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  <title>XSD 4.0.0 Compiler Command Line Manual</title>

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  <h1>NAME</h1>

  <p>xsd - W3C XML Schema to C++ Compiler</p>

  <h1>SYNOPSIS</h1>

  <dl id="synopsis">
    <dt><code><b>xsd</b> <i>command</i> [<i>options</i>] <i>file</i> [<i>file</i> ...]</code></dt>
    <dt><code><b>xsd help</b> [<i>command</i>]</code></dt>
    <dt><code><b>xsd version</b></code></dt>
  </dl>

  <h1>DESCRIPTION</h1>

  <p><code><b>xsd</b></code> generates vocabulary-specific, statically-typed
  C++ mapping from W3C XML Schema definitions. Particular mapping to
  produce is selected by a <code><i>command</i></code>. Each mapping has
  a number of mapping-specific <code><i>options</i></code> that should
  appear, if any, after the <code><i>command</i></code>. Input files should
  be W3C XML Schema definitions. The exact set of the generated files depends
  on the selected mapping and options.</p>

  <h1>COMMANDS</h1>

  <dl id="commands">
    <dt><code><b>cxx-tree</b></code></dt>
    <dd>Generate the C++/Tree mapping. For each input file in the form
        <code><b>name.xsd</b></code> the following C++ files are generated:
        <code><b>name.hxx</b></code> (header file),
        <code><b>name.ixx</b></code> (inline file, generated only if the
          <code><b>--generate-inline</b></code> option is specified),
	<code><b>name.cxx</b></code> (source file), and
        <code><b>name-fwd.hxx</b></code> (forward declaration file, generated
          only if the <code><b>--generate-forward</b></code> option is
          specified).</dd>

    <dt><code><b>cxx-parser</b></code></dt>
    <dd>Generate the C++/Parser mapping. For each input file in the form
        <code><b>name.xsd</b></code> the following C++ files are generated:
        <code><b>name-pskel.hxx</b></code> (parser skeleton header file),
        <code><b>name-pskel.ixx</b></code> (parser skeleton inline file,
          generated only if the <code><b>--generate-inline</b></code>
          option is specified), and
	<code><b>name-pskel.cxx</b></code> (parser skeleton source file).
        If the <code><b>--generate-noop-impl</b></code> or
        <code><b>--generate-print-impl</b></code> option is specified,
        the following additional sample implementation files are generated:
        <code><b>name-pimpl.hxx</b></code> (parser implementation header
        file) and
        <code><b>name-pimpl.cxx</b></code> (parser implementation source
        file). If the <code><b>--generate-test-driver</b></code> option
        is specified, the additional <code><b>name-driver.cxx</b></code>
        test driver file is generated.</dd>

    <dt><code><b>help</b></code></dt>
    <dd>Print usage information and exit. Use
      <p><code><b>xsd help</b> <i>command</i></code></p>
      for command-specific help.
    </dd>

    <dt><code><b>version</b></code></dt>
    <dd>Print version and exit.</dd>
  </dl>

  <h1>OPTIONS</h1>

  <p>Command-specific <code><i>options</i></code>, if any, should appear
  after the corresponding <code><i>command</i></code>.</p>

  <h2>COMMON OPTIONS</h2>

<!-- 
     The following documentation was generated by CLI, a command
     line interface compiler for C++.
-->

<dl class="options">
  <dt><code><b>--std</b></code> <i>version</i></dt>
  <dd>Specify the C++ standard that the generated code should conform to. Valid
  values are <code><b>c++98</b></code> (default) and
  <code><b>c++11</b></code>.

  <p>The C++ standard affects various aspects of the generated code that are
  discussed in more detail in various mapping-specific documentation. Overall,
  when C++11 is selected, the generated code relies on the move semantics and
  uses <code><b>std::unique_ptr</b></code> instead of deprecated
  <code><b>std::auto_ptr</b></code>.</p>

  <p>When the C++11 mode is selected, you normally don't need to perform any
  extra steps other than enable C++11 in your C++ compiler, if required. The
  XSD compiler will automatically add the necessary macro defines to the
  generated header files that will switch the header-only XSD runtime library
  (<code><b>libxsd</b></code>) to the C++11 mode. However, if you include any
  of the XSD runtime headers directly in your application (normally you just
  include the generated headers), then you will need to define the
  <code><b>XSD_CXX11</b></code> macro for your entire project.</p></dd>

  <dt><code><b>--char-type</b></code> <i>type</i></dt>
  <dd>Generate code using the provided character <i>type</i> instead of the
  default <code><b>char</b></code>. Valid values are <code><b>char</b></code>
  and <code><b>wchar_t</b></code>.</dd>

  <dt><code><b>--char-encoding</b></code> <i>enc</i></dt>
  <dd>Specify the character encoding that should be used in the generated code.
  Valid values for the <code><b>char</b></code> character type are
  <code><b>utf8</b></code> (default), <code><b>iso8859-1</b></code>,
  <code><b>lcp</b></code> (Xerces-C++ local code page), and
  <code><b>custom</b></code>. If you pass <code><b>custom</b></code> as the
  value then you will need to include the transcoder implementation header for
  your encoding at the beginning of the generated header files (see the
  <code><b>--hxx-prologue</b></code> option).

  <p>For the <code><b>wchar_t</b></code> character type the only valid value
  is <code><b>auto</b></code> and the encoding is automatically selected
  between UTF-16 and UTF-32/UCS-4, depending on the
  <code><b>wchar_t</b></code> type size.</p></dd>

  <dt><code><b>--output-dir</b></code> <i>dir</i></dt>
  <dd>Write generated files to <i>dir</i> instead of the current directory.</dd>

  <dt><code><b>--generate-inline</b></code></dt>
  <dd>Generate simple functions inline. This option triggers creation of the
  inline file.</dd>

  <dt><code><b>--generate-xml-schema</b></code></dt>
  <dd>Generate a C++ header file as if the schema being compiled defines the XML
  Schema namespace. For the C++/Tree mapping, the resulting file will contain
  definitions for all XML Schema built-in types. For the C++/Parser mapping,
  the resulting file will contain definitions for all the parser skeletons and
  implementations corresponding to the XML Schema built-in types.

  <p>The schema file provided to the compiler need not exist and is only used
  to derive the name of the resulting header file. Use the
  <code><b>--extern-xml-schema</b></code> option to include this file in the
  generated files for other schemas.</p></dd>

  <dt><code><b>--extern-xml-schema</b></code> <i>file</i></dt>
  <dd>Include a header file derived from <i>file</i> instead of generating the XML
  Schema namespace mapping inline. The provided file need not exist and is
  only used to derive the name of the included header file. Use the
  <code><b>--generate-xml-schema</b></code> option to generate this header
  file.</dd>

  <dt><code><b>--namespace-map</b></code> <i>xns</i>=<i>cns</i></dt>
  <dd>Map XML Schema namespace <i>xns</i> to C++ namespace <i>cns</i>. Repeat this
  option to specify mapping for more than one XML Schema namespace. For
  example, the following option:

  <p><code><b>--namespace-map
  http://example.com/foo/bar=foo::bar</b></code></p>

  <p>Will map the <code><b>http://example.com/foo/bar</b></code> XML Schema
  namespace to the <code><b>foo::bar</b></code> C++ namespace.</p></dd>

  <dt><code><b>--namespace-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema namespace names to C++ namespace names. <i>regex</i> is a Perl-like
  regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. Any
  character can be used as a delimiter instead of <code><b>/</b></code>.
  Escaping of the delimiter character in <code><i>pattern</i></code> or
  <code><i>replacement</i></code> is not supported.

