* Use icrate's window structs and enums
* Properly implement protocols
* Use icrate's NSWindow
We were previously using undocumented methods on `NSWindowTabGroup`
* Use icrate's NSApplication
And clean up some doc comments regarding NSApplication
* Refactor winit-specific cursor logic out of appkit module
* Add relevant AppKit features that we depend on
* Use icrate's NSImageRep and NSBitmapImageRep
* Use icrate's NSImage
* Use icrate's NSCursor
* Use icrate's NSAppearance
* Use icrate's NSScreen
* Use icrate's NSButton
* Use icrate's NSAppKitVersionNumber
* Use icrate's NSTextInputContext
* Use icrate's NSColor
* Use icrate's NSEvent
* Use icrate's NSMenu and NSMenuItem
* Use icrate's NSPasteboard
* Use icrate's NSResponder
* Use icrate's NSTextInputClient
* Use icrate's NSView
* macOS & iOS: Refactor EventWrapper
* macOS & iOS: Make EventLoopWindowTarget independent of the user event
* iOS: Use MainThreadMarker instead of marking functions unsafe
* Make iOS thread safe
Lifetimes don't work nicely when dealing with multithreaded environments
in the current design of the existing winit's event handling model, so
remove it in favor of `InnerSizeWriter` fences passed to client, so they
could try to update the size.
Fixes#1387.
The idea that redraw events are dispatched with a specific ordering
that makes it possible to specifically report when we have finished
dispatching redraw events isn't portable and the way in which we
dispatched RedrawEventsCleared was inconsistent across backends.
More generally speaking, there is no inherent relationship between
redrawing and event loop iterations. An event loop may wake up at any
frequency depending on what sources of input events are being listened
to but redrawing is generally throttled and in some way synchronized
with the display frequency.
Similarly there's no inherent relationship between a single event loop
iteration and the dispatching of any specific kind of "main" event.
An event loop wakes up when there are events to read (e.g. input
events or responses from a display server / compositor) and goes back
to waiting when there's nothing else to read.
There isn't really a special kind of "main" event that is dispatched
in order with respect to other events.
What we can do more portably is emit an event when the event loop
is about to block and wait for new events.
In practice this is very similar to how MainEventsCleared was
implemented except it wasn't the very last event previously since
redraw events could be dispatched afterwards.
The main backend where we don't strictly know when we're going to
wait for events is Web (since the real event loop is internal to
the browser). For now we emulate AboutToWait on Web similar to how
MainEventsCleared was dispatched.
In practice most applications almost certainly shouldn't care about
AboutToWait because the frequency of event loop iterations is
essentially arbitrary and usually irrelevant.
Considering the possibility of re-running an event loop via run_ondemand
then it's more correct to say that the loop is about to exit without
assuming it's going to be destroyed.
This renames all internal implementations of pump_events_with_timeout
to pump_events and makes them public.
Since all platforms that support pump_events support timeouts there's
no need to have a separate API.
This layers pump_events on a pump_events_with_timeout API, like we have
for Linux and Android.
This is just an internal implementation detail for now but we could
consider making pump_events_with_timeout public, or just making it so
that pump_events() takes the timeout argument.
The implementation of `pump_events` essentially works by hooking into the
`RunLoopObserver` and requesting that the app should be stopped the next time
that the `RunLoop` prepares to wait for new events.
Originally I had thought I would poke the `CFRunLoop` for the app directly and
I was originally going to implement `pump_events` based on a timeout which I'd
seen SDL doing.
I found that `[NSApp run]` wasn't actually being stopped by asking the RunLoop
to stop directly and inferred that `NSApp run` will actually catch this and
re-start the loop.
Hooking into the observer and calling `[NSApp stop]` actually seems like a
better solution that doesn't need a hacky constant timeout.
The end result is quite similar to what happens with existing apps that
call `run_return` inside an external loop and cause the loop to exit for
each iteration (that also results in the `NSApp` stopping each
iteration).
* Only build, but don't run tests in MSRV CI
Since the MSRV of development dependencies can easily be bumped without it affecting the MSRV of the published version of `winit`
* Run clippy on stable Rust instead of MSRV Rust
clippy inspects the `rust-version` field, and only suggests changes that conform to that.
Use the definitions that `core_foundation` exposes (almost the same, except `CFRunLoopSourceContext::perform` is not nullable, so we account for that as well).
* Remove UnownedWindow::inner_rect
* Refactor custom view to use much less `unsafe`
The compiler fence is safe to get rid of now since `interpretKeyEvents` takes `&mut self`
* Refactor Window to use much less unsafe
* Refactor NSApplication usage to have much less unsafe
* Remove cocoa dependency
* Enable `deny(unsafe_op_in_unsafe_fn)` on macOS
Also re-enable clippy `let_unit_value` lint
* Remove #[macro_use] on macOS
* Refactor window delegate to use much less unsafe
* Begin abstraction over AppKit
* Clean up NSApplication delegate declaration
* Clean up NSApplication override declaration
* Clean up NSWindow delegate declaration
* Clean up NSWindow override declaration
* Clean up NSView delegate declaration
To be more consistent with mobile platforms this updates the Windows,
macOS, Wayland, X11 and Web backends to all emit a Resumed event
immediately after the initial `NewEvents(StartCause::Init)` event.
The documentation for Suspended and Resumed has also been updated
to provide general recommendations for how to handle Suspended and
Resumed events in portable applications as well as providing
Android and iOS specific details.
This consistency makes it possible to write applications that lazily
initialize their graphics state when the application resumes without
any platform-specific knowledge. Previously, applications that wanted
to run on Android and other systems would have to maintain two,
mutually-exclusive, initialization paths.
