/**************************************************************************** ** ** Documentation on the sax interface of the xml module ** ** Copyright (C) 2005-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.QPL ** included in the packaging of this file. Licensees holding valid Qt ** Commercial licenses may use this file in accordance with the Qt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ /*! \page xml-sax-features-walkthrough.html \ingroup step-by-step-examples \title Walkthrough: Using SAX2 features with the TQt XML classes This document assumes that you are familiar with \link xml.html#namespaces namespaces \endlink in XML and the concept of a \link xml.html#sax2 SAX2 parser \endlink. If features of SAX2 readers are new to you please read \link xml.html#sax2Features the feature section \endlink of the SAX2 document. As a novice to the TQt XML classes it is advisable to have a look at the \link xml-sax-walkthrough.html tiny SAX2 parser walkthrough \endlink before reading on. This walkthrough covers two topics: First of all it shows how to set SAX2 features and secondly how to integrate the TQt XML functionality into a TQt GUI application. The resulting application allows you to compare the output of the reader depending on how the two features \e http://xml.org/sax/features/namespace-prefixes and \e http://xml.org/sax/features/namespaces are set. To do this it shows tree views of the read XML file listing the qualified names of elements and attributes and the respective namespace URIs.

Setting features

\quotefile xml/tagreader-with-features/tagreader.cpp Let's begin with the main program of the application. First the boring part: we include all the classes we need: \skipto include \printline structureparser.h \printuntil tqlabel.h \link #structureparser.h structureparser.h \endlink contains the API of the XML parser that we implement in \link #structureparser.cpp structureparser.cpp. \endlink \printline main \printuntil QApplication As usual we then create a TQt application object and hand command line arguments over to it. \printline xmlFile( If the user runs the program with one filename as an argument we process this file, otherwise we use the \e fnord.xml file from the example directory for demonstration purposes. \printline TQXmlInputSource We use \e xmlFile as the XML Input Source... \printline TQXmlSimpleReader ... and instantiate a \e reader object. Later we will manipulate its features and thus influence how the XML data are read. \printline container Now let's think about presenting the output: As described in the \link xml.html#sax2Features TQt SAX2 documentation \endlink there are three valid combinations of \e http://xml.org/sax/features/namespace-prefixes and \e http://xml.org/sax/features/namespaces: TRUE/TRUE, TRUE/FALSE and FALSE/TRUE. To show the relevant output side by side of each other and mark them with three labels makes up for a grid layout consisting of three columns (and thus two lines). \printline nameSpace The most natural way of presenting XML elements is in a tree. Thus we use a listview. Its name \e nameSpace indicates that this one will be used to present the combination of \e http://xml.org/sax/features/namespaces being TRUE and \e http://xml.org/sax/features/namespace-prefixes being FALSE -- the default configuration of a \l TQXmlSimpleReader. Being the first grid entry the \e nameSpace listview will appear in the upper left corner of the virtual grid. \printline handler Then we create a handler that deals with the XML data read by the reader. As the provided handler class \l TQXmlDefaultHandler simply does nothing with the data from the reader, we can't use it right away. Instead we have to subclass our own \link #structureparser.cpp StructureParser \endlink from it. \printline setContentHandler The \e handler serves as content handler for the reader. Note that for simplicity reasons we don't register e.g. an error handler. Thus our program will not complain about for example missing closing tags in the parsed XML document. \printline parse Finally we parse the document with the reader's default feature settings. \printline namespacePrefix \printline table_namespace_prefix Now we prepare for the parsing of the same XML input source with different reader settings. The output will be presented in a second \l QListView, \e namespacePrefix. As it is the second member of the \e container grid it will appear in the middle of the upper grid row. \printline setListView Then we ask the \e handler to present the data in the \e namespacePrefix listview. \printline namespace-prefixes \printline TRUE Now we modify the behaviour of the \e reader and change \e http://xml.org/sax/features/namespace-prefixes from the default FALSE to TRUE. The \e http://xml.org/sax/features/namespaces feature has still its default setting TRUE. \printline reset We have to reset the input source to make the new parsing start from the beginning of the document again. \printline parse Finally we parse the XML file a second time with the changed reader settings (TRUE/TRUE). \printline prefix \printuntil parse Next we prepare and use the upper right listview to show the reader results with the feature setting \e http://xml.org/sax/features/namespaces FALSE and \e http://xml.org/sax/features/namespace-prefixes TRUE. \printline namespace label \printuntil namespace prefix label \printuntil prefix label \printuntil container The second row of the \e container grid is filled with three labels denoting the reader settings that belong to the above listview. \printline app.setMainWidget \printuntil } Same procedure as with every TQt GUI program: the grid serves as the main widget of our application and is shown. After that we enter the GUI's event loop.

