256 lines
11 KiB
HTML
256 lines
11 KiB
HTML
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<html><head><title>
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blah
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<!--
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/*
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* Copyright (C) 1999-2001 The Free Software Foundation, Inc.
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*/
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-->
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</title></head><body>
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<p>This package exposes a kind of XML processing pipeline, based on sending
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SAX events, which can be used as components of application architectures.
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Pipelines are used to convey streams of processing events from a producer
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to one or more consumers, and to let each consumer control the data seen by
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later consumers.
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<p> There is a <a href="PipelineFactory.html">PipelineFactory</a> class which
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accepts a syntax describing how to construct some simple pipelines. Strings
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describing such pipelines can be used in command line tools (see the
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<a href="../util/DoParse.html">DoParse</a> class)
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and in other places that it is
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useful to let processing be easily reconfigured. Pipelines can of course
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be constructed programmatically, providing access to options that the
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factory won't.
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<p> Web applications are supported by making it easy for servlets (or
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non-Java web application components) to be part of a pipeline. They can
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originate XML (or XHTML) data through an <em>InputSource</em> or in
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response to XML messages sent from clients using <em>CallFilter</em>
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pipeline stages. Such facilities are available using the simple syntax
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for pipeline construction.
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<h2> Programming Models </h2>
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<p> Pipelines should be simple to understand.
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<ul>
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<li> XML content, typically entire documents,
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is pushed through consumers by producers.
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<li> Pipelines are basically about consuming SAX2 callback events,
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where the events encapsulate XML infoset-level data.<ul>
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<li> Pipelines are constructed by taking one or more consumer
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stages and combining them to produce a composite consumer.
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<li> A pipeline is presumed to have pending tasks and state from
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the beginning of its ContentHandler.startDocument() callback until
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it's returned from its ContentHandler.doneDocument() callback.
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<li> Pipelines may have multiple output stages ("fan-out")
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or multiple input stages ("fan-in") when appropriate.
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<li> Pipelines may be long-lived, but need not be.
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</ul>
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<li> There is flexibility about event production. <ul>
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<li> SAX2 XMLReader objects are producers, which
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provide a high level "pull" model: documents (text or DOM) are parsed,
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and the parser pushes individual events through the pipeline.
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<li> Events can be pushed directly to event consumer components
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by application modules, if they invoke SAX2 callbacks directly.
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That is, application modules use the XML Infoset as exposed
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through SAX2 event callbacks.
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</ul>
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<li> Multiple producer threads may concurrently access a pipeline,
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if they coordinate appropriately.
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<li> Pipeline processing is not the only framework applications
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will use.
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</ul>
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<h3> Producers: XMLReader or Custom </h3>
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<p> Many producers will be SAX2 XMLReader objects, and
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will read (pull) data which is then written (pushed) as events.
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Typically these will parse XML text (acquired from
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<code>org.xml.sax.helpers.XMLReaderFactory</code>) or a DOM tree
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(using a <code><a href="../util/DomParser.html">DomParser</a></code>)
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These may be bound to event consumer using a convenience routine,
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<em><a href="EventFilter.html">EventFilter</a>.bind()</em>.
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Once bound, these producers may be given additional documents to
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sent through its pipeline.
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<p> In other cases, you will write producers yourself. For example, some
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data structures might know how to write themselves out using one or
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more XML models, expressed as sequences of SAX2 event callbacks.
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An application module might
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itself be a producer, issuing startDocument and endDocument events
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and then asking those data structures to write themselves out to a
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given EventConsumer, or walking data structures (such as JDBC query
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results) and applying its own conversion rules. WAP format XML
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(WBMXL) can be directly converted to producer output.
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<p> SAX2 introduced an "XMLFilter" interface, which is a kind of XMLReader.
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It is most useful in conjunction with its XMLFilterImpl helper class;
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see the <em><a href="EventFilter.html">EventFilter</a></em> javadoc
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for information contrasting that XMLFilterImpl approach with the
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relevant parts of this pipeline framework. Briefly, such XMLFilterImpl
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children can be either producers or consumers, and are more limited in
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configuration flexibility. In this framework, the focus of filters is
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on the EventConsumer side; see the section on
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<a href="#fitting">pipe fitting</a> below.
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<h3> Consume to Standard or Custom Data Representations </h3>
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<p> Many consumers will be used to create standard representations of XML
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data. The <a href="TextConsumer.html">TextConsumer</a> takes its events
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and writes them as text for a single XML document,
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using an internal <a href="../util/XMLWriter.html">XMLWriter</a>.
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The <a href="DomConsumer.html">DomConsumer</a> takes its events and uses
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them to create and populate a DOM Document.
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<p> In other cases, you will write consumers yourself. For example,
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you might use a particular unmarshaling filter to produce objects
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that fit your application's requirements, instead of using DOM.
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Such consumers work at the level of XML data models, rather than with
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specific representations such as XML text or a DOM tree. You could
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convert your output directly to WAP format data (WBXML).