  <p>All the regular expressions are pushed into a stack with the last
  specified expression considered first. The first match that succeeds is
  used. Regular expressions are applied to a string in the form</p>

  <p><code><i>filename</i> <i>namespace</i></code></p>

  <p>For example, if you have file <code><b>hello.xsd</b></code> with
  namespace <code><b>http://example.com/hello</b></code> and you run
  <code><b>xsd</b></code> on this file, then the string in question will
  be:</p>

  <p><code><b>hello.xsd. http://example.com/hello</b></code></p>

  <p>For the built-in XML Schema namespace the string is:</p>

  <p><code><b>XMLSchema.xsd http://www.w3.org/2001/XMLSchema</b></code></p>

  <p>The following three steps are performed for each regular expression until
  the match is found:</p>

  <p>1. The expression is applied and if the result is empty the next
  expression is considered.</p>

  <p>2. All <code><b>/</b></code> are replaced with
  <code><b>::</b></code>.</p>

  <p>3. The result is verified to be a valid C++ scope name (e.g.,
  <code><b>foo::bar</b></code>). If this test succeeds, the result is used as
  a C++ namespace name.</p>

  <p>As an example, the following expression maps XML  Schema namespaces in
  the form <code><b>http://example.com/foo/bar</b></code> to C++ namespaces in
  the form <code><b>foo::bar</b></code>:</p>

  <p><code><b>%.* http://example.com/(.+)%$1%</b></code></p>

  <p>See also the REGEX AND SHELL QUOTING section below.</p></dd>

  <dt><code><b>--namespace-regex-trace</b></code></dt>
  <dd>Trace the process of applying regular expressions specified with the
  <code><b>--namespace-regex</b></code> option. Use this option to find out
  why your regular expressions don't do what you expected them to do.</dd>

  <dt><code><b>--reserved-name</b></code> <i>n</i>[=<i>r</i>]</dt>
  <dd>Add name <i>n</i> to the list of names that should not be used as
  identifiers. The name can optionally be followed by <code><b>=</b></code>
  and the replacement name <i>r</i> that should be used instead. All the C++
  keywords are already in this list.</dd>

  <dt><code><b>--include-with-brackets</b></code></dt>
  <dd>Use angle brackets (&lt;>) instead of quotes ("") in generated
  <code><b>#include</b></code> directives.</dd>

  <dt><code><b>--include-prefix</b></code> <i>prefix</i></dt>
  <dd>Add <i>prefix</i> to generated <code><b>#include</b></code> directive paths.

  <p>For example, if you had the following import element in your schema</p>

  <p><code><b>&lt;import namespace="..."
  schemaLocation="base.xsd"/></b></code></p>

  <p>and compiled this fragment with <code><b>--include-prefix
  schemas/</b></code>, then the include directive in the generated code would
  be:</p>

  <p><code><b>#include "schemas/base.hxx"</b></code></p></dd>

  <dt><code><b>--include-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to transform
  <code><b>#include</b></code> directive paths. <i>regex</i> is a Perl-like
  regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. Any
  character can be used as a delimiter instead of <code><b>/</b></code>.
  Escaping of the delimiter character in <code><i>pattern</i></code> or
  <code><i>replacement</i></code> is not supported.

  <p>All the regular expressions are pushed into a stack with the last
  specified expression considered first. The first match that succeeds is
  used.</p>

  <p>As an example, the following expression transforms paths in the form
  <code><b>schemas/foo/bar</b></code> to paths in the form
  <code><b>generated/foo/bar</b></code>:</p>

  <p><code><b>%schemas/(.+)%generated/$1%</b></code></p>

  <p>See also the REGEX AND SHELL QUOTING section below.</p></dd>

  <dt><code><b>--include-regex-trace</b></code></dt>
  <dd>Trace the process of applying regular expressions specified with the
  <code><b>--include-regex</b></code> option. Use this option to find out why
  your regular expressions don't do what you expected them to do.</dd>

  <dt><code><b>--guard-prefix</b></code> <i>prefix</i></dt>
  <dd>Add <i>prefix</i> to generated header inclusion guards. The prefix is
  transformed to upper case and characters that are illegal in a preprocessor
  macro name are replaced with underscores. If this option is not specified
  then the directory part of the input schema file is used as a prefix.</dd>

  <dt><code><b>--hxx-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default
  <code><b>.hxx</b></code> to construct the name of the header file. Note that
  this suffix is also used to construct names of header files corresponding to
  included/imported schemas.</dd>

  <dt><code><b>--ixx-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default
  <code><b>.ixx</b></code> to construct the name of the inline file.</dd>

  <dt><code><b>--cxx-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default
  <code><b>.cxx</b></code> to construct the name of the source file.</dd>

  <dt><code><b>--fwd-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default
  <code><b>-fwd.hxx</b></code> to construct the name of the forward
  declaration file.</dd>

  <dt><code><b>--hxx-regex</b></code> <i>regex</i></dt>
  <dd>Use the provided expression to construct the name of the header file.
  <i>regex</i> is a Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. Note
  that this expression is also used to construct names of header files
  corresponding to included/imported schemas. See also the REGEX AND SHELL
  QUOTING section below.</dd>

  <dt><code><b>--ixx-regex</b></code> <i>regex</i></dt>
  <dd>Use the provided expression to construct the name of the inline file.
  <i>regex</i> is a Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. See
  also the REGEX AND SHELL QUOTING section below.</dd>

  <dt><code><b>--cxx-regex</b></code> <i>regex</i></dt>
  <dd>Use the provided expression to construct the name of the source file.
  <i>regex</i> is a Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. See
  also the REGEX AND SHELL QUOTING section below.</dd>

  <dt><code><b>--fwd-regex</b></code> <i>regex</i></dt>
  <dd>Use the provided expression to construct the name of the forward declaration
  file. <i>regex</i> is a Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. See
  also the REGEX AND SHELL QUOTING section below.</dd>

  <dt><code><b>--hxx-prologue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the beginning of the header file.</dd>

  <dt><code><b>--ixx-prologue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the beginning of the inline file.</dd>

  <dt><code><b>--cxx-prologue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the beginning of the source file.</dd>

  <dt><code><b>--fwd-prologue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the beginning of the forward declaration file.</dd>

  <dt><code><b>--prologue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the beginning of each generated file for which there
  is no file-specific prologue.</dd>

  <dt><code><b>--hxx-epilogue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the end of the header file.</dd>

  <dt><code><b>--ixx-epilogue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the end of the inline file.</dd>

  <dt><code><b>--cxx-epilogue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the end of the source file.</dd>

  <dt><code><b>--fwd-epilogue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the end of the forward declaration file.</dd>

  <dt><code><b>--epilogue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the end of each generated file for which there is no
  file-specific epilogue.</dd>

  <dt><code><b>--hxx-prologue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the beginning of the header file.</dd>

  <dt><code><b>--ixx-prologue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the beginning of the inline file.</dd>

  <dt><code><b>--cxx-prologue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the beginning of the source file.</dd>

  <dt><code><b>--fwd-prologue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the beginning of the forward
  declaration file.</dd>

  <dt><code><b>--prologue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the beginning of each generated
  file for which there is no file-specific prologue file.</dd>

  <dt><code><b>--hxx-epilogue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the end of the header file.</dd>

  <dt><code><b>--ixx-epilogue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the end of the inline file.</dd>

  <dt><code><b>--cxx-epilogue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the end of the source file.</dd>

  <dt><code><b>--fwd-epilogue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the end of the forward declaration
  file.</dd>

