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+% \iffalse meta-comment
+% An Infrastructure for extending macros by general metadata keys
+% Copyright (c) 2007 Michael Kohlhase, all rights reserved
+% this file is released under the
+% LaTeX Project Public License (LPPL)
+% The original of this file is in the public repository at
+% http://github.com/KWARC/sTeX/
+% \fi
+%
+% \iffalse
+%<*package>
+\NeedsTeXFormat{LaTeX2e}[1999/12/01]
+\ProvidesPackage{rdfmeta}[2016/04/07 v0.2 Metadata key upgrades]
+%</package>
+%<*driver>
+\documentclass{ltxdoc}
+\usepackage[sectioning]{rdfmeta}
+\usepackage{url,array,float,stex-logo}
+\usepackage[show]{ed}
+\usepackage{listings}
+\lstset{basicstyle=\small\tt,columns=flexible}
+\lstset{frame=none,numbers=none,lineskip=-.7ex,aboveskip=-.5ex,belowskip=-.5ex}
+\usepackage[hyperref=auto,style=alphabetic]{biblatex}
+\addbibresource{kwarcpubs.bib}
+\addbibresource{extpubs.bib}
+\addbibresource{kwarccrossrefs.bib}
+\addbibresource{extcrossrefs.bib}
+\usepackage{ctangit}
+\usepackage{hyperref}
+\makeindex
+\floatstyle{boxed}
+\newfloat{exfig}{thp}{lop}
+\floatname{exfig}{Example}
+\def\tracissue#1{\cite{sTeX:online}, \hyperlink{http://trac.kwarc.info/sTeX/ticket/#1}{issue #1}}
+\def\omdoc{OMDoc\xspace}
+\def\omdocv#1{OMDoc{#1}\xspace}
+\begin{document}\DocInput{rdfmeta.dtx}\end{document}
+%</driver>
+% \fi
+%
+%\CheckSum{175}
+%
+% \changes{v0.1}{2010/03/05}{new}
+% \changes{v0.2}{2010/09/01}{starred forms work now, more documentation}
+%
+% \GetFileInfo{rdfmeta.sty}
+%
+% \MakeShortVerb{\|}
+% \def\latexml{{\LaTeX}ML}
+%
+% \title{RDFa Metadata in {\LaTeX}\thanks{Version {\fileversion} (last revised
+% {\filedate})}}
+% \author{Michael Kohlhase \\
+% Jacobs University, Bremen\\
+% \url{http://kwarc.info/kohlhase}}
+% \maketitle
+% \begin{abstract}
+% The |rdfmeta| package allows mark up Ontology-based Metadata in {\LaTeX} documents
+% that can be harvested by automated tools or exported to PDF.
+% \end{abstract}
+%\tableofcontents
+%\begin{center}\bf\Huge
+% Experimental!\\
+% do not use!
+%\end{center}\newpage
+%
+% \section[id=intro]{Introduction}
+%
+% The |rdfmeta| package allows mark up extensible metadata in \stex documents, so that
+% that it can be harvested by automated tools or exported to PDF. It is also intended to
+% support the new metadata infrastructure for the {\omdoc} format~\cite{Kohlhase:OMDoc1.2}
+% introduced in {\omdocv{1.3}}~\cite{Kohlhase:OMDoc1.3} (see~\cite{LK:MathOntoAuthDoc09}
+% for the relevant ideas and and~\cite{KohKohLan:ssffld10:biblatex} for an application).
+%
+% Metadata are annotated as key value pairs in the semantic environments provided by
+% \stex. In most markup formats, the metadata vocabularies are fixed by the language
+% designer. In \stex, the |rdfmeta| package allows the user to extend the metadata
+% vocabulary.
+%
+% \begin{exfig}[ht]
+% \begin{verbatim}
+% \importmodule[../ontologies/cert]{certification}
+% ...
+% \section[id=userreq,hasState=$\statedocrd{\tuev}$]{User Requirements}
+% ...
