Table of Contents
JPA requires that you accompany each persistent class with persistence metadata. This metadata serves three primary purposes:
To identify persistent classes.
To override default JPA behavior.
To provide the JPA implementation with information that it cannot glean from simply reflecting on the persistent class.
Persistence metadata is specified using either the Java annotations defined in
the jakarta.persistence
package, XML mapping files, or a
mixture of both. In the latter case, XML declarations override conflicting
annotations. If you choose to use XML metadata, the XML files must be available
at development and runtime, and must be discoverable via either of two
strategies:
In a resource named orm.xml
placed in a
META-INF
directory within a directory in your classpath or within a
jar archive containing your persistent classes.
Declared in your
persistence.xml
configuration file. In this case, each XML
metadata file must be listed in a mapping-file
element whose
content is either a path to the given file or a resource location available to
the class' class loader.
We describe the standard metadata annotations and XML equivalents throughout this chapter. The full schema for XML mapping files is available in Section 3, “ XML Schema ”. JPA also standardizes relational mapping metadata and named query metadata, which we discuss in Chapter 13, Mapping Metadata and Section 1.11, “ Named Queries ” respectively.
OpenJPA defines many useful annotations beyond the standard set. See Section 3, “ Additional JPA Metadata ” and Section 4, “ Metadata Extensions ” in the Reference Guide for details. There are currently no XML equivalents for these extension annotations.
Persistence metadata may be used to validate the contents of your entities prior to communicating with the database. This differs from mapping meta data which is primarily used for schema generation. For example if you indicate that a relationship is not optional (e.g. @Basic(optional=false)) OpenJPA will validate that the variable in your entity is not null before inserting a row in the database.
Through the course of this chapter, we will create the persistent object model above.
The following metadata annotations and XML elements apply to persistent class declarations.
The Entity
annotation denotes an entity class. All entity
classes must have this annotation. The Entity
annotation
takes one optional property:
String name
: Name used to refer to the entity in queries.
Must not be a reserved literal in JPQL. Defaults to the unqualified name of the
entity class.
The equivalent XML element is entity
. It has the following
attributes:
class
: The entity class. This attribute is required.
name
: Named used to refer to the class in queries. See the
name property above.
access
: The access type to use for the class. Must either be
FIELD
or PROPERTY
. For details on access
types, see Section 2, “
Field and Property Metadata
”.
OpenJPA uses a process called enhancement to modify the bytecode of entities for transparent lazy loading and immediate dirty tracking. See Section 2, “ Enhancement ” in the Reference Guide for details on enhancement.
As we discussed in Section 2.1, “
Identity Class
”,
entities with multiple identity fields must use an identity class
to encapsulate their persistent identity. The IdClass
annotation specifies this class. It accepts a single
java.lang.Class
value.
The equivalent XML element is id-class
, which has a single
attribute:
class
: Set this required attribute to the name of the
identity class.
A mapped superclass is a non-entity class that can define
persistent state and mapping information for entity subclasses. Mapped
superclasses are usually abstract. Unlike true entities, you cannot query a
mapped superclass, pass a mapped superclass instance to any
EntityManager
or Query
methods, or declare a
persistent relation with a mapped superclass target. You denote a mapped
superclass with the MappedSuperclass
marker annotation.
The equivalent XML element is mapped-superclass
. It expects
the following attributes:
class
: The entity class. This attribute is required.
access
: The access type to use for the class. Must either be
FIELD
or PROPERTY
. For details on access
types, see Section 2, “
Field and Property Metadata
”.
OpenJPA allows you to query on mapped superclasses. A query on a mapped superclass will return all matching subclass instances. OpenJPA also allows you to declare relations to mapped superclass types; however, you cannot query across these relations.
The Embeddable
annotation designates an embeddable
persistent class. Embeddable instances are stored as part of the record of their
owning instance. All embeddable classes must have this annotation.
A persistent class can either be an entity or an embeddable class, but not both.
The equivalent XML element is embeddable
. It understands the
following attributes:
class
: The entity class. This attribute is required.
access
: The access type to use for the class. Must either be
FIELD
or PROPERTY
. For details on access
types, see Section 2, “
Field and Property Metadata
”.
OpenJPA allows a persistent class to be both an entity and an embeddable class. Instances of the class will act as entities when persisted explicitly or assigned to non-embedded fields of entities. Instances will act as embedded values when assigned to embedded fields of entities.
To signal that a class is both an entity and an embeddable class in OpenJPA,
simply add both the @Entity
and the @Embeddable
annotations to the class.
An entity may list its lifecycle event listeners in the
EntityListeners
annotation. This value of this annotation is an
array of the listener Class
es for the entity. The
equivalent XML element is entity-listeners
. For more details
on entity listeners, see Section 3, “
Lifecycle Callbacks
”.
Here are the class declarations for our persistent object model, annotated with
the appropriate persistence metadata. Note that Magazine
declares an identity class, and that Document
and
Address
are a mapped superclass and an embeddable class,
respectively. LifetimeSubscription
and
TrialSubscription
override the default entity name to supply a
shorter alias for use in queries.
Example 5.1. Class Metadata
package org.mag; @Entity @IdClass(Magazine.MagazineId.class) public class Magazine { ... public static class MagazineId { ... } } @Entity public class Article { ... } package org.mag.pub; @Entity public class Company { ... } @Entity public class Author { ... } @Embeddable public class Address { ... } package org.mag.subscribe; @MappedSuperclass public abstract class Document { ... } @Entity public class Contract extends Document { ... } @Entity public class Subscription { ... @Entity public static class LineItem extends Contract { ... } } @Entity(name="Lifetime") public class LifetimeSubscription extends Subscription { ... } @Entity(name="Trial") public class TrialSubscription extends Subscription { ... }
The equivalent declarations in XML:
<entity-mappings xmlns="http://java.sun.com/xml/ns/persistence/orm" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://java.sun.com/xml/ns/persistence/orm orm_1_0.xsd" version="1.0"> <mapped-superclass class="org.mag.subscribe.Document"> ... </mapped-superclass> <entity class="org.mag.Magazine"> <id-class class="org.mag.Magazine$MagazineId"/> ... </entity> <entity class="org.mag.Article"> ... </entity> <entity class="org.mag.pub.Company"> ... </entity> <entity class="org.mag.pub.Author"> ... </entity> <entity class="org.mag.subscribe.Contract"> ... </entity> <entity class="org.mag.subscribe.LineItem"> ... </entity> <entity class="org.mag.subscribe.LifetimeSubscription" name="Lifetime"> ... </entity> <entity class="org.mag.subscribe.TrialSubscription" name="Trial"> ... </entity> <embeddable class="org.mag.pub.Address"> ... </embeddable> </entity-mappings>