  <dt><code><b>--epilogue-file</b></code> <i>file</i></dt>
  <dd>Insert the content of the <i>file</i> at the end of each generated file for
  which there is no file-specific epilogue file.</dd>

  <dt><code><b>--export-symbol</b></code> <i>symbol</i></dt>
  <dd>Insert <i>symbol</i> in places where DLL export/import control statements
  (<code><b>__declspec(dllexport/dllimport)</b></code>) are necessary.</dd>

  <dt><code><b>--export-xml-schema</b></code></dt>
  <dd>Export/import types in the XML Schema namespace using the export symbol
  provided with the <code><b>--export-symbol</b></code> option. The
  <code><b>XSD_NO_EXPORT</b></code> macro can be used to omit this code during
  C++ compilation, which may be useful if you would like to use the same
  generated code across multiple platforms.</dd>

  <dt><code><b>--export-maps</b></code></dt>
  <dd>Export polymorphism support maps from a Win32 DLL into which this generated
  code is placed. This is necessary when your type hierarchy is split across
  several DLLs since otherwise each DLL will have its own set of maps. In this
  situation the generated code for the DLL which contains base types and/or
  substitution group heads should be compiled with this option and the
  generated code for all other DLLs should be compiled with
  <code><b>--import-maps</b></code>. This option is only valid together with
  <code><b>--generate-polymorphic</b></code>. The
  <code><b>XSD_NO_EXPORT</b></code> macro can be used to omit this code during
  C++ compilation, which may be useful if you would like to use the same
  generated code across multiple platforms.</dd>

  <dt><code><b>--import-maps</b></code></dt>
  <dd>Import polymorphism support maps to a Win32 DLL or executable into which
  this generated code is linked. See the <code><b>--export-maps</b></code>
  option documentation for details. This options is only valid together with
  <code><b>--generate-polymorphic</b></code>. The
  <code><b>XSD_NO_EXPORT</b></code> macro can be used to omit this code during
  C++ compilation, which may be useful if you would like to use the same
  generated code across multiple platforms.</dd>

  <dt><code><b>--generate-dep</b></code></dt>
  <dd>Generate <code><b>make</b></code> dependency information. This option
  triggers the creation of the <code><b>.d</b></code> file containing the
  dependencies of the generated files on the main schema file as well as all
  the schema files that it includes/imports, transitively. This dependency
  file is then normally included into the main <code><b>makefile</b></code> to
  implement automatic dependency tracking.

  <p>Note also that automatic dependency generation is not supported in the
  file-per-type mode (<code><b>--file-per-type</b></code>). In this case, all
  the generated files are produced with a single compiler invocation and
  depend on all the schemas. As a result, it is easier to establish such a
  dependency manually, perhaps with the help of the
  <code><b>--file-list*</b></code> options.</p></dd>

  <dt><code><b>--generate-dep-only</b></code></dt>
  <dd>Generate <code><b>make</b></code> dependency information only.</dd>

  <dt><code><b>--dep-phony</b></code></dt>
  <dd>Generate phony targets for included/imported schema files, causing each to
  depend on nothing. Such dummy rules work around <code><b>make</b></code>
  errors caused by the removal of schema files without also updating the
  dependency file to match.</dd>

  <dt><code><b>--dep-target</b></code> <i>target</i></dt>
  <dd>Change the target of the dependency rule. By default it contains all the
  generated C++ files as well as the dependency file itself, without any
  directory prefixes. If you require multiple targets, then you can specify
  them as a single, space-separated argument or you can repeat this option
  multiple times.</dd>

  <dt><code><b>--dep-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default <code><b>.d</b></code>
  to construct the name of the dependency file.</dd>

  <dt><code><b>--dep-regex</b></code> <i>regex</i></dt>
  <dd>Use the provided expression to construct the name of the dependency file.
  <i>regex</i> is a Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. See
  also the REGEX AND SHELL QUOTING section below.</dd>

  <dt><code><b>--disable-warning</b></code> <i>warn</i></dt>
  <dd>Disable printing warning with id <i>warn</i>. If <code><b>all</b></code> is
  specified for the warning id then all warnings are disabled.</dd>

  <dt><code><b>--options-file</b></code> <i>file</i></dt>
  <dd>Read additional options from <i>file</i>. Each option should appearing on a
  separate line optionally followed by space and an option value. Empty lines
  and lines starting with <code><b>#</b></code> are ignored. Option values can
  be enclosed in double (<code><b>"</b></code>) or single
  (<code><b>'</b></code>) quotes  to preserve leading and trailing whitespaces
  as well as to specify empty values. If the value itself contains trailing or
  leading quotes, enclose it with an extra pair of quotes, for example
  <code><b>'"x"'</b></code>. Non-leading and non-trailing quotes are
  interpreted as being part of the option value.

  <p>The semantics of providing options in a file is equivalent to providing
  the same set of options in the same order on the command line at the point
  where the <code><b>--options-file</b></code> option is specified except that
  the shell escaping and quoting is not required. You can repeat this option
  to specify more than one options file.</p></dd>

  <dt><code><b>--show-sloc</b></code></dt>
  <dd>Show the number of generated physical source lines of code (SLOC).</dd>

  <dt><code><b>--sloc-limit</b></code> <i>num</i></dt>
  <dd>Check that the number of generated physical source lines of code (SLOC) does
  not exceed <i>num</i>.</dd>

  <dt><code><b>--proprietary-license</b></code></dt>
  <dd>Indicate that the generated code is licensed under a proprietary license
  instead of the GPL.</dd>

  <dt><code><b>--custom-literals</b></code> <i>file</i></dt>
  <dd>Load custom XML string to C++ literal mappings from <i>file</i>. This
  mechanism can be useful if you are using a custom character encoding and
  some of the strings in your schemas, for example element/attribute names or
  enumeration values, contain non-ASCII characters. In this case you will need
  to provide a custom mapping to C++ literals for such strings. The format of
  this file is specified in the <code><b>custom-literals.xsd</b></code> XML
  Schema file that can be found in the documentation directory.</dd>

  <dt><code><b>--preserve-anonymous</b></code></dt>
  <dd>Preserve anonymous types. By default anonymous types are automatically named
  with names derived from the enclosing elements/attributes. Because mappings
  implemented by this compiler require all types to be named, this option is
  only useful if you want to make sure your schemas don't have anonymous
  types.</dd>

  <dt><code><b>--show-anonymous</b></code></dt>
  <dd>Show elements and attributes that are of anonymous types. This option only
  makes sense together with the <code><b>--preserve-anonymous</b></code>
  option.</dd>

  <dt><code><b>--anonymous-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to derive names for
  anonymous types from the enclosing attributes/elements. <i>regex</i> is a
  Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. Any
  character can be used as a delimiter instead of <code><b>/</b></code>.
  Escaping of the delimiter character in <code><i>pattern</i></code> or
  <code><i>replacement</i></code> is not supported.

  <p>All the regular expressions are pushed into a stack with the last
  specified expression considered first. The first match that succeeds is
  used. Regular expressions are applied to a string in the form</p>

  <p><code><i>filename</i> <i>namespace</i> <i>xpath</i></code></p>

  <p>For instance:</p>

  <p><code><b>hello.xsd http://example.com/hello element</b></code></p>

  <p><code><b>hello.xsd http://example.com/hello type/element</b></code></p>

  <p>As an example, the following expression makes all the derived names start
  with capital letters. This could be useful when your naming convention
  requires type names to start with capital letters:</p>

  <p><code><b>%.* .* (.+/)*(.+)%\u$2%</b></code></p>

  <p>See also the REGEX AND SHELL QUOTING section below.</p></dd>

  <dt><code><b>--anonymous-regex-trace</b></code></dt>
  <dd>Trace the process of applying regular expressions specified with the
  <code><b>--anonymous-regex</b></code> option. Use this option to find out
  why your regular expressions don't do what you expected them to do.</dd>

  <dt><code><b>--location-map</b></code> <i>ol</i>=<i>nl</i></dt>
  <dd>Map the original schema location <i>ol</i> that is specified in the XML
  Schema include or import elements to new schema location <i>nl</i>. Repeat
  this option to map more than one schema location. For example, the following
  option maps the <code><b>http://example.com/foo.xsd</b></code> URL to the
  <code><b>foo.xsd</b></code> local file.

