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Branches Tags
migrations:master migrations:dependabot/github_actions/github-actions-338ac7668c migrations:jackpot51/orbital-mouse-click-pos migrations:madsmtm/no-x11-dl-common migrations:madsmtm/reduce-custom-cfgs-in-examples migrations:madsmtm/private-apple-apis migrations:madsmtm/launch-in-new migrations:madsmtm/event-time migrations:madsmtm/uikit-safe-area-keyboard migrations:v0.30.x migrations:v0.31.x migrations:madsmtm/window-getter migrations:waker migrations:madsmtm/coalesce-windows-wakeups migrations:kchibisov/core-event-loop migrations:madsmtm/macos-monitor-handle-uuid-v0.30.x migrations:madsmtm/janky-pump-events migrations:notgull/install-docs migrations:madsmtm/init-closure migrations:notgull/winmain migrations:madsmtm/dpi-rect migrations:madsmtm/doc-controlflow-waituntil migrations:kchibisov/platform-trait-example migrations:madsmtm/observer-default-mode migrations:madsmtm/verify-event-order migrations:it migrations:madsmtm/check-commit-msg-length migrations:v0.29.x migrations:feat/dpi-single-unit migrations:notgull/spellcheck migrations:kchibisov/improve-contributing migrations:split-example-a-bit migrations:android-note-unsupported-multi-window migrations:request-ignored migrations:notgull/split migrations:rwh-send-sync migrations:notgull/ime migrations:notgull/ia-xbuild migrations:v0.28.x migrations:fix-alt-modifier-new migrations:v0.27.x migrations:gamepad-device-events
migrations:v0.30.13 migrations:v0.31.0-beta.2 migrations:v0.31.0-beta.1 migrations:v0.30.12 migrations:v0.30.11 migrations:dpi_v0.1.2 migrations:v0.30.10 migrations:v0.30.9 migrations:v0.30.8 migrations:v0.30.7 migrations:v0.30.6 migrations:v0.30.5 migrations:v0.30.4 migrations:v0.30.3 migrations:v0.30.2 migrations:v0.30.1 migrations:v0.30.0 migrations:dpi_v0.1.1 migrations:v0.29.15 migrations:dpi_v0.1.0 migrations:v0.29.14 migrations:v0.29.13 migrations:v0.29.12 migrations:v0.29.11 migrations:v0.29.10 migrations:v0.29.9 migrations:v0.29.8 migrations:v0.29.7 migrations:v0.29.6 migrations:v0.29.5 migrations:v0.29.4 migrations:v0.29.3 migrations:v0.29.2 migrations:v0.28.7 migrations:v0.29.1-beta migrations:v0.29.0-beta.1 migrations:v0.29.0-beta.0 migrations:v0.28.6 migrations:v0.28.5 migrations:v0.28.4 migrations:v0.28.3 migrations:v0.28.2 migrations:v0.28.1 migrations:v0.28.0 migrations:v0.27.5 migrations:v0.27.4 migrations:v0.27.3 migrations:v0.27.2 migrations:v0.27.1 migrations:v0.27.0 migrations:v0.26.1 migrations:v0.26.0 migrations:v0.25.0 migrations:v0.24.0 migrations:v0.23.0 migrations:v0.22.2 migrations:v0.22.1 migrations:v0.22.0 migrations:v0.20.0-alpha6 migrations:v0.21.0 migrations:v0.20.0-alpha5 migrations:v0.20.0-alpha4 migrations:v0.20.0-alpha3 migrations:v0.20.0-alpha2 migrations:v0.20.0-alpha1 migrations:v0.20.0 migrations:v0.19.5 migrations:v0.19.4 migrations:v0.19.3 migrations:v0.19.2 migrations:v0.19.1 migrations:v0.18.0 migrations:v0.17.2 migrations:v0.17.1 migrations:v0.17.0 migrations:v0.16.2 migrations:v0.16.1 migrations:v0.16.0 migrations:v0.15.1 migrations:v0.15.0 migrations:v0.14.0 migrations:v0.13.0 migrations:v0.6.4 migrations:v0.6.3
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compare: migrations:fix-alt-modifier-new
Branches Tags
migrations:dependabot/github_actions/github-actions-338ac7668c migrations:master migrations:jackpot51/orbital-mouse-click-pos migrations:madsmtm/no-x11-dl-common migrations:madsmtm/reduce-custom-cfgs-in-examples migrations:madsmtm/private-apple-apis migrations:madsmtm/launch-in-new migrations:madsmtm/event-time migrations:madsmtm/uikit-safe-area-keyboard migrations:v0.30.x migrations:v0.31.x migrations:madsmtm/window-getter migrations:waker migrations:madsmtm/coalesce-windows-wakeups migrations:kchibisov/core-event-loop migrations:madsmtm/macos-monitor-handle-uuid-v0.30.x migrations:madsmtm/janky-pump-events migrations:notgull/install-docs migrations:madsmtm/init-closure migrations:notgull/winmain migrations:madsmtm/dpi-rect migrations:madsmtm/doc-controlflow-waituntil migrations:kchibisov/platform-trait-example migrations:madsmtm/observer-default-mode migrations:madsmtm/verify-event-order migrations:it migrations:madsmtm/check-commit-msg-length migrations:v0.29.x migrations:feat/dpi-single-unit migrations:notgull/spellcheck migrations:kchibisov/improve-contributing migrations:split-example-a-bit migrations:android-note-unsupported-multi-window migrations:request-ignored migrations:notgull/split migrations:rwh-send-sync migrations:notgull/ime migrations:notgull/ia-xbuild migrations:v0.28.x migrations:fix-alt-modifier-new migrations:v0.27.x migrations:gamepad-device-events
migrations:v0.30.13 migrations:v0.31.0-beta.2 migrations:v0.31.0-beta.1 migrations:v0.30.12 migrations:v0.30.11 migrations:dpi_v0.1.2 migrations:v0.30.10 migrations:v0.30.9 migrations:v0.30.8 migrations:v0.30.7 migrations:v0.30.6 migrations:v0.30.5 migrations:v0.30.4 migrations:v0.30.3 migrations:v0.30.2 migrations:v0.30.1 migrations:v0.30.0 migrations:dpi_v0.1.1 migrations:v0.29.15 migrations:dpi_v0.1.0 migrations:v0.29.14 migrations:v0.29.13 migrations:v0.29.12 migrations:v0.29.11 migrations:v0.29.10 migrations:v0.29.9 migrations:v0.29.8 migrations:v0.29.7 migrations:v0.29.6 migrations:v0.29.5 migrations:v0.29.4 migrations:v0.29.3 migrations:v0.29.2 migrations:v0.28.7 migrations:v0.29.1-beta migrations:v0.29.0-beta.1 migrations:v0.29.0-beta.0 migrations:v0.28.6 migrations:v0.28.5 migrations:v0.28.4 migrations:v0.28.3 migrations:v0.28.2 migrations:v0.28.1 migrations:v0.28.0 migrations:v0.27.5 migrations:v0.27.4 migrations:v0.27.3 migrations:v0.27.2 migrations:v0.27.1 migrations:v0.27.0 migrations:v0.26.1 migrations:v0.26.0 migrations:v0.25.0 migrations:v0.24.0 migrations:v0.23.0 migrations:v0.22.2 migrations:v0.22.1 migrations:v0.22.0 migrations:v0.20.0-alpha6 migrations:v0.21.0 migrations:v0.20.0-alpha5 migrations:v0.20.0-alpha4 migrations:v0.20.0-alpha3 migrations:v0.20.0-alpha2 migrations:v0.20.0-alpha1 migrations:v0.20.0 migrations:v0.19.5 migrations:v0.19.4 migrations:v0.19.3 migrations:v0.19.2 migrations:v0.19.1 migrations:v0.18.0 migrations:v0.17.2 migrations:v0.17.1 migrations:v0.17.0 migrations:v0.16.2 migrations:v0.16.1 migrations:v0.16.0 migrations:v0.15.1 migrations:v0.15.0 migrations:v0.14.0 migrations:v0.13.0 migrations:v0.6.4 migrations:v0.6.3

1 Commits
notgull/ia ... fix-alt-mo

Author SHA1 Message Date
Kirill Chibisov
a55b578b1f Add WindowExtMacOS::{set_,}option_as_alt 
This adds an ability to control left and right `Option` keys to be
treated as `Alt`, thus not producing diacritical marks.
 2023-01-31 00:57:59 +03:00
244 changed files with 17122 additions and 29047 deletions
Expand all files Collapse all files

4
.github/CODEOWNERS vendored
View File

@@ -28,8 +28,8 @@
/src/platform_impl/macos @madsmtm
# Web (no maintainer)
/src/platform/web.rs @daxpedda
/src/platform_impl/web @daxpedda
/src/platform/web.rs
/src/platform_impl/web
# Windows
/src/platform/windows.rs @msiglreith

194
.github/workflows/ci.yml vendored
View File

@@ -6,184 +6,116 @@ on:
branches: [master]
jobs:
fmt:
name: Check formatting
Check_Formatting:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- uses: dtolnay/rust-toolchain@stable
- uses: actions/checkout@v2
- uses: hecrj/setup-rust-action@v1
with:
rust-version: stable
components: rustfmt
- name: Check Formatting
run: cargo fmt -- --check
run: cargo +stable fmt --all -- --check
tests:
name: Test ${{ matrix.toolchain }} ${{ matrix.platform.name }}
runs-on: ${{ matrix.platform.os }}
name: Tests
strategy:
fail-fast: false
matrix:
toolchain: [stable, nightly, '1.65.0']
rust_version: ['1.60.0', stable, nightly]
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, }
- { name: 'Windows 32bit MSVC', target: i686-pc-windows-msvc, os: windows-latest, }
- { name: 'Windows 64bit GNU', target: x86_64-pc-windows-gnu, os: windows-latest, host: -x86_64-pc-windows-gnu }
- { name: 'Windows 32bit GNU', target: i686-pc-windows-gnu, os: windows-latest, host: -i686-pc-windows-gnu }
- { name: 'Linux 32bit', target: i686-unknown-linux-gnu, os: ubuntu-latest, }
- { name: 'Linux 64bit', target: x86_64-unknown-linux-gnu, os: ubuntu-latest, }
- { name: 'X11', target: x86_64-unknown-linux-gnu, os: ubuntu-latest, options: '--no-default-features --features=x11' }
- { name: 'Wayland', target: x86_64-unknown-linux-gnu, os: ubuntu-latest, options: '--no-default-features --features=wayland,wayland-dlopen' }
- { name: 'Redox OS', target: x86_64-unknown-redox, os: ubuntu-latest, }
- { name: 'macOS', target: x86_64-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, }
include:
# Android is tested on stable-3
- toolchain: '1.69.0'
platform: { name: 'Android', target: aarch64-linux-android, os: ubuntu-latest, options: '--package=winit --features=android-native-activity' }
- toolchain: 'stable'
platform: { name: 'Android', target: aarch64-linux-android, os: ubuntu-latest, options: '--package=winit --features=android-native-activity' }
- toolchain: 'nightly'
platform: { name: 'Android', target: aarch64-linux-android, os: ubuntu-latest, options: '--package=winit --features=android-native-activity' }
- { target: x86_64-pc-windows-msvc, os: windows-latest, }
- { target: i686-pc-windows-msvc, os: windows-latest, }
- { target: x86_64-pc-windows-gnu, os: windows-latest, host: -x86_64-pc-windows-gnu }
- { target: i686-pc-windows-gnu, os: windows-latest, host: -i686-pc-windows-gnu }
- { target: i686-unknown-linux-gnu, os: ubuntu-latest, }
- { target: x86_64-unknown-linux-gnu, os: ubuntu-latest, }
- { target: x86_64-unknown-linux-gnu, os: ubuntu-latest, options: --no-default-features, features: x11 }
- { target: x86_64-unknown-linux-gnu, os: ubuntu-latest, options: --no-default-features, features: "wayland,wayland-dlopen" }
- { target: aarch64-linux-android, os: ubuntu-latest, options: -p winit, cmd: 'apk --', features: "android-native-activity" }
- { target: x86_64-unknown-redox, os: ubuntu-latest, }
- { target: x86_64-apple-darwin, os: macos-latest, }
- { target: x86_64-apple-ios, os: macos-latest, }
- { target: aarch64-apple-ios, os: macos-latest, }
# We're using Windows rather than Ubuntu to run the wasm tests because caching cargo-web
# doesn't currently work on Linux.
- { target: wasm32-unknown-unknown, os: windows-latest, }
env:
# Set more verbose terminal output
CARGO_TERM_VERBOSE: true
RUST_BACKTRACE: 1
CARGO_INCREMENTAL: 0
RUSTFLAGS: "-C debuginfo=0 --deny warnings"
OPTIONS: ${{ matrix.platform.options }}
FEATURES: ${{ format(',{0}', matrix.platform.features ) }}
CMD: ${{ matrix.platform.cmd }}
RUSTDOCFLAGS: -Dwarnings
# Faster compilation and error on warnings
RUSTFLAGS: '--codegen=debuginfo=0 --deny=warnings'
RUSTDOCFLAGS: '--deny=warnings'
OPTIONS: --target=${{ matrix.platform.target }} ${{ matrix.platform.options }}
runs-on: ${{ matrix.platform.os }}
steps:
- uses: actions/checkout@v3
- name: Restore cache of cargo folder
# We use `restore` and later `save`, so that we can create the key after
# the cache has been downloaded.
#
# This could be avoided if we added Cargo.lock to the repository.
uses: actions/cache/restore@v3
- uses: actions/checkout@v2
# Used to cache cargo-web
- name: Cache cargo folder
uses: actions/cache@v1
with:
# https://doc.rust-lang.org/cargo/guide/cargo-home.html#caching-the-cargo-home-in-ci
path: |
~/.cargo/registry/index/
~/.cargo/registry/cache/
~/.cargo/git/db/
key: cargo-${{ matrix.toolchain }}-${{ matrix.platform.name }}-never-intended-to-be-found
restore-keys: cargo-${{ matrix.toolchain }}-${{ matrix.platform.name }}
path: ~/.cargo
key: ${{ matrix.platform.target }}-cargo-${{ matrix.rust_version }}
- name: Generate lockfile
# Also updates the crates.io index
run: cargo generate-lockfile
- uses: hecrj/setup-rust-action@v1
with:
rust-version: ${{ matrix.rust_version }}${{ matrix.platform.host }}
targets: ${{ matrix.platform.target }}
components: clippy
- name: Install GCC Multilib
if: (matrix.platform.os == 'ubuntu-latest') && contains(matrix.platform.target, 'i686')
run: sudo apt-get update && sudo apt-get install gcc-multilib
- name: Install xbuild
uses: taiki-e/install-action@v2
if: contains(matrix.platform.target, 'android') || contains(matrix.platform.target, 'ios')
with:
tool: xbuild@0.2.0
- uses: dtolnay/rust-toolchain@master
with:
toolchain: ${{ matrix.toolchain }}${{ matrix.platform.host }}
targets: ${{ matrix.platform.target }}
components: clippy
- name: Install LLVM tools for Android
- name: Install cargo-apk
if: contains(matrix.platform.target, 'android')
run: sudo apt-get update && sudo apt-get install lld llvm
run: cargo install cargo-apk
- name: Check documentation
run: cargo doc --no-deps $OPTIONS --document-private-items
shell: bash
run: cargo doc --no-deps --target ${{ matrix.platform.target }} $OPTIONS --features $FEATURES --document-private-items
- name: Build crate
run: cargo build $OPTIONS
- name: Build and package crate for Android
if: contains(matrix.platform.target, 'android')
run: x build -p android-xbuild-target --platform android --arch arm64
- name: Build and package crate for iOS
if: contains(matrix.platform.target, 'ios')
run: x build -p ios-xbuild-target --platform ios --arch arm64
- name: Build crate
shell: bash
run: cargo $CMD build --verbose --target ${{ matrix.platform.target }} $OPTIONS --features $FEATURES
- name: Build tests
shell: bash
if: >
!contains(matrix.platform.target, 'redox') &&
!contains(matrix.platform.target, 'android') &&
matrix.toolchain != '1.65.0'
run: cargo test --no-run $OPTIONS
matrix.rust_version != '1.60.0'
run: cargo $CMD test --no-run --verbose --target ${{ matrix.platform.target }} $OPTIONS --features $FEATURES
- name: Run tests
shell: bash
if: >
!contains(matrix.platform.target, 'android') &&
!contains(matrix.platform.target, 'ios') &&
!contains(matrix.platform.target, 'wasm32') &&
!contains(matrix.platform.target, 'redox') &&
matrix.toolchain != '1.65.0'
run: cargo test $OPTIONS
matrix.rust_version != '1.60.0'
run: cargo $CMD test --verbose --target ${{ matrix.platform.target }} $OPTIONS --features $FEATURES
- name: Lint with clippy
if: (matrix.toolchain == 'stable') && !contains(matrix.platform.options, '--no-default-features')
run: cargo clippy --all-targets $OPTIONS -- -Dwarnings
shell: bash
if: (matrix.rust_version == 'stable') && !contains(matrix.platform.options, '--no-default-features')
run: cargo clippy --all-targets --target ${{ matrix.platform.target }} $OPTIONS --features $FEATURES -- -Dwarnings
- name: Build tests with serde enabled
shell: bash
if: >
!contains(matrix.platform.target, 'redox') &&
!contains(matrix.platform.target, 'android') &&
matrix.toolchain != '1.65.0'
run: cargo test --no-run $OPTIONS --features serde
matrix.rust_version != '1.60.0'
run: cargo $CMD test --no-run --verbose --target ${{ matrix.platform.target }} $OPTIONS --features serde,$FEATURES
- name: Run tests with serde enabled
shell: bash
if: >
!contains(matrix.platform.target, 'android') &&
!contains(matrix.platform.target, 'ios') &&
!contains(matrix.platform.target, 'wasm32') &&
!contains(matrix.platform.target, 'redox') &&
matrix.toolchain != '1.65.0'
run: cargo test $OPTIONS --features serde
# See restore step above
- name: Save cache of cargo folder
uses: actions/cache/save@v3
with:
path: |
~/.cargo/registry/index/
~/.cargo/registry/cache/
~/.cargo/git/db/
key: cargo-${{ matrix.toolchain }}-${{ matrix.platform.name }}-${{ hashFiles('Cargo.lock') }}
cargo-deny:
name: Run cargo-deny on ${{ matrix.platform.name }}
runs-on: ubuntu-latest
# TODO: remove this matrix when https://github.com/EmbarkStudios/cargo-deny/issues/324 is resolved
strategy:
fail-fast: false
matrix:
platform:
- { 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: 'Redox OS', target: x86_64-unknown-redox }
- { name: 'web', target: wasm32-unknown-unknown }
- { name: 'Windows', target: x86_64-pc-windows-gnu }
steps:
- uses: actions/checkout@v3
- uses: EmbarkStudios/cargo-deny-action@v1
with:
command: check
log-level: error
arguments: --all-features --target ${{ matrix.platform.target }}
matrix.rust_version != '1.60.0'
run: cargo $CMD test --verbose --target ${{ matrix.platform.target }} $OPTIONS --features serde,$FEATURES

217
CHANGELOG.md
View File

@@ -8,221 +8,6 @@ And please only add new entries to the top of this list, right below the `# Unre
# Unreleased
- Renamed `EventLoopExtRunOnDemand` / `run_ondemand` to `EventLoopExtRunOnDemand` / `run_on_demand`.
- Make iOS `MonitorHandle` and `VideoMode` usable from other threads.
- On Web, `ControlFlow::WaitUntil` now uses the Prioritized Task Scheduling API. `setTimeout()`, with a trick to circumvent throttling to 4ms, is used as a fallback.
- On Web, never return a `MonitorHandle`.
- **Breaking:** Move `Event::RedrawRequested` to `WindowEvent::RedrawRequested`.
- On macOS, fix crash in `window.set_minimized(false)`.
- On Web, enable event propagation and let `DeviceEvent`s appear after `WindowEvent`s.
- On Web, take all transient activations on the canvas and window into account to queue a fullscreen request.
- On Web, remove any fullscreen requests from the queue when an external fullscreen activation was detected.
- On Wayland, fix `TouchPhase::Canceled` being sent for moved events.
- Mark `startup_notify` unsafe functions as safe.
- Fix a bug where Wayland would be chosen on Linux even if the user specified `with_x11`. (#3058)
- **Breaking:** Moved `ControlFlow` to `EventLoopWindowTarget::set_control_flow()` and `EventLoopWindowTarget::control_flow()`.
- **Breaking:** Moved `ControlFlow::Exit` to `EventLoopWindowTarget::exit()` and `EventLoopWindowTarget::exiting()` and removed `ControlFlow::ExitWithCode(_)` entirely.
- On Web, add `EventLoopWindowTargetExtWebSys` and `PollStrategy`, which allows to set different strategies for `ControlFlow::Poll`. By default the Prioritized Task Scheduling API is used, but an option to use `Window.requestIdleCallback` is available as well. Both use `setTimeout()`, with a trick to circumvent throttling to 4ms, as a fallback.
- Implement `PartialOrd` and `Ord` for `MouseButton`.
- On X11, fix event loop not waking up on `ControlFlow::Poll` and `ControlFlow::WaitUntil`.
- **Breaking:** Change default `ControlFlow` from `Poll` to `Wait`.
- **Breaking:** remove `DeviceEvent::Text`.
- On Android, fix `DeviceId` to contain device id's.
- Add `Window::set_blur` to request a blur behind the window; implemented on Wayland for now.
- On Web, fix `ControlFlow::WaitUntil` to never wake up **before** the given time.
- Add `Window::show_window_menu` to request a titlebar/system menu; implemented on Wayland/Windows for now.
- On iOS, send events `WindowEvent::Occluded(false)`, `WindowEvent::Occluded(true)` when application enters/leaves foreground.
- **Breaking** add `Event::MemoryWarning`; implemented on iOS/Android.
- On Wayland, support `Occluded` event with xdg-shell v6
# 0.29.1-beta
- **Breaking:** Bump `ndk` version to `0.8.0-beta.0`, ndk-sys to `v0.5.0-beta.0`, `android-activity` to `0.5.0-beta.1`.
- **Breaking:** Bump MSRV from `1.64` to `1.65`.
- Make iOS windows usable from other threads.
- Reexport `raw-window-handle` in `window` module.
- **Breaking:** `WINIT_UNIX_BACKEND` was removed in favor of standard `WAYLAND_DISPLAY` and `DISPLAY` variables.
- **Breaking:** `EventLoop::new` and `EventLoopBuilder::build` now return `Result<Self, EventLoopError>`
- On X11, set `visual_id` in returned `raw-window-handle`.
- **Breaking:** on Wayland, dispatching user created wayland queue won't wake up the loop unless winit has event to send back.
- Removed platform-specific extensions that should be retrieved through `raw-window-handle` trait implementations instead:
- `platform::windows::HINSTANCE`.
- `WindowExtWindows::hinstance`.
- `WindowExtWindows::hwnd`.
- `WindowExtIOS::ui_window`.
- `WindowExtIOS::ui_view_controller`.
- `WindowExtIOS::ui_view`.
- `WindowExtMacOS::ns_window`.
- `WindowExtMacOS::ns_view`.
- `EventLoopWindowTargetExtWayland::wayland_display`.
- `WindowExtWayland::wayland_surface`.
- `WindowExtWayland::wayland_display`.
- `WindowExtX11::xlib_window`.
- `WindowExtX11::xlib_display`.
- `WindowExtX11::xlib_screen_id`.
- `WindowExtX11::xcb_connection`.
- On Web, use `Window.requestAnimationFrame()` to throttle `RedrawRequested` events.
- On Wayland, use frame callbacks to throttle `RedrawRequested` events so redraws will align with compositor.
- Add `Window::pre_present_notify` to notify winit before presenting to the windowing system.
- On Windows, added `WindowBuilderExtWindows::with_class_name` to customize the internal class name.
- **Breaking:** Remove lifetime parameter from `Event` and `WindowEvent`.
- **Breaking:** `ScaleFactorChanged` now contains a writer instead of a reference to update inner size.
- On iOS, always wake the event loop when transitioning from `ControlFlow::Poll` to `ControlFlow::Poll`.
- **Breaking:** `ActivationTokenDone` event which could be requested with the new `startup_notify` module, see its docs for more.
- On Wayland, make double clicking and moving the CSD frame more reliable.
- On macOS, add tabbing APIs on `WindowExtMacOS` and `EventLoopWindowTargetExtMacOS`.
- **Breaking:** Rename `Window::set_inner_size` to `Window::request_inner_size` and indicate if the size was applied immediately.
- On X11, fix false positive flagging of key repeats when pressing different keys with no release between presses.
- Implement `PartialOrd` and `Ord` for `Key`, `KeyCode`, `NativeKey`, and `NativeKeyCode`.
- Add `ElementState::is_pressed`.
- On Web, implement `WindowEvent::Occluded`.
- On Web, fix touch location to be as accurate as mouse position.
- On Web, account for CSS `padding`, `border`, and `margin` when getting or setting the canvas position.
- On Web, add Fullscreen API compatibility for Safari.
- On Web, implement `Window::set_(min|max)_inner_size()`.
- On Web, fix some `Window` methods using incorrect HTML attributes instead of CSS properties.
- On Web, fix some `WindowBuilder` methods doing nothing.
- On Web, implement `Window::focus_window()`.
- On Web, remove unnecessary `Window::is_dark_mode()`, which was replaced with `Window::theme()`.
- On Web, add `WindowBuilderExtWebSys::with_append()` to append the canvas element to the web page on creation.
- On Windows, add `drag_resize_window` method support.
- **Breaking** `run() ->!` has been replaced by `run() -> Result<(), EventLoopError>` for returning errors without calling `std::process::exit()` ([#2767](https://github.com/rust-windowing/winit/pull/2767))
- **Breaking** Removed `EventLoopExtRunReturn` / `run_return` in favor of `EventLoopExtPumpEvents` / `pump_events` and `EventLoopExtRunOnDemand` / `run_ondemand` ([#2767](https://github.com/rust-windowing/winit/pull/2767))
- `RedrawRequested` is no longer guaranteed to be emitted after `MainEventsCleared`, it is now platform-specific when the event is emitted after being requested via `redraw_request()`.
- On Windows, `RedrawRequested` is now driven by `WM_PAINT` messages which are requested via `redraw_request()`
- **Breaking** `LoopDestroyed` renamed to `LoopExiting` ([#2900](https://github.com/rust-windowing/winit/issues/2900))
- **Breaking** `RedrawEventsCleared` removed ([#2900](https://github.com/rust-windowing/winit/issues/2900))
- **Breaking** `MainEventsCleared` removed ([#2900](https://github.com/rust-windowing/winit/issues/2900))
- Added `AboutToWait` event which is emitted when the event loop is about to block and wait for new events ([#2900](https://github.com/rust-windowing/winit/issues/2900))
- **Breaking:** `with_x11_visual` now takes the visual ID instead of the bare pointer.
- On X11, add a `with_embedded_parent_window` function to the window builder to allow embedding a window into another window.
- On iOS, add force data to touch events when using the Apple Pencil.
- On Android, add force data to touch events.
# 0.29.0-beta.0
- On Web, allow event loops to be recreated with `spawn`.
- **Breaking:** Rename `Window::set_ime_position` to `Window::set_ime_cursor_area` adding a way to set exclusive zone.
- On Android, changed default behavior of Android to ignore volume keys letting the operating system handle them.
- On Android, added `EventLoopBuilderExtAndroid::handle_volume_keys` to indicate that the application will handle the volume keys manually.
- **Breaking:** Rename `DeviceEventFilter` to `DeviceEvents` reversing the behavior of variants.
- **Breaking:** Rename `EventLoopWindowTarget::set_device_event_filter` to `listen_device_events`.
- On X11, fix `EventLoopWindowTarget::listen_device_events` effect being reversed.
- **Breaking:** Remove all deprecated `modifiers` fields.
- **Breaking:** Overhaul keyboard input handling.
- Replace `KeyboardInput` with `KeyEvent` and `RawKeyEvent`.
- Change `WindowEvent::KeyboardInput` to contain a `KeyEvent`.
- Change `Event::Key` to contain a `RawKeyEvent`.
- Remove `Event::ReceivedCharacter`. In its place, you should use
`KeyEvent.text` in combination with `WindowEvent::Ime`.
- Replace `VirtualKeyCode` with the `Key` enum.
- Replace `ScanCode` with the `KeyCode` enum.
- Rename `ModifiersState::LOGO` to `SUPER` and `ModifiersState::CTRL` to `CONTROL`.
- Add `KeyCode` to refer to keys (roughly) by their physical location.
- Add `NativeKeyCode` to represent raw `KeyCode`s which Winit doesn't
understand.
- Add `Key` to represent the keys after they've been interpreted by the
active (software) keyboard layout.
- Add `NativeKey` to represent raw `Key`s which Winit doesn't understand.
- Add `KeyLocation` to tell apart `Key`s which usually "mean" the same thing,
but can appear simultaneously in different spots on the same keyboard
layout.
- Add `Window::reset_dead_keys` to enable application-controlled cancellation
of dead key sequences.
- Add `KeyEventExtModifierSupplement` to expose additional (and less
portable) interpretations of a given key-press.
- Add `KeyCodeExtScancode`, which lets you convert between raw keycodes and
`KeyCode`.
- `ModifiersChanged` now uses dedicated `Modifiers` struct.
- On Orbital, fix `ModifiersChanged` not being sent.
- **Breaking:** `CursorIcon` is now used from the `cursor-icon` crate.
- **Breaking:** `CursorIcon::Hand` is now named `CursorIcon::Pointer`.
- **Breaking:** `CursorIcon::Arrow` was removed.
- On Wayland, fix maximized startup not taking full size on GNOME.
- On Wayland, fix initial window size not restored for maximized/fullscreened on startup window.
- On Wayland, `Window::outer_size` now accounts for **client side** decorations.
- On Wayland, fix window not checking that it actually got initial configure event.
- On Wayland, fix maximized window creation and window geometry handling.
- On Wayland, fix forward compatibility issues.
- On Wayland, add `Window::drag_resize_window` method.
- On Wayland, drop `WINIT_WAYLAND_CSD_THEME` variable.
- Implement `PartialOrd` and `Ord` on types in the `dpi` module.
- **Breaking:** Bump MSRV from `1.60` to `1.64`.
- **Breaking:** On Web, the canvas output bitmap size is no longer adjusted.
- On Web: fix `Window::request_redraw` not waking the event loop when called from outside the loop.
- On Web: fix position of touch events to be relative to the canvas.
- On Web, fix `Window:::set_fullscreen` doing nothing when called outside the event loop but during
a transient activation.
- On Web, fix pointer button events not being processed when a buttons is already pressed.
- **Breaking:** Updated `bitflags` crate version to `2`, which changes the API on exposed types.
- On Web, handle coalesced pointer events, which increases the resolution of pointer inputs.
- **Breaking:** On Web, `instant` is now replaced by `web_time`.
- On Windows, port to `windows-sys` version 0.48.0.
- On Web, fix pen treated as mouse input.
- On Web, send mouse position on button release as well.
- On Web, fix touch input not gaining or loosing focus.
- **Breaking:** On Web, dropped support for Safari versions below 13.1.
- On Web, prevent clicks on the canvas to select text.
- On Web, `EventLoopProxy` now implements `Send`.
- On Web, `Window` now implements `Send` and `Sync`.
- **Breaking:** `WindowExtWebSys::canvas()` now returns an `Option`.
- On Web, use the correct canvas size when calculating the new size during scale factor change,
instead of using the output bitmap size.
- On Web, scale factor and dark mode detection are now more robust.
- On Web, fix the bfcache by not using the `beforeunload` event and map bfcache loading/unloading to `Suspended`/`Resumed` events.
- On Web, fix scale factor resize suggestion always overwriting the canvas size.
- On macOS, fix crash when dropping `Window`.
- On Web, use `Window.requestIdleCallback()` for `ControlFlow::Poll` when available.
- **Breaking:** On Web, the canvas size is not controlled by Winit anymore and external changes to
the canvas size will be reported through `WindowEvent::Resized`.
- On Web, respect `EventLoopWindowTarget::listen_device_events()` settings.
- On Web, fix `DeviceEvent::MouseMotion` only being emitted for each canvas instead of the whole window.
- On Web, add `DeviceEvent::Motion`, `DeviceEvent::MouseWheel`, `DeviceEvent::Button` and
`DeviceEvent::Key` support.
- **Breaking** `MouseButton` now supports `Back` and `Forward` variants, emitted from mouse events
on Wayland, X11, Windows, macOS and Web.
# 0.28.7
- Fix window size sometimes being invalid when resizing on macOS 14 Sonoma.
# 0.28.6
- On macOS, fixed memory leak when getting monitor handle.
- On macOS, fix `Backspace` being emitted when clearing preedit with it.
# 0.28.5
- On macOS, fix `key_up` being ignored when `Ime` is disabled.
# 0.28.4
- On macOS, fix empty marked text blocking regular input.
- On macOS, fix potential panic when getting refresh rate.
- On macOS, fix crash when calling `Window::set_ime_position` from another thread.
# 0.28.3
- Fix macOS memory leaks.
# 0.28.2
- Implement `HasRawDisplayHandle` for `EventLoop`.
- On macOS, set resize increments only for live resizes.
- On Wayland, fix rare crash on DPI change
- Web: Added support for `Window::theme`.
- On Wayland, fix rounding issues when doing resize.
- On macOS, fix wrong focused state on startup.
- On Windows, fix crash on setting taskbar when using Visual Studio debugger.
- On macOS, resize simple fullscreen windows on windowDidChangeScreen events.
# 0.28.1
- On Wayland, fix crash when dropping a window in multi-window setup.
# 0.28.0
- On macOS, fixed `Ime::Commit` persisting for all input after interacting with `Ime`.
- On macOS, added `WindowExtMacOS::option_as_alt` and `WindowExtMacOS::set_option_as_alt`.
- On Windows, fix window size for maximized, undecorated windows.
- On Windows and macOS, add `WindowBuilder::with_active`.
@@ -491,7 +276,7 @@ And please only add new entries to the top of this list, right below the `# Unre
# 0.23.0 (2020-10-02)
- On iOS, fixed support for the "Debug View Hierarchy" feature in Xcode.
- On iOS, fixed support for the "Debug View Heirarchy" feature in Xcode.
- On all platforms, `available_monitors` and `primary_monitor` are now on `EventLoopWindowTarget` rather than `EventLoop` to list monitors event in the event loop.
- On Unix, X11 and Wayland are now optional features (enabled by default)
- On X11, fix deadlock when calling `set_fullscreen_inner`.

2
CONTRIBUTING.md
View File

@@ -20,7 +20,7 @@ your description of the issue as detailed as possible:
When making a code contribution to winit, before opening your pull request, please make sure that:
- your patch builds with Winit's minimal supported rust version - Rust 1.65.
- your patch builds with Winit's minimal supported rust version - Rust 1.60.
- you tested your modifications on all the platforms impacted, or if not possible detail which platforms
were not tested, and what should be tested, so that a maintainer or another contributor can test them
- you updated any relevant documentation in winit

137
Cargo.toml
View File

@@ -1,6 +1,6 @@
[package]
name = "winit"
version = "0.29.1-beta"
version = "0.27.5"
authors = ["The winit contributors", "Pierre Krieger <pierre.krieger1708@gmail.com>"]
description = "Cross-platform window creation library."
edition = "2021"
@@ -10,10 +10,10 @@ readme = "README.md"
repository = "https://github.com/rust-windowing/winit"
documentation = "https://docs.rs/winit"
categories = ["gui"]
rust-version = "1.65.0"
rust-version = "1.60.0"
[package.metadata.docs.rs]
features = ["rwh_04", "rwh_05", "rwh_06", "serde"]
features = ["serde"]
default-target = "x86_64-unknown-linux-gnu"
# These are all tested in CI
targets = [
@@ -35,85 +35,47 @@ targets = [
rustdoc-args = ["--cfg", "docsrs"]
[features]
default = ["rwh_06", "x11", "wayland", "wayland-dlopen", "wayland-csd-adwaita"]
x11 = ["x11-dl", "bytemuck", "percent-encoding", "xkbcommon-dl/x11", "x11rb"]
wayland = ["wayland-client", "wayland-backend", "wayland-protocols", "wayland-protocols-plasma", "sctk", "ahash", "memmap2"]
wayland-dlopen = ["wayland-backend/dlopen"]
default = ["x11", "wayland", "wayland-dlopen", "wayland-csd-adwaita"]
x11 = ["x11-dl", "mio", "percent-encoding"]
wayland = ["wayland-client", "wayland-protocols", "sctk", "wayland-commons"]
wayland-dlopen = ["sctk/dlopen", "wayland-client/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"]
android-native-activity = [ "android-activity/native-activity" ]
android-game-activity = [ "android-activity/game-activity" ]
[build-dependencies]
cfg_aliases = "0.1.1"
[dependencies]
bitflags = "2"
cursor-icon = "1.0.0"
bitflags = "1"
instant = { version = "0.1", features = ["wasm-bindgen"] }
log = "0.4"
mint = { version = "0.5.6", optional = true }
once_cell = "1.12"
rwh_04 = { package = "raw-window-handle", version = "0.4", optional = true }
rwh_05 = { package = "raw-window-handle", version = "0.5", features = ["std"], optional = true }
rwh_06 = { package = "raw-window-handle", version = "0.6", features = ["std"], optional = true }
raw_window_handle = { package = "raw-window-handle", version = "0.5" }
serde = { version = "1", optional = true, features = ["serde_derive"] }
smol_str = "0.2.0"
[dev-dependencies]
image = { version = "0.24.0", default-features = false, features = ["png"] }
simple_logger = { version = "2.1.0", default_features = false }
[target.'cfg(not(any(target_os = "android", target_os = "ios")))'.dev-dependencies]
softbuffer = "0.3.0"
[target.'cfg(target_os = "android")'.dependencies]
# Coordinate the next winit release android-activity 0.5 release
android-activity = "=0.5.0-beta.1"
ndk = "=0.8.0-beta.0"
ndk-sys = "=0.5.0-beta.0"
# Coordinate the next winit release with android-ndk-rs: https://github.com/rust-windowing/winit/issues/1995
android-activity = "0.4.0"
ndk = "0.7.0"
[target.'cfg(any(target_os = "ios", target_os = "macos"))'.dependencies]
core-foundation = "0.9.3"
objc2 = "0.4.1"
objc2 = "=0.3.0-beta.3"
[target.'cfg(target_os = "macos")'.dependencies]
core-graphics = "0.23.1"
[target.'cfg(target_os = "macos")'.dependencies.icrate]
version = "0.0.4"
features = [
"dispatch",
"Foundation",
"Foundation_NSArray",
"Foundation_NSAttributedString",
"Foundation_NSMutableAttributedString",
"Foundation_NSData",
"Foundation_NSDictionary",
"Foundation_NSString",
"Foundation_NSProcessInfo",
"Foundation_NSThread",
"Foundation_NSNumber",
]
[target.'cfg(target_os = "ios")'.dependencies.icrate]
version = "0.0.4"
features = [
"dispatch",
"Foundation",
"Foundation_NSArray",
"Foundation_NSString",
"Foundation_NSProcessInfo",
"Foundation_NSThread",
"Foundation_NSSet",
]
[target.'cfg(target_os = "windows")'.dependencies]
unicode-segmentation = "1.7.1"
core-graphics = "0.22.3"
dispatch = "0.2.0"
[target.'cfg(target_os = "windows")'.dependencies.windows-sys]
version = "0.48"
version = "0.45"
features = [
"Win32_Devices_HumanInterfaceDevice",
"Win32_Foundation",
@@ -141,78 +103,59 @@ features = [
"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]
ahash = { version = "0.8.3", features = ["no-rng"], optional = true }
bytemuck = { version = "1.13.1", default-features = false, optional = true }
calloop = "0.12.3"
[target.'cfg(all(unix, not(any(target_os = "redox", target_arch = "wasm32", target_os = "android", target_os = "ios", target_os = "macos"))))'.dependencies]
libc = "0.2.64"
memmap2 = { version = "0.9.0", optional = true }
mio = { version = "0.8", features = ["os-ext"], optional = true }
percent-encoding = { version = "2.0", optional = true }
rustix = { version = "0.38.4", default-features = false, features = ["std", "system", "thread", "process"] }
sctk = { package = "smithay-client-toolkit", version = "0.18.0", default-features = false, features = ["calloop"], optional = true }
sctk-adwaita = { version = "0.7.0", default_features = false, optional = true }
wayland-backend = { version = "0.3.0", 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 }
sctk = { package = "smithay-client-toolkit", version = "0.16.0", default_features = false, features = ["calloop"], optional = true }
sctk-adwaita = { version = "0.5.1", default_features = false, optional = true }
wayland-client = { version = "0.29.5", default_features = false, features = ["use_system_lib"], optional = true }
wayland-protocols = { version = "0.29.5", features = [ "staging_protocols"], optional = true }
wayland-commons = { version = "0.29.5", optional = true }
x11-dl = { version = "2.18.5", optional = true }
x11rb = { version = "0.12.0", default-features = false, features = ["allow-unsafe-code", "dl-libxcb", "randr", "resource_manager", "xinput", "xkb"], optional = true }
xkbcommon-dl = "0.4.0"
[target.'cfg(target_os = "redox")'.dependencies]
orbclient = { version = "0.3.42", default-features = false }
redox_syscall = "0.3"
[target.'cfg(target_family = "wasm")'.dependencies.web_sys]
[target.'cfg(any(target_os = "linux", target_os = "dragonfly", target_os = "freebsd", target_os = "openbsd", target_os = "netbsd"))'.build-dependencies]
wayland-scanner = "0.29.5"
[target.'cfg(target_arch = "wasm32")'.dependencies.web_sys]
package = "web-sys"
version = "0.3.64"
version = "0.3.22"
features = [
'AbortController',
'AbortSignal',
'console',
"AddEventListenerOptions",
'CssStyleDeclaration',
'BeforeUnloadEvent',
'Document',
'DomRect',
'DomRectReadOnly',
'Element',
'Event',
"EventListenerOptions",
'EventTarget',
'FocusEvent',
'HtmlCanvasElement',
'HtmlElement',
'IntersectionObserver',
'IntersectionObserverEntry',
'KeyboardEvent',
'MediaQueryList',
'MessageChannel',
'MessagePort',
'MediaQueryListEvent',
'MouseEvent',
'Node',
'PageTransitionEvent',
'PointerEvent',
'ResizeObserver',
'ResizeObserverBoxOptions',
'ResizeObserverEntry',
'ResizeObserverOptions',
'ResizeObserverSize',
'VisibilityState',
'Window',
'WheelEvent'
]
[target.'cfg(target_family = "wasm")'.dependencies]
atomic-waker = "1"
js-sys = "0.3.64"
wasm-bindgen = "0.2"
wasm-bindgen-futures = "0.4"
web-time = "0.2"
[target.'cfg(target_arch = "wasm32")'.dependencies.wasm-bindgen]
version = "0.2.45"
[target.'cfg(target_family = "wasm")'.dev-dependencies]
console_log = "1"
[target.'cfg(target_arch = "wasm32")'.dev-dependencies]
console_log = "0.2"
web-sys = { version = "0.3.22", features = ['CanvasRenderingContext2d'] }
[workspace]
members = [
"xbuild/android-target",
"xbuild/ios-target",
"run-wasm",
]

35
FEATURES.md
View File

@@ -13,9 +13,7 @@ be used to create both games and applications. It supports the following main gr
- iOS
- Android
- Web
- Chrome
- Firefox
- Safari 13.1+
- via WASM
Most platforms expose capabilities that cannot be meaningfully transposed onto others. Winit does not
aim to support every single feature of every platform, but rather to abstract over the common features
@@ -119,7 +117,6 @@ If your PR makes notable changes to Winit's features, please update this section
## Platform
### Windows
* Setting the name of the internal window class
* Setting the taskbar icon
* Setting the parent window
* Setting a menu bar
@@ -146,6 +143,9 @@ If your PR makes notable changes to Winit's features, please update this section
### iOS
* `winit` has a minimum OS requirement of iOS 8
* Get the `UIWindow` object pointer
* Get the `UIViewController` object pointer
* Get the `UIView` object pointer
* Get the `UIScreen` object pointer
* Setting the `UIView` hidpi factor
* Valid orientations
@@ -172,17 +172,16 @@ Legend:
- ❓: Unknown status
### Windowing
|Feature |Windows|MacOS |Linux x11 |Linux Wayland |Android|iOS |Web |Redox OS|
|Feature |Windows|MacOS |Linux x11 |Linux Wayland |Android|iOS |WASM |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 resizing |✔️ |▢[#219]|✔️ |▢[#306] |**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** |
@@ -193,42 +192,42 @@ Legend:
|Popup windows |❌ |❌ |❌ |❌ |❌ |❌ |**N/A**|**N/A** |
### System information
|Feature |Windows|MacOS |Linux x11|Linux Wayland|Android|iOS |Web |Redox OS|
|Feature |Windows|MacOS |Linux x11|Linux Wayland|Android|iOS |WASM |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|
|Feature |Windows |MacOS |Linux x11|Linux Wayland|Android|iOS |WASM |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 hittest |✔️ |✔️ |✔️ |✔️ |**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** |
|Drag & Drop |▢[#720] |▢[#720] |▢[#720] |[#306] |**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** |
|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|
|Feature |Windows|MacOS |Linux x11|Linux Wayland|Android|iOS |WASM |Redox OS|
|------------------------------ | ----- | ---- | ------- | ----------- | ----- | ----- | -------- | ------ |
|New API for HiDPI ([#315] [#319]) |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |❓ |❓ |
|Event Loop 2.0 ([#459]) |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |❓ |✔️ |
|Keyboard Input 2.0 ([#753]) |✔️ |✔️ |✔️ |✔️ |✔️ |❌ |✔️ |✔️ |
|New API for HiDPI ([#315] [#319]) |✔️ |✔️ |✔️ |✔️ |✔️ |✔️ |❓ |❓ |
|Event Loop 2.0 ([#459]) |✔️ |✔️ |❌ |✔️ |✔️ |✔️ |❓ | |
|Keyboard Input ([#812]) |❌ | | | |❌ |❌ |❓ | |
### Completed API Reworks
|Feature |Windows|MacOS |Linux x11|Linux Wayland|Android|iOS |Web |Redox OS|
|Feature |Windows|MacOS |Linux x11|Linux Wayland|Android|iOS |WASM |Redox OS|
|------------------------------ | ----- | ---- | ------- | ----------- | ----- | ----- | -------- | ------ |
[#165]: https://github.com/rust-windowing/winit/issues/165
@@ -244,5 +243,5 @@ Changes in the API that have been agreed upon but aren't implemented across all
[#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
[#812]: https://github.com/rust-windowing/winit/issues/812

53
README.md
View File

@@ -6,14 +6,14 @@
```toml
[dependencies]
winit = "0.29.1-beta"
winit = "0.27.5"
```
## [Documentation](https://docs.rs/winit)
For features _within_ the scope of winit, see [FEATURES.md](FEATURES.md).
For features _outside_ the scope of winit, see [Are we GUI Yet?](https://areweguiyet.com/) and [Are we game yet?](https://arewegameyet.rs/), depending on what kind of project you're looking to do.
For features _outside_ the scope of winit, see [Missing features provided by other crates](https://github.com/rust-windowing/winit/wiki/Missing-features-provided-by-other-crates) in the wiki.
## Contact Us
@@ -35,21 +35,22 @@ another library.
```rust
use winit::{
event::{Event, WindowEvent},
event_loop::EventLoop,
event_loop::{ControlFlow, EventLoop},
window::WindowBuilder,
};
fn main() {
let event_loop = EventLoop::new();
event_loop.set_control_flow(ControlFlow::Wait);
let window = WindowBuilder::new().build(&event_loop).unwrap();
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
*control_flow = ControlFlow::Wait;
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => elwt.exit(),
} if window_id == window.id() => *control_flow = ControlFlow::Exit,
_ => (),
}
});
@@ -66,41 +67,16 @@ Winit provides the following features, which can be enabled in your `Cargo.toml`
* `wayland` (enabled by default): On Unix platform, compiles with the Wayland backend
* `mint`: Enables mint (math interoperability standard types) conversions.
## MSRV Policy
The Minimum Supported Rust Version (MSRV) of this crate is **1.65**. 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
formula:
```
min(sid, stable - 3)
```
Where `sid` is the current version of `rustc` provided by [Debian Sid], and
`stable` is the latest stable version of Rust. This bound may be broken in the
event of a major ecosystem shift or a security vulnerability.
[Debian Sid]: https://packages.debian.org/sid/rustc
The exception to this is 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.
All crates in the [`rust-windowing`] organizations have the
same MSRV policy.
[`rust-windowing`]: https://github.com/rust-windowing
### Platform-specific usage
#### Wayland
Note that windows don't appear on Wayland until you draw/present to them.
`winit` doesn't do drawing, try the examples in [`glutin`] instead.
[`glutin`]: https://github.com/rust-windowing/glutin
#### WebAssembly
To run the web example: `cargo run-wasm --example web`
@@ -123,7 +99,7 @@ book].
#### Android
The Android backend builds on (and exposes types from) the [`ndk`](https://docs.rs/ndk/latest/ndk/) crate.
The Android backend builds on (and exposes types from) the [`ndk`](https://docs.rs/ndk/0.7.0/ndk/) crate.
Native Android applications need some form of "glue" crate that is responsible
for defining the main entry point for your Rust application as well as tracking
@@ -142,7 +118,6 @@ clash.
| winit | ndk-glue |
| :---: | :--------------------------: |
| 0.29.1-beta | `android-activity = "0.5.0-beta.1"` |
| 0.28 | `android-activity = "0.4"` |
| 0.27 | `ndk-glue = "0.7"` |
| 0.26 | `ndk-glue = "0.5"` |
@@ -179,7 +154,7 @@ class. Your application _must_ specify the base class it needs via a feature fla
For example, add this to Cargo.toml:
```toml
winit = { version = "0.29.1-beta", features = [ "android-native-activity" ] }
winit = { version = "0.28", features = [ "android-native-activity" ] }
[target.'cfg(target_os = "android")'.dependencies]
android_logger = "0.11.0"
@@ -210,7 +185,7 @@ For more details, refer to these `android-activity` [example applications](https
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 = "0.29.1-beta", features = [ "android-native-activity" ] }`
2. Enable the `"android-native-activity"` feature for Winit: `winit = { version = "0.28", 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 logging as above).
4. Pass a clone of the `AndroidApp` that your application receives to Winit when building your event loop (as shown above).

44
build.rs
View File

@@ -1,19 +1,46 @@
use cfg_aliases::cfg_aliases;
#[cfg(all(
any(
target_os = "linux",
target_os = "dragonfly",
target_os = "freebsd",
target_os = "openbsd",
target_os = "netbsd",
),
feature = "wayland",
))]
mod wayland {
use std::env;
use std::path::PathBuf;
use wayland_scanner::Side;
pub fn main() {
let mut path = PathBuf::from(env::var("OUT_DIR").unwrap());
path.push("fractional_scale_v1.rs");
wayland_scanner::generate_code(
"wayland_protocols/fractional-scale-v1.xml",
&path,
Side::Client,
);
}
}
fn main() {
// The script doesn't depend on our code
println!("cargo:rerun-if-changed=build.rs");
println!("cargo:rerun-if-changed=wayland_protocols");
// Setup cfg aliases
cfg_aliases! {
// Systems.
android_platform: { target_os = "android" },
wasm_platform: { all(target_family = "wasm", not(target_os = "emscripten")) },
wasm_platform: { target_arch = "wasm32" },
macos_platform: { target_os = "macos" },
ios_platform: { target_os = "ios" },
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(apple), not(android_platform)) },
redox: { target_os = "redox" },
// Native displays.
@@ -21,4 +48,17 @@ fn main() {
wayland_platform: { all(feature = "wayland", free_unix, not(wasm), not(redox)) },
orbital_platform: { redox },
}
// XXX aliases are not available for the build script itself.
#[cfg(all(
any(
target_os = "linux",
target_os = "dragonfly",
target_os = "freebsd",
target_os = "openbsd",
target_os = "netbsd",
),
feature = "wayland",
))]
wayland::main();
}

13
clippy.toml
View File

@@ -1,13 +0,0 @@
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::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 = "icrate::AppKit::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." },
]

70
deny.toml
View File

@@ -1,70 +0,0 @@
# https://embarkstudios.github.io/cargo-deny/
# cargo install cargo-deny
# cargo update && cargo deny --all-features --log-level error --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
targets = [
{ 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 = "x86_64-apple-darwin" },
{ triple = "x86_64-apple-ios" },
{ triple = "x86_64-pc-windows-gnu" },
{ triple = "x86_64-pc-windows-msvc" },
{ triple = "x86_64-unknown-linux-gnu" },
{ triple = "x86_64-unknown-redox" },
]
[advisories]
vulnerability = "deny"
unmaintained = "warn"
yanked = "deny"
ignore = []
[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
{ name = "syn" }, # https://github.com/rust-mobile/ndk/issues/392
{ name = "num_enum"}, # See above ^, waiting for release
{ name = "num_enum_derive"}, # See above ^, waiting for release
{ name = "miniz_oxide"}, # https://github.com/rust-lang/flate2-rs/issues/340
{ name = "redox_syscall" }, # https://gitlab.redox-os.org/redox-os/orbclient/-/issues/46
{ name = "foreign-types-shared" }, # https://github.com/servo/core-foundation-rs/issues/634
{ name = "foreign-types" }, # See above ^, waiting for release
]
skip-tree = []
[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"
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)
]

11
docs/res/ATTRIBUTION.md
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@@ -1,11 +0,0 @@
# Image Attribution
These images are used in the documentation of `winit`.
## keyboard_*.svg
These files are a modified version of "[ANSI US QWERTY (Windows)](https://commons.wikimedia.org/wiki/File:ANSI_US_QWERTY_(Windows).svg)"
by [Tomiĉo] (https://commons.wikimedia.org/wiki/User:Tomi%C4%89o). It is
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.