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<h3><a name="fitting">Pipe Fitting</a></h3>
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<p> Pipelines are composite event consumers, with each stage having
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the opportunity to transform the data before delivering it to any
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subsequent stages.
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<p> The <a href="PipelineFactory.html">PipelineFactory</a> class
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provides access to much of this functionality through a simple syntax.
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See the table in that class's javadoc describing a number of standard
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components. Direct API calls are still needed for many of the most
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interesting pipeline configurations, including ones leveraging actual
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or logical concurrency.
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<p> Four basic types of pipe fitting are directly supported. These may
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be used to construct complex pipeline networks. <ul>
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<li> <a href="TeeConsumer.html">TeeConsumer</a> objects split event
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flow so it goes to two two different consumers, one before the other.
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This is a basic form of event fan-out; you can use this class to
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copy events to any number of output pipelines.
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<li> Clients can call remote components through HTTP or HTTPS using
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the <a href="CallFilter.html">CallFilter</a> component, and Servlets
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can implement such components by extending the
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<a href="XmlServlet.html">XmlServlet</a> component. Java is not
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required on either end, and transport protocols other than HTTP may
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also be used.
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<li> <a href="EventFilter.html">EventFilter</a> objects selectively
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provide handling for callbacks, and can pass unhandled ones to a
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subsequent stage. They are often subclassed, since much of the
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basic filtering machinery is already in place in the base class.
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<li> Applications can merge two event flows by just using the same
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consumer in each one. If multiple threads are in use, synchronization
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needs to be addressed by the appropriate application level policy.
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</ul>
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<p> Note that filters can be as complex as
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<a href="XsltFilter.html">XSLT transforms</a>
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available) on input data, or as simple as removing simple syntax data
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such as ignorable whitespace, comments, and CDATA delimiters.
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Some simple "built-in" filters are part of this package.
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<h3> Coding Conventions: Filter and Terminus Stages</h3>
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<p> If you follow these coding conventions, your classes may be used
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directly (give the full class name) in pipeline descriptions as understood
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by the PipelineFactory. There are four constructors the factory may
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try to use; in order of decreasing numbers of parameters, these are: <ul>
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<li> Filters that need a single String setup parameter should have
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a public constructor with two parameters: that string, then the
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EventConsumer holding the "next" consumer to get events.
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<li> Filters that don't need setup parameters should have a public
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constructor that accepts a single EventConsumer holding the "next"
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consumer to get events when they are done.
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<li> Terminus stages may have a public constructor taking a single
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paramter: the string value of that parameter.
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<li> Terminus stages may have a public no-parameters constructor.
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</ul>
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<p> Of course, classes may support more than one such usage convention;
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if they do, they can automatically be used in multiple modes. If you
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try to use a terminus class as a filter, and that terminus has a constructor
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with the appropriate number of arguments, it is automatically wrapped in
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a "tee" filter.
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<h2> Debugging Tip: "Tee" Joints can Snapshot Data</h2>
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<p> It can sometimes be hard to see what's happening, when something
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goes wrong. Easily fixed: just snapshot the data. Then you can find
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out where things start to go wrong.
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<p> If you're using pipeline descriptors so that they're easily
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administered, just stick a <em>write ( filename )</em>
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filter into the pipeline at an appropriate point.
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<p> Inside your programs, you can do the same thing directly: perhaps
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by saving a Writer (perhaps a StringWriter) in a variable, using that
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to create a TextConsumer, and making that the first part of a tee --
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splicing that into your pipeline at a convenient location.
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<p> You can also use a DomConsumer to buffer the data, but remember
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that DOM doesn't save all the information that XML provides, so that DOM
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snapshots are relatively low fidelity. They also are substantially more
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expensive in terms of memory than a StringWriter holding similar data.
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<h2> Debugging Tip: Non-XML Producers</h2>
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<p> Producers in pipelines don't need to start from XML
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data structures, such as text in XML syntax (likely coming
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from some <em>XMLReader</em> that parses XML) or a
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DOM representation (perhaps with a
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<a href="../util/DomParser.html">DomParser</a>).
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<p> One common type of event producer will instead make
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direct calls to SAX event handlers returned from an
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<a href="EventConsumer.html">EventConsumer</a>.
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For example, making <em>ContentHandler.startElement</em>
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calls and matching <em>ContentHandler.endElement</em> calls.
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<p> Applications making such calls can catch certain
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common "syntax errors" by using a
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<a href="WellFormednessFilter.html">WellFormednessFilter</a>.
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That filter will detect (and report) erroneous input data
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such as mismatched document, element, or CDATA start/end calls.
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Use such a filter near the head of the pipeline that your
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producer feeds, at least while debugging, to help ensure that
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you're providing legal XML Infoset data.
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<p> You can also arrange to validate data on the fly.
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For DTD validation, you can configure a
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<a href="ValidationConsumer.html">ValidationConsumer</a>
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to work as a filter, using any DTD you choose.
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Other validation schemes can be handled with other
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validation filters.
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</body></html>
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