import 'dart:async'; import 'dart:math'; import 'package:flutter_bloc/flutter_bloc.dart'; import 'package:lightmeter/data/models/exposure_pair.dart'; import 'package:lightmeter/data/shared_prefs_service.dart'; import 'package:lightmeter/interactors/metering_interactor.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:m3_lightmeter_resources/m3_lightmeter_resources.dart'; import 'communication/bloc_communication_metering.dart'; import 'event_metering.dart'; import 'state_metering.dart'; class MeteringBloc extends Bloc { final MeteringCommunicationBloc _communicationBloc; final UserPreferencesService _userPreferencesService; final MeteringInteractor _meteringInteractor; late final StreamSubscription _communicationSubscription; List get _apertureValues => _equipmentProfileData.apertureValues.whereStopType(stopType); List get _shutterSpeedValues => _equipmentProfileData.shutterSpeedValues.whereStopType(stopType); EquipmentProfileData _equipmentProfileData; StopType stopType; late IsoValue _iso = _userPreferencesService.iso; late NdValue _nd = _userPreferencesService.ndFilter; double _ev = 0.0; bool _isMeteringInProgress = false; MeteringBloc( this._communicationBloc, this._userPreferencesService, this._meteringInteractor, this._equipmentProfileData, this.stopType, ) : super( MeteringEndedState( iso: _userPreferencesService.iso, ev: 0.0, nd: _userPreferencesService.ndFilter, exposurePairs: [], ), ) { _communicationSubscription = _communicationBloc.stream .where((state) => state is communication_states.ScreenState) .map((state) => state as communication_states.ScreenState) .listen(_onCommunicationState); on(_onEquipmentProfileChanged); on(_onStopTypeChanged); on(_onIsoChanged); on(_onNdChanged); on(_onMeasure); on(_onMeasured); } @override Future close() async { await _communicationSubscription.cancel(); return super.close(); } void _onCommunicationState(communication_states.ScreenState communicationState) { if (communicationState is communication_states.MeasuredState) { _isMeteringInProgress = communicationState is communication_states.MeteringInProgressState; add(MeasuredEvent(communicationState.ev100)); } } void _onStopTypeChanged(StopTypeChangedEvent event, Emitter emit) { stopType = event.stopType; _emitMeasuredState(emit); } void _onEquipmentProfileChanged(EquipmentProfileChangedEvent event, Emitter emit) { _equipmentProfileData = event.equipmentProfileData; /// Update selected ISO value, if selected equipment profile /// doesn't contain currently selected value if (!event.equipmentProfileData.isoValues.any((v) => _iso.value == v.value)) { _userPreferencesService.iso = event.equipmentProfileData.isoValues.first; _ev = _ev + log2(event.equipmentProfileData.isoValues.first.value / _iso.value); _iso = event.equipmentProfileData.isoValues.first; } /// The same for ND filter if (!event.equipmentProfileData.ndValues.any((v) => _nd.value == v.value)) { _userPreferencesService.ndFilter = event.equipmentProfileData.ndValues.first; _ev = _ev - event.equipmentProfileData.ndValues.first.stopReduction + _nd.stopReduction; _nd = event.equipmentProfileData.ndValues.first; } _emitMeasuredState(emit); } void _onIsoChanged(IsoChangedEvent event, Emitter emit) { _userPreferencesService.iso = event.isoValue; _ev = _ev + log2(event.isoValue.value / _iso.value); _iso = event.isoValue; _emitMeasuredState(emit); } void _onNdChanged(NdChangedEvent event, Emitter emit) { _userPreferencesService.ndFilter = event.ndValue; _ev = _ev - event.ndValue.stopReduction + _nd.stopReduction; _nd = event.ndValue; _emitMeasuredState(emit); } void _onMeasure(_, Emitter emit) { _meteringInteractor.quickVibration(); _communicationBloc.add(const communication_events.MeasureEvent()); _isMeteringInProgress = true; emit(const LoadingState()); } void _onMeasured(MeasuredEvent event, Emitter emit) { _meteringInteractor.responseVibration(); _ev = event.ev100 + log2(_iso.value / 100); _emitMeasuredState(emit); } void _emitMeasuredState(Emitter emit) { emit(_isMeteringInProgress ? MeteringInProgressState( iso: _iso, ev: _ev, nd: _nd, exposurePairs: _buildExposureValues(_ev), ) : MeteringEndedState( iso: _iso, ev: _ev, nd: _nd, exposurePairs: _buildExposureValues(_ev), )); } List _buildExposureValues(double ev) { /// Depending on the `stopType` the exposure pairs list length is multiplied by 1,2 or 3 final int evSteps = (ev * (stopType.index + 1)).round(); final int evOffset = _shutterSpeedValues.indexOf(const ShutterSpeedValue(1, false, StopType.full)) - evSteps; late final int apertureOffset; late final int shutterSpeedOffset; if (evOffset >= 0) { apertureOffset = 0; shutterSpeedOffset = evOffset; } else { apertureOffset = -evOffset; shutterSpeedOffset = 0; } final int itemsCount = min(_apertureValues.length + shutterSpeedOffset, _shutterSpeedValues.length + apertureOffset) - max(apertureOffset, shutterSpeedOffset); if (itemsCount < 0) { return List.empty(growable: false); } return List.generate( itemsCount, (index) => ExposurePair( _apertureValues[index + apertureOffset], _shutterSpeedValues[index + shutterSpeedOffset], ), growable: false, ); } }