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From conflue...@apache.org
Subject [CONF] Apache Tuscany: SDO Project Code Structure (page edited)
Date Wed, 23 Jan 2008 12:53:00 GMT
SDO Project Code Structure (TUSCANY) edited by Amita Vadhavkar
      Page: http://cwiki.apache.org/confluence/display/TUSCANY/SDO+Project+Code+Structure
   Changes: http://cwiki.apache.org/confluence/pages/diffpagesbyversion.action?pageId=48536&originalVersion=11&revisedVersion=12






Content:
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{include: SDO Java Subproject Menu}
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h3. SDO Project Code Structure

The code for the Tuscany Java SDO implementation may be found at [http://svn.apache.org/repos/asf/incubator/tuscany/java/|http://svn.apache.org/repos/asf/incubator/tuscany/java/]

The SDO project is divided into seven parts, denoted here by the subdirectories of the above
link where the code for the projects may be found:

* *sdo/sdo-api* contains the SDO (commonj) interfaces defined and provided by the SDO 2.1
specification.
* *sdo/lib* contains the SDO implementation library
* *sdo/impl* provides the runtime implementation of the SDO interfaces.
* *sdo/tools* contains import and generator tools.
* *sdo/tools-test* contains the tests for the SDO Generator Tools and Tool Outputs
* *sdo/sample* contains sample sdo code.
* *sdo/plugin* contains code to configure the way in which SDO is build by maven.

For each of these projects the implementation source code is located in a sub-directory of
the project directory named 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.

[sdo/sdo-api|https://svn.apache.org/repos/asf/incubator/tuscany/java/sdo/sdo-api]

This project contains the interfaces provided with the SDO 2.1 specification. It is essentially
an unzipped copy of the SDO Java API sources zip file available at http://osoa.org/download/attachments/36/SDO_2.1.0_Java_source_FINAL.zip?version=1,
but with some errata corrections and a Tuscany-specific implementation of class HelperProvider.

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.

* 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").

* 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).

In the event that both 1 and 2 are specified, the System Property will take precedence over
the text file.

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.

[sdo/lib|https://svn.apache.org/repos/asf/incubator/tuscany/java/sdo/lib]

This project contains the library APIs for Tuscany's SDO Implementation and some utility/helper
packages. The actual implementation resides in sdo/impl. The user is supposed to use the APIs
from sdo/lib instead of making direct references to sdo/impl. Unlike sdo/impl this projest
does not reference EMF packages anywhere.

[sdo/impl|https://svn.apache.org/repos/asf/incubator/tuscany/java/sdo/impl]

The sdo.impl subproject contains a test package under src/test/java (see the section below
entitled Static Code Generator for details) and the following implementation packages under
src/main/java:

*package org.apache.tuscany.sdo*

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.)

*package org.apache.tuscany.sdo.helper*

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.

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.

*package org.apache.tuscany.sdo.impl*

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 below).

*package org.apache.tuscany.sdo.util*

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.

*[sdo/tools|https://svn.apache.org/repos/asf/incubator/tuscany/java/sdo/tools]*

This project contains (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 below.

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 tests section below for more details).

*Dependent Jars*

The sdo.impl project requires the following EMF (Eclipse Modeling Framework - www.eclipse.org/emf)
runtime jars to build:

emf-common-2.2.1-SNAPSHOT.jar - some common framework utility and base classes
emf-ecore-2.2.1-SNAPSHOT.jar - the EMF core runtime implementation classes (the Ecore metamodel)
emf-ecore-change-2.2.1-SNAPSHOT.jar - the EMF change recorder and framework
emf-ecore-xmi-2.2.1-SNAPSHOT.jar - EMF's default XML (and XMI) serializer and loader
xsd-2.2.1-SNAPSHOT.jar - the XML Schema model

The sdo.tools project also requires the EMF code generator framework jars:

emf-codegen-2.2.1-SNAPSHOT.jar - template-based codegen framework (JET - Java Emitter Templates)
emf-codegen-ecore-2.2.1-SNAPSHOT.jar - the EMF code generator
emf-common-2.2.1-SNAPSHOT.jar - some common framework utility and base classes
emf-ecore-2.2.1-SNAPSHOT.jar - the EMF core runtime implementation classes (the Ecore metamodel)
emf-ecore-change-2.2.1-SNAPSHOT.jar - the EMF change recorder and framework
emf-ecore-xmi-2.2.1-SNAPSHOT.jar - EMF's default XML (and XMI) serializer and loader
xsd-2.2.1-SNAPSHOT.jar - the XML Schema model

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). Note
that if you are building SDO for a released source code distribution then the dependency jars
will not be snapshot jars, but will instead themselves be released versions of the dependencies.


