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diff --git a/tags/site-090106-pre667/site-author/java_sdo_overview.xml b/tags/site-090106-pre667/site-author/java_sdo_overview.xml new file mode 100644 index 0000000000..06613f486e --- /dev/null +++ b/tags/site-090106-pre667/site-author/java_sdo_overview.xml @@ -0,0 +1,737 @@ +<?xml version="1.0" encoding="UTF-8"?> +<document> + <properties> + <title>Java SDO Overview</title> + <bannertitle>Java SDO Overview</bannertitle> + <author email="kelvingoodson+tuscanysite@gmail.com">Kelvin Goodson</author> + </properties> + <body> + <section name="Service Data Objects"> +<H2>The Tuscany SDO Java Project</H2> + +<P>This document proves a high-level overview of the Java SDO (Service +Data Objects) subproject of the Apache Tuscany incubator project.</P> + +<H3>Overview</H3> + +<P>The SDO Java project is a subproject of <A class="external" + rel="nofollow" href="http://incubator.apache.org/tuscany/"> the Apache Tuscany incubator project</A> +is intended to provide a Java implementation of the <A class="external" + rel="nofollow" + href="http://download.boulder.ibm.com/ibmdl/pub/software/dw/specs/ws-sdo/SDO_Specification_Java_V2.01.pdf"> SDO 2 specification.</A></P> +<P>The project's code base includes the following:</P> +<UL> + <LI> + <P>Dynamic data object support</P> + </LI> + <LI> + <P>Basic static code generation (generator patterns still subject to + change)</P> + </LI> + <LI> + <P>Most Helper classes either partially or fully implemented + (XMLHelper, XSDHelper, DataFactory, CopyHelper, EqualityHelper)</P> + </LI> + <LI> + <P>Minimal ChangeSummary support (only in DataGraph context)</P> + </LI> + <LI> + <P>Limited example programs</P> + </LI> +</UL> +<P>The Tuscany wiki contains an area for <A class="external" rel="nofollow" + href="http://wiki.apache.org/ws/Tuscany/TuscanyJava/SDO/ThinkingAloud/"> raw thoughts and clarifications on SDO</A> that +will eventually make it into well crafted documentation.</P> + +<H3>Build Environment +Setup</H3> + + +<H4 id="head-c3468f5a294e14dda4ae0cf21a4acf497a9b9e80">Tuscany Build +Environment Setup</H4> + +<P>SDO 2 is a subproject of the Tuscany project. If you check out and +build the whole Tuscany Java project, you will have also built the SDO 2 +subproject. If you want to work with the SDO 2 project, without the rest +of Tuscany, skip to the next section.</P> +<P>To build the whole Tuscany project follow <A class="external" + rel="nofollow" + href="http://incubator.apache.org/tuscany/java-projects.html"> these instructions</A>.</P> + +<H4 >SDO Java Build +Environment Setup</H4> + +<P>If you want to work with the SDO 2 project alone, without the rest of +Tuscany, proceed with the following steps.</P> +<OL type="1"> + <LI> + <P>Set up your environment using the <A class="external" rel="nofollow" + href="http://incubator.apache.org/tuscany/java-projects.html"> instructions for building the whole of Tuscany</A>, + <STRONG>but</STRONG> only download and install Java 5, Maven and Svn + (note that only one file, Interface2JavaGenerator.java, has a Java 5 + dependency, if you want to work with Java 1.4 then just delete this + file before building).</P> + </LI> + <LI> + <P>Make sure 'mvn' and 'svn' commands are in your PATH environment + variable.</P> + </LI> + <LI> + <P>Check out the SDO open source projects from Apache.</P> + </LI> +<UL> + <LI style="list-style-type: none;"> + <P>Commands:</P> + <P>md <local tuscany dir> <BR/> + cd <local tuscany dir> <BR/> + svn co -N <A rel="nofollow" + href="https://svn.apache.org/repos/asf/incubator/tuscany/java"> + https://svn.apache.org/repos/asf/incubator/tuscany/java</A> <BR/> + cd java <BR/> + svn up sdo <BR/> + svn up -N spec <BR/> + cd spec <BR/> + svn up sdo <BR/> + </P> + </LI> +</UL> +</OL> +<OL start="4" type="1"> + <LI> + <P>Run "mvn" under <local tuscany dir>/java directory to install + POM files from the root project to the local repository</P> + </LI> +</OL> +<UL> + <LI style="list-style-type: none;"> + <P>Commands:</P> + <UL> + <LI style="list-style-type: none;"> + <P>cd <local tuscany dir>/java <BR/> + mvn -N <BR/> + cd spec <BR/> + mvn -N <BR/> + cd ../sdo <BR/> + mvn -N (alternatively, run without the -N option - see Note below) <BR/> + </P> + </LI> + </UL> + </LI> +</UL> +<OL