D Oracle XML Developer's Kit JavaBeans (Deprecated)

This appendix explains Oracle XML Developer's Kit (XDK) JavaBeans.

Note:

The XDK JavaBeans, described in this appendix, and the corresponding XDK Java application programming interface (API) packages and classes are deprecated in Oracle Database 12c Release 1 (12.1). These components are still supported in Oracle Database 12c Release 1 (12.1), but Oracle recommends not using them in new applications. This functionality is deprecated with no replacement.

Topics:

See Also:

Oracle Database XML Java API Reference for more information about the deprecated XDK Java APIs

Introduction to XDK JavaBeans

XDK JavaBeans are a set of Extensible Markup Language (XML) components that you can use in Java applications and applets.

Topics:

Prerequisites

This appendix assumes that you are familiar with these technologies:

Standards and Specifications

XDK JavaBeans require version 1.2 or later of XDK, and they can be used with any version of JDK 1.2 or above. The XDK JavaBeans conform with the Sun JavaBeans specification, and include the required BeanInfo class that extends java.beans.SimpleBeanInfo.

The JavaBeans 1.01 specification, which describes JavaBeans as present in JDK 1.1, is available here:

http://www.oracle.com/technetwork/java/index.html

The additions for the Java 2 platform to the JavaBeans core specification provide developers with standard means to create more sophisticated JavaBeans components. The JavaBeans specifications for Java 2 are also available here:

http://www.oracle.com/technetwork/java/index.html

See Also:

Chapter 33, "Oracle XML Developer's Kit Standards" for a summary of the standards supported by XDK

XDK JavaBeans Features

XDK JavaBeans facilitate the addition of graphical user interfaces (GUIs) to XML applications. Bean encapsulation includes documentation and descriptors that you can access directly from Java integrated development environments (IDEs) such as Oracle JDeveloper.

XDK includes these beans:

DOMBuilder

The oracle.xml.async.DOMBuilder bean constructs a DOM tree from an XML document. The DOMBuilder JavaBean encapsulates the XML parser for Java DOMParser class with a bean interface and enhances by supporting asynchronous parsing. By registering a listener, Java programs can initiate parsing of large or successive documents and immediately return control to the caller.

A main benefit of this bean is increased efficiency when parsing multiple files, especially if the files are large. DOMBuilder can also provide asynchronous parsing in a background thread in interactive visual applications. Without asynchronous parsing, the GUI is useless until the document to be parsed. With DOMBuilder, the application invokes the parse method and then resumes control. The application can display a progress bar, allow the user to cancel the parse, and so forth.

XSLTransformer

The oracle.xml.async.XSLTransformer bean supports asynchronous transformation. It accepts an XML document, applies an Extensible Stylesheet Language Transformation (XSLT) style sheet, and creates an output file. The XSLTransformer JavaBean enables you to transform an XML document to almost any text-based format, including XML, HTML, and data definition language (DDL). This bean can also be used as the basis of a server-side application or servlet to render an XML document, such as an XML representation of a query result, into HTML for display in a browser.

The main benefit of the XSLTransformer bean is that it can transform multiple files in parallel. Like DOMBuilder, you can also use it in visual applications to avoid long periods of time when the GUI is nonresponsive. By implementing the XSLTransformerListener interface, the invoking application receives notification when the transformation completes.

DBAccess

The oracle.xml.dbaccess.DBAccess bean maintains character large object (CLOB) tables that contain multiple XML and text documents. You can use it to store and retrieve XML documents in the database, but not to process them within the database. Java applications that use the DBAccess bean connect to the database through JDBC. XML documents stored in CLOB tables that are not of type XMLType do not have their entities expanded.

The DBAccess bean enables you to do perform these tasks:

  • Create and delete tables of type CLOB.

  • Query the contents of CLOB tables.

  • Perform INSERT, UPDATE, and DELETE operations on XML documents stored in CLOB tables.

XMLDBAccess

The oracle.xml.xmldbaccess.XMLDBAccess bean extends the DBAccess bean to support XML documents stored in XMLType tables. The class provides methods to list, delete, or retrieve XMLType instances and their tables. For example, the getXMLXPathTextData() method retrieves the value of an XPath expression from an XML document.

DBAccess JavaBean maintains XMLType tables that can hold multiple XML and text documents. Each XML or text document is stored as a row in the table. The table is created with this structured query language (SQL) statement:

CREATE TABLE (FILENAME   CHAR( ) UNIQUE, 
              FILEDATA   SYS.XMLType);

The FILENAME field holds a unique string used as a key to retrieve, update, or delete the row. Document text is stored in the FILEDATA field.

The XMLDBAccess bean performs these tasks:

  • Creates and deletes XMLType tables

  • Lists the contents of an XMLType column

  • Performs INSERT, UPDATE, and DELETE operations on XML documents stored in XMLType tables

XMLDiff

When comparing XML documents, it is usually unhelpful to compare them character by character. Most XML comparisons are concerned with differences in structure and significant textual content, not differences in white space. The oracle.xml.differ.XMLDiff bean performs these tasks:

  • Constructs and compares the DOM trees for two input XML documents and indicates whether the documents are different.

  • Provides a graphical display of the differences between two XML files. Specifically, you can refer to node insert, delete, modify, or move.

  • Generates an XSLT style sheet that can convert one of the input XML documents into the other document.

The XMLDiff bean is especially useful in pipeline applications. For example, an application could update an XML document, compare it with a previous version of the document, and store the XSLT style sheet that shows the differences between them.

XMLCompress

As explained in "Compressing and Decompressing XML," the Oracle XML parser includes a compressor that can serialize XML document objects as binary streams. Although a useful tool, compression with XML parser has these disadvantages:

  • When XML data is deserialized, it must be reparsed.

  • The encapsulation of XML data in tags greatly increase its size.

