summaryrefslogtreecommitdiff
path: root/xsd/doc/cxx/parser/guide/index.xhtml
diff options
context:
space:
mode:
authorJörg Frings-Fürst <debian@jff-webhosting.net>2014-07-23 15:25:44 +0200
committerJörg Frings-Fürst <debian@jff-webhosting.net>2014-07-23 15:25:44 +0200
commit8286ac511144e4f17d34eac9affb97e50646344a (patch)
treef1af7320d7b6be6be059216d0ad08ac7b4f73fd0 /xsd/doc/cxx/parser/guide/index.xhtml
parenta15cf65c44d5c224169c32ef5495b68c758134b7 (diff)
Imported Upstream version 4.0.0upstream/4.0.0
Diffstat (limited to 'xsd/doc/cxx/parser/guide/index.xhtml')
-rw-r--r--xsd/doc/cxx/parser/guide/index.xhtml4158
1 files changed, 4158 insertions, 0 deletions
diff --git a/xsd/doc/cxx/parser/guide/index.xhtml b/xsd/doc/cxx/parser/guide/index.xhtml
new file mode 100644
index 0000000..1eef533
--- /dev/null
+++ b/xsd/doc/cxx/parser/guide/index.xhtml
@@ -0,0 +1,4158 @@
+<?xml version="1.0" encoding="iso-8859-1"?>
+<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
+<html xmlns="http://www.w3.org/1999/xhtml" lang="en" xml:lang="en">
+
+<head>
+ <title>C++/Parser Mapping Getting Started Guide</title>
+
+ <meta name="copyright" content="&copy; 2005-2014 Code Synthesis Tools CC"/>
+ <meta name="keywords" content="xsd,xml,schema,c++,mapping,data,binding,parser,validation"/>
+ <meta name="description" content="C++/Parser Mapping Getting Started Guide"/>
+
+ <link rel="stylesheet" type="text/css" href="../../../default.css" />
+
+<style type="text/css">
+ pre {
+ padding : 0 0 0 0em;
+ margin : 0em 0em 0em 0;
+
+ font-size : 102%
+ }
+
+ body {
+ min-width: 48em;
+ }
+
+ h1 {
+ font-weight: bold;
+ font-size: 200%;
+ line-height: 1.2em;
+ }
+
+ h2 {
+ font-weight : bold;
+ font-size : 150%;
+
+ padding-top : 0.8em;
+ }
+
+ h3 {
+ font-size : 140%;
+ padding-top : 0.8em;
+ }
+
+ /* Adjust indentation for three levels. */
+ #container {
+ max-width: 48em;
+ }
+
+ #content {
+ padding: 0 0.1em 0 4em;
+ /*background-color: red;*/
+ }
+
+ #content h1 {
+ margin-left: -2.06em;
+ }
+
+ #content h2 {
+ margin-left: -1.33em;
+ }
+
+ /* Title page */
+
+ #titlepage {
+ padding: 2em 0 1em 0;
+ border-bottom: 1px solid black;
+ }
+
+ #titlepage .title {
+ font-weight: bold;
+ font-size: 200%;
+ text-align: center;
+ }
+
+ #titlepage #first-title {
+ padding: 1em 0 0.4em 0;
+ }
+
+ #titlepage #second-title {
+ padding: 0.4em 0 2em 0;
+ }
+
+ /* Lists */
+ ul.list li {
+ padding-top : 0.3em;
+ padding-bottom : 0.3em;
+ }
+
+ ol.steps {
+ padding-left : 1.8em;
+ }
+
+ ol.steps li {
+ padding-top : 0.3em;
+ padding-bottom : 0.3em;
+ }
+
+
+ div.img {
+ text-align: center;
+ padding: 2em 0 2em 0;
+ }
+
+ /* */
+ dl dt {
+ padding : 0.8em 0 0 0;
+ }
+
+ /* Built-in table */
+ #builtin {
+ margin: 2em 0 2em 0;
+
+ border-collapse : collapse;
+ border : 1px solid;
+ border-color : #000000;
+
+ font-size : 11px;
+ line-height : 14px;
+ }
+
+ #builtin th, #builtin td {
+ border: 1px solid;
+ padding : 0.9em 0.9em 0.7em 0.9em;
+ }
+
+ #builtin th {
+ background : #cde8f6;
+ }
+
+ #builtin td {
+ text-align: left;
+ }
+
+ /* XML Schema features table. */
+ #features {
+ margin: 2em 0 2em 0;
+
+ border-collapse : collapse;
+ border : 1px solid;
+ border-color : #000000;
+
+ font-size : 11px;
+ line-height : 14px;
+ }
+
+ #features th, #features td {
+ border: 1px solid;
+ padding : 0.6em 0.6em 0.6em 0.6em;
+ }
+
+ #features th {
+ background : #cde8f6;
+ }
+
+ #features td {
+ text-align: left;
+ }
+
+
+ /* TOC */
+ table.toc {
+ border-style : none;
+ border-collapse : separate;
+ border-spacing : 0;
+
+ margin : 0.2em 0 0.2em 0;
+ padding : 0 0 0 0;
+ }
+
+ table.toc tr {
+ padding : 0 0 0 0;
+ margin : 0 0 0 0;
+ }
+
+ table.toc * td, table.toc * th {
+ border-style : none;
+ margin : 0 0 0 0;
+ vertical-align : top;
+ }
+
+ table.toc * th {
+ font-weight : normal;
+ padding : 0em 0.1em 0em 0;
+ text-align : left;
+ white-space : nowrap;
+ }
+
+ table.toc * table.toc th {
+ padding-left : 1em;
+ }
+
+ table.toc * td {
+ padding : 0em 0 0em 0.7em;
+ text-align : left;
+ }
+</style>
+
+
+</head>
+
+<body>
+<div id="container">
+ <div id="content">
+
+ <div class="noprint">
+
+ <div id="titlepage">
+ <div class="title" id="first-title">C++/Parser Mapping</div>
+ <div class="title" id="second-title">Getting Started Guide</div>
+
+ <p>Copyright &copy; 2005-2014 CODE SYNTHESIS TOOLS CC</p>
+
+ <p>Permission is granted to copy, distribute and/or modify this
+ document under the terms of the
+ <a href="http://www.codesynthesis.com/licenses/fdl-1.2.txt">GNU Free
+ Documentation License, version 1.2</a>; with no Invariant Sections,
+ no Front-Cover Texts and no Back-Cover Texts.
+ </p>
+
+ <p>This document is available in the following formats:
+ <a href="http://www.codesynthesis.com/projects/xsd/documentation/cxx/parser/guide/index.xhtml">XHTML</a>,
+ <a href="http://www.codesynthesis.com/projects/xsd/documentation/cxx/parser/guide/cxx-parser-guide.pdf">PDF</a>, and
+ <a href="http://www.codesynthesis.com/projects/xsd/documentation/cxx/parser/guide/cxx-parser-guide.ps">PostScript</a>.</p>
+
+ </div>
+
+ <h1>Table of Contents</h1>
+
+ <table class="toc">
+ <tr>
+ <th></th><td><a href="#0">Preface</a>
+ <table class="toc">
+ <tr><th></th><td><a href="#0.1">About This Document</a></td></tr>
+ <tr><th></th><td><a href="#0.2">More Information</a></td></tr>
+ </table>
+ </td>
+ </tr>
+
+ <tr>
+ <th>1</th><td><a href="#1">Introduction</a>
+ <table class="toc">
+ <tr><th>1.1</th><td><a href="#1.1">Mapping Overview</a></td></tr>
+ <tr><th>1.2</th><td><a href="#1.2">Benefits</a></td></tr>
+ </table>
+ </td>
+ </tr>
+
+ <tr>
+ <th>2</th><td><a href="#2">Hello World Example</a>
+ <table class="toc">
+ <tr><th>2.1</th><td><a href="#2.1">Writing XML Document and Schema</a></td></tr>
+ <tr><th>2.2</th><td><a href="#2.2">Translating Schema to C++</a></td></tr>
+ <tr><th>2.3</th><td><a href="#2.3">Implementing Application Logic</a></td></tr>
+ <tr><th>2.4</th><td><a href="#2.4">Compiling and Running</a></td></tr>
+ </table>
+ </td>
+ </tr>
+
+ <tr>
+ <th>3</th><td><a href="#3">Parser Skeletons</a>
+ <table class="toc">
+ <tr><th>3.1</th><td><a href="#3.1">Implementing the Gender Parser</a></td></tr>
+ <tr><th>3.2</th><td><a href="#3.2">Implementing the Person Parser</a></td></tr>
+ <tr><th>3.3</th><td><a href="#3.3">Implementing the People Parser</a></td></tr>
+ <tr><th>3.4</th><td><a href="#3.4">Connecting the Parsers Together</a></td></tr>
+ </table>
+ </td>
+ </tr>
+
+ <tr>
+ <th>4</th><td><a href="#4">Type Maps</a>
+ <table class="toc">
+ <tr><th>4.1</th><td><a href="#4.1">Object Model</a></td></tr>
+ <tr><th>4.2</th><td><a href="#4.2">Type Map File Format</a></td></tr>
+ <tr><th>4.3</th><td><a href="#4.3">Parser Implementations</a></td></tr>
+ </table>
+ </td>
+ </tr>
+
+ <tr>
+ <th>5</th><td><a href="#5">Mapping Configuration</a>
+ <table class="toc">
+ <tr><th>5.1</th><td><a href="#5.1">C++ Standard</a></td></tr>
+ <tr><th>5.2</th><td><a href="#5.2">Character Type and Encoding</a></td></tr>
+ <tr><th>5.3</th><td><a href="#5.3">Underlying XML Parser</a></td></tr>
+ <tr><th>5.4</th><td><a href="#5.4">XML Schema Validation</a></td></tr>
+ <tr><th>5.5</th><td><a href="#5.5">Support for Polymorphism</a></td></tr>
+ </table>
+ </td>
+ </tr>
+
+ <tr>
+ <th>6</th><td><a href="#6">Built-In XML Schema Type Parsers</a>
+ <table class="toc">
+ <tr><th>6.1</th><td><a href="#6.1"><code>QName</code> Parser</a></td></tr>
+ <tr><th>6.2</th><td><a href="#6.2"><code>NMTOKENS</code> and <code>IDREFS</code> Parsers</a></td></tr>
+ <tr><th>6.3</th><td><a href="#6.3"><code>base64Binary</code> and <code>hexBinary</code> Parsers</a></td></tr>
+ <tr><th>6.4</th><td><a href="#6.4">Time Zone Representation</a></td></tr>
+ <tr><th>6.5</th><td><a href="#6.5"><code>date</code> Parser</a></td></tr>
+ <tr><th>6.6</th><td><a href="#6.6"><code>dateTime</code> Parser</a></td></tr>
+ <tr><th>6.7</th><td><a href="#6.7"><code>duration</code> Parser</a></td></tr>
+ <tr><th>6.8</th><td><a href="#6.8"><code>gDay</code> Parser</a></td></tr>
+ <tr><th>6.9</th><td><a href="#6.9"><code>gMonth</code> Parser</a></td></tr>
+ <tr><th>6.10</th><td><a href="#6.10"><code>gMonthDay</code> Parser</a></td></tr>
+ <tr><th>6.11</th><td><a href="#6.11"><code>gYear</code> Parser</a></td></tr>
+ <tr><th>6.12</th><td><a href="#6.12"><code>gYearMonth</code> Parser</a></td></tr>
+ <tr><th>6.13</th><td><a href="#6.13"><code>time</code> Parser</a></td></tr>
+ </table>
+ </td>
+ </tr>
+
+ <tr>
+ <th>7</th><td><a href="#7">Document Parser and Error Handling</a>
+ <table class="toc">
+ <tr><th>7.1</th><td><a href="#7.1">Xerces-C++ Document Parser</a></td></tr>
+ <tr><th>7.2</th><td><a href="#7.2">Expat Document Parser</a></td></tr>
+ <tr><th>7.3</th><td><a href="#7.3">Error Handling</a></td></tr>
+ </table>
+ </td>
+ </tr>
+
+ <tr>
+ <th></th><td><a href="#A">Appendix A &mdash; Supported XML Schema Constructs</a></td>
+ </tr>
+
+ </table>
+ </div>
+
+ <h1><a name="0">Preface</a></h1>
+
+ <h2><a name="0.1">About This Document</a></h2>
+
+ <p>The goal of this document is to provide you with an understanding of
+ the C++/Parser programming model and allow you to efficiently evaluate
+ XSD against your project's technical requirements. As such, this
+ document is intended for C++ developers and software architects
+ who are looking for an XML processing solution. Prior experience
+ with XML and C++ is required to understand this document. Basic
+ understanding of XML Schema is advantageous but not expected
+ or required.
+ </p>
+
+
+ <h2><a name="0.2">More Information</a></h2>
+
+ <p>Beyond this guide, you may also find the following sources of
+ information useful:</p>
+
+ <ul class="list">
+ <li><a href="http://www.codesynthesis.com/projects/xsd/documentation/xsd.xhtml">XSD
+ Compiler Command Line Manual</a></li>
+
+ <li>The <code>examples/cxx/parser/</code> directory in the XSD
+ distribution contains a collection of examples and a README
+ file with an overview of each example.</li>
+
+ <li>The <code>README</code> file in the XSD distribution explains
+ how to compile the examples on various platforms.</li>
+
+ <li>The <a href="http://www.codesynthesis.com/mailman/listinfo/xsd-users">xsd-users</a>
+ mailing list is the place to ask technical questions about XSD and the C++/Parser mapping.
+ Furthermore, the <a href="http://www.codesynthesis.com/pipermail/xsd-users/">archives</a>
+ may already have answers to some of your questions.</li>
+
+ </ul>
+
+ <!-- Introduction -->
+
+ <h1><a name="1">1 Introduction</a></h1>
+
+ <p>Welcome to CodeSynthesis XSD and the C++/Parser mapping. XSD is a
+ cross-platform W3C XML Schema to C++ data binding compiler. C++/Parser
+ is a W3C XML Schema to C++ mapping that represents an XML vocabulary
+ as a set of parser skeletons which you can implement to perform XML
+ processing as required by your application logic.
+ </p>
+
+ <h2><a name="1.1">1.1 Mapping Overview</a></h2>
+
+ <p>The C++/Parser mapping provides event-driven, stream-oriented
+ XML parsing, XML Schema validation, and C++ data binding. It was
+ specifically designed and optimized for high performance and
+ small footprint. Based on the static analysis of the schemas, XSD
+ generates compact, highly-optimized hierarchical state machines
+ that combine data extraction, validation, and even dispatching
+ in a single step. As a result, the generated code is typically
+ 2-10 times faster than general-purpose validating XML parsers
+ while maintaining the lowest static and dynamic memory footprints.
+ </p>
+
+ <p>To speed up application development, the C++/Parser mapping
+ can be instructed to generate sample parser implementations
+ and a test driver which can then be filled with the application
+ logic code. The mapping also provides a wide range of
+ mechanisms for controlling and customizing the generated code.</p>
+
+ <p>The next chapter shows how to create a simple application that uses
+ the C++/Parser mapping to parse, validate, and extract data from a
+ simple XML document. The following chapters show how to
+ use the C++/Parser mapping in more detail.</p>
+
+ <h2><a name="1.2">1.2 Benefits</a></h2>
+
+ <p>Traditional XML access APIs such as Document Object Model (DOM)
+ or Simple API for XML (SAX) have a number of drawbacks that
+ make them less suitable for creating robust and maintainable
+ XML processing applications. These drawbacks include:
+ </p>
+
+ <ul class="list">
+ <li>Generic representation of XML in terms of elements, attributes,
+ and text forces an application developer to write a substantial
+ amount of bridging code that identifies and transforms pieces
+ of information encoded in XML to a representation more suitable
+ for consumption by the application logic.</li>
+
+ <li>String-based flow control defers error detection to runtime.
