0

enter image description here

The diagram above taken from the factory method example, the cross at the right corner indicate it's not the right solution. So I came up with my own:

Runner.java

package test;

public class Runner {

    /**
     * @param args
     */
    public static void main(String[] args) {
        Fighter f = new Fighter();
        f.attack();
        Wizard w = new Wizard();
        w.attack();
    }

}

Player.java

package test;

public abstract class Player {
    protected String type;

    public Player(String type) {
        this.type = type;
    }
    public void attack() {
        WeaponFactory.getWeapon(type).hit();
    }
}

Fighter.java

package test;

public class Fighter extends Player {

    public Fighter() {
        super("Fighter");
    }

}

Wizard.java

package test;

public class Sword implements Weapon {

    public Sword() {
    }

    public void hit() {
        System.out.println("Hit by sword");
    }

}

Weapon.java

package test;

public abstract class Weapon {

    public void hit(){};

}

Wand.java

package test;

public class Wand extends Weapon {

    public Wand() {
    }

    public void hit() {
        System.out.println("Hit by Wand");
    }

}

Sword.java

package test;

public class Sword extends Weapon {

    public Sword() {
    }

    public void hit() {
        System.out.println("Hit by sword");
    }

}

WeaponFactory.java

package test;

public class WeaponFactory {


    public static Weapon getWeapon(String type) {
        Weapon returnValue = null;
        if(type.equals("Wizard")) {
            returnValue = new Wand();
        }else if(type.equals("Fighter")) {
            returnValue = new Sword();
        }
        return returnValue;
    }

}

Did I do it right in term of using the Factory method design pattern

0

2 Answers 2

0

Your WeaponFactory violates the Open-Closed Principle. To be compliant with object oriented design, consider following changes:

public abstract class Player {
    protected WeaponFactory weaponFactory;

    public Player(WeaponFactory weaponFactory) {
        this.weaponFactory = weaponFactory;
    }
    public void attack() {
        weaponFactory.getWeapon().hit();
    }
}

public class Fighter extends Player {
    public Fighter() {
        super(new SwordFactory());
    }
}

public interface WeaponFactory {
    Weapon getWeapon();
}

Create SwordFactory and WandFactory implementing WeaponFactory.

2
  • Thanks for correcting my code. Your code is much better. But I just want to how my code violates the Open-Closed Principle
    – mko
    Jun 10, 2013 at 12:23
  • 1
    @yozloy Comparing types at runtime often results in violating Open Closed Principle. (And probably that's what got you uncomfortable with this design.) If you wanted to introduce a new kind of player, you would be forced to modify the WeaponFactory (so WeaponFactory is not closed for modifications). In the proposed design if you introduce a new player, you can create a new factory, so you add new code and don't change old code. More about OCP with similar case of type comparisons
    – lisp
    Jun 10, 2013 at 13:11
0

Checking out this link I think your code is ok.

Though you could simply return the new object in Weapon Factory.

public class WeaponFactory {


    public static Weapon getWeapon(String type) {

        if(type.equals("Wizard")) {
            return new Wand();
        }else if(type.equals("Fighter")) {
            return new Sword();
        }

    }

}

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.