Customizing JAXB Bindings

The remainder of this chapter describes several examples that build on the concepts demonstrated in the basic examples.

The goal of this section is to illustrate how to customize JAXB bindings by means of custom binding declarations made in either of two ways:

Unlike the examples in Basic Examples, which focus on the Java code in the respective Main.java class files, the examples here focus on customizations made to the XML schema before generating the schema-derived Java binding classes.


Note: Although JAXB binding customizations must currently be made by hand, it is envisioned that a tool/wizard may eventually be written by Sun or a third party to make this process more automatic and easier in general. One of the goals of the JAXB technology is to standardize the format of binding declarations, thereby making it possible to create customization tools and to provide a standard interchange format between JAXB implementations.


This section just begins to scratch the surface of customizations you can make to JAXB bindings and validation methods. For more information, please refer to the JAXB Specification (http://java.sun.com/xml/downloads/jaxb.html).

Why Customize?

In most cases, the default bindings generated by the JAXB binding compiler will be sufficient to meet your needs. There are cases, however, in which you may want to modify the default bindings. Some of these include:

Customization Overview

This section explains some core JAXB customization concepts:

Inline and External Customizations

Customizations to the default JAXB bindings are made in the form of binding declarations passed to the JAXB binding compiler. These binding declarations can be made in either of two ways:

For some people, using inline customizations is easier because you can see your customizations in the context of the schema to which they apply. Conversely, using an external binding customization file enables you to customize JAXB bindings without having to modify the source schema, and enables you to easily apply customizations to several schema files at once.


Note: You can combine the two types of customizations--for example, you could include a reference to an external binding customizations file in an inline annotation--but you cannot declare both an inline and external customization on the same schema element.


Each of these types of customization is described in more detail below.

Inline Customizations

Customizations to JAXB bindings made by means of inline binding declarations in an XML schema file take the form of <xsd:appinfo> elements embedded in schema <xsd:annotation> elements (xsd: is the XML schema namespace prefix, as defined in W3C XML Schema Part 1: Structures). The general form for inline customizations is shown below.

<xs:annotation>
   <xs:appinfo>
      .
      .
      binding declarations
      .
      .
   </xs:appinfo>
</xs:annotation> 

Customizations are applied at the location at which they are declared in the schema. For example, a declaration at the level of a particular element would apply to that element only. Note that the XMLSchema namespace prefix must be used with the <annotation> and <appinfo> declaration tags. In the example above, xs: is used as the namespace prefix, so the declarations are tagged <xs:annotation> and <xs:appinfo>.

External Binding Customization Files

Customizations to JAXB bindings made by means of an external file containing binding declarations take the general form shown below.

<jxb:bindings schemaLocation = "xs:anyURI">
   <jxb:bindings node = "xs:string">*
      <binding declaration>
   <jxb:bindings>
</jxb:bindings> 

For example, the first schemaLocation/node declaration in a JAXB binding declarations file specifies the schema name and the root schema node:

<jxb:bindings schemaLocation="po.xsd" node="/xs:schema"> 

A subsequent schemaLocation/node declaration, say for a simpleType element named ZipCodeType in the above schema, would take the form:

<jxb:bindings node="//xs:simpleType[@name='ZipCodeType']"> 
Binding Customization File Format

Binding customization files should be straight ASCII text. The name or extension does not matter, although a typical extension, used in this chapter, is.xjb.

Passing Customization Files to the JAXB Binding Compiler

Customization files containing binding declarations are passed to the JAXB Binding compiler, xjc, using the following syntax:

xjc -b <file> <schema> 

where <file> is the name of binding customization file, and <schema> is the name of the schema(s) you want to pass to the binding compiler.

You can have a single binding file that contains customizations for multiple schemas, or you can break the customizations into multiple bindings files; for example:

xjc schema1.xsd schema2.xsd schema3.xsd -b bindings123.xjb 
xjc schema1.xsd schema2.xsd schema3.xsd -b bindings1.xjb -b 
bindings2.xjb -b bindings3.xjb 

Note that the ordering of schema files and binding files on the command line does not matter, although each binding customization file must be preceded by its own -b switch on the command line.

For more information about xjc compiler options in general, see JAXB Compiler Options.

