% \iffalse meta-comment % % Copyright (C) 2017 by Scott Pakin % ------------------------------------------------------- % % This file may be distributed and/or modified under the % conditions of the LaTeX Project Public License, either version 1.3c % of this license or (at your option) any later version. % The latest version of this license is in: % % http://www.latex-project.org/lppl.txt % % and version 1.3c or later is part of all distributions of LaTeX % version 2008/05/04 or later. % % \fi % % \iffalse %<*driver> \ProvidesFile{hyperxmp.dtx} % %\NeedsTeXFormat{LaTeX2e}[1999/12/01] %\ProvidesPackage{hyperxmp} %<*package> [2017/11/26 v3.4 Store hyperref metadata in XMP format] % % %<*driver> \bgroup \catcode`\&=11 \gdef\levelchar{&} \egroup \documentclass{ltxdoc} \usepackage{graphicx} \usepackage{color} \usepackage{tocbibind} \usepackage{microtype} \usepackage{needspace} \usepackage{varioref} \usepackage{alltt} \usepackage{needspace} \usepackage[utf8]{inputenc} \usepackage{hyperxmp} \usepackage[unicode,bookmarksopen,bookmarksopenlevel=2,bookmarksnumbered]{hyperref} \EnableCrossrefs \CodelineIndex \RecordChanges % Specify this document's metadata. \title{The \pkgname{hyperxmp} package\thanks{This document corresponds to \pkgname{hyperxmp}~\fileversion, dated \filedate.}} \author{Scott Pakin \\ \texttt{scott+hyxmp@pakin.org}} \hypersetup{% pdfauthor={Scott Pakin}, pdftitle={The hyperxmp package}, pdfsubject={LaTeX2e support for XMP metadata}, pdfkeywords={LaTeX, embedded metadata, XMP, PDF, copyright, license, comments}, pdfcopyright={Copyright (C) 2017, Scott Pakin}, pdflicenseurl={http://www.latex-project.org/lppl/}, pdfcaptionwriter={Scott Pakin}, pdfcontactemail={scott+hyxmp@pakin.org}, pdfcontacturl={http://www.pakin.org/\xmptilde scott/}, pdflang={en-US}, baseurl={http://mirror.ctan.org/macros/latex/contrib/hyperxmp/hyperxmp.pdf} } \begin{document} \DocInput{hyperxmp.dtx} \Needspace{10\baselineskip} \phantomsection\addcontentsline{toc}{section}{Change History} \PrintChanges \makeatletter \let\orig@index@prologue=\index@prologue \def\index@prologue{% \phantomsection\addcontentsline{toc}{section}{Index} \orig@index@prologue }% \makeatother \Needspace{12\baselineskip} \PrintIndex \end{document} % % \fi % % \CheckSum{1825} % % \CharacterTable % {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z % Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z % Digits \0\1\2\3\4\5\6\7\8\9 % Exclamation \! Double quote \" Hash (number) \# % Dollar \$ Percent \% Ampersand \& % Acute accent \' Left paren \( Right paren \) % Asterisk \* Plus \+ Comma \, % Minus \- Point \. Solidus \/ % Colon \: Semicolon \; Less than \< % Equals \= Greater than \> Question mark \? % Commercial at \@ Left bracket \[ Backslash \\ % Right bracket \] Circumflex \^ Underscore \_ % Grave accent \` Left brace \{ Vertical bar \| % Right brace \} Tilde \~} % % % \changes{v1.0}{2006/05/14}{Initial version} % \changes{v2.0}{2012/08/02}{Heiko Oberdiek's major rewrite of the code % to better support native-Unicode \string\TeX\ implementations % (\string\XeTeX\ and \string\LuaTeX)} % \changes{v2.0}{2012/08/26}{Added support for the \protect\acro{XMP} Basic % schema and miscellaneous other bits of metadata} % \changes{v1.2}{2010/06/04}{Added support for the \protect\XeTeX\ backend % (\texttt{xdvipdfmx})} % \changes{v1.2}{2010/06/07}{Added support for the Photoshop schema} % \changes{v2.2}{2010/12/06}{Added support for the \protect\acro{IPTC} Photo Metadata schema} % \changes{v2.4}{2013/12/21}{Added support for the \protect\acro{PDF/A} % Identification schema, as requested by Florian Breitwieser} % \changes{v2.5}{2014/06/19}{Enabled ``\texttt{\string\string\string\_}'' % to work within email addresses, as requested by Leonid Sinev} % \changes{v2.6}{2014/09/24}{Added support for a new \protect\optname{pdfdate} % key to explicitly specify the document date (and optionally time)} % \changes{v2.9}{2016/04/25}{Force inclusion of \protect\xmpterm{dc:creator}, % \protect\xmpterm{dc:title}, and \protect\xmpterm{dc:description}---even if % empty---when \protect\pkgname{hyperref} is loaded with the % \protect\optname{pdfa} option (suggested by Leonid Sinev)} % \changes{v2.9}{2016/04/26}{Introduced the \protect\optname{pdftype} % package option, which enables an author to specify the type of % document being produced} % \changes{v3.0}{2016/07/02}{Made the code compatible with \string\LuaTeX~0.85. % Thanks to Robert Schlicht, Leonid Sinev, and David Carlisle for bug % reports and to Leonid Sinev for helping test the new % \protect\pkgname{hyperxmp} code} % \changes{v3.4}{2017/11/04}{Use \protect\pkgname{ifmtarg} to test for % empty arguments, including non-empty but all spaces} % % \GetFileInfo{hyperxmp.dtx} % % \DoNotIndex{,\,\ ,\!,\",\#,\(,\),\*,\<,\>,\@cons,\@empty} % \DoNotIndex{\@ifpackageloaded,\@ifundefined,\@nil,\@tempcnta,\@tempcntb} % \DoNotIndex{\MessageBreak,\\,\^,\^,\_,\advance,\afterassignment} % \DoNotIndex{\aftergroup,\begin,\begingroup,\bgroup,\catcode,\csname,\def} % \DoNotIndex{\divide,\edef,\egroup,\else,\end,\endcsname,\endgroup} % \DoNotIndex{\expandafter,\fi,\futurelet,\g@addto@macro,\gdef,\global,\if} % \DoNotIndex{\ifcase,\ifnum,\ifx,\immediate,\lccode,\let,\loop,\lowercase} % \DoNotIndex{\multiply,\newcommand,\noexpand,\or,\relax,\repeat,\space} % \DoNotIndex{\string,\the,\toks,\uccode,\uppercase,\usepackage,\xdef,\~} % % ^^A Define a few logical styles. % \DeclareRobustCommand{\term}[1]{#1\SortIndex{#1}{#1}} % \DeclareRobustCommand{\pkgname}[1]{\mbox{\textsf{#1}}\SortIndex{#1}{\textsf{#1}}} % \makeatletter % \DeclareRobustCommand{\xmpterm}[2][]{^^A % \def\xmptermopt{#1}^^A % \ifx\xmptermopt\@empty % \mbox{\textsf{#2}}^^A % \else % \mbox{\textsf{#2}}\slash\mbox{\textsf{#1}}^^A % \SortIndex{#1}{\textsf{#1}}^^A % \fi % \SortIndex{#2}{\textsf{#2}}^^A % } % \makeatother % \DeclareRobustCommand{\pdfterm}[1]{\mbox{\textsf{#1}}\SortIndex{#1}{\textsf{#1}}} % \DeclareRobustCommand{\cmdname}[1]{\mbox{\texttt{#1}}\SortIndex{#1}{\texttt{#1}}} % \DeclareRobustCommand{\optname}[1]{^^A % \mbox{\textsf{#1}}^^A % \SortIndex{#1}{\textsf{#1} (option)}^^A % \index{options=\textsf{#1}}^^A % } % \DeclareRobustCommand{\acrostyle}[1]{\textsc{\MakeLowercase{#1}}} % \DeclareRobustCommand{\acro}[1]{^^A % \mbox{\acrostyle{#1}}^^A % \SortIndex{#1}{\acrostyle{#1}}^^A % } % \newcounter{note} % \newcommand{\usagenote}[1]{^^A % \addtocounter{note}{1}^^A % \paragraph{Note~\thenote: #1}% % } % % ^^A Define some other shortcut macros. % \DeclareRobustCommand{\tex}{^^A % \texorpdfstring{\TeX\SortIndex{TeX}{\TeX}}{TeX}^^A % } % \DeclareRobustCommand{\XeTeXlogo}{^^A % X\lower0.5ex\hbox{\kern-.15em\reflectbox{E}}\kern-0.1667em\TeX % } % \DeclareRobustCommand{\XeTeX}{^^A % \texorpdfstring{\XeTeXlogo\SortIndex{XeTeX}{\XeTeXlogo}}{XeTeX}^^A % } % \DeclareRobustCommand{\XeLaTeXlogo}{^^A % X\lower0.5ex\hbox{\kern-.15em\reflectbox{E}}\kern-0.1667em\LaTeX % } % \DeclareRobustCommand{\XeLaTeX}{^^A % \texorpdfstring{\XeLaTeXlogo\SortIndex{XeLaTeX}{\XeLaTeXlogo}}{XeLaTeX}^^A % } % \DeclareRobustCommand{\LuaTeXlogo}{Lua\TeX} % \DeclareRobustCommand{\LuaTeX}{^^A % \texorpdfstring{\LuaTeXlogo\SortIndex{LuaTeX}{\LuaTeXlogo}}{LuaTeX}^^A % } % \DeclareRobustCommand{\LuaLaTeXlogo}{Lua\LaTeX} % \DeclareRobustCommand{\LuaLaTeX}{^^A % \texorpdfstring{\LuaLaTeXlogo\SortIndex{LuaLaTeX}{\LuaLaTeXlogo}}{LuaLaTeX}^^A % } % \DeclareRobustCommand{\pdfTeXlogo}{pdf\TeX} % \DeclareRobustCommand{\pdfTeX}{^^A % \texorpdfstring{\pdfTeXlogo\SortIndex{pdfTeX}{\pdfTeXlogo}}{pdfTeX}^^A % } % \DeclareRobustCommand{\pdfLaTeXlogo}{pdf\LaTeX} % \DeclareRobustCommand{\pdfLaTeX}{^^A % \texorpdfstring{\pdfLaTeXlogo\SortIndex{pdfLaTeX}{\pdfLaTeXlogo}}{pdfLaTeX}^^A % } % \DeclareRobustCommand{\Dvips}{^^A % \texorpdfstring{Dvips\SortIndex{dvips}{\texttt{dvips}}}{Dvips}^^A % } % \DeclareRobustCommand{\Lua}{^^A % Lua\index{Lua}^^A % } % % ^^A Define an environment just like macro but for Lua functions. % \makeatletter % \newenvironment{luafunc}{^^A % \begingroup % \catcode`\_=11 % \def\PrintMacroName##1{\strut\MacroFont\string##1\ }^^A % \def\SpecialIndex@##1##2{^^A % \@bsphack % \special@index{\string##1\actualchar % \string\verb\quotechar*\verbatimchar##1\verbatimchar##2}^^A % \@esphack % }^^A % \begin{macro}^^A % }{^^A % \end{macro}^^A % \endgroup % } % \makeatother % % ^^A Pack figures a bit tighter onto the page. % \renewcommand{\floatpagefraction}{0.8} % % ^^A Help \pageref refer to arbitrary content. % \newcounter{pagelabel} % % \maketitle % \sloppy % % \begin{abstract} % \pkgname{hyperxmp} makes it easy for an author to include \acro{XMP} % metadata in a \acro{PDF} document produced by \LaTeX\@. \pkgname{hyperxmp} % integrates seamlessly with \pkgname{hyperref} and requires virtually % no modifications to a document that already specifies document % metadata through \pkgname{hyperref}'s mechanisms. % \end{abstract} % % % \section{Introduction} % % Adobe Systems, Inc.\ has been promoting % \acro{XMP}~\cite{Adobe2012:XMP}---eXtensible Metadata Platform---as a % standard way to include metadata within a document. The idea behind % \acro{XMP} is that it is an \acro{XML}-based description of various % document attributes and is embedded as uncompressed, unencoded text % within the document it describes. By storing the metadata this way it % is independent of the document's file format. That is, regardless of % whether a document is in \acro{PDF}, \acrostyle{JPEG}, % \acrostyle{HTML}, or any other format, it is trivial for a program (or % human) to locate, extract, and---using any standard \acro{XML} % parser---process the embedded \acro{XMP} metadata. % % As of this writing there are few tools that actually do process % \acro{XMP}\@. However, it is easy to imagine future support existing % in file browsers for displaying not only a document's filename but % also its title, list of authors, description, and other metadata. % % \paragraph{This is too abstract! Give me an example.} % Consider a \LaTeX\ document with three authors: Jack Napier, Edward % Nigma, and Harvey Dent. The generated \acro{PDF} file will contain, % among other information, the following stanza of \acro{XMP} code % embedded within it: % % \begin{verbatim} % % % Jack Napier % Edward Nigma % Harvey Dent % % % \end{verbatim} % % In the preceding code, the |dc| namespace refers to the % \href{http://purl.org/DC/}{Dublin Core schema}, a collection of % metadata properties. The \xmpterm{dc:creator} property surrounds the % list of authors. The \textsf{rdf} namespace is the % \href{http://www.w3.org/RDF/}{Resource Description Framework}, which % defines \xmpterm{rdf:Seq} as an ordered list of values. Each author % is represented by an individual list item (\xmpterm{rdf:li}), making % it easy for an \acro{XML} parser to separate the authors' names. % % Remember that \acro{XMP} code is stored as \emph{metadata}. It does % not appear when viewing or printing the \acro{PDF} file. Rather, it % is intended to make it easy for applications to identify and % categorize the document. % % \paragraph{What metadata does \textsf{hyperxmp} process?} % \pkgname{hyperxmp} knows how to embed all of the following types of % metadata within a document: % % \begin{itemize} \raggedright % \item authors (\xmpterm{dc:creator}) % \item base \acro{URL} (\xmpterm{xmp:BaseURL}) % \item contact address % (\xmpterm[CiAdrExtadr]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiAdrCity]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiAdrRegion]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiAdrPcode]{Iptc4xmpCore:CreatorContactInfo}, and % \xmpterm[CiAdrCtry]{Iptc4xmpCore:CreatorContactInfo}) % \item contact email address(es) (\xmpterm[CiEmailWork]{Iptc4xmpCore:CreatorContactInfo}) % \item contact telephone number(s) (\xmpterm[CiTelWork]{Iptc4xmpCore:CreatorContactInfo}) % \item contact \acro{URL}(s) (\xmpterm[CiUrlWork]{Iptc4xmpCore:CreatorContactInfo}) % \item copyright (\xmpterm{dc:rights} and \xmpterm{xmpRights:Marked}) % \item date (\xmpterm{dc:date}, \xmpterm{xmp:CreateDate}, % \xmpterm{xmp:ModifyDate}, and \xmpterm{xmp:MetadataDate}) % \item document identifier (\xmpterm{xmpMM:DocumentID}) % \item document instance identifier (\xmpterm{xmpMM:InstanceID}) % \item document type (\xmpterm{dc:type}) % \item file format (\xmpterm{dc:format}) % \item keywords (\xmpterm{pdf:Keywords} and \xmpterm{dc:subject}) % \item language (\xmpterm{dc:language}) % \item \LaTeX\ file name (\xmpterm{dc:source}) % \item license \acro{URL} (\xmpterm{xmpRights:WebStatement}) % \item metadata writer (\xmpterm{photoshop:CaptionWriter}) % \item \acro{PDF} version (\xmpterm{pdf:PDFVersion}) % \item \acro{PDF}-generating tool (\xmpterm{pdf:Producer} and \xmpterm{xmp:CreatorTool}) % \item \acro{PDF/A} compliance level and version (\xmpterm{pdfaid:part} and \xmpterm{pdfaid:conformance}) % \item primary author's position/title (\xmpterm{photoshop:AuthorsPosition}) % \item summary (\xmpterm{dc:description}) % \item title (\xmpterm{dc:title}) % \end{itemize} % % \noindent % More types of metadata may be added in a future release. % % \paragraph{How does \textsf{hyperxmp} compare to the \textsf{xmpincl} % package?