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/****************************************************************************
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**
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** Documentation on the sax interface of the xml module
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**
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** Copyright (C) 2005-2008 Trolltech ASA. All rights reserved.
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**
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** This file is part of the TQt GUI Toolkit.
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**
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** This file may be used under the terms of the GNU General
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** Public License versions 2.0 or 3.0 as published by the Free
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** Software Foundation and appearing in the files LICENSE.GPL2
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** and LICENSE.GPL3 included in the packaging of this file.
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** Alternatively you may (at your option) use any later version
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** of the GNU General Public License if such license has been
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** publicly approved by Trolltech ASA (or its successors, if any)
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** and the KDE Free TQt Foundation.
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**
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** Please review the following information to ensure GNU General
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** Public Licensing requirements will be met:
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** http://trolltech.com/products/qt/licenses/licensing/opensource/.
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** If you are unsure which license is appropriate for your use, please
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** review the following information:
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** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
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** or contact the sales department at sales@trolltech.com.
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**
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** This file may be used under the terms of the Q Public License as
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** defined by Trolltech ASA and appearing in the file LICENSE.QPL
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** included in the packaging of this file. Licensees holding valid Qt
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** Commercial licenses may use this file in accordance with the Qt
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** Commercial License Agreement provided with the Software.
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**
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** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
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** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
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** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
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** herein.
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**
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**********************************************************************/
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/*! \page xml-sax-features-walkthrough.html
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\ingroup step-by-step-examples
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\title Walkthrough: Using SAX2 features with the TQt XML classes
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This document assumes that you are familiar with \link xml.html#namespaces
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namespaces \endlink in XML and the concept of a \link xml.html#sax2 SAX2
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parser \endlink.
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If features of SAX2 readers are new to you please read
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\link xml.html#sax2Features the feature section \endlink of the SAX2 document.
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As a novice to the TQt XML classes it is advisable to have a look at the
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\link xml-sax-walkthrough.html tiny SAX2 parser walkthrough \endlink before
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reading on.
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This walkthrough covers two topics: First of all it shows how to
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set SAX2 features and secondly how to integrate the TQt XML functionality
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into a TQt GUI application.
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The resulting application allows you to compare the output of the reader
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depending on how the two features
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\e http://xml.org/sax/features/namespace-prefixes
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and \e http://xml.org/sax/features/namespaces are set.
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To do this it shows tree views of the read XML file
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listing the qualified names of elements and attributes and the respective
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namespace URIs.
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<h3>Setting features</h3>
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\quotefile xml/tagreader-with-features/tagreader.cpp
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Let's begin with the main program of the application. First the boring
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part: we include all the classes we need:
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\skipto include
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\printline structureparser.h
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\printuntil ntqlabel.h
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\link #structureparser.h structureparser.h \endlink contains the API of
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the XML parser that we implement in \link #structureparser.cpp
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structureparser.cpp. \endlink
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\printline main
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\printuntil QApplication
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As usual we then create a TQt application object and hand command line arguments
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over to it.
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\printline xmlFile(
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If the user runs the program with one filename as
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an argument we process this file, otherwise we use the \e fnord.xml file from
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the example directory for demonstration purposes.
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\printline TQXmlInputSource
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We use \e xmlFile as the XML Input Source...
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\printline TQXmlSimpleReader
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... and instantiate a \e reader object. Later we will manipulate its features
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and thus influence how the XML data are read.
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\printline container
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Now let's think about presenting the output: As described in the
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\link xml.html#sax2Features TQt SAX2 documentation \endlink
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there are three valid combinations of \e
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http://xml.org/sax/features/namespace-prefixes
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and \e http://xml.org/sax/features/namespaces: TRUE/TRUE, TRUE/FALSE and
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FALSE/TRUE. To show the relevant output side by side of each other
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and mark them with three labels makes up for a grid layout consisting
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of three columns (and thus two lines).
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\printline nameSpace
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The most natural way of presenting XML elements is in a tree.
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Thus we use a listview. Its name \e nameSpace indicates that this
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one will be used to present the combination of \e
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http://xml.org/sax/features/namespaces being TRUE and
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\e http://xml.org/sax/features/namespace-prefixes
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being FALSE -- the default configuration of a \l TQXmlSimpleReader.
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Being the first grid entry the \e nameSpace listview will
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appear in the upper left corner of the virtual grid.
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\printline handler
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Then we create a handler that deals with the XML data read by the reader.
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As the provided handler class \l TQXmlDefaultHandler simply does nothing
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with the data from the reader,
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we can't use it right away. Instead we have to subclass our
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own \link #structureparser.cpp StructureParser \endlink from it.
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\printline setContentHandler
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The \e handler serves as content handler for the reader. Note that
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for simplicity reasons we don't register e.g. an error handler. Thus
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our program will not complain about for example missing closing tags
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in the parsed XML document.
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\printline parse
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Finally we parse the document with the reader's default feature settings.
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\printline namespacePrefix
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\printline table_namespace_prefix
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Now we prepare for the parsing of the same XML input source with
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different reader settings. The output will be presented in
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a second \l QListView, \e namespacePrefix. As it is the second
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member of the \e container grid it will appear in the middle of
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the upper grid row.
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\printline setListView
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Then we ask the \e handler to present the data in the \e namespacePrefix
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listview.
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\printline namespace-prefixes
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\printline TRUE
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Now we modify the behaviour of the \e reader and change
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\e http://xml.org/sax/features/namespace-prefixes from the default FALSE
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to TRUE. The \e http://xml.org/sax/features/namespaces feature has
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still its default setting TRUE.