  <p><code><b>--location-map http://example.com/foo.xsd=foo.xsd</b></code></p></dd>

  <dt><code><b>--location-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to map schema
  locations that are specified in the XML Schema include or import elements.
  <i>regex</i> is a Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. Any
  character can be used as a delimiter instead of <code><b>/</b></code>.
  Escaping of the delimiter character in <code><i>pattern</i></code> or
  <code><i>replacement</i></code> is not supported. All the regular
  expressions are pushed into a stack with the last specified expression
  considered first. The first match that succeeds is used.

  <p>For example, the following expression maps URL locations in the form
  <code><b>http://example.com/foo/bar.xsd</b></code> to local files in the
  form <code><b>bar.xsd</b></code>:</p>

  <p><code><b>%http://.+/(.+)%$1%</b></code></p>

  <p>See also the REGEX AND SHELL QUOTING section below.</p></dd>

  <dt><code><b>--location-regex-trace</b></code></dt>
  <dd>Trace the process of applying regular expressions specified with the
  <code><b>--location-regex</b></code> option. Use this option to find out why
  your regular expressions don't do what you expected them to do.</dd>

  <dt><code><b>--file-per-type</b></code></dt>
  <dd>Generate a separate set of C++ files for each type defined in XML Schema.
  Note that in this mode you only need to compile the root schema(s) and the
  code will be generated for all included and imported schemas. This
  compilation mode is primarily useful when some of your schemas cannot be
  compiled separately or have cyclic dependencies which involve type
  inheritance. Other options related to this mode are:
  <code><b>--type-file-regex</b></code>,
  <code><b>--schema-file-regex</b></code>,
  <code><b>--fat-type-file</b></code>, and <code><b>--file-list</b></code>.</dd>

  <dt><code><b>--type-file-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate type
  names to file names when the <code><b>--file-per-type</b></code> option is
  specified. <i>regex</i> is a Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. Any
  character can be used as a delimiter instead of <code><b>/</b></code>.
  Escaping of the delimiter character in <code><i>pattern</i></code> or
  <code><i>replacement</i></code> is not supported. All the regular
  expressions are pushed into a stack with the last specified expression
  considered first. The first match that succeeds is used. Regular expressions
  are applied to a string in the form

  <p><code><i>namespace</i> <i>type-name</i></code></p>

  <p>For example, the following expression maps type <code><b>foo</b></code>
  that is defined in the <code><b>http://example.com/bar</b></code> namespace
  to file name <code><b>bar-foo</b></code>:</p>

  <p><code><b>%http://example.com/(.+) (.+)%$1-$2%</b></code></p>

  <p>See also the REGEX AND SHELL QUOTING section below.</p></dd>

  <dt><code><b>--type-file-regex-trace</b></code></dt>
  <dd>Trace the process of applying regular expressions specified with the
  <code><b>--type-file-regex</b></code> option. Use this option to find out
  why your regular expressions don't do what you expected them to do.</dd>

  <dt><code><b>--schema-file-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate schema
  file names when the <code><b>--file-per-type</b></code> option is specified.
  <i>regex</i> is a Perl-like regular expression in the form
  <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>. Any
  character can be used as a delimiter instead of <code><b>/</b></code>.
  Escaping of the delimiter character in <code><i>pattern</i></code> or
  <code><i>replacement</i></code> is not supported. All the regular
  expressions are pushed into a stack with the last specified expression
  considered first. The first match that succeeds is used. Regular Expressions
  are applied to the absolute filesystem path of a schema file and the result,
  including the directory part, if any, is used to derive the
  <code><b>#include</b></code> directive paths as well as the generated C++
  file paths. This option, along with <code><b>--type-file-regex</b></code>
  are primarily useful to place the generated files into subdirectories or to
  resolve file name conflicts.

  <p>For example, the following expression maps schema files in the
  <code><b>foo/1.0.0/</b></code> subdirectory to the files in the
  <code><b>foo/</b></code> subdirectory. As a result, the
  <code><b>#include</b></code> directive paths for such schemas will be in the
  <code><b>foo/schema.hxx</b></code> form and the generated C++ files will be
  placed into the <code><b>foo/</b></code> subdirectory:</p>

  <p><code><b>%.*/foo/1.0.0/(.+)%foo/$1%</b></code></p>

  <p>See also the REGEX AND SHELL QUOTING section below.</p></dd>

  <dt><code><b>--schema-file-regex-trace</b></code></dt>
  <dd>Trace the process of applying regular expressions specified with the
  <code><b>--schema-file-regex</b></code> option. Use this option to find out
  why your regular expressions don't do what you expected them to do.</dd>

  <dt><code><b>--fat-type-file</b></code></dt>
  <dd>Generate code corresponding to global elements into type files instead of
  schema files when the <code><b>--type-file-regex</b></code> option is
  specified. This option is primarily useful when trying to minimize the
  amount of object code that is linked to an executable by packaging compiled
  generated code into a static (archive) library.</dd>

  <dt><code><b>--file-list</b></code> <i>file</i></dt>
  <dd>Write a list of generated C++ files to <i>file</i>. This option is primarily
  useful in the file-per-type compilation mode
  (<code><b>--file-per-type</b></code>) to create a list of generated C++
  files, for example, as a makefile fragment.</dd>

  <dt><code><b>--file-list-prologue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the beginning of the file list. As a convenience, all
  occurrences of the <code><b>\n</b></code> character sequence in <i>text</i>
  are replaced with new lines. This option can, for example, be used to assign
  the generated file list to a makefile variable.</dd>

  <dt><code><b>--file-list-epilogue</b></code> <i>text</i></dt>
  <dd>Insert <i>text</i> at the end of the file list. As a convenience, all
  occurrences of the <code><b>\n</b></code> character sequence in <i>text</i>
  are replaced with new lines.</dd>

  <dt><code><b>--file-list-delim</b></code> <i>text</i></dt>
  <dd>Delimit file names written to the file list with <i>text</i> instead of new
  lines. As a convenience, all occurrences of the <code><b>\n</b></code>
  character sequence in <i>text</i> are replaced with new lines.</dd>

</dl>
  <h2>CXX-TREE COMMAND OPTIONS</h2>

<!-- 
     The following documentation was generated by CLI, a command
     line interface compiler for C++.
-->

<dl class="options">
  <dt><code><b>--generate-polymorphic</b></code></dt>
  <dd>Generate polymorphism-aware code. Specify this option if you use
  substitution groups or <code><b>xsi:type</b></code>. Use the
  <code><b>--polymorphic-type</b></code> or
  <code><b>--polymorphic-type-all</b></code> option to specify which type
  hierarchies are polymorphic.</dd>

  <dt><code><b>--polymorphic-type</b></code> <i>type</i></dt>
  <dd>Indicate that <i>type</i> is a root of a polymorphic type hierarchy. The
  compiler can often automatically determine which types are polymorphic based
  on the substitution group declarations. However, you may need to use this
  option if you are not using substitution groups or if substitution groups
  are defined in another schema. You need to specify this option when
  compiling every schema file that references <i>type</i>. The <i>type</i>
  argument is an XML Schema type name that can be optionally qualified with a
  namespace in the <code><i>namespace</i><b>#</b><i>name</i></code> form.</dd>

  <dt><code><b>--polymorphic-type-all</b></code></dt>
  <dd>Indicate that all types should be treated as polymorphic.</dd>

  <dt><code><b>--polymorphic-plate</b></code> <i>num</i></dt>
  <dd>Specify the polymorphic map plate the generated code should register on.
  This functionality is primarily useful to segregate multiple schemas that
  define the same polymorphic types.</dd>

  <dt><code><b>--ordered-type</b></code> <i>type</i></dt>
  <dd>Indicate that element order in <i>type</i> is significant. An example would
  be a complex type with unbounded choice as a content model where the element
  order in XML has application-specific semantics. For ordered types the
  compiler generates a special container data member and a corresponding set
  of accessors and modifiers that are used to capture the order of elements
  and, for mixed content, of text.