The oracle.xml.xmlcomp.XMLCompress bean is an encapsulation of the XML compression functionality. It provides these advantages when serializing and deserializing XML:

  • It encapsulates the method that serializes the DOM, which produces a stream.

  • XML processors can regenerate the DOM from the compressed stream without reparsing the XML.

The bean supports compression and decompression of input XML parsed by DOMParser or SAXParser. DOM compression supports inputs of type XMLType, CLOB, and BLOB.

To use different parsing options, parse the document before input and then pass the XMLDocument object to the compressor bean. The compression factor is a rough value based on the file size of the input XML file and the compressed file. The limitation of the compression factor method is that it can be used only when the compression is performed with java.io.File objects as parameters.

XSDValidator

The oracle.xml.schemavalidator.XSDValidator bean encapsulates the XSDValidator class and adds capabilities for validating a DOM tree. A useful feature of this bean concerns validation errors. If the application throws a validation error, the getStackList() method returns a list of DOM tree paths that lead to the invalid node. Nodes with errors are returned in a vector of stack trees in which the top element of the stack represents the root node. You can get child nodes by pulling them from the stack. To use getStackList() you must use instantiate the java.util.Vector and java.util.Stack classes.

Using XDK JavaBeans: Overview

Topics:

Using XDK JavaBeans: Basic Process

This section describes the program flow of Java applications that use the more useful beans: DOMBuilder, XSLTransformer, XMLDBAccess, and XMLDiff. The section contains these topics:

Using the DOMBuilder JavaBean: Basic Process

The DOMBuilder class implements an XML 1.0 parser according to the World Wide Web Consortium (W3C) recommendation. It parses an XML document and builds a DOM tree. The parsing is done in a separate thread. The DOMBuilderListener interface must be used for notification when the tree is built.

When developing applications that use this bean, you must import these subpackages:

  • oracle.xml.async, which provides asynchronous Java beans for DOM building

  • oracle.xml.parser.v2, which provides APIs for SAX, DOM, and XSLT

The oracle.xml.parser.v2 subpackage is described in detail in Chapter 4, "XML Parsing for Java". The most important DOM-related classes and interfaces in the javax.xml.async package are described in Table D-1.

Table D-1 javax.xml.async DOM-Related Classes and Interfaces

Class/Interface Description

DOMBuilder class

Encapsulates an XML parser to parse an XML document and build a DOM tree. The parsing is done in a separate thread. The DOMBuilderListener interface must be used for notification when the tree is built.

DOMBuilderEvent class

Instantiates the event object that DOMBuilder uses to notify all registered listeners about parse events.

DOMBuilderListener interface

Must be implemented so that the program can receive notifications about events during the asynchronous parsing. The class implementing this interface must be added to the DOMBuilder with the addDOMBuilderListener() method.

DOMBuildeErrorEvent class

Defines the error event that is sent when parse exception occurs.

DOMBuilderErrorListener interface

Must be implemented so that the program can receive notifications when errors are found during parsing. The class implementing this interface must be added to the DOMBuilder with the addDOMBuilderErrorListener() method.


Figure D-1 depicts the basic process of an application that uses the DOMBuilder JavaBean.

Figure D-1 DOMBuilder JavaBean Usage

Description of Figure D-1 follows
Description of "Figure D-1 DOMBuilder JavaBean Usage"

Figure D-1 shows these stages of XML processing:

  1. Parse the input XML document. The program can receive the XML document as a file, string buffer, or URL.

  2. Add the DOMBuilder listener. The program invokes the method DOMBuilder.addDOMBuilderListener(DOMBuilderListener).

  3. Parse the XML document. The program invokes the DOMBuilder.parse() method.

  4. Optionally, process the parsed result further.

  5. Invoke the listener when the program receives an asynchronous call. The listener, which must implement the DOMBuilderListener interface, is called by invoking the DOMBuilderOver() method.

    The available DOMBuilderListener methods are:

    • domBuilderError(DOMBuilderEvent), which is called when parse errors occur.

    • domBuilderOver(DOMBuilderEvent), which is called when parsing completes.

    • domBuilderStarted(DOMBuilderEvent), which is called when parsing begins.

  6. Fetch the DOM. Invoke the DOMBuilder.getDocument() method to fetch the resulting DOM document and output it.

Using the XSLTransformer JavaBean: Basic Process

The XSLTransformer bean encapsulates the Java XML parser XSLT processing engine with a bean interface and extends its functionality to permit asynchronous transformation. By registering a listener, your Java application can transform large and successive documents by having the control returned immediately to the caller.

When developing applications that use this bean, you must import these subpackages:

  • oracle.xml.async, which provides asynchronous Java beans for XSL transformations

  • oracle.xml.parser.v2, which provides APIs for XML parsing SAX, DOM, and XSLT

The oracle.xml.parser.v2 subpackage is described in detail in Chapter 4, "XML Parsing for Java". The most important XSL-related classes and interfaces in the javax.xml.async package are described in Table D-2.

Table D-2 javax.xml.async XSL-Related Classes and Interfaces

Class/Interface Description

XSLTransformer class

Applies XSL transformation in a background thread.

XSLTransformerEvent class

Represents the event object used by XSLTransformer to notify XSL transformation events to all of its registered listeners.

XSLTransformerListener interface

Must be implemented so that the program can receive notifications about events during asynchronous transformation. The class implementing this interface must be added to the XSLTransformer with the addXSLTransformerListener() method.

XSLTransformerErrorEvent class

Instantiates the error event object that XSLTransformer uses to notify all registered listeners about transformation error events.

XSLTransformerErrorListener interface

Must be implemented so that the program can receive notifications about error events during the asynchronous transformation. The class implementing this interface must be added to the XSLTransformer using addXSLTransformerListener() method.