*Runtime Implementation*

The primary SDO runtime implementation classes are located in the package org.apache.tuscany.sdo.impl
and consist of the following:

* DataObject implementation classes
* Implementation of the SDO metamodel interfaces: Type and Property
* ChangeSummary and DataGraph implementations

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.

*DataObject implementation classes*

SDO provides several DataObject implementation classes as shown in the following diagram:

!do_uml.png!

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.

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 generator section below) directly or indirectly extend from this class, providing their
own storage in generated instance variables.

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.

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.

*Type and Property implementation classes*

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.

* class ClassImpl extends EClassImpl implements Type
* class DataTypeImpl extends EDataTypeImpl implements Type
* class EnumImpl extends EEnumImpl implements Type

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.

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:

!meta.png!

The implementation of the SDO Property interface follows a similar pattern. Two implementation
classes, subclasses of corresponding Ecore classes, mix in the Property interface:

* class AttributeImpl extends EAttributeImpl implements Property
* class ReferenceImpl extends EReferenceImpl implements Property

As with the Type implementation classes, these classes call methods on super to implement
the mixed-in Property methods.

The following diagram illustrates the design:

!meta2.png!

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.

ChangeSummary and DataGraph implementation classes

TBD.


*Static Code Generator*

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:
{color:gray}
Usage arguments:

 [ -targetDirectory <target-root-directory> ]
 [ -javaPackage <base-package-name> ]
 [ -prefix <prefix-string> ]
 [ -sparsePattern | -storePattern ]
 [ -noInterfaces ] [ -noContainment ] [ -noNotification ] [ -arrayAccessors ] [ -noUnsettable
] [ -noEMF ]
 <xsd-file> | <wsdl-file>
{color}
For example:
{color:gray}
java XSD2JavaGenerator somedir/somefile.xsd
{color}

Options:

-targetDirectory 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.

-javaPackage 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.

-prefix 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".

-sparsePattern 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).

-storePattern 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.

-noInterfaces 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.

-noNotification 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.

-noContainment 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.

-arrayAccessors *Note: this is prototype code and is not fully implemented.* 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.

-noUnsettable 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".

-noEMF 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.

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
.

      <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>
Generator Patterns

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:
{color:gray}
{noformat}
public interface <prefix>Factory {
  <Type1> create<Type1>();
  <Type2> create<Type2>();
  ...
  <prefix>Factory INSTANCE = <default_factory_impl>;
}
{noformat}
{color}


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.

Using the static factory, a DataObject might be created as follows:

Quote aQuote = StockFactory.INSTANCE.createQuote();
... // do something with aQuote
The generated implementation of each create() method simply constructs an instance of the
corresponding type like this:

{color:gray}
{noformat}
  public Quote createQuote() {
    QuoteImpl quote = new QuoteImpl();
    return quote;
  }
{noformat}
{color}
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.


*Test/Example Programs*

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.

The following tests are particularly good SDO examples included in the sdo.impl project:

SimpleDynamicTestCase 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.

MixedTypeTestCase 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.

OpenTypeTestCase 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.

SimpleCopyTestCase Uses the SDO CopyHelper to create shallow and deep copies of the simple
Quote model from SimpleDynamicTest.

SimpleEqualityTestCase Uses the SDO EqualityHelper to perform deep and shallow equality checks.

ChangeSummaryTestCase 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.

XSDHelperTestCase 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.

The following is in the sdo.tools project:

SimpleStaticTestCase - 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.

StaticSequenceNoEmfTest 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.
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