With Enums, you can have a method per instance.
public enum ActionEnum {
ABC {
@Override
void doSomething() {
System.out.println("Doing something for ABC");
}
},
XYZ {
@Override
void doSomething() {
System.out.println("Doing something for XYZ");
}
};
abstract void doSomething();
}
public class MyActionClass {
public void myMethod(String name) {
ActionEnum.valueOf("ABC").doSomething();
}
}
It is still kinda messy (big enum with 100+ entries, even it all it does is dispatching), but may avoid the HashMap initialization code (100+ puts is also messy in my opinion).
And yet another option (for documentation purposes) would be reflection:
public interface Action {
void doSomething();
}
public class ABCAction implements Action {
@Override
public void doSomething() {
System.out.println("Doing something for ABC");
}
}
public class MyActionClass {
void doSomethingWithReflection(String name) {
try {
Class<? extends Action> actionClass = Class.
forName("actpck."+ name + "Action").asSubclass(Action.class);
Action a = actionClass.newInstance();
a.doSomething();
} catch (Exception e) {
// TODO Catch exceptions individually and do something useful.
e.printStackTrace();
}
}
}
Each approach has it's trade offs:
- HashMap = Fast + Kinda messy ("set-up" code with hundred of puts)
- Enum = Fast + Kinda messy 2 (huge file).
- Reflection = Slower + runtime error prone, but provides clean separation without resorting to clunky big HashMap.