Figure D-2 shows XSLTransformer bean usage.

Figure D-2 XSLTransformer JavaBean Usage

Description of Figure D-2 follows
Description of "Figure D-2 XSLTransformer JavaBean Usage"

Figure D-2 goes through these stages:

  1. Input an XSLT style sheet and XML instance document.

  2. Add an XSLT listener. The program invokes the XSLTransfomer.addXSLTransformerListener()method.

  3. Apply the style sheets. The XSLTransfomer.processXSL() method initiates the XSL transformation in the background.

  4. Optionally, perform further processing with the XSLTransformer bean.

  5. Invoke the XSLT listener when the program receives an asynchronous call. The listener, which must implement the XSLTransformerListener interface, is called by invoking the xslTransformerOver() method.

  6. Fetch the result of the transformation. Invoke the XSLTransformer.getResult() method to return the XML document fragment for the resulting document.

  7. Output the XML document fragment.

Using the XMLDBAccess JavaBean: Basic Process

When developing applications that use the XMLDBAccess bean, you must use these subpackages:

  • oracle.xml.xmldbaccess, which includes the XMLDBAccess bean

  • oracle.xml.parser.v2, which provides APIs for XML parsing SAX, DOM, and XSLT

The oracle.xml.parser.v2 subpackage is described in detail in Chapter 4, "XML Parsing for Java". Some of the more important methods in the XMLDBAccess class are described in Table D-3.

Table D-3 XMLDBAccess Methods

Class/Interface Description

createXMLTypeTable()

Creates an XMLType table.

insertXMLTypeData()

Inserts a text file as a row in an XMLType table.

replaceXMLTypeData()

Replaces a text file as a row in an XMLType table.

getXMLTypeTableNames()

Retrieves all XML tables with names starting with a specified string.

getXMLTypeData()

Retrieves text file from an XMLType table.

getXMLTypeXPathTextData()

Retrieves the text data based on the XPath expression from an XMLType table.


Figure D-3 shows typical XMLDBAccess bean usage. It shows how the DBAccess bean maintains and manipulates XML documents stored in XMLTypes.

Figure D-3 XMLDBAccess JavaBean Usage

Description of Figure D-3 follows
Description of "Figure D-3 XMLDBAccess JavaBean Usage"

For example, an XMLDBAaccess program could process XML documents in these stages:

  1. Create an XMLType table. Invoke createXMLTypeTable() by passing it database connection information and a table name.

  2. List the XMLType tables. Invoke getXMLTypeTableNames() by passing it database connection information and an empty string.

  3. Load XML data into the table. Invoke replaceXMLTypeData() by passing it database connection information, the table name, the XML file name, and a string containing the XML.

  4. Retrieve the XML data into a String. Invoke getXMLTypeData() by passing it the connection information, the table name, and the XML file name.

  5. Retrieve XML data based on an XPath expression. Invoke getXMLXPathTextData() by passing it the connection information, the table name, the XML file name, and the XPath expression.

  6. Close the connection.

Using the XMLDiff JavaBean: Basic Process

When developing applications that use the XMLDiff bean, you typically use these subpackages:

  • oracle.xml.xmldiff, which includes the XMLDiff bean

  • oracle.xml.parser.v2, which provides APIs for XML parsing SAX, DOM, and XSLT

  • oracle.xml.async, which provides asynchronous Java beans for DOM building

The oracle.xml.parser.v2 subpackage is described in detail in Chapter 4, "XML Parsing for Java". Some important methods in the XMLDiff class are described in Table D-4.

Table D-4 XMLDiff Methods

Class/Interface Description

diff()

Determines the differences between two input XML files or two XMLDocument objects.

generateXSL()

Generates an XSL file that represents the differences between the input two XML files. The first XML file can be transformed into the second XML file with the generated style sheet. If the XML files are the same, then the XSL generated can transform the first XML file into the second XML file, where the first and second files are equivalent.

Related methods are generateXSLDoc() and generateXSLFile().

setFiles()

Sets the XML files to be compared.

getDocument1()

Gets the document root as an XMLDocument object of the first XML tree. getDocument2() is the equivalent method for the second tree.

getDiffPane1()

Gets the text panel as JTextPane object that visually shows the diffs in the first XML file. getDiffPane2() is the equivalent method for the second file.


Figure D-4 shows typical XMLDiff bean usage. It shows how XMLDiff bean compares and displays the differences between input XML documents.

Figure D-4 XMLDiff JavaBean Usage

Description of Figure D-4 follows
Description of "Figure D-4 XMLDiff JavaBean Usage"

For example, an XMLDiff program could process XML documents in these stages:

  1. Create an XMLDiff object.

  2. Set the files to be compared. Create File objects for the input files and pass references to the objects to XMLDiff.setFiles().

  3. Compare the documents. The diff() method returns false if the XML files are the same and true if they are different.

  4. Respond depending on the whether the input XML documents are the same or different. For example, if they are the same, invoke JOptionPane.showMessageDialog() to print a message.

  5. Generate an XSLT style sheet that shows the differences between the input XML documents. For example, generateXSLDoc() generates an XSL style sheet as an XMLDocument.

  6. Display the DOM trees created by XMLDiff.

Running XDK JavaBean Demo Programs

Demo programs for XDK SJavaBeans are included in the $ORACLE_HOME/xdk/demo/java/transviewer directory. The demos show the use of the XDK beans described in "XDK JavaBeans Features," and also some visual beans that are now deprecated. The beans used in the demos are:

  • XSLTransformer

  • DOMBuilder

  • DBAccess

  • XMLDBAccess

  • XMLDiff

  • XMLCompress

  • XSDValidator

  • oracle.xml.srcviewer.XMLSourceView (deprecated)

  • oracle.xml.treeviewer.XMLTreeView (deprecated)

  • oracle.xml.transformer.XMLTransformPanel (deprecated)

  • oracle.xml.dbviewer.DBViewer (deprecated)

Although the visual beans are deprecated, they remain useful as educational tools. Consequently, the deprecated beans are included in $ORACLE_HOME/lib/xmldemo.jar. The nondeprecated beans are included in $ORACLE_HOME/lib/xml.jar.

