5

Let's assume I have four classes: Car, Convertible, PickupTruck and CarManufacturer.

Car is the abstract class that Convertible and PickupTruck inherit from:

public abstract class Car {
    private String name;
    private String colour;

    //Constructor
}

Convertible and PickupTruck both have parameterless constructors:

public class Convertible extends Car {
    private boolean roofUnfolded;

    public Convertible() {
        super("Convertible", "Red");
        this.roofUnfolded = false;
    }
}

public class PickupTruck extends Car {
    private double capacity;

    public PickupTruck() {
        super("Pickup Truck", "Black");
        this.capacity = 100;
    }
}

CarManufacturer stores a List of either Convertibles or PickupTrucks.

public class CarManufacturer <T extends Car>{
    private List<T> carsProduced = new LinkedList<>();
}

How can I implement a function produceCar() that calls the parameterless constructor and adds the object to the list? I tried:

public void produceCar(){
    this.carsProduced.add(new T());
}

Returning the error: Type parameter 'T' cannot be instantiated directly

2 Answers 2

6

The same issues was solved here: https://stackoverflow.com/a/36315051/7380270

With regards to the problem, this works:

public class CarManufacturer <T extends Car> {
    private Supplier<T> carType;
    private List<T> carsProduced = new LinkedList<>();

    public CarManufacturer(Supplier<T> carType) {
        this.carType = carType;
    }

    public void produceCar() {
        this.carsProduced.add(carType.get());
    }

}

public class Main {
    public static void main(String[] args) {
        CarManufacturer<Convertible> convertibleCarManufacturer = new CarManufacturer<>(Convertible::new);
        convertibleCarManufacturer.produceCar();
    }
}
3

You can add Class<T> to the CarsManufacturer, which will preserve the meta-information about the type-parameter at Runtime. This could allow you to instantiate T, by using the Class#newInstance() method:

public class CarManufacturer<T extends Car> {

    private List<T> carsProduced = new LinkedList<>();

    private Class<T> clazz;

    public CarManufacturer(Class<T> clazz) {
        this.clazz = clazz;
    }

    public void produceCar() throws IllegalAccessException, InstantiationException {
        this.carsProduced.add(clazz.newInstance());
    }

}

You can then use it like this:

CarManufacturer<Convertible> carManufacturer = new CarManufacturer<>(Convertible.class);
carManufacturer.produceCar();

Even though this should work, keep in mind that there are few notes that are worth mentioning:

  • I wouldn't use the Class<T> member, just to get access to the type-parameter replacement at Runtime. I would rather add a (T instance) parameter to the produceCar method signature and directly add this instance to the list. Since you instantiate the CarManufactured by explicitly specifying the type-parameter, then there's no need to keep that Class<T>, because you already have the awareness of what the parameter is.
  • I would rename the produceCar method to something more related to what the method does - for example, saveCar() or addCar().
1
  • Well there are better ways than using reflections, but still a valid answer.
    – Flown
    Commented Jul 19, 2017 at 8:56

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.