start="5" type="1"> + <LI> + <P>Build, or rebuild, the individual SDO projects</P> + <UL> + <LI style="list-style-type: none;"> + <P><STRONG>sdo.spec</STRONG> project</P> + <P>Commands:</P> + <UL> + <LI style="list-style-type: none;"> + <P>cd <local tuscany dir>/java/spec/sdo <BR/> + mvn <BR/> + mvn eclipse:eclipse (optional: Run this command if you are using + Eclipse for development.) <BR/> + </P> + </LI> + </UL> + <P><STRONG>sdo.impl</STRONG> project</P> + <P>Commands:</P> + <UL> + <LI style="list-style-type: none;"> + <P>cd <local tuscany dir>/java/sdo/impl <BR/> + mvn <BR/> + mvn eclipse:eclipse (optional: Run this command if you are using + Eclipse for development.) <BR/> + </P> + </LI> + </UL> + <P><STRONG>sdo.tools</STRONG> project</P> + <P>Commands:</P> + <UL> + <LI style="list-style-type: none;"> + <P>cd <local tuscany dir>/java/sdo/tools <BR/> + mvn <BR/> + mvn eclipse:eclipse (optional: Run this command if you are using + Eclipse for development.) <BR/> + </P> + </LI> + </UL> + </LI> + </UL> + </LI> +</OL> +<UL> + <LI style="list-style-type: none;"> + <P><STRONG>Notes:</STRONG></P> + <OL type="1"> + <LI> + <P>You can build both sdo.impl and sdo.tools in one step by running + mvn in <local tuscany dir>/java/sdo.</P> + </LI> + <LI> + <P>If the mvn command completed successfully, you will see BUILD + SUCCESSFUL in the output and sdo-api-SNAPSHOP.jar is created under + <local tuscany dir>/java/spec/sdo/target directory.</P> + </LI> + <LI> + <P>External resources are at times unavailable. It may be necessary to + run "mvn" again at a later time.</P> + </LI> + <LI> + <P>If you are taking time to reply to firewall prompts, this can cause + some requests to time out. Set up the firewall to permit the action + without prompting.</P> + </LI> + </OL> + </LI> +</UL> + +<H3 >SDO Project +Structure</H3> + +<P>The SDO project is divided into three parts:</P> +<OL type="1"> + <LI> + <P><STRONG>sdo.spec</STRONG> contains the SDO (commonj) interfaces + defined and provided by the SDO 2 specification.</P> + </LI> + <LI> + <P><STRONG>sdo.impl</STRONG> provides the runtime implementation of the + SDO interfaces.</P> + </LI> + <LI> + <P><STRONG>sdo.tools</STRONG> contains import and generator tools.</P> + </LI> +</OL> +<P>The main source code in each of these subprojects is located in the +directory src/main/java, and if applicable, test (example) classes are +located in src/test/java. The directory src/test/resources contains any +data files needed by the test programs.</P> + +<H4 >sdo.spec</H4> + +<P>(<A rel="nofollow" + href="https://svn.apache.org/repos/asf/incubator/tuscany/java/spec/sdo"> +https://svn.apache.org/repos/asf/incubator/tuscany/java/spec/sdo</A>)</P> +<P>This project contains the interfaces provided with the SDO 2 +specification. It is essentially an unzipped copy of the SDO Java API +sources zip file available at <A rel="nofollow" + href="http://ftpna2.bea.com/pub/downloads/SDO_20_Source.zip"> +http://ftpna2.bea.com/pub/downloads/SDO_20_Source.zip</A>, but with some +errata corrections and a Tuscany-specific implementation of class +HelperProvider.</P> +<P>The abstract class, HelperProvider, is used to obtain specific +default helpers and other implementation-specific objects used by the +Java implementation of SDO. In the Tuscany implementation of this class, +there are two ways to specify the implementation of the HelperProvider +class.</P> +<OL type="1"> + <LI> + <P>Set a System Property named "commonj.sdo.impl.HelperProvider" equal + to the fully qualified class name of the implementation class (e.g. + "commonj.sdo.impl.HelperProvider=org.apache.tuscany.sdo.help.HelperProviderImpl"). + </P> + </LI> + <LI class="gap"> + <P>In your own jar file, create a text file called + "META-INF/services/commonj.sdo.impl.HelperProvider". In this text file, + specify the fully qualified custom HelperProvider implementation class + (e.g. org.apache.tuscany.sdo.help.HelperProviderImpl).</P> + </LI> +</OL> +<P>In the event that both 1 and 2 are specified, the System Property +will take precedence over the text file.</P> +<P>The Tuscany default helper provider implementation class is +org.apache.tuscany.sdo.helper.HelperProviderImpl (in the sdo.impl +project) and is registered using the second technique (services file), +as described in the following section.