+ It also reduces code readability and maintainability.</li>
+
+ <li>Lack of type safety because the data is represented
+ as text.</li>
+
+ <li>Resulting applications are hard to debug, change, and
+ maintain.</li>
+ </ul>
+
+ <p>In contrast, statically-typed, vocabulary-specific parser
+ skeletons produced by the C++/Parser mapping allow you to
+ operate in your domain terms instead of the generic elements,
+ attributes, and text. Static typing helps catch errors at
+ compile-time rather than at run-time. Automatic code generation
+ frees you for more interesting tasks (such as doing something
+ useful with the information stored in the XML documents) and
+ minimizes the effort needed to adapt your applications to
+ changes in the document structure. To summarize, the C++/Parser
+ mapping has the following key advantages over generic XML
+ access APIs:</p>
+
+ <ul class="list">
+ <li><b>Ease of use.</b> The generated code hides all the complexity
+ associated with recreating the document structure, maintaining the
+ dispatch state, and converting the data from the text representation
+ to data types suitable for manipulation by the application logic.
+ Parser skeletons also provide a convenient mechanism for building
+ custom in-memory representations.</li>
+
+ <li><b>Natural representation.</b> The generated parser skeletons
+ implement parser callbacks as virtual functions with names
+ corresponding to elements and attributes in XML. As a result,
+ you process the XML data using your domain vocabulary instead
+ of generic elements, attributes, and text.
+ </li>
+
+ <li><b>Concise code.</b> With a separate parser skeleton for each
+ XML Schema type, the application implementation is
+ simpler and thus easier to read and understand.</li>
+
+ <li><b>Safety.</b> The XML data is delivered to parser callbacks as
+ statically typed objects. The parser callbacks themselves are virtual
+ functions. This helps catch programming errors at compile-time
+ rather than at runtime.</li>
+
+ <li><b>Maintainability.</b> Automatic code generation minimizes the
+ effort needed to adapt the application to changes in the
+ document structure. With static typing, the C++ compiler
+ can pin-point the places in the application code that need to be
+ changed.</li>
+
+ <li><b>Efficiency.</b> The generated parser skeletons combine
+ data extraction, validation, and even dispatching in a single
+ step. This makes them much more efficient than traditional
+ architectures with separate stages for validation and data
+ extraction/dispatch.</li>
+ </ul>
+
+ <!-- Hello World Parser -->
+
+
+ <h1><a name="2">2 Hello World Example</a></h1>
+
+ <p>In this chapter we will examine how to parse a very simple XML
+ document using the XSD-generated C++/Parser skeletons.
+ The code presented in this chapter is based on the <code>hello</code>
+ example which can be found in the <code>examples/cxx/parser/</code>
+ directory of the XSD distribution.</p>
+
+ <h2><a name="2.1">2.1 Writing XML Document and Schema</a></h2>
+
+ <p>First, we need to get an idea about the structure
+ of the XML documents we are going to process. Our
+ <code>hello.xml</code>, for example, could look like this:</p>
+
+ <pre class="xml">
+&lt;?xml version="1.0"?>
+&lt;hello>
+
+ &lt;greeting>Hello&lt;/greeting>
+
+ &lt;name>sun&lt;/name>
+ &lt;name>moon&lt;/name>
+ &lt;name>world&lt;/name>
+
+&lt;/hello>
+ </pre>
+
+ <p>Then we can write a description of the above XML in the
+ XML Schema language and save it into <code>hello.xsd</code>:</p>
+
+ <pre class="xml">
+&lt;?xml version="1.0"?>
+&lt;xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema">
+
+ &lt;xs:complexType name="hello">
+ &lt;xs:sequence>
+ &lt;xs:element name="greeting" type="xs:string"/>
+ &lt;xs:element name="name" type="xs:string" maxOccurs="unbounded"/>
+ &lt;/xs:sequence>
+ &lt;/xs:complexType>
+
+ &lt;xs:element name="hello" type="hello"/>
+
+&lt;/xs:schema>
+ </pre>
+
+ <p>Even if you are not familiar with XML Schema, it
+ should be easy to connect declarations in <code>hello.xsd</code>
+ to elements in <code>hello.xml</code>. The <code>hello</code> type
+ is defined as a sequence of the nested <code>greeting</code> and
+ <code>name</code> elements. Note that the term sequence in XML
+ Schema means that elements should appear in a particular order
+ as opposed to appearing multiple times. The <code>name</code>
+ element has its <code>maxOccurs</code> property set to
+ <code>unbounded</code> which means it can appear multiple times
+ in an XML document. Finally, the globally-defined <code>hello</code>
+ element prescribes the root element for our vocabulary. For an
+ easily-approachable introduction to XML Schema refer to
+ <a href="http://www.w3.org/TR/xmlschema-0/">XML Schema Part 0:
+ Primer</a>.</p>
+
+ <p>The above schema is a specification of our XML vocabulary; it tells
+ everybody what valid documents of our XML-based language should look
+ like. The next step is to compile this schema to generate
+ the object model and parsing functions.</p>
+
+ <h2><a name="2.2">2.2 Translating Schema to C++</a></h2>
+
+ <p>Now we are ready to translate our <code>hello.xsd</code> to C++ parser
+ skeletons. To do this we invoke the XSD compiler from a terminal
+ (UNIX) or a command prompt (Windows):
+ </p>
+
+ <pre class="terminal">
+$ xsd cxx-parser --xml-parser expat hello.xsd
+ </pre>
+
+ <p>The <code>--xml-parser</code> option indicates that we want to
+ use Expat as the underlying XML parser (see <a href="#5.3">Section
+ 5.3, "Underlying XML Parser"</a>). The XSD compiler produces two
+ C++ files: <code>hello-pskel.hxx</code> and <code>hello-pskel.cxx</code>.
+ The following code fragment is taken from <code>hello-pskel.hxx</code>;
+ it should give you an idea about what gets generated:
+ </p>
+
+ <pre class="c++">
+class hello_pskel
+{
+public:
+ // Parser callbacks. Override them in your implementation.
+ //
+ virtual void
+ pre ();
+
+ virtual void
+ greeting (const std::string&amp;);
+
+ virtual void
+ name (const std::string&amp;);
+
+ virtual void
+ post_hello ();
+
+ // Parser construction API.
+ //
+ void
+ greeting_parser (xml_schema::string_pskel&amp;);
+
+ void
+ name_parser (xml_schema::string_pskel&amp;);
+
+ void
+ parsers (xml_schema::string_pskel&amp; /* greeting */,
+ xml_schema::string_pskel&amp; /* name */);
+
+private:
+ ...
+};
+ </pre>
+
+ <p>The first four member functions shown above are called parser
+ callbacks. You would normally override them in your implementation
+ of the parser to do something useful. Let's go through all of
+ them one by one.</p>
+
+ <p>The <code>pre()</code> function is an initialization callback. It is
+ called when a new element of type <code>hello</code> is about
+ to be parsed. You would normally use this function to allocate a new
+ instance of the resulting type or clear accumulators that are used
+ to gather information during parsing. The default implementation
+ of this function does nothing.</p>
+
+ <p>The <code>post_hello()</code> function is a finalization callback. Its
+ name is constructed by adding the parser skeleton name to the
+ <code>post_</code> prefix. The finalization callback is called when
+ parsing of the element is complete and the result, if any, should
+ be returned. Note that in our case the return type of
+ <code>post_hello()</code> is <code>void</code> which means there
+ is nothing to return. More on parser return types later.
+ </p>
+
+ <p>You may be wondering why the finalization callback is called
+ <code>post_hello()</code> instead of <code>post()</code> just
+ like <code>pre()</code>. The reason for this is that
+ finalization callbacks can have different return types and
+ result in function signature clashes across inheritance
+ hierarchies. To prevent this the signatures of finalization
+ callbacks are made unique by adding the type name to their names.</p>
+
+ <p>The <code>greeting()</code> and <code>name()</code> functions are
+ called when the <code>greeting</code> and <code>name</code> elements
+ have been parsed, respectively. Their arguments are of type
+ <code>std::string</code> and contain the data extracted from XML.</p>
+
+ <p>The last three functions are for connecting parsers to each other.
+ For example, there is a predefined parser for built-in XML Schema type
+ <code>string</code> in the XSD runtime. We will be using
+ it to parse the contents of <code>greeting</code> and
+ <code>name</code> elements, as shown in the next section.</p>
+
+ <h2><a name="2.3">2.3 Implementing Application Logic</a></h2>
+
+ <p>At this point we have all the parts we need to do something useful
+ with the information stored in our XML document. The first step is
+ to implement the parser:
+ </p>
+
+ <pre class="c++">
+#include &lt;iostream>
+#include "hello-pskel.hxx"
+
+class hello_pimpl: public hello_pskel
+{
+public:
+ virtual void
+ greeting (const std::string&amp; g)
+ {
+ greeting_ = g;
+ }
+
+ virtual void
+ name (const std::string&amp; n)
+ {
+ std::cout &lt;&lt; greeting_ &lt;&lt; ", " &lt;&lt; n &lt;&lt; "!" &lt;&lt; std::endl;
+ }
+
+private:
+ std::string greeting_;
+};
+ </pre>
+
+ <p>We left both <code>pre()</code> and <code>post_hello()</code> with the
+ default implementations; we don't have anything to initialize or
+ return. The rest is pretty straightforward: we store the greeting
+ in a member variable and later, when parsing names, use it to
+ say hello.</p>
+
+ <p>An observant reader my ask what happens if the <code>name</code>
+ element comes before <code>greeting</code>? Don't we need to
+ make sure <code>greeting_</code> was initialized and report
+ an error otherwise? The answer is no, we don't have to do
+ any of this. The <code>hello_pskel</code> parser skeleton
+ performs validation of XML according to the schema from which
+ it was generated. As a result, it will check the order
+ of the <code>greeting</code> and <code>name</code> elements
+ and report an error if it is violated.</p>
+
+ <p>Now it is time to put this parser implementation to work:</p>
+
+ <pre class="c++">
+using namespace std;
+
+int
+main (int argc, char* argv[])
+{
+ try
+ {
+ // Construct the parser.
+ //
+ xml_schema::string_pimpl string_p;
+ hello_pimpl hello_p;
+
+ hello_p.greeting_parser (string_p);
+ hello_p.name_parser (string_p);
+
+ // Parse the XML instance.
+ //
+ xml_schema::document doc_p (hello_p, "hello");
+
+ hello_p.pre ();
+ doc_p.parse (argv[1]);
+ hello_p.post_hello ();
+ }
+ catch (const xml_schema::exception&amp; e)
+ {
+ cerr &lt;&lt; e &lt;&lt; endl;
+ return 1;
+ }
+}
+ </pre>
+
+ <p>The first part of this code snippet instantiates individual parsers
+ and assembles them into a complete vocabulary parser.
+ <code>xml_schema::string_pimpl</code> is an implementation of a parser
+ for built-in XML Schema type <code>string</code>. It is provided by
+ the XSD runtime along with parsers for other built-in types (for
+ more information on the built-in parsers see <a href="#6">Chapter 6,
+ "Built-In XML Schema Type Parsers"</a>). We use <code>string_pimpl</code>
+ to parse the <code>greeting</code> and <code>name</code> elements as
+ indicated by the calls to <code>greeting_parser()</code> and
+ <code>name_parser()</code>.
+ </p>
+
+ <p>Then we instantiate a document parser (<code>doc_p</code>). The
+ first argument to its constructor is the parser for
+ the root element (<code>hello_p</code> in our case). The
+ second argument is the root element name.
+ </p>
+
+ <p>The final piece is the calls to <code>pre()</code>, <code>parse()</code>,
+ and <code>post_hello()</code>. The call to <code>parse()</code>
+ perform the actual XML parsing while the calls to <code>pre()</code> and
+ <code>post_hello()</code> make sure that the parser for the root
+ element can perform proper initialization and cleanup.</p>
+
+ <p>While our parser implementation and test driver are pretty small and
+ easy to write by hand, for bigger XML vocabularies it can be a
+ substantial effort. To help with this task XSD can automatically
+ generate sample parser implementations and a test driver from your
+ schemas. You can request the generation of a sample implementation with
+ empty function bodies by specifying the <code>--generate-noop-impl</code>
+ option. Or you can generate a sample implementation that prints the
+ data store in XML by using the <code>--generate-print-impl</code>
+ option. To request the generation of a test driver you can use the
+ <code>--generate-test-driver</code> option. For more information
+ on these options refer to the
+ <a href="http://www.codesynthesis.com/projects/xsd/documentation/xsd.xhtml">XSD
+ Compiler Command Line Manual</a>. The <code>'generated'</code> example
+ in the XSD distribution shows the sample implementation generation
+ feature in action.</p>
+
+
+ <h2><a name="2.4">2.4 Compiling and Running</a></h2>
+
+ <p>After saving all the parts from the previous section in
+ <code>driver.cxx</code>, we are ready to compile our first
+ application and run it on the test XML document. On a UNIX
+ system this can be done with the following commands:
+ </p>
+
+ <pre class="terminal">
+$ c++ -I.../libxsd -c driver.cxx hello-pskel.cxx
+$ c++ -o driver driver.o hello-pskel.o -lexpat
+$ ./driver hello.xml
+Hello, sun!
+Hello, moon!
+Hello, world!
+ </pre>
+
+ <p>Here <code>.../libxsd</code> represents the path to the
+ <code>libxsd</code> directory in the XSD distribution.
+ We can also test the error handling. To test XML well-formedness
+ checking, we can try to parse <code>hello-pskel.hxx</code>:</p>
+
+ <pre class="terminal">
+$ ./driver hello-pskel.hxx
+hello-pskel.hxx:1:0: not well-formed (invalid token)
+ </pre>
+
+ <p>We can also try to parse a valid XML but not from our
+ vocabulary, for example <code>hello.xsd</code>:</p>
+
+ <pre class="terminal">
+$ ./driver hello.xsd
+hello.xsd:2:0: expected element 'hello' instead of
+'http://www.w3.org/2001/XMLSchema#schema'
+ </pre>
+
+
+ <!-- Chapater 3 -->
+
+
+ <h1><a name="3">3 Parser Skeletons</a></h1>
+
+ <p>As we have seen in the previous chapter, the XSD compiler generates
+ a parser skeleton class for each type defined in XML Schema. In
+ this chapter we will take a closer look at different functions
+ that comprise a parser skeleton as well as the way to connect
+ our implementations of these parser skeletons to create a complete
+ parser.</p>
+
+ <p>In this and subsequent chapters we will use the following schema
+ that describes a collection of person records. We save it in
+ <code>people.xsd</code>:</p>
+
+ <pre class="xml">
+&lt;?xml version="1.0"?>
+&lt;xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema">
+
+ &lt;xs:simpleType name="gender">
+ &lt;xs:restriction base="xs:string">
+ &lt;xs:enumeration value="male"/>
+ &lt;xs:enumeration value="female"/>
+ &lt;/xs:restriction>
+ &lt;/xs:simpleType>
+
+ &lt;xs:complexType name="person">
+ &lt;xs:sequence>
+ &lt;xs:element name="first-name" type="xs:string"/>
+ &lt;xs:element name="last-name" type="xs:string"/>
+ &lt;xs:element name="gender" type="gender"/>
+ &lt;xs:element name="age" type="xs:short"/>
+ &lt;/xs:sequence>
+ &lt;/xs:complexType>
+
+ &lt;xs:complexType name="people">
+ &lt;xs:sequence>
+ &lt;xs:element name="person" type="person" maxOccurs="unbounded"/>
+ &lt;/xs:sequence>
+ &lt;/xs:complexType>
+
+ &lt;xs:element name="people" type="people"/>
+
+&lt;/xs:schema>
+ </pre>
+
+ <p>A sample XML instance to go along with this schema is saved
+ in <code>people.xml</code>:</p>
+
+ <pre class="xml">
+&lt;?xml version="1.0"?>
+&lt;people>
+ &lt;person>
+ &lt;first-name>John&lt;/first-name>
+ &lt;last-name>Doe&lt;/last-name>
+ &lt;gender>male&lt;/gender>
+ &lt;age>32&lt;/age>
+ &lt;/person>
+ &lt;person>
+ &lt;first-name>Jane&lt;/first-name>
+ &lt;last-name>Doe&lt;/last-name>
+ &lt;gender>female&lt;/gender>
+ &lt;age>28&lt;/age>
+ &lt;/person>
+&lt;/people>
+ </pre>
+
+ <p>Compiling <code>people.xsd</code> with the XSD compiler results
+ in three parser skeletons being generated: <code>gender_pskel</code>,
+ <code>person_pskel</code>, and <code>people_pskel</code>. We are going
+ to examine and implement each of them in the subsequent sections.</p>
+
+ <h2><a name="3.1">3.1 Implementing the Gender Parser</a></h2>
+
+ <p>The generated <code>gender_pskel</code> parser skeleton looks like
+ this:</p>
+
+ <pre class="c++">
+class gender_pskel: public virtual xml_schema::string_pskel
+{
+public:
+ // Parser callbacks. Override them in your implementation.
