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Please review the following information to ensure ** the GNU Free Documentation License version 1.3 requirements ** will be met: http://www.gnu.org/copyleft/fdl.html. ** $QT_END_LICENSE$ ** ****************************************************************************/ /*! \group xml-tools \title XML Classes \brief Classes that support XML, via, for example DOM and SAX. These classes are relevant to XML users. \generatelist{related} */ /*! \page xml-processing.html \title XML Processing \ingroup technology-apis \brief An Overview of the XML processing facilities in Qt. In addition to core XML support, classes for higher level querying and manipulation of XML data are provided by the Qt XML Patterns module. In the QtSvg module, the QSvgRenderer and QSvgGenerator classes can read and write a subset of SVG, an XML-based file format. Qt also provides helper functions that may be useful to those working with XML and XHTML: see Qt::escape() and Qt::convertFromPlainText(). \section1 Topics: \list \li \l {Classes for XML Processing} \li \l {An Introduction to Namespaces} \li \l {XML Streaming} \li \l {The SAX Interface} \li \l {Working with the DOM Tree} \endlist \section1 Classes for XML Processing These classes are relevant to XML users. \annotatedlist xml-tools */ /*! \page xml-namespaces.html \title An Introduction to Namespaces \target namespaces \contentspage XML Processing \nextpage XML Streaming Parts of the Qt XML module documentation assume that you are familiar with XML namespaces. Here we present a brief introduction; skip to \l{#namespacesConventions}{Qt XML documentation conventions} if you already know this material. Namespaces are a concept introduced into XML to allow a more modular design. With their help data processing software can easily resolve naming conflicts in XML documents. Consider the following example: \snippet code/doc_src_qtxml.qdoc 6 Here we find three different uses of the name \e title. If you wish to process this document you will encounter problems because each of the \e titles should be displayed in a different manner -- even though they have the same name. The solution would be to have some means of identifying the first occurrence of \e title as the title of a book, i.e. to use the \e title element of a book namespace to distinguish it from, for example, the chapter title, e.g.: \snippet code/doc_src_qtxml.qdoc 7 \e book in this case is a \e prefix denoting the namespace. Before we can apply a namespace to element or attribute names we must declare it. Namespaces are URIs like \e http://www.example.com/fnord/book/. This does not mean that data must be available at this address; the URI is simply used to provide a unique name. We declare namespaces in the same way as attributes; strictly speaking they \e are attributes. To make for example \e http://www.example.com/fnord/ the document's default XML namespace \e xmlns we write \snippet code/doc_src_qtxml.qdoc 8 To distinguish the \e http://www.example.com/fnord/book/ namespace from the default, we must supply it with a prefix: \snippet code/doc_src_qtxml.qdoc 9 A namespace that is declared like this can be applied to element and attribute names by prepending the appropriate prefix and a ":" delimiter. We have already seen this with the \e book:title element. Element names without a prefix belong to the default namespace. This rule does not apply to attributes: an attribute without a prefix does not belong to any of the declared XML namespaces at all. Attributes always belong to the "traditional" namespace of the element in which they appear. A "traditional" namespace is not an XML namespace, it simply means that all attribute names belonging to one element must be different. Later we will see how to assign an XML namespace to an attribute. Due to the fact that attributes without prefixes are not in any XML namespace there is no collision between the attribute \e title (that belongs to the \e author element) and for example the \e title element within a \e chapter. Let's clarify this with an example: \snippet code/doc_src_qtxml.qdoc 10 Within the \e document element we have two namespaces declared. The default namespace \e http://www.example.com/fnord/ applies to the \e book element, the \e chapter element, the appropriate \e title element and of course to \e document itself. The \e book:author and \e book:title elements belong to the namespace with the URI \e http://www.example.com/fnord/book/. The