCancelled:withEvent:)]
fn touches_cancelled(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(pinchGesture:)]
fn pinch_gesture(&self, recognizer: &UIPinchGestureRecognizer) {
let window = self.window().unwrap();
let (phase, delta) = match recognizer.state() {
UIGestureRecognizerState::Began => {
self.ivars().pinch_last_delta.set(recognizer.scale());
(TouchPhase::Started, 0.0)
}
UIGestureRecognizerState::Changed => {
let last_scale: f64 = self.ivars().pinch_last_delta.replace(recognizer.scale());
(TouchPhase::Moved, recognizer.scale() - last_scale)
}
UIGestureRecognizerState::Ended => {
let last_scale: f64 = self.ivars().pinch_last_delta.replace(0.0);
(TouchPhase::Moved, recognizer.scale() - last_scale)
}
UIGestureRecognizerState::Cancelled | UIGestureRecognizerState::Failed => {
self.ivars().rotation_last_delta.set(0.0);
// Pass -delta so that action is reversed
(TouchPhase::Cancelled, -recognizer.scale())
}
state => panic!("unexpected recognizer state: {state:?}"),
};
let gesture_event = EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::PinchGesture {
device_id: None,
delta: delta as f64,
phase,
},
};
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, gesture_event);
}
#[method(doubleTapGesture:)]
fn double_tap_gesture(&self, recognizer: &UITapGestureRecognizer) {
let window = self.window().unwrap();
if recognizer.state() == UIGestureRecognizerState::Ended {
let gesture_event = EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::DoubleTapGesture {
device_id: None,
},
};
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, gesture_event);
}
}
#[method(rotationGesture:)]
fn rotation_gesture(&self, recognizer: &UIRotationGestureRecognizer) {
let window = self.window().unwrap();
let (phase, delta) = match recognizer.state() {
UIGestureRecognizerState::Began => {
self.ivars().rotation_last_delta.set(0.0);
(TouchPhase::Started, 0.0)
}
UIGestureRecognizerState::Changed => {
let last_rotation = self.ivars().rotation_last_delta.replace(recognizer.rotation());
(TouchPhase::Moved, recognizer.rotation() - last_rotation)
}
UIGestureRecognizerState::Ended => {
let last_rotation = self.ivars().rotation_last_delta.replace(0.0);
(TouchPhase::Ended, recognizer.rotation() - last_rotation)
}
UIGestureRecognizerState::Cancelled | UIGestureRecognizerState::Failed => {
self.ivars().rotation_last_delta.set(0.0);
// Pass -delta so that action is reversed
(TouchPhase::Cancelled, -recognizer.rotation())
}
state => panic!("unexpected recognizer state: {state:?}"),
};
// Make delta negative to match macos, convert to degrees
let gesture_event = EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::RotationGesture {
device_id: None,
delta: -delta.to_degrees() as _,
phase,
},
};
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, gesture_event);
}
#[method(panGesture:)]
fn pan_gesture(&self, recognizer: &UIPanGestureRecognizer) {
let window = self.window().unwrap();
let translation = recognizer.translationInView(Some(self));
let (phase, dx, dy) = match recognizer.state() {
UIGestureRecognizerState::Began => {
self.ivars().pan_last_delta.set(translation);
(TouchPhase::Started, 0.0, 0.0)
}
UIGestureRecognizerState::Changed => {
let last_pan: CGPoint = self.ivars().pan_last_delta.replace(translation);
let dx = translation.x - last_pan.x;
let dy = translation.y - last_pan.y;
(TouchPhase::Moved, dx, dy)
}
UIGestureRecognizerState::Ended => {
let last_pan: CGPoint = self.ivars().pan_last_delta.replace(CGPoint{x:0.0, y:0.0});
let dx = translation.x - last_pan.x;
let dy = translation.y - last_pan.y;
(TouchPhase::Ended, dx, dy)
}
UIGestureRecognizerState::Cancelled | UIGestureRecognizerState::Failed => {
let last_pan: CGPoint = self.ivars().pan_last_delta.replace(CGPoint{x:0.0, y:0.0});
// Pass -delta so that action is reversed
(TouchPhase::Cancelled, -last_pan.x, -last_pan.y)
}
state => panic!("unexpected recognizer state: {state:?}"),
};
let gesture_event = EventWrapper::Window {
window_id: window.id(),
event: WindowEvent::PanGesture {
device_id: None,
delta: PhysicalPosition::new(dx as _, dy as _),
phase,
},
};
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, gesture_event);
}
#[method(canBecomeFirstResponder)]
fn can_become_first_responder(&self) -> bool {
true
}
}
unsafe impl NSObjectProtocol for WinitView {}
unsafe impl UIGestureRecognizerDelegate for WinitView {
#[method(gestureRecognizer:shouldRecognizeSimultaneouslyWithGestureRecognizer:)]
fn should_recognize_simultaneously(&self, _gesture_recognizer: &UIGestureRecognizer, _other_gesture_recognizer: &UIGestureRecognizer) -> bool {
true
}
}
unsafe impl UITextInputTraits for WinitView {
}
unsafe impl UIKeyInput for WinitView {
#[method(hasText)]
fn has_text(&self) -> bool {
true
}
#[method(insertText:)]
fn insert_text(&self, text: &NSString) {
self.handle_insert_text(text)
}
#[method(deleteBackward)]
fn delete_backward(&self) {
self.handle_delete_backward()
}
}
);
impl WinitView {
pub(crate) fn new(
mtm: MainThreadMarker,
window_attributes: &WindowAttributes,
frame: CGRect,
) -> Retained<Self> {
let this = mtm.alloc().set_ivars(WinitViewState {
pinch_gesture_recognizer: RefCell::new(None),
doubletap_gesture_recognizer: RefCell::new(None),
rotation_gesture_recognizer: RefCell::new(None),
pan_gesture_recognizer: RefCell::new(None),
rotation_last_delta: Cell::new(0.0),
pinch_last_delta: Cell::new(0.0),
pan_last_delta: Cell::new(CGPoint { x: 0.0, y: 0.0 }),
primary_finger: Cell::new(None),
fingers: Cell::new(0),
});
let this: Retained<Self> = unsafe { msg_send_id![super(this), initWithFrame: frame] };
this.setMultipleTouchEnabled(true);
if let Some(scale_factor) = window_attributes.platform_specific.scale_factor {
this.setContentScaleFactor(scale_factor as _);
}
this
}
fn window(&self) -> Option<Retained<WinitUIWindow>> {
// SAFETY: `WinitView`s are always installed in a `WinitUIWindow`
(**self).window().map(|window| unsafe { Retained::cast(window) })
}
pub(crate) fn recognize_pinch_gesture(&self, should_recognize: bool) {
let mtm = MainThreadMarker::from(self);
if should_recognize {
if self.ivars().pinch_gesture_recognizer.borrow().is_none() {
let pinch = unsafe {
UIPinchGestureRecognizer::initWithTarget_action(
mtm.alloc(),
Some(self),
Some(sel!(pinchGesture:)),
)
};
pinch.setDelegate(Some(ProtocolObject::from_ref(self)));
self.addGestureRecognizer(&pinch);
self.ivars().pinch_gesture_recognizer.replace(Some(pinch));
}
} else if let Some(recognizer) = self.ivars().pinch_gesture_recognizer.take() {
self.removeGestureRecognizer(&recognizer);
}
}
pub(crate) fn recognize_pan_gesture(
&self,
should_recognize: bool,
minimum_number_of_touches: u8,
maximum_number_of_touches: u8,
) {
let mtm = MainThreadMarker::from(self);
if should_recognize {
if self.ivars().pan_gesture_recognizer.borrow().is_none() {
let pan = unsafe {
UIPanGestureRecognizer::initWithTarget_action(
mtm.alloc(),
Some(self),
Some(sel!(panGesture:)),
)
};
pan.setDelegate(Some(ProtocolObject::from_ref(self)));
pan.setMinimumNumberOfTouches(minimum_number_of_touches as _);
pan.setMaximumNumberOfTouches(maximum_number_of_touches as _);
self.addGestureRecognizer(&pan);
self.ivars().pan_gesture_recognizer.replace(Some(pan));
}
} else if let Some(recognizer) = self.ivars().pan_gesture_recognizer.take() {
self.removeGestureRecognizer(&recognizer);
}
}
pub(crate) fn recognize_doubletap_gesture(&self, should_recognize: bool) {
let mtm = MainThreadMarker::from(self);
if should_recognize {
if self.ivars().doubletap_gesture_recognizer.borrow().is_none() {
let tap = unsafe {
UITapGestureRecognizer::initWithTarget_action(
mtm.alloc(),
Some(self),
Some(sel!(doubleTapGesture:)),
)
};
tap.setDelegate(Some(ProtocolObject::from_ref(self)));
tap.setNumberOfTapsRequired(2);
tap.setNumberOfTouchesRequired(1);
self.addGestureRecognizer(&tap);
self.ivars().doubletap_gesture_recognizer.replace(Some(tap));
}
} else if let Some(recognizer) = self.ivars().doubletap_gesture_recognizer.take() {
self.removeGestureRecognizer(&recognizer);
}
}
pub(crate) fn recognize_rotation_gesture(&self, should_recognize: bool) {
let mtm = MainThreadMarker::from(self);
if should_recognize {
if self.ivars().rotation_gesture_recognizer.borrow().is_none() {
let rotation = unsafe {
UIRotationGestureRecognizer::initWithTarget_action(
mtm.alloc(),
Some(self),
Some(sel!(rotationGesture:)),
)
};
rotation.setDelegate(Some(ProtocolObject::from_ref(self)));
self.addGestureRecognizer(&rotation);
self.ivars().rotation_gesture_recognizer.replace(Some(rotation));
}
} else if let Some(recognizer) = self.ivars().rotation_gesture_recognizer.take() {
self.removeGestureRecognizer(&recognizer);
}
}
fn handle_touches(&self, touches: &NSSet<UITouch>) {
let window = self.window().unwrap();
let mut touch_events = Vec::new();
let os_supports_force = app_state::os_capabilities().force_touch;
for touch in touches {
let logical_location = touch.locationInView(None);
let touch_type = touch.r#type();
let force = if let UITouchType::Pencil = touch_type {
None
} else if os_supports_force {
let trait_collection = self.traitCollection();
let touch_capability = trait_collection.forceTouchCapability();
// Both the OS _and_ the device need to be checked for force touch support.
if touch_capability == UIForceTouchCapability::Available {
let force = touch.force();
let max_possible_force = touch.maximumPossibleForce();
Some(Force::Calibrated {
force: force as _,
max_possible_force: max_possible_force as _,
})
} else {
None
}
} else {
None
};
let touch_id = touch as *const UITouch as usize;
let phase = touch.phase();
let position = {
let scale_factor = self.contentScaleFactor();
PhysicalPosition::from_logical::<(f64, f64), f64>(
(logical_location.x as _, logical_location.y as _),
scale_factor as f64,
)
};
let window_id = window.id();
let finger_id = FingerId::from_raw(touch_id);
let ivars = self.ivars();
match phase {
UITouchPhase::Began => {
let primary = if let UITouchType::Pencil = touch_type {
true
} else {
ivars.fingers.set(ivars.fingers.get() + 1);
// Keep the primary finger around until we clear all the fingers to
// recognize it when user briefly removes it.
match ivars.primary_finger.get() {
Some(primary_id) => primary_id == finger_id,
None => {
debug_assert_eq!(
ivars.fingers.get(),
1,
"number of fingers were not counted correctly"
);
ivars.primary_finger.set(Some(finger_id));
true
},
}
};
touch_events.push(EventWrapper::Window {
window_id,
event: WindowEvent::PointerEntered {
device_id: None,
primary,
position,
kind: if let UITouchType::Pencil = touch_type {
PointerKind::Unknown
} else {
PointerKind::Touch(finger_id)
},
},
});
touch_events.push(EventWrapper::Window {
window_id,
event: WindowEvent::PointerButton {
device_id: None,
primary,
state: ElementState::Pressed,
position,
button: if let UITouchType::Pencil = touch_type {
ButtonSource::Unknown(0)
} else {
ButtonSource::Touch { finger_id, force }
},
},
});
},
UITouchPhase::Moved => {
let (primary, source) = if let UITouchType::Pencil = touch_type {
(true, PointerSource::Unknown)
} else {
(ivars.primary_finger.get().unwrap() == finger_id, PointerSource::Touch {
finger_id,
force,
})
};
touch_events.push(EventWrapper::Window {
window_id,
event: WindowEvent::PointerMoved {
device_id: None,
primary,
position,
source,
},
});
},
// 2 is UITouchPhase::Stationary and is not expected here
UITouchPhase::Ended | UITouchPhase::Cancelled => {
let primary = if let UITouchType::Pencil = touch_type {
true
} else {
ivars.fingers.set(ivars.fingers.get() - 1);
let primary = ivars.primary_finger.get().unwrap() == finger_id;
if ivars.fingers.get() == 0 {
ivars.primary_finger.set(None);
}
primary
};
if let UITouchPhase::Ended = phase {
touch_events.push(EventWrapper::Window {
window_id,
event: WindowEvent::PointerButton {
device_id: None,
primary,
state: ElementState::Released,
position,
button: if let UITouchType::Pencil = touch_type {
ButtonSource::Unknown(0)
} else {
ButtonSource::Touch { finger_id, force }
},
},
});
}
touch_events.push(EventWrapper::Window {
window_id,
event: WindowEvent::PointerLeft {
device_id: None,
primary,
position: Some(position),
kind: if let UITouchType::Pencil = touch_type {
PointerKind::Unknown
} else {
PointerKind::Touch(finger_id)
},
},
});
},
_ => panic!("unexpected touch phase: {phase:?}"),
}
}
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_events(mtm, touch_events);
}
fn handle_insert_text(&self, text: &NSString) {
let window = self.window().unwrap();
let window_id = window.id();
let mtm = MainThreadMarker::new().unwrap();
// send individual events for each character
app_state::handle_nonuser_events(
mtm,
text.to_string().chars().flat_map(|c| {
let text = smol_str::SmolStr::from_iter([c]);
// Emit both press and release events
[ElementState::Pressed, ElementState::Released].map(|state| EventWrapper::Window {
window_id,
event: WindowEvent::KeyboardInput {
device_id: None,
event: KeyEvent {
text: if state == ElementState::Pressed {
Some(text.clone())
} else {
None
},
state,
location: KeyLocation::Standard,
repeat: false,
logical_key: Key::Character(text.clone()),
physical_key: PhysicalKey::Unidentified(NativeKeyCode::Unidentified),
platform_specific: KeyEventExtra {},
},
is_synthetic: false,
},
})
}),
);
}
fn handle_delete_backward(&self) {
let window = self.window().unwrap();
let window_id = window.id();
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_events(
mtm,
[ElementState::Pressed, ElementState::Released].map(|state| EventWrapper::Window {
window_id,
event: WindowEvent::KeyboardInput {
device_id: None,
event: KeyEvent {
state,
logical_key: Key::Named(NamedKey::Backspace),
physical_key: PhysicalKey::Code(KeyCode::Backspace),
platform_specific: KeyEventExtra {},
repeat: false,
location: KeyLocation::Standard,
text: None,
},
is_synthetic: false,
},
}),
);
}
}

23
src/platform_impl/ios/view_controller.rs → src/platform_impl/apple/uikit/view_controller.rs
View File