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\printline reset
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We have to reset the input source to make the new parsing start from the
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beginning of the document again.
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\printline parse
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Finally we parse the XML file a second time with the changed reader
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settings (TRUE/TRUE).
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\printline prefix
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\printuntil parse
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Next we prepare and use the upper right listview to show the reader results
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with the feature setting \e http://xml.org/sax/features/namespaces
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FALSE and \e http://xml.org/sax/features/namespace-prefixes TRUE.
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\printline namespace label
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\printuntil namespace prefix label
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\printuntil prefix label
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\printuntil container
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The second row of the \e container grid is filled with three labels
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denoting the reader settings that belong to the above listview.
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\printline app.setMainWidget
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\printuntil }
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Same procedure as with every TQt GUI program: the grid serves as the
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main widget of our application and is shown. After that we enter
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the GUI's event loop.
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<h3><a name="structureparser.h">The handler API</a></h3>
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Let's have a brief look at the API of our handler class
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\e StructureParser:
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\quotefile xml/tagreader-with-features/structureparser.h
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\skipto include
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\printuntil TQString
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\printline StructureParser
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\printuntil {
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We derive it from the \l TQXmlDefaultHandler class that
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implements a handler that simply does nothing.
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\printuntil QListView
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This makes it easy for us to implement only the functionality
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we in fact need. In our case this is the constructor that
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takes a \l QListView as an argument,
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\printline startElement
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\printuntil TQXmlAttributes
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the function to execute at the occurrence of element start tags
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(inherited from \l TQXmlContentHandler), and
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\printline endElement
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the code to run when an end tag occurs.
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All we have to implement so far is content handling.
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\printline setListView
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In addition we have a function that selects a listview
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for the output.
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\printuntil QPtrStack
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Keep in mind that we write a SAX2 parser that doesn't
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have an object model to keep all elements and attributes
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in memory. To display the elements and attributes in a tree like
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structure we must however keep track of all elements
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that haven't been closed yet.
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To do this we use a LIFO stack
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of QListItems. An element will be added to the stack when
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its start tag appears and removed
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as soon as its end tag is parsed.
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\printline table
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\printline };
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Apart from this we define a member variable that contains
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the currently used listview.
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<h3><a name="structureparser.cpp">The handler itself</a></h3>
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Now that we defined the API we have to implement the
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relevant functions.
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\quotefile xml/tagreader-with-features/structureparser.cpp
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\skipto include
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\printuntil ntqlistview.h
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\printline StructureParser
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\printuntil {
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First we have the constructor that takes a listview pointer as
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its argument.
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\printline setListView
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\printuntil }
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All we have to do here is to prepare the argument \l QListView
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before usage. This we do with the \link #setListView()
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setListView() \endlink function.
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<a name="setListView()"></a>
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\printline setListView
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\printuntil table
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First we store the argument away.
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\printline setSorting
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We want the elements to be listed as they appear in the
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document -- and not for example sorted alphabetically. That's
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why we switch off sorting at all.
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\printline addColumn
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\printuntil }
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The listview now consists of two columns: one for the
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element's or attribute's qualified names and one for
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their namespace URIs. Columns are added from left to right
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and with the title as an argument.
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Now let's deal with XML content handling.
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\printline startElement
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\printuntil {
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When we come across the start tag of an element the handler does
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the real work. Although \e startElement is called with four
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arguments we keep track of only three: the namespace URI
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of the element, its qualified name and its attributes.
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If an element has no namespace assigned or if the feature
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settings of the reader don't provide the handler with
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namespace URIs at all \e namespaceURI contains an empty
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string.
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Note that we don't assign a variable to the second argument --
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we're simply not interested in the local name of the element.
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\printline element
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Whenever an element occurs we want to show it in the listview.
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Therefore we define a \l QListViewItem variable.
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\printline stack.isEmpty()
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\printline stack.top()
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As long as the element \e stack isn't empty the current element
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is a child of the topmost (last unclosed) element on the stack. Thus we
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create a new \l QListViewItem as a child of QPtrStack::stack.top() with
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the new element's qualified name in the first column and the according
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namespace URI (or nothing) in the second one.
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The QListViewItem is usally inserted as the first child. This means that we
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would get the elements in reverse order. So we first search for the last
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child of the QPtrStack::stack.top() element and insert it after this
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element.
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In a valid XML document this applies to all elements except
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the document root.
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\printuntil table
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\printline }
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The root element we have to handle separately because it is
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the first element to go onto the \l QListViewItem stack.
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Its listview item is therefore a direct child of the
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\e table listview itself.
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\printline stack.push
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Now we put the element's listview item on top of the stack.
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\printline setOpen
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By default a QListView presents all of its nodes closed.
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The user may then click on the \e + icon to see the child
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entries.
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We however want to see the entire element tree
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at once when we run the program.
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Therefore we open each listview item manually.
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\printline attributes.length
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What do we do if an element has attributes?
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\printuntil }
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\printline }
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For each of them we create a new listview item to present the attribute's
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qualified name and the relevant namespace URI (or nothing).
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Obviously \e attribute is a child of
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the current \e element.
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\printline TRUE
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\printline }
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To prevent the reader from throwing an error we have to
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return TRUE when we successfully dealt with an
|
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|
element's start tag.
|
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\printline endElement
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\printuntil stack.pop
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Whenever we come across an element's closing tag we
|
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|
have to remove its listview item from the stack as
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|
it can't have children any longer.
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\printuntil }
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And so we're done.
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|
*/
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