} % The short answer is that \pkgname{xmpincl} is more flexible but % \pkgname{hyperxmp} is easier to use. With \pkgname{xmpincl}, the % author manually constructs a file of arbitrary \acro{XMP} data and the % package merely embeds it within the generated \acro{PDF} file. With % \pkgname{hyperxmp}, the author specifies values for various predefined % metadata types and the package formats those values as \acro{XMP} and embeds % the result within the generated \acro{PDF} file. % % \pkgname{xmpincl} can embed \acro{XMP} only when running under \pdfLaTeX\ and % only when in \acro{PDF}-generating mode. \pkgname{hyperxmp} additionally % works with a few other \acro{PDF}-producing \LaTeX\ backends. % % \pkgname{hyperxmp} and \pkgname{xmpincl} can complement each other. % An author may want to use \pkgname{hyperxmp} to produce a basic set of % \acro{XMP} code, then extract the \acro{XMP} code from the \acro{PDF} file with a text % editor, augment the \acro{XMP} code with any metadata not supported by % \pkgname{hyperxmp}, and use \pkgname{xmpincl} to include the modified % \acro{XMP} code in the \acro{PDF} file. % % \section{Usage} % % \pkgname{hyperxmp} works by postprocessing some of the package options % honored by \pkgname{hyperref}. To use \pkgname{hyperxmp}, merely put % a |\usepackage{hyperxmp}| in your document's preamble. That line can % appear anywhere before the \pkgname{hyperref} \acro{PDF} options are % specified (i.e.,~with either |\usepackage[|\dots|]{hyperref}| or % |\hypersetup{|\dots|}|). \pkgname{hyperxmp} will construct its % \acro{XMP} data using the following \pkgname{hyperref} options: % % \begin{itemize} % \item \optname{baseurl} % \item \optname{pdfauthor} % \item \optname{pdfcreationdate} % \item \optname{pdfkeywords} % \item \optname{pdflang} % \item \optname{pdfmoddate} % \item \optname{pdfproducer} % \item \optname{pdfsubject} % \item \optname{pdftitle} % \end{itemize} % % \noindent % \mbox{}\label{page:begin-new-options} % \pkgname{hyperxmp} instructs \pkgname{hyperref} also to accept the % following options, which have meaning only to \pkgname{hyperxmp}: % % \begin{itemize} % \item \optname{pdfaconformance} % \item \optname{pdfapart} % \item \optname{pdfauthortitle} % \item \optname{pdfcaptionwriter} % \item \optname{pdfcontactaddress} % \item \optname{pdfcontactcity} % \item \optname{pdfcontactcountry} % \item \optname{pdfcontactemail} % \item \optname{pdfcontactphone} % \item \optname{pdfcontactpostcode} % \item \optname{pdfcontactregion} % \item \optname{pdfcontacturl} % \item \optname{pdfcopyright} % \item \optname{pdfdate} % \item \optname{pdflicenseurl} % \item \optname{pdfmetadate} % \item \optname{pdfmetalang} % \item \optname{pdfsource} % \item \optname{pdftype} % \end{itemize} % \label{page:end-new-options} % % The two most obscure---but alphabetically first---of the above, % \optname{pdfaconformance} and \optname{pdfapart}, are used in % conjunction with \pkgname{hyperref}'s \optname{pdfa} option to claim a % particular \acro{PDF/A} standard by which the document abides. They % default to \optname{pdfapart}=|1| and \optname{pdfaconformance}=|B|, % indicating the \acro{PDF/A}-\textsc{1b} standard. These can be % changed (with caution) to assert that the document abides by a % different standard (e.g.,~\acro{PDF/A}-\textsc{2u}). % % \optname{pdfauthortitle} indicates the primary author's position or % title. \optname{pdfcaptionwriter} specifies the name of the person % who added the metadata to the document. The next eight items describe % how to contact the person or institution responsible for the document % (the ``contact''). \optname{pdfcontactaddress} is the contact's % street address and can include the institution name if the contact is % an institution; \optname{pdfcontactcity} is the contact's city. % \optname{pdfcontactcountry} is the contact's country; % \optname{pdfcontactemail} is the contact's email address (or multiple, % comma-separated email addresses); \optname{pdfcontactphone} is the % contact's telephone number (or multiple, comma-separated telephone % numbers); \optname{pdfcontactpostcode} is the contact's postal code; % \optname{pdfcontactregion} is the contact's state or province; and % \optname{pdfcontacturl} is the contact's \acro{URL} (or multiple, % comma-separated \acro{URL}s). % % \acro{XMP} metadata can include a number of dates (in fact, % timestamps, as they include both date and time components). % \optname{pdfdate} specifies the document date. It is analogous to the % \LaTeX\ |\date| command, and, like |\date|, defaults to the date the % document was built. It must be specified in either \acro{XMP} % format~\cite{Adobe2012:XMP} or \acro{PDF} format~\cite{Adobe2008:PDF}. % \acro{XMP} dates are written in the form % \textsc{yyyy}|-|\textsc{mm}|-|\textsc{dd}|T|hh|:|mm|:|ss|+|\textsc{tt}|:|tt.\footnote{Although % allowed by \acro{XMP}, \pkgname{hyperxmp} does not currently accept % fractions of a second in timestamps.} A W3C % recommendation~\cite{Wolf1997:date-time} discusses this format in more % detail, but as an example, 14~hours, 15~minutes, 9~seconds past % midnight U.S. Mountain Daylight Time (UTC-6) on the 23rd day of % September in the year~2014 should be written as % \texttt{2014-09-23T14:15:09-06:00}. This can be truncated (with loss % of information) to \texttt{2014-09-23T14:15:09} or % \texttt{2014-09-23T14:15} or \texttt{2014-09-23} or \texttt{2014-09} % or \texttt{2014} but no other subsets. \acro{PDF} dates are written % in the form |D:|\textsc{yyyymmdd}hhmmss|+|\textsc{tt}|'|tt|'|. The % same date in the preceding example would be written as % \texttt{D:20140923141509-06'00'} in \acro{PDF} format. % % The document's creation date, modification date, and metadata date are % normally set automatically, but \optname{pdfcreationdate}, % \optname{pdfmoddate}, and \optname{pdfmetadate} can be used to % override the defaults. Like \optname{pdfdate}, \optname{pdfmetadate} % can be specified in either \acro{XMP} or \acro{PDF} format. However, % because \pkgname{hyperref} defines \optname{pdfcreationdate} and % \optname{pdfmoddate} and expects these to be written as \acro{PDF} % dates, \pkgname{hyperxmp} concomitantly accepts these two dates only % in \acro{PDF} format as well. Note that it's rare that a document % would need to specify any of \optname{pdfcreationdate}, % \optname{pdfmoddate}, or \optname{pdfmetadate}. % % \optname{pdfcopyright} defines the copyright text, and % \optname{pdflicenseurl} identifies a \acro{URL} that points to the % document's license agreement. % % \optname{pdfmetalang} indicates the natural language in which certain % metadata---specifically, the document's title, subject, and copyright % statement---are written. The language should be specified using an % \acro{IETF} language tag~\cite{IANA2011:lang-tags}, for example, % ``|en|'' for English, ``|en-US|'' for specifically United States % English, ``|de|'' for German, and so forth. If \optname{pdfmetalang} % is not specified, \pkgname{hyperxmp} assumes the metadata language is % the same as the document language (\pkgname{hyperref}'s % \optname{pdflang} option). If neither \optname{pdfmetalang} nor % \optname{pdflang} is specified, \pkgname{hyperxmp} uses only % ``|x-default|'' as the metadata language. Note that ``|x-default|'' % metadata are always included in addition to the specified metadata % language, as the user reading the document may not have specified a % language preference. % % A rarely needed option, \optname{pdfsource}, overrides the name of the % \LaTeX\ source file. It defaults to ``|\jobname.tex|'' but can be % replaced by any other string. If \optname{pdfsource} is given an % empty argument, no document source will be specified at all. % % \optname{pdftype} describes the type of document being produced. This % refers to ``the nature or genre of the resource''~\cite{Adobe2012:XMP} % such as ``|poem|'', ``|novel|'' or ``|working paper|'', as opposed to % the file format (always ``|application/pdf|'' when generated by % \pkgname{hyperxmp}). Although \optname{pdftype} can be assigned an % arbitrary piece of text, the \acro{XMP} specification recommends % selecting types from a ``controlled vocabulary'' such as the DCMI Type % Vocabulary~\cite{DCMI2012:meta-terms}. The DCMI Type Vocabulary % currently consists of only ``|Collection|'', ``|Dataset|'', % ``|Event|'', ``|Image|'', ``|InteractiveResource|'', % ``|MovingImage|'', ``|PhysicalObject|'', ``|Service|'', % ``|Software|'', ``|Sound|'', ``|StillImage|'', and ``|Text|''. % \optname{pdftype} defaults to ``|Text|'', which refers to ``books, % letters, dissertations, poems, newspapers, articles, archives of % mailing lists,''~\cite{DCMI2012:meta-terms} and other forms of % text---all things \LaTeX\ is commonly used to typeset. % % It is usually more convenient to provide values for those options using % \pkgname{hyperref}'s |\hypersetup| command than on the |\usepackage| % command line. See % \href{http://mirrors.ctan.org/macros/latex/contrib/hyperref/hyperref.pdf}{the % \pkgname{hyperref} manual} for more information. The following is a % sample \LaTeX\ document that provides values for most of the metadata % options that \pkgname{hyperxmp} recognizes: % % \Needspace{4\baselineskip} % \refstepcounter{pagelabel} % \label{page:begin-sample-doc} % \begin{verbatim} % \documentclass{article} % \usepackage{hyperxmp} % \usepackage[unicode]{hyperref} % \title{% % On a heuristic viewpoint concerning the production and % transformation of light} % \author{Albert Einstein} % \date{March 17, 1905} % \hypersetup{% % pdftitle={% % On a heuristic viewpoint concerning the production and % transformation of light}, % pdfauthor={Albert Einstein}, % pdfauthortitle={Technical Assistant, Level III}, % pdfdate={1905-03-17}, % pdfcopyright={Copyright (C) 1905, Albert Einstein}, % pdfsubject={photoelectric effect}, % pdfkeywords={energy quanta, Hertz effect, quantum physics}, % pdflicenseurl={http://creativecommons.org/licenses/by-nc-nd/3.0/}, % pdfcaptionwriter={Scott Pakin}, % pdfcontactaddress={Kramgasse 49}, % pdfcontactcity={Bern}, % pdfcontactpostcode={3011}, % pdfcontactcountry={Switzerland}, % pdfcontactphone={031 312 00 91}, % pdfcontactemail={aeinstein@ipi.ch}, % pdfcontacturl={% % http://einstein.biz/, % https://www.facebook.com/AlbertEinstein % }, % pdflang={en}, % pdfmetalang={en}, % baseurl={http://mirror.ctan.org/macros/latex/contrib/hyperxmp/} % } % \XMPLangAlt{de}{pdftitle={Über einen die Erzeugung und Verwandlung % des Lichtes betreffenden heuristischen Gesichtspunkt}} % \begin{document} % \maketitle % A profound formal difference exists between the theoretical % concepts that physicists have formed about gases and other % ponderable bodies, and Maxwell's theory of electromagnetic % processes in so-called empty space\dots % \end{document} % \end{verbatim} % \refstepcounter{pagelabel} % \label{page:end-sample-doc} % % Compile the document to \acro{PDF} using any of the following % approaches: % % \begin{itemize} % \item \pdfLaTeX % \item \LuaLaTeX % \item \LaTeX~$+$ Dvipdfm % \item \LaTeX~$+$ \Dvips~$+$ Adobe Acrobat Distiller % \item \XeLaTeX % \end{itemize} % % \noindent % Unfortunately, the \LaTeX~$+$ \Dvips~$+$ \term{Ghostscript} path % doesn't work. % \href{http://bugs.ghostscript.com/show_bug.cgi?id=690066}{Ghostscript % bug report~\#690066}, closed with ``\textsc{wontfix}'' status on % 2012-05-28, explains that \term{Ghostscript} doesn't honor the % \pdfterm{Metadata} tag needed to inject a custom \acro{XMP} packet. % Instead, \term{Ghostscript} fabricates an \acro{XMP} packet of its own % based on the metadata it finds in the \acro{PDF} file's \pdfterm{Info} % dictionary (\pdfterm{Author}, \pdfterm{Title}, \pdfterm{Subject}, and % \pdfterm{Keywords}). % % \bigskip % % Once the document is compiled, the resulting \acro{PDF} file will % contain an \acro{XMP} packet that looks something like that shown in % Appendix~\ref{sec:sample-packet}. Figure~\ref{fig:xmp-metadata-1} is % a screenshot of the \acro{XMP} metadata as it appears in Adobe % Acrobat's ``Advanced'' metadata dialog box. Further clicking on the % ``Advanced'' item within that dialog box displays all of the % document's metadata sorted by schema as shown in % Figure~\ref{fig:xmp-metadata-2}. % % \begin{figure}[htbp] % \includegraphics[width=\linewidth]{einstein1} % \caption{\acro{XMP} metadata as it appears in Adobe Acrobat} % \label{fig:xmp-metadata-1} % \end{figure} % % \begin{figure}[htbp] % \includegraphics[width=\linewidth]{einstein2} % \caption{Additional \acro{XMP} metadata as it appears in Adobe Acrobat} % \label{fig:xmp-metadata-2} % \end{figure} % % \usagenote{Acrobat \pdfterm{Author} bug} % \label{page:author-bug} % A bug in Adobe Acrobat---at least in versions~10.0.1 and % earlier---causes that \acro{PDF} reader to confuse the \acro{XMP} and % non-\acro{XMP} author lists when displaying the document's metadata. % Specifically, the first author is displayed as the concatenated list % of authors from the non-\acro{XMP} data (\pdfterm{Author}) while the % remaining authors are displayed from the \acro{XMP} data % (\xmpterm{dc:creator}). For example, suppose that a document's authors % are Jack Napier, Edward Nigma, and Harvey Dent. When displaying the % document properties, Adobe Acrobat replaces ``Jack Napier'' with a % single author named ``Jack Napier, Edward Nigma, Harvey Dent'' and % leaves ``Edward Nigma'' and ``Harvey Dent'' as the second and third % authors, respectively. % % \DescribeMacro{\XMPTruncateList} % The \pkgname{hyperxmp} package provides a workaround for this bug in % the form of the |\XMPTruncateList| macro. |\XMPTruncateList| takes % the name of a list (a \pkgname{hyperref} option name) and replaces the % list with the value of its first element. Currently, the only % meaningful usage is to put % % \begin{verbatim} % \XMPTruncateList{pdfauthor} % \end{verbatim} % % \noindent % in your document's preamble. This will cause Adobe Acrobat to % properly display all of the authors but at the cost of other % \acro{PDF} readers likely displaying only the first author. % % \usagenote{Acrobat multiline-field bug} % The \acro{IPTC} Photo Metadata schema states that ``the [contact] % address is a multiline field''~\cite{IPTC2010:photo-meta}. % \pkgname{hyperxmp} converts commas in \optname{pdfcontactaddress}'s % argument to line breaks in the generated \acro{XML}\@. Unfortunately, % A bug in Adobe Acrobat---at least in versions~10.0.1 and % earlier---causes that \acro{PDF} reader to discard line breaks in the % contact address. Interestingly, Adobe Illustrator CS5 correctly % displays the contact address. % \DescribeMacro{\xmplinesep} % If you find Adobe Acrobat's behavior bothersome, you can redefine the % |\xmplinesep| macro as a string to use as an address-line separator. % For example, the following replaces all commas appearing in % \optname{pdfcontactaddress}'s argument with semicolons: % % \begin{verbatim} % \renewcommand*{\xmlinesep}{;} % \end{verbatim} % % \usagenote{Object compression} % One intention of \acro{XMP} is that metadata embedded in a file be % readable even without knowledge of the file's format. That is, the % metadata are expected to appear as plain text. Although % \pkgname{hyperxmp} does its best to honor that intention, it faces % a few challenges: % % \begin{enumerate} % \item When run with versions of \LuaLaTeX\ earlier than 0.85, % \pkgname{hyperxmp} leaves all \acro{PDF} objects uncompressed. This % is due to \LuaLaTeX\ treating object compression as a global % parameter, unlike \pdfLaTeX, which treats it as a local parameter. % Hence, when \pkgname{hyperxmp} requests that the \acro{XMP} packet % be left uncompressed, \LuaLaTeX\ in fact leaves \emph{all} % \acro{PDF} streams uncompressed. Beginning with version~3.0, % \pkgname{hyperxmp} includes a workaround that correctly leaves only % the \acro{XMP} metadata uncompressed, but this workaround is % implemented only for \LuaLaTeX\ v0.85 onwards. % % \item \XeLaTeX\ (or, more precisely, the \cmdname{xdvipdfmx} back end) % exhibits the opposite problem. It compresses \emph{all} \acro{PDF} % objects, including the ones containing \acro{XMP} metadata. While % Adobe Acrobat can still detect and utilize the \acro{XMP} metadata, % non-\acro{PDF}-aware applications are unlikely to see the metadata. % Three options to consider are to (1)~use a different program % (e.g.,~\LuaLaTeX), (2)~pass the |--output-driver="xdvipdfmx -z0"| % option to \XeLaTeX\ to instruct \cmdname{xdvipdfmx} to turn off all % compression (which will of course make the \acro{PDF} file % substantially larger), or (3)~postprocess the generated \acro{PDF} % file by loading it into the commercial version of Adobe Acrobat and % re-saving it with the Save As\dots\ menu option. % \end{enumerate} % % \usagenote{Literal commas} % \pkgname{hyperxmp} splits the \optname{pdfauthor} and % \optname{pdfkeywords} lists at commas. Therefore, when specifying % \optname{pdfauthor} and \optname{pdfkeywords}, you should separate % items with commas. Also, omit ``|and|'' and other text that does not % belong to any list item. The following examples should serve as % clarification: % % \begin{description} % \item[Wrong:] |pdfauthor={Jack Napier, Edward Nigma,| % \textcolor{red}{\texttt{and}} |Harvey Dent}| % \item[Wrong:] |pdfauthor={Jack Napier|\textcolor{red}{\texttt{;}} % |Edward Nigma|\textcolor{red}{\texttt{;}} % |Harvey Dent}| % \item[Right:] |pdfauthor={Jack Napier, Edward Nigma, Harvey Dent}| % \end{description} % % \noindent % \DescribeMacro{\xmpcomma} % \DescribeMacro{\xmpquote} % If you need to include a literal comma within an author or keyword % list (where commas normally separate list items) or a street address % (where commas normally separate lines), use the |\xmpcomma| macro to % represent it, and wrap the entire entry containing the comma within % |\xmpquote{|\dots|}| as shown below: % % \begin{verbatim} % pdfauthor={\xmpquote{Jack Napier\xmpcomma\ Jr.