@@ -1,14 +1,14 @@
use std::cell::Cell;
use objc2::rc::Id;
use objc2::rc::Retained;
use objc2::{declare_class, msg_send_id, mutability, ClassType, DeclaredClass};
use objc2_foundation::{MainThreadMarker, NSObject};
use super::app_state::{self};
use super::uikit::{
use objc2_ui_kit::{
UIDevice, UIInterfaceOrientationMask, UIRectEdge, UIResponder, UIStatusBarStyle,
UIUserInterfaceIdiom, UIView, UIViewController,
};
use super::app_state::{self};
use crate::platform::ios::{ScreenEdge, StatusBarStyle, ValidOrientations};
use crate::window::WindowAttributes;
@@ -26,7 +26,7 @@ declare_class!(
unsafe impl ClassType for WinitViewController {
#[inherits(UIResponder, NSObject)]
type Super = UIViewController;
type Mutability = mutability::InteriorMutable;
type Mutability = mutability::MainThreadOnly;
const NAME: &'static str = "WinitUIViewController";
}
@@ -114,7 +114,7 @@ impl WinitViewController {
mtm: MainThreadMarker,
valid_orientations: ValidOrientations,
) {
let mask = match (valid_orientations, UIDevice::current(mtm).userInterfaceIdiom()) {
let mask = match (valid_orientations, UIDevice::currentDevice(mtm).userInterfaceIdiom()) {
(ValidOrientations::LandscapeAndPortrait, UIUserInterfaceIdiom::Phone) => {
UIInterfaceOrientationMask::AllButUpsideDown
},
@@ -129,23 +129,24 @@ impl WinitViewController {
},
};
self.ivars().supported_orientations.set(mask);
UIViewController::attemptRotationToDeviceOrientation();
#[allow(deprecated)]
UIViewController::attemptRotationToDeviceOrientation(mtm);
}
pub(crate) fn new(
mtm: MainThreadMarker,
window_attributes: &WindowAttributes,
view: &UIView,
) -> Id<Self> {
) -> Retained<Self> {
// These are set properly below, we just to set them to something in the meantime.
let this = Self::alloc().set_ivars(ViewControllerState {
let this = mtm.alloc().set_ivars(ViewControllerState {
prefers_status_bar_hidden: Cell::new(false),
preferred_status_bar_style: Cell::new(UIStatusBarStyle::Default),
prefers_home_indicator_auto_hidden: Cell::new(false),
supported_orientations: Cell::new(UIInterfaceOrientationMask::All),
preferred_screen_edges_deferring_system_gestures: Cell::new(UIRectEdge::NONE),
preferred_screen_edges_deferring_system_gestures: Cell::new(UIRectEdge::empty()),
});
let this: Id<Self> = unsafe { msg_send_id![super(this), init] };
let this: Retained<Self> = unsafe { msg_send_id![super(this), init] };
this.set_prefers_status_bar_hidden(
window_attributes.platform_specific.prefers_status_bar_hidden,

618
src/platform_impl/ios/window.rs → src/platform_impl/apple/uikit/window.rs
View File