Note: This patch does nothing to guarantee that Suspended events will
be delivered. It's still reasonable to say that most OSs without a
formal lifecycle for applications will simply never "suspend" your
application. There are currently no known portability issues caused
by not delivering `Suspended` events consistently and technically
it's not possible to guarantee the delivery of `Suspended` events if
the OS doesn't define an application lifecycle. (app can always be
terminated without any kind of clean up notification on most
non-mobile OSs)
Fixes#2185.
Co-authored-by: Marijn Suijten <marijns95@gmail.com>
Co-authored-by: Markus Røyset <maroider@protonmail.com>
This commit adds an `EventLoopBuilder` struct to simplify event loop
customization and providing options to it upon creation. It also
deprecates the use of `EventLoop::with_user_event` in favor of the same
method on new builder, and replaces old platforms specific extension
traits with the new ones on the `EventLoopBuilder`.
* Add exit code to control flow and impl on linux
* Fix examples to have an exit code
* Fix doc examples to use an exit code
* Improve documentation wording on the exit code
* Add exit code example
* Add exit code on windows
* Change i32 as exit code to u8
This avoids nasty surprises with negative numbers on some unix-alikes
due to two's complement.
* Fix android usages of ControlFlow::Exit
* Fix ios usages of ControlFlow::Exit
* Fix web usages of ControlFlow::Exit
* Add macos exit code
* Add changelog note
* Document exit code on display server disconnection
* Revert "Change i32 as exit code to u8"
This reverts commit f88fba0253b45de6a2ac0c3cbcf01f50503c9396.
* Change Exit to ExitWithCode and make an Exit const
* Revert "Add exit code example"
This reverts commit fbd3d03de9c2d7516c7a63da489c99f498b710df.
* Revert "Fix doc examples to use an exit code"
This reverts commit daabcdf9ef9e16acad715c094ae442529e39fcbc.
* Revert "Fix examples to have an exit code"
This reverts commit 0df486896b8d106acf65ba83c45cc88d60d228e1.
* Fix unix-alike to use ExitWithCode instead of Exit
* Fix windows to use ExitWithCode rather than Exit
* Silence warning about non-uppercase Exit const
* Refactor exit code handling
* Fix macos Exit usage and recover original semantic
* Fix ios to use ExitWithCode instead of Exit
* Update documentation to reflect ExitWithCode
* Fix web to use ExitWithCode when needed, not Exit
* Fix android to use ExitWithCode, not Exit
* Apply documenation nits
* Apply even more documentation nits
* Move change in CHANGELOG.md under "Unreleased"
* Try to use OS error code as exit code on wayland
* macOS: Ignore all events while in the callback
Previously all native dialogs, such as [rfd](https://github.com/PolyMeilex/rfd), would cause the event loop (event_loop.run) to freeze.
* Update changelog
* spelling
* Fix merge mistake
* Add link to issue in the code
Co-authored-by: Poly <marynczak.bartlomiej@gmail.com>
* Require setting the activation policy on the event loop
* Run cargo fmt
* Update changelog
* Fixes and tweaks from review
* Correct comment in app_state.rs
Co-authored-by: Mads Marquart <mads@marquart.dk>
* MacOS: Only activate after the application has finished launching
This fixes the main menu not responding until you refocus, at least from what I can tell - though we might have to do something similar to https://github.com/linebender/druid/pull/994 to fix it fully?
* MacOS: Remove activation hack
* Stop unnecessarily calling `makeKeyWindow` on initially hidden windows
You can't make hidden windows the key window
* Add new, simpler activation hack
For activating multiple windows created before the application finished launching
* feat: added MacOS menu
* fix: ran fmt
* extracted function into variable
* idiomatic formatting
* Set the default menu only during app startup
* Don't set the activation policy in the menu init
Co-authored-by: Artur Kovacs <kovacs.artur.barnabas@gmail.com>
We allow to have RunLoop running only on the main thread. Which means if
we call Window::request_redraw() from other the thread then we have to
wait until some other event arrives on the main thread. That situation
is even worse when we have ControlFlow set to the `Wait` mode then user
will not ever render anything.
* Fix for #1850
* Update changelog
* Fix for compilation warnings
* Apply suggestions from code review
Co-authored-by: Markus Røyset <maroider@protonmail.com>
* Improve code quality
* Change Arc<Mutex> to Rc<RefCell>
* Panicking in the user callback is now well defined
* Address feedback
* Fix nightly warning
* The panic info is now not a global.
* Apply suggestions from code review
Co-authored-by: Francesca Lovebloom <francesca@brainiumstudios.com>
* Address feedback
Co-authored-by: Markus Røyset <maroider@protonmail.com>
Co-authored-by: Francesca Lovebloom <francesca@brainiumstudios.com>
* Fix for fullscreen with run_return on mac
* Cleanup
* Removed a comment
* fmt
* This doesn't break exiting run_return anymore
* Now you can also transition from code
* Fmt & cleanup
* Now using a atomic instead of a static bool
* reinserted a line
* Fmt
* Added support for dialogs and child windows
* Cargo fmt
* Dialogs are now being shutdown properly
* Cargo fmt
* Update CHANGELOG.md
* Rename hidpi_factor to scale_factor
* Deprecate WINIT_HIDPI_FACTOR environment variable in favor of WINIT_X11_SCALE_FACTOR
* Rename HiDpiFactorChanged to DpiChanged and update docs
I'm renaming it to DpiChanged instead of ScaleFactorChanged, since I'd
like Winit to expose the raw DPI value at some point in the near future,
and DpiChanged is a more apt name for that purpose.
* Format
* Fix macos and ios again
* Fix bad macos rebase