Restrictions for External Binding Customizations

There are several rules that apply to binding declarations made in an external binding customization file that do not apply to similar declarations made inline in a source schema:

To summarize these rules, the external binding element <jxb:bindings> is only recognized for processing by a JAXB binding compiler in three cases:

Scope, Inheritance, and Precedence

Default JAXB bindings can be customized or overridden at four different levels, or scopes, as described in Table 2-4.

Figure 2-1 illustrates the inheritance and precedence of customization declarations. Specifically, declarations towards the top of the pyramid inherit and supersede declarations below them. For example, Component declarations inherit from and supersede Definition declarations; Definition declarations inherit and supersede Schema declarations; and Schema declarations inherit and supersede Global declarations.

Customization Scope Inheritance and Precedence

Figure 2-1 Customization Scope Inheritance and Precedence

Customization Syntax

The syntax for the four types of JAXB binding declarations, as well as the syntax for the XML-to-Java datatype binding declarations and the customization namespace prefix are described below.

Global Binding Declarations

Global scope customizations are declared with <globalBindings>. The syntax for global scope customizations is as follows:

<globalBindings>
  [ collectionType = "collectionType" ]
  [ fixedAttributeAsConstantProperty  = "true" | "false" | "1" | "0" ]
  [ generateIsSetMethod  = "true" | "false" | "1" | "0" ]
  [ enableFailFastCheck = "true" | "false" | "1" | "0" ]
  [ choiceContentProperty = "true" | "false" | "1" | "0" ]
  [ underscoreBinding = "asWordSeparator" | "asCharInWord" ]
  [ typesafeEnumBase = "typesafeEnumBase" ]
  [ typesafeEnumMemberName = "generateName" | "generateError" ]
  [ enableJavaNamingConventions = "true" | "false" | "1" | "0" ]
  [ bindingStyle = "elementBinding" | "modelGroupBinding" ]
  [ <javaType> ... </javaType> ]*
</globalBindings> 

<globalBindings> declarations are only valid in the annotation element of the top-level schema element. There can only be a single instance of a <globalBindings> declaration in any given schema or binding declarations file. If one source schema includes or imports a second source schema, the <globalBindings> declaration must be declared in the first source schema.

Schema Binding Declarations

Schema scope customizations are declared with <schemaBindings>. The syntax for schema scope customizations is:

<schemaBindings>
  [ <package> package </package> ]
  [ <nameXmlTransform> ... </nameXmlTransform> ]*
</schemaBindings>
  
<package [ name = "packageName" ]
  [ <javadoc> ... </javadoc> ]
</package>

<nameXmlTransform>
  [ <typeName [ suffix="suffix" ]
              [ prefix="prefix" ] /> ]
  [ <elementName [ suffix="suffix" ]
                 [ prefix="prefix" ] /> ]
  [ <modelGroupName [ suffix="suffix" ]
                    [ prefix="prefix" ] /> ]
  [ <anonymousTypeName [ suffix="suffix" ]
                       [ prefix="prefix" ] /> ]
</nameXmlTransform> 

As shown above, <schemaBinding> declarations include two subcomponents:

Class Binding Declarations

The <class> binding declaration enables you to customize the binding of a schema element to a Java content interface or a Java Element interface. <class> declarations can be used to customize:

The syntax for <class> customizations is:

<class [ name = "className"]
   [ implClass= "implClass" ] >
   [ <javadoc> ... </javadoc> ]
</class> 
Property Binding Declarations

The <property> binding declaration enables you to customize the binding of an XML schema element to its Java representation as a property. The scope of customization can either be at the definition level or component level depending upon where the <property> binding declaration is specified.

The syntax for <property> customizations is:

<property      [ name = "propertyName"]
  [ collectionType = "propertyCollectionType" ]
  [ fixedAttributeAsConstantProperty = "true" | "false" | "1" | "0" ]
  [ generateIsSetMethod = "true" | "false" | "1" | "0" ]
  [ enableFailFastCheck ="true" | "false" | "1" | "0" ]
  [ <baseType> ... </baseType> ]
  [ <javadoc> ... </javadoc> ]
</property>

<baseType>
  <javaType> ... </javaType>
</baseType> 
<javaType> Binding Declarations

The <javaType> declaration provides a way to customize the translation of XML datatypes to and from Java datatypes. XML provides more datatypes than Java, and so the <javaType> declaration lets you specify custom datatype bindings when the default JAXB binding cannot sufficiently represent your schema.

