use arc_swap::ArcSwapOption; use crossbeam_queue::ArrayQueue; use never::Never; use std::sync::{ atomic::{AtomicUsize, Ordering as AtomicOrdering}, Arc, RwLock, }; use tracing::info; use crate::common::VariantName; use callbag::{scan, Message, Source}; #[cfg(not(all(target_arch = "wasm32", target_os = "wasi")))] use { async_executors::{Timer, TimerExt}, async_nursery::{NurseExt, Nursery}, std::{sync::atomic::AtomicBool, time::Duration}, tracing_futures::Instrument, }; #[cfg(all(target_arch = "wasm32", not(target_os = "wasi")))] use wasm_bindgen_test::wasm_bindgen_test; #[cfg(all( all(target_arch = "wasm32", not(target_os = "wasi")), feature = "browser", ))] use wasm_bindgen_test::wasm_bindgen_test_configure; pub mod common; #[cfg(all( all(target_arch = "wasm32", not(target_os = "wasi")), feature = "browser", ))] wasm_bindgen_test_configure!(run_in_browser); /// See #[tracing::instrument] #[test_log::test] #[cfg_attr( all(target_arch = "wasm32", not(target_os = "wasi")), wasm_bindgen_test )] fn it_scans_a_pullable_source() { let upwards_expected = ["Handshake", "Pull", "Pull", "Pull", "Pull"]; let upwards_expected = { let q = ArrayQueue::new(upwards_expected.len()); for v in upwards_expected { q.push(v).ok(); } Arc::new(q) }; let downwards_expected_types = ["Handshake", "Data", "Data", "Data", "Terminate"]; let downwards_expected_types = { let q = ArrayQueue::new(downwards_expected_types.len()); for v in downwards_expected_types { q.push(v).ok(); } Arc::new(q) }; let downwards_expected = [1, 3, 6]; let downwards_expected = { let q = ArrayQueue::new(downwards_expected.len()); for v in downwards_expected { q.push(v).ok(); } Arc::new(q) }; let make_source = move || { let sink_ref = Arc::new(ArcSwapOption::from(None)); let sent = Arc::new(AtomicUsize::new(0)); let source_ref: Arc>>>> = Arc::new(RwLock::new(None)); let source = Arc::new( { let source_ref = Arc::clone(&source_ref); move |message: Message| { info!("up: {message:?}"); assert!(!upwards_expected.is_empty(), "source can be pulled"); { let e = upwards_expected.pop().unwrap(); assert_eq!(message.variant_name(), e, "upwards type is expected: {e}"); } if let Message::Handshake(sink) = message { sink_ref.store(Some(sink)); let sink_ref = sink_ref.load(); let sink_ref = sink_ref.as_ref().unwrap(); let source = { let source_ref = &mut *source_ref.write().unwrap(); source_ref.take().unwrap() }; sink_ref(Message::Handshake(source)); return; } if sent.load(AtomicOrdering::Acquire) == 3 { let sink_ref = sink_ref.load(); let sink_ref = sink_ref.as_ref().unwrap(); sink_ref(Message::Terminate); return; } if sent.load(AtomicOrdering::Acquire) == 0 { sent.fetch_add(1, AtomicOrdering::AcqRel); let sink_ref = sink_ref.load(); let sink_ref = sink_ref.as_ref().unwrap(); sink_ref(Message::Data(1)); return; } if sent.load(AtomicOrdering::Acquire) == 1 { sent.fetch_add(1, AtomicOrdering::AcqRel); let sink_ref = sink_ref.load(); let sink_ref = sink_ref.as_ref().unwrap(); sink_ref(Message::Data(2)); return; } if sent.load(AtomicOrdering::Acquire) == 2 { sent.fetch_add(1, AtomicOrdering::AcqRel); let sink_ref = sink_ref.load(); let sink_ref = sink_ref.as_ref().unwrap(); sink_ref(Message::Data(3)); } } } .into(), ); { let mut source_ref = source_ref.write().unwrap(); *source_ref = Some(Arc::clone(&source)); } source }; let make_sink = move || { let talkback = ArcSwapOption::from(None); Arc::new( (move |message: Message<_, Never>| { info!("down: {message:?