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49
examples/child_window.rs
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@@ -1,23 +1,12 @@
#[cfg(all(
feature = "rwh_06",
any(x11_platform, macos_platform, windows_platform)
))]
#[path = "util/fill.rs"]
mod fill;
#[cfg(all(
feature = "rwh_06",
any(x11_platform, macos_platform, windows_platform)
))]
#[allow(deprecated)]
fn main() -> Result<(), impl std::error::Error> {
#[cfg(any(x11_platform, macos_platform, windows_platform))]
fn main() {
use std::collections::HashMap;
use raw_window_handle::HasRawWindowHandle;
use winit::{
dpi::{LogicalPosition, LogicalSize, Position},
event::{ElementState, Event, KeyEvent, WindowEvent},
event_loop::{EventLoop, EventLoopWindowTarget},
raw_window_handle::HasRawWindowHandle,
event::{ElementState, Event, KeyboardInput, WindowEvent},
event_loop::{ControlFlow, EventLoop, EventLoopWindowTarget},
window::{Window, WindowBuilder, WindowId},
};
@@ -26,7 +15,7 @@ fn main() -> Result<(), impl std::error::Error> {
event_loop: &EventLoopWindowTarget<()>,
windows: &mut HashMap<WindowId, Window>,
) {
let parent = parent.raw_window_handle().unwrap();
let parent = parent.raw_window_handle();
let mut builder = WindowBuilder::new()
.with_title("child window")
.with_inner_size(LogicalSize::new(200.0f32, 200.0f32))
@@ -43,7 +32,7 @@ fn main() -> Result<(), impl std::error::Error> {
let mut windows = HashMap::new();
let event_loop: EventLoop<()> = EventLoop::new().unwrap();
let event_loop: EventLoop<()> = EventLoop::new();
let parent_window = WindowBuilder::new()
.with_title("parent window")
.with_position(Position::Logical(LogicalPosition::new(0.0, 0.0)))
@@ -53,12 +42,14 @@ fn main() -> Result<(), impl std::error::Error> {
println!("parent window: {parent_window:?})");
event_loop.run(move |event: Event<()>, elwt| {
event_loop.run(move |event: Event<'_, ()>, event_loop, control_flow| {
*control_flow = ControlFlow::Wait;
if let Event::WindowEvent { event, window_id } = event {
match event {
WindowEvent::CloseRequested => {
windows.clear();
elwt.exit();
*control_flow = ControlFlow::Exit;
}
WindowEvent::CursorEntered { device_id: _ } => {
// On x11, println when the cursor entered in a window even if the child window is created
@@ -68,19 +59,14 @@ fn main() -> Result<(), impl std::error::Error> {
println!("cursor entered in the window {window_id:?}");
}
WindowEvent::KeyboardInput {
event:
KeyEvent {
input:
KeyboardInput {
state: ElementState::Pressed,
..
},
..
} => {
spawn_child_window(&parent_window, elwt, &mut windows);
}
WindowEvent::RedrawRequested => {
if let Some(window) = windows.get(&window_id) {
fill::fill_window(window);
}
spawn_child_window(&parent_window, event_loop, &mut windows);
}
_ => (),
}
@@ -88,10 +74,7 @@ fn main() -> Result<(), impl std::error::Error> {
})
}
#[cfg(not(all(
feature = "rwh_06",
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 enabled.");
panic!("This example is supported only on x11, macOS, and Windows.");
}

68
examples/control_flow.rs
View File

@@ -1,22 +1,14 @@
#![allow(clippy::single_match)]
use std::thread;
#[cfg(not(wasm_platform))]
use std::time;
#[cfg(wasm_platform)]
use web_time as time;
use std::{thread, time};
use simple_logger::SimpleLogger;
use winit::{
event::{ElementState, Event, KeyEvent, WindowEvent},
event_loop::{ControlFlow, EventLoop},
keyboard::Key,
event::{Event, KeyboardInput, WindowEvent},
event_loop::EventLoop,
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
enum Mode {
Wait,
@@ -27,7 +19,7 @@ enum Mode {
const WAIT_TIME: time::Duration = time::Duration::from_millis(100);
const POLL_SLEEP_TIME: time::Duration = time::Duration::from_millis(100);
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
println!("Press '1' to switch to Wait mode.");
@@ -36,7 +28,7 @@ fn main() -> Result<(), impl std::error::Error> {
println!("Press 'R' to toggle request_redraw() calls.");
println!("Press 'Esc' to close the window.");
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("Press 1, 2, 3 to change control flow mode. Press R to toggle redraw requests.")
.build(&event_loop)
@@ -47,8 +39,8 @@ fn main() -> Result<(), impl std::error::Error> {
let mut wait_cancelled = false;
let mut close_requested = false;
event_loop.run(move |event, elwt| {
use winit::event::StartCause;
event_loop.run(move |event, _, control_flow| {
use winit::event::{ElementState, StartCause, VirtualKeyCode};
println!("{event:?}");
match event {
Event::NewEvents(start_cause) => {
@@ -62,67 +54,61 @@ fn main() -> Result<(), impl std::error::Error> {
close_requested = true;
}
WindowEvent::KeyboardInput {
event:
KeyEvent {
logical_key: key,
input:
KeyboardInput {
virtual_keycode: Some(virtual_code),
state: ElementState::Pressed,
..
},
..
} => match key.as_ref() {
// WARNING: Consider using `key_without_modifers()` if available on your platform.
// See the `key_binding` example
Key::Character("1") => {
} => match virtual_code {
VirtualKeyCode::Key1 => {
mode = Mode::Wait;
println!("\nmode: {mode:?}\n");
}
Key::Character("2") => {
VirtualKeyCode::Key2 => {
mode = Mode::WaitUntil;
println!("\nmode: {mode:?}\n");
}
Key::Character("3") => {
VirtualKeyCode::Key3 => {
mode = Mode::Poll;
println!("\nmode: {mode:?}\n");
}
Key::Character("r") => {
VirtualKeyCode::R => {
request_redraw = !request_redraw;
println!("\nrequest_redraw: {request_redraw}\n");
}
Key::Escape => {
VirtualKeyCode::Escape => {
close_requested = true;
}
_ => (),
},
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
},
Event::AboutToWait => {
Event::MainEventsCleared => {
if request_redraw && !wait_cancelled && !close_requested {
window.request_redraw();
}
if close_requested {
control_flow.set_exit();
}
}
Event::RedrawRequested(_window_id) => {}
Event::RedrawEventsCleared => {
match mode {
Mode::Wait => elwt.set_control_flow(ControlFlow::Wait),
Mode::Wait => control_flow.set_wait(),
Mode::WaitUntil => {
if !wait_cancelled {
elwt.set_control_flow(ControlFlow::WaitUntil(
time::Instant::now() + WAIT_TIME,
));
control_flow.set_wait_until(instant::Instant::now() + WAIT_TIME);
}
}
Mode::Poll => {
thread::sleep(POLL_SLEEP_TIME);
elwt.set_control_flow(ControlFlow::Poll);
control_flow.set_poll();
}
};
if close_requested {
elwt.exit();
}
}
_ => (),
}
})
});
}

68
examples/cursor.rs
View File

@@ -2,58 +2,60 @@
use simple_logger::SimpleLogger;
use winit::{
event::{ElementState, Event, KeyEvent, WindowEvent},
event::{ElementState, Event, KeyboardInput, WindowEvent},
event_loop::EventLoop,
window::{CursorIcon, WindowBuilder},
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new().build(&event_loop).unwrap();
window.set_title("A fantastic window!");
let mut cursor_idx = 0;
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::KeyboardInput {
event:
KeyEvent {
state: ElementState::Pressed,
..
},
..
} => {
println!("Setting cursor to \"{:?}\"", CURSORS[cursor_idx]);
window.set_cursor_icon(CURSORS[cursor_idx]);
if cursor_idx < CURSORS.len() - 1 {
cursor_idx += 1;
} else {
cursor_idx = 0;
}
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
match event {
Event::WindowEvent {
event:
WindowEvent::KeyboardInput {
input:
KeyboardInput {
state: ElementState::Pressed,
..
},
..
},
..
} => {
println!("Setting cursor to \"{:?}\"", CURSORS[cursor_idx]);
window.set_cursor_icon(CURSORS[cursor_idx]);
if cursor_idx < CURSORS.len() - 1 {
cursor_idx += 1;
} else {
cursor_idx = 0;
}
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
WindowEvent::CloseRequested => {
elwt.exit();
}
_ => (),
}
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => {
control_flow.set_exit();
}
_ => (),
}
})
});
}
const CURSORS: &[CursorIcon] = &[
CursorIcon::Default,
CursorIcon::Crosshair,
CursorIcon::Pointer,
CursorIcon::Hand,
CursorIcon::Arrow,
CursorIcon::Move,
CursorIcon::Text,
CursorIcon::Wait,

93
examples/cursor_grab.rs
View File

@@ -2,18 +2,14 @@
use simple_logger::SimpleLogger;
use winit::{
event::{DeviceEvent, ElementState, Event, KeyEvent, WindowEvent},
event::{DeviceEvent, ElementState, Event, KeyboardInput, ModifiersState, WindowEvent},
event_loop::EventLoop,
keyboard::{Key, ModifiersState},
window::{CursorGrabMode, WindowBuilder},
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("Super Cursor Grab'n'Hide Simulator 9000")
@@ -22,52 +18,53 @@ fn main() -> Result<(), impl std::error::Error> {
let mut modifiers = ModifiersState::default();
event_loop.run(move |event, elwt| match event {
Event::WindowEvent { event, .. } => match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::KeyboardInput {
event:
KeyEvent {
logical_key: key,
state: ElementState::Released,
..
},
..
} => {
let result = match key {
Key::Escape => {
elwt.exit();
Ok(())
}
Key::Character(ch) => match ch.to_lowercase().as_str() {
"g" => window.set_cursor_grab(CursorGrabMode::Confined),
"l" => window.set_cursor_grab(CursorGrabMode::Locked),
"a" => window.set_cursor_grab(CursorGrabMode::None),
"h" => {
window.set_cursor_visible(modifiers.shift_key());
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
match event {
Event::WindowEvent { event, .. } => match event {
WindowEvent::CloseRequested => control_flow.set_exit(),
WindowEvent::KeyboardInput {
input:
KeyboardInput {
state: ElementState::Released,
virtual_keycode: Some(key),
..
},
..
} => {
use winit::event::VirtualKeyCode::*;
let result = match key {
Escape => {
control_flow.set_exit();
Ok(())
}
G => window.set_cursor_grab(CursorGrabMode::Confined),
L => window.set_cursor_grab(CursorGrabMode::Locked),
A => window.set_cursor_grab(CursorGrabMode::None),
H => {
window.set_cursor_visible(modifiers.shift());
Ok(())
}
_ => Ok(()),
},
_ => Ok(()),
};
};
if let Err(err) = result {
println!("error: {err}");
if let Err(err) = result {
println!("error: {err}");
}
}
}
WindowEvent::ModifiersChanged(new) => modifiers = new.state(),
WindowEvent::RedrawRequested => fill::fill_window(&window),
_ => (),
},
Event::DeviceEvent { event, .. } => match event {
DeviceEvent::MouseMotion { delta } => println!("mouse moved: {delta:?}"),
DeviceEvent::Button { button, state } => match state {
ElementState::Pressed => println!("mouse button {button} pressed"),
ElementState::Released => println!("mouse button {button} released"),
WindowEvent::ModifiersChanged(m) => modifiers = m,
_ => (),
},
Event::DeviceEvent { event, .. } => match event {
DeviceEvent::MouseMotion { delta } => println!("mouse moved: {delta:?}"),
DeviceEvent::Button { button, state } => match state {
ElementState::Pressed => println!("mouse button {button} pressed"),
ElementState::Released => println!("mouse button {button} released"),
},
_ => (),
},
_ => (),
},
_ => (),
})
}
});
}

35
examples/custom_events.rs
View File

@@ -1,7 +1,7 @@
#![allow(clippy::single_match)]
#[cfg(not(wasm_platform))]
fn main() -> Result<(), impl std::error::Error> {
fn main() {
use simple_logger::SimpleLogger;
use winit::{
event::{Event, WindowEvent},
@@ -9,20 +9,15 @@ fn main() -> Result<(), impl std::error::Error> {
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
#[derive(Debug, Clone, Copy)]
enum CustomEvent {
Timer,
}
SimpleLogger::new().init().unwrap();
let event_loop = EventLoopBuilder::<CustomEvent>::with_user_event()
.build()
.unwrap();
let event_loop = EventLoopBuilder::<CustomEvent>::with_user_event().build();
let window = WindowBuilder::new()
let _window = WindowBuilder::new()
.with_title("A fantastic window!")
.build(&event_loop)
.unwrap();
@@ -40,20 +35,18 @@ fn main() -> Result<(), impl std::error::Error> {
}
});
event_loop.run(move |event, elwt| match event {
Event::UserEvent(event) => println!("user event: {event:?}"),
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => elwt.exit(),
Event::WindowEvent {
event: WindowEvent::RedrawRequested,
..
} => {
fill::fill_window(&window);
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
match event {
Event::UserEvent(event) => println!("user event: {event:?}"),
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => control_flow.set_exit(),
_ => (),
}
_ => (),
})
});
}
#[cfg(wasm_platform)]

72
examples/drag_window.rs
View File

@@ -2,34 +2,34 @@
use simple_logger::SimpleLogger;
use winit::{
event::{ElementState, Event, KeyEvent, MouseButton, StartCause, WindowEvent},
event::{
ElementState, Event, KeyboardInput, MouseButton, StartCause, VirtualKeyCode, WindowEvent,
},
event_loop::EventLoop,
keyboard::Key,
window::{Window, WindowBuilder, WindowId},
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window_1 = WindowBuilder::new().build(&event_loop).unwrap();
let window_2 = WindowBuilder::new().build(&event_loop).unwrap();
let mut switched = false;
let mut entered_id = window_2.id();
let mut cursor_location = None;
event_loop.run(move |event, elwt| match event {
event_loop.run(move |event, _, control_flow| match event {
Event::NewEvents(StartCause::Init) => {
eprintln!("Switch which window is to be dragged by pressing \"x\".")
}
Event::WindowEvent { event, window_id } => match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::CursorMoved { position, .. } => cursor_location = Some(position),
WindowEvent::MouseInput { state, button, .. } => {
WindowEvent::CloseRequested => control_flow.set_exit(),
WindowEvent::MouseInput {
state: ElementState::Pressed,
button: MouseButton::Left,
..
} => {
let window = if (window_id == window_1.id() && switched)
|| (window_id == window_2.id() && !switched)
{
@@ -38,59 +38,29 @@ fn main() -> Result<(), impl std::error::Error> {
&window_1
};
match (button, state) {
(MouseButton::Left, ElementState::Pressed) => window.drag_window().unwrap(),
(MouseButton::Right, ElementState::Released) => {
if let Some(position) = cursor_location {
window.show_window_menu(position);
}
}
_ => (),
}
window.drag_window().unwrap()
}
WindowEvent::CursorEntered { .. } => {
entered_id = window_id;
name_windows(entered_id, switched, &window_1, &window_2)
}
WindowEvent::KeyboardInput {
event:
KeyEvent {
input:
KeyboardInput {
state: ElementState::Released,
logical_key: Key::Character(c),
virtual_keycode: Some(VirtualKeyCode::X),
..
},
..
} => match c.as_str() {
"x" => {
switched = !switched;
name_windows(entered_id, switched, &window_1, &window_2);
println!("Switched!")
}
"d" => {
let window = if (window_id == window_1.id() && switched)
|| (window_id == window_2.id() && !switched)
{
&window_2
} else {
&window_1
};
window.set_decorations(!window.is_decorated());
}
_ => (),
},
WindowEvent::RedrawRequested => {
if window_id == window_1.id() {
fill::fill_window(&window_1);
} else if window_id == window_2.id() {
fill::fill_window(&window_2);
}
} => {
switched = !switched;
name_windows(entered_id, switched, &window_1, &window_2);
println!("Switched!")
}
_ => (),
},
_ => (),
})
});
}
fn name_windows(window_id: WindowId, switched: bool, window_1: &Window, window_2: &Window) {

172
examples/fullscreen.rs
View File

@@ -1,26 +1,16 @@
#![allow(clippy::single_match)]
use simple_logger::SimpleLogger;
use winit::dpi::PhysicalSize;
use winit::event::{ElementState, Event, KeyEvent, WindowEvent};
use winit::event::{ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent};
use winit::event_loop::EventLoop;
use winit::keyboard::Key;
use winit::window::{Fullscreen, WindowBuilder};
#[cfg(target_os = "macos")]
use winit::platform::macos::WindowExtMacOS;
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let mut decorations = true;
let mut minimized = false;
let mut with_min_size = false;
let mut with_max_size = false;
let window = WindowBuilder::new()
.with_title("Hello world!")
@@ -42,122 +32,82 @@ fn main() -> Result<(), impl std::error::Error> {
println!("- Esc\tExit");
println!("- F\tToggle exclusive fullscreen mode");
println!("- B\tToggle borderless mode");
#[cfg(target_os = "macos")]
println!("- C\tToggle simple fullscreen mode");
println!("- S\tNext screen");
println!("- M\tNext mode for this screen");
println!("- D\tToggle window decorations");
println!("- X\tMaximize window");
println!("- Z\tMinimize window");
println!("- I\tToggle mIn size limit");
println!("- A\tToggle mAx size limit");
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
event_loop.run(move |event, elwt, control_flow| {
control_flow.set_wait();
match event {
Event::WindowEvent { event, .. } => match event {
WindowEvent::CloseRequested => control_flow.set_exit(),
WindowEvent::KeyboardInput {
event:
KeyEvent {
logical_key: key,
input:
KeyboardInput {
virtual_keycode: Some(virtual_code),
state: ElementState::Pressed,
..
},
..
} => match key {
Key::Escape => elwt.exit(),
// WARNING: Consider using `key_without_modifers()` if available on your platform.
// See the `key_binding` example
Key::Character(ch) => match ch.to_lowercase().as_str() {
"f" | "b" if window.fullscreen().is_some() => {
window.set_fullscreen(None);
} => match virtual_code {
VirtualKeyCode::Escape => control_flow.set_exit(),
VirtualKeyCode::F | VirtualKeyCode::B if window.fullscreen().is_some() => {
window.set_fullscreen(None);
}
VirtualKeyCode::F => {
let fullscreen = Some(Fullscreen::Exclusive(mode.clone()));
println!("Setting mode: {fullscreen:?}");
window.set_fullscreen(fullscreen);
}
VirtualKeyCode::B => {
let fullscreen = Some(Fullscreen::Borderless(Some(monitor.clone())));
println!("Setting mode: {fullscreen:?}");
window.set_fullscreen(fullscreen);
}
VirtualKeyCode::S => {
monitor_index += 1;
if let Some(mon) = elwt.available_monitors().nth(monitor_index) {
monitor = mon;
} else {
monitor_index = 0;
monitor = elwt.available_monitors().next().expect("no monitor found!");
}
"f" => {
let fullscreen = Some(Fullscreen::Exclusive(mode.clone()));
println!("Setting mode: {fullscreen:?}");
window.set_fullscreen(fullscreen);
}
"b" => {
let fullscreen = Some(Fullscreen::Borderless(Some(monitor.clone())));
println!("Setting mode: {fullscreen:?}");
window.set_fullscreen(fullscreen);
}
#[cfg(target_os = "macos")]
"c" => {
window.set_simple_fullscreen(!window.simple_fullscreen());
}
"s" => {
monitor_index += 1;
if let Some(mon) = elwt.available_monitors().nth(monitor_index) {
monitor = mon;
} else {
monitor_index = 0;
monitor =
elwt.available_monitors().next().expect("no monitor found!");
}
println!("Monitor: {:?}", monitor.name());
println!("Monitor: {:?}", monitor.name());
mode_index = 0;
mode = monitor.video_modes().next().expect("no mode found");
println!("Mode: {mode}");
}
VirtualKeyCode::M => {
mode_index += 1;
if let Some(m) = monitor.video_modes().nth(mode_index) {
mode = m;
} else {
mode_index = 0;
mode = monitor.video_modes().next().expect("no mode found");
println!("Mode: {mode}");
}
"m" => {
mode_index += 1;
if let Some(m) = monitor.video_modes().nth(mode_index) {
mode = m;
} else {
mode_index = 0;
mode = monitor.video_modes().next().expect("no mode found");
}
println!("Mode: {mode}");
}
"d" => {
decorations = !decorations;
window.set_decorations(decorations);
}
"x" => {
let is_maximized = window.is_maximized();
window.set_maximized(!is_maximized);
}
"z" => {
minimized = !minimized;
window.set_minimized(minimized);
}
"i" => {
with_min_size = !with_min_size;
let min_size = if with_min_size {
Some(PhysicalSize::new(100, 100))
} else {
None
};
window.set_min_inner_size(min_size);
eprintln!(
"Min: {with_min_size}: {min_size:?} => {:?}",
window.inner_size()
);
}
"a" => {
with_max_size = !with_max_size;
let max_size = if with_max_size {
Some(PhysicalSize::new(200, 200))
} else {
None
};
window.set_max_inner_size(max_size);
eprintln!(
"Max: {with_max_size}: {max_size:?} => {:?}",
window.inner_size()
);
}
_ => (),
},
println!("Mode: {mode}");
}
VirtualKeyCode::D => {
decorations = !decorations;
window.set_decorations(decorations);
}
VirtualKeyCode::X => {
let is_maximized = window.is_maximized();
window.set_maximized(!is_maximized);
}
VirtualKeyCode::Z => {
minimized = !minimized;
window.set_minimized(minimized);
}
_ => (),
},
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
}
},
_ => {}
}
})
});
}

124
examples/handling_close.rs
View File

@@ -2,85 +2,85 @@
use simple_logger::SimpleLogger;
use winit::{
event::{ElementState, Event, KeyEvent, WindowEvent},
event::{Event, KeyboardInput, WindowEvent},
event_loop::EventLoop,
keyboard::Key,
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
let _window = WindowBuilder::new()
.with_title("Your faithful window")
.build(&event_loop)
.unwrap();
let mut close_requested = false;
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => {
// `CloseRequested` is sent when the close button on the window is pressed (or
// through whatever other mechanisms the window manager provides for closing a
// window). If you don't handle this event, the close button won't actually do
// anything.
event_loop.run(move |event, _, control_flow| {
use winit::event::{
ElementState::Released,
VirtualKeyCode::{N, Y},
};
control_flow.set_wait();
// A common thing to do here is prompt the user if they have unsaved work.
// Creating a proper dialog box for that is far beyond the scope of this
// example, so here we'll just respond to the Y and N keys.
println!("Are you ready to bid your window farewell? [Y/N]");
close_requested = true;
match event {
Event::WindowEvent { event, .. } => {
match event {
WindowEvent::CloseRequested => {
// `CloseRequested` is sent when the close button on the window is pressed (or
// through whatever other mechanisms the window manager provides for closing a
// window). If you don't handle this event, the close button won't actually do
// anything.
// In applications where you can safely close the window without further
// action from the user, this is generally where you'd handle cleanup before
// closing the window. How to close the window is detailed in the handler for
// the Y key.
}
WindowEvent::KeyboardInput {
event:
KeyEvent {
logical_key: key,
state: ElementState::Released,
..
},
..
} => {
// WARNING: Consider using `key_without_modifers()` if available on your platform.
// See the `key_binding` example
match key.as_ref() {
Key::Character("y") => {
if close_requested {
// This is where you'll want to do any cleanup you need.
println!("Buh-bye!");
// A common thing to do here is prompt the user if they have unsaved work.
// Creating a proper dialog box for that is far beyond the scope of this
// example, so here we'll just respond to the Y and N keys.
println!("Are you ready to bid your window farewell? [Y/N]");
close_requested = true;
// For a single-window application like this, you'd normally just
// break out of the event loop here. If you wanted to keep running the
// event loop (i.e. if it's a multi-window application), you need to
// drop the window. That closes it, and results in `Destroyed` being
// sent.
elwt.exit();
}
}
Key::Character("n") => {
if close_requested {
println!("Your window will continue to stay by your side.");
close_requested = false;
}
}
_ => (),
// In applications where you can safely close the window without further
// action from the user, this is generally where you'd handle cleanup before
// closing the window. How to close the window is detailed in the handler for
// the Y key.
}
WindowEvent::KeyboardInput {
input:
KeyboardInput {
virtual_keycode: Some(virtual_code),
state: Released,
..
},
..
} => {
match virtual_code {
Y => {
if close_requested {
// This is where you'll want to do any cleanup you need.
println!("Buh-bye!");
// For a single-window application like this, you'd normally just
// break out of the event loop here. If you wanted to keep running the
// event loop (i.e. if it's a multi-window application), you need to
// drop the window. That closes it, and results in `Destroyed` being
// sent.
control_flow.set_exit();
}
}
N => {
if close_requested {
println!("Your window will continue to stay by your side.");
close_requested = false;
}
}
_ => (),
}
}
_ => (),
}
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
}
_ => (),
}
})
});
}

136
examples/ime.rs
View File

@@ -3,17 +3,13 @@
use log::LevelFilter;
use simple_logger::SimpleLogger;
use winit::{
dpi::{PhysicalPosition, PhysicalSize},
event::{ElementState, Event, Ime, WindowEvent},
event_loop::EventLoop,
keyboard::{Key, KeyCode},
dpi::PhysicalPosition,
event::{ElementState, Event, Ime, VirtualKeyCode, WindowEvent},
event_loop::{ControlFlow, EventLoop},
window::{ImePurpose, WindowBuilder},
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new()
.with_level(LevelFilter::Trace)
.init()
@@ -24,7 +20,7 @@ fn main() -> Result<(), impl std::error::Error> {
println!("Press F2 to toggle IME. See the documentation of `set_ime_allowed` for more info");
println!("Press F3 to cycle through IME purposes.");
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_inner_size(winit::dpi::LogicalSize::new(256f64, 128f64))
@@ -39,56 +35,78 @@ fn main() -> Result<(), impl std::error::Error> {
let mut cursor_position = PhysicalPosition::new(0.0, 0.0);
let mut ime_pos = PhysicalPosition::new(0.0, 0.0);
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::CursorMoved { position, .. } => {
cursor_position = position;
}
WindowEvent::MouseInput {
state: ElementState::Released,
..
} => {
println!(
"Setting ime position to {}, {}",
cursor_position.x, cursor_position.y
);
ime_pos = cursor_position;
if may_show_ime {
window.set_ime_cursor_area(ime_pos, PhysicalSize::new(10, 10));
}
}
WindowEvent::Ime(event) => {
println!("{event:?}");
may_show_ime = event != Ime::Disabled;
if may_show_ime {
window.set_ime_cursor_area(ime_pos, PhysicalSize::new(10, 10));
}
}
WindowEvent::KeyboardInput { event, .. } => {
println!("key: {event:?}");
if event.state == ElementState::Pressed && event.physical_key == KeyCode::F2 {
ime_allowed = !ime_allowed;
window.set_ime_allowed(ime_allowed);
println!("\nIME allowed: {ime_allowed}\n");
}
if event.state == ElementState::Pressed && event.logical_key == Key::F3 {
ime_purpose = match ime_purpose {
ImePurpose::Normal => ImePurpose::Password,
ImePurpose::Password => ImePurpose::Terminal,
_ => ImePurpose::Normal,
};
window.set_ime_purpose(ime_purpose);
println!("\nIME purpose: {ime_purpose:?}\n");
}
}
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
event_loop.run(move |event, _, control_flow| {
*control_flow = ControlFlow::Wait;
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => *control_flow = ControlFlow::Exit,
Event::WindowEvent {
event: WindowEvent::CursorMoved { position, .. },
..
} => {
cursor_position = position;
}
Event::WindowEvent {
event:
WindowEvent::MouseInput {
state: ElementState::Released,
..
},
..
} => {
println!(
"Setting ime position to {}, {}",
cursor_position.x, cursor_position.y
);
ime_pos = cursor_position;
if may_show_ime {
window.set_ime_position(ime_pos);
}
}
Event::WindowEvent {
event: WindowEvent::Ime(event),
..
} => {
println!("{event:?}");
may_show_ime = event != Ime::Disabled;
if may_show_ime {
window.set_ime_position(ime_pos);
}
}
Event::WindowEvent {
event: WindowEvent::ReceivedCharacter(ch),
..
} => {
println!("ch: {ch:?}");
}
Event::WindowEvent {
event: WindowEvent::KeyboardInput { input, .. },
..
} => {
println!("key: {input:?}");
if input.state == ElementState::Pressed
&& input.virtual_keycode == Some(VirtualKeyCode::F2)
{
ime_allowed = !ime_allowed;
window.set_ime_allowed(ime_allowed);
println!("\nIME allowed: {ime_allowed}\n");
}
if input.state == ElementState::Pressed
&& input.virtual_keycode == Some(VirtualKeyCode::F3)
{
ime_purpose = match ime_purpose {
ImePurpose::Normal => ImePurpose::Password,
ImePurpose::Password => ImePurpose::Terminal,
_ => ImePurpose::Normal,
};
window.set_ime_purpose(ime_purpose);
println!("\nIME purpose: {ime_purpose:?}\n");
}
}
_ => (),
}
})
});
}

62
examples/key_binding.rs
View File

@@ -1,62 +0,0 @@
#![allow(clippy::single_match)]
#[cfg(any(target_os = "macos", target_os = "windows", target_os = "linux"))]
use winit::{
dpi::LogicalSize,
event::{ElementState, Event, WindowEvent},
event_loop::EventLoop,
keyboard::{Key, ModifiersState},
// WARNING: This is not available on all platforms (for example on the web).
platform::modifier_supplement::KeyEventExtModifierSupplement,
window::WindowBuilder,
};
#[cfg(not(any(target_os = "macos", target_os = "windows", target_os = "linux")))]
fn main() {
println!("This example is not supported on this platform");
}
#[cfg(any(target_os = "macos", target_os = "windows", target_os = "linux"))]
fn main() -> Result<(), impl std::error::Error> {
#[path = "util/fill.rs"]
mod fill;
simple_logger::SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let window = WindowBuilder::new()
.with_inner_size(LogicalSize::new(400.0, 200.0))
.build(&event_loop)
.unwrap();
let mut modifiers = ModifiersState::default();
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::ModifiersChanged(new) => {
modifiers = new.state();
}
WindowEvent::KeyboardInput { event, .. } => {
if event.state == ElementState::Pressed && !event.repeat {
match event.key_without_modifiers().as_ref() {
Key::Character("1") => {
if modifiers.shift_key() {
println!("Shift + 1 | logical_key: {:?}", event.logical_key);
} else {
println!("1");
}
}
_ => (),
}
}
}
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
}
};
})
}

2
examples/monitor_list.rs
View File

@@ -7,7 +7,7 @@ use winit::{event_loop::EventLoop, window::WindowBuilder};
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new().build(&event_loop).unwrap();
if let Some(mon) = window.primary_monitor() {

25
examples/mouse_wheel.rs
View File

@@ -7,12 +7,9 @@ use winit::{
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("Mouse Wheel events")
@@ -34,10 +31,12 @@ In both cases the example window should move like the content of a scroll area i
In other words, the deltas indicate the direction in which to move the content (in this case the window)."
);
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
match event {
Event::WindowEvent { event, .. } => match event {
WindowEvent::CloseRequested => control_flow.set_exit(),
WindowEvent::MouseWheel { delta, .. } => match delta {
winit::event::MouseScrollDelta::LineDelta(x, y) => {
println!("mouse wheel Line Delta: ({x},{y})");
@@ -55,11 +54,9 @@ In other words, the deltas indicate the direction in which to move the content (
window.set_outer_position(pos)
}
},
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
}
},
_ => (),
}
})
});
}

202
examples/multithreaded.rs
View File

@@ -1,15 +1,14 @@
#![allow(clippy::single_match)]
#[cfg(not(wasm_platform))]
fn main() -> Result<(), impl std::error::Error> {
fn main() {
use std::{collections::HashMap, sync::mpsc, thread, time::Duration};
use simple_logger::SimpleLogger;
use winit::{
dpi::{PhysicalPosition, PhysicalSize, Position, Size},
event::{ElementState, Event, KeyEvent, WindowEvent},
event::{ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent},
event_loop::EventLoop,
keyboard::{Key, ModifiersState},
window::{CursorGrabMode, CursorIcon, Fullscreen, WindowBuilder, WindowLevel},
};
@@ -17,7 +16,7 @@ fn main() -> Result<(), impl std::error::Error> {
const WINDOW_SIZE: PhysicalSize<u32> = PhysicalSize::new(600, 400);
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let mut window_senders = HashMap::with_capacity(WINDOW_COUNT);
for _ in 0..WINDOW_COUNT {
let window = WindowBuilder::new()
@@ -30,7 +29,6 @@ fn main() -> Result<(), impl std::error::Error> {
let (tx, rx) = mpsc::channel();
window_senders.insert(window.id(), tx);
let mut modifiers = ModifiersState::default();
thread::spawn(move || {
while let Ok(event) = rx.recv() {
match event {
@@ -53,118 +51,107 @@ fn main() -> Result<(), impl std::error::Error> {
);
}
}
WindowEvent::ModifiersChanged(new) => {
modifiers = new.state();
}
#[allow(deprecated)]
WindowEvent::KeyboardInput {
event:
KeyEvent {
input:
KeyboardInput {
state: ElementState::Released,
logical_key: key,
virtual_keycode: Some(key),
modifiers,
..
},
..
} => {
use Key::{ArrowLeft, ArrowRight};
window.set_title(&format!("{key:?}"));
let state = !modifiers.shift_key();
let state = !modifiers.shift();
use VirtualKeyCode::*;
match key {
Key1 => window.set_window_level(WindowLevel::AlwaysOnTop),
Key2 => window.set_window_level(WindowLevel::AlwaysOnBottom),
Key3 => window.set_window_level(WindowLevel::Normal),
C => window.set_cursor_icon(match state {
true => CursorIcon::Progress,
false => CursorIcon::Default,
}),
D => window.set_decorations(!state),
// Cycle through video modes
Key::ArrowRight | Key::ArrowLeft => {
Right | Left => {
video_mode_id = match key {
ArrowLeft => video_mode_id.saturating_sub(1),
ArrowRight => (video_modes.len() - 1).min(video_mode_id + 1),
Left => video_mode_id.saturating_sub(1),
Right => (video_modes.len() - 1).min(video_mode_id + 1),
_ => unreachable!(),
};
println!("Picking video mode: {}", video_modes[video_mode_id]);
}
// WARNING: Consider using `key_without_modifers()` if available on your platform.
// See the `key_binding` example
Key::Character(ch) => match ch.to_lowercase().as_str() {
"1" => window.set_window_level(WindowLevel::AlwaysOnTop),
"2" => window.set_window_level(WindowLevel::AlwaysOnBottom),
"3" => window.set_window_level(WindowLevel::Normal),
"c" => window.set_cursor_icon(match state {
true => CursorIcon::Progress,
false => CursorIcon::Default,
}),
"d" => window.set_decorations(!state),
"f" => window.set_fullscreen(match (state, modifiers.alt_key()) {
(true, false) => Some(Fullscreen::Borderless(None)),
(true, true) => Some(Fullscreen::Exclusive(
video_modes[video_mode_id].clone(),
)),
(false, _) => None,
}),
"l" if state => {
if let Err(err) = window.set_cursor_grab(CursorGrabMode::Locked)
{
println!("error: {err}");
}
F => window.set_fullscreen(match (state, modifiers.alt()) {
(true, false) => Some(Fullscreen::Borderless(None)),
(true, true) => {
Some(Fullscreen::Exclusive(video_modes[video_mode_id].clone()))
}
"g" if state => {
if let Err(err) =
window.set_cursor_grab(CursorGrabMode::Confined)
{
println!("error: {err}");
}
(false, _) => None,
}),
L if state => {
if let Err(err) = window.set_cursor_grab(CursorGrabMode::Locked) {
println!("error: {err}");
}
"g" | "l" if !state => {
if let Err(err) = window.set_cursor_grab(CursorGrabMode::None) {
println!("error: {err}");
}
}
G if state => {
if let Err(err) = window.set_cursor_grab(CursorGrabMode::Confined) {
println!("error: {err}");
}
"h" => window.set_cursor_visible(!state),
"i" => {
println!("Info:");
println!("-> outer_position : {:?}", window.outer_position());
println!("-> inner_position : {:?}", window.inner_position());
println!("-> outer_size : {:?}", window.outer_size());
println!("-> inner_size : {:?}", window.inner_size());
println!("-> fullscreen : {:?}", window.fullscreen());
}
G | L if !state => {
if let Err(err) = window.set_cursor_grab(CursorGrabMode::None) {
println!("error: {err}");
}
"l" => window.set_min_inner_size(match state {
true => Some(WINDOW_SIZE),
false => None,
}),
"m" => window.set_maximized(state),
"p" => window.set_outer_position({
let mut position = window.outer_position().unwrap();
let sign = if state { 1 } else { -1 };
position.x += 10 * sign;
position.y += 10 * sign;
position
}),
"q" => window.request_redraw(),
"r" => window.set_resizable(state),
"s" => {
let _ = window.request_inner_size(match state {
true => PhysicalSize::new(
WINDOW_SIZE.width + 100,
WINDOW_SIZE.height + 100,
),
false => WINDOW_SIZE,
});
}
H => window.set_cursor_visible(!state),
I => {
println!("Info:");
println!("-> outer_position : {:?}", window.outer_position());
println!("-> inner_position : {:?}", window.inner_position());
println!("-> outer_size : {:?}", window.outer_size());
println!("-> inner_size : {:?}", window.inner_size());
println!("-> fullscreen : {:?}", window.fullscreen());
}
L => window.set_min_inner_size(match state {
true => Some(WINDOW_SIZE),
false => None,
}),
M => window.set_maximized(state),
P => window.set_outer_position({
let mut position = window.outer_position().unwrap();
let sign = if state { 1 } else { -1 };
position.x += 10 * sign;
position.y += 10 * sign;
position
}),
Q => window.request_redraw(),
R => window.set_resizable(state),
S => window.set_inner_size(match state {
true => PhysicalSize::new(
WINDOW_SIZE.width + 100,
WINDOW_SIZE.height + 100,
),
false => WINDOW_SIZE,
}),
W => {
if let Size::Physical(size) = WINDOW_SIZE.into() {
window
.set_cursor_position(Position::Physical(
PhysicalPosition::new(
size.width as i32 / 2,
size.height as i32 / 2,
),
))
.unwrap()
}
"w" => {
if let Size::Physical(size) = WINDOW_SIZE.into() {
window
.set_cursor_position(Position::Physical(
PhysicalPosition::new(
size.width as i32 / 2,
size.height as i32 / 2,
),
))
.unwrap()
}
}
"z" => {
window.set_visible(false);
thread::sleep(Duration::from_secs(1));
window.set_visible(true);
}
_ => (),
},
}
Z => {
window.set_visible(false);
thread::sleep(Duration::from_secs(1));
window.set_visible(true);
}
_ => (),
}
}
@@ -173,19 +160,20 @@ fn main() -> Result<(), impl std::error::Error> {
}
});
}
event_loop.run(move |event, elwt| {
if window_senders.is_empty() {
elwt.exit()
}
event_loop.run(move |event, _event_loop, control_flow| {
match !window_senders.is_empty() {
true => control_flow.set_wait(),
false => control_flow.set_exit(),
};
match event {
Event::WindowEvent { event, window_id } => match event {
WindowEvent::CloseRequested
| WindowEvent::Destroyed
| WindowEvent::KeyboardInput {
event:
KeyEvent {
input:
KeyboardInput {
state: ElementState::Released,
logical_key: Key::Escape,
virtual_keycode: Some(VirtualKeyCode::Escape),
..
},
..
@@ -194,7 +182,9 @@ fn main() -> Result<(), impl std::error::Error> {
}
_ => {
if let Some(tx) = window_senders.get(&window_id) {
tx.send(event).unwrap();
if let Some(event) = event.to_static() {
tx.send(event).unwrap();
}
}
}
},

66
examples/multiwindow.rs
View File

@@ -4,18 +4,14 @@ use std::collections::HashMap;
use simple_logger::SimpleLogger;
use winit::{
event::{ElementState, Event, KeyEvent, WindowEvent},
event::{ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent},
event_loop::EventLoop,
keyboard::Key,
window::Window,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let mut windows = HashMap::new();
for _ in 0..3 {
@@ -26,40 +22,40 @@ fn main() -> Result<(), impl std::error::Error> {
println!("Press N to open a new window.");
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, window_id } = event {
match event {
WindowEvent::CloseRequested => {
println!("Window {window_id:?} has received the signal to close");
event_loop.run(move |event, event_loop, control_flow| {
control_flow.set_wait();
// This drops the window, causing it to close.
windows.remove(&window_id);
match event {
Event::WindowEvent { event, window_id } => {
match event {
WindowEvent::CloseRequested => {
println!("Window {window_id:?} has received the signal to close");
if windows.is_empty() {
elwt.exit();
// This drops the window, causing it to close.
windows.remove(&window_id);
if windows.is_empty() {
control_flow.set_exit();
}
}
}
WindowEvent::KeyboardInput {
event:
KeyEvent {
state: ElementState::Pressed,
logical_key: Key::Character(c),
..
},
is_synthetic: false,
..
} if matches!(c.as_ref(), "n" | "N") => {
let window = Window::new(elwt).unwrap();
println!("Opened a new window: {:?}", window.id());
windows.insert(window.id(), window);
}
WindowEvent::RedrawRequested => {
if let Some(window) = windows.get(&window_id) {
fill::fill_window(window);
WindowEvent::KeyboardInput {
input:
KeyboardInput {
state: ElementState::Pressed,
virtual_keycode: Some(VirtualKeyCode::N),
..
},
is_synthetic: false,
..
} => {
let window = Window::new(event_loop).unwrap();
println!("Opened a new window: {:?}", window.id());
windows.insert(window.id(), window);
}
_ => (),
}
_ => (),
}
_ => (),
}
})
}

27
examples/request_redraw.rs
View File

@@ -7,36 +7,35 @@ use winit::{
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
.build(&event_loop)
.unwrap();
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
println!("{event:?}");
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
control_flow.set_wait();
match event {
Event::WindowEvent { event, .. } => match event {
WindowEvent::CloseRequested => control_flow.set_exit(),
WindowEvent::MouseInput {
state: ElementState::Released,
..
} => {
window.request_redraw();
}
WindowEvent::RedrawRequested => {
println!("\nredrawing!\n");
fill::fill_window(&window);
}
_ => (),
},
Event::RedrawRequested(_) => {
println!("\nredrawing!\n");
}
_ => (),
}
})
});
}

43
examples/request_redraw_threaded.rs
View File

@@ -1,8 +1,8 @@
#![allow(clippy::single_match)]
#[cfg(not(wasm_platform))]
fn main() -> Result<(), impl std::error::Error> {
use std::{sync::Arc, thread, time};
fn main() {
use std::{thread, time};
use simple_logger::SimpleLogger;
use winit::{
@@ -11,46 +11,35 @@ fn main() -> Result<(), impl std::error::Error> {
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = {
let window = WindowBuilder::new()
.with_title("A fantastic window!")
.build(&event_loop)
.unwrap();
Arc::new(window)
};
let window = WindowBuilder::new()
.with_title("A fantastic window!")
.build(&event_loop)
.unwrap();
thread::spawn({
let window = window.clone();
move || loop {
thread::sleep(time::Duration::from_secs(1));
window.request_redraw();
}
thread::spawn(move || loop {
thread::sleep(time::Duration::from_secs(1));
window.request_redraw();
});
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
println!("{event:?}");
control_flow.set_wait();
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => elwt.exit(),
Event::WindowEvent {
event: WindowEvent::RedrawRequested,
..
} => {
} => control_flow.set_exit(),
Event::RedrawRequested(_) => {
println!("\nredrawing!\n");
fill::fill_window(&window);
}
_ => (),
}
})
});
}
#[cfg(wasm_platform)]

34
examples/resizable.rs
View File

@@ -3,18 +3,14 @@
use simple_logger::SimpleLogger;
use winit::{
dpi::LogicalSize,
event::{ElementState, Event, KeyEvent, WindowEvent},
event::{ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent},
event_loop::EventLoop,
keyboard::KeyCode,
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let mut resizable = false;
@@ -27,14 +23,16 @@ fn main() -> Result<(), impl std::error::Error> {
.build(&event_loop)
.unwrap();
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
match event {
Event::WindowEvent { event, .. } => match event {
WindowEvent::CloseRequested => control_flow.set_exit(),
WindowEvent::KeyboardInput {
event:
KeyEvent {
physical_key: KeyCode::Space,
input:
KeyboardInput {
virtual_keycode: Some(VirtualKeyCode::Space),
state: ElementState::Released,
..
},
@@ -44,11 +42,9 @@ fn main() -> Result<(), impl std::error::Error> {
println!("Resizable: {resizable}");
window.set_resizable(resizable);
}
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
}
},
_ => (),
};
})
});
}

117
examples/startup_notification.rs
View File

@@ -1,117 +0,0 @@
//! Demonstrates the use of startup notifications on Linux.
#[cfg(any(x11_platform, wayland_platform))]
#[path = "./util/fill.rs"]
mod fill;
#[cfg(any(x11_platform, wayland_platform))]
mod example {
use std::collections::HashMap;
use std::rc::Rc;
use winit::event::{ElementState, Event, KeyEvent, WindowEvent};
use winit::event_loop::EventLoop;
use winit::keyboard::Key;
use winit::platform::startup_notify::{
EventLoopExtStartupNotify, WindowBuilderExtStartupNotify, WindowExtStartupNotify,
};
use winit::window::{Window, WindowBuilder, WindowId};
pub(super) fn main() -> Result<(), impl std::error::Error> {
// Create the event loop and get the activation token.
let event_loop = EventLoop::new().unwrap();
let mut current_token = match event_loop.read_token_from_env() {
Some(token) => Some(token),
None => {
println!("No startup notification token found in environment.");
None
}
};
let mut windows: HashMap<WindowId, Rc<Window>> = HashMap::new();
let mut counter = 0;
let mut create_first_window = false;
event_loop.run(move |event, elwt| {
match event {
Event::Resumed => create_first_window = true,
Event::WindowEvent { window_id, event } => match event {
WindowEvent::KeyboardInput {
event:
KeyEvent {
logical_key,
state: ElementState::Pressed,
..
},
..
} => {
if logical_key == Key::Character("n".into()) {
if let Some(window) = windows.get(&window_id) {
// Request a new activation token on this window.
// Once we get it we will use it to create a window.
window
.request_activation_token()
.expect("Failed to request activation token.");
}
}
}
WindowEvent::CloseRequested => {
// Remove the window from the map.
windows.remove(&window_id);
if windows.is_empty() {
elwt.exit();
return;
}
}
WindowEvent::ActivationTokenDone { token, .. } => {
current_token = Some(token);
}
WindowEvent::RedrawRequested => {
if let Some(window) = windows.get(&window_id) {
super::fill::fill_window(window);
}
}
_ => {}
},
_ => (),
}
// See if we've passed the deadline.
if current_token.is_some() || create_first_window {
// Create the initial window.
let window = {
let mut builder =
WindowBuilder::new().with_title(format!("Window {}", counter));
if let Some(token) = current_token.take() {
println!("Creating a window with token {token:?}");
builder = builder.with_activation_token(token);
}
Rc::new(builder.build(elwt).unwrap())
};
// Add the window to the map.
windows.insert(window.id(), window.clone());
counter += 1;
create_first_window = false;
}
})
}
}
#[cfg(any(x11_platform, wayland_platform))]
fn main() -> Result<(), impl std::error::Error> {
example::main()
}
#[cfg(not(any(x11_platform, wayland_platform)))]
fn main() {
println!("This example is only supported on X11 and Wayland platforms.");
}

87
examples/theme.rs
View File

@@ -2,18 +2,14 @@
use simple_logger::SimpleLogger;
use winit::{
event::{ElementState, Event, KeyEvent, WindowEvent},
event_loop::EventLoop,
keyboard::Key,
event::{ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent},
event_loop::{ControlFlow, EventLoop},
window::{Theme, WindowBuilder},
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
@@ -27,42 +23,49 @@ fn main() -> Result<(), impl std::error::Error> {
println!(" (L) Light theme");
println!(" (D) Dark theme");
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { window_id, event } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::ThemeChanged(theme) if window_id == window.id() => {
println!("Theme is changed: {theme:?}")
event_loop.run(move |event, _, control_flow| {
*control_flow = ControlFlow::Wait;
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => *control_flow = ControlFlow::Exit,
Event::WindowEvent {
event: WindowEvent::ThemeChanged(theme),
window_id,
..
} if window_id == window.id() => {
println!("Theme is changed: {theme:?}")
}
Event::WindowEvent {
event:
WindowEvent::KeyboardInput {
input:
KeyboardInput {
virtual_keycode: Some(key),
state: ElementState::Pressed,
..
},
..
},
..
} => match key {
VirtualKeyCode::A => {
println!("Theme was: {:?}", window.theme());
window.set_theme(None);
}
WindowEvent::KeyboardInput {
event:
KeyEvent {
logical_key: key,
state: ElementState::Pressed,
..
},
..
} => match key.as_ref() {
Key::Character("A" | "a") => {
println!("Theme was: {:?}", window.theme());
window.set_theme(None);
}
Key::Character("L" | "l") => {
println!("Theme was: {:?}", window.theme());
window.set_theme(Some(Theme::Light));
}
Key::Character("D" | "d") => {
println!("Theme was: {:?}", window.theme());
window.set_theme(Some(Theme::Dark));
}
_ => (),
},
WindowEvent::RedrawRequested => {
println!("\nredrawing!\n");
fill::fill_window(&window);
VirtualKeyCode::L => {
println!("Theme was: {:?}", window.theme());
window.set_theme(Some(Theme::Light));
}
VirtualKeyCode::D => {
println!("Theme was: {:?}", window.theme());
window.set_theme(Some(Theme::Dark));
}
_ => (),
}
},
_ => (),
}
})
});
}

32
examples/timer.rs
View File

@@ -1,54 +1,42 @@
#![allow(clippy::single_match)]
use instant::Instant;
use std::time::Duration;
#[cfg(not(wasm_platform))]
use std::time::Instant;
#[cfg(wasm_platform)]
use web_time::Instant;
use simple_logger::SimpleLogger;
use winit::{
event::{Event, StartCause, WindowEvent},
event_loop::{ControlFlow, EventLoop},
event_loop::EventLoop,
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
let _window = WindowBuilder::new()
.with_title("A fantastic window!")
.build(&event_loop)
.unwrap();
let timer_length = Duration::new(1, 0);
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
println!("{event:?}");
match event {
Event::NewEvents(StartCause::Init) => {
elwt.set_control_flow(ControlFlow::WaitUntil(Instant::now() + timer_length));
control_flow.set_wait_until(Instant::now() + timer_length);
}
Event::NewEvents(StartCause::ResumeTimeReached { .. }) => {
elwt.set_control_flow(ControlFlow::WaitUntil(Instant::now() + timer_length));
control_flow.set_wait_until(Instant::now() + timer_length);
println!("\nTimer\n");
}
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => elwt.exit(),
Event::WindowEvent {
event: WindowEvent::RedrawRequested,
..
} => {
fill::fill_window(&window);
}
} => control_flow.set_exit(),
_ => (),
}
})
});
}

22
examples/touchpad_gestures.rs
View File

@@ -1,28 +1,27 @@
use simple_logger::SimpleLogger;
use winit::{
event::{Event, WindowEvent},
event_loop::EventLoop,
event_loop::{ControlFlow, EventLoop},
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
let _window = WindowBuilder::new()
.with_title("Touchpad gestures")
.build(&event_loop)
.unwrap();
println!("Only supported on macOS at the moment.");
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
*control_flow = ControlFlow::Wait;
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::CloseRequested => *control_flow = ControlFlow::Exit,
WindowEvent::TouchpadMagnify { delta, .. } => {
if delta > 0.0 {
println!("Zoomed in {delta}");
@@ -40,11 +39,8 @@ fn main() -> Result<(), impl std::error::Error> {
println!("Rotated clockwise {delta}");
}
}
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
}
}
})
});
}

26
examples/transparent.rs
View File

@@ -7,12 +7,9 @@ use winit::{
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_decorations(false)
@@ -22,17 +19,16 @@ fn main() -> Result<(), impl std::error::Error> {
window.set_title("A fantastic window!");
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
println!("{event:?}");
if let Event::WindowEvent { event, .. } = event {
match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
}
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => control_flow.set_exit(),
_ => (),
}
})
});
}

86
examples/util/fill.rs
View File

@@ -1,86 +0,0 @@
//! Fill the window buffer with a solid color.
//!
//! Launching a window without drawing to it has unpredictable results varying from platform to
//! platform. In order to have well-defined examples, this module provides an easy way to
//! fill the window buffer with a solid color.
//!
//! The `softbuffer` crate is used, largely because of its ease of use. `glutin` or `wgpu` could
//! also be used to fill the window buffer, but they are more complicated to use.
use winit::window::Window;
#[cfg(all(feature = "rwh_05", not(any(target_os = "android", target_os = "ios"))))]
pub(super) fn fill_window(window: &Window) {
use softbuffer::{Context, Surface};
use std::cell::RefCell;
use std::collections::HashMap;
use std::mem::ManuallyDrop;
use std::num::NonZeroU32;
use winit::window::WindowId;
/// The graphics context used to draw to a window.
struct GraphicsContext {
/// The global softbuffer context.
context: Context,
/// The hash map of window IDs to surfaces.
surfaces: HashMap<WindowId, Surface>,
}
impl GraphicsContext {
fn new(w: &Window) -> Self {
Self {
context: unsafe { Context::new(w) }.expect("Failed to create a softbuffer context"),
surfaces: HashMap::new(),
}
}
fn surface(&mut self, w: &Window) -> &mut Surface {
self.surfaces.entry(w.id()).or_insert_with(|| {
unsafe { Surface::new(&self.context, w) }
.expect("Failed to create a softbuffer surface")
})
}
}
thread_local! {
// NOTE: You should never do things like that, create context and drop it before
// you drop the event loop. We do this for brevity to not blow up examples. We use
// ManuallyDrop to prevent destructors from running.
//
// A static, thread-local map of graphics contexts to open windows.
static GC: ManuallyDrop<RefCell<Option<GraphicsContext>>> = ManuallyDrop::new(RefCell::new(None));
}
GC.with(|gc| {
// Either get the last context used or create a new one.
let mut gc = gc.borrow_mut();
let surface = gc
.get_or_insert_with(|| GraphicsContext::new(window))
.surface(window);
// Fill a buffer with a solid color.
const DARK_GRAY: u32 = 0xFF181818;
let size = window.inner_size();
surface
.resize(
NonZeroU32::new(size.width).expect("Width must be greater than zero"),
NonZeroU32::new(size.height).expect("Height must be greater than zero"),
)
.expect("Failed to resize the softbuffer surface");
let mut buffer = surface
.buffer_mut()
.expect("Failed to get the softbuffer buffer");
buffer.fill(DARK_GRAY);
buffer
.present()
.expect("Failed to present the softbuffer buffer");
})
}
#[cfg(not(all(feature = "rwh_05", not(any(target_os = "android", target_os = "ios")))))]
pub(super) fn fill_window(_window: &Window) {
// No-op on mobile platforms.
}

2
examples/video_modes.rs
View File

@@ -5,7 +5,7 @@ use winit::event_loop::EventLoop;
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let monitor = match event_loop.primary_monitor() {
Some(monitor) => monitor,
None => {

