mirror of
https://github.com/fafhrd91/actix-net
synced 2024-11-30 21:04:35 +01:00
783880bb0a
`Arbiter::is_running` can be used to check if the current even-loop is currently running; which should also work after the system has stopped. `System::is_set` was updated to reflect what it actually does, it tells if the event loop has started, which alone can't tell if it has stopped. Signed-off-by: Jonathas-Conceicao <jadoliveira@inf.ufpel.edu.br>
435 lines
13 KiB
Rust
435 lines
13 KiB
Rust
use std::any::{Any, TypeId};
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use std::cell::{Cell, RefCell};
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use std::collections::HashMap;
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use std::pin::Pin;
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use std::sync::atomic::{AtomicUsize, Ordering};
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use std::task::{Context, Poll};
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use std::{fmt, thread};
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use futures_channel::mpsc::{unbounded, UnboundedReceiver, UnboundedSender};
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use futures_channel::oneshot::{channel, Canceled, Sender};
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use futures_util::{
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future::{self, Future, FutureExt},
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stream::Stream,
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};
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use crate::runtime::Runtime;
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use crate::system::System;
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use copyless::BoxHelper;
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pub use tokio::task::JoinHandle;
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thread_local!(
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static ADDR: RefCell<Option<Arbiter>> = RefCell::new(None);
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static RUNNING: Cell<bool> = Cell::new(false);
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static Q: RefCell<Vec<Pin<Box<dyn Future<Output = ()>>>>> = RefCell::new(Vec::new());
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static PENDING: RefCell<Vec<JoinHandle<()>>> = RefCell::new(Vec::new());
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static STORAGE: RefCell<HashMap<TypeId, Box<dyn Any>>> = RefCell::new(HashMap::new());
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);
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pub(crate) static COUNT: AtomicUsize = AtomicUsize::new(0);
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pub(crate) enum ArbiterCommand {
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Stop,
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Execute(Box<dyn Future<Output = ()> + Unpin + Send>),
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ExecuteFn(Box<dyn FnExec>),
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}
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impl fmt::Debug for ArbiterCommand {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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match self {
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ArbiterCommand::Stop => write!(f, "ArbiterCommand::Stop"),
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ArbiterCommand::Execute(_) => write!(f, "ArbiterCommand::Execute"),
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ArbiterCommand::ExecuteFn(_) => write!(f, "ArbiterCommand::ExecuteFn"),
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}
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}
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}
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#[derive(Debug)]
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/// Arbiters provide an asynchronous execution environment for actors, functions
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/// and futures. When an Arbiter is created, it spawns a new OS thread, and
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/// hosts an event loop. Some Arbiter functions execute on the current thread.
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pub struct Arbiter {
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sender: UnboundedSender<ArbiterCommand>,
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thread_handle: Option<thread::JoinHandle<()>>,
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}
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impl Clone for Arbiter {
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fn clone(&self) -> Self {
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Self::with_sender(self.sender.clone())
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}
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}
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impl Default for Arbiter {
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fn default() -> Self {
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Self::new()
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}
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}
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impl Arbiter {
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pub(crate) fn new_system() -> Self {
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let (tx, rx) = unbounded();
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let arb = Arbiter::with_sender(tx);
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ADDR.with(|cell| *cell.borrow_mut() = Some(arb.clone()));
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RUNNING.with(|cell| cell.set(false));
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STORAGE.with(|cell| cell.borrow_mut().clear());
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Arbiter::spawn(ArbiterController { stop: None, rx });
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arb
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}
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/// Returns the current thread's arbiter's address. If no Arbiter is present, then this
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/// function will panic!
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pub fn current() -> Arbiter {
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ADDR.with(|cell| match *cell.borrow() {
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Some(ref addr) => addr.clone(),
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None => panic!("Arbiter is not running"),
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})
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}
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/// Check if current arbiter is running.
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pub fn is_running() -> bool {
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RUNNING.with(|cell| cell.get())
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}
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/// Stop arbiter from continuing it's event loop.
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pub fn stop(&self) {
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let _ = self.sender.unbounded_send(ArbiterCommand::Stop);
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}
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/// Spawn new thread and run event loop in spawned thread.
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/// Returns address of newly created arbiter.