@@ -2,30 +2,34 @@
use std::collections::VecDeque;
use objc2::rc::Id;
use objc2::runtime::{AnyObject, NSObject};
use objc2::rc::Retained;
use objc2::{class, declare_class, msg_send, msg_send_id, mutability, ClassType, DeclaredClass};
use objc2_foundation::{CGFloat, CGPoint, CGRect, CGSize, MainThreadBound, MainThreadMarker};
use objc2_foundation::{
CGFloat, CGPoint, CGRect, CGSize, MainThreadBound, MainThreadMarker, NSObject, NSObjectProtocol,
};
use objc2_ui_kit::{
UIApplication, UICoordinateSpace, UIEdgeInsets, UIResponder, UIScreen,
UIScreenOverscanCompensation, UIViewController, UIWindow,
};
use tracing::{debug, warn};
use super::app_state::EventWrapper;
use super::uikit::{
UIApplication, UIResponder, UIScreen, UIScreenOverscanCompensation, UIViewController, UIWindow,
};
use super::view::WinitView;
use super::view_controller::WinitViewController;
use super::{app_state, monitor, ActiveEventLoop, Fullscreen, MonitorHandle};
use crate::cursor::Cursor;
use crate::dpi::{LogicalPosition, LogicalSize, PhysicalPosition, PhysicalSize, Position, Size};
use crate::error::{ExternalError, NotSupportedError, OsError as RootOsError};
use crate::event::{Event, WindowEvent};
use crate::icon::Icon;
use crate::platform::ios::{ScreenEdge, StatusBarStyle, ValidOrientations};
use crate::platform_impl::platform::{
app_state, monitor, ActiveEventLoop, Fullscreen, MonitorHandle,
use crate::dpi::{
LogicalInsets, LogicalPosition, LogicalSize, PhysicalInsets, PhysicalPosition, PhysicalSize,
Position, Size,
};
use crate::error::{NotSupportedError, RequestError};
use crate::event::WindowEvent;
use crate::icon::Icon;
use crate::monitor::MonitorHandle as CoreMonitorHandle;
use crate::platform::ios::{ScreenEdge, StatusBarStyle, ValidOrientations};
use crate::window::{
CursorGrabMode, ImePurpose, ResizeDirection, Theme, UserAttentionType, WindowAttributes,
WindowButtons, WindowId as RootWindowId, WindowLevel,
CursorGrabMode, ImePurpose, ResizeDirection, Theme, UserAttentionType, Window as CoreWindow,
WindowAttributes, WindowButtons, WindowId, WindowLevel,
};
declare_class!(
@@ -35,7 +39,7 @@ declare_class!(
unsafe impl ClassType for WinitUIWindow {
#[inherits(UIResponder, NSObject)]
type Super = UIWindow;
type Mutability = mutability::InteriorMutable;
type Mutability = mutability::MainThreadOnly;
const NAME: &'static str = "WinitUIWindow";
}
@@ -47,10 +51,10 @@ declare_class!(
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(
mtm,
EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(self.id()),
EventWrapper::Window {
window_id: self.id(),
event: WindowEvent::Focused(true),
}),
},
);
let _: () = unsafe { msg_send![super(self), becomeKeyWindow] };
}
@@ -60,10 +64,10 @@ declare_class!(
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(
mtm,
EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(self.id()),
EventWrapper::Window {
window_id: self.id(),
event: WindowEvent::Focused(false),
}),
},
);
let _: () = unsafe { msg_send![super(self), resignKeyWindow] };
}
@@ -76,8 +80,13 @@ impl WinitUIWindow {
window_attributes: &WindowAttributes,
frame: CGRect,
view_controller: &UIViewController,
) -> Id<Self> {
let this: Id<Self> = unsafe { msg_send_id![Self::alloc(), initWithFrame: frame] };
) -> Retained<Self> {
// NOTE: This should only be created after the application has started launching,
// (`application:willFinishLaunchingWithOptions:` at the earliest), otherwise you'll run
// into very confusing issues with the window not being properly activated.
//
// Winit ensures this by not allowing access to `ActiveEventLoop` before handling events.
let this: Retained<Self> = unsafe { msg_send_id![mtm.alloc(), initWithFrame: frame] };
this.setRootViewController(Some(view_controller));
@@ -99,14 +108,14 @@ impl WinitUIWindow {
}
pub(crate) fn id(&self) -> WindowId {
(self as *const Self as usize as u64).into()
WindowId::from_raw(self as *const Self as usize)
}
}
pub struct Inner {
window: Id<WinitUIWindow>,
view_controller: Id<WinitViewController>,
view: Id<WinitView>,
window: Retained<WinitUIWindow>,
view_controller: Retained<WinitViewController>,
view: Retained<WinitView>,
gl_or_metal_backed: bool,
}
@@ -152,20 +161,19 @@ impl Inner {
pub fn pre_present_notify(&self) {}
pub fn inner_position(&self) -> Result<PhysicalPosition<i32>, NotSupportedError> {
let safe_area = self.safe_area_screen_space();
pub fn surface_position(&self) -> PhysicalPosition<i32> {
let view_position = self.view.frame().origin;
let position =
LogicalPosition { x: safe_area.origin.x as f64, y: safe_area.origin.y as f64 };
let scale_factor = self.scale_factor();
Ok(position.to_physical(scale_factor))
unsafe { self.window.convertPoint_fromView(view_position, Some(&self.view)) };
let position = LogicalPosition::new(position.x, position.y);
position.to_physical(self.scale_factor())
}
pub fn outer_position(&self) -> Result<PhysicalPosition<i32>, NotSupportedError> {
pub fn outer_position(&self) -> Result<PhysicalPosition<i32>, RequestError> {
let screen_frame = self.screen_frame();
let position =
LogicalPosition { x: screen_frame.origin.x as f64, y: screen_frame.origin.y as f64 };
let scale_factor = self.scale_factor();
Ok(position.to_physical(scale_factor))
Ok(position.to_physical(self.scale_factor()))
}
pub fn set_outer_position(&self, physical_position: Position) {
@@ -180,45 +188,52 @@ impl Inner {
self.window.setBounds(bounds);
}
pub fn inner_size(&self) -> PhysicalSize<u32> {
let scale_factor = self.scale_factor();
let safe_area = self.safe_area_screen_space();
let size = LogicalSize {
width: safe_area.size.width as f64,
height: safe_area.size.height as f64,
};
size.to_physical(scale_factor)
pub fn surface_size(&self) -> PhysicalSize<u32> {
let frame = self.view.frame();
let size = LogicalSize::new(frame.size.width, frame.size.height);
size.to_physical(self.scale_factor())
}
pub fn outer_size(&self) -> PhysicalSize<u32> {
let scale_factor = self.scale_factor();
let screen_frame = self.screen_frame();
let size = LogicalSize {
width: screen_frame.size.width as f64,
height: screen_frame.size.height as f64,
let frame = self.window.frame();
let size = LogicalSize::new(frame.size.width, frame.size.height);
size.to_physical(self.scale_factor())
}
pub fn request_surface_size(&self, _size: Size) -> Option<PhysicalSize<u32>> {
Some(self.surface_size())
}
pub fn safe_area(&self) -> PhysicalInsets<u32> {
// Only available on iOS 11.0
let insets = if app_state::os_capabilities().safe_area {
self.view.safeAreaInsets()
} else {
// Assume the status bar frame is the only thing that obscures the view
let app = UIApplication::sharedApplication(MainThreadMarker::new().unwrap());
#[allow(deprecated)]
let status_bar_frame = app.statusBarFrame();
UIEdgeInsets { top: status_bar_frame.size.height, left: 0.0, bottom: 0.0, right: 0.0 }
};
size.to_physical(scale_factor)
let insets = LogicalInsets::new(insets.top, insets.left, insets.bottom, insets.right);
insets.to_physical(self.scale_factor())
}
pub fn request_inner_size(&self, _size: Size) -> Option<PhysicalSize<u32>> {
Some(self.inner_size())
pub fn set_min_surface_size(&self, _dimensions: Option<Size>) {
warn!("`Window::set_min_surface_size` is ignored on iOS")
}
pub fn set_min_inner_size(&self, _dimensions: Option<Size>) {
warn!("`Window::set_min_inner_size` is ignored on iOS")
pub fn set_max_surface_size(&self, _dimensions: Option<Size>) {
warn!("`Window::set_max_surface_size` is ignored on iOS")
}
pub fn set_max_inner_size(&self, _dimensions: Option<Size>) {
warn!("`Window::set_max_inner_size` is ignored on iOS")
}
pub fn resize_increments(&self) -> Option<PhysicalSize<u32>> {
pub fn surface_resize_increments(&self) -> Option<PhysicalSize<u32>> {
None
}
#[inline]
pub fn set_resize_increments(&self, _increments: Option<Size>) {
warn!("`Window::set_resize_increments` is ignored on iOS")
pub fn set_surface_resize_increments(&self, _increments: Option<Size>) {
warn!("`Window::set_surface_resize_increments` is ignored on iOS")
}
pub fn set_resizable(&self, _resizable: bool) {
@@ -249,31 +264,31 @@ impl Inner {
debug!("`Window::set_cursor` ignored on iOS")
}
pub fn set_cursor_position(&self, _position: Position) -> Result<(), ExternalError> {
Err(ExternalError::NotSupported(NotSupportedError::new()))
pub fn set_cursor_position(&self, _position: Position) -> Result<(), NotSupportedError> {
Err(NotSupportedError::new("set_cursor_position is not supported"))
}
pub fn set_cursor_grab(&self, _: CursorGrabMode) -> Result<(), ExternalError> {
Err(ExternalError::NotSupported(NotSupportedError::new()))
pub fn set_cursor_grab(&self, _: CursorGrabMode) -> Result<(), NotSupportedError> {
Err(NotSupportedError::new("set_cursor_grab is not supported"))
}
pub fn set_cursor_visible(&self, _visible: bool) {
debug!("`Window::set_cursor_visible` is ignored on iOS")
}
pub fn drag_window(&self) -> Result<(), ExternalError> {
Err(ExternalError::NotSupported(NotSupportedError::new()))
pub fn drag_window(&self) -> Result<(), NotSupportedError> {
Err(NotSupportedError::new("drag_window is not supported"))
}
pub fn drag_resize_window(&self, _direction: ResizeDirection) -> Result<(), ExternalError> {
Err(ExternalError::NotSupported(NotSupportedError::new()))
pub fn drag_resize_window(&self, _direction: ResizeDirection) -> Result<(), NotSupportedError> {
Err(NotSupportedError::new("drag_resize_window is not supported"))
}
#[inline]
pub fn show_window_menu(&self, _position: Position) {}
pub fn set_cursor_hittest(&self, _hittest: bool) -> Result<(), ExternalError> {
Err(ExternalError::NotSupported(NotSupportedError::new()))
pub fn set_cursor_hittest(&self, _hittest: bool) -> Result<(), NotSupportedError> {
Err(NotSupportedError::new("set_cursor_hittest is not supported"))
}
pub fn set_minimized(&self, _minimized: bool) {
@@ -364,12 +379,24 @@ impl Inner {
warn!("`Window::set_ime_cursor_area` is ignored on iOS")
}
pub fn set_ime_allowed(&self, _allowed: bool) {
warn!("`Window::set_ime_allowed` is ignored on iOS")
/// Show / hide the keyboard. To show the keyboard, we call `becomeFirstResponder`,
/// requesting focus for the [WinitView]. Since [WinitView] implements
/// [objc2_ui_kit::UIKeyInput], the keyboard will be shown.
/// <https://developer.apple.com/documentation/uikit/uiresponder/1621113-becomefirstresponder>
pub fn set_ime_allowed(&self, allowed: bool) {
if allowed {
unsafe {
self.view.becomeFirstResponder();
}
} else {
unsafe {
self.view.resignFirstResponder();
}
}
}
pub fn set_ime_purpose(&self, _purpose: ImePurpose) {
warn!("`Window::set_ime_allowed` is ignored on iOS")
warn!("`Window::set_ime_purpose` is ignored on iOS")
}
pub fn focus_window(&self) {
@@ -394,44 +421,21 @@ impl Inner {
}
pub fn primary_monitor(&self) -> Option<MonitorHandle> {
Some(MonitorHandle::new(UIScreen::main(MainThreadMarker::new().unwrap())))
#[allow(deprecated)]
Some(MonitorHandle::new(UIScreen::mainScreen(MainThreadMarker::new().unwrap())))
}
pub fn id(&self) -> WindowId {
self.window.id()
}
#[cfg(feature = "rwh_04")]
pub fn raw_window_handle_rwh_04(&self) -> rwh_04::RawWindowHandle {
let mut window_handle = rwh_04::UiKitHandle::empty();
window_handle.ui_window = Id::as_ptr(&self.window) as _;
window_handle.ui_view = Id::as_ptr(&self.view) as _;
window_handle.ui_view_controller = Id::as_ptr(&self.view_controller) as _;
rwh_04::RawWindowHandle::UiKit(window_handle)
}
#[cfg(feature = "rwh_05")]
pub fn raw_window_handle_rwh_05(&self) -> rwh_05::RawWindowHandle {
let mut window_handle = rwh_05::UiKitWindowHandle::empty();
window_handle.ui_window = Id::as_ptr(&self.window) as _;
window_handle.ui_view = Id::as_ptr(&self.view) as _;
window_handle.ui_view_controller = Id::as_ptr(&self.view_controller) as _;
rwh_05::RawWindowHandle::UiKit(window_handle)
}
#[cfg(feature = "rwh_05")]
pub fn raw_display_handle_rwh_05(&self) -> rwh_05::RawDisplayHandle {
rwh_05::RawDisplayHandle::UiKit(rwh_05::UiKitDisplayHandle::empty())
}
#[cfg(feature = "rwh_06")]
pub fn raw_window_handle_rwh_06(&self) -> rwh_06::RawWindowHandle {
let mut window_handle = rwh_06::UiKitWindowHandle::new({
let ui_view = Id::as_ptr(&self.view) as _;
std::ptr::NonNull::new(ui_view).expect("Id<T> should never be null")
let ui_view = Retained::as_ptr(&self.view) as _;
std::ptr::NonNull::new(ui_view).expect("Retained<T> should never be null")
});
window_handle.ui_view_controller =
std::ptr::NonNull::new(Id::as_ptr(&self.view_controller) as _);
std::ptr::NonNull::new(Retained::as_ptr(&self.view_controller) as _);
rwh_06::RawWindowHandle::UiKit(window_handle)
}
@@ -469,19 +473,20 @@ impl Window {
pub(crate) fn new(
event_loop: &ActiveEventLoop,
window_attributes: WindowAttributes,
) -> Result<Window, RootOsError> {
) -> Result<Window, RequestError> {
let mtm = event_loop.mtm;
if window_attributes.min_inner_size.is_some() {
warn!("`WindowAttributes::min_inner_size` is ignored on iOS");
if window_attributes.min_surface_size.is_some() {
warn!("`WindowAttributes::min_surface_size` is ignored on iOS");
}
if window_attributes.max_inner_size.is_some() {
warn!("`WindowAttributes::max_inner_size` is ignored on iOS");
if window_attributes.max_surface_size.is_some() {
warn!("`WindowAttributes::max_surface_size` is ignored on iOS");
}
// TODO: transparency, visible
let main_screen = UIScreen::main(mtm);
#[allow(deprecated)]
let main_screen = UIScreen::mainScreen(mtm);
let fullscreen = window_attributes.fullscreen.clone().map(Into::into);
let screen = match fullscreen {
Some(Fullscreen::Exclusive(ref video_mode)) => video_mode.monitor.ui_screen(mtm),
@@ -491,7 +496,7 @@ impl Window {
let screen_bounds = screen.bounds();
let frame = match window_attributes.inner_size {
let frame = match window_attributes.surface_size {
Some(dim) => {
let scale_factor = screen.scale();
let size = dim.to_logical::<f64>(scale_factor as f64);
@@ -505,62 +510,21 @@ impl Window {
let view = WinitView::new(mtm, &window_attributes, frame);
let gl_or_metal_backed = unsafe {
let layer_class = WinitView::layerClass();
let is_metal = msg_send![layer_class, isSubclassOfClass: class!(CAMetalLayer)];
let is_gl = msg_send![layer_class, isSubclassOfClass: class!(CAEAGLLayer)];
is_metal || is_gl
};
let gl_or_metal_backed =
view.isKindOfClass(class!(CAMetalLayer)) || view.isKindOfClass(class!(CAEAGLLayer));
let view_controller = WinitViewController::new(mtm, &window_attributes, &view);
let window = WinitUIWindow::new(mtm, &window_attributes, frame, &view_controller);
app_state::set_key_window(mtm, &window);
// Like the Windows and macOS backends, we send a `ScaleFactorChanged` and `Resized`
// event on window creation if the DPI factor != 1.0
let scale_factor = view.contentScaleFactor();
let scale_factor = scale_factor as f64;
if scale_factor != 1.0 {
let bounds = view.bounds();
let screen = window.screen();
let screen_space = screen.coordinateSpace();
let screen_frame = view.convertRect_toCoordinateSpace(bounds, &screen_space);
let size = LogicalSize {
width: screen_frame.size.width as f64,
height: screen_frame.size.height as f64,
};
let window_id = RootWindowId(window.id());
app_state::handle_nonuser_events(
mtm,
std::iter::once(EventWrapper::ScaleFactorChanged(app_state::ScaleFactorChanged {
window: window.clone(),
scale_factor,
suggested_size: size.to_physical(scale_factor),
}))
.chain(std::iter::once(EventWrapper::StaticEvent(
Event::WindowEvent {
window_id,
event: WindowEvent::Resized(size.to_physical(scale_factor)),
},
))),
);
}
window.makeKeyAndVisible();
let inner = Inner { window, view_controller, view, gl_or_metal_backed };
Ok(Window { inner: MainThreadBound::new(inner, mtm) })
}
pub(crate) fn maybe_queue_on_main(&self, f: impl FnOnce(&Inner) + Send + 'static) {
// For now, don't actually do queuing, since it may be less predictable
self.maybe_wait_on_main(f)
}
pub(crate) fn maybe_wait_on_main<R: Send>(&self, f: impl FnOnce(&Inner) -> R + Send) -> R {
self.inner.get_on_main(|inner| f(inner))
}
#[cfg(feature = "rwh_06")]
#[inline]
pub(crate) fn raw_window_handle_rwh_06(
&self,
@@ -572,7 +536,6 @@ impl Window {
}
}
#[cfg(feature = "rwh_06")]
#[inline]
pub(crate) fn raw_display_handle_rwh_06(
&self,
@@ -581,6 +544,265 @@ impl Window {
}
}
impl rwh_06::HasDisplayHandle for Window {
fn display_handle(&self) -> Result<rwh_06::DisplayHandle<'_>, rwh_06::HandleError> {
let raw = self.raw_display_handle_rwh_06()?;
unsafe { Ok(rwh_06::DisplayHandle::borrow_raw(raw)) }
}
}
impl rwh_06::HasWindowHandle for Window {
fn window_handle(&self) -> Result<rwh_06::WindowHandle<'_>, rwh_06::HandleError> {
let raw = self.raw_window_handle_rwh_06()?;
unsafe { Ok(rwh_06::WindowHandle::borrow_raw(raw)) }
}
}
impl CoreWindow for Window {
fn id(&self) -> crate::window::WindowId {
self.maybe_wait_on_main(|delegate| delegate.id())
}
fn scale_factor(&self) -> f64 {
self.maybe_wait_on_main(|delegate| delegate.scale_factor())
}
fn request_redraw(&self) {
self.maybe_wait_on_main(|delegate| delegate.request_redraw());
}
fn pre_present_notify(&self) {
self.maybe_wait_on_main(|delegate| delegate.pre_present_notify());
}
fn reset_dead_keys(&self) {
self.maybe_wait_on_main(|delegate| delegate.reset_dead_keys());
}
fn surface_position(&self) -> PhysicalPosition<i32> {
self.maybe_wait_on_main(|delegate| delegate.surface_position())
}
fn outer_position(&self) -> Result<PhysicalPosition<i32>, RequestError> {
self.maybe_wait_on_main(|delegate| delegate.outer_position())
}
fn set_outer_position(&self, position: Position) {
self.maybe_wait_on_main(|delegate| delegate.set_outer_position(position));
}
fn surface_size(&self) -> PhysicalSize<u32> {
self.maybe_wait_on_main(|delegate| delegate.surface_size())
}
fn request_surface_size(&self, size: Size) -> Option<PhysicalSize<u32>> {
self.maybe_wait_on_main(|delegate| delegate.request_surface_size(size))
}
fn outer_size(&self) -> PhysicalSize<u32> {
self.maybe_wait_on_main(|delegate| delegate.outer_size())
}
fn safe_area(&self) -> PhysicalInsets<u32> {
self.maybe_wait_on_main(|delegate| delegate.safe_area())
}
fn set_min_surface_size(&self, min_size: Option<Size>) {
self.maybe_wait_on_main(|delegate| delegate.set_min_surface_size(min_size))
}
fn set_max_surface_size(&self, max_size: Option<Size>) {
self.maybe_wait_on_main(|delegate| delegate.set_max_surface_size(max_size));
}
fn surface_resize_increments(&self) -> Option<PhysicalSize<u32>> {
self.maybe_wait_on_main(|delegate| delegate.surface_resize_increments())
}
fn set_surface_resize_increments(&self, increments: Option<Size>) {
self.maybe_wait_on_main(|delegate| delegate.set_surface_resize_increments(increments));
}
fn set_title(&self, title: &str) {
self.maybe_wait_on_main(|delegate| delegate.set_title(title));
}
fn set_transparent(&self, transparent: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_transparent(transparent));
}
fn set_blur(&self, blur: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_blur(blur));
}
fn set_visible(&self, visible: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_visible(visible));
}
fn is_visible(&self) -> Option<bool> {
self.maybe_wait_on_main(|delegate| delegate.is_visible())
}
fn set_resizable(&self, resizable: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_resizable(resizable))
}
fn is_resizable(&self) -> bool {
self.maybe_wait_on_main(|delegate| delegate.is_resizable())
}
fn set_enabled_buttons(&self, buttons: WindowButtons) {
self.maybe_wait_on_main(|delegate| delegate.set_enabled_buttons(buttons))
}
fn enabled_buttons(&self) -> WindowButtons {
self.maybe_wait_on_main(|delegate| delegate.enabled_buttons())
}
fn set_minimized(&self, minimized: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_minimized(minimized));
}
fn is_minimized(&self) -> Option<bool> {
self.maybe_wait_on_main(|delegate| delegate.is_minimized())
}
fn set_maximized(&self, maximized: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_maximized(maximized));
}
fn is_maximized(&self) -> bool {
self.maybe_wait_on_main(|delegate| delegate.is_maximized())
}
fn set_fullscreen(&self, fullscreen: Option<crate::window::Fullscreen>) {
self.maybe_wait_on_main(|delegate| delegate.set_fullscreen(fullscreen.map(Into::into)))
}
fn fullscreen(&self) -> Option<crate::window::Fullscreen> {
self.maybe_wait_on_main(|delegate| delegate.fullscreen().map(Into::into))
}
fn set_decorations(&self, decorations: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_decorations(decorations));
}
fn is_decorated(&self) -> bool {
self.maybe_wait_on_main(|delegate| delegate.is_decorated())
}
fn set_window_level(&self, level: WindowLevel) {
self.maybe_wait_on_main(|delegate| delegate.set_window_level(level));
}
fn set_window_icon(&self, window_icon: Option<Icon>) {
self.maybe_wait_on_main(|delegate| delegate.set_window_icon(window_icon));
}
fn set_ime_cursor_area(&self, position: Position, size: Size) {
self.maybe_wait_on_main(|delegate| delegate.set_ime_cursor_area(position, size));
}
fn set_ime_allowed(&self, allowed: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_ime_allowed(allowed));
}
fn set_ime_purpose(&self, purpose: ImePurpose) {
self.maybe_wait_on_main(|delegate| delegate.set_ime_purpose(purpose));
}
fn focus_window(&self) {
self.maybe_wait_on_main(|delegate| delegate.focus_window());
}
fn has_focus(&self) -> bool {
self.maybe_wait_on_main(|delegate| delegate.has_focus())
}
fn request_user_attention(&self, request_type: Option<UserAttentionType>) {
self.maybe_wait_on_main(|delegate| delegate.request_user_attention(request_type));
}
fn set_theme(&self, theme: Option<Theme>) {
self.maybe_wait_on_main(|delegate| delegate.set_theme(theme));
}
fn theme(&self) -> Option<Theme> {
self.maybe_wait_on_main(|delegate| delegate.theme())
}
fn set_content_protected(&self, protected: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_content_protected(protected));
}
fn title(&self) -> String {
self.maybe_wait_on_main(|delegate| delegate.title())
}
fn set_cursor(&self, cursor: Cursor) {
self.maybe_wait_on_main(|delegate| delegate.set_cursor(cursor));
}
fn set_cursor_position(&self, position: Position) -> Result<(), RequestError> {
Ok(self.maybe_wait_on_main(|delegate| delegate.set_cursor_position(position))?)
}
fn set_cursor_grab(&self, mode: crate::window::CursorGrabMode) -> Result<(), RequestError> {
Ok(self.maybe_wait_on_main(|delegate| delegate.set_cursor_grab(mode))?)
}
fn set_cursor_visible(&self, visible: bool) {
self.maybe_wait_on_main(|delegate| delegate.set_cursor_visible(visible))
}
fn drag_window(&self) -> Result<(), RequestError> {
Ok(self.maybe_wait_on_main(|delegate| delegate.drag_window())?)
}
fn drag_resize_window(
&self,
direction: crate::window::ResizeDirection,
) -> Result<(), RequestError> {
Ok(self.maybe_wait_on_main(|delegate| delegate.drag_resize_window(direction))?)
}
fn show_window_menu(&self, position: Position) {
self.maybe_wait_on_main(|delegate| delegate.show_window_menu(position))
}
fn set_cursor_hittest(&self, hittest: bool) -> Result<(), RequestError> {
Ok(self.maybe_wait_on_main(|delegate| delegate.set_cursor_hittest(hittest))?)
}
fn current_monitor(&self) -> Option<CoreMonitorHandle> {
self.maybe_wait_on_main(|delegate| {
delegate.current_monitor().map(|inner| CoreMonitorHandle { inner })
})
}
fn available_monitors(&self) -> Box<dyn Iterator<Item = CoreMonitorHandle>> {
self.maybe_wait_on_main(|delegate| {
Box::new(
delegate.available_monitors().into_iter().map(|inner| CoreMonitorHandle { inner }),
)
})
}
fn primary_monitor(&self) -> Option<CoreMonitorHandle> {
self.maybe_wait_on_main(|delegate| {
delegate.primary_monitor().map(|inner| CoreMonitorHandle { inner })
})
}
fn rwh_06_display_handle(&self) -> &dyn rwh_06::HasDisplayHandle {
self
}
fn rwh_06_window_handle(&self) -> &dyn rwh_06::HasWindowHandle {
self
}
}
// WindowExtIOS
impl Inner {
pub fn set_scale_factor(&self, scale_factor: f64) {
@@ -619,6 +841,19 @@ impl Inner {
self.view.recognize_pinch_gesture(should_recognize);
}
pub fn recognize_pan_gesture(
&self,
should_recognize: bool,
minimum_number_of_touches: u8,
maximum_number_of_touches: u8,
) {
self.view.recognize_pan_gesture(
should_recognize,
minimum_number_of_touches,
maximum_number_of_touches,
);
}
pub fn recognize_doubletap_gesture(&self, should_recognize: bool) {
self.view.recognize_doubletap_gesture(should_recognize);
}
@@ -630,7 +865,7 @@ impl Inner {
impl Inner {
fn screen_frame(&self) -> CGRect {
self.rect_to_screen_space(self.window.bounds())
self.rect_to_screen_space(self.window.frame())
}
fn rect_to_screen_space(&self, rect: CGRect) -> CGRect {
@@ -642,80 +877,9 @@ impl Inner {
let screen_space = self.window.screen().coordinateSpace();
self.window.convertRect_fromCoordinateSpace(rect, &screen_space)
}
fn safe_area_screen_space(&self) -> CGRect {
let bounds = self.window.bounds();
if app_state::os_capabilities().safe_area {
let safe_area = self.window.safeAreaInsets();
let safe_bounds = CGRect {
origin: CGPoint {
x: bounds.origin.x + safe_area.left,
y: bounds.origin.y + safe_area.top,
},
size: CGSize {
width: bounds.size.width - safe_area.left - safe_area.right,
height: bounds.size.height - safe_area.top - safe_area.bottom,
},
};
self.rect_to_screen_space(safe_bounds)
} else {
let screen_frame = self.rect_to_screen_space(bounds);
let status_bar_frame = {
let app = UIApplication::shared(MainThreadMarker::new().unwrap()).expect(
"`Window::get_inner_position` cannot be called before `EventLoop::run_app` on \
iOS",
);
app.statusBarFrame()
};
let (y, height) = if screen_frame.origin.y > status_bar_frame.size.height {
(screen_frame.origin.y, screen_frame.size.height)
} else {
let y = status_bar_frame.size.height;
let height = screen_frame.size.height
- (status_bar_frame.size.height - screen_frame.origin.y);
(y, height)
};
CGRect {
origin: CGPoint { x: screen_frame.origin.x, y },
size: CGSize { width: screen_frame.size.width, height },
}
}
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct WindowId {
window: *mut WinitUIWindow,
}
impl WindowId {
pub const unsafe fn dummy() -> Self {
WindowId { window: std::ptr::null_mut() }
}
}
impl From<WindowId> for u64 {
fn from(window_id: WindowId) -> Self {
window_id.window as u64
}
}
impl From<u64> for WindowId {
fn from(raw_id: u64) -> Self {
Self { window: raw_id as _ }
}
}
unsafe impl Send for WindowId {}
unsafe impl Sync for WindowId {}
impl From<&AnyObject> for WindowId {
fn from(window: &AnyObject) -> WindowId {
WindowId { window: window as *const _ as _ }
}
}
#[derive(Clone, Debug, Default)]
#[derive(Clone, Debug, Default, PartialEq)]
pub struct PlatformSpecificWindowAttributes {
pub scale_factor: Option<f64>,
pub valid_orientations: ValidOrientations,

