276 lines
8.4 KiB
Rust
276 lines
8.4 KiB
Rust
use crate::wayland_subscription::{ToplevelRequest, ToplevelUpdate, WaylandRequest, WaylandUpdate};
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use std::os::{
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fd::{FromRawFd, RawFd},
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unix::net::UnixStream,
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};
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use cctk::{
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sctk::{
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self,
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activation::{RequestData, RequestDataExt},
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reexports::{calloop, calloop_wayland_source::WaylandSource},
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seat::{SeatHandler, SeatState},
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},
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toplevel_info::{ToplevelInfoHandler, ToplevelInfoState},
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toplevel_management::{ToplevelManagerHandler, ToplevelManagerState},
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wayland_client::{
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self,
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protocol::{wl_seat::WlSeat, wl_surface::WlSurface},
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WEnum,
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},
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};
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use cosmic_protocols::{
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toplevel_info::v1::client::zcosmic_toplevel_handle_v1,
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toplevel_management::v1::client::zcosmic_toplevel_manager_v1,
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};
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use futures::channel::mpsc::UnboundedSender;
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use sctk::{
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activation::{ActivationHandler, ActivationState},
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registry::{ProvidesRegistryState, RegistryState},
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};
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use wayland_client::{globals::registry_queue_init, Connection, QueueHandle};
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struct AppData {
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exit: bool,
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tx: UnboundedSender<WaylandUpdate>,
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queue_handle: QueueHandle<Self>,
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registry_state: RegistryState,
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activation_state: Option<ActivationState>,
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toplevel_info_state: ToplevelInfoState,
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toplevel_manager_state: ToplevelManagerState,
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seat_state: SeatState,
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}
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impl ProvidesRegistryState for AppData {
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fn registry(&mut self) -> &mut RegistryState {
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&mut self.registry_state
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}
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sctk::registry_handlers!();
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}
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struct ExecRequestData {
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data: RequestData,
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exec: String,
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}
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impl RequestDataExt for ExecRequestData {
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fn app_id(&self) -> Option<&str> {
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self.data.app_id()
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}
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fn seat_and_serial(&self) -> Option<(&WlSeat, u32)> {
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self.data.seat_and_serial()
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}
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fn surface(&self) -> Option<&WlSurface> {
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self.data.surface()
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}
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}
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impl ActivationHandler for AppData {
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type RequestData = ExecRequestData;
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fn new_token(&mut self, token: String, data: &ExecRequestData) {
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let _ = self.tx.unbounded_send(WaylandUpdate::ActivationToken {
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token: Some(token),
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exec: data.exec.clone(),
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});
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}
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}
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impl SeatHandler for AppData {
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fn seat_state(&mut self) -> &mut sctk::seat::SeatState {
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&mut self.seat_state
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}
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fn new_seat(&mut self, _: &Connection, _: &QueueHandle<Self>, _: WlSeat) {}
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fn new_capability(
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&mut self,
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_: &Connection,
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_: &QueueHandle<Self>,
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_: WlSeat,
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_: sctk::seat::Capability,
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) {
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}
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fn remove_capability(
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&mut self,
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_: &Connection,
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_: &QueueHandle<Self>,
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_: WlSeat,
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_: sctk::seat::Capability,
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) {
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}
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fn remove_seat(&mut self, _: &Connection, _: &QueueHandle<Self>, _: WlSeat) {}
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}
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impl ToplevelManagerHandler for AppData {
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fn toplevel_manager_state(&mut self) -> &mut cctk::toplevel_management::ToplevelManagerState {
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&mut self.toplevel_manager_state
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}
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fn capabilities(
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&mut self,
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_: &Connection,
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_: &QueueHandle<Self>,
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_: Vec<WEnum<zcosmic_toplevel_manager_v1::ZcosmicToplelevelManagementCapabilitiesV1>>,
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) {
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// TODO capabilities could affect the options in the applet
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}
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}
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impl ToplevelInfoHandler for AppData {
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fn toplevel_info_state(&mut self) -> &mut ToplevelInfoState {
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&mut self.toplevel_info_state
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}
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fn new_toplevel(
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&mut self,
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_conn: &Connection,
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_qh: &QueueHandle<Self>,
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toplevel: &zcosmic_toplevel_handle_v1::ZcosmicToplevelHandleV1,
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) {
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if let Some(info) = self.toplevel_info_state.info(toplevel) {
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let _ = self
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.tx
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.unbounded_send(WaylandUpdate::Toplevel(ToplevelUpdate::Add(
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toplevel.clone(),
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info.clone(),
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)));
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}
