import 'dart:async'; import 'dart:developer'; import 'dart:io'; import 'package:connectivity/connectivity.dart'; import 'package:flutter/material.dart'; import 'package:just_audio/just_audio.dart'; import 'package:queuing_system/core/api.dart'; import 'package:queuing_system/core/base/app_scaffold_widget.dart'; import 'package:queuing_system/core/config/size_config.dart'; import 'package:queuing_system/core/response_model/patient_call.dart'; import 'package:queuing_system/header/app_header.dart'; import 'package:queuing_system/home/home_screen_components.dart'; import 'package:queuing_system/utils/call_by_voice.dart'; import 'package:queuing_system/utils/call_type.dart'; import 'package:queuing_system/utils/signalR_utils.dart'; import 'package:queuing_system/utils/utils.dart'; import 'package:queuing_system/widget/data_display/app_texts_widget.dart'; var deviceIPGlobal = "10.10.15.11"; bool isDevMode = true; // Testing IP // var DEVICE_IP = "10.10.14.11"; // Testing IP // var DEVICE_IP = "10.10.15.11"; // var DEVICE_IP = "10.70.249.21"; // (Make sure by Haroon before use it) Production IP class MyHomePage extends StatefulWidget { final String title = "MyHomePage"; const MyHomePage({Key key}) : super(key: key); @override State createState() => _MyHomePageState(); } class _MyHomePageState extends State { SignalRHelper signalRHelper = SignalRHelper(); List waitings = []; List isQueuePatients = []; bool isLoading = false; @override void dispose() { super.dispose(); } Future getCurrentIP() async { for (var interface in await NetworkInterface.list(type: InternetAddressType.IPv4)) { log("interfaces: ${interface.name}"); //TODO: WE WILL UPDATE THIS WHEN TESTING ON SCREEN if (interface.name == "wlan0") { // if (interface.name == "eth0") { for (var address in interface.addresses) { deviceIPGlobal = address.address; return deviceIPGlobal; } } return ""; } return ""; } final AudioPlayer audioPlayer = AudioPlayer(); @override void initState() { listenNetworkConnectivity(); scheduleMicrotask(() async { if (!signalRHelper.getConnectionState()) { signalRHelper.startSignalRConnection(await getCurrentIP(), onUpdateAvailable: onUpdateAvailable, onConnect: onConnect, onConnecting: onConnecting, onDisconnect: onDisconnect); } }); super.initState(); } TextEditingController controller = TextEditingController(); @override Widget build(BuildContext context) { audioPlayer.playerStateStream.listen((playerState) { if (playerState.processingState == ProcessingState.completed) { isCallingInProgress = false; } }); return AppScaffold( appBar: AppHeader(), body: dataContent(audioPlayer), bottomNavigationBar: Container( color: Colors.grey.withOpacity(0.1), height: Utils.getHeight(), width: double.infinity, child: Row( crossAxisAlignment: CrossAxisAlignment.center, mainAxisAlignment: MainAxisAlignment.spaceBetween, children: [ Row( children: [ const SizedBox(width: 20), Column( mainAxisAlignment: MainAxisAlignment.center, children: [ InkWell( onTap: () { onUpdateAvailable(""); }, child: AppText( "Powered By", fontSize: SizeConfig.getWidthMultiplier() * 2.6, fontFamily: 'Poppins-Medium.ttf', ), ), Text(deviceIPGlobal, style: TextStyle(fontWeight: FontWeight.w500, fontSize: SizeConfig.getWidthMultiplier() * 2.2)), ], ), const SizedBox(width: 10), Image.asset( "assets/images/cloud_logo.png", height: SizeConfig.getHeightMultiplier() * 4, ), ], ), ], ), ), ); } onUpdateIPPressed() async { // if (controller.text.isNotEmpty) { // isLoading = true; // setState(() {}); // DEVICE_IP = controller.text; // // await signalRHelper.connection.stop(); // if (!signalRHelper.getConnectionState()) { // await signalRHelper.startSignalRConnection(DEVICE_IP, onUpdateAvailable: onUpdateAvailable, onConnect: onConnect, onConnecting: onConnecting, onDisconnect: onDisconnect); // } // // controller.clear(); // waitings.clear(); // isLoading = false; // setState(() {}); // } } Widget dataContent(AudioPlayer audioPlayer) { voiceCall(audioPlayer); if (waitings.isEmpty) { // No Patient in Queue return noPatientInQueue(); } else if (waitings.length > 3) { // Return Content With Side List return priorityTicketsWithSideList(waitings); } else { // Return Content In Center Aligned return priorityTickets(waitings); } } String getCallTypeText(Tickets ticket) { final callType = ticket.getCallType(); switch (callType) { case CallType.vitalSign: return "Please Visit Nurse"; case CallType.doctor: return "Please Visit Doctor"; case CallType.procedure: return "Please Visit Procedure"; case CallType.vaccination: return "Please Visit Vaccination"; case CallType.nebulization: return "Please Visit Nebulization"; break; default: return ""; } } CallByVoice voiceCaller; int callFlag = 0; // bool isRequiredVoice({CallType callType, bool isQueue}) { // if (callType == CallType.DOCTOR && !isQueue) { // return true; // } // if (callType == CallType.NURSE && !isQueue) { // return true; // } // return false; // } bool isCallingInProgress = false; voiceCall(AudioPlayer audioPlayer) async { isCallingInProgress = true; //DONE: After calling this voice call, we should delay for milliseconds that is given by API. After that we will check if there are more patients in isQueuePatients we will remove the patient from waiting list and then update the state if (waitings.isNotEmpty) { if (waitings.first.isToneReq && waitings.first.isQueue) { audioPlayer.setAsset("assets/tones/call_tone.mp3"); await audioPlayer.play(); await Future.delayed(const Duration(seconds: 2)); } if (waitings.first.isVoiceReq && voiceCaller == null && waitings.first.isQueue) { final postVoice = getCallTypeText(waitings.first); voiceCaller = CallByVoice(waitings.first.queueNo.trim().toString(), preVoice: "Ticket Number", postVoice: postVoice, lang: 'en'); await voiceCaller.startCalling(waitings.first.queueNo.trim().toString() != waitings.first.callNoStr.trim().toString()); voiceCaller = null; } } if (isQueuePatients.isNotEmpty) { await Future.delayed(Duration(seconds: isQueuePatients.first.concurrentCallDelaySec)).whenComplete(() async { if (isQueuePatients.isNotEmpty) { isQueuePatients.removeAt(0); } if (waitings.isNotEmpty) { // Tickets ticket = waitings.elementAt(0); // waitings.removeAt(0); // waitings.add(ticket); } if (isQueuePatients.isNotEmpty) { // setState(() {}); } }); } else { // if (isQueuePatients.isEmpty && callFlag == 1) { // callFlag == 0; // await Future.delayed(const Duration(seconds: 3)); // waitings.clear(); // API.getCallRequestInfoByClinicInfo(DEVICE_IP, onSuccess: (waitingCalls, isQueuePatientsCalls) { // setState(() { // waitings = waitingCalls; // isQueuePatients = isQueuePatientsCalls; // // currents = currentInClinic; // }); // // log("--------------------"); // log("waiting: $waitings"); // log("isQueuePatients: $isQueuePatients"); // log("--------------------"); // // updateTickets(); // }, onFailure: (error) {}); // } } } Future callPatientsAPI() async { waitings.clear(); API.getCallRequestInfoByClinicInfo(deviceIPGlobal, onSuccess: (waitingCalls, isQueuePatientsCalls) { setState(() { waitings = waitingCalls; isQueuePatients = isQueuePatientsCalls; // currents = currentInClinic; }); log("--------------------"); log("waiting: $waitings"); log("isQueuePatients: $isQueuePatients"); log("--------------------"); updateTickets(); }, onFailure: (error) {}); } onUpdateAvailable(data) async { // if (isQueuePatients.isNotEmpty && callFlag == 0) { // callFlag = 1; // return; // } if (waitings.isNotEmpty) { if ((waitings.first.isToneReq && isCallingInProgress) || (waitings.first.isVoiceReq && voiceCaller != null)) { // if (true) { Timer(Duration(seconds: isQueuePatients.first.concurrentCallDelaySec), () async { await callPatientsAPI(); }); } else { await callPatientsAPI(); } } else { await callPatientsAPI(); } } updateTickets() { if (waitings != null && waitings.isNotEmpty) { List _ticketsToUpdate = waitings.where((t) => t.callUpdated == false).toList(); API.callUpdateNotIsQueueRecordByIDAsync(deviceIPGlobal, ticket: _ticketsToUpdate.first, onSuccess: (ticketsUpdated) { log("[${ticketsUpdated.length}] Tickets Updated: $ticketsUpdated"); }, onFailure: (e) { log("API UPDate Tickets Failed with : ${e.toString()}"); }); } } onConnect() { log("SignalR: onConnect"); } onDisconnect(exception) { log("SignalR: onDisconnect"); signalRHelper.startSignalRConnection(deviceIPGlobal, onUpdateAvailable: onUpdateAvailable, onConnect: onConnect, onConnecting: onConnecting, onDisconnect: onDisconnect); } onConnecting() { log("SignalR: onConnecting"); } listenNetworkConnectivity() async { Connectivity().onConnectivityChanged.listen((event) { switch (event) { case ConnectivityResult.wifi: signalRHelper.connection.start(); break; case ConnectivityResult.none: signalRHelper.closeConnection(context); break; case ConnectivityResult.mobile: break; } }); } } // if (isQueuePatients.length > 1) { // Timer(Duration(milliseconds: int.parse(waitings.first.queueDuration)), () { // Tickets calledTicket = Tickets(); // if (isQueuePatients.isNotEmpty) { // calledTicket = isQueuePatients.elementAt(0); // isQueuePatients.removeAt(0); // } // if (waitings.isNotEmpty) { // // Tickets ticket = waitings.elementAt(0); // // waitings.removeAt(0); // // waitings.add(ticket); // } // if (isQueuePatients.isNotEmpty) { // // setState(() {}); // } // }); // }