The target Java datatype can be a Java built-in datatype or an application-specific Java datatype. If an application-specific datatype is used as the target, your implementation must also provide parse and print methods for unmarshalling and marshalling data. To this end, the JAXB specification supports a parseMethod and printMethod:

If you prefer to define your own datatype conversions, JAXB defines a static class, DatatypeConverter, to assist in the parsing and printing of valid lexical representations of the XML Schema built-in datatypes.

The syntax for the <javaType> customization is:

<javaType name= "javaType"
      [ xmlType= "xmlType" ]
      [ hasNsContext = "true" | "false" ]
      [ parseMethod= "parseMethod" ]
      [ printMethod= "printMethod" ]> 

The <javaType> declaration can be used in:

See MyDatatypeConverter Class for an example of how <javaType> declarations and the DatatypeConverterInterface interface are implemented in a custom datatype converter class.

Typesafe Enumeration Binding Declarations

The typesafe enumeration declarations provide a localized way to map XML simpleType elements to Java typesafe enum classes. There are two types of typesafe enumeration declarations you can make:

In both cases, there are two primary limitations on this type of customization:

The syntax for the <typesafeEnumClass> customization is:

<typesafeEnumClass  [ name = "enumClassName" ]
  [ <typesafeEnumMember> ... </typesafeEnumMember> ]*
  [ <javadoc> enumClassJavadoc </javadoc> ]
</typesafeEnumClass> 

The syntax for the <typesafeEnumMember> customization is:

<typesafeEnumMember name = "enumMemberName">
          [ value = "enumMemberValue" ]
  [ <javadoc> enumMemberJavadoc </javadoc> ]
</typesafeEnumMember> 

For inline annotations, the <typesafeEnumClass> declaration must be specified in the annotation element of the <simpleType> element. The <typesafeEnumMember> must be specified in the annotation element of the enumeration member. This allows the enumeration member to be customized independently from the enumeration class.

For information about typesafe enum design patterns, see the sample chapter of Joshua Bloch's Effective Java Programming on the Java Developer Connection.

<javadoc> Binding Declarations

The <javadoc> declaration lets you add custom Javadoc tool annotations to schema-derived JAXB packages, classes, interfaces, methods, and fields. Note that <javadoc> declarations cannot be applied globally--that is, they are only valid as a sub-elements of other binding customizations.

The syntax for the <javadoc> customization is:

<javadoc>
  Contents in &lt;b>Javadoc&lt;\b> format.
</javadoc> 

or

<javadoc>
  <<![CDATA[
  Contents in <b>Javadoc<\b> format
  ]]>
</javadoc> 

Note that documentation strings in <javadoc> declarations applied at the package level must contain <body> open and close tags; for example:

<jxb:package name="primer.myPo">
         <jxb:javadoc><![CDATA[<body>Package level documentation 
for generated package primer.myPo.</body>]]>
</jxb:javadoc>
      </jxb:package> 

Customization Namespace Prefix

All standard JAXB binding declarations must be preceded by a namespace prefix that maps to the JAXB namespace URI (http://java.sun.com/xml/ns/jaxb). For example, in this sample, jxb: is used. To this end, any schema you want to customize with standard JAXB binding declarations must include the JAXB namespace declaration and JAXB version number at the top of the schema file. For example, in po.xsd for the Customize Inline example, the namespace declaration is as follows:

<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema"
            xmlns:jxb="http://java.sun.com/xml/ns/jaxb"
            jxb:version="1.0"> 

A binding declaration with the jxb namespace prefix would then take the form:

<xsd:annotation>
   <xsd:appinfo>
      <jxb:globalBindings binding declarations />
      <jxb:schemaBindings>
         .
         .
         binding declarations
         .
         .
      </jxb:schemaBindings>
   </xsd:appinfo>
</xsd:annotation> 

Note that in this example, the globalBindings and schemaBindings declarations are used to specify, respectively, global scope and schema scope customizations. These customization scopes are described in more detail in Scope, Inheritance, and Precedence.

Customize Inline Example

The Customize Inline example illustrates some basic customizations made by means of inline annotations to an XML schema named po.xsd. In addition, this example implements a custom datatype converter class, MyDatatypeConverter.java, which illustrates print and parse methods in the <javaType> customization for handling custom datatype conversions.

