platform/sandbox/reactivex/test/streams/replay_connectable_stream_test.dart

229 lines
6.8 KiB
Dart

import 'dart:async';
import 'package:angel3_reactivex/angel3_reactivex.dart';
import 'package:test/test.dart';
class MockStream<T> extends Stream<T> {
final Stream<T> stream;
var listenCount = 0;
MockStream(this.stream);
@override
StreamSubscription<T> listen(void Function(T event)? onData,
{Function? onError, void Function()? onDone, bool? cancelOnError}) {
++listenCount;
return stream.listen(
onData,
onError: onError,
onDone: onDone,
cancelOnError: cancelOnError,
);
}
}
void main() {
group('ReplayConnectableStream', () {
test('should not emit before connecting', () {
final stream = MockStream<int>(Stream.fromIterable(const [1, 2, 3]));
final connectableStream = ReplayConnectableStream(stream);
expect(stream.listenCount, 0);
connectableStream.connect();
expect(stream.listenCount, 1);
});
test('should begin emitting items after connection', () {
const items = [1, 2, 3];
final stream = ReplayConnectableStream(Stream.fromIterable(items));
stream.connect();
expect(stream, emitsInOrder(items));
stream.listen(expectAsync1((int i) {
expect(stream.values, items.sublist(0, i));
}, count: items.length));
});
test('stops emitting after the connection is cancelled', () async {
final ConnectableStream<int> stream =
Stream<int>.fromIterable(<int>[1, 2, 3]).publishReplay();
stream.connect().cancel(); // ignore: unawaited_futures
expect(stream, neverEmits(anything));
});
test('stops emitting after the last subscriber unsubscribes', () async {
final Stream<int> stream =
Stream<int>.fromIterable(<int>[1, 2, 3]).shareReplay();
stream.listen(null).cancel(); // ignore: unawaited_futures
expect(stream, neverEmits(anything));
});
test('keeps emitting with an active subscription', () async {
final Stream<int> stream =
Stream<int>.fromIterable(<int>[1, 2, 3]).shareReplay();
stream.listen(null);
stream.listen(null).cancel(); // ignore: unawaited_futures
expect(stream, emitsInOrder(<int>[1, 2, 3]));
});
test('multicasts a single-subscription stream', () async {
final Stream<int> stream = ReplayConnectableStream<int>(
Stream<int>.fromIterable(<int>[1, 2, 3]),
).autoConnect();
expect(stream, emitsInOrder(<int>[1, 2, 3]));
expect(stream, emitsInOrder(<int>[1, 2, 3]));
expect(stream, emitsInOrder(<int>[1, 2, 3]));
});
test('replays the max number of items', () async {
final Stream<int> stream = ReplayConnectableStream<int>(
Stream<int>.fromIterable(<int>[1, 2, 3]),
maxSize: 2,
).autoConnect();
expect(stream, emitsInOrder(<int>[1, 2, 3]));
expect(stream, emitsInOrder(<int>[1, 2, 3]));
expect(stream, emitsInOrder(<int>[1, 2, 3]));
await Future<void>.delayed(Duration(milliseconds: 200));
expect(stream, emitsInOrder(<int>[2, 3]));
});
test('can multicast streams', () async {
final stream = Stream.fromIterable(const [1, 2, 3]).shareReplay();
expect(stream, emitsInOrder(const <int>[1, 2, 3]));
expect(stream, emitsInOrder(const <int>[1, 2, 3]));
expect(stream, emitsInOrder(const <int>[1, 2, 3]));
});
test('only holds a certain number of values', () async {
final stream = Stream.fromIterable(const [1, 2, 3]).shareReplay();
expect(stream.values, const <int>[]);
expect(stream, emitsInOrder(const <int>[1, 2, 3]));
});
test('provides access to all items', () async {
const items = [1, 2, 3];
var count = 0;
final stream = Stream.fromIterable(const [1, 2, 3]).shareReplay();
stream.listen(expectAsync1((int data) {
expect(data, items[count]);
count++;
if (count == items.length) {
expect(stream.values, items);
}
}, count: items.length));
});
test('provides access to a certain number of items', () async {
const items = [1, 2, 3];
var count = 0;
final stream =
Stream.fromIterable(const [1, 2, 3]).shareReplay(maxSize: 2);
stream.listen(expectAsync1((data) {
expect(data, items[count]);
count++;
if (count == items.length) {
expect(stream.values, const <int>[2, 3]);
}
}, count: items.length));
});
test('provide a function to autoconnect that stops listening', () async {
final stream = Stream.fromIterable(const [1, 2, 3])
.publishReplay()
.autoConnect(connection: (subscription) => subscription.cancel());
expect(await stream.isEmpty, true);
});
test('refCount cancels source subscription when no listeners remain',
() async {
var isCanceled = false;
final controller =
StreamController<void>(onCancel: () => isCanceled = true);
final stream = controller.stream.shareReplay();
StreamSubscription<void> subscription;
subscription = stream.listen(null);
await subscription.cancel();
expect(isCanceled, true);
});
test('can close shareReplay() stream', () async {
final isCanceled = Completer<void>();
final controller = StreamController<bool>();
controller.stream
.shareReplay()
.doOnCancel(() => isCanceled.complete())
.listen(null);
controller.add(true);
await Future<void>.delayed(Duration.zero);
await controller.close();
expect(isCanceled.future, completes);
});
test(
'throws StateError when mixing autoConnect, connect and refCount together',
() {
ReplayConnectableStream<int> stream() =>
Stream.value(1).publishReplay(maxSize: 1);
expect(
() => stream()
..autoConnect()
..connect(),
throwsStateError,
);
expect(
() => stream()
..autoConnect()
..refCount(),
throwsStateError,
);
expect(
() => stream()
..connect()
..refCount(),
throwsStateError,
);
});
test('calling autoConnect() multiple times returns the same value', () {
final s = Stream.value(1).publishReplay(maxSize: 1);
expect(s.autoConnect(), same(s.autoConnect()));
expect(s.autoConnect(), same(s.autoConnect()));
});
test('calling connect() multiple times returns the same value', () {
final s = Stream.value(1).publishReplay(maxSize: 1);
expect(s.connect(), same(s.connect()));
expect(s.connect(), same(s.connect()));
});
test('calling refCount() multiple times returns the same value', () {
final s = Stream.value(1).publishReplay(maxSize: 1);
expect(s.refCount(), same(s.refCount()));
expect(s.refCount(), same(s.refCount()));
});
});
}