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Polymorphism in the Reliable Actors framework

The Reliable Actors framework allows you to build actors using many of the same techniques that you would use in object-oriented design. One of those techniques is polymorphism, which allows types and interfaces to inherit from more generalized parents. Inheritance in the Reliable Actors framework generally follows the .NET model with a few additional constraints. In case of Java/Linux, it follows the Java model.

Interfaces

The Reliable Actors framework requires you to define at least one interface to be implemented by your actor type. This interface is used to generate a proxy class that can be used by clients to communicate with your actors. Interfaces can inherit from other interfaces as long as every interface that is implemented by an actor type and all of its parents ultimately derive from IActor(C#) or Actor(Java) . IActor(C#) and Actor(Java) are the platform-defined base interfaces for actors in the frameworks .NET and Java respectively. Thus, the classic polymorphism example using shapes might look something like this:

Interface hierarchy for shape actors

Types

You can also create a hierarchy of actor types, which are derived from the base Actor class that is provided by the platform. In the case of shapes, you might have a base Shape(C#) or ShapeImpl(Java) type:

public abstract class Shape : Actor, IShape
{
    public abstract Task<int> GetVerticeCount();

    public abstract Task<double> GetAreaAsync();
}
public abstract class ShapeImpl extends FabricActor implements Shape
{
    public abstract CompletableFuture<int> getVerticeCount();

    public abstract CompletableFuture<double> getAreaAsync();
}

Subtypes of Shape(C#) or ShapeImpl(Java) can override methods from the base.

[ActorService(Name = "Circle")]
[StatePersistence(StatePersistence.Persisted)]
public class Circle : Shape, ICircle
{
    public override Task<int> GetVerticeCount()
    {
        return Task.FromResult(0);
    }

    public override async Task<double> GetAreaAsync()
    {
        CircleState state = await this.StateManager.GetStateAsync<CircleState>("circle");

        return Math.PI *
            state.Radius *
            state.Radius;
    }
}
@ActorServiceAttribute(name = "Circle")
@StatePersistenceAttribute(statePersistence = StatePersistence.Persisted)
public class Circle extends ShapeImpl implements Circle
{
    @Override
    public CompletableFuture<Integer> getVerticeCount()
    {
        return CompletableFuture.completedFuture(0);
    }

    @Override
    public CompletableFuture<Double> getAreaAsync()
    {
        return (this.stateManager().getStateAsync<CircleState>("circle").thenApply(state->{
          return Math.PI * state.radius * state.radius;
        }));
    }
}

Note the ActorService attribute on the actor type. This attribute tells the Reliable Actor framework that it should automatically create a service for hosting actors of this type. In some cases, you may wish to create a base type that is solely intended for sharing functionality with subtypes and will never be used to instantiate concrete actors. In those cases, you should use the abstract keyword to indicate that you will never create an actor based on that type.

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