+ //
+ virtual void
+ pre ();
+
+ virtual void
+ post_gender ();
+};
+ </pre>
+
+ <p>Notice that <code>gender_pskel</code> inherits from
+ <code>xml_schema::string_skel</code> which is a parser skeleton
+ for built-in XML Schema type <code>string</code> and is
+ predefined in the XSD runtime library. This is an example
+ of the general rule that parser skeletons follow: if a type
+ in XML Schema inherits from another then there will be an
+ equivalent inheritance between the corresponding parser
+ skeleton classes.</p>
+
+ <p>The <code>pre()</code> and <code>post_gender()</code> callbacks
+ should look familiar from the previous chapter. Let's now
+ implement the parser. Our implementation will simply print
+ the gender to <code>cout</code>:</p>
+
+
+ <pre class="c++">
+class gender_pimpl: public gender_pskel,
+ public xml_schema::string_pimpl
+{
+public:
+ virtual void
+ post_gender ()
+ {
+ std::string s = post_string ();
+ cout &lt;&lt; "gender: " &lt;&lt; s &lt;&lt; endl;
+ }
+};
+ </pre>
+
+ <p>While the code is quite short, there is a lot going on. First,
+ notice that we are inheriting from <code>gender_pskel</code> <em>and</em>
+ from <code>xml_schema::string_pimpl</code>. We've encountered
+ <code>xml_schema::string_pimpl</code> already; it is an
+ implementation of the <code>xml_schema::string_pskel</code> parser
+ skeleton for built-in XML Schema type <code>string</code>.</p>
+
+ <p>This is another common theme in the C++/Parser programming model:
+ reusing implementations of the base parsers in the derived ones with
+ the C++ mixin idiom. In our case, <code>string_pimpl</code> will
+ do all the dirty work of extracting the data and we can just get
+ it at the end with the call to <code>post_string()</code>.</p>
+
+ <p>In case you are curious, here is what
+ <code>xml_schema::string_pskel</code> and
+ <code>xml_schema::string_pimpl</code> look like:</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class string_pskel: public simple_content
+ {
+ public:
+ virtual std::string
+ post_string () = 0;
+ };
+
+ class string_pimpl: public virtual string_pskel
+ {
+ public:
+ virtual void
+ _pre ();
+
+ virtual void
+ _characters (const xml_schema::ro_string&amp;);
+
+ virtual std::string
+ post_string ();
+
+ protected:
+ std::string str_;
+ };
+}
+ </pre>
+
+ <p>There are three new pieces in this code that we haven't seen yet.
+ They are the <code>simple_content</code> class as well as
+ the <code>_pre()</code> and <code>_characters()</code> functions.
+ The <code>simple_content</code> class is defined in the XSD
+ runtime and is a base class for all parser skeletons that conform
+ to the simple content model in XML Schema. Types with the
+ simple content model cannot have nested elements&mdash;only text
+ and attributes. There is also the <code>complex_content</code>
+ class which corresponds to the complex content mode (types with
+ nested elements, for example, <code>person</code> from
+ <code>people.xsd</code>).</p>
+
+ <p>The <code>_pre()</code> function is a parser callback. Remember we
+ talked about the <code>pre()</code> and <code>post_*()</code> callbacks
+ in the previous chapter? There are actually two more callbacks
+ with similar roles: <code>_pre()</code> and <code>_post ()</code>.
+ As a result, each parser skeleton has four special callbacks:</p>
+
+ <pre class="c++">
+ virtual void
+ pre ();
+
+ virtual void
+ _pre ();
+
+ virtual void
+ _post ();
+
+ virtual void
+ post_name ();
+ </pre>
+
+ <p><code>pre()</code> and <code>_pre()</code> are initialization
+ callbacks. They get called in that order before a new instance of the type
+ is about to be parsed. The difference between <code>pre()</code> and
+ <code>_pre()</code> is conventional: <code>pre()</code> can
+ be completely overridden by a derived parser. The derived
+ parser can also override <code>_pre()</code> but has to always call
+ the original version. This allows you to partition initialization
+ into customizable and required parts.</p>
+
+ <p>Similarly, <code>_post()</code> and <code>post_name()</code> are
+ finalization callbacks with exactly the same semantics:
+ <code>post_name()</code> can be completely overridden by the derived
+ parser while the original <code>_post()</code> should always be called.
+ </p>
+
+ <p>The final bit we need to discuss in this section is the
+ <code>_characters()</code> function. As you might have guessed, it
+ is also a callback. A low-level one that delivers raw character content
+ for the type being parsed. You will seldom need to use this callback
+ directly. Using implementations for the built-in parsers provided by
+ the XSD runtime is usually a simpler and more convenient
+ alternative.</p>
+
+ <p>At this point you might be wondering why some <code>post_*()</code>
+ callbacks, for example <code>post_string()</code>, return some data
+ while others, for example <code>post_gender()</code>, have
+ <code>void</code> as a return type. This is a valid concern
+ and it will be addressed in the next chapter.</p>
+
+ <h2><a name="3.2">3.2 Implementing the Person Parser</a></h2>
+
+ <p>The generated <code>person_pskel</code> parser skeleton looks like
+ this:</p>
+
+ <pre class="c++">
+class person_pskel: public xml_schema::complex_content
+{
+public:
+ // Parser callbacks. Override them in your implementation.
+ //
+ virtual void
+ pre ();
+
+ virtual void
+ first_name (const std::string&amp;);
+
+ virtual void
+ last_name (const std::string&amp;);
+
+ virtual void
+ gender ();
+
+ virtual void
+ age (short);
+
+ virtual void
+ post_person ();
+
+ // Parser construction API.
+ //
+ void
+ first_name_parser (xml_schema::string_pskel&amp;);
+
+ void
+ last_name_parser (xml_schema::string_pskel&amp;);
+
+ void
+ gender_parser (gender_pskel&amp;);
+
+ void
+ age_parser (xml_schema::short_pskel&amp;);
+
+ void
+ parsers (xml_schema::string_pskel&amp; /* first-name */,
+ xml_schema::string_pskel&amp; /* last-name */,
+ gender_pskel&amp; /* gender */,
+ xml_schema::short_pskel&amp; /* age */);
+};
+ </pre>
+
+
+ <p>As you can see, we have a parser callback for each of the nested
+ elements found in the <code>person</code> XML Schema type.
+ The implementation of this parser is straightforward:</p>
+
+ <pre class="c++">
+class person_pimpl: public person_pskel
+{
+public:
+ virtual void
+ first_name (const std::string&amp; n)
+ {
+ cout &lt;&lt; "first: " &lt;&lt; f &lt;&lt; endl;
+ }
+
+ virtual void
+ last_name (const std::string&amp; l)
+ {
+ cout &lt;&lt; "last: " &lt;&lt; l &lt;&lt; endl;
+ }
+
+ virtual void
+ age (short a)
+ {
+ cout &lt;&lt; "age: " &lt;&lt; a &lt;&lt; endl;
+ }
+};
+ </pre>
+
+ <p>Notice that we didn't override the <code>gender()</code> callback
+ because all the printing is done by <code>gender_pimpl</code>.</p>
+
+
+ <h2><a name="3.3">3.3 Implementing the People Parser</a></h2>
+
+ <p>The generated <code>people_pskel</code> parser skeleton looks like
+ this:</p>
+
+ <pre class="c++">
+class people_pskel: public xml_schema::complex_content
+{
+public:
+ // Parser callbacks. Override them in your implementation.
+ //
+ virtual void
+ pre ();
+
+ virtual void
+ person ();
+
+ virtual void
+ post_people ();
+
+ // Parser construction API.
+ //
+ void
+ person_parser (person_pskel&amp;);
+
+ void
+ parsers (person_pskel&amp; /* person */);
+};
+ </pre>
+
+ <p>The <code>person()</code> callback will be called after parsing each
+ <code>person</code> element. While <code>person_pimpl</code> does
+ all the printing, one useful thing we can do in this callback is to
+ print an extra newline after each person record so that our
+ output is more readable:</p>
+
+ <pre class="c++">
+class people_pimpl: public people_pskel
+{
+public:
+ virtual void
+ person ()
+ {
+ cout &lt;&lt; endl;
+ }
+};
+ </pre>
+
+ <p>Now it is time to put everything together.</p>
+
+
+ <h2><a name="3.4">3.4 Connecting the Parsers Together</a></h2>
+
+ <p>At this point we have all the individual parsers implemented
+ and can proceed to assemble them into a complete parser
+ for our XML vocabulary. The first step is to instantiate
+ all the individual parsers that we will need:</p>
+
+ <pre class="c++">
+xml_schema::short_pimpl short_p;
+xml_schema::string_pimpl string_p;
+
+gender_pimpl gender_p;
+person_pimpl person_p;
+people_pimpl people_p;
+ </pre>
+
+ <p>Notice that our schema uses two built-in XML Schema types:
+ <code>string</code> for the <code>first-name</code> and
+ <code>last-name</code> elements as well as <code>short</code>
+ for <code>age</code>. We will use predefined parsers that
+ come with the XSD runtime to handle these types. The next
+ step is to connect all the individual parsers. We do this
+ with the help of functions defined in the parser
+ skeletons and marked with the "Parser Construction API"
+ comment. One way to do it is to connect each individual
+ parser by calling the <code>*_parser()</code> functions:</p>
+
+ <pre class="c++">
+person_p.first_name_parser (string_p);
+person_p.last_name_parser (string_p);
+person_p.gender_parser (gender_p);
+person_p.age_parser (short_p);
+
+people_p.person_parser (person_p);
+ </pre>
+
+ <p>You might be wondering what happens if you do not provide
+ a parser by not calling one of the <code>*_parser()</code> functions.
+ In that case the corresponding XML content will be skipped,
+ including validation. This is an efficient way to ignore parts
+ of the document that you are not interested in.</p>
+
+
+ <p>An alternative, shorter, way to connect the parsers is by using
+ the <code>parsers()</code> functions which connects all the parsers
+ for a given type at once:</p>
+
+ <pre class="c++">
+person_p.parsers (string_p, string_p, gender_p, short_p);
+people_p.parsers (person_p);
+ </pre>
+
+ <p>The following figure illustrates the resulting connections. Notice
+ the correspondence between return types of the <code>post_*()</code>
+ functions and argument types of element callbacks that are connected
+ by the arrows.</p>
+
+ <!-- align=center is needed for html2ps -->
+ <div class="img" align="center"><img src="figure-1.png"/></div>
+
+ <p>The last step is the construction of the document parser and
+ invocation of the complete parser on our sample XML instance:</p>
+
+ <pre class="c++">
+xml_schema::document doc_p (people_p, "people");
+
+people_p.pre ();
+doc_p.parse ("people.xml");
+people_p.post_people ();
+ </pre>
+
+ <p>Let's consider <code>xml_schema::document</code> in
+ more detail. While the exact definition of this class
+ varies depending on the underlying parser selected,
+ here is the common part:</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class document
+ {
+ public:
+ document (xml_schema::parser_base&amp;,
+ const std::string&amp; root_element_name,
+ bool polymorphic = false);
+
+ document (xml_schema::parser_base&amp;,
+ const std::string&amp; root_element_namespace,
+ const std::string&amp; root_element_name,
+ bool polymorphic = false);
+
+ void
+ parse (const std::string&amp; file);
+
+ void
+ parse (std::istream&amp;);
+
+ ...
+
+ };
+}
+ </pre>
+
+ <p><code>xml_schema::document</code> is a root parser for
+ the vocabulary. The first argument to its constructors is the
+ parser for the type of the root element (<code>people_impl</code>
+ in our case). Because a type parser is only concerned with
+ the element's content and not with the element's name, we need
+ to specify the root element's name somewhere. That's
+ what is passed as the second and third arguments to the
+ <code>document</code>'s constructors.</p>
+
+ <p>There are also two overloaded <code>parse()</code> functions
+ defined in the <code>document</code> class (there are actually
+ more but the others are specific to the underlying XML parser).
+ The first version parses a local file identified by a name. The
+ second version reads the data from an input stream. For more
+ information on the <code>xml_schema::document</code> class
+ refer to <a href="#7">Chapter 7, "Document Parser and Error
+ Handling"</a>.</p>
+
+ <p>Let's now consider a step-by-step list of actions that happen
+ as we parse through <code>people.xml</code>. The content of
+ <code>people.xml</code> is repeated below for convenience.</p>
+
+ <pre class="xml">
+&lt;?xml version="1.0"?>
+&lt;people>
+ &lt;person>
+ &lt;first-name>John&lt;/first-name>
+ &lt;last-name>Doe&lt;/last-name>
+ &lt;gender>male&lt;/gender>
+ &lt;age>32&lt;/age>
+ &lt;/person>
+ &lt;person>
+ &lt;first-name>Jane&lt;/first-name>
+ &lt;last-name>Doe&lt;/last-name>
+ &lt;gender>female&lt;/gender>
+ &lt;age>28&lt;/age>
+ &lt;/person>
+&lt;/people>
+ </pre>
+
+
+ <ol class="steps">
+ <li><code>people_p.pre()</code> is called from
+ <code>main()</code>. We did not provide any implementation
+ for this callback so this call is a no-op.</li>
+
+ <li><code>doc_p.parse("people.xml")</code> is called from
+ <code>main()</code>. The parser opens the file and starts
+ parsing its content.</li>
+
+ <li>The parser encounters the root element. <code>doc_p</code>
+ verifies that the root element is correct and calls
+ <code>_pre()</code> on <code>people_p</code> which is also
+ a no-op. Parsing is now delegated to <code>people_p</code>.</li>
+
+ <li>The parser encounters the <code>person</code> element.
+ <code>people_p</code> determines that <code>person_p</code>
+ is responsible for parsing this element. <code>pre()</code>
+ and <code>_pre()</code> callbacks are called on <code>person_p</code>.
+ Parsing is now delegated to <code>person_p</code>.</li>
+
+ <li>The parser encounters the <code>first-name</code> element.
+ <code>person_p</code> determines that <code>string_p</code>
+ is responsible for parsing this element. <code>pre()</code>
+ and <code>_pre()</code> callbacks are called on <code>string_p</code>.
+ Parsing is now delegated to <code>string_p</code>.</li>
+
+ <li>The parser encounters character content consisting of
+ <code>"John"</code>. The <code>_characters()</code> callback is
+ called on <code>string_p</code>.</li>
+
+ <li>The parser encounters the end of <code>first-name</code>
+ element. The <code>_post()</code> and <code>post_string()</code>
+ callbacks are called on <code>string_p</code>. The
+ <code>first_name()</code> callback is called on <code>person_p</code>
+ with the return value of <code>post_string()</code>. The
+ <code>first_name()</code> implementation prints
+ <code>"first: John"</code> to <code>cout</code>.
+ Parsing is now returned to <code>person_p</code>.</li>
+
+ <li>Steps analogous to 5-7 are performed for the <code>last-name</code>,
+ <code>gender</code>, and <code>age</code> elements.</li>
+
+ <li>The parser encounters the end of <code>person</code>
+ element. The <code>_post()</code> and <code>post_person()</code>
+ callbacks are called on <code>person_p</code>. The
+ <code>person()</code> callback is called on <code>people_p</code>.