}, % \xmpquote{Edward Nigma\xmpcomma\ PhD}, % \xmpquote{Harvey Dent\xmpcomma\ Esq.}} % % pdfcontactaddress={Office of the President, % \xmpquote{Wayne Enterprises\xmpcomma\ Inc.}, % One Wayne Blvd} % \end{verbatim} % % As of version~2.2 of \pkgname{hyperxmp}, it is acceptable to use % |\xmpcomma| and |\xmpquote| within any \pkgname{hyperxmp} option, not % just in those in which a comma normally serves as a separator % (i.e.,~lists and multiline fields). Outside of cases in which a comma % serves as a separator, |\xmpcomma| is treated as an ordinary comma, % and |\xmpquote| returns its argument unmodified. Hence, it is % legitimate to use |\xmpcomma| and |\xmpquote| in cases like the % following % % \begin{verbatim} % pdfauthortitle={\xmpquote{Psychiatrist\xmpcomma\ Arkham Asylum}} % \end{verbatim} % % \noindent % (Like most \pkgname{hyperxmp} options, \optname{pdfauthortitle} % inserts its argument unmodified in an \acro{XMP} tag.) When in % doubt, use |\xmpcomma| and |\xmpquote|; it should always be safe % to do so. % % \DescribeMacro{\xmptilde} % Version~2.4 of \pkgname{hyperxmp} introduces a convenience macro % called |\xmptilde|. |\xmptilde| expands to a literal tilde character % instead of the nonbreaking space that ``|~|'' normally represents. % Use it to represent \acro{URL}s such as % \url{http://www.pakin.org/~scott/} (``|http://www.pakin.org/|\linebreak[0]|\xmptilde| % |scott/|'') in options such as \optname{baseurl}, % \optname{pdfcontacturl} and \optname{pdflicenseurl}. % % \usagenote{Unicode support} % \term{Unicode} support is provided via the \pkgname{hyperref} package. % If you specify \optname{unicode}|=true| either as a \pkgname{hyperref} % option or as an argument to the |\hypersetup| command, the document % can include \term{Unicode} characters in its \acro{XMP} fields. % % \usagenote{Automatically specified metadata} % \optname{pdftitle} defaults to the document's title as specified by % |\title{|\dots|}|. \optname{pdfauthor} defaults to the document's % author(s) as specified by |\author{|\dots|}|. \optname{pdfdate} % defaults to the current date and time. \optname{pdfmetalang} % defaults to the same value as \optname{pdflang} if non-empty, % ``|x-default|'' otherwise. An implication of automatic % metadata specification is that an author can simply include % |\usepackage{hyperxmp}| in a document's preamble and benefit from % a modicum of \acro{XMP} metadata with no additional effort. % % \usagenote{Multilingual metadata} % The \optname{pdfmetalang} option specifies the language in which the % document's metadata is written. It defaults to the value of % \optname{pdflang}, which specifies the document language. % \DescribeMacro{\XMPLangAlt} As of version~3.3 of \pkgname{hyperxmp}, % it is possible to include certain metadata---specifically, the % document's title, subject, and copyright statement---in more than one % language. The |\XMPLangAlt| macro provides this functionality. Usage % is as follows: % % \bigskip % \indent % |\XMPLangAlt| \marg{language} |{| \meta{option}|=|\meta{text},~\dots\ |}| % \bigskip % % \noindent % where \meta{language} is an \acro{ISO} \mbox{639-1} two-letter country % code with an optional \acro{ISO} \mbox{3166-1} two-letter region code % (e.g.,~``|en|'' for English or ``|en-US|'' for specifically US % English); \meta{option} is one of ``|pdftitle|'', ``|pdfsubject|'', or % ``|pdfcopyright|''; and \meta{text} is the text as expressed in the % specified language. By way, of example, the following code provides % the document title in English then specifies an alternative title to % use in four other languages: % % \begin{verbatim} % \hypersetup{% % pdfmetalang={en}, % pdftitle={English title} % } % \XMPLangAlt{de}{pdftitle={Deutscher Titel}} % \XMPLangAlt{fr}{pdftitle={Titre fran\c{c}ais}} % \XMPLangAlt{it}{pdftitle={Titolo italiano}} % \XMPLangAlt{rm}{pdftitle={Titel rumantsch}} % \end{verbatim} % % % \StopEventually{^^A % \section{Future Work} % \label{sec:future-work} % % \paragraph{Help wanted} % Ideally, \texttt{\string\xmpquote} should automatically replace all % commas with \texttt{\string\xmpcomma}. Unfortunately, my \tex\ skills % are insufficient to pull that off. If you know a way to make % \texttt{\string\xmpquote\string{Hello, world\string}} work with both % \term{Unicode} and non-\term{Unicode} encodings and with all % \tex\ engines (\pdfTeX, \LuaTeX, \XeTeX, etc.), please send me a code % patch. % % \appendix % % \section{Sample XMP packet} % \label{sec:sample-packet} % % The following is an example of a complete \acro{XMP} packet as may be % produced by \pkgname{hyperxmp}. This packet corresponds to the % metadata included in the sample \LaTeX\ document presented % \vpagerefrange{page:begin-sample-doc}{page:end-sample-doc}. For % clarity, metadata values, either specified explicitly by the document % or introduced automatically by \pkgname{hyperxmp}, are colored blue. % % \input{einstein-xmp} % % \begin{thebibliography}{1} % \bibitem{Adobe2010:pdfmark} % Adobe Systems, Inc., San Jose, California. % \newblock {\em {A}dobe {A}crobat~{X} {SDK} Help, pdfmark Reference}. % \newblock Available from % \url{http://www.adobe.com/devnet/acrobat/documentation.html}. % % \bibitem{Adobe1996:postscript} % {Adobe Systems, Inc.} % \newblock {\em {P}ost{S}cript Language Reference Manual}. % \newblock Addison-Wesley, 2nd edition, January 1996, ISBN: \mbox{0-201-18127-4}. % % \bibitem{Adobe2008:PDF} % Adobe Systems, Inc., San Jose, California. % \newblock {\em Document Management---Portable Document Format---Part 1: % PDF~1.7}, July 2008. % \newblock ISO \mbox{32000-1} standard document. Available from % \url{http://wwwimages.adobe.com/www.adobe.com/content/dam/Adobe/en/devnet/pdf/pdfs/PDF32000_2008.pdf}. % % \bibitem{Adobe2012:XMP} % Adobe Systems, Inc., San Jose, California. % \newblock {\em {XMP} Specification Part~1: Data model, Serialization, and Core % Properties}, April 2012. % \newblock Available from % \url{http://wwwimages.adobe.com/www.adobe.com/content/dam/Adobe/en/devnet/xmp/pdfs/cc-201306/XMPSpecificationPart1.pdf}. % % \bibitem{DCMI2012:meta-terms} % DCMI Usage Board % \newblock {\em DCMI Metadata Terms}, June~14, 2012. % \newblock Available from \url{http://dublincore.org/documents/dcmi-terms/}. % % \bibitem{Downes1994:ATB15} % Michael Downes. % \newblock Around the bend~\#15, answers, 4th (last) installment. % \newblock \href{news:comp.text.tex}{\texttt{comp.text.tex}} newsgroup posting, % January~3, 1994. % \newblock Archived by Google at % \url{http://groups.google.com/group/comp.text.tex/msg/7da7643b9e8f3b48}. % % \bibitem{IPTC2010:photo-meta} % International Press Telecommunications Council. % \newblock {\em {IPTC} Photo Metadata: Core 1.1/Extension 1.1}, July 2010. % \newblock Revision~1. Available from % \url{http://www.iptc.org/std/photometadata/specification/IPTC-PhotoMetadata-201007_1.pdf}. % % \bibitem{IANA2011:lang-tags} % {Internet Assigned Numbers Authority}. % \newblock Language subtag registry, January~11, 2011. % \newblock Available from % \url{http://www.iana.org/assignments/language-subtag-registry}. % % \bibitem{Leach2005:uuid} % Paul~J. Leach, Michael Mealling, and Rich Salz. % \newblock A {U}niversally {U}nique {ID}entifier ({UUID}) {URN} namespace. % \newblock Request for Comments 4122, Internet Engineering Task Force, Network % Working Group, July 2005. % \newblock Category: Standards Track. Available from % \url{http://www.ietf.org/rfc/rfc4122.txt}. % % \bibitem{PDFA2008:xmp-props} % PDF/A Competence Center, Berlin, Germany. % \newblock {\em {T}ech{N}ote~0008: Predefined {XMP} Properties in {PDF/A-1}}, % March~20, 2008. % \newblock Available from % \url{http://www.pdfa.org/wp-content/uploads/2011/08/tn0008_predefined_xmp_properties_in_pdfa-1_2008-03-20.pdf}. % % \bibitem{PDFA2008:ext-schemas} % PDF/A Competence Center, Berlin, Germany. % \newblock {\em {T}ech{N}ote~0009: {XMP} Extension Schemas in {PDF/A-1}}, % March~20, 2008. % \newblock Available from % \url{http://www.pdfa.org/wp-content/uploads/2011/08/tn0009_xmp_extension_schemas_in_pdfa-1_2008-03-20.pdf}. % % \bibitem{Wolf1997:date-time} % Misha Wolf and Charles Wicksteed. % \newblock Date and time formats. % \newblock Note NOTE-datetime, World Wide Web Consortium (W3C), September~15, % 1997. % \newblock Available from \url{http://www.w3.org/TR/NOTE-datetime}. % \end{thebibliography} % } % % % \section{Implementation} % % This section presents the commented \LaTeX\ source code for % \pkgname{hyperxmp}. Read this section only if you want to learn how % \pkgname{hyperxmp} is implemented. % % % \subsection{Initial preparation} % \label{sec:initial-prep} % % \changes{v1.2}{2011/04/17}{Made the package compatible with \pkgname{ngerman}. % Thanks to Tobias Mueller for the bug report.} % % \begin{macro}{\hyxmp@dq@code} % The \pkgname{ngerman} package redefines % ``\,{\fontencoding{T1}\selectfont\textquotedbl}\,'' as an active % character, which causes problems for \pkgname{hyperxmp} when it tries % to use that character. We therefore save the double-quote character's % current category code in |\hyxmp@dq@code| and mark the character as % category code~12 (``other''). The original category code is restored % at the end of the package code (Section~\ref{sec:clean-up}). % \begin{macrocode} \edef\hyxmp@dq@code{\the\catcode`\"} \catcode`\"=12 % \end{macrocode} % \end{macro} % % \changes{v1.5}{2012/03/10}{Made the \protect\acro{XMP} inclusion more robust. % Thanks to Heiko Oberdiek for the bug report and suggested modifications.} % % \begin{macro}{\hyxmp@at@end} % \begin{macro}{\hyxmp@driver} % The |\hyxmp@at@end| macro includes code at the end of the document. % For \pdfTeX, the standard |\AtEndDocument| works well enough. For all % the other backends we use |\AtEndDvi| from the \pkgname{atenddvi} % package, which is more robust but requires an addition \LaTeX\ run. % \begin{macrocode} \def\hyxmp@driver{hpdftex} \ifx\hyxmp@driver\Hy@driver \let\hyxmp@at@end=\AtEndDocument \else \RequirePackage{atenddvi} \let\hyxmp@at@end=\AtEndDvi \fi % \end{macrocode} % \end{macro} % \end{macro} % % % \subsection{Integration with \textsf{hyperref}} % % An important design decision underlying \pkgname{hyperxmp} is that the % package should integrate seamlessly with \pkgname{hyperref}. To that % end, \pkgname{hyperxmp} takes its \acro{XMP} metadata from % \pkgname{hyperref}'s \optname{baseurl}, \optname{pdfauthor}, % \optname{pdfkeywords}, \optname{pdflang}, \optname{pdfproducer}, % \optname{pdfsubject}, and \optname{pdftitle} options. It also % introduces a number of new options, which are listed % \vpagerefrange[above]{page:begin-new-options}{page:end-new-options}. % For consistency with \pkgname{hyperref}'s document-metadata naming % conventions (which are in turn based on \LaTeX's document-metadata % naming conventions), we do not prefix metadata-related macro names % with our package-specific |\hyxmp@| prefix. That is, we use names % like |\@pdfcopyright| instead of |\hyxmp@pdfcopyright|. % % \bigskip % % We load a bunch of helper packages: \pkgname{kvoptions} for % package-option processing, \pkgname{pdfescape} and \pkgname{stringenc} % for re-encoding \term{Unicode} strings, \pkgname{intcalc} for % performing integer calculations (division and modulo), % \pkgname{ifxetex} for detecting \XeTeX, and \pkgname{ifmtarg} for % testing if a macro argument is empty or all spaces. % \begin{macrocode} \RequirePackage{kvoptions} \RequirePackage{pdfescape} \RequirePackage{stringenc} \RequirePackage{intcalc} \RequirePackage{ifxetex} \RequirePackage{ifmtarg} % \end{macrocode} % % \begin{macro}{\@ifmtargexp} % \begin{macro}{\@ifnotmtargexp} % |\@ifmtarg| and |\@ifnotmtarg| do not expand their first argument. % Define |\@ifmtargexp| and |\@ifnotmtargexp| as expanding versions of % those macros. % \begin{macrocode} \def\@ifmtargexp#1{\expandafter\@ifmtarg\expandafter{#1}} \def\@ifnotmtargexp#1{\expandafter\@ifnotmtarg\expandafter{#1}} % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@pdfstringdef} % \begin{macro}{\hyxmp@textunderscore} % Because \pkgname{hyperxmp} uses underscores to represent hard spaces, % we need ``|\_|'' to map initially to something other than an % underscore, in particular the \acro{ASCII} \acro{NAK}~(|^^U|) % character. To accomplish this, we wrap \pkgname{hyperref}'s % |\pdfstringdef| macro with our own version that temporarily does the % proper substitution. Later in the execution, after underscores have % been replaced with spaces, we replace \acro{NAK} characters with % underscores. % \changes{v2.5}{2014/06/19}{Added this macro} % \begin{macrocode} \newcommand{\hyxmp@pdfstringdef}[2]{% \let\hyxmp@textunderscore=\textunderscore \let\textunderscore=\hyxmp@uscore \pdfstringdef{#1}{#2}% \let\textunderscore=\hyxmp@textunderscore } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\@pdfdatetime} % Prepare to store the document's date and (optionally) time. Whether % specified by the author in \acro{XMP} format or \acro{PDF} format % (cf.~Section~\ref{sec:date-manip}) we always store |\@pdfdatetime| as % an \acro{XMP}-format string. % \begin{macrocode} \def\@pdfdatetime{} \define@key{Hyp}{pdfdate}{% \begingroup \Hy@unicodefalse % \end{macrocode} % \begin{macro}{\next} % Expand \optname{pdfdate}'s argument and convert it to \acro{XMP} format. % \begin{macrocode} \edef\next{% \noexpand\hyxmp@pdfstringdef\noexpand\@pdfdatetime{% \noexpand\hyxmp@as@xmp@date{#1}}% }% \next \endgroup } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\@pdfmetadatetime} % Prepare to store the document's metadata date and (optionally) time. % Whether specified by the author in \acro{XMP} format or \acro{PDF} % format (cf.