12

I'm currently implementing a simulation for some mathematical problems. Since Flutter has such an easy way to create user interfaces and has web-support, I decided to use Flutter for this project. So far, everything works perfectly. The problem however is that in one simulation, each step takes some time to process (with problem size 128 it takes ~14 seconds) during which the whole user interface freezes. I found that this can be solved using isolates however this is not supported for web. Is there any other approach to tackle this?

5
  • maybe have a look at async programming dart.dev/codelabs/async-await Commented Mar 23, 2021 at 10:01
  • @TinusJackson I tried that. The step of the problem is triggered by an onPressed, which executes an async function. This didn't prevent the GUI from freezing so I tried to make the functions called in this trigger to be async as well. Unfortunately, this has not helped, no matter how deep I go and make functions async
    – Alb
    Commented Mar 23, 2021 at 10:04
  • 1
    @TinusJackson Async programming differs from multi-threading. In async programming your device call an async function and wait for it to provide the required result. There is no computation goin on in the background then. In multi-threading, your device calls the fucntions and starts doing computation in the background. Async functions work on the same UI thread whereas Isolates functions compute on a completely different thread Commented Mar 23, 2021 at 10:06
  • @SarveshDalvi I am aware. Unfortunately, Isolates are not supported for web. Is there a way to prevent my GUI from freezing while a process computes in the background?
    – Alb
    Commented Mar 23, 2021 at 10:07
  • @Albert You can refer the solution I have provided. You baiscally use html workers instead of isolates Commented Mar 23, 2021 at 10:08

2 Answers 2

2

https://dev.to/kyorohiro/isolate-at-flutter-for-web-28lg#:~:text=We%20could%20use%20isolate%20in,Use%20Worker%20instead%20of%20Isolate. This link will help. You can use workers which were used when isolates were not supported in dart.

This one too : https://github.com/deakjahn/flutter_isolate_web has a good example of it's implementation

0

My solution for desktop/web threads: https://pub.dev/packages/dart_thread

Web platform requires additional steps to compile the worker, but you need to do this in any case if you create a worker.

Example of usage:

import 'package:dart_thread/dart_thread.dart';

class TestThread extends DartThread {

  // Need to mapping Class to super.init,
  // because dart did not allow override a static method
  static TestThread newInstance() => TestThread();

  @override
  // only for web 
  messageToObject(message) {

    if (message is Map<String, dynamic>) {

      if (message['runtimeType'] == 'CustomClass') return CustomClass.fromJson(message);

    }

    return super.messageToObject(message);
  }

  @override
  Future<void> onExecute(Function(dynamic message) sendMessage) async {
    int counter = 0;
    while (true) {
      sendMessage(++counter);
      await Future.delayed(Duration(seconds: 1));
    }
  }

  @override
  Future<void> onGetMessage(message, Function(dynamic message) sendMessage) async {
    print('Receive message from main thread: $message');
    sendMessage(message);
  }

}

class CustomClass {
  final int i;
  final String s;
  final double d;

  CustomClass(this.i, this.s, this.d);

  String toString() {
    return '$i, $s, $d';
  }

  Map<String, dynamic> toJson() => {
    'runtimeType': 'CustomClass',
    'i': i,
    's': s,
    'd' : d,
  };

  CustomClass.fromJson(Map<String, dynamic> json) :
        i = json['i'],
        s = json['s'],
        d = json['d'];

}

void main() async {

  TestThread testThread1 = TestThread();
  TestThread testThread2 = TestThread();

  await testThread1.init(TestThread.newInstance, (message) {
    print('Receive message from testThread1: $message');
  });

  await testThread2.init(TestThread.newInstance, (message) {
    print('Receive message from testThread2: $message');
  });

  testThread1.sendMessage('echo');
  testThread2.sendMessage('echo');

  CustomClass customClass = CustomClass(1, '1', 1.0);
  testThread1.sendMessage(customClass);
  testThread2.sendMessage(customClass);

  await Future.delayed(Duration(seconds: 10));

  testThread1.deInit();
  testThread2.deInit();

}

Result in console:

flutter: Receive message from testThread1: 1
flutter: Receive message from main thread: echo
flutter: Receive message from main thread: echo
flutter: Receive message from testThread2: 1
flutter: Receive message from testThread2: echo
flutter: Receive message from testThread1: echo
flutter: Receive message from main thread: 1, 1, 1.0
flutter: Receive message from main thread: 1, 1, 1.0
flutter: Receive message from testThread1: 1, 1, 1.0
flutter: Receive message from testThread2: 1, 1, 1.0
flutter: Receive message from testThread1: 2
flutter: Receive message from testThread2: 2
flutter: Receive message from testThread1: 3
flutter: Receive message from testThread2: 3
flutter: Receive message from testThread1: 4
flutter: Receive message from testThread2: 4
flutter: Receive message from testThread1: 5
flutter: Receive message from testThread2: 5
flutter: Receive message from testThread1: 6
flutter: Receive message from testThread2: 6
flutter: Receive message from testThread1: 7
flutter: Receive message from testThread2: 7
flutter: Receive message from testThread1: 8
flutter: Receive message from testThread2: 8
flutter: Receive message from testThread1: 9
flutter: Receive message from testThread2: 9
flutter: Receive message from testThread1: 10
flutter: Receive message from testThread2: 10
flutter: Receive message from testThread1: 11

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.