+% \end{verbatim}
+% \vspace*{-1.5em}\hrule
+% \lstinputlisting[language=XMl,morekeywords={imports,metadata,resource,link,omgroup},aboveskip=.5ex]{hasstate.omdoc}
+% \caption{Metadata for Certification}\label{fig:hasState}
+% \end{exfig}
+%
+% Take, for instance, the case where we want to use metadata for the certification status
+% of document fragments. In Figure~\ref{fig:hasState} we use the |hasState| key to say
+% that a section has been approved by the T\"UV, a specific certification agency. There
+% are two concerns here. First, the |hasState| key has to be introduced and given a
+% meaning, and same for the (complex) value |\statedocrd{\tuev}|. This meaning is given in
+% the |certifiation| ontology which we imported via the |\importmodule| command. The
+% ontology can be marked up in \stex (see Figure~\ref{fig:certification}), with the
+% exception that we use the |\keydef| macro for the definition of the |hasState| relation
+% so that it also defines the key. For the details of this see the next section.
+%
+% \section[id=user]{User Interface}
+%
+% We now document the specifics of the environments and macros provided by the |rdfmeta|
+% package from a user perspective.
+%
+% \subsection[id=sec:user:options]{Package Options}
+%
+% The |rdfmeta| package takes the option: \DescribeMacro{showmeta}|showmeta|. If this is
+% set, then the metadata keys are shown (see~\cite{Kohlhase:metakeys:ctan} for details and
+% customization options).
+%
+% The remaining options can be used to specify metadata upgrades of standard keys. The
+% \DescribeMacro{sectioning}|sectioning| option upgrades the |\part|, |\chapter|,
+% |\section|, |\subsection|, |\subsubsection|, |\paragraph| macros (and of course their
+% starred variants).
+%
+% \subsection[id=sec:user:keydef]{Extending Macros and Environments by Metadata Keys}
+%
+% The main user-visible feature of the |rdfmeta| package is the
+% \DescribeMacro{\keydef}|keydef| macro. It takes two arguments, a ``key group
+% identifier'' and a key name. In a nutshell, every \stex command that takes metadata keys
+% comes with a ``key group identifier'' that identifies the set of admissible keys;
+% see~\cite{Kohlhase:metakeys:ctan} for details on this concept. Figure~\ref{fig:keygroups}
+% gives an overview over the key groups and their identifiers in \stex.
+% \begin{figure}
+% \begin{tabular}{|>{\tt}l|>{\tt}p{5.5cm}|>{\tt}p{2.4cm}|}\hline
+% \rm\textbf{Key Group Identifier} & \rm\textbf{Macros} & \rm\textbf{Package/Class} \\\hline\hline
+% dcm@person & DCMPerson & dcm.sty\\\hline
+% dcm@institution & DCMInstitution & dcm.sty\\\hline
+% dcm@sect & section & dcm.sty\\\hline
+% assig & assignment & hwexam.cls\\\hline
+% inclassig & includeassignment & hwexam.cls\\\hline
+% quizheading & quizheading & hwexam.cls\\\hline
+% testheading & quizheading & hwexam.cls\\\hline
+% module & module & modules.sty\\\hline
+% termdef & termdef & modules.sty \\\hline
+% view & view & modules.sty\\\hline
+% omgroup & omgroup & omdoc.sty\\\hline
+% ignore & ignore & omdoc.sty\\\hline
+% omtext & omtext, definition, axiom, assertion, example, inlinedef & omtext.sty, statements.sty\\\hline
+% phrase & phrase & omtext.sty\\\hline
+% problem & problem & problem.sty\\\hline
+% inclprob & includeproblem & problem.sty\\\hline
+% req & requirement & reqdoc.sty\\\hline
+% spf & sproof, spfcases, spfcase, spfstep, spfcomment & sproof.sty\\\hline
+% termref & termref & statements.sty \\\hline
+% symboldec & symboldec & statements.sty\\\hline
+% \end{tabular}
+% \caption{Key Group Identifiers in \protect\stex}\label{fig:keygroups}
+% \end{figure}
+%
+% Semantically, |\keydef{|\meta{keygroup}|}{|\meta{key}|}| defines a symbol just like the
+% |\symdef| macro from the |modules| package~\cite{KohAmb:smmssl:ctan}. But it also
+% extends the syntax of \stex itself: it adds a key \meta{key} to \meta{keygroup}, which
+% allows to state the corresponding metadata as a key/value pair in the \stex macro or
+% environment. Following the ideas from~\cite{LK:MathOntoAuthDoc09}, the metadata is
+% transformed to RDFa metadata~\cite{w3c:WD-rdfa-core-20100803} in {\omdoc}, where the
+% identifiers of relations are exactly the symbols introduced by the corresponding
+% |\keydef|.
