EclipseLink/UserGuide/MOXy/Type Level/Handling Inheritance
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Contents
Handling Inheritance
EclipseLink MOXy provides several ways to represent your inheritance hierarchy in XML.
Using xsi:type
By default, EclipseLink will use the xsi:type attribute to represent inheritance in XML.
In this example an abstract super class (ContactInfo) contains all types of contact information. Address and PhoneNumber are the concrete implementations of ContactInfo.
public abstract class ContactInfo { } public class Address extends ContactInfo { private String street; ... } public class PhoneNumber extends ContactInfo { private String number; ... }
Because the Customer object can have different types of contact information, its property refers to the superclass.
@XmlRootElement public class Customer { private ContactInfo contactInfo; ... }
Marshalling an example Customer would produce the following XML:
<customer> <contactInfo xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:type="address"> <street>323 Main Street</street> </contactInfo> </customer>
Note the xsi:type attribute on the contactInfo element.
Using Substitution Groups
Another way to model inheritance in XML is through XML Schema's substitution groups functionality. Using this approach, the element name itself determines which subclass to use.
Taking the same example from above, we will add @XmlRootElement annotations to each of the subclasses, which will act as the inheritance indicator.
public abstract class ContactInfo { } @XmlRootElement public class Address extends ContactInfo { private String street; ... } @XmlRootElement public class PhoneNumber extends ContactInfo { private String number; ... }
Using this approach, marshalling an example Customer would produce the following XML:
<customer> <address> <street>323 Main Street</street> </address> </customer>
Note that the Address object is marshalled to the address element.
Using @XmlDiscriminatorNode / @XmlDiscriminatorValue
You can also use the MOXY-specific @XmlDiscriminatorNode and @XmlDiscriminatorValue annotations available in EclipseLink 2.2 to represent inheritance. With this approach, you can select the attribute to represent the subtype.
Using the same example from above, the ContactInfo class uses the @XmlDiscriminatorNode annotation to specify the XML attribute (classifier) that will hold the subclass indicator. Address and PhoneNumber are annotated with @XmlDiscriminatorValue, indicating that class' indicator name (address-classifier and phone-number-classifier).
@XmlDiscriminatorNode("@classifier") public abstract class ContactInfo { } @XmlDiscriminatorValue("address-classifier") public class Address extends ContactInfo { private String street; ... } @XmlDiscriminatorValue("phone-number-classifier") public class PhoneNumber extends ContactInfo { private String number; ... }
An example Customer would then produce the following The above sample produces the following XML:
<customer> <contactInfo classifier="address-classifier"> <street>323 Main Street</street> </contactInfo> </customer>
Notice that Address is marshalled to the contactInfo element. Its classifier attribute contains the discriminator node value address-classifier.