103
examples/web.rs
View File

@@ -1,27 +1,25 @@
#![allow(clippy::disallowed_methods, clippy::single_match)]
#![allow(clippy::single_match)]
use winit::{
event::{ElementState, Event, KeyEvent, WindowEvent},
event::{Event, WindowEvent},
event_loop::EventLoop,
keyboard::KeyCode,
window::{Fullscreen, WindowBuilder},
window::WindowBuilder,
};
pub fn main() -> Result<(), impl std::error::Error> {
let event_loop = EventLoop::new().unwrap();
pub fn main() {
let event_loop = EventLoop::new();
let builder = WindowBuilder::new().with_title("A fantastic window!");
#[cfg(wasm_platform)]
let builder = {
use winit::platform::web::WindowBuilderExtWebSys;
builder.with_append(true)
};
let window = builder.build(&event_loop).unwrap();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
.build(&event_loop)
.unwrap();
#[cfg(wasm_platform)]
let log_list = wasm::insert_canvas_and_create_log_list(&window);
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
#[cfg(wasm_platform)]
wasm::log_event(&log_list, &event);
@@ -29,77 +27,40 @@ pub fn main() -> Result<(), impl std::error::Error> {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => elwt.exit(),
Event::AboutToWait => {
} if window_id == window.id() => control_flow.set_exit(),
Event::MainEventsCleared => {
window.request_redraw();
}
Event::WindowEvent {
window_id,
event:
WindowEvent::KeyboardInput {
event:
KeyEvent {
physical_key: KeyCode::KeyF,
state: ElementState::Released,
..
},
..
},
} if window_id == window.id() => {
if window.fullscreen().is_some() {
window.set_fullscreen(None);
} else {
window.set_fullscreen(Some(Fullscreen::Borderless(None)));
}
}
_ => (),
}
})
});
}
#[cfg(wasm_platform)]
mod wasm {
use std::num::NonZeroU32;
use softbuffer::{Surface, SurfaceExtWeb};
use wasm_bindgen::prelude::*;
use winit::{
event::{Event, WindowEvent},
window::Window,
};
use winit::{event::Event, window::Window};
#[wasm_bindgen(start)]
pub fn run() {
console_log::init_with_level(log::Level::Debug).expect("error initializing logger");
#[allow(clippy::main_recursion)]
let _ = super::main();
super::main();
}
pub fn insert_canvas_and_create_log_list(window: &Window) -> web_sys::Element {
use winit::platform::web::WindowExtWebSys;
let canvas = window.canvas().unwrap();
let mut surface = Surface::from_canvas(canvas.clone()).unwrap();
surface
.resize(
NonZeroU32::new(canvas.width()).unwrap(),
NonZeroU32::new(canvas.height()).unwrap(),
)
.unwrap();
let mut buffer = surface.buffer_mut().unwrap();
buffer.fill(0xFFF0000);
buffer.present().unwrap();
let canvas = window.canvas();
let window = web_sys::window().unwrap();
let document = window.document().unwrap();
let body = document.body().unwrap();
let style = &canvas.style();
style.set_property("margin", "50px").unwrap();
// Use to test interactions with border and padding.
//style.set_property("border", "50px solid black").unwrap();
//style.set_property("padding", "50px").unwrap();
// Set a background color for the canvas to make it easier to tell where the canvas is for debugging purposes.
canvas.style().set_css_text("background-color: crimson;");
body.append_child(&canvas).unwrap();
let log_header = document.create_element("h2").unwrap();
log_header.set_text_content(Some("Event Log"));
@@ -116,29 +77,11 @@ mod wasm {
// Getting access to browser logs requires a lot of setup on mobile devices.
// So we implement this basic logging system into the page to give developers an easy alternative.
// As a bonus its also kind of handy on desktop.
let event = match event {
Event::WindowEvent {
event: WindowEvent::RedrawRequested,
..
} => None,
Event::WindowEvent { event, .. } => Some(format!("{event:?}")),
Event::Resumed | Event::Suspended => Some(format!("{event:?}")),
_ => None,
};
if let Some(event) = event {
if let Event::WindowEvent { event, .. } = &event {
let window = web_sys::window().unwrap();
let document = window.document().unwrap();
let log = document.create_element("li").unwrap();
let date = js_sys::Date::new_0();
log.set_text_content(Some(&format!(
"{:02}:{:02}:{:02}.{:03}: {event}",
date.get_hours(),
date.get_minutes(),
date.get_seconds(),
date.get_milliseconds(),
)));
log.set_text_content(Some(&format!("{event:?}")));
log_list
.insert_before(&log, log_list.first_child().as_ref())
.unwrap();

29
examples/web_aspect_ratio.rs
View File

@@ -1,5 +1,3 @@
#![allow(clippy::disallowed_methods)]
pub fn main() {
println!("This example must be run with cargo run-wasm --example web_aspect_ratio")
}
@@ -12,8 +10,7 @@ mod wasm {
use winit::{
dpi::PhysicalSize,
event::{Event, WindowEvent},
event_loop::EventLoop,
platform::web::WindowBuilderExtWebSys,
event_loop::{ControlFlow, EventLoop},
window::{Window, WindowBuilder},
};
@@ -31,14 +28,13 @@ This example demonstrates the desired future functionality which will possibly b
#[wasm_bindgen(start)]
pub fn run() {
console_log::init_with_level(log::Level::Debug).expect("error initializing logger");
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
// When running in a non-wasm environment this would set the window size to 100x100.
// However in this example it just sets a default initial size of 100x100 that is immediately overwritten due to the layout + styling of the page.
.with_inner_size(PhysicalSize::new(100, 100))
.with_append(true)
.build(&event_loop)
.unwrap();
@@ -47,14 +43,18 @@ This example demonstrates the desired future functionality which will possibly b
// Render once with the size info we currently have
render_circle(&canvas, window.inner_size());
let _ = event_loop.run(move |event, _| match event {
Event::WindowEvent {
event: WindowEvent::Resized(resize),
window_id,
} if window_id == window.id() => {
render_circle(&canvas, resize);
event_loop.run(move |event, _, control_flow| {
*control_flow = ControlFlow::Wait;
match event {
Event::WindowEvent {
event: WindowEvent::Resized(resize),
window_id,
} if window_id == window.id() => {
render_circle(&canvas, resize);
}
_ => (),
}
_ => (),
});
}
@@ -66,10 +66,11 @@ This example demonstrates the desired future functionality which will possibly b
let body = document.body().unwrap();
// Set a background color for the canvas to make it easier to tell the where the canvas is for debugging purposes.
let canvas = window.canvas().unwrap();
let canvas = window.canvas();
canvas
.style()
.set_css_text("display: block; background-color: crimson; margin: auto; width: 50%; aspect-ratio: 4 / 1;");
body.append_child(&canvas).unwrap();
let explanation = document.create_element("pre").unwrap();
explanation.set_text_content(Some(EXPLANATION));

28
examples/window.rs
View File

@@ -7,12 +7,9 @@ use winit::{
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
@@ -20,24 +17,19 @@ fn main() -> Result<(), impl std::error::Error> {
.build(&event_loop)
.unwrap();
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
println!("{event:?}");
match event {
Event::WindowEvent { event, window_id } if window_id == window.id() => match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::RedrawRequested => {
// Notify the windowing system that we'll be presenting to the window.
window.pre_present_notify();
fill::fill_window(&window);
}
_ => (),
},
Event::AboutToWait => {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => control_flow.set_exit(),
Event::MainEventsCleared => {
window.request_redraw();
}
_ => (),
}
})
});
}

80
examples/window_buttons.rs
View File

@@ -5,18 +5,14 @@
use simple_logger::SimpleLogger;
use winit::{
dpi::LogicalSize,
event::{ElementState, Event, KeyEvent, WindowEvent},
event_loop::{DeviceEvents, EventLoop},
keyboard::Key,
event::{ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent},
event_loop::{DeviceEventFilter, EventLoop},
window::{WindowBuilder, WindowButtons},
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
@@ -29,40 +25,44 @@ fn main() -> Result<(), impl std::error::Error> {
eprintln!(" (G) Toggle maximize button");
eprintln!(" (H) Toggle minimize button");
event_loop.listen_device_events(DeviceEvents::Always);
event_loop.set_device_event_filter(DeviceEventFilter::Never);
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { window_id, event } = event {
match event {
WindowEvent::KeyboardInput {
event:
KeyEvent {
logical_key: key,
state: ElementState::Pressed,
..
},
..
} => match key.as_ref() {
Key::Character("F" | "f") => {
let buttons = window.enabled_buttons();
window.set_enabled_buttons(buttons ^ WindowButtons::CLOSE);
}
Key::Character("G" | "g") => {
let buttons = window.enabled_buttons();
window.set_enabled_buttons(buttons ^ WindowButtons::MAXIMIZE);
}
Key::Character("H" | "h") => {
let buttons = window.enabled_buttons();
window.set_enabled_buttons(buttons ^ WindowButtons::MINIMIZE);
}
_ => (),
},
WindowEvent::CloseRequested if window_id == window.id() => elwt.exit(),
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
match event {
Event::WindowEvent {
event:
WindowEvent::KeyboardInput {
input:
KeyboardInput {
virtual_keycode: Some(key),
state: ElementState::Pressed,
..
},
..
},
..
} => match key {
VirtualKeyCode::F => {
let buttons = window.enabled_buttons();
window.set_enabled_buttons(buttons ^ WindowButtons::CLOSE);
}
VirtualKeyCode::G => {
let buttons = window.enabled_buttons();
window.set_enabled_buttons(buttons ^ WindowButtons::MAXIMIZE);
}
VirtualKeyCode::H => {
let buttons = window.enabled_buttons();
window.set_enabled_buttons(buttons ^ WindowButtons::MINIMIZE);
}
_ => (),
}
},
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => control_flow.set_exit(),
_ => (),
}
})
});
}

149
examples/window_debug.rs
View File

@@ -5,18 +5,14 @@
use simple_logger::SimpleLogger;
use winit::{
dpi::{LogicalSize, PhysicalSize},
event::{DeviceEvent, ElementState, Event, KeyEvent, RawKeyEvent, WindowEvent},
event_loop::{DeviceEvents, EventLoop},
keyboard::{Key, KeyCode},
event::{DeviceEvent, ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent},
event_loop::{DeviceEventFilter, EventLoop},
window::{Fullscreen, WindowBuilder},
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
@@ -36,29 +32,29 @@ fn main() -> Result<(), impl std::error::Error> {
let mut minimized = false;
let mut visible = true;
event_loop.listen_device_events(DeviceEvents::Always);
event_loop.set_device_event_filter(DeviceEventFilter::Never);
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
event_loop.run(move |event, elwt| {
match event {
// This used to use the virtual key, but the new API
// only provides the `physical_key` (`Code`).
Event::DeviceEvent {
event:
DeviceEvent::Key(RawKeyEvent {
physical_key,
state: ElementState::Released,
DeviceEvent::Key(KeyboardInput {
virtual_keycode: Some(key),
state: ElementState::Pressed,
..
}),
..
} => match physical_key {
KeyCode::KeyM => {
} => match key {
VirtualKeyCode::M => {
if minimized {
minimized = !minimized;
window.set_minimized(minimized);
window.focus_window();
}
}
KeyCode::KeyV => {
VirtualKeyCode::V => {
if !visible {
visible = !visible;
window.set_visible(visible);
@@ -66,72 +62,71 @@ fn main() -> Result<(), impl std::error::Error> {
}
_ => (),
},
Event::WindowEvent { window_id, event } => match event {
WindowEvent::KeyboardInput {
event:
KeyEvent {
logical_key: Key::Character(key_str),
state: ElementState::Pressed,
..
},
..
} => match key_str.as_ref() {
// WARNING: Consider using `key_without_modifers()` if available on your platform.
// See the `key_binding` example
"e" => {
fn area(size: PhysicalSize<u32>) -> u32 {
size.width * size.height
}
Event::WindowEvent {
event:
WindowEvent::KeyboardInput {
input:
KeyboardInput {
virtual_keycode: Some(key),
state: ElementState::Pressed,
..
},
..
},
..
} => match key {
VirtualKeyCode::E => {
fn area(size: PhysicalSize<u32>) -> u32 {
size.width * size.height
}
let monitor = window.current_monitor().unwrap();
if let Some(mode) = monitor
.video_modes()
.max_by(|a, b| area(a.size()).cmp(&area(b.size())))
{
window.set_fullscreen(Some(Fullscreen::Exclusive(mode)));
} else {
eprintln!("no video modes available");
}
let monitor = window.current_monitor().unwrap();
if let Some(mode) = monitor
.video_modes()
.max_by(|a, b| area(a.size()).cmp(&area(b.size())))
{
window.set_fullscreen(Some(Fullscreen::Exclusive(mode)));
} else {
eprintln!("no video modes available");
}
"f" => {
if window.fullscreen().is_some() {
window.set_fullscreen(None);
} else {
let monitor = window.current_monitor();
window.set_fullscreen(Some(Fullscreen::Borderless(monitor)));
}
}
VirtualKeyCode::F => {
if window.fullscreen().is_some() {
window.set_fullscreen(None);
} else {
let monitor = window.current_monitor();
window.set_fullscreen(Some(Fullscreen::Borderless(monitor)));
}
"p" => {
if window.fullscreen().is_some() {
window.set_fullscreen(None);
} else {
window.set_fullscreen(Some(Fullscreen::Borderless(None)));
}
}
VirtualKeyCode::P => {
if window.fullscreen().is_some() {
window.set_fullscreen(None);
} else {
window.set_fullscreen(Some(Fullscreen::Borderless(None)));
}
"m" => {
minimized = !minimized;
window.set_minimized(minimized);
}
"q" => {
elwt.exit();
}
"v" => {
visible = !visible;
window.set_visible(visible);
}
"x" => {
let is_maximized = window.is_maximized();
window.set_maximized(!is_maximized);
}
_ => (),
},
WindowEvent::CloseRequested if window_id == window.id() => elwt.exit(),
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
VirtualKeyCode::M => {
minimized = !minimized;
window.set_minimized(minimized);
}
VirtualKeyCode::Q => {
control_flow.set_exit();
}
VirtualKeyCode::V => {
visible = !visible;
window.set_visible(visible);
}
VirtualKeyCode::X => {
let is_maximized = window.is_maximized();
window.set_maximized(!is_maximized);
}
_ => (),
},
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => control_flow.set_exit(),
_ => (),
}
})
});
}

34
examples/window_drag_resize.rs
View File

@@ -2,20 +2,18 @@
use simple_logger::SimpleLogger;
use winit::{
event::{ElementState, Event, KeyEvent, MouseButton, StartCause, WindowEvent},
event_loop::EventLoop,
keyboard::Key,
event::{
ElementState, Event, KeyboardInput, MouseButton, StartCause, VirtualKeyCode, WindowEvent,
},
event_loop::{ControlFlow, EventLoop},
window::{CursorIcon, ResizeDirection, WindowBuilder},
};
const BORDER: f64 = 8.0;
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_inner_size(winit::dpi::LogicalSize::new(600.0, 400.0))
@@ -27,12 +25,12 @@ fn main() -> Result<(), impl std::error::Error> {
let mut border = false;
let mut cursor_location = None;
event_loop.run(move |event, elwt| match event {
event_loop.run(move |event, _, control_flow| match event {
Event::NewEvents(StartCause::Init) => {
eprintln!("Press 'B' to toggle borderless")
}
Event::WindowEvent { event, .. } => match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::CloseRequested => *control_flow = ControlFlow::Exit,
WindowEvent::CursorMoved { position, .. } => {
if !window.is_decorated() {
let new_location =
@@ -52,30 +50,24 @@ fn main() -> Result<(), impl std::error::Error> {
} => {
if let Some(dir) = cursor_location {
let _res = window.drag_resize_window(dir);
} else if !window.is_decorated() {
let _res = window.drag_window();
}
}
WindowEvent::KeyboardInput {
event:
KeyEvent {
input:
KeyboardInput {
state: ElementState::Released,
logical_key: Key::Character(c),
virtual_keycode: Some(VirtualKeyCode::B),
..
},
..
} if matches!(c.as_ref(), "B" | "b") => {
} => {
border = !border;
window.set_decorations(border);
}
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
_ => (),
},
_ => (),
})
});
}
fn cursor_direction_icon(resize_direction: Option<ResizeDirection>) -> CursorIcon {

21
examples/window_icon.rs
View File

@@ -4,15 +4,12 @@ use std::path::Path;
use simple_logger::SimpleLogger;
use winit::{
event::{Event, WindowEvent},
event::Event,
event_loop::EventLoop,
window::{Icon, WindowBuilder},
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
// You'll have to choose an icon size at your own discretion. On X11, the desired size varies
@@ -23,7 +20,7 @@ fn main() -> Result<(), impl std::error::Error> {
let icon = load_icon(Path::new(path));
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("An iconic window!")
@@ -33,18 +30,20 @@ fn main() -> Result<(), impl std::error::Error> {
.build(&event_loop)
.unwrap();
event_loop.run(move |event, elwt| {
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
if let Event::WindowEvent { event, .. } = event {
use winit::event::WindowEvent::*;
match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::DroppedFile(path) => {
CloseRequested => control_flow.set_exit(),
DroppedFile(path) => {
window.set_window_icon(Some(load_icon(&path)));
}
WindowEvent::RedrawRequested => fill::fill_window(&window),
_ => (),
}
}
})
});
}
fn load_icon(path: &Path) -> Icon {

92
examples/window_on_demand.rs
View File

@@ -1,92 +0,0 @@
#![allow(clippy::single_match)]
// Limit this example to only compatible platforms.
#[cfg(any(windows_platform, macos_platform, x11_platform, wayland_platform,))]
fn main() -> Result<(), impl std::error::Error> {
use std::time::Duration;
use simple_logger::SimpleLogger;
use winit::{
error::EventLoopError,
event::{Event, WindowEvent},
event_loop::EventLoop,
platform::run_on_demand::EventLoopExtRunOnDemand,
window::{Window, WindowBuilder, WindowId},
};
#[path = "util/fill.rs"]
mod fill;
#[derive(Default)]
struct App {
window_id: Option<WindowId>,
window: Option<Window>,
}
SimpleLogger::new().init().unwrap();
let mut event_loop = EventLoop::new().unwrap();
fn run_app(event_loop: &mut EventLoop<()>, idx: usize) -> Result<(), EventLoopError> {
let mut app = App::default();
event_loop.run_on_demand(move |event, elwt| {
println!("Run {idx}: {:?}", event);
if let Some(window) = &app.window {
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window.id() == window_id => {
println!("--------------------------------------------------------- Window {idx} CloseRequested");
app.window = None;
}
Event::AboutToWait => window.request_redraw(),
Event::WindowEvent {
event: WindowEvent::RedrawRequested,
..
} => {
fill::fill_window(window);
}
_ => (),
}
} else if let Some(id) = app.window_id {
match event {
Event::WindowEvent {
event: WindowEvent::Destroyed,
window_id,
} if id == window_id => {
println!("--------------------------------------------------------- Window {idx} Destroyed");
app.window_id = None;
elwt.exit();
}
_ => (),
}
} else if let Event::Resumed = event {
let window = WindowBuilder::new()
.with_title("Fantastic window number one!")
.with_inner_size(winit::dpi::LogicalSize::new(128.0, 128.0))
.build(elwt)
.unwrap();
app.window_id = Some(window.id());
app.window = Some(window);
}
})
}
run_app(&mut event_loop, 1)?;
println!("--------------------------------------------------------- Finished first loop");
println!("--------------------------------------------------------- Waiting 5 seconds");
std::thread::sleep(Duration::from_secs(5));
let ret = run_app(&mut event_loop, 2);
println!("--------------------------------------------------------- Finished second loop");
ret
}
#[cfg(not(any(windows_platform, macos_platform, x11_platform, wayland_platform,)))]
fn main() {
println!("This example is not supported on this platform");
}

71
examples/window_option_as_alt.rs
View File

@@ -11,15 +11,11 @@ use winit::{
window::WindowBuilder,
};
#[cfg(target_os = "macos")]
#[path = "util/fill.rs"]
mod fill;
/// Prints the keyboard events characters received when option_is_alt is true versus false.
/// A left mouse click will toggle option_is_alt.
#[cfg(target_os = "macos")]
fn main() -> Result<(), impl std::error::Error> {
let event_loop = EventLoop::new().unwrap();
fn main() {
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
@@ -27,43 +23,44 @@ fn main() -> Result<(), impl std::error::Error> {
.build(&event_loop)
.unwrap();
window.set_ime_allowed(true);
let mut option_as_alt = OptionAsAlt::None;
let mut option_as_alt = window.option_as_alt();
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
event_loop.run(move |event, elwt| match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => elwt.exit(),
Event::WindowEvent { event, .. } => match event {
WindowEvent::MouseInput {
state: ElementState::Pressed,
button: MouseButton::Left,
..
} => {
option_as_alt = match option_as_alt {
OptionAsAlt::None => OptionAsAlt::OnlyLeft,
OptionAsAlt::OnlyLeft => OptionAsAlt::OnlyRight,
OptionAsAlt::OnlyRight => OptionAsAlt::Both,
OptionAsAlt::Both => OptionAsAlt::None,
};
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => control_flow.set_exit(),
Event::WindowEvent { event, .. } => match event {
WindowEvent::MouseInput {
state: ElementState::Pressed,
button: MouseButton::Left,
..
} => {
option_as_alt = match option_as_alt {
OptionAsAlt::None => OptionAsAlt::OnlyLeft,
OptionAsAlt::OnlyLeft => OptionAsAlt::OnlyRight,
OptionAsAlt::OnlyRight => OptionAsAlt::Both,
OptionAsAlt::Both => OptionAsAlt::None,
};
println!("Received Mouse click, toggling option_as_alt to: {option_as_alt:?}");
window.set_option_as_alt(option_as_alt);
}
WindowEvent::KeyboardInput { .. } => println!("KeyboardInput: {event:?}"),
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
println!(
"Received Mouse click, toggling option_as_alt to: {option_as_alt:?}"
);
window.set_option_as_alt(option_as_alt);
}
WindowEvent::ReceivedCharacter(c) => println!("ReceivedCharacter: {c:?}"),
WindowEvent::KeyboardInput { .. } => println!("KeyboardInput: {event:?}"),
_ => (),
},
Event::MainEventsCleared => {
window.request_redraw();
}
_ => (),
},
Event::AboutToWait => {
window.request_redraw();
}
_ => (),
})
});
}
#[cfg(not(target_os = "macos"))]

74
examples/window_pump_events.rs
View File

@@ -1,74 +0,0 @@
#![allow(clippy::single_match)]
// Limit this example to only compatible platforms.
#[cfg(any(
windows_platform,
macos_platform,
x11_platform,
wayland_platform,
android_platform,
))]
fn main() -> std::process::ExitCode {
use std::{process::ExitCode, thread::sleep, time::Duration};
use simple_logger::SimpleLogger;
use winit::{
event::{Event, WindowEvent},
event_loop::EventLoop,
platform::pump_events::{EventLoopExtPumpEvents, PumpStatus},
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
let mut event_loop = EventLoop::new().unwrap();
SimpleLogger::new().init().unwrap();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
.build(&event_loop)
.unwrap();
'main: loop {
let timeout = Some(Duration::ZERO);
let status = event_loop.pump_events(timeout, |event, elwt| {
if let Event::WindowEvent { event, .. } = &event {
// Print only Window events to reduce noise
println!("{event:?}");
}
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => elwt.exit(),
Event::AboutToWait => {
window.request_redraw();
}
Event::WindowEvent {
event: WindowEvent::RedrawRequested,
..
} => {
fill::fill_window(&window);
}
_ => (),
}
});
if let PumpStatus::Exit(exit_code) = status {
break 'main ExitCode::from(exit_code as u8);
}
// Sleep for 1/60 second to simulate application work
//
// Since `pump_events` doesn't block it will be important to
// throttle the loop in the app somehow.
println!("Update()");
sleep(Duration::from_millis(16));
}
}
#[cfg(any(ios_platform, wasm_platform, orbital_platform))]
fn main() {
println!("This platform doesn't support pump_events.");
}

48
examples/window_resize_increments.rs
View File

@@ -2,18 +2,14 @@ use log::debug;
use simple_logger::SimpleLogger;
use winit::{
dpi::LogicalSize,
event::{ElementState, Event, KeyEvent, WindowEvent},
event::{ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent},
event_loop::EventLoop,
keyboard::Key,
window::WindowBuilder,
};
#[path = "util/fill.rs"]
mod fill;
fn main() -> Result<(), impl std::error::Error> {
fn main() {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.with_title("A fantastic window!")
@@ -24,18 +20,27 @@ fn main() -> Result<(), impl std::error::Error> {
let mut has_increments = true;
event_loop.run(move |event, elwt| match event {
Event::WindowEvent { event, window_id } if window_id == window.id() => match event {
WindowEvent::CloseRequested => elwt.exit(),
WindowEvent::KeyboardInput {
event_loop.run(move |event, _, control_flow| {
control_flow.set_wait();
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => control_flow.set_exit(),
Event::WindowEvent {
event:
KeyEvent {
logical_key: Key::Space,
state: ElementState::Released,
WindowEvent::KeyboardInput {
input:
KeyboardInput {
virtual_keycode: Some(VirtualKeyCode::Space),
state: ElementState::Released,
..
},
..
},
..
} => {
window_id,
} if window_id == window.id() => {
has_increments = !has_increments;
let new_increments = match window.resize_increments() {
@@ -45,13 +50,8 @@ fn main() -> Result<(), impl std::error::Error> {
debug!("Had increments: {}", new_increments.is_none());
window.set_resize_increments(new_increments);
}
WindowEvent::RedrawRequested => {
fill::fill_window(&window);
}
Event::MainEventsCleared => window.request_redraw(),
_ => (),
},
Event::AboutToWait => window.request_redraw(),
_ => (),
})
}
});
}

64
examples/window_run_return.rs Normal file
View File

@@ -0,0 +1,64 @@
#![allow(clippy::single_match)]
// Limit this example to only compatible platforms.
#[cfg(any(
windows_platform,
macos_platform,
x11_platform,
wayland_platform,
android_platform,
orbital_platform,
))]
fn main() {
use std::{thread::sleep, time::Duration};
use simple_logger::SimpleLogger;
use winit::{
event::{Event, WindowEvent},
event_loop::EventLoop,
platform::run_return::EventLoopExtRunReturn,
window::WindowBuilder,
};
let mut event_loop = EventLoop::new();
SimpleLogger::new().init().unwrap();
let _window = WindowBuilder::new()
.with_title("A fantastic window!")
.build(&event_loop)
.unwrap();
let mut quit = false;
while !quit {
event_loop.run_return(|event, _, control_flow| {
control_flow.set_wait();
if let Event::WindowEvent { event, .. } = &event {
// Print only Window events to reduce noise
println!("{event:?}");
}
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
..
} => {
quit = true;
}
Event::MainEventsCleared => {
control_flow.set_exit();
}
_ => (),
}
});
// Sleep for 1/60 second to simulate rendering
println!("rendering");
sleep(Duration::from_millis(16));
}
}
#[cfg(any(ios_platform, wasm_platform))]
fn main() {
println!("This platform doesn't support run_return.");
}

107
examples/window_tabbing.rs
View File

@@ -1,107 +0,0 @@
#![allow(clippy::single_match)]
#[cfg(target_os = "macos")]
use std::{collections::HashMap, num::NonZeroUsize};
#[cfg(target_os = "macos")]
use simple_logger::SimpleLogger;
#[cfg(target_os = "macos")]
use winit::{
event::{ElementState, Event, KeyEvent, WindowEvent},
event_loop::EventLoop,
keyboard::Key,
platform::macos::{WindowBuilderExtMacOS, WindowExtMacOS},
window::{Window, WindowBuilder},
};
#[cfg(target_os = "macos")]
#[path = "util/fill.rs"]
mod fill;
#[cfg(target_os = "macos")]
fn main() -> Result<(), impl std::error::Error> {
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new().unwrap();
let mut windows = HashMap::new();
let window = Window::new(&event_loop).unwrap();
println!("Opened a new window: {:?}", window.id());
windows.insert(window.id(), window);
println!("Press N to open a new window.");
event_loop.run(move |event, elwt| {
if let Event::WindowEvent { event, window_id } = event {
match event {
WindowEvent::CloseRequested => {
println!("Window {window_id:?} has received the signal to close");
// This drops the window, causing it to close.
windows.remove(&window_id);
if windows.is_empty() {
elwt.exit();
}
}
WindowEvent::Resized(_) => {
if let Some(window) = windows.get(&window_id) {
window.request_redraw();
}
}
WindowEvent::KeyboardInput {
event:
KeyEvent {
state: ElementState::Pressed,
logical_key,
..
},
is_synthetic: false,
..
} => match logical_key.as_ref() {
Key::Character("t") => {
let tabbing_id = windows.get(&window_id).unwrap().tabbing_identifier();
let window = WindowBuilder::new()
.with_tabbing_identifier(&tabbing_id)
.build(elwt)
.unwrap();
println!("Added a new tab: {:?}", window.id());
windows.insert(window.id(), window);
}
Key::Character("w") => {
let _ = windows.remove(&window_id);
}
Key::ArrowRight => {
windows.get(&window_id).unwrap().select_next_tab();
}
Key::ArrowLeft => {
windows.get(&window_id).unwrap().select_previous_tab();
}
Key::Character(ch) => {
if let Ok(index) = ch.parse::<NonZeroUsize>() {
let index = index.get();
// Select the last tab when pressing `9`.
let window = windows.get(&window_id).unwrap();
if index == 9 {
window.select_tab_at_index(window.num_tabs() - 1)
} else {
window.select_tab_at_index(index - 1);
}
}
}
_ => (),
},
WindowEvent::RedrawRequested => {
if let Some(window) = windows.get(&window_id) {
fill::fill_window(window);
}
}
_ => (),
}
}
})
}
#[cfg(not(target_os = "macos"))]
fn main() {
println!("This example is only supported on MacOS");
}

70
examples/x11_embed.rs
View File

@@ -1,70 +0,0 @@
//! A demonstration of embedding a winit window in an existing X11 application.
#[cfg(x11_platform)]
#[path = "util/fill.rs"]
mod fill;
#[cfg(x11_platform)]
mod imple {
use super::fill;
use simple_logger::SimpleLogger;
use winit::{
event::{Event, WindowEvent},
event_loop::EventLoop,
platform::x11::WindowBuilderExtX11,
window::WindowBuilder,
};
pub(super) fn entry() -> Result<(), Box<dyn std::error::Error>> {
// First argument should be a 32-bit X11 window ID.
let parent_window_id = std::env::args()
.nth(1)
.ok_or("Expected a 32-bit X11 window ID as the first argument.")?
.parse::<u32>()?;
SimpleLogger::new().init().unwrap();
let event_loop = EventLoop::new()?;
let window = WindowBuilder::new()
.with_title("An embedded window!")
.with_inner_size(winit::dpi::LogicalSize::new(128.0, 128.0))
.with_embed_parent_window(parent_window_id)
.build(&event_loop)
.unwrap();
event_loop.run(move |event, elwt| {
match event {
Event::WindowEvent {
event: WindowEvent::CloseRequested,
window_id,
} if window_id == window.id() => elwt.exit(),
Event::AboutToWait => {
window.request_redraw();
}
Event::WindowEvent {
event: WindowEvent::RedrawRequested,
..
} => {
// Notify the windowing system that we'll be presenting to the window.
window.pre_present_notify();
fill::fill_window(&window);
}
_ => (),
}
})?;
Ok(())
}
}
#[cfg(not(x11_platform))]
mod imple {
pub(super) fn entry() -> Result<(), Box<dyn std::error::Error>> {
println!("This example is only supported on X11 platforms.");
Ok(())
}
}
fn main() -> Result<(), Box<dyn std::error::Error>> {
imple::entry()
}

429
src/dpi.rs
View File

@@ -82,7 +82,8 @@
//! If `WINIT_X11_SCALE_FACTOR` is set to `randr`, it'll ignore the `Xft.dpi` field and use the
//! XRandR scaling method. Generally speaking, you should try to configure the standard system
//! variables to do what you want before resorting to `WINIT_X11_SCALE_FACTOR`.
//! - **Wayland:** Scale factor is suggested by the the compositor.
//! - **Wayland:** On Wayland, scale factors are set per-screen by the server, and are always
//! integers (most often 1 or 2).
//! - **iOS:** Scale factors are set by Apple to the value that best suits the device, and range
//! from `1.0` to `3.0`. See [this article][apple_1] and [this article][apple_2] for more
//! information.
@@ -166,7 +167,7 @@ pub fn validate_scale_factor(scale_factor: f64) -> bool {
/// The position is stored as floats, so please be careful. Casting floats to integers truncates the
/// fractional part, which can cause noticable issues. To help with that, an `Into<(i32, i32)>`
/// implementation is provided which does the rounding for you.
#[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Default, Hash)]
#[derive(Debug, Copy, Clone, Eq, PartialEq, Default, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct LogicalPosition<P> {
pub x: P,
@@ -245,7 +246,7 @@ impl<P: Pixel> From<LogicalPosition<P>> for mint::Point2<P> {
}
/// A position represented in physical pixels.
#[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Default, Hash)]
#[derive(Debug, Copy, Clone, Eq, PartialEq, Default, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct PhysicalPosition<P> {
pub x: P,
@@ -324,7 +325,7 @@ impl<P: Pixel> From<PhysicalPosition<P>> for mint::Point2<P> {
}
/// A size represented in logical pixels.
#[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Default, Hash)]
#[derive(Debug, Copy, Clone, Eq, PartialEq, Default, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct LogicalSize<P> {
pub width: P,
@@ -406,7 +407,7 @@ impl<P: Pixel> From<LogicalSize<P>> for mint::Vector2<P> {
}
/// A size represented in physical pixels.
#[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Default, Hash)]
#[derive(Debug, Copy, Clone, Eq, PartialEq, Default, Hash)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
pub struct PhysicalSize<P> {
pub width: P,
@@ -580,421 +581,3 @@ impl<P: Pixel> From<LogicalPosition<P>> for Position {
Position::Logical(position.cast())
}
}
#[cfg(test)]
mod tests {
use crate::dpi;
use std::collections::HashSet;
macro_rules! test_pixel_int_impl {
($($name:ident => $ty:ty),*) => {$(
#[test]
fn $name() {
use dpi::Pixel;
assert_eq!(
<$ty as Pixel>::from_f64(37.0),
37,
);
assert_eq!(
<$ty as Pixel>::from_f64(37.4),
37,
);
assert_eq!(
<$ty as Pixel>::from_f64(37.5),
38,
);
assert_eq!(
<$ty as Pixel>::from_f64(37.9),
38,
);
assert_eq!(
<$ty as Pixel>::cast::<u8>(37),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<u16>(37),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<u32>(37),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<i8>(37),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<i16>(37),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<i32>(37),
37,
);
}
)*};
}
test_pixel_int_impl! {
test_pixel_int_u8 => u8,
test_pixel_int_u16 => u16,
test_pixel_int_u32 => u32,
test_pixel_int_i8 => i8,
test_pixel_int_i16 => i16
}
macro_rules! assert_approx_eq {
($a:expr, $b:expr $(,)?) => {
assert!(
($a - $b).abs() < 0.001,
"{} is not approximately equal to {}",
$a,
$b
);
};
}
macro_rules! test_pixel_float_impl {
($($name:ident => $ty:ty),*) => {$(
#[test]
fn $name() {
use dpi::Pixel;
assert_approx_eq!(
<$ty as Pixel>::from_f64(37.0),
37.0,
);
assert_approx_eq!(
<$ty as Pixel>::from_f64(37.4),
37.4,
);
assert_approx_eq!(
<$ty as Pixel>::from_f64(37.5),
37.5,
);
assert_approx_eq!(
<$ty as Pixel>::from_f64(37.9),
37.9,
);
assert_eq!(
<$ty as Pixel>::cast::<u8>(37.0),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<u8>(37.4),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<u8>(37.5),
38,
);
assert_eq!(
<$ty as Pixel>::cast::<u16>(37.0),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<u16>(37.4),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<u16>(37.5),
38,
);
assert_eq!(
<$ty as Pixel>::cast::<u32>(37.0),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<u32>(37.4),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<u32>(37.5),
38,
);
assert_eq!(
<$ty as Pixel>::cast::<i8>(37.0),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<i8>(37.4),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<i8>(37.5),
38,
);
assert_eq!(
<$ty as Pixel>::cast::<i16>(37.0),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<i16>(37.4),
37,
);
assert_eq!(
<$ty as Pixel>::cast::<i16>(37.5),
38,
);
}
)*};
}
test_pixel_float_impl! {
test_pixel_float_f32 => f32,
test_pixel_float_f64 => f64
}
#[test]
fn test_validate_scale_factor() {
assert!(dpi::validate_scale_factor(1.0));
assert!(dpi::validate_scale_factor(2.0));
assert!(dpi::validate_scale_factor(3.0));
assert!(dpi::validate_scale_factor(1.5));
assert!(dpi::validate_scale_factor(0.5));
assert!(!dpi::validate_scale_factor(0.0));
assert!(!dpi::validate_scale_factor(-1.0));
assert!(!dpi::validate_scale_factor(f64::INFINITY));
assert!(!dpi::validate_scale_factor(f64::NAN));
assert!(!dpi::validate_scale_factor(f64::NEG_INFINITY));
}
#[test]
fn test_logical_position() {
let log_pos = dpi::LogicalPosition::new(1.0, 2.0);
assert_eq!(
log_pos.to_physical::<u32>(1.0),
dpi::PhysicalPosition::new(1, 2)
);
assert_eq!(
log_pos.to_physical::<u32>(2.0),
dpi::PhysicalPosition::new(2, 4)
);
assert_eq!(log_pos.cast::<u32>(), dpi::LogicalPosition::new(1, 2));
assert_eq!(
log_pos,
dpi::LogicalPosition::from_physical(dpi::PhysicalPosition::new(1.0, 2.0), 1.0)
);
assert_eq!(
log_pos,
dpi::LogicalPosition::from_physical(dpi::PhysicalPosition::new(2.0, 4.0), 2.0)
);
assert_eq!(
dpi::LogicalPosition::from((2.0, 2.0)),
dpi::LogicalPosition::new(2.0, 2.0)
);
assert_eq!(
dpi::LogicalPosition::from([2.0, 3.0]),
dpi::LogicalPosition::new(2.0, 3.0)
);
let x: (f64, f64) = log_pos.into();
assert_eq!(x, (1.0, 2.0));
let x: [f64; 2] = log_pos.into();
assert_eq!(x, [1.0, 2.0]);
}
#[test]
fn test_physical_position() {
assert_eq!(
dpi::PhysicalPosition::from_logical(dpi::LogicalPosition::new(1.0, 2.0), 1.0),
dpi::PhysicalPosition::new(1, 2)
);
assert_eq!(
dpi::PhysicalPosition::from_logical(dpi::LogicalPosition::new(2.0, 4.0), 0.5),
dpi::PhysicalPosition::new(1, 2)
);
assert_eq!(
dpi::PhysicalPosition::from((2.0, 2.0)),
dpi::PhysicalPosition::new(2.0, 2.0)
);
assert_eq!(
dpi::PhysicalPosition::from([2.0, 3.0]),
dpi::PhysicalPosition::new(2.0, 3.0)
);
let x: (f64, f64) = dpi::PhysicalPosition::new(1, 2).into();
assert_eq!(x, (1.0, 2.0));
let x: [f64; 2] = dpi::PhysicalPosition::new(1, 2).into();
assert_eq!(x, [1.0, 2.0]);
}
#[test]
fn test_logical_size() {
let log_size = dpi::LogicalSize::new(1.0, 2.0);
assert_eq!(
log_size.to_physical::<u32>(1.0),
dpi::PhysicalSize::new(1, 2)
);
assert_eq!(
log_size.to_physical::<u32>(2.0),
dpi::PhysicalSize::new(2, 4)
);
assert_eq!(log_size.cast::<u32>(), dpi::LogicalSize::new(1, 2));
assert_eq!(
log_size,
dpi::LogicalSize::from_physical(dpi::PhysicalSize::new(1.0, 2.0), 1.0)
);
assert_eq!(
log_size,
dpi::LogicalSize::from_physical(dpi::PhysicalSize::new(2.0, 4.0), 2.0)
);
assert_eq!(
dpi::LogicalSize::from((2.0, 2.0)),
dpi::LogicalSize::new(2.0, 2.0)
);
assert_eq!(
dpi::LogicalSize::from([2.0, 3.0]),
dpi::LogicalSize::new(2.0, 3.0)
);
let x: (f64, f64) = log_size.into();
assert_eq!(x, (1.0, 2.0));
let x: [f64; 2] = log_size.into();
assert_eq!(x, [1.0, 2.0]);
}
#[test]
fn test_physical_size() {
assert_eq!(
dpi::PhysicalSize::from_logical(dpi::LogicalSize::new(1.0, 2.0), 1.0),
dpi::PhysicalSize::new(1, 2)
);
assert_eq!(
dpi::PhysicalSize::from_logical(dpi::LogicalSize::new(2.0, 4.0), 0.5),
dpi::PhysicalSize::new(1, 2)
);
assert_eq!(
dpi::PhysicalSize::from((2.0, 2.0)),
dpi::PhysicalSize::new(2.0, 2.0)
);
assert_eq!(
dpi::PhysicalSize::from([2.0, 3.0]),
dpi::PhysicalSize::new(2.0, 3.0)
);
let x: (f64, f64) = dpi::PhysicalSize::new(1, 2).into();
assert_eq!(x, (1.0, 2.0));
let x: [f64; 2] = dpi::PhysicalSize::new(1, 2).into();
assert_eq!(x, [1.0, 2.0]);
}
#[test]
fn test_size() {
assert_eq!(
dpi::Size::new(dpi::PhysicalSize::new(1, 2)),
dpi::Size::Physical(dpi::PhysicalSize::new(1, 2))
);
assert_eq!(
dpi::Size::new(dpi::LogicalSize::new(1.0, 2.0)),
dpi::Size::Logical(dpi::LogicalSize::new(1.0, 2.0))
);
assert_eq!(
dpi::Size::new(dpi::PhysicalSize::new(1, 2)).to_logical::<f64>(1.0),
dpi::LogicalSize::new(1.0, 2.0)
);
assert_eq!(
dpi::Size::new(dpi::PhysicalSize::new(1, 2)).to_logical::<f64>(2.0),
dpi::LogicalSize::new(0.5, 1.0)
);
assert_eq!(
dpi::Size::new(dpi::LogicalSize::new(1.0, 2.0)).to_logical::<f64>(1.0),
dpi::LogicalSize::new(1.0, 2.0)
);
assert_eq!(
dpi::Size::new(dpi::PhysicalSize::new(1, 2)).to_physical::<u32>(1.0),
dpi::PhysicalSize::new(1, 2)
);
assert_eq!(
dpi::Size::new(dpi::PhysicalSize::new(1, 2)).to_physical::<u32>(2.0),
dpi::PhysicalSize::new(1, 2)
);
assert_eq!(
dpi::Size::new(dpi::LogicalSize::new(1.0, 2.0)).to_physical::<u32>(1.0),
dpi::PhysicalSize::new(1, 2)
);
assert_eq!(
dpi::Size::new(dpi::LogicalSize::new(1.0, 2.0)).to_physical::<u32>(2.0),
dpi::PhysicalSize::new(2, 4)
);
let small = dpi::Size::Physical((1, 2).into());
let medium = dpi::Size::Logical((3, 4).into());
let medium_physical = dpi::Size::new(medium.to_physical::<u32>(1.0));
let large = dpi::Size::Physical((5, 6).into());
assert_eq!(dpi::Size::clamp(medium, small, large, 1.0), medium_physical);
assert_eq!(dpi::Size::clamp(small, medium, large, 1.0), medium_physical);
assert_eq!(dpi::Size::clamp(large, small, medium, 1.0), medium_physical);
}
#[test]
fn test_position() {
assert_eq!(
dpi::Position::new(dpi::PhysicalPosition::new(1, 2)),
dpi::Position::Physical(dpi::PhysicalPosition::new(1, 2))
);
assert_eq!(
dpi::Position::new(dpi::LogicalPosition::new(1.0, 2.0)),
dpi::Position::Logical(dpi::LogicalPosition::new(1.0, 2.0))
);
assert_eq!(
dpi::Position::new(dpi::PhysicalPosition::new(1, 2)).to_logical::<f64>(1.0),
dpi::LogicalPosition::new(1.0, 2.0)
);
assert_eq!(
dpi::Position::new(dpi::PhysicalPosition::new(1, 2)).to_logical::<f64>(2.0),
dpi::LogicalPosition::new(0.5, 1.0)
);
assert_eq!(
dpi::Position::new(dpi::LogicalPosition::new(1.0, 2.0)).to_logical::<f64>(1.0),
dpi::LogicalPosition::new(1.0, 2.0)
);
assert_eq!(
dpi::Position::new(dpi::PhysicalPosition::new(1, 2)).to_physical::<u32>(1.0),
dpi::PhysicalPosition::new(1, 2)
);
assert_eq!(
dpi::Position::new(dpi::PhysicalPosition::new(1, 2)).to_physical::<u32>(2.0),
dpi::PhysicalPosition::new(1, 2)
);
assert_eq!(
dpi::Position::new(dpi::LogicalPosition::new(1.0, 2.0)).to_physical::<u32>(1.0),
dpi::PhysicalPosition::new(1, 2)
);
assert_eq!(
dpi::Position::new(dpi::LogicalPosition::new(1.0, 2.0)).to_physical::<u32>(2.0),
dpi::PhysicalPosition::new(2, 4)
);
}
// Eat coverage for the Debug impls et al
#[test]
fn ensure_attrs_do_not_panic() {
let _ = format!("{:?}", dpi::LogicalPosition::<u32>::default().clone());
HashSet::new().insert(dpi::LogicalPosition::<u32>::default());
let _ = format!("{:?}", dpi::PhysicalPosition::<u32>::default().clone());
HashSet::new().insert(dpi::PhysicalPosition::<u32>::default());
let _ = format!("{:?}", dpi::LogicalSize::<u32>::default().clone());
HashSet::new().insert(dpi::LogicalSize::<u32>::default());
let _ = format!("{:?}", dpi::PhysicalSize::<u32>::default().clone());
HashSet::new().insert(dpi::PhysicalSize::<u32>::default());
let _ = format!("{:?}", dpi::Size::Physical((1, 2).into()).clone());
let _ = format!("{:?}", dpi::Position::Physical((1, 2).into()).clone());
}
}

62
src/error.rs
View File

@@ -2,14 +2,11 @@ use std::{error, fmt};
use crate::platform_impl;
// TODO: Rename
/// An error that may be generated when requesting Winit state
/// An error whose cause it outside Winit's control.
#[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),
}
@@ -28,27 +25,6 @@ pub struct OsError {
error: platform_impl::OsError,
}
/// A general error that may occur while running the Winit event loop
#[derive(Debug)]
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-run while it's already running
AlreadyRunning,
/// The event loop can't be re-created.
RecreationAttempt,
/// Application has exit with an error status.
ExitFailure(i32),
}
impl From<OsError> for EventLoopError {
fn from(value: OsError) -> Self {
Self::Os(value)
}
}
impl NotSupportedError {
#[inline]
#[allow(dead_code)]
@@ -84,7 +60,6 @@ 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),
}
}
@@ -102,41 +77,6 @@ impl fmt::Display for NotSupportedError {
}
}
impl fmt::Display for EventLoopError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
match self {
EventLoopError::AlreadyRunning => write!(f, "EventLoop is already running"),
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)]
mod tests {
#![allow(clippy::redundant_clone)]
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())
);
}
}