+ The <code>person()</code> implementation prints a new line
+ to <code>cout</code>. Parsing is now returned to
+ <code>people_p</code>.</li>
+
+ <li>Steps 4-9 are performed for the second <code>person</code>
+ element.</li>
+
+ <li>The parser encounters the end of <code>people</code>
+ element. The <code>_post()</code> callback is called on
+ <code>people_p</code>. The <code>doc_p.parse("people.xml")</code>
+ call returns to <code>main()</code>.</li>
+
+ <li><code>people_p.post_people()</code> is called from
+ <code>main()</code> which is a no-op.</li>
+
+ </ol>
+
+
+ <!-- Chpater 4 -->
+
+
+ <h1><a name="4">4 Type Maps</a></h1>
+
+ <p>There are many useful things you can do inside parser callbacks as they
+ are right now. There are, however, times when you want to propagate
+ some information from one parser to another or to the caller of the
+ parser. One common task that would greatly benefit from such a
+ possibility is building a tree-like in-memory object model of the
+ data stored in XML. During execution, each individual sub-parser
+ would create a sub-tree and return it to its <em>parent</em> parser
+ which can then incorporate this sub-tree into the whole tree.</p>
+
+ <p>In this chapter we will discuss the mechanisms offered by the
+ C++/Parser mapping for returning information from individual
+ parsers and see how to use them to build an object model
+ of our people vocabulary.</p>
+
+ <h2><a name="4.1">4.1 Object Model</a></h2>
+
+ <p>An object model for our person record example could
+ look like this (saved in the <code>people.hxx</code> file):</p>
+
+ <pre class="c++">
+#include &lt;string>
+#include &lt;vector>
+
+enum gender
+{
+ male,
+ female
+};
+
+class person
+{
+public:
+ person (const std::string&amp; first,
+ const std::string&amp; last,
+ ::gender gender,
+ short age)
+ : first_ (first), last_ (last),
+ gender_ (gender), age_ (age)
+ {
+ }
+
+ const std::string&amp;
+ first () const
+ {
+ return first_;
+ }
+
+ const std::string&amp;
+ last () const
+ {
+ return last_;
+ }
+
+ ::gender
+ gender () const
+ {
+ return gender_;
+ }
+
+ short
+ age () const
+ {
+ return age_;
+ }
+
+private:
+ std::string first_;
+ std::string last_;
+ ::gender gender_;
+ short age_;
+};
+
+typedef std::vector&lt;person> people;
+ </pre>
+
+ <p>While it is clear which parser is responsible for which part of
+ the object model, it is not exactly clear how, for
+ example, <code>gender_pimpl</code> will deliver <code>gender</code>
+ to <code>person_pimpl</code>. You might have noticed that
+ <code>string_pimpl</code> manages to deliver its value to the
+ <code>first_name()</code> callback of <code>person_pimpl</code>. Let's
+ see how we can utilize the same mechanism to propagate our
+ own data.</p>
+
+ <p>There is a way to tell the XSD compiler that you want to
+ exchange data between parsers. More precisely, for each
+ type defined in XML Schema, you can tell the compiler two things.
+ First, the return type of the <code>post_*()</code> callback
+ in the parser skeleton generated for this type. And, second,
+ the argument type for callbacks corresponding to elements and
+ attributes of this type. For example, for XML Schema type
+ <code>gender</code> we can specify the return type for
+ <code>post_gender()</code> in the <code>gender_pskel</code>
+ skeleton and the argument type for the <code>gender()</code> callback
+ in the <code>person_pskel</code> skeleton. As you might have guessed,
+ the generated code will then pass the return value from the
+ <code>post_*()</code> callback as an argument to the element or
+ attribute callback.</p>
+
+ <p>The way to tell the XSD compiler about these XML Schema to
+ C++ mappings is with type map files. Here is a simple type
+ map for the <code>gender</code> type from the previous paragraph:</p>
+
+ <pre class="type-map">
+include "people.hxx";
+gender ::gender ::gender;
+ </pre>
+
+ <p>The first line indicates that the generated code must include
+ <code>people.hxx</code> in order to get the definition for the
+ <code>gender</code> type. The second line specifies that both
+ argument and return types for the <code>gender</code>
+ XML Schema type should be the <code>::gender</code> C++ enum
+ (we use fully-qualified C++ names to avoid name clashes).
+ The next section will describe the type map format in detail.
+ We save this type map in <code>people.map</code> and
+ then translate our schemas with the <code>--type-map</code>
+ option to let the XSD compiler know about our type map:</p>
+
+ <pre class="terminal">
+$ xsd cxx-parser --type-map people.map people.xsd
+ </pre>
+
+ <p>If we now look at the generated <code>people-pskel.hxx</code>,
+ we will see the following changes in the <code>gender_pskel</code> and
+ <code>person_pskel</code> skeletons:</p>
+
+ <pre class="c++">
+#include "people.hxx"
+
+class gender_pskel: public virtual xml_schema::string_pskel
+{
+ virtual ::gender
+ post_gender () = 0;
+
+ ...
+};
+
+class person_pskel: public xml_schema::complex_content
+{
+ virtual void
+ gender (::gender);
+
+ ...
+};
+ </pre>
+
+ <p>Notice that <code>#include "people.hxx"</code> was added to
+ the generated header file from the type map to provide the
+ definition for the <code>gender</code> enum.</p>
+
+ <h2><a name="4.2">4.2 Type Map File Format</a></h2>
+
+ <p>Type map files are used to define a mapping between XML Schema
+ and C++ types. The compiler uses this information
+ to determine return types of <code>post_*()</code>
+ callbacks in parser skeletons corresponding to XML Schema
+ types as well as argument types for callbacks corresponding
+ to elements and attributes of these types.</p>
+
+ <p>The compiler has a set of predefined mapping rules that map
+ the built-in XML Schema types to suitable C++ types (discussed
+ below) and all other types to <code>void</code>.
+ By providing your own type maps you can override these predefined
+ rules. The format of the type map file is presented below:
+ </p>
+
+ <pre class="type-map">
+namespace &lt;schema-namespace> [&lt;cxx-namespace>]
+{
+ (include &lt;file-name>;)*
+ ([type] &lt;schema-type> &lt;cxx-ret-type> [&lt;cxx-arg-type>];)*
+}
+ </pre>
+
+ <p>Both <code><i>&lt;schema-namespace></i></code> and
+ <code><i>&lt;schema-type></i></code> are regex patterns while
+ <code><i>&lt;cxx-namespace></i></code>,
+ <code><i>&lt;cxx-ret-type></i></code>, and
+ <code><i>&lt;cxx-arg-type></i></code> are regex pattern
+ substitutions. All names can be optionally enclosed in
+ <code>" "</code>, for example, to include white-spaces.</p>
+
+ <p><code><i>&lt;schema-namespace></i></code> determines XML
+ Schema namespace. Optional <code><i>&lt;cxx-namespace></i></code>
+ is prefixed to every C++ type name in this namespace declaration.
+ <code><i>&lt;cxx-ret-type></i></code> is a C++ type name that is
+ used as a return type for the <code>post_*()</code> callback.
+ Optional <code><i>&lt;cxx-arg-type></i></code> is an argument
+ type for callbacks corresponding to elements and attributes
+ of this type. If <code><i>&lt;cxx-arg-type></i></code> is not
+ specified, it defaults to <code><i>&lt;cxx-ret-type></i></code>
+ if <code><i>&lt;cxx-ret-type></i></code> ends with <code>*</code> or
+ <code>&amp;</code> (that is, it is a pointer or a reference) and
+ <code>const&nbsp;<i>&lt;cxx-ret-type></i>&amp;</code>
+ otherwise.
+ <code><i>&lt;file-name></i></code> is a file name either in the
+ <code>" "</code> or <code>&lt; ></code> format
+ and is added with the <code>#include</code> directive to
+ the generated code.</p>
+
+ <p>The <code><b>#</b></code> character starts a comment that ends
+ with a new line or end of file. To specify a name that contains
+ <code><b>#</b></code> enclose it in <code><b>" "</b></code>.
+ For example:</p>
+
+ <pre>
+namespace http://www.example.com/xmlns/my my
+{
+ include "my.hxx";
+
+ # Pass apples by value.
+ #
+ apple apple;
+
+ # Pass oranges as pointers.
+ #
+ orange orange_t*;
+}
+ </pre>
+
+ <p>In the example above, for the
+ <code>http://www.example.com/xmlns/my#orange</code>
+ XML Schema type, the <code>my::orange_t*</code> C++ type will
+ be used as both return and argument types.</p>
+
+ <p>Several namespace declarations can be specified in a single
+ file. The namespace declaration can also be completely
+ omitted to map types in a schema without a namespace. For
+ instance:</p>
+
+ <pre class="type-map">
+include "my.hxx";
+apple apple;
+
+namespace http://www.example.com/xmlns/my
+{
+ orange "const orange_t*";
+}
+ </pre>
+
+ <p>The compiler has a number of predefined mapping rules for
+ the built-in XML Schema types which can be presented as the
+ following map files. The string-based XML Schema types are
+ mapped to either <code>std::string</code> or
+ <code>std::wstring</code> depending on the character type
+ selected (see <a href="#5.2"> Section 5.2, "Character Type and
+ Encoding"</a> for more information). The binary XML Schema
+ types are mapped to either <code>std::auto_ptr&lt;xml_schema::buffer></code>
+ or <code>std::unique_ptr&lt;xml_schema::buffer></code>
+ depending on the C++ standard selected (C++98 or C++11,
+ respectively; refer to the <code>--std</code> XSD compiler
+ command line option for details).</p>
+
+ <pre class="type-map">
+namespace http://www.w3.org/2001/XMLSchema
+{
+ boolean bool bool;
+
+ byte "signed char" "signed char";
+ unsignedByte "unsigned char" "unsigned char";
+
+ short short short;
+ unsignedShort "unsigned short" "unsigned short";
+
+ int int int;
+ unsignedInt "unsigned int" "unsigned int";
+
+ long "long long" "long long";
+ unsignedLong "unsigned long long" "unsigned long long";
+
+ integer "long long" "long long";
+
+ negativeInteger "long long" "long long";
+ nonPositiveInteger "long long" "long long";
+
+ positiveInteger "unsigned long long" "unsigned long long";
+ nonNegativeInteger "unsigned long long" "unsigned long long";
+
+ float float float;
+ double double double;
+ decimal double double;
+
+ string std::string;
+ normalizedString std::string;
+ token std::string;
+ Name std::string;
+ NMTOKEN std::string;
+ NCName std::string;
+ ID std::string;
+ IDREF std::string;
+ language std::string;
+ anyURI std::string;
+
+ NMTOKENS xml_schema::string_sequence;
+ IDREFS xml_schema::string_sequence;
+
+ QName xml_schema::qname;
+
+ base64Binary std::[auto|unique]_ptr&lt;xml_schema::buffer>
+ std::[auto|unique]_ptr&lt;xml_schema::buffer>;
+ hexBinary std::[auto|unique]_ptr&lt;xml_schema::buffer>
+ std::[auto|unique]_ptr&lt;xml_schema::buffer>;
+
+ date xml_schema::date;
+ dateTime xml_schema::date_time;
+ duration xml_schema::duration;
+ gDay xml_schema::gday;
+ gMonth xml_schema::gmonth;
+ gMonthDay xml_schema::gmonth_day;
+ gYear xml_schema::gyear;
+ gYearMonth xml_schema::gyear_month;
+ time xml_schema::time;
+}
+ </pre>
+
+ <p>For more information about the mapping of the built-in XML Schema types
+ to C++ types refer to <a href="#6">Chapter 6, "Built-In XML Schema Type
+ Parsers"</a>. The last predefined rule maps anything that wasn't
+ mapped by previous rules to <code>void</code>:</p>
+
+ <pre class="type-map">
+namespace .*
+{
+ .* void void;
+}
+ </pre>
+
+
+ <p>When you provide your own type maps with the
+ <code>--type-map</code> option, they are evaluated first. This
+ allows you to selectively override any of the predefined rules.
+ Note also that if you change the mapping
+ of a built-in XML Schema type then it becomes your responsibility
+ to provide the corresponding parser skeleton and implementation
+ in the <code>xml_schema</code> namespace. You can include the
+ custom definitions into the generated header file using the
+ <code>--hxx-prologue-*</code> options.</p>
+
+ <h2><a name="4.3">4.3 Parser Implementations</a></h2>
+
+ <p>With the knowledge from the previous section, we can proceed
+ with creating a type map that maps types in the <code>people.xsd</code>
+ schema to our object model classes in
+ <code>people.hxx</code>. In fact, we already have the beginning
+ of our type map file in <code>people.map</code>. Let's extend
+ it with the rest of the types:</p>
+
+ <pre class="type-map">
+include "people.hxx";
+
+gender ::gender ::gender;
+person ::person;
+people ::people;
+ </pre>
+
+ <p>There are a few things to note about this type map. We did not
+ provide the argument types for <code>person</code> and
+ <code>people</code> because the default constant reference is
+ exactly what we need. We also did not provide any mappings
+ for built-in XML Schema types <code>string</code> and
+ <code>short</code> because they are handled by the predefined
+ rules and we are happy with the result. Note also that
+ all C++ types are fully qualified. This is done to avoid
+ potential name conflicts in the generated code. Now we can
+ recompile our schema and move on to implementing the parsers:</p>
+
+ <pre class="terminal">
+$ xsd cxx-parser --xml-parser expat --type-map people.map people.xsd
+ </pre>
+
+ <p>Here is the implementation of our three parsers in full. One
+ way to save typing when implementing your own parsers is
+ to open the generated code and copy the signatures of parser
+ callbacks into your code. Or you could always auto generate the
+ sample implementations and fill them with your code.</p>
+
+
+ <pre class="c++">
+#include "people-pskel.hxx"
+
+class gender_pimpl: public gender_pskel,
+ public xml_schema::string_pimpl
+{
+public:
+ virtual ::gender
+ post_gender ()
+ {
+ return post_string () == "male" ? male : female;
+ }
+};
+
+class person_pimpl: public person_pskel
+{
+public:
+ virtual void
+ first_name (const std::string&amp; f)
+ {
+ first_ = f;
+ }
+
+ virtual void
+ last_name (const std::string&amp; l)
+ {
+ last_ = l;
+ }
+
+ virtual void
+ gender (::gender g)
+ {
+ gender_ = g;
+ }
+
+ virtual void
+ age (short a)
+ {
+ age_ = a;
+ }
+
+ virtual ::person
+ post_person ()
+ {
+ return ::person (first_, last_, gender_, age_);
+ }
+
+private:
+ std::string first_;
+ std::string last_;
+ ::gender gender_;
+ short age_;
+};
+
+class people_pimpl: public people_pskel
+{
+public:
+ virtual void
+ person (const ::person&amp; p)
+ {
+ people_.push_back (p);
+ }
+
+ virtual ::people
+ post_people ()
+ {
+ ::people r;
+ r.swap (people_);
+ return r;
+ }
+
+private:
+ ::people people_;
+};
+ </pre>
+
+ <p>This code fragment should look familiar by now. Just note that
+ all the <code>post_*()</code> callbacks now have return types instead
+ of <code>void</code>. Here is the implementation of the test
+ driver for this example:</p>
+
+ <pre class="c++">
+#include &lt;iostream>
+
+using namespace std;
+
+int
+main (int argc, char* argv[])
+{
+ // Construct the parser.
+ //
+ xml_schema::short_pimpl short_p;
+ xml_schema::string_pimpl string_p;
+
+ gender_pimpl gender_p;
+ person_pimpl person_p;
+ people_pimpl people_p;
+
+ person_p.parsers (string_p, string_p, gender_p, short_p);
+ people_p.parsers (person_p);
+
+ // Parse the document to obtain the object model.
+ //
+ xml_schema::document doc_p (people_p, "people");
+
+ people_p.pre ();
+ doc_p.parse (argv[1]);
+ people ppl = people_p.post_people ();
+
+ // Print the object model.