101
src/platform_impl/ios/app_delegate.rs
View File

@@ -1,101 +0,0 @@
use objc2::{declare_class, mutability, ClassType, DeclaredClass};
use objc2_foundation::{MainThreadMarker, NSObject, NSObjectProtocol};
use super::app_state::{self, EventWrapper};
use super::uikit::{UIApplication, UIWindow};
use super::window::WinitUIWindow;
use crate::event::{Event, WindowEvent};
use crate::window::WindowId as RootWindowId;
declare_class!(
pub struct AppDelegate;
unsafe impl ClassType for AppDelegate {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
const NAME: &'static str = "WinitApplicationDelegate";
}
impl DeclaredClass for AppDelegate {}
// UIApplicationDelegate protocol
unsafe impl AppDelegate {
#[method(application:didFinishLaunchingWithOptions:)]
fn did_finish_launching(&self, _application: &UIApplication, _: *mut NSObject) -> bool {
app_state::did_finish_launching(MainThreadMarker::new().unwrap());
true
}
#[method(applicationDidBecomeActive:)]
fn did_become_active(&self, _application: &UIApplication) {
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, EventWrapper::StaticEvent(Event::Resumed))
}
#[method(applicationWillResignActive:)]
fn will_resign_active(&self, _application: &UIApplication) {
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, EventWrapper::StaticEvent(Event::Suspended))
}
#[method(applicationWillEnterForeground:)]
fn will_enter_foreground(&self, application: &UIApplication) {
self.send_occluded_event_for_all_windows(application, false);
}
#[method(applicationDidEnterBackground:)]
fn did_enter_background(&self, application: &UIApplication) {
self.send_occluded_event_for_all_windows(application, true);
}
#[method(applicationWillTerminate:)]
fn will_terminate(&self, application: &UIApplication) {
let mut events = Vec::new();
for window in application.windows().iter() {
if window.is_kind_of::<WinitUIWindow>() {
// SAFETY: We just checked that the window is a `winit` window
let window = unsafe {
let ptr: *const UIWindow = window;
let ptr: *const WinitUIWindow = ptr.cast();
&*ptr
};
events.push(EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::Destroyed,
}));
}
}
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_events(mtm, events);
app_state::terminated(mtm);
}
#[method(applicationDidReceiveMemoryWarning:)]
fn did_receive_memory_warning(&self, _application: &UIApplication) {
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, EventWrapper::StaticEvent(Event::MemoryWarning))
}
}
);
impl AppDelegate {
fn send_occluded_event_for_all_windows(&self, application: &UIApplication, occluded: bool) {
let mut events = Vec::new();
for window in application.windows().iter() {
if window.is_kind_of::<WinitUIWindow>() {
// SAFETY: We just checked that the window is a `winit` window
let window = unsafe {
let ptr: *const UIWindow = window;
let ptr: *const WinitUIWindow = ptr.cast();
&*ptr
};
events.push(EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::Occluded(occluded),
}));
}
}
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_events(mtm, events);
}
}

