use crate::action::{Action, ActionSignal, Props, StatefulAction, INFINITE};
use crate::comm::{QWriter, Signal, SignalId};
use crate::resource::{IoManager, ResourceAddr, ResourceManager};
use crate::server::{AsyncSignal, Config, State, SyncSignal};
use crate::util::spin_sleeper;
use eframe::egui::Ui;
use eyre::Result;
use serde::{Deserialize, Serialize};
use std::collections::BTreeSet;
use std::sync::{Arc, Mutex};
use std::thread;
use std::time::Duration;
#[derive(Debug, Deserialize, Serialize)]
pub struct Timeout(f32, Box<dyn Action>);
stateful!(Timeout {
duration: Duration,
timeout_over: Arc<Mutex<bool>>,
inner: Box<dyn StatefulAction>,
});
impl Action for Timeout {
#[inline]
fn in_signals(&self) -> BTreeSet<SignalId> {
self.1.in_signals()
}
#[inline]
fn out_signals(&self) -> BTreeSet<SignalId> {
self.1.out_signals()
}
#[inline(always)]
fn resources(&self, config: &Config) -> Vec<ResourceAddr> {
self.1.resources(config)
}
fn stateful(
&self,
io: &IoManager,
res: &ResourceManager,
config: &Config,
sync_writer: &QWriter<SyncSignal>,
async_writer: &QWriter<AsyncSignal>,
) -> Result<Box<dyn StatefulAction>> {
let inner = self
.1
.stateful(io, res, config, sync_writer, async_writer)?;
Ok(Box::new(StatefulTimeout {
done: inner.is_over()?,
duration: Duration::from_secs_f32(self.0),
timeout_over: Arc::new(Mutex::new(false)),
inner,
}))
}
}
impl StatefulAction for StatefulTimeout {
impl_stateful!();
fn props(&self) -> Props {
let bits = self.inner.props().bits();
(bits & !INFINITE).into()
}
fn start(
&mut self,
sync_writer: &mut QWriter<SyncSignal>,
async_writer: &mut QWriter<AsyncSignal>,
state: &State,
) -> Result<Signal> {
if self.done {
sync_writer.push(SyncSignal::UpdateGraph);
Ok(Signal::none())
} else {
let news = self.inner.start(sync_writer, async_writer, state)?;
let dur = self.duration;
let timeout_over = self.timeout_over.clone();
let mut sync_writer = sync_writer.clone();
thread::spawn(move || {
spin_sleeper().sleep(dur);
*timeout_over.lock().unwrap() = true;
sync_writer.push(SyncSignal::UpdateGraph);
});
Ok(news)
}
}
fn update(
&mut self,
signal: &ActionSignal,
sync_writer: &mut QWriter<SyncSignal>,
async_writer: &mut QWriter<AsyncSignal>,
state: &State,
) -> Result<Signal> {
let news = self
.inner
.update(signal, sync_writer, async_writer, state)?;
if self.inner.is_over()?
|| (matches!(signal, ActionSignal::UpdateGraph) && *self.timeout_over.lock().unwrap())
{
self.done = true;
}
Ok(news)
}
fn show(
&mut self,
ui: &mut Ui,
sync_writer: &mut QWriter<SyncSignal>,
async_writer: &mut QWriter<AsyncSignal>,
state: &State,
) -> Result<()> {
self.inner.show(ui, sync_writer, async_writer, state)
}
fn stop(
&mut self,
sync_writer: &mut QWriter<SyncSignal>,
async_writer: &mut QWriter<AsyncSignal>,
state: &State,
) -> Result<Signal> {
self.inner.stop(sync_writer, async_writer, state)
}
}