  <p>The <i>type</i> argument is an XML Schema type name that can be
  optionally qualified with a namespace in the
  <code><i>namespace</i><b>#</b><i>name</i></code> form. Note also that you
  will need to specify this option when compiling every schema file that has
  other ordered types derived from this type.</p></dd>

  <dt><code><b>--ordered-type-derived</b></code></dt>
  <dd>Automatically treat types derived from ordered bases as also ordered. This
  is primarily useful if you would like to be able to iterate over the
  complete content using the content order container.</dd>

  <dt><code><b>--ordered-type-mixed</b></code></dt>
  <dd>Automatically treat complex types with mixed content as ordered.</dd>

  <dt><code><b>--ordered-type-all</b></code></dt>
  <dd>Indicate that element order in all types is significant.</dd>

  <dt><code><b>--order-container</b></code> <i>type</i></dt>
  <dd>Specify a custom class template that should be used as a container for the
  content order in ordered types instead of the default
  <code><b>std::vector</b></code>. See <code><b>--ordered-type</b></code> for
  more information on ordered type. This option is primarily useful if you
  need to perform more complex lookups in the content order container, for
  example by element id. In this case, a container like Boost multi-index may
  be more convenient. Note that if using a custom container, you will also
  most likely need to include the relevant headers using the
  <code><b>--hxx-prologue*</b></code> options.</dd>

  <dt><code><b>--generate-serialization</b></code></dt>
  <dd>Generate serialization functions. Serialization functions convert the object
  model back to XML.</dd>

  <dt><code><b>--generate-ostream</b></code></dt>
  <dd>Generate ostream insertion operators (<code><b>operator&lt;&lt;</b></code>)
  for generated types. This allows one to easily print a fragment or the whole
  object model for debugging or logging.</dd>

  <dt><code><b>--generate-doxygen</b></code></dt>
  <dd>Generate documentation comments suitable for extraction by the Doxygen
  documentation system. Documentation from annotations is added to the
  comments if present in the schema.</dd>

  <dt><code><b>--generate-comparison</b></code></dt>
  <dd>Generate comparison operators (<code><b>operator==</b></code> and
  <code><b>operator!=</b></code>) for complex types. Comparison is performed
  member-wise.</dd>

  <dt><code><b>--generate-default-ctor</b></code></dt>
  <dd>Generate default constructors even for types that have required members.
  Required members of an instance constructed using such a constructor are not
  initialized and accessing them results in undefined behavior.</dd>

  <dt><code><b>--generate-from-base-ctor</b></code></dt>
  <dd>Generate constructors that expect an instance of a base type followed by all
  required members.</dd>

  <dt><code><b>--suppress-assignment</b></code></dt>
  <dd>Suppress the generation of copy assignment operators for complex types. If
  this option is specified, the copy assignment operators for such types are
  declared private and left unimplemented.</dd>

  <dt><code><b>--generate-detach</b></code></dt>
  <dd>Generate detach functions for required elements and attributes. Detach
  functions for optional and sequence cardinalities are provided by the
  respective containers. These functions, for example, allow you to move
  sub-trees in the object model either within the same tree or between
  different trees.</dd>

  <dt><code><b>--generate-wildcard</b></code></dt>
  <dd>Generate accessors and modifiers as well as parsing and serialization code
  for XML Schema wildcards (<code><b>any</b></code> and
  <code><b>anyAttribute</b></code>). XML content matched by wildcards is
  presented as DOM fragments. Note that you need to initialize the Xerces-C++
  runtime if you are using this option.</dd>

  <dt><code><b>--generate-any-type</b></code></dt>
  <dd>Extract and store content of the XML Schema <code><b>anyType</b></code> type
  as a DOM fragment. Note that you need to initialize the Xerces-C++ runtime
  if you are using this option.</dd>

  <dt><code><b>--generate-insertion</b></code> <i>os</i></dt>
  <dd>Generate data representation stream insertion operators for the <i>os</i>
  output stream type. Repeat this option to specify more than one stream type.
  The ACE CDR stream (<code><b>ACE_OutputCDR</b></code>) and RPC XDR are
  recognized by the compiler and the necessary <code><b>#include</b></code>
  directives are automatically generated. For custom stream types use the
  <code><b>--hxx-prologue*</b></code> options to provide the necessary
  declarations.</dd>

  <dt><code><b>--generate-extraction</b></code> <i>is</i></dt>
  <dd>Generate data representation stream extraction constructors for the
  <i>is</i> input stream type. Repeat this option to specify more than one
  stream type. The ACE CDR stream (<code><b>ACE_InputCDR</b></code>) and RPC
  XDR are recognized by the compiler and the necessary
  <code><b>#include</b></code> directives are automatically generated. For
  custom stream types use the <code><b>--hxx-prologue*</b></code> options to
  provide the necessary declarations.</dd>

  <dt><code><b>--generate-forward</b></code></dt>
  <dd>Generate a separate header file with forward declarations for the types
  being generated.</dd>

  <dt><code><b>--suppress-parsing</b></code></dt>
  <dd>Suppress the generation of the parsing functions and constructors. Use this
  option to reduce the generated code size when parsing from XML is not
  needed.</dd>

  <dt><code><b>--generate-element-type</b></code></dt>
  <dd>Generate types instead of parsing and serialization functions for root
  elements. This is primarily useful to distinguish object models with the
  same root type but with different root elements.</dd>

  <dt><code><b>--generate-element-map</b></code></dt>
  <dd>Generate a root element map that allows uniform parsing and serialization of
  multiple root elements. This option is only valid together with
  <code><b>--generate-element-type</b></code>.</dd>

  <dt><code><b>--generate-intellisense</b></code></dt>
  <dd>Generate workarounds for IntelliSense bugs in Visual Studio 2005 (8.0). When
  this option is used, the resulting code is slightly more verbose.
  IntelliSense in Visual Studio 2008 (9.0) and later does not require these
  workarounds. Support for IntelliSense in Visual Studio 2003 (7.1) is
  improved with this option but is still incomplete.</dd>

  <dt><code><b>--omit-default-attributes</b></code></dt>
  <dd>Omit attributes with default and fixed values from serialized XML documents.</dd>

  <dt><code><b>--type-naming</b></code> <i>style</i></dt>
  <dd>Specify the type naming convention that should be used in the generated
  code. Valid styles are <code><b>knr</b></code> (default),
  <code><b>ucc</b></code>, and <code><b>java</b></code>. See the NAMING
  CONVENTION section below for more information.</dd>