</P> + +<H4 >sdo.impl</H4> + +<P>(<A rel="nofollow" + href="https://svn.apache.org/repos/asf/incubator/tuscany/java/sdo/impl"> +https://svn.apache.org/repos/asf/incubator/tuscany/java/sdo/impl</A>)</P> +<P>The sdo.impl subproject contains a test package under src/test/java +(see the section below entitled <A + href="#generator">Static +Code Generator</A> for details) and the following implementation +packages under src/main/java:</P> +<P>package <EM>org.apache.tuscany.sdo</EM></P> +<UL> + <LI style="list-style-type: none;"> + <P>Contains a few interfaces used by some of the implementation classes + in org.apache.tuscany.sdo.impl. (Note: this package is subject to + further cleanup.)</P> + </LI> +</UL> +<P>package <EM>org.apache.tuscany.sdo.helper</EM></P> +<UL> + <LI style="list-style-type: none;"> + <P>This package contains implementations of the "helper" interfaces + defined in the commonj.sdo.helper package (in the sdo.spec project). + Each helper interface in commonj.sdo.helper has a corresponding + implementation class in this package. The name of each helper class is + the same as the corresponding interface, only with the suffix "Impl" + appended. For example class + org.apache.tuscany.sdo.helper.TypeHelperImpl implements the interface + commonj.sdo.TypeHelper.</P> + <P>The implementation class + org.apache.tuscany.sdo.helper.HelperProviderImpl is used to bootstrap + an implementation of the default INSTANCEs of the SDO helper (see class + commonj.sdo.impl.HelperProvider in sdo.spec). This implementation + creates instances of the other helper implementation classes in this + package and is registered using the services file + src/main/resources/META-INF/services/commonj.sdo.impl.HelperProvider.</P> + </LI> +</UL> +<P>package <EM>org.apache.tuscany.sdo.impl</EM></P> +<UL> + <LI style="list-style-type: none;"> + <P>This package contains the majority of the SDO runtime implementation + code. This includes implementations of all of the commonj.sdo + interfaces (see sdo.spec), including several implementations of the + DataObject interface. The design and implementation of the most + important classes in this package are described <A + href="#runtime">below</A>). + </P> + </LI> +</UL> +<P>package <EM>org.apache.tuscany.sdo.util</EM></P> +<UL> + <LI style="list-style-type: none;"> + <P>Contains some utility classes used by the implementation. One class, + SDOUtil, is particularly important. It provides some useful static + utility functions which are not included in the SDO specification + itself. Although these are not "standard" APIs, use of them is + recommended, as opposed to resorting to low-level + implementation-specific APIs. The intent of this class is to + encapsulate, in a relatively clean way, common functions that are + needed, and can potentially be proposed for addition to the + specification in a future version of SDO.</P> + </LI> +</UL> + +<H4 >sdo.tools</H4> + +<P>This project will contain (command line) tools, such as SDO model +importers and generators (Java code, XML schema, etc.). Currently +however, there is only a single tool, a Java code generator implemented +in class org.apache.tuscany.sdo.generate.XSD2JavaGenerator. This +generator can be used to generate static SDO data objects and is +described in more detail in <A + href="#generator">below</A>. +</P> +<P>The sdo.tools project also contains a test program and sample +generated model located in src/test/java and src/test/resources +respectively (see the <A + href="#tests">tests</A> +section below for more details).