1306
src/event.rs
View File

File diff suppressed because it is too large Load Diff

308
src/event_loop.rs
View File

@@ -9,15 +9,12 @@
//! handle events.
use std::marker::PhantomData;
use std::ops::Deref;
use std::sync::atomic::{AtomicBool, AtomicU64, Ordering};
use std::{error, fmt};
#[cfg(not(wasm_platform))]
use std::time::{Duration, Instant};
#[cfg(wasm_platform)]
use web_time::{Duration, Instant};
use instant::{Duration, Instant};
use once_cell::sync::OnceCell;
use raw_window_handle::{HasRawDisplayHandle, RawDisplayHandle};
use crate::error::EventLoopError;
use crate::{event::Event, monitor::MonitorHandle, platform_impl};
/// Provides a way to retrieve events from the system and from the windows that were registered to
@@ -69,8 +66,6 @@ impl EventLoopBuilder<()> {
}
}
static EVENT_LOOP_CREATED: AtomicBool = AtomicBool::new(false);
impl<T> EventLoopBuilder<T> {
/// Start building a new event loop, with the given type as the user event
/// type.
@@ -87,23 +82,23 @@ impl<T> EventLoopBuilder<T> {
/// ***For cross-platform compatibility, the [`EventLoop`] must be created on the main thread,
/// and only once per application.***
///
/// Attempting to create the event loop on a different thread, or multiple event loops in
/// the same application, will panic. This restriction isn't
/// strictly necessary on all platforms, but is imposed to eliminate any nasty surprises when
/// porting to platforms that require it. `EventLoopBuilderExt::any_thread` functions are exposed
/// in the relevant [`platform`] module if the target platform supports creating an event loop on
/// any thread.
///
/// Calling this function will result in display backend initialisation.
///
/// ## Panics
///
/// 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
/// [`platform`] module if the target platform supports creating an event
/// loop on any thread.
///
/// ## Platform-specific
///
/// - **Wayland/X11:** to prevent running under `Wayland` or `X11` unset `WAYLAND_DISPLAY`
/// or `DISPLAY` respectively when building the event loop.
/// - **Android:** must be configured with an `AndroidApp` from `android_main()` by calling
/// [`.with_android_app(app)`] before calling `.build()`, otherwise it'll panic.
/// - **Linux:** Backend type can be controlled using an environment variable
/// `WINIT_UNIX_BACKEND`. Legal values are `x11` and `wayland`.
/// If it is not set, winit will try to connect to a Wayland connection, and if that fails,
/// will fall back on X11. If this variable is set with any other value, winit will panic.
/// - **Android:** Must be configured with an `AndroidApp` from `android_main()` by calling
/// [`.with_android_app(app)`] before calling `.build()`.
///
/// [`platform`]: crate::platform
#[cfg_attr(
@@ -115,22 +110,17 @@ impl<T> EventLoopBuilder<T> {
doc = "[`.with_android_app(app)`]: #only-available-on-android"
)]
#[inline]
pub fn build(&mut self) -> Result<EventLoop<T>, EventLoopError> {
if EVENT_LOOP_CREATED.swap(true, Ordering::Relaxed) {
return Err(EventLoopError::RecreationAttempt);
pub fn build(&mut self) -> EventLoop<T> {
static EVENT_LOOP_CREATED: OnceCell<()> = OnceCell::new();
if EVENT_LOOP_CREATED.set(()).is_err() {
panic!("Creating EventLoop multiple times is not supported.");
}
// Certain platforms accept a mutable reference in their API.
#[allow(clippy::unnecessary_mut_passed)]
Ok(EventLoop {
event_loop: platform_impl::EventLoop::new(&mut self.platform_specific)?,
EventLoop {
event_loop: platform_impl::EventLoop::new(&mut self.platform_specific),
_marker: PhantomData,
})
}
#[cfg(wasm_platform)]
pub(crate) fn allow_event_loop_recreation() {
EVENT_LOOP_CREATED.store(false, Ordering::Relaxed);
}
}
}
@@ -146,21 +136,35 @@ impl<T> fmt::Debug for EventLoopWindowTarget<T> {
}
}
/// Set through [`EventLoopWindowTarget::set_control_flow()`].
/// Set by the user callback given to the [`EventLoop::run`] method.
///
/// Indicates the desired behavior of the event loop after [`Event::AboutToWait`] is emitted.
/// Indicates the desired behavior of the event loop after [`Event::RedrawEventsCleared`] is emitted.
///
/// Defaults to [`Wait`].
/// Defaults to [`Poll`].
///
/// [`Wait`]: Self::Wait
#[derive(Copy, Clone, Debug, Default, PartialEq, Eq)]
/// ## Persistency
///
/// Almost every change is persistent between multiple calls to the event loop closure within a
/// given run loop. The only exception to this is [`ExitWithCode`] which, once set, cannot be unset.
/// Changes are **not** persistent between multiple calls to `run_return` - issuing a new call will
/// reset the control flow to [`Poll`].
///
/// [`ExitWithCode`]: Self::ExitWithCode
/// [`Poll`]: Self::Poll
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub enum ControlFlow {
/// When the current loop iteration finishes, immediately begin a new iteration regardless of
/// whether or not new events are available to process.
///
/// ## Platform-specific
///
/// - **Web:** Events are queued and usually sent when `requestAnimationFrame` fires but sometimes
/// the events in the queue may be sent before the next `requestAnimationFrame` callback, for
/// example when the scaling of the page has changed. This should be treated as an implementation
/// detail which should not be relied on.
Poll,
/// When the current loop iteration finishes, suspend the thread until another event arrives.
#[default]
Wait,
/// When the current loop iteration finishes, suspend the thread until either another event
@@ -172,22 +176,88 @@ pub enum ControlFlow {
///
/// [`Poll`]: Self::Poll
WaitUntil(Instant),
/// Send a [`LoopDestroyed`] event and stop the event loop. This variant is *sticky* - once set,
/// `control_flow` cannot be changed from `ExitWithCode`, and any future attempts to do so will
/// result in the `control_flow` parameter being reset to `ExitWithCode`.
///
/// The contained number will be used as exit code. The [`Exit`] constant is a shortcut for this
/// with exit code 0.
///
/// ## Platform-specific
///
/// - **Android / iOS / WASM:** The supplied exit code is unused.
/// - **Unix:** On most Unix-like platforms, only the 8 least significant bits will be used,
/// which can cause surprises with negative exit values (`-42` would end up as `214`). See
/// [`std::process::exit`].
///
/// [`LoopDestroyed`]: Event::LoopDestroyed
/// [`Exit`]: ControlFlow::Exit
ExitWithCode(i32),
}
impl ControlFlow {
/// Creates a [`ControlFlow`] that waits until a timeout has expired.
/// Alias for [`ExitWithCode`]`(0)`.
///
/// [`ExitWithCode`]: Self::ExitWithCode
#[allow(non_upper_case_globals)]
pub const Exit: Self = Self::ExitWithCode(0);
/// Sets this to [`Poll`].
///
/// [`Poll`]: Self::Poll
pub fn set_poll(&mut self) {
*self = Self::Poll;
}
/// Sets this to [`Wait`].
///
/// [`Wait`]: Self::Wait
pub fn set_wait(&mut self) {
*self = Self::Wait;
}
/// Sets this to [`WaitUntil`]`(instant)`.
///
/// [`WaitUntil`]: Self::WaitUntil
pub fn set_wait_until(&mut self, instant: Instant) {
*self = Self::WaitUntil(instant);
}
/// Sets this to wait until a timeout has expired.
///
/// In most cases, this is set to [`WaitUntil`]. However, if the timeout overflows, it is
/// instead set to [`Wait`].
///
/// [`WaitUntil`]: Self::WaitUntil
/// [`Wait`]: Self::Wait
pub fn wait_duration(timeout: Duration) -> Self {
pub fn set_wait_timeout(&mut self, timeout: Duration) {
match Instant::now().checked_add(timeout) {
Some(instant) => Self::WaitUntil(instant),
None => Self::Wait,
Some(instant) => self.set_wait_until(instant),
None => self.set_wait(),
}
}
/// Sets this to [`ExitWithCode`]`(code)`.
///
/// [`ExitWithCode`]: Self::ExitWithCode
pub fn set_exit_with_code(&mut self, code: i32) {
*self = Self::ExitWithCode(code);
}
/// Sets this to [`Exit`].
///
/// [`Exit`]: Self::Exit
pub fn set_exit(&mut self) {
*self = Self::Exit;
}
}
impl Default for ControlFlow {
#[inline(always)]
fn default() -> Self {
Self::Poll
}
}
impl EventLoop<()> {
@@ -195,46 +265,42 @@ impl EventLoop<()> {
///
/// [`EventLoopBuilder::new().build()`]: EventLoopBuilder::build
#[inline]
pub fn new() -> Result<EventLoop<()>, EventLoopError> {
pub fn new() -> EventLoop<()> {
EventLoopBuilder::new().build()
}
}
impl Default for EventLoop<()> {
fn default() -> Self {
Self::new()
}
}
impl<T> EventLoop<T> {
#[deprecated = "Use `EventLoopBuilder::<T>::with_user_event().build()` instead."]
pub fn with_user_event() -> Result<EventLoop<T>, EventLoopError> {
pub fn with_user_event() -> EventLoop<T> {
EventLoopBuilder::<T>::with_user_event().build()
}
/// Runs the event loop in the calling thread and calls the given `event_handler` closure
/// to dispatch any pending events.
///
/// Since the closure is `'static`, it must be a `move` closure if it needs to
/// Hijacks the calling thread and initializes the winit event loop with the provided
/// closure. Since the closure is `'static`, it must be a `move` closure if it needs to
/// access any data from the calling context.
///
/// See the [`set_control_flow()`] docs on how to change the event loop's behavior.
/// See the [`ControlFlow`] docs for information on how changes to `&mut ControlFlow` impact the
/// event loop's behavior.
///
/// Any values not passed to this function will *not* be dropped.
///
/// ## Platform-specific
///
/// - **iOS:** Will never return to the caller and so values not passed to this function will
/// *not* be dropped before the process exits.
/// - **Web:** Will _act_ as if it never returns to the caller by throwing a Javascript exception
/// (that Rust doesn't see) that will also mean that the rest of the function is never executed
/// and any values not passed to this function will *not* be dropped.
/// - **X11 / Wayland:** The program terminates with exit code 1 if the display server
/// disconnects.
///
/// Web applications are recommended to use `spawn()` instead of `run()` 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"`.
///
/// [`set_control_flow()`]: EventLoopWindowTarget::set_control_flow
/// [`ControlFlow`]: crate::event_loop::ControlFlow
#[inline]
#[cfg(not(all(wasm_platform, target_feature = "exception-handling")))]
pub fn run<F>(self, event_handler: F) -> Result<(), EventLoopError>
pub fn run<F>(self, event_handler: F) -> !
where
F: FnMut(Event<T>, &EventLoopWindowTarget<T>),
F: 'static + FnMut(Event<'_, T>, &EventLoopWindowTarget<T>, &mut ControlFlow),
{
self.event_loop.run(event_handler)
}
@@ -247,21 +313,6 @@ impl<T> EventLoop<T> {
}
}
#[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)
}
}
#[cfg(feature = "rwh_05")]
unsafe impl<T> rwh_05::HasRawDisplayHandle for EventLoop<T> {
/// Returns a [`raw_window_handle::RawDisplayHandle`] for the event loop.
fn raw_display_handle(&self) -> rwh_05::RawDisplayHandle {
rwh_05::HasRawDisplayHandle::raw_display_handle(&**self)
}
}
impl<T> Deref for EventLoop<T> {
type Target = EventLoopWindowTarget<T>;
fn deref(&self) -> &EventLoopWindowTarget<T> {
@@ -273,7 +324,6 @@ impl<T> EventLoopWindowTarget<T> {
/// Returns the list of all the monitors available on the system.
#[inline]
pub fn available_monitors(&self) -> impl Iterator<Item = MonitorHandle> {
#[allow(clippy::useless_conversion)] // false positive on some platforms
self.p
.available_monitors()
.into_iter()
@@ -286,7 +336,7 @@ impl<T> EventLoopWindowTarget<T> {
///
/// ## Platform-specific
///
/// **Wayland / Web:** Always returns `None`.
/// **Wayland:** Always returns `None`.
#[inline]
pub fn primary_monitor(&self) -> Option<MonitorHandle> {
self.p
@@ -294,60 +344,27 @@ impl<T> EventLoopWindowTarget<T> {
.map(|inner| MonitorHandle { inner })
}
/// Change if or when [`DeviceEvent`]s are captured.
/// Change [`DeviceEvent`] filter mode.
///
/// Since the [`DeviceEvent`] capture can lead to high CPU usage for unfocused windows, winit
/// will ignore them by default for unfocused windows on Linux/BSD. This method allows changing
/// this at runtime to explicitly capture them again.
/// this filter at runtime to explicitly capture them again.
///
/// ## Platform-specific
///
/// - **Wayland / macOS / iOS / Android / Orbital:** Unsupported.
/// - **Wayland / macOS / iOS / Android / Web / Orbital:** Unsupported.
///
/// [`DeviceEvent`]: crate::event::DeviceEvent
pub fn listen_device_events(&self, allowed: DeviceEvents) {
self.p.listen_device_events(allowed);
}
/// Sets the [`ControlFlow`].
pub fn set_control_flow(&self, control_flow: ControlFlow) {
self.p.set_control_flow(control_flow)
}
/// Gets the current [`ControlFlow`].
pub fn control_flow(&self) -> ControlFlow {
self.p.control_flow()
}
/// This exits the event loop.
///
/// See [`LoopExiting`](Event::LoopExiting).
pub fn exit(&self) {
self.p.exit()
}
/// Returns if the [`EventLoop`] is about to stop.
///
/// See [`exit()`](Self::exit).
pub fn exiting(&self) -> bool {
self.p.exiting()
pub fn set_device_event_filter(&self, _filter: DeviceEventFilter) {
#[cfg(any(x11_platform, wayland_platform, windows))]
self.p.set_device_event_filter(_filter);
}
}
#[cfg(feature = "rwh_06")]
impl<T> rwh_06::HasDisplayHandle for EventLoopWindowTarget<T> {
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<T> rwh_05::HasRawDisplayHandle for EventLoopWindowTarget<T> {
unsafe impl<T> HasRawDisplayHandle for EventLoopWindowTarget<T> {
/// Returns a [`raw_window_handle::RawDisplayHandle`] for the event loop.
fn raw_display_handle(&self) -> rwh_05::RawDisplayHandle {
self.p.raw_display_handle_rwh_05()
fn raw_display_handle(&self) -> RawDisplayHandle {
self.p.raw_display_handle()
}
}
@@ -398,40 +415,19 @@ impl<T> fmt::Display for EventLoopClosed<T> {
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)]
pub enum DeviceEvents {
/// Report device events regardless of window focus.
/// Filter controlling the propagation of device events.
#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug)]
pub enum DeviceEventFilter {
/// Always filter out device events.
Always,
/// Only capture device events while the window is focused.
#[default]
WhenFocused,
/// Never capture device events.
/// Filter out device events while the window is not focused.
Unfocused,
/// Report all device events regardless of window focus.
Never,
}
/// A unique identifier of the winit's async request.
///
/// This could be used to identify the async request once it's done
/// and a specific action must be taken.
///
/// One of the handling scenarious could be to maintain a working list
/// 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)]
pub struct AsyncRequestSerial {
serial: u64,
}
impl AsyncRequestSerial {
// TODO(kchibisov) remove `cfg` when the clipboard will be added.
#[allow(dead_code)]
pub(crate) fn get() -> Self {
static CURRENT_SERIAL: AtomicU64 = AtomicU64::new(0);
// NOTE: we rely on wrap around here, while the user may just request
// in the loop u64::MAX times that's issue is considered on them.
let serial = CURRENT_SERIAL.fetch_add(1, Ordering::Relaxed);
Self { serial }
impl Default for DeviceEventFilter {
fn default() -> Self {
Self::Unfocused
}
}

1688
src/keyboard.rs
View File

File diff suppressed because it is too large Load Diff

52
src/lib.rs
View File

@@ -7,7 +7,7 @@
//!
//! ```no_run
//! use winit::event_loop::EventLoop;
//! let event_loop = EventLoop::new().unwrap();
//! let event_loop = EventLoop::new();
//! ```
//!
//! Once this is done there are two ways to create a [`Window`]:
@@ -30,44 +30,46 @@
//!
//! You can retrieve events by calling [`EventLoop::run`][event_loop_run]. 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 the `control_flow` argument given to the closure is set to
//! [`ControlFlow`]`::`[`ExitWithCode`] (which [`ControlFlow`]`::`[`Exit`] aliases to), at which
//! point [`Event`]`::`[`LoopDestroyed`] is emitted and the entire program terminates.
//!
//! 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 poorly on
//! most other platforms. However, this model can be re-implemented to an extent with
//! [`EventLoopExtPumpEvents::pump_events`]. See that method's documentation for more reasons about why
//! [`EventLoopExtRunReturn::run_return`]. See that method's documentation for more reasons about why
//! it's discouraged, beyond compatibility reasons.
//!
//!
//! ```no_run
//! use winit::{
//! event::{Event, WindowEvent},
//! event_loop::{ControlFlow, EventLoop},
//! event_loop::EventLoop,
//! window::WindowBuilder,
//! };
//!
//! let event_loop = EventLoop::new().unwrap();
//! let event_loop = EventLoop::new();
//! let window = WindowBuilder::new().build(&event_loop).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);
//! event_loop.run(move |event, _, control_flow| {
//! // ControlFlow::Poll continuously runs the event loop, even if the OS hasn't
//! // dispatched any events. This is ideal for games and similar applications.
//! control_flow.set_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.
//! control_flow.set_wait();
//!
//! event_loop.run(move |event, elwt| {
//! match event {
//! Event::WindowEvent {
//! event: WindowEvent::CloseRequested,
//! ..
//! } => {
//! println!("The close button was pressed; stopping");
//! elwt.exit();
//! control_flow.set_exit();
//! },
//! Event::AboutToWait => {
//! Event::MainEventsCleared => {
//! // Application update code.
//!
//! // Queue a RedrawRequested event.
@@ -77,14 +79,11 @@
//! // can just render here instead.
//! window.request_redraw();
//! },
//! Event::WindowEvent {
//! event: WindowEvent::RedrawRequested,
//! ..
//! } => {
//! Event::RedrawRequested(_) => {
//! // Redraw the application.
//! //
//! // It's preferable for applications that do not render continuously to render in
//! // this event rather than in AboutToWait, since rendering in here allows
//! // this event rather than in MainEventsCleared, since rendering in here allows
//! // the program to gracefully handle redraws requested by the OS.
//! },
//! _ => ()
@@ -110,10 +109,12 @@
//! window visible only once you're ready to render into it.
//!
//! [`EventLoop`]: event_loop::EventLoop
//! [`EventLoopExtPumpEvents::pump_events`]: ./platform/pump_events/trait.EventLoopExtPumpEvents.html#tymethod.pump_events
//! [`EventLoopExtRunReturn::run_return`]: ./platform/run_return/trait.EventLoopExtRunReturn.html#tymethod.run_return
//! [`EventLoop::new()`]: event_loop::EventLoop::new
//! [event_loop_run]: event_loop::EventLoop::run
//! [`exit()`]: event_loop::EventLoopWindowTarget::exit
//! [`ControlFlow`]: event_loop::ControlFlow
//! [`Exit`]: event_loop::ControlFlow::Exit
//! [`ExitWithCode`]: event_loop::ControlFlow::ExitWithCode
//! [`Window`]: window::Window
//! [`WindowId`]: window::WindowId
//! [`WindowBuilder`]: window::WindowBuilder
@@ -125,7 +126,7 @@
//! [`WindowEvent`]: event::WindowEvent
//! [`DeviceEvent`]: event::DeviceEvent
//! [`UserEvent`]: event::Event::UserEvent
//! [`LoopExiting`]: event::Event::LoopExiting
//! [`LoopDestroyed`]: event::Event::LoopDestroyed
//! [`platform`]: platform
//! [`raw_window_handle`]: ./window/struct.Window.html#method.raw_window_handle
//! [`raw_display_handle`]: ./window/struct.Window.html#method.raw_display_handle
@@ -133,15 +134,11 @@
#![deny(rust_2018_idioms)]
#![deny(rustdoc::broken_intra_doc_links)]
#![deny(clippy::all)]
#![deny(unsafe_op_in_unsafe_fn)]
#![cfg_attr(feature = "cargo-clippy", deny(warnings))]
// Doc feature labels can be tested locally by running RUSTDOCFLAGS="--cfg=docsrs" cargo +nightly doc
#![cfg_attr(docsrs, feature(doc_auto_cfg))]
#![allow(clippy::missing_safety_doc)]
#[cfg(feature = "rwh_06")]
pub use rwh_06 as raw_window_handle;
#[allow(unused_imports)]
#[macro_use]
extern crate log;
@@ -157,7 +154,6 @@ pub mod error;
pub mod event;
pub mod event_loop;
mod icon;
pub mod keyboard;
pub mod monitor;
mod platform_impl;
pub mod window;

20
src/monitor.rs
View File

@@ -32,9 +32,12 @@ impl PartialOrd for VideoMode {
impl Ord for VideoMode {
fn cmp(&self, other: &VideoMode) -> std::cmp::Ordering {
// TODO: we can impl `Ord` for `PhysicalSize` once we switch from `f32`
// to `u32` there
let size: (u32, u32) = self.size().into();
let other_size: (u32, u32) = other.size().into();
self.monitor().cmp(&other.monitor()).then(
self.size()
.cmp(&other.size())
size.cmp(&other_size)
.then(
self.refresh_rate_millihertz()
.cmp(&other.refresh_rate_millihertz())
@@ -108,12 +111,20 @@ 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
#[inline]
pub fn name(&self) -> Option<String> {
self.inner.name()
}
/// Returns the monitor's resolution.
///
/// ## Platform-specific
///
/// - **Web:** Always returns (0,0)
#[inline]
pub fn size(&self) -> PhysicalSize<u32> {
self.inner.size()
@@ -121,6 +132,10 @@ impl MonitorHandle {
/// Returns the top-left corner position of the monitor relative to the larger full
/// screen area.
///
/// ## Platform-specific
///
/// - **Web:** Always returns (0,0)
#[inline]
pub fn position(&self) -> PhysicalPosition<i32> {
self.inner.position()
@@ -146,6 +161,7 @@ impl MonitorHandle {
///
/// - **X11:** Can be overridden using the `WINIT_X11_SCALE_FACTOR` environment variable.
/// - **Android:** Always returns 1.0.
/// - **Web:** Always returns 1.0
#[inline]
pub fn scale_factor(&self) -> f64 {
self.inner.scale_factor()

10
src/platform/android.rs
View File

@@ -42,11 +42,6 @@ pub trait EventLoopBuilderExtAndroid {
///
/// 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
///
/// Default is to let the operating system handle the volume keys
fn handle_volume_keys(&mut self) -> &mut Self;
}
impl<T> EventLoopBuilderExtAndroid for EventLoopBuilder<T> {
@@ -54,11 +49,6 @@ impl<T> EventLoopBuilderExtAndroid for EventLoopBuilder<T> {
self.platform_specific.android_app = Some(app);
self
}
fn handle_volume_keys(&mut self) -> &mut Self {
self.platform_specific.ignore_volume_keys = false;
self
}
}
/// Re-export of the `android_activity` API

102
src/platform/ios.rs
View File

@@ -1,6 +1,5 @@
use std::os::raw::c_void;
use icrate::Foundation::MainThreadMarker;
use objc2::rc::Id;
use crate::{
@@ -23,6 +22,27 @@ impl<T: 'static> EventLoopExtIOS for EventLoop<T> {
/// Additional methods on [`Window`] that are specific to iOS.
pub trait WindowExtIOS {
/// Returns a pointer to the [`UIWindow`] that is used by this window.
///
/// The pointer will become invalid when the [`Window`] is destroyed.
///
/// [`UIWindow`]: https://developer.apple.com/documentation/uikit/uiwindow?language=objc
fn ui_window(&self) -> *mut c_void;
/// Returns a pointer to the [`UIViewController`] that is used by this window.
///
/// The pointer will become invalid when the [`Window`] is destroyed.
///
/// [`UIViewController`]: https://developer.apple.com/documentation/uikit/uiviewcontroller?language=objc
fn ui_view_controller(&self) -> *mut c_void;
/// Returns a pointer to the [`UIView`] that is used by this window.
///
/// The pointer will become invalid when the [`Window`] is destroyed.
///
/// [`UIView`]: https://developer.apple.com/documentation/uikit/uiview?language=objc
fn ui_view(&self) -> *mut c_void;
/// Sets the [`contentScaleFactor`] of the underlying [`UIWindow`] to `scale_factor`.
///
/// The default value is device dependent, and it's recommended GLES or Metal applications set
@@ -77,35 +97,45 @@ pub trait WindowExtIOS {
}
impl WindowExtIOS for Window {
#[inline]
fn ui_window(&self) -> *mut c_void {
self.window.ui_window()
}
#[inline]
fn ui_view_controller(&self) -> *mut c_void {
self.window.ui_view_controller()
}
#[inline]
fn ui_view(&self) -> *mut c_void {
self.window.ui_view()
}
#[inline]
fn set_scale_factor(&self, scale_factor: f64) {
self.window
.maybe_queue_on_main(move |w| w.set_scale_factor(scale_factor))
self.window.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))
self.window.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))
self.window.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| {
w.set_preferred_screen_edges_deferring_system_gestures(edges)
})
self.window
.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))
self.window.set_prefers_status_bar_hidden(hidden)
}
}
@@ -118,7 +148,7 @@ pub trait WindowBuilderExtIOS {
///
/// [`UIWindow`]: https://developer.apple.com/documentation/uikit/uiwindow?language=objc
/// [`contentScaleFactor`]: https://developer.apple.com/documentation/uikit/uiview/1622657-contentscalefactor?language=objc
fn with_scale_factor(self, scale_factor: f64) -> Self;
fn with_scale_factor(self, scale_factor: f64) -> WindowBuilder;
/// Sets the valid orientations for the [`Window`].
///
@@ -126,7 +156,7 @@ pub trait WindowBuilderExtIOS {
///
/// This sets the initial value returned by
/// [`-[UIViewController supportedInterfaceOrientations]`](https://developer.apple.com/documentation/uikit/uiviewcontroller/1621435-supportedinterfaceorientations?language=objc).
fn with_valid_orientations(self, valid_orientations: ValidOrientations) -> Self;
fn with_valid_orientations(self, valid_orientations: ValidOrientations) -> WindowBuilder;
/// Sets whether the [`Window`] prefers the home indicator hidden.
///
@@ -136,7 +166,7 @@ pub trait WindowBuilderExtIOS {
/// [`-[UIViewController prefersHomeIndicatorAutoHidden]`](https://developer.apple.com/documentation/uikit/uiviewcontroller/2887510-prefershomeindicatorautohidden?language=objc).
///
/// This only has an effect on iOS 11.0+.
fn with_prefers_home_indicator_hidden(self, hidden: bool) -> Self;
fn with_prefers_home_indicator_hidden(self, hidden: bool) -> WindowBuilder;
/// Sets the screen edges for which the system gestures will take a lower priority than the
/// application's touch handling.
@@ -145,7 +175,10 @@ pub trait WindowBuilderExtIOS {
/// [`-[UIViewController preferredScreenEdgesDeferringSystemGestures]`](https://developer.apple.com/documentation/uikit/uiviewcontroller/2887512-preferredscreenedgesdeferringsys?language=objc).
///
/// This only has an effect on iOS 11.0+.
fn with_preferred_screen_edges_deferring_system_gestures(self, edges: ScreenEdge) -> Self;
fn with_preferred_screen_edges_deferring_system_gestures(
self,
edges: ScreenEdge,
) -> WindowBuilder;
/// Sets whether the [`Window`] prefers the status bar hidden.
///
@@ -153,37 +186,40 @@ pub trait WindowBuilderExtIOS {
///
/// This sets the initial value returned by
/// [`-[UIViewController prefersStatusBarHidden]`](https://developer.apple.com/documentation/uikit/uiviewcontroller/1621440-prefersstatusbarhidden?language=objc).
fn with_prefers_status_bar_hidden(self, hidden: bool) -> Self;
fn with_prefers_status_bar_hidden(self, hidden: bool) -> WindowBuilder;
}
impl WindowBuilderExtIOS for WindowBuilder {
#[inline]
fn with_scale_factor(mut self, scale_factor: f64) -> Self {
fn with_scale_factor(mut self, scale_factor: f64) -> WindowBuilder {
self.platform_specific.scale_factor = Some(scale_factor);
self
}
#[inline]
fn with_valid_orientations(mut self, valid_orientations: ValidOrientations) -> Self {
fn with_valid_orientations(mut self, valid_orientations: ValidOrientations) -> WindowBuilder {
self.platform_specific.valid_orientations = valid_orientations;
self
}
#[inline]
fn with_prefers_home_indicator_hidden(mut self, hidden: bool) -> Self {
fn with_prefers_home_indicator_hidden(mut self, hidden: bool) -> WindowBuilder {
self.platform_specific.prefers_home_indicator_hidden = hidden;
self
}
#[inline]
fn with_preferred_screen_edges_deferring_system_gestures(mut self, edges: ScreenEdge) -> Self {
fn with_preferred_screen_edges_deferring_system_gestures(
mut self,
edges: ScreenEdge,
) -> WindowBuilder {
self.platform_specific
.preferred_screen_edges_deferring_system_gestures = edges;
self
}
#[inline]
fn with_prefers_status_bar_hidden(mut self, hidden: bool) -> Self {
fn with_prefers_status_bar_hidden(mut self, hidden: bool) -> WindowBuilder {
self.platform_specific.prefers_status_bar_hidden = hidden;
self
}
@@ -205,9 +241,7 @@ pub trait MonitorHandleExtIOS {
impl MonitorHandleExtIOS for MonitorHandle {
#[inline]
fn ui_screen(&self) -> *mut c_void {
// SAFETY: The marker is only used to get the pointer of the screen
let mtm = unsafe { MainThreadMarker::new_unchecked() };
Id::as_ptr(self.inner.ui_screen(mtm)) as *mut c_void
Id::as_ptr(self.inner.ui_screen()) as *mut c_void
}
#[inline]
@@ -219,10 +253,9 @@ impl MonitorHandleExtIOS for MonitorHandle {
}
/// Valid orientations for a particular [`Window`].
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[derive(Clone, Copy, Debug)]
pub enum ValidOrientations {
/// Excludes `PortraitUpsideDown` on iphone
#[default]
LandscapeAndPortrait,
Landscape,
@@ -231,10 +264,17 @@ pub enum ValidOrientations {
Portrait,
}
impl Default for ValidOrientations {
#[inline]
fn default() -> ValidOrientations {
ValidOrientations::LandscapeAndPortrait
}
}
/// The device [idiom].
///
/// [idiom]: https://developer.apple.com/documentation/uikit/uidevice/1620037-userinterfaceidiom?language=objc
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum Idiom {
Unspecified,
@@ -253,14 +293,14 @@ bitflags! {
/// The [edges] of a screen.
///
/// [edges]: https://developer.apple.com/documentation/uikit/uirectedge?language=objc
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq, Hash)]
#[derive(Default)]
pub struct ScreenEdge: u8 {
const NONE = 0;
const TOP = 1 << 0;
const LEFT = 1 << 1;
const BOTTOM = 1 << 2;
const RIGHT = 1 << 3;
const ALL = ScreenEdge::TOP.bits() | ScreenEdge::LEFT.bits()
| ScreenEdge::BOTTOM.bits() | ScreenEdge::RIGHT.bits();
const ALL = ScreenEdge::TOP.bits | ScreenEdge::LEFT.bits
| ScreenEdge::BOTTOM.bits | ScreenEdge::RIGHT.bits;
}
}

191
src/platform/macos.rs
View File

@@ -1,6 +1,5 @@
use std::os::raw::c_void;
use objc2::rc::Id;
use std::os::raw::c_void;
use crate::{
event_loop::{EventLoopBuilder, EventLoopWindowTarget},
@@ -10,6 +9,16 @@ use crate::{
/// Additional methods on [`Window`] that are specific to MacOS.
pub trait WindowExtMacOS {
/// Returns a pointer to the cocoa `NSWindow` that is used by this window.
///
/// The pointer will become invalid when the [`Window`] is destroyed.
fn ns_window(&self) -> *mut c_void;
/// Returns a pointer to the cocoa `NSView` that is used by this window.
///
/// The pointer will become invalid when the [`Window`] is destroyed.
fn ns_view(&self) -> *mut c_void;
/// Returns whether or not the window is in simple fullscreen mode.
fn simple_fullscreen(&self) -> bool;
@@ -28,28 +37,6 @@ pub trait WindowExtMacOS {
/// Sets whether or not the window has shadow.
fn set_has_shadow(&self, has_shadow: bool);
/// Group windows together by using the same tabbing identifier.
///
/// <https://developer.apple.com/documentation/appkit/nswindow/1644704-tabbingidentifier>
fn set_tabbing_identifier(&self, identifier: &str);
/// Returns the window's tabbing identifier.
fn tabbing_identifier(&self) -> String;
/// Select next tab.
fn select_next_tab(&self);
/// Select previous tab.
fn select_previous_tab(&self);
/// Select the tab with the given index.
///
/// Will no-op when the index is out of bounds.
fn select_tab_at_index(&self, index: usize);
/// Get the number of tabs in the window tab group.
fn num_tabs(&self) -> usize;
/// Get the window's edit state.
///
/// # Examples
@@ -82,97 +69,74 @@ pub trait WindowExtMacOS {
}
impl WindowExtMacOS for Window {
#[inline]
fn ns_window(&self) -> *mut c_void {
self.window.ns_window()
}
#[inline]
fn ns_view(&self) -> *mut c_void {
self.window.ns_view()
}
#[inline]
fn simple_fullscreen(&self) -> bool {
self.window.maybe_wait_on_main(|w| w.simple_fullscreen())
self.window.simple_fullscreen()
}
#[inline]
fn set_simple_fullscreen(&self, fullscreen: bool) -> bool {
self.window
.maybe_wait_on_main(move |w| w.set_simple_fullscreen(fullscreen))
self.window.set_simple_fullscreen(fullscreen)
}
#[inline]
fn has_shadow(&self) -> bool {
self.window.maybe_wait_on_main(|w| w.has_shadow())
self.window.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))
}
#[inline]
fn set_tabbing_identifier(&self, identifier: &str) {
self.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())
}
#[inline]
fn select_next_tab(&self) {
self.window.maybe_queue_on_main(|w| w.select_next_tab())
}
#[inline]
fn select_previous_tab(&self) {
self.window.maybe_queue_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))
}
#[inline]
fn num_tabs(&self) -> usize {
self.window.maybe_wait_on_main(|w| w.num_tabs())
self.window.set_has_shadow(has_shadow)
}
#[inline]
fn is_document_edited(&self) -> bool {
self.window.maybe_wait_on_main(|w| w.is_document_edited())
self.window.is_document_edited()
}
#[inline]
fn set_document_edited(&self, edited: bool) {
self.window
.maybe_queue_on_main(move |w| w.set_document_edited(edited))
self.window.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))
self.window.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())
self.window.option_as_alt()
}
}
/// Corresponds to `NSApplicationActivationPolicy`.
#[derive(Debug, Default, Clone, Copy, PartialEq, Eq, Hash)]
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum ActivationPolicy {
/// Corresponds to `NSApplicationActivationPolicyRegular`.
#[default]
Regular,
/// Corresponds to `NSApplicationActivationPolicyAccessory`.
Accessory,
/// Corresponds to `NSApplicationActivationPolicyProhibited`.
Prohibited,
}
impl Default for ActivationPolicy {
fn default() -> Self {
ActivationPolicy::Regular
}
}
/// Additional methods on [`WindowBuilder`] that are specific to MacOS.
///
/// **Note:** Properties dealing with the titlebar will be overwritten by the [`WindowBuilder::with_decorations`] method:
@@ -183,96 +147,89 @@ pub enum ActivationPolicy {
/// - `with_fullsize_content_view`
pub trait WindowBuilderExtMacOS {
/// Enables click-and-drag behavior for the entire window, not just the titlebar.
fn with_movable_by_window_background(self, movable_by_window_background: bool) -> Self;
fn with_movable_by_window_background(self, movable_by_window_background: bool)
-> WindowBuilder;
/// Makes the titlebar transparent and allows the content to appear behind it.
fn with_titlebar_transparent(self, titlebar_transparent: bool) -> Self;
fn with_titlebar_transparent(self, titlebar_transparent: bool) -> WindowBuilder;
/// Hides the window title.
fn with_title_hidden(self, title_hidden: bool) -> Self;
fn with_title_hidden(self, title_hidden: bool) -> WindowBuilder;
/// Hides the window titlebar.
fn with_titlebar_hidden(self, titlebar_hidden: bool) -> Self;
fn with_titlebar_hidden(self, titlebar_hidden: bool) -> WindowBuilder;
/// Hides the window titlebar buttons.
fn with_titlebar_buttons_hidden(self, titlebar_buttons_hidden: bool) -> Self;
fn with_titlebar_buttons_hidden(self, titlebar_buttons_hidden: bool) -> WindowBuilder;
/// Makes the window content appear behind the titlebar.
fn with_fullsize_content_view(self, fullsize_content_view: bool) -> Self;
fn with_disallow_hidpi(self, disallow_hidpi: bool) -> Self;
fn with_has_shadow(self, has_shadow: bool) -> Self;
fn with_fullsize_content_view(self, fullsize_content_view: bool) -> WindowBuilder;
fn with_disallow_hidpi(self, disallow_hidpi: bool) -> WindowBuilder;
fn with_has_shadow(self, has_shadow: bool) -> WindowBuilder;
/// Window accepts click-through mouse events.
fn with_accepts_first_mouse(self, accepts_first_mouse: bool) -> Self;
/// Defines the window tabbing identifier.
///
/// <https://developer.apple.com/documentation/appkit/nswindow/1644704-tabbingidentifier>
fn with_tabbing_identifier(self, identifier: &str) -> Self;
/// Set how the <kbd>Option</kbd> keys are interpreted.
fn with_accepts_first_mouse(self, accepts_first_mouse: bool) -> WindowBuilder;
/// Set whether the `OptionAsAlt` key is interpreted as the `Alt` modifier.
///
/// 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;
fn with_option_as_alt(self, option_as_alt: OptionAsAlt) -> WindowBuilder;
}
impl WindowBuilderExtMacOS for WindowBuilder {
#[inline]
fn with_movable_by_window_background(mut self, movable_by_window_background: bool) -> Self {
fn with_movable_by_window_background(
mut self,
movable_by_window_background: bool,
) -> WindowBuilder {
self.platform_specific.movable_by_window_background = movable_by_window_background;
self
}
#[inline]
fn with_titlebar_transparent(mut self, titlebar_transparent: bool) -> Self {
fn with_titlebar_transparent(mut self, titlebar_transparent: bool) -> WindowBuilder {
self.platform_specific.titlebar_transparent = titlebar_transparent;
self
}
#[inline]
fn with_titlebar_hidden(mut self, titlebar_hidden: bool) -> Self {
fn with_titlebar_hidden(mut self, titlebar_hidden: bool) -> WindowBuilder {
self.platform_specific.titlebar_hidden = titlebar_hidden;
self
}
#[inline]
fn with_titlebar_buttons_hidden(mut self, titlebar_buttons_hidden: bool) -> Self {
fn with_titlebar_buttons_hidden(mut self, titlebar_buttons_hidden: bool) -> WindowBuilder {
self.platform_specific.titlebar_buttons_hidden = titlebar_buttons_hidden;
self
}
#[inline]
fn with_title_hidden(mut self, title_hidden: bool) -> Self {
fn with_title_hidden(mut self, title_hidden: bool) -> WindowBuilder {
self.platform_specific.title_hidden = title_hidden;
self
}
#[inline]
fn with_fullsize_content_view(mut self, fullsize_content_view: bool) -> Self {
fn with_fullsize_content_view(mut self, fullsize_content_view: bool) -> WindowBuilder {
self.platform_specific.fullsize_content_view = fullsize_content_view;
self
}
#[inline]
fn with_disallow_hidpi(mut self, disallow_hidpi: bool) -> Self {
fn with_disallow_hidpi(mut self, disallow_hidpi: bool) -> WindowBuilder {
self.platform_specific.disallow_hidpi = disallow_hidpi;
self
}
#[inline]
fn with_has_shadow(mut self, has_shadow: bool) -> Self {
fn with_has_shadow(mut self, has_shadow: bool) -> WindowBuilder {
self.platform_specific.has_shadow = has_shadow;
self
}
#[inline]
fn with_accepts_first_mouse(mut self, accepts_first_mouse: bool) -> Self {
fn with_accepts_first_mouse(mut self, accepts_first_mouse: bool) -> WindowBuilder {
self.platform_specific.accepts_first_mouse = accepts_first_mouse;
self
}
#[inline]
fn with_tabbing_identifier(mut self, tabbing_identifier: &str) -> Self {
self.platform_specific
.tabbing_identifier
.replace(tabbing_identifier.to_string());
self
}
#[inline]
fn with_option_as_alt(mut self, option_as_alt: OptionAsAlt) -> Self {
fn with_option_as_alt(mut self, option_as_alt: OptionAsAlt) -> WindowBuilder {
self.platform_specific.option_as_alt = option_as_alt;
self
}
@@ -375,12 +332,6 @@ pub trait EventLoopWindowTargetExtMacOS {
fn hide_application(&self);
/// Hide the other applications. In most applications this is typically triggered with Command+Option-H.
fn hide_other_applications(&self);
/// Set whether the system can automatically organize windows into tabs.
///
/// <https://developer.apple.com/documentation/appkit/nswindow/1646657-allowsautomaticwindowtabbing>
fn set_allows_automatic_window_tabbing(&self, enabled: bool);
/// Returns whether the system can automatically organize windows into tabs.
fn allows_automatic_window_tabbing(&self) -> bool;
}
impl<T> EventLoopWindowTargetExtMacOS for EventLoopWindowTarget<T> {
@@ -391,21 +342,12 @@ impl<T> EventLoopWindowTargetExtMacOS for EventLoopWindowTarget<T> {
fn hide_other_applications(&self) {
self.p.hide_other_applications()
}
fn set_allows_automatic_window_tabbing(&self, enabled: bool) {
self.p.set_allows_automatic_window_tabbing(enabled);
}
fn allows_automatic_window_tabbing(&self) -> bool {
self.p.allows_automatic_window_tabbing()
}
}
/// Option as alt behavior.
///
/// The default is `None`.
#[derive(Default, Debug, Clone, Copy, PartialEq, Eq)]
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum OptionAsAlt {
/// The left `Option` key is treated as `Alt`.
OnlyLeft,
@@ -417,6 +359,11 @@ pub enum OptionAsAlt {
Both,
/// No special handling is applied for `Option` key.
#[default]
None,
}
impl Default for OptionAsAlt {
fn default() -> Self {
OptionAsAlt::None
}
}

24
src/platform/mod.rs
View File

@@ -9,10 +9,9 @@
//! - `windows`
//! - `web`
//!
//! And the following platform-specific modules:
//! And the following platform-specific module:
//!
//! - `run_on_demand` (available on `windows`, `unix`, `macos`, `android`)
//! - `pump_events` (available on `windows`, `unix`, `macos`, `android`)
//! - `run_return` (available on `windows`, `unix`, `macos`, and `android`)
//!
//! However only the module corresponding to the platform you're compiling to will be available.
@@ -24,8 +23,6 @@ pub mod ios;
pub mod macos;
#[cfg(orbital_platform)]
pub mod orbital;
#[cfg(any(x11_platform, wayland_platform))]
pub mod startup_notify;
#[cfg(wayland_platform)]
pub mod wayland;
#[cfg(wasm_platform)]
@@ -40,18 +37,7 @@ pub mod x11;
macos_platform,
android_platform,
x11_platform,
wayland_platform
wayland_platform,
orbital_platform
))]
pub mod run_on_demand;
#[cfg(any(
windows_platform,
macos_platform,
android_platform,
x11_platform,
wayland_platform
))]
pub mod pump_events;
pub mod modifier_supplement;
pub mod scancode;
pub mod run_return;

24
src/platform/modifier_supplement.rs
View File

@@ -1,24 +0,0 @@
#![cfg(any(windows_platform, macos_platform, x11_platform, wayland_platform))]
use crate::keyboard::Key;
/// Additional methods for the `KeyEvent` which cannot be implemented on all
/// platforms.
pub trait KeyEventExtModifierSupplement {
/// Identical to `KeyEvent::text` but this is affected by <kbd>Ctrl</kbd>.
///
/// For example, pressing <kbd>Ctrl</kbd>+<kbd>a</kbd> produces `Some("\x01")`.
fn text_with_all_modifiers(&self) -> Option<&str>;
/// This value ignores all modifiers including,
/// but not limited to <kbd>Shift</kbd>, <kbd>Caps Lock</kbd>,
/// and <kbd>Ctrl</kbd>. In most cases this means that the
/// unicode character in the resulting string is lowercase.
///
/// This is useful for key-bindings / shortcut key combinations.
///
/// In case `logical_key` reports `Dead`, this will still report the
/// key as `Character` according to the current keyboard layout. This value
/// cannot be `Dead`.
fn key_without_modifiers(&self) -> Key;
}

189
src/platform/pump_events.rs
View File

@@ -1,189 +0,0 @@
use std::time::Duration;
use crate::{
event::Event,
event_loop::{EventLoop, EventLoopWindowTarget},
};
/// The return status for `pump_events`
pub enum PumpStatus {
/// Continue running external loop.
Continue,
/// Exit external loop.
Exit(i32),
}
/// 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;
/// Pump the `EventLoop` to check for and dispatch pending events.
///
/// This API is designed to enable applications to integrate Winit into an
/// external event loop, for platforms that can support this.
///
/// The given `timeout` limits how long it may block waiting for new events.
///
/// Passing a `timeout` of `Some(Duration::ZERO)` would ensure your external
/// event loop is never blocked but you would likely need to consider how
/// to throttle your own external loop.
///
/// Passing a `timeout` of `None` means that it may wait indefinitely for new
/// events before returning control back to the external loop.
///
/// ## Example
///
/// ```rust,no_run
/// # // Copied from examples/window_pump_events.rs
/// # #[cfg(any(
/// # windows_platform,
/// # macos_platform,
/// # x11_platform,
/// # wayland_platform,
/// # android_platform,
/// # ))]
/// fn main() -> std::process::ExitCode {
/// # use std::{process::ExitCode, thread::sleep, time::Duration};
/// #
/// # use simple_logger::SimpleLogger;
/// # use winit::{
/// # event::{Event, WindowEvent},
/// # event_loop::EventLoop,
/// # platform::pump_events::{EventLoopExtPumpEvents, PumpStatus},
/// # window::WindowBuilder,
/// # };
/// let mut event_loop = EventLoop::new().unwrap();
/// #
/// # SimpleLogger::new().init().unwrap();
/// let window = WindowBuilder::new()
/// .with_title("A fantastic window!")
/// .build(&event_loop)
/// .unwrap();
///
/// 'main: loop {
/// let timeout = Some(Duration::ZERO);
/// let status = event_loop.pump_events(timeout, |event, elwt| {
/// # if let Event::WindowEvent { event, .. } = &event {
/// # // Print only Window events to reduce noise
/// # println!("{event:?}");
/// # }
/// #
/// match event {
/// Event::WindowEvent {
/// event: WindowEvent::CloseRequested,
/// window_id,
/// } if window_id == window.id() => elwt.exit(),
/// Event::AboutToWait => {
/// window.request_redraw();
/// }
/// _ => (),
/// }
/// });
/// if let PumpStatus::Exit(exit_code) = status {
/// break 'main ExitCode::from(exit_code as u8);
/// }
///
/// // Sleep for 1/60 second to simulate application work
/// //
/// // Since `pump_events` doesn't block it will be important to
/// // throttle the loop in the app somehow.
/// println!("Update()");
/// sleep(Duration::from_millis(16));
/// }
/// }
/// ```
///
/// **Note:** This is not a portable API, and its usage involves a number of
/// caveats and trade offs that should be considered before using this API!
///
/// You almost certainly shouldn't use this API, unless you absolutely know it's
/// the only practical option you have.
///
/// ## Synchronous events
///
/// Some events _must_ only be handled synchronously via the closure that
/// is passed to Winit so that the handler will also be synchronized with
/// the window system and operating system.
///
/// This is because some events are driven by a window system callback
/// where the window systems expects the application to have handled the
/// event before returning.
///
/// **These events can not be buffered and handled outside of the closure
/// passed to Winit.**
///
/// As a general rule it is not recommended to ever buffer events to handle
/// them outside of the closure passed to Winit since it's difficult to
/// provide guarantees about which events are safe to buffer across all
/// operating systems.
///
/// Notable events that will certainly create portability problems if
/// buffered and handled outside of Winit include:
/// - `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.
///
/// For portability it's strongly recommended that applications should
/// 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.
///
/// ## Supported Platforms
/// - Windows
/// - Linux
/// - MacOS
/// - Android
///
/// ## 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.
/// - **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.
///
/// ## Platform-specific
/// - **Windows**: The implementation will use `PeekMessage` when checking for
/// window messages to avoid blocking your external event loop.
///
/// - **MacOS**: The implementation works in terms of stopping the global `NSApp`
/// whenever the application `RunLoop` indicates that it is preparing to block
/// and wait for new events.
///
/// This is very different to the polling APIs that are available on other
/// platforms (the lower level polling primitives on MacOS are private
/// implementation details for `NSApp` which aren't accessible to application
/// developers)
///
/// It's likely this will be less efficient than polling on other OSs and
/// it also means the `NSApp` is stopped while outside of the Winit
/// event loop - and that's observable (for example to crates like `rfd`)
/// because the `NSApp` is global state.
///
/// 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_events<F>(&mut self, timeout: Option<Duration>, event_handler: F) -> PumpStatus
where
F: FnMut(Event<Self::UserEvent>, &EventLoopWindowTarget<Self::UserEvent>);
}
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>, &EventLoopWindowTarget<Self::UserEvent>),
{
self.event_loop.pump_events(timeout, event_handler)
}
}

76
src/platform/run_on_demand.rs
View File

@@ -1,76 +0,0 @@
use crate::{
error::EventLoopError,
event::Event,
event_loop::{EventLoop, EventLoopWindowTarget},
};
#[cfg(doc)]
use crate::{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;
/// Runs the event loop in the calling thread and calls the given `event_handler` closure
/// to dispatch any window system events.
///
/// Unlike [`EventLoop::run`], this function accepts non-`'static` (i.e. non-`move`) closures
/// and it is possible to return control back to the caller without
/// consuming the `EventLoop` (by using [`exit()`]) and
/// so the event loop can be re-run after it has exit.
///
/// It's expected that each run of the loop will be for orthogonal instantiations of your
/// Winit application, but internally each instantiation may re-use some common window
/// system resources, such as a display server connection.
///
/// This API is not designed to run an event loop in bursts that you can exit from and return
/// to while maintaining the full state of your application. (If you need something like this
/// you can look at the [`EventLoopExtPumpEvents::pump_events()`] API)
///
/// Each time `run_on_demand` is called the `event_handler` can expect to receive a
/// `NewEvents(Init)` and `Resumed` event (even on platforms that have no suspend/resume
/// lifecycle) - which can be used to consistently initialize application state.
///
/// See the [`set_control_flow()`] docs on how to change the event loop's behavior.
///
/// # 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 `spawn()` 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()`] for portability, unless you specifically need
/// the ability to re-run a single event loop more than once
///
/// # Supported Platforms
/// - Windows
/// - Linux
/// - macOS
/// - Android
///
/// # 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 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.
///
/// [`exit()`]: EventLoopWindowTarget::exit
/// [`set_control_flow()`]: EventLoopWindowTarget::set_control_flow
fn run_on_demand<F>(&mut self, event_handler: F) -> Result<(), EventLoopError>
where
F: FnMut(Event<Self::UserEvent>, &EventLoopWindowTarget<Self::UserEvent>);
}
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>, &EventLoopWindowTarget<Self::UserEvent>),
{
self.event_loop.run_on_demand(event_handler)
}
}

53
src/platform/run_return.rs Normal file
View File

@@ -0,0 +1,53 @@
use crate::{
event::Event,
event_loop::{ControlFlow, EventLoop, EventLoopWindowTarget},
};
/// Additional methods on [`EventLoop`] to return control flow to the caller.
pub trait EventLoopExtRunReturn {
/// A type provided by the user that can be passed through [`Event::UserEvent`].
type UserEvent;
/// Initializes the `winit` event loop.
///
/// Unlike [`EventLoop::run`], this function accepts non-`'static` (i.e. non-`move`) closures
/// and returns control flow to the caller when `control_flow` is set to [`ControlFlow::Exit`].
///
/// # Caveats
///
/// Despite its appearance at first glance, this is *not* a perfect replacement for
/// `poll_events`. For example, this function will not return on Windows or macOS while a
/// window is getting resized, resulting in all application logic outside of the
/// `event_handler` closure not running until the resize operation ends. Other OS operations
/// may also result in such freezes. This behavior is caused by fundamental limitations in the
/// underlying OS APIs, which cannot be hidden by `winit` without severe stability repercussions.
///
/// You are strongly encouraged to use `run`, unless the use of this is absolutely necessary.
///
/// ## Platform-specific
///
/// - **X11 / Wayland:** This function returns `1` upon disconnection from
/// the display server.
fn run_return<F>(&mut self, event_handler: F) -> i32
where
F: FnMut(
Event<'_, Self::UserEvent>,
&EventLoopWindowTarget<Self::UserEvent>,
&mut ControlFlow,
);
}
impl<T> EventLoopExtRunReturn for EventLoop<T> {
type UserEvent = T;
fn run_return<F>(&mut self, event_handler: F) -> i32
where
F: FnMut(
Event<'_, Self::UserEvent>,
&EventLoopWindowTarget<Self::UserEvent>,
&mut ControlFlow,
),
{
self.event_loop.run_return(event_handler)
}
}

30
src/platform/scancode.rs
View File

@@ -1,30 +0,0 @@
#![cfg(any(windows_platform, macos_platform, x11_platform, wayland_platform))]
use crate::keyboard::KeyCode;
// TODO: Describe what this value contains for each platform
/// Additional methods for the [`KeyCode`] type that allow the user to access the platform-specific
/// scancode.
///
/// [`KeyCode`]: crate::keyboard::KeyCode
pub trait KeyCodeExtScancode {
/// The raw value of the platform-specific physical key identifier.
///
/// Returns `Some(key_id)` if the conversion was succesful; returns `None` otherwise.
///
/// ## Platform-specific
/// - **Windows:** A 16bit extended scancode
/// - **Wayland/X11**: A 32-bit linux scancode, which is X11/Wayland keycode subtracted by 8.
fn to_scancode(self) -> Option<u32>;
/// Constructs a `KeyCode` from a platform-specific physical key identifier.
///
/// Note that this conversion may be lossy, i.e. converting the returned `KeyCode` back
/// using `to_scancode` might not yield the original value.
///
/// ## Platform-specific
/// - **Wayland/X11**: A 32-bit linux scancode. When building from X11/Wayland keycode subtract
/// `8` to get the value you wanted.
fn from_scancode(scancode: u32) -> KeyCode;
}

99
src/platform/startup_notify.rs
View File

@@ -1,99 +0,0 @@
//! Window startup notification to handle window raising.
//!
//! The [`ActivationToken`] is essential to ensure that your newly
//! created window will obtain the focus, otherwise the user could
//! be requered to click on the window.
//!
//! Such token is usually delivered via the environment variable and
//! could be read from it with the [`EventLoopExtStartupNotify::read_token_from_env`].
//!
//! Such token must also be reset after reading it from your environment with
//! [`reset_activation_token_env`] otherwise child processes could inherit it.
//!
//! When starting a new child process with a newly obtained [`ActivationToken`] from
//! [`WindowExtStartupNotify::request_activation_token`] the [`set_activation_token_env`]
//! must be used to propagate it to the child
//!
//! To ensure the delivery of such token by other processes to you, the user should
//! set `StartupNotify=true` inside the `.desktop` file of their application.
//!
//! The specification could be found [`here`].
//!
//! [`here`]: https://specifications.freedesktop.org/startup-notification-spec/startup-notification-latest.txt
use std::env;
use crate::error::NotSupportedError;
use crate::event_loop::{AsyncRequestSerial, EventLoopWindowTarget};
use crate::window::{ActivationToken, Window, WindowBuilder};
/// The variable which is used mostly on X11.
const X11_VAR: &str = "DESKTOP_STARTUP_ID";
/// The variable which is used mostly on Wayland.
const WAYLAND_VAR: &str = "XDG_ACTIVATION_TOKEN";
pub trait EventLoopExtStartupNotify {
/// Read the token from the environment.
///
/// It's recommended **to unset** this environment variable for child processes.
fn read_token_from_env(&self) -> Option<ActivationToken>;
}
pub trait WindowExtStartupNotify {
/// Request a new activation token.
///
/// The token will be delivered inside
fn request_activation_token(&self) -> Result<AsyncRequestSerial, NotSupportedError>;
}
pub trait WindowBuilderExtStartupNotify {
/// Use this [`ActivationToken`] during window creation.
///
/// Not using such a token upon a window could make your window not gaining
/// focus until the user clicks on the window.
fn with_activation_token(self, token: ActivationToken) -> Self;
}
impl<T> EventLoopExtStartupNotify for EventLoopWindowTarget<T> {
fn read_token_from_env(&self) -> Option<ActivationToken> {
match self.p {
#[cfg(wayland_platform)]
crate::platform_impl::EventLoopWindowTarget::Wayland(_) => env::var(WAYLAND_VAR),
#[cfg(x11_platform)]
crate::platform_impl::EventLoopWindowTarget::X(_) => env::var(X11_VAR),
}
.ok()
.map(ActivationToken::_new)
}
}
impl WindowExtStartupNotify for Window {
fn request_activation_token(&self) -> Result<AsyncRequestSerial, NotSupportedError> {
self.window.request_activation_token()
}
}
impl WindowBuilderExtStartupNotify for WindowBuilder {
fn with_activation_token(mut self, token: ActivationToken) -> Self {
self.platform_specific.activation_token = Some(token);
self
}
}
/// Remove the activation environment variables from the current process.
///
/// This is wise to do before running child processes,
/// which may not to support the activation token.
pub fn reset_activation_token_env() {
env::remove_var(X11_VAR);
env::remove_var(WAYLAND_VAR);
}
/// Set environment variables responsible for activation token.
///
/// This could be used before running daemon processes.
pub fn set_activation_token_env(token: ActivationToken) {
env::set_var(X11_VAR, &token._token);
env::set_var(WAYLAND_VAR, token._token);
}

64
src/platform/wayland.rs
View File

@@ -1,10 +1,15 @@
use std::os::raw;
use crate::{
event_loop::{EventLoopBuilder, EventLoopWindowTarget},
monitor::MonitorHandle,
window::{Window, WindowBuilder},
};
use crate::platform_impl::{ApplicationName, Backend};
use crate::platform_impl::{
ApplicationName, Backend, EventLoopWindowTarget as LinuxEventLoopWindowTarget,
Window as LinuxWindow,
};
pub use crate::window::Theme;
@@ -12,6 +17,16 @@ pub use crate::window::Theme;
pub trait EventLoopWindowTargetExtWayland {
/// True if the [`EventLoopWindowTarget`] uses Wayland.
fn is_wayland(&self) -> bool;
/// Returns a pointer to the `wl_display` object of wayland that is used by this
/// [`EventLoopWindowTarget`].
///
/// Returns `None` if the [`EventLoop`] doesn't use wayland (if it uses xlib for example).
///
/// The pointer will become invalid when the winit [`EventLoop`] is destroyed.
///
/// [`EventLoop`]: crate::event_loop::EventLoop
fn wayland_display(&self) -> Option<*mut raw::c_void>;
}
impl<T> EventLoopWindowTargetExtWayland for EventLoopWindowTarget<T> {
@@ -19,6 +34,17 @@ impl<T> EventLoopWindowTargetExtWayland for EventLoopWindowTarget<T> {
fn is_wayland(&self) -> bool {
self.p.is_wayland()
}
#[inline]
fn wayland_display(&self) -> Option<*mut raw::c_void> {
match self.p {
LinuxEventLoopWindowTarget::Wayland(ref p) => {
Some(p.display().get_display_ptr() as *mut _)
}
#[cfg(x11_platform)]
_ => None,
}
}
}
/// Additional methods on [`EventLoopBuilder`] that are specific to Wayland.
@@ -48,9 +74,41 @@ impl<T> EventLoopBuilderExtWayland for EventLoopBuilder<T> {
}
/// Additional methods on [`Window`] that are specific to Wayland.
pub trait WindowExtWayland {}
pub trait WindowExtWayland {
/// Returns a pointer to the `wl_surface` object of wayland that is used by this window.
///
/// Returns `None` if the window doesn't use wayland (if it uses xlib for example).
///
/// The pointer will become invalid when the [`Window`] is destroyed.
fn wayland_surface(&self) -> Option<*mut raw::c_void>;
impl WindowExtWayland for Window {}
/// Returns a pointer to the `wl_display` object of wayland that is used by this window.
///
/// Returns `None` if the window doesn't use wayland (if it uses xlib for example).
///
/// The pointer will become invalid when the [`Window`] is destroyed.
fn wayland_display(&self) -> Option<*mut raw::c_void>;
}
impl WindowExtWayland for Window {
#[inline]
fn wayland_surface(&self) -> Option<*mut raw::c_void> {
match self.window {
LinuxWindow::Wayland(ref w) => Some(w.surface().as_ref().c_ptr() as *mut _),
#[cfg(x11_platform)]
_ => None,
}
}
#[inline]
fn wayland_display(&self) -> Option<*mut raw::c_void> {
match self.window {
LinuxWindow::Wayland(ref w) => Some(w.display().get_display_ptr() as *mut _),
#[cfg(x11_platform)]
_ => None,
}
}
}
/// Additional methods on [`WindowBuilder`] that are specific to Wayland.
pub trait WindowBuilderExtWayland {