two \e book:author attributes \e title and \e name have no XML namespace assigned. They are only members of the "traditional" namespace of the element \e book:author, meaning that for example two \e title attributes in \e book:author are forbidden. In the above example we circumvent the last rule by adding a \e title attribute from the \e http://www.example.com/fnord/ namespace to \e book:author: the \e fnord:title comes from the namespace with the prefix \e fnord that is declared in the \e book:author element. Clearly the \e fnord namespace has the same namespace URI as the default namespace. So why didn't we simply use the default namespace we'd already declared? The answer is quite complex: \list \li attributes without a prefix don't belong to any XML namespace at all, not even to the default namespace; \li additionally omitting the prefix would lead to a \e title-title clash; \li writing it as \e xmlns:title would declare a new namespace with the prefix \e title instead of applying the default \e xmlns namespace. \endlist With the Qt XML classes elements and attributes can be accessed in two ways: either by referring to their qualified names consisting of the namespace prefix and the "real" name (or \e local name) or by the combination of local name and namespace URI. More information on XML namespaces can be found at \l http://www.w3.org/TR/REC-xml-names/. \target namespacesConventions \section1 Conventions Used in the Qt XML Documentation The following terms are used to distinguish the parts of names within the context of namespaces: \list \li The \e {qualified name} is the name as it appears in the document. (In the above example \e book:title is a qualified name.) \li A \e {namespace prefix} in a qualified name is the part to the left of the ":". (\e book is the namespace prefix in \e book:title.) \li The \e {local part} of a name (also referred to as the \e {local name}) appears to the right of the ":". (Thus \e title is the local part of \e book:title.) \li The \e {namespace URI} ("Uniform Resource Identifier") is a unique identifier for a namespace. It looks like a URL (e.g. \e http://www.example.com/fnord/ ) but does not require data to be accessible by the given protocol at the named address. \endlist Elements without a ":" (like \e chapter in the example) do not have a namespace prefix. In this case the local part and the qualified name are identical (i.e. \e chapter). \sa {DOM Bookmarks Example}, {SAX Bookmarks Example} */ /*! \page xml-streaming.html \title XML Streaming \previouspage An Introduction to Namespaces \contentspage XML Processing \nextpage The SAX Interface Since version 4.3, Qt provides two new classes for reading and writing XML: QXmlStreamReader and QXmlStreamWriter. The QXmlStreamReader and QXmlStreamWriter are two new classes provided in Qt 4.3 and later. A stream reader reports an XML document as a stream of tokens. This differs from SAX as SAX applications provide handlers to receive XML events from the parser whereas the QXmlStreamReader drives the loop, pulling tokens from the reader when they are needed. This pulling approach makes it possible to build recursive descent parsers, allowing XML parsing code to be split into different methods or classes. QXmlStreamReader is a well-formed XML 1.0 parser that excludes external parsed entities. Hence, data provided by the stream reader adheres to the W3C's criteria for well-formed XML, as long as no error occurs. Otherwise, functions such as \l{QXmlStreamReader::atEnd()}{atEnd()}, \l{QXmlStreamReader::error()}{error()} and \l{QXmlStreamReader::hasError()} {hasError()} can be used to check and view the errors. An example of QXmlStreamReader implementation would be the \c XbelReader in \l{QXmlStream Bookmarks Example}, which is a subclass of QXmlStreamReader. The constructor takes \a treeWidget as a parameter and the class has Xbel specific functions: \snippet streambookmarks/xbelreader.h 1 \dots \snippet streambookmarks/xbelreader.h 2 \dots The \c read() function accepts a QIODevice and sets it with \l{QXmlStreamReader::setDevice()}{setDevice()}. The \l{QXmlStreamReader::raiseError()}{raiseError()} function is used to display a custom error message, inidicating that the file's version is incorrect. \snippet streambookmarks/xbelreader.cpp 1 The pendent to QXmlStreamReader is QXmlStreamWriter, which provides an XML writer with a simple streaming API. QXmlStreamWriter operates on a QIODevice and has specialized functions for all XML tokens or events