~Section~\ref{sec:date-manip}) we always store % |\@pdfmetadatetime| as an \acro{XMP}-format string. % \begin{macrocode} \def\@pdfmetadatetime{} \define@key{Hyp}{pdfmetadate}{% \begingroup \Hy@unicodefalse % \end{macrocode} % \begin{macro}{\next} % Expand \optname{pdfmetadate}'s argument and convert it to \acro{XMP} format. % \begin{macrocode} \edef\next{% \noexpand\hyxmp@pdfstringdef\noexpand\@pdfmetadatetime{% \noexpand\hyxmp@as@xmp@date{#1}}% }% \next \endgroup } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\@pdfcopyright} % Prepare to store the document's copyright statement. % \begin{macrocode} \def\@pdfcopyright{} \define@key{Hyp}{pdfcopyright}{\hyxmp@pdfstringdef\@pdfcopyright{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdftype} % Prepare to store the document's logical type, which defaults to ``|Text|''. % \begin{macrocode} \def\@pdftype{Text} \define@key{Hyp}{pdftype}{\hyxmp@pdfstringdef\@pdftype{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdflicenseurl} % Prepare to store the \acro{URL} containing the document's license % agreement. % \begin{macrocode} \def\@pdflicenseurl{} \define@key{Hyp}{pdflicenseurl}{\hyxmp@pdfstringdef\@pdflicenseurl{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfauthortitle} % Prepare to store the author's position/title (e.g.,~Staff Writer). % \begin{macrocode} \def\@pdfauthortitle{} \define@key{Hyp}{pdfauthortitle}{\hyxmp@pdfstringdef\@pdfauthortitle{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfcaptionwriter} % Prepare to store the name of the person who inserted the % \pkgname{hyperxmp} metadata. % \begin{macrocode} \def\@pdfcaptionwriter{} \define@key{Hyp}{pdfcaptionwriter}{\hyxmp@pdfstringdef\@pdfcaptionwriter{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfmetalang} % Prepare to store the natural language of the document's metadata, % typically as an \acro{ISO}~\mbox{639-1} two-letter abbreviation. % \begin{macrocode} \def\@pdfmetalang{} \define@key{Hyp}{pdfmetalang}{\hyxmp@pdfstringdef\@pdfmetalang{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfapart} % Prepare to store the \acro{PDF/A} part ID, which defaults to~``1''. % \begin{macrocode} \def\@pdfapart{1} \define@key{Hyp}{pdfapart}{\hyxmp@pdfstringdef\@pdfapart{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfaconformance} % Prepare to store the \acro{PDF/A} conformance ID, which defaults to~``B''. % \begin{macrocode} \def\@pdfaconformance{B} \define@key{Hyp}{pdfaconformance}{\hyxmp@pdfstringdef\@pdfaconformance{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfsource} % Prepare to store the document's source, which defaults to the value of % |\jobname|. % \changes{v3.3}{2017/07/16}{Added this macro and the corresponding % \protect\optname{pdfsource} option, at Niklas Beisert's request} % \begin{macrocode} \edef\@pdfsource{\jobname.tex} \define@key{Hyp}{pdfsource}{\hyxmp@pdfstringdef\@pdfsource{#1}} % \end{macrocode} % \end{macro} % % The following eight macros---|\@pdfcontactaddress|, % |\@pdfcontactcity|, |\@pdfcontactregion|, |\@pdfcontactpostcode|, % |\@pdfcontactcountry|, |\@pdfcontactphone|, |\@pdfcontactemail|, and % |\@pdfcontacturl|---together specify how to contact the person or % institution responsible for the document. % % \begin{macro}{\@pdfcontactaddress} % Prepare to store a street address for the document's contact % person\slash institution. The \acro{IPTC} standard defines this as % follows: % % \begin{quote} % The contact information address part. Comprises an optional company % name and all required information to locate the building or postbox % to which mail should be sent. To that end, the address is a % multiline field. % \end{quote} % % For consistency with the rest of \pkgname{hyperxmp}, we use commas to % separate terms, in this case, lines of the address. The author can % use |\xmpquote| and |\xmpcomma| to include literal commas. % \begin{macrocode} \def\@pdfcontactaddress{} \define@key{Hyp}{pdfcontactaddress}{% \let\xmpcomma=\hyxmp@comma \def\xmpquote##1{##1}% \hyxmp@pdfstringdef\@pdfcontactaddress{#1}% \def\xmpcomma{,}% \let\xmpquote=\relax } % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfcontactcity} % Prepare to store the city of the document's contact person\slash % institution. % \begin{macrocode} \def\@pdfcontactcity{} \define@key{Hyp}{pdfcontactcity}{\hyxmp@pdfstringdef\@pdfcontactcity{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfcontactregion} % Prepare to store the state or province of the document's contact % person\slash institution. % \begin{macrocode} \def\@pdfcontactregion{} \define@key{Hyp}{pdfcontactregion}{\hyxmp@pdfstringdef\@pdfcontactregion{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfcontactpostcode} % Prepare to store the postal code of the document's contact % person\slash institution. % \begin{macrocode} \def\@pdfcontactpostcode{} \define@key{Hyp}{pdfcontactpostcode}{\hyxmp@pdfstringdef\@pdfcontactpostcode{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfcontactcountry} % Prepare to store the country of the document's contact person\slash % institution. % \begin{macrocode} \def\@pdfcontactcountry{} \define@key{Hyp}{pdfcontactcountry}{\hyxmp@pdfstringdef\@pdfcontactcountry{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfcontactphone} % Prepare to store the telephone number of the document's contact % person\slash institution. % \begin{macrocode} \def\@pdfcontactphone{} \define@key{Hyp}{pdfcontactphone}{\hyxmp@pdfstringdef\@pdfcontactphone{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfcontactemail} % Prepare to store the email address of the document's contact % person\slash institution. % \begin{macrocode} \def\@pdfcontactemail{} \define@key{Hyp}{pdfcontactemail}{\hyxmp@pdfstringdef\@pdfcontactemail{#1}} % \end{macrocode} % \end{macro} % % \begin{macro}{\@pdfcontacturl} % Prepare to store the \acro{URL} of the document's contact person\slash % institution. % \begin{macrocode} \def\@pdfcontacturl{} \define@key{Hyp}{pdfcontacturl}{\hyxmp@pdfstringdef\@pdfcontacturl{#1}} % \end{macrocode} % \end{macro} % % \changes{v2.1}{2012/09/16}{Enabled \protect\pkgname{hyperxmp} and % \protect\pkgname{hyperref} to be loaded in either order. This addresses % a bug report by Yury Donskoy} % % We need to capture list arguments (viz.~\optname{pdfauthor} and % \optname{pdfkeywords}) before \pkgname{hyperref} converts them to % \term{PDFDocEncoding}. Otherwise, |\xmpcomma| is permanently replaced % with a comma, and we lose our ability to change it to a % |\hyxmp@comma|. We therefore need to augment \pkgname{hyperref}'s % option processing with our own. Because \pkgname{hyperref} has not % yet been loaded we need to ensure that our augmentation gets loaded in % the future: after the |\usepackage{hyperref}| but before options are % passed to that package. % % For lack of a better approach, \pkgname{hyperxmp} redefines % |\ProcessKeyvalOptions| to alter the way \pkgname{hyperref} processes % \optname{pdfauthor} and \optname{pdfkeywords}. This is somewhat % heavy-handed as it gets executed for \emph{every} subsequently loaded % package that uses |\ProcessKeyvalOptions|, but at least it does what % we need. \pkgname{hyperxmp} also redefines |\hypersetup| to do the % same thing. This is required in case \pkgname{hyperref} is loaded % before \pkgname{hyperxmp}. % % \begin{macro}{\hyxmp@pdfauthor} % \begin{macro}{\hyxmp@pdfkeywords} % Prepare to store the name of the author and a list of keywords. % \begin{macrocode} \def\hyxmp@pdfauthor{} \def\hyxmp@pdfkeywords{} % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@redefine@Hyp} % If not already redefined, redefine \pkgname{hyperref}'s % \optname{pdfauthor} and \optname{pdfkeywords} options to properly % handle |\xmpcomma| and |\xmpquote|. % \changes{v2.1}{2012/09/16}{Added this macro} % \begin{macrocode} \newcommand*{\hyxmp@redefine@Hyp}{% % \end{macrocode} % \begin{macro}{\hyxmp@Hyp@pdfauthor} % Store the old definition of |\KV@Hyp@pdfauthor| in % |\hyxmp@Hyp@pdfauthor|, but only if we see that |\KV@Hyp@pdfauthor| is % defined and |\hyxmp@Hyp@pdfauthor| isn't. Otherwise, we'd be defining % |\hyxmp@Hyp@pdfauthor| in terms of itself and creating an infinite % loop. % \begin{macrocode} \@ifundefined{KV@Hyp@pdfauthor}{}{% \@ifundefined{hyxmp@Hyp@pdfauthor}{% \expandafter\let\expandafter\hyxmp@Hyp@pdfauthor \csname KV@Hyp@pdfauthor\endcsname }{}% }% % \end{macrocode} % \begin{macro}{\KV@Hyp@pdfauthor} % \begin{macro}{\xmpcomma} % \begin{macro}{\xmpquote} % \begin{macro}{\hyxmp@and} % \begin{macro}{\and} % \begin{macro}{\hyxmp@pdfauthor} % \begin{macro}{\@pdfauthor} % Redefine |\KV@Hyp@pdfauthor| to process its argument twice. The first % time, |\xmpcomma| is defined as a placeholder character % (|\hyxmp@comma|) and |\xmpquote| as the identity function. The result % is stored in |\hyxmp@pdfauthor| for use in structured lists (those % surrounding each entry with ||). The second time, |\xmpcomma| % is defined as an ordinary comma, and |\xmpquote| is defined as a macro % that puts its argument within double quotes. The result is stored in % |\@pdfauthor| for use in unstructured lists (those in which the entire % list appears within a single pair of tags). In case % \optname{pdfauthor} is left unspecified and we copy |\author|'s % argument to \optname{pdfauthor}, we temporarily redefine |\and| as the % list separator when producing a structured list and as ``|and|'' when % producing an unstructured list. % \begin{macrocode} \define@key{Hyp}{pdfauthor}{% \let\xmpcomma=\hyxmp@comma \def\xmpquote####1{####1}% \let\hyxmp@and=\and \def\and{,}% \hyxmp@Hyp@pdfauthor{##1}% \global\let\hyxmp@pdfauthor=\@pdfauthor \def\and{and\space}% \def\xmpcomma{,}% \def\xmpquote####1{"####1"}% \hyxmp@Hyp@pdfauthor{##1}% \def\xmpcomma{,}% \let\xmpquote=\relax \let\and=\hyxmp@and }% % \end{macrocode} % \begin{macro}{\hyxmp@Hyp@pdfkeywords} % The previous block of code now repeats for the keyword list, starting % by storing the old definition of |\KV@Hyp@pdfkeywords| in % |\hyxmp@Hyp@pdfkeywords|. % \begin{macrocode} \@ifundefined{KV@Hyp@pdfkeywords}{}{% \@ifundefined{hyxmp@Hyp@pdfkeywords}{% \expandafter\let\expandafter\hyxmp@Hyp@pdfkeywords \csname KV@Hyp@pdfkeywords\endcsname }{}% }% % \end{macrocode} % \begin{macro}{\KV@Hyp@pdfkeywords} % \begin{macro}{\xmpcomma} % \begin{macro}{\xmpquote} % \begin{macro}{\hyxmp@pdfkeywords} % \begin{macro}{\@pdfkeywords} % Redefine |\KV@Hyp@pdfkeywords| to process its argument twice. The % first time, |\xmpcomma| is defined as a placeholder character % (|\hyxmp@comma|) and |\xmpquote| as the identity function. The % result is stored in |\hyxmp@pdfkeywords| for use in structured lists % (those surrounding each entry with ||). The second time, % |\xmpcomma| is defined as an ordinary comma, and |\xmpquote| is % defined as a macro that puts its argument within double quotes. The % result is stored in |\@pdfkeywords| for use in unstructured lists % (those in which the entire list appears within a single pair of tags). % \begin{macrocode} \define@key{Hyp}{pdfkeywords}{% \let\xmpcomma=\hyxmp@comma \def\xmpquote####1{####1}% \hyxmp@Hyp@pdfkeywords{##1}% \global\let\hyxmp@pdfkeywords=\@pdfkeywords \def\xmpcomma{,}% \def\xmpquote####1{"####1"}% \hyxmp@Hyp@pdfkeywords{##1}% \def\xmpcomma{,}% \let\xmpquote=\relax }% } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@ProcessKeyvalOptions} % \changes{v2.0}{2012/09/05}{Added this macro} % \begin{macro}{\ProcessKeyvalOptions} % \changes{v2.0}{2012/09/05}{Added this macro} % Redefine \pkgname{kvoptions}'s |\ProcessOptions| command to invoke % |\hyxmp@redefine@Hyp| before performing its normal option processing. % \begin{macrocode} \let\hyxmp@ProcessKeyvalOptions=\ProcessKeyvalOptions \renewcommand*{\ProcessKeyvalOptions}{% \hyxmp@redefine@Hyp \hyxmp@ProcessKeyvalOptions } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@hypersetup} % \changes{v2.1}{2012/09/16}{Added this macro} % \begin{macro}{\hypersetup} % \changes{v2.1}{2012/09/16}{Added this macro} % Redefine \pkgname{hyperref}'s |\hypersetup| command to invoke % |\hyxmp@redefine@Hyp| before performing its normal option processing. % \begin{macrocode} \let\hyxmp@hypersetup=\hypersetup \def\hypersetup{% \hyxmp@redefine@Hyp \hyxmp@hypersetup } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@find@metadata} % \begin{macro}{\hyxmp@concated@metadata} % Issue a warning message if the author failed to specify any metadata % at all. This excludes metadata that is included automatically such as % the current timestamp. Note that we don't consider |\@pdfmetalang| as % metadata as that value is meaningful only when used in conjunction % with other information. We also don't examine |\@pdfapart| or % |\@pdfaconformance| because those have nonempty default values. % \begin{macrocode} \newcommand*{\hyxmp@find@metadata}{% \edef\hyxmp@concated@metadata{% \@baseurl \@pdfauthor \@pdfauthortitle \@pdfcaptionwriter \@pdfcontactaddress \@pdfcontactcity \@pdfcontactcountry \@pdfcontactemail \@pdfcontactphone \@pdfcontactpostcode \@pdfcontactregion \@pdfcontacturl \@pdfcopyright \@pdfcreationdate \@pdfdatetime \@pdfkeywords \@pdflang \@pdflicenseurl \@pdfmetadatetime \@pdfmoddate \@pdfsubject \@pdftitle \@pdftype }% \ifx\hyxmp@concated@metadata\@empty \PackageWarningNoLine{hyperxmp}{% \jobname.tex did not specify any metadata to\MessageBreak include in the XMP packet.