135
src/platform/web.rs
View File

@@ -2,57 +2,23 @@
//! allow end users to determine how the page should be laid out. Use the [`WindowExtWebSys`] trait
//! to retrieve the canvas from the Window. Alternatively, use the [`WindowBuilderExtWebSys`] trait
//! to provide your own canvas.
//!
//! It is recommended **not** to apply certain CSS properties to the canvas:
//! - [`transform`]
//! - [`border`]
//! - [`padding`]
//!
//! The following APIs can't take them into account and will therefore provide inaccurate results:
//! - [`WindowEvent::Resized`] and [`Window::(set_)inner_size()`]
//! - [`WindowEvent::Occluded`]
//! - [`WindowEvent::CursorMoved`], [`WindowEvent::CursorEntered`], [`WindowEvent::CursorLeft`],
//! and [`WindowEvent::Touch`].
//! - [`Window::set_outer_position()`]
//!
//! [`WindowEvent::Resized`]: crate::event::WindowEvent::Resized
//! [`Window::(set_)inner_size()`]: crate::window::Window::inner_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
//! [`Window::set_outer_position()`]: crate::window::Window::set_outer_position()
//! [`transform`]: https://developer.mozilla.org/en-US/docs/Web/CSS/transform
//! [`border`]: https://developer.mozilla.org/en-US/docs/Web/CSS/border
//! [`padding`]: https://developer.mozilla.org/en-US/docs/Web/CSS/padding
use crate::event::Event;
use crate::event_loop::ControlFlow;
use crate::event_loop::EventLoop;
use crate::event_loop::EventLoopWindowTarget;
use crate::window::{Window, WindowBuilder};
use crate::window::WindowBuilder;
use web_sys::HtmlCanvasElement;
pub trait WindowExtWebSys {
/// Only returns the canvas if called from inside the window.
fn canvas(&self) -> Option<HtmlCanvasElement>;
}
fn canvas(&self) -> HtmlCanvasElement;
impl WindowExtWebSys for Window {
#[inline]
fn canvas(&self) -> Option<HtmlCanvasElement> {
self.window.canvas()
}
/// Whether the browser reports the preferred color scheme to be "dark".
fn is_dark_mode(&self) -> bool;
}
pub trait WindowBuilderExtWebSys {
/// Pass an [`HtmlCanvasElement`] to be used for this [`Window`]. If [`None`],
/// [`WindowBuilder::build()`] will create one.
///
/// In any case, the canvas won't be automatically inserted into the web page.
///
/// [`None`] by default.
fn with_canvas(self, canvas: Option<HtmlCanvasElement>) -> Self;
/// Whether `event.preventDefault` should be automatically called to prevent event propagation
@@ -60,23 +26,11 @@ pub trait WindowBuilderExtWebSys {
///
/// For example, mouse wheel events are only handled by the canvas by default. This avoids
/// the default behavior of scrolling the page.
///
/// Some events are impossible to prevent. E.g. Firefox allows to access the native browser
/// context menu with Shift+Rightclick.
///
/// Enabled by default.
fn with_prevent_default(self, prevent_default: bool) -> Self;
/// Whether the canvas should be focusable using the tab key. This is necessary to capture
/// canvas keyboard events.
///
/// 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.
///
/// Disabled by default.
fn with_append(self, append: bool) -> Self;
}
impl WindowBuilderExtWebSys for WindowBuilder {
@@ -97,12 +51,6 @@ impl WindowBuilderExtWebSys for WindowBuilder {
self
}
fn with_append(mut self, append: bool) -> Self {
self.platform_specific.append = append;
self
}
}
/// Additional methods on `EventLoop` that are specific to the web.
@@ -114,14 +62,14 @@ pub trait EventLoopExtWebSys {
///
/// Unlike `run`, this returns immediately, and doesn't throw an exception in order to
/// satisfy its `!` return type.
///
/// Once the event loop has been destroyed, it's possible to reinitialize another event loop
/// by calling this function again. This can be useful if you want to recreate the event loop
/// while the WebAssembly module is still loaded. For example, this can be used to recreate the
/// event loop when switching between tabs on a single page application.
fn spawn<F>(self, event_handler: F)
where
F: 'static + FnMut(Event<Self::UserEvent>, &EventLoopWindowTarget<Self::UserEvent>);
F: 'static
+ FnMut(
Event<'_, Self::UserEvent>,
&EventLoopWindowTarget<Self::UserEvent>,
&mut ControlFlow,
);
}
impl<T> EventLoopExtWebSys for EventLoop<T> {
@@ -129,62 +77,13 @@ impl<T> EventLoopExtWebSys for EventLoop<T> {
fn spawn<F>(self, event_handler: F)
where
F: 'static + FnMut(Event<Self::UserEvent>, &EventLoopWindowTarget<Self::UserEvent>),
F: 'static
+ FnMut(
Event<'_, Self::UserEvent>,
&EventLoopWindowTarget<Self::UserEvent>,
&mut ControlFlow,
),
{
self.event_loop.spawn(event_handler)
}
}
pub trait EventLoopWindowTargetExtWebSys {
/// 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;
}
impl<T> EventLoopWindowTargetExtWebSys for EventLoopWindowTarget<T> {
#[inline]
fn set_poll_strategy(&self, strategy: PollStrategy) {
self.p.set_poll_strategy(strategy);
}
#[inline]
fn poll_strategy(&self) -> PollStrategy {
self.p.poll_strategy()
}
}
/// Strategy used for [`ControlFlow::Poll`](crate::event_loop::ControlFlow::Poll).
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq)]
pub enum PollStrategy {
/// Uses [`Window.requestIdleCallback()`] to queue the next event loop. If not available
/// this will fallback to [`setTimeout()`].
///
/// This strategy will wait for the browser to enter an idle period before running and might
/// be affected by browser throttling.
///
/// [`Window.requestIdleCallback()`]: https://developer.mozilla.org/en-US/docs/Web/API/Window/requestIdleCallback
/// [`setTimeout()`]: https://developer.mozilla.org/en-US/docs/Web/API/setTimeout
IdleCallback,
/// Uses the [Prioritized Task Scheduling API] to queue the next event loop. If not available
/// this will fallback to [`setTimeout()`].
///
/// This strategy will run as fast as possible without disturbing users from interacting with
/// the page and is not affected by browser throttling.
///
/// 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,
}

76
src/platform/windows.rs
View File

@@ -2,11 +2,9 @@ use std::{ffi::c_void, path::Path};
use crate::{
dpi::PhysicalSize,
event::{DeviceId, KeyEvent},
event::DeviceId,
event_loop::EventLoopBuilder,
keyboard::Key,
monitor::MonitorHandle,
platform::modifier_supplement::KeyEventExtModifierSupplement,
platform_impl::WinIcon,
window::{BadIcon, Icon, Window, WindowBuilder},
};
@@ -17,6 +15,8 @@ pub type HWND = isize;
pub type HMENU = isize;
/// Monitor Handle type used by Win32 API
pub type HMONITOR = isize;
/// Instance Handle type used by Win32 API
pub type HINSTANCE = isize;
/// Additional methods on `EventLoop` that are specific to Windows.
pub trait EventLoopBuilderExtWindows {
@@ -111,6 +111,13 @@ impl<T> EventLoopBuilderExtWindows for EventLoopBuilder<T> {
/// Additional methods on `Window` that are specific to Windows.
pub trait WindowExtWindows {
/// Returns the HINSTANCE of the window
fn hinstance(&self) -> HINSTANCE;
/// Returns the native handle that is used by this window.
///
/// The pointer will become invalid when the native window was destroyed.
fn hwnd(&self) -> HWND;
/// Enables or disables mouse and keyboard input to the specified window.
///
/// A window must be enabled before it can be activated.
@@ -139,6 +146,16 @@ pub trait WindowExtWindows {
}
impl WindowExtWindows for Window {
#[inline]
fn hinstance(&self) -> HINSTANCE {
self.window.hinstance()
}
#[inline]
fn hwnd(&self) -> HWND {
self.window.hwnd()
}
#[inline]
fn set_enable(&self, enabled: bool) {
self.window.set_enable(enabled)
@@ -161,7 +178,6 @@ impl WindowExtWindows for Window {
}
/// Additional methods on `WindowBuilder` that are specific to Windows.
#[allow(rustdoc::broken_intra_doc_links)]
pub trait WindowBuilderExtWindows {
/// Set an owner to the window to be created. Can be used to create a dialog box, for example.
/// This only works when [`WindowBuilder::with_parent_window`] isn't called or set to `None`.
@@ -174,7 +190,7 @@ pub trait WindowBuilderExtWindows {
/// - An owned window is hidden when its owner is minimized.
///
/// For more information, see <https://docs.microsoft.com/en-us/windows/win32/winmsg/window-features#owned-windows>
fn with_owner_window(self, parent: HWND) -> Self;
fn with_owner_window(self, parent: HWND) -> WindowBuilder;
/// Sets a menu on the window to be created.
///
@@ -186,13 +202,13 @@ pub trait WindowBuilderExtWindows {
/// If you use this, it is recommended that you combine it with `with_theme(Some(Theme::Light))` to avoid a jarring effect.
///
/// [`CreateMenu`]: windows_sys::Win32::UI::WindowsAndMessaging::CreateMenu
fn with_menu(self, menu: HMENU) -> Self;
fn with_menu(self, menu: HMENU) -> WindowBuilder;
/// This sets `ICON_BIG`. A good ceiling here is 256x256.
fn with_taskbar_icon(self, taskbar_icon: Option<Icon>) -> Self;
fn with_taskbar_icon(self, taskbar_icon: Option<Icon>) -> WindowBuilder;
/// This sets `WS_EX_NOREDIRECTIONBITMAP`.
fn with_no_redirection_bitmap(self, flag: bool) -> Self;
fn with_no_redirection_bitmap(self, flag: bool) -> WindowBuilder;
/// Enables or disables drag and drop support (enabled by default). Will interfere with other crates
/// that use multi-threaded COM API (`CoInitializeEx` with `COINIT_MULTITHREADED` instead of
@@ -200,66 +216,57 @@ pub trait WindowBuilderExtWindows {
/// COM API regardless of this option. Currently only fullscreen mode does that, but there may be more in the future.
/// If you need COM API with `COINIT_MULTITHREADED` you must initialize it before calling any winit functions.
/// See <https://docs.microsoft.com/en-us/windows/win32/api/objbase/nf-objbase-coinitialize#remarks> for more information.
fn with_drag_and_drop(self, flag: bool) -> Self;
fn with_drag_and_drop(self, flag: bool) -> WindowBuilder;
/// Whether show or hide the window icon in the taskbar.
fn with_skip_taskbar(self, skip: bool) -> Self;
/// Customize the window class name.
fn with_class_name<S: Into<String>>(self, class_name: S) -> Self;
fn with_skip_taskbar(self, skip: bool) -> WindowBuilder;
/// Shows or hides the background drop shadow for undecorated windows.
///
/// The shadow is hidden by default.
/// Enabling the shadow causes a thin 1px line to appear on the top of the window.
fn with_undecorated_shadow(self, shadow: bool) -> Self;
fn with_undecorated_shadow(self, shadow: bool) -> WindowBuilder;
}
impl WindowBuilderExtWindows for WindowBuilder {
#[inline]
fn with_owner_window(mut self, parent: HWND) -> Self {
fn with_owner_window(mut self, parent: HWND) -> WindowBuilder {
self.platform_specific.owner = Some(parent);
self
}
#[inline]
fn with_menu(mut self, menu: HMENU) -> Self {
fn with_menu(mut self, menu: HMENU) -> WindowBuilder {
self.platform_specific.menu = Some(menu);
self
}
#[inline]
fn with_taskbar_icon(mut self, taskbar_icon: Option<Icon>) -> Self {
fn with_taskbar_icon(mut self, taskbar_icon: Option<Icon>) -> WindowBuilder {
self.platform_specific.taskbar_icon = taskbar_icon;
self
}
#[inline]
fn with_no_redirection_bitmap(mut self, flag: bool) -> Self {
fn with_no_redirection_bitmap(mut self, flag: bool) -> WindowBuilder {
self.platform_specific.no_redirection_bitmap = flag;
self
}
#[inline]
fn with_drag_and_drop(mut self, flag: bool) -> Self {
fn with_drag_and_drop(mut self, flag: bool) -> WindowBuilder {
self.platform_specific.drag_and_drop = flag;
self
}
#[inline]
fn with_skip_taskbar(mut self, skip: bool) -> Self {
fn with_skip_taskbar(mut self, skip: bool) -> WindowBuilder {
self.platform_specific.skip_taskbar = skip;
self
}
#[inline]
fn with_class_name<S: Into<String>>(mut self, class_name: S) -> Self {
self.platform_specific.class_name = class_name.into();
self
}
#[inline]
fn with_undecorated_shadow(mut self, shadow: bool) -> Self {
fn with_undecorated_shadow(mut self, shadow: bool) -> WindowBuilder {
self.platform_specific.decoration_shadow = shadow;
self
}
@@ -337,18 +344,3 @@ impl IconExtWindows for Icon {
Ok(Icon { inner: win_icon })
}
}
impl KeyEventExtModifierSupplement for KeyEvent {
#[inline]
fn text_with_all_modifiers(&self) -> Option<&str> {
self.platform_specific
.text_with_all_modifers
.as_ref()
.map(|s| s.as_str())
}
#[inline]
fn key_without_modifiers(&self) -> Key {
self.platform_specific.key_without_modifiers.clone()
}
}

115
src/platform/x11.rs
View File

@@ -1,3 +1,6 @@
use std::os::raw;
use std::ptr;
use crate::{
event_loop::{EventLoopBuilder, EventLoopWindowTarget},
monitor::MonitorHandle,
@@ -5,7 +8,9 @@ use crate::{
};
use crate::dpi::Size;
use crate::platform_impl::{ApplicationName, Backend, XLIB_ERROR_HOOKS};
use crate::platform_impl::{
x11::ffi::XVisualInfo, ApplicationName, Backend, Window as LinuxWindow, XLIB_ERROR_HOOKS,
};
pub use crate::platform_impl::{x11::util::WindowType as XWindowType, XNotSupported};
@@ -17,12 +22,6 @@ pub use crate::platform_impl::{x11::util::WindowType as XWindowType, XNotSupport
pub type XlibErrorHook =
Box<dyn Fn(*mut std::ffi::c_void, *mut std::ffi::c_void) -> bool + Send + Sync>;
/// A unique identifer for an X11 visual.
pub type XVisualID = u32;
/// A unique identifier for an X11 window.
pub type XWindow = u32;
/// Hook to winit's xlib error handling callback.
///
/// This method is provided as a safe way to handle the errors comming from X11
@@ -82,14 +81,70 @@ impl<T> EventLoopBuilderExtX11 for EventLoopBuilder<T> {
}
/// Additional methods on [`Window`] that are specific to X11.
pub trait WindowExtX11 {}
pub trait WindowExtX11 {
/// Returns the ID of the [`Window`] xlib object that is used by this window.
///
/// Returns `None` if the window doesn't use xlib (if it uses wayland for example).
fn xlib_window(&self) -> Option<raw::c_ulong>;
impl WindowExtX11 for Window {}
/// Returns a pointer to the `Display` object of xlib that is used by this window.
///
/// Returns `None` if the window doesn't use xlib (if it uses wayland for example).
///
/// The pointer will become invalid when the [`Window`] is destroyed.
fn xlib_display(&self) -> Option<*mut raw::c_void>;
fn xlib_screen_id(&self) -> Option<raw::c_int>;
/// This function returns the underlying `xcb_connection_t` of an xlib `Display`.
///
/// Returns `None` if the window doesn't use xlib (if it uses wayland for example).
///
/// The pointer will become invalid when the [`Window`] is destroyed.
fn xcb_connection(&self) -> Option<*mut raw::c_void>;
}
impl WindowExtX11 for Window {
#[inline]
fn xlib_window(&self) -> Option<raw::c_ulong> {
match self.window {
LinuxWindow::X(ref w) => Some(w.xlib_window()),
#[cfg(wayland_platform)]
_ => None,
}
}
#[inline]
fn xlib_display(&self) -> Option<*mut raw::c_void> {
match self.window {
LinuxWindow::X(ref w) => Some(w.xlib_display()),
#[cfg(wayland_platform)]
_ => None,
}
}
#[inline]
fn xlib_screen_id(&self) -> Option<raw::c_int> {
match self.window {
LinuxWindow::X(ref w) => Some(w.xlib_screen_id()),
#[cfg(wayland_platform)]
_ => None,
}
}
#[inline]
fn xcb_connection(&self) -> Option<*mut raw::c_void> {
match self.window {
LinuxWindow::X(ref w) => Some(w.xcb_connection()),
#[cfg(wayland_platform)]
_ => None,
}
}
}
/// Additional methods on [`WindowBuilder`] that are specific to X11.
pub trait WindowBuilderExtX11 {
/// Create this window with a specific X11 visual.
fn with_x11_visual(self, visual_id: XVisualID) -> Self;
fn with_x11_visual<T>(self, visual_infos: *const T) -> Self;
fn with_x11_screen(self, screen_id: i32) -> Self;
@@ -121,35 +176,21 @@ pub trait WindowBuilderExtX11 {
/// WindowBuilder::new().with_base_size(PhysicalSize::new(400, 200));
/// ```
fn with_base_size<S: Into<Size>>(self, base_size: S) -> Self;
/// Embed this window into another parent window.
///
/// # Example
///
/// ```no_run
/// use winit::window::WindowBuilder;
/// use winit::platform::x11::{XWindow, WindowBuilderExtX11};
/// # fn main() -> Result<(), Box<dyn std::error::Error>> {
/// let event_loop = winit::event_loop::EventLoop::new().unwrap();
/// let parent_window_id = std::env::args().nth(1).unwrap().parse::<XWindow>()?;
/// let window = WindowBuilder::new()
/// .with_embed_parent_window(parent_window_id)
/// .build(&event_loop)?;
/// # Ok(()) }
/// ```
fn with_embed_parent_window(self, parent_window_id: XWindow) -> Self;
}
impl WindowBuilderExtX11 for WindowBuilder {
#[inline]
fn with_x11_visual(mut self, visual_id: XVisualID) -> Self {
self.platform_specific.x11.visual_id = Some(visual_id);
fn with_x11_visual<T>(mut self, visual_infos: *const T) -> Self {
{
self.platform_specific.visual_infos =
Some(unsafe { ptr::read(visual_infos as *const XVisualInfo) });
}
self
}
#[inline]
fn with_x11_screen(mut self, screen_id: i32) -> Self {
self.platform_specific.x11.screen_id = Some(screen_id);
self.platform_specific.screen_id = Some(screen_id);
self
}
@@ -161,25 +202,19 @@ impl WindowBuilderExtX11 for WindowBuilder {
#[inline]
fn with_override_redirect(mut self, override_redirect: bool) -> Self {
self.platform_specific.x11.override_redirect = override_redirect;
self.platform_specific.override_redirect = override_redirect;
self
}
#[inline]
fn with_x11_window_type(mut self, x11_window_types: Vec<XWindowType>) -> Self {
self.platform_specific.x11.x11_window_types = x11_window_types;
self.platform_specific.x11_window_types = x11_window_types;
self
}
#[inline]
fn with_base_size<S: Into<Size>>(mut self, base_size: S) -> Self {
self.platform_specific.x11.base_size = Some(base_size.into());
self
}
#[inline]
fn with_embed_parent_window(mut self, parent_window_id: XWindow) -> Self {
self.platform_specific.x11.embed_window = Some(parent_window_id);
self.platform_specific.base_size = Some(base_size.into());
self
}
}

603
src/platform_impl/android/keycodes.rs
View File

@@ -1,603 +0,0 @@
use android_activity::{
input::{KeyAction, KeyEvent, KeyMapChar, Keycode},
AndroidApp,
};
use crate::keyboard::{Key, KeyCode, KeyLocation, NativeKey, NativeKeyCode};
pub fn to_physical_keycode(keycode: Keycode) -> KeyCode {
match keycode {
Keycode::A => KeyCode::KeyA,
Keycode::B => KeyCode::KeyB,
Keycode::C => KeyCode::KeyC,
Keycode::D => KeyCode::KeyD,
Keycode::E => KeyCode::KeyE,
Keycode::F => KeyCode::KeyF,
Keycode::G => KeyCode::KeyG,
Keycode::H => KeyCode::KeyH,
Keycode::I => KeyCode::KeyI,
Keycode::J => KeyCode::KeyJ,
Keycode::K => KeyCode::KeyK,
Keycode::L => KeyCode::KeyL,
Keycode::M => KeyCode::KeyM,
Keycode::N => KeyCode::KeyN,
Keycode::O => KeyCode::KeyO,
Keycode::P => KeyCode::KeyP,
Keycode::Q => KeyCode::KeyQ,
Keycode::R => KeyCode::KeyR,
Keycode::S => KeyCode::KeyS,
Keycode::T => KeyCode::KeyT,
Keycode::U => KeyCode::KeyU,
Keycode::V => KeyCode::KeyV,
Keycode::W => KeyCode::KeyW,
Keycode::X => KeyCode::KeyX,
Keycode::Y => KeyCode::KeyY,
Keycode::Z => KeyCode::KeyZ,
Keycode::Keycode0 => KeyCode::Digit0,
Keycode::Keycode1 => KeyCode::Digit1,
Keycode::Keycode2 => KeyCode::Digit2,
Keycode::Keycode3 => KeyCode::Digit3,
Keycode::Keycode4 => KeyCode::Digit4,
Keycode::Keycode5 => KeyCode::Digit5,
Keycode::Keycode6 => KeyCode::Digit6,
Keycode::Keycode7 => KeyCode::Digit7,
Keycode::Keycode8 => KeyCode::Digit8,
Keycode::Keycode9 => KeyCode::Digit9,
Keycode::Numpad0 => KeyCode::Numpad0,
Keycode::Numpad1 => KeyCode::Numpad1,
Keycode::Numpad2 => KeyCode::Numpad2,
Keycode::Numpad3 => KeyCode::Numpad3,
Keycode::Numpad4 => KeyCode::Numpad4,
Keycode::Numpad5 => KeyCode::Numpad5,
Keycode::Numpad6 => KeyCode::Numpad6,
Keycode::Numpad7 => KeyCode::Numpad7,
Keycode::Numpad8 => KeyCode::Numpad8,
Keycode::Numpad9 => KeyCode::Numpad9,
Keycode::NumpadAdd => KeyCode::NumpadAdd,
Keycode::NumpadSubtract => KeyCode::NumpadSubtract,
Keycode::NumpadMultiply => KeyCode::NumpadMultiply,
Keycode::NumpadDivide => KeyCode::NumpadDivide,
Keycode::NumpadEnter => KeyCode::NumpadEnter,
Keycode::NumpadEquals => KeyCode::NumpadEqual,
Keycode::NumpadComma => KeyCode::NumpadComma,
Keycode::NumpadDot => KeyCode::NumpadDecimal,
Keycode::NumLock => KeyCode::NumLock,
Keycode::DpadLeft => KeyCode::ArrowLeft,
Keycode::DpadRight => KeyCode::ArrowRight,
Keycode::DpadUp => KeyCode::ArrowUp,
Keycode::DpadDown => KeyCode::ArrowDown,
Keycode::F1 => KeyCode::F1,
Keycode::F2 => KeyCode::F2,
Keycode::F3 => KeyCode::F3,
Keycode::F4 => KeyCode::F4,
Keycode::F5 => KeyCode::F5,
Keycode::F6 => KeyCode::F6,
Keycode::F7 => KeyCode::F7,
Keycode::F8 => KeyCode::F8,
Keycode::F9 => KeyCode::F9,
Keycode::F10 => KeyCode::F10,
Keycode::F11 => KeyCode::F11,
Keycode::F12 => KeyCode::F12,
Keycode::Space => KeyCode::Space,
Keycode::Escape => KeyCode::Escape,
Keycode::Enter => KeyCode::Enter, // not on the Numpad
Keycode::Tab => KeyCode::Tab,
Keycode::PageUp => KeyCode::PageUp,
Keycode::PageDown => KeyCode::PageDown,
Keycode::MoveHome => KeyCode::Home,
Keycode::MoveEnd => KeyCode::End,
Keycode::Insert => KeyCode::Insert,
Keycode::Del => KeyCode::Backspace, // Backspace (above Enter)
Keycode::ForwardDel => KeyCode::Delete, // Delete (below Insert)
Keycode::Copy => KeyCode::Copy,
Keycode::Paste => KeyCode::Paste,
Keycode::Cut => KeyCode::Cut,
Keycode::VolumeUp => KeyCode::AudioVolumeUp,
Keycode::VolumeDown => KeyCode::AudioVolumeDown,
Keycode::VolumeMute => KeyCode::AudioVolumeMute,
//Keycode::Mute => None, // Microphone mute
Keycode::MediaPlayPause => KeyCode::MediaPlayPause,
Keycode::MediaStop => KeyCode::MediaStop,
Keycode::MediaNext => KeyCode::MediaTrackNext,
Keycode::MediaPrevious => KeyCode::MediaTrackPrevious,
Keycode::Plus => KeyCode::Equal,
Keycode::Minus => KeyCode::Minus,
// Winit doesn't differentiate both '+' and '=', considering they are usually
// on the same physical key
Keycode::Equals => KeyCode::Equal,
Keycode::Semicolon => KeyCode::Semicolon,
Keycode::Slash => KeyCode::Slash,
Keycode::Backslash => KeyCode::Backslash,
Keycode::Comma => KeyCode::Comma,
Keycode::Period => KeyCode::Period,
Keycode::Apostrophe => KeyCode::Quote,
Keycode::Grave => KeyCode::Backquote,
// Winit doesn't expose a SysRq code, so map to PrintScreen since it's
// usually the same physical key
Keycode::Sysrq => KeyCode::PrintScreen,
// These are usually the same (Pause/Break)
Keycode::Break => KeyCode::Pause,
// These are exactly the same
Keycode::ScrollLock => KeyCode::ScrollLock,
Keycode::Yen => KeyCode::IntlYen,
Keycode::Kana => KeyCode::Lang1,
Keycode::KatakanaHiragana => KeyCode::KanaMode,
Keycode::CtrlLeft => KeyCode::ControlLeft,
Keycode::CtrlRight => KeyCode::ControlRight,
Keycode::ShiftLeft => KeyCode::ShiftLeft,
Keycode::ShiftRight => KeyCode::ShiftRight,
Keycode::AltLeft => KeyCode::AltLeft,
Keycode::AltRight => KeyCode::AltRight,
Keycode::MetaLeft => KeyCode::SuperLeft,
Keycode::MetaRight => KeyCode::SuperRight,
Keycode::LeftBracket => KeyCode::BracketLeft,
Keycode::RightBracket => KeyCode::BracketRight,
Keycode::Power => KeyCode::Power,
Keycode::Sleep => KeyCode::Sleep, // what about SoftSleep?
Keycode::Wakeup => KeyCode::WakeUp,
keycode => KeyCode::Unidentified(NativeKeyCode::Android(keycode.into())),
}
}
/// Tries to map the `key_event` to a `KeyMapChar` containing a unicode character or dead key accent
///
/// This takes a `KeyEvent` and looks up its corresponding `KeyCharacterMap` and
/// uses that to try and map the `key_code` + `meta_state` to a unicode
/// character or a dead key that can be combined with the next key press.
pub fn character_map_and_combine_key(
app: &AndroidApp,
key_event: &KeyEvent<'_>,
combining_accent: &mut Option<char>,
) -> Option<KeyMapChar> {
let device_id = key_event.device_id();
let key_map = match app.device_key_character_map(device_id) {
Ok(key_map) => key_map,
Err(err) => {
log::warn!("Failed to look up `KeyCharacterMap` for device {device_id}: {err:?}");
return None;
}
};
match key_map.get(key_event.key_code(), key_event.meta_state()) {
Ok(KeyMapChar::Unicode(unicode)) => {
// Only do dead key combining on key down
if key_event.action() == KeyAction::Down {
let combined_unicode = if let Some(accent) = combining_accent {
match key_map.get_dead_char(*accent, unicode) {
Ok(Some(key)) => Some(key),
Ok(None) => None,
Err(err) => {
log::warn!("KeyEvent: Failed to combine 'dead key' accent '{accent}' with '{unicode}': {err:?}");
None
}
}
} else {
Some(unicode)
};
*combining_accent = None;
combined_unicode.map(KeyMapChar::Unicode)
} else {
Some(KeyMapChar::Unicode(unicode))
}
}
Ok(KeyMapChar::CombiningAccent(accent)) => {
if key_event.action() == KeyAction::Down {
*combining_accent = Some(accent);
}
Some(KeyMapChar::CombiningAccent(accent))
}
Ok(KeyMapChar::None) => {
// Leave any combining_accent state in tact (seems to match how other
// Android apps work)
None
}
Err(err) => {
log::warn!("KeyEvent: Failed to get key map character: {err:?}");
*combining_accent = None;
None
}
}
}
pub fn to_logical(key_char: Option<KeyMapChar>, keycode: Keycode) -> Key {
use android_activity::input::Keycode::*;
let native = NativeKey::Android(keycode.into());
match key_char {
Some(KeyMapChar::Unicode(c)) => Key::Character(smol_str::SmolStr::from_iter([c])),
Some(KeyMapChar::CombiningAccent(c)) => Key::Dead(Some(c)),
None | Some(KeyMapChar::None) => match keycode {
// Using `BrowserHome` instead of `GoHome` according to
// https://developer.mozilla.org/en-US/docs/Web/API/KeyboardEvent/key/Key_Values
Home => Key::BrowserHome,
Back => Key::BrowserBack,
Call => Key::Call,
Endcall => Key::EndCall,
//-------------------------------------------------------------------------------
// These should be redundant because they should have already been matched
// as `KeyMapChar::Unicode`, but also matched here as a fallback
Keycode0 => Key::Character("0".into()),
Keycode1 => Key::Character("1".into()),
Keycode2 => Key::Character("2".into()),
Keycode3 => Key::Character("3".into()),
Keycode4 => Key::Character("4".into()),
Keycode5 => Key::Character("5".into()),
Keycode6 => Key::Character("6".into()),
Keycode7 => Key::Character("7".into()),
Keycode8 => Key::Character("8".into()),
Keycode9 => Key::Character("9".into()),
Star => Key::Character("*".into()),
Pound => Key::Character("#".into()),
A => Key::Character("a".into()),
B => Key::Character("b".into()),
C => Key::Character("c".into()),
D => Key::Character("d".into()),
E => Key::Character("e".into()),
F => Key::Character("f".into()),
G => Key::Character("g".into()),
H => Key::Character("h".into()),
I => Key::Character("i".into()),
J => Key::Character("j".into()),
K => Key::Character("k".into()),
L => Key::Character("l".into()),
M => Key::Character("m".into()),
N => Key::Character("n".into()),
O => Key::Character("o".into()),
P => Key::Character("p".into()),
Q => Key::Character("q".into()),
R => Key::Character("r".into()),
S => Key::Character("s".into()),
T => Key::Character("t".into()),
U => Key::Character("u".into()),
V => Key::Character("v".into()),
W => Key::Character("w".into()),
X => Key::Character("x".into()),
Y => Key::Character("y".into()),
Z => Key::Character("z".into()),
Comma => Key::Character(",".into()),
Period => Key::Character(".".into()),
Grave => Key::Character("`".into()),
Minus => Key::Character("-".into()),
Equals => Key::Character("=".into()),
LeftBracket => Key::Character("[".into()),
RightBracket => Key::Character("]".into()),
Backslash => Key::Character("\\".into()),
Semicolon => Key::Character(";".into()),
Apostrophe => Key::Character("'".into()),
Slash => Key::Character("/".into()),
At => Key::Character("@".into()),
Plus => Key::Character("+".into()),
//-------------------------------------------------------------------------------
DpadUp => Key::ArrowUp,
DpadDown => Key::ArrowDown,
DpadLeft => Key::ArrowLeft,
DpadRight => Key::ArrowRight,
DpadCenter => Key::Enter,
VolumeUp => Key::AudioVolumeUp,
VolumeDown => Key::AudioVolumeDown,
Power => Key::Power,
Camera => Key::Camera,
Clear => Key::Clear,
AltLeft => Key::Alt,
AltRight => Key::Alt,
ShiftLeft => Key::Shift,
ShiftRight => Key::Shift,
Tab => Key::Tab,
Space => Key::Space,
Sym => Key::Symbol,
Explorer => Key::LaunchWebBrowser,
Envelope => Key::LaunchMail,
Enter => Key::Enter,
Del => Key::Backspace,
// According to https://developer.android.com/reference/android/view/KeyEvent#KEYCODE_NUM
Num => Key::Alt,
Headsethook => Key::HeadsetHook,
Focus => Key::CameraFocus,
Notification => Key::Notification,
Search => Key::BrowserSearch,
MediaPlayPause => Key::MediaPlayPause,
MediaStop => Key::MediaStop,
MediaNext => Key::MediaTrackNext,
MediaPrevious => Key::MediaTrackPrevious,
MediaRewind => Key::MediaRewind,
MediaFastForward => Key::MediaFastForward,
Mute => Key::MicrophoneVolumeMute,
PageUp => Key::PageUp,
PageDown => Key::PageDown,
Escape => Key::Escape,
ForwardDel => Key::Delete,
CtrlLeft => Key::Control,
CtrlRight => Key::Control,
CapsLock => Key::CapsLock,
ScrollLock => Key::ScrollLock,
MetaLeft => Key::Super,
MetaRight => Key::Super,
Function => Key::Fn,
Sysrq => Key::PrintScreen,
Break => Key::Pause,
MoveHome => Key::Home,
MoveEnd => Key::End,
Insert => Key::Insert,
Forward => Key::BrowserForward,
MediaPlay => Key::MediaPlay,
MediaPause => Key::MediaPause,
MediaClose => Key::MediaClose,
MediaEject => Key::Eject,
MediaRecord => Key::MediaRecord,
F1 => Key::F1,
F2 => Key::F2,
F3 => Key::F3,
F4 => Key::F4,
F5 => Key::F5,
F6 => Key::F6,
F7 => Key::F7,
F8 => Key::F8,
F9 => Key::F9,
F10 => Key::F10,
F11 => Key::F11,
F12 => Key::F12,
NumLock => Key::NumLock,
Numpad0 => Key::Character("0".into()),
Numpad1 => Key::Character("1".into()),
Numpad2 => Key::Character("2".into()),
Numpad3 => Key::Character("3".into()),
Numpad4 => Key::Character("4".into()),
Numpad5 => Key::Character("5".into()),
Numpad6 => Key::Character("6".into()),
Numpad7 => Key::Character("7".into()),
Numpad8 => Key::Character("8".into()),
Numpad9 => Key::Character("9".into()),
NumpadDivide => Key::Character("/".into()),
NumpadMultiply => Key::Character("*".into()),
NumpadSubtract => Key::Character("-".into()),
NumpadAdd => Key::Character("+".into()),
NumpadDot => Key::Character(".".into()),
NumpadComma => Key::Character(",".into()),
NumpadEnter => Key::Enter,
NumpadEquals => Key::Character("=".into()),
NumpadLeftParen => Key::Character("(".into()),
NumpadRightParen => Key::Character(")".into()),
VolumeMute => Key::AudioVolumeMute,
Info => Key::Info,
ChannelUp => Key::ChannelUp,
ChannelDown => Key::ChannelDown,
ZoomIn => Key::ZoomIn,
ZoomOut => Key::ZoomOut,
Tv => Key::TV,
Guide => Key::Guide,
Dvr => Key::DVR,
Bookmark => Key::BrowserFavorites,
Captions => Key::ClosedCaptionToggle,
Settings => Key::Settings,
TvPower => Key::TVPower,
TvInput => Key::TVInput,
StbPower => Key::STBPower,
StbInput => Key::STBInput,
AvrPower => Key::AVRPower,
AvrInput => Key::AVRInput,
ProgRed => Key::ColorF0Red,
ProgGreen => Key::ColorF1Green,
ProgYellow => Key::ColorF2Yellow,
ProgBlue => Key::ColorF3Blue,
AppSwitch => Key::AppSwitch,
LanguageSwitch => Key::GroupNext,
MannerMode => Key::MannerMode,
Keycode3dMode => Key::TV3DMode,
Contacts => Key::LaunchContacts,
Calendar => Key::LaunchCalendar,
Music => Key::LaunchMusicPlayer,
Calculator => Key::LaunchApplication2,
ZenkakuHankaku => Key::ZenkakuHankaku,
Eisu => Key::Eisu,
Muhenkan => Key::NonConvert,
Henkan => Key::Convert,
KatakanaHiragana => Key::HiraganaKatakana,
Kana => Key::KanjiMode,
BrightnessDown => Key::BrightnessDown,
BrightnessUp => Key::BrightnessUp,
MediaAudioTrack => Key::MediaAudioTrack,
Sleep => Key::Standby,
Wakeup => Key::WakeUp,
Pairing => Key::Pairing,
MediaTopMenu => Key::MediaTopMenu,
LastChannel => Key::MediaLast,
TvDataService => Key::TVDataService,
VoiceAssist => Key::VoiceDial,
TvRadioService => Key::TVRadioService,
TvTeletext => Key::Teletext,
TvNumberEntry => Key::TVNumberEntry,
TvTerrestrialAnalog => Key::TVTerrestrialAnalog,
TvTerrestrialDigital => Key::TVTerrestrialDigital,
TvSatellite => Key::TVSatellite,
TvSatelliteBs => Key::TVSatelliteBS,
TvSatelliteCs => Key::TVSatelliteCS,
TvSatelliteService => Key::TVSatelliteToggle,
TvNetwork => Key::TVNetwork,
TvAntennaCable => Key::TVAntennaCable,
TvInputHdmi1 => Key::TVInputHDMI1,
TvInputHdmi2 => Key::TVInputHDMI2,
TvInputHdmi3 => Key::TVInputHDMI3,
TvInputHdmi4 => Key::TVInputHDMI4,
TvInputComposite1 => Key::TVInputComposite1,
TvInputComposite2 => Key::TVInputComposite2,
TvInputComponent1 => Key::TVInputComponent1,
TvInputComponent2 => Key::TVInputComponent2,
TvInputVga1 => Key::TVInputVGA1,
TvAudioDescription => Key::TVAudioDescription,
TvAudioDescriptionMixUp => Key::TVAudioDescriptionMixUp,
TvAudioDescriptionMixDown => Key::TVAudioDescriptionMixDown,
TvZoomMode => Key::ZoomToggle,
TvContentsMenu => Key::TVContentsMenu,
TvMediaContextMenu => Key::TVMediaContext,
TvTimerProgramming => Key::TVTimer,
Help => Key::Help,
NavigatePrevious => Key::NavigatePrevious,
NavigateNext => Key::NavigateNext,
NavigateIn => Key::NavigateIn,
NavigateOut => Key::NavigateOut,
MediaSkipForward => Key::MediaSkipForward,
MediaSkipBackward => Key::MediaSkipBackward,
MediaStepForward => Key::MediaStepForward,
MediaStepBackward => Key::MediaStepBackward,
Cut => Key::Cut,
Copy => Key::Copy,
Paste => Key::Paste,
Refresh => Key::BrowserRefresh,
// -----------------------------------------------------------------
// Keycodes that don't have a logical Key mapping
// -----------------------------------------------------------------
Unknown => Key::Unidentified(native),
// Can be added on demand
SoftLeft => Key::Unidentified(native),
SoftRight => Key::Unidentified(native),
Menu => Key::Unidentified(native),
Pictsymbols => Key::Unidentified(native),
SwitchCharset => Key::Unidentified(native),
// -----------------------------------------------------------------
// Gamepad events should be exposed through a separate API, not
// keyboard events
ButtonA => Key::Unidentified(native),
ButtonB => Key::Unidentified(native),
ButtonC => Key::Unidentified(native),
ButtonX => Key::Unidentified(native),
ButtonY => Key::Unidentified(native),
ButtonZ => Key::Unidentified(native),
ButtonL1 => Key::Unidentified(native),
ButtonR1 => Key::Unidentified(native),
ButtonL2 => Key::Unidentified(native),
ButtonR2 => Key::Unidentified(native),
ButtonThumbl => Key::Unidentified(native),
ButtonThumbr => Key::Unidentified(native),
ButtonStart => Key::Unidentified(native),
ButtonSelect => Key::Unidentified(native),
ButtonMode => Key::Unidentified(native),
// -----------------------------------------------------------------
Window => Key::Unidentified(native),
Button1 => Key::Unidentified(native),
Button2 => Key::Unidentified(native),
Button3 => Key::Unidentified(native),
Button4 => Key::Unidentified(native),
Button5 => Key::Unidentified(native),
Button6 => Key::Unidentified(native),
Button7 => Key::Unidentified(native),
Button8 => Key::Unidentified(native),
Button9 => Key::Unidentified(native),
Button10 => Key::Unidentified(native),
Button11 => Key::Unidentified(native),
Button12 => Key::Unidentified(native),
Button13 => Key::Unidentified(native),
Button14 => Key::Unidentified(native),
Button15 => Key::Unidentified(native),
Button16 => Key::Unidentified(native),
Yen => Key::Unidentified(native),
Ro => Key::Unidentified(native),
Assist => Key::Unidentified(native),
Keycode11 => Key::Unidentified(native),
Keycode12 => Key::Unidentified(native),
StemPrimary => Key::Unidentified(native),
Stem1 => Key::Unidentified(native),
Stem2 => Key::Unidentified(native),
Stem3 => Key::Unidentified(native),
DpadUpLeft => Key::Unidentified(native),
DpadDownLeft => Key::Unidentified(native),
DpadUpRight => Key::Unidentified(native),
DpadDownRight => Key::Unidentified(native),
SoftSleep => Key::Unidentified(native),
SystemNavigationUp => Key::Unidentified(native),
SystemNavigationDown => Key::Unidentified(native),
SystemNavigationLeft => Key::Unidentified(native),
SystemNavigationRight => Key::Unidentified(native),
AllApps => Key::Unidentified(native),
ThumbsUp => Key::Unidentified(native),
ThumbsDown => Key::Unidentified(native),
ProfileSwitch => Key::Unidentified(native),
},
}
}
pub fn to_location(keycode: Keycode) -> KeyLocation {
use android_activity::input::Keycode::*;
match keycode {
AltLeft => KeyLocation::Left,
AltRight => KeyLocation::Right,
ShiftLeft => KeyLocation::Left,
ShiftRight => KeyLocation::Right,
// According to https://developer.android.com/reference/android/view/KeyEvent#KEYCODE_NUM
Num => KeyLocation::Left,
CtrlLeft => KeyLocation::Left,
CtrlRight => KeyLocation::Right,
MetaLeft => KeyLocation::Left,
MetaRight => KeyLocation::Right,
NumLock => KeyLocation::Numpad,
Numpad0 => KeyLocation::Numpad,
Numpad1 => KeyLocation::Numpad,
Numpad2 => KeyLocation::Numpad,
Numpad3 => KeyLocation::Numpad,
Numpad4 => KeyLocation::Numpad,
Numpad5 => KeyLocation::Numpad,
Numpad6 => KeyLocation::Numpad,
Numpad7 => KeyLocation::Numpad,
Numpad8 => KeyLocation::Numpad,
Numpad9 => KeyLocation::Numpad,
NumpadDivide => KeyLocation::Numpad,
NumpadMultiply => KeyLocation::Numpad,
NumpadSubtract => KeyLocation::Numpad,
NumpadAdd => KeyLocation::Numpad,
NumpadDot => KeyLocation::Numpad,
NumpadComma => KeyLocation::Numpad,
NumpadEnter => KeyLocation::Numpad,
NumpadEquals => KeyLocation::Numpad,
NumpadLeftParen => KeyLocation::Numpad,
NumpadRightParen => KeyLocation::Numpad,
_ => KeyLocation::Standard,
}
}

944
src/platform_impl/android/mod.rs
View File

File diff suppressed because it is too large Load Diff

294
src/platform_impl/ios/app_state.rs
View File

@@ -6,7 +6,6 @@ use std::{
mem,
os::raw::c_void,
ptr,
sync::{Arc, Mutex},
time::Instant,
};
@@ -16,21 +15,22 @@ use core_foundation::runloop::{
kCFRunLoopCommonModes, CFRunLoopAddTimer, CFRunLoopGetMain, CFRunLoopRef, CFRunLoopTimerCreate,
CFRunLoopTimerInvalidate, CFRunLoopTimerRef, CFRunLoopTimerSetNextFireDate,
};
use icrate::Foundation::{
CGRect, CGSize, MainThreadMarker, NSInteger, NSOperatingSystemVersion, NSProcessInfo,
};
use objc2::rc::Id;
use objc2::runtime::AnyObject;
use objc2::foundation::{CGRect, CGSize, NSInteger, NSProcessInfo};
use objc2::rc::{Id, Shared};
use objc2::runtime::Object;
use objc2::{msg_send, sel};
use once_cell::sync::Lazy;
use super::event_loop::{EventHandler, Never};
use super::uikit::UIView;
use super::view::WinitUIWindow;
use crate::{
dpi::PhysicalSize,
event::{Event, InnerSizeWriter, StartCause, WindowEvent},
dpi::LogicalSize,
event::{Event, StartCause, WindowEvent},
event_loop::ControlFlow,
platform_impl::platform::{
event_loop::{EventHandler, EventProxy, EventWrapper, Never},
ffi::NSOperatingSystemVersion,
},
window::WindowId as RootWindowId,
};
@@ -46,19 +46,6 @@ macro_rules! bug_assert {
};
}
#[derive(Debug)]
pub enum EventWrapper {
StaticEvent(Event<Never>),
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 {
event_handler: Box<dyn EventHandler>,
@@ -70,15 +57,9 @@ enum UserCallbackTransitionResult<'a> {
},
}
impl Event<Never> {
impl Event<'static, Never> {
fn is_redraw(&self) -> bool {
matches!(
self,
Event::WindowEvent {
event: WindowEvent::RedrawRequested,
..
}
)
matches!(self, Event::RedrawRequested(_))
}
}
@@ -87,25 +68,25 @@ impl Event<Never> {
#[must_use = "dropping `AppStateImpl` without inspecting it is probably a bug"]
enum AppStateImpl {
NotLaunched {
queued_windows: Vec<Id<WinitUIWindow>>,
queued_windows: Vec<Id<WinitUIWindow, Shared>>,
queued_events: Vec<EventWrapper>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow>>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow, Shared>>,
},
Launching {
queued_windows: Vec<Id<WinitUIWindow>>,
queued_windows: Vec<Id<WinitUIWindow, Shared>>,
queued_events: Vec<EventWrapper>,
queued_event_handler: Box<dyn EventHandler>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow>>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow, Shared>>,
},
ProcessingEvents {
event_handler: Box<dyn EventHandler>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow>>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow, Shared>>,
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>>,
queued_gpu_redraws: HashSet<Id<WinitUIWindow, Shared>>,
},
ProcessingRedraws {
event_handler: Box<dyn EventHandler>,
@@ -121,7 +102,7 @@ enum AppStateImpl {
Terminated,
}
pub(crate) struct AppState {
struct AppState {
// This should never be `None`, except for briefly during a state transition.
app_state: Option<AppStateImpl>,
control_flow: ControlFlow,
@@ -129,18 +110,24 @@ pub(crate) struct AppState {
}
impl AppState {
pub(crate) fn get_mut(_mtm: MainThreadMarker) -> RefMut<'static, AppState> {
// requires main thread
unsafe fn get_mut() -> 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 cfg!(debug_assertions) {
assert_main_thread!(
"bug in winit: `AppState::get_mut()` can only be called on the main thread"
);
}
let mut guard = 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() });
unsafe fn init_guard(guard: &mut RefMut<'static, Option<AppState>>) {
let waker = EventLoopWaker::new(CFRunLoopGetMain());
**guard = Some(AppState {
app_state: Some(AppStateImpl::NotLaunched {
queued_windows: Vec::new(),
@@ -151,7 +138,7 @@ impl AppState {
waker,
});
}
init_guard(&mut guard);
init_guard(&mut guard)
}
RefMut::map(guard, |state| state.as_mut().unwrap())
}
@@ -217,7 +204,9 @@ impl AppState {
});
}
fn did_finish_launching_transition(&mut self) -> (Vec<Id<WinitUIWindow>>, Vec<EventWrapper>) {
fn did_finish_launching_transition(
&mut self,
) -> (Vec<Id<WinitUIWindow, Shared>>, Vec<EventWrapper>) {
let (windows, events, event_handler, queued_gpu_redraws) = match self.take_state() {
AppStateImpl::Launching {
queued_windows,
@@ -234,7 +223,7 @@ impl AppState {
};
self.set_state(AppStateImpl::ProcessingEvents {
event_handler,
active_control_flow: self.control_flow,
active_control_flow: ControlFlow::Poll,
queued_gpu_redraws,
});
(windows, events)
@@ -290,6 +279,7 @@ impl AppState {
};
(waiting_event_handler, event)
}
(ControlFlow::ExitWithCode(_), _) => bug!("unexpected `ControlFlow` `Exit`"),
s => bug!("`EventHandler` unexpectedly woke up {:?}", s),
};
@@ -373,7 +363,7 @@ impl AppState {
}
}
fn main_events_cleared_transition(&mut self) -> HashSet<Id<WinitUIWindow>> {
fn main_events_cleared_transition(&mut self) -> HashSet<Id<WinitUIWindow, Shared>> {
let (event_handler, queued_gpu_redraws, active_control_flow) = match self.take_state() {
AppStateImpl::ProcessingEvents {
event_handler,
@@ -403,6 +393,9 @@ impl AppState {
let new = self.control_flow;
match (old, new) {
(ControlFlow::Poll, ControlFlow::Poll) => self.set_state(AppStateImpl::PollFinished {
waiting_event_handler,
}),
(ControlFlow::Wait, ControlFlow::Wait) => {
let start = Instant::now();
self.set_state(AppStateImpl::Waiting {
@@ -435,34 +428,36 @@ impl AppState {
});
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_event_handler,
});
self.waker.start()
}
(_, ControlFlow::ExitWithCode(_)) => {
// https://developer.apple.com/library/archive/qa/qa1561/_index.html
// it is not possible to quit an iOS app gracefully and programatically
warn!("`ControlFlow::Exit` ignored on iOS");
self.control_flow = old
}
}
}
fn terminated_transition(&mut self) -> Box<dyn EventHandler> {
match self.replace_state(AppStateImpl::Terminated) {
AppStateImpl::ProcessingEvents { event_handler, .. } => event_handler,
s => bug!("`LoopExiting` happened while not processing events {:?}", s),
s => bug!(
"`LoopDestroyed` 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);
// requires main thread and window is a UIWindow
// retains window
pub(crate) unsafe fn set_key_window(window: &Id<WinitUIWindow, Shared>) {
let mut this = AppState::get_mut();
match this.state_mut() {
&mut AppStateImpl::NotLaunched {
ref mut queued_windows,
@@ -482,8 +477,10 @@ pub(crate) fn set_key_window(mtm: MainThreadMarker, window: &Id<WinitUIWindow>)
window.makeKeyAndVisible();
}
pub(crate) fn queue_gl_or_metal_redraw(mtm: MainThreadMarker, window: Id<WinitUIWindow>) {
let mut this = AppState::get_mut(mtm);
// requires main thread and window is a UIWindow
// retains window
pub(crate) unsafe fn queue_gl_or_metal_redraw(window: Id<WinitUIWindow, Shared>) {
let mut this = AppState::get_mut();
match this.state_mut() {
&mut AppStateImpl::NotLaunched {
ref mut queued_gpu_redraws,
@@ -512,17 +509,24 @@ pub(crate) fn queue_gl_or_metal_redraw(mtm: MainThreadMarker, window: Id<WinitUI
}
}
pub fn will_launch(mtm: MainThreadMarker, queued_event_handler: Box<dyn EventHandler>) {
AppState::get_mut(mtm).will_launch_transition(queued_event_handler)
// requires main thread
pub unsafe fn will_launch(queued_event_handler: Box<dyn EventHandler>) {
AppState::get_mut().will_launch_transition(queued_event_handler)
}
pub fn did_finish_launching(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
// requires main thread
pub unsafe fn did_finish_launching() {
let mut this = AppState::get_mut();
let windows = match this.state_mut() {
AppStateImpl::Launching { queued_windows, .. } => mem::take(queued_windows),
s => bug!("unexpected state {:?}", s),
};
// start waking up the event loop now!
bug_assert!(
this.control_flow == ControlFlow::Poll,
"unexpectedly not setup to `Poll` on launch!"
);
this.waker.start();
// have to drop RefMut because the window setup code below can trigger new events
@@ -540,7 +544,7 @@ pub fn did_finish_launching(mtm: MainThreadMarker) {
// completed. This may result in incorrect visual appearance.
// ```
let screen = window.screen();
let _: () = unsafe { msg_send![&window, setScreen: ptr::null::<AnyObject>()] };
let _: () = msg_send![&window, setScreen: ptr::null::<Object>()];
window.setScreen(&screen);
let controller = window.rootViewController();
@@ -550,13 +554,13 @@ pub fn did_finish_launching(mtm: MainThreadMarker) {
window.makeKeyAndVisible();
}
let (windows, events) = AppState::get_mut(mtm).did_finish_launching_transition();
let (windows, events) = AppState::get_mut().did_finish_launching_transition();
let events = std::iter::once(EventWrapper::StaticEvent(Event::NewEvents(
StartCause::Init,
)))
.chain(events);
handle_nonuser_events(mtm, events);
handle_nonuser_events(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
@@ -565,27 +569,27 @@ pub fn did_finish_launching(mtm: MainThreadMarker) {
}
}
// requires main thread
// AppState::did_finish_launching handles the special transition `Init`
pub fn handle_wakeup_transition(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
pub unsafe fn handle_wakeup_transition() {
let mut this = AppState::get_mut();
let wakeup_event = match this.wakeup_transition() {
None => return,
Some(wakeup_event) => wakeup_event,
};
drop(this);
handle_nonuser_event(mtm, wakeup_event)
handle_nonuser_event(wakeup_event)
}
pub(crate) fn handle_nonuser_event(mtm: MainThreadMarker, event: EventWrapper) {
handle_nonuser_events(mtm, std::iter::once(event))
// requires main thread
pub(crate) unsafe fn handle_nonuser_event(event: EventWrapper) {
handle_nonuser_events(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);
// requires main thread
pub(crate) unsafe fn handle_nonuser_events<I: IntoIterator<Item = EventWrapper>>(events: I) {
let mut this = AppState::get_mut();
let (mut event_handler, active_control_flow, processing_redraws) =
match this.try_user_callback_transition() {
UserCallbackTransitionResult::ReentrancyPrevented { queued_events } => {
@@ -598,6 +602,7 @@ pub(crate) fn handle_nonuser_events<I: IntoIterator<Item = EventWrapper>>(
processing_redraws,
} => (event_handler, active_control_flow, processing_redraws),
};
let mut control_flow = this.control_flow;
drop(this);
for wrapper in events {
@@ -611,16 +616,16 @@ pub(crate) fn handle_nonuser_events<I: IntoIterator<Item = EventWrapper>>(
event
);
}
event_handler.handle_nonuser_event(event)
event_handler.handle_nonuser_event(event, &mut control_flow)
}
EventWrapper::ScaleFactorChanged(event) => {
handle_hidpi_proxy(&mut event_handler, event)
EventWrapper::EventProxy(proxy) => {
handle_event_proxy(&mut event_handler, control_flow, proxy)
}
}
}
loop {
let mut this = AppState::get_mut(mtm);
let mut this = AppState::get_mut();
let queued_events = match this.state_mut() {
&mut AppStateImpl::InUserCallback {
ref mut queued_events,
@@ -652,6 +657,7 @@ pub(crate) fn handle_nonuser_events<I: IntoIterator<Item = EventWrapper>>(
active_control_flow,
}
});
this.control_flow = control_flow;
break;
}
drop(this);
@@ -667,18 +673,20 @@ pub(crate) fn handle_nonuser_events<I: IntoIterator<Item = EventWrapper>>(
event
);
}
event_handler.handle_nonuser_event(event)
event_handler.handle_nonuser_event(event, &mut control_flow)
}
EventWrapper::ScaleFactorChanged(event) => {
handle_hidpi_proxy(&mut event_handler, event)
EventWrapper::EventProxy(proxy) => {
handle_event_proxy(&mut event_handler, control_flow, proxy)
}
}
}
}
}
fn handle_user_events(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
// requires main thread
unsafe fn handle_user_events() {
let mut this = AppState::get_mut();
let mut control_flow = this.control_flow;
let (mut event_handler, active_control_flow, processing_redraws) =
match this.try_user_callback_transition() {
UserCallbackTransitionResult::ReentrancyPrevented { .. } => {
@@ -695,10 +703,10 @@ fn handle_user_events(mtm: MainThreadMarker) {
}
drop(this);
event_handler.handle_user_events();
event_handler.handle_user_events(&mut control_flow);
loop {
let mut this = AppState::get_mut(mtm);
let mut this = AppState::get_mut();
let queued_events = match this.state_mut() {
&mut AppStateImpl::InUserCallback {
ref mut queued_events,
@@ -719,24 +727,28 @@ fn handle_user_events(mtm: MainThreadMarker) {
queued_gpu_redraws,
active_control_flow,
});
this.control_flow = control_flow;
break;
}
drop(this);
for wrapper in queued_events {
match wrapper {
EventWrapper::StaticEvent(event) => event_handler.handle_nonuser_event(event),
EventWrapper::ScaleFactorChanged(event) => {
handle_hidpi_proxy(&mut event_handler, event)
EventWrapper::StaticEvent(event) => {
event_handler.handle_nonuser_event(event, &mut control_flow)
}
EventWrapper::EventProxy(proxy) => {
handle_event_proxy(&mut event_handler, control_flow, proxy)
}
}
}
event_handler.handle_user_events();
event_handler.handle_user_events(&mut control_flow);
}
}
pub fn handle_main_events_cleared(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
// requires main thread
pub unsafe fn handle_main_events_cleared() {
let mut this = AppState::get_mut();
if !this.has_launched() {
return;
}
@@ -746,62 +758,84 @@ pub fn handle_main_events_cleared(mtm: MainThreadMarker) {
};
drop(this);
handle_user_events(mtm);
// User events are always sent out at the end of the "MainEventLoop"
handle_user_events();
handle_nonuser_event(EventWrapper::StaticEvent(Event::MainEventsCleared));
let mut this = AppState::get_mut(mtm);
let redraw_events: Vec<EventWrapper> = this
let mut this = AppState::get_mut();
let mut 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,
})
})
.map(|window| EventWrapper::StaticEvent(Event::RedrawRequested(RootWindowId(window.id()))))
.collect();
redraw_events.push(EventWrapper::StaticEvent(Event::RedrawEventsCleared));
drop(this);
handle_nonuser_events(mtm, redraw_events);
handle_nonuser_event(mtm, EventWrapper::StaticEvent(Event::AboutToWait));
handle_nonuser_events(redraw_events);
}
pub fn handle_events_cleared(mtm: MainThreadMarker) {
AppState::get_mut(mtm).events_cleared_transition();
// requires main thread
pub unsafe fn handle_events_cleared() {
AppState::get_mut().events_cleared_transition();
}
pub fn terminated(mtm: MainThreadMarker) {
let mut this = AppState::get_mut(mtm);
// requires main thread
pub unsafe fn terminated() {
let mut this = AppState::get_mut();
let mut event_handler = this.terminated_transition();
let mut control_flow = this.control_flow;
drop(this);
event_handler.handle_nonuser_event(Event::LoopExiting)
event_handler.handle_nonuser_event(Event::LoopDestroyed, &mut control_flow)
}
fn handle_hidpi_proxy(event_handler: &mut Box<dyn EventHandler>, event: ScaleFactorChanged) {
let ScaleFactorChanged {
suggested_size,
scale_factor,
window,
} = event;
let new_inner_size = Arc::new(Mutex::new(suggested_size));
fn handle_event_proxy(
event_handler: &mut Box<dyn EventHandler>,
control_flow: ControlFlow,
proxy: EventProxy,
) {
match proxy {
EventProxy::DpiChangedProxy {
suggested_size,
scale_factor,
window,
} => handle_hidpi_proxy(
event_handler,
control_flow,
suggested_size,
scale_factor,
window,
),
}
}
fn handle_hidpi_proxy(
event_handler: &mut Box<dyn EventHandler>,
mut control_flow: ControlFlow,
suggested_size: LogicalSize<f64>,
scale_factor: f64,
window: Id<WinitUIWindow, Shared>,
) {
let mut size = suggested_size.to_physical(scale_factor);
let new_inner_size = &mut 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)),
new_inner_size,
},
};
event_handler.handle_nonuser_event(event);
event_handler.handle_nonuser_event(event, &mut control_flow);
let (view, screen_frame) = get_view_and_screen_frame(&window);
let physical_size = *new_inner_size.lock().unwrap();
drop(new_inner_size);
let physical_size = *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) {
fn get_view_and_screen_frame(window: &WinitUIWindow) -> (Id<UIView, Shared>, CGRect) {
let view_controller = window.rootViewController().unwrap();
let view = view_controller.view().unwrap();
let bounds = window.bounds();
@@ -890,7 +924,7 @@ macro_rules! os_capabilities {
impl From<NSOperatingSystemVersion> for OSCapabilities {
fn from(os_version: NSOperatingSystemVersion) -> OSCapabilities {
$(let $name = meets_requirements(os_version, $major, $minor);)*
$(let $name = os_version.meets_requirements($major, $minor);)*
OSCapabilities { $($name,)* os_version, }
}
}
@@ -900,7 +934,7 @@ macro_rules! os_capabilities {
pub fn $error_name(&self, extra_msg: &str) {
log::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,
$major, $minor, self.os_version.major, self.os_version.minor, self.os_version.patch,
extra_msg
)
}
@@ -928,18 +962,16 @@ os_capabilities! {
force_touch: 9-0,
}
fn meets_requirements(
version: NSOperatingSystemVersion,
required_major: NSInteger,
required_minor: NSInteger,
) -> bool {
(version.majorVersion, version.minorVersion) >= (required_major, required_minor)
impl NSOperatingSystemVersion {
fn meets_requirements(&self, required_major: NSInteger, required_minor: NSInteger) -> bool {
(self.major, self.minor) >= (required_major, required_minor)
}
}
pub fn os_capabilities() -> OSCapabilities {
static OS_CAPABILITIES: Lazy<OSCapabilities> = Lazy::new(|| {
let version: NSOperatingSystemVersion = unsafe {
let process_info = NSProcessInfo::processInfo();
let process_info = NSProcessInfo::process_info();
let atleast_ios_8: bool = msg_send![
&process_info,
respondsToSelector: sel!(operatingSystemVersion)
@@ -952,7 +984,7 @@ pub fn os_capabilities() -> OSCapabilities {
//
// 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()
msg_send![&process_info, operatingSystemVersion]
};
version.into()
});

