Java API for XML Processing

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Short description: Java application programming interface

In computing, the Java API for XML Processing, or JAXP (/ˈæksp/ JAKS-pee), one of the Java XML Application programming interfaces, provides the capability of validating and parsing XML documents. It has three basic parsing interfaces:

In addition to the parsing interfaces, the API provides an XSLT interface to provide data and structural transformations on an XML document.

JAXP was developed under the Java Community Process as JSR 5 (JAXP 1.0), JSR 63 (JAXP 1.1 and 1.2), and JSR 206 (JAXP 1.3).

Java SE version JAXP version bundled
1.4 1.1
1.5 1.3
1.6 1.4
1.7.0 1.4.5
1.7.40 1.5
1.8 1.6[1]

JAXP version 1.4.4 was released on September 3, 2010. JAXP 1.3 was declared end-of-life on February 12, 2008.

DOM interface

The DOM interface parses an entire XML document and constructs a complete in-memory representation of the document using the classes and modeling the concepts found in the Document Object Model Level 2 Core Specification.

The DOM parser is called a

Computer code

, as it builds an in-memory Document representation. The Template:Javadoc is created by the Template:Javadoc.[2] The

Computer code
creates an org.w3c.dom.Document instance - a tree structure containing nodes in the XML Document. Each tree node in the structure implements the org.w3c.dom.Node interface. Among the many different types of tree nodes, each representing the type of data found in an XML document, the most important include:
  • element nodes that may have attributes
  • text nodes representing the text found between the start and end tags of a document element.

SAX interface

The Template:Javadoc creates the SAX parser, called the Template:Javadoc. Unlike the DOM parser, the SAX parser does not create an in-memory representation of the XML document and so runs faster and uses less memory. Instead, the SAX parser informs clients of the XML document structure by invoking callbacks, that is, by invoking methods on an Template:Javadoc instance provided to the parser. This way of accessing document is called Streaming XML.

The DefaultHandler class implements the Template:Javadoc, the Template:Javadoc, the Template:Javadoc, and the Template:Javadoc interfaces. Most clients will be interested in methods defined in the ContentHandler interface that are called when the SAX parser encounters the corresponding elements in the XML document. The most important methods in this interface are:

  • Template:Javadoc and Template:Javadoc methods that are called at the start and end of a XML document.
  • startElement() and endElement() methods that are called at the start and end of a document element.
  • characters() method that is called with the text data contents contained between the start and end tags of an XML document element.

Clients provide a subclass of the DefaultHandler that overrides these methods and processes the data. This may involve storing the data into a database or writing it out to a stream.

During parsing, the parser may need to access external documents. It is possible to store a local cache for frequently used documents using an XML Catalog.

This was introduced with Java 1.3 in May 2000.[3]

StAX interface

StAX was designed as a median between the DOM and SAX interface. In its metaphor, the programmatic entry point is a cursor that represents a point within the document. The application moves the cursor forward - 'pulling' the information from the parser as it needs. This is different from an event based API - such as SAX - which 'pushes' data to the application - requiring the application to maintain state between events as necessary to keep track of location within the document.

XSLT interface

The XML Stylesheet Language for Transformations, or XSLT, allows for conversion of an XML document into other forms of data. JAXP provides interfaces in package Template:Javadoc allowing applications to invoke an XSLT transformation. This interface was originally called TrAX (Transformation API for XML), and was developed by an informal collaboration between the developers of a number of Java XSLT processors.

Main features of the interface are

Computer code
object to create a Template:Javadoc, representing the executable form of a stylesheet (Template:Javadoc) This cannot be shared across threads, though it is serially reusable. The 
Computer code
provides methods to set stylesheet parameters and serialization options (for example, whether output should be indented), and a method to actually run the transformation. (Template:Javadoc).

Two abstract interfaces Template:Javadoc and Template:Javadoc are defined to represent the input and output of the transformation. This is a somewhat unconventional use of Java interfaces, since there is no expectation that a processor will accept any class that implements the interface - each processor can choose which kinds of

Computer code
Computer code
it is prepared to handle. In practice all JAXP processors supports several standard kinds of Source (Template:Javadoc, Template:Javadoc Template:Javadoc) and several standard kinds of Result (Template:Javadoc, Template:Javadoc Template:Javadoc) and possibly other implementations of their own.


The most primitive but complete example of XSLT transformation launching may look like this:

/* file src/examples/xslt/ */
package examples.xslt;


import javax.xml.transform.Transformer;
import javax.xml.transform.TransformerException;
import javax.xml.transform.TransformerFactory;
import javax.xml.transform.TransformerFactoryConfigurationError;

public class XsltDemo {
   public static void main(String[] args) throws TransformerFactoryConfigurationError, TransformerException {
      String xsltResource = 
         "<?xml version='1.0' encoding='UTF-8'?>\n"+
         "<xsl:stylesheet version='2.0' xmlns:xsl=''>\n"+
         "   <xsl:output method='xml' indent='no'/>\n"+
         "   <xsl:template match='/'>\n"+
         "      <reRoot><reNode><xsl:value-of select='/root/node/@val' /> world</reNode></reRoot>\n"+
         "   </xsl:template>\n"+
      String xmlSourceResource =
         "<?xml version='1.0' encoding='UTF-8'?>\n"+
         "<root><node val='hello'/></root>";
      StringWriter xmlResultResource = new StringWriter();
      Transformer xmlTransformer = TransformerFactory.newInstance().newTransformer(
         new StreamSource(new StringReader(xsltResource))
         new StreamSource(new StringReader(xmlSourceResource)), new StreamResult(xmlResultResource)

It applies the following hardcoded XSLT transformation:

<?xml version='1.0' encoding='UTF-8'?>
<xsl:stylesheet version='2.0' xmlns:xsl=''>
	<xsl:output method='xml' indent='no'/>
	<xsl:template match='/'>
		<reRoot><reNode><xsl:value-of select='/root/node/@val' /> world</reNode></reRoot>

To the following hardcoded XML document:

<?xml version='1.0' encoding='UTF-8'?>
<root><node val='hello'/></root>

The result of execution will be

<?xml version="1.0" encoding="UTF-8"?><reRoot><reNode>hello world</reNode></reRoot>


  1. "The Java Community Process(SM) Program - JSRS: Java Specification Requests - detail JSR# 206". 
  2. Horstmann 2022, §3.3 Parsing an XML Document.
  3. Compare the Java 1.2.1 API index with the 1.3 index. The Java Specification Request (JSR) 5, XML Parsing Specification, was finalised on 21 March, 2000.


  • Horstmann, Cay (April 15, 2022). Core Java. Oracle Press Java. ISBN 0-13-787107-4. 

External links