Table D-5 lists the sample programs provided in the demo directory. The first column of the table indicates which sample program use deprecated beans.

Table D-5 JavaBean Sample Java Source Files

Sample File Name Description

sample1

(deprecated)

XMLTransformPanelSample.java

A visual application that uses the XMLTransformPanel, DOMBuilder, and XSLTransformer beans. This bean applies XSL transformations to XML documents and shows the result.

See Also: "Running sample1"

sample2

(deprecated)

ViewSample.java

A sample visual application that uses the XMLSourceView and XMLTreeView beans. It visualizes XML document files.

See Also: "Running sample2"

sample3

AsyncTransformSample.java

A nonvisual application that uses the XSLTransformer and DOMBuilder beans. It applies the XSLT style sheet specified in doc.xsl on all .xml files in the current directory. It writes the results to files with the extension .log.

See Also: "Running sample3"

sample4

(deprecated)

DBViewSample.java

A visual application that uses the DBViewer bean to implement a simple application that handles insurance claims.

See Also: "Running sample4"

 

DBViewClaims.java

This JFrame subclass is instantiated in the DBViewFrame class, which is in turn instantiated in the DBViewSample program.

 

DBViewFrame.java

This JFrame subclass is instantiated in the DBViewSample program.

sample5

XMLDBAccessSample.java

A nonvisual application for the XMLDBAccess bean. This program demonstrates how to use the XMLDBAccess bean APIs to store and retrieve XML documents in XMLType tables.

To use XMLType, you need Oracle Database and xdb.jar. The program accepts values for HOSTNAME, PORT, SID, USERID, and PASSWORD. The program creates tables in the database and loads data from file booklist.xml. The program writes output to xmldbaccess.log.

See Also: "Running sample5"

sample6

(deprecated)

XMLDiffSample.java

A visual application that uses the XMLDiff bean to find differences between two XML files and generate an XSLT style sheet. You can use this style sheet to transform the first input XML into the second input XML file.

See Also: "Running sample6"

 

XMLDiffFrame.java

A class that implements the ActionListener interface. This class is used by the XMLDiffSample program.

 

XMLDiffSrcView.java

A JPanel subclass used by the XMLDiffSample program.

sample7

(deprecated)

compviewer.java

A visual application that uses the XMLCompress bean to compress XML. The XML input can be an XML file or XML data obtained through a SQL query. The application enables you to decompress the compressed stream and view the resulting DOM tree.

See Also: "Running sample7"

 

compstreamdata.java

A simple class that pipes information from the GUI to the bean. This class is used in dbpanel.java, filepanel.java, and xmlcompressutil.java.

 

dbpanel.java

A JPanel subclass used in xmlcompressutil.java.

 

filepanel.java

A JPanel subclass used in xmlcompressutil.java.

 

xmlcompressutil.java

A JPanel subclass used in compviewer.java.

sample8

(deprecated)

XMLSchemaTreeViewer.java

A visual application that uses the Treeviewer, sourceviewer, and XSDValidator beans. The application accepts an XML instance document and an XML schema document as inputs. The application parses both the documents and validates the instance document against the schema. If the document is invalid, then the nodes where the errors occurred are highlighted and an error message is shown in a tool tip.

See Also: "Running sample8"

 

TreeViewerValidate.java

A JPanel subclass that displays a parsed XML instance document as a tree. This class is used by the XMLSchemaTreeViewer.java program.

sample9

(deprecated)

XMLSrcViewer.java

A visual application that uses the sourceviewer and XSDValidator beans. The demo takes an XML file as input. You can select the validation mode: document type definition (DTD), XML schema, or no validation. The program validates the XML data file against the DTD or schema and displays it with syntax highlighting. It also logs validation errors. For schema validation it also highlights the error nodes appropriately. External and internal DTDs can be viewed.

See Also: "Running sample9"

 

XMLSrcViewPanel.java

A class that shows how to use the XMLSourceView and DTDSourceView objects. This class is used by the XMLSrcViewer.java program.Each XMLSourceView object is set as a Component of a JPanel by invoking goButton_actionPerformed(). The XML file to be viewed is parsed and the resulting XML document is set in the XMLSourceView object by invoking makeSrcPane(). The highlighting and DTD display properties are specified at this time. For performing schema validation, build the schema object by invoking makeSchemaValPane(). You can can check for errors and display the source code accordingly with different highlights. You can retrieve a list of schema validation errors from the XMLSourceView by invoking dumpErrors().

sample10

XSDValidatorSample.java

An application that shows how to use the XSDValidator bean. It accepts an XML file and an XML schema file as input. The program displays errors occurring during validation, including line numbers.

See Also: "Running sample10"


Table D-6 describes additional files that are used by the demo programs.

Table D-6 JavaBean Sample Files

File Name Description

XMLDiffData1.txt

An XML document used by the XMLDiffSample.java program. By default the 2 XML files XMLDiffData1.txt and XMLDiffData2.txt are compared and the output XSLT is stored as XMLDiffSample.xsl.