</P> + +<H3 >Dependency Jars</H3> + +<P>The sdo.impl project requires the following EMF (Eclipse Modeling +Framework - www.eclipse.org/emf) runtime jars to build:</P> +<UL> + <LI> + <P>emf-common-2.2.0-SNAPSHOT.jar - some common framework utility and + base classes</P> + </LI> + <LI> + <P>emf-ecore-2.2.0-SNAPSHOT.jar - the EMF core runtime implementation + classes (the Ecore metamodel)</P> + </LI> + <LI> + <P>emf-ecore-change-2.2.0-SNAPSHOT.jar - the EMF change recorder and + framework</P> + </LI> + <LI> + <P>emf-ecore-xmi-2.2.0-SNAPSHOT.jar - EMF's default XML (and XMI) + serializer and loader</P> + </LI> + <LI> + <P>xsd-2.2.0-SNAPSHOT.jar - the XML Schema model</P> + </LI> +</UL> +<P>The sdo.tools project also requires the EMF code generator framework +jars:</P> +<UL> + <LI> + <P>emf-codegen-2.2.0-SNAPSHOT.jar - template-based codegen framework + (JET - Java Emitter Templates)</P> + </LI> + <LI> + <P>emf-codegen-ecore-2.2.0-SNAPSHOT.jar - the EMF code generator</P> + </LI> + <LI> + <P>emf-common-2.2.0-SNAPSHOT.jar - some common framework utility and + base classes</P> + </LI> + <LI> + <P>emf-ecore-2.2.0-SNAPSHOT.jar - the EMF core runtime implementation + classes (the Ecore metamodel)</P> + </LI> + <LI> + <P>emf-ecore-change-2.2.0-SNAPSHOT.jar - the EMF change recorder and + framework</P> + </LI> + <LI> + <P>emf-ecore-xmi-2.2.0-SNAPSHOT.jar - EMF's default XML (and XMI) + serializer and loader</P> + </LI> + <LI> + <P>xsd-2.2.0-SNAPSHOT.jar - the XML Schema model</P> + </LI> +</UL> +<P>These are simply Maven-friendly versions of corresponding jar +files/plugins obtained from Eclipse. SNAPSHOT maps to an EMF weekly +integration build (for example, I200602160000).</P> +<A id="runtime"></A> +<P></P> + +<H3 >Runtime +Implementation</H3> + +<P>The primary SDO runtime implementation classes are located in the +package org.apache.tuscany.sdo.impl and consist of the following:</P> +<OL type="1"> + <LI> + <P>DataObject implementation classes</P> + </LI> + <LI> + <P>Implementation of the SDO metamodel interfaces: Type and Property</P> + </LI> + <LI> + <P>ChangeSummary and DataGraph implementations</P> + </LI> +</OL> +<P>The implementation of the SDO runtime is based on and leverages the +EMF runtime model (i.e., EObject and the Ecore metamodel - refer to +documentation at www.eclipse.org/emf). It subclasses and specializes the +Ecore metamodel, and provides its own DataObject-tuned implementation(s) +of the EObject interface. The design is described in more detail in the +following sections.</P> + +<H4 >DataObject +implementation classes</H4> + +<P>SDO provides several DataObject implementation classes as shown in +the following diagram:</P> +<P><img src="./images/do_uml.png" alt="do_uml.png" /></P> +<P>Class DataObjectImpl is the most important. It provides a complete +base implementation of the SDO DataObject interface. It extends from the +EMF base class BasicEObjectImpl, which provides the "scaffolding" needed +to easily implement an EObject, but without allocating any storage +itself.</P> +<P>DataObjectImpl provides the DataObject implementation while +allocating only the minimum storage overhead needed to be a data object +(e.g., container pointer and feature, change recorder). It does not, +however, allocate any storage for the actual properties of the data +object. It instead requires subclasses for this purpose. For example, +statically generated SDOs (see the <A + href="#generator">generator</A> +section below) directly or indirectly extend from this class, providing +their own storage in generated instance variables.</P> +<P>The subclass, DynamicDataObjectImpl serves as a concrete +implementation class for dynamic data objects. It is the default +implementation class used when creating dynamic data objects using the +DataFactory.create() method, for example. DynamicDataObjectImpl provides +efficient data storage using a dynamically allocated settings array.</P> +<P>StoreDataObjectImpl and DynamicStoreDataObjectImpl provide a +delegating implementations for DataObjects that implement their own +storage management using a store (see EMF's EStore interface) +implementation class. StoreDataObjectImpl is used in conjuction with the +"-storePattern" generator option (see section 4), while +DynamicStoreDataObjectImpl, as its name implies, is used for dynamic +store-based instances.</P> + +<H4 >Type and Property +implementation classes</H4> + +<P>The SDO implementation provides three implementations of the +interface Type, one for each of the following three kinds of types: +classes, simple data types, and enumerations.</P> +<OL type="1"> + <LI> + <P>class ClassImpl extends EClassImpl implements Type</P> + </LI> + <LI> + <P>class DataTypeImpl extends EDataTypeImpl implements Type</P> + </LI> + <LI> + <P>class EnumImpl extends EEnumImpl implements Type</P> + </LI> +</OL> +<P>For example, class org.apache.tuscany.sdo.impl.ClassImpl extends form +the corresponding Ecore class, EClassImpl, and mixes in the SDO +interface commonj.sdo.Type. All the Type methods are implemented by +calls to super.