199
src/platform_impl/ios/event_loop.rs
View File

@@ -14,82 +14,60 @@ use core_foundation::runloop::{
CFRunLoopObserverCreate, CFRunLoopObserverRef, CFRunLoopSourceContext, CFRunLoopSourceCreate,
CFRunLoopSourceInvalidate, CFRunLoopSourceRef, CFRunLoopSourceSignal, CFRunLoopWakeUp,
};
use icrate::Foundation::{MainThreadMarker, NSString};
use objc2::foundation::{MainThreadMarker, NSString};
use objc2::rc::{Id, Shared};
use objc2::ClassType;
use raw_window_handle::{RawDisplayHandle, UiKitDisplayHandle};
use super::uikit::{UIApplication, UIApplicationMain, UIDevice, UIScreen};
use super::view::WinitUIWindow;
use super::{app_state, monitor, view, MonitorHandle};
use crate::{
error::EventLoopError,
dpi::LogicalSize,
event::Event,
event_loop::{
ControlFlow, DeviceEvents, EventLoopClosed,
EventLoopWindowTarget as RootEventLoopWindowTarget,
ControlFlow, EventLoopClosed, EventLoopWindowTarget as RootEventLoopWindowTarget,
},
platform::ios::Idiom,
};
use super::{app_state, monitor, view, MonitorHandle};
use super::{
app_state::AppState,
uikit::{UIApplication, UIApplicationMain, UIDevice, UIScreen},
};
#[derive(Debug)]
pub(crate) enum EventWrapper {
StaticEvent(Event<'static, Never>),
EventProxy(EventProxy),
}
#[derive(Debug, PartialEq)]
pub(crate) enum EventProxy {
DpiChangedProxy {
window: Id<WinitUIWindow, Shared>,
suggested_size: LogicalSize<f64>,
scale_factor: f64,
},
}
pub struct EventLoopWindowTarget<T: 'static> {
pub(super) mtm: MainThreadMarker,
p: PhantomData<T>,
receiver: Receiver<T>,
sender_to_clone: Sender<T>,
}
impl<T: 'static> EventLoopWindowTarget<T> {
pub fn available_monitors(&self) -> VecDeque<MonitorHandle> {
monitor::uiscreens(self.mtm)
monitor::uiscreens(MainThreadMarker::new().unwrap())
}
pub fn primary_monitor(&self) -> Option<MonitorHandle> {
Some(MonitorHandle::new(UIScreen::main(self.mtm)))
Some(MonitorHandle::new(UIScreen::main(
MainThreadMarker::new().unwrap(),
)))
}
#[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 programatically
warn!("`ControlFlow::Exit` ignored on iOS");
}
pub(crate) fn exiting(&self) -> bool {
false
pub fn raw_display_handle(&self) -> RawDisplayHandle {
RawDisplayHandle::UiKit(UiKitDisplayHandle::empty())
}
}
pub struct EventLoop<T: 'static> {
mtm: MainThreadMarker,
sender: Sender<T>,
receiver: Receiver<T>,
window_target: RootEventLoopWindowTarget<T>,
}
@@ -97,11 +75,8 @@ pub struct EventLoop<T: 'static> {
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");
pub(crate) fn new(_: &PlatformSpecificEventLoopAttributes) -> EventLoop<T> {
assert_main_thread!("`EventLoop` can only be created on the main thread on iOS");
static mut SINGLETON_INIT: bool = false;
unsafe {
@@ -113,50 +88,38 @@ impl<T: 'static> EventLoop<T> {
SINGLETON_INIT = true;
}
let (sender, receiver) = mpsc::channel();
let (sender_to_clone, receiver) = mpsc::channel();
// this line sets up the main run loop before `UIApplicationMain`
setup_control_flow_observers();
Ok(EventLoop {
mtm,
sender,
receiver,
EventLoop {
window_target: RootEventLoopWindowTarget {
p: EventLoopWindowTarget {
mtm,
p: PhantomData,
receiver,
sender_to_clone,
},
_marker: PhantomData,
},
})
}
}
pub fn run<F>(self, event_handler: F) -> !
where
F: FnMut(Event<T>, &RootEventLoopWindowTarget<T>),
F: 'static + FnMut(Event<'_, T>, &RootEventLoopWindowTarget<T>, &mut ControlFlow),
{
unsafe {
let application = UIApplication::shared(self.mtm);
let application = UIApplication::shared(MainThreadMarker::new().unwrap());
assert!(
application.is_none(),
"\
`EventLoop` cannot be `run` after a call to `UIApplicationMain` on iOS\n\
Note: `EventLoop::run` calls `UIApplicationMain` on iOS",
);
let event_handler = std::mem::transmute::<
Box<dyn FnMut(Event<T>, &RootEventLoopWindowTarget<T>)>,
Box<EventHandlerCallback<T>>,
>(Box::new(event_handler));
let handler = EventLoopHandler {
app_state::will_launch(Box::new(EventLoopHandler {
f: event_handler,
receiver: self.receiver,
event_loop: self.window_target,
};
app_state::will_launch(self.mtm, Box::new(handler));
}));
// Ensure application delegate is initialized
view::WinitApplicationDelegate::class();
@@ -172,7 +135,7 @@ impl<T: 'static> EventLoop<T> {
}
pub fn create_proxy(&self) -> EventLoopProxy<T> {
EventLoopProxy::new(self.sender.clone())
EventLoopProxy::new(self.window_target.p.sender_to_clone.clone())
}
pub fn window_target(&self) -> &RootEventLoopWindowTarget<T> {
@@ -183,7 +146,9 @@ impl<T: 'static> EventLoop<T> {
// EventLoopExtIOS
impl<T: 'static> EventLoop<T> {
pub fn idiom(&self) -> Idiom {
UIDevice::current(self.mtm).userInterfaceIdiom().into()
UIDevice::current(MainThreadMarker::new().unwrap())
.userInterfaceIdiom()
.into()
}
}
@@ -261,20 +226,21 @@ fn setup_control_flow_observers() {
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!(),
unsafe {
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopAfterWaiting => app_state::handle_wakeup_transition(),
_ => 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
// priority to be 0, in order to send MainEventsCleared 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`.
// conservative, the main symptom would be non-redraw events coming in after `MainEventsCleared`.
//
// 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.
@@ -285,12 +251,13 @@ fn setup_control_flow_observers() {
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 => unimplemented!(), // not expected to ever happen
_ => unreachable!(),
unsafe {
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopBeforeWaiting => app_state::handle_main_events_cleared(),
kCFRunLoopExit => unimplemented!(), // not expected to ever happen
_ => unreachable!(),
}
}
}
@@ -300,12 +267,13 @@ fn setup_control_flow_observers() {
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 => unimplemented!(), // not expected to ever happen
_ => unreachable!(),
unsafe {
#[allow(non_upper_case_globals)]
match activity {
kCFRunLoopBeforeWaiting => app_state::handle_events_cleared(),
kCFRunLoopExit => unimplemented!(), // not expected to ever happen
_ => unreachable!(),
}
}
}
@@ -346,20 +314,17 @@ fn setup_control_flow_observers() {
#[derive(Debug)]
pub enum Never {}
type EventHandlerCallback<T> = dyn FnMut(Event<T>, &RootEventLoopWindowTarget<T>) + 'static;
pub trait EventHandler: Debug {
fn handle_nonuser_event(&mut self, event: Event<Never>);
fn handle_user_events(&mut self);
fn handle_nonuser_event(&mut self, event: Event<'_, Never>, control_flow: &mut ControlFlow);
fn handle_user_events(&mut self, control_flow: &mut ControlFlow);
}
struct EventLoopHandler<T: 'static> {
f: Box<EventHandlerCallback<T>>,
receiver: Receiver<T>,
struct EventLoopHandler<F, T: 'static> {
f: F,
event_loop: RootEventLoopWindowTarget<T>,
}
impl<T: 'static> Debug for EventLoopHandler<T> {
impl<F, T: 'static> Debug for EventLoopHandler<F, T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("EventLoopHandler")
.field("event_loop", &self.event_loop)
@@ -367,14 +332,22 @@ impl<T: 'static> Debug for EventLoopHandler<T> {
}
}
impl<T: 'static> EventHandler for EventLoopHandler<T> {
fn handle_nonuser_event(&mut self, event: Event<Never>) {
(self.f)(event.map_nonuser_event().unwrap(), &self.event_loop);
impl<F, T> EventHandler for EventLoopHandler<F, T>
where
F: 'static + FnMut(Event<'_, T>, &RootEventLoopWindowTarget<T>, &mut ControlFlow),
T: 'static,
{
fn handle_nonuser_event(&mut self, event: Event<'_, Never>, control_flow: &mut ControlFlow) {
(self.f)(
event.map_nonuser_event().unwrap(),
&self.event_loop,
control_flow,
);
}
fn handle_user_events(&mut self) {
for event in self.receiver.try_iter() {
(self.f)(Event::UserEvent(event), &self.event_loop);
fn handle_user_events(&mut self, control_flow: &mut ControlFlow) {
for event in self.event_loop.p.receiver.try_iter() {
(self.f)(Event::UserEvent(event), &self.event_loop, control_flow);
}
}
}

25
src/platform_impl/ios/ffi.rs
View File

@@ -2,11 +2,30 @@
use std::convert::TryInto;
use icrate::Foundation::{NSInteger, NSUInteger};
use objc2::encode::{Encode, Encoding};
use objc2::foundation::{NSInteger, NSUInteger};
use crate::platform::ios::{Idiom, ScreenEdge};
#[repr(C)]
#[derive(Clone, Debug)]
pub struct NSOperatingSystemVersion {
pub major: NSInteger,
pub minor: NSInteger,
pub patch: NSInteger,
}
unsafe impl Encode for NSOperatingSystemVersion {
const ENCODING: Encoding = Encoding::Struct(
"NSOperatingSystemVersion",
&[
NSInteger::ENCODING,
NSInteger::ENCODING,
NSInteger::ENCODING,
],
);
}
#[repr(transparent)]
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct UIUserInterfaceIdiom(NSInteger);
@@ -51,10 +70,6 @@ impl From<UIUserInterfaceIdiom> for Idiom {
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct UIRectEdge(NSUInteger);
impl UIRectEdge {
pub(crate) const NONE: Self = Self(0);
}
unsafe impl Encode for UIRectEdge {
const ENCODING: Encoding = NSUInteger::ENCODING;
}

22
src/platform_impl/ios/mod.rs
View File

@@ -48,16 +48,27 @@
//!
//! - applicationDidBecomeActive is Resumed
//! - applicationWillResignActive is Suspended
//! - applicationWillTerminate is LoopExiting
//! - applicationWillTerminate is LoopDestroyed
//!
//! Keep in mind that after LoopExiting event is received every attempt to draw with
//! Keep in mind that after LoopDestroyed event is received every attempt to draw with
//! opengl will result in segfault.
//!
//! Also note that app may not receive the LoopExiting event if suspended; it might be SIGKILL'ed.
//! Also note that app may not receive the LoopDestroyed event if suspended; it might be SIGKILL'ed.
#![cfg(ios_platform)]
#![allow(clippy::let_unit_value)]
// TODO: (mtak-) UIKit requires main thread for virtually all function/method calls. This could be
// worked around in the future by using GCD (grand central dispatch) and/or caching of values like
// window size/position.
macro_rules! assert_main_thread {
($($t:tt)*) => {
if !::objc2::foundation::is_main_thread() {
panic!($($t)*);
}
};
}
mod app_state;
mod event_loop;
mod ffi;
@@ -78,7 +89,7 @@ pub(crate) use self::{
use self::uikit::UIScreen;
pub(crate) use crate::icon::NoIcon as PlatformIcon;
pub(crate) use crate::platform_impl::Fullscreen;
pub(self) use crate::platform_impl::Fullscreen;
#[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct DeviceId {
@@ -96,9 +107,6 @@ impl DeviceId {
unsafe impl Send for DeviceId {}
unsafe impl Sync for DeviceId {}
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct KeyEventExtra {}
#[derive(Debug)]
pub enum OsError {}

224
src/platform_impl/ios/monitor.rs
View File

@@ -2,12 +2,12 @@
use std::{
collections::{BTreeSet, VecDeque},
fmt, hash, ptr,
fmt,
ops::{Deref, DerefMut},
};
use icrate::Foundation::{MainThreadBound, MainThreadMarker, NSInteger};
use objc2::mutability::IsRetainable;
use objc2::rc::Id;
use objc2::foundation::{MainThreadMarker, NSInteger};
use objc2::rc::{Id, Shared};
use super::uikit::{UIScreen, UIScreenMode};
use crate::{
@@ -16,59 +16,32 @@ use crate::{
platform_impl::platform::app_state,
};
// Workaround for `MainThreadBound` implementing almost no traits
#[derive(Debug)]
struct MainThreadBoundDelegateImpls<T>(MainThreadBound<Id<T>>);
// TODO(madsmtm): Remove or refactor this
#[derive(Debug, PartialEq, Eq, Hash, Clone)]
pub(crate) struct ScreenModeSendSync(pub(crate) Id<UIScreenMode, Shared>);
impl<T: IsRetainable> Clone for MainThreadBoundDelegateImpls<T> {
fn clone(&self) -> Self {
Self(
self.0
.get_on_main(|inner, mtm| MainThreadBound::new(Id::clone(inner), mtm)),
)
}
}
impl<T: IsRetainable> 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);
}
}
impl<T: IsRetainable> 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))
}
}
impl<T: IsRetainable> Eq for MainThreadBoundDelegateImpls<T> {}
unsafe impl Send for ScreenModeSendSync {}
unsafe impl Sync for ScreenModeSendSync {}
#[derive(Debug, PartialEq, Eq, Hash, Clone)]
pub struct VideoMode {
pub(crate) size: (u32, u32),
pub(crate) bit_depth: u16,
pub(crate) refresh_rate_millihertz: u32,
screen_mode: MainThreadBoundDelegateImpls<UIScreenMode>,
pub(crate) screen_mode: ScreenModeSendSync,
pub(crate) monitor: MonitorHandle,
}
impl VideoMode {
fn new(
uiscreen: Id<UIScreen>,
screen_mode: Id<UIScreenMode>,
mtm: MainThreadMarker,
) -> VideoMode {
fn new(uiscreen: Id<UIScreen, Shared>, screen_mode: Id<UIScreenMode, Shared>) -> VideoMode {
assert_main_thread!("`VideoMode` can only be created on the main thread on iOS");
let refresh_rate_millihertz = refresh_rate_millihertz(&uiscreen);
let size = screen_mode.size();
VideoMode {
size: (size.width as u32, size.height as u32),
bit_depth: 32,
refresh_rate_millihertz,
screen_mode: MainThreadBoundDelegateImpls(MainThreadBound::new(screen_mode, mtm)),
screen_mode: ScreenModeSendSync(screen_mode),
monitor: MonitorHandle::new(uiscreen),
}
}
@@ -88,40 +61,18 @@ impl VideoMode {
pub fn monitor(&self) -> MonitorHandle {
self.monitor.clone()
}
pub(super) fn screen_mode(&self, mtm: MainThreadMarker) -> &Id<UIScreenMode> {
self.screen_mode.0.get(mtm)
}
}
#[derive(Clone, PartialEq, Eq, Hash)]
pub struct Inner {
uiscreen: Id<UIScreen, Shared>,
}
#[derive(Clone, PartialEq, Eq, Hash)]
pub struct MonitorHandle {
ui_screen: MainThreadBound<Id<UIScreen>>,
inner: Inner,
}
impl Clone for MonitorHandle {
fn clone(&self) -> Self {
Self {
ui_screen: self
.ui_screen
.get_on_main(|inner, mtm| MainThreadBound::new(inner.clone(), mtm)),
}
}
}
impl hash::Hash for MonitorHandle {
fn hash<H: hash::Hasher>(&self, state: &mut H) {
(self as *const Self).hash(state);
}
}
impl PartialEq for MonitorHandle {
fn eq(&self, other: &Self) -> bool {
ptr::eq(self, other)
}
}
impl Eq for MonitorHandle {}
impl PartialOrd for MonitorHandle {
fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> {
Some(self.cmp(other))
@@ -135,6 +86,31 @@ impl Ord for MonitorHandle {
}
}
impl Deref for MonitorHandle {
type Target = Inner;
fn deref(&self) -> &Inner {
assert_main_thread!("`MonitorHandle` methods can only be run on the main thread on iOS");
&self.inner
}
}
impl DerefMut for MonitorHandle {
fn deref_mut(&mut self) -> &mut Inner {
assert_main_thread!("`MonitorHandle` methods can only be run on the main thread on iOS");
&mut self.inner
}
}
unsafe impl Send for MonitorHandle {}
unsafe impl Sync for MonitorHandle {}
impl Drop for MonitorHandle {
fn drop(&mut self) {
assert_main_thread!("`MonitorHandle` can only be dropped on the main thread on iOS");
}
}
impl fmt::Debug for MonitorHandle {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
// TODO: Do this using the proper fmt API
@@ -159,80 +135,64 @@ impl fmt::Debug for MonitorHandle {
}
impl MonitorHandle {
pub(crate) fn new(ui_screen: Id<UIScreen>) -> Self {
// Holding `Id<UIScreen>` implies we're on the main thread.
let mtm = MainThreadMarker::new().unwrap();
pub(crate) fn new(uiscreen: Id<UIScreen, Shared>) -> Self {
assert_main_thread!("`MonitorHandle` can only be created on the main thread on iOS");
Self {
ui_screen: MainThreadBound::new(ui_screen, mtm),
inner: Inner { uiscreen },
}
}
}
impl Inner {
pub fn name(&self) -> Option<String> {
let main = UIScreen::main(MainThreadMarker::new().unwrap());
if self.uiscreen == main {
Some("Primary".to_string())
} else if self.uiscreen == main.mirroredScreen() {
Some("Mirrored".to_string())
} else {
UIScreen::screens(MainThreadMarker::new().unwrap())
.iter()
.position(|rhs| rhs == &*self.uiscreen)
.map(|idx| idx.to_string())
}
}
pub fn name(&self) -> Option<String> {
self.ui_screen.get_on_main(|ui_screen, mtm| {
let main = UIScreen::main(mtm);
if *ui_screen == main {
Some("Primary".to_string())
} else if *ui_screen == main.mirroredScreen() {
Some("Mirrored".to_string())
} else {
UIScreen::screens(mtm)
.iter()
.position(|rhs| rhs == &**ui_screen)
.map(|idx| idx.to_string())
}
})
}
pub fn size(&self) -> PhysicalSize<u32> {
let bounds = self
.ui_screen
.get_on_main(|ui_screen, _| ui_screen.nativeBounds());
let bounds = self.uiscreen.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());
let bounds = self.uiscreen.nativeBounds();
(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
self.uiscreen.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)),
)
Some(refresh_rate_millihertz(&self.uiscreen))
}
pub fn video_modes(&self) -> impl Iterator<Item = VideoMode> {
self.ui_screen.get_on_main(|ui_screen, mtm| {
// Use Ord impl of RootVideoMode
// Use Ord impl of RootVideoMode
let modes: BTreeSet<_> = self
.uiscreen
.availableModes()
.into_iter()
.map(|mode| {
let mode: *const UIScreenMode = mode;
let mode = unsafe { Id::retain(mode as *mut UIScreenMode).unwrap() };
let modes: BTreeSet<_> = ui_screen
.availableModes()
.into_iter()
.map(|mode| RootVideoMode {
video_mode: VideoMode::new(ui_screen.clone(), mode, mtm),
})
.collect();
RootVideoMode {
video_mode: VideoMode::new(self.uiscreen.clone(), mode),
}
})
.collect();
modes.into_iter().map(|mode| mode.video_mode)
})
}
pub(crate) fn ui_screen(&self, mtm: MainThreadMarker) -> &Id<UIScreen> {
self.ui_screen.get(mtm)
}
pub fn preferred_video_mode(&self) -> VideoMode {
self.ui_screen.get_on_main(|ui_screen, mtm| {
VideoMode::new(ui_screen.clone(), ui_screen.preferredMode().unwrap(), mtm)
})
modes.into_iter().map(|mode| mode.video_mode)
}
}
@@ -260,9 +220,27 @@ fn refresh_rate_millihertz(uiscreen: &UIScreen) -> u32 {
refresh_rate_millihertz as u32 * 1000
}
// MonitorHandleExtIOS
impl Inner {
pub(crate) fn ui_screen(&self) -> &Id<UIScreen, Shared> {
&self.uiscreen
}
pub fn preferred_video_mode(&self) -> VideoMode {
VideoMode::new(
self.uiscreen.clone(),
self.uiscreen.preferredMode().unwrap(),
)
}
}
pub fn uiscreens(mtm: MainThreadMarker) -> VecDeque<MonitorHandle> {
UIScreen::screens(mtm)
.into_iter()
.map(MonitorHandle::new)
.map(|screen| {
let screen: *const UIScreen = screen;
let screen = unsafe { Id::retain(screen as *mut UIScreen).unwrap() };
MonitorHandle::new(screen)
})
.collect()
}

13
src/platform_impl/ios/uikit/application.rs
View File

@@ -1,6 +1,6 @@
use icrate::Foundation::{CGRect, MainThreadMarker, NSArray, NSObject};
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2::foundation::{CGRect, MainThreadMarker, NSArray, NSObject};
use objc2::rc::{Id, Shared};
use objc2::{extern_class, extern_methods, msg_send_id, ClassType};
use super::{UIResponder, UIWindow};
@@ -11,21 +11,20 @@ extern_class!(
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>> {
pub fn shared(_mtm: MainThreadMarker) -> Option<Id<Self, Shared>> {
unsafe { msg_send_id![Self::class(), sharedApplication] }
}
pub fn windows(&self) -> Id<NSArray<UIWindow>> {
pub fn windows(&self) -> Id<NSArray<UIWindow, Shared>, Shared> {
unsafe { msg_send_id![self, windows] }
}
#[method(statusBarFrame)]
#[sel(statusBarFrame)]
pub fn statusBarFrame(&self) -> CGRect;
}
);

5
src/platform_impl/ios/uikit/coordinate_space.rs
View File

@@ -1,5 +1,5 @@
use icrate::Foundation::NSObject;
use objc2::{extern_class, mutability, ClassType};
use objc2::foundation::NSObject;
use objc2::{extern_class, ClassType};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
@@ -7,6 +7,5 @@ extern_class!(
unsafe impl ClassType for UICoordinateSpace {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);

11
src/platform_impl/ios/uikit/device.rs
View File

@@ -1,6 +1,6 @@
use icrate::Foundation::{MainThreadMarker, NSObject};
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2::foundation::{MainThreadMarker, NSObject};
use objc2::rc::{Id, Shared};
use objc2::{extern_class, extern_methods, msg_send_id, ClassType};
use super::super::ffi::UIUserInterfaceIdiom;
@@ -10,17 +10,16 @@ extern_class!(
unsafe impl ClassType for UIDevice {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIDevice {
pub fn current(_mtm: MainThreadMarker) -> Id<Self> {
pub fn current(_mtm: MainThreadMarker) -> Id<Self, Shared> {
unsafe { msg_send_id![Self::class(), currentDevice] }
}
#[method(userInterfaceIdiom)]
#[sel(userInterfaceIdiom)]
pub fn userInterfaceIdiom(&self) -> UIUserInterfaceIdiom;
}
);

5
src/platform_impl/ios/uikit/event.rs
View File

@@ -1,5 +1,5 @@
use icrate::Foundation::NSObject;
use objc2::{extern_class, mutability, ClassType};
use objc2::foundation::NSObject;
use objc2::{extern_class, ClassType};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
@@ -7,6 +7,5 @@ extern_class!(
unsafe impl ClassType for UIEvent {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);

3
src/platform_impl/ios/uikit/mod.rs
View File

@@ -1,9 +1,10 @@
#![deny(unsafe_op_in_unsafe_fn)]
#![allow(non_snake_case)]
#![allow(non_upper_case_globals)]
use std::os::raw::{c_char, c_int};
use icrate::Foundation::NSString;
use objc2::foundation::NSString;
mod application;
mod coordinate_space;

5
src/platform_impl/ios/uikit/responder.rs
View File

@@ -1,5 +1,5 @@
use icrate::Foundation::NSObject;
use objc2::{extern_class, mutability, ClassType};
use objc2::foundation::NSObject;
use objc2::{extern_class, ClassType};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
@@ -7,6 +7,5 @@ extern_class!(
unsafe impl ClassType for UIResponder {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);

33
src/platform_impl/ios/uikit/screen.rs
View File

@@ -1,7 +1,7 @@
use icrate::Foundation::{CGFloat, CGRect, MainThreadMarker, NSArray, NSInteger, NSObject};
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 objc2::rc::{Id, Shared};
use objc2::{extern_class, extern_methods, msg_send_id, ClassType};
use super::{UICoordinateSpace, UIScreenMode};
@@ -11,54 +11,53 @@ extern_class!(
unsafe impl ClassType for UIScreen {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIScreen {
pub fn main(_mtm: MainThreadMarker) -> Id<Self> {
pub fn main(_mtm: MainThreadMarker) -> Id<Self, Shared> {
unsafe { msg_send_id![Self::class(), mainScreen] }
}
pub fn screens(_mtm: MainThreadMarker) -> Id<NSArray<Self>> {
pub fn screens(_mtm: MainThreadMarker) -> Id<NSArray<Self, Shared>, Shared> {
unsafe { msg_send_id![Self::class(), screens] }
}
#[method(bounds)]
#[sel(bounds)]
pub fn bounds(&self) -> CGRect;
#[method(scale)]
#[sel(scale)]
pub fn scale(&self) -> CGFloat;
#[method(nativeBounds)]
#[sel(nativeBounds)]
pub fn nativeBounds(&self) -> CGRect;
#[method(nativeScale)]
#[sel(nativeScale)]
pub fn nativeScale(&self) -> CGFloat;
#[method(maximumFramesPerSecond)]
#[sel(maximumFramesPerSecond)]
pub fn maximumFramesPerSecond(&self) -> NSInteger;
pub fn mirroredScreen(&self) -> Id<Self> {
pub fn mirroredScreen(&self) -> Id<Self, Shared> {
unsafe { msg_send_id![Self::class(), mirroredScreen] }
}
pub fn preferredMode(&self) -> Option<Id<UIScreenMode>> {
pub fn preferredMode(&self) -> Option<Id<UIScreenMode, Shared>> {
unsafe { msg_send_id![self, preferredMode] }
}
#[method(setCurrentMode:)]
#[sel(setCurrentMode:)]
pub fn setCurrentMode(&self, mode: Option<&UIScreenMode>);
pub fn availableModes(&self) -> Id<NSArray<UIScreenMode>> {
pub fn availableModes(&self) -> Id<NSArray<UIScreenMode, Shared>, Shared> {
unsafe { msg_send_id![self, availableModes] }
}
#[method(setOverscanCompensation:)]
#[sel(setOverscanCompensation:)]
pub fn setOverscanCompensation(&self, overscanCompensation: UIScreenOverscanCompensation);
pub fn coordinateSpace(&self) -> Id<UICoordinateSpace> {
pub fn coordinateSpace(&self) -> Id<UICoordinateSpace, Shared> {
unsafe { msg_send_id![self, coordinateSpace] }
}
}

7
src/platform_impl/ios/uikit/screen_mode.rs
View File

@@ -1,5 +1,5 @@
use icrate::Foundation::{CGSize, NSObject};
use objc2::{extern_class, extern_methods, mutability, ClassType};
use objc2::foundation::{CGSize, NSObject};
use objc2::{extern_class, extern_methods, ClassType};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
@@ -7,13 +7,12 @@ extern_class!(
unsafe impl ClassType for UIScreenMode {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIScreenMode {
#[method(size)]
#[sel(size)]
pub fn size(&self) -> CGSize;
}
);

17
src/platform_impl/ios/uikit/touch.rs
View File

@@ -1,6 +1,6 @@
use icrate::Foundation::{CGFloat, CGPoint, NSInteger, NSObject};
use objc2::encode::{Encode, Encoding};
use objc2::{extern_class, extern_methods, mutability, ClassType};
use objc2::foundation::{CGFloat, CGPoint, NSInteger, NSObject};
use objc2::{extern_class, extern_methods, ClassType};
use super::UIView;
@@ -10,28 +10,27 @@ extern_class!(
unsafe impl ClassType for UITouch {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UITouch {
#[method(locationInView:)]
#[sel(locationInView:)]
pub fn locationInView(&self, view: Option<&UIView>) -> CGPoint;
#[method(type)]
#[sel(type)]
pub fn type_(&self) -> UITouchType;
#[method(force)]
#[sel(force)]
pub fn force(&self) -> CGFloat;
#[method(maximumPossibleForce)]
#[sel(maximumPossibleForce)]
pub fn maximumPossibleForce(&self) -> CGFloat;
#[method(altitudeAngle)]
#[sel(altitudeAngle)]
pub fn altitudeAngle(&self) -> CGFloat;
#[method(phase)]
#[sel(phase)]
pub fn phase(&self) -> UITouchPhase;
}
);

7
src/platform_impl/ios/uikit/trait_collection.rs
View File

@@ -1,6 +1,6 @@
use icrate::Foundation::{NSInteger, NSObject};
use objc2::encode::{Encode, Encoding};
use objc2::{extern_class, extern_methods, mutability, ClassType};
use objc2::foundation::{NSInteger, NSObject};
use objc2::{extern_class, extern_methods, ClassType};
extern_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
@@ -8,13 +8,12 @@ extern_class!(
unsafe impl ClassType for UITraitCollection {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UITraitCollection {
#[method(forceTouchCapability)]
#[sel(forceTouchCapability)]
pub fn forceTouchCapability(&self) -> UIForceTouchCapability;
}
);

33
src/platform_impl/ios/uikit/view.rs
View File

@@ -1,7 +1,7 @@
use icrate::Foundation::{CGFloat, CGRect, NSObject};
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 objc2::rc::{Id, Shared};
use objc2::{extern_class, extern_methods, msg_send_id, ClassType};
use super::{UICoordinateSpace, UIResponder, UIViewController};
@@ -12,58 +12,57 @@ extern_class!(
unsafe impl ClassType for UIView {
#[inherits(NSObject)]
type Super = UIResponder;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIView {
#[method(bounds)]
#[sel(bounds)]
pub fn bounds(&self) -> CGRect;
#[method(setBounds:)]
#[sel(setBounds:)]
pub fn setBounds(&self, value: CGRect);
#[method(frame)]
#[sel(frame)]
pub fn frame(&self) -> CGRect;
#[method(setFrame:)]
#[sel(setFrame:)]
pub fn setFrame(&self, value: CGRect);
#[method(contentScaleFactor)]
#[sel(contentScaleFactor)]
pub fn contentScaleFactor(&self) -> CGFloat;
#[method(setContentScaleFactor:)]
#[sel(setContentScaleFactor:)]
pub fn setContentScaleFactor(&self, val: CGFloat);
#[method(setMultipleTouchEnabled:)]
#[sel(setMultipleTouchEnabled:)]
pub fn setMultipleTouchEnabled(&self, val: bool);
pub fn rootViewController(&self) -> Option<Id<UIViewController>> {
pub fn rootViewController(&self) -> Option<Id<UIViewController, Shared>> {
unsafe { msg_send_id![self, rootViewController] }
}
#[method(setRootViewController:)]
#[sel(setRootViewController:)]
pub fn setRootViewController(&self, rootViewController: Option<&UIViewController>);
#[method(convertRect:toCoordinateSpace:)]
#[sel(convertRect:toCoordinateSpace:)]
pub fn convertRect_toCoordinateSpace(
&self,
rect: CGRect,
coordinateSpace: &UICoordinateSpace,
) -> CGRect;
#[method(convertRect:fromCoordinateSpace:)]
#[sel(convertRect:fromCoordinateSpace:)]
pub fn convertRect_fromCoordinateSpace(
&self,
rect: CGRect,
coordinateSpace: &UICoordinateSpace,
) -> CGRect;
#[method(safeAreaInsets)]
#[sel(safeAreaInsets)]
pub fn safeAreaInsets(&self) -> UIEdgeInsets;
#[method(setNeedsDisplay)]
#[sel(setNeedsDisplay)]
pub fn setNeedsDisplay(&self);
}
);

20
src/platform_impl/ios/uikit/view_controller.rs
View File

@@ -1,7 +1,7 @@
use icrate::Foundation::{NSObject, NSUInteger};
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 objc2::rc::{Id, Shared};
use objc2::{extern_class, extern_methods, msg_send_id, ClassType};
use super::{UIResponder, UIView};
@@ -12,35 +12,33 @@ extern_class!(
unsafe impl ClassType for UIViewController {
#[inherits(NSObject)]
type Super = UIResponder;
type Mutability = mutability::InteriorMutable;
}
);
extern_methods!(
unsafe impl UIViewController {
#[method(attemptRotationToDeviceOrientation)]
#[sel(attemptRotationToDeviceOrientation)]
pub fn attemptRotationToDeviceOrientation();
#[method(setNeedsStatusBarAppearanceUpdate)]
#[sel(setNeedsStatusBarAppearanceUpdate)]
pub fn setNeedsStatusBarAppearanceUpdate(&self);
#[method(setNeedsUpdateOfHomeIndicatorAutoHidden)]
#[sel(setNeedsUpdateOfHomeIndicatorAutoHidden)]
pub fn setNeedsUpdateOfHomeIndicatorAutoHidden(&self);
#[method(setNeedsUpdateOfScreenEdgesDeferringSystemGestures)]
#[sel(setNeedsUpdateOfScreenEdgesDeferringSystemGestures)]
pub fn setNeedsUpdateOfScreenEdgesDeferringSystemGestures(&self);
pub fn view(&self) -> Option<Id<UIView>> {
pub fn view(&self) -> Option<Id<UIView, Shared>> {
unsafe { msg_send_id![self, view] }
}
#[method(setView:)]
#[sel(setView:)]
pub fn setView(&self, view: Option<&UIView>);
}
);
bitflags! {
#[derive(Clone, Copy)]
pub struct UIInterfaceOrientationMask: NSUInteger {
const Portrait = 1 << 1;
const PortraitUpsideDown = 1 << 2;

17
src/platform_impl/ios/uikit/window.rs
View File

@@ -1,6 +1,6 @@
use icrate::Foundation::NSObject;
use objc2::rc::Id;
use objc2::{extern_class, extern_methods, msg_send_id, mutability, ClassType};
use objc2::foundation::NSObject;
use objc2::rc::{Id, Shared};
use objc2::{extern_class, extern_methods, msg_send_id, ClassType};
use super::{UIResponder, UIScreen, UIView};
@@ -11,26 +11,25 @@ extern_class!(
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> {
pub fn screen(&self) -> Id<UIScreen, Shared> {
unsafe { msg_send_id![self, screen] }
}
#[method(setScreen:)]
#[sel(setScreen:)]
pub fn setScreen(&self, screen: &UIScreen);
#[method(setHidden:)]
#[sel(setHidden:)]
pub fn setHidden(&self, flag: bool);
#[method(makeKeyAndVisible)]
#[sel(makeKeyAndVisible)]
pub fn makeKeyAndVisible(&self);
#[method(isKeyWindow)]
#[sel(isKeyWindow)]
pub fn isKeyWindow(&self) -> bool;
}
);

378
src/platform_impl/ios/view.rs
View File

@@ -1,14 +1,10 @@
#![allow(clippy::unnecessary_cast)]
use std::cell::Cell;
use std::ptr::NonNull;
use icrate::Foundation::{CGFloat, CGRect, MainThreadMarker, NSObject, NSObjectProtocol, NSSet};
use objc2::declare::{Ivar, IvarDrop};
use objc2::rc::Id;
use objc2::runtime::AnyClass;
use objc2::{declare_class, extern_methods, msg_send, msg_send_id, mutability, ClassType};
use objc2::foundation::{CGFloat, CGRect, MainThreadMarker, NSObject, NSSet};
use objc2::rc::{Id, Shared};
use objc2::runtime::Class;
use objc2::{declare_class, extern_methods, msg_send, msg_send_id, ClassType};
use super::app_state::{self, EventWrapper};
use super::uikit::{
UIApplication, UIDevice, UIEvent, UIForceTouchCapability, UIInterfaceOrientationMask,
UIResponder, UITouch, UITouchPhase, UITouchType, UITraitCollection, UIView, UIViewController,
@@ -20,6 +16,8 @@ use crate::{
event::{DeviceId as RootDeviceId, Event, Force, Touch, TouchPhase, WindowEvent},
platform::ios::ValidOrientations,
platform_impl::platform::{
app_state,
event_loop::{EventProxy, EventWrapper},
ffi::{UIRectEdge, UIUserInterfaceIdiom},
window::PlatformSpecificWindowBuilderAttributes,
DeviceId, Fullscreen,
@@ -28,33 +26,33 @@ use crate::{
};
declare_class!(
pub(crate) struct WinitView;
pub(crate) struct WinitView {}
unsafe impl ClassType for WinitView {
#[inherits(UIResponder, NSObject)]
type Super = UIView;
type Mutability = mutability::InteriorMutable;
const NAME: &'static str = "WinitUIView";
}
unsafe impl WinitView {
#[method(drawRect:)]
#[sel(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,
}),
);
unsafe {
app_state::handle_nonuser_events(
std::iter::once(EventWrapper::StaticEvent(Event::RedrawRequested(
RootWindowId(window.id()),
)))
.chain(std::iter::once(EventWrapper::StaticEvent(
Event::RedrawEventsCleared,
))),
);
}
let _: () = unsafe { msg_send![super(self), drawRect: rect] };
}
#[method(layoutSubviews)]
#[sel(layoutSubviews)]
fn layout_subviews(&self) {
let mtm = MainThreadMarker::new().unwrap();
let _: () = unsafe { msg_send![super(self), layoutSubviews] };
let window = self.window().unwrap();
@@ -77,18 +75,16 @@ declare_class!(
self.setFrame(window_bounds);
}
app_state::handle_nonuser_event(
mtm,
EventWrapper::StaticEvent(Event::WindowEvent {
unsafe {
app_state::handle_nonuser_event(EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(window.id()),
event: WindowEvent::Resized(size),
}),
);
}));
}
}
#[method(setContentScaleFactor:)]
#[sel(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] };
@@ -116,44 +112,43 @@ declare_class!(
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,
width: screen_frame.size.width as _,
height: screen_frame.size.height as _,
};
let window_id = RootWindowId(window.id());
app_state::handle_nonuser_events(
mtm,
std::iter::once(EventWrapper::ScaleFactorChanged(
app_state::ScaleFactorChanged {
unsafe {
app_state::handle_nonuser_events(
std::iter::once(EventWrapper::EventProxy(EventProxy::DpiChangedProxy {
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)),
},
))),
);
suggested_size: size,
}))
.chain(std::iter::once(EventWrapper::StaticEvent(
Event::WindowEvent {
window_id,
event: WindowEvent::Resized(size.to_physical(scale_factor)),
},
))),
);
}
}
#[method(touchesBegan:withEvent:)]
#[sel(touchesBegan:withEvent:)]
fn touches_began(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesMoved:withEvent:)]
#[sel(touchesMoved:withEvent:)]
fn touches_moved(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesEnded:withEvent:)]
#[sel(touchesEnded:withEvent:)]
fn touches_ended(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
#[method(touchesCancelled:withEvent:)]
#[sel(touchesCancelled:withEvent:)]
fn touches_cancelled(&self, touches: &NSSet<UITouch>, _event: Option<&UIEvent>) {
self.handle_touches(touches)
}
@@ -163,17 +158,17 @@ declare_class!(
extern_methods!(
#[allow(non_snake_case)]
unsafe impl WinitView {
fn window(&self) -> Option<Id<WinitUIWindow>> {
fn window(&self) -> Option<Id<WinitUIWindow, Shared>> {
unsafe { msg_send_id![self, window] }
}
unsafe fn traitCollection(&self) -> Id<UITraitCollection> {
unsafe fn traitCollection(&self) -> Id<UITraitCollection, Shared> {
msg_send_id![self, traitCollection]
}
// TODO: Allow the user to customize this
#[method(layerClass)]
pub(crate) fn layerClass() -> &'static AnyClass;
#[sel(layerClass)]
pub(crate) fn layerClass() -> &'static Class;
}
);
@@ -183,8 +178,9 @@ impl WinitView {
_window_attributes: &WindowAttributes,
platform_attributes: &PlatformSpecificWindowBuilderAttributes,
frame: CGRect,
) -> Id<Self> {
let this: Id<Self> = unsafe { msg_send_id![Self::alloc(), initWithFrame: frame] };
) -> Id<Self, Shared> {
let this: Id<Self, Shared> =
unsafe { msg_send_id![msg_send_id![Self::class(), alloc], initWithFrame: frame] };
this.setMultipleTouchEnabled(true);
@@ -207,9 +203,7 @@ impl WinitView {
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
{
if touch_capability == UIForceTouchCapability::Available {
let force = touch.force();
let max_possible_force = touch.maximumPossibleForce();
let altitude_angle: Option<f64> = if touch_type == UITouchType::Pencil {
@@ -260,113 +254,108 @@ impl WinitView {
}),
}));
}
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_events(mtm, touch_events);
unsafe {
app_state::handle_nonuser_events(touch_events);
}
}
}
pub struct ViewControllerState {
prefers_status_bar_hidden: Cell<bool>,
prefers_home_indicator_auto_hidden: Cell<bool>,
supported_orientations: Cell<UIInterfaceOrientationMask>,
preferred_screen_edges_deferring_system_gestures: Cell<UIRectEdge>,
}
declare_class!(
pub(crate) struct WinitViewController {
state: IvarDrop<Box<ViewControllerState>, "_state">,
_prefers_status_bar_hidden: bool,
_prefers_home_indicator_auto_hidden: bool,
_supported_orientations: UIInterfaceOrientationMask,
_preferred_screen_edges_deferring_system_gestures: UIRectEdge,
}
mod view_controller_ivars;
unsafe impl ClassType for WinitViewController {
#[inherits(UIResponder, NSObject)]
type Super = UIViewController;
type Mutability = mutability::InteriorMutable;
const NAME: &'static str = "WinitUIViewController";
}
unsafe impl WinitViewController {
#[method(init)]
unsafe fn init(this: *mut Self) -> Option<NonNull<Self>> {
let this: Option<&mut Self> = msg_send![super(this), init];
this.map(|this| {
// These are set in WinitViewController::new, it's just to set them
// to _something_.
Ivar::write(
&mut this.state,
Box::new(ViewControllerState {
prefers_status_bar_hidden: Cell::new(false),
prefers_home_indicator_auto_hidden: Cell::new(false),
supported_orientations: Cell::new(UIInterfaceOrientationMask::All),
preferred_screen_edges_deferring_system_gestures: Cell::new(
UIRectEdge::NONE,
),
}),
);
NonNull::from(this)
})
#[sel(shouldAutorotate)]
fn should_autorotate(&self) -> bool {
true
}
}
unsafe impl WinitViewController {
#[method(shouldAutorotate)]
fn should_autorotate(&self) -> bool {
true
}
#[method(prefersStatusBarHidden)]
#[sel(prefersStatusBarHidden)]
fn prefers_status_bar_hidden(&self) -> bool {
self.state.prefers_status_bar_hidden.get()
*self._prefers_status_bar_hidden
}
#[method(prefersHomeIndicatorAutoHidden)]
#[sel(setPrefersStatusBarHidden:)]
fn set_prefers_status_bar_hidden(&mut self, val: bool) {
*self._prefers_status_bar_hidden = val;
self.setNeedsStatusBarAppearanceUpdate();
}
#[sel(prefersHomeIndicatorAutoHidden)]
fn prefers_home_indicator_auto_hidden(&self) -> bool {
self.state.prefers_home_indicator_auto_hidden.get()
*self._prefers_home_indicator_auto_hidden
}
#[method(supportedInterfaceOrientations)]
#[sel(setPrefersHomeIndicatorAutoHidden:)]
fn set_prefers_home_indicator_auto_hidden(&mut self, val: bool) {
*self._prefers_home_indicator_auto_hidden = val;
let os_capabilities = app_state::os_capabilities();
if os_capabilities.home_indicator_hidden {
self.setNeedsUpdateOfHomeIndicatorAutoHidden();
} else {
os_capabilities.home_indicator_hidden_err_msg("ignoring")
}
}
#[sel(supportedInterfaceOrientations)]
fn supported_orientations(&self) -> UIInterfaceOrientationMask {
self.state.supported_orientations.get()
*self._supported_orientations
}
#[method(preferredScreenEdgesDeferringSystemGestures)]
#[sel(setSupportedInterfaceOrientations:)]
fn set_supported_orientations(&mut self, val: UIInterfaceOrientationMask) {
*self._supported_orientations = val;
UIViewController::attemptRotationToDeviceOrientation();
}
#[sel(preferredScreenEdgesDeferringSystemGestures)]
fn preferred_screen_edges_deferring_system_gestures(&self) -> UIRectEdge {
self.state
.preferred_screen_edges_deferring_system_gestures
.get()
*self._preferred_screen_edges_deferring_system_gestures
}
#[sel(setPreferredScreenEdgesDeferringSystemGestures:)]
fn set_preferred_screen_edges_deferring_system_gestures(&mut self, val: UIRectEdge) {
*self._preferred_screen_edges_deferring_system_gestures = val;
let os_capabilities = app_state::os_capabilities();
if os_capabilities.defer_system_gestures {
self.setNeedsUpdateOfScreenEdgesDeferringSystemGestures();
} else {
os_capabilities.defer_system_gestures_err_msg("ignoring")
}
}
}
);
extern_methods!(
#[allow(non_snake_case)]
unsafe impl WinitViewController {
#[sel(setPrefersStatusBarHidden:)]
pub(crate) fn setPrefersStatusBarHidden(&self, flag: bool);
#[sel(setSupportedInterfaceOrientations:)]
pub(crate) fn setSupportedInterfaceOrientations(&self, val: UIInterfaceOrientationMask);
#[sel(setPrefersHomeIndicatorAutoHidden:)]
pub(crate) fn setPrefersHomeIndicatorAutoHidden(&self, val: bool);
#[sel(setPreferredScreenEdgesDeferringSystemGestures:)]
pub(crate) fn setPreferredScreenEdgesDeferringSystemGestures(&self, val: UIRectEdge);
}
);
impl WinitViewController {
pub(crate) fn set_prefers_status_bar_hidden(&self, val: bool) {
self.state.prefers_status_bar_hidden.set(val);
self.setNeedsStatusBarAppearanceUpdate();
}
pub(crate) fn set_prefers_home_indicator_auto_hidden(&self, val: bool) {
self.state.prefers_home_indicator_auto_hidden.set(val);
let os_capabilities = app_state::os_capabilities();
if os_capabilities.home_indicator_hidden {
self.setNeedsUpdateOfHomeIndicatorAutoHidden();
} else {
os_capabilities.home_indicator_hidden_err_msg("ignoring")
}
}
pub(crate) fn set_preferred_screen_edges_deferring_system_gestures(&self, val: UIRectEdge) {
self.state
.preferred_screen_edges_deferring_system_gestures
.set(val);
let os_capabilities = app_state::os_capabilities();
if os_capabilities.defer_system_gestures {
self.setNeedsUpdateOfScreenEdgesDeferringSystemGestures();
} else {
os_capabilities.defer_system_gestures_err_msg("ignoring")
}
}
pub(crate) fn set_supported_interface_orientations(
&self,
mtm: MainThreadMarker,
@@ -389,8 +378,7 @@ impl WinitViewController {
| UIInterfaceOrientationMask::PortraitUpsideDown
}
};
self.state.supported_orientations.set(mask);
UIViewController::attemptRotationToDeviceOrientation();
self.setSupportedInterfaceOrientations(mask);
}
pub(crate) fn new(
@@ -398,18 +386,17 @@ impl WinitViewController {
_window_attributes: &WindowAttributes,
platform_attributes: &PlatformSpecificWindowBuilderAttributes,
view: &UIView,
) -> Id<Self> {
let this: Id<Self> = unsafe { msg_send_id![Self::alloc(), init] };
) -> Id<Self, Shared> {
let this: Id<Self, Shared> =
unsafe { msg_send_id![msg_send_id![Self::class(), alloc], init] };
this.set_prefers_status_bar_hidden(platform_attributes.prefers_status_bar_hidden);
this.setPrefersStatusBarHidden(platform_attributes.prefers_status_bar_hidden);
this.set_supported_interface_orientations(mtm, platform_attributes.valid_orientations);
this.set_prefers_home_indicator_auto_hidden(
platform_attributes.prefers_home_indicator_hidden,
);
this.setPrefersHomeIndicatorAutoHidden(platform_attributes.prefers_home_indicator_hidden);
this.set_preferred_screen_edges_deferring_system_gestures(
this.setPreferredScreenEdgesDeferringSystemGestures(
platform_attributes
.preferred_screen_edges_deferring_system_gestures
.into(),
@@ -423,39 +410,33 @@ impl WinitViewController {
declare_class!(
#[derive(Debug, PartialEq, Eq, Hash)]
pub(crate) struct WinitUIWindow;
pub(crate) struct WinitUIWindow {}
unsafe impl ClassType for WinitUIWindow {
#[inherits(UIResponder, NSObject)]
type Super = UIWindow;
type Mutability = mutability::InteriorMutable;
const NAME: &'static str = "WinitUIWindow";
}
unsafe impl WinitUIWindow {
#[method(becomeKeyWindow)]
#[sel(becomeKeyWindow)]
fn become_key_window(&self) {
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(
mtm,
EventWrapper::StaticEvent(Event::WindowEvent {
unsafe {
app_state::handle_nonuser_event(EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(self.id()),
event: WindowEvent::Focused(true),
}),
);
}));
}
let _: () = unsafe { msg_send![super(self), becomeKeyWindow] };
}
#[method(resignKeyWindow)]
#[sel(resignKeyWindow)]
fn resign_key_window(&self) {
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(
mtm,
EventWrapper::StaticEvent(Event::WindowEvent {
unsafe {
app_state::handle_nonuser_event(EventWrapper::StaticEvent(Event::WindowEvent {
window_id: RootWindowId(self.id()),
event: WindowEvent::Focused(false),
}),
);
}));
}
let _: () = unsafe { msg_send![super(self), resignKeyWindow] };
}
}
@@ -463,25 +444,26 @@ declare_class!(
impl WinitUIWindow {
pub(crate) fn new(
mtm: MainThreadMarker,
_mtm: MainThreadMarker,
window_attributes: &WindowAttributes,
_platform_attributes: &PlatformSpecificWindowBuilderAttributes,
frame: CGRect,
view_controller: &UIViewController,
) -> Id<Self> {
let this: Id<Self> = unsafe { msg_send_id![Self::alloc(), initWithFrame: frame] };
) -> Id<Self, Shared> {
let this: Id<Self, Shared> =
unsafe { msg_send_id![msg_send_id![Self::class(), alloc], initWithFrame: frame] };
this.setRootViewController(Some(view_controller));
match window_attributes.fullscreen.clone().map(Into::into) {
Some(Fullscreen::Exclusive(ref video_mode)) => {
let monitor = video_mode.monitor();
let screen = monitor.ui_screen(mtm);
screen.setCurrentMode(Some(video_mode.screen_mode(mtm)));
let screen = monitor.ui_screen();
screen.setCurrentMode(Some(&video_mode.screen_mode.0));
this.setScreen(screen);
}
Some(Fullscreen::Borderless(Some(ref monitor))) => {
let screen = monitor.ui_screen(mtm);
let screen = monitor.ui_screen();
this.setScreen(screen);
}
_ => (),
@@ -496,45 +478,38 @@ impl WinitUIWindow {
}
declare_class!(
pub struct WinitApplicationDelegate;
pub struct WinitApplicationDelegate {}
unsafe impl ClassType for WinitApplicationDelegate {
type Super = NSObject;
type Mutability = mutability::InteriorMutable;
const NAME: &'static str = "WinitApplicationDelegate";
}
// UIApplicationDelegate protocol
unsafe impl WinitApplicationDelegate {
#[method(application:didFinishLaunchingWithOptions:)]
#[sel(application:didFinishLaunchingWithOptions:)]
fn did_finish_launching(&self, _application: &UIApplication, _: *mut NSObject) -> bool {
app_state::did_finish_launching(MainThreadMarker::new().unwrap());
unsafe {
app_state::did_finish_launching();
}
true
}
#[method(applicationDidBecomeActive:)]
#[sel(applicationDidBecomeActive:)]
fn did_become_active(&self, _application: &UIApplication) {
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, EventWrapper::StaticEvent(Event::Resumed))
unsafe { app_state::handle_nonuser_event(EventWrapper::StaticEvent(Event::Resumed)) }
}
#[method(applicationWillResignActive:)]
#[sel(applicationWillResignActive:)]
fn will_resign_active(&self, _application: &UIApplication) {
let mtm = MainThreadMarker::new().unwrap();
app_state::handle_nonuser_event(mtm, EventWrapper::StaticEvent(Event::Suspended))
unsafe { app_state::handle_nonuser_event(EventWrapper::StaticEvent(Event::Suspended)) }
}
#[method(applicationWillEnterForeground:)]
fn will_enter_foreground(&self, application: &UIApplication) {
self.send_occluded_event_for_all_windows(application, false);
}
#[sel(applicationWillEnterForeground:)]
fn will_enter_foreground(&self, _application: &UIApplication) {}
#[sel(applicationDidEnterBackground:)]
fn did_enter_background(&self, _application: &UIApplication) {}
#[method(applicationDidEnterBackground:)]
fn did_enter_background(&self, application: &UIApplication) {
self.send_occluded_event_for_all_windows(application, true);
}
#[method(applicationWillTerminate:)]
#[sel(applicationWillTerminate:)]
fn will_terminate(&self, application: &UIApplication) {
let mut events = Vec::new();
for window in application.windows().iter() {
@@ -551,37 +526,10 @@ declare_class!(
}));
}
}
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))
unsafe {
app_state::handle_nonuser_events(events);
app_state::terminated();
}
}
}
);
impl WinitApplicationDelegate {
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);
}
}

371
src/platform_impl/ios/window.rs
View File

@@ -1,13 +1,17 @@
#![allow(clippy::unnecessary_cast)]
use std::collections::VecDeque;
use std::{
collections::VecDeque,
ffi::c_void,
ops::{Deref, DerefMut},
};
use icrate::Foundation::{CGFloat, CGPoint, CGRect, CGSize, MainThreadBound, MainThreadMarker};
use objc2::rc::Id;
use objc2::runtime::AnyObject;
use objc2::foundation::{CGFloat, CGPoint, CGRect, CGSize, MainThreadMarker};
use objc2::rc::{Id, Shared};
use objc2::runtime::Object;
use objc2::{class, msg_send};
use raw_window_handle::{RawDisplayHandle, RawWindowHandle, UiKitDisplayHandle, UiKitWindowHandle};
use super::app_state::EventWrapper;
use super::uikit::{UIApplication, UIScreen, UIScreenOverscanCompensation};
use super::view::{WinitUIWindow, WinitView, WinitViewController};
use crate::{
@@ -17,7 +21,10 @@ use crate::{
icon::Icon,
platform::ios::{ScreenEdge, ValidOrientations},
platform_impl::platform::{
app_state, monitor, EventLoopWindowTarget, Fullscreen, MonitorHandle,
app_state,
event_loop::{EventProxy, EventWrapper},
ffi::UIRectEdge,
monitor, EventLoopWindowTarget, Fullscreen, MonitorHandle,
},
window::{
CursorGrabMode, CursorIcon, ImePurpose, ResizeDirection, Theme, UserAttentionType,
@@ -26,9 +33,9 @@ use crate::{
};
pub struct Inner {
window: Id<WinitUIWindow>,
view_controller: Id<WinitViewController>,
view: Id<WinitView>,
pub(crate) window: Id<WinitUIWindow, Shared>,
pub(crate) view_controller: Id<WinitViewController, Shared>,
pub(crate) view: Id<WinitView, Shared>,
gl_or_metal_backed: bool,
}
@@ -41,10 +48,6 @@ impl Inner {
debug!("`Window::set_transparent` is ignored on iOS")
}
pub fn set_blur(&self, _blur: bool) {
debug!("`Window::set_blur` is ignored on iOS")
}
pub fn set_visible(&self, visible: bool) {
self.window.setHidden(!visible)
}
@@ -55,81 +58,90 @@ impl Inner {
}
pub fn request_redraw(&self) {
if self.gl_or_metal_backed {
let mtm = MainThreadMarker::new().unwrap();
// `setNeedsDisplay` does nothing on UIViews which are directly backed by CAEAGLLayer or CAMetalLayer.
// Ordinarily the OS sets up a bunch of UIKit state before calling drawRect: on a UIView, but when using
// raw or gl/metal for drawing this work is completely avoided.
//
// The docs for `setNeedsDisplay` don't mention `CAMetalLayer`; however, this has been confirmed via
// testing.
//
// https://developer.apple.com/documentation/uikit/uiview/1622437-setneedsdisplay?language=objc
app_state::queue_gl_or_metal_redraw(mtm, self.window.clone());
} else {
self.view.setNeedsDisplay();
unsafe {
if self.gl_or_metal_backed {
// `setNeedsDisplay` does nothing on UIViews which are directly backed by CAEAGLLayer or CAMetalLayer.
// Ordinarily the OS sets up a bunch of UIKit state before calling drawRect: on a UIView, but when using
// raw or gl/metal for drawing this work is completely avoided.
//
// The docs for `setNeedsDisplay` don't mention `CAMetalLayer`; however, this has been confirmed via
// testing.
//
// https://developer.apple.com/documentation/uikit/uiview/1622437-setneedsdisplay?language=objc
app_state::queue_gl_or_metal_redraw(self.window.clone());
} else {
self.view.setNeedsDisplay();
}
}
}
pub fn pre_present_notify(&self) {}
pub fn inner_position(&self) -> Result<PhysicalPosition<i32>, NotSupportedError> {
let safe_area = self.safe_area_screen_space();
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 {
let safe_area = self.safe_area_screen_space();
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))
}
}
pub fn outer_position(&self) -> Result<PhysicalPosition<i32>, NotSupportedError> {
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))
unsafe {
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))
}
}
pub fn set_outer_position(&self, physical_position: Position) {
let scale_factor = self.scale_factor();
let position = physical_position.to_logical::<f64>(scale_factor);
let screen_frame = self.screen_frame();
let new_screen_frame = CGRect {
origin: CGPoint {
x: position.x as _,
y: position.y as _,
},
size: screen_frame.size,
};
let bounds = self.rect_from_screen_space(new_screen_frame);
self.window.setBounds(bounds);
unsafe {
let scale_factor = self.scale_factor();
let position = physical_position.to_logical::<f64>(scale_factor);
let screen_frame = self.screen_frame();
let new_screen_frame = CGRect {
origin: CGPoint {
x: position.x as _,
y: position.y as _,
},
size: screen_frame.size,
};
let bounds = self.rect_from_screen_space(new_screen_frame);
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)
unsafe {
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 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,
};
size.to_physical(scale_factor)
unsafe {
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,
};
size.to_physical(scale_factor)
}
}
pub fn request_inner_size(&self, _size: Size) -> Option<PhysicalSize<u32>> {
Some(self.inner_size())
pub fn set_inner_size(&self, _size: Size) {
warn!("not clear what `Window::set_inner_size` means on iOS");
}
pub fn set_min_inner_size(&self, _dimensions: Option<Size>) {
@@ -197,9 +209,6 @@ impl Inner {
Err(ExternalError::NotSupported(NotSupportedError::new()))
}
#[inline]
pub fn show_window_menu(&self, _position: Position) {}
pub fn set_cursor_hittest(&self, _hittest: bool) -> Result<(), ExternalError> {
Err(ExternalError::NotSupported(NotSupportedError::new()))
}
@@ -223,17 +232,14 @@ impl Inner {
}
pub(crate) fn set_fullscreen(&self, monitor: Option<Fullscreen>) {
let mtm = MainThreadMarker::new().unwrap();
let uiscreen = match &monitor {
Some(Fullscreen::Exclusive(video_mode)) => {
let uiscreen = video_mode.monitor.ui_screen(mtm);
uiscreen.setCurrentMode(Some(video_mode.screen_mode(mtm)));
let uiscreen = video_mode.monitor.ui_screen();
uiscreen.setCurrentMode(Some(&video_mode.screen_mode.0));
uiscreen.clone()
}
Some(Fullscreen::Borderless(Some(monitor))) => monitor.ui_screen(mtm).clone(),
Some(Fullscreen::Borderless(None)) => {
self.current_monitor_inner().ui_screen(mtm).clone()
}
Some(Fullscreen::Borderless(Some(monitor))) => monitor.ui_screen().clone(),
Some(Fullscreen::Borderless(None)) => self.current_monitor_inner().ui_screen().clone(),
None => {
warn!("`Window::set_fullscreen(None)` ignored on iOS");
return;
@@ -256,21 +262,22 @@ impl Inner {
}
pub(crate) fn fullscreen(&self) -> Option<Fullscreen> {
let mtm = MainThreadMarker::new().unwrap();
let monitor = self.current_monitor_inner();
let uiscreen = monitor.ui_screen(mtm);
let screen_space_bounds = self.screen_frame();
let screen_bounds = uiscreen.bounds();
unsafe {
let monitor = self.current_monitor_inner();
let uiscreen = monitor.ui_screen();
let screen_space_bounds = self.screen_frame();
let screen_bounds = uiscreen.bounds();
// TODO: track fullscreen instead of relying on brittle float comparisons
if screen_space_bounds.origin.x == screen_bounds.origin.x
&& screen_space_bounds.origin.y == screen_bounds.origin.y
&& screen_space_bounds.size.width == screen_bounds.size.width
&& screen_space_bounds.size.height == screen_bounds.size.height
{
Some(Fullscreen::Borderless(Some(monitor)))
} else {
None
// TODO: track fullscreen instead of relying on brittle float comparisons
if screen_space_bounds.origin.x == screen_bounds.origin.x
&& screen_space_bounds.origin.y == screen_bounds.origin.y
&& screen_space_bounds.size.width == screen_bounds.size.width
&& screen_space_bounds.size.height == screen_bounds.size.height
{
Some(Fullscreen::Borderless(Some(monitor)))
} else {
None
}
}
}
@@ -288,8 +295,8 @@ impl Inner {
warn!("`Window::set_window_icon` is ignored on iOS")
}
pub fn set_ime_cursor_area(&self, _position: Position, _size: Size) {
warn!("`Window::set_ime_cursor_area` is ignored on iOS")
pub fn set_ime_position(&self, _position: Position) {
warn!("`Window::set_ime_position` is ignored on iOS")
}
pub fn set_ime_allowed(&self, _allowed: bool) {
@@ -331,47 +338,16 @@ impl Inner {
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();
pub fn raw_window_handle(&self) -> RawWindowHandle {
let mut window_handle = 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_04::RawWindowHandle::UiKit(window_handle)
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) -> Result<rwh_06::RawWindowHandle, rwh_06::HandleError> {
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")
});
window_handle.ui_view_controller =
std::ptr::NonNull::new(Id::as_ptr(&self.view_controller) as _);
Ok(rwh_06::RawWindowHandle::UiKit(window_handle))
}
#[cfg(feature = "rwh_06")]
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 fn raw_display_handle(&self) -> RawDisplayHandle {
RawDisplayHandle::UiKit(UiKitDisplayHandle::empty())
}
pub fn theme(&self) -> Option<Theme> {
@@ -379,8 +355,6 @@ impl Inner {
None
}
pub fn set_content_protected(&self, _protected: bool) {}
pub fn has_focus(&self) -> bool {
self.window.isKeyWindow()
}
@@ -394,23 +368,44 @@ impl Inner {
warn!("`Window::title` is ignored on iOS");
String::new()
}
pub fn reset_dead_keys(&self) {
// Noop
}
}
pub struct Window {
inner: MainThreadBound<Inner>,
pub inner: Inner,
}
impl Drop for Window {
fn drop(&mut self) {
assert_main_thread!("`Window::drop` can only be run on the main thread on iOS");
}
}
unsafe impl Send for Window {}
unsafe impl Sync for Window {}
impl Deref for Window {
type Target = Inner;
fn deref(&self) -> &Inner {
assert_main_thread!("`Window` methods can only be run on the main thread on iOS");
&self.inner
}
}
impl DerefMut for Window {
fn deref_mut(&mut self) -> &mut Inner {
assert_main_thread!("`Window` methods can only be run on the main thread on iOS");
&mut self.inner
}
}
impl Window {
pub(crate) fn new<T>(
event_loop: &EventLoopWindowTarget<T>,
_event_loop: &EventLoopWindowTarget<T>,
window_attributes: WindowAttributes,
platform_attributes: PlatformSpecificWindowBuilderAttributes,
) -> Result<Window, RootOsError> {
let mtm = event_loop.mtm;
let mtm = MainThreadMarker::new().unwrap();
if window_attributes.min_inner_size.is_some() {
warn!("`WindowAttributes::min_inner_size` is ignored on iOS");
@@ -424,8 +419,8 @@ impl Window {
let main_screen = UIScreen::main(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),
Some(Fullscreen::Borderless(Some(ref monitor))) => monitor.ui_screen(mtm),
Some(Fullscreen::Exclusive(ref video_mode)) => video_mode.monitor.ui_screen(),
Some(Fullscreen::Borderless(Some(ref monitor))) => monitor.ui_screen(),
Some(Fullscreen::Borderless(None)) | None => &main_screen,
};
@@ -465,7 +460,7 @@ impl Window {
&view_controller,
);
app_state::set_key_window(mtm, &window);
unsafe { app_state::set_key_window(&window) };
// Like the Windows and macOS backends, we send a `ScaleFactorChanged` and `Resized`
// event on window creation if the DPI factor != 1.0
@@ -477,51 +472,50 @@ impl Window {
let screen_space = screen.coordinateSpace();
let screen_frame = view.convertRect_toCoordinateSpace(bounds, &screen_space);
let size = crate::dpi::LogicalSize {
width: screen_frame.size.width as f64,
height: screen_frame.size.height as f64,
width: screen_frame.size.width as _,
height: screen_frame.size.height as _,
};
let window_id = RootWindowId(window.id());
app_state::handle_nonuser_events(
mtm,
std::iter::once(EventWrapper::ScaleFactorChanged(
app_state::ScaleFactorChanged {
unsafe {
app_state::handle_nonuser_events(
std::iter::once(EventWrapper::EventProxy(EventProxy::DpiChangedProxy {
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)),
},
))),
);
suggested_size: size,
}))
.chain(std::iter::once(EventWrapper::StaticEvent(
Event::WindowEvent {
window_id,
event: WindowEvent::Resized(size.to_physical(scale_factor)),
},
))),
);
}
}
let inner = Inner {
window,
view_controller,
view,
gl_or_metal_backed,
};
Ok(Window {
inner: MainThreadBound::new(inner, mtm),
inner: Inner {
window,
view_controller,
view,
gl_or_metal_backed,
},
})
}
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, _mtm| f(inner))
}
}
// WindowExtIOS
impl Inner {
pub fn ui_window(&self) -> *mut c_void {
Id::as_ptr(&self.window) as *mut c_void
}
pub fn ui_view_controller(&self) -> *mut c_void {
Id::as_ptr(&self.view_controller) as *mut c_void
}
pub fn ui_view(&self) -> *mut c_void {
Id::as_ptr(&self.view) as *mut c_void
}
pub fn set_scale_factor(&self, scale_factor: f64) {
assert!(
dpi::validate_scale_factor(scale_factor),
@@ -540,37 +534,42 @@ impl Inner {
pub fn set_prefers_home_indicator_hidden(&self, hidden: bool) {
self.view_controller
.set_prefers_home_indicator_auto_hidden(hidden);
.setPrefersHomeIndicatorAutoHidden(hidden);
}
pub fn set_preferred_screen_edges_deferring_system_gestures(&self, edges: ScreenEdge) {
let edges: UIRectEdge = edges.into();
self.view_controller
.set_preferred_screen_edges_deferring_system_gestures(edges.into());
.setPreferredScreenEdgesDeferringSystemGestures(edges);
}
pub fn set_prefers_status_bar_hidden(&self, hidden: bool) {
self.view_controller.set_prefers_status_bar_hidden(hidden);
self.view_controller.setPrefersStatusBarHidden(hidden);
}
}
impl Inner {
fn screen_frame(&self) -> CGRect {
// requires main thread
unsafe fn screen_frame(&self) -> CGRect {
self.rect_to_screen_space(self.window.bounds())
}
fn rect_to_screen_space(&self, rect: CGRect) -> CGRect {
// requires main thread
unsafe fn rect_to_screen_space(&self, rect: CGRect) -> CGRect {
let screen_space = self.window.screen().coordinateSpace();
self.window
.convertRect_toCoordinateSpace(rect, &screen_space)
}
fn rect_from_screen_space(&self, rect: CGRect) -> CGRect {
// requires main thread
unsafe fn rect_from_screen_space(&self, rect: CGRect) -> CGRect {
let screen_space = self.window.screen().coordinateSpace();
self.window
.convertRect_fromCoordinateSpace(rect, &screen_space)
}
fn safe_area_screen_space(&self) -> CGRect {
// requires main thread
unsafe 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();
@@ -588,7 +587,7 @@ impl Inner {
} else {
let screen_frame = self.rect_to_screen_space(bounds);
let status_bar_frame = {
let app = UIApplication::shared(MainThreadMarker::new().unwrap()).expect(
let app = UIApplication::shared(MainThreadMarker::new().unwrap_unchecked()).expect(
"`Window::get_inner_position` cannot be called before `EventLoop::run` on iOS",
);
app.statusBarFrame()
@@ -645,8 +644,8 @@ impl From<u64> for WindowId {
unsafe impl Send for WindowId {}
unsafe impl Sync for WindowId {}
impl From<&AnyObject> for WindowId {
fn from(window: &AnyObject) -> WindowId {
impl From<&Object> for WindowId {
fn from(window: &Object) -> WindowId {
WindowId {
window: window as *const _ as _,
}

887
src/platform_impl/linux/common/keymap.rs
View File

@@ -1,887 +0,0 @@
//! Convert XKB keys to Winit keys.
use crate::keyboard::{Key, KeyCode, KeyLocation, NativeKey, NativeKeyCode};
/// Map the raw X11-style keycode to the `KeyCode` enum.
///
/// X11-style keycodes are offset by 8 from the keycodes the Linux kernel uses.
pub fn raw_keycode_to_keycode(keycode: u32) -> KeyCode {
scancode_to_keycode(keycode.saturating_sub(8))
}
/// Map the linux scancode to Keycode.
///
/// Both X11 and Wayland use keys with `+ 8` offset to linux scancode.
pub fn scancode_to_keycode(scancode: u32) -> KeyCode {
// The keycode values are taken from linux/include/uapi/linux/input-event-codes.h, as
// libxkbcommon's documentation seems to suggest that the keycode values we're interested in
// are defined by the Linux kernel. If Winit programs end up being run on other Unix-likes,
// I can only hope they agree on what the keycodes mean.
//
// Some of the keycodes are likely superfluous for our purposes, and some are ones which are
// difficult to test the correctness of, or discover the purpose of. Because of this, they've
// either been commented out here, or not included at all.
match scancode {
0 => KeyCode::Unidentified(NativeKeyCode::Xkb(0)),
1 => KeyCode::Escape,
2 => KeyCode::Digit1,
3 => KeyCode::Digit2,
4 => KeyCode::Digit3,
5 => KeyCode::Digit4,
6 => KeyCode::Digit5,
7 => KeyCode::Digit6,
8 => KeyCode::Digit7,
9 => KeyCode::Digit8,
10 => KeyCode::Digit9,
11 => KeyCode::Digit0,
12 => KeyCode::Minus,
13 => KeyCode::Equal,
14 => KeyCode::Backspace,
15 => KeyCode::Tab,
16 => KeyCode::KeyQ,
17 => KeyCode::KeyW,
18 => KeyCode::KeyE,
19 => KeyCode::KeyR,
20 => KeyCode::KeyT,
21 => KeyCode::KeyY,
22 => KeyCode::KeyU,
23 => KeyCode::KeyI,
24 => KeyCode::KeyO,
25 => KeyCode::KeyP,
26 => KeyCode::BracketLeft,
27 => KeyCode::BracketRight,
28 => KeyCode::Enter,
29 => KeyCode::ControlLeft,
30 => KeyCode::KeyA,
31 => KeyCode::KeyS,
32 => KeyCode::KeyD,
33 => KeyCode::KeyF,
34 => KeyCode::KeyG,
35 => KeyCode::KeyH,
36 => KeyCode::KeyJ,
37 => KeyCode::KeyK,
38 => KeyCode::KeyL,
39 => KeyCode::Semicolon,
40 => KeyCode::Quote,
41 => KeyCode::Backquote,
42 => KeyCode::ShiftLeft,
43 => KeyCode::Backslash,
44 => KeyCode::KeyZ,
45 => KeyCode::KeyX,
46 => KeyCode::KeyC,
47 => KeyCode::KeyV,
48 => KeyCode::KeyB,
49 => KeyCode::KeyN,
50 => KeyCode::KeyM,
51 => KeyCode::Comma,
52 => KeyCode::Period,
53 => KeyCode::Slash,
54 => KeyCode::ShiftRight,
55 => KeyCode::NumpadMultiply,
56 => KeyCode::AltLeft,
57 => KeyCode::Space,
58 => KeyCode::CapsLock,
59 => KeyCode::F1,
60 => KeyCode::F2,
61 => KeyCode::F3,
62 => KeyCode::F4,
63 => KeyCode::F5,
64 => KeyCode::F6,
65 => KeyCode::F7,
66 => KeyCode::F8,
67 => KeyCode::F9,
68 => KeyCode::F10,
69 => KeyCode::NumLock,
70 => KeyCode::ScrollLock,
71 => KeyCode::Numpad7,
72 => KeyCode::Numpad8,
73 => KeyCode::Numpad9,
74 => KeyCode::NumpadSubtract,
75 => KeyCode::Numpad4,
76 => KeyCode::Numpad5,
77 => KeyCode::Numpad6,
78 => KeyCode::NumpadAdd,
79 => KeyCode::Numpad1,
80 => KeyCode::Numpad2,
81 => KeyCode::Numpad3,
82 => KeyCode::Numpad0,
83 => KeyCode::NumpadDecimal,
85 => KeyCode::Lang5,
86 => KeyCode::IntlBackslash,
87 => KeyCode::F11,
88 => KeyCode::F12,
89 => KeyCode::IntlRo,
90 => KeyCode::Lang3,
91 => KeyCode::Lang4,
92 => KeyCode::Convert,
93 => KeyCode::KanaMode,
94 => KeyCode::NonConvert,
// 95 => KeyCode::KPJPCOMMA,
96 => KeyCode::NumpadEnter,
97 => KeyCode::ControlRight,
98 => KeyCode::NumpadDivide,
99 => KeyCode::PrintScreen,
100 => KeyCode::AltRight,
// 101 => KeyCode::LINEFEED,
102 => KeyCode::Home,
103 => KeyCode::ArrowUp,
104 => KeyCode::PageUp,
105 => KeyCode::ArrowLeft,
106 => KeyCode::ArrowRight,
107 => KeyCode::End,
108 => KeyCode::ArrowDown,
109 => KeyCode::PageDown,
110 => KeyCode::Insert,
111 => KeyCode::Delete,
// 112 => KeyCode::MACRO,
113 => KeyCode::AudioVolumeMute,
114 => KeyCode::AudioVolumeDown,
115 => KeyCode::AudioVolumeUp,
// 116 => KeyCode::POWER,
117 => KeyCode::NumpadEqual,
// 118 => KeyCode::KPPLUSMINUS,
119 => KeyCode::Pause,
// 120 => KeyCode::SCALE,
121 => KeyCode::NumpadComma,
122 => KeyCode::Lang1,
123 => KeyCode::Lang2,
124 => KeyCode::IntlYen,
125 => KeyCode::SuperLeft,
126 => KeyCode::SuperRight,
127 => KeyCode::ContextMenu,
// 128 => KeyCode::STOP,
// 129 => KeyCode::AGAIN,
// 130 => KeyCode::PROPS,
// 131 => KeyCode::UNDO,
// 132 => KeyCode::FRONT,
// 133 => KeyCode::COPY,
// 134 => KeyCode::OPEN,
// 135 => KeyCode::PASTE,
// 136 => KeyCode::FIND,
// 137 => KeyCode::CUT,
// 138 => KeyCode::HELP,
// 139 => KeyCode::MENU,
// 140 => KeyCode::CALC,
// 141 => KeyCode::SETUP,
// 142 => KeyCode::SLEEP,
// 143 => KeyCode::WAKEUP,
// 144 => KeyCode::FILE,
// 145 => KeyCode::SENDFILE,
// 146 => KeyCode::DELETEFILE,
// 147 => KeyCode::XFER,
// 148 => KeyCode::PROG1,
// 149 => KeyCode::PROG2,
// 150 => KeyCode::WWW,
// 151 => KeyCode::MSDOS,
// 152 => KeyCode::COFFEE,
// 153 => KeyCode::ROTATE_DISPLAY,
// 154 => KeyCode::CYCLEWINDOWS,
// 155 => KeyCode::MAIL,
// 156 => KeyCode::BOOKMARKS,
// 157 => KeyCode::COMPUTER,
// 158 => KeyCode::BACK,
// 159 => KeyCode::FORWARD,
// 160 => KeyCode::CLOSECD,
// 161 => KeyCode::EJECTCD,
// 162 => KeyCode::EJECTCLOSECD,
163 => KeyCode::MediaTrackNext,
164 => KeyCode::MediaPlayPause,
165 => KeyCode::MediaTrackPrevious,
166 => KeyCode::MediaStop,
// 167 => KeyCode::RECORD,
// 168 => KeyCode::REWIND,
// 169 => KeyCode::PHONE,
// 170 => KeyCode::ISO,
// 171 => KeyCode::CONFIG,
// 172 => KeyCode::HOMEPAGE,
// 173 => KeyCode::REFRESH,
// 174 => KeyCode::EXIT,
// 175 => KeyCode::MOVE,
// 176 => KeyCode::EDIT,
// 177 => KeyCode::SCROLLUP,
// 178 => KeyCode::SCROLLDOWN,
// 179 => KeyCode::KPLEFTPAREN,
// 180 => KeyCode::KPRIGHTPAREN,
// 181 => KeyCode::NEW,
// 182 => KeyCode::REDO,
183 => KeyCode::F13,
184 => KeyCode::F14,
185 => KeyCode::F15,
186 => KeyCode::F16,
187 => KeyCode::F17,
188 => KeyCode::F18,
189 => KeyCode::F19,
190 => KeyCode::F20,
191 => KeyCode::F21,
192 => KeyCode::F22,
193 => KeyCode::F23,
194 => KeyCode::F24,
// 200 => KeyCode::PLAYCD,
// 201 => KeyCode::PAUSECD,
// 202 => KeyCode::PROG3,
// 203 => KeyCode::PROG4,
// 204 => KeyCode::DASHBOARD,
// 205 => KeyCode::SUSPEND,
// 206 => KeyCode::CLOSE,
// 207 => KeyCode::PLAY,
// 208 => KeyCode::FASTFORWARD,
// 209 => KeyCode::BASSBOOST,
// 210 => KeyCode::PRINT,
// 211 => KeyCode::HP,
// 212 => KeyCode::CAMERA,
// 213 => KeyCode::SOUND,
// 214 => KeyCode::QUESTION,
// 215 => KeyCode::EMAIL,
// 216 => KeyCode::CHAT,
// 217 => KeyCode::SEARCH,
// 218 => KeyCode::CONNECT,
// 219 => KeyCode::FINANCE,
// 220 => KeyCode::SPORT,
// 221 => KeyCode::SHOP,
// 222 => KeyCode::ALTERASE,
// 223 => KeyCode::CANCEL,
// 224 => KeyCode::BRIGHTNESSDOW,
// 225 => KeyCode::BRIGHTNESSU,
// 226 => KeyCode::MEDIA,
// 227 => KeyCode::SWITCHVIDEOMODE,
// 228 => KeyCode::KBDILLUMTOGGLE,
// 229 => KeyCode::KBDILLUMDOWN,
// 230 => KeyCode::KBDILLUMUP,
// 231 => KeyCode::SEND,
// 232 => KeyCode::REPLY,
// 233 => KeyCode::FORWARDMAIL,
// 234 => KeyCode::SAVE,
// 235 => KeyCode::DOCUMENTS,
// 236 => KeyCode::BATTERY,
// 237 => KeyCode::BLUETOOTH,
// 238 => KeyCode::WLAN,
// 239 => KeyCode::UWB,
240 => KeyCode::Unidentified(NativeKeyCode::Unidentified),
// 241 => KeyCode::VIDEO_NEXT,
// 242 => KeyCode::VIDEO_PREV,
// 243 => KeyCode::BRIGHTNESS_CYCLE,
// 244 => KeyCode::BRIGHTNESS_AUTO,
// 245 => KeyCode::DISPLAY_OFF,
// 246 => KeyCode::WWAN,
// 247 => KeyCode::RFKILL,
// 248 => KeyCode::KEY_MICMUTE,
_ => KeyCode::Unidentified(NativeKeyCode::Xkb(scancode)),
}
}
pub fn keycode_to_scancode(keycode: KeyCode) -> Option<u32> {
match keycode {
KeyCode::Unidentified(NativeKeyCode::Unidentified) => Some(240),
KeyCode::Unidentified(NativeKeyCode::Xkb(raw)) => Some(raw),
KeyCode::Escape => Some(1),
KeyCode::Digit1 => Some(2),
KeyCode::Digit2 => Some(3),
KeyCode::Digit3 => Some(4),
KeyCode::Digit4 => Some(5),
KeyCode::Digit5 => Some(6),
KeyCode::Digit6 => Some(7),
KeyCode::Digit7 => Some(8),
KeyCode::Digit8 => Some(9),
KeyCode::Digit9 => Some(10),
KeyCode::Digit0 => Some(11),
KeyCode::Minus => Some(12),
KeyCode::Equal => Some(13),
KeyCode::Backspace => Some(14),
KeyCode::Tab => Some(15),
KeyCode::KeyQ => Some(16),
KeyCode::KeyW => Some(17),
KeyCode::KeyE => Some(18),
KeyCode::KeyR => Some(19),
KeyCode::KeyT => Some(20),
KeyCode::KeyY => Some(21),
KeyCode::KeyU => Some(22),
KeyCode::KeyI => Some(23),
KeyCode::KeyO => Some(24),
KeyCode::KeyP => Some(25),
KeyCode::BracketLeft => Some(26),
KeyCode::BracketRight => Some(27),
KeyCode::Enter => Some(28),
KeyCode::ControlLeft => Some(29),
KeyCode::KeyA => Some(30),
KeyCode::KeyS => Some(31),
KeyCode::KeyD => Some(32),
KeyCode::KeyF => Some(33),
KeyCode::KeyG => Some(34),
KeyCode::KeyH => Some(35),
KeyCode::KeyJ => Some(36),
KeyCode::KeyK => Some(37),
KeyCode::KeyL => Some(38),
KeyCode::Semicolon => Some(39),
KeyCode::Quote => Some(40),
KeyCode::Backquote => Some(41),
KeyCode::ShiftLeft => Some(42),
KeyCode::Backslash => Some(43),
KeyCode::KeyZ => Some(44),
KeyCode::KeyX => Some(45),
KeyCode::KeyC => Some(46),
KeyCode::KeyV => Some(47),
KeyCode::KeyB => Some(48),
KeyCode::KeyN => Some(49),
KeyCode::KeyM => Some(50),
KeyCode::Comma => Some(51),
KeyCode::Period => Some(52),
KeyCode::Slash => Some(53),
KeyCode::ShiftRight => Some(54),
KeyCode::NumpadMultiply => Some(55),
KeyCode::AltLeft => Some(56),
KeyCode::Space => Some(57),
KeyCode::CapsLock => Some(58),
KeyCode::F1 => Some(59),
KeyCode::F2 => Some(60),
KeyCode::F3 => Some(61),
KeyCode::F4 => Some(62),
KeyCode::F5 => Some(63),
KeyCode::F6 => Some(64),
KeyCode::F7 => Some(65),
KeyCode::F8 => Some(66),
KeyCode::F9 => Some(67),
KeyCode::F10 => Some(68),
KeyCode::NumLock => Some(69),
KeyCode::ScrollLock => Some(70),
KeyCode::Numpad7 => Some(71),
KeyCode::Numpad8 => Some(72),
KeyCode::Numpad9 => Some(73),
KeyCode::NumpadSubtract => Some(74),
KeyCode::Numpad4 => Some(75),
KeyCode::Numpad5 => Some(76),
KeyCode::Numpad6 => Some(77),
KeyCode::NumpadAdd => Some(78),
KeyCode::Numpad1 => Some(79),
KeyCode::Numpad2 => Some(80),
KeyCode::Numpad3 => Some(81),
KeyCode::Numpad0 => Some(82),
KeyCode::NumpadDecimal => Some(83),
KeyCode::Lang5 => Some(85),
KeyCode::IntlBackslash => Some(86),
KeyCode::F11 => Some(87),
KeyCode::F12 => Some(88),
KeyCode::IntlRo => Some(89),
KeyCode::Lang3 => Some(90),
KeyCode::Lang4 => Some(91),
KeyCode::Convert => Some(92),
KeyCode::KanaMode => Some(93),
KeyCode::NonConvert => Some(94),
KeyCode::NumpadEnter => Some(96),
KeyCode::ControlRight => Some(97),
KeyCode::NumpadDivide => Some(98),
KeyCode::PrintScreen => Some(99),
KeyCode::AltRight => Some(100),
KeyCode::Home => Some(102),
KeyCode::ArrowUp => Some(103),
KeyCode::PageUp => Some(104),
KeyCode::ArrowLeft => Some(105),
KeyCode::ArrowRight => Some(106),
KeyCode::End => Some(107),
KeyCode::ArrowDown => Some(108),
KeyCode::PageDown => Some(109),
KeyCode::Insert => Some(110),
KeyCode::Delete => Some(111),
KeyCode::AudioVolumeMute => Some(113),
KeyCode::AudioVolumeDown => Some(114),
KeyCode::AudioVolumeUp => Some(115),
KeyCode::NumpadEqual => Some(117),
KeyCode::Pause => Some(119),
KeyCode::NumpadComma => Some(121),
KeyCode::Lang1 => Some(122),
KeyCode::Lang2 => Some(123),
KeyCode::IntlYen => Some(124),
KeyCode::SuperLeft => Some(125),
KeyCode::SuperRight => Some(126),
KeyCode::ContextMenu => Some(127),
KeyCode::MediaTrackNext => Some(163),
KeyCode::MediaPlayPause => Some(164),
KeyCode::MediaTrackPrevious => Some(165),
KeyCode::MediaStop => Some(166),
KeyCode::F13 => Some(183),
KeyCode::F14 => Some(184),
KeyCode::F15 => Some(185),
KeyCode::F16 => Some(186),
KeyCode::F17 => Some(187),
KeyCode::F18 => Some(188),
KeyCode::F19 => Some(189),
KeyCode::F20 => Some(190),
KeyCode::F21 => Some(191),
KeyCode::F22 => Some(192),
KeyCode::F23 => Some(193),
KeyCode::F24 => Some(194),
_ => None,
}
}
pub fn keysym_to_key(keysym: u32) -> Key {
use xkbcommon_dl::keysyms;
match keysym {
// TTY function keys
keysyms::BackSpace => Key::Backspace,
keysyms::Tab => Key::Tab,
// keysyms::Linefeed => Key::Linefeed,
keysyms::Clear => Key::Clear,
keysyms::Return => Key::Enter,
keysyms::Pause => Key::Pause,
keysyms::Scroll_Lock => Key::ScrollLock,
keysyms::Sys_Req => Key::PrintScreen,
keysyms::Escape => Key::Escape,
keysyms::Delete => Key::Delete,
// IME keys
keysyms::Multi_key => Key::Compose,
keysyms::Codeinput => Key::CodeInput,
keysyms::SingleCandidate => Key::SingleCandidate,
keysyms::MultipleCandidate => Key::AllCandidates,
keysyms::PreviousCandidate => Key::PreviousCandidate,
// Japanese keys
keysyms::Kanji => Key::KanjiMode,
keysyms::Muhenkan => Key::NonConvert,
keysyms::Henkan_Mode => Key::Convert,
keysyms::Romaji => Key::Romaji,
keysyms::Hiragana => Key::Hiragana,
keysyms::Hiragana_Katakana => Key::HiraganaKatakana,
keysyms::Zenkaku => Key::Zenkaku,
keysyms::Hankaku => Key::Hankaku,
keysyms::Zenkaku_Hankaku => Key::ZenkakuHankaku,
// keysyms::Touroku => Key::Touroku,
// keysyms::Massyo => Key::Massyo,
keysyms::Kana_Lock => Key::KanaMode,
keysyms::Kana_Shift => Key::KanaMode,
keysyms::Eisu_Shift => Key::Alphanumeric,
keysyms::Eisu_toggle => Key::Alphanumeric,
// NOTE: The next three items are aliases for values we've already mapped.
// keysyms::Kanji_Bangou => Key::CodeInput,
// keysyms::Zen_Koho => Key::AllCandidates,
// keysyms::Mae_Koho => Key::PreviousCandidate,
// Cursor control & motion
keysyms::Home => Key::Home,
keysyms::Left => Key::ArrowLeft,
keysyms::Up => Key::ArrowUp,
keysyms::Right => Key::ArrowRight,
keysyms::Down => Key::ArrowDown,
// keysyms::Prior => Key::PageUp,
keysyms::Page_Up => Key::PageUp,
// keysyms::Next => Key::PageDown,
keysyms::Page_Down => Key::PageDown,
keysyms::End => Key::End,
// keysyms::Begin => Key::Begin,
// Misc. functions
keysyms::Select => Key::Select,
keysyms::Print => Key::PrintScreen,
keysyms::Execute => Key::Execute,
keysyms::Insert => Key::Insert,
keysyms::Undo => Key::Undo,
keysyms::Redo => Key::Redo,
keysyms::Menu => Key::ContextMenu,
keysyms::Find => Key::Find,
keysyms::Cancel => Key::Cancel,
keysyms::Help => Key::Help,
keysyms::Break => Key::Pause,
keysyms::Mode_switch => Key::ModeChange,
// keysyms::script_switch => Key::ModeChange,
keysyms::Num_Lock => Key::NumLock,
// Keypad keys
// keysyms::KP_Space => Key::Character(" "),
keysyms::KP_Tab => Key::Tab,
keysyms::KP_Enter => Key::Enter,
keysyms::KP_F1 => Key::F1,
keysyms::KP_F2 => Key::F2,
keysyms::KP_F3 => Key::F3,
keysyms::KP_F4 => Key::F4,
keysyms::KP_Home => Key::Home,
keysyms::KP_Left => Key::ArrowLeft,
keysyms::KP_Up => Key::ArrowLeft,
keysyms::KP_Right => Key::ArrowRight,
keysyms::KP_Down => Key::ArrowDown,
// keysyms::KP_Prior => Key::PageUp,
keysyms::KP_Page_Up => Key::PageUp,
// keysyms::KP_Next => Key::PageDown,
keysyms::KP_Page_Down => Key::PageDown,
keysyms::KP_End => Key::End,
// This is the key labeled "5" on the numpad when NumLock is off.
// keysyms::KP_Begin => Key::Begin,
keysyms::KP_Insert => Key::Insert,
keysyms::KP_Delete => Key::Delete,
// keysyms::KP_Equal => Key::Equal,
// keysyms::KP_Multiply => Key::Multiply,
// keysyms::KP_Add => Key::Add,
// keysyms::KP_Separator => Key::Separator,
// keysyms::KP_Subtract => Key::Subtract,
// keysyms::KP_Decimal => Key::Decimal,
// keysyms::KP_Divide => Key::Divide,
// keysyms::KP_0 => Key::Character("0"),
// keysyms::KP_1 => Key::Character("1"),
// keysyms::KP_2 => Key::Character("2"),
// keysyms::KP_3 => Key::Character("3"),
// keysyms::KP_4 => Key::Character("4"),
// keysyms::KP_5 => Key::Character("5"),
// keysyms::KP_6 => Key::Character("6"),
// keysyms::KP_7 => Key::Character("7"),
// keysyms::KP_8 => Key::Character("8"),
// keysyms::KP_9 => Key::Character("9"),
// Function keys
keysyms::F1 => Key::F1,
keysyms::F2 => Key::F2,
keysyms::F3 => Key::F3,
keysyms::F4 => Key::F4,
keysyms::F5 => Key::F5,
keysyms::F6 => Key::F6,
keysyms::F7 => Key::F7,
keysyms::F8 => Key::F8,
keysyms::F9 => Key::F9,
keysyms::F10 => Key::F10,
keysyms::F11 => Key::F11,
keysyms::F12 => Key::F12,
keysyms::F13 => Key::F13,
keysyms::F14 => Key::F14,
keysyms::F15 => Key::F15,
keysyms::F16 => Key::F16,
keysyms::F17 => Key::F17,
keysyms::F18 => Key::F18,
keysyms::F19 => Key::F19,
keysyms::F20 => Key::F20,
keysyms::F21 => Key::F21,
keysyms::F22 => Key::F22,
keysyms::F23 => Key::F23,
keysyms::F24 => Key::F24,
keysyms::F25 => Key::F25,
keysyms::F26 => Key::F26,
keysyms::F27 => Key::F27,
keysyms::F28 => Key::F28,
keysyms::F29 => Key::F29,
keysyms::F30 => Key::F30,
keysyms::F31 => Key::F31,
keysyms::F32 => Key::F32,
keysyms::F33 => Key::F33,
keysyms::F34 => Key::F34,
keysyms::F35 => Key::F35,
// Modifiers
keysyms::Shift_L => Key::Shift,
keysyms::Shift_R => Key::Shift,
keysyms::Control_L => Key::Control,
keysyms::Control_R => Key::Control,
keysyms::Caps_Lock => Key::CapsLock,
// keysyms::Shift_Lock => Key::ShiftLock,
// keysyms::Meta_L => Key::Meta,
// keysyms::Meta_R => Key::Meta,
keysyms::Alt_L => Key::Alt,
keysyms::Alt_R => Key::Alt,
keysyms::Super_L => Key::Super,
keysyms::Super_R => Key::Super,
keysyms::Hyper_L => Key::Hyper,
keysyms::Hyper_R => Key::Hyper,
// XKB function and modifier keys
// keysyms::ISO_Lock => Key::IsoLock,
// keysyms::ISO_Level2_Latch => Key::IsoLevel2Latch,
keysyms::ISO_Level3_Shift => Key::AltGraph,
keysyms::ISO_Level3_Latch => Key::AltGraph,
keysyms::ISO_Level3_Lock => Key::AltGraph,
// keysyms::ISO_Level5_Shift => Key::IsoLevel5Shift,
// keysyms::ISO_Level5_Latch => Key::IsoLevel5Latch,
// keysyms::ISO_Level5_Lock => Key::IsoLevel5Lock,
// keysyms::ISO_Group_Shift => Key::IsoGroupShift,
// keysyms::ISO_Group_Latch => Key::IsoGroupLatch,
// keysyms::ISO_Group_Lock => Key::IsoGroupLock,
keysyms::ISO_Next_Group => Key::GroupNext,
// keysyms::ISO_Next_Group_Lock => Key::GroupNextLock,
keysyms::ISO_Prev_Group => Key::GroupPrevious,
// keysyms::ISO_Prev_Group_Lock => Key::GroupPreviousLock,
keysyms::ISO_First_Group => Key::GroupFirst,
// keysyms::ISO_First_Group_Lock => Key::GroupFirstLock,
keysyms::ISO_Last_Group => Key::GroupLast,
// keysyms::ISO_Last_Group_Lock => Key::GroupLastLock,
//
keysyms::ISO_Left_Tab => Key::Tab,
// keysyms::ISO_Move_Line_Up => Key::IsoMoveLineUp,
// keysyms::ISO_Move_Line_Down => Key::IsoMoveLineDown,
// keysyms::ISO_Partial_Line_Up => Key::IsoPartialLineUp,
// keysyms::ISO_Partial_Line_Down => Key::IsoPartialLineDown,
// keysyms::ISO_Partial_Space_Left => Key::IsoPartialSpaceLeft,
// keysyms::ISO_Partial_Space_Right => Key::IsoPartialSpaceRight,
// keysyms::ISO_Set_Margin_Left => Key::IsoSetMarginLeft,
// keysyms::ISO_Set_Margin_Right => Key::IsoSetMarginRight,
// keysyms::ISO_Release_Margin_Left => Key::IsoReleaseMarginLeft,
// keysyms::ISO_Release_Margin_Right => Key::IsoReleaseMarginRight,
// keysyms::ISO_Release_Both_Margins => Key::IsoReleaseBothMargins,
// keysyms::ISO_Fast_Cursor_Left => Key::IsoFastCursorLeft,
// keysyms::ISO_Fast_Cursor_Right => Key::IsoFastCursorRight,
// keysyms::ISO_Fast_Cursor_Up => Key::IsoFastCursorUp,
// keysyms::ISO_Fast_Cursor_Down => Key::IsoFastCursorDown,
// keysyms::ISO_Continuous_Underline => Key::IsoContinuousUnderline,
// keysyms::ISO_Discontinuous_Underline => Key::IsoDiscontinuousUnderline,
// keysyms::ISO_Emphasize => Key::IsoEmphasize,
// keysyms::ISO_Center_Object => Key::IsoCenterObject,
keysyms::ISO_Enter => Key::Enter,
// dead_grave..dead_currency
// dead_lowline..dead_longsolidusoverlay
// dead_a..dead_capital_schwa
// dead_greek
// First_Virtual_Screen..Terminate_Server
// AccessX_Enable..AudibleBell_Enable
// Pointer_Left..Pointer_Drag5
// Pointer_EnableKeys..Pointer_DfltBtnPrev
// ch..C_H
// 3270 terminal keys
// keysyms::3270_Duplicate => Key::Duplicate,
// keysyms::3270_FieldMark => Key::FieldMark,
// keysyms::3270_Right2 => Key::Right2,
// keysyms::3270_Left2 => Key::Left2,
// keysyms::3270_BackTab => Key::BackTab,
keysyms::_3270_EraseEOF => Key::EraseEof,
// keysyms::3270_EraseInput => Key::EraseInput,
// keysyms::3270_Reset => Key::Reset,
// keysyms::3270_Quit => Key::Quit,
// keysyms::3270_PA1 => Key::Pa1,
// keysyms::3270_PA2 => Key::Pa2,
// keysyms::3270_PA3 => Key::Pa3,
// keysyms::3270_Test => Key::Test,
keysyms::_3270_Attn => Key::Attn,
// keysyms::3270_CursorBlink => Key::CursorBlink,
// keysyms::3270_AltCursor => Key::AltCursor,
// keysyms::3270_KeyClick => Key::KeyClick,
// keysyms::3270_Jump => Key::Jump,
// keysyms::3270_Ident => Key::Ident,
// keysyms::3270_Rule => Key::Rule,
// keysyms::3270_Copy => Key::Copy,
keysyms::_3270_Play => Key::Play,
// keysyms::3270_Setup => Key::Setup,
// keysyms::3270_Record => Key::Record,
// keysyms::3270_ChangeScreen => Key::ChangeScreen,
// keysyms::3270_DeleteWord => Key::DeleteWord,
keysyms::_3270_ExSelect => Key::ExSel,
keysyms::_3270_CursorSelect => Key::CrSel,
keysyms::_3270_PrintScreen => Key::PrintScreen,
keysyms::_3270_Enter => Key::Enter,
keysyms::space => Key::Space,
// exclam..Sinh_kunddaliya
// XFree86
// keysyms::XF86_ModeLock => Key::ModeLock,
// XFree86 - Backlight controls
keysyms::XF86_MonBrightnessUp => Key::BrightnessUp,
keysyms::XF86_MonBrightnessDown => Key::BrightnessDown,
// keysyms::XF86_KbdLightOnOff => Key::LightOnOff,
// keysyms::XF86_KbdBrightnessUp => Key::KeyboardBrightnessUp,
// keysyms::XF86_KbdBrightnessDown => Key::KeyboardBrightnessDown,
// XFree86 - "Internet"
keysyms::XF86_Standby => Key::Standby,
keysyms::XF86_AudioLowerVolume => Key::AudioVolumeDown,
keysyms::XF86_AudioRaiseVolume => Key::AudioVolumeUp,
keysyms::XF86_AudioPlay => Key::MediaPlay,
keysyms::XF86_AudioStop => Key::MediaStop,
keysyms::XF86_AudioPrev => Key::MediaTrackPrevious,
keysyms::XF86_AudioNext => Key::MediaTrackNext,
keysyms::XF86_HomePage => Key::BrowserHome,
keysyms::XF86_Mail => Key::LaunchMail,
// keysyms::XF86_Start => Key::Start,
keysyms::XF86_Search => Key::BrowserSearch,
keysyms::XF86_AudioRecord => Key::MediaRecord,
// XFree86 - PDA
keysyms::XF86_Calculator => Key::LaunchApplication2,
// keysyms::XF86_Memo => Key::Memo,
// keysyms::XF86_ToDoList => Key::ToDoList,
keysyms::XF86_Calendar => Key::LaunchCalendar,
keysyms::XF86_PowerDown => Key::Power,
// keysyms::XF86_ContrastAdjust => Key::AdjustContrast,
// keysyms::XF86_RockerUp => Key::RockerUp,
// keysyms::XF86_RockerDown => Key::RockerDown,
// keysyms::XF86_RockerEnter => Key::RockerEnter,
// XFree86 - More "Internet"
keysyms::XF86_Back => Key::BrowserBack,
keysyms::XF86_Forward => Key::BrowserForward,
// keysyms::XF86_Stop => Key::Stop,
keysyms::XF86_Refresh => Key::BrowserRefresh,
keysyms::XF86_PowerOff => Key::Power,
keysyms::XF86_WakeUp => Key::WakeUp,
keysyms::XF86_Eject => Key::Eject,
keysyms::XF86_ScreenSaver => Key::LaunchScreenSaver,
keysyms::XF86_WWW => Key::LaunchWebBrowser,
keysyms::XF86_Sleep => Key::Standby,
keysyms::XF86_Favorites => Key::BrowserFavorites,
keysyms::XF86_AudioPause => Key::MediaPause,
// keysyms::XF86_AudioMedia => Key::AudioMedia,
keysyms::XF86_MyComputer => Key::LaunchApplication1,
// keysyms::XF86_VendorHome => Key::VendorHome,
// keysyms::XF86_LightBulb => Key::LightBulb,
// keysyms::XF86_Shop => Key::BrowserShop,
// keysyms::XF86_History => Key::BrowserHistory,
// keysyms::XF86_OpenURL => Key::OpenUrl,
// keysyms::XF86_AddFavorite => Key::AddFavorite,
// keysyms::XF86_HotLinks => Key::HotLinks,
// keysyms::XF86_BrightnessAdjust => Key::BrightnessAdjust,
// keysyms::XF86_Finance => Key::BrowserFinance,
// keysyms::XF86_Community => Key::BrowserCommunity,
keysyms::XF86_AudioRewind => Key::MediaRewind,
// keysyms::XF86_BackForward => Key::???,
// XF86_Launch0..XF86_LaunchF
// XF86_ApplicationLeft..XF86_CD
keysyms::XF86_Calculater => Key::LaunchApplication2, // Nice typo, libxkbcommon :)
// XF86_Clear
keysyms::XF86_Close => Key::Close,
keysyms::XF86_Copy => Key::Copy,
keysyms::XF86_Cut => Key::Cut,
// XF86_Display..XF86_Documents
keysyms::XF86_Excel => Key::LaunchSpreadsheet,
// XF86_Explorer..XF86iTouch
keysyms::XF86_LogOff => Key::LogOff,
// XF86_Market..XF86_MenuPB
keysyms::XF86_MySites => Key::BrowserFavorites,
keysyms::XF86_New => Key::New,
// XF86_News..XF86_OfficeHome
keysyms::XF86_Open => Key::Open,
// XF86_Option
keysyms::XF86_Paste => Key::Paste,
keysyms::XF86_Phone => Key::LaunchPhone,
// XF86_Q
keysyms::XF86_Reply => Key::MailReply,
keysyms::XF86_Reload => Key::BrowserRefresh,
// XF86_RotateWindows..XF86_RotationKB
keysyms::XF86_Save => Key::Save,
// XF86_ScrollUp..XF86_ScrollClick
keysyms::XF86_Send => Key::MailSend,
keysyms::XF86_Spell => Key::SpellCheck,
keysyms::XF86_SplitScreen => Key::SplitScreenToggle,
// XF86_Support..XF86_User2KB
keysyms::XF86_Video => Key::LaunchMediaPlayer,
// XF86_WheelButton
keysyms::XF86_Word => Key::LaunchWordProcessor,
// XF86_Xfer
keysyms::XF86_ZoomIn => Key::ZoomIn,
keysyms::XF86_ZoomOut => Key::ZoomOut,
// XF86_Away..XF86_Messenger
keysyms::XF86_WebCam => Key::LaunchWebCam,
keysyms::XF86_MailForward => Key::MailForward,
// XF86_Pictures
keysyms::XF86_Music => Key::LaunchMusicPlayer,
// XF86_Battery..XF86_UWB
//
keysyms::XF86_AudioForward => Key::MediaFastForward,
// XF86_AudioRepeat
keysyms::XF86_AudioRandomPlay => Key::RandomToggle,
keysyms::XF86_Subtitle => Key::Subtitle,
keysyms::XF86_AudioCycleTrack => Key::MediaAudioTrack,
// XF86_CycleAngle..XF86_Blue
//
keysyms::XF86_Suspend => Key::Standby,
keysyms::XF86_Hibernate => Key::Hibernate,
// XF86_TouchpadToggle..XF86_TouchpadOff
//
keysyms::XF86_AudioMute => Key::AudioVolumeMute,
// XF86_Switch_VT_1..XF86_Switch_VT_12
// XF86_Ungrab..XF86_ClearGrab
keysyms::XF86_Next_VMode => Key::VideoModeNext,
// keysyms::XF86_Prev_VMode => Key::VideoModePrevious,
// XF86_LogWindowTree..XF86_LogGrabInfo
// SunFA_Grave..SunFA_Cedilla
// keysyms::SunF36 => Key::F36 | Key::F11,
// keysyms::SunF37 => Key::F37 | Key::F12,
// keysyms::SunSys_Req => Key::PrintScreen,
// The next couple of xkb (until SunStop) are already handled.
// SunPrint_Screen..SunPageDown
// SunUndo..SunFront
keysyms::SUN_Copy => Key::Copy,
keysyms::SUN_Open => Key::Open,
keysyms::SUN_Paste => Key::Paste,
keysyms::SUN_Cut => Key::Cut,
// SunPowerSwitch
keysyms::SUN_AudioLowerVolume => Key::AudioVolumeDown,
keysyms::SUN_AudioMute => Key::AudioVolumeMute,
keysyms::SUN_AudioRaiseVolume => Key::AudioVolumeUp,
// SUN_VideoDegauss
keysyms::SUN_VideoLowerBrightness => Key::BrightnessDown,
keysyms::SUN_VideoRaiseBrightness => Key::BrightnessUp,
// SunPowerSwitchShift
//
0 => Key::Unidentified(NativeKey::Unidentified),
_ => Key::Unidentified(NativeKey::Xkb(keysym)),
}
}
pub fn keysym_location(keysym: u32) -> KeyLocation {
use xkbcommon_dl::keysyms;
match keysym {
keysyms::Shift_L
| keysyms::Control_L
| keysyms::Meta_L
| keysyms::Alt_L
| keysyms::Super_L
| keysyms::Hyper_L => KeyLocation::Left,
keysyms::Shift_R
| keysyms::Control_R
| keysyms::Meta_R
| keysyms::Alt_R
| keysyms::Super_R
| keysyms::Hyper_R => KeyLocation::Right,
keysyms::KP_0
| keysyms::KP_1
| keysyms::KP_2
| keysyms::KP_3
| keysyms::KP_4
| keysyms::KP_5
| keysyms::KP_6
| keysyms::KP_7
| keysyms::KP_8
| keysyms::KP_9
| keysyms::KP_Space
| keysyms::KP_Tab
| keysyms::KP_Enter
| keysyms::KP_F1
| keysyms::KP_F2
| keysyms::KP_F3
| keysyms::KP_F4
| keysyms::KP_Home
| keysyms::KP_Left
| keysyms::KP_Up
| keysyms::KP_Right
| keysyms::KP_Down
| keysyms::KP_Page_Up
| keysyms::KP_Page_Down
| keysyms::KP_End
| keysyms::KP_Begin
| keysyms::KP_Insert
| keysyms::KP_Delete
| keysyms::KP_Equal
| keysyms::KP_Multiply
| keysyms::KP_Add
| keysyms::KP_Separator
| keysyms::KP_Subtract
| keysyms::KP_Decimal
| keysyms::KP_Divide => KeyLocation::Numpad,
_ => KeyLocation::Standard,
}
}

2
src/platform_impl/linux/common/mod.rs
View File

@@ -1,2 +0,0 @@
pub mod keymap;
pub mod xkb_state;

691
src/platform_impl/linux/common/xkb_state.rs
View File

@@ -1,691 +0,0 @@
use std::convert::TryInto;
use std::env;
use std::ffi::CString;
use std::os::raw::c_char;
use std::os::unix::ffi::OsStringExt;
use std::ptr;
use std::sync::atomic::{AtomicBool, Ordering};
use once_cell::sync::Lazy;
use smol_str::SmolStr;
use xkbcommon_dl::{
self as ffi, xkb_state_component, xkbcommon_compose_handle, xkbcommon_handle, XkbCommon,
XkbCommonCompose,
};
#[cfg(feature = "wayland")]
use {memmap2::MmapOptions, std::os::unix::io::OwnedFd};
#[cfg(feature = "x11")]
use {x11_dl::xlib_xcb::xcb_connection_t, xkbcommon_dl::x11::xkbcommon_x11_handle};
use crate::event::KeyEvent;
use crate::platform_impl::common::keymap;
use crate::platform_impl::KeyEventExtra;
use crate::{
event::ElementState,
keyboard::{Key, KeyCode, KeyLocation},
};
// TODO: Wire this up without using a static `AtomicBool`.
static RESET_DEAD_KEYS: AtomicBool = AtomicBool::new(false);
#[inline(always)]
pub fn reset_dead_keys() {
RESET_DEAD_KEYS.store(true, Ordering::SeqCst);
}
static XKBH: Lazy<&'static XkbCommon> = Lazy::new(xkbcommon_handle);
static XKBCH: Lazy<&'static XkbCommonCompose> = Lazy::new(xkbcommon_compose_handle);
#[cfg(feature = "x11")]
static XKBXH: Lazy<&'static ffi::x11::XkbCommonX11> = Lazy::new(xkbcommon_x11_handle);
#[derive(Debug)]
pub struct KbdState {
#[cfg(feature = "x11")]
xcb_connection: *mut xcb_connection_t,
xkb_context: *mut ffi::xkb_context,
xkb_keymap: *mut ffi::xkb_keymap,
xkb_state: *mut ffi::xkb_state,
xkb_compose_table: *mut ffi::xkb_compose_table,
xkb_compose_state: *mut ffi::xkb_compose_state,
xkb_compose_state_2: *mut ffi::xkb_compose_state,
mods_state: ModifiersState,
#[cfg(feature = "x11")]
pub core_keyboard_id: i32,
scratch_buffer: Vec<u8>,
}
impl KbdState {
pub fn update_modifiers(
&mut self,
mods_depressed: u32,
mods_latched: u32,
mods_locked: u32,
depressed_group: u32,
latched_group: u32,
locked_group: u32,
) {
if !self.ready() {
return;
}
let mask = unsafe {
(XKBH.xkb_state_update_mask)(
self.xkb_state,
mods_depressed,
mods_latched,
mods_locked,
depressed_group,
latched_group,
locked_group,
)
};
if mask.contains(xkb_state_component::XKB_STATE_MODS_EFFECTIVE) {
// effective value of mods have changed, we need to update our state
self.mods_state.update_with(self.xkb_state);
}
}
pub fn get_one_sym_raw(&mut self, keycode: u32) -> u32 {
if !self.ready() {
return 0;
}
unsafe { (XKBH.xkb_state_key_get_one_sym)(self.xkb_state, keycode) }
}
pub fn get_utf8_raw(&mut self, keycode: u32) -> Option<SmolStr> {
if !self.ready() {
return None;
}
let xkb_state = self.xkb_state;
self.make_string_with({
|ptr, len| unsafe { (XKBH.xkb_state_key_get_utf8)(xkb_state, keycode, ptr, len) }
})
}
fn compose_feed_normal(&mut self, keysym: u32) -> Option<ffi::xkb_compose_feed_result> {
self.compose_feed(self.xkb_compose_state, keysym)
}
fn compose_feed_2(&mut self, keysym: u32) -> Option<ffi::xkb_compose_feed_result> {
self.compose_feed(self.xkb_compose_state_2, keysym)
}
fn compose_feed(
&mut self,
xkb_compose_state: *mut ffi::xkb_compose_state,
keysym: u32,
) -> Option<ffi::xkb_compose_feed_result> {
if !self.ready() || self.xkb_compose_state.is_null() {
return None;
}
if RESET_DEAD_KEYS.swap(false, Ordering::SeqCst) {
unsafe { self.init_compose() };
}
Some(unsafe { (XKBCH.xkb_compose_state_feed)(xkb_compose_state, keysym) })
}
fn compose_status_normal(&mut self) -> Option<ffi::xkb_compose_status> {
self.compose_status(self.xkb_compose_state)
}
fn compose_status(
&mut self,
xkb_compose_state: *mut ffi::xkb_compose_state,
) -> Option<ffi::xkb_compose_status> {
if !self.ready() || xkb_compose_state.is_null() {
return None;
}
Some(unsafe { (XKBCH.xkb_compose_state_get_status)(xkb_compose_state) })
}
fn compose_get_utf8_normal(&mut self) -> Option<SmolStr> {
self.compose_get_utf8(self.xkb_compose_state)
}
fn compose_get_utf8_2(&mut self) -> Option<SmolStr> {
self.compose_get_utf8(self.xkb_compose_state_2)
}
fn compose_get_utf8(
&mut self,
xkb_compose_state: *mut ffi::xkb_compose_state,
) -> Option<SmolStr> {
if !self.ready() || xkb_compose_state.is_null() {
return None;
}
self.make_string_with(|ptr, len| unsafe {
(XKBCH.xkb_compose_state_get_utf8)(xkb_compose_state, ptr, len)
})
}
/// Shared logic for constructing a string with `xkb_compose_state_get_utf8` and
/// `xkb_state_key_get_utf8`.
fn make_string_with<F>(&mut self, mut f: F) -> Option<SmolStr>
where
F: FnMut(*mut c_char, usize) -> i32,
{
let size = f(ptr::null_mut(), 0);
if size == 0 {
return None;
}
let size = usize::try_from(size).unwrap();
self.scratch_buffer.clear();
// The allocated buffer must include space for the null-terminator
self.scratch_buffer.reserve(size + 1);
unsafe {
let written = f(
self.scratch_buffer.as_mut_ptr().cast(),
self.scratch_buffer.capacity(),
);
if usize::try_from(written).unwrap() != size {
// This will likely never happen
return None;
}
self.scratch_buffer.set_len(size);
};
byte_slice_to_smol_str(&self.scratch_buffer)
}
pub fn new() -> Result<Self, Error> {
if ffi::xkbcommon_option().is_none() {
return Err(Error::XKBNotFound);
}
let context =
unsafe { (XKBH.xkb_context_new)(ffi::xkb_context_flags::XKB_CONTEXT_NO_FLAGS) };
if context.is_null() {
return Err(Error::XKBNotFound);
}
let mut me = Self {
#[cfg(feature = "x11")]
xcb_connection: ptr::null_mut(),
xkb_context: context,
xkb_keymap: ptr::null_mut(),
xkb_state: ptr::null_mut(),
xkb_compose_table: ptr::null_mut(),
xkb_compose_state: ptr::null_mut(),
xkb_compose_state_2: ptr::null_mut(),
mods_state: ModifiersState::new(),
#[cfg(feature = "x11")]
core_keyboard_id: 0,
scratch_buffer: Vec::new(),
};
unsafe { me.init_compose() };
Ok(me)
}
#[cfg(feature = "x11")]
pub fn from_x11_xkb(connection: *mut xcb_connection_t) -> Result<Self, Error> {
let mut me = Self::new()?;
me.xcb_connection = connection;
let result = unsafe {
(XKBXH.xkb_x11_setup_xkb_extension)(
connection,
1,
2,
xkbcommon_dl::x11::xkb_x11_setup_xkb_extension_flags::XKB_X11_SETUP_XKB_EXTENSION_NO_FLAGS,
ptr::null_mut(),
ptr::null_mut(),
ptr::null_mut(),
ptr::null_mut(),
)
};
assert_eq!(result, 1, "Failed to initialize libxkbcommon");
unsafe { me.init_with_x11_keymap() };
Ok(me)
}
unsafe fn init_compose(&mut self) {
let locale = env::var_os("LC_ALL")
.and_then(|v| if v.is_empty() { None } else { Some(v) })
.or_else(|| env::var_os("LC_CTYPE"))
.and_then(|v| if v.is_empty() { None } else { Some(v) })
.or_else(|| env::var_os("LANG"))
.and_then(|v| if v.is_empty() { None } else { Some(v) })
.unwrap_or_else(|| "C".into());
let locale = CString::new(locale.into_vec()).unwrap();
let compose_table = unsafe {
(XKBCH.xkb_compose_table_new_from_locale)(
self.xkb_context,
locale.as_ptr(),
ffi::xkb_compose_compile_flags::XKB_COMPOSE_COMPILE_NO_FLAGS,
)
};
if compose_table.is_null() {
// init of compose table failed, continue without compose
return;
}
let compose_state = unsafe {
(XKBCH.xkb_compose_state_new)(
compose_table,
ffi::xkb_compose_state_flags::XKB_COMPOSE_STATE_NO_FLAGS,
)
};
if compose_state.is_null() {
// init of compose state failed, continue without compose
unsafe { (XKBCH.xkb_compose_table_unref)(compose_table) };
return;
}
let compose_state_2 = unsafe {
(XKBCH.xkb_compose_state_new)(
compose_table,
ffi::xkb_compose_state_flags::XKB_COMPOSE_STATE_NO_FLAGS,
)
};
if compose_state_2.is_null() {
// init of compose state failed, continue without compose
unsafe { (XKBCH.xkb_compose_table_unref)(compose_table) };
unsafe { (XKBCH.xkb_compose_state_unref)(compose_state) };
return;
}
self.xkb_compose_table = compose_table;
self.xkb_compose_state = compose_state;
self.xkb_compose_state_2 = compose_state_2;
}
unsafe fn post_init(&mut self, state: *mut ffi::xkb_state, keymap: *mut ffi::xkb_keymap) {
self.xkb_keymap = keymap;
self.xkb_state = state;
self.mods_state.update_with(state);
}
unsafe fn de_init(&mut self) {
unsafe { (XKBH.xkb_state_unref)(self.xkb_state) };
self.xkb_state = ptr::null_mut();
unsafe { (XKBH.xkb_keymap_unref)(self.xkb_keymap) };
self.xkb_keymap = ptr::null_mut();
}
#[cfg(feature = "x11")]
pub unsafe fn init_with_x11_keymap(&mut self) {
if !self.xkb_keymap.is_null() {
unsafe { self.de_init() };
}
// TODO: Support keyboards other than the "virtual core keyboard device".
self.core_keyboard_id =
unsafe { (XKBXH.xkb_x11_get_core_keyboard_device_id)(self.xcb_connection) };
let keymap = unsafe {
(XKBXH.xkb_x11_keymap_new_from_device)(
self.xkb_context,
self.xcb_connection,
self.core_keyboard_id,
xkbcommon_dl::xkb_keymap_compile_flags::XKB_KEYMAP_COMPILE_NO_FLAGS,
)
};
if keymap.is_null() {
panic!("Failed to get keymap from X11 server.");
}
let state = unsafe {
(XKBXH.xkb_x11_state_new_from_device)(
keymap,
self.xcb_connection,
self.core_keyboard_id,
)
};
unsafe { self.post_init(state, keymap) };
}
#[cfg(feature = "wayland")]
pub unsafe fn init_with_fd(&mut self, fd: OwnedFd, size: usize) {
if !self.xkb_keymap.is_null() {
unsafe { self.de_init() };
}
let map = unsafe {
MmapOptions::new()
.len(size)
.map_copy_read_only(&fd)
.unwrap()
};
let keymap = unsafe {
(XKBH.xkb_keymap_new_from_string)(
self.xkb_context,
map.as_ptr() as *const _,
ffi::xkb_keymap_format::XKB_KEYMAP_FORMAT_TEXT_V1,
ffi::xkb_keymap_compile_flags::XKB_KEYMAP_COMPILE_NO_FLAGS,
)
};
if keymap.is_null() {
panic!("Received invalid keymap from compositor.");
}
let state = unsafe { (XKBH.xkb_state_new)(keymap) };
unsafe { self.post_init(state, keymap) };
}
pub fn key_repeats(&mut self, keycode: ffi::xkb_keycode_t) -> bool {
unsafe { (XKBH.xkb_keymap_key_repeats)(self.xkb_keymap, keycode) == 1 }
}
#[inline]
pub fn ready(&self) -> bool {
!self.xkb_state.is_null()
}
#[inline]
pub fn mods_state(&self) -> ModifiersState {
self.mods_state
}
pub fn process_key_event(
&mut self,
keycode: u32,
state: ElementState,
repeat: bool,
) -> KeyEvent {
let mut event =
KeyEventResults::new(self, keycode, !repeat && state == ElementState::Pressed);
let physical_key = event.keycode();
let (logical_key, location) = event.key();
let text = event.text();
let (key_without_modifiers, _) = event.key_without_modifiers();
let text_with_all_modifiers = event.text_with_all_modifiers();
let platform_specific = KeyEventExtra {
key_without_modifiers,
text_with_all_modifiers,
};
KeyEvent {
physical_key,
logical_key,
text,
location,
state,
repeat,
platform_specific,
}
}
fn keysym_to_utf8_raw(&mut self, keysym: u32) -> Option<SmolStr> {
self.scratch_buffer.clear();
self.scratch_buffer.reserve(8);
loop {
let bytes_written = unsafe {
(XKBH.xkb_keysym_to_utf8)(
keysym,
self.scratch_buffer.as_mut_ptr().cast(),
self.scratch_buffer.capacity(),
)
};
if bytes_written == 0 {
return None;
} else if bytes_written == -1 {
self.scratch_buffer.reserve(8);
} else {
unsafe {
self.scratch_buffer
.set_len(bytes_written.try_into().unwrap())
};
break;
}
}
// Remove the null-terminator
self.scratch_buffer.pop();
byte_slice_to_smol_str(&self.scratch_buffer)
}
}
impl Drop for KbdState {
fn drop(&mut self) {
unsafe {
if !self.xkb_compose_state.is_null() {
(XKBCH.xkb_compose_state_unref)(self.xkb_compose_state);
}
if !self.xkb_compose_state_2.is_null() {
(XKBCH.xkb_compose_state_unref)(self.xkb_compose_state_2);
}
if !self.xkb_compose_table.is_null() {
(XKBCH.xkb_compose_table_unref)(self.xkb_compose_table);
}
if !self.xkb_state.is_null() {
(XKBH.xkb_state_unref)(self.xkb_state);
}
if !self.xkb_keymap.is_null() {
(XKBH.xkb_keymap_unref)(self.xkb_keymap);
}
(XKBH.xkb_context_unref)(self.xkb_context);
}
}
}
struct KeyEventResults<'a> {
state: &'a mut KbdState,
keycode: u32,
keysym: u32,
compose: Option<XkbCompose>,
}
impl<'a> KeyEventResults<'a> {
fn new(state: &'a mut KbdState, keycode: u32, compose: bool) -> Self {
let keysym = state.get_one_sym_raw(keycode);
let compose = if compose {
Some(match state.compose_feed_normal(keysym) {
Some(ffi::xkb_compose_feed_result::XKB_COMPOSE_FEED_ACCEPTED) => {
// Unwrapping is safe here, as `compose_feed` returns `None` when composition is uninitialized.
XkbCompose::Accepted(state.compose_status_normal().unwrap())
}
Some(ffi::xkb_compose_feed_result::XKB_COMPOSE_FEED_IGNORED) => XkbCompose::Ignored,
None => XkbCompose::Uninitialized,
})
} else {
None
};
KeyEventResults {
state,
keycode,
keysym,
compose,
}
}
fn keycode(&mut self) -> KeyCode {
keymap::raw_keycode_to_keycode(self.keycode)
}
pub fn key(&mut self) -> (Key, KeyLocation) {
self.keysym_to_key(self.keysym)
.unwrap_or_else(|(key, location)| match self.compose {
Some(XkbCompose::Accepted(ffi::xkb_compose_status::XKB_COMPOSE_COMPOSING)) => {
// When pressing a dead key twice, the non-combining variant of that character will be
// produced. Since this function only concerns itself with a single keypress, we simulate
// this double press here by feeding the keysym to the compose state twice.
self.state.compose_feed_2(self.keysym);
match self.state.compose_feed_2(self.keysym) {
Some(ffi::xkb_compose_feed_result::XKB_COMPOSE_FEED_ACCEPTED) => (
// Extracting only a single `char` here *should* be fine, assuming that no dead
// key's non-combining variant ever occupies more than one `char`.
Key::Dead(
self.state
.compose_get_utf8_2()
.map(|s| s.chars().next().unwrap()),
),
location,
),
_ => (key, location),
}
}
_ => (
self.composed_text()
.unwrap_or_else(|_| self.state.keysym_to_utf8_raw(self.keysym))
.map(Key::Character)
.unwrap_or(key),
location,
),
})
}
pub fn key_without_modifiers(&mut self) -> (Key, KeyLocation) {
// This will become a pointer to an array which libxkbcommon owns, so we don't need to deallocate it.
let mut keysyms = ptr::null();
let keysym_count = unsafe {
let layout = (XKBH.xkb_state_key_get_layout)(self.state.xkb_state, self.keycode);
(XKBH.xkb_keymap_key_get_syms_by_level)(
self.state.xkb_keymap,
self.keycode,
layout,
// NOTE: The level should be zero to ignore modifiers.
0,
&mut keysyms,
)
};
let keysym = if keysym_count == 1 {
unsafe { *keysyms }
} else {
0
};
self.keysym_to_key(keysym)
.unwrap_or_else(|(key, location)| {
(
self.state
.keysym_to_utf8_raw(keysym)
.map(Key::Character)
.unwrap_or(key),
location,
)
})
}
fn keysym_to_key(&mut self, keysym: u32) -> Result<(Key, KeyLocation), (Key, KeyLocation)> {
let location = super::keymap::keysym_location(keysym);
let key = super::keymap::keysym_to_key(keysym);
if matches!(key, Key::Unidentified(_)) {
Err((key, location))
} else {
Ok((key, location))
}
}
pub fn text(&mut self) -> Option<SmolStr> {
self.composed_text()
.unwrap_or_else(|_| self.state.keysym_to_utf8_raw(self.keysym))
}
pub fn text_with_all_modifiers(&mut self) -> Option<SmolStr> {
// The current behaviour makes it so composing a character overrides attempts to input a
// control character with the `Ctrl` key. We can potentially add a configuration option
// if someone specifically wants the oppsite behaviour.
self.composed_text()
.unwrap_or_else(|_| self.state.get_utf8_raw(self.keycode))
}
fn composed_text(&mut self) -> Result<Option<SmolStr>, ()> {
if let Some(compose) = &self.compose {
match compose {
XkbCompose::Accepted(status) => match status {
ffi::xkb_compose_status::XKB_COMPOSE_COMPOSED => {
Ok(self.state.compose_get_utf8_normal())
}
ffi::xkb_compose_status::XKB_COMPOSE_NOTHING => Err(()),
_ => Ok(None),
},
XkbCompose::Ignored | XkbCompose::Uninitialized => Err(()),
}
} else {
Err(())
}
}
}
/// Represents the current state of the keyboard modifiers
///
/// Each field of this struct represents a modifier and is `true` if this modifier is active.
///
/// For some modifiers, this means that the key is currently pressed, others are toggled
/// (like caps lock).
#[derive(Copy, Clone, Debug, Default, PartialEq, Eq)]
pub struct ModifiersState {
/// The "control" key
pub ctrl: bool,
/// The "alt" key
pub alt: bool,
/// The "shift" key
pub shift: bool,
/// The "Caps lock" key
pub caps_lock: bool,
/// The "logo" key
///
/// Also known as the "windows" key on most keyboards
pub logo: bool,
/// The "Num lock" key
pub num_lock: bool,
}
impl ModifiersState {
fn new() -> Self {
Self::default()
}
fn update_with(&mut self, state: *mut ffi::xkb_state) {
let mod_name_is_active = |mod_name: &[u8]| unsafe {
(XKBH.xkb_state_mod_name_is_active)(
state,
mod_name.as_ptr() as *const c_char,
xkb_state_component::XKB_STATE_MODS_EFFECTIVE,
) > 0
};
self.ctrl = mod_name_is_active(ffi::XKB_MOD_NAME_CTRL);
self.alt = mod_name_is_active(ffi::XKB_MOD_NAME_ALT);
self.shift = mod_name_is_active(ffi::XKB_MOD_NAME_SHIFT);
self.caps_lock = mod_name_is_active(ffi::XKB_MOD_NAME_CAPS);
self.logo = mod_name_is_active(ffi::XKB_MOD_NAME_LOGO);
self.num_lock = mod_name_is_active(ffi::XKB_MOD_NAME_NUM);
}
}
impl From<ModifiersState> for crate::keyboard::ModifiersState {
fn from(mods: ModifiersState) -> crate::keyboard::ModifiersState {
let mut to_mods = crate::keyboard::ModifiersState::empty();
to_mods.set(crate::keyboard::ModifiersState::SHIFT, mods.shift);
to_mods.set(crate::keyboard::ModifiersState::CONTROL, mods.ctrl);
to_mods.set(crate::keyboard::ModifiersState::ALT, mods.alt);
to_mods.set(crate::keyboard::ModifiersState::SUPER, mods.logo);
to_mods
}
}
#[derive(Debug)]
pub enum Error {
/// libxkbcommon is not available
XKBNotFound,
}
#[derive(Copy, Clone, Debug)]
enum XkbCompose {
Accepted(ffi::xkb_compose_status),
Ignored,
Uninitialized,
}
// Note: This is track_caller so we can have more informative line numbers when logging
#[track_caller]
fn byte_slice_to_smol_str(bytes: &[u8]) -> Option<SmolStr> {
std::str::from_utf8(bytes)
.map(SmolStr::new)
.map_err(|e| {
warn!(
"UTF-8 received from libxkbcommon ({:?}) was invalid: {e}",
bytes
)
})
.ok()
}

503
src/platform_impl/linux/mod.rs
View File

@@ -3,51 +3,59 @@
#[cfg(all(not(x11_platform), not(wayland_platform)))]
compile_error!("Please select a feature to build for unix: `x11`, `wayland`");
use std::sync::Arc;
use std::time::Duration;
#[cfg(wayland_platform)]
use std::error::Error;
use std::{collections::VecDeque, env, fmt};
#[cfg(x11_platform)]
use std::{ffi::CStr, mem::MaybeUninit, os::raw::*, sync::Mutex};
use std::{
ffi::CStr,
mem::MaybeUninit,
os::raw::*,
sync::{Arc, Mutex},
};
#[cfg(x11_platform)]
use once_cell::sync::Lazy;
use smol_str::SmolStr;
use raw_window_handle::{RawDisplayHandle, RawWindowHandle};
#[cfg(x11_platform)]
pub use self::x11::XNotSupported;
#[cfg(x11_platform)]
use self::x11::{ffi::XVisualInfo, util::WindowType as XWindowType, XConnection, XError};
#[cfg(x11_platform)]
use crate::platform::x11::XlibErrorHook;
use crate::{
dpi::{PhysicalPosition, PhysicalSize, Position, Size},
error::{EventLoopError, ExternalError, NotSupportedError, OsError as RootOsError},
event::KeyEvent,
error::{ExternalError, NotSupportedError, OsError as RootOsError},
event::Event,
event_loop::{
AsyncRequestSerial, ControlFlow, DeviceEvents, EventLoopClosed,
EventLoopWindowTarget as RootELW,
ControlFlow, DeviceEventFilter, EventLoopClosed, EventLoopWindowTarget as RootELW,
},
icon::Icon,
keyboard::{Key, KeyCode},
platform::{
modifier_supplement::KeyEventExtModifierSupplement, pump_events::PumpStatus,
scancode::KeyCodeExtScancode,
},
window::{
ActivationToken, CursorGrabMode, CursorIcon, ImePurpose, ResizeDirection, Theme,
UserAttentionType, WindowAttributes, WindowButtons, WindowLevel,
CursorGrabMode, CursorIcon, ImePurpose, ResizeDirection, Theme, UserAttentionType,
WindowAttributes, WindowButtons, WindowLevel,
},
};
#[cfg(x11_platform)]
pub use x11::XNotSupported;
#[cfg(x11_platform)]
use x11::{util::WindowType as XWindowType, X11Error, XConnection, XError};
pub(crate) use crate::icon::RgbaIcon as PlatformIcon;
pub(crate) use crate::platform_impl::Fullscreen;
pub(self) use crate::platform_impl::Fullscreen;
pub mod common;
#[cfg(wayland_platform)]
pub mod wayland;
#[cfg(x11_platform)]
pub mod x11;
/// Environment variable specifying which backend should be used on unix platform.
///
/// Legal values are x11 and wayland. If this variable is set only the named backend
/// will be tried by winit. If it is not set, winit will try to connect to a wayland connection,
/// and if it fails will fallback on x11.
///
/// If this variable is set with any other value, winit will panic.
const BACKEND_PREFERENCE_ENV_VAR: &str = "WINIT_UNIX_BACKEND";
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub(crate) enum Backend {
#[cfg(x11_platform)]
@@ -77,38 +85,32 @@ impl ApplicationName {
#[derive(Clone)]
pub struct PlatformSpecificWindowBuilderAttributes {
pub name: Option<ApplicationName>,
pub activation_token: Option<ActivationToken>,
#[cfg(x11_platform)]
pub x11: X11WindowBuilderAttributes,
}
#[derive(Clone)]
#[cfg(x11_platform)]
pub struct X11WindowBuilderAttributes {
pub visual_id: Option<x11rb::protocol::xproto::Visualid>,
pub visual_infos: Option<XVisualInfo>,
#[cfg(x11_platform)]
pub screen_id: Option<i32>,
#[cfg(x11_platform)]
pub base_size: Option<Size>,
#[cfg(x11_platform)]
pub override_redirect: bool,
#[cfg(x11_platform)]
pub x11_window_types: Vec<XWindowType>,
/// The parent window to embed this window into.
pub embed_window: Option<x11rb::protocol::xproto::Window>,
}
impl Default for PlatformSpecificWindowBuilderAttributes {
fn default() -> Self {
Self {
name: None,
activation_token: None,
#[cfg(x11_platform)]
x11: X11WindowBuilderAttributes {
visual_id: None,
screen_id: None,
base_size: None,
override_redirect: false,
x11_window_types: vec![XWindowType::Normal],
embed_window: None,
},
visual_infos: None,
#[cfg(x11_platform)]
screen_id: None,
#[cfg(x11_platform)]
base_size: None,
#[cfg(x11_platform)]
override_redirect: false,
#[cfg(x11_platform)]
x11_window_types: vec![XWindowType::Normal],
}
}
}
@@ -119,21 +121,23 @@ pub(crate) static X11_BACKEND: Lazy<Mutex<Result<Arc<XConnection>, XNotSupported
#[derive(Debug, Clone)]
pub enum OsError {
Misc(&'static str),
#[cfg(x11_platform)]
XError(Arc<X11Error>),
XError(XError),
#[cfg(x11_platform)]
XMisc(&'static str),
#[cfg(wayland_platform)]
WaylandError(Arc<wayland::WaylandError>),
WaylandMisc(&'static str),
}
impl fmt::Display for OsError {
fn fmt(&self, _f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
match *self {
OsError::Misc(e) => _f.pad(e),
#[cfg(x11_platform)]
OsError::XError(ref e) => fmt::Display::fmt(e, _f),
OsError::XError(ref e) => _f.pad(&e.description),
#[cfg(x11_platform)]
OsError::XMisc(e) => _f.pad(e),
#[cfg(wayland_platform)]
OsError::WaylandError(ref e) => fmt::Display::fmt(e, _f),
OsError::WaylandMisc(e) => _f.pad(e),
}
}
}
@@ -177,9 +181,9 @@ pub enum DeviceId {
impl DeviceId {
pub const unsafe fn dummy() -> Self {
#[cfg(wayland_platform)]
return DeviceId::Wayland(unsafe { wayland::DeviceId::dummy() });
return DeviceId::Wayland(wayland::DeviceId::dummy());
#[cfg(all(not(wayland_platform), x11_platform))]
return DeviceId::X(unsafe { x11::DeviceId::dummy() });
return DeviceId::X(x11::DeviceId::dummy());
}
}
@@ -282,7 +286,7 @@ impl VideoMode {
#[inline]
pub fn monitor(&self) -> MonitorHandle {
x11_or_wayland!(match self; VideoMode(m) => m.monitor(); as MonitorHandle)
x11_or_wayland!(match self; VideoMode(m) => m.monitor())
}
}
@@ -305,17 +309,14 @@ impl Window {
}
}
pub(crate) fn maybe_queue_on_main(&self, f: impl FnOnce(&Self) + Send + 'static) {
f(self)
}
pub(crate) fn maybe_wait_on_main<R: Send>(&self, f: impl FnOnce(&Self) -> R + Send) -> R {
f(self)
}
#[inline]
pub fn id(&self) -> WindowId {
x11_or_wayland!(match self; Window(w) => w.id())
match self {
#[cfg(wayland_platform)]
Self::Wayland(window) => window.id(),
#[cfg(x11_platform)]
Self::X(window) => window.id(),
}
}
#[inline]
@@ -328,11 +329,6 @@ impl Window {
x11_or_wayland!(match self; Window(w) => w.set_transparent(transparent));
}
#[inline]
pub fn set_blur(&self, blur: bool) {
x11_or_wayland!(match self; Window(w) => w.set_blur(blur));
}
#[inline]
pub fn set_visible(&self, visible: bool) {
x11_or_wayland!(match self; Window(w) => w.set_visible(visible))
@@ -369,13 +365,8 @@ impl Window {
}
#[inline]
pub fn request_inner_size(&self, size: Size) -> Option<PhysicalSize<u32>> {
x11_or_wayland!(match self; Window(w) => w.request_inner_size(size))
}
#[inline]
pub(crate) fn request_activation_token(&self) -> Result<AsyncRequestSerial, NotSupportedError> {
x11_or_wayland!(match self; Window(w) => w.request_activation_token())
pub fn set_inner_size(&self, size: Size) {
x11_or_wayland!(match self; Window(w) => w.set_inner_size(size))
}
#[inline]
@@ -443,11 +434,6 @@ impl Window {
x11_or_wayland!(match self; Window(window) => window.drag_resize_window(direction))
}
#[inline]
pub fn show_window_menu(&self, position: Position) {
x11_or_wayland!(match self; Window(w) => w.show_window_menu(position))
}
#[inline]
pub fn set_cursor_hittest(&self, hittest: bool) -> Result<(), ExternalError> {
x11_or_wayland!(match self; Window(w) => w.set_cursor_hittest(hittest))
@@ -504,23 +490,28 @@ impl Window {
}
#[inline]
pub fn set_window_level(&self, level: WindowLevel) {
x11_or_wayland!(match self; Window(w) => w.set_window_level(level))
pub fn set_window_level(&self, _level: WindowLevel) {
match self {
#[cfg(x11_platform)]
Window::X(ref w) => w.set_window_level(_level),
#[cfg(wayland_platform)]
Window::Wayland(_) => (),
}
}
#[inline]
pub fn set_window_icon(&self, window_icon: Option<Icon>) {
x11_or_wayland!(match self; Window(w) => w.set_window_icon(window_icon.map(|icon| icon.inner)))
pub fn set_window_icon(&self, _window_icon: Option<Icon>) {
match self {
#[cfg(x11_platform)]
Window::X(ref w) => w.set_window_icon(_window_icon),
#[cfg(wayland_platform)]
Window::Wayland(_) => (),
}
}
#[inline]
pub fn set_ime_cursor_area(&self, position: Position, size: Size) {
x11_or_wayland!(match self; Window(w) => w.set_ime_cursor_area(position, size))
}
#[inline]
pub fn reset_dead_keys(&self) {
common::xkb_state::reset_dead_keys()
pub fn set_ime_position(&self, position: Position) {
x11_or_wayland!(match self; Window(w) => w.set_ime_position(position))
}
#[inline]
@@ -535,10 +526,20 @@ impl Window {
#[inline]
pub fn focus_window(&self) {
x11_or_wayland!(match self; Window(w) => w.focus_window())
match self {
#[cfg(x11_platform)]
Window::X(ref w) => w.focus_window(),
#[cfg(wayland_platform)]
Window::Wayland(_) => (),
}
}
pub fn request_user_attention(&self, request_type: Option<UserAttentionType>) {
x11_or_wayland!(match self; Window(w) => w.request_user_attention(request_type))
match self {
#[cfg(x11_platform)]
Window::X(ref w) => w.request_user_attention(request_type),
#[cfg(wayland_platform)]
Window::Wayland(ref w) => w.request_user_attention(request_type),
}
}
#[inline]
@@ -546,14 +547,20 @@ impl Window {
x11_or_wayland!(match self; Window(w) => w.request_redraw())
}
#[inline]
pub fn pre_present_notify(&self) {
x11_or_wayland!(match self; Window(w) => w.pre_present_notify())
}
#[inline]
pub fn current_monitor(&self) -> Option<MonitorHandle> {
Some(x11_or_wayland!(match self; Window(w) => w.current_monitor()?; as MonitorHandle))
match self {
#[cfg(x11_platform)]
Window::X(ref window) => {
let current_monitor = MonitorHandle::X(window.current_monitor());
Some(current_monitor)
}
#[cfg(wayland_platform)]
Window::Wayland(ref window) => {
let current_monitor = MonitorHandle::Wayland(window.current_monitor()?);
Some(current_monitor)
}
}
}
#[inline]
@@ -576,39 +583,25 @@ impl Window {
#[inline]
pub fn primary_monitor(&self) -> Option<MonitorHandle> {
Some(x11_or_wayland!(match self; Window(w) => w.primary_monitor()?; as MonitorHandle))
match self {
#[cfg(x11_platform)]
Window::X(ref window) => {
let primary_monitor = MonitorHandle::X(window.primary_monitor());
Some(primary_monitor)
}
#[cfg(wayland_platform)]
Window::Wayland(ref window) => window.primary_monitor(),
}
}
#[cfg(feature = "rwh_04")]
#[inline]
pub fn raw_window_handle_rwh_04(&self) -> rwh_04::RawWindowHandle {
x11_or_wayland!(match self; Window(window) => window.raw_window_handle_rwh_04())
pub fn raw_window_handle(&self) -> RawWindowHandle {
x11_or_wayland!(match self; Window(window) => window.raw_window_handle())
}
#[cfg(feature = "rwh_05")]
#[inline]
pub fn raw_window_handle_rwh_05(&self) -> rwh_05::RawWindowHandle {
x11_or_wayland!(match self; Window(window) => window.raw_window_handle_rwh_05())
}
#[cfg(feature = "rwh_05")]
#[inline]
pub fn raw_display_handle_rwh_05(&self) -> rwh_05::RawDisplayHandle {
x11_or_wayland!(match self; Window(window) => window.raw_display_handle_rwh_05())
}
#[cfg(feature = "rwh_06")]
#[inline]
pub fn raw_window_handle_rwh_06(&self) -> Result<rwh_06::RawWindowHandle, rwh_06::HandleError> {
x11_or_wayland!(match self; Window(window) => window.raw_window_handle_rwh_06())
}
#[cfg(feature = "rwh_06")]
#[inline]
pub fn raw_display_handle_rwh_06(
&self,
) -> Result<rwh_06::RawDisplayHandle, rwh_06::HandleError> {
x11_or_wayland!(match self; Window(window) => window.raw_display_handle_rwh_06())
pub fn raw_display_handle(&self) -> RawDisplayHandle {
x11_or_wayland!(match self; Window(window) => window.raw_display_handle())
}
#[inline]
@@ -621,10 +614,6 @@ impl Window {
x11_or_wayland!(match self; Window(window) => window.theme())
}
pub fn set_content_protected(&self, protected: bool) {
x11_or_wayland!(match self; Window(window) => window.set_content_protected(protected))
}
#[inline]
pub fn has_focus(&self) -> bool {
x11_or_wayland!(match self; Window(window) => window.has_focus())
@@ -635,37 +624,6 @@ impl Window {
}
}
#[derive(Debug, Clone, Eq, PartialEq, Hash)]
pub struct KeyEventExtra {
pub key_without_modifiers: Key,
pub text_with_all_modifiers: Option<SmolStr>,
}
impl KeyEventExtModifierSupplement for KeyEvent {
#[inline]
fn text_with_all_modifiers(&self) -> Option<&str> {
self.platform_specific
.text_with_all_modifiers
.as_ref()
.map(|s| s.as_str())
}
#[inline]
fn key_without_modifiers(&self) -> Key {
self.platform_specific.key_without_modifiers.clone()
}
}
impl KeyCodeExtScancode for KeyCode {
fn from_scancode(scancode: u32) -> KeyCode {
common::keymap::scancode_to_keycode(scancode)
}
fn to_scancode(self) -> Option<u32> {
common::keymap::keycode_to_scancode(self)
}
}
/// Hooks for X11 errors.
#[cfg(x11_platform)]
pub(crate) static mut XLIB_ERROR_HOOKS: Lazy<Mutex<Vec<XlibErrorHook>>> =
@@ -680,31 +638,26 @@ unsafe extern "C" fn x_error_callback(
if let Ok(ref xconn) = *xconn_lock {
// Call all the hooks.
let mut error_handled = false;
for hook in unsafe { XLIB_ERROR_HOOKS.lock() }.unwrap().iter() {
for hook in XLIB_ERROR_HOOKS.lock().unwrap().iter() {
error_handled |= hook(display as *mut _, event as *mut _);
}
// `assume_init` is safe here because the array consists of `MaybeUninit` values,
// which do not require initialization.
let mut buf: [MaybeUninit<c_char>; 1024] = unsafe { MaybeUninit::uninit().assume_init() };
unsafe {
(xconn.xlib.XGetErrorText)(
display,
(*event).error_code as c_int,
buf.as_mut_ptr() as *mut c_char,
buf.len() as c_int,
)
};
let description =
unsafe { CStr::from_ptr(buf.as_ptr() as *const c_char) }.to_string_lossy();
let mut buf: [MaybeUninit<c_char>; 1024] = MaybeUninit::uninit().assume_init();
(xconn.xlib.XGetErrorText)(
display,
(*event).error_code as c_int,
buf.as_mut_ptr() as *mut c_char,
buf.len() as c_int,
);
let description = CStr::from_ptr(buf.as_ptr() as *const c_char).to_string_lossy();
let error = unsafe {
XError {
description: description.into_owned(),
error_code: (*event).error_code,
request_code: (*event).request_code,
minor_code: (*event).minor_code,
}
let error = XError {
description: description.into_owned(),
error_code: (*event).error_code,
request_code: (*event).request_code,
minor_code: (*event).minor_code,
};
// Don't log error.
@@ -739,9 +692,7 @@ impl<T: 'static> Clone for EventLoopProxy<T> {
}
impl<T: 'static> EventLoop<T> {
pub(crate) fn new(
attributes: &PlatformSpecificEventLoopAttributes,
) -> Result<Self, EventLoopError> {
pub(crate) fn new(attributes: &PlatformSpecificEventLoopAttributes) -> Self {
if !attributes.any_thread && !is_main_thread() {
panic!(
"Initializing the event loop outside of the main thread is a significant \
@@ -751,39 +702,65 @@ impl<T: 'static> EventLoop<T> {
);
}
// NOTE: Wayland first because of X11 could be present under wayland as well.
let backend = match (
attributes.forced_backend,
env::var("WAYLAND_DISPLAY").is_ok(),
env::var("DISPLAY").is_ok(),
) {
// User is forcing a backend.
(Some(backend), _, _) => backend,
// Wayland is present.
#[cfg(wayland_platform)]
(None, true, _) => Backend::Wayland,
// X11 is present.
#[cfg(x11_platform)]
(None, _, true) => Backend::X,
// No backend is present.
_ => {
return Err(EventLoopError::Os(os_error!(OsError::Misc(
"neither WAYLAND_DISPLAY nor DISPLAY is set."
))));
#[cfg(x11_platform)]
if attributes.forced_backend == Some(Backend::X) {
// TODO: Propagate
return EventLoop::new_x11_any_thread().unwrap();
}
#[cfg(wayland_platform)]
if attributes.forced_backend == Some(Backend::Wayland) {
// TODO: Propagate
return EventLoop::new_wayland_any_thread().expect("failed to open Wayland connection");
}
if let Ok(env_var) = env::var(BACKEND_PREFERENCE_ENV_VAR) {
match env_var.as_str() {
"x11" => {
// TODO: propagate
#[cfg(x11_platform)]
return EventLoop::new_x11_any_thread()
.expect("Failed to initialize X11 backend");
#[cfg(not(x11_platform))]
panic!("x11 feature is not enabled")
}
"wayland" => {
#[cfg(wayland_platform)]
return EventLoop::new_wayland_any_thread()
.expect("Failed to initialize Wayland backend");
#[cfg(not(wayland_platform))]
panic!("wayland feature is not enabled");
}
_ => panic!(
"Unknown environment variable value for {BACKEND_PREFERENCE_ENV_VAR}, try one of `x11`,`wayland`",
),
}
}
#[cfg(wayland_platform)]
let wayland_err = match EventLoop::new_wayland_any_thread() {
Ok(event_loop) => return event_loop,
Err(err) => err,
};
// Create the display based on the backend.
match backend {
#[cfg(wayland_platform)]
Backend::Wayland => EventLoop::new_wayland_any_thread().map_err(Into::into),
#[cfg(x11_platform)]
Backend::X => Ok(EventLoop::new_x11_any_thread().unwrap()),
}
#[cfg(x11_platform)]
let x11_err = match EventLoop::new_x11_any_thread() {
Ok(event_loop) => return event_loop,
Err(err) => err,
};
#[cfg(not(wayland_platform))]
let wayland_err = "backend disabled";
#[cfg(not(x11_platform))]
let x11_err = "backend disabled";
panic!(
"Failed to initialize any backend! Wayland status: {wayland_err:?} X11 status: {x11_err:?}",
);
}
#[cfg(wayland_platform)]
fn new_wayland_any_thread() -> Result<EventLoop<T>, EventLoopError> {
fn new_wayland_any_thread() -> Result<EventLoop<T>, Box<dyn Error>> {
wayland::EventLoop::new().map(|evlp| EventLoop::Wayland(Box::new(evlp)))
}
@@ -801,25 +778,18 @@ impl<T: 'static> EventLoop<T> {
x11_or_wayland!(match self; EventLoop(evlp) => evlp.create_proxy(); as EventLoopProxy)
}
pub fn run<F>(mut self, callback: F) -> Result<(), EventLoopError>
pub fn run_return<F>(&mut self, callback: F) -> i32
where
F: FnMut(crate::event::Event<T>, &RootELW<T>),
F: FnMut(crate::event::Event<'_, T>, &RootELW<T>, &mut ControlFlow),
{
self.run_on_demand(callback)
x11_or_wayland!(match self; EventLoop(evlp) => evlp.run_return(callback))
}
pub fn run_on_demand<F>(&mut self, callback: F) -> Result<(), EventLoopError>
pub fn run<F>(self, callback: F) -> !
where
F: FnMut(crate::event::Event<T>, &RootELW<T>),
F: 'static + FnMut(crate::event::Event<'_, T>, &RootELW<T>, &mut ControlFlow),
{
x11_or_wayland!(match self; EventLoop(evlp) => evlp.run_on_demand(callback))
}
pub fn pump_events<F>(&mut self, timeout: Option<Duration>, callback: F) -> PumpStatus
where
F: FnMut(crate::event::Event<T>, &RootELW<T>),
{
x11_or_wayland!(match self; EventLoop(evlp) => evlp.pump_events(timeout, callback))
x11_or_wayland!(match self; EventLoop(evlp) => evlp.run(callback))
}
pub fn window_target(&self) -> &crate::event_loop::EventLoopWindowTarget<T> {
@@ -857,78 +827,69 @@ impl<T> EventLoopWindowTarget<T> {
#[cfg(wayland_platform)]
EventLoopWindowTarget::Wayland(ref evlp) => evlp
.available_monitors()
.into_iter()
.map(MonitorHandle::Wayland)
.collect(),
#[cfg(x11_platform)]
EventLoopWindowTarget::X(ref evlp) => {
evlp.available_monitors().map(MonitorHandle::X).collect()
}
EventLoopWindowTarget::X(ref evlp) => evlp
.x_connection()
.available_monitors()
.into_iter()
.map(MonitorHandle::X)
.collect(),
}
}
#[inline]
pub fn primary_monitor(&self) -> Option<MonitorHandle> {
Some(
x11_or_wayland!(match self; EventLoopWindowTarget(evlp) => evlp.primary_monitor()?; as MonitorHandle),
)
match *self {
#[cfg(wayland_platform)]
EventLoopWindowTarget::Wayland(ref evlp) => evlp.primary_monitor(),
#[cfg(x11_platform)]
EventLoopWindowTarget::X(ref evlp) => {
let primary_monitor = MonitorHandle::X(evlp.x_connection().primary_monitor());
Some(primary_monitor)
}
}
}
#[inline]
pub fn listen_device_events(&self, allowed: DeviceEvents) {
x11_or_wayland!(match self; Self(evlp) => evlp.listen_device_events(allowed))
pub fn set_device_event_filter(&self, _filter: DeviceEventFilter) {
match *self {
#[cfg(wayland_platform)]
EventLoopWindowTarget::Wayland(_) => (),
#[cfg(x11_platform)]
EventLoopWindowTarget::X(ref evlp) => evlp.set_device_event_filter(_filter),
}
}
#[cfg(feature = "rwh_05")]
#[inline]
pub fn raw_display_handle_rwh_05(&self) -> rwh_05::RawDisplayHandle {
x11_or_wayland!(match self; Self(evlp) => evlp.raw_display_handle_rwh_05())
}
#[cfg(feature = "rwh_06")]
#[inline]
pub fn raw_display_handle_rwh_06(
&self,
) -> Result<rwh_06::RawDisplayHandle, rwh_06::HandleError> {
x11_or_wayland!(match self; Self(evlp) => evlp.raw_display_handle_rwh_06())
}
pub(crate) fn set_control_flow(&self, control_flow: ControlFlow) {
x11_or_wayland!(match self; Self(evlp) => evlp.set_control_flow(control_flow))
}
pub(crate) fn control_flow(&self) -> ControlFlow {
x11_or_wayland!(match self; Self(evlp) => evlp.control_flow())
}
pub(crate) fn exit(&self) {
x11_or_wayland!(match self; Self(evlp) => evlp.exit())
}
pub(crate) fn exiting(&self) -> bool {
x11_or_wayland!(match self; Self(evlp) => evlp.exiting())
}
fn set_exit_code(&self, code: i32) {
x11_or_wayland!(match self; Self(evlp) => evlp.set_exit_code(code))
}
fn exit_code(&self) -> Option<i32> {
x11_or_wayland!(match self; Self(evlp) => evlp.exit_code())
pub fn raw_display_handle(&self) -> raw_window_handle::RawDisplayHandle {
x11_or_wayland!(match self; Self(evlp) => evlp.raw_display_handle())
}
}
/// Returns the minimum `Option<Duration>`, 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<Duration>, b: Option<Duration>) -> Option<Duration> {
a.map_or(b, |a_timeout| {
b.map_or(Some(a_timeout), |b_timeout| Some(a_timeout.min(b_timeout)))
})
fn sticky_exit_callback<T, F>(
evt: Event<'_, T>,
target: &RootELW<T>,
control_flow: &mut ControlFlow,
callback: &mut F,
) where
F: FnMut(Event<'_, T>, &RootELW<T>, &mut ControlFlow),
{
// make ControlFlow::ExitWithCode sticky by providing a dummy
// control flow reference if it is already ExitWithCode.
if let ControlFlow::ExitWithCode(code) = *control_flow {
callback(evt, target, &mut ControlFlow::ExitWithCode(code))
} else {
callback(evt, target, control_flow)
}
}
#[cfg(target_os = "linux")]
fn is_main_thread() -> bool {
rustix::thread::gettid() == rustix::process::getpid()
use libc::{c_long, getpid, syscall, SYS_gettid};
unsafe { syscall(SYS_gettid) == getpid() as c_long }
}
#[cfg(any(target_os = "dragonfly", target_os = "freebsd", target_os = "openbsd"))]

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