Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I'm developing a sample Java application that uses Oracle's built-in "HR" database schema. I'd like to treat table rows as Java objects. One of the tables in the HR schema, EMPLOYEES, is self-referential. It has a MANAGER_ID column which contains (if not NULL) a foreign key to another row in the EMPLOYEES table.

In object-oriented terms, the problem is how to get access to a given Employee object's manager (which is another Employee object). Eager loading doesn't seem to be a good solution, since the given Employee object's manager could also have a manager, and so on. The number of objects to eagerly load in this situation is unbounded.

What I've decided to do so far is eagerly load the MANAGER_ID field when instantiating an Employee object. Then, when the Employee's manager Employee object is requested (through a getManager() method), the latter will be lazily loaded. In code:

public class Employee
    private int id;
    private int managerId;
    private Employee manager;

    public int getId()
        return id;

    public Employee getManager()
        if(manager == null && managerId > 0)
            // Lazy loading!

        return manager;

    public void setManager(Employee manager)
        this.manager = manager;
        this.managerId = manager.getId();

So is this a good approach? The only issue I have with it is how to implement the lazy loading. It would seem that an Employee object needs a reference to its instantiator -- presumably that would be the same thing that would instantiate its manager Employee object.

Also, I know I could just use one of the many ORM frameworks out there instead of rolling my own, but I'm doing this on my own to gain more insight into the underlying process(es).

EDIT: Just to clarify, my architecture for this effort (such as it is) doesn't involve Java EE at all. It's a Java SE architecture where the client interfaces with the server via straightforward RMI.

Also, the Employee class above clearly does need a reference to a DAO to perform the lazy loading. However, I don't see this as necessarily tightly coupled because:

  1. the Employee object could hold a reference to an abstract interface, which the DAO implements; and/or
  2. the Employee object could hold a reference to the server object, which in turn holds a (private) reference to the DAO.

Note that in the case of #2, the server object that the Employee object references is presumably the same one that the client references.

share|improve this question
I don't understand the usecase here. This does not seem like an automatic ORM but more like a manual one. I can tell you how lazy-loading is implemented in other ORMs, but is this what you want? – Bozho Dec 12 '10 at 20:43
Sorry, I should've been more specific. Yes, it's a manual ORM. I'm wondering whether my implementation of lazy loading makes sense in that context. – visual-kinetic Dec 12 '10 at 22:01
Why don't you simply configure the manager to be lazy loaded? I wouldn't go for the way you're currently thinking. Also note that when you do manually lazy loading (without using proxies, AOP or something alike), you most likely have to include an entity manager or something similar to do the actual lazy loading in your class, coupling your model to the way you're retrieving data from the database. So your approach is no longer loosly coupled, aside from the fact that you'll no longer have simple POJO's. – Tim Dec 12 '10 at 22:24
Sorry, what do you mean by "configure the manager to be lazy loaded"? With what I'm doing, which isn't using any ORM frameworks, just regular Java code, I don't understand what distinction there could be between manually lazy loading and (presumably) automatically lazy loading. I'm pretty new to this stuff, though, so there may be a lot that I'm missing. – visual-kinetic Dec 12 '10 at 22:39

If you are aware of other ORMs, why not look into how they do that? In particular, you might find Hibernate's lazy loading proxies interesting:

Hibernate would create (at runtime, using bytecode-generation) a subclass of Employee which encapsulates a reference to a not-yet-loaded employee object. Invocation of any method (other than getId()) on this class loads the referred to employee object, and then delegates to it.

Compared to your approach, this has the advantage that lazy loading support need not be coded for each association, but can be coded once for all associations, avoiding polluting the domain model (which hosts business logic) with database access code. Also, callers can work with an object without loading it as long as they do not access its state. For instance, they can do:

void switchJobs(Employee e1, Employee e2) {
    Employee m1 = e1.getManager();  // doesn't load the manager!
    e1.setManager(e2.getManager()); // doesn't load the manager!

Also, Hibernate would not load the same manager several times in a transaction, but reuse the already loaded persistent object or lazy loading proxy. This both improves performance and the consistency of your object model, i.e. if several employees share a manager, and one employee modifies it, the other employee will see that change, and managers can be compared using ==.

share|improve this answer
While I can definitely see how Hibernate's approach has advantages, I'm not sure whether bytecode generation is warranted here. I guess I need to clarify further. This is just a prototype application to "get my feet wet" working with software that is more enterprise-y. But thanks all the same, and +1 to your answer for the useful info. :) – visual-kinetic Dec 22 '10 at 0:25

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.