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Currently I have a method that acts as a factory based on a given String. For example:

public Animal createAnimal(String action)
{
    if (action.equals("Meow"))
    {
        return new Cat();
    }
    else if (action.equals("Woof"))
    {
        return new Dog();
    }

    ...
    etc.
}

What I want to do is avoid the entire if-else issue when the list of classes grows. I figure I need to have two methods, one that registers Strings to classes and another that returns the class based on the String of the action.

What's a nice way to do this in Java?

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4  
Use a HashMap :) –  Romain Hippeau Aug 8 '10 at 13:33
    
Okay, but what should the value be? It could be the equivalent object. But say the method is called multiple times, requiring a new object on each call. Would I need to reinstantiate the object after returning it? –  Brad Aug 8 '10 at 13:36
2  
You can have a HashMap<String, Callable> where the Callable returns an object of the type indicated by String. Then populate the map in the factory constructor. –  Thorbjørn Ravn Andersen Aug 8 '10 at 14:27
    
Map<String,Class> is good enough. Don't go architecture-crazy guys. –  irreputable Aug 8 '10 at 19:46
    
Use enum instead of your action strings. –  shrini1000 Oct 30 '12 at 7:10

8 Answers 8

up vote 32 down vote accepted

What you've done is probably the best way to go about it, until a switch on string is available.

You could create factory objects and a map from strings to these. But this does get a tad verbose in current Java.

private interface AnimalFactory {
    Animal create();
}
private static final Map<String,AnimalFactory> factoryMap =
    Collections.unmodifiableMap(new HashMap<String,AnimalFactory>() {{
        put("Meow", new AnimalFactory() { public Animal create() { return new Cat(); }});
        put("Woof", new AnimalFactory() { public Animal create() { return new Dog(); }});
    }});

public Animal createAnimal(String action) {
    AnimalFactory factory = factoryMap.get(action);
    if (factory == null) {
        throw new EhException();
    }
    return factory.create();
}

In JDK7 this may look something like:

private interface AnimalFactory {
    Animal create();
}
private static final Map<String,AnimalFactory> factoryMap = {
    "Meow" : { -> new Cat() },
    "Woof" : { -> new Dog() },
};

public Animal createAnimal(String action) {
    AnimalFactory factory = factoryMap.get(action);
    if (factory == null) {
        throw EhException();
    }
    return factory.create();
}
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3  
Nice heads up on JDK7 :) –  Rui Vieira Aug 8 '10 at 13:49
3  
Whats wrong just using a Callable instead of a new AnimalFactory interface? –  Thorbjørn Ravn Andersen Aug 8 '10 at 14:27
    
Callable throws. It's also rather non-nominative. –  Tom Hawtin - tackline Aug 8 '10 at 15:32
    
Argh, double-brace initialization... (you also have 2x a typo: ` facotryMap`) –  Jesper Aug 8 '10 at 16:19
    
Closures are awesome. –  BalusC Aug 8 '10 at 16:53

There's no need for Maps with this solution. Maps are basically just a different way of doing an if/else statement anyway. Take advantage of a little reflection and it's only a few lines of code that will work for everything.

public static Animal createAnimal(String action)
{
     Animal a = (Animal)Class.forName(action).newInstance();
     return a;
}

You'll need to change your arguments from "Woof" and "Meow" to "Cat" and "Dog", but that should be easy enough to do. This avoids any "registration" of Strings with a class name in some map, and makes your code reusable for any future Animal you might add.

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2  
Generally, Class.newInstance() should be avoided (due to its poor exception handling). –  Dimitris Andreou Aug 8 '10 at 20:47

Use Scannotations!

Step 1. Create an annotation like below:

package animal;

import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;

@Retention(RetentionPolicy.RUNTIME)
public @interface AniMake {
    String action();
}

Note that the RetentionPolicy is runtime, we'll be accessing this via reflection.

Step 2. (Optional) Create a common super class:

package animal;

public abstract class Animal {

    public abstract String greet();

}

Step 3. create the subclasses with your new annotation:

package animal;

@AniMake(action="Meow")
public class Cat extends Animal {

    @Override
    public String greet() {
        return "=^meow^=";
    }

}
////////////////////////////////////////////
package animal;

@AniMake(action="Woof")
public class Dog extends Animal {

    @Override
    public String greet() {
        return "*WOOF!*";
    }

}

Step 4. Create the factory:

package animal;

import java.util.Set;

import org.reflections.Reflections;

public class AnimalFactory {

    public Animal createAnimal(String action) throws InstantiationException, IllegalAccessException {
        Animal animal = null;
        Reflections reflections = new Reflections("animal");
        Set<Class<?>> annotated = reflections.getTypesAnnotatedWith(AniMake.class);

        for (Class<?> clazz : annotated) {
            AniMake annoMake = clazz.getAnnotation(AniMake.class);
            if (action.equals(annoMake.action())) {
                animal = (Animal) clazz.newInstance();
            }
        }

        return animal;
    }

    /**
     * @param args
     * @throws IllegalAccessException 
     * @throws InstantiationException 
     */
    public static void main(String[] args) throws InstantiationException, IllegalAccessException {
        AnimalFactory factory = new AnimalFactory();
        Animal dog = factory.createAnimal("Woof");
        System.out.println(dog.greet());
        Animal cat = factory.createAnimal("Meow");
        System.out.println(cat.greet());
    }