\space\space Please see the\MessageBreak hyperxmp documentation for instructions on how to\MessageBreak provide metadata values to hyperxmp}% \fi } % \end{macrocode} % \end{macro} % \end{macro} % % Rather than load \pkgname{hyperref} ourself we let the author do it % then verify he actually did. This approach gives the author the % flexibility to load \pkgname{hyperxmp} and \pkgname{hyperref} in % either order and to call |\hypersetup| anywhere in the document's % preamble, not just before \pkgname{hyperxmp} is loaded. % \begin{macrocode} \AtBeginDocument{% \@ifpackageloaded{hyperref}{% % \end{macrocode} % In older versions of \pkgname{hyperref}, |\@pdflang| is set to % |\@empty| if \optname{pdflang} is not specified. In newer versions of % \pkgname{hyperref}, |\@pdflang| is set to |\relax| if % \optname{pdflang} is not specified. The latter is a bit problematic % for \pkgname{hyperxmp} because it makes |\@pdflang| non-expandable, % which causes a literal ``|\@pdflang|'' to be written as \acro{XMP} % metadata. To avoid that situation we redefine |\@pdflang| as % |\@empty| if we see it set to |\relax|. % \changes{v2.3a}{2013/04/16}{Bug fix: Redefine \cs{@pdflang} as % \cs{@empty} when \protect\pkgname{hyperref} has set % it to \cs{relax}} % \begin{macrocode} \ifx\@pdflang\relax \let\@pdflang=\@empty \fi % \end{macrocode} % If the author explicitly specified the language to use for the % document's metadata, we use that. If not, we use the document % language, specified to \pkgname{hyperref} with the \protect\optname{pdflang} % option. If the author did not specify a language, we use |x-default| % as the metadata language. % \changes{v1.3}{2011/04/25}{Introduced the \protect\optname{pdfmetalang} % package option, which enables an author to specify the language in which he % wrote the document's metadata} % \changes{v2.0}{2012/08/02}{New \cs{AtBeginDocument} code from Heiko % Oberdiek to properly encode \cs{@pdfmetalang}} % \changes{v3.3}{2017/07/21}{Don't overwrite an existing % \protect\optname{pdfmetalang} with \protect\optname{pdflang} or % \protect\texttt{x-default}. This addresses a bug report by Niklas % Beisert} % \begin{macrocode} \ifx\@pdfmetalang\@empty \ifx\@pdflang\@empty \let\@pdfmetalang=\hyxmp@x@default \else \edef\@pdfmetalang{\@pdflang}% \fi \fi \hyxmp@xmlify\@pdfmetalang % \end{macrocode} % If the author explicitly specified the document date, override the % compilation timestamp with the specified date. % \begin{macrocode} \ifx\@pdfdatetime\@empty \else \edef\hyxmp@today{\@pdfdatetime}% \fi % \end{macrocode} % If the author left \optname{pdftitle} blank but specified |\title|, % use the title for \optname{pdftitle}. Likewise, if the author left % \optname{pdfauthor} blank but specified |\author|, use the author for % \optname{pdfauthor}. % \changes{v2.7}{2016/02/01}{Automatically use \cs{title} and \cs{author} % if \protect\optname{pdftitle} and \protect\optname{pdfauthor} are left % unspecified. Thanks to Maciej Radziejewski for the suggestion} % \begin{macrocode} \@ifmtargexp{\@pdftitle}{% \@ifnotmtargexp{\@title}{% \hypersetup{pdftitle={\@title}}% }% }% {}% \@ifmtargexp{\@pdfauthor}{% \@ifnotmtargexp{\@author}{% \hypersetup{pdfauthor={\@author}}% }% }% {}% % \end{macrocode} % We wait until the end of the document to construct the \acro{XMP} % packet and write it to the \acro{PDF} document catalog. This gives % the author ample opportunity to provide metadata to \pkgname{hyperref} % and thereby \pkgname{hyperxmp}. % \begin{macrocode} \hyxmp@at@end{% \hyxmp@find@metadata \hyxmp@embed@packet }% }{% \PackageWarningNoLine{hyperxmp}{% \jobname.tex failed to include a\MessageBreak \string\usepackage\string{hyperref\string} in the preamble.\MessageBreak Consequently, all hyperxmp functionality will be\MessageBreak disabled}% }% } % \end{macrocode} % % % \subsection{Manipulating author-supplied data} % % The author provides metadata information to \pkgname{hyperxmp} via % package options to \pkgname{hyperref} or via \pkgname{hyperref}'s % |\hypersetup| command. The functions in this section convert % author-supplied lists (e.g.,~|pdfkeywords={foo, bar, baz}|) into % \LaTeX\ lists (e.g.,~|\@elt {foo}| |\@elt {bar}| |\@elt {baz}|) that % can be more easily manipulated (Section~\ref{sec:list-manip}); trim % spaces off the ends of strings (Section~\ref{sec:trim-spaces}); and, % in Section~\ref{sec:text-xml}, convert text to \acro{XML} (e.g.,~from % || to |<scott+hyxmp@pakin.org>|). % % \subsubsection{List manipulation} % \label{sec:list-manip} % % We define a macro for converting a list of comma-separated elements % (e.g.,~the list of \acro{PDF} keywords) to a list of \LaTeX\ % |\@elt|-separated elements. % % \begin{macro}{\hyxmp@commas@to@list} % Given a macro name~(|#1|) and a comma-separated list~(|#2|), define % the macro name as the elements of the list, each preceded by |\@elt|. % (Executing the macro therefore applies |\@elt| to each element in % turn.) % \begin{macrocode} \newcommand*{\hyxmp@commas@to@list}[2]{% \gdef#1{}% \expandafter\hyxmp@commas@to@list@i\expandafter#1#2,,% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@commas@to@list@i} % \begin{macro}{\next} % Recursively construct macro~|#1| from comma-separated list~|#2|. Stop % if |#2| is empty. % \begin{macrocode} \def\hyxmp@commas@to@list@i#1#2,{% \gdef\hyxmp@sublist{#2}% \ifx\hyxmp@sublist\@empty \let\next=\relax \else \hyxmp@trimspaces\hyxmp@sublist \@cons{#1}{{\hyxmp@sublist}}% \def\next{\hyxmp@commas@to@list@i{#1}}% \fi \next } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\xmpcomma} % Because \pkgname{hyperxmp} splits lists at commas, a comma cannot % normally be used within a list. We there provide an |\xmpcomma| macro % that can expand to either a true comma or a placeholder character % depending on the situation. Here, we bind it to a comma so it can be % used in \emph{any} \pkgname{hyperxmp} option, not just those that treat % commas specially. % \changes{v2.0}{2012/08/25}{Added this macro} % \changes{v2.2}{2012/12/07}{Changed the default from % \texttt{\string\string\string\relax} to an ordinary comma} % \begin{macrocode} \def\xmpcomma{,}% % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@comma} % This is what |\xmpcomma| maps to during list construction. We assume % that documents will never otherwise use an \acro{ETX} (|^^C|) % character in their \acro{XMP} metadata. % \changes{v2.0}{2012/08/25}{Added this macro} % \begin{macrocode} \bgroup \catcode`\^^C=11 \gdef\hyxmp@comma{^^C} \egroup % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@uscore} % This is what |\_| temporarily maps to during packet construction. % Because underscores are replaced by spaces, we need a mechanism to % preserve user-specified underscores (e.g.,~in email addresses). We % assume that documents will never otherwise use an \acro{NAK} (|^^U|) % character in their \acro{XMP} metadata. % \changes{v2.5}{2014/06/19}{Added this macro} % \begin{macrocode} \bgroup \catcode`\^^U=11 \gdef\hyxmp@uscore{^^U} \egroup % \end{macrocode} % \end{macro} % % \begin{macro}{\xmpquote} % Adobe Acrobat likes to see double quotes around list elements that % contain commas when the entire list appears within a single \acro{XMP} % tag (e.g.,~||). However, it doesn't like to see double % quotes around list elements that contain commas when the list is % broken up into individual components (i.e.,~using || tags). % We therefore introduce an |\xmpquote| macro that quotes or doesn't % quote its argument based on context. Here, we bind |\xmpquote| to % |\relax| to prevent it from prematurely quoting or not quoting. % \changes{v2.0}{2012/09/10}{Added this macro} % \begin{macrocode} \let\xmpquote=\relax % \end{macrocode} % \end{macro} % % \begin{macro}{\xmptilde} % As a convenience for the user, we define |\xmptilde| as a category~12 % (other) ``|~|'' character. % \changes{v2.4}{2014/01/01}{Added this macro} % \begin{macrocode} \bgroup \catcode`\~=12% \gdef\xmptilde{~}% \egroup % \end{macrocode} % \end{macro} % % \begin{macro}{\XMPTruncateList} % \changes{v2.0}{2012/09/07}{Added this macro} % \changes{v2.3b}{2013/07/18}{Made all definitions local to avoid % spurious \texttt{Too many unprocessed floats} errors when running % with \string\pkgname{memoir}} % \begin{macro}{\hyxmp@temp@str} % \begin{macro}{\hyxmp@temp@list} % \begin{macro}{\@elt} % As a workaround for Adobe Acrobat's inability to display author lists % correctly (cf.~``Acrobat \pdfterm{Author} bug'' on % page~\pageref{page:author-bug}) we introduce a hack that replaces a % list with its first element. One can then write % ``|\XMPTruncateList{pdfauthor}|'' and have Adobe Acrobat display the % author list correctly. It's sad that this is necessary, though. % \begin{macrocode} \newcommand{\XMPTruncateList}[1]{{% \edef\hyxmp@temp@str{\csname hyxmp@#1\endcsname}% \hyxmp@commas@to@list{\hyxmp@temp@list}{\hyxmp@temp@str}% \def\@elt##1{% \expandafter\gdef\csname @#1\endcsname{##1}% \let\@elt=\@gobble } \hyxmp@temp@list }} % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % % \subsubsection{Date manipulation} % \label{sec:date-manip} % % \pkgname{hyperxmp} needs to manipulate two types of date (really, % timestamp) formats: \acro{PDF} format and \acro{XMP} format. % \acro{PDF} timestamps are of the form % ``|D:|\textsc{yyyymmdd}hhmmss|+|\textsc{tt}|'|tt|'|'' % \makeatletter % \@ifundefined{pdffeedback}{^^A % \@ifundefined{pdfcreationdate}{^^A % }{^^A % (e.g.,~\texttt{\pdfcreationdate})^^A % }^^A % }{^^A % (e.g.,~\texttt{\pdffeedback creationdate})^^A % } % \makeatother % ~\cite{Adobe2008:PDF}, while \acro{XMP} timestamps are of the form % ``\textsc{yyyy}|-|\textsc{mm}|-|\textsc{dd}|T|hh|:|mm|:|ss|+|\textsc{tt}|:|tt'' % \makeatletter % \@ifundefined{pdffeedback}{^^A % \@ifundefined{pdfcreationdate}{^^A % \unskip % }{^^A % (e.g.,~\texttt{\expandafter\hyxmp@pdf@to@xmp@date\pdfcreationdate})^^A % }^^A % }{^^A % (e.g.,~\texttt{\expandafter\hyxmp@pdf@to@xmp@date\pdffeedback creationdate})^^A % }^^A % \makeatother % ~\cite{Adobe2012:XMP}. The |\hyxmp@as@pdf@date| and % |\hyxmp@as@xmp@date| macros defined in this section facilitate % timestamp conversions to \acro{PDF} and \acro{XMP} formats, % respectively. % % \begin{macro}{\hyxmp@first@char} % \begin{macro}{\hyxmp@first@char@i} % Return the first character of a string. This macro is fully expandable. % \begin{macrocode} \def\hyxmp@first@char#1{\hyxmp@first@char@i#1\relax} \def\hyxmp@first@char@i#1#2\relax{#1} % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@as@xmp@date} % If necessary, convert a timestamp to \acro{XMP} format. That is, if % the timestamp is in \acro{PDF} format, convert it; otherwise, leave it % unmodified. This macro is fully expandable. % \changes{v3.2}{2017/02/20}{Added this macro} % \begin{macrocode} \def\hyxmp@as@xmp@date#1{% \expandafter\ifx\hyxmp@first@char@i#1\relax D% \hyxmp@pdf@to@xmp@date{#1}% \else #1% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@pdf@to@xmp@date} % Convert a timestamp from \acro{PDF} format to \acro{XMP} format. This % macro is fully expandable. % \changes{v2.4}{2013/12/24}{Added this macro} % \begin{macrocode} \def\hyxmp@pdf@to@xmp@date#1:#2#3#4#5#6#7#8#9{% #2#3#4#5-#6#7-#8#9% \hyxmp@parse@time } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@parse@time} % This is a helper function for |\hyxmp@pdf@to@xmp@date|. % |\hyxmp@pdf@to@xmp@date| proper parses only the year, month, and day % then calls |\hyxmp@parse@time|. |\hyxmp@parse@time| parses the % hours, minutes, and seconds then calls |\hyxmp@parse@tz@char|. % \changes{v2.4}{2013/12/24}{Added this macro} % \begin{macrocode} \def\hyxmp@parse@time#1#2#3#4#5#6{% T#1#2:#3#4:#5#6% \hyxmp@parse@tz@char } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@parse@tz@char} % This is another helper function for |\hyxmp@pdf@to@xmp@date|. So far, % the date and time have been parsed. |\hyxmp@parse@tz@char| parses the % first character of the timezone descriptor. This can be one of % ``|+|'' for eastern timezones (\mbox{UTC$+x$}, including Asia, % Oceania, and most of Europe), ``|-|'' for western timezones % (\mbox{UTC$-x$}, primarily the Americas), or ``|Z|'' for Zulu time % (\mbox{UTC$+0$}). Timezones beginning with ``|+|'' or ``|-|'' are % followed by an offset in hours and minutes (parsed by % |\hyxmp@parse@tz|; timezones beginning with ``|Z|'' are not. % \changes{v2.4}{2013/12/24}{Added this macro} % \begin{macrocode} \def\hyxmp@parse@tz@char#1{% #1% \ifx#1-% \expandafter\hyxmp@parse@tz \else \ifx#1+% \expandafter\hyxmp@parse@tz \fi \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@parse@tz} % This is the final helper function for |\hyxmp@pdf@to@xmp@date|. It % parses the piece of the timezone comprising the offset from % Coordinated Universal Time, measured in hours and minutes. % \changes{v2.4}{2013/12/24}{Added this macro} % \begin{macrocode} \def\hyxmp@parse@tz#1'#2'{% #1:#2% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@as@pdf@date} % If necessary, convert a timestamp to \acro{PDF} format. That is, if % the timestamp is in \acro{XMP} format, convert it; otherwise, leave it % unmodified. This macro is fully expandable. % \changes{v3.2}{2017/02/20}{Added this macro} % \begin{macrocode} \def\hyxmp@as@pdf@date#1{% \expandafter\ifx\hyxmp@first@char@i#1\relax D% #1% \else \hyxmp@xmp@to@pdf@date{#1}% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date} % Convert a timestamp from \acro{XMP} format to \acro{PDF} format. This % macro is fully expandable. % \changes{v2.4}{2013/12/24}{Added this macro} % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date#1{% D:\hyxmp@xmp@to@pdf@date@i#1\relax\relax } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date@i} % Parse the year for |\hyxmp@xmp@to@pdf@date|. % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date@i#1#2#3#4#5#6{% #1#2#3#4% \ifx#5-% \expandafter\hyxmp@xmp@to@pdf@date@ii\expandafter#6% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date@ii} % Parse the month for |\hyxmp@xmp@to@pdf@date|. % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date@ii#1#2#3#4{% #1#2% \ifx#3-% \expandafter\hyxmp@xmp@to@pdf@date@iii\expandafter#4% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date@iii} % Parse the day for |\hyxmp@xmp@to@pdf@date|. % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date@iii#1#2#3#4{% #1#2% \ifx#3T% \expandafter\hyxmp@xmp@to@pdf@date@iv\expandafter#4% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date@iv} % Parse the hour for |\hyxmp@xmp@to@pdf@date|. % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date@iv#1#2#3#4{% #1#2% \ifx#3:% \expandafter\hyxmp@xmp@to@pdf@date@v\expandafter#4% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date@v} % Parse the minute for |\hyxmp@xmp@to@pdf@date|. % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date@v#1#2#3#4{% #1#2% \ifx#3:% \expandafter\hyxmp@xmp@to@pdf@date@vi\expandafter#4% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@gobbletwo} % This is exactly the same as \LaTeXe's |\@gobbletwo| but needs to be a % different literal for |\hyxmp@xmp@to@pdf@date@vii|'s pattern-matching % to work. % \begin{macrocode} \let\@hyxmp@gobbletwo=\@gobbletwo % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date@vi} % Parse the second for |\hyxmp@xmp@to@pdf@date|. The challenge here is % that we need to handle four cases for the character following the % seconds---``|+|'', ``|-|'', ``|Z|'', and no character---without sacrificing % expandability. Our tricky solution is to insert a |\@gobbletwo| as a % sentinel and let |\hyxmp@xmp@to@pdf@date@vi| discard everything up to % that sentinel (i.e.,~all the other conditionals). % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date@vi#1#2#3#4{% #1#2% \ifx#3+% +\expandafter\hyxmp@xmp@to@pdf@date@vii \fi \ifx#3-% -\expandafter\hyxmp@xmp@to@pdf@date@vii \fi \ifx#3Z% Z% \fi \ifx#3\relax \expandafter\@hyxmp@gobbletwo \fi \@gobbletwo #4% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date@vii} % Parse the time-zone hours for |\hyxmp@xmp@to@pdf@date|. % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date@vii#1\@gobbletwo#2#3#4#5{% #2#3% \ifx#4:% \expandafter\hyxmp@xmp@to@pdf@date@viii\expandafter#5% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmp@to@pdf@date@viii} % Parse