</P> +<P>With this approach, a data object's Type, returned from +DataObjectImpl.getType(), and its EClass, returned by +DataObjectImpl.eClass(), are the same underlying meta object. This +allows the SDO implementation to leverage any appropriate base +functionality without any performance overhead. The arrangement is shown +in the following diagram:</P> +<P><IMG src="./images/meta.png" alt="meta.png" /></P> +<P>The implementation of the SDO Property interface follows a similar +pattern. Two implementation classes, subclasses of corresponding Ecore +classes, mix in the Property interface:</P> +<OL type="1"> + <LI> + <P>class AttributeImpl extends EAttributeImpl implements Property</P> + </LI> + <LI> + <P>class ReferenceImpl extends EReferenceImpl implements Property</P> + </LI> +</OL> +<P>As with the Type implementation classes, these classes call methods +on super to implement the mixed-in Property methods.</P> +<P>The following diagram illustrates the design:</P> +<P><IMG + src="./images/meta2.png" + alt="meta2.png" /></P> +<P>As shown, the getProperties() method in ClassImpl (i.e., of the SDO +Type interface) returns a set of properties whose implementation classes +also implement EAttribute or EReference, and since ClassImpl, extends +EClassImpl (as shown in the previous diagram), these are in fact the +same objects as those returned by the EClass.getEAllStructuralFeatures() +method. The two metamodels are one and the same, making the +implementation of many of the SDO APIs trivial calls to the base class. +</P> + +<H4 >ChangeSummary and +DataGraph implementation classes</H4> + +<P>TBD.</P> +<A id="generator"></A> +<P></P> + +<H2 >Static Code +Generator</H2> + +<P>The SDO static code generator is a command line tool for generating +Java source code (static SDOs) for DataObjects defined in an XML Schema. +It is implemented by the class +org.apache.tuscany.sdo.generate.XSD2JavaGenerator in the sdo.tools +project. The generator is used as follows:</P> +<P>Usage arguments:</P> +<PRE> [ -targetDirectory <target-root-directory> ] + [ -javaPackage <base-package-name> ] + [ -prefix <prefix-string> ] + [ -sparsePattern | -storePattern ] + [ -noInterfaces ] [ -noContainment ] [ -noNotification ] [ -arrayAccessors ] [ -noUnsettable ] [-noEMF] + <xsd-file> | <wsdl-file> +</PRE> +<P>For example:</P> +<P>java XSD2JavaGenerator somedir/somefile.xsd</P> +<P>Options:</P> +<UL> + <LI style="list-style-type: none;"> + <P><STRONG>-targetDirectory</STRONG> Generates the Java source code in + the specified directory. By default, the code is generated in the same + directory as the input xsd or wsdl file.</P> + <P><STRONG>-javaPackage</STRONG> Overrides the Java package for the + generated classes. If not specified, a default package or one specified + with an sdoJava:package annotation on the <schema> element in the + xsd file (see SDO specification for details) is used for the java + package.</P> + <P><STRONG>-prefix</STRONG> Specifies the prefix string to use for + naming the generated factory. For example "-prefix Foo" will result in + a factory interface with the name "FooFactory".</P> + <P><STRONG>-sparsePattern</STRONG> For SDO metamodels that have classes + with many properties of which only a few are typically set at runtime, + this option can be used to produce a space-optimized implementation (at + the expense of speed).</P> + <P><STRONG>-storePattern</STRONG> This option can be used to generate + static classes that work with a Store-based DataObject implementation. + It changes the generator pattern to generate accessors which delegate + to the reflective methods (as opposed to the other way around) and + changes the DataObject base class to + org.apache.tuscany.sdo.impl.StoreDataObjectImpl. Note that this option + generates classes that require a Store implementation to be provided + before they can be run.</P> + <P><STRONG>-noInterfaces</STRONG> By default, each DataObject generates + both a Java interface and a corresponding implementation class. If an + SDO metamodel does not use multiple inheritance (which is always the + case for XML Schema derived models), then this option can be used to + eliminate the interface and to generate only an implementation class.