To summarize this example:

  1. po.xsd is an XML schema containing inline binding customizations.
  2. MyDatatypeConverter.java is a Java class file that implements print and parse methods specified by <javaType> customizations in po.xsd.
  3. Main.java is the primary class file in the Customize Inline example, which uses the schema-derived classes generated by the JAXB compiler.

Key customizations in this sample, and the custom MyDatatypeConverter.java class, are described in more detail below.

Customized Schema

The customized schema used in the Customize Inline example is in the file <JAVA_HOME>/jaxb/samples/inline-customize/po.xsd. The customizations are in the <xsd:annotation> tags.

Global Binding Declarations

The code below shows the globalBindings declarations in po.xsd:

<jxb:globalBindings
        fixedAttributeAsConstantProperty="true"
        collectionType="java.util.Vector"
        typesafeEnumBase="xsd:NCName"
        choiceContentProperty="false"
        typesafeEnumMemberName="generateError"
        bindingStyle="elementBinding"
        enableFailFastCheck="false"   
        generateIsSetMethod="false"
        underscoreBinding="asCharInWord"/> 

In this example, all values are set to the defaults except for collectionType.


Note: Using typesafe enums enables you to map schema enumeration values to Java constants, which in turn makes it possible to do compares on Java constants rather than string values.


Schema Binding Declarations

The following code shows the schema binding declarations in po.xsd:

<jxb:schemaBindings>
      <jxb:package name="primer.myPo">
         <jxb:javadoc>
   <![CDATA[<body> Package level documentation for 
generated package primer.myPo.</body>]]>
         </jxb:javadoc>
      </jxb:package>
      <jxb:nameXmlTransform>
          <jxb:elementName suffix="Element"/>
      </jxb:nameXmlTransform> 
    </jxb:schemaBindings> 

Class Binding Declarations

The following code shows the class binding declarations in po.xsd:

<xsd:complexType name="PurchaseOrderType">
      <xsd:annotation>
      <xsd:appinfo>
         <jxb:class name="POType">
            <jxb:javadoc>
            A &lt;b>Purchase Order&lt;/b> consists of 
addresses and items.
            </jxb:javadoc>
         </jxb:class>
      </xsd:appinfo>
      </xsd:annotation>
      .
      .
      .
</xsd:complexType> 

The Javadoc tool annotations for the schema-derived POType class will contain the description "A &lt;b>Purchase Order&lt;/b> consists of addresses and items." The &lt; is used to escape the opening bracket on the <b> HTML tags.


Note: When a <class> customization is specified in the appinfo element of a complexType definition, as it is here, the complexType definition is bound to a Java content interface.


Later in po.xsd, another <javadoc> customization is declared at this class level, but this time the HTML string is escaped with CDATA:

<xsd:annotation>
 <xsd:appinfo>
    <jxb:class>
      <jxb:javadoc>
     <![CDATA[ First line of documentation for a 
<b>USAddress</b>.]]>
       </jxb:javadoc>
    </jxb:class>
  </xsd:appinfo>
  </xsd:annotation> 

Note: If you want to include HTML markup tags in a <jaxb:javadoc> customization, you must enclose the data within a CDATA section or escape all left angle brackets using &lt;. See XML 1.0 2nd Edition for more information (http://www.w3.org/TR/2000/REC-xml-20001006#sec-cdata-sect).


Property Binding Declarations

Of particular interest here is the generateIsSetMethod customization, which causes two additional property methods, isSetQuantity and unsetQuantity, to be generated. These methods enable a client application to distinguish between schema default values and values occurring explicitly within an instance document.

For example, in po.xsd:

<xsd:complexType name="Items">
   <xsd:sequence>
      <xsd:element name="item" minOccurs="1" 
maxOccurs="unbounded">
         <xsd:complexType>
            <xsd:sequence>
            <xsd:element name="productName" type="xsd:string"/>
            <xsd:element name="quantity" default="10">
            <xsd:annotation>
               <xsd:appinfo>
                  <jxb:property generateIsSetMethod="true"/>
               </xsd:appinfo>
            </xsd:annotation>
         .
         .
         .
         </xsd:complexType>
      </xsd:element>
   </xsd:sequence>
</xsd:complexType> 

The @generateIsSetMethod applies to the quantity element, which is bound to a property within the Items.ItemType interface. unsetQuantity and isSetQuantity methods are generated in the Items.ItemType interface.