the time-zone minutes for |\hyxmp@xmp@to@pdf@date|. % \begin{macrocode} \def\hyxmp@xmp@to@pdf@date@viii#1#2#3#4{% '#1#2'% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@today@define} % Use \TeX\ primitives to define a given macro as today's date in % \textsc{yyyy}-\textsc{mm}-\textsc{dd}|T|hh|:|mm format. % \changes{v2.4}{2013/12/21}{Added this macro} % \changes{v3.0}{2016/07/03}{Modified to accept the name of a macro % to define} % \changes{v3.2}{2017/02/21}{Modified to include hours and minutes} % \begin{macrocode} \def\hyxmp@today@define#1{% % \end{macrocode} % The date is a straightforward representation of \TeX's |\year|, % |\month|, and |\day| primitives, with the latter two zero-padded to % two digits apiece. % \begin{macrocode} \xdef#1{\the\year}% \ifnum\month<10 \xdef#1{#1-0\the\month}% \else \xdef#1{#1-\the\month}% \fi \ifnum\day<10 \xdef#1{#1-0\the\day}% \else \xdef#1{#1-\the\day}% \fi % \end{macrocode} % \TeX\ does not provide the time in terms of separate hours and minutes % but rather as the total number of minutes since midnight (|\time|). % There's no mechanism in \TeX\ to query the number of seconds since % midnight or the timezone so we omit those fields when defining % macro~|#1|. % \begin{macrocode} \@tempcnta=\time \divide\@tempcnta by 60% \ifnum\@tempcnta<10% \xdef#1{#1T0\the\@tempcnta}% \else \xdef#1{#1T\the\@tempcnta}% \fi \multiply\@tempcnta by -60% \advance\@tempcnta by \time \ifnum\@tempcnta<10% \xdef#1{#1:0\the\@tempcnta}% \else \xdef#1{#1:\the\@tempcnta}% \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@today} % Define |\hyxmp@today| as the current date and (if available) time and % timezone in \acro{XMP} \xmpterm{Date} format~\cite{Adobe2012:XMP}. % \changes{v2.4}{2013/12/24}{Modified the code to parse the time and % timezone from \texttt{\string\string\string\pdfcreationdate}, as % proposed by Florian Breitwieser} % \begin{macrocode} \@ifundefined{pdffeedback}{% \@ifundefined{pdfcreationdate}{% % \end{macrocode} % Case 1: Neither |\pdffeedback| nor |\pdfcreationdate| is defined % (\XeLaTeX\ and regular \LaTeX). % \begin{macrocode} \hyxmp@today@define\hyxmp@today }{% % \end{macrocode} % Case 2: |\pdfcreationdate| is defined (\pdfLaTeX\ and pre-0.85 \LuaLaTeX). % \begin{macrocode} \edef\hyxmp@today{\expandafter\hyxmp@pdf@to@xmp@date\pdfcreationdate}% }% }{% % \end{macrocode} % Case 3: |\pdffeedback| is defined (\LuaLaTeX~0.85+). % \begin{macrocode} \edef\hyxmp@today{\expandafter\hyxmp@pdf@to@xmp@date\pdffeedback creationdate}% } % \end{macrocode} % \end{macro} % % % \subsubsection{Trimming leading and trailing spaces} % \label{sec:trim-spaces} % % To make it easier for \acro{XMP} processors to manipulate our output we % define a |\hyxmp@trimspaces| macro to strip leading and trailing % spaces from various data fields. % % \begin{macro}{\hyxmp@trimspaces} % Redefine a macro as its previous value but without leading or trailing % spaces. This code---as well as that for its helper macros, % |\hyxmp@trimb| and |\hyxmp@trimc|---was taken almost verbatim from a % solution to an \emph{Around the Bend} puzzle~\cite{Downes1994:ATB15}. % Inline comments are also taken from the solution text. % \begin{macrocode} \catcode`\Q=3 % \end{macrocode} % |\hyxmp@trimspaces\x| redefines |\x| to have the same replacement text % sans leading and trailing space tokens. % \begin{macrocode} \newcommand{\hyxmp@trimspaces}[1]{% % \end{macrocode} % Use grouping to emulate a multi-token |afterassignment| queue. % \begin{macrocode} \begingroup % \end{macrocode} % Put ``|\toks 0 {|'' into the |afterassignment| queue. % \begin{macrocode} \aftergroup\toks\aftergroup0\aftergroup{% % \end{macrocode} % Apply |\hyxmp@trimb| to the replacement text of |#1|, adding a leading % |\noexpand| to prevent brace stripping and to serve another purpose % later. % \begin{macrocode} \expandafter\hyxmp@trimb\expandafter\noexpand#1Q Q}% % \end{macrocode} % Transfer the trimmed text back into |#1|. % \begin{macrocode} \edef#1{\the\toks0}% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@trimb} % |\hyxmp@trimb| removes a trailing space if present, then calls % |\hyxmp@trimc| to clean up any leftover bizarre |Q|s, and trim a % leading space. In order for |\hyxmp@trimc| to work properly we need to % put back a |Q| first. % \begin{macrocode} \def\hyxmp@trimb#1 Q{\hyxmp@trimc#1Q} % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@trimc} % Execute |\vfuzz| assignment to remove leading space; the |\noexpand| % will now prevent unwanted expansion of a macro or other expandable % token at the beginning of the trimmed text. The |\endgroup| will feed % in the |\aftergroup| tokens after the |\vfuzz| assignment is % completed. % \begin{macrocode} \def\hyxmp@trimc#1Q#2{\afterassignment\endgroup \vfuzz\the\vfuzz#1} \catcode`\Q=11 % \end{macrocode} % \end{macro} % % % \subsubsection{Converting text to XML} % \label{sec:text-xml} % % The ``|<|'', ``|>|'', and ``|&|'' characters are significant to \acro{XML}. % We therefore need to escape them in any author-supplied text. % % \begin{macro}{\ifhyxmp@unicodetex} % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macro}{\hyxmp@unicodetextrue} % \begin{macro}{\hyxmp@unicodetexfalse} % \XeTeX\ and \LuaTeX\ natively support \term{Unicode}. We define the % conditional |\ifhyxmp@unicodetex| to check for these so we can % properly handle encoding conversions. The trick here is that % \term{Unicode} \tex\ implementations compare decimal~64 to % hexadecimal~40 (decimal~64), specified with four carets, and take the % \textsc{true} branch; non-\term{Unicode} \tex\ implementations compare % decimal~64 to character~``|^|'' (decimal~94), ignore the ``|^^0040|'' % and the rest of the \textsc{true} branch, and take the \textsc{false} % branch. % \begin{macrocode} \newif\ifhyxmp@unicodetex \ifnum64=`\^^^^0040\relax \hyxmp@unicodetextrue \else \hyxmp@unicodetexfalse \fi % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@reencode} % This is now a placeholder macro needed only for |\@pdfmetalang| in % the |\begin{document}|. % \changes{v1.3}{2011/04/25}{Introduced this macro to re-encode Unicode % strings as 8-bit strings before manipulating them into \acro{XMP} % schema. This change addresses a bug reported by Martin M\"unch} % \changes{v2.0}{2012/08/02}{Replaced with an empty macro by Heiko Oberdiek} % \begin{macrocode} \newcommand*{\hyxmp@reencode}[1]{} % \end{macrocode} % \end{macro} % % \begin{macro}{\SE->pdfdoc@03} % Preserve \acro{ETX} (|^^C|), which is normally an invalid character in % \term{PDFDocEncoding}. We use it in \pkgname{hyperxmp} (and % specifically in |\hyxmp@xmlify| below) as a list-element separator. % \begin{macrocode} \expandafter\def\csname SE->pdfdoc@03\endcsname{0003} % \end{macrocode} % \end{macro} % % \begin{macro}{\SE->pdfdoc@15} % Preserve \acro{NAK} (|^^U|), which is normally an invalid character in % \term{PDFDocEncoding}. We use it in \pkgname{hyperxmp} (and % specifically in |\hyxmp@xmlify| below) as a placeholder for an % underscore character. % \begin{macrocode} \expandafter\def\csname SE->pdfdoc@15\endcsname{0015} % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@xmlify} % \changes{v2.0}{2012/08/02}{Completely rewritten by Heiko Oberdiek to % better support Unicode-enabled \tex\ programs} % \begin{macro}{\hyxmp@xmlified} % \begin{macro}{\hyxmp@text} % Given a piece of text defined using |\pdfstringdef| (i.e.,~with many % special characters redefined to have category code~11), set % |\hyxmp@xmlified| to the same text but with all occurrences of~``|<|'' % replaced with~|<|, all occurrences of~``|>|'' replaced with~|>|, % and all occurrences of~``|&|'' replaced with~|&|. % \begin{macrocode} \newcommand*{\hyxmp@xmlify}[1]{% \gdef\hyxmp@xmlified{}% % \end{macrocode} % Escaped PDF string~$\rightarrow$ \term{PDFDocEncoding}/\term{Unicode} % \begin{macrocode} \EdefUnescapeString\hyxmp@text{#1}% \ifhyxmp@unicodetex % \end{macrocode} % \term{PDFDocEncoding}/\term{Unicode}~$\rightarrow$ \acro{UTF-32BE} % \begin{macrocode} \hyxmp@is@unicode\hyxmp@text{% \StringEncodingConvert \hyxmp@text\hyxmp@text{utf16be}{utf32be}% }{% \ifxetex \hyxmp@xetex@crap \else \StringEncodingConvert \hyxmp@text\hyxmp@text{pdfdoc}{utf32be}% \fi }% % \end{macrocode} % \acro{UTF-32BE}~$\rightarrow$ \acro{UTF-32BE} as hex string % \begin{macrocode} \EdefEscapeHex\hyxmp@text{\hyxmp@text}% % \end{macrocode} % \acro{UTF-32BE}~$\rightarrow$ \acro{XML} in \acro{ASCII} % \begin{macrocode} \edef\hyxmp@text{% \expandafter }\expandafter\hyxmp@toxml@unicodetex\hyxmp@text \relax\relax\relax\relax\relax\relax\relax\relax \else % \end{macrocode} % \term{PDFDocEncoding}/\term{Unicode}~$\rightarrow$ \acro{UTF-8} % \begin{macrocode} \hyxmp@is@unicode\hyxmp@text{% \StringEncodingConvert \hyxmp@text\hyxmp@text{utf16be}{utf8}% }{% \StringEncodingConvert \hyxmp@text\hyxmp@text{pdfdoc}{utf8}% }% % \end{macrocode} % \acro{UTF-8}~$\rightarrow$ \acro{UTF-8} as hex string % \begin{macrocode} \EdefEscapeHex\hyxmp@text{\hyxmp@text}% % \end{macrocode} % \acro{UTF-8} as hex string~$\rightarrow$ \acro{XML} in \acro{UTF-8} % as hex string % \begin{macrocode} \edef\hyxmp@text{% \expandafter\hyxmp@toxml\hyxmp@text\@empty\@empty }% % \end{macrocode} % \acro{XML} in \acro{UTF-8} as hex string~$\rightarrow$ \acro{XML} % in \acro{UTF-8} % \begin{macrocode} \EdefUnescapeHex\hyxmp@text{\hyxmp@text}% \fi \global\let\hyxmp@xmlified\hyxmp@text } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@is@unicode} % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macro}{\hyxmp@@is@unicode} % Given a string and two expressions, evaluate the first expression if % the string is \acro{UTF-16BE}-encoded and the second expression if not. % \begin{macrocode} \begingroup \lccode`\<=254 % \lccode`\>=255 % \catcode254=12 % \catcode255=12 % \lowercase{\endgroup \def\hyxmp@is@unicode#1{% \expandafter\hyxmp@@is@unicode#1<>\@nil }% \def\hyxmp@@is@unicode#1<>#2\@nil{% \ifx\\#1\\% \expandafter\@firstoftwo \else \expandafter\@secondoftwo \fi }% } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@toxml} % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % Replace the characters ``\textless'', ``\&'', and ``\textgreater'' with % \acro{XML} entities when using a non-native-\term{Unicode} % \tex\ (\tex\ or \pdfTeX). % \begin{macrocode} \def\hyxmp@toxml#1#2{% \ifx#1\@empty \else \ifnum"#1#2=`\& % 26616D703B% & \else\ifnum"#1#2=`\< % 266C743B% < \else\ifnum"#1#2=`\> % 2667743B% > \else % \end{macrocode} % \cmdname{dvips} wraps text when generating most PostScript code but % preserves line breaks within strings. Unfortunately, \cmdname{dvips} % fails to observe the special case in the PostScript specification that % ``[b]alanced pairs of parentheses in the string require no special % treatment''~\cite{Adobe1996:postscript}. Consequently, \acro{XMP} % data containing parentheses (e.g.,~``\texttt{Copyright (C) 1605 Miguel % de Cervantes}'') confuse \cmdname{dvips} into thinking that the % string has ended after the closing parenthesis and that line breaks % can subsequently be injected safely into the document at arbitrary % points for formatting purposes. This leads to erroneous display by % \acro{PDF} viewers, which honor line breaks within \acro{XMP} tags. % The solution is to insert a backslash before all parentheses when in % \texttt{pdfmark}-generating mode to convince \cmdname{dvips} that the % entire \acro{XMP} packet must be treated as a single, % not-to-be-modified string. % \changes{v2.0}{2012/08/22}{Escaped parentheses written with % \texttt{pdfmark}s to prevent \cmdname{dvips} from line-wrapping the % \protect\acro{XMP} packet} % \begin{macrocode} \@ifundefined{pdfmark}{% #1#2% }{% \ifnum"#1#2=`\( % 5C28% \( \else\ifnum"#1#2=`\) % 5C29% \) \else #1#2% \fi\fi }% \fi\fi\fi \expandafter\hyxmp@toxml \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@toxml@unicodetex} % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macro}{\hyxmp@text} % Replace the characters ``\textless'', ``\&'', and ``\textgreater'' with % \acro{XML} entities when using a native-\term{Unicode} % \tex\ (\XeTeX\ or \LuaTeX). % \begin{macrocode} \def\hyxmp@toxml@unicodetex#1#2#3#4#5#6#7#8{% \ifx#1\relax \else \ifnum"#1#2#3#4#5#6#7#8>127 % \uccode`\*="#1#2#3#4#5#6#7#8\relax \uppercase{% \edef\hyxmp@text{\hyxmp@text *}% }% \else\ifnum"#7#8=`\< % \edef\hyxmp@text{\hyxmp@text <}% \else\ifnum"#7#8=`\& % \edef\hyxmp@text{\hyxmp@text &}% \else\ifnum"#7#8=`\> % \edef\hyxmp@text{\hyxmp@text >}% \else\ifnum"#7#8=`\ % \edef\hyxmp@text{\hyxmp@text\space}% \else \uccode`\*="#7#8\relax \uppercase{% \edef\hyxmp@text{\hyxmp@text *}% }% \fi\fi\fi\fi\fi \expandafter\hyxmp@toxml@unicodetex \fi } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@skipzeros} % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % Skip over leading zeroes in the input argument. % \begin{macrocode} \def\hyxmp@skipzeros#1{% \ifx#10% \expandafter\hyxmp@skipzeros \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\x} % \begin{macro}{\hyxmp@xetex@crap} % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macro}{\hyxmp@try} % \begin{macro}{\hyxmp@crap@result} % \begin{macro}{\hyxmp@text} % In the case of \XeTeX, the strings defined by |\pdfstringdef| can % contain big characters. In this case, the string is treated as % \term{Unicode}. % \begin{macrocode} \begingroup \def\x#1{\endgroup \def\hyxmp@xetex@crap{% \edef\hyxmp@try{% \expandafter\hyxmp@SpaceOther\hyxmp@text#1\@nil }% \let\hyxmp@crap@result=N% \expandafter\hyxmp@crap@test\hyxmp@try\relax \ifx\hyxmp@crap@result Y% \let\hyxmp@text\@empty \expandafter\hyxmp@crap@convert\hyxmp@try\relax \else \StringEncodingConvert\hyxmp@text\hyxmp@text{pdfdoc}{utf32be}% \fi }% } \x{ } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@SpaceOther} % Re-encode all spaces in a string with category code~12 (``other''). % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macrocode} \begingroup \catcode`\~=12 % \lccode`\~=`\ % \lowercase{\endgroup \def\hyxmp@SpaceOther#1 #2\@nil{% #1% \ifx\relax#2\relax \expandafter\@gobble \else ~% \expandafter\@firstofone \fi {\hyxmp@SpaceOther#2\@nil}% }% } % \end{macrocode} % \end{macro} % % % \begin{macro}{\hyxmp@crap@test} % Determine if we need to treat a string as \term{Unicode}. % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macrocode} \def\hyxmp@crap@test#1{% \ifx#1\relax \else \ifnum`#1>127 % \let\hyxmp@crap@result=Y% \expandafter\expandafter\expandafter\hyxmp@skiptorelax \else \expandafter\expandafter\expandafter\hyxmp@crap@test \fi \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@skiptorelax} % Discard all tokens up to and including the first |\relax|. % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macrocode} \def\hyxmp@skiptorelax#1\relax{} % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@crap@convert} % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macro}{\hyxmp@num} % \begin{macro}{\hyxmp@text} % Convert a hexadecimal string to a number. % \begin{macrocode} \def\hyxmp@crap@convert#1{% \ifx#1\relax \else \edef\hyxmp@num{\number`#1}% \ifnum\hyxmp@num>"FFFFFF % \lccode`\!