+%
+% \begin{exfig}[ht]
+% \lstinputlisting[language=TeX,morekeywords={metalanguage}]{certification}
+% \caption{A simple Ontology on Certification}\label{fig:certification}
+% \end{exfig}
+%
+% In our example in Figure~\ref{fig:certification} we have defined a key |hasstate| in the
+% |omtext| key group\footnote{For the \texttt{\textbackslash omtext} environment and key group
+% see~\cite{Kohlhase:smmtf:ctan}} and a symbol |hasstate| via
+% |\addkey{omtext}{hasstate}|. Furthermore, we have defined the meaning of the relation
+% expressed by the |hasstate| symbol informally and specified some possible objects for
+% the relation (that could of course have been done in other modules as well). We have
+% made use of this metadata ontology and the new key |hasState| in the example in
+% Figure~\ref{fig:hasState}.
+%
+% \subsection{Redefinitions of Common {\LaTeX} Macros and Environments}
+%
+% The |rdfmeta| package redefines common {\LaTeX} commands (e.\,g.\ the sectioning macros)
+% so that they include optional KeyVal arguments that can be extended by |\keydef|
+% commands. With this extension, we can add RDFa metadata to any existing {\LaTeX}
+% document and generate linked data (XHTML+RDFa documents) via the {\latexml}
+% translator.
+%
+% \subsection[id=redefining]{Extending Packages with \texttt{rdfmeta}}
+%
+% The |rdfameta| package also exposes its internal infrastructure for extending the
+% redefinitions. Note that the upgrade macros can only be used in {\LaTeX} packages, as
+% the macro names contain |@|. Consequently, this section is only addressed at package
+% developers who want to extend existing (i.e. not written by them) packages with flexible
+% metadata functionality.
+%
+% \DescribeMacro{\rdfmeta@upgrade}|\rdfmeta@upgrade| is the basic upgrade macro. It takes
+% an optional keyval argument an a command sequence \meta{cseq} as a proper argument and
+% (if that is defined), redefines |\|\meta{cseq} to take a keyval argument. There is a
+% variant \DescribeMacro{\rdfmeta@upgrade*}|\rdfmeta@upgrade*| that has to be used to
+% upgrade macros that have a starred form (e.g. |\section| and friends). Note that
+% |\rdfmeta@upgrade*| upgrades both forms (e.g. |\section| and |\section*|).
+%
+% |\rdfmeta@upgrade| uses four keys to specify the behavior in the case the the macro to
+% be upgraded already has an optional argument. For concreteness, we introduce them using
+% the |\section| macro from standard {\LaTeX} as an example. |\section| has an optional
+% argument for the ``short title'', which will appear in the table of contents. The
+% \DescribeMacro{optarg}|optarg| key can be used to specify a key for the existing
+% optional argument. Thus, after upgrading it via
+% |\rdfmeta@upgrade*[optarg=short]{section}|, we can use the updated form
+% |\section[short=|\meta{toctitle}|]{|\meta{title}|}| instead of the old
+% |\section[|\meta{toctitle}|]{|\meta{title}|}|. Actually, this still has a problem: the
+% |\section*| would also be given the |short| key and would be passed an optional argument
+% (which it does not accept). To remedy this we can set the
+% \DescribeMacro{optargstar}|optargstar| key to |no|. In summary, the correct upgrade
+% command for |\section| and |\section*| would be
+% \begin{verbatim}
+% \rdfmeta@upgrade*[optarg=short,optargstar=no]{section}
+% \end{verbatim}
+% The |\rdfmeta@upgrade*| macro also initializes a metadata key-group (a named set of
+% keys and their handlers; see~\cite{Kohlhase:metakeys:svn} for details) for the section
+% macro with an |id| key for identification (see~\cite{Kohlhase:sref*} for
+% details). Often, the name of the key-group is the same as the command sequence, so we
+% take this as the default, if we want to specify a different metadata key-group name, we
+% can do so with the \DescribeMacro{keygroup}|keygroup| key in |\rdfmeta@upgrade*|.
+%
+% If \DescribeMacro{idlabel}|idlabel| is set to \meta{prefix}, then the {\LaTeX} label is
+% set to the value \meta{prefix}|.|\meta{id}, where \meta{id} is the value given in the
+% RDFa |id| key. This allows to use the normal {\LaTeX} referencing mechanism in addition
+% to the semantic referencing mechanism provided by the |sref|
+% package~\ctancite{Kohlhase:sref}.