XMLDiffData2.txt

An XML document used by the XMLDiffSample.java program. By default the 2 XML files XMLDiffData1.txt and XMLDiffData2.txt are compared and the output XSLT is stored as XMLDiffSample.xsl.

booklist.xml

An XML document for use by XMLDBAccessSample.java.

claim.sql

An XML document used by ViewSample.java and XMLDBAccessSample.java.

doc.xml

An XML document for use by AsyncTransformSample.java.

doc.xsl

An XSLT style sheet for use by AsyncTransformSample.java.

emptable.xsl

An XSLT style sheet for use by AsyncTransformSample.java, ViewSample.java, or XMLTransformPanelSample.java.

note_in_dtd.xml

A sample XML document for use in XMLSrcViewer.java. You can use this file in DTD validation mode to view an internal DTD with validation errors. An internal DTD can be optionally displayed along with the XML data.

purchaseorder.xml

An XML document used by the XSDValidatorSample.java program. The instance document purchaseorder.xml does not conform to the XML schema defined in purchaseorder.xsd, which causes the program to display the errors.

purchaseorder.xsd

An XML schema document used by the XSDValidatorSample.java program. The instance document purchaseorder.xml does not conform to the XML schema defined in purchaseorder.xsd, which causes the program to display the errors.


Documentation for how to compile and run the sample programs is located in the README in the same directory. The basic steps are:

  1. Change into the $ORACLE_HOME/xdk/demo/java/transviewer directory (UNIX) or %ORACLE_HOME%\xdk\demo\java\transviewer directory (Windows).

  2. Make sure that your environment variables are set as described in "Setting Up the XDK for Java Environment." The beans require Java Development Kit (JDK) 1.2 or later. The DBViewer and DBTransformPanel beans require JDK 1.2.2 when rendering HTML. Prior versions of the JDK may not render HTML in the result buffer properly.

  3. Edit the Makefile (UNIX) or Make.bat (Windows) for your environment. In particular,:

    • Change the JDKPATH in the Makefile to point to your JDK path.

    • Change PATHSEP to the appropriate path separator for your operating system.

    • Change the HOSTNAME, PORT, SID, USERID, and PASSWORD parameters so that you can connect to the database through the JDBC thin driver. These parameters are used in sample4 and sample5.

  4. Run make (UNIX) or Make.bat (Windows) at the system prompt to generate the class files.

  5. Run gmake to run the demos:

    gmake sample1
    gmake sample2
    gmake sample3
    gmake sample4
    gmake sample5
    gmake sample6
    gmake sample7
    gmake sample8
    gmake sample9
    gmake sample10
    

    The following sections explain how to run the demos.

Running sample1

Sample1 is the program that uses the XMLTransViewer bean. You can run the program manually:

java XMLTransformPanelSample

You can use the program to import and export XML files from Oracle Database, store XSL transformation files in the database, and apply style sheets to XML interactively. To use the database connectivity feature in this program, you must know the network name of the computer where the database runs, the port (usually 1521), and the name of the Oracle instance (usually orcl). You also need an account with CREATE TABLE privileges. If you have installed the sample schemas, then you can use the account hr. You can the XMLTransViewer program to apply style sheet transformation to XML files and display the result.The program displays a panel with tabs on the top and the bottom. You can use the first two top tabs to switch between the XML buffer and the XSLT buffer. The third tab performs XSL transformation on the XML buffer and displays the result. You can use the first two tabs on the bottom to load and save data from Oracle Database and from the file system. The remaining bottom tabs switch the display of the current content to tree view, XML source, edit mode and, in case of the result view after the transformation, HTML.

Running sample2

Sample2 is a GUI-based demo for the XMLSourceView and XMLTreeView beans, which are deprecated. The ViewSample program displays the booklist.xml file in separate source and tree views. You can run the program manually:

java ViewSample

Running sample3

Sample3 is a nonvisual demo for the asynchronous DOMBuilder and XSLTransformer beans. The AsyncTransformSample program applies the doc.xsl XSLT style sheet to all *.xml files in the current directory. The program writes output to files with the extension .log. You can run the program:

java AsyncTransformSample

Running sample4

Sample4 is a visual demo for the DBViewer bean, which is deprecated. It runs in these stages:

  1. It starts SQL*Plus, connects to the database with the USERID and PASSWORD specified in the Makefile, and runs the claim.sql script. This script creates several tables, views, and types for use by the DBViewSample demo program.

  2. It runs the DBViewSample program:

    java -classpath "$(MAKE_CLASSPATH)" DBViewSample
    

JDBC connection information is hard-coded in the DBViewClaims.java source file, which implements a class used by the demo. Specifically, the program assumes the values for USERID, PASSWORD, and so forth set in the Makefile. If your configuration is different, navigate to line 92 in DBViewClaims.java and modify setUsername(), setPassword(), and so forth with values that reflect your Oracle Database configuration.

Running sample5

Sample5 is a nonvisual demo for the XMLDBAccess bean. It uses the XMLType objects to store XML documents inside the database.The following program connects to the database with the Java thin client, creates XMLType tables, and loads the data from booklist.xml. To run the program you must specify these pieces of information as command-line arguments:

  • Host name (for example, myhost)

  • Port number (for example, 1521)

  • SID of the database (for example, ORCL)

  • Database account in which the tables are created (for example, hr)

  • Password for the database account (for example, hr)

For example, you can run the program:

java XMLDBAccessSample myhost 1521 ORCL hr hr

The following text shows sample output from dbaccess.log:

Demo for createXMLTypeTables():
Table +'testxmltype' successfully created.
 
Demo for listXMLTypeTables():
tablenamename=TESTXMLTYPE
 
Demo for replaceXMLTypeData() (similar to insert):
XML Data from +'booklist.xml' successfully replaced in table 'testxmltype'.
 