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pub fn new() -> Arbiter {
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let id = COUNT.fetch_add(1, Ordering::Relaxed);
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let name = format!("actix-rt:worker:{}", id);
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let sys = System::current();
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let (arb_tx, arb_rx) = unbounded();
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let arb_tx2 = arb_tx.clone();
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let handle = thread::Builder::new()
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.name(name.clone())
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.spawn(move || {
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let mut rt = Runtime::new().expect("Can not create Runtime");
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let arb = Arbiter::with_sender(arb_tx);
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let (stop, stop_rx) = channel();
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RUNNING.with(|cell| cell.set(true));
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STORAGE.with(|cell| cell.borrow_mut().clear());
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System::set_current(sys);
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// start arbiter controller
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rt.spawn(ArbiterController {
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stop: Some(stop),
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rx: arb_rx,
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});
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ADDR.with(|cell| *cell.borrow_mut() = Some(arb.clone()));
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// register arbiter
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let _ = System::current()
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.sys()
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.unbounded_send(SystemCommand::RegisterArbiter(id, arb));
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// run loop
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let _ = match rt.block_on(stop_rx) {
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Ok(code) => code,
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Err(_) => 1,
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};
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// unregister arbiter
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let _ = System::current()
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.sys()
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.unbounded_send(SystemCommand::UnregisterArbiter(id));
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})
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.unwrap_or_else(|err| {
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panic!("Cannot spawn an arbiter's thread {:?}: {:?}", &name, err)
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});
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Arbiter {
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sender: arb_tx2,
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thread_handle: Some(handle),
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}
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}
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pub(crate) fn run_system(rt: Option<&Runtime>) {
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RUNNING.with(|cell| cell.set(true));
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Q.with(|cell| {
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let mut v = cell.borrow_mut();
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for fut in v.drain(..) {
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if let Some(rt) = rt {
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rt.spawn(fut);
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} else {
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tokio::task::spawn_local(fut);
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}
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}
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});
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}
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pub(crate) fn stop_system() {
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RUNNING.with(|cell| cell.set(false));
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}
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/// Spawn a future on the current thread. This does not create a new Arbiter
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/// or Arbiter address, it is simply a helper for spawning futures on the current
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/// thread.
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pub fn spawn<F>(future: F)
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where
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F: Future<Output = ()> + 'static,
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{
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RUNNING.with(move |cell| {
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if cell.get() {
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// Spawn the future on running executor
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PENDING.with(move |cell| {
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cell.borrow_mut().push(tokio::task::spawn_local(future));
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})
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} else {
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// Box the future and push it to the queue, this results in double boxing
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// because the executor boxes the future again, but works for now
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Q.with(move |cell| {
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cell.borrow_mut().push(Pin::from(Box::alloc().init(future)))
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});
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}
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});
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}
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/// Executes a future on the current thread. This does not create a new Arbiter
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/// or Arbiter address, it is simply a helper for executing futures on the current
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/// thread.
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pub fn spawn_fn<F, R>(f: F)
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where
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F: FnOnce() -> R + 'static,
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R: Future<Output = ()> + 'static,
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{
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Arbiter::spawn(future::lazy(|_| f()).flatten())
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}
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/// Send a future to the Arbiter's thread, and spawn it.
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pub fn send<F>(&self, future: F)
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where
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F: Future<Output = ()> + Send + Unpin + 'static,
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{
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let _ = self
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.sender
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.unbounded_send(ArbiterCommand::Execute(Box::new(future)));
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}
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/// Send a function to the Arbiter's thread, and execute it. Any result from the function
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/// is discarded.
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pub fn exec_fn<F>(&self, f: F)
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where
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F: FnOnce() + Send + 'static,
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{
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let _ = self
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.sender
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.unbounded_send(ArbiterCommand::ExecuteFn(Box::new(move || {
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f();
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})));
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}
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/// Send a function to the Arbiter's thread. This function will be executed asynchronously.
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/// A future is created, and when resolved will contain the result of the function sent
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/// to the Arbiters thread.
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pub fn exec<F, R>(&self, f: F) -> impl Future<Output = Result<R, Canceled>>
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where
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F: FnOnce() -> R + Send + 'static,
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R: Send + 'static,
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{
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let (tx, rx) = channel();
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let _ = self
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.sender
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.unbounded_send(ArbiterCommand::ExecuteFn(Box::new(move || {
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if !tx.is_canceled() {
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let _ = tx.send(f());
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}
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})));
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rx
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}
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/// Set item to arbiter storage
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pub fn set_item<T: 'static>(item: T) {
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STORAGE.with(move |cell| cell.borrow_mut().insert(TypeId::of::<T>(), Box::new(item)));
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}
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/// Check if arbiter storage contains item
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pub fn contains_item<T: 'static>() -> bool {
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STORAGE.with(move |cell| cell.borrow().get(&TypeId::of::<T>()).is_some())
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}
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/// Get a reference to a type previously inserted on this arbiter's storage.
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///
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/// Panics is item is not inserted
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pub fn get_item<T: 'static, F, R>(mut f: F) -> R
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where
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F: FnMut(&T) -> R,
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{
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STORAGE.with(move |cell| {
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let st = cell.borrow();
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let item = st
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.get(&TypeId::of::<T>())
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.and_then(|boxed| (&**boxed as &(dyn Any + 'static)).downcast_ref())
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.unwrap();
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f(item)
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})
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}
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/// Get a mutable reference to a type previously inserted on this arbiter's storage.
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///
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/// Panics is item is not inserted
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pub fn get_mut_item<T: 'static, F, R>(mut f: F) -> R
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where
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F: FnMut(&mut T) -> R,
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{
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STORAGE.with(move |cell| {
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let mut st = cell.borrow_mut();
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let item = st
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.get_mut(&TypeId::of::<T>())
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.and_then(|boxed| (&mut **boxed as &mut (dyn Any + 'static)).downcast_mut())
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.unwrap();
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f(item)
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})
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}
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fn with_sender(sender: UnboundedSender<ArbiterCommand>) -> Self {
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Self {
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sender,
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thread_handle: None,
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}
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}
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/// Wait for the event loop to stop by joining the underlying thread (if have Some).
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pub fn join(&mut self) -> thread::Result<()> {
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if let Some(thread_handle) = self.thread_handle.take() {
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thread_handle.join()
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} else {
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Ok(())
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}
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}
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/// Returns a future that will be completed once all currently spawned futures
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/// have completed.
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pub fn local_join() -> impl Future<Output = ()> {
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PENDING.with(move |cell| {
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let current = cell.replace(Vec::new());
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future::join_all(current).map(|_| ())
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})
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}
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}
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struct ArbiterController {
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stop: Option<Sender<i32>>,
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rx: UnboundedReceiver<ArbiterCommand>,
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}
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impl Drop for ArbiterController {
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fn drop(&mut self) {
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if thread::panicking() {
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if System::current().stop_on_panic() {
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eprintln!("Panic in Arbiter thread, shutting down system.");
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System::current().stop_with_code(1)
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} else {
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eprintln!("Panic in Arbiter thread.");
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}
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}
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}
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}
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impl Future for ArbiterController {
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type Output = ();
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fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
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loop {
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match Pin::new(&mut self.rx).poll_next(cx) {
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Poll::Ready(None) => return Poll::Ready(()),
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Poll::Ready(Some(item)) => match item {
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ArbiterCommand::Stop => {
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if let Some(stop) = self.stop.take() {
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let _ = stop.send(0);
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};
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return Poll::Ready(());
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}
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ArbiterCommand::Execute(fut) => {
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PENDING.with(move |cell| {
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cell.borrow_mut().push(tokio::task::spawn_local(fut));
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});
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}
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ArbiterCommand::ExecuteFn(f) => {
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f.call_box();
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}
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},
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Poll::Pending => return Poll::Pending,
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}
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}
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}
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}
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#[derive(Debug)]
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pub(crate) enum SystemCommand {
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Exit(i32),
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RegisterArbiter(usize, Arbiter),
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UnregisterArbiter(usize),
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}
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#[derive(Debug)]
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pub(crate) struct SystemArbiter {
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stop: Option<Sender<i32>>,
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commands: UnboundedReceiver<SystemCommand>,
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arbiters: HashMap<usize, Arbiter>,
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}
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impl SystemArbiter {
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pub(crate) fn new(stop: Sender<i32>, commands: UnboundedReceiver<SystemCommand>) -> Self {
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SystemArbiter {
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commands,
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stop: Some(stop),
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arbiters: HashMap::new(),
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}
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}
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}
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impl Future for SystemArbiter {
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type Output = ();
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fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
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loop {
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match Pin::new(&mut self.commands).poll_next(cx) {
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Poll::Ready(None) => return Poll::Ready(()),
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Poll::Ready(Some(cmd)) => match cmd {
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SystemCommand::Exit(code) => {
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// stop arbiters
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for arb in self.arbiters.values() {
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arb.stop();
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}
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// stop event loop
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if let Some(stop) = self.stop.take() {
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let _ = stop.send(code);
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}
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}
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SystemCommand::RegisterArbiter(name, hnd) => {
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self.arbiters.insert(name, hnd);
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}
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SystemCommand::UnregisterArbiter(name) => {
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self.arbiters.remove(&name);
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}
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},
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Poll::Pending => return Poll::Pending,
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}
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}
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}
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}
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pub trait FnExec: Send + 'static {
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fn call_box(self: Box<Self>);
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}
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impl<F> FnExec for F
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where
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F: FnOnce() + Send + 'static,
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{
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#[allow(clippy::boxed_local)]
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fn call_box(self: Box<Self>) {
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(*self)()
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}
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}
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