+%
+% \subsection[id=limitations]{Limitations}
+%
+% In this section we document known limitations. If you want to help alleviate them,
+% please feel free to contact the package author. Some of them are currently discussed in
+% the \sTeX GitHub repository~\cite{sTeX:github:on}.
+%
+% \begin{compactenum}
+% \item Currently the coverage of the redefinitions of standard commands in the
+% \url{rdfmeta} package is minimal; we will extend this in the future.
+% \item The |\rdfmeta@upgrade| macro only works with single arguments, this should be easy
+% to fix with |\case| for the argument string.
+% \item I am not sure |\rdfmeta@upgrade| works with environments.
+% \item it would be convenient, if we had a macro |\keydefs|, which takes a list of
+% keygroups, so that we can define keys in multiple groups in one go,
+% e.g. |\keydefs{omtext,omgroup}{hasState}| in Figure~\ref{fig:certification}. But the
+% obvious ``solution''
+% \begin{verbatim}
+% \newcommand\keydefs[2]{\@for\@I:=#1\do{\keydef{#1}{#2}}}
+% \end{verbatim}
+% does not work for me.
+% \end{compactenum}
+%
+% \StopEventually{\printbibliography}
+%
+% \section[id=impl]{The Implementation}
+%
+% \subsection{Package Options}\label{sec:impl:options}
+%
+% We declare some switches which will modify the behavior according to the package
+% options. Generally, an option |xxx| will just set the appropriate switches to true
+% (otherwise they stay false).\ednote{need an implementation for {\latexml}}
+%
+% \begin{macrocode}
+%<*package>
+\newif\if@rdfmeta@sectioning\@rdfmeta@sectioningfalse
+\DeclareOption{sectioning}{\@rdfmeta@sectioningtrue}
+\DeclareOption*{\PassOptionsToPackage{\CurrentOption}{sref}
+ \PassOptionsToPackage{\CurrentOption}{modules}}
+\ProcessOptions
+% \end{macrocode}
+%
+% The first measure is to ensure that the right packages are loaded. From the from {\stex}
+% collection, we need the |sref| package (see~\ctancite{Kohlhase:sref}) for handling keys,
+% the |modules| package for exporting the |\keydef| (see~\ctancite{KohAmb:smmssl}).
+%
+% \begin{macrocode}
+\RequirePackage{sref}
+\RequirePackage{modules}
+% \end{macrocode}
+%
+% and we define a macro \DescribeMacro{\rdfmeta@loaded}|rdfmeta@loaded| just for the
+% purpose of determining whether the |rdfmeta| package is loaded.
+%
+% \begin{macro}{\rdfmeta@loaded}
+% \begin{macrocode}
+\newcommand\rdfmeta@loaded{yes}
+% \end{macrocode}
+% \end{macro}
+%
+% And another macro \DescribeMacro{\rdfmeta@sectioning}|rdfmeta@sectioning| to determine
+% wether the sectioning macros have been redefined.
+%
+% \begin{macro}{\rdfmeta@loaded}
+% \begin{macrocode}
+\if@rdfmeta@sectioning\newcommand\rdfmeta@sectioning{yes}\fi
+% \end{macrocode}
+% \end{macro}
+%
+% \subsection[id=impl:keydef]{Key Definitions}
+%
+% \begin{macro}{\keydef}
+% The |\keydef| macro is rather simple, we just add a key to the respective environment
+% and extend the export token register for the current module by an |\addmetakey|
+% instruction.
+% \begin{macrocode}
+\newcommand\keydef[2]{\addmetakey{#1}{#2}%
+\expandafter\g@addto@macro\this@module{\addmetakey{#1}{#2}}}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\listkeydef}
+% The |\listkeydef| macro is analogous, but uses |\addmetalistkey| instead.
+% instruction.
+% \begin{macrocode}
+\newcommand\listkeydef[2]{\addmetalistkey{#1}{#2}%
+\expandafter\g@addto@macro\this@module{\addmetalistkey{#1}{#2}}}
+% \end{macrocode}
+% \end{macro}
+%
+% \subsection[id=impl:upgrade]{RDFa upgrade Facilities}
+%
+% We first define the keys for the |\rdfmeta@upgrade| macro.