MyDatatypeConverter Class

The <JWSDP_HOME>/jaxb/samples/inline-customize
/MyDatatypeConverter
class, shown below, provides a way to customize the translation of XML datatypes to and from Java datatypes by means of a
<javaType> customization.

package primer;
import java.math.BigInteger;
import javax.xml.bind.DatatypeConverter;

public class MyDatatypeConverter {

  public static short parseIntegerToShort(String value) {
    BigInteger result = 
      DatatypeConverter.parseInteger(value);
    return (short)(result.intValue());
  }

  public static String printShortToInteger(short value) {
    BigInteger result = BigInteger.valueOf(value);
    return DatatypeConverter.printInteger(result);
  }

  public static int parseIntegerToInt(String value) {
    BigInteger result = 
    DatatypeConverter.parseInteger(value);
  return result.intValue();
  }

  public static String printIntToInteger(int value) {
    BigInteger result = BigInteger.valueOf(value);
    return DatatypeConverter.printInteger(result);
  }
}; 

The following code shows how the MyDatatypeConverter class is referenced in a <javaType> declaration in po.xsd:

<xsd:simpleType name="ZipCodeType">
  <xsd:annotation> 
     <xsd:appinfo>
        <jxb:javaType name="int" 
parseMethod="primer.MyDatatypeConverter.parseIntegerToInt" 
printMethod="primer.MyDatatypeConverter.printIntTo Integer" />
     </xsd:appinfo>
  </xsd:annotation>  
  <xsd:restriction base="xsd:integer">
    <xsd:minInclusive value="10000"/>
    <xsd:maxInclusive value="99999"/>
  </xsd:restriction>
</xsd:simpleType> 

In this example, the jxb:javaType binding declaration overrides the default JAXB binding of this type to java.math.BigInteger. For the purposes of the Customize Inline example, the restrictions on ZipCodeType--specifically that legal US ZIP codes are limited to five digits--make it so all valid values can easily fit within the Java primitive datatype int. Note also that, because <jxb:javaType name="int"/> is declared within ZipCodeType, the customization applies to all JAXB properties that reference this simpleType definition, including the getZip and setZip methods.

Datatype Converter Example

The Datatype Converter example is very similar to the Customize Inline example. As with the Customize Inline example, the customizations in the Datatype Converter example are made by using inline binding declarations in the XML schema for the application, po.xsd.

The global, schema, and package, and most of the class customizations for the Customize Inline and Datatype Converter examples are identical. Where the Datatype Converter example differs from the Customize Inline example is in the parseMethod and printMethod used for converting XML data to the Java int datatype.

Specifically, rather than using methods in the custom MyDataTypeConverter class to perform these datatype conversions, the Datatype Converter example uses the built-in methods provided by javax.xml.bind.DatatypeConverter:

<xsd:simpleType name="ZipCodeType">
  <xsd:annotation> 
     <xsd:appinfo>
        <jxb:javaType name="int"
   parseMethod="javax.xml.bind.DatatypeConverter.parseInt" 
   printMethod="javax.xml.bind.DatatypeConverter.printInt"/>
     </xsd:appinfo>
  </xsd:annotation>  
  <xsd:restriction base="xsd:integer">
    <xsd:minInclusive value="10000"/>
    <xsd:maxInclusive value="99999"/>
  </xsd:restriction>
</xsd:simpleType> 

External Customize Example

The External Customize example is identical to the Datatype Converter example, except that the binding declarations in the External Customize example are made by means of an external binding declarations file rather than inline in the source XML schema.

The binding customization file used in the External Customize example is <JWSDP_HOME>/jaxb/samples/external-customize/binding.xjb.

This section compares the customization declarations in bindings.xjb with the analogous declarations used in the XML schema, po.xsd, in the Datatype Converter example. The two sets of declarations achieve precisely the same results.

