Our application makes heavy use of factories to spit out objects, but I often wonder if they are always really necessary, and it wouldn't simply be better to create an instance of a "known object" as a bean. The argument is that developers are often customizing the implementation of these returned objects (which are returned with their interface type), and since we don't technically "know" exactly what we're getting, it is better to use the factory. I'm at the point where I need to create a factory, which requires the interface, the class implementation, and then the factory. My object isn't going to change though -- it really is a concrete object with a specific purpose... shouldn't I just instantiate a bean that gets and sets the state? I'm trying to avoid premature generalization.
The whole purpose of a factory or dependency injection solution is reduce coupling between the client and the runtime type of the object. It's true that the client has to know the interface and the source of the data, but now the source is free to return any type that implements the interface. It also allows you to encapsulate the knowledge of the runtime type in one place - only the factory or dependency injection solution needs to know.
This is helpful when generating runtime proxies to implement declarative transactions. From the client's point of view, they're dealing with the interface. The factory can generate the proxy that manages transactions for the client.
Once you type "new", the client is tied to using the compile type at runtime. Changing it means changing the client. If you have lots of places where you call "new" in your code that can be a maintenance problem.
When do I call "new"? I think it's appropriate inside a method to instantiate local objects that will be GC'd when they go out of scope. The method creates them, uses them, and then they're done. I would not use a factory or DI solution there.
Maybe you should close your factories and consider a dependency injection solution like Spring, Guice, or PicoContainer.
Having a factory method implies—but does not always mean—that the object has no public default constructor. The idea being that if there is a factory method (for example) that you shouldn't be able to bypass it and create one directly.
In the most simplistic cases there is very little reason to have a public constructor rather than a public static method that returns a new object and the object only has private/protected constructors.
That being said, there are cases where you either need to have public default constructors or it is very inconvenient not to have them. Examples include using Spring's BeanWrapper. Certain methods require a default constructor. Using a JavaBeans interface requires it. Reflection can be awkward without it (which is part of the reason for the previous two) and so on.
In those cases having a factory is probably of little value unless your factory is returning an interface and that class implements the interface. Then again, it can also be argued that most (if not all) return types (and parameter types) should be interfaces not classes anyway but that's a whole separate argument.
Another potential disadvantage of having factories is that it can decrease testability in that the factory can have an annoying tendency to rely on or modify some form of external state. This isn't necessarily the case but, for example, this code:
will have different results based on the localization/internationalization.