+% \begin{macrocode}
+\def\@yes@{yes}
+\addmetakey*{upgrade}{idlabel}
+\addmetakey*{upgrade}{optarg}
+\addmetakey*[yes]{upgrade}{optargstar}
+\addmetakey*{upgrade}{keygroup}
+% \end{macrocode}
+%
+% \begin{macro}{\rdfmeta@upgrade}
+% This upgrade macro gives extended functionality according to the optional keys. The
+% top-level invocation just differentiates on whether a star is following:
+% \begin{macrocode}
+\def\rdfmeta@upgrade{\@ifstar\rdfmeta@upgrade@star\rdfmeta@upgrade@nostar}
+% \end{macrocode}
+% Both cases are almost the same, they only differ in the third line where they call
+% |\rdfmeta@upgrade@base| or |\rdfmeta@upgrade@base@star| defined above. In particular,
+% both take the arguments originally intended for |\rdfmeta@upgrade|.
+% \begin{macrocode}
+\newcommand\rdfmeta@upgrade@nostar[2][]{\metasetkeys{upgrade}{#1}%
+\ifx\upgrade@keygroup\@empty\def\@@group{#2}\else\def\@@group{\upgrade@keygroup}\fi
+\rdfmeta@upgrade@base{#2}{\@nameuse{\@@group @\upgrade@optarg}}}
+% \end{macrocode}
+% They set the metakeys from the second argument, then set |\@@group| to be the intended
+% group (if the |keygroup| key was specified, it takes precedence over the default
+% |#2|).
+% \begin{macrocode}
+\newcommand\rdfmeta@upgrade@star[2][]{\metasetkeys{upgrade}{#1}%
+\ifx\upgrade@keygroup\@empty\def\@@group{#2}\else\def\@@group{\upgrade@keygroup}\fi
+\rdfmeta@upgrade@base@star{#2}{\@nameuse{\@@group @\upgrade@optarg}}}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\rdfmeta@upgrade@base}
+% This auxiliary macro and is invoked as
+% |\rdfmeta@upgrade@base{|\meta{cseq}|}{|\meta{optarg}|}|, where \meta{cseq} is a
+% command sequence name. It checks if |\|\meta{cseq} is defined (if not it does
+% nothing), saves the old behavior of |\|\meta{cseq} as |\rdfmeta@|\meta{cseq}|@old|,
+% and then redefines |\|\meta{cseq} to take a keyval argument and passes \meta{optarg}
+% as the optional argument.
+% \begin{macrocode}
+\newcommand\rdfmeta@upgrade@base[2]{\@ifundefined{#1}{}%
+{\message{redefining macro #1,}
+\ifx\upgrade@idlabel\@empty\srefaddidkey{#1}\else\srefaddidkey[prefix=\upgrade@idlabel]{#1}\fi%
+\expandafter\let\csname rdfmeta@#1@old\expandafter\endcsname\csname #1\endcsname%
+\expandafter\renewcommand\csname #1\endcsname[2][]%
+{\metasetkeys{#1}{##1}\@nameuse{rdfmeta@#1@old}[#2]{##2}}
+\addmetakey*\@@group{\upgrade@optarg}}}
+% \end{macrocode}
+% \end{macro}
+%
+% \begin{macro}{\rdfmeta@upgrade@base@star}
+% This is a variant of |\rdfmeta@upgrade@base|, which also takes care of the starred
+% variants of a macro.
+% \begin{macrocode}
+\newcommand\rdfmeta@upgrade@base@star[2]{\@ifundefined{#1}{}%
+{\message{redefining macros #1 and #1*,}
+\ifx\upgrade@idlabel\@empty\srefaddidkey{#1}\else\srefaddidkey[prefix=\upgrade@idlabel]{#1}\fi%
+\expandafter\let\csname rdfmeta@#1@old\expandafter\endcsname\csname #1\endcsname%
+% \end{macrocode}
+% In this case, we cannot just use |\newcommand| for dealing with the optional argument
+% because the star is between the command sequence and the arguments. So we make a case
+% distinction on the presence of the star.
+% |\rdfmeta@|\meta{cseq}|@old|.