}"); { let et = downwards_expected_types.pop().unwrap(); assert_eq!( message.variant_name(), et, "downwards type is expected: {et}" ); } if let Message::Handshake(source) = message { talkback.store(Some(source)); let talkback = talkback.load(); let talkback = talkback.as_ref().unwrap(); talkback(Message::Pull); } else if let Message::Data(data) = message { { let e = downwards_expected.pop().unwrap(); assert_eq!(data, e, "downwards data is expected: {e}"); } let talkback = talkback.load(); let talkback = talkback.as_ref().unwrap(); talkback(Message::Pull); } }) .into(), ) }; let source = make_source(); let scanned = scan(move |prev, x| prev + x, 0)(source); let sink = make_sink(); scanned(Message::Handshake(sink)); } /// See #[cfg(not(all(target_arch = "wasm32", target_os = "wasi")))] #[tracing::instrument] #[test_log::test(async_std::test)] #[cfg_attr( all( all(target_arch = "wasm32", not(target_os = "wasi")), feature = "browser", ), wasm_bindgen_test )] async fn it_scans_an_async_finite_listenable_source() { let (nursery, nursery_out) = Nursery::new(async_executors::AsyncStd); let nursery = nursery.in_current_span(); let upwards_expected = ["Handshake"]; let upwards_expected = { let q = ArrayQueue::new(upwards_expected.len()); for v in upwards_expected { q.push(v).ok(); } Arc::new(q) }; let downwards_expected_types = ["Handshake", "Data", "Data", "Data", "Terminate"]; let downwards_expected_types = { let q = ArrayQueue::new(downwards_expected_types.len()); for v in downwards_expected_types { q.push(v).ok(); } Arc::new(q) }; let downwards_expected = [1, 3, 6]; let downwards_expected = { let q = ArrayQueue::new(downwards_expected.len()); for v in downwards_expected { q.push(v).ok(); } Arc::new(q) }; let make_source = { let nursery = nursery.clone(); move || { let sent = Arc::new(AtomicUsize::new(0)); let source_ref: Arc>>>> = Arc::new(RwLock::new(None)); let source = Arc::new( { let source_ref = Arc::clone(&source_ref); move |message: Message| { info!("up: {message:?}"); { let e = upwards_expected.pop().unwrap(); assert_eq!(message.variant_name(), e, "upwards type is expected: {e}"); } if let Message::Handshake(sink) = message { nursery .nurse({ let nursery = nursery.clone(); let sent = Arc::clone(&sent); let sink = Arc::clone(&sink); const DURATION: Duration = Duration::from_millis(100); async move { loop { nursery.sleep(DURATION).await; if sent.load(AtomicOrdering::Acquire) == 0 { sent.fetch_add(1, AtomicOrdering::AcqRel); sink(Message::Data(1)); continue; } if sent.load(AtomicOrdering::Acquire) == 1 { sent.fetch_add(1, AtomicOrdering::AcqRel); sink(Message::Data(2)); continue; } if sent.load(AtomicOrdering::Acquire) == 2 { sent.fetch_add(1, AtomicOrdering::AcqRel); sink(Message::Data(3)); continue; } if sent.load(AtomicOrdering::Acquire) == 3 { sink(Message::Terminate); break; } } } }) .unwrap(); let source = { let source_ref = &mut *source_ref.write().unwrap(); source_ref.take().unwrap() }; sink(Message::Handshake(source)); } } } .into(), ); { let mut source_ref = source_ref.write().unwrap(); *source_ref = Some(Arc::clone(&source)); } source } }; let sink = Arc::new( (move |message: Message<_, Never>| { info!("down: {message:?}"); { let et = downwards_expected_types.pop().unwrap(); assert_eq!( message.variant_name(), et, "downwards type is expected: {et}" ); } if let Message::Data(data) = message { let e = downwards_expected.pop().unwrap(); assert_eq!