use std::sync::atomic::{AtomicUsize, Ordering}; use std::sync::Arc; use itertools::Itertools; use renoir::operator::source::IteratorSource; use renoir::Replication; use utils::{TestHelper, WatermarkChecker}; mod utils; #[test] fn merge_stream() { TestHelper::local_remote_env(|env| { let source1 = IteratorSource::new(0..10000u16); let source2 = IteratorSource::new(10000..20000u16); let stream1 = env.stream(source1); let stream2 = env.stream(source2); let res = stream1.merge(stream2).collect_vec(); env.execute_blocking(); if let Some(res) = res.get() { let res_sorted = res.into_iter().sorted().collect_vec(); let expected = (0..20000u16).collect_vec(); assert_eq!(res_sorted, expected); } }); } #[test] fn merge_stream_with_empty() { TestHelper::local_remote_env(|env| { let source1 = IteratorSource::new(0..10000u16); let source2 = IteratorSource::new(0..0u16); let stream1 = env.stream(source1); let stream2 = env.stream(source2); let res = stream1.merge(stream2).collect_vec(); env.execute_blocking(); if let Some(res) = res.get() { let res_sorted = res.into_iter().sorted().collect_vec(); let expected = (0..10000u16).collect_vec(); assert_eq!(res_sorted, expected); } }); } #[test] fn merge_stream_with_empty_other_way() { TestHelper::local_remote_env(|env| { let source1 = IteratorSource::new(0..0u16); let source2 = IteratorSource::new(0..10000u16); let stream1 = env.stream(source1); let stream2 = env.stream(source2); let res = stream1.merge(stream2).collect_vec(); env.execute_blocking(); if let Some(res) = res.get() { let res_sorted = res.into_iter().sorted().collect_vec(); let expected = (0..10000u16).collect_vec(); assert_eq!(res_sorted, expected); } }); } #[test] fn merge_empty_with_empty() { TestHelper::local_remote_env(|env| { let source1 = IteratorSource::new(0..0u16); let source2 = IteratorSource::new(0..0u16); let stream1 = env.stream(source1); let stream2 = env.stream(source2); let res = stream1.merge(stream2).collect_vec(); env.execute_blocking(); if let Some(res) = res.get() { assert!(res.is_empty()); } }); } #[test] fn merge_with_timestamps() { TestHelper::local_remote_env(|env| { let source1 = IteratorSource::new(0..10u64); let source2 = IteratorSource::new(100..110u64); let stream1 = env .stream(source1) .add_timestamps( |&x| x as i64, |&x, &ts| if x % 2 == 1 { Some(ts) } else { None }, ) .shuffle(); let stream2 = env .stream(source2) .add_timestamps( |&x| x as i64 % 10, |&x, &ts| if x % 2 == 1 { Some(ts) } else { None }, ) .shuffle(); let num_watermarks = Arc::new(AtomicUsize::new(0)); let stream = stream1 .merge(stream2) .shuffle() .replication(Replication::One) .add_operator(|prev| WatermarkChecker::new(prev, num_watermarks.clone())); let res = stream.collect_vec(); env.execute_blocking(); if let Some(res) = res.get() { assert_eq!(res.len(), 20); assert_eq!(num_watermarks.load(Ordering::Acquire), 5); } }); } #[test] fn merge_keyed_stream() { TestHelper::local_remote_env(|env| { let source1 = IteratorSource::new(0..100u64); let source2 = IteratorSource::new(100..200u64); let stream1 = env.stream(source1).group_by(|x| x % 3); let stream2 = env.stream(source2).group_by(|x| x % 3); let res = stream1.merge(stream2).reduce(|x, y| *x += y).collect_vec(); env.execute_blocking(); if let Some(mut res) = res.get() { res.sort_unstable(); let expected = (0..3) .map(|k| (k, (0..200).filter(|x| x % 3 == k).sum())) .collect_vec(); assert_eq!(res, expected); } }); }