JAXB Version, Namespace, and Schema Attributes

All JAXB binding declarations files must begin with:

The version, namespace, and schema declarations in bindings.xjb are as follows:

<jxb:bindings version="1.0"
               xmlns:jxb="http://java.sun.com/xml/ns/jaxb"
               xmlns:xs="http://www.w3.org/2001/XMLSchema">
  <jxb:bindings schemaLocation="po.xsd" node="/xs:schema">
        .
        <binding_declarations>
        .
  </jxb:bindings> 
<!-- schemaLocation="po.xsd" node="/xs:schema" -->
</jxb:bindings> 
JAXB Version Number

An XML file with a root element of <jaxb:bindings> is considered an external binding file. The root element must specify the JAXB version attribute with which its binding declarations must comply; specifically the root <jxb:bindings> element must contain either a <jxb:version> declaration or a version attribute. By contrast, when making binding declarations inline, the JAXB version number is made as attribute of the <xsd:schema> declaration:

<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema"
            xmlns:jxb="http://java.sun.com/xml/ns/jaxb"
            jxb:version="1.0"> 
Namespace Declarations

As shown in JAXB Version, Namespace, and Schema Attributes, the namespace declarations in the external binding declarations file include both the JAXB namespace and the XMLSchema namespace. Note that the prefixes used in this example could in fact be anything you want; the important thing is to consistently use whatever prefixes you define here in subsequent declarations in the file.

Schema Name and Schema Node

The fourth line of the code in JAXB Version, Namespace, and Schema Attributes specifies the name of the schema to which this binding declarations file will apply, and the schema node at which the customizations will first take effect. Subsequent binding declarations in this file will reference specific nodes within the schema, but this first declaration should encompass the schema as a whole; for example, in bindings.xjb:

<jxb:bindings schemaLocation="po.xsd" node="/xs:schema"> 

Global and Schema Binding Declarations

The global schema binding declarations in bindings.xjb are the same as those in po.xsd for the Datatype Converter example. The only difference is that because the declarations in po.xsd are made inline, you need to embed them in <xs:appinfo> elements, which are in turn embedded in <xs:annotation> elements. Embedding declarations in this way is unnecessary in the external bindings file.

<jxb:globalBindings
    fixedAttributeAsConstantProperty="true"
    collectionType="java.util.Vector"
    typesafeEnumBase="xs:NCName"
    choiceContentProperty="false"
    typesafeEnumMemberName="generateError"
    bindingStyle="elementBinding"
    enableFailFastCheck="false"   
    generateIsSetMethod="false"
    underscoreBinding="asCharInWord"/>
<jxb:schemaBindings>
    <jxb:package name="primer.myPo">
        <jxb:javadoc><![CDATA[<body>Package level 
documentation for generated package primer.myPo.</body>]]>
        </jxb:javadoc>
    </jxb:package>
    <jxb:nameXmlTransform>
        <jxb:elementName suffix="Element"/>
    </jxb:nameXmlTransform>
</jxb:schemaBindings> 

By comparison, the syntax used in po.xsd for the Datatype Converter example is:

<xsd:annotation>
  <xsd:appinfo>
    <jxb:globalBindings
        .
        <binding_declarations>
        .
    <jxb:schemaBindings>
        .
        <binding_declarations>
        .
    </jxb:schemaBindings>
  </xsd:appinfo>
</xsd:annotation> 

Class Declarations

The class-level binding declarations in bindings.xjb differ from the analogous declarations in po.xsd for the Datatype Converter example in two ways:

For example, the following code shows binding declarations for the complexType named USAddress.

<jxb:bindings node="//xs:complexType[@name='USAddress']">
  <jxb:class>
    <jxb:javadoc>
<![CDATA[First line of documentation for a <b>USAddress</b>.]]>
    </jxb:javadoc>
  </jxb:class>
    
  <jxb:bindings node=".//xs:element[@name='name']">
    <jxb:property name="toName"/>
  </jxb:bindings>

  <jxb:bindings node=".//xs:element[@name='zip']">
    <jxb:property name="zipCode"/>
  </jxb:bindings>
</jxb:bindings> 
<!-- node="//xs:complexType[@name='USAddress']" --> 

Note in this example that USAddress is the parent of the child elements name and zip, and therefore a </jxb:bindings> tag encloses the bindings declarations for the child elements as well as the class-level javadoc declaration.

Fix Collides Example

The Fix Collides example illustrates how to resolve name conflicts--that is, places in which a declaration in a source schema uses the same name as another declaration in that schema (namespace collisions), or places in which a declaration uses a name that does translate by default to a legal Java name.


Note: Many name collisions can occur because XSD Part 1 introduces six unique symbol spaces based on type, while Java only has only one. There is a symbols space for type definitions, elements, attributes, and group definitions. As a result, a valid XML schema can use the exact same name for both a type definition and a global element declaration.


