import 'dart:convert'; import 'dart:io'; import 'package:flutter/material.dart'; import 'package:flutter/services.dart'; import 'package:light_sensor_capture/light_sensor_event.dart'; import 'package:intl/intl.dart'; void main() { runApp(const MyApp()); } class MyApp extends StatelessWidget { const MyApp({super.key}); // This widget is the root of your application. @override Widget build(BuildContext context) { return MaterialApp( title: 'Sensor Capture', theme: ThemeData( // This is the theme of your application. // // TRY THIS: Try running your application with "flutter run". You'll see // the application has a purple toolbar. Then, without quitting the app, // try changing the seedColor in the colorScheme below to Colors.green // and then invoke "hot reload" (save your changes or press the "hot // reload" button in a Flutter-supported IDE, or press "r" if you used // the command line to start the app). // // Notice that the counter didn't reset back to zero; the application // state is not lost during the reload. To reset the state, use hot // restart instead. // // This works for code too, not just values: Most code changes can be // tested with just a hot reload. colorScheme: ColorScheme.fromSeed(seedColor: Colors.greenAccent), useMaterial3: true, ), home: const MyHomePage(title: 'Sensor Capture'), ); } } class MyHomePage extends StatefulWidget { const MyHomePage({super.key, required this.title}); // This widget is the home page of your application. It is stateful, meaning // that it has a State object (defined below) that contains fields that affect // how it looks. // This class is the configuration for the state. It holds the values (in this // case the title) provided by the parent (in this case the App widget) and // used by the build method of the State. Fields in a Widget subclass are // always marked "final". final String title; @override State createState() => _MyHomePageState(); } class _MyHomePageState extends State { int mState = 0; static const MethodChannel methodChannel = MethodChannel('tw.moonjuice.light_sensor.method'); List mLightSensorEvents = []; @override Widget build(BuildContext context) { // This method is rerun every time setState is called, for instance as done // by the _incrementCounter method above. // // The Flutter framework has been optimized to make rerunning build methods // fast, so that you can just rebuild anything that needs updating rather // than having to individually change instances of widgets. return Scaffold( appBar: AppBar( // TRY THIS: Try changing the color here to a specific color (to // Colors.amber, perhaps?) and trigger a hot reload to see the AppBar // change color while the other colors stay the same. backgroundColor: Theme.of(context).colorScheme.inversePrimary, // Here we take the value from the MyHomePage object that was created by // the App.build method, and use it to set our appbar title. title: Text(widget.title), ), body: Center( // Center is a layout widget. It takes a single child and positions it // in the middle of the parent. child: Column( // Column is also a layout widget. It takes a list of children and // arranges them vertically. By default, it sizes itself to fit its // children horizontally, and tries to be as tall as its parent. // // Column has various properties to control how it sizes itself and // how it positions its children. Here we use mainAxisAlignment to // center the children vertically; the main axis here is the vertical // axis because Columns are vertical (the cross axis would be // horizontal). // // TRY THIS: Invoke "debug painting" (choose the "Toggle Debug Paint" // action in the IDE, or press "p" in the console), to see the // wireframe for each widget. mainAxisAlignment: MainAxisAlignment.center, children: [ Spacer(), StreamBuilder( stream: streamSensorEventFromNative(), builder: (context, snapshot) { if (snapshot.hasData) { if (mState == 1) { mLightSensorEvents.add(snapshot.data); } return Column( children: [ Text( 'Sensor Data:', style: Theme.of(context).textTheme.headlineLarge, ), Text( snapshot.data!.lux.toString(), style: Theme.of(context).textTheme.headlineLarge, ), Text( snapshot.data!.timestamp.toString(), style: Theme.of(context).textTheme.headlineLarge, ) ], ); } else { return const CircularProgressIndicator(); } }), Spacer(), Row( mainAxisAlignment: MainAxisAlignment.center, children: [ Spacer(), ElevatedButton( onPressed: (mState == 0) ? onPressed : null, child: Text('Start Record'), ), Spacer(), ElevatedButton( onPressed: (mState == 1) ? onPressed : null, child: Text('Stop Record')), Spacer(), ], ), Spacer(), ], ), ), // This trailing comma makes auto-formatting nicer for build methods. ); } Future onPressed() async { setState(() { mState = ((mState == 0) ? 1 : 0); }); if (mState == 0) { final String downloadsPath = await methodChannel.invokeMethod('getExternalDownloadsPath'); DateTime now = DateTime.now(); String formattedDate = DateFormat('yyyy-MM-dd_HH-mm-ss').format(now); File file = File('$downloadsPath/$formattedDate.txt'); var sink = file.openWrite(); sink.write(jsonEncode(mLightSensorEvents)); await sink.flush(); await sink.close(); mLightSensorEvents.clear(); } } Stream streamSensorEventFromNative() { const eventChannel = EventChannel('tw.moonjuice.light_sensor.stream'); return eventChannel .receiveBroadcastStream() .map((event) => LightSensorEvent(event['lux'], event['timestamp'])); } }