It is often necessary to perform various actions at different stages of a persistent object's lifecycle. JPA includes a variety of callbacks methods for monitoring changes in the lifecycle of your persistent objects. These callbacks can be defined on the persistent classes themselves and on non-persistent listener classes.
Every persistence event has a corresponding callback method marker. These markers are shared between persistent classes and their listeners. You can use these markers to designate a method for callback either by annotating that method or by listing the method in the XML mapping file for a given class. The lifecycle events and their corresponding method markers are:
PrePersist
: Methods marked with this annotation
will be invoked before an object is persisted. This could be used for assigning
primary key values to persistent objects. This is equivalent to the XML element
tag pre-persist
.
PostPersist
: Methods marked with this annotation
will be invoked after an object has transitioned to the persistent state. You
might want to use such methods to update a screen after a new row is added. This
is equivalent to the XML element tag post-persist
.
PostLoad
: Methods marked with this annotation
will be invoked after all eagerly fetched fields of your class have been loaded
from the datastore. No other persistent fields can be accessed in this method.
This is equivalent to the XML element tag post-load
.
PostLoad
is often used to initialize non-persistent
fields whose values depend on the values of persistent fields, such as a complex
data structure.
PreUpdate
: Methods marked with this annotation
will be invoked just the persistent values in your objects are flushed to the
datastore. This is equivalent to the XML element tag
pre-update
.
PreUpdate
is the complement to PostLoad
. While methods marked with PostLoad
are most
often used to initialize non-persistent values from persistent data, methods
annotated with PreUpdate
is normally used to set
persistent fields with information cached in non-persistent data.
PostUpdate
: Methods marked with this annotation
will be invoked after changes to a given instance have been stored to the
datastore. This is useful for clearing stale data cached at the application
layer. This is equivalent to the XML element tag post-update
.
PreRemove
: Methods marked with this annotation
will be invoked before an object transactions to the deleted state. Access to
persistent fields is valid within this method. You might use this method to
cascade the deletion to related objects based on complex criteria, or to perform
other cleanup. This is equivalent to the XML element tag
pre-remove
.
PostRemove
: Methods marked with this annotation
will be invoked after an object has been marked as to be deleted. This is
equivalent to the XML element tag post-remove
.
When declaring callback methods on a persistent class, any method may be used which takes no arguments and is not shared with any property access fields. Multiple events can be assigned to a single method as well.
Below is an example of how to declare callback methods on persistent classes:
/** * Example persistent class declaring our entity listener. */ @Entity public class Magazine { @Transient private byte[][] data; @ManyToMany private List<Photo> photos; @PostLoad public void convertPhotos() { data = new byte[photos.size()][]; for (int i = 0; i < photos.size(); i++) data[i] = photos.get(i).toByteArray(); } @PreDelete public void logMagazineDeletion() { getLog().debug("deleting magazine containing" + photos.size() + " photos."); } }
In an XML mapping file, we can define the same methods without annotations:
<entity class="Magazine"> <pre-remove>logMagazineDeletion</pre-remove> <post-load>convertPhotos</post-load> </entity>
We fully explore persistence metadata annotations and XML in Chapter 5, Metadata .
Mixing lifecycle event code into your persistent classes is not always ideal. It
is often more elegant to handle cross-cutting lifecycle events in a
non-persistent listener class. JPA allows for this, requiring only that listener
classes have a public no-arg constructor. Like persistent classes, your listener
classes can consume any number of callbacks. The callback methods must take in a
single java.lang.Object
argument which represents the
persistent object that triggered the event.
Entities can enumerate listeners using the EntityListeners
annotation. This annotation takes an array of listener classes as
its value.
Below is an example of how to declare an entity and its corresponding listener classes.
/** * Example persistent class declaring our entity listener. */ @Entity @EntityListeners({ MagazineLogger.class, ... }) public class Magazine { // ... // } /** * Example entity listener. */ public class MagazineLogger { @PostPersist public void logAddition(Object pc) { getLog().debug("Added new magazine:" + ((Magazine) pc).getTitle()); } @PreRemove public void logDeletion(Object pc) { getLog().debug("Removing from circulation:" + ((Magazine) pc).getTitle()); } }
In XML, we define both the listeners and their callback methods as so:
<entity class="Magazine"> <entity-listeners> <entity-listener class="MagazineLogger"> <post-persist>logAddition</post-persist> <pre-remove>logDeletion</pre-remove> </entity-listener> </entity-listeners> </entity>
Entity listener methods are invoked in a specific order when a given event is fired. So-called default listeners are invoked first: these are listeners which have been defined in a package annotation or in the root element of XML mapping files. Next, entity listeners are invoked in the order of the inheritance hierarchy, with superclass listeners being invoked before subclass listeners. Finally, if an entity has multiple listeners for the same event, the listeners are invoked in declaration order.
You can exclude default listeners and listeners defined in superclasses from the invocation chain through the use of two class-level annotations:
ExcludeDefaultListeners
: This annotation indicates that
no default listeners will be invoked for this class, or any of its subclasses.
The XML equivalent is the empty exclude-default-listeners
element.
ExcludeSuperclassListeners
: This annotation will cause
OpenJPA to skip invoking any listeners declared in superclasses. The XML
equivalent is the empty exclude-superclass-listeners
element.