you want to write, such as \l{QXmlStreamWriter::writeDTD()}{writeDTD()}, \l{QXmlStreamWriter::writeCharacters()}{writeCharacters()}, \l{QXmlStreamWriter::writeComment()}{writeComment()} and so on. To write XML document with QXmlStreamWriter, you start a document with the \l{QXmlStreamWriter::writeStartDocument()}{writeStartDocument()} function and end it with \l{QXmlStreamWriter::writeEndDocument()} {writeEndDocument()}, which implicitly closes all remaining open tags. Element tags are opened with \l{QXmlStreamWriter::writeStartDocument()} {writeStartDocument()} and followed by \l{QXmlStreamWriter::writeAttribute()}{writeAttribute()} or \l{QXmlStreamWriter::writeAttributes()}{writeAttributes()}, element content, and then \l{QXmlStreamWriter::writeEndDocument()} {writeEndDocument()}. Also, \l{QXmlStreamWriter::writeEmptyElement()} {writeEmptyElement()} can be used to write empty elements. Element content comprises characters, entity references or nested elements. Content can be written with \l{QXmlStreamWriter::writeCharacters()} {writeCharacters()}, a function that also takes care of escaping all forbidden characters and character sequences, \l{QXmlStreamWriter::writeEntityReference()}{writeEntityReference()}, or subsequent calls to \l{QXmlStreamWriter::writeStartElement()} {writeStartElement()}. The \c XbelWriter class from \l{QXmlStream Bookmarks Example} is a subclass of QXmlStreamWriter. Its \c writeFile() function illustrates the core functions of QXmlStreamWriter mentioned above: \snippet streambookmarks/xbelwriter.cpp 1 */ /*! \page xml-sax.html \title The SAX interface \previouspage XML Streaming \contentspage XML Processing \nextpage Working with the DOM Tree SAX is an event-based standard interface for XML parsers. The Qt interface follows the design of the SAX2 Java implementation. Its naming scheme was adapted to fit the Qt naming conventions. Details on SAX2 can be found at \l{http://www.saxproject.org}. Support for SAX2 filters and the reader factory are under development. The Qt implementation does not include the SAX1 compatibility classes present in the Java interface. \section1 Introduction to SAX2 The SAX2 interface is an event-driven mechanism to provide the user with document information. An "event" in this context means something reported by the parser, for example, it has encountered a start tag, or an end tag, etc. To make it less abstract consider the following example: \snippet code/doc_src_qtxml.qdoc 3 Whilst reading (a SAX2 parser is usually referred to as "reader") the above document three events would be triggered: \list 1 \li A start tag occurs (\c{}). \li Character data (i.e. text) is found, "A quotation.". \li An end tag is parsed (\c{}). \endlist Each time such an event occurs the parser reports it; you can set up event handlers to respond to these events. Whilst this is a fast and simple approach to read XML documents, manipulation is difficult because data is not stored, simply handled and discarded serially. The \l{Working with the DOM Tree}{DOM interface} reads in and stores the whole document in a tree structure; this takes more memory, but makes it easier to manipulate the document's structure. The Qt XML module provides an abstract class, \l QXmlReader, that defines the interface for potential SAX2 readers. Qt includes a reader implementation, \l QXmlSimpleReader, that is easy to adapt through subclassing. The reader reports parsing events through special handler classes: \table \header \li Handler class \li Description \row \li \l QXmlContentHandler \li Reports events related to the content of a document (e.g. the start tag or characters). \row \li \l QXmlDTDHandler \li Reports events related to the DTD (e.g. notation declarations). \row \li \l QXmlErrorHandler \li Reports errors or warnings that occurred during parsing. \row \li \l QXmlEntityResolver \li Reports external entities during parsing and allows users to resolve external entities themselves instead of leaving it to the reader. \row \li \l QXmlDeclHandler \li Reports further DTD related events (e.g. attribute declarations). \row \li \l QXmlLexicalHandler \li Reports events related to the lexical structure of the document (the beginning of the DTD, comments etc.). \endtable These classes are abstract classes describing the interface. The \l QXmlDefaultHandler class provides a "do nothing" default implementation for all of them. Therefore users only need to overload the QXmlDefaultHandler functions they are interested in. To read