Java : Asynchronous Task sequencing using Observer pattern

The other day I was answering a question on stackoverflow on what could be a simple implementation of sequencing or ordering asynchronous tasks in Java. More detail about the question. Basically task sequencing problem is, you have a list of tasks say : {A, B, C, D} and you want execute them in some order, say {A} -> {B, C} ->{D} ->{X} -> {A}.

I preferred the Observer pattern because it is more of a reactive pattern so that design is reactive in nature rather than controlling and more loosely coupled.

public abstract class Task extends Observable implements Runnable, Observer {
    private final Mutex lock = new Mutex();
    private final String taskId;
    private final Set<String> completedTasks;
    private final Set<String> shouldCompletedTasksBeforeStart;

    public Task(final String taskId) {
        this.taskId = taskId;
        this.completedTasks = new HashSet<>();
        this.shouldCompletedTasksBeforeStart = new HashSet<>();
    }

    public String getTaskId() {
        return this.taskId;
    }

    @Override
    public void run() {
        while (true) {
            this.lock.getLock();
            if (this.completedTasks.equals(this.shouldCompletedTasksBeforeStart)) {
                doWork();
                setChanged();
                notifyObservers(this.taskId);
                // reset
                this.completedTasks.clear();
            }
            this.lock.freeLock();
            try {
                // just some sleep, you change to how it fits you
                Thread.sleep(1000);
            } catch (final InterruptedException e) {
                // TODO Auto-generated catch block
            }
        }
    }

    @Override
    public void update(final Observable observable, final Object arg) {
        this.lock.getLock();
        this.completedTasks.add((String) arg);
        this.lock.freeLock();
    }

    public void addPredecessorTask(final Task task) {
        if (this.taskId.equals(task.taskId)) {
            return;
        }
        this.lock.getLock();
        // Notice here, it is a little logic make your predecessor/successor work
        task.addObserver(this);
        this.shouldCompletedTasksBeforeStart.add(task.taskId);
        this.lock.freeLock();
    }
    protected abstract void doWork();
}

//HelloTask.java
public static class HelloTask extends Task {
    public HelloTask(final String taskId) {
        super(taskId);
    }

    @Override
    protected void doWork() {
        System.out.println("Hello from " + getTaskId() + "!");
    }
}

//Main.java
public class Main {
    public static void main(final String[] args) {
        final HelloTask helloTaskA = new HelloTask("A");
        final HelloTask helloTaskB = new HelloTask("B");
        final HelloTask helloTaskC = new HelloTask("C");

        helloTaskA.addPredecessorTask(helloTaskB);
        helloTaskC.addPredecessorTask(helloTaskB);

        final ExecutorService pool = Executors.newFixedThreadPool(10);
        pool.execute(helloTaskC);
        pool.execute(helloTaskA);
        pool.execute(helloTaskB);

    }
}

Advertisements

Artificial Brain and cryptanalysis

Was reading about different Blue brain or Artificial brain projects and thought of writing a simple network myself. So all I could afford myself is one compute machine from amazon which allows to run 3000 threads only if I am not doing much in each neuron. Each thread is a neuron and after adding little logic of filtering I came down to much lower number. I felt like, what am I doing, so to simulate this in cloud framework, I need the following,

  • A good messaging platform
  • A very lightweight service framework to make it work as neuron

And to able to use this network for doing a cryptanalysis is not far but the brain I produced is a size of an ant or less. I need bigger brain means a lot of machines => a lot of money ??