883
src/platform_impl/ios/app_state.rs
View File

@@ -1,883 +0,0 @@
#![deny(unused_results)]
use std::cell::{RefCell, RefMut};
use std::collections::HashSet;
use std::os::raw::c_void;
use std::sync::{Arc, Mutex, OnceLock};
use std::time::Instant;
use std::{fmt, mem, ptr};
use core_foundation::base::CFRelease;
use core_foundation::date::CFAbsoluteTimeGetCurrent;
use core_foundation::runloop::{
kCFRunLoopCommonModes, CFRunLoopAddTimer, CFRunLoopGetMain, CFRunLoopRef, CFRunLoopTimerCreate,
CFRunLoopTimerInvalidate, CFRunLoopTimerRef, CFRunLoopTimerSetNextFireDate,
};
use objc2::rc::Id;
use objc2::runtime::AnyObject;
use objc2::{msg_send, sel};
use objc2_foundation::{
CGRect, CGSize, MainThreadMarker, NSInteger, NSOperatingSystemVersion, NSProcessInfo,
};
use super::uikit::UIView;
use super::window::WinitUIWindow;
use crate::dpi::PhysicalSize;
use crate::event::{Event, InnerSizeWriter, StartCause, WindowEvent};
use crate::event_loop::{ActiveEventLoop as RootActiveEventLoop, ControlFlow};
use crate::window::WindowId as RootWindowId;
macro_rules! bug {
($($msg:tt)*) => {
panic!("winit iOS bug, file an issue: {}", format!($($msg)*))
};
}
macro_rules! bug_assert {
($test:expr, $($msg:tt)*) => {
assert!($test, "winit iOS bug, file an issue: {}", format!($($msg)*))
};
}
#[derive(Debug)]
pub(crate) struct HandlePendingUserEvents;
pub(crate) struct EventLoopHandler {
#[allow(clippy::type_complexity)]
pub(crate) handler: Box<dyn FnMut(Event<HandlePendingUserEvents>, &RootActiveEventLoop)>,
pub(crate) event_loop: RootActiveEventLoop,
}
impl fmt::Debug for EventLoopHandler {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("EventLoopHandler")
.field("handler", &"...")
.field("event_loop", &self.event_loop)
.finish()
}
}
impl EventLoopHandler {
fn handle_event(&mut self, event: Event<HandlePendingUserEvents>) {
(self.handler)(event, &self.event_loop)
}
}
#[derive(Debug)]
pub(crate) enum EventWrapper {
StaticEvent(Event<HandlePendingUserEvents>),
ScaleFactorChanged(ScaleFactorChanged),
}
#[derive(Debug)]
pub struct ScaleFactorChanged {
pub(super) window: Id<WinitUIWindow>,
pub(super) suggested_size: PhysicalSize<u32>,
pub(super) scale_factor: f64,
}
enum UserCallbackTransitionResult<'a> {
Success {
handler: EventLoopHandler,
active_control_flow: ControlFlow,
processing_redraws: bool,
},
ReentrancyPrevented {
queued_events: &'a mut Vec<EventWrapper>,
},
}
impl Event<HandlePendingUserEvents> {
fn is_redraw(&self) -> bool {
matches!(self, Event::WindowEvent { event: WindowEvent::RedrawRequested, .. })
}
}
// this is the state machine for the app lifecycle
#[derive(Debug)]
#[must_use = "dropping `AppStateImpl` without inspecting it is probably a bug"]
enum AppStateImpl {
NotLaunched {
queued_windows: Vec<Id<WinitUIWindow>>,
queued_events: Vec<EventWrapper>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow>>,
},
Launching {
queued_windows: Vec<Id<WinitUIWindow>>,
queued_events: Vec<EventWrapper>,
queued_handler: EventLoopHandler,
queued_gpu_redraws: HashSet<Id<WinitUIWindow>>,
},
ProcessingEvents {
handler: EventLoopHandler,
queued_gpu_redraws: HashSet<Id<WinitUIWindow>>,
active_control_flow: ControlFlow,
},
// special state to deal with reentrancy and prevent mutable aliasing.
InUserCallback {
queued_events: Vec<EventWrapper>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow>>,
},
ProcessingRedraws {
handler: EventLoopHandler,
active_control_flow: ControlFlow,
},
Waiting {
waiting_handler: EventLoopHandler,
start: Instant,
},
PollFinished {
waiting_handler: EventLoopHandler,
},
Terminated,
}
pub(crate) struct AppState {
// This should never be `None`, except for briefly during a state transition.
app_state: Option<AppStateImpl>,
control_flow: ControlFlow,
waker: EventLoopWaker,
}
impl AppState {
pub(crate) fn get_mut(_mtm: MainThreadMarker) -> RefMut<'static, AppState> {
// basically everything in UIKit requires the main thread, so it's pointless to use the
// std::sync APIs.
// must be mut because plain `static` requires `Sync`
static mut APP_STATE: RefCell<Option<AppState>> = RefCell::new(None);
let mut guard = unsafe { APP_STATE.borrow_mut() };
if guard.is_none() {
#[inline(never)]
#[cold]
fn init_guard(guard: &mut RefMut<'static, Option<AppState>>) {
let waker = EventLoopWaker::new(unsafe { CFRunLoopGetMain() });
**guard = Some(AppState {
app_state: Some(AppStateImpl::NotLaunched {
queued_windows: Vec::new(),
queued_events: Vec::new(),
queued_gpu_redraws: HashSet::new(),
}),
control_flow: ControlFlow::default(),
waker,
});
}
init_guard(&mut guard);
}
RefMut::map(guard, |state| state.as_mut().unwrap())
}
fn state(&self) -> &AppStateImpl {
match &self.app_state {
Some(ref state) => state,
None => bug!("`AppState` previously failed a state transition"),
}
}
fn state_mut(&mut self) -> &mut AppStateImpl {
match &mut self.app_state {
Some(ref mut state) => state,
None => bug!("`AppState` previously failed a state transition"),
}
}
fn take_state(&mut self) -> AppStateImpl {
match self.app_state.take() {
Some(state) => state,
None => bug!("`AppState` previously failed a state transition"),
}
}
fn set_state(&mut self, new_state: AppStateImpl) {
bug_assert!(
self.app_state.is_none(),
"attempted to set an `AppState` without calling `take_state` first {:?}",
self.app_state
);
self.app_state = Some(new_state)
}
fn replace_state(&mut self, new_state: AppStateImpl) -> AppStateImpl {
match &mut self.app_state {
Some(ref mut state) => mem::replace(state, new_state),
None => bug!("`AppState` previously failed a state transition"),
}
}
fn has_launched(&self) -> bool {
!matches!(self.state(), AppStateImpl::NotLaunched { .. } | AppStateImpl::Launching { .. })
}
fn has_terminated(&self) -> bool {
matches!(self.state(), AppStateImpl::Terminated)
}
fn will_launch_transition(&mut self, queued_handler: EventLoopHandler) {
let (queued_windows, queued_events, queued_gpu_redraws) = match self.take_state() {
AppStateImpl::NotLaunched { queued_windows, queued_events, queued_gpu_redraws } => {
(queued_windows, queued_events, queued_gpu_redraws)
},
s => bug!("unexpected state {:?}", s),
};
self.set_state(AppStateImpl::Launching {
queued_windows,
queued_events,
queued_handler,
queued_gpu_redraws,
});
}
fn did_finish_launching_transition(&mut self) -> (Vec<Id<WinitUIWindow>>, Vec<EventWrapper>) {
let (windows, events, handler, queued_gpu_redraws) = match self.take_state() {
AppStateImpl::Launching {
queued_windows,
queued_events,
queued_handler,
queued_gpu_redraws,
} => (queued_windows, queued_events, queued_handler, queued_gpu_redraws),
s => bug!("unexpected state {:?}", s),
};
self.set_state(AppStateImpl::ProcessingEvents {
handler,
active_control_flow: self.control_flow,
queued_gpu_redraws,
});
(windows, events)
}
fn wakeup_transition(&mut self) -> Option<EventWrapper> {
// before `AppState::did_finish_launching` is called, pretend there is no running
// event loop.
if !self.has_launched() || self.has_terminated() {
return None;
}
let (handler, event) = match (self.control_flow, self.take_state()) {
(ControlFlow::Poll, AppStateImpl::PollFinished { waiting_handler }) => {
(waiting_handler, EventWrapper::StaticEvent(Event::NewEvents(StartCause::Poll)))
},
(ControlFlow::Wait, AppStateImpl::Waiting { waiting_handler, start }) => (
waiting_handler,
EventWrapper::StaticEvent(Event::NewEvents(StartCause::WaitCancelled {
start,
requested_resume: None,
})),
),
(
ControlFlow::WaitUntil(requested_resume),
AppStateImpl::Waiting { waiting_handler, start },
) => {
let event = if Instant::now() >= requested_resume {
EventWrapper::StaticEvent(Event::NewEvents(StartCause::ResumeTimeReached {
start,
requested_resume,
}))
} else {
EventWrapper::StaticEvent(Event::NewEvents(StartCause::WaitCancelled {
start,
requested_resume: Some(requested_resume),
}))
};
(waiting_handler, event)
},
s => bug!("`EventHandler` unexpectedly woke up {:?}", s),
};
self.set_state(AppStateImpl::ProcessingEvents {
handler,
queued_gpu_redraws: Default::default(),
active_control_flow: self.control_flow,
});
Some(event)
}
fn try_user_callback_transition(&mut self) -> UserCallbackTransitionResult<'_> {
// If we're not able to process an event due to recursion or `Init` not having been sent out
// yet, then queue the events up.
match self.state_mut() {
&mut AppStateImpl::Launching { ref mut queued_events, .. }
| &mut AppStateImpl::NotLaunched { ref mut queued_events, .. }
| &mut AppStateImpl::InUserCallback { ref mut queued_events, .. } => {
// A lifetime cast: early returns are not currently handled well with NLL, but
// polonius handles them well. This transmute is a safe workaround.
return unsafe {
mem::transmute::<
UserCallbackTransitionResult<'_>,
UserCallbackTransitionResult<'_>,
>(UserCallbackTransitionResult::ReentrancyPrevented {
queued_events,
})
};
},
&mut AppStateImpl::ProcessingEvents { .. }
| &mut AppStateImpl::ProcessingRedraws { .. } => {},
s @ &mut AppStateImpl::PollFinished { .. }
| s @ &mut AppStateImpl::Waiting { .. }
| s @ &mut AppStateImpl::Terminated => {
bug!("unexpected attempted to process an event {:?}", s)
},
}
let (handler, queued_gpu_redraws, active_control_flow, processing_redraws) = match self
.take_state()
{
AppStateImpl::Launching { .. }
| AppStateImpl::NotLaunched { .. }
| AppStateImpl::InUserCallback { .. } => unreachable!(),
AppStateImpl::ProcessingEvents { handler, queued_gpu_redraws, active_control_flow } => {
(handler, queued_gpu_redraws, active_control_flow, false)
},
AppStateImpl::ProcessingRedraws { handler, active_control_flow } => {
(handler, Default::default(), active_control_flow, true)
},
AppStateImpl::PollFinished { .. }
| AppStateImpl::Waiting { .. }
| AppStateImpl::Terminated => unreachable!(),
};
self.set_state(AppStateImpl::InUserCallback {
queued_events: Vec::new(),
queued_gpu_redraws,
});
UserCallbackTransitionResult::Success { handler, active_control_flow, processing_redraws }
}
fn main_events_cleared_transition(&mut self) -> HashSet<Id<WinitUIWindow>> {
let (handler, queued_gpu_redraws, active_control_flow) = match self.take_state() {
AppStateImpl::ProcessingEvents { handler, queued_gpu_redraws, active_control_flow } => {
(handler, queued_gpu_redraws, active_control_flow)
},
s => bug!("unexpected state {:?}", s),
};
self.set_state(AppStateImpl::ProcessingRedraws { handler, active_control_flow });
queued_gpu_redraws
}
fn events_cleared_transition(&mut self) {
if !self.has_launched() || self.has_terminated() {
return;
}
let (waiting_handler, old) = match self.take_state() {
AppStateImpl::ProcessingRedraws { handler, active_control_flow } => {
(handler, active_control_flow)
},
s => bug!("unexpected state {:?}", s),
};
let new = self.control_flow;
match (old, new) {
(ControlFlow::Wait, ControlFlow::Wait) => {
let start = Instant::now();
self.set_state(AppStateImpl::Waiting { waiting_handler, start });
},
(ControlFlow::WaitUntil(old_instant), ControlFlow::WaitUntil(new_instant))
if old_instant == new_instant =>
{
let start = Instant::now();
self.set_state(AppStateImpl::Waiting { waiting_handler, start });
},
(_, ControlFlow::Wait) => {
let start = Instant::now();
self.set_state(AppStateImpl::Waiting { waiting_handler, start });
self.waker.stop()
},
(_, ControlFlow::WaitUntil(new_instant)) => {
let start = Instant::now();
self.set_state(AppStateImpl::Waiting { waiting_handler, start });
self.waker.start_at(new_instant)
},
// Unlike on macOS, handle Poll to Poll transition here to call the waker
(_, ControlFlow::Poll) => {
self.set_state(AppStateImpl::PollFinished { waiting_handler });
self.waker.start()
},
}
}
fn terminated_transition(&mut self) -> EventLoopHandler {
match self.replace_state(AppStateImpl::Terminated) {
AppStateImpl::ProcessingEvents { handler, .. } => handler,
s => bug!("`LoopExiting` happened while not processing events {:?}", s),
}
}
pub(crate) fn set_control_flow(&mut self, control_flow: ControlFlow) {
self.control_flow = control_flow;
}
pub(crate) fn control_flow(&self) -> ControlFlow {
self.control_flow
}
}
pub(crate) fn set_key_window(mtm: MainThreadMarker, window: &Id<WinitUIWindow>) {
let mut this = AppState::get_mut(mtm);
match this.state_mut() {
&mut AppStateImpl::NotLaunched { ref mut queued_windows, .. } => {
return queued_windows.push(window.clone())
},
&mut AppStateImpl::ProcessingEvents { .. }
| &mut AppStateImpl::InUserCallback { .. }
| &mut AppStateImpl::ProcessingRedraws { .. } => {},
s @ &mut AppStateImpl::Launching { .. }
| s @ &mut AppStateImpl::Waiting { .. }
| s @ &mut AppStateImpl::PollFinished { .. } => bug!("unexpected state {:?}", s),
&mut AppStateImpl::Terminated => {
panic!("Attempt to create a `Window` after the app has terminated")
},
}
drop(this);
window.makeKeyAndVisible();
}
pub(crate) fn queue_gl_or_metal_redraw(mtm: MainThreadMarker, window: Id<WinitUIWindow>) {
let mut this = AppState::get_mut(mtm);
match this.state_mut() {
&mut AppStateImpl::NotLaunched { ref mut queued_gpu_redraws, .. }
| &mut AppStateImpl::Launching { ref mut queued_gpu_redraws, .. }
| &mut AppStateImpl::ProcessingEvents { ref mut queued_gpu_redraws, .. }
| &mut AppStateImpl::InUserCallback { ref mut queued_gpu_redraws, .. } => {
let _ = queued_gpu_redraws.insert(window);
},
s @ &mut AppStateImpl::ProcessingRedraws { .. }
| s @ &mut AppStateImpl::Waiting { .. }
| s @ &mut AppStateImpl::PollFinished { .. } => bug!("unexpected state {:?}", s),
&mut AppStateImpl::Terminated => {
panic!("Attempt to create a `Window` after the app has terminated")
},
}
}
pub(crate) fn will_launch(mtm: MainThreadMarker, queued_handler: EventLoopHandler) {
AppState::get_mut(mtm).will_launch_transition(queued_handler)
}
pub fn did_finish_launching(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
let windows = match this.state_mut() {
AppStateImpl::Launching { queued_windows, .. } => mem::take(queued_windows),
s => bug!("unexpected state {:?}", s),
};
this.waker.start();
// have to drop RefMut because the window setup code below can trigger new events
drop(this);
for window in windows {
// Do a little screen dance here to account for windows being created before
// `UIApplicationMain` is called. This fixes visual issues such as being
// offcenter and sized incorrectly. Additionally, to fix orientation issues, we
// gotta reset the `rootViewController`.
//
// relevant iOS log:
// ```
// [ApplicationLifecycle] Windows were created before application initialization
// completed. This may result in incorrect visual appearance.
// ```
let screen = window.screen();
let _: () = unsafe { msg_send![&window, setScreen: ptr::null::<AnyObject>()] };
window.setScreen(&screen);
let controller = window.rootViewController();
window.setRootViewController(None);
window.setRootViewController(controller.as_deref());
window.makeKeyAndVisible();
}
let (windows, events) = AppState::get_mut(mtm).did_finish_launching_transition();
let events = std::iter::once(EventWrapper::StaticEvent(Event::NewEvents(StartCause::Init)))
.chain(events);
handle_nonuser_events(mtm, events);
// the above window dance hack, could possibly trigger new windows to be created.
// we can just set those windows up normally, as they were created after didFinishLaunching
for window in windows {
window.makeKeyAndVisible();
}
}
// AppState::did_finish_launching handles the special transition `Init`
pub fn handle_wakeup_transition(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
let wakeup_event = match this.wakeup_transition() {
None => return,
Some(wakeup_event) => wakeup_event,
};
drop(this);
handle_nonuser_event(mtm, wakeup_event)
}
pub(crate) fn handle_nonuser_event(mtm: MainThreadMarker, event: EventWrapper) {
handle_nonuser_events(mtm, std::iter::once(event))
}
pub(crate) fn handle_nonuser_events<I: IntoIterator<Item = EventWrapper>>(
mtm: MainThreadMarker,
events: I,
) {
let mut this = AppState::get_mut(mtm);
if this.has_terminated() {
return;
}
let (mut handler, active_control_flow, processing_redraws) =
match this.try_user_callback_transition() {
UserCallbackTransitionResult::ReentrancyPrevented { queued_events } => {
queued_events.extend(events);
return;
},
UserCallbackTransitionResult::Success {
handler,
active_control_flow,
processing_redraws,
} => (handler, active_control_flow, processing_redraws),
};
drop(this);
for wrapper in events {
match wrapper {
EventWrapper::StaticEvent(event) => {
if !processing_redraws && event.is_redraw() {
tracing::info!("processing `RedrawRequested` during the main event loop");
} else if processing_redraws && !event.is_redraw() {
tracing::warn!(
"processing non `RedrawRequested` event after the main event loop: {:#?}",
event
);
}
handler.handle_event(event)
},
EventWrapper::ScaleFactorChanged(event) => handle_hidpi_proxy(&mut handler, event),
}
}
loop {
let mut this = AppState::get_mut(mtm);
let queued_events = match this.state_mut() {
&mut AppStateImpl::InUserCallback { ref mut queued_events, queued_gpu_redraws: _ } => {
mem::take(queued_events)
},
s => bug!("unexpected state {:?}", s),
};
if queued_events.is_empty() {
let queued_gpu_redraws = match this.take_state() {
AppStateImpl::InUserCallback { queued_events: _, queued_gpu_redraws } => {
queued_gpu_redraws
},
_ => unreachable!(),
};
this.app_state = Some(if processing_redraws {
bug_assert!(
queued_gpu_redraws.is_empty(),
"redraw queued while processing redraws"
);
AppStateImpl::ProcessingRedraws { handler, active_control_flow }
} else {
AppStateImpl::ProcessingEvents { handler, queued_gpu_redraws, active_control_flow }
});
break;
}
drop(this);
for wrapper in queued_events {
match wrapper {
EventWrapper::StaticEvent(event) => {
if !processing_redraws && event.is_redraw() {
tracing::info!("processing `RedrawRequested` during the main event loop");
} else if processing_redraws && !event.is_redraw() {
tracing::warn!(
"processing non-`RedrawRequested` event after the main event loop: \
{:#?}",
event
);
}
handler.handle_event(event)
},
EventWrapper::ScaleFactorChanged(event) => handle_hidpi_proxy(&mut handler, event),
}
}
}
}
fn handle_user_events(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
let (mut handler, active_control_flow, processing_redraws) =
match this.try_user_callback_transition() {
UserCallbackTransitionResult::ReentrancyPrevented { .. } => {
bug!("unexpected attempted to process an event")
},
UserCallbackTransitionResult::Success {
handler,
active_control_flow,
processing_redraws,
} => (handler, active_control_flow, processing_redraws),
};
if processing_redraws {
bug!("user events attempted to be sent out while `ProcessingRedraws`");
}
drop(this);
handler.handle_event(Event::UserEvent(HandlePendingUserEvents));
loop {
let mut this = AppState::get_mut(mtm);
let queued_events = match this.state_mut() {
&mut AppStateImpl::InUserCallback { ref mut queued_events, queued_gpu_redraws: _ } => {
mem::take(queued_events)
},
s => bug!("unexpected state {:?}", s),
};
if queued_events.is_empty() {
let queued_gpu_redraws = match this.take_state() {
AppStateImpl::InUserCallback { queued_events: _, queued_gpu_redraws } => {
queued_gpu_redraws
},
_ => unreachable!(),
};
this.app_state = Some(AppStateImpl::ProcessingEvents {
handler,
queued_gpu_redraws,
active_control_flow,
});
break;
}
drop(this);
for wrapper in queued_events {
match wrapper {
EventWrapper::StaticEvent(event) => handler.handle_event(event),
EventWrapper::ScaleFactorChanged(event) => handle_hidpi_proxy(&mut handler, event),
}
}
handler.handle_event(Event::UserEvent(HandlePendingUserEvents));
}
}
pub fn handle_main_events_cleared(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
if !this.has_launched() || this.has_terminated() {
return;
}
match this.state_mut() {
AppStateImpl::ProcessingEvents { .. } => {},
_ => bug!("`ProcessingRedraws` happened unexpectedly"),
};
drop(this);
handle_user_events(mtm);
let mut this = AppState::get_mut(mtm);
let redraw_events: Vec<EventWrapper> = this
.main_events_cleared_transition()
.into_iter()
.map(|window| {
EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::RedrawRequested,
})
})
.collect();
drop(this);
handle_nonuser_events(mtm, redraw_events);
handle_nonuser_event(mtm, EventWrapper::StaticEvent(Event::AboutToWait));
}
pub fn handle_events_cleared(mtm: MainThreadMarker) {
AppState::get_mut(mtm).events_cleared_transition();
}
pub fn terminated(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
let mut handler = this.terminated_transition();
drop(this);
handler.handle_event(Event::LoopExiting)
}
fn handle_hidpi_proxy(handler: &mut EventLoopHandler, event: ScaleFactorChanged) {
let ScaleFactorChanged { suggested_size, scale_factor, window } = event;
let new_inner_size = Arc::new(Mutex::new(suggested_size));
let event = Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::ScaleFactorChanged {
scale_factor,
inner_size_writer: InnerSizeWriter::new(Arc::downgrade(&new_inner_size)),
},
};
handler.handle_event(event);
let (view, screen_frame) = get_view_and_screen_frame(&window);
let physical_size = *new_inner_size.lock().unwrap();
drop(new_inner_size);
let logical_size = physical_size.to_logical(scale_factor);
let size = CGSize::new(logical_size.width, logical_size.height);
let new_frame: CGRect = CGRect::new(screen_frame.origin, size);
view.setFrame(new_frame);
}
fn get_view_and_screen_frame(window: &WinitUIWindow) -> (Id<UIView>, CGRect) {
let view_controller = window.rootViewController().unwrap();
let view = view_controller.view().unwrap();
let bounds = window.bounds();
let screen = window.screen();
let screen_space = screen.coordinateSpace();
let screen_frame = window.convertRect_toCoordinateSpace(bounds, &screen_space);
(view, screen_frame)
}
struct EventLoopWaker {
timer: CFRunLoopTimerRef,
}
impl Drop for EventLoopWaker {
fn drop(&mut self) {
unsafe {
CFRunLoopTimerInvalidate(self.timer);
CFRelease(self.timer as _);
}
}
}
impl EventLoopWaker {
fn new(rl: CFRunLoopRef) -> EventLoopWaker {
extern "C" fn wakeup_main_loop(_timer: CFRunLoopTimerRef, _info: *mut c_void) {}
unsafe {
// Create a timer with a 0.1µs interval (1ns does not work) to mimic polling.
// It is initially setup with a first fire time really far into the
// future, but that gets changed to fire immediately in did_finish_launching
let timer = CFRunLoopTimerCreate(
ptr::null_mut(),
std::f64::MAX,
0.000_000_1,
0,
0,
wakeup_main_loop,
ptr::null_mut(),
);
CFRunLoopAddTimer(rl, timer, kCFRunLoopCommonModes);
EventLoopWaker { timer }
}
}
fn stop(&mut self) {
unsafe { CFRunLoopTimerSetNextFireDate(self.timer, std::f64::MAX) }
}
fn start(&mut self) {
unsafe { CFRunLoopTimerSetNextFireDate(self.timer, std::f64::MIN) }
}
fn start_at(&mut self, instant: Instant) {
let now = Instant::now();
if now >= instant {
self.start();
} else {
unsafe {
let current = CFAbsoluteTimeGetCurrent();
let duration = instant - now;
let fsecs =
duration.subsec_nanos() as f64 / 1_000_000_000.0 + duration.as_secs() as f64;
CFRunLoopTimerSetNextFireDate(self.timer, current + fsecs)
}
}
}
}
macro_rules! os_capabilities {
(
$(
$(#[$attr:meta])*
$error_name:ident: $objc_call:literal,
$name:ident: $major:literal-$minor:literal
),*
$(,)*
) => {
#[derive(Clone, Debug)]
pub struct OSCapabilities {
$(
pub $name: bool,
)*
os_version: NSOperatingSystemVersion,
}
impl OSCapabilities {
fn from_os_version(os_version: NSOperatingSystemVersion) -> Self {
$(let $name = meets_requirements(os_version, $major, $minor);)*
Self { $($name,)* os_version, }
}
}
impl OSCapabilities {$(
$(#[$attr])*
pub fn $error_name(&self, extra_msg: &str) {
tracing::warn!(
concat!("`", $objc_call, "` requires iOS {}.{}+. This device is running iOS {}.{}.{}. {}"),
$major, $minor, self.os_version.majorVersion, self.os_version.minorVersion, self.os_version.patchVersion,
extra_msg
)
}
)*}
};
}
os_capabilities! {
/// <https://developer.apple.com/documentation/uikit/uiview/2891103-safeareainsets?language=objc>
#[allow(unused)] // error message unused
safe_area_err_msg: "-[UIView safeAreaInsets]",
safe_area: 11-0,
/// <https://developer.apple.com/documentation/uikit/uiviewcontroller/2887509-setneedsupdateofhomeindicatoraut?language=objc>
home_indicator_hidden_err_msg: "-[UIViewController setNeedsUpdateOfHomeIndicatorAutoHidden]",
home_indicator_hidden: 11-0,
/// <https://developer.apple.com/documentation/uikit/uiviewcontroller/2887507-setneedsupdateofscreenedgesdefer?language=objc>
defer_system_gestures_err_msg: "-[UIViewController setNeedsUpdateOfScreenEdgesDeferringSystem]",
defer_system_gestures: 11-0,
/// <https://developer.apple.com/documentation/uikit/uiscreen/2806814-maximumframespersecond?language=objc>
maximum_frames_per_second_err_msg: "-[UIScreen maximumFramesPerSecond]",
maximum_frames_per_second: 10-3,
/// <https://developer.apple.com/documentation/uikit/uitouch/1618110-force?language=objc>
#[allow(unused)] // error message unused
force_touch_err_msg: "-[UITouch force]",
force_touch: 9-0,
}
fn meets_requirements(
version: NSOperatingSystemVersion,
required_major: NSInteger,
required_minor: NSInteger,
) -> bool {
(version.majorVersion, version.minorVersion) >= (required_major, required_minor)
}
fn get_version() -> NSOperatingSystemVersion {
unsafe {
let process_info = NSProcessInfo::processInfo();
let atleast_ios_8: bool = msg_send![
&process_info,
respondsToSelector: sel!(operatingSystemVersion)
];
// winit requires atleast iOS 8 because no one has put the time into supporting earlier os
// versions. Older iOS versions are increasingly difficult to test. For example,
// Xcode 11 does not support debugging on devices with an iOS version of less than
// 8. Another example, in order to use an iOS simulator older than iOS 8, you must
// download an older version of Xcode (<9), and at least Xcode 7 has been tested to
// not even run on macOS 10.15 - Xcode 8 might?
//
// The minimum required iOS version is likely to grow in the future.
assert!(atleast_ios_8, "`winit` requires iOS version 8 or greater");
process_info.operatingSystemVersion()
}
}
pub fn os_capabilities() -> OSCapabilities {
// Cache the version lookup for efficiency
static OS_CAPABILITIES: OnceLock<OSCapabilities> = OnceLock::new();
OS_CAPABILITIES.get_or_init(|| OSCapabilities::from_os_version(get_version())).clone()
}