input XML data a special class \l QXmlInputSource is used. Apart from those already mentioned, the following SAX2 support classes provide additional useful functionality: \table \header \li Class \li Description \row \li \l QXmlAttributes \li Used to pass attributes in a start element event. \row \li \l QXmlLocator \li Used to obtain the actual parsing position of an event. \row \li \l QXmlNamespaceSupport \li Used to implement namespace support for a reader. Note that namespaces do not change the parsing behavior. They are only reported through the handler. \endtable The \l{SAX Bookmarks example} illustrates how to subclass QXmlDefaultHandler to read an XML bookmark file (XBEL) and how to generate XML by hand. \section1 SAX2 Features The behavior of an XML reader depends on its support for certain optional features. For example, a reader may have the feature "report attributes used for namespace declarations and prefixes along with the local name of a tag". Like every other feature this has a unique name represented by a URI: it is called \e http://xml.org/sax/features/namespace-prefixes. The Qt SAX2 implementation can report whether the reader has particular functionality using the QXmlReader::hasFeature() function. Available features can be tested with QXmlReader::feature(), and switched on or off using QXmlReader::setFeature(). Consider the example \snippet code/doc_src_qtxml.qdoc 4 A reader that does not support the \e http://xml.org/sax/features/namespace-prefixes feature would report the element name \e document but not its attributes \e xmlns:book and \e xmlns with their values. A reader with the feature \e http://xml.org/sax/features/namespace-prefixes reports the namespace attributes if the \l{QXmlReader::feature()}{feature} is switched on. Other features include \e http://xml.org/sax/features/namespace (namespace processing, implies \e http://xml.org/sax/features/namespace-prefixes) and \e http://xml.org/sax/features/validation (the ability to report validation errors). Whilst SAX2 leaves it to the user to define and implement whatever features are required, support for \e http://xml.org/sax/features/namespace (and thus \e http://xml.org/sax/features/namespace-prefixes) is mandantory. The \l QXmlSimpleReader implementation of \l QXmlReader, supports them, and can do namespace processing. \l QXmlSimpleReader is not validating, so it does not support \e http://xml.org/sax/features/validation. \section1 Namespace Support via Features As we have seen in the previous section, we can configure the behavior of the reader when it comes to namespace processing. This is done by setting and unsetting the \e http://xml.org/sax/features/namespaces and \e http://xml.org/sax/features/namespace-prefixes features. They influence the reporting behavior in the following way: \list 1 \li Namespace prefixes and local parts of elements and attributes can be reported. \li The qualified names of elements and attributes are reported. \li \l QXmlContentHandler::startPrefixMapping() and \l QXmlContentHandler::endPrefixMapping() are called by the reader. \li Attributes that declare namespaces (i.e. the attribute \e xmlns and attributes starting with \e{xmlns:}) are reported. \endlist Consider the following element: \snippet code/doc_src_qtxml.qdoc 5 With \e http://xml.org/sax/features/namespace-prefixes set to true the reader will report four attributes; but with the \e namespace-prefixes feature set to false only three, with the \e xmlns:fnord attribute defining a namespace being "invisible" to the reader. The \e http://xml.org/sax/features/namespaces feature is responsible for reporting local names, namespace prefixes and URIs. With \e http://xml.org/sax/features/namespaces set to true the parser will report \e title as the local name of the \e fnord:title attribute, \e fnord being the namespace prefix and \e http://example.com/fnord/ as the namespace URI. When \e http://xml.org/sax/features/namespaces is false none of them are reported. In the current implementation the Qt XML classes follow the definition that the prefix \e xmlns itself isn't associated with any namespace at all (see \l{http://www.w3.org/TR/1999/REC-xml-names-19990114/#ns-using}). Therefore even with \e http://xml.org/sax/features/namespaces and \e http://xml.org/sax/features/namespace-prefixes both set to true the reader won't return either a local name, a namespace prefix or a namespace URI for \e xmlns:fnord. This might be changed in the future following the W3C suggestion \l{http://www.w3.org/2000/xmlns/} to associate \e xmlns with the namespace \e http://www.w3.org/2000/xmlns. As the SAX2 standard suggests, \l QXmlSimpleReader defaults to having \e http://xml.org/sax/features/namespaces set to true and \e http://xml.org/sax/features/namespace-prefixes set to false. When changing this behavior using \l QXmlSimpleReader::setFeature() note that the combination of both features set to false is illegal. \section2 Summary \l QXmlSimpleReader implements the following behavior: \table \header \li (namespaces, namespace-prefixes) \li Namespace prefix and local part \li Qualified names \li Prefix mapping \li xmlns attributes \row \li (true, false) \li Yes \li Yes* \li Yes \li No \row \li (true, true) \li Yes \li Yes \li Yes \li Yes \row \li (false, true) \li No* \li Yes \li No* \li Yes \row \li (false, false) \li {4,1} Illegal \endtable The behavior of the entries marked with an asterisk (*) is not specified by SAX. \section1 Properties Properties are a more general concept. They have a unique name, represented as an URI, but their value is \c void*. Thus nearly anything can be used as a property value. This concept involves some danger, though: there is no means of ensuring type-safety; the user must take care that they pass the right type. Properties are useful if a reader supports special handler classes. The URIs used for features and properties often look like URLs, e.g. \c http://xml.org/sax/features/namespace. This does not mean that the data required is at this address. It is simply a way of defining unique names. Anyone can define and use new SAX2 properties for their readers. Property support is not mandatory. To set or query properties the following functions are provided: \l QXmlReader::setProperty(), \l QXmlReader::property() and \l QXmlReader::hasProperty(). */ /*! \page xml-dom.tml \title Working with the DOM Tree \target dom \previouspage The SAX Interface \contentspage XML Processing DOM Level 2 is a W3C Recommendation for XML interfaces that maps the constituents of an XML document to a tree structure. The specification of DOM Level 2 can be found at \l{http://www.w3.org/DOM/}. \target domIntro \section1 Introduction to DOM DOM provides an interface to access and change the content and structure of an XML file. It makes a hierarchical view of the document (a tree view). Thus -- in contrast to the SAX2 interface -- an object model of the document is resident in memory after parsing which makes manipulation easy. All DOM nodes in the document tree are subclasses of \l QDomNode. The document itself is represented as a \l QDomDocument object. Here are the available node classes and their potential child classes: \list \li \l QDomDocument: Possible children are \list \li \l QDomElement (at most one) \li \l QDomProcessingInstruction \li \l QDomComment \li \l QDomDocumentType \endlist \li \l QDomDocumentFragment: Possible children are \list \li \l QDomElement \li \l QDomProcessingInstruction \li \l QDomComment \li \l QDomText \li \l QDomCDATASection \li \l QDomEntityReference \endlist \li \l QDomDocumentType: No children \li \l QDomEntityReference: Possible children are \list \li \l QDomElement \li \l QDomProcessingInstruction \li \l QDomComment \li \l QDomText \li \l QDomCDATASection \li \l QDomEntityReference \endlist \li \l QDomElement: Possible children are \list \li \l QDomElement \li \l QDomText \li \l QDomComment \li \l QDomProcessingInstruction \li \l QDomCDATASection \li \l QDomEntityReference \endlist \li \l QDomAttr: Possible children are \list \li \l QDomText \li \l QDomEntityReference \endlist \li \l QDomProcessingInstruction: No children \li \l QDomComment: No children \li \l QDomText: No children \li \l QDomCDATASection: No children \li \l QDomEntity: Possible children are \list \li \l QDomElement \li \l QDomProcessingInstruction \li \l QDomComment \li \l QDomText \li \l QDomCDATASection \li \l QDomEntityReference \endlist \li \l QDomNotation: No children \endlist With \l QDomNodeList and \l QDomNamedNodeMap two collection classes are provided: \l QDomNodeList is a list of nodes, and \l QDomNamedNodeMap is used to handle unordered sets of nodes (often used for attributes). The \l QDomImplementation class allows the user to query features of the DOM implementation. To get started please refer to the \l QDomDocument documentation. You might also want to take a look at the \l{DOM Bookmarks example}, which illustrates how to read and write an XML bookmark file (XBEL) using DOM. */