async_task 1.0.8 copy "async_task: ^1.0.8" to clipboard
async_task: ^1.0.8 copied to clipboard

outdated

Asynchronous tasks and parallel executors (similar to thread pools) for all Dart platforms (transparently), without having to deal with `Isolate` complexity.

async_task #

pub package Null Safety

CI GitHub Tag New Commits Last Commits Pull Requests Code size License

This package brings asynchronous tasks and parallel executors (similar to classic thread pools) for all Dart platforms (JS/Web, Flutter, VM/Native) through transparent internal implementations, based on dart:isolate or only dart:async, without having to deal with the Isolate complexity.

Motivation #

Dart parallelism is based on asynchronous, non-blocking and thread-safe code. This creates a language that facilitates the creation of safe concurrency code, but all running in the same thread, using only 1 thread/core of a device.

If you want to use more than 1 thread/core of a device, Dart VM/Native has Isolate, but the paradigm is not easy to use like classical Thread Pools, or like environments that shares all the memory/objects between threads.

This package was created to facilitate the creation and execution of multiple tasks asynchronously in all Dart Platforms, avoiding platform specific codes by the developer.

Usage #

import 'dart:async';

import 'package:async_task/async_task.dart';

void main() async {
  // The tasks to execute:
  var tasks = [
    PrimeChecker(8779),
    PrimeChecker(1046527),
    PrimeChecker(3139581), // Not Prime
    PrimeChecker(16769023),
  ];

  // Instantiate the task executor:
  var asyncExecutor = AsyncExecutor(
    sequential: false, // Non-sequential tasks.
    parallelism: 2, // Concurrency with 2 threads.
    taskTypeRegister: _taskTypeRegister, // The top-level function to register the tasks types.
  );

  // Enable logging output:
  asyncExecutor.logger.enabled = true ;

  // Execute all tasks:
  var executions = asyncExecutor.executeAll(tasks);

  // Wait tasks executions:
  await Future.wait(executions);

  for (var task in tasks) {
    var n = task.n; // Number to check for prime.
    var prime = task.result; // Task result: true if is prime.
    print('$n\t-> $prime \t $task');
  }
}

// This top-level function returns the tasks types that will be registered
// for execution. Task instances are returned, but won't be executed and
// will be used only to identify the task type:
List<AsyncTask> _taskTypeRegister() => [PrimeChecker(0)];

// A task that checks if a number is prime:
class PrimeChecker extends AsyncTask<int, bool> {
  // The number to check if is prime.
  final int n;

  PrimeChecker(this.n);

  // Instantiates a `PrimeChecker` task with `parameters`.
  @override
  AsyncTask<int, bool> instantiate(int parameters) {
    return PrimeChecker(parameters);
  }

  // The parameters of this task:
  @override
  int parameters() {
    return n;
  }

  // Runs the task code:
  @override
  FutureOr<bool> run() {
    return isPrime(n);
  }

  // A simple prime check function:
  bool isPrime(int n) {
    if (n < 2) return false;

    var limit = n ~/ 2;
    for (var p = 2; p < limit; ++p) {
      if (n % p == 0) return false;
    }

    return true;
  }
}

Output:

[INFO] Starting AsyncExecutor{ sequential: false, parallelism: 2, executorThread: _AsyncExecutorMultiThread{ totalThreads: 2, queue: 0 } }
[INFO] Starting _AsyncExecutorMultiThread{ totalThreads: 2, queue: 0 }
[INFO] Created _IsolateThread{ id: 2 ; registeredTasksTypes: [PrimeChecker] }
[INFO] Created _IsolateThread{ id: 1 ; registeredTasksTypes: [PrimeChecker] }
8779     -> true 	 PrimeChecker(8779)[finished]{ result: true ; executionTime: 2 ms }
1046527  -> true 	 PrimeChecker(1046527)[finished]{ result: true ; executionTime: 2 ms }
3139581  -> false 	 PrimeChecker(3139581)[finished]{ result: false ; executionTime: 0 ms }
16769023 -> true 	 PrimeChecker(16769023)[finished]{ result: true ; executionTime: 35 ms }

SharedData #

The class SharedData facilitates and optimizes data shared between tasks. The main advantage of data encapsulated with SharedData is to avoid multiple messages, with the same data, between threads/isolates, avoiding concurrency performance issues and multiple duplicated objects in memory (a GC bottleneck).