For the purposes of this example, it is recommended that you remove the binding parameter to the xjc task in the build.xml file in the <JWSDP_HOME>/jaxb/samples/fix-collides directory to display the error output generated by the xjc compiler. The XML schema for the Fix Collides, example.xsd, contains deliberate name conflicts.

Like the External Customize example, the Fix Collides example uses an external binding declarations file, binding.xjb, to define the JAXB binding customizations.

The example.xsd Schema

The XML schema, <JWSDP_HOME>/jaxb/samples/fix-collides
/example.xsd
, used in the Fix Collides example illustrates common name conflicts encountered when attempting to bind XML names to unique Java identifiers in a Java package. The schema declarations that result in name conflicts are highlighted in bold below.

<xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"
           xmlns:jxb="http://java.sun.com/xml/ns/jaxb"
           jxb:version="1.0">

  <xs:element name="Class" type="xs:int"/>
  <xs:element name="FooBar" type="FooBar"/>
  <xs:complexType name="FooBar">
    <xs:sequence>
      <xs:element name="foo" type="xs:int"/>
      <xs:element ref="Class"/>
      <xs:element name="zip" type="xs:integer"/>
    </xs:sequence>
    <xs:attribute name="zip" type="xs:string"/>
  </xs:complexType>
</xs:schema> 

Looking at the Conflicts

The first conflict in example.xsd is the declaration of the element name Class:

<xs:element name="Class" type="xs:int"/> 

Class is a reserved word in Java, and while it is legal in the XML schema language, it cannot be used as a name for a schema-derived class generated by JAXB.

When this schema is run against the JAXB binding compiler with the ant fail command, the following error message is returned:

[xjc] [ERROR] Attempt to create a property having the same 
name as the reserved word "Class". 
[xjc] line 6 of example.xsd 

The second conflict is that there are an element and a complexType that both use the name Foobar:

<xs:element name="FooBar" type="FooBar"/>
<xs:complexType name="FooBar"> 

In this case, the error messages returned are:

[xjc] [ERROR] A property with the same name "Zip" is 
generated from more than one schema component. 
[xjc] line 22 of example.xsd
[xjc] [ERROR] (Relevant to above error) another one is 
generated from this schema component. 
[xjc] line 20 of example.xsd 

The third conflict is that there are an element and an attribute both named zip:

<xs:element name="zip" type="xs:integer"/>
<xs:attribute name="zip" type="xs:string"/> 

The error messages returned here are:

[xjc] [ERROR] A property with the same name "Zip" is 
generated from more than one schema component. 
[xjc] line 22 of example.xsd
[xjc] [ERROR] (Relevant to above error) another one is 
generated from this schema component. 
[xjc] line 20 of example.xsd 

Output From Running the ant Task Without Using a Binding Declarations File

Here is the output that is returned if you run the ant task in the <JWSDP_HOME>/jaxb/samples/fix-collides directory without specifying the binding parameter to the xjc task in the build.xml file:

[echo] Compiling the schema w/o external binding file 
(name collision errors expected)...
[xjc] Compiling file:/C:/Sun/jwsdp-1.5/jaxb/samples/
fix-collides/example.xsd
[xjc] [ERROR] Attempt to create a property having the same 
name as the reserved word "Class".
[xjc]   line 14 of example.xsd
[xjc] [ERROR] A property with the same name "Zip" is 
generated from more than one schema component.
[xjc]   line 17 of example.xsd
[xjc] [ERROR] (Relevant to above error) another one is 
generated from this schema component.
[xjc]   line 15 of example.xsd
[xjc] [ERROR] A class/interface with the same name 
"generated.FooBar" is already in use.
[xjc]   line 9 of example.xsd
[xjc] [ERROR] (Relevant to above error) another one is 
generated from here.
[xjc]   line 18 of example.xsd 

The binding.xjb Declarations File

The <JWSDP_HOME>/jaxb/samples/fix-collides/binding.xjb binding declarations file resolves the conflicts in examples.xsd by means of several customizations.

Resolving the Conflicts in example.xsd

The first conflict in example.xsd, using the Java reserved name Class for an element name, is resolved in binding.xjb with the <class> and <property> declarations on the schema element node Class:

<jxb:bindings node="//xs:element[@name='Class']">
  <jxb:class name="Clazz"/>
  <jxb:property name="Clazz"/>
</jxb:bindings> 

The second conflict in example.xsd, the namespace collision between the element FooBar and the complexType FooBar, is resolved in binding.xjb by using a <nameXmlTransform> declaration at the <schemaBindings> level to append the suffix Element to all element definitions.