  <dt><code><b>--function-naming</b></code> <i>style</i></dt>
  <dd>Specify the function naming convention that should be used in the generated
  code. Valid styles are <code><b>knr</b></code> (default),
  <code><b>lcc</b></code>, and <code><b>java</b></code>. See the NAMING
  CONVENTION section below for more information.</dd>

  <dt><code><b>--type-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema type names to C++ type names. See the NAMING CONVENTION section below
  for more information.</dd>

  <dt><code><b>--accessor-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema names of elements/attributes to C++ accessor function names. See the
  NAMING CONVENTION section below for more information.</dd>

  <dt><code><b>--one-accessor-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema names of elements/attributes with cardinality one to C++ accessor
  function names. See the NAMING CONVENTION section below for more
  information.</dd>

  <dt><code><b>--opt-accessor-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema names of elements/attributes with cardinality optional to C++
  accessor function names. See the NAMING CONVENTION section below for more
  information.</dd>

  <dt><code><b>--seq-accessor-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema names of elements/attributes with cardinality sequence to C++
  accessor function names. See the NAMING CONVENTION section below for more
  information.</dd>

  <dt><code><b>--modifier-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema names of elements/attributes to C++ modifier function names. See the
  NAMING CONVENTION section below for more information.</dd>

  <dt><code><b>--one-modifier-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema names of elements/attributes with cardinality one to C++ modifier
  function names. See the NAMING CONVENTION section below for more
  information.</dd>

  <dt><code><b>--opt-modifier-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema names of elements/attributes with cardinality optional to C++
  modifier function names. See the NAMING CONVENTION section below for more
  information.</dd>

  <dt><code><b>--seq-modifier-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema names of elements/attributes with cardinality sequence to C++
  modifier function names. See the NAMING CONVENTION section below for more
  information.</dd>

  <dt><code><b>--parser-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema element names to C++ parsing function names. See the NAMING
  CONVENTION section below for more information.</dd>

  <dt><code><b>--serializer-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema element names to C++ serialization function names. See the NAMING
  CONVENTION section below for more information.</dd>

  <dt><code><b>--const-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema-derived names to C++ constant names. See the NAMING CONVENTION
  section below for more information.</dd>

  <dt><code><b>--enumerator-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema enumeration values to C++ enumerator names. See the NAMING CONVENTION
  section below for more information.</dd>

  <dt><code><b>--element-type-regex</b></code> <i>regex</i></dt>
  <dd>Add <i>regex</i> to the list of regular expressions used to translate XML
  Schema element names to C++ element type names. See the NAMING CONVENTION
  section below for more information.</dd>

  <dt><code><b>--name-regex-trace</b></code></dt>
  <dd>Trace the process of applying regular expressions specified with the name
  transformation options. Use this option to find out why your regular
  expressions don't do what you expected them to do.</dd>

  <dt><code><b>--root-element-first</b></code></dt>
  <dd>Treat only the first global element as a document root. By default all
  global elements are considered document roots.</dd>

  <dt><code><b>--root-element-last</b></code></dt>
  <dd>Treat only the last global element as a document root. By default all global
  elements are considered document roots.</dd>

  <dt><code><b>--root-element-all</b></code></dt>
  <dd>Treat all global elements as document roots. This is the default behavior.
  By explicitly specifying this option you can suppress the warning that is
  issued if more than one global element is defined.</dd>

  <dt><code><b>--root-element-none</b></code></dt>
  <dd>Do not treat any global elements as document roots. By default all global
  elements are considered document roots.</dd>

  <dt><code><b>--root-element</b></code> <i>element</i></dt>
  <dd>Treat only <i>element</i> as a document root. Repeat this option to specify
  more than one root element.</dd>

  <dt><code><b>--custom-type</b></code> <i>map</i></dt>
  <dd>Use a custom C++ type instead of the generated class. The <i>map</i>
  argument is in the form
  <code><i>name</i>[<b>=</b><i>type</i>[<b>/</b><i>base</i>]]</code>, where
  <i>name</i> is a type name as defined in XML Schema and <i>type</i> is a C++
  type name that should be used instead. If <i>type</i> is not present or
  empty then the custom type is assumed to have the same name and be defined
  in the same namespace as the generated class would have. If <i>base</i> is
  specified then the generated class is still generated but with that name.</dd>

  <dt><code><b>--custom-type-regex</b></code> <i>regex</i></dt>
  <dd>Use custom C++ types instead of the generated classes. The <i>regex</i>
  argument is in the form
  <code><b>/</b><i>name-pat</i><b>/</b>[<i>type-sub</i><b>/</b>[<i>base-sub</i><b>/</b>]]</code>,
  where <i>name-pat</i> is a regex pattern that will be matched against type
  names as defined in XML Schema and <i>type-sub</i> is a C++ type name
  substitution that should be used instead. If <i>type-sub</i> is not present
  or its substitution results in an empty string then the custom type is
  assumed to have the same name and be defined in the same namespace as the
  generated class would have. If <i>base-sub</i> is present and its
  substitution results in a non-empty string then the generated class is still
  generated but with the result of this substitution as its name. The pattern
  and substitutions are in the Perl regular expression format. See also the
  REGEX AND SHELL QUOTING section below.</dd>

  <dt><code><b>--parts</b></code> <i>num</i></dt>
  <dd>Split generated source code into <i>num</i> parts. This is useful when
  translating large, monolithic schemas and a C++ compiler is not able to
  compile the resulting source code at once (usually due to insufficient
  memory).</dd>

  <dt><code><b>--parts-suffix</b></code> <i>suffix</i></dt>
  <dd>Use <i>suffix</i> instead of the default '<code><b>-</b></code>' to separate
  the file name from the part number.</dd>

</dl>
  <h2>CXX-PARSER COMMAND OPTIONS</h2>

<!-- 
     The following documentation was generated by CLI, a command
     line interface compiler for C++.
-->

<dl class="options">
  <dt><code><b>--type-map</b></code> <i>mapfile</i></dt>
  <dd>Read XML Schema to C++ type mapping information from <i>mapfile</i>. Repeat
  this option to specify several type maps. Type maps are considered in order
  of appearance and the first match is used. By default all user-defined types
  are mapped to <code><b>void</b></code>. See the TYPE MAP section below for
  more information.</dd>

  <dt><code><b>--xml-parser</b></code> <i>parser</i></dt>
  <dd>Use <i>parser</i> as the underlying XML parser. Valid values are
  <code><b>xerces</b></code> for Xerces-C++ (default) and
  <code><b>expat</b></code> for Expat.</dd>

  <dt><code><b>--generate-validation</b></code></dt>
  <dd>Generate validation code. The validation code ("perfect parser") ensures
  that instance documents conform to the schema. Validation code is generated
  by default when the selected underlying XML parser is non-validating
  (<code><b>expat</b></code>).</dd>

  <dt><code><b>--suppress-validation</b></code></dt>
  <dd>Suppress the generation of validation code. Validation is suppressed by
  default when the selected underlying XML parser is validating
  (<code><b>xerces</b></code>).</dd>

  <dt><code><b>--generate-polymorphic</b></code></dt>
  <dd>Generate polymorphism-aware code. Specify this option if you use
  substitution groups or <code><b>xsi:type</b></code>.</dd>

  <dt><code><b>--generate-noop-impl</b></code></dt>
  <dd>Generate a sample parser implementation that does nothing (no operation).
  The sample implementation can then be filled with the application-specific
  code. For an input file in the form <code><b>name.xsd</b></code> this option
  triggers the generation of two additional C++ files in the form:
  <code><b>name-pimpl.hxx</b></code> (parser implementation header file) and
  <code><b>name-pimpl.cxx</b></code> (parser implementation source file).</dd>