=\intcalcDiv{\hyxmp@num}{\number"1000000}\relax \lowercase{\edef\hyxmp@text{\hyxmp@text!}}% \edef\hyxmp@num{\intcalcMod{\hyxmp@num}{\number"1000000}}% \else \edef\hyxmp@text{\hyxmp@text\hyxmp@zero}% \fi \ifnum\hyxmp@num>"FFFF % \lccode`\!=\intcalcDiv{\hyxmp@num}{\number"10000}\relax \lowercase{\edef\hyxmp@text{\hyxmp@text!}}% \edef\hyxmp@num{\intcalcMod{\hyxmp@num}{\number"10000}}% \else \edef\hyxmp@text{\hyxmp@text\hyxmp@zero}% \fi \ifnum\hyxmp@num>"FF % \lccode`\!=\intcalcDiv{\hyxmp@num}{\number"100}\relax \lowercase{\edef\hyxmp@text{\hyxmp@text!}}% \edef\hyxmp@num{\intcalcMod{\hyxmp@num}{\number"100}}% \else \edef\hyxmp@text{\hyxmp@text\hyxmp@zero}% \fi \ifnum\hyxmp@num>0 % \lccode`\!=\hyxmp@num\relax \lowercase{\edef\hyxmp@text{\hyxmp@text!}}% \else \edef\hyxmp@text{\hyxmp@text\hyxmp@zero}% \fi \expandafter\hyxmp@crap@convert \fi } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@zero} % Define a null character with category code~12 (``other''). % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macrocode} \begingroup \catcode0=12 % \gdef\hyxmp@zero{^^00}% \endgroup % \end{macrocode} % \end{macro} % % % \subsubsection{Providing metadata in multiple languages} % \label{sec:lang-alt} % % Certain \acro{XMP} tags---\xmpterm{dc:title}, % \xmpterm{dc:description}, and \xmpterm{dc:rights} (and others? Let me % know.)---can be expressed in multiple languages. The same text is % used for both language \optname{pdfmetalang} (default: % \optname{pdflang}) and language ``|x-default|''. To express the same % metadata in multiple languages, we provide an |\XMPLangAlt| macro to % construct a list of alternative forms for a piece of metadata. % % \begin{macro}{\hyxmp@alt@title} % \begin{macro}{\hyxmp@alt@description} % \begin{macro}{\hyxmp@alt@rights} % Each of these macros is a list in which each element is of the form % ``|\do| \meta{language} \meta{text}'' in which \meta{language} is an % \acro{ISO} \mbox{639-1} two-letter country code with an optional % \acro{ISO} \mbox{3166-1} two-letter region code. For example, % |\hyxmp@alt@title| may contain an element, ``|\do| |{es-MX}| % |{Este| |es| |mi| |documento}|''. % \begin{macrocode} \def\hyxmp@alt@title{} \def\hyxmp@alt@description{} \def\hyxmp@alt@rights{} % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@LA@accept} % This macro wraps |\define@key| to make the option ``|#1|=\meta{value}'' % append \meta{value} to list~|#2|. % \begin{macrocode} \newcommand{\hyxmp@LA@accept}[2]{% \define@key{hyxmp@LA}{#1}{% % \end{macrocode} % \begin{macro}{\hyxmp@value} % As Niklas Beisert observed, if the option passed to the current key % contains \LaTeX\ code, this code will be included in the \acro{XMP} % packet, which is undesirable. Hence, we first clean up the string % using |\hyxmp@pdfstringdef|. % \begin{macrocode} \hyxmp@pdfstringdef\hyxmp@value{##1}% \xdef#2{#2\noexpand\do {\hyxmp@cur@lang} {\hyxmp@value}}% } } % \end{macrocode} % \end{macro} % \end{macro} % % Define \meta{key}=\meta{value} options for appending to each of the % |\hyxmp@alt|\meta{tag} lists. % \begin{macrocode} \hyxmp@LA@accept{pdftitle}{\hyxmp@alt@title} \hyxmp@LA@accept{pdfsubject}{\hyxmp@alt@description} \hyxmp@LA@accept{pdfcopyright}{\hyxmp@alt@rights} % \end{macrocode} % % \begin{macro}{\XMPLangAlt} % Argument~|#1| is a language expressed as a two-letter country code and % optional two-letter region code. Argument~|#2| is a list of % \meta{key}=\meta{value} pairs. Keys correspond to |\hypersetup| % options such as ``|pdftitle|'', ``|pdfsubject|'', and % ``|pdfcopyright|''. Values are the alternative-language form of the % text provided for the corresponding option. % \changes{v3.3}{2017/07/22}{Added this macro based on a request---and % some code---by Niklas Beisert to support metadata expressed in multiple % languages} % \begin{macrocode} \newcommand{\XMPLangAlt}[2]{% \let\do=\relax % \end{macrocode} % \begin{macro}{\hyxmp@cur@lang} % Store the provided language, which will be used during option processing. % \begin{macrocode} \edef\hyxmp@cur@lang{#1}% \setkeys{hyxmp@LA}{#2}% } % \end{macrocode} % \end{macro} % \end{macro} % % % \subsection{UUID generation} % \label{sec:uuid-gen} % % We use a linear congruential generator to produce pseudorandom % version~4 \acro{UUID}s~\cite{Leach2005:uuid}. True, this method has % its flaws but it's simple to implement in \tex\ and is good enough for % producing the \acro{XMP} \xmpterm{xmpMM:DocumentID} and % \xmpterm{xmpMM:InstanceID} fields. % % \begin{macro}{\hyxmp@modulo@a} % Replace the contents of |\@tempcnta| with the contents modulo~|#1|. % Note that |\@tempcntb| is overwritten in the process. % \begin{macrocode} \def\hyxmp@modulo@a#1{% \@tempcntb=\@tempcnta \divide\@tempcntb by #1 \multiply\@tempcntb by #1 \advance\@tempcnta by -\@tempcntb } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@big@prime} % \begin{macro}{\hyxmp@big@prime@ii} % Define a couple of large prime numbers that can still be stored in a % \tex\ counter. % \begin{macrocode} \def\hyxmp@big@prime{536870923} \def\hyxmp@big@prime@ii{536870027} % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@seed@rng} % \begin{macro}{\hyxmp@one@token} % Seed \pkgname{hyperxmp}'s random-number generator from a given piece % of text. % \begin{macrocode} \def\hyxmp@seed@rng#1{% \@tempcnta=\hyxmp@big@prime \futurelet\hyxmp@one@token\hyxmp@seed@rng@i#1\@empty } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@seed@rng@i} % \begin{macro}{\hyxmp@one@token} % \begin{macro}{\next} % Do all of the work for |\hyxmp@seed@rng|. For each character code $c$ % of the input text, assign $\mathtt{\string\@tempcnta} \leftarrow 3 % \cdot \mathtt{\string\@tempcnta} + c % \pmod{\mathtt{\string\hyxmp@big@prime}}$. % \begin{macrocode} \def\hyxmp@seed@rng@i{% \ifx\hyxmp@one@token\@empty \let\next=\relax \else \def\next##1{% \multiply\@tempcnta by 3 \advance\@tempcnta by `##1 \hyxmp@modulo@a{\hyxmp@big@prime}% \futurelet\hyxmp@one@token\hyxmp@seed@rng@i }% \fi \next } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@set@rand@num} % \begin{macro}{\hyxmp@rand@num} % Advance |\hyxmp@rand@num| to the next pseudorandom number in the % sequence. Specifically, we assign $\mathtt{\string\hyxmp@rand@num} % \leftarrow 3 \cdot \mathtt{\string\hyxmp@rand@num} + % \mathtt{\string\hyxmp@big@prime@ii} % \pmod{\mathtt{\string\hyxmp@big@prime}}$. Note that both |\@tempcnta| % and |\@tempcntb| are overwritten in the process. % \begin{macrocode} \def\hyxmp@set@rand@num{% \@tempcnta=\hyxmp@rand@num \multiply\@tempcnta by 3 \advance\@tempcnta by \hyxmp@big@prime@ii \hyxmp@modulo@a{\hyxmp@big@prime}% \xdef\hyxmp@rand@num{\the\@tempcnta}% } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@append@hex} % Append a randomly selected hexadecimal digit to macro~|#1|. Note that % both |\@tempcnta| and |\@tempcntb| are overwritten in the process. % \begin{macrocode} \def\hyxmp@append@hex#1{% \hyxmp@set@rand@num \@tempcnta=\hyxmp@rand@num \hyxmp@modulo@a{16}% \ifnum\@tempcnta<10 \xdef#1{#1\the\@tempcnta}% \else % \end{macrocode} % There \emph{must} be a better way to handle the numbers~10--15 than % with |\ifcase|. % \begin{macrocode} \advance\@tempcnta by -10 \ifcase\@tempcnta \xdef#1{#1a}% \or\xdef#1{#1b}% \or\xdef#1{#1c}% \or\xdef#1{#1d}% \or\xdef#1{#1e}% \or\xdef#1{#1f}% \fi \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@append@hex@iii} % Invoke |\hyxmp@append@hex| three times. % \begin{macrocode} \def\hyxmp@append@hex@iii#1{% \hyxmp@append@hex#1% \hyxmp@append@hex#1% \hyxmp@append@hex#1% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@append@hex@iv} % Invoke |\hyxmp@append@hex| four times. % \begin{macrocode} \def\hyxmp@append@hex@iv#1{% \hyxmp@append@hex@iii#1% \hyxmp@append@hex#1% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@create@uuid} % As per the definition of a version~4 % \acro{UUID}~\cite{Leach2005:uuid}, define macro~|#1| as a \acro{UUID} % of the form % ``|uuid:|\textit{xxxxxxxx}|-|\linebreak[0]\textit{xxxx}|-|\linebreak[0]\textit{4xxx}|-|\linebreak[0]\textit{yxxx}|-|\linebreak[0]\textit{xxxxxxxxxxxx}'' % in which each ``\textit{x}'' is a lowercase hexadecimal digit and % ``\textit{y}'' is one of ``|8|'', ``|9|'', ``|a|'', or~``|b|''. We % assume that the random-number generator is already seeded. Note that % |\hyxmp@create@uuid| overwrites both |\@tempcnta| and |\@tempcntb|. % \changes{v2.4}{2014/01/02}{Modified this macro to produce a proper % version~4 (random or pseudorandom) \protect\acro{UUID}} % \begin{macrocode} \def\hyxmp@create@uuid#1{% \def#1{uuid:}% \hyxmp@append@hex@iv#1% \hyxmp@append@hex@iv#1% \g@addto@macro#1{-}% \hyxmp@append@hex@iv#1% \g@addto@macro#1{-4}% \hyxmp@append@hex@iii#1% \g@addto@macro#1{-}% % \end{macrocode} % Randomly select one of ``|8|'', ``|9|'', ``|a|'', or~``|b|''. % \begin{macrocode} \hyxmp@set@rand@num \@tempcnta=\hyxmp@rand@num \hyxmp@modulo@a{4}% \ifcase\@tempcnta \g@addto@macro#1{8}% \or\g@addto@macro#1{9}% \or\g@addto@macro#1{a}% \or\g@addto@macro#1{b}% \fi \hyxmp@append@hex@iii#1% \g@addto@macro#1{-}% \hyxmp@append@hex@iv#1% \hyxmp@append@hex@iv#1% \hyxmp@append@hex@iv#1% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@def@DocumentID} % \begin{macro}{\hyxmp@DocumentID} % \begin{macro}{\hyxmp@seed@string} % Seed the random-number generator with a function of the current % filename, \acro{PDF} document title, and \acro{PDF} author, then invoke % |\hyxmp@create@uuid| to define |\hyxmp@DocumentID| as a random \acro{UUID}. % \changes{v3.4}{2017/11/04}{Correctly handle an author field of all spaces. % Bug reported by Ga\"etan Leurent} % \begin{macrocode} \newcommand*{\hyxmp@def@DocumentID}{% \edef\hyxmp@seed@string{\jobname:\@pdftitle:\@pdfauthor:}% \expandafter\hyxmp@seed@rng\expandafter{\hyxmp@seed@string}% \edef\hyxmp@rand@num{\the\@tempcnta}% \hyxmp@create@uuid\hyxmp@DocumentID } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@def@InstanceID} % \begin{macro}{\hyxmp@InstanceID} % \begin{macro}{\hyxmp@seed@string} % Seed the random-number generator with a function of the current % filename, \acro{PDF} document title, \acro{PDF} author, and the % current timestamp, then invoke |\hyxmp@create@uuid| to define % |\hyxmp@InstanceID| as a random \acro{UUID}. % \begin{macrocode} \newcommand*{\hyxmp@def@InstanceID}{% \edef\hyxmp@seed@string{\jobname:\@pdftitle:\@pdfauthor:\hyxmp@today}% \expandafter\hyxmp@seed@rng\expandafter{\hyxmp@seed@string}% \edef\hyxmp@rand@num{\the\@tempcnta}% \hyxmp@create@uuid\hyxmp@InstanceID } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % % \subsection{Constructing the XMP packet} % % An \acro{XMP} packet ``shall consist of the following, in order: a % header \acro{PI}, the serialized \acro{XMP} data model (the \acro{XMP} % packet) with optional white-space padding, and a trailer % \acro{PI}''~\cite{Adobe2012:XMP}. (``\acro{PI}'' is an abbreviation % for ``processing instructions''). The serialized \acro{XMP} includes % blocks of \acro{XML} for various \acro{XMP} schemata: Adobe \acro{PDF} % (Section~\ref{sec:adobe-pdf}), Dublin Core % (Section~\ref{sec:dublin-core}), \acro{XMP} Rights Management % (Section~\ref{sec:xmp-rights}), \acro{XMP} Media Management % (Section~\ref{sec:xmp-media}), \acro{XMP} Basic % (Section~\ref{sec:xmp-basic}), Photoshop % (Section~\ref{sec:photoshop}), \acro{IPTC} Photo Metadata % (Section~\ref{sec:photo-meta}), and \acro{PDF/A} Identification % (Section~\ref{sec:pdfa-id}). The |\hyxmp@construct@packet| macro % (Section~\ref{sec:combining-schemata}) constructs the \acro{XMP} % packet into |\hyxmp@xml|. It first writes the appropriate \acro{XML} % header, then calls the various schema-writing macros, then injects % |\hyxmp@padding| as padding, and finally writes the appropriate % \acro{XML} trailer. % % \subsubsection{XMP utility functions} % % \begin{macro}{\hyxmp@add@to@xml} % Given a piece of text, replace all underscores with category-code~11 % (``other'') spaces and all |^C| characters with commas, then append % the result to the |\hyxmp@xml| macro. % \changes{v2.0}{2012/08/24}{Updated also to replace commas} % \changes{v2.5}{2014/06/19}{Updated also to replace underscores and to % modify only the text being added, not the already-modified text} % \changes{v2.8}{2014/04/05}{Corrected inadvertent lowercasing of non-Latin % characters when run under \XeLaTeX\ or \LuaLaTeX\ (bug reported by % Leonid Sinev)} % \begin{macrocode} \newcommand*{\hyxmp@add@to@xml}[1]{% \bgroup \@tempcnta=0 \ifhyxmp@unicodetex \@tempcntb=65536% \else \@tempcntb=256% \fi \loop \lccode\@tempcnta=\@tempcnta \advance\@tempcnta by 1 \ifnum\@tempcnta<\@tempcntb \repeat \lccode`\_=`\ \relax \lccode`\^^C=`\,\relax \lccode`\^^U=`\_\relax \lowercase{\xdef\hyxmp@new@xml{#1}}% \xdef\hyxmp@xml{\hyxmp@xml\hyxmp@new@xml}% \egroup } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@hash} % Define a category-code~11 (``other'') version of the ``|#|'' character. % \begin{macrocode} \bgroup \catcode`\#=11 \gdef\hyxmp@hash{#} \egroup % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@padding} % \begin{macro}{\hyxmp@xml} % The \acro{XMP} specification recommends leaving approximately % 2000~bytes of whitespace at the end of each \acro{XMP} packet to % facilitate editing the packet in place~\cite{Adobe2012:XMP}. % |\hyxmp@padding| is defined to contain 32~lines of 63~spaces and a % newline apiece for a total of 2048 characters of whitespace. % \begin{macrocode} \bgroup \xdef\hyxmp@xml{}% \hyxmp@add@to@xml{% _______________________________________________________________^^J% } \xdef\hyxmp@padding{\hyxmp@xml}% \egroup \xdef\hyxmp@padding{\hyxmp@padding\hyxmp@padding} \xdef\hyxmp@padding{\hyxmp@padding\hyxmp@padding} \xdef\hyxmp@padding{\hyxmp@padding\hyxmp@padding} \xdef\hyxmp@padding{\hyxmp@padding\hyxmp@padding} \xdef\hyxmp@padding{\hyxmp@padding\hyxmp@padding} % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@x@default} % Define an |x-default| string that we can use in comparisons with % |\@pdfmetalang|. % \begin{macrocode} \newcommand*{\hyxmp@x@default}{x-default} % \end{macrocode} % \end{macro} % % % \subsubsection{The Adobe PDF schema} % \label{sec:adobe-pdf} % % \begin{macro}{\hyxmp@pdf@schema} % Add properties defined by the Adobe \acro{PDF} schema to the |\hyxmp@xml| % macro. % \begin{macrocode} \newcommand*{\hyxmp@pdf@schema}{% % \end{macrocode} % Add a block of \acro{XML} to |\hyxmp@xml| that lists the document's % keywords (the \xmpterm{pdf:Keywords} property), the tools used to % produce the \acro{PDF} file (the \xmpterm{pdf:Producer} property), and % the version of the \acro{PDF} standard adhered to (the % \xmpterm{pdf:PDFVersion} property). Unlike most of the other schemata % that \pkgname{hyperxmp} supports, the Adobe \acro{PDF} schema is % \emph{always} included in the document, even if all of its keys are % empty. This is because \acro{PDF/A}-1b requires the keywords and % producer to be the same in the \acro{XMP} metadata and the \acro{PDF} % metadata. Because \pkgname{hyperref} always specifies the % \pdfterm{Keywords} and \pdfterm{Producer} fields, even when they're % empty, \pkgname{hyperxmp} has to follow suit and define % \xmpterm{pdf:Keywords} and \xmpterm{pdf:Producer} in the \acro{XMP} % packet. % \changes{v2.4}{2013/12/21}{Made % \texttt{\string\string\string\hyxmp@pdf@schema} % \protect\emph{always} include the Adobe \protect\acro{PDF} schema, % even when empty. Florian Breitwieser noted that this is necessary % for \protect\acro{PDF/A}-1b compliance} % \begin{macrocode} \hyxmp@add@to@xml{% ______^^J% }% \hyxmp@add@simple@var{pdf:Keywords}{@pdfkeywords}% \hyxmp@add@simple@var{pdf:Producer}{@pdfproducer}% \@ifundefined{pdfvariable}{% \@ifundefined{pdfminorversion}{% % \end{macrocode} % Case 1: Neither |\pdfvariable| nor |\pdfminorversion| is defined % (\XeLaTeX\ and regular \LaTeX). % \begin{macrocode} }{% % \end{macrocode} % Case 2: |\pdfminorversion| is defined (\pdfLaTeX\ and pre-0.85 \LuaLaTeX). % \begin{macrocode} \hyxmp@add@simple{pdf:PDFVersion}{1.