373
src/platform_impl/ios/event_loop.rs
View File

@@ -1,373 +0,0 @@
use std::collections::VecDeque;
use std::ffi::c_void;
use std::marker::PhantomData;
use std::ptr;
use std::sync::mpsc::{self, Receiver, Sender};
use core_foundation::base::{CFIndex, CFRelease};
use core_foundation::runloop::{
kCFRunLoopAfterWaiting, kCFRunLoopBeforeWaiting, kCFRunLoopCommonModes, kCFRunLoopDefaultMode,
kCFRunLoopExit, CFRunLoopActivity, CFRunLoopAddObserver, CFRunLoopAddSource, CFRunLoopGetMain,
CFRunLoopObserverCreate, CFRunLoopObserverRef, CFRunLoopSourceContext, CFRunLoopSourceCreate,
CFRunLoopSourceInvalidate, CFRunLoopSourceRef, CFRunLoopSourceSignal, CFRunLoopWakeUp,
};
use objc2::ClassType;
use objc2_foundation::{MainThreadMarker, NSString};
use crate::error::EventLoopError;
use crate::event::Event;
use crate::event_loop::{
ActiveEventLoop as RootActiveEventLoop, ControlFlow, DeviceEvents, EventLoopClosed,
};
use crate::platform::ios::Idiom;
use crate::platform_impl::platform::app_state::{EventLoopHandler, HandlePendingUserEvents};
use crate::window::{CustomCursor, CustomCursorSource};
use super::app_delegate::AppDelegate;
use super::app_state::AppState;
use super::uikit::{UIApplication, UIApplicationMain, UIDevice, UIScreen, UIUserInterfaceIdiom};
use super::{app_state, monitor, MonitorHandle};
#[derive(Debug)]
pub struct ActiveEventLoop {
pub(super) mtm: MainThreadMarker,
}
impl ActiveEventLoop {
pub fn create_custom_cursor(&self, source: CustomCursorSource) -> CustomCursor {
let _ = source.inner;
CustomCursor { inner: super::PlatformCustomCursor }
}
pub fn available_monitors(&self) -> VecDeque<MonitorHandle> {
monitor::uiscreens(self.mtm)
}
pub fn primary_monitor(&self) -> Option<MonitorHandle> {
Some(MonitorHandle::new(UIScreen::main(self.mtm)))
}
#[inline]
pub fn listen_device_events(&self, _allowed: DeviceEvents) {}
#[cfg(feature = "rwh_05")]
#[inline]
pub fn raw_display_handle_rwh_05(&self) -> rwh_05::RawDisplayHandle {
rwh_05::RawDisplayHandle::UiKit(rwh_05::UiKitDisplayHandle::empty())
}
#[cfg(feature = "rwh_06")]
#[inline]
pub fn raw_display_handle_rwh_06(
&self,
) -> Result<rwh_06::RawDisplayHandle, rwh_06::HandleError> {
Ok(rwh_06::RawDisplayHandle::UiKit(rwh_06::UiKitDisplayHandle::new()))
}
pub(crate) fn set_control_flow(&self, control_flow: ControlFlow) {
AppState::get_mut(self.mtm).set_control_flow(control_flow)
}
pub(crate) fn control_flow(&self) -> ControlFlow {
AppState::get_mut(self.mtm).control_flow()
}
pub(crate) fn exit(&self) {
// https://developer.apple.com/library/archive/qa/qa1561/_index.html
// it is not possible to quit an iOS app gracefully and programmatically
tracing::warn!("`ControlFlow::Exit` ignored on iOS");
}
pub(crate) fn exiting(&self) -> bool {
false
}
pub(crate) fn owned_display_handle(&self) -> OwnedDisplayHandle {
OwnedDisplayHandle
}
}
#[derive(Clone)]
pub(crate) struct OwnedDisplayHandle;
impl OwnedDisplayHandle {
#[cfg(feature = "rwh_05")]
#[inline]
pub fn raw_display_handle_rwh_05(&self) -> rwh_05::RawDisplayHandle {
rwh_05::UiKitDisplayHandle::empty().into()
}
#[cfg(feature = "rwh_06")]
#[inline]
pub fn raw_display_handle_rwh_06(
&self,
) -> Result<rwh_06::RawDisplayHandle, rwh_06::HandleError> {
Ok(rwh_06::UiKitDisplayHandle::new().into())
}
}
fn map_user_event<T: 'static>(
mut handler: impl FnMut(Event<T>, &RootActiveEventLoop),
receiver: mpsc::Receiver<T>,
) -> impl FnMut(Event<HandlePendingUserEvents>, &RootActiveEventLoop) {
move |event, window_target| match event.map_nonuser_event() {
Ok(event) => (handler)(event, window_target),
Err(_) => {
for event in receiver.try_iter() {
(handler)(Event::UserEvent(event), window_target);
}
},
}
}
pub struct EventLoop<T: 'static> {
mtm: MainThreadMarker,
sender: Sender<T>,
receiver: Receiver<T>,
window_target: RootActiveEventLoop,
}
#[derive(Default, Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub(crate) struct PlatformSpecificEventLoopAttributes {}
impl<T: 'static> EventLoop<T> {
pub(crate) fn new(
_: &PlatformSpecificEventLoopAttributes,
) -> Result<EventLoop<T>, EventLoopError> {
let mtm = MainThreadMarker::new()
.expect("On iOS, `EventLoop` must be created on the main thread");
static mut SINGLETON_INIT: bool = false;
unsafe {
assert!(
!SINGLETON_INIT,
"Only one `EventLoop` is supported on iOS. `EventLoopProxy` might be helpful"
);
SINGLETON_INIT = true;
}
let (sender, receiver) = mpsc::channel();
// this line sets up the main run loop before `UIApplicationMain`
setup_control_flow_observers();
Ok(EventLoop {
mtm,
sender,
receiver,
window_target: RootActiveEventLoop { p: ActiveEventLoop { mtm }, _marker: PhantomData },
})
}
pub fn run<F>(self, handler: F) -> !
where
F: FnMut(Event<T>, &RootActiveEventLoop),
{
let application = UIApplication::shared(self.mtm);
assert!(
application.is_none(),
"\
`EventLoop` cannot be `run` after a call to `UIApplicationMain` on iOS\nNote: \
`EventLoop::run_app` calls `UIApplicationMain` on iOS",
);
let handler = map_user_event(handler, self.receiver);
let handler = unsafe {
std::mem::transmute::<
Box<dyn FnMut(Event<HandlePendingUserEvents>, &RootActiveEventLoop)>,
Box<dyn FnMut(Event<HandlePendingUserEvents>, &RootActiveEventLoop)>,
>(Box::new(handler))
};
let handler = EventLoopHandler { handler, event_loop: self.window_target };
app_state::will_launch(self.mtm, handler);
// Ensure application delegate is initialized
let _ = AppDelegate::class();
unsafe {
UIApplicationMain(0, ptr::null(), None, Some(&NSString::from_str(AppDelegate::NAME)))
};
unreachable!()
}
pub fn create_proxy(&self) -> EventLoopProxy<T> {
EventLoopProxy::new(self.sender.clone())
}
pub fn window_target(&self) -> &RootActiveEventLoop {
&self.window_target
}
}
// EventLoopExtIOS
impl<T: 'static> EventLoop<T> {
pub fn idiom(&self) -> Idiom {
match UIDevice::current(self.mtm).userInterfaceIdiom() {
UIUserInterfaceIdiom::Unspecified => Idiom::Unspecified,
UIUserInterfaceIdiom::Phone => Idiom::Phone,
UIUserInterfaceIdiom::Pad => Idiom::Pad,
UIUserInterfaceIdiom::TV => Idiom::TV,
UIUserInterfaceIdiom::CarPlay => Idiom::CarPlay,
_ => Idiom::Unspecified,
}
}
}
pub struct EventLoopProxy<T> {
sender: Sender<T>,
source: CFRunLoopSourceRef,
}
unsafe impl<T: Send> Send for EventLoopProxy<T> {}
unsafe impl<T: Send> Sync for EventLoopProxy<T> {}
impl<T> Clone for EventLoopProxy<T> {
fn clone(&self) -> EventLoopProxy<T> {
EventLoopProxy::new(self.sender.clone())
}
}
impl<T> Drop for EventLoopProxy<T> {
fn drop(&mut self) {
unsafe {
CFRunLoopSourceInvalidate(self.source);
CFRelease(self.source as _);
}
}
}
impl<T> EventLoopProxy<T> {
fn new(sender: Sender<T>) -> EventLoopProxy<T> {
unsafe {
// just wake up the eventloop
extern "C" fn event_loop_proxy_handler(_: *const c_void) {}
// adding a Source to the main CFRunLoop lets us wake it up and
// process user events through the normal OS EventLoop mechanisms.
let rl = CFRunLoopGetMain();
let mut context = CFRunLoopSourceContext {
version: 0,
info: ptr::null_mut(),
retain: None,
release: None,
copyDescription: None,
equal: None,
hash: None,
schedule: None,
cancel: None,
perform: event_loop_proxy_handler,
};
let source =
CFRunLoopSourceCreate(ptr::null_mut(), CFIndex::max_value() - 1, &mut context);
CFRunLoopAddSource(rl, source, kCFRunLoopCommonModes);
CFRunLoopWakeUp(rl);
EventLoopProxy { sender, source }
}
}
pub fn send_event(&self, event: T) -> Result<(), EventLoopClosed<T>> {
self.sender.send(event).map_err(|::std::sync::mpsc::SendError(x)| EventLoopClosed(x))?;
unsafe {
// let the main thread know there's a new event
CFRunLoopSourceSignal(self.source);
let rl = CFRunLoopGetMain();
CFRunLoopWakeUp(rl);
}
Ok(())
}
}
fn setup_control_flow_observers() {
unsafe {
// begin is queued with the highest priority to ensure it is processed before other
// observers
extern "C" fn control_flow_begin_handler(
_: CFRunLoopObserverRef,
activity: CFRunLoopActivity,
_: *mut c_void,
) {
let mtm = MainThreadMarker::new().unwrap();
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopAfterWaiting => app_state::handle_wakeup_transition(mtm),
_ => unreachable!(),
}
}
// Core Animation registers its `CFRunLoopObserver` that performs drawing operations in
// `CA::Transaction::ensure_implicit` with a priority of `0x1e8480`. We set the main_end
// priority to be 0, in order to send AboutToWait before RedrawRequested. This value was
// chosen conservatively to guard against apple using different priorities for their redraw
// observers in different OS's or on different devices. If it so happens that it's too
// conservative, the main symptom would be non-redraw events coming in after `AboutToWait`.
//
// The value of `0x1e8480` was determined by inspecting stack traces and the associated
// registers for every `CFRunLoopAddObserver` call on an iPad Air 2 running iOS 11.4.
//
// Also tested to be `0x1e8480` on iPhone 8, iOS 13 beta 4.
extern "C" fn control_flow_main_end_handler(
_: CFRunLoopObserverRef,
activity: CFRunLoopActivity,
_: *mut c_void,
) {
let mtm = MainThreadMarker::new().unwrap();
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopBeforeWaiting => app_state::handle_main_events_cleared(mtm),
kCFRunLoopExit => {}, // may happen when running on macOS
_ => unreachable!(),
}
}
// end is queued with the lowest priority to ensure it is processed after other observers
extern "C" fn control_flow_end_handler(
_: CFRunLoopObserverRef,
activity: CFRunLoopActivity,
_: *mut c_void,
) {
let mtm = MainThreadMarker::new().unwrap();
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopBeforeWaiting => app_state::handle_events_cleared(mtm),
kCFRunLoopExit => {}, // may happen when running on macOS
_ => unreachable!(),
}
}
let main_loop = CFRunLoopGetMain();
let begin_observer = CFRunLoopObserverCreate(
ptr::null_mut(),
kCFRunLoopAfterWaiting,
1, // repeat = true
CFIndex::min_value(),
control_flow_begin_handler,
ptr::null_mut(),
);
CFRunLoopAddObserver(main_loop, begin_observer, kCFRunLoopDefaultMode);
let main_end_observer = CFRunLoopObserverCreate(
ptr::null_mut(),
kCFRunLoopExit | kCFRunLoopBeforeWaiting,
1, // repeat = true
0, // see comment on `control_flow_main_end_handler`
control_flow_main_end_handler,
ptr::null_mut(),
);
CFRunLoopAddObserver(main_loop, main_end_observer, kCFRunLoopDefaultMode);
let end_observer = CFRunLoopObserverCreate(
ptr::null_mut(),
kCFRunLoopExit | kCFRunLoopBeforeWaiting,
1, // repeat = true
CFIndex::max_value(),
control_flow_end_handler,
ptr::null_mut(),
);
CFRunLoopAddObserver(main_loop, end_observer, kCFRunLoopDefaultMode);
}
}