  <dt><code><b>--generate-print-impl</b></code></dt>
  <dd>Generate a sample parser implementation that prints the XML data to
  <code>STDOUT</code>. For an input file in the form
  <code><b>name.xsd</b></code> this option triggers the generation of two
  additional C++ files in the form: <code><b>name-pimpl.hxx</b></code> (parser
  implementation header file) and <code><b>name-pimpl.cxx</b></code> (parser
  implementation source file).</dd>

  <dt><code><b>--generate-test-driver</b></code></dt>
  <dd>Generate a test driver for the sample parser implementation. For an input
  file in the form <code><b>name.xsd</b></code> this option triggers the
  generation of an additional C++ file in the form
  <code><b>name-driver.cxx</b></code>.</dd>

  <dt><code><b>--force-overwrite</b></code></dt>
  <dd>Force overwriting of the existing implementation and test driver files. Use
  this option only if you do not mind loosing the changes you have made in the
  sample implementation or test driver files.</dd>

  <dt><code><b>--root-element-first</b></code></dt>
  <dd>Indicate that the first global element is the document root. This
  information is used to generate the test driver for the sample
  implementation.</dd>

  <dt><code><b>--root-element-last</b></code></dt>
  <dd>Indicate that the last global element is the document root. This information
  is used to generate the test driver for the sample implementation.</dd>

  <dt><code><b>--root-element</b></code> <i>element</i></dt>
  <dd>Indicate that <i>element</i> is the document root. This information is used
  to generate the test driver for the sample implementation.</dd>

  <dt><code><b>--skel-type-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default
  <code><b>_pskel</b></code> to construct the names of the generated parser
  skeletons.</dd>

  <dt><code><b>--skel-file-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default
  <code><b>-pskel</b></code> to construct the names of the generated parser
  skeleton files.</dd>

  <dt><code><b>--impl-type-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default
  <code><b>_pimpl</b></code> to construct the names of the parser
  implementations for the built-in XML Schema types as well as sample parser
  implementations.</dd>

  <dt><code><b>--impl-file-suffix</b></code> <i>suffix</i></dt>
  <dd>Use the provided <i>suffix</i> instead of the default
  <code><b>-pimpl</b></code> to construct the names of the generated sample
  parser implementation files.</dd>

</dl>
  <h1>NAMING CONVENTION</h1>

  <p>The compiler can be instructed to use a particular naming
     convention in the generated code. A number of widely-used
     conventions can be selected using the <code><b>--type-naming</b></code>
     and <code><b>--function-naming</b></code> options. A custom
     naming convention can be achieved using the
     <code><b>--type-regex</b></code>,
     <code><b>--accessor-regex</b></code>,
     <code><b>--one-accessor-regex</b></code>,
     <code><b>--opt-accessor-regex</b></code>,
     <code><b>--seq-accessor-regex</b></code>,
     <code><b>--modifier-regex</b></code>,
     <code><b>--one-modifier-regex</b></code>,
     <code><b>--opt-modifier-regex</b></code>,
     <code><b>--seq-modifier-regex</b></code>,
     <code><b>--parser-regex</b></code>,
     <code><b>--serializer-regex</b></code>,
     <code><b>--const-regex</b></code>,
     <code><b>--enumerator-regex</b></code>, and
     <code><b>--element-type-regex</b></code> options.
  </p>

  <p>The <code><b>--type-naming</b></code> option specifies the
     convention that should be used for naming C++ types. Possible
     values for this option are <code><b>knr</b></code> (default),
     <code><b>ucc</b></code>, and <code><b>java</b></code>. The
     <code><b>knr</b></code> value (stands for K&amp;R) signifies
     the standard, lower-case naming convention with the underscore
     used as a word delimiter, for example: <code>foo</code>,
     <code>foo_bar</code>. The <code><b>ucc</b></code> (stands
     for upper-camel-case) and
     <code><b>java</b></code> values a synonyms for the same
     naming convention where the first letter of each word in the
     name is capitalized, for example: <code>Foo</code>,
     <code>FooBar</code>.</p>

  <p>Similarly, the <code><b>--function-naming</b></code> option
     specifies the convention that should be used for naming C++
     functions. Possible values for this option are <code><b>knr</b></code>
     (default), <code><b>lcc</b></code>, and <code><b>java</b></code>. The
     <code><b>knr</b></code> value (stands for K&amp;R) signifies
     the standard, lower-case naming convention with the underscore
     used as a word delimiter, for example: <code>foo()</code>,
     <code>foo_bar()</code>. The <code><b>lcc</b></code> value
     (stands for lower-camel-case) signifies a naming convention
     where the first letter of each word except the first is
     capitalized, for example: <code>foo()</code>, <code>fooBar()</code>.
     The <code><b>java</b></code> naming convention is similar to
     the lower-camel-case one except that accessor functions are prefixed
     with <code>get</code>, modifier functions are prefixed
     with <code>set</code>, parsing functions are prefixed
     with <code>parse</code>, and serialization functions are
     prefixed with <code>serialize</code>, for example:
     <code>getFoo()</code>, <code>setFooBar()</code>,
     <code>parseRoot()</code>, <code>serializeRoot()</code>.</p>

  <p>Note that the naming conventions specified with the
     <code><b>--type-naming</b></code> and
     <code><b>--function-naming</b></code> options perform only limited
     transformations on the names that come from the schema in the
     form of type, attribute, and element names. In other words, to
     get consistent results, your schemas should follow a similar
     naming convention as the one you would like to have in the
     generated code. Alternatively, you can use the
     <code><b>--*-regex</b></code> options (discussed below)
     to perform further transformations on the names that come from
     the schema.</p>

  <p>The
     <code><b>--type-regex</b></code>,
     <code><b>--accessor-regex</b></code>,
     <code><b>--one-accessor-regex</b></code>,
     <code><b>--opt-accessor-regex</b></code>,
     <code><b>--seq-accessor-regex</b></code>,
     <code><b>--modifier-regex</b></code>,
     <code><b>--one-modifier-regex</b></code>,
     <code><b>--opt-modifier-regex</b></code>,
     <code><b>--seq-modifier-regex</b></code>,
     <code><b>--parser-regex</b></code>,
     <code><b>--serializer-regex</b></code>,
     <code><b>--const-regex</b></code>,
     <code><b>--enumerator-regex</b></code>, and
     <code><b>--element-type-regex</b></code> options allow you to
     specify extra regular expressions for each name category in
     addition to the predefined set that is added depending on
     the <code><b>--type-naming</b></code> and
     <code><b>--function-naming</b></code> options. Expressions
     that are provided with the <code><b>--*-regex</b></code>
     options are evaluated prior to any predefined expressions.
     This allows you to selectively override some or all of the
     predefined transformations. When debugging your own expressions,
     it is often useful to see which expressions match which names.
     The <code><b>--name-regex-trace</b></code> option allows you
     to trace the process of applying regular expressions to
     names.</p>

  <p>The value for the <code><b>--*-regex</b></code> options should be
     a perl-like regular expression in the form
     <code><b>/</b><i>pattern</i><b>/</b><i>replacement</i><b>/</b></code>.
     Any character can be used as a delimiter instead of <code><b>/</b></code>.
     Escaping of the delimiter character in <code><i>pattern</i></code> or
     <code><i>replacement</i></code> is not supported.
     All the regular expressions for each category are pushed into a
     category-specific stack with the last specified expression
     considered first. The first match that succeeds is used. For the
     <code><b>--one-accessor-regex</b></code> (accessors with cardinality one),
     <code><b>--opt-accessor-regex</b></code> (accessors with cardinality optional), and
     <code><b>--seq-accessor-regex</b></code> (accessors with cardinality sequence)
     categories the  <code><b>--accessor-regex</b></code> expressions are
     used as a fallback. For the
     <code><b>--one-modifier-regex</b></code>,
     <code><b>--opt-modifier-regex</b></code>, and
     <code><b>--seq-modifier-regex</b></code>
     categories the  <code><b>--modifier-regex</b></code> expressions are
     used as a fallback. For the <code><b>--element-type-regex</b></code>
     category the <code><b>--type-regex</b></code> expressions are
     used as a fallback.</p>

