import 'package:bloc_test/bloc_test.dart'; import 'package:lightmeter/data/models/volume_action.dart'; import 'package:lightmeter/interactors/metering_interactor.dart'; import 'package:lightmeter/screens/metering/bloc_metering.dart'; import 'package:lightmeter/screens/metering/communication/bloc_communication_metering.dart'; import 'package:lightmeter/screens/metering/communication/event_communication_metering.dart' as communication_events; import 'package:lightmeter/screens/metering/communication/state_communication_metering.dart' as communication_states; import 'package:lightmeter/screens/metering/event_metering.dart'; import 'package:lightmeter/screens/metering/state_metering.dart'; import 'package:lightmeter/screens/metering/utils/notifier_volume_keys.dart'; import 'package:m3_lightmeter_resources/m3_lightmeter_resources.dart'; import 'package:mocktail/mocktail.dart'; import 'package:test/test.dart'; class _MockMeteringInteractor extends Mock implements MeteringInteractor {} class _MockVolumeKeysNotifier extends Mock implements VolumeKeysNotifier {} class _MockMeteringCommunicationBloc extends MockBloc implements MeteringCommunicationBloc {} void main() { late _MockMeteringInteractor meteringInteractor; late _MockVolumeKeysNotifier volumeKeysNotifier; late _MockMeteringCommunicationBloc communicationBloc; late MeteringBloc bloc; const iso100 = IsoValue(100, StopType.full); setUp(() { meteringInteractor = _MockMeteringInteractor(); when(() => meteringInteractor.iso).thenReturn(iso100); when(() => meteringInteractor.ndFilter).thenReturn(NdValue.values.first); when(meteringInteractor.quickVibration).thenAnswer((_) async {}); when(meteringInteractor.responseVibration).thenAnswer((_) async {}); when(meteringInteractor.errorVibration).thenAnswer((_) async {}); volumeKeysNotifier = _MockVolumeKeysNotifier(); communicationBloc = _MockMeteringCommunicationBloc(); bloc = MeteringBloc( meteringInteractor, volumeKeysNotifier, communicationBloc, ); }); tearDown(() { bloc.close(); //volumeKeysNotifier.dispose(); communicationBloc.close(); }); group( '`MeasureEvent`', () { blocTest( '`MeasureEvent` -> success', build: () => bloc, act: (bloc) async { bloc.add(const MeasureEvent()); bloc.onCommunicationState(const communication_states.MeteringEndedState(2)); }, verify: (_) { verify(() => meteringInteractor.quickVibration()).called(1); verify(() => communicationBloc.add(const communication_events.MeasureEvent())).called(1); verify(() => meteringInteractor.responseVibration()).called(1); }, expect: () => [ isA(), isA() .having((state) => state.isMetering, 'isMetering', false) .having((state) => state.ev, 'ev', 2), ], ); blocTest( '`MeasureEvent` -> error', build: () => bloc, act: (bloc) async { bloc.add(const MeasureEvent()); bloc.onCommunicationState(const communication_states.MeteringEndedState(null)); }, verify: (_) { verify(() => meteringInteractor.quickVibration()).called(1); verify(() => communicationBloc.add(const communication_events.MeasureEvent())).called(1); verify(() => meteringInteractor.errorVibration()).called(1); }, expect: () => [ isA(), isA() .having((state) => state.isMetering, 'isMetering', false) .having((state) => state.ev100, 'ev100', null) .having((state) => state.ev, 'ev', null), ], ); blocTest( '`MeasureEvent` -> continuous metering', build: () => bloc, act: (bloc) async { // delays here simulate light sensor behaviour // when sensor does not fire new LUX events when value is not changed bloc.add(const MeasureEvent()); bloc.onCommunicationState(const communication_states.MeteringInProgressState(null)); await Future.delayed(const Duration(seconds: 1)); bloc.onCommunicationState(const communication_states.MeteringInProgressState(2)); bloc.onCommunicationState(const communication_states.MeteringInProgressState(5.5)); await Future.delayed(const Duration(seconds: 2)); bloc.onCommunicationState(const communication_states.MeteringInProgressState(null)); bloc.onCommunicationState(const communication_states.MeteringInProgressState(4)); bloc.add(const MeasureEvent()); bloc.onCommunicationState(const communication_states.MeteringEndedState(4)); }, verify: (_) { verify(() => meteringInteractor.quickVibration()).called(2); verify(() => communicationBloc.add(const communication_events.MeasureEvent())).called(2); verify(() => meteringInteractor.responseVibration()).called(4); verify(() => meteringInteractor.errorVibration()).called(2); }, expect: () => [ isA(), isA() .having((state) => state.isMetering, 'isMetering', true) .having((state) => state.ev, 'ev', null), isA() .having((state) => state.isMetering, 'isMetering', true) .having((state) => state.ev, 'ev', 2), isA() .having((state) => state.isMetering, 