+ //
+ for (people::iterator i (ppl.begin ()); i != ppl.end (); ++i)
+ {
+ cout &lt;&lt; "first: " &lt;&lt; i->first () &lt;&lt; endl
+ &lt;&lt; "last: " &lt;&lt; i->last () &lt;&lt; endl
+ &lt;&lt; "gender: " &lt;&lt; (i->gender () == male ? "male" : "female") &lt;&lt; endl
+ &lt;&lt; "age: " &lt;&lt; i->age () &lt;&lt; endl
+ &lt;&lt; endl;
+ }
+}
+ </pre>
+
+ <p>The parser creation and assembly part is exactly the same as in
+ the previous chapter. The parsing part is a bit different:
+ <code>post_people()</code> now has a return value which is the
+ complete object model. We store it in the
+ <code>ppl</code> variable. The last bit of the code simply iterates
+ over the <code>people</code> vector and prints the information
+ for each person. We save the last two code fragments to
+ <code>driver.cxx</code> and proceed to compile and test
+ our new application:</p>
+
+
+ <pre class="terminal">
+$ c++ -I.../libxsd -c driver.cxx people-pskel.cxx
+$ c++ -o driver driver.o people-pskel.o -lexpat
+$ ./driver people.xml
+first: John
+last: Doe
+gender: male
+age: 32
+
+first: Jane
+last: Doe
+gender: female
+age: 28
+ </pre>
+
+
+ <!-- Mapping Configuration -->
+
+
+ <h1><a name="5">5 Mapping Configuration</a></h1>
+
+ <p>The C++/Parser mapping has a number of configuration parameters that
+ determine the overall properties and behavior of the generated code.
+ Configuration parameters are specified with the XSD command line
+ options and include the C++ standard, the character type that is used
+ by the generated code, the underlying XML parser, whether the XML Schema
+ validation is performed in the generated code, and support for XML Schema
+ polymorphism. This chapter describes these configuration
+ parameters in more detail. For more ways to configure the generated
+ code refer to the
+ <a href="http://www.codesynthesis.com/projects/xsd/documentation/xsd.xhtml">XSD
+ Compiler Command Line Manual</a>.
+ </p>
+
+ <h2><a name="5.1">5.1 C++ Standard</a></h2>
+
+ <p>The C++/Parser mapping provides support for ISO/IEC C++ 1998/2003 (C++98)
+ and ISO/IEC C++ 2011 (C++11). To select the C++ standard for the
+ generated code we use the <code>--std</code> XSD compiler command
+ line option. While the majority of the examples in this guide use
+ C++98, support for the new functionality and library components
+ introduced in C++11 are discussed throughout the document.</p>
+
+ <h2><a name="5.2">5.2 Character Type and Encoding</a></h2>
+
+ <p>The C++/Parser mapping has built-in support for two character types:
+ <code>char</code> and <code>wchar_t</code>. You can select the
+ character type with the <code>--char-type</code> command line
+ option. The default character type is <code>char</code>. The
+ string-based built-in XML Schema types are returned as either
+ <code>std::string</code> or <code>std::wstring</code> depending
+ on the character type selected.</p>
+
+ <p>Another aspect of the mapping that depends on the character type
+ is character encoding. For the <code>char</code> character type
+ the default encoding is UTF-8. Other supported encodings are
+ ISO-8859-1, Xerces-C++ Local Code Page (LPC), as well as
+ custom encodings. You can select which encoding should be used
+ in the object model with the <code>--char-encoding</code> command
+ line option.</p>
+
+ <p>For the <code>wchar_t</code> character type the encoding is
+ automatically selected between UTF-16 and UTF-32/UCS-4 depending
+ on the size of the <code>wchar_t</code> type. On some platforms
+ (for example, Windows with Visual C++ and AIX with IBM XL C++)
+ <code>wchar_t</code> is 2 bytes long. For these platforms the
+ encoding is UTF-16. On other platforms <code>wchar_t</code> is 4 bytes
+ long and UTF-32/UCS-4 is used.</p>
+
+ <p>Note also that the character encoding that is used in the object model
+ is independent of the encodings used in input and output XML. In fact,
+ all three (object mode, input XML, and output XML) can have different
+ encodings.</p>
+
+ <h2><a name="5.3">5.3 Underlying XML Parser</a></h2>
+
+ <p>The C++/Parser mapping can be used with either Xerces-C++ or Expat
+ as the underlying XML parser. You can select the XML parser with
+ the <code>--xml-parser</code> command line option. Valid values
+ for this option are <code>xerces</code> and <code>expat</code>.
+ The default XML parser is Xerces-C++.</p>
+
+ <p>The generated code is identical for both parsers except for the
+ <code>xml_schema::document</code> class in which some of the
+ <code>parse()</code> functions are parser-specific as described
+ in <a href="#7">Chapter 7, "Document Parser and Error Handling"</a>.</p>
+
+
+ <h2><a name="5.4">5.4 XML Schema Validation</a></h2>
+
+ <p>The C++/Parser mapping provides support for validating a
+ commonly-used subset of W3C XML Schema in the generated code.
+ For the list of supported XML Schema constructs refer to
+ <a href="#A">Appendix A, "Supported XML Schema Constructs"</a>.</p>
+
+ <p>By default validation in the generated code is disabled if
+ the underlying XML parser is validating (Xerces-C++) and
+ enabled otherwise (Expat). See <a href="#5.3">Section 5.3,
+ "Underlying XML Parser"</a> for more information about
+ the underlying XML parser. You can override the default
+ behavior with the <code>--generate-validation</code>
+ and <code>--suppress-validation</code> command line options.</p>
+
+
+ <h2><a name="5.5">5.5 Support for Polymorphism</a></h2>
+
+ <p>By default the XSD compiler generates non-polymorphic code. If your
+ vocabulary uses XML Schema polymorphism in the form of <code>xsi:type</code>
+ and/or substitution groups, then you will need to compile your schemas
+ with the <code>--generate-polymorphic</code> option to produce
+ polymorphism-aware code as well as pass <code>true</code> as the last
+ argument to the <code>xml_schema::document</code>'s constructors.</p>
+
+ <p>When using the polymorphism-aware generated code, you can specify
+ several parsers for a single element by passing a parser map
+ instead of an individual parser to the parser connection function
+ for the element. One of the parsers will then be looked up and used
+ depending on the <code>xsi:type</code> attribute value or an element
+ name from a substitution group. Consider the following schema as an
+ example:</p>
+
+ <pre class="xml">
+&lt;xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema">
+
+ &lt;xs:complexType name="person">
+ &lt;xs:sequence>
+ &lt;xs:element name="name" type="xs:string"/>
+ &lt;/xs:sequence>
+ &lt;/xs:complexType>
+
+ &lt;!-- substitution group root -->
+ &lt;xs:element name="person" type="person"/>
+
+ &lt;xs:complexType name="superman">
+ &lt;xs:complexContent>
+ &lt;xs:extension base="person">
+ &lt;xs:attribute name="can-fly" type="xs:boolean"/>
+ &lt;/xs:extension>
+ &lt;/xs:complexContent>
+ &lt;/xs:complexType>
+
+ &lt;xs:element name="superman"
+ type="superman"
+ substitutionGroup="person"/>
+
+ &lt;xs:complexType name="batman">
+ &lt;xs:complexContent>
+ &lt;xs:extension base="superman">
+ &lt;xs:attribute name="wing-span" type="xs:unsignedInt"/>
+ &lt;/xs:extension>
+ &lt;/xs:complexContent>
+ &lt;/xs:complexType>
+
+ &lt;xs:element name="batman"
+ type="batman"
+ substitutionGroup="superman"/>
+
+ &lt;xs:complexType name="supermen">
+ &lt;xs:sequence>
+ &lt;xs:element ref="person" maxOccurs="unbounded"/>
+ &lt;/xs:sequence>
+ &lt;/xs:complexType>
+
+ &lt;xs:element name="supermen" type="supermen"/>
+
+&lt;/xs:schema>
+ </pre>
+
+ <p>Conforming XML documents can use the <code>superman</code>
+ and <code>batman</code> types in place of the <code>person</code>
+ type either by specifying the type with the <code>xsi:type</code>
+ attributes or by using the elements from the substitution
+ group, for instance:</p>
+
+
+ <pre class="xml">
+&lt;supermen xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
+
+ &lt;person>
+ &lt;name>John Doe&lt;/name>
+ &lt;/person>
+
+ &lt;superman can-fly="false">
+ &lt;name>James "007" Bond&lt;/name>
+ &lt;/superman>
+
+ &lt;superman can-fly="true" wing-span="10" xsi:type="batman">
+ &lt;name>Bruce Wayne&lt;/name>
+ &lt;/superman>
+
+&lt;/supermen>
+ </pre>
+
+ <p>To print the data stored in such XML documents we can implement
+ the parsers as follows:</p>
+
+ <pre class="c++">
+class person_pimpl: public virtual person_pskel
+{
+public:
+ virtual void
+ pre ()
+ {
+ cout &lt;&lt; "starting to parse person" &lt;&lt; endl;
+ }
+
+ virtual void
+ name (const std::string&amp; v)
+ {
+ cout &lt;&lt; "name: " &lt;&lt; v &lt;&lt; endl;
+ }
+
+ virtual void
+ post_person ()
+ {
+ cout &lt;&lt; "finished parsing person" &lt;&lt; endl;
+ }
+};
+
+class superman_pimpl: public virtual superman_pskel,
+ public person_pimpl
+{
+public:
+ virtual void
+ pre ()
+ {
+ cout &lt;&lt; "starting to parse superman" &lt;&lt; endl;
+ }
+
+ virtual void
+ can_fly (bool v)
+ {
+ cout &lt;&lt; "can-fly: " &lt;&lt; v &lt;&lt; endl;
+ }
+
+ virtual void
+ post_person ()
+ {
+ post_superman ();
+ }
+
+ virtual void
+ post_superman ()
+ {
+ cout &lt;&lt; "finished parsing superman" &lt;&lt; endl
+ }
+};
+
+class batman_pimpl: public virtual batman_pskel,
+ public superman_pimpl
+{
+public:
+ virtual void
+ pre ()
+ {
+ cout &lt;&lt; "starting to parse batman" &lt;&lt; endl;
+ }
+
+ virtual void
+ wing_span (unsigned int v)
+ {
+ cout &lt;&lt; "wing-span: " &lt;&lt; v &lt;&lt; endl;
+ }
+
+ virtual void
+ post_superman ()
+ {
+ post_batman ();
+ }
+
+ virtual void
+ post_batman ()
+ {
+ cout &lt;&lt; "finished parsing batman" &lt;&lt; endl;
+ }
+};
+ </pre>
+
+ <p>Note that because the derived type parsers (<code>superman_pskel</code>
+ and <code>batman_pskel</code>) are called via the <code>person_pskel</code>
+ interface, we have to override the <code>post_person()</code>
+ virtual function in <code>superman_pimpl</code> to call
+ <code>post_superman()</code> and the <code>post_superman()</code>
+ virtual function in <code>batman_pimpl</code> to call
+ <code>post_batman()</code>.</p>
+
+ <p>The following code fragment shows how to connect the parsers together.
+ Notice that for the <code>person</code> element in the <code>supermen_p</code>
+ parser we specify a parser map instead of a specific parser and we pass
+ <code>true</code> as the last argument to the document parser constructor
+ to indicate that we are parsing potentially-polymorphic XML documents:</p>
+
+ <pre class="c++">
+int
+main (int argc, char* argv[])
+{
+ // Construct the parser.
+ //
+ xml_schema::string_pimpl string_p;
+ xml_schema::boolean_pimpl boolean_p;
+ xml_schema::unsigned_int_pimpl unsigned_int_p;
+
+ person_pimpl person_p;
+ superman_pimpl superman_p;
+ batman_pimpl batman_p;
+
+ xml_schema::parser_map_impl person_map;
+ supermen_pimpl supermen_p;
+
+ person_p.parsers (string_p);
+ superman_p.parsers (string_p, boolean_p);
+ batman_p.parsers (string_p, boolean_p, unsigned_int_p);
+
+ // Here we are specifying a parser map which containes several
+ // parsers that can be used to parse the person element.
+ //
+ person_map.insert (person_p);
+ person_map.insert (superman_p);
+ person_map.insert (batman_p);
+
+ supermen_p.person_parser (person_map);
+
+ // Parse the XML document. The last argument to the document's
+ // constructor indicates that we are parsing polymorphic XML
+ // documents.
+ //
+ xml_schema::document doc_p (supermen_p, "supermen", true);
+
+ supermen_p.pre ();
+ doc_p.parse (argv[1]);
+ supermen_p.post_supermen ();
+}
+ </pre>
+
+ <p>When polymorphism-aware code is generated, each element's
+ <code>*_parser()</code> function is overloaded to also accept
+ an object of the <code>xml_schema::parser_map</code> type.
+ For example, the <code>supermen_pskel</code> class from the
+ above example looks like this:</p>
+
+ <pre class="c++">
+class supermen_pskel: public xml_schema::parser_complex_content
+{
+public:
+
+ ...
+
+ // Parser construction API.
+ //
+ void
+ parsers (person_pskel&amp;);
+
+ // Individual element parsers.
+ //
+ void
+ person_parser (person_pskel&amp;);
+
+ void
+ person_parser (const xml_schema::parser_map&amp;);
+
+ ...
+};
+ </pre>
+
+ <p>Note that you can specify both the individual (static) parser and
+ the parser map. The individual parser will be used when the static
+ element type and the dynamic type of the object being parsed are
+ the same. This is the case, for example, when there is no
+ <code>xsi:type</code> attribute and the element hasn't been
+ substituted. Because the individual parser for an element is
+ cached and no map lookup is necessary, it makes sense to specify
+ both the individual parser and the parser map when most of the
+ objects being parsed are of the static type and optimal
+ performance is important. The following code fragment shows
+ how to change the above example to set both the individual
+ parser and the parser map:</p>
+
+ <pre class="c++">
+int
+main (int argc, char* argv[])
+{
+ ...
+
+ person_map.insert (superman_p);
+ person_map.insert (batman_p);
+
+ supermen_p.person_parser (person_p);
+ supermen_p.person_parser (person_map);
+
+ ...
+}
+ </pre>
+
+
+ <p>The <code>xml_schema::parser_map</code> interface and the
+ <code>xml_schema::parser_map_impl</code> default implementation
+ are presented below:</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class parser_map
+ {
+ public:
+ virtual parser_base*
+ find (const ro_string* type) const = 0;
+ };
+
+ class parser_map_impl: public parser_map
+ {
+ public:
+ void
+ insert (parser_base&amp;);
+
+ virtual parser_base*
+ find (const ro_string* type) const;
+
+ private:
+ parser_map_impl (const parser_map_impl&amp;);
+
+ parser_map_impl&amp;
+ operator= (const parser_map_impl&amp;);
+
+ ...
+ };
+}
+ </pre>
+
+ <p>The <code>type</code> argument in the <code>find()</code> virtual
+ function is the type name and namespace from the xsi:type attribute
+ (the namespace prefix is resolved to the actual XML namespace)
+ or the type of an element from the substitution group in the form
+ <code>"&lt;name>&nbsp;&lt;namespace>"</code> with the space and the
+ namespace part absent if the type does not have a namespace.
+ You can obtain a parser's dynamic type in the same format
+ using the <code>_dynamic_type()</code> function. The static
+ type can be obtained by calling the static <code>_static_type()</code>
+ function, for example <code>person_pskel::_static_type()</code>.
+ Both functions return a C string (<code>const char*</code> or
+ <code>const wchar_t*</code>, depending on the character type
+ used) which is valid for as long as the application is running.
+ The following example shows how we can implement our own parser
+ map using <code>std::map</code>:</p>
+
+
+ <pre class="c++">
+#include &lt;map>
+#include &lt;string>
+
+class parser_map: public xml_schema::parser_map
+{
+public:
+ void
+ insert (xml_schema::parser_base&amp; p)
+ {
+ map_[p._dynamic_type ()] = &amp;p;
+ }
+
+ virtual xml_schema::parser_base*
+ find (const xml_schema::ro_string* type) const
+ {
+ map::const_iterator i = map_.find (type);
+ return i != map_.end () ? i->second : 0;
+ }
+
+private:
+ typedef std::map&lt;std::string, xml_schema::parser_base*> map;
+ map map_;
+};
+ </pre>
+
+ <p>Most of code presented in this section is taken from the
+ <code>polymorphism</code> example which can be found in the
+ <code>examples/cxx/parser/</code> directory of the XSD distribution.