The handler API

Let's have a brief look at the API of our handler class \e StructureParser: \quotefile xml/tagreader-with-features/structureparser.h \skipto include \printuntil TQString \printline StructureParser \printuntil { We derive it from the \l TQXmlDefaultHandler class that implements a handler that simply does nothing. \printuntil QListView This makes it easy for us to implement only the functionality we in fact need. In our case this is the constructor that takes a \l QListView as an argument, \printline startElement \printuntil TQXmlAttributes the function to execute at the occurrence of element start tags (inherited from \l TQXmlContentHandler), and \printline endElement the code to run when an end tag occurs. All we have to implement so far is content handling. \printline setListView In addition we have a function that selects a listview for the output. \printuntil TQPtrStack Keep in mind that we write a SAX2 parser that doesn't have an object model to keep all elements and attributes in memory. To display the elements and attributes in a tree like structure we must however keep track of all elements that haven't been closed yet. To do this we use a LIFO stack of QListItems. An element will be added to the stack when its start tag appears and removed as soon as its end tag is parsed. \printline table \printline }; Apart from this we define a member variable that contains the currently used listview.

The handler itself

Now that we defined the API we have to implement the relevant functions. \quotefile xml/tagreader-with-features/structureparser.cpp \skipto include \printuntil ntqlistview.h \printline StructureParser \printuntil { First we have the constructor that takes a listview pointer as its argument. \printline setListView \printuntil } All we have to do here is to prepare the argument \l QListView before usage. This we do with the \link #setListView() setListView() \endlink function. \printline setListView \printuntil table First we store the argument away. \printline setSorting We want the elements to be listed as they appear in the document -- and not for example sorted alphabetically. That's why we switch off sorting at all. \printline addColumn \printuntil } The listview now consists of two columns: one for the element's or attribute's qualified names and one for their namespace URIs. Columns are added from left to right and with the title as an argument. Now let's deal with XML content handling. \printline startElement \printuntil { When we come across the start tag of an element the handler does the real work. Although \e startElement is called with four arguments we keep track of only three: the namespace URI of the element, its qualified name and its attributes. If an element has no namespace assigned or if the feature settings of the reader don't provide the handler with namespace URIs at all \e namespaceURI contains an empty string. Note that we don't assign a variable to the second argument -- we're simply not interested in the local name of the element. \printline element Whenever an element occurs we want to show it in the listview. Therefore we define a \l QListViewItem variable. \printline stack.isEmpty() \printline stack.top() As long as the element \e stack isn't empty the current element is a child of the topmost (last unclosed) element on the stack. Thus we create a new \l QListViewItem as a child of TQPtrStack::stack.top() with the new element's qualified name in the first column and the according namespace URI (or nothing) in the second one. The QListViewItem is usally inserted as the first child. This means that we would get the elements in reverse order. So we first search for the last child of the TQPtrStack::stack.top() element and insert it after this element. In a valid XML document this applies to all elements except the document root. \printuntil table \printline } The root element we have to handle separately because it is the first element to go onto the \l QListViewItem stack. Its listview item is therefore a direct child of the \e table listview itself. \printline stack.push Now we put the element's listview item on top of the stack. \printline setOpen By default a QListView presents all of its nodes closed. The user may then click on the \e + icon to see the child entries. We however want to see the entire element tree at once when we run the program. Therefore we open each listview item manually. \printline attributes.length What do we do if an element has attributes? \printuntil } \printline } For each of them we create a new listview item to present the attribute's qualified name and the relevant namespace URI (or nothing). Obviously \e attribute is a child of the current \e element. \printline TRUE \printline } To prevent the reader from throwing an error we have to return TRUE when we successfully dealt with an element's start tag. \printline endElement \printuntil stack.pop Whenever we come across an element's closing tag we have to remove its listview item from the stack as it can't have children any longer. \printuntil } And so we're done. */