'isMetering', true) .having((state) => state.ev, 'ev', 5.5), isA() .having((state) => state.isMetering, 'isMetering', true) .having((state) => state.ev, 'ev', null), isA() .having((state) => state.isMetering, 'isMetering', true) .having((state) => state.ev, 'ev', 4), isA(), isA() .having((state) => state.isMetering, 'isMetering', false) .having((state) => state.ev, 'ev', 4), ], ); }, timeout: const Timeout(Duration(seconds: 4)), ); group( '`IsoChangedEvent`', () { blocTest( 'Pick different ISO (ev100 != null)', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(const IsoChangedEvent(IsoValue(200, StopType.full))); }, verify: (_) { verify(() => meteringInteractor.iso = const IsoValue(200, StopType.full)).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', 1.0) .having((state) => state.ev, 'ev', 2.0) .having((state) => state.iso, 'iso', const IsoValue(200, StopType.full)) .having((state) => state.nd, 'nd', NdValue.values.first) .having((state) => state.isMetering, 'isMetering', false), ], ); blocTest( 'Pick different ISO (ev100 = null)', build: () => bloc, seed: () => MeteringDataState( ev100: null, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(const IsoChangedEvent(IsoValue(200, StopType.full))); }, verify: (_) { verify(() => meteringInteractor.iso = const IsoValue(200, StopType.full)).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', null) .having((state) => state.ev, 'ev', null) .having((state) => state.iso, 'iso', const IsoValue(200, StopType.full)) .having((state) => state.nd, 'nd', NdValue.values.first) .having((state) => state.isMetering, 'isMetering', false), ], ); blocTest( 'Pick same ISO', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(const IsoChangedEvent(IsoValue(100, StopType.full))); }, verify: (_) { verifyNever(() => meteringInteractor.iso = const IsoValue(100, StopType.full)); }, expect: () => [], ); blocTest( 'Pick different ISO & measure', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(const IsoChangedEvent(IsoValue(200, StopType.full))); bloc.add(const MeasureEvent()); bloc.onCommunicationState(const communication_states.MeteringEndedState(2)); }, verify: (_) { verify(() => meteringInteractor.iso = const IsoValue(200, StopType.full)).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', 1.0) .having((state) => state.ev, 'ev', 2.0) .having((state) => state.iso, 'iso', const IsoValue(200, StopType.full)) .having((state) => state.nd, 'nd', NdValue.values.first) .having((state) => state.isMetering, 'isMetering', false), isA(), isA() .having((state) => state.ev100, 'ev100', 2.0) .having((state) => state.ev, 'ev', 3.0) .having((state) => state.iso, 'iso', const IsoValue(200, StopType.full)) .having((state) => state.nd, 'nd', NdValue.values.first) .having((state) => state.isMetering, 'isMetering', false), ], ); }, ); group( '`NdChangedEvent`', () { blocTest( 'Pick different ND (ev100 != null)', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(const NdChangedEvent(NdValue(2))); }, verify: (_) { verify(() => meteringInteractor.ndFilter = const NdValue(2)).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', 1.0) .having((state) => state.ev, 'ev', 0.0) .having((state) => state.iso, 'iso', const IsoValue(100, StopType.full)) .having((state) => state.nd, 'nd', const NdValue(2)) .having((state) => state.isMetering, 'isMetering', false), ], ); blocTest( 'Pick different ND (ev100 = null)', build: () => bloc, seed: () => MeteringDataState( ev100: null, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(const NdChangedEvent(NdValue(2))); }, verify: (_) { verify(() => meteringInteractor.ndFilter = const NdValue(2)).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', null) .having((state) => state.ev, 'ev', null) .having((state) => state.iso, 'iso', const IsoValue(100, StopType.full)) .having((state) => state.nd, 'nd', const NdValue(2)) .having((state) => state.isMetering, 'isMetering', false), ], ); blocTest( 'Pick same ND', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(NdChangedEvent(NdValue.values.first)); }, verify: (_) { verifyNever(() => meteringInteractor.ndFilter = NdValue.values.first); }, expect: () => [], ); blocTest( 'Pick different ND & measure', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(const NdChangedEvent(NdValue(2))); bloc.add(const MeasureEvent()); bloc.onCommunicationState(const communication_states.MeteringEndedState(2)); }, verify: (_) { verify(() => meteringInteractor.ndFilter = const NdValue(2)).