+ Handling of <code>xsi:type</code> and substitution groups when used
+ on root elements requires a number of special actions as shown in
+ the <code>polyroot</code> example.</p>
+
+
+ <!-- Built-in XML Schema Type Parsers -->
+
+
+ <h1><a name="6">6 Built-In XML Schema Type Parsers</a></h1>
+
+ <p>The XSD runtime provides parser implementations for all built-in
+ XML Schema types as summarized in the following table. Declarations
+ for these types are automatically included into each generated
+ header file. As a result you don't need to include any headers
+ to gain access to these parser implementations. Note that some
+ parsers return either <code>std::string</code> or
+ <code>std::wstring</code> depending on the character type selected.</p>
+
+ <!-- border="1" is necessary for html2ps -->
+ <table id="builtin" border="1">
+ <tr>
+ <th>XML Schema type</th>
+ <th>Parser implementation in the <code>xml_schema</code> namespace</th>
+ <th>Parser return type</th>
+ </tr>
+
+ <tr>
+ <th colspan="3">anyType and anySimpleType types</th>
+ </tr>
+ <tr>
+ <td><code>anyType</code></td>
+ <td><code>any_type_pimpl</code></td>
+ <td><code>void</code></td>
+ </tr>
+ <tr>
+ <td><code>anySimpleType</code></td>
+ <td><code>any_simple_type_pimpl</code></td>
+ <td><code>void</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">fixed-length integral types</th>
+ </tr>
+ <!-- 8-bit -->
+ <tr>
+ <td><code>byte</code></td>
+ <td><code>byte_pimpl</code></td>
+ <td><code>signed&nbsp;char</code></td>
+ </tr>
+ <tr>
+ <td><code>unsignedByte</code></td>
+ <td><code>unsigned_byte_pimpl</code></td>
+ <td><code>unsigned&nbsp;char</code></td>
+ </tr>
+
+ <!-- 16-bit -->
+ <tr>
+ <td><code>short</code></td>
+ <td><code>short_pimpl</code></td>
+ <td><code>short</code></td>
+ </tr>
+ <tr>
+ <td><code>unsignedShort</code></td>
+ <td><code>unsigned_short_pimpl</code></td>
+ <td><code>unsigned&nbsp;short</code></td>
+ </tr>
+
+ <!-- 32-bit -->
+ <tr>
+ <td><code>int</code></td>
+ <td><code>int_pimpl</code></td>
+ <td><code>int</code></td>
+ </tr>
+ <tr>
+ <td><code>unsignedInt</code></td>
+ <td><code>unsigned_int_pimpl</code></td>
+ <td><code>unsigned&nbsp;int</code></td>
+ </tr>
+
+ <!-- 64-bit -->
+ <tr>
+ <td><code>long</code></td>
+ <td><code>long_pimpl</code></td>
+ <td><code>long&nbsp;long</code></td>
+ </tr>
+ <tr>
+ <td><code>unsignedLong</code></td>
+ <td><code>unsigned_long_pimpl</code></td>
+ <td><code>unsigned&nbsp;long&nbsp;long</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">arbitrary-length integral types</th>
+ </tr>
+ <tr>
+ <td><code>integer</code></td>
+ <td><code>integer_pimpl</code></td>
+ <td><code>long&nbsp;long</code></td>
+ </tr>
+ <tr>
+ <td><code>nonPositiveInteger</code></td>
+ <td><code>non_positive_integer_pimpl</code></td>
+ <td><code>long&nbsp;long</code></td>
+ </tr>
+ <tr>
+ <td><code>nonNegativeInteger</code></td>
+ <td><code>non_negative_integer_pimpl</code></td>
+ <td><code>unsigned long&nbsp;long</code></td>
+ </tr>
+ <tr>
+ <td><code>positiveInteger</code></td>
+ <td><code>positive_integer_pimpl</code></td>
+ <td><code>unsigned long&nbsp;long</code></td>
+ </tr>
+ <tr>
+ <td><code>negativeInteger</code></td>
+ <td><code>negative_integer_pimpl</code></td>
+ <td><code>long&nbsp;long</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">boolean types</th>
+ </tr>
+ <tr>
+ <td><code>boolean</code></td>
+ <td><code>boolean_pimpl</code></td>
+ <td><code>bool</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">fixed-precision floating-point types</th>
+ </tr>
+ <tr>
+ <td><code>float</code></td>
+ <td><code>float_pimpl</code></td>
+ <td><code>float</code></td>
+ </tr>
+ <tr>
+ <td><code>double</code></td>
+ <td><code>double_pimpl</code></td>
+ <td><code>double</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">arbitrary-precision floating-point types</th>
+ </tr>
+ <tr>
+ <td><code>decimal</code></td>
+ <td><code>decimal_pimpl</code></td>
+ <td><code>double</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">string-based types</th>
+ </tr>
+ <tr>
+ <td><code>string</code></td>
+ <td><code>string_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+ <tr>
+ <td><code>normalizedString</code></td>
+ <td><code>normalized_string_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+ <tr>
+ <td><code>token</code></td>
+ <td><code>token_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+ <tr>
+ <td><code>Name</code></td>
+ <td><code>name_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+ <tr>
+ <td><code>NMTOKEN</code></td>
+ <td><code>nmtoken_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+ <tr>
+ <td><code>NCName</code></td>
+ <td><code>ncname_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+
+ <tr>
+ <td><code>language</code></td>
+ <td><code>language_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">qualified name</th>
+ </tr>
+ <tr>
+ <td><code>QName</code></td>
+ <td><code>qname_pimpl</code></td>
+ <td><code>xml_schema::qname</code><br/><a href="#6.1">Section 6.1,
+ "<code>QName</code> Parser"</a></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">ID/IDREF types</th>
+ </tr>
+ <tr>
+ <td><code>ID</code></td>
+ <td><code>id_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+ <tr>
+ <td><code>IDREF</code></td>
+ <td><code>idref_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">list types</th>
+ </tr>
+ <tr>
+ <td><code>NMTOKENS</code></td>
+ <td><code>nmtokens_pimpl</code></td>
+ <td><code>xml_schema::string_sequence</code><br/><a href="#6.2">Section
+ 6.2, "<code>NMTOKENS</code> and <code>IDREFS</code> Parsers"</a></td>
+ </tr>
+ <tr>
+ <td><code>IDREFS</code></td>
+ <td><code>idrefs_pimpl</code></td>
+ <td><code>xml_schema::string_sequence</code><br/><a href="#6.2">Section
+ 6.2, "<code>NMTOKENS</code> and <code>IDREFS</code> Parsers"</a></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">URI types</th>
+ </tr>
+ <tr>
+ <td><code>anyURI</code></td>
+ <td><code>uri_pimpl</code></td>
+ <td><code>std::string</code> or <code>std::wstring</code></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">binary types</th>
+ </tr>
+ <tr>
+ <td><code>base64Binary</code></td>
+ <td><code>base64_binary_pimpl</code></td>
+ <td><code>std::[auto|unique]_ptr&lt; xml_schema::buffer></code><br/>
+ <a href="#6.3">Section 6.3, "<code>base64Binary</code> and
+ <code>hexBinary</code> Parsers"</a></td>
+ </tr>
+ <tr>
+ <td><code>hexBinary</code></td>
+ <td><code>hex_binary_pimpl</code></td>
+ <td><code>std::[auto|unique]_ptr&lt; xml_schema::buffer></code><br/>
+ <a href="#6.3">Section 6.3, "<code>base64Binary</code> and
+ <code>hexBinary</code> Parsers"</a></td>
+ </tr>
+
+ <tr>
+ <th colspan="3">date/time types</th>
+ </tr>
+ <tr>
+ <td><code>date</code></td>
+ <td><code>date_pimpl</code></td>
+ <td><code>xml_schema::date</code><br/><a href="#6.5">Section 6.5,
+ "<code>date</code> Parser"</a></td>
+ </tr>
+ <tr>
+ <td><code>dateTime</code></td>
+ <td><code>date_time_pimpl</code></td>
+ <td><code>xml_schema::date_time</code><br/><a href="#6.6">Section 6.6,
+ "<code>dateTime</code> Parser"</a></td>
+ </tr>
+ <tr>
+ <td><code>duration</code></td>
+ <td><code>duration_pimpl</code></td>
+ <td><code>xml_schema::duration</code><br/><a href="#6.7">Section 6.7,
+ "<code>duration</code> Parser"</a></td>
+ </tr>
+ <tr>
+ <td><code>gDay</code></td>
+ <td><code>gday_pimpl</code></td>
+ <td><code>xml_schema::gday</code><br/><a href="#6.8">Section 6.8,
+ "<code>gDay</code> Parser"</a></td>
+ </tr>
+ <tr>
+ <td><code>gMonth</code></td>
+ <td><code>gmonth_pimpl</code></td>
+ <td><code>xml_schema::gmonth</code><br/><a href="#6.9">Section 6.9,
+ "<code>gMonth</code> Parser"</a></td>
+ </tr>
+ <tr>
+ <td><code>gMonthDay</code></td>
+ <td><code>gmonth_day_pimpl</code></td>
+ <td><code>xml_schema::gmonth_day</code><br/><a href="#6.10">Section 6.10,
+ "<code>gMonthDay</code> Parser"</a></td>
+ </tr>
+ <tr>
+ <td><code>gYear</code></td>
+ <td><code>gyear_pimpl</code></td>
+ <td><code>xml_schema::gyear</code><br/><a href="#6.11">Section 6.11,
+ "<code>gYear</code> Parser"</a></td>
+ </tr>
+ <tr>
+ <td><code>gYearMonth</code></td>
+ <td><code>gyear_month_pimpl</code></td>
+ <td><code>xml_schema::gyear_month</code><br/><a href="#6.12">Section
+ 6.12, "<code>gYearMonth</code> Parser"</a></td>
+ </tr>
+ <tr>
+ <td><code>time</code></td>
+ <td><code>time_pimpl</code></td>
+ <td><code>xml_schema::time</code><br/><a href="#6.13">Section 6.13,
+ "<code>time</code> Parser"</a></td>
+ </tr>
+
+ </table>
+
+ <h2><a name="6.1">6.1 <code>QName</code> Parser</a></h2>
+
+ <p>The return type of the <code>qname_pimpl</code> parser implementation
+ is <code>xml_schema::qname</code> which represents an XML qualified
+ name. Its interface is presented below.
+ Note that the <code>std::string</code> type in the interface becomes
+ <code>std::wstring</code> if the selected character type is
+ <code>wchar_t</code>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class qname
+ {
+ public:
+ explicit
+ qname (const std::string&amp; name);
+ qname (const std::string&amp; prefix, const std::string&amp; name);
+
+ const std::string&amp;
+ prefix () const;
+
+ void
+ prefix (const std::string&amp;);
+
+ const std::string&amp;
+ name () const;
+
+ void
+ name (const std::string&amp;);
+ };
+
+ bool
+ operator== (const qname&amp;, const qname&amp;);
+
+ bool
+ operator!= (const qname&amp;, const qname&amp;);
+}
+ </pre>
+
+
+ <h2><a name="6.2">6.2 <code>NMTOKENS</code> and <code>IDREFS</code> Parsers</a></h2>
+
+ <p>The return type of the <code>nmtokens_pimpl</code> and
+ <code>idrefs_pimpl</code> parser implementations is
+ <code>xml_schema::string_sequence</code> which represents a
+ sequence of strings. Its interface is presented below.
+ Note that the <code>std::string</code> type in the interface becomes
+ <code>std::wstring</code> if the selected character type is
+ <code>wchar_t</code>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class string_sequence: public std::vector&lt;std::string>
+ {
+ public:
+ string_sequence ();
+
+ explicit
+ string_sequence (std::vector&lt;std::string>::size_type n,
+ const std::string&amp; x = std::string ());
+
+ template &lt;typename I>
+ string_sequence (const I&amp; begin, const I&amp; end);
+ };
+
+ bool
+ operator== (const string_sequence&amp;, const string_sequence&amp;);
+
+ bool
+ operator!= (const string_sequence&amp;, const string_sequence&amp;);
+}
+ </pre>
+
+
+ <h2><a name="6.3">6.3 <code>base64Binary</code> and <code>hexBinary</code> Parsers</a></h2>
+
+ <p>The return type of the <code>base64_binary_pimpl</code> and
+ <code>hex_binary_pimpl</code> parser implementations is either
+ <code>std::auto_ptr&lt;xml_schema::buffer></code> (C++98) or
+ <code>std::unique_ptr&lt;xml_schema::buffer></code> (C++11),
+ depending on the C++ standard selected (<code>--std</code> XSD
+ compiler option). The <code>xml_schema::buffer</code> type
+ represents a binary buffer and its interface is presented below.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class buffer
+ {
+ public:
+ typedef std::size_t size_t;
+
+ class bounds {}; // Out of bounds exception.
+
+ public:
+ explicit
+ buffer (size_t size = 0);
+ buffer (size_t size, size_t capacity);
+ buffer (const void* data, size_t size);
+ buffer (const void* data, size_t size, size_t capacity);
+ buffer (void* data,
+ size_t size,
+ size_t capacity,
+ bool assume_ownership);
+
+ public:
+ buffer (const buffer&amp;);
+
+ buffer&amp;
+ operator= (const buffer&amp;);
+
+ void
+ swap (buffer&amp;);
+
+ public:
+ size_t
+ capacity () const;
+
+ bool
+ capacity (size_t);
+
+ public:
+ size_t
+ size () const;
+
+ bool
+ size (size_t);
+
+ public:
+ const char*
+ data () const;
+
+ char*
+ data ();
+
+ const char*
+ begin () const;
+
+ char*
+ begin ();
+
+ const char*
+ end () const;
+
+ char*
+ end ();
+ };
+
+ bool
+ operator== (const buffer&amp;, const buffer&amp;);
+
+ bool
+ operator!= (const buffer&amp;, const buffer&amp;);
+}
+ </pre>
+
+ <p>If the <code>assume_ownership</code> argument to the constructor
+ is <code>true</code>, the instance assumes the ownership of the
+ memory block pointed to by the <code>data</code> argument and will
+ eventually release it by calling <code>operator delete()</code>. The
+ <code>capacity()</code> and <code>size()</code> modifier functions
+ return <code>true</code> if the underlying buffer has moved.
+ </p>
+
+ <p>The <code>bounds</code> exception is thrown if the constructor
+ arguments violate the <code>(size&nbsp;&lt;=&nbsp;capacity)</code>
+ constraint.</p>
+
+
+ <h2><a name="6.4">6.4 Time Zone Representation</a></h2>
+
+ <p>The <code>date</code>, <code>dateTime</code>, <code>gDay</code>,
+ <code>gMonth</code>, <code>gMonthDay</code>, <code>gYear</code>,
+ <code>gYearMonth</code>, and <code>time</code> XML Schema built-in
+ types all include an optional time zone component. The following
+ <code>xml_schema::time_zone</code> base class is used to represent
+ this information:</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class time_zone
+ {
+ public:
+ time_zone ();
+ time_zone (short hours, short minutes);
+
+ bool
+ zone_present () const;
+
+ void
+ zone_reset ();
+
+ short
+ zone_hours () const;
+
+ void
+ zone_hours (short);
+
+ short
+ zone_minutes () const;
+
+ void
+ zone_minutes (short);
+ };
+
+ bool
+ operator== (const time_zone&amp;, const time_zone&amp;);
+
+ bool
+ operator!= (const time_zone&amp;, const time_zone&amp;);
+}
+ </pre>
+
+ <p>The <code>zone_present()</code> accessor function returns <code>true</code>
+ if the time zone is specified. The <code>zone_reset()</code> modifier
+ function resets the time zone object to the <em>not specified</em>
+ state. If the time zone offset is negative then both hours and
+ minutes components are represented as negative integers.</p>
+
+
+ <h2><a name="6.5">6.5 <code>date</code> Parser</a></h2>
+
+ <p>The return type of the <code>date_pimpl</code> parser implementation
+ is <code>xml_schema::date</code> which represents a year, a day, and a month
+ with an optional time zone. Its interface is presented below.
+ For more information on the base <code>xml_schema::time_zone</code>
+ class refer to <a href="#6.4">Section 6.4, "Time Zone
+ Representation"</a>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class date
+ {
+ public:
+ date (int year, unsigned short month, unsigned short day);
+ date (int year, unsigned short month, unsigned short day,
+ short zone_hours, short zone_minutes);
+
+ int
+ year () const;
+
+ void
+ year (int);
+
+ unsigned short
+ month () const;
+
+ void
+ month (unsigned short);
+
+ unsigned short
+ day () const;
+
+ void
+ day (unsigned short);
+ };
+
+ bool
+ operator== (const date&amp;, const date&amp;);
+
+ bool
+ operator!= (const date&amp;, const date&amp;);
+}
+ </pre>
+
+ <h2><a name="6.6">6.6 <code>dateTime</code> Parser</a></h2>
+
+ <p>The return type of the <code>date_time_pimpl</code> parser implementation
+ is <code>xml_schema::date_time</code> which represents a year, a month, a day,
+ hours, minutes, and seconds with an optional time zone. Its interface
+ is presented below.