(data, e, "downwards data is expected: {e}"); } }) .into(), ); let source = make_source(); let scanned = scan(move |acc, x| acc + x, 0)(source); scanned(Message::Handshake(sink)); let nursery_out = nursery.timeout(Duration::from_millis(700), nursery_out); drop(nursery); nursery_out.await.ok(); } /// See #[cfg(not(all(target_arch = "wasm32", target_os = "wasi")))] #[tracing::instrument] #[test_log::test(async_std::test)] #[cfg_attr( all( all(target_arch = "wasm32", not(target_os = "wasi")), feature = "browser", ), wasm_bindgen_test )] async fn it_returns_a_source_that_disposes_upon_upwards_end() { let (nursery, nursery_out) = Nursery::new(async_executors::AsyncStd); let nursery = nursery.in_current_span(); let upwards_expected = ["Handshake", "Terminate"]; let upwards_expected = { let q = ArrayQueue::new(upwards_expected.len()); for v in upwards_expected { q.push(v).ok(); } Arc::new(q) }; let downwards_expected_types = ["Handshake", "Data", "Data", "Data"]; let downwards_expected_types = { let q = ArrayQueue::new(downwards_expected_types.len()); for v in downwards_expected_types { q.push(v).ok(); } Arc::new(q) }; let downwards_expected = [1, 3, 6]; let downwards_expected = { let q = ArrayQueue::new(downwards_expected.len()); for v in downwards_expected { q.push(v).ok(); } Arc::new(q) }; let make_source = { let nursery = nursery.clone(); move || { let sent = Arc::new(AtomicUsize::new(0)); let interval_cleared = Arc::new(AtomicBool::new(false)); let source_ref: Arc>>>> = Arc::new(RwLock::new(None)); let source = Arc::new( { let source_ref = Arc::clone(&source_ref); move |message: Message| { info!("up: {message:?}"); let interval_cleared = Arc::clone(&interval_cleared); { let e = upwards_expected.pop().unwrap(); assert_eq!(message.variant_name(), e, "upwards type is expected: {e}"); } if let Message::Handshake(sink) = message { nursery .nurse({ let nursery = nursery.clone(); let sent = Arc::clone(&sent); let sink = Arc::clone(&sink); const DURATION: Duration = Duration::from_millis(100); async move { loop { nursery.sleep(DURATION).await; if interval_cleared.load(AtomicOrdering::Acquire) { break; } let sent = sent.fetch_add(1, AtomicOrdering::AcqRel) + 1; sink(Message::Data(sent)); } } }) .unwrap(); let source = { let source_ref = &mut *source_ref.write().unwrap(); source_ref.take().unwrap() }; sink(Message::Handshake(source)); } else if let Message::Error(_) | Message::Terminate = message { interval_cleared.store(true, AtomicOrdering::Release); } } } .into(), ); { let mut source_ref = source_ref.write().unwrap(); *source_ref = Some(Arc::clone(&source)); } source } }; let make_sink = move || { let talkback = ArcSwapOption::from(None); Arc::new( (move |message: Message<_, Never>| { info!("down: {message:?}"); { let et = downwards_expected_types.pop().unwrap(); assert_eq!( message.variant_name(), et, "downwards type is expected: {et}" ); } if let Message::Handshake(source) = message { talkback.store(Some(source)); } else if let Message::Data(data) = message { let e = downwards_expected.pop().unwrap(); assert_eq!(data, e, "downwards data is expected: {e}"); } if downwards_expected.is_empty() { let talkback = talkback.load(); let talkback = talkback.as_ref().unwrap(); talkback(Message::Terminate); } }) .into(), ) }; let source = make_source(); let scanned = scan(move |acc, x| acc + x, 0)(source); let sink = make_sink(); scanned(Message::Handshake(sink)); let nursery_out = nursery.timeout(Duration::from_millis(700), nursery_out); drop(nursery); nursery_out.await.ok(); }