use std::{collections::HashSet, future::Future, hash::Hash, pin::Pin, task::Poll}; pub fn _race_pop<'a, T: 'a, F: Future + Unpin>( futures: &'a mut Vec, ) -> impl Future> + 'a { _FutureRacePop { futures } } struct _FutureRacePop<'a, T, F: Future + Unpin> { futures: &'a mut Vec, } impl + Unpin> Future for _FutureRacePop<'_, T, F> { type Output = Option; fn poll(mut self: Pin<&mut Self>, cx: &mut std::task::Context<'_>) -> Poll { if self.futures.is_empty() { return Poll::Ready(None); } match self.futures.iter_mut().enumerate().find_map(|(i, future)| { match Pin::new(future).poll(cx) { Poll::Ready(res) => Some((i, res)), Poll::Pending => None, } }) { Some((i, res)) => { self.futures.swap_remove(i); Poll::Ready(Some(res)) } None => Poll::Pending, } } } pub async fn _visit(node: N, visit: V, get_referenced_nodes: R) -> Vec where N: Clone + Hash + PartialEq + Eq, V: Fn(N) -> F, F: Future, R: Fn(N) -> G, L: IntoIterator, G: Future, { let mut visited = HashSet::new(); let mut results = Vec::new(); visited.insert(node.clone()); let mut queue = vec![node]; let mut futures_queue = Vec::new(); loop { match queue.pop() { Some(node) => { results.push(visit(node.clone()).await); futures_queue.push(Box::pin(get_referenced_nodes(node))); } None => match _race_pop(&mut futures_queue).await { Some(iter) => { for node in iter { if !visited.contains(&node) { visited.insert(node.clone()); queue.push(node.clone()); } } } None => break, }, } } assert!(futures_queue.is_empty()); results }