+ For more information on the base <code>xml_schema::time_zone</code>
+ class refer to <a href="#6.4">Section 6.4, "Time Zone
+ Representation"</a>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class date_time
+ {
+ public:
+ date_time (int year, unsigned short month, unsigned short day,
+ unsigned short hours, unsigned short minutes,
+ double seconds);
+
+ date_time (int year, unsigned short month, unsigned short day,
+ unsigned short hours, unsigned short minutes,
+ double seconds, short zone_hours, short zone_minutes);
+
+ int
+ year () const;
+
+ void
+ year (int);
+
+ unsigned short
+ month () const;
+
+ void
+ month (unsigned short);
+
+ unsigned short
+ day () const;
+
+ void
+ day (unsigned short);
+
+ unsigned short
+ hours () const;
+
+ void
+ hours (unsigned short);
+
+ unsigned short
+ minutes () const;
+
+ void
+ minutes (unsigned short);
+
+ double
+ seconds () const;
+
+ void
+ seconds (double);
+ };
+
+ bool
+ operator== (const date_time&amp;, const date_time&amp;);
+
+ bool
+ operator!= (const date_time&amp;, const date_time&amp;);
+}
+ </pre>
+
+ <h2><a name="6.7">6.7 <code>duration</code> Parser</a></h2>
+
+ <p>The return type of the <code>duration_pimpl</code> parser implementation
+ is <code>xml_schema::duration</code> which represents a potentially
+ negative duration in the form of years, months, days, hours, minutes,
+ and seconds. Its interface is presented below.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class duration
+ {
+ public:
+ duration (bool negative,
+ unsigned int years, unsigned int months, unsigned int days,
+ unsigned int hours, unsigned int minutes, double seconds);
+
+ bool
+ negative () const;
+
+ void
+ negative (bool);
+
+ unsigned int
+ years () const;
+
+ void
+ years (unsigned int);
+
+ unsigned int
+ months () const;
+
+ void
+ months (unsigned int);
+
+ unsigned int
+ days () const;
+
+ void
+ days (unsigned int);
+
+ unsigned int
+ hours () const;
+
+ void
+ hours (unsigned int);
+
+ unsigned int
+ minutes () const;
+
+ void
+ minutes (unsigned int);
+
+ double
+ seconds () const;
+
+ void
+ seconds (double);
+ };
+
+ bool
+ operator== (const duration&amp;, const duration&amp;);
+
+ bool
+ operator!= (const duration&amp;, const duration&amp;);
+}
+ </pre>
+
+
+ <h2><a name="6.8">6.8 <code>gDay</code> Parser</a></h2>
+
+ <p>The return type of the <code>gday_pimpl</code> parser implementation
+ is <code>xml_schema::gday</code> which represents a day of the month with
+ an optional time zone. Its interface is presented below.
+ For more information on the base <code>xml_schema::time_zone</code>
+ class refer to <a href="#6.4">Section 6.4, "Time Zone
+ Representation"</a>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class gday
+ {
+ public:
+ explicit
+ gday (unsigned short day);
+ gday (unsigned short day, short zone_hours, short zone_minutes);
+
+ unsigned short
+ day () const;
+
+ void
+ day (unsigned short);
+ };
+
+ bool
+ operator== (const gday&amp;, const gday&amp;);
+
+ bool
+ operator!= (const gday&amp;, const gday&amp;);
+}
+ </pre>
+
+ <h2><a name="6.9">6.9 <code>gMonth</code> Parser</a></h2>
+
+ <p>The return type of the <code>gmonth_pimpl</code> parser implementation
+ is <code>xml_schema::gmonth</code> which represents a month of the year
+ with an optional time zone. Its interface is presented below.
+ For more information on the base <code>xml_schema::time_zone</code>
+ class refer to <a href="#6.4">Section 6.4, "Time Zone
+ Representation"</a>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class gmonth
+ {
+ public:
+ explicit
+ gmonth (unsigned short month);
+ gmonth (unsigned short month, short zone_hours, short zone_minutes);
+
+ unsigned short
+ month () const;
+
+ void
+ month (unsigned short);
+ };
+
+ bool
+ operator== (const gmonth&amp;, const gmonth&amp;);
+
+ bool
+ operator!= (const gmonth&amp;, const gmonth&amp;);
+}
+ </pre>
+
+ <h2><a name="6.10">6.10 <code>gMonthDay</code> Parser</a></h2>
+
+ <p>The return type of the <code>gmonth_day_pimpl</code> parser implementation
+ is <code>xml_schema::gmonth_day</code> which represents a day and a month
+ of the year with an optional time zone. Its interface is presented below.
+ For more information on the base <code>xml_schema::time_zone</code>
+ class refer to <a href="#6.4">Section 6.4, "Time Zone
+ Representation"</a>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class gmonth_day
+ {
+ public:
+ gmonth_day (unsigned short month, unsigned short day);
+ gmonth_day (unsigned short month, unsigned short day,
+ short zone_hours, short zone_minutes);
+
+ unsigned short
+ month () const;
+
+ void
+ month (unsigned short);
+
+ unsigned short
+ day () const;
+
+ void
+ day (unsigned short);
+ };
+
+ bool
+ operator== (const gmonth_day&amp;, const gmonth_day&amp;);
+
+ bool
+ operator!= (const gmonth_day&amp;, const gmonth_day&amp;);
+}
+ </pre>
+
+ <h2><a name="6.11">6.11 <code>gYear</code> Parser</a></h2>
+
+ <p>The return type of the <code>gyear_pimpl</code> parser implementation
+ is <code>xml_schema::gyear</code> which represents a year with
+ an optional time zone. Its interface is presented below.
+ For more information on the base <code>xml_schema::time_zone</code>
+ class refer to <a href="#6.4">Section 6.4, "Time Zone
+ Representation"</a>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class gyear
+ {
+ public:
+ explicit
+ gyear (int year);
+ gyear (int year, short zone_hours, short zone_minutes);
+
+ int
+ year () const;
+
+ void
+ year (int);
+ };
+
+ bool
+ operator== (const gyear&amp;, const gyear&amp;);
+
+ bool
+ operator!= (const gyear&amp;, const gyear&amp;);
+}
+ </pre>
+
+ <h2><a name="6.12">6.12 <code>gYearMonth</code> Parser</a></h2>
+
+ <p>The return type of the <code>gyear_month_pimpl</code> parser implementation
+ is <code>xml_schema::gyear_month</code> which represents a year and a month
+ with an optional time zone. Its interface is presented below.
+ For more information on the base <code>xml_schema::time_zone</code>
+ class refer to <a href="#6.4">Section 6.4, "Time Zone
+ Representation"</a>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class gyear_month
+ {
+ public:
+ gyear_month (int year, unsigned short month);
+ gyear_month (int year, unsigned short month,
+ short zone_hours, short zone_minutes);
+
+ int
+ year () const;
+
+ void
+ year (int);
+
+ unsigned short
+ month () const;
+
+ void
+ month (unsigned short);
+ };
+
+ bool
+ operator== (const gyear_month&amp;, const gyear_month&amp;);
+
+ bool
+ operator!= (const gyear_month&amp;, const gyear_month&amp;);
+}
+ </pre>
+
+
+ <h2><a name="6.13">6.13 <code>time</code> Parser</a></h2>
+
+ <p>The return type of the <code>time_pimpl</code> parser implementation
+ is <code>xml_schema::time</code> which represents hours, minutes,
+ and seconds with an optional time zone. Its interface is presented below.
+ For more information on the base <code>xml_schema::time_zone</code>
+ class refer to <a href="#6.4">Section 6.4, "Time Zone
+ Representation"</a>.</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class time
+ {
+ public:
+ time (unsigned short hours, unsigned short minutes, double seconds);
+ time (unsigned short hours, unsigned short minutes, double seconds,
+ short zone_hours, short zone_minutes);
+
+ unsigned short
+ hours () const;
+
+ void
+ hours (unsigned short);
+
+ unsigned short
+ minutes () const;
+
+ void
+ minutes (unsigned short);
+
+ double
+ seconds () const;
+
+ void
+ seconds (double);
+ };
+
+ bool
+ operator== (const time&amp;, const time&amp;);
+
+ bool
+ operator!= (const time&amp;, const time&amp;);
+}
+ </pre>
+
+
+ <!-- Error Handling -->
+
+
+ <h1><a name="7">7 Document Parser and Error Handling</a></h1>
+
+ <p>In this chapter we will discuss the <code>xml_schema::document</code>
+ type as well as the error handling mechanisms provided by the mapping
+ in more detail. As mentioned in <a href="#3.4">Section 3.4,
+ "Connecting the Parsers Together"</a>, the interface of
+ <code>xml_schema::document</code> depends on the underlying XML
+ parser selected (<a href="#5.3">Section 5.3, "Underlying XML
+ Parser"</a>). The following sections describe the
+ <code>document</code> type interface for Xerces-C++ and
+ Expat as underlying parsers.</p>
+
+ <h2><a name="7.1">7.1 Xerces-C++ Document Parser</a></h2>
+
+ <p>When Xerces-C++ is used as the underlying XML parser, the
+ <code>document</code> type has the following interface. Note that
+ if the character type is <code>wchar_t</code>, then the string type
+ in the interface becomes <code>std::wstring</code>
+ (see <a href="#5.2">Section 5.2, "Character Type and Encoding"</a>).</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class parser_base;
+ class error_handler;
+
+ class flags
+ {
+ public:
+ // Do not validate XML documents with the Xerces-C++ validator.
+ //
+ static const unsigned long dont_validate;
+
+ // Do not initialize the Xerces-C++ runtime.
+ //
+ static const unsigned long dont_initialize;
+
+ // Disable handling of subsequent imports for the same namespace
+ // in Xerces-C++ 3.1.0 and later.
+ //
+ static const unsigned long no_multiple_imports;
+ };
+
+ class properties
+ {
+ public:
+ // Add a location for a schema with a target namespace.
+ //
+ void
+ schema_location (const std::string&amp; namespace_,
+ const std::string&amp; location);
+
+ // Add a location for a schema without a target namespace.
+ //
+ void
+ no_namespace_schema_location (const std::string&amp; location);
+ };
+
+ class document
+ {
+ public:
+ document (parser_base&amp; root,
+ const std::string&amp; root_element_name,
+ bool polymorphic = false);
+
+ document (parser_base&amp; root,
+ const std::string&amp; root_element_namespace,
+ const std::string&amp; root_element_name,
+ bool polymorphic = false);
+
+ public:
+ // Parse URI or a local file.
+ //
+ void
+ parse (const std::string&amp; uri,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse URI or a local file with a user-provided error_handler
+ // object.
+ //
+ void
+ parse (const std::string&amp; uri,
+ error_handler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse URI or a local file with a user-provided ErrorHandler
+ // object. Note that you must initialize the Xerces-C++ runtime
+ // before calling this function.
+ //
+ void
+ parse (const std::string&amp; uri,
+ xercesc::ErrorHandler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse URI or a local file using a user-provided SAX2XMLReader
+ // object. Note that you must initialize the Xerces-C++ runtime
+ // before calling this function.
+ //
+ void
+ parse (const std::string&amp; uri,
+ xercesc::SAX2XMLReader&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ public:
+ // Parse std::istream.
+ //
+ void
+ parse (std::istream&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream with a user-provided error_handler object.
+ //
+ void
+ parse (std::istream&amp;,
+ error_handler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream with a user-provided ErrorHandler object.
+ // Note that you must initialize the Xerces-C++ runtime before
+ // calling this function.
+ //
+ void
+ parse (std::istream&amp;,
+ xercesc::ErrorHandler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream using a user-provided SAX2XMLReader object.
+ // Note that you must initialize the Xerces-C++ runtime before
+ // calling this function.
+ //
+ void
+ parse (std::istream&amp;,
+ xercesc::SAX2XMLReader&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ public:
+ // Parse std::istream with a system id.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream with a system id and a user-provided
+ // error_handler object.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ error_handler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream with a system id and a user-provided
+ // ErrorHandler object. Note that you must initialize the
+ // Xerces-C++ runtime before calling this function.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ xercesc::ErrorHandler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream with a system id using a user-provided
+ // SAX2XMLReader object. Note that you must initialize the
+ // Xerces-C++ runtime before calling this function.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ xercesc::SAX2XMLReader&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ public:
+ // Parse std::istream with system and public ids.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ const std::string&amp; public_id,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream with system and public ids and a user-provided
+ // error_handler object.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ const std::string&amp; public_id,
+ error_handler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream with system and public ids and a user-provided
+ // ErrorHandler object. Note that you must initialize the Xerces-C++
+ // runtime before calling this function.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ const std::string&amp; public_id,
+ xercesc::ErrorHandler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse std::istream with system and public ids using a user-
+ // provided SAX2XMLReader object. Note that you must initialize
+ // the Xerces-C++ runtime before calling this function.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ const std::string&amp; public_id,
+ xercesc::SAX2XMLReader&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ public:
+ // Parse InputSource. Note that you must initialize the Xerces-C++
+ // runtime before calling this function.
+ //
+ void
+ parse (const xercesc::InputSource&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse InputSource with a user-provided error_handler object.
+ // Note that you must initialize the Xerces-C++ runtime before
+ // calling this function.
+ //
+ void
+ parse (const xercesc::InputSource&amp;,
+ error_handler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse InputSource with a user-provided ErrorHandler object.
+ // Note that you must initialize the Xerces-C++ runtime before
+ // calling this function.
+ //
+ void
+ parse (const xercesc::InputSource&amp;,
+ xercesc::ErrorHandler&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+
+ // Parse InputSource using a user-provided SAX2XMLReader object.
+ // Note that you must initialize the Xerces-C++ runtime before
+ // calling this function.
+ //
+ void
+ parse (const xercesc::InputSource&amp;,
+ xercesc::SAX2XMLReader&amp;,
+ flags = 0,
+ const properties&amp; = properties ());
+ };
+}
+ </pre>
+
+ <p>The <code>document</code> class is a root parser for
+ the vocabulary. The first argument to its constructors is the
+ parser for the type of the root element. The <code>parser_base</code>
+ class is the base type for all parser skeletons. The second and
+ third arguments to the <code>document</code>'s constructors are
+ the root element's name and namespace. The last argument,
+ <code>polymorphic</code>, specifies whether the XML documents
+ being parsed use polymorphism. For more information on support
+ for XML Schema polymorphism in the C++/Parser mapping refer
+ to <a href="#5.5">Section 5.5, "Support for Polymorphism"</a>.</p>
+
+ <p>The rest of the <code>document</code> interface consists of overloaded
+ <code>parse()</code> functions. The last two arguments in each of these
+ functions are <code>flags</code> and <code>properties</code>. The
+ <code>flags</code> argument allows you to modify the default behavior
+ of the parsing functions. The <code>properties</code> argument allows
+ you to override the schema location attributes specified in XML
+ documents. Note that the schema location paths are relative to an
+ XML document unless they are complete URIs. For example if you want
+ to use a local schema file then you will need to use a URI in the
+ form <code>file:///absolute/path/to/your/schema</code>.</p>
+
+ <p>A number of overloaded <code>parse()</code> functions have the
+ <code>system_id</code> and <code>public_id</code> arguments. The
+ system id is a <em>system</em> identifier of the resources being
+ parsed (for example, URI or a full file path). The public id is a
+ <em>public</em> identifier of the resource (for example, an
+ application-specific name or a relative file path). The system id
+ is used to resolve relative paths (for example, schema paths). In
+ diagnostics messages the public id is used if it is available.