\the\pdfminorversion}% }% }{% % \end{macrocode} % Case 3: |\pdfvariable| is defined (\LuaLaTeX~0.85+). % \begin{macrocode} \hyxmp@add@simple{pdf:PDFVersion}{1.\the\pdfvariable minorversion}% }% \hyxmp@add@to@xml{% ______^^J% }% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@add@simple} % \begin{macro}{\hyxmp@string} % Given an \acro{XMP} tag~(|#1|) and a string~(|#2|), if the string is % nonempty, add a begin tag, the string, and an end tag to the packet. % The ``|simple|'' in the macro name indicates that the string is output % without variations for different languages. % \changes{v2.0}{2012/08/25}{Added this macro} % \begin{macrocode} \newcommand*{\hyxmp@add@simple}[2]{% \edef\hyxmp@string{#2}% \ifx\hyxmp@string\@empty \else \hyxmp@xmlify{\hyxmp@string}% \hyxmp@add@to@xml{% _________<#1>\hyxmp@xmlified^^J% }% \fi } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@add@simple@var} % Given an \acro{XMP} tag~(|#1|) and a variable name~(|#2|), if the % string is defined, add a begin tag, the string, and an end tag to the % packet. The ``|simple|'' in the macro name indicates that the string % is output without variations for different languages. % |\hyxmp@add@simple@var| differs from |\hyxmp@add@simple| in that the % former includes defined but empty values in the \acro{XMP} packet % while the latter excludes both undefined and defined but empty values. % \changes{v2.4}{2013/12/21}{Added this macro} % \begin{macrocode} \newcommand*{\hyxmp@add@simple@var}[2]{% \expandafter\ifx\csname#2\endcsname\relax \else \hyxmp@xmlify{\csname#2\endcsname}% \hyxmp@add@to@xml{% _________<#1>\hyxmp@xmlified^^J% }% \fi } % \end{macrocode} % \end{macro} % % % \subsubsection{The Dublin Core schema} % \label{sec:dublin-core} % % \begin{macro}{\hyxmp@rdf@dc} % Given an optional |\if|\meta{something} statement (|#1|), a Dublin Core % property~(|#2|) and a macro containing some |\pdfstringdef|-defined % text~(|#3|), append the appropriate block of \acro{XML} to the |\hyxmp@xml| % macro. % \changes{v1.4}{2011/06/12}{Included metadata in the \texttt{x-default} % language regardless of the specified metadata language} % \changes{v3.3}{2017/07/22}{Bug fix: Output the metadata language as % correct \noexpand\acro{XML} even when \noexpand\pkgname{hyperref} is % loaded with the \noexpand\optname{unicode} option} % \begin{macrocode} \newcommand*{\hyxmp@rdf@dc}[3][\iffalse]{% % \end{macrocode} % Set |\@tempswatrue| only if the given text is nonempty or the provided % conditional evaluates to \textsc{true}. % \begin{macrocode} \@ifmtargexp{#3}{\@tempswafalse}{\@tempswatrue}% #1 \@tempswatrue \fi % \end{macrocode} % Append the corresponding \acro{XML} only if |\@tempswatrue|. % \begin{macrocode} \if@tempswa \hyxmp@xmlify{#3}% % \end{macrocode} % \begin{macro}{\hyxmp@value} % Store the \acro{XML}-ified version of |#3| in |\hyxmp@value| so we can % reuse |\hyxmp@xmlifiied| if necessary. % \begin{macrocode} \let\hyxmp@value=\hyxmp@xmlified \hyxmp@add@to@xml{% _________^^J% ____________^^J% }% \ifx\@pdfmetalang\hyxmp@x@default \else \hyxmp@xmlify{\@pdfmetalang}% \hyxmp@add@to@xml{% _______________\hyxmp@value^^J% }% \fi \hyxmp@add@to@xml{% _______________\hyxmp@value^^J% }% % \end{macrocode} % Include variants of the text expressed in other languages, as specified by % the author using |\XMPLangAlt| (Section~\ref{sec:lang-alt}). % \begin{macrocode} \def\do##1##2{ \hyxmp@xmlify{##2}% \hyxmp@add@to@xml{% _______________\hyxmp@xmlified^^J% }% }% \csname hyxmp@alt@#2\endcsname % \end{macrocode} % Complete this \acro{XMP} element. % \begin{macrocode} \hyxmp@add@to@xml{% ____________^^J% _________^^J% }% \fi }% % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@list@to@xml} % Given an optional |\if|\meta{something} statement (|#1|), a Dublin Core % property~(|#2|), an \acro{RDF} array~(|#3|), and a macro containing a % comma-separated list~(|#4|), append the appropriate block of \acro{XML} to % the |\hyxmp@xml| macro. % \changes{v2.0}{2012/08/02}{Modified by Heiko Oberdiek to use the new % \term{Unicode}-processing macros} % \begin{macrocode} \newcommand*{\hyxmp@list@to@xml}[4][\iffalse]{% % \end{macrocode} % Set |\@tempswatrue| only if the given list is nonempty or the provided % conditional evaluates to \textsc{true}. % \begin{macrocode} \@ifmtargexp{#4}{\@tempswafalse}{\@tempswatrue}% #1 \@tempswatrue \fi % \end{macrocode} % Append the corresponding \acro{XML} only if |\@tempswatrue|. % \begin{macrocode} \if@tempswa \hyxmp@add@to@xml{% _________^^J% ____________^^J% }% \bgroup % \end{macrocode} % \begin{macro}{\@elt} % Re-encode the text from \term{Unicode} if necessary. Then redefine % |\@elt| to \acro{XML}-ify each element of the list and append it to % |\hyxmp@xmlified|. % \begin{macrocode} \hyxmp@xmlify{#4}% \hyxmp@commas@to@list\hyxmp@list{\hyxmp@xmlified}% \def\@elt##1{% \hyxmp@add@to@xml{% _______________##1^^J% }% }% \hyxmp@list \egroup \hyxmp@add@to@xml{% ____________^^J% _________^^J% }% \fi } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@dc@schema} % Add properties defined by the Dublin Core schema to the |\hyxmp@xml| % macro. Specifically, we add entries for the \xmpterm{dc:title} % property if the author specified a \optname{pdftitle}, the % \xmpterm{dc:description} property if the author specified a % \optname{pdfsubject}, the \xmpterm{dc:rights} property if the author % specified a \optname{pdfcopyright}, the \xmpterm{dc:creator} property % if the author specified a \optname{pdfauthor}, the % \xmpterm{dc:subject} property if the author specified % \optname{pdfkeywords}, and the \xmpterm{dc:language} property if the % author specified \optname{pdflang}. We also specify the % \xmpterm{dc:date} property using the date the document was run through % \LaTeX\ and the \xmpterm{dc:source} property using the base name of % the source file with |.tex| appended. % \changes{v2.0}{2012/08/26}{Added support for \xmpterm{dc:language} % and \xmpterm{dc:source}} % \changes{v2.4}{2013/12/21}{Made \xmpterm{dc:language} a \xmpterm{Bag} % instead of an individual item so as to conform to the latest % \acro{XMP} specifications, a detail identified by Florian Breitwieser} % \begin{macrocode} \newcommand*{\hyxmp@dc@schema}{% \hyxmp@add@to@xml{% ______^^J% _________application/pdf^^J% }% \hyxmp@rdf@dc[\ifHy@pdfa]{title}{\@pdftitle}% \hyxmp@rdf@dc[\ifHy@pdfa]{description}{\@pdfsubject}% \hyxmp@rdf@dc{rights}{\@pdfcopyright}% \hyxmp@list@to@xml[\ifHy@pdfa]{creator}{Seq}{\hyxmp@pdfauthor}% \hyxmp@list@to@xml{subject}{Bag}{\hyxmp@pdfkeywords}% \hyxmp@list@to@xml{date}{Seq}{\hyxmp@today}% \hyxmp@list@to@xml{language}{Bag}{\@pdflang}% \hyxmp@list@to@xml{type}{Bag}{\@pdftype}% \ifx\@pdfsource\@empty \else \hyxmp@add@simple{dc:source}{\@pdfsource}% \fi \hyxmp@add@to@xml{% ______^^J% }% } % \end{macrocode} % \end{macro} % % \subsubsection{The XMP Rights Management schema} % \label{sec:xmp-rights} % % \begin{macro}{\hyxmp@xmpRights@schema} % Add properties defined by the \acro{XMP} Rights Management schema to the % |\hyxmp@xml| macro. Currently, these are only the % \xmpterm{xmpRights:Marked} property and the % \xmpterm{xmpRights:WebStatement} property. If the author specified a % copyright statement we mark the document as copyrighted. If the % author specified a license statement we include the \acro{URL} in the % metadata. % \changes{v1.4}{2011/05/29}{Renamed the \texttt{xapRights} namespace % prefix to \texttt{xmpRights}} % \changes{v2.0}{2012/08/25}{Modified to include % \xmpterm{xmpRights:Marked} only when \optname{pdfcopyright} is % specified and \xmpterm{xmpRights:WebStatement} only when % \optname{pdflicenseurl} is specified} % \begin{macrocode} \newcommand*{\hyxmp@xmpRights@schema}{% % \end{macrocode} % \begin{macro}{\hyxmp@legal} % Set |\hyxmp@rights| to |YES| if either \optname{pdfcopyright} or % \optname{pdflicenseurl} was specified. % \begin{macrocode} \let\hyxmp@rights=\@empty \ifx\@pdflicenseurl\@empty \else \def\hyxmp@rights{YES}% \fi \ifx\@pdfcopyright\@empty \else \def\hyxmp@rights{YES}% \fi % \end{macrocode} % Include the license-statement \acro{URL} and/or the copyright % indication. The copyright statement itself is included by % |\hyxmp@dc@schema| in Section~\ref{sec:dublin-core}. % \begin{macrocode} \ifx\hyxmp@rights\@empty \else % \end{macrocode} % Header % \begin{macrocode} \hyxmp@add@to@xml{% ______^^J% }% % \end{macrocode} % Copyright indication % \begin{macrocode} \ifx\@pdfcopyright\@empty \else \hyxmp@add@to@xml{% _________True^^J% }% \fi % \end{macrocode} % License \acro{URL} % \begin{macrocode} \hyxmp@add@simple{xmpRights:WebStatement}{\@pdflicenseurl}% % \end{macrocode} % Trailer % \begin{macrocode} \hyxmp@add@to@xml{% ______^^J% }% \fi } % \end{macrocode} % \end{macro} % \end{macro} % % % \subsubsection{The XMP Media Management schema} % \label{sec:xmp-media} % % \begin{macro}{\hyxmp@mm@schema} % Add properties defined by the \acro{XMP} Media Management schema to the % |\hyxmp@xml| macro. According to the \acro{XMP} specification, the % \xmpterm{xmpMM:DocumentID} property is supposed to uniquely identify a % document, and the \xmpterm{xmpMM:InstanceID} property is supposed to % change with each save operation~\cite{Adobe2012:XMP}. As seen in % Section~\ref{sec:uuid-gen}, we do what we can to honor this intention % from within a \tex-based workflow. % \changes{v1.4}{2011/05/29}{Renamed the \texttt{xapMM} namespace % prefix to \texttt{xmpMM}} % \begin{macrocode} \gdef\hyxmp@mm@schema{% \hyxmp@def@DocumentID \hyxmp@def@InstanceID \hyxmp@add@to@xml{% ______^^J% _________\hyxmp@DocumentID^^J% _________\hyxmp@InstanceID^^J% ______^^J% }% } % \end{macrocode} % \end{macro} % % % \subsubsection{The XMP Basic schema} % \label{sec:xmp-basic} % % \begin{macro}{\hyxmp@define@createdate} % \begin{macro}{\hyxmp@createdate} % Define |\hyxmp@createdate| as the document's creation date but in % \acro{XMP} date format, not \acro{PDF} date format. We use % |\hyxmp@createdate| for the \xmpterm{CreateDate}, % \xmpterm{ModifyDate}, and \xmpterm{MetadataDate} fields. % \begin{macrocode} \newcommand*{\hyxmp@define@createdate}{% \@ifundefined{pdffeedback}{% \@ifundefined{pdfcreationdate}{% % \end{macrocode} % Case 1: Neither |\pdffeedback| nor |\pdfcreationdate| is defined % (\XeLaTeX\ and regular \LaTeX). % \begin{macrocode} \hyxmp@today@define\hyxmp@createdate }{% % \end{macrocode} % Case 2: |\pdfcreationdate| is defined (\pdfLaTeX\ and pre-0.85 \LuaLaTeX). % \begin{macrocode} \edef\hyxmp@createdate{\expandafter\hyxmp@pdf@to@xmp@date\pdfcreationdate}% }% }{% % \end{macrocode} % Case 3: |\pdffeedback| is defined (\LuaLaTeX~0.85+). % \begin{macrocode} \edef\hyxmp@createdate{\expandafter\hyxmp@pdf@to@xmp@date\pdffeedback creationdate}% }% } % \end{macrocode} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@xmp@basic@schema} % Add properties defined by the \acro{XMP} Basic schema to the % |\hyxmp@xml| macro. These include a bunch of dates (all set to the % same value) and the base \acro{URL} for the document if specified with % \optname{baseurl}. % \changes{v2.0}{2012/08/26}{Added this macro} % \changes{v3.0}{2016/07/04}{Made the \protect\acro{XMP} % \protect\xmpterm{CreateDate}, \protect\xmpterm{ModifyDate}, and % \protect\xmpterm{MetadataDate} match the \protect\acro{PDF} % \protect\pdfterm{CreationDate}} % \changes{v3.2}{2017/01/22}{Honor \string\pkgname{hyperref}'s % \string\optname{pdfcreationdate} and \string\optname{pdfmoddate} % options plus a new \string\optname{pdfmetadate} option. Leonid % Sinev requested this additional control and helped test the resulting % \protect\pkgname{hyperxmp} code} % \begin{macrocode} \newcommand*{\hyxmp@xmp@basic@schema}{% \hyxmp@add@to@xml{% ______^^J% }% \hyxmp@define@createdate % \end{macrocode} % For the document's creation date, use the user-specified % |\@pdfcreationdate| if defined and non-empty. Otherwise use our % fabricated |\hyxmp@createdate|. % \begin{macrocode} \@ifundefined{@pdfcreationdate}{% \hyxmp@add@simple{xmp:CreateDate}{\hyxmp@createdate}% }{% \ifx\@pdfcreationdate\@empty \hyxmp@add@simple{xmp:CreateDate}{\hyxmp@createdate}% \else \hyxmp@add@simple{xmp:CreateDate}{% \expandafter\hyxmp@as@xmp@date\expandafter{\@pdfcreationdate}}% \fi }% % \end{macrocode} % For the document's modification date, use the user-specified % |\@pdfmoddate| if defined and non-empty. Otherwise use our % fabricated |\hyxmp@createdate|. % \begin{macrocode} \@ifundefined{@pdfmoddate}{% \hyxmp@add@simple{xmp:ModifyDate}{\hyxmp@createdate}% }{% \ifx\@pdfmoddate\@empty \hyxmp@add@simple{xmp:ModifyDate}{\hyxmp@createdate}% \else \hyxmp@add@simple{xmp:ModifyDate}{% \expandafter\hyxmp@as@xmp@date\expandafter{\@pdfmoddate}}% \fi }% % \end{macrocode} % For the document's metadata date, use the user-specified % |\@pdfmetadatetime| if defined and non-empty. Otherwise use our % fabricated |\hyxmp@createdate|. % \begin{macrocode} \ifx\@pdfmetadatetime\@empty \hyxmp@add@simple{xmp:MetadataDate}{\hyxmp@createdate}% \else \hyxmp@add@simple{xmp:MetadataDate}{\@pdfmetadatetime}% \fi % \end{macrocode} % Define the creation tool and the base \acro{URL}. % \begin{macrocode} \hyxmp@add@simple{xmp:CreatorTool}{\@pdfcreator}% \hyxmp@add@simple{xmp:BaseURL}{\@baseurl}% \hyxmp@add@to@xml{% ______^^J% }% } % \end{macrocode} % \end{macro} % % % \subsubsection{The Photoshop schema} % \label{sec:photoshop} % % \begin{macro}{\hyxmp@photoshop@schema} % \changes{v2.0}{2012/08/26}{Simplified using % \texttt{\string\string\string\hyxmp@add@simple}} % \begin{macro}{\hyxmp@photoshop@data} % Add properties defined by the Photoshop schema to the |\hyxmp@xml| % macro. We currