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ZIm/crates/gpui/src/platform/linux/wayland/client.rs
bbb651 c8e03ce42a
Wayland: Support integer scaling without wp_fractional_scale (#8886) 
Release Notes:
- N/A

`DoubleBuffered` is not currently very necessary because we only care
about a single field `OutputState::scale` but I think it can be useful
for other objects as it's a fairly common pattern in wayland.
2024-03-06 18:13:23 -08:00

987 lines
37 KiB
Rust
Raw Blame History

use std::cell::RefCell;
use std::num::NonZeroU32;
use std::rc::Rc;
use std::sync::Arc;
use std::time::Duration;
use calloop::timer::{TimeoutAction, Timer};
use calloop::LoopHandle;
use calloop_wayland_source::WaylandSource;
use copypasta::wayland_clipboard::{create_clipboards_from_external, Clipboard, Primary};
use copypasta::ClipboardProvider;
use wayland_backend::client::ObjectId;
use wayland_backend::protocol::WEnum;
use wayland_client::globals::{registry_queue_init, GlobalListContents};
use wayland_client::protocol::wl_callback::WlCallback;
use wayland_client::protocol::wl_output;
use wayland_client::protocol::wl_pointer::AxisRelativeDirection;
use wayland_client::{
delegate_noop,
protocol::{
wl_buffer, wl_callback, wl_compositor, wl_keyboard, wl_pointer, wl_registry, wl_seat,
wl_shm, wl_shm_pool,
wl_surface::{self, WlSurface},
},
Connection, Dispatch, Proxy, QueueHandle,
};
use wayland_protocols::wp::fractional_scale::v1::client::{
wp_fractional_scale_manager_v1, wp_fractional_scale_v1,
};
use wayland_protocols::wp::viewporter::client::{wp_viewport, wp_viewporter};
use wayland_protocols::xdg::decoration::zv1::client::{
zxdg_decoration_manager_v1, zxdg_toplevel_decoration_v1,
};
use wayland_protocols::xdg::shell::client::{xdg_surface, xdg_toplevel, xdg_wm_base};
use xkbcommon::xkb::ffi::XKB_KEYMAP_FORMAT_TEXT_V1;
use xkbcommon::xkb::{self, Keycode, KEYMAP_COMPILE_NO_FLAGS};
use crate::platform::linux::client::Client;
use crate::platform::linux::wayland::cursor::Cursor;
use crate::platform::linux::wayland::window::{WaylandDecorationState, WaylandWindow};
use crate::platform::{LinuxPlatformInner, PlatformWindow};
use crate::{
platform::linux::wayland::window::WaylandWindowState, AnyWindowHandle, CursorStyle, DisplayId,
KeyDownEvent, KeyUpEvent, Keystroke, Modifiers, MouseButton, MouseDownEvent, MouseMoveEvent,
MouseUpEvent, NavigationDirection, Pixels, PlatformDisplay, PlatformInput, Point, ScrollDelta,
ScrollWheelEvent, TouchPhase, WindowOptions,
};
/// Used to convert evdev scancode to xkb scancode
const MIN_KEYCODE: u32 = 8;
pub(crate) struct WaylandClientStateInner {
compositor: wl_compositor::WlCompositor,
wm_base: xdg_wm_base::XdgWmBase,
shm: wl_shm::WlShm,
viewporter: Option<wp_viewporter::WpViewporter>,
fractional_scale_manager: Option<wp_fractional_scale_manager_v1::WpFractionalScaleManagerV1>,
decoration_manager: Option<zxdg_decoration_manager_v1::ZxdgDecorationManagerV1>,
windows: Vec<(xdg_surface::XdgSurface, Rc<WaylandWindowState>)>,
outputs: Vec<(wl_output::WlOutput, Rc<RefCell<OutputState>>)>,
platform_inner: Rc<LinuxPlatformInner>,
keymap_state: Option<xkb::State>,
repeat: KeyRepeat,
modifiers: Modifiers,
scroll_direction: f64,
mouse_location: Option<Point<Pixels>>,
button_pressed: Option<MouseButton>,
mouse_focused_window: Option<Rc<WaylandWindowState>>,
keyboard_focused_window: Option<Rc<WaylandWindowState>>,
loop_handle: Rc<LoopHandle<'static, ()>>,
}
pub(crate) struct CursorState {
cursor_icon_name: String,
cursor: Option<Cursor>,
}
#[derive(Clone)]
pub(crate) struct WaylandClientState {
client_state_inner: Rc<RefCell<WaylandClientStateInner>>,
cursor_state: Rc<RefCell<CursorState>>,
clipboard: Rc<RefCell<Clipboard>>,
primary: Rc<RefCell<Primary>>,
}
pub(crate) struct KeyRepeat {
characters_per_second: u32,
delay: Duration,
current_id: u64,
current_keysym: Option<xkb::Keysym>,
}
pub(crate) struct WaylandClient {
platform_inner: Rc<LinuxPlatformInner>,
state: WaylandClientState,
qh: Arc<QueueHandle<WaylandClientState>>,
}
const WL_SEAT_VERSION: u32 = 4;
const WL_OUTPUT_VERSION: u32 = 2;
impl WaylandClient {
pub(crate) fn new(linux_platform_inner: Rc<LinuxPlatformInner>) -> Self {
let conn = Connection::connect_to_env().unwrap();
let (globals, mut event_queue) = registry_queue_init::<WaylandClientState>(&conn).unwrap();
let qh = event_queue.handle();
let mut outputs = Vec::new();
globals.contents().with_list(|list| {
for global in list {
match &global.interface[..] {
"wl_seat" => {
globals.registry().bind::<wl_seat::WlSeat, _, _>(
global.name,
WL_SEAT_VERSION,
&qh,
(),
);
}
"wl_output" => outputs.push((
globals.registry().bind::<wl_output::WlOutput, _, _>(
global.name,
WL_OUTPUT_VERSION,
&qh,
(),
),
Rc::new(RefCell::new(OutputState::default())),
)),
_ => {}
}
}
});
let display = conn.backend().display_ptr() as *mut std::ffi::c_void;
let (primary, clipboard) = unsafe { create_clipboards_from_external(display) };
let mut state_inner = Rc::new(RefCell::new(WaylandClientStateInner {
compositor: globals
.bind(&qh, 1..=wl_surface::EVT_PREFERRED_BUFFER_SCALE_SINCE, ())
.unwrap(),
wm_base: globals.bind(&qh, 1..=1, ()).unwrap(),
shm: globals.bind(&qh, 1..=1, ()).unwrap(),
outputs,
viewporter: globals.bind(&qh, 1..=1, ()).ok(),
fractional_scale_manager: globals.bind(&qh, 1..=1, ()).ok(),
decoration_manager: globals.bind(&qh, 1..=1, ()).ok(),
windows: Vec::new(),
platform_inner: Rc::clone(&linux_platform_inner),
keymap_state: None,
repeat: KeyRepeat {
characters_per_second: 16,
delay: Duration::from_millis(500),
current_id: 0,
current_keysym: None,
},
modifiers: Modifiers {
shift: false,
control: false,
alt: false,
function: false,
command: false,
},
scroll_direction: -1.0,
mouse_location: None,
button_pressed: None,
mouse_focused_window: None,
keyboard_focused_window: None,
loop_handle: Rc::clone(&linux_platform_inner.loop_handle),
}));
let mut cursor_state = Rc::new(RefCell::new(CursorState {
cursor_icon_name: "arrow".to_string(),
cursor: None,
}));
let source = WaylandSource::new(conn, event_queue);
let mut state = WaylandClientState {
client_state_inner: Rc::clone(&state_inner),
cursor_state: Rc::clone(&cursor_state),
clipboard: Rc::new(RefCell::new(clipboard)),
primary: Rc::new(RefCell::new(primary)),
};
let mut state_loop = state.clone();
linux_platform_inner
.loop_handle
.insert_source(source, move |_, queue, _| {
queue.dispatch_pending(&mut state_loop)
})
.unwrap();
Self {
platform_inner: linux_platform_inner,
state,
qh: Arc::new(qh),
}
}
}
impl Client for WaylandClient {
fn displays(&self) -> Vec<Rc<dyn PlatformDisplay>> {
Vec::new()
}
fn display(&self, id: DisplayId) -> Option<Rc<dyn PlatformDisplay>> {
unimplemented!()
}
fn open_window(
&self,
handle: AnyWindowHandle,
options: WindowOptions,
) -> Box<dyn PlatformWindow> {
let mut state = self.state.client_state_inner.borrow_mut();
let wl_surface = state.compositor.create_surface(&self.qh, ());
let xdg_surface = state.wm_base.get_xdg_surface(&wl_surface, &self.qh, ());
let toplevel = xdg_surface.get_toplevel(&self.qh, ());
let wl_surface = Arc::new(wl_surface);
// Attempt to set up window decorations based on the requested configuration
//
// Note that wayland compositors may either not support decorations at all, or may
// support them but not allow clients to choose whether they are enabled or not.
// We attempt to account for these cases here.
if let Some(decoration_manager) = state.decoration_manager.as_ref() {
// The protocol for managing decorations is present at least, but that doesn't
// mean that the compositor will allow us to use it.
let decoration =
decoration_manager.get_toplevel_decoration(&toplevel, &self.qh, xdg_surface.id());
// todo(linux) - options.titlebar is lacking information required for wayland.
// Especially, whether a titlebar is wanted in itself.
//
// Removing the titlebar also removes the entire window frame (ie. the ability to
// close, move and resize the window [snapping still works]). This needs additional
// handling in Zed, in order to implement drag handlers on a titlebar element.
//
// Since all of this handling is not present, we request server-side decorations
// for now as a stopgap solution.
decoration.set_mode(zxdg_toplevel_decoration_v1::Mode::ServerSide);
}
let viewport = state
.viewporter
.as_ref()
.map(|viewporter| viewporter.get_viewport(&wl_surface, &self.qh, ()));
wl_surface.frame(&self.qh, wl_surface.clone());
wl_surface.commit();
let window_state: Rc<WaylandWindowState> = Rc::new(WaylandWindowState::new(
wl_surface.clone(),
viewport,
Arc::new(toplevel),
options,
));
if let Some(fractional_scale_manager) = state.fractional_scale_manager.as_ref() {
fractional_scale_manager.get_fractional_scale(&wl_surface, &self.qh, xdg_surface.id());
}
state.windows.push((xdg_surface, Rc::clone(&window_state)));
Box::new(WaylandWindow(window_state))
}
fn set_cursor_style(&self, style: CursorStyle) {
let cursor_icon_name = match style {
CursorStyle::Arrow => "arrow".to_string(),
CursorStyle::IBeam => "text".to_string(),
CursorStyle::Crosshair => "crosshair".to_string(),
CursorStyle::ClosedHand => "grabbing".to_string(),
CursorStyle::OpenHand => "openhand".to_string(),
CursorStyle::PointingHand => "hand".to_string(),
CursorStyle::ResizeLeft => "w-resize".to_string(),
CursorStyle::ResizeRight => "e-resize".to_string(),
CursorStyle::ResizeLeftRight => "ew-resize".to_string(),
CursorStyle::ResizeUp => "n-resize".to_string(),
CursorStyle::ResizeDown => "s-resize".to_string(),
CursorStyle::ResizeUpDown => "ns-resize".to_string(),
CursorStyle::DisappearingItem => "grabbing".to_string(), // todo!(linux) - couldn't find equivalent icon in linux
CursorStyle::IBeamCursorForVerticalLayout => "vertical-text".to_string(),
CursorStyle::OperationNotAllowed => "not-allowed".to_string(),
CursorStyle::DragLink => "dnd-link".to_string(),
CursorStyle::DragCopy => "dnd-copy".to_string(),
CursorStyle::ContextualMenu => "context-menu".to_string(),
};
let mut cursor_state = self.state.cursor_state.borrow_mut();
cursor_state.cursor_icon_name = cursor_icon_name;
}
fn get_clipboard(&self) -> Rc<RefCell<dyn ClipboardProvider>> {
self.state.clipboard.clone()
}
fn get_primary(&self) -> Rc<RefCell<dyn ClipboardProvider>> {
self.state.primary.clone()
}
}
impl Dispatch<wl_registry::WlRegistry, GlobalListContents> for WaylandClientState {
fn event(
state: &mut Self,
registry: &wl_registry::WlRegistry,
event: wl_registry::Event,
_: &GlobalListContents,
_: &Connection,
qh: &QueueHandle<Self>,
) {
let mut state = state.client_state_inner.borrow_mut();
match event {
wl_registry::Event::Global {
name,
interface,
version: _,
} => match &interface[..] {
"wl_seat" => {
registry.bind::<wl_seat::WlSeat, _, _>(name, WL_SEAT_VERSION, qh, ());
}
"wl_output" => {
state.outputs.push((
registry.bind::<wl_output::WlOutput, _, _>(name, WL_OUTPUT_VERSION, qh, ()),
Rc::new(RefCell::new(OutputState::default())),
));
}
_ => {}
},
wl_registry::Event::GlobalRemove { name: _ } => {}
_ => {}
}
}
}
delegate_noop!(WaylandClientState: ignore wl_compositor::WlCompositor);
delegate_noop!(WaylandClientState: ignore wl_shm::WlShm);
delegate_noop!(WaylandClientState: ignore wl_shm_pool::WlShmPool);
delegate_noop!(WaylandClientState: ignore wl_buffer::WlBuffer);
delegate_noop!(WaylandClientState: ignore wp_fractional_scale_manager_v1::WpFractionalScaleManagerV1);
delegate_noop!(WaylandClientState: ignore zxdg_decoration_manager_v1::ZxdgDecorationManagerV1);
delegate_noop!(WaylandClientState: ignore wp_viewporter::WpViewporter);
delegate_noop!(WaylandClientState: ignore wp_viewport::WpViewport);
impl Dispatch<WlCallback, Arc<WlSurface>> for WaylandClientState {
fn event(
state: &mut Self,
_: &WlCallback,
event: wl_callback::Event,
surf: &Arc<WlSurface>,
_: &Connection,
qh: &QueueHandle<Self>,
) {
let mut state = state.client_state_inner.borrow_mut();
if let wl_callback::Event::Done { .. } = event {
for window in &state.windows {
if window.1.surface.id() == surf.id() {
window.1.surface.frame(qh, surf.clone());
window.1.update();
window.1.surface.commit();
}
}
}
}
}
impl Dispatch<wl_surface::WlSurface, ()> for WaylandClientState {
fn event(
state: &mut Self,
surface: &wl_surface::WlSurface,
event: <wl_surface::WlSurface as Proxy>::Event,
_: &(),
_: &Connection,
_: &QueueHandle<Self>,
) {
let mut state = state.client_state_inner.borrow_mut();
// We use `WpFractionalScale` instead to set the scale if it's available
// or give up on scaling if `WlSurface::set_buffer_scale` isn't available
if state.fractional_scale_manager.is_some()
|| state.compositor.version() < wl_surface::REQ_SET_BUFFER_SCALE_SINCE
{
return;
}
let Some(window) = state
.windows
.iter()
.map(|(_, state)| state)
.find(|state| &*state.surface == surface)
else {
return;
};
let mut outputs = window.outputs.borrow_mut();
match event {
wl_surface::Event::Enter { output } => {
// We use `PreferredBufferScale` instead to set the scale if it's available
if surface.version() >= wl_surface::EVT_PREFERRED_BUFFER_SCALE_SINCE {
return;
}
let mut scale = 1;
for global_output in &state.outputs {
if output == global_output.0 {
outputs.insert(output.id());
scale = scale.max(global_output.1.borrow().scale.get());
} else if outputs.contains(&global_output.0.id()) {
scale = scale.max(global_output.1.borrow().scale.get());
}
}
window.rescale(scale as f32);
window.surface.set_buffer_scale(scale as i32);
window.surface.commit();
}
wl_surface::Event::Leave { output } => {
// We use `PreferredBufferScale` instead to set the scale if it's available
if surface.version() >= 6 {
return;
}
outputs.remove(&output.id());
let mut scale = 1;
for global_output in &state.outputs {
if outputs.contains(&global_output.0.id()) {
scale = scale.max(global_output.1.borrow().scale.get());
}
}
window.rescale(scale as f32);
window.surface.set_buffer_scale(scale as i32);
window.surface.commit();
}
wl_surface::Event::PreferredBufferScale { factor } => {
window.rescale(factor as f32);
surface.set_buffer_scale(factor);
window.surface.commit();
}
_ => {}
}
}
}
#[derive(Debug, Clone)]
struct OutputState {
scale: NonZeroU32,
}
impl Default for OutputState {
fn default() -> Self {
Self {
scale: NonZeroU32::new(1).unwrap(),
}
}
}
impl Dispatch<wl_output::WlOutput, ()> for WaylandClientState {
fn event(
state: &mut Self,
output: &wl_output::WlOutput,
event: <wl_output::WlOutput as Proxy>::Event,
_: &(),
_: &Connection,
_: &QueueHandle<Self>,
) {
let mut state = state.client_state_inner.borrow_mut();
let mut output_state = state
.outputs
.iter_mut()
.find(|(o, _)| o == output)
.map(|(_, state)| state)
.unwrap()
.borrow_mut();
match event {
wl_output::Event::Scale { factor } => {
if factor > 0 {
output_state.scale = NonZeroU32::new(factor as u32).unwrap();
}
}
_ => {}
}
}
}
impl Dispatch<xdg_surface::XdgSurface, ()> for WaylandClientState {
fn event(
state: &mut Self,
xdg_surface: &xdg_surface::XdgSurface,
event: xdg_surface::Event,
_: &(),
_: &Connection,
_: &QueueHandle<Self>,
) {
let mut state = state.client_state_inner.borrow_mut();
if let xdg_surface::Event::Configure { serial, .. } = event {
xdg_surface.ack_configure(serial);
for window in &state.windows {
if &window.0 == xdg_surface {
window.1.update();
window.1.surface.commit();
return;
}
}
}
}
}
impl Dispatch<xdg_toplevel::XdgToplevel, ()> for WaylandClientState {
fn event(
state: &mut Self,
xdg_toplevel: &xdg_toplevel::XdgToplevel,
event: <xdg_toplevel::XdgToplevel as Proxy>::Event,
_: &(),
_: &Connection,
_: &QueueHandle<Self>,
) {
let mut state = state.client_state_inner.borrow_mut();
if let xdg_toplevel::Event::Configure {
width,
height,
states: _states,
} = event
{
if width == 0 || height == 0 {
return;
}
for window in &state.windows {
if window.1.toplevel.id() == xdg_toplevel.id() {
window.1.resize(width, height);
window.1.surface.commit();
return;
}
}
} else if let xdg_toplevel::Event::Close = event {
state.windows.retain(|(_, window)| {
if window.toplevel.id() == xdg_toplevel.id() {
window.toplevel.destroy();
false
} else {
true
}
});
state.platform_inner.loop_signal.stop();
}
}
}
impl Dispatch<xdg_wm_base::XdgWmBase, ()> for WaylandClientState {
fn event(
_: &mut Self,
wm_base: &xdg_wm_base::XdgWmBase,
event: <xdg_wm_base::XdgWmBase as Proxy>::Event,
_: &(),
_: &Connection,
_: &QueueHandle<Self>,
) {
if let xdg_wm_base::Event::Ping { serial } = event {
wm_base.pong(serial);
}
}
}
impl Dispatch<wl_seat::WlSeat, ()> for WaylandClientState {
fn event(
state: &mut Self,
seat: &wl_seat::WlSeat,
event: wl_seat::Event,
data: &(),
conn: &Connection,
qh: &QueueHandle<Self>,
) {
if let wl_seat::Event::Capabilities {
capabilities: WEnum::Value(capabilities),
} = event
{
if capabilities.contains(wl_seat::Capability::Keyboard) {
seat.get_keyboard(qh, ());
}
if capabilities.contains(wl_seat::Capability::Pointer) {
seat.get_pointer(qh, ());
}
}
}
}
impl Dispatch<wl_keyboard::WlKeyboard, ()> for WaylandClientState {
fn event(
this: &mut Self,
keyboard: &wl_keyboard::WlKeyboard,
event: wl_keyboard::Event,
data: &(),
conn: &Connection,
qh: &QueueHandle<Self>,
) {
let mut state = this.client_state_inner.borrow_mut();
match event {
wl_keyboard::Event::RepeatInfo { rate, delay } => {
state.repeat.characters_per_second = rate as u32;
state.repeat.delay = Duration::from_millis(delay as u64);
}
wl_keyboard::Event::Keymap {
format: WEnum::Value(format),
fd,
size,
..
} => {
assert_eq!(
format,
wl_keyboard::KeymapFormat::XkbV1,
"Unsupported keymap format"
);
let keymap = unsafe {
xkb::Keymap::new_from_fd(
&xkb::Context::new(xkb::CONTEXT_NO_FLAGS),
fd,
size as usize,
XKB_KEYMAP_FORMAT_TEXT_V1,
KEYMAP_COMPILE_NO_FLAGS,
)
.unwrap()
}
.unwrap();
state.keymap_state = Some(xkb::State::new(&keymap));
}
wl_keyboard::Event::Enter { surface, .. } => {
state.keyboard_focused_window = state
.windows
.iter()
.find(|&w| w.1.surface.id() == surface.id())
.map(|w| w.1.clone());
if let Some(window) = &state.keyboard_focused_window {
window.set_focused(true);
}
}
wl_keyboard::Event::Leave { surface, .. } => {
let keyboard_focused_window = state
.windows
.iter()
.find(|&w| w.1.surface.id() == surface.id())
.map(|w| w.1.clone());
if let Some(window) = keyboard_focused_window {
window.set_focused(false);
}
state.keyboard_focused_window = None;
}
wl_keyboard::Event::Modifiers {
mods_depressed,
mods_latched,
mods_locked,
group,
..
} => {
let keymap_state = state.keymap_state.as_mut().unwrap();
keymap_state.update_mask(mods_depressed, mods_latched, mods_locked, 0, 0, group);
let shift =
keymap_state.mod_name_is_active(xkb::MOD_NAME_SHIFT, xkb::STATE_MODS_EFFECTIVE);
let alt =
keymap_state.mod_name_is_active(xkb::MOD_NAME_ALT, xkb::STATE_MODS_EFFECTIVE);
let control =
keymap_state.mod_name_is_active(xkb::MOD_NAME_CTRL, xkb::STATE_MODS_EFFECTIVE);
let command =
keymap_state.mod_name_is_active(xkb::MOD_NAME_LOGO, xkb::STATE_MODS_EFFECTIVE);
state.modifiers.shift = shift;
state.modifiers.alt = alt;
state.modifiers.control = control;
state.modifiers.command = command;
}
wl_keyboard::Event::Key {
key,
state: WEnum::Value(key_state),
..
} => {
let focused_window = &state.keyboard_focused_window;
let Some(focused_window) = focused_window else {
return;
};
let keymap_state = state.keymap_state.as_ref().unwrap();
let keycode = Keycode::from(key + MIN_KEYCODE);
let keysym = keymap_state.key_get_one_sym(keycode);
match key_state {
wl_keyboard::KeyState::Pressed => {
let input = PlatformInput::KeyDown(KeyDownEvent {
keystroke: Keystroke::from_xkb(keymap_state, state.modifiers, keycode),
is_held: false, // todo(linux)
});
focused_window.handle_input(input.clone());
if !keysym.is_modifier_key() {
state.repeat.current_id += 1;
state.repeat.current_keysym = Some(keysym);
let rate = state.repeat.characters_per_second;
let delay = state.repeat.delay;
let id = state.repeat.current_id;
let this = this.clone();
let timer = Timer::from_duration(delay);
let state_ = Rc::clone(&this.client_state_inner);
state
.loop_handle
.insert_source(timer, move |event, _metadata, shared_data| {
let state_ = state_.borrow_mut();
let is_repeating = id == state_.repeat.current_id
&& state_.repeat.current_keysym.is_some()
&& state_.keyboard_focused_window.is_some();
if !is_repeating {
return TimeoutAction::Drop;
}
let focused_window =
state_.keyboard_focused_window.as_ref().unwrap().clone();
drop(state_);
focused_window.handle_input(input.clone());
TimeoutAction::ToDuration(Duration::from_secs(1) / rate)
})
.unwrap();
}
}
wl_keyboard::KeyState::Released => {
focused_window.handle_input(PlatformInput::KeyUp(KeyUpEvent {
keystroke: Keystroke::from_xkb(keymap_state, state.modifiers, keycode),
}));
if !keysym.is_modifier_key() {
state.repeat.current_keysym = None;
}
}
_ => {}
}
}
_ => {}
}
}
}
fn linux_button_to_gpui(button: u32) -> Option<MouseButton> {
// These values are coming from <linux/input-event-codes.h>.
const BTN_LEFT: u32 = 0x110;
const BTN_RIGHT: u32 = 0x111;
const BTN_MIDDLE: u32 = 0x112;
const BTN_SIDE: u32 = 0x113;
const BTN_EXTRA: u32 = 0x114;
const BTN_FORWARD: u32 = 0x115;
const BTN_BACK: u32 = 0x116;
Some(match button {
BTN_LEFT => MouseButton::Left,
BTN_RIGHT => MouseButton::Right,
BTN_MIDDLE => MouseButton::Middle,
BTN_BACK | BTN_SIDE => MouseButton::Navigate(NavigationDirection::Back),
BTN_FORWARD | BTN_EXTRA => MouseButton::Navigate(NavigationDirection::Forward),
_ => return None,
})
}
impl Dispatch<wl_pointer::WlPointer, ()> for WaylandClientState {
fn event(
state: &mut Self,
wl_pointer: &wl_pointer::WlPointer,
event: wl_pointer::Event,
data: &(),
conn: &Connection,
qh: &QueueHandle<Self>,
) {
let mut cursor_state = state.cursor_state.borrow_mut();
let mut state = state.client_state_inner.borrow_mut();
if cursor_state.cursor.is_none() {
cursor_state.cursor = Some(Cursor::new(&conn, &state.compositor, &qh, &state.shm, 24));
}
let cursor_icon_name = cursor_state.cursor_icon_name.clone();
let mut cursor: &mut Cursor = cursor_state.cursor.as_mut().unwrap();
match event {
wl_pointer::Event::Enter {
serial,
surface,
surface_x,
surface_y,
..
} => {
let mut mouse_focused_window = None;
for window in &state.windows {
if window.1.surface.id() == surface.id() {
window.1.set_focused(true);
mouse_focused_window = Some(Rc::clone(&window.1));
}
}
if mouse_focused_window.is_some() {
state.mouse_focused_window = mouse_focused_window;
cursor.set_serial_id(serial);
cursor.set_icon(&wl_pointer, cursor_icon_name);
}
state.mouse_location = Some(Point {
x: Pixels::from(surface_x),
y: Pixels::from(surface_y),
});
}
wl_pointer::Event::Motion {
time,
surface_x,
surface_y,
..
} => {
if state.mouse_focused_window.is_none() {
return;
}
state.mouse_location = Some(Point {
x: Pixels::from(surface_x),
y: Pixels::from(surface_y),
});
state.mouse_focused_window.as_ref().unwrap().handle_input(
PlatformInput::MouseMove(MouseMoveEvent {
position: state.mouse_location.unwrap(),
pressed_button: state.button_pressed,
modifiers: state.modifiers,
}),
);
cursor.set_icon(&wl_pointer, cursor_icon_name);
}
wl_pointer::Event::Button {
button,
state: WEnum::Value(button_state),
..
