use helix_view::Editor; use crate::compositor::Compositor; use futures_util::future::{self, BoxFuture, Future, FutureExt}; use futures_util::stream::{FuturesUnordered, StreamExt}; pub type Callback = Box; pub type JobFuture = BoxFuture<'static, anyhow::Result>>; pub struct Job { pub future: BoxFuture<'static, anyhow::Result>>, /// Do we need to wait for this job to finish before exiting? pub wait: bool, } #[derive(Default)] pub struct Jobs { pub futures: FuturesUnordered, /// These are the ones that need to complete before we exit. pub wait_futures: FuturesUnordered, } impl Job { pub fn new> + Send + 'static>(f: F) -> Self { Self { future: f.map(|r| r.map(|()| None)).boxed(), wait: false, } } pub fn with_callback> + Send + 'static>( f: F, ) -> Self { Self { future: f.map(|r| r.map(Some)).boxed(), wait: false, } } pub fn wait_before_exiting(mut self) -> Self { self.wait = true; self } } impl Jobs { pub fn new() -> Self { Self::default() } pub fn spawn> + Send + 'static>(&mut self, f: F) { self.add(Job::new(f)); } pub fn callback> + Send + 'static>( &mut self, f: F, ) { self.add(Job::with_callback(f)); } pub fn handle_callback( &self, editor: &mut Editor, compositor: &mut Compositor, call: anyhow::Result>, ) { match call { Ok(None) => {} Ok(Some(call)) => { call(editor, compositor); } Err(e) => { editor.set_error(format!("Async job failed: {}", e)); } } } pub async fn next_job(&mut self) -> Option>> { tokio::select! { event = self.futures.next() => { event } event = self.wait_futures.next() => { event } } } pub fn add(&self, j: Job) { if j.wait { self.wait_futures.push(j.future); } else { self.futures.push(j.future); } } /// Blocks until all the jobs that need to be waited on are done. pub async fn finish(&mut self) { let wait_futures = std::mem::take(&mut self.wait_futures); wait_futures.for_each(|_| future::ready(())).await } }