+% \begin{macrocode}
+\expandafter\renewcommand\csname #1\endcsname%
+{\@ifstar{\@nameuse{rdfmeta@#1@star}}{\@nameuse{rdfmeta@#1@nostar}}}%
+% \end{macrocode}
+% the macros |\rdfmeta@|\meta{cseq}|@star| and |\rdfmeta@|\meta{cseq}|@nostar| that are
+% defined in terms of |\rdfmeta@|\meta{cseq}|@old| handle the necessary cases. The second
+% one is simple:
+% \begin{macrocode}
+\expandafter\newcommand\csname rdfmeta@#1@nostar\endcsname[2][]%
+{\metasetkeys{#1}{##1}\edef\@test{#2}%
+\ifx\@test\@empty\@nameuse{rdfmeta@#1@old}{##2}%
+\else\@nameuse{rdfmeta@#1@old}[#2]{##2}\fi}%
+% \end{macrocode}
+% For |\rdfmeta@|\meta{cseq}|@star| we have to take care of the optional argument of the
+% old macro: if the |optargstar| key was set, then we pass the second argument of
+% |\rdfmeta@upgrade@base| as an optional argument to it as above.
+% \begin{macrocode}
+\ifx\upgrade@optargstar\@yes@%
+\expandafter\newcommand\csname rdfmeta@#1@star\endcsname[2][]%
+{\metasetkeys{#1}{##1}\@nameuse{rdfmeta@#1@old}*[#2]{##2}}%
+\else%
+\expandafter\newcommand\csname rdfmeta@#1@star\endcsname[2][]%
+{\metasetkeys{#1}{##1}\@nameuse{rdfmeta@#1@old}*{##2}}%
+\fi%
+\addmetakey*\@@group{\upgrade@optarg}}}
+% \end{macrocode}
+% \end{macro}
+%
+% \subsection[id=impl:redef]{Redefinitions}
+%
+% If the |sectioning| macro is set, we redefine the respective commands
+%
+% \begin{macrocode}
+\if@rdfmeta@sectioning
+\message{redefining sectioning commands!}
+\rdfmeta@upgrade*[optarg=short,optargstar=no]{part}
+\rdfmeta@upgrade*[optarg=short,optargstar=no]{chapter}
+\rdfmeta@upgrade*[optarg=short,optargstar=no]{section}
+\rdfmeta@upgrade*[optarg=short,optargstar=no]{subsection}
+\rdfmeta@upgrade*[optarg=short,optargstar=no]{subsubsection}
+\rdfmeta@upgrade*[optarg=short,optargstar=no]{paragraph}
+\fi
+%</package>
+% \end{macrocode}
+% \Finale
+\endinput
+% \iffalse
+% LocalWords: GPL structuresharing STR LaTeX dcm dtx keyval sref CPERL url qw
+%%% Local Variables:
+%%% mode: doctex
+%%% TeX-master: t
+%%% End:
+% \fi
+% LocalWords: RequirePackage birthdate personaltitle academictitle workaddress
+% LocalWords: privaddress worktel privtel workfax privfax worktelfax noDelim
+% LocalWords: privtelfax getKeyValue valuelist ToString getValue affill STDERR
+% LocalWords: ExportMetadata AssignValue DCMperson DefConstructor afterDigest
+% LocalWords: getArg setValue FishOutMetadata keyvals foreach idlist tabline
+% LocalWords: LookupValue insertElement atabline bitabline shorttitle nc args
+% LocalWords: sharealike noderivativeworks DefMacro authorblock subsubsection
+% LocalWords: contribs OptionalKeyVals omgroup omdoc srcref xml RawTeX
+% LocalWords: openElement iffalse kohlhase Thu rdfmeta latexml fileversion omd
+% LocalWords: maketitle setcounter tocdepth tableofcontents newpage section
+% LocalWords: stex exfig vspace hrule lstinputlisting morekeywords aboveskip
+% LocalWords: hasstate.omdoc statedocrd tuev certifiation keydef ednote texttt
+% LocalWords: keysets rdfameta cseq idlabel ctancite ifundefined impl ltxml
+% LocalWords: printbibliography newcommand srefaddidkey expandafter csname ifx
+% LocalWords: expandafter endcsname csname endcsname renewcommand showmeta
+% LocalWords: symdef redef doctex showmeta metakeys keyset textbackslash cert
+% LocalWords: MathOntoAuthDoc09 WD-rdfa-core-20100803 hasstate omtext omtext
+% LocalWords: addkey optarg optarg toctitle optargstar optargstar keygroup
+% LocalWords: oldpart textsf langle textsf langle newif sectioningfalse ifstar
+% LocalWords: sectioningtrue metasetkeys nameuse addmetakey nostar