} => {
let button = linux_button_to_gpui(button);
let Some(button) = button else { return };
if state.mouse_focused_window.is_none() || state.mouse_location.is_none() {
return;
}
match button_state {
wl_pointer::ButtonState::Pressed => {
state.button_pressed = Some(button);
state.mouse_focused_window.as_ref().unwrap().handle_input(
PlatformInput::MouseDown(MouseDownEvent {
button,
position: state.mouse_location.unwrap(),
modifiers: state.modifiers,
click_count: 1,
}),
);
}
wl_pointer::ButtonState::Released => {
state.button_pressed = None;
state.mouse_focused_window.as_ref().unwrap().handle_input(
PlatformInput::MouseUp(MouseUpEvent {
button,
position: state.mouse_location.unwrap(),
modifiers: Modifiers::default(),
click_count: 1,
}),
);
}
_ => {}
}
}
wl_pointer::Event::AxisRelativeDirection {
direction: WEnum::Value(direction),
..
} => {
state.scroll_direction = match direction {
AxisRelativeDirection::Identical => -1.0,
AxisRelativeDirection::Inverted => 1.0,
_ => -1.0,
}
}
wl_pointer::Event::Axis {
time,
axis: WEnum::Value(axis),
value,
..
} => {
let focused_window = &state.mouse_focused_window;
let mouse_location = &state.mouse_location;
if let (Some(focused_window), Some(mouse_location)) =
(focused_window, mouse_location)
{
let value = value * state.scroll_direction;
focused_window.handle_input(PlatformInput::ScrollWheel(ScrollWheelEvent {
position: *mouse_location,
delta: match axis {
wl_pointer::Axis::VerticalScroll => {
ScrollDelta::Pixels(Point::new(Pixels(0.0), Pixels(value as f32)))
}
wl_pointer::Axis::HorizontalScroll => {
ScrollDelta::Pixels(Point::new(Pixels(value as f32), Pixels(0.0)))
}
_ => unimplemented!(),
},
modifiers: state.modifiers,
touch_phase: TouchPhase::Started,
}))
}
}
wl_pointer::Event::Leave { surface, .. } => {
let focused_window = &state.mouse_focused_window;
if let Some(focused_window) = focused_window {
focused_window.handle_input(PlatformInput::MouseMove(MouseMoveEvent {
position: Point::<Pixels>::default(),
pressed_button: None,
modifiers: Modifiers::default(),
}));
focused_window.set_focused(false);
}
state.mouse_focused_window = None;
state.mouse_location = None;
}
_ => {}
}
}
}
impl Dispatch<wp_fractional_scale_v1::WpFractionalScaleV1, ObjectId> for WaylandClientState {
fn event(
state: &mut Self,
_: &wp_fractional_scale_v1::WpFractionalScaleV1,
event: <wp_fractional_scale_v1::WpFractionalScaleV1 as Proxy>::Event,
id: &ObjectId,
_: &Connection,
_: &QueueHandle<Self>,
) {
let mut state = state.client_state_inner.borrow_mut();
if let wp_fractional_scale_v1::Event::PreferredScale { scale, .. } = event {
for window in &state.windows {
if window.0.id() == *id {
window.1.rescale(scale as f32 / 120.0);
return;
}
}
}
}
}
impl Dispatch<zxdg_toplevel_decoration_v1::ZxdgToplevelDecorationV1, ObjectId>
for WaylandClientState
{
fn event(
state: &mut Self,
_: &zxdg_toplevel_decoration_v1::ZxdgToplevelDecorationV1,
event: zxdg_toplevel_decoration_v1::Event,
surface_id: &ObjectId,
_: &Connection,
_: &QueueHandle<Self>,
) {
let mut state = state.client_state_inner.borrow_mut();
if let zxdg_toplevel_decoration_v1::Event::Configure { mode, .. } = event {
for window in &state.windows {
if window.0.id() == *surface_id {
match mode {
WEnum::Value(zxdg_toplevel_decoration_v1::Mode::ServerSide) => {
window
.1
.set_decoration_state(WaylandDecorationState::Server);
}
WEnum::Value(zxdg_toplevel_decoration_v1::Mode::ClientSide) => {
window
.1
.set_decoration_state(WaylandDecorationState::Client);
}
WEnum::Value(_) => {
log::warn!("Unknown decoration mode");
}
WEnum::Unknown(v) => {
log::warn!("Unknown decoration mode: {}", v);
}
}
return;
}
}
}
}
}
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