  <p>The type name expressions (<code><b>--type-regex</b></code>)
     are evaluated on the name string that has the following
     format:</p>

  <p><code>[<i>namespace</i> ]<i>name</i>[,<i>name</i>][,<i>name</i>][,<i>name</i>]</code></p>

  <p>The element type name expressions
     (<code><b>--element-type-regex</b></code>), effective only when
     the <code><b>--generate-element-type</b></code> option is specified,
     are evaluated on the name string that has the following
     format:</p>

  <p><code><i>namespace</i> <i>name</i></code></p>

  <p>In the type name format the <code><i>namespace</i></code> part
     followed by a space is only present for global type names. For
     global types and elements defined in schemas without a target
     namespace, the <code><i>namespace</i></code> part is empty but
     the space is still present. In the type name format after the
     initial <code><i>name</i></code> component, up to three additional
     <code><i>name</i></code> components can be present, separated
     by commas. For example:</p>

  <p><code><b>http://example.com/hello type</b></code></p>
  <p><code><b>foo</b></code></p>
  <p><code><b>foo,iterator</b></code></p>
  <p><code><b>foo,const,iterator</b></code></p>

  <p>The following set of predefined regular expressions is used to
     transform type names when the upper-camel-case naming convention
     is selected:</p>

  <p><code><b>/(?:[^ ]* )?([^,]+)/\u$1/</b></code></p>
  <p><code><b>/(?:[^ ]* )?([^,]+),([^,]+)/\u$1\u$2/</b></code></p>
  <p><code><b>/(?:[^ ]* )?([^,]+),([^,]+),([^,]+)/\u$1\u$2\u$3/</b></code></p>
  <p><code><b>/(?:[^ ]* )?([^,]+),([^,]+),([^,]+),([^,]+)/\u$1\u$2\u$3\u$4/</b></code></p>

  <p>The accessor and modifier expressions
     (<code><b>--*accessor-regex</b></code> and
     <code><b>--*modifier-regex</b></code>) are evaluated on the name string
     that has the following format:</p>

  <p><code><i>name</i>[,<i>name</i>][,<i>name</i>]</code></p>

  <p>After the initial <code><i>name</i></code> component, up to two
     additional <code><i>name</i></code> components can be present,
     separated by commas. For example:</p>

  <p><code><b>foo</b></code></p>
  <p><code><b>dom,document</b></code></p>
  <p><code><b>foo,default,value</b></code></p>

  <p>The following set of predefined regular expressions is used to
     transform accessor names when the <code><b>java</b></code> naming
     convention is selected:</p>

  <p><code><b>/([^,]+)/get\u$1/</b></code></p>
  <p><code><b>/([^,]+),([^,]+)/get\u$1\u$2/</b></code></p>
  <p><code><b>/([^,]+),([^,]+),([^,]+)/get\u$1\u$2\u$3/</b></code></p>

  <p>For the parser, serializer, and enumerator categories, the
     corresponding regular expressions are evaluated on local names of
     elements and on enumeration values, respectively. For example, the
     following predefined regular expression is used to transform parsing
     function names when the <code><b>java</b></code> naming convention
     is selected:</p>

  <p><code><b>/(.+)/parse\u$1/</b></code></p>

  <p>The const category is used to create C++ constant names for the
     element/wildcard/text content ids in ordered types.</p>

  <p>See also the REGEX AND SHELL QUOTING section below.</p>

  <h1>TYPE MAP</h1>

  <p>Type map files are used in C++/Parser to define a mapping between
     XML Schema and C++ types. The compiler uses this information
     to determine the return types of <code><b>post_*</b></code>
     functions 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
     built-in XML Schema types to suitable C++ types (discussed
     below) and all other types to <code><b>void</b></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>
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><b>" "</b></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><b>post_*</b></code> functions.
     Optional <code><i>&lt;cxx-arg-type></i></code> is an argument
     type for callback functions 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><b>*</b></code> or <code><b>&amp;</b></code> (that is,
     it is a pointer or a reference) and
     <code><b>const</b>&nbsp;<i>&lt;cxx-ret-type></i><b>&amp;</b></code>
     otherwise.
     <code><i>&lt;file-name></i></code> is a file name either in the
     <code><b>" "</b></code> or <code><b>&lt; ></b></code> format
     and is added with the <code><b>#include</b></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><b>http://www.example.com/xmlns/my#orange</b></code>
     XML Schema type, the <code><b>my::orange_t*</b></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>
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 that can be
     presented as the following map files. The string-based XML Schema
     built-in types are mapped to either <code><b>std::string</b></code>
     or <code><b>std::wstring</b></code> depending on the character type
     selected with the <code><b>--char-type</b></code> option
     (<code><b>char</b></code> by default).</p>

  <pre>
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_ptr&lt;xml_schema::buffer>
               std::auto_ptr&lt;xml_schema::buffer>;
  hexBinary std::auto_ptr&lt;xml_schema::buffer>
            std::auto_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>The last predefined rule maps anything that wasn't mapped by
     previous rules to <code><b>void</b></code>:</p>

  <pre>
namespace .*
{
  .* void void;
}
  </pre>


  <p>When you provide your own type maps with the
     <code><b>--type-map</b></code> option, they are evaluated first.
     This allows you to selectively override predefined rules.</p>

  <h1>REGEX AND SHELL QUOTING</h1>

  <p>When entering a regular expression argument in the shell
     command line it is often necessary to use quoting (enclosing
     the argument in <code><b>"&nbsp;"</b></code> or
     <code><b>'&nbsp;'</b></code>) in order to prevent the shell
     from interpreting certain characters, for example, spaces as
     argument separators and <code><b>$</b></code> as variable
     expansions.</p>

  <p>Unfortunately it is hard to achieve this in a manner that is
     portable across POSIX shells, such as those found on
     GNU/Linux and UNIX, and Windows shell. For example, if you
     use <code><b>"&nbsp;"</b></code> for quoting you will get a
     wrong result with POSIX shells if your expression contains
     <code><b>$</b></code>. The standard way of dealing with this
     on POSIX systems is to use <code><b>'&nbsp;'</b></code> instead.
     Unfortunately, Windows shell does not remove <code><b>'&nbsp;'</b></code>
     from arguments when they are passed to applications. As a result you
     may have to use <code><b>'&nbsp;'</b></code> for POSIX and
     <code><b>"&nbsp;"</b></code> for Windows (<code><b>$</b></code> is
     not treated as a special character on Windows).</p>

  <p>Alternatively, you can save regular expression options into
     a file, one option per line, and use this file with the
     <code><b>--options-file</b></code> option. With this approach
     you don't need to worry about shell quoting.</p>

  <h1>DIAGNOSTICS</h1>

  <p>If the input file is not a valid W3C XML Schema definition,
    <code><b>xsd</b></code> will issue diagnostic messages to STDERR
    and exit with non-zero exit code.</p>

  <h1>BUGS</h1>

  <p>Send bug reports to the
     <a href="mailto:xsd-users@codesynthesis.com">xsd-users@codesynthesis.com</a> mailing list.</p>

  </div>
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