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', 1.0) .having((state) => state.ev, 'ev', 0.0) .having((state) => state.iso, 'iso', const IsoValue(100, StopType.full)) .having((state) => state.nd, 'nd', const NdValue(2)) .having((state) => state.isMetering, 'isMetering', false), isA(), isA() .having((state) => state.ev100, 'ev100', 2.0) .having((state) => state.ev, 'ev', 1.0) .having((state) => state.iso, 'iso', const IsoValue(100, StopType.full)) .having((state) => state.nd, 'nd', const NdValue(2)) .having((state) => state.isMetering, 'isMetering', false), ], ); }, ); group( '`EquipmentProfileChangedEvent`', () { final reducedProfile = EquipmentProfile( id: '0', name: 'Reduced', apertureValues: ApertureValue.values, ndValues: NdValue.values.getRange(0, 3).toList(), shutterSpeedValues: ShutterSpeedValue.values, isoValues: IsoValue.values.getRange(4, 23).toList(), ); blocTest( 'New profile has current ISO & ND', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: const IsoValue(100, StopType.full), nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(EquipmentProfileChangedEvent(reducedProfile)); }, verify: (_) { verifyNever(() => meteringInteractor.iso = reducedProfile.isoValues.first); verifyNever(() => meteringInteractor.ndFilter = reducedProfile.ndValues.first); verifyNever(() => meteringInteractor.responseVibration()); }, expect: () => [], ); blocTest( 'New profile has new ISO & current ND', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: IsoValue.values[2], nd: NdValue.values.first, isMetering: false, ), act: (bloc) async { bloc.add(EquipmentProfileChangedEvent(reducedProfile)); }, verify: (_) { verify(() => meteringInteractor.iso = reducedProfile.isoValues.first).called(1); verifyNever(() => meteringInteractor.ndFilter = reducedProfile.ndValues.first); verify(() => meteringInteractor.responseVibration()).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', 1.0) .having((state) => state.iso, 'iso', reducedProfile.isoValues.first) .having((state) => state.nd, 'nd', NdValue.values.first) .having((state) => state.isMetering, 'isMetering', false), ], ); blocTest( 'New profile has current ISO & new ND', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: const IsoValue(100, StopType.full), nd: NdValue.values[4], isMetering: false, ), act: (bloc) async { bloc.add(EquipmentProfileChangedEvent(reducedProfile)); }, verify: (_) { verifyNever(() => meteringInteractor.iso = reducedProfile.isoValues.first); verify(() => meteringInteractor.ndFilter = reducedProfile.ndValues.first).called(1); verify(() => meteringInteractor.responseVibration()).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', 1.0) .having((state) => state.iso, 'iso', const IsoValue(100, StopType.full)) .having((state) => state.nd, 'nd', reducedProfile.ndValues.first) .having((state) => state.isMetering, 'isMetering', false), ], ); blocTest( 'New profile has new ISO & new ND', build: () => bloc, seed: () => MeteringDataState( ev100: 1.0, iso: IsoValue.values[2], nd: NdValue.values[4], isMetering: false, ), act: (bloc) async { bloc.add(EquipmentProfileChangedEvent(reducedProfile)); }, verify: (_) { verify(() => meteringInteractor.iso = reducedProfile.isoValues.first).called(1); verify(() => meteringInteractor.ndFilter = reducedProfile.ndValues.first).called(1); verify(() => meteringInteractor.responseVibration()).called(1); }, expect: () => [ isA() .having((state) => state.ev100, 'ev100', 1.0) .having((state) => state.iso, 'iso', reducedProfile.isoValues.first) .having((state) => state.nd, 'nd', reducedProfile.ndValues.first) .having((state) => state.isMetering, 'isMetering', false), ], ); }, ); group( '`Volume keys shutter action`', () { blocTest( 'Add/remove listener', build: () => bloc, verify: (_) { verify(() => volumeKeysNotifier.addListener(bloc.onVolumeKey)).called(1); verify(() => volumeKeysNotifier.removeListener(bloc.onVolumeKey)).called(1); }, expect: () => [], ); blocTest( 'onVolumeKey & VolumeAction.shutter', build: () => bloc, act: (bloc) async { bloc.onVolumeKey(); }, setUp: () { when(() => meteringInteractor.volumeAction).thenReturn(VolumeAction.shutter); }, verify: (_) {}, expect: () => [isA()], ); blocTest( 'onVolumeKey & VolumeAction.none', build: () => bloc, act: (bloc) async { bloc.onVolumeKey(); }, setUp: () { when(() => meteringInteractor.volumeAction).thenReturn(VolumeAction.none); }, verify: (_) {}, expect: () => [], ); }, ); group( '`ScreenOnTopOpenedEvent`/`ScreenOnTopClosedEvent`', () { blocTest( 'Settings opened & closed', build: () => bloc, act: (bloc) async { bloc.add(const ScreenOnTopOpenedEvent()); bloc.add(const ScreenOnTopClosedEvent()); }, verify: (_) { verify(() => communicationBloc.add(const communication_events.ScreenOnTopOpenedEvent())).called(1); verify(() => communicationBloc.add(const communication_events.ScreenOnTopClosedEvent())).called(1); }, expect: () => [], ); }, ); }