+ Otherwise the system id is used.</p>
+
+ <p>The error handling mechanisms employed by the <code>document</code>
+ parser are described in <a href="#7.3">Section 7.3, "Error
+ Handling"</a>.</p>
+
+ <h2><a name="7.2">7.2 Expat Document Parser</a></h2>
+
+ <p>When Expat is used as the underlying XML parser, the
+ <code>document</code> type has the following interface. Note that
+ if the character type is <code>wchar_t</code>, then the string type
+ in the interface becomes <code>std::wstring</code>
+ (see <a href="#5.2">Section 5.2, "Character Type and Encoding"</a>).</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class parser_base;
+ class error_handler;
+
+ class document
+ {
+ public:
+ document (parser_base&amp;,
+ const std::string&amp; root_element_name,
+ bool polymorphic = false);
+
+ document (parser_base&amp;,
+ const std::string&amp; root_element_namespace,
+ const std::string&amp; root_element_name,
+ bool polymorphic = false);
+
+ public:
+ // Parse a local file. The file is accessed with std::ifstream
+ // in binary mode. The std::ios_base::failure exception is used
+ // to report io errors (badbit and failbit).
+ void
+ parse (const std::string&amp; file);
+
+ // Parse a local file with a user-provided error_handler
+ // object. The file is accessed with std::ifstream in binary
+ // mode. The std::ios_base::failure exception is used to report
+ // io errors (badbit and failbit).
+ //
+ void
+ parse (const std::string&amp; file, error_handler&amp;);
+
+ public:
+ // Parse std::istream.
+ //
+ void
+ parse (std::istream&amp;);
+
+ // Parse std::istream with a user-provided error_handler object.
+ //
+ void
+ parse (std::istream&amp;, error_handler&amp;);
+
+ // Parse std::istream with a system id.
+ //
+ void
+ parse (std::istream&amp;, const std::string&amp; system_id);
+
+ // Parse std::istream with a system id and a user-provided
+ // error_handler object.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ error_handler&amp;);
+
+ // Parse std::istream with system and public ids.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ const std::string&amp; public_id);
+
+ // Parse std::istream with system and public ids and a user-provided
+ // error_handler object.
+ //
+ void
+ parse (std::istream&amp;,
+ const std::string&amp; system_id,
+ const std::string&amp; public_id,
+ error_handler&amp;);
+
+ public:
+ // Parse a chunk of input. You can call these functions multiple
+ // times with the last call having the last argument true.
+ //
+ void
+ parse (const void* data, std::size_t size, bool last);
+
+ void
+ parse (const void* data, std::size_t size, bool last,
+ error_handler&amp;);
+
+ void
+ parse (const void* data, std::size_t size, bool last,
+ const std::string&amp; system_id);
+
+ void
+ parse (const void* data, std::size_t size, bool last,
+ const std::string&amp; system_id,
+ error_handler&amp;);
+
+ void
+ parse (const void* data, std::size_t size, bool last,
+ const std::string&amp; system_id,
+ const std::string&amp; public_id);
+
+ void
+ parse (const void* data, std::size_t size, bool last,
+ const std::string&amp; system_id,
+ const std::string&amp; public_id,
+ error_handler&amp;);
+
+ public:
+ // Low-level Expat-specific parsing API.
+ //
+ void
+ parse_begin (XML_Parser);
+
+ void
+ parse_begin (XML_Parser, const std::string&amp; public_id);
+
+ void
+ parse_begin (XML_Parser, error_handler&amp;);
+
+ void
+ parse_begin (XML_Parser,
+ const std::string&amp; public_id,
+ error_handler&amp;);
+ void
+ parse_end ();
+ };
+}
+ </pre>
+
+ <p>The <code>document</code> class is a root parser for
+ the vocabulary. The first argument to its constructors is the
+ parser for the type of the root element. The <code>parser_base</code>
+ class is the base type for all parser skeletons. The second and
+ third arguments to the <code>document</code>'s constructors are
+ the root element's name and namespace. The last argument,
+ <code>polymorphic</code>, specifies whether the XML documents
+ being parsed use polymorphism. For more information on support
+ for XML Schema polymorphism in the C++/Parser mapping refer
+ to <a href="#5.5">Section 5.5, "Support for Polymorphism"</a>.</p>
+
+ <p>A number of overloaded <code>parse()</code> functions have the
+ <code>system_id</code> and <code>public_id</code> arguments. The
+ system id is a <em>system</em> identifier of the resources being
+ parsed (for example, URI or a full file path). The public id is a
+ <em>public</em> identifier of the resource (for example, an
+ application-specific name or a relative file path). The system id
+ is used to resolve relative paths. In diagnostics messages the
+ public id is used if it is available. Otherwise the system id
+ is used.</p>
+
+ <p>The <code>parse_begin()</code> and <code>parse_end()</code> functions
+ present a low-level, Expat-specific parsing API for maximum control.
+ A typical use-case would look like this (pseudo-code):</p>
+
+ <pre class="c++">
+xxx_pimpl root_p;
+document doc_p (root_p, "root");
+
+root_p.pre ();
+doc_p.parse_begin (xml_parser, "file.xml");
+
+while (more_data_to_parse)
+{
+ // Call XML_Parse or XML_ParseBuffer.
+
+ if (status == XML_STATUS_ERROR)
+ break;
+}
+
+// Call parse_end even in case of an error to translate
+// XML and Schema errors to exceptions or error_handler
+// calls.
+//
+doc.parse_end ();
+result_type result (root_p.post_xxx ());
+ </pre>
+
+ <p>Note that if your vocabulary uses XML namespaces, the
+ <code>XML_ParserCreateNS()</code> functions should be used to create
+ the XML parser. Space (<code>XML_Char (' ')</code>) should be used
+ as a separator (the second argument to <code>XML_ParserCreateNS()</code>).
+ </p>
+
+ <p>The error handling mechanisms employed by the <code>document</code>
+ parser are described in <a href="#7.3">Section 7.3, "Error
+ Handling"</a>.</p>
+
+
+ <h2><a name="7.3">7.3 Error Handling</a></h2>
+
+ <p>There are three categories of errors that can result from running
+ a parser on an XML document: System, XML, and Application.
+ The System category contains memory allocation and file/stream
+ operation errors. The XML category covers XML parsing and
+ well-formedness checking as well as XML Schema validation errors.
+ Finally, the Application category is for application logic errors
+ that you may want to propagate from parser implementations to the
+ caller of the parser.
+ </p>
+
+ <p>The System errors are mapped to the standard exceptions. The
+ out of memory condition is indicated by throwing an instance
+ of <code>std::bad_alloc</code>. The stream operation errors
+ are reported either by throwing an instance of
+ <code>std::ios_base::failure</code> if exceptions are enabled
+ or by setting the stream state.</p>
+
+ <p>Note that if you are parsing <code>std::istream</code> on
+ which exceptions are not enabled, then you will need to
+ check the stream state before calling the <code>post()</code>
+ callback, as shown in the following example:</p>
+
+ <pre class="c++">
+int
+main (int argc, char* argv[])
+{
+ ...
+
+ std::ifstream ifs (argv[1]);
+
+ if (ifs.fail ())
+ {
+ cerr &lt;&lt; argv[1] &lt;&lt; ": unable to open" &lt;&lt; endl;
+ return 1;
+ }
+
+ root_p.pre ();
+ doc_p.parse (ifs);
+
+ if (ifs.fail ())
+ {
+ cerr &lt;&lt; argv[1] &lt;&lt; ": io failure" &lt;&lt; endl;
+ return 1;
+ }
+
+ result_type result (root_p.post_xxx ());
+}
+ </pre>
+
+ <p>The above example can be rewritten to use exceptions
+ as shown below:</p>
+
+ <pre class="c++">
+int
+main (int argc, char* argv[])
+{
+ try
+ {
+ ...
+
+ std::ifstream ifs;
+ ifs.exceptions (std::ifstream::badbit | std::ifstream::failbit);
+ ifs.open (argv[1]);
+
+ root_p.pre ();
+ doc_p.parse (ifs);
+ result_type result (root_p.post_xxx ());
+ }
+ catch (const std::ifstream::failure&amp;)
+ {
+ cerr &lt;&lt; argv[1] &lt;&lt; ": unable to open or io failure" &lt;&lt; endl;
+ return 1;
+ }
+}
+ </pre>
+
+
+ <p>For reporting application errors from parsing callbacks, you
+ can throw any exceptions of your choice. They are propagated to
+ the caller of the parser without any alterations.</p>
+
+ <p>The XML errors can be reported either by throwing the
+ <code>xml_schema::parsing</code> exception or by a callback
+ to the <code>xml_schema::error_handler</code> object (and
+ <code>xercesc::ErrorHandler</code> object in case of Xerces-C++).</p>
+
+ <p>The <code>xml_schema::parsing</code> exception contains
+ a list of warnings and errors that were accumulated during
+ parsing. Note that this exception is thrown only if there
+ was an error. This makes it impossible to obtain warnings
+ from an otherwise successful parsing using this mechanism.
+ The following listing shows the definition of
+ <code>xml_schema::parsing</code> exception. Note that if the
+ character type is <code>wchar_t</code>, then the string type
+ and output stream type in the definition become
+ <code>std::wstring</code> and <code>std::wostream</code>,
+ respectively (see <a href="#5.2">Section 5.2, "Character Type
+ and Encoding"</a>).</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class exception: public std::exception
+ {
+ protected:
+ virtual void
+ print (std::ostream&amp;) const = 0;
+ };
+
+ inline std::ostream&amp;
+ operator&lt;&lt; (std::ostream&amp; os, const exception&amp; e)
+ {
+ e.print (os);
+ return os;
+ }
+
+
+ class severity
+ {
+ public:
+ enum value
+ {
+ warning,
+ error
+ };
+ };
+
+
+ class error
+ {
+ public:
+ error (xml_schema::severity,
+ const std::string&amp; id,
+ unsigned long line,
+ unsigned long column,
+ const std::string&amp; message);
+
+ xml_schema::severity
+ severity () const;
+
+ const std::string&amp;
+ id () const;
+
+ unsigned long
+ line () const;
+
+ unsigned long
+ column () const;
+
+ const std::string&amp;
+ message () const;
+ };
+
+ std::ostream&amp;
+ operator&lt;&lt; (std::ostream&amp;, const error&amp;);
+
+
+ class diagnostics: public std::vector&lt;error>
+ {
+ };
+
+ std::ostream&amp;
+ operator&lt;&lt; (std::ostream&amp;, const diagnostics&amp;);
+
+
+ class parsing: public exception
+ {
+ public:
+ parsing ();
+ parsing (const xml_schema::diagnostics&amp;);
+
+ const xml_schema::diagnostics&amp;
+ diagnostics () const;
+
+ virtual const char*
+ what () const throw ();
+
+ protected:
+ virtual void
+ print (std::ostream&amp;) const;
+ };
+}
+ </pre>
+
+ <p>The following example shows how we can catch and print this
+ exception. The code will print diagnostics messages one per line
+ in case of an error.</p>
+
+ <pre class="c++">
+int
+main (int argc, char* argv[])
+{
+ try
+ {
+ // Parse.
+ }
+ catch (const xml_schema::parsing&amp; e)
+ {
+ cerr &lt;&lt; e &lt;&lt; endl;
+ return 1;
+ }
+}
+ </pre>
+
+ <p>With the <code>error_handler</code> approach the diagnostics
+ messages are delivered as parsing progresses. The following
+ listing presents the definition of the <code>error_handler</code>
+ interface. Note that if the character type is <code>wchar_t</code>,
+ then the string type in the interface becomes <code>std::wstring</code>
+ (see <a href="#5.2">Section 5.2, "Character Type and Encoding"</a>).</p>
+
+ <pre class="c++">
+namespace xml_schema
+{
+ class error_handler
+ {
+ public:
+ class severity
+ {
+ public:
+ enum value
+ {
+ warning,
+ error,
+ fatal
+ };
+ };
+
+ virtual bool
+ handle (const std::string&amp; id,
+ unsigned long line,
+ unsigned long column,
+ severity,
+ const std::string&amp; message) = 0;
+ };
+}
+ </pre>
+
+ <p>The return value of the <code>handle()</code> function indicates whether
+ parsing should continue if possible. The error with the fatal severity
+ level terminates the parsing process regardless of the returned value.
+ At the end of the parsing process with an error that was reported via
+ the <code>error_handler</code> object, an empty
+ <code>xml_schema::parsing</code> exception is thrown to indicate
+ the failure to the caller. You can alter this behavior by throwing
+ your own exception from the <code>handle()</code> function.</p>
+
+
+ <!-- Appendix A -->
+
+
+ <h1><a name="A">Appendix A &mdash; Supported XML Schema Constructs</a></h1>
+
+ <p>The C++/Parser mapping supports validation of the following W3C XML
+ Schema constructs in the generated code.</p>
+
+ <!-- border="1" is necessary for html2ps -->
+ <table id="features" border="1">
+ <tr><th>Construct</th><th>Notes</th></tr>
+ <tr><th colspan="2">Structure</th></tr>
+
+ <tr><td>element</td><td></td></tr>
+ <tr><td>attribute</td><td></td></tr>
+
+ <tr><td>any</td><td></td></tr>
+ <tr><td>anyAttribute</td><td></td></tr>
+
+ <tr><td>all</td><td></td></tr>
+ <tr><td>sequence</td><td></td></tr>
+ <tr><td>choice</td><td></td></tr>
+
+ <tr><td>complex type, empty content</td><td></td></tr>
+ <tr><td>complex type, mixed content</td><td></td></tr>
+ <tr><td>complex type, simple content extension</td><td></td></tr>
+ <tr><td>complex type, simple content restriction</td>
+ <td>Simple type facets are not validated.</td></tr>
+ <tr><td>complex type, complex content extension</td><td></td></tr>
+ <tr><td>complex type, complex content restriction</td><td></td></tr>
+
+ <tr><td>list</td><td></td></tr>
+
+ <tr><th colspan="2">Datatypes</th></tr>
+
+ <tr><td>byte</td><td></td></tr>
+ <tr><td>unsignedByte</td><td></td></tr>
+ <tr><td>short</td><td></td></tr>
+ <tr><td>unsignedShort</td><td></td></tr>
+ <tr><td>int</td><td></td></tr>
+ <tr><td>unsignedInt</td><td></td></tr>
+ <tr><td>long</td><td></td></tr>
+ <tr><td>unsignedLong</td><td></td></tr>
+ <tr><td>integer</td><td></td></tr>
+ <tr><td>nonPositiveInteger</td><td></td></tr>
+ <tr><td>nonNegativeInteger</td><td></td></tr>
+ <tr><td>positiveInteger</td><td></td></tr>
+ <tr><td>negativeInteger</td><td></td></tr>
+
+ <tr><td>boolean</td><td></td></tr>
+
+ <tr><td>float</td><td></td></tr>
+ <tr><td>double</td><td></td></tr>
+ <tr><td>decimal</td><td></td></tr>
+
+ <tr><td>string</td><td></td></tr>
+ <tr><td>normalizedString</td><td></td></tr>
+ <tr><td>token</td><td></td></tr>
+ <tr><td>Name</td><td></td></tr>
+ <tr><td>NMTOKEN</td><td></td></tr>
+ <tr><td>NCName</td><td></td></tr>
+ <tr><td>language</td><td></td></tr>
+ <tr><td>anyURI</td><td></td></tr>
+
+ <tr><td>ID</td><td>Identity constraint is not enforced.</td></tr>
+ <tr><td>IDREF</td><td>Identity constraint is not enforced.</td></tr>
+
+ <tr><td>NMTOKENS</td><td></td></tr>
+ <tr><td>IDREFS</td><td>Identity constraint is not enforced.</td></tr>
+
+ <tr><td>QName</td><td></td></tr>
+
+ <tr><td>base64Binary</td><td></td></tr>
+ <tr><td>hexBinary</td><td></td></tr>
+
+ <tr><td>date</td><td></td></tr>
+ <tr><td>dateTime</td><td></td></tr>
+ <tr><td>duration</td><td></td></tr>
+ <tr><td>gDay</td><td></td></tr>
+ <tr><td>gMonth</td><td></td></tr>
+ <tr><td>gMonthDay</td><td></td></tr>
+ <tr><td>gYear</td><td></td></tr>
+ <tr><td>gYearMonth</td><td></td></tr>
+ <tr><td>time</td><td></td></tr>
+ </table>
+
+
+ </div>
+</div>
+
+</body>
+</html>