Demo for getXMLTypeData():
XMLType data fetched:
<?xml version="1.0"?>
<booklist>  
  <book isbn="1234-123456-1234">    
    <title>C Programming Language</title>    
    <author>Kernighan and Ritchie</author>    
    <publisher>EEE</publisher>    
    <price>7.99</price>  
  </book>
...
  <book isbn="1230-23498-2349879">    
    <title>Emperor's New Mind</title>    
    <author>Roger Penrose</author>    
    <publisher>Oxford Publishing Company</publisher>    
    <price>15.99</price>  
  </book>
</booklist>
 
Demo for getXMLTypeXPathTextData():
Data fetched using XPath exp '/booklist/book[3]':
<book isbn="2137-598354-65978">
  <title>Twelve Red Herrings</title>
  <author>Jeffrey Archer</author>
  <publisher>Harper Collins</publisher>
  <price>12.95</price>
</book>

Running sample6

The sample6 program is a visual demo for the XMLDiff bean. The XMLDiffSample class invokes a GUI that enables you to choose the input data files from the File menu by selecting Compare XML Files. The Transform menu enables you to apply the generated XSLT generated to the first input XML. Select Save As in the File menu to save the output XML file, which is the same as the second input file. By default, the program compares XMLDiffData1.txt to XMLDiffData2.txt and stores the XSLT output as XMLDiffSample.xsl.

You can run the program manually:

java -mx50m XMLDiffSample XMLDiffData1.txt XMLDiffData2.txt

If the input XML files use a DTD that accesses a URL outside a firewall, then modify XMLDiffSample.java to include the proxy server settings before the setFiles() invocation. For example, modify the program as follows:

/* Set proxy to access dtd through firewall */
Properties p = System.getProperties();
p.put("proxyHost", "www.proxyservername.com");
p.put("proxyPort", "80");
p.put("proxySet", "true");
/* You will also have to import java.util.*; */

Running sample7

The sample7 visual demo shows the use of the XMLCompress bean. The compviewer class invokes a GUI which lets the user compress and uncompress XML files and data obtained from the database. The loading options enable the user to retrieve the data either from a file system or a database. This application does not support loading and saving compressed data from the database. The compression factor indicates a rough estimate by which the XML data is reduced.

You can run the program manually:

java compviewer

Running sample8

The sample8 demo shows the use of the XMLTreeViewer bean. The XMLSchemaTreeViewer program enables the user to view an XMLDocument in a tree format. The user can input a schema document and validate the instance document against the schema. If the document is invalid, then the invalid nodes are highlighted with the error message. Also, the program displays a log of all the line information in a separate panel, which enables the user to edit the instance document and revaluated. Test the program with sample files purchaseorder.xml and purchaseorder.xsd. The instance document purchaseorder.xml does not conform to the schema defined in purchaseorder.xsd.

You can run the program manually:

java XMLSchemaTreeViewer

Running sample9

The sample9 demo shows the use of the SourceViewer bean. The XMLSrcViewer program enables you to view an XML document or a DTD with syntax highlighting turned on. You can validate the XML document against an input XML Schema or DTD. The DTD can be internal or external.

If the validation is successful, then you can view the instance document and XML schema or DTD in the Source View pane. If errors were encountered during schema validation, then an error log with line numbers is available in the Error pane. The Source View pane shows the XML document with error nodes highlighted.You can use sample files purchaseorder.xml and purchaseorder.xsd for testing XML schema validation with errors. You can use note_in_dtd.xml with DTD validation mode to view an internal DTD with validation errors. You can run the program manually:

java XMLSrcViewer

Running sample10

The sample10 demo shows the use of the XSDValidator bean. The XSDValidatorSample program's two input arguments are an XML document and its associated XML schema. The program displays errors occurring during validation, including line numbers.

The following program uses purchaseorder.xsd to validate the contents of purchaseorder.xml:

java XSDValidatorSample purchaseorder.xml purchaseorder.xsd

The XML document fails (intentionally) to validate against the schema. The program displays these errors:

Sample purchaseorder.xml purchaseorder.xsd
<Line 2, Column 41>: XML-24523: (Error) Invalid value 'abc' for attribute: 'orderDate'
#document->purchaseOrder
<Line 7, Column 27>: XML-24525: (Error) Invalid text 'CA' in element: 'state'
#document->purchaseOrder->shipTo->state->#text
<Line 8, Column 25>: XML-24525: (Error) Invalid text 'sd' in element: 'zip'
#document->purchaseOrder->shipTo->zip->#text
<Line 14, Column 27>: XML-24525: (Error) Invalid text 'PA' in element: 'state'
#document->purchaseOrder->billTo->state->#text
<Line 17, Column 22>: XML-24534: (Error) Element 'coment' not expected.
#document->purchaseOrder->coment
<Line 29, Column 31>: XML-24534: (Error) Element 'shipDae' not expected.
#document->purchaseOrder->items->item->shipDae

Processing XML with XDK JavaBeans

Topics:

Processing XML Asynchronously with the DOMBuilder and XSLTransformer Beans

As explained in and "XSLTransformer," you can use XDK JavaBeans to perform asynchronous XML processing.

The AsyncTransformSample.java program shows how to use both the DOMBuilder and XSLTransformer beans. The program implements these methods:

  • runDOMBuilders()

  • runXSLTransformer()

  • saveResult()

  • makeXSLDocument()

  • createURL()

  • init()

  • exitWithError()

  • asyncTransform()

The basic architecture of the program is:

  1. The program declares and initializes the fields used by the class. The input XSLT style sheet is hard-coded in the program as doc.xsl. The class defines these fields:

    String        basedir = new String (".");
    OutputStream  errors = System.err;
    Vector        xmlfiles = new Vector();
    int           numXMLDocs = 1;
    String        xslFile = new String ("doc.xsl");
    URL           xslURL;
    XMLDocument   xsldoc
    
  2. The main() method invokes the init() method to perform the initial setup. This method lists the files in the current directory, and if it finds files that end in the extension .xml, it adds them to a Vector object. The implementation for the init() method is:

    boolean init () throws Exception
    {
       File     directory = new File (basedir);
       String[] dirfiles = directory.list();
       for (int j = 0; j < dirfiles.length; j++)
       {
          String dirfile = dirfiles[j];
     
          if (!dirfile.endsWith(".xml"))
              continue;
     
           xmlfiles.addElement(dirfile);
       }
     
       if (xmlfiles.isEmpty()) {
          System.out.println("No files in directory were selected for processing");
          return false;
       }
       numXMLDocs = xmlfiles.size();
    
       return true;
    }
    
  3. The main() method instantiates AsyncTransformSample:

    AsyncTransformSample inst = new AsyncTransformSample();
    
  4. The main() method invokes the asyncTransform() method. The asyncTransform() method performs these main tasks:

    1. Invokes makeXSLDocument() to parse the input XSLT style sheet.

    2. Invokes runDOMBuilders() to initiate parsing of the instance documents, that is, the documents to be transformed, and then transforms them.