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}
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fn update_toplevel(
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&mut self,
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_conn: &Connection,
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_qh: &QueueHandle<Self>,
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toplevel: &zcosmic_toplevel_handle_v1::ZcosmicToplevelHandleV1,
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) {
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if let Some(info) = self.toplevel_info_state.info(toplevel) {
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let _ = self
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.tx
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.unbounded_send(WaylandUpdate::Toplevel(ToplevelUpdate::Update(
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toplevel.clone(),
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info.clone(),
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)));
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}
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}
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fn toplevel_closed(
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&mut self,
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_conn: &Connection,
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_qh: &QueueHandle<Self>,
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toplevel: &zcosmic_toplevel_handle_v1::ZcosmicToplevelHandleV1,
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) {
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let _ = self
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.tx
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.unbounded_send(WaylandUpdate::Toplevel(ToplevelUpdate::Remove(
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toplevel.clone(),
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)));
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}
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}
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pub(crate) fn wayland_handler(
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tx: UnboundedSender<WaylandUpdate>,
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rx: calloop::channel::Channel<WaylandRequest>,
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) {
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let socket = std::env::var("X_PRIVILEGED_WAYLAND_SOCKET")
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.ok()
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.and_then(|fd| {
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fd.parse::<RawFd>()
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.ok()
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.map(|fd| unsafe { UnixStream::from_raw_fd(fd) })
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});
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let conn = if let Some(socket) = socket {
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Connection::from_socket(socket).unwrap()
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} else {
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Connection::connect_to_env().unwrap()
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};
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let (globals, event_queue) = registry_queue_init(&conn).unwrap();
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let mut event_loop = calloop::EventLoop::<AppData>::try_new().unwrap();
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let qh = event_queue.handle();
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let wayland_source = WaylandSource::new(conn, event_queue);
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let handle = event_loop.handle();
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wayland_source
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.insert(handle.clone())
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.expect("Failed to insert wayland source.");
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if handle
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.insert_source(rx, |event, _, state| match event {
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calloop::channel::Event::Msg(req) => match req {
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WaylandRequest::Toplevel(req) => match req {
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ToplevelRequest::Activate(handle) => {
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if let Some(seat) = state.seat_state.seats().next() {
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let manager = &state.toplevel_manager_state.manager;
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manager.activate(&handle, &seat);
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}
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}
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ToplevelRequest::Quit(handle) => {
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let manager = &state.toplevel_manager_state.manager;
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manager.close(&handle);
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}
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ToplevelRequest::Exit => {
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state.exit = true;
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}
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},
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WaylandRequest::TokenRequest { app_id, exec } => {
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if let Some(activation_state) = state.activation_state.as_ref() {
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activation_state.request_token_with_data(
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&state.queue_handle,
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ExecRequestData {
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data: RequestData {
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app_id: Some(app_id),
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seat_and_serial: state
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.seat_state
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.seats()
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.next()
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.map(|seat| (seat, 0)),
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surface: None,
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},
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exec,
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},
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);
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} else {
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let _ = state
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.tx
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.unbounded_send(WaylandUpdate::ActivationToken { token: None, exec });
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}
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}
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},
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calloop::channel::Event::Closed => {
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state.exit = true;
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}
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})
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.is_err()
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{
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return;
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}
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let registry_state = RegistryState::new(&globals);
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let mut app_data = AppData {
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exit: false,
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tx,
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queue_handle: qh.clone(),
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activation_state: ActivationState::bind::<AppData>(&globals, &qh).ok(),
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seat_state: SeatState::new(&globals, &qh),
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toplevel_info_state: ToplevelInfoState::new(®istry_state, &qh),
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toplevel_manager_state: ToplevelManagerState::new(®istry_state, &qh),
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registry_state,
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};
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loop {
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if app_data.exit {
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break;
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}
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event_loop.dispatch(None, &mut app_data).unwrap();
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}
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}
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sctk::delegate_activation!(AppData, ExecRequestData);
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sctk::delegate_seat!(AppData);
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sctk::delegate_registry!(AppData);
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cctk::delegate_toplevel_info!(AppData);
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cctk::delegate_toplevel_manager!(AppData);
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