Here's an example of a task using SharedData:

// A task that checks if a number is prime:
class PrimeChecker extends AsyncTask<int, bool> {
  // The number to check if is prime.
  final int n;

  // A list of known primes, shared between tasks.
  final SharedData<List<int>, List<int>> knownPrimes;

  PrimeChecker(this.n, this.knownPrimes);

  // Instantiates a `PrimeChecker` task with `parameters` and `sharedData`.
  @override
  PrimeChecker instantiate(int parameters, [Map<String, SharedData>? sharedData]) {
    return PrimeChecker(
      parameters,
      sharedData!['knownPrimes'] as SharedData<List<int>, List<int>>,
    );
  }

  // The `SharedData` of this task.
  @override
  Map<String, SharedData> sharedData() => {'knownPrimes': knownPrimes};

  // Loads the `SharedData` from `serial` for each key.
  @override
  SharedData<List<int>, List<int>> loadSharedData(String key, dynamic serial) {
    switch (key) {
      case 'knownPrimes':
        return SharedData<List<int>, List<int>>(serial);
      default:
        throw StateError('Unknown key: $key');
    }
  }

  // The parameters of this task:
  @override
  int parameters() {
    return n;
  }

  // Runs the task code:
  @override
  FutureOr<bool> run() {
    return isPrime(n);
  }

  // A simple prime check function:
  bool isPrime(int n) {
    if (n < 2) return false;

    // The pre-computed primes, optimizing this checking algorithm:
    if (knownPrimes.data.contains(n)) {
      return true;
    }
    
    // It's sufficient to search for prime factors in the range [1,sqrt(N)]:
    var limit = (sqrt(n) + 1).toInt();

    for (var p = 2; p < limit; ++p) {
      if (n % p == 0) return false;
    }

    return true;
  }
}

The field knownPrimes above will be shared between tasks. In platforms with support for dart:isolate knownPrimes will be sent through a Isolate port only once, avoiding multiple copies and unnecessary memory allocations.

AsyncTaskChannel #

An AsyncTask can have a communication channel that can be used to send/received messages during task execution.

To use a task channel just override channelInstantiator, than use channelResolved() inside the task and await channel() outside it:

class YourTask extends AsyncTask<String, int> {
  // ...
  
  @override
  AsyncTaskChannel? channelInstantiator() => AsyncTaskChannel();

  // ...

  @override
  FutureOr<int> run() async {
    // ...
    
    var channel = channelResolved()!;
    var result = await channel.sendAndWaitResponse<String, String>('some message');

    // ...
  }
}

Outside communication with the task:

// ...

var channel = (await task.channel())!;
var msg = await channel.waitMessage();

// process msg...

channel.send('Some response');

// ...

An AsyncTaskChannel is automatically closed when a task finishes (returns its result).

Source #

The official source code is hosted @ GitHub:

Features and bugs #

Please file feature requests and bugs at the issue tracker.

Contribution #

Any help from the open-source community is always welcome and needed:

  • Found an issue?
    • Please fill a bug report with details.
  • Wish a feature?
    • Open a feature request with use cases.
  • Are you using and liking the project?
    • Promote the project: create an article, do a post or make a donation.
  • Are you a developer?
    • Fix a bug and send a pull request.
    • Implement a new feature, like other training algorithms and activation functions.
    • Improve the Unit Tests.
  • Have you already helped in any way?
    • Many thanks from me, the contributors and everybody that uses this project!

Author #

Graciliano M. Passos: gmpassos@GitHub.

License #

Apache License - Version 2.0

102
likes
0
pub points
86%
popularity

Publisher

unverified uploader

Asynchronous tasks and parallel executors (similar to thread pools) for all Dart platforms (transparently), without having to deal with `Isolate` complexity.

Repository (GitHub)
View/report issues

License

unknown (license)

Dependencies

collection

More

Packages that depend on async_task