}

This factory, can be cleaned up a bit e.g. deal with the nasty checked exceptions etc.
In this factory, I've used the Reflections library.
I did this the hard way, i.e. I didn't make a maven project and I had to add the dependencies manually.
The dependencies are:

If you skipped Step 2, then you'll need to change the factory method to return Object.
From this point on you can keep adding subclasses, and as long as you annotating them with AniMake (or whatever better name you come up with), and place them in the package defined in the Reflections constructor (in this case "animal"), and leave the default no-args constructor visible, then the factory will instantiate your classes for you without having to be changed itself.

Here's the output:

log4j:WARN No appenders could be found for logger (org.reflections.Reflections).
log4j:WARN Please initialize the log4j system properly.
*WOOF!*
=^meow^=
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4  
Overengineered, slow, and in rather poor taste (at least the last is subjective, of course). Even in case the original problem was bigger to warrant something more sophisticated, applying a more general solution like Guice would be preferable. –  Dimitris Andreou Aug 8 '10 at 20:57
1  
@Dimitris, your synopsis is completely unfounded! 1) A single reusable Annotation class is preferable to having to edit a map every time you add a class, you might as well leave the if else structure in the factory if you're going to change it anyway. You could eliminate the libraries and do the reflection yourself, but I don't like to reinvent the wheel. 2) You need to quantify slow ... statements like "Reflection is slow" live in the same era as "Java is slow". 3) Even if you use Guice, you still need to somehow map the classes to an arbitrary keyword and provide a factory. –  crowne Aug 8 '10 at 22:17
1  
Though reflection is slow compared to a virtual method call (well, try it), I was referring to classpath scanning, which can be exceptionally slow (you do realize that this has to search all jars of the classpath, and parse part of the bytecode of all classes inside them - extra points if the jars are not even at the local filesystem...) –  Dimitris Andreou Aug 8 '10 at 22:25
2  
Ironically, this trick would incur, just by the dependencies you used, the cost of decompressing and parsing ~1200 classes. Let alone introducing new, silent kind of classpath-dependent bugs. Now compare all of this with the simplicity, reliability and the efficiency of some of the other answers here. Oh well, tasteful indeed! :P –  Dimitris Andreou Aug 9 '10 at 0:03
3  
Was this answer a joke? I understand how this might be useful if you had 100's of types of animals, but otherwise it seems to represent everything that people complain about java and over-engineering. –  GreenieMeanie Aug 13 '10 at 17:06

If you don't have to use Strings, you could use an enum type for the actions, and define an abstract factory method.

...
public enum Action {
    MEOW {
        @Override
        public Animal getAnimal() {
            return new Cat();
        }
    },

    WOOF {
        @Override
        public Animal getAnimal() {
            return new Dog();
        }
    };

    public abstract Animal getAnimal();
}

Then you can do things like:

...
Action action = Action.MEOW;
Animal animal = action.getAnimal();
...

It's kind of funky, but it works. This way the compiler will whine if you don't define getAnimal() for every action, and you can't pass in an action that doesn't exist.

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I haven't tried this, but could with create a Map with "Meow", etc as keys and (say) Cat.class as value.

Provide a static instance generation via an interface and call as

Animal classes.get("Meow").getInstance()
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I'd look to retrieve an Enum representation of the String and switch on that.

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My thought would be to somehow map a String to a function. That way you can pass Meow to the map and return the constructor function that was already mapped out. I'm not sure how to do this in Java, but a quick search returned this SO thread. Someone else may have a better idea, though.

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You already selected the answer to that question, but that could still help.

Although I am a .NET/C# developer, this is really a general OOP problem. I have run in the same kind of problem and I have found a nice solution (I think) using an IoC Container.

If you don't use one yet, that is probably a good reason to start. I don't know IoC containers in Java, but I assume there must be one with similar features.

What I had was a Factory that contains a reference to the IoC container, which is resolved by the container itself (in the BootStrapper)

...
public AnimalFactory(IContainer container) 
{ 
    _container = container; 
}

You can then setup your IoC container to resolve the correct types based on a key (the sound in your example). It would abstracts completely the concrete classes that your factory needs to return.

in the end, your factory method is shrunk down to this :

...
public Createable CreateAnimal(string action) 
{ 
    return _container.Resolve<Createable>(action); 
} 

This stackoverflow question illustrates the same kind of problem with real world elements and the validated answer shows a draft of my solution (pseudo code). I later wrote a blog post with the real pieces of code where it is much clearer.

Hope this can help. But it might be overkill in simple cases. I used that because I had 3 levels of dependencies to resolve, and an IoC container already assembling all my components.

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