31
src/platform_impl/ios/uikit/application.rs
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@@ -1,31 +0,0 @@
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2_foundation::{CGRect, MainThreadMarker, NSArray, NSObject};
use super::{UIResponder, UIWindow};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIApplication;
unsafe impl ClassType for UIApplication {
#[inherits(NSObject)]
type Super = UIResponder;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIApplication {
pub fn shared(_mtm: MainThreadMarker) -> Option<Id<Self>> {
unsafe { msg_send_id![Self::class(), sharedApplication] }
}
pub fn windows(&self) -> Id<NSArray<UIWindow>> {
unsafe { msg_send_id![self, windows] }
}
#[method(statusBarFrame)]
pub fn statusBarFrame(&self) -> CGRect;
}
);

12
src/platform_impl/ios/uikit/coordinate_space.rs
View File

@@ -1,12 +0,0 @@
use objc2::{extern_class, mutability, ClassType};
use objc2_foundation::NSObject;
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UICoordinateSpace;
unsafe impl ClassType for UICoordinateSpace {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);

41
src/platform_impl/ios/uikit/device.rs
View File

@@ -1,41 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2_foundation::{MainThreadMarker, NSInteger, NSObject};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIDevice;
unsafe impl ClassType for UIDevice {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIDevice {
pub fn current(_mtm: MainThreadMarker) -> Id<Self> {
unsafe { msg_send_id![Self::class(), currentDevice] }
}
#[method(userInterfaceIdiom)]
pub fn userInterfaceIdiom(&self) -> UIUserInterfaceIdiom;
}
);
#[repr(transparent)]
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct UIUserInterfaceIdiom(NSInteger);
unsafe impl Encode for UIUserInterfaceIdiom {
const ENCODING: Encoding = NSInteger::ENCODING;
}
impl UIUserInterfaceIdiom {
pub const Unspecified: UIUserInterfaceIdiom = UIUserInterfaceIdiom(-1);
pub const Phone: UIUserInterfaceIdiom = UIUserInterfaceIdiom(0);
pub const Pad: UIUserInterfaceIdiom = UIUserInterfaceIdiom(1);
pub const TV: UIUserInterfaceIdiom = UIUserInterfaceIdiom(2);
pub const CarPlay: UIUserInterfaceIdiom = UIUserInterfaceIdiom(3);
}

12
src/platform_impl/ios/uikit/event.rs
View File

@@ -1,12 +0,0 @@
use objc2::{extern_class, mutability, ClassType};
use objc2_foundation::NSObject;
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIEvent;
unsafe impl ClassType for UIEvent {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);

14
src/platform_impl/ios/uikit/geometry.rs
View File

@@ -1,14 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2_foundation::NSUInteger;
#[repr(transparent)]
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct UIRectEdge(pub NSUInteger);
impl UIRectEdge {
pub const NONE: Self = Self(0);
}
unsafe impl Encode for UIRectEdge {
const ENCODING: Encoding = NSUInteger::ENCODING;
}

119
src/platform_impl/ios/uikit/gesture_recognizer.rs
View File

@@ -1,119 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2::{extern_class, extern_methods, mutability, ClassType};
use objc2_foundation::{CGFloat, NSInteger, NSObject, NSUInteger};
// https://developer.apple.com/documentation/uikit/uigesturerecognizer
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIGestureRecognizer;
unsafe impl ClassType for UIGestureRecognizer {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIGestureRecognizer {
#[method(state)]
pub fn state(&self) -> UIGestureRecognizerState;
}
);
unsafe impl Encode for UIGestureRecognizer {
const ENCODING: Encoding = Encoding::Object;
}
// https://developer.apple.com/documentation/uikit/uigesturerecognizer/state
#[repr(transparent)]
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct UIGestureRecognizerState(NSInteger);
unsafe impl Encode for UIGestureRecognizerState {
const ENCODING: Encoding = NSInteger::ENCODING;
}
#[allow(dead_code)]
impl UIGestureRecognizerState {
pub const Possible: Self = Self(0);
pub const Began: Self = Self(1);
pub const Changed: Self = Self(2);
pub const Ended: Self = Self(3);
pub const Cancelled: Self = Self(4);
pub const Failed: Self = Self(5);
}
// https://developer.apple.com/documentation/uikit/uipinchgesturerecognizer
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIPinchGestureRecognizer;
unsafe impl ClassType for UIPinchGestureRecognizer {
type Super = UIGestureRecognizer;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIPinchGestureRecognizer {
#[method(scale)]
pub fn scale(&self) -> CGFloat;
#[method(velocity)]
pub fn velocity(&self) -> CGFloat;
}
);
unsafe impl Encode for UIPinchGestureRecognizer {
const ENCODING: Encoding = Encoding::Object;
}
// https://developer.apple.com/documentation/uikit/uirotationgesturerecognizer
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIRotationGestureRecognizer;
unsafe impl ClassType for UIRotationGestureRecognizer {
type Super = UIGestureRecognizer;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIRotationGestureRecognizer {
#[method(rotation)]
pub fn rotation(&self) -> CGFloat;
#[method(velocity)]
pub fn velocity(&self) -> CGFloat;
}
);
unsafe impl Encode for UIRotationGestureRecognizer {
const ENCODING: Encoding = Encoding::Object;
}
// https://developer.apple.com/documentation/uikit/uitapgesturerecognizer
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UITapGestureRecognizer;
unsafe impl ClassType for UITapGestureRecognizer {
type Super = UIGestureRecognizer;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UITapGestureRecognizer {
#[method(setNumberOfTapsRequired:)]
pub fn setNumberOfTapsRequired(&self, number_of_taps_required: NSUInteger);
#[method(setNumberOfTouchesRequired:)]
pub fn setNumberOfTouchesRequired(&self, number_of_touches_required: NSUInteger);
}
);
unsafe impl Encode for UITapGestureRecognizer {
const ENCODING: Encoding = Encoding::Object;
}

52
src/platform_impl/ios/uikit/mod.rs
View File

@@ -1,52 +0,0 @@
#![allow(non_snake_case)]
#![allow(non_upper_case_globals)]
use std::os::raw::{c_char, c_int};
use objc2_foundation::NSString;
mod application;
mod coordinate_space;
mod device;
mod event;
mod geometry;
mod gesture_recognizer;
mod responder;
mod screen;
mod screen_mode;
mod status_bar_style;
mod touch;
mod trait_collection;
mod view;
mod view_controller;
mod window;
pub(crate) use self::application::UIApplication;
pub(crate) use self::coordinate_space::UICoordinateSpace;
pub(crate) use self::device::{UIDevice, UIUserInterfaceIdiom};
pub(crate) use self::event::UIEvent;
pub(crate) use self::geometry::UIRectEdge;
pub(crate) use self::gesture_recognizer::{
UIGestureRecognizer, UIGestureRecognizerState, UIPinchGestureRecognizer,
UIRotationGestureRecognizer, UITapGestureRecognizer,
};
pub(crate) use self::responder::UIResponder;
pub(crate) use self::screen::{UIScreen, UIScreenOverscanCompensation};
pub(crate) use self::screen_mode::UIScreenMode;
pub(crate) use self::status_bar_style::UIStatusBarStyle;
pub(crate) use self::touch::{UITouch, UITouchPhase, UITouchType};
pub(crate) use self::trait_collection::{UIForceTouchCapability, UITraitCollection};
#[allow(unused_imports)]
pub(crate) use self::view::{UIEdgeInsets, UIView};
pub(crate) use self::view_controller::{UIInterfaceOrientationMask, UIViewController};
pub(crate) use self::window::UIWindow;
#[link(name = "UIKit", kind = "framework")]
extern "C" {
pub fn UIApplicationMain(
argc: c_int,
argv: *const c_char,
principalClassName: Option<&NSString>,
delegateClassName: Option<&NSString>,
) -> c_int;
}

12
src/platform_impl/ios/uikit/responder.rs
View File

@@ -1,12 +0,0 @@
use objc2::{extern_class, mutability, ClassType};
use objc2_foundation::NSObject;
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIResponder;
unsafe impl ClassType for UIResponder {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);

80
src/platform_impl/ios/uikit/screen.rs
View File

@@ -1,80 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2_foundation::{CGFloat, CGRect, MainThreadMarker, NSArray, NSInteger, NSObject};
use super::{UICoordinateSpace, UIScreenMode};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIScreen;
unsafe impl ClassType for UIScreen {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIScreen {
pub fn main(_mtm: MainThreadMarker) -> Id<Self> {
unsafe { msg_send_id![Self::class(), mainScreen] }
}
pub fn screens(_mtm: MainThreadMarker) -> Id<NSArray<Self>> {
unsafe { msg_send_id![Self::class(), screens] }
}
#[method(bounds)]
pub fn bounds(&self) -> CGRect;
#[method(scale)]
pub fn scale(&self) -> CGFloat;
#[method(nativeBounds)]
pub fn nativeBounds(&self) -> CGRect;
#[method(nativeScale)]
pub fn nativeScale(&self) -> CGFloat;
#[method(maximumFramesPerSecond)]
pub fn maximumFramesPerSecond(&self) -> NSInteger;
pub fn mirroredScreen(&self) -> Id<Self> {
unsafe { msg_send_id![Self::class(), mirroredScreen] }
}
pub fn preferredMode(&self) -> Option<Id<UIScreenMode>> {
unsafe { msg_send_id![self, preferredMode] }
}
#[method(setCurrentMode:)]
pub fn setCurrentMode(&self, mode: Option<&UIScreenMode>);
pub fn availableModes(&self) -> Id<NSArray<UIScreenMode>> {
unsafe { msg_send_id![self, availableModes] }
}
#[method(setOverscanCompensation:)]
pub fn setOverscanCompensation(&self, overscanCompensation: UIScreenOverscanCompensation);
pub fn coordinateSpace(&self) -> Id<UICoordinateSpace> {
unsafe { msg_send_id![self, coordinateSpace] }
}
}
);
#[repr(transparent)]
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct UIScreenOverscanCompensation(NSInteger);
unsafe impl Encode for UIScreenOverscanCompensation {
const ENCODING: Encoding = NSInteger::ENCODING;
}
#[allow(dead_code)]
impl UIScreenOverscanCompensation {
pub const Scale: Self = Self(0);
pub const InsetBounds: Self = Self(1);
pub const None: Self = Self(2);
}

19
src/platform_impl/ios/uikit/screen_mode.rs
View File

@@ -1,19 +0,0 @@
use objc2::{extern_class, extern_methods, mutability, ClassType};
use objc2_foundation::{CGSize, NSObject};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIScreenMode;
unsafe impl ClassType for UIScreenMode {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIScreenMode {
#[method(size)]
pub fn size(&self) -> CGSize;
}
);

16
src/platform_impl/ios/uikit/status_bar_style.rs
View File

@@ -1,16 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2_foundation::NSInteger;
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq)]
#[allow(dead_code)]
#[repr(isize)]
pub enum UIStatusBarStyle {
#[default]
Default = 0,
LightContent = 1,
DarkContent = 3,
}
unsafe impl Encode for UIStatusBarStyle {
const ENCODING: Encoding = NSInteger::ENCODING;
}

65
src/platform_impl/ios/uikit/touch.rs
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@@ -1,65 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2::{extern_class, extern_methods, mutability, ClassType};
use objc2_foundation::{CGFloat, CGPoint, NSInteger, NSObject};
use super::UIView;
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UITouch;
unsafe impl ClassType for UITouch {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UITouch {
#[method(locationInView:)]
pub fn locationInView(&self, view: Option<&UIView>) -> CGPoint;
#[method(type)]
pub fn type_(&self) -> UITouchType;
#[method(force)]
pub fn force(&self) -> CGFloat;
#[method(maximumPossibleForce)]
pub fn maximumPossibleForce(&self) -> CGFloat;
#[method(altitudeAngle)]
pub fn altitudeAngle(&self) -> CGFloat;
#[method(phase)]
pub fn phase(&self) -> UITouchPhase;
}
);
#[derive(Debug, PartialEq, Eq)]
#[allow(dead_code)]
#[repr(isize)]
pub enum UITouchType {
Direct = 0,
Indirect,
Pencil,
}
unsafe impl Encode for UITouchType {
const ENCODING: Encoding = NSInteger::ENCODING;
}
#[derive(Debug)]
#[allow(dead_code)]
#[repr(isize)]
pub enum UITouchPhase {
Began = 0,
Moved,
Stationary,
Ended,
Cancelled,
}
unsafe impl Encode for UITouchPhase {
const ENCODING: Encoding = NSInteger::ENCODING;
}

33
src/platform_impl/ios/uikit/trait_collection.rs
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@@ -1,33 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2::{extern_class, extern_methods, mutability, ClassType};
use objc2_foundation::{NSInteger, NSObject};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UITraitCollection;
unsafe impl ClassType for UITraitCollection {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UITraitCollection {
#[method(forceTouchCapability)]
pub fn forceTouchCapability(&self) -> UIForceTouchCapability;
}
);
#[derive(Debug, PartialEq, Eq)]
#[allow(dead_code)]
#[repr(isize)]
pub enum UIForceTouchCapability {
Unknown = 0,
Unavailable,
Available,
}
unsafe impl Encode for UIForceTouchCapability {
const ENCODING: Encoding = NSInteger::ENCODING;
}

93
src/platform_impl/ios/uikit/view.rs
View File

@@ -1,93 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2_foundation::{CGFloat, CGRect, NSObject};
use super::{UICoordinateSpace, UIGestureRecognizer, UIResponder, UIViewController};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIView;
unsafe impl ClassType for UIView {
#[inherits(NSObject)]
type Super = UIResponder;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIView {
#[method(bounds)]
pub fn bounds(&self) -> CGRect;
#[method(setBounds:)]
pub fn setBounds(&self, value: CGRect);
#[method(frame)]
pub fn frame(&self) -> CGRect;
#[method(setFrame:)]
pub fn setFrame(&self, value: CGRect);
#[method(contentScaleFactor)]
pub fn contentScaleFactor(&self) -> CGFloat;
#[method(setContentScaleFactor:)]
pub fn setContentScaleFactor(&self, val: CGFloat);
#[method(setMultipleTouchEnabled:)]
pub fn setMultipleTouchEnabled(&self, val: bool);
pub fn rootViewController(&self) -> Option<Id<UIViewController>> {
unsafe { msg_send_id![self, rootViewController] }
}
#[method(setRootViewController:)]
pub fn setRootViewController(&self, rootViewController: Option<&UIViewController>);
#[method(convertRect:toCoordinateSpace:)]
pub fn convertRect_toCoordinateSpace(
&self,
rect: CGRect,
coordinateSpace: &UICoordinateSpace,
) -> CGRect;
#[method(convertRect:fromCoordinateSpace:)]
pub fn convertRect_fromCoordinateSpace(
&self,
rect: CGRect,
coordinateSpace: &UICoordinateSpace,
) -> CGRect;
#[method(safeAreaInsets)]
pub fn safeAreaInsets(&self) -> UIEdgeInsets;
#[method(setNeedsDisplay)]
pub fn setNeedsDisplay(&self);
#[method(addGestureRecognizer:)]
pub fn addGestureRecognizer(&self, gestureRecognizer: &UIGestureRecognizer);
#[method(removeGestureRecognizer:)]
pub fn removeGestureRecognizer(&self, gestureRecognizer: &UIGestureRecognizer);
}
);
#[repr(C)]
#[derive(Debug, Clone)]
pub struct UIEdgeInsets {
pub top: CGFloat,
pub left: CGFloat,
pub bottom: CGFloat,
pub right: CGFloat,
}
unsafe impl Encode for UIEdgeInsets {
const ENCODING: Encoding = Encoding::Struct("UIEdgeInsets", &[
CGFloat::ENCODING,
CGFloat::ENCODING,
CGFloat::ENCODING,
CGFloat::ENCODING,
]);
}