</P> + <P><STRONG>-noNotification</STRONG> This option eliminates all change + notification overhead in the generated classes. Changes to DataObjects + generated using this option cannot be recorded, and consequently the + classes cannot be used with an SDO ChangeSummary or DataGraph.</P> + <P><STRONG>-noContainment</STRONG> Turns off container management for + containment properties. DataObject.getContainer() will always return + null for data objects generated with this option, even if a containment + reference is set. Setting a containment reference will also not + automatically remove the target object from its previous container, if + it had one, so it will need to be explicitly removed by the client. Use + of this option is only recommended for scenarios where this kind of + container movement/management is not necessary.</P> + <P><STRONG>-arrayAccessors</STRONG> Generates Java array + getters/setters for multiplicity-many properties. With this option, the + set of "standard" JavaBean array accessor methods (e.g., Foo[] + getFoo(), Foo getFoo(int), int getFooLength(), setFoo(Foo[]), and void + setFoo(int, Foo)) are generated. The normal List-returning accessor is + renamed with the suffix "List" (e.g., List getFooList()). The array + returned by the generated method is not a copy, but instead a pointer + to the underlying storage array, so directly modifying it can have + undesirable consequences and should be avoided.</P> + <P><STRONG>-noUnsettable</STRONG> By default, some XML constructs + result in SDO property implementations that maintain additional state + information to record when the property has been set to the "default + value", as opposed to being truly unset (see DataObject.isSet() and + DataObject.unset()). The SDO specification allows an implementation to + choose to provide this behavior or not. With this option, all generated + properties will not record their unset state. The generated isSet() + methods simply returns whether the current value is equal to the + property's "default value".</P> + <P><STRONG>-noEMF</STRONG> By default, the generated java + implementation source files directly import the Eclipse EMF classes + which they depend upon. This can lead to a discrepancy in EMF library + level dependencies between the generated classes and the environment + into which they are deployed. The -noEmf option provides an early level + of function to avoid this situation. Classes generated using this + option access EMF function indirectly via inherited behaviour, thereby + allowing packaging of these generated classes into jar files which do + not directly depend on EMF.</P> + <P>This early implementation of this option is limited in the subset of + XML Schema it is known to handle, and is subject to change. The + generator is known to be able to deal with Complex content (including + content models which map to SDO Sequence), and Mixed content for + example .</P> + + <PRE> <xsd:complexType mixed="true" name="Sequence"> + <xsd:sequence> + <xsd:choice maxOccurs="unbounded" minOccurs="0"> + <xsd:element name="a" type="xsd:string" /> + <xsd:element name="b" type="xsd:int" /> + </xsd:choice> + <xsd:element name="split" type="xsd:string" /> + <xsd:choice maxOccurs="unbounded" minOccurs="0"> + <xsd:element name="y" type="xsd:string" /> + <xsd:element name="z" type="xsd:int" /> + </xsd:choice> + </xsd:sequence> + </xsd:complexType> +</PRE></LI> +</UL> + +<H4 >Generator +Patterns</H4> + +<P>The DataObject interface generation pattern is as described in the +SDO specification (see Java Interface Specification section). The SDO +specification does not define a factory pattern for efficient +construction of static SDOs, which is however provided by the Tuscany +implementation. The generated SDO Factory interface conforms to the +following pattern:</P> + +<PRE>public interface <prefix>Factory { + <Type1> create<Type1>(); + <Type2> create<Type2>(); + ... + <prefix>Factory INSTANCE = <default_factory_impl>; +} +</PRE> +<P>A generated factory corresponds to an SDO Type namespace uri (see +commonj.sdo.Type.getURI) with one create() method for each SDO Type in +the namespace. The <prefix> of the factory name is derived from +the uri. An instance of the factory is available using the INSTANCE +field in the interface.