This customization handles the case where there are many name conflicts due to systemic collisions between two symbol spaces, usually named type definitions and global element declarations. By appending a suffix or prefix to every Java identifier representing a specific XML symbol space, this single customization resolves all name collisions:

<jxb:schemaBindings>
  <jxb:package name="example"/>
    <jxb:nameXmlTransform>
      <jxb:elementName suffix="Element"/>
    </jxb:nameXmlTransform>
</jxb:schemaBindings> 

The third conflict in example.xsd, the namespace collision between the element zip and the attribute zip, is resolved in binding.xjb by mapping the attribute zip to property named zipAttribute:

<jxb:bindings node=".//xs:attribute[@name='zip']">
  <jxb:property name="zipAttribute"/>
</jxb:bindings> 

If you add the binding parameter you removed back to the xjc task in the build.xml file and then run ant in the <JWSDP_HOME>/jaxb/samples/fix-collides directory, the customizations in binding.xjb will be passed to the xjc binding compiler, which will then resolve the conflicts in example.xsd in the schema-derived Java classes.

Bind Choice Example

The Bind Choice example shows how to bind a choice model group to a Java interface. Like the External Customize and Fix Collides examples, the Bind Choice example uses an external binding declarations file, binding.xjb, to define the JAXB binding customization.

The schema declarations in <JWSDP_HOME>/jaxb/samples/bind-choice
/example.xsd
that will be globally changed are highlighted in bold below.

<xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"
           xmlns:jxb="http://java.sun.com/xml/ns/jaxb"
           jxb:version="1.0">

  <xs:element name="FooBar">
  <xs:complexType>
    <xs:sequence>
      <xs:element name="foo" type="xs:int"/>
      <xs:element ref="Class"/>
      <xs:choice>
         <xs:element name="phoneNumber" type="xs:string"/>
         <xs:element name="speedDial" type="xs:int"/> 
      </xs:choice>
      <xs:group ref="ModelGroupChoice"/>
    </xs:sequence>
    <xs:attribute name="zip" type="xs:string"/>
  </xs:complexType>
</xs:element>

  <xs:group name="ModelGroupChoice">
    <xs:choice>
      <xs:element name="bool" type="xs:boolean"/>
      <xs:element name="comment" type="xs:string"/> 
      <xs:element name="value" type="xs:int"/> 
    </xs:choice>
  </xs:group>
</xs:schema> 

Customizing a choice Model Group

The <JWSDP_HOME>/jaxb/samples/bind-choice/binding.xjb binding declarations file demonstrates one way to override the default derived names for choice model groups in example.xsd by means of a <jxb:globalBindings> declaration:

<jxb:bindings schemaLocation="example.xsd" node="/xs:schema">
  <jxb:globalBindings bindingStyle="modelGroupBinding"/>
    <jxb:schemaBindings/>
      <jxb:package name="example"/>
    </jxb:schemaBindings>
  </jxb:bindings
</jxb:bindings> 

This customization results in the choice model group being bound to its own content interface. For example, given the following choice model group:

  <xs:group name="ModelGroupChoice">
    <xs:choice>
      <xs:element name="bool" type="xs:boolean"/>
      <xs:element name="comment" type="xs:string"/> 
      <xs:element name="value" type="xs:int"/> 
    </xs:choice>
  </xs:group> 

the globalBindings customization shown above causes JAXB to generate the following Java class:

/**
 * Java content class for model group. 
 */
  public interface ModelGroupChoice {
        int getValue();
        void setValue(int value);
        boolean isSetValue();

        java.lang.String getComment();
        void setComment(java.lang.String value);
        boolean isSetComment();

        boolean isBool();
        void setBool(boolean value);
        boolean isSetBool();

        Object getContent();
        boolean isSetContent();
        void unSetContent();
    } 

Calling getContent returns the current value of the Choice content. The setters of this choice are just like radio buttons; setting one unsets the previously set one. This class represents the data representing the choice.

Additionally, the generated Java interface FooBarType, representing the anonymous type definition for element FooBar, contains a nested interface for the choice model group containing phoneNumber and speedDial.