Lifecycle Callbacks
Users can register callback methods that will be invoked during the lifecycle of persistent objects. Callback mechanism is similar to the one defined in the JPA Specification, however there are some noteable differences introduced to better follow the Cayenne object lifecycle. There are eight lifecycle callbacks described below (PostAdd, PrePersist, PostPersist, PreUpdate, PostUpdate, PreRemove, PostRemove, PostLoad). Each one cab be invoked as a callback on a persistent object itself or as a callback on an arbitrary listener object.
 | Callbacks feature supercedes the following 1.2/2.0 features:
|
Callback Method Semantics
- No formal interface is required to mark a method to be used for callback (although org.apache.cayenne.LifecycleListener can optionally be implemented for type-safety and to simplify registration).
- A callback method signature looks like "void someMethod()" for persistent classes.
- It looks like "void method(Type entityObject)" for listener classes.
- A callback method can have an arbitrary name.
- A callback method can use public, private, protected or default access.
- It must NOT be static.
- Callback methods are polymorphic - registering a callback on a superclass (even if the superclass does not map to an entity) will ensure the callback will be invoked on all entity subclasses, using the overriding subclass method if applicable.
Callback on persistent object example:
public class Artist { ... // a valid callback method protected void setDefaultProperties() { ... } }
Callback on a listener class example:
public class MyListener { ... // a valid callback method public void initArtist(Artist a) { ... } }
Note that empty callback methods are generated as a part of persistent class generation (either with Maven, Ant or CayenneModeler).
Types of Callbacks
Valid callback types are defined as Java enumerated constants in the org.apache.cayenne.map.LifecycleEvent enumeration.
| Callback | Invoked... |
|---|---|
| PostAdd | Within "ObjectContext.newObject()" after ObjectId and ObjectContext are set. |
| PrePersist | Prior to commit (and prior to "validateFor*") within "ObjectContext.commitChanges()" and "ObjectContext.commitChangesToParent()" |
| PreRemove | Before an object is deleted inside "ObjectContext.deleteObject()"; also includes all objects that will be deleted as a result of CASCADE delete rule. |
| PreUpdate | Prior to commit (and prior to "validateFor*") within "ObjectContext.commitChanges()" and "ObjectContext.commitChangesToParent()" |
| PostPersist | Within "ObjectContext.commitChanges()", after commit of a new object is done. |
| PostRemove | Within "ObjectContext.commitChanges()", after commit of a deleted object is done. |
| PostUpdate | Within "ObjectContext.commitChanges()", after commit of a modified object is done. |
| PostLoad |
|
Registering Callbacks
Normally listeners and persistent object callbacks are mapped in the Modeler, but this can also be done in the code. Callbacks are registered with LifecycleCallbackRegistry, which is shared by all contexts within a DataDomain.
Obtaining the shared registry instance:
import org.apache.cayenne.reflect.LifecycleCallbackRegistry;
...
DataDomain domain = ...
LifecycleCallbackRegistry registry = domain.getEntityResolver().getCallbackRegistry();
Registry obtained this way already contains callbacks mapped in the DataMap. To add extra callbacks in runtimes, use various addListener(...) methods.
Adding a listener object that implements LifecycleListener interface:
import org.apache.cayenne.LifecycleListener public class MyListener implements LifecycleListener { public void prePersist(Object entity) { Persistent p = (Persistent) entity; System.out.println("New object created for entity " + p.getObjectId().getEntityName()); } ... } // listen for events on a single entity - Artist registry.addListener(Artist.class, new MyListener()); // listen for events on ALL entities: registry.addDefaultListener(new MyListener());
Adding a listener of an arbitrary class
public class MyOtherListener { // note that callback method doesn't have to be // public or called any predefined name void onEntityLoad(Object entity) { Persistent p = (Persistent) entity; System.out.println("Object fetched: " + p.getObjectId().getEntityName()); } // also we can pass the object already cast to the entity class // if the method is only going to handle this type of entities void onArtistChange(Artist artist) { System.out.println("Artist changed " + artist.getArtistName()); } ... } Object listener = new MyOtherListener(); // listen for different events on a single entity - Artist. The same // method can be registered for multiple events registry.addListener(LifecycleListener.PRE_PERSIST, Artist.class, listener, "onArtistChange"); registry.addListener(LifecycleListener.PRE_REMOVE, Artist.class, listener, "onArtistChange"); registry.addListener(LifecycleListener.PRE_UPDATE, Artist.class, listener, "onArtistChange"); // register another method to listen for ALL entities registry.addListener(LifecycleListener.POST_LOAD, listener, "onEntityLoad");
Finally a persistent object can implement callbacks as well, being notified of its own events:
// "extends _Artist" implies "implements Persistent" via a superclass public class Artist extends _Artist { // note that callback on entity is a no-arg method. void onLoad() { Persistent p = (Persistent) entity; System.out.println("Object fetched: " + this); } } // register Artist class callback registry.addListener(LifecycleListener.POST_LOAD, Artist.class, "onLoad");