</P> +<P>Using the static factory, a DataObject might be created as follows:</P> + +<PRE>Quote aQuote = StockFactory.INSTANCE.createQuote(); +... // do something with aQuote +</PRE> +<P>The generated implementation of each create() method simply +constructs an instance of the corresponding type like this:</P> +<PRE> public Quote createQuote() { + QuoteImpl quote = new QuoteImpl(); + return quote; + } +</PRE> +<P>In addition to these generated type-specific create<Type>() +methods, the generated factory implementation class also includes a +generated reflective create() method that, given an SDO Type, +efficiently dispatches to the correct type-specific create() method. The +reflective create() method is called by the implementation of the SDO +commonj.sdo.helper.DataFactory interface.</P> +<A id="tests"></A> +<P></P> + +<H3 >Test/Example +Programs</H3> + +<P>The SDO project does not include any proper sample programs at this +time (any volunteers?) but it does include a number of JUnit test cases, +some of which serve as good examples of how to use SDO APIs to perform +various tasks.</P> +<P>The following tests are particularly good SDO examples included in +the sdo.impl project:</P> +<UL> + <LI> + <P><STRONG>SimpleDynamicTestCase</STRONG> This program uses the SDO + XSDHelper.define() method to register a simple XML Schema based model + (simple.xsd). It then instantiates a DataObject instance (type Quote), + initializes several of its properties, and then serializes the instance + to an XML stream.</P> + </LI> + <LI class="gap"> + <P><STRONG>MixedTypeTestCase</STRONG> This program shows how to uses + the Sequence API to create an XML instance which mixes arbitrary text + within the DataObject's XML structure. It uses the XML schema + complexType (MixedQuote) in mixed.xsd to define the SDO model.</P> + </LI> + <LI class="gap"> + <P><STRONG>OpenTypeTestCase</STRONG> Uses an XML Schema complexType + with a wildcard (xsd:any) to illustrate how to work with and manipulate + an SDO open type. The type OpenQuote in open.xsd is used for this + example.</P> + </LI> + <LI class="gap"> + <P><STRONG>SimpleCopyTestCase</STRONG> Uses the SDO CopyHelper to + create shallow and deep copies of the simple Quote model from + SimpleDynamicTest.</P> + </LI> + <LI class="gap"> + <P><STRONG>SimpleEqualityTestCase</STRONG> Uses the SDO EqualityHelper + to perform deep and shallow equality checks.</P> + </LI> + <LI class="gap"> + <P><STRONG>ChangeSummaryTestCase</STRONG> Creates a data graph with an + instance of type Quote (in simple.xsd) as the root object. It then + turns on change logging and makes a number of changes to the graph. + Finally, it turns off change logging and serializes the data graph.</P> + </LI> + <LI class="gap"> + <P><STRONG>XSDHelperTestCase</STRONG> This program shows how the + XSDHelper.define() method can be called multiple times with the same + schema. The second (and subsequent) call simply returns an empty list + since no new types are defined.</P> + </LI> +</UL> +<P>The following is in the sdo.tools project:</P> +<UL> + <LI> + <P><STRONG>SimpleStaticTestCase</STRONG> - This test performs the same + function as SimpleDynamicTestCase, above, only using a generated + version of the simple.xsd model. The generated model has been + pre-generated (with default options) in the directory src/test, but it + can be regenerated using the XSD2JavaGenerator, possibly with different + generator options (e.g., -noInterfaces or -sparsePattern), if desired. + </P> + </LI> + <LI class="gap"> + <P><STRONG>StaticSequenceNoEmfTest</STRONG> This test exercises the + -noEMF generator option with a set of complex types, focussing on + Sequenced behaviour in the generated classes. The generated model has + been pre-generated (with options -noEMF -javaPackage + com.example.noemf.sequences) in the directory src/test, but it can be + regenerated using the XSD2JavaGenerator, possibly with different + generator options (e.g., -noInterfaces or -sparsePattern), if desired. + </P> + </LI> +</UL> + </section> + + </body> +</document> |