57
src/platform_impl/ios/uikit/view_controller.rs
View File

@@ -1,57 +0,0 @@
use objc2::encode::{Encode, Encoding};
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2_foundation::{NSObject, NSUInteger};
use super::{UIResponder, UIView};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIViewController;
unsafe impl ClassType for UIViewController {
#[inherits(NSObject)]
type Super = UIResponder;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIViewController {
#[method(attemptRotationToDeviceOrientation)]
pub fn attemptRotationToDeviceOrientation();
#[method(setNeedsStatusBarAppearanceUpdate)]
pub fn setNeedsStatusBarAppearanceUpdate(&self);
#[method(setNeedsUpdateOfHomeIndicatorAutoHidden)]
pub fn setNeedsUpdateOfHomeIndicatorAutoHidden(&self);
#[method(setNeedsUpdateOfScreenEdgesDeferringSystemGestures)]
pub fn setNeedsUpdateOfScreenEdgesDeferringSystemGestures(&self);
pub fn view(&self) -> Option<Id<UIView>> {
unsafe { msg_send_id![self, view] }
}
#[method(setView:)]
pub fn setView(&self, view: Option<&UIView>);
}
);
bitflags::bitflags! {
#[derive(Clone, Copy)]
pub struct UIInterfaceOrientationMask: NSUInteger {
const Portrait = 1 << 1;
const PortraitUpsideDown = 1 << 2;
const LandscapeRight = 1 << 3;
const LandscapeLeft = 1 << 4;
const Landscape = Self::LandscapeLeft.bits() | Self::LandscapeRight.bits();
const AllButUpsideDown = Self::Landscape.bits() | Self::Portrait.bits();
const All = Self::AllButUpsideDown.bits() | Self::PortraitUpsideDown.bits();
}
}
unsafe impl Encode for UIInterfaceOrientationMask {
const ENCODING: Encoding = NSUInteger::ENCODING;
}

36
src/platform_impl/ios/uikit/window.rs
View File

@@ -1,36 +0,0 @@
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2_foundation::NSObject;
use super::{UIResponder, UIScreen, UIView};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct UIWindow;
unsafe impl ClassType for UIWindow {
#[inherits(UIResponder, NSObject)]
type Super = UIView;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIWindow {
pub fn screen(&self) -> Id<UIScreen> {
unsafe { msg_send_id![self, screen] }
}
#[method(setScreen:)]
pub fn setScreen(&self, screen: &UIScreen);
#[method(setHidden:)]
pub fn setHidden(&self, flag: bool);
#[method(makeKeyAndVisible)]
pub fn makeKeyAndVisible(&self);
#[method(isKeyWindow)]
pub fn isKeyWindow(&self) -> bool;
}
);

387
src/platform_impl/ios/view.rs
View File

@@ -1,387 +0,0 @@
#![allow(clippy::unnecessary_cast)]
use std::cell::RefCell;
use objc2::rc::Id;
use objc2::runtime::AnyClass;
use objc2::{
declare_class, extern_methods, msg_send, msg_send_id, mutability, sel, ClassType, DeclaredClass,
};
use objc2_foundation::{CGFloat, CGRect, MainThreadMarker, NSObject, NSSet};
use super::app_state::{self, EventWrapper};
use super::uikit::{
UIEvent, UIForceTouchCapability, UIGestureRecognizerState, UIPinchGestureRecognizer,
UIResponder, UIRotationGestureRecognizer, UITapGestureRecognizer, UITouch, UITouchPhase,
UITouchType, UITraitCollection, UIView,
};
use super::window::WinitUIWindow;
use crate::dpi::PhysicalPosition;
use crate::event::{Event, Force, Touch, TouchPhase, WindowEvent};
use crate::platform_impl::platform::DEVICE_ID;
use crate::window::{WindowAttributes, WindowId as RootWindowId};
pub struct WinitViewState {
pinch_gesture_recognizer: RefCell<Option<Id<UIPinchGestureRecognizer>>>,
doubletap_gesture_recognizer: RefCell<Option<Id<UITapGestureRecognizer>>>,
rotation_gesture_recognizer: RefCell<Option<Id<UIRotationGestureRecognizer>>>,
}
declare_class!(
pub(crate) struct WinitView;
unsafe impl ClassType for WinitView {
#[inherits(UIResponder, NSObject)]
type Super = UIView;
type Mutability = mutability::InteriorMutable;
const NAME: &'static str = "WinitUIView";
}
impl DeclaredClass for WinitView {
type Ivars = WinitViewState;
}
unsafe impl WinitView {
#[method(drawRect:)]
fn draw_rect(&self, rect: CGRect) {
let mtm = MainThreadMarker::new().unwrap();
let window = self.window().unwrap();
app_state::handle_nonuser_event(
mtm,
EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::RedrawRequested,
}),
);
let _: () = unsafe { msg_send![super(self), drawRect: rect] };
}
#[method(layoutSubviews)]
fn layout_subviews(&self) {
let mtm = MainThreadMarker::new().unwrap();
let _: () = unsafe { msg_send![super(self), layoutSubviews] };
let window = self.window().unwrap();
let window_bounds = window.bounds();
let screen = window.screen();
let screen_space = screen.coordinateSpace();
let screen_frame = self.convertRect_toCoordinateSpace(window_bounds, &screen_space);
let scale_factor = screen.scale();
let size = crate::dpi::LogicalSize {
width: screen_frame.size.width as f64,
height: screen_frame.size.height as f64,
}
.to_physical(scale_factor as f64);
// If the app is started in landscape, the view frame and window bounds can be mismatched.
// The view frame will be in portrait and the window bounds in landscape. So apply the
// window bounds to the view frame to make it consistent.
let view_frame = self.frame();
if view_frame != window_bounds {
self.setFrame(window_bounds);
}
app_state::handle_nonuser_event(
mtm,
EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::Resized(size),
}),
);
}
#[method(setContentScaleFactor:)]
fn set_content_scale_factor(&self, untrusted_scale_factor: CGFloat) {
let mtm = MainThreadMarker::new().unwrap();
let _: () =
unsafe { msg_send![super(self), setContentScaleFactor: untrusted_scale_factor] };
// `window` is null when `setContentScaleFactor` is invoked prior to `[UIWindow
// makeKeyAndVisible]` at window creation time (either manually or internally by
// UIKit when the `UIView` is first created), in which case we send no events here
let window = match self.window() {
Some(window) => window,
None => return,
};
// `setContentScaleFactor` may be called with a value of 0, which means "reset the
// content scale factor to a device-specific default value", so we can't use the
// parameter here. We can query the actual factor using the getter
let scale_factor = self.contentScaleFactor();
assert!(
!scale_factor.is_nan()
&& scale_factor.is_finite()
&& scale_factor.is_sign_positive()
&& scale_factor > 0.0,
"invalid scale_factor set on UIView",
);
let scale_factor = scale_factor as f64;
let bounds = self.bounds();
let screen = window.screen();
let screen_space = screen.coordinateSpace();
let screen_frame = self.convertRect_toCoordinateSpace(bounds, &screen_space);
let size = crate::dpi::LogicalSize {
width: screen_frame.size.width as f64,
height: screen_frame.size.height as f64,
};
let window_id = RootWindowId(window.id());
app_state::handle_nonuser_events(
mtm,
std::iter::once(EventWrapper::ScaleFactorChanged(
app_state::ScaleFactorChanged {
window,
scale_factor,
suggested_size: size.to_physical(scale_factor),
},
))
.chain(std::iter::once(EventWrapper::StaticEvent(
Event::WindowEvent {
window_id,
event: WindowEvent::Resized(size.to_physical(scale_factor)),
},
))),
);
}
#[method(touchesBegan:withEvent:)]
fn touches_began(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesMoved:withEvent:)]
fn touches_moved(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesEnded:withEvent:)]
fn touches_ended(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesCancelled:withEvent:)]
fn touches_cancelled(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(pinchGesture:)]
fn pinch_gesture(&self, recognizer: &UIPinchGestureRecognizer) {
let window = self.window().unwrap();
let phase = match recognizer.state() {
UIGestureRecognizerState::Began => TouchPhase::Started,
UIGestureRecognizerState::Changed => TouchPhase::Moved,
UIGestureRecognizerState::Ended => TouchPhase::Ended,
UIGestureRecognizerState::Cancelled | UIGestureRecognizerState::Failed => {
TouchPhase::Cancelled
}
state => panic!("unexpected recognizer state: {:?}", state),
};
let gesture_event = EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::PinchGesture {
device_id: DEVICE_ID,
delta: recognizer.velocity() as _,
phase,
},
});
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, gesture_event);
}
#[method(doubleTapGesture:)]
fn double_tap_gesture(&self, recognizer: &UITapGestureRecognizer) {
let window = self.window().unwrap();
if recognizer.state() == UIGestureRecognizerState::Ended {
let gesture_event = EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::DoubleTapGesture {
device_id: DEVICE_ID,
},
});
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, gesture_event);
}
}
#[method(rotationGesture:)]
fn rotation_gesture(&self, recognizer: &UIRotationGestureRecognizer) {
let window = self.window().unwrap();
let phase = match recognizer.state() {
UIGestureRecognizerState::Began => TouchPhase::Started,
UIGestureRecognizerState::Changed => TouchPhase::Moved,
UIGestureRecognizerState::Ended => TouchPhase::Ended,
UIGestureRecognizerState::Cancelled | UIGestureRecognizerState::Failed => {
TouchPhase::Cancelled
}
state => panic!("unexpected recognizer state: {:?}", state),
};
// Flip the velocity to match macOS.
let delta = -recognizer.velocity() as _;
let gesture_event = EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::RotationGesture {
device_id: DEVICE_ID,
delta,
phase,
},
});
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, gesture_event);
}
}
);
extern_methods!(
#[allow(non_snake_case)]
unsafe impl WinitView {
fn window(&self) -> Option<Id<WinitUIWindow>> {
unsafe { msg_send_id![self, window] }
}
unsafe fn traitCollection(&self) -> Id<UITraitCollection> {
msg_send_id![self, traitCollection]
}
// TODO: Allow the user to customize this
#[method(layerClass)]
pub(crate) fn layerClass() -> &'static AnyClass;
}
);
impl WinitView {
pub(crate) fn new(
_mtm: MainThreadMarker,
window_attributes: &WindowAttributes,
frame: CGRect,
) -> Id<Self> {
let this = Self::alloc().set_ivars(WinitViewState {
pinch_gesture_recognizer: RefCell::new(None),
doubletap_gesture_recognizer: RefCell::new(None),
rotation_gesture_recognizer: RefCell::new(None),
});
let this: Id<Self> = unsafe { msg_send_id![super(this), initWithFrame: frame] };
this.setMultipleTouchEnabled(true);
if let Some(scale_factor) = window_attributes.platform_specific.scale_factor {
this.setContentScaleFactor(scale_factor as _);
}
this
}
pub(crate) fn recognize_pinch_gesture(&self, should_recognize: bool) {
if should_recognize {
if self.ivars().pinch_gesture_recognizer.borrow().is_none() {
let pinch: Id<UIPinchGestureRecognizer> = unsafe {
msg_send_id![UIPinchGestureRecognizer::alloc(), initWithTarget: self, action: sel!(pinchGesture:)]
};
self.addGestureRecognizer(&pinch);
self.ivars().pinch_gesture_recognizer.replace(Some(pinch));
}
} else if let Some(recognizer) = self.ivars().pinch_gesture_recognizer.take() {
self.removeGestureRecognizer(&recognizer);
}
}
pub(crate) fn recognize_doubletap_gesture(&self, should_recognize: bool) {
if should_recognize {
if self.ivars().doubletap_gesture_recognizer.borrow().is_none() {
let tap: Id<UITapGestureRecognizer> = unsafe {
msg_send_id![UITapGestureRecognizer::alloc(), initWithTarget: self, action: sel!(doubleTapGesture:)]
};
tap.setNumberOfTapsRequired(2);
tap.setNumberOfTouchesRequired(1);
self.addGestureRecognizer(&tap);
self.ivars().doubletap_gesture_recognizer.replace(Some(tap));
}
} else if let Some(recognizer) = self.ivars().doubletap_gesture_recognizer.take() {
self.removeGestureRecognizer(&recognizer);
}
}
pub(crate) fn recognize_rotation_gesture(&self, should_recognize: bool) {
if should_recognize {
if self.ivars().rotation_gesture_recognizer.borrow().is_none() {
let rotation: Id<UIRotationGestureRecognizer> = unsafe {
msg_send_id![UIRotationGestureRecognizer::alloc(), initWithTarget: self, action: sel!(rotationGesture:)]
};
self.addGestureRecognizer(&rotation);
self.ivars().rotation_gesture_recognizer.replace(Some(rotation));
}
} else if let Some(recognizer) = self.ivars().rotation_gesture_recognizer.take() {
self.removeGestureRecognizer(&recognizer);
}
}
fn handle_touches(&self, touches: &NSSet<UITouch>) {
let window = self.window().unwrap();
let mut touch_events = Vec::new();
let os_supports_force = app_state::os_capabilities().force_touch;
for touch in touches {
let logical_location = touch.locationInView(None);
let touch_type = touch.type_();
let force = if os_supports_force {
let trait_collection = unsafe { self.traitCollection() };
let touch_capability = trait_collection.forceTouchCapability();
// Both the OS _and_ the device need to be checked for force touch support.
if touch_capability == UIForceTouchCapability::Available
|| touch_type == UITouchType::Pencil
{
let force = touch.force();
let max_possible_force = touch.maximumPossibleForce();
let altitude_angle: Option<f64> = if touch_type == UITouchType::Pencil {
let angle = touch.altitudeAngle();
Some(angle as _)
} else {
None
};
Some(Force::Calibrated {
force: force as _,
max_possible_force: max_possible_force as _,
altitude_angle,
})
} else {
None
}
} else {
None
};
let touch_id = touch as *const UITouch as u64;
let phase = touch.phase();
let phase = match phase {
UITouchPhase::Began => TouchPhase::Started,
UITouchPhase::Moved => TouchPhase::Moved,
// 2 is UITouchPhase::Stationary and is not expected here
UITouchPhase::Ended => TouchPhase::Ended,
UITouchPhase::Cancelled => TouchPhase::Cancelled,
_ => panic!("unexpected touch phase: {:?}", phase as i32),
};
let physical_location = {
let scale_factor = self.contentScaleFactor();
PhysicalPosition::from_logical::<(f64, f64), f64>(
(logical_location.x as _, logical_location.y as _),
scale_factor as f64,
)
};
touch_events.push(EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::Touch(Touch {
device_id: DEVICE_ID,
id: touch_id,
location: physical_location,
force,
phase,
}),
}));
}
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_events(mtm, touch_events);
}
}

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