    After initiating the XML processing, the program resumes control and waits while the processing occurs in the background. When the last request completes, the method exits.

    The following code shows the implementation of the asyncTransform() method:

    void asyncTransform () throws Exception
    {
       System.err.println (numXMLDocs +
                " XML documents will be transformed" +
                " using XSLT stylesheet specified in " + xslFile +
                " with " +  numXMLDocs + " threads");
    
       makeXSLDocument ();
       runDOMBuilders ();
     
       // wait for the last request to complete
       while (rm.activeFound())
          Thread.sleep(100);
    }
    

The following sections explain the makeXSLDocument() and runDOMBuilders() methods.

Parsing the Input XSLT Style Sheet

The makeXSLDocument() method shows a simple DOM parse of the input style sheet. It does not use asynchronous parsing. The technique is the same described in "Performing Basic DOM Parsing."

The method follows these steps:

  1. Create a new DOMParser() object. The following code fragment from DOMSample.java shows this technique:

    DOMParser parser = new DOMParser();
    
  2. Configure the parser. The following code fragment specifies that white space must be preserved:

    parser.setPreserveWhitespace(true);
    
  3. Create a URL object from the input style sheet. The following code fragment invokes the createURL() helper method to accomplish this task:

    xslURL = createURL (xslFile);
    
  4. Parse the input XSLT style sheet. The following statement shows this technique:

    parser.parse (xslURL);
    
  5. Get a handle to the root of the in-memory DOM tree. You can use the XMLDocument object to access every part of the parsed XML document. The following statement shows this technique:

    xsldoc = parser.getDocument();
    

Processing the XML Documents Asynchronously

The runDOMBuilders() method shows how you can use the DOMBuilder and XSLTransformer beans to perform asynchronous processing. The parsing and transforming of the XML occurs in the background.

The method follows these steps:

  1. Create a resource manager to manage the input XML documents. The program creates a for loop and gets the XML documents. The following code fragment shows this technique:

    rm = new ResourceManager (numXMLDocs);
    for (int i = 0; i < numXMLDocs; i++)
    {
       rm.getResource();
       ...
    }
    
  2. Instantiate the DOM builder bean for each input XML document. For example:

    DOMBuilder builder = new DOMBuilder(i);
    
  3. Create a URL object from the XML file name. For example:

    DOMBuilder builder = new DOMBuilder(i);
    URL  xmlURL = createURL(basedir + "/" + (String)xmlfiles.elementAt(i));
    if (xmlURL == null)
       exitWithError("File " + (String)xmlfiles.elementAt(i) + " not found");
    
  4. Configure the DOM builder. The following code fragment specifies the preservation of white space and sets the base URL for the document:

    builder.setPreserveWhitespace(true);
    builder.setBaseURL (createURL(basedir + "/"));
    
  5. Add the listener for the DOM builder. The program adds the listener by invoking addDOMBuilderListener().

    The class instantiated to create the listener must implement the DOMBuilderListener interface. The program provides a do-nothing implementation for domBuilderStarted() and domBuilderError(), but must provide a substantive implementation for domBuilderOver(), which is the method called when the parse of the XML document completes. The method invokes runXSLTransformer(), which is the method that transforms the XML. See "Transforming the XML with the XSLTransformer Bean" for an explanation of this method.

    The following code fragment shows how to add the listener:

    builder.addDOMBuilderListener
    ( 
       new DOMBuilderListener()
       {
          public void domBuilderStarted(DOMBuilderEvent p0) {}
          public void domBuilderError(DOMBuilderEvent p0) {}
          public synchronized void domBuilderOver(DOMBuilderEvent p0)
          {
             DOMBuilder bld = (DOMBuilder)p0.getSource();
             runXSLTransformer (bld.getDocument(), bld.getId());
          }
       }
    );
    
  6. Add the error listener for the DOM builder. The program adds the listener by invoking addDOMBuilderErrorListener().

    The class instantiated to create the listener must implement the DOMBuilderErrorListener interface. The following code fragment show the implementation:

    builder.addDOMBuilderErrorListener
    (
       new DOMBuilderErrorListener() 
       {
          public void domBuilderErrorCalled(DOMBuilderErrorEvent p0)
          {
             int id = ((DOMBuilder)p0.getSource()).getId();
             exitWithError("Error occurred while parsing " +
                xmlfiles.elementAt(id) + ": " +
                p0.getException().getMessage());
          }
       }
    );
    
  7. Parse the document. The following statement shows this technique:

    builder.parse (xmlURL);
    System.err.println("Parsing file " + xmlfiles.elementAt(i));
    
Transforming the XML with the XSLTransformer Bean

When the DOM parse completes, the DOM listener receives notification. The domBuilderOver() method implements the behavior in response to this event. The program passes the DOM to the runXSLTransformer() method, which initiates the XSL transformation.

The method follows these steps:

  1. Instantiate the XSLTransformer bean. This object performs the XSLT processing. The following statement shows this technique:

    XSLTransformer processor = new XSLTransformer (id);
    
  2. Create a new style sheet object. For example:

    XSLStylesheet  xsl       = new XSLStylesheet (xsldoc, xslURL);
    
  3. Configure the XSLT processor. For example, this statement sets the processor to show warnings and configures the error output stream:

    processor.showWarnings (true);
    processor.setErrorStream (errors);
    
  4. Add the listener for the XSLT processor. The program adds the listener by invoking addXSLTransformerListener().

    The class instantiated to create the listener must implement the XSLTransformerListener interface. The program provides a do-nothing implementation for xslTransformerStarted() and xslTransformerError(), but must provide a substantive implementation for xslTransformerOver(), which is the method called when the parse of the XML document completes. The method invokes saveResult(), which prints the transformation result to a file.

    The following code fragment shows how to add the listener:

    processor.addXSLTransformerListener
    (
       new XSLTransformerListener() 
       {
          public void xslTransformerStarted (XSLTransformerEvent p0) {}
          public void xslTransformerError(XSLTransformerEvent p0) {}
          public void xslTransformerOver (XSLTransformerEvent p0)
          {
             XSLTransformer trans = (XSLTransformer)p0.getSource();
             saveResult (trans.getResult(),  trans.getId());
          }
       }
    );
    
  5. Add the error listener for the XSLT processor. The program adds the listener by invoking addXSLTransformerErrorListener().

    The class instantiated to create the listener must implement the XSLTransformerErrorListener interface. The following code fragment show the implementation:

    processor.addXSLTransformerErrorListener 
    (
       new XSLTransformerErrorListener() 
       {
          public void xslTransformerErrorCalled(XSLTransformerErrorEvent p0)
          {
             int i = ((XSLTransformer)p0.getSource()).getId();
             exitWithError("Error occurred while processing " +
                           xmlfiles.elementAt(i) + ": " +
                           p0.getException().getMessage());
          }
       }
    );
    
  6. Transform the XML document with the XSLT style sheet. The following statement shows this technique:

    processor.processXSL (xsl, xml);
    

Comparing XML Documents with the XMLDiff JavaBean

As explained in "XMLDiff," you can use XDK JavaBeans to compare the structure and significant content of XML documents.

The XMLDiffSample.java program shows how to use the XMLDiff bean. The program implements these methods:

  • showDiffs()

  • doXSLTransform()

  • createURL()

The basic architecture of the program is:

  1. The program declares and initializes the fields used by the class. One field is of type XMLDiffFrame, which is the class implemented in the XMLDiffFrame.java demo. The class defines these fields:

    protected XMLDocument doc1;   /* DOM tree for first file */
    protected XMLDocument doc2;   /* DOM tree for second file */
    protected static XMLDiffFrame diffFrame; /* GUI frame */
    protected static XMLDiffSample dfxApp;   /* XMLDiff sample application */
    protected static XMLDiff xmlDiff;        /* XML diff object */
    protected static XMLDocument xslDoc;     /* parsed xsl file */
    protected static String outFile = new String("XMLDiffSample.xsl"); /* output
                                                                  xsl file name */
    
  2. The main() method creates an XMLDiffSample object:

    dfxApp = new XMLDiffSample();
    
  3. The main() method adds and initializes a JFrame to display the output of the comparison. The following code shows this technique:

    diffFrame = new XMLDiffFrame(dfxApp);
    diffFrame.addTransformMenu();
    
  4. The main() method instantiates the XMLDiff bean. The following code shows this technique:

    xmlDiff = new XMLDiff();
    
  5. The main() method invokes the showDiffs() method. This method performs these tasks:

    1. Invokes XMLDiff.diff() to compare the input XML documents.

    2. Generates and displays an XSLT stylsheet that can transform one input document into the other document.

    The following code fragment shows the showDiffs() method invocation:

    if (args.length == 3)
      outFile = args[2];
    if(args.length >= 2)
      dfxApp.showDiffs(new File(args[0]), new File(args[1])); 
    diffFrame.setVisible(true);
    

The following section explains the showDiffs() method.

Comparing the XML Files and Generating a Style Sheet

The showDiffs() method shows the use of the XMLDiff bean.

The method follows these steps:

  1. Set the files for the XMLDiff processor. The following statement shows this technique:

    xmlDiff.setFiles(file1, file2);
    
  2. Compare the files. The diff() method returns a boolean value that indicates whether the input documents have identical structure and content. If they are equivalent, then the method prints a message to the JFrame implemented by the XMLDiffFrame class. The following code fragment shows this technique:

    if(!xmlDiff.diff())
    {
      JOptionPane.showMessageDialog
      (
        diffFrame,
        "Files are equivalent in XML representation",
        "XMLDiffSample Message",
        JOptionPane.PLAIN_MESSAGE
      );
    }
    
  3. Generate a DOM for the XSLT style sheet that shows the differences between the two documents. The following code fragment shows this technique:

    xslDoc = xmlDiff.generateXSLDoc();
    
  4. Display the documents in the JFrame implemented by XMLDiffFrame. XMLDiffFrame instantiates the XMLSourceView bean, which is deprecated. The method follows these steps:

    1. Create the source pane for the input documents. Pass the DOM handles of the two documents to the diffFrame object to make the source pane:

      diffFrame.makeSrcPane(xmlDiff.getDocument1(), xmlDiff.getDocument2());
      
    2. Create the pane that shows the differences between the documents. Pass references to the text panes to diffFrame:

      diffFrame.makeDiffSrcPane(new XMLDiffSrcView(xmlDiff.getDiffPane1()),
                                new XMLDiffSrcView(xmlDiff.getDiffPane2()));
      
    3. Create the pane for the XSLT style sheet. Pass the DOM of the style sheet:

      diffFrame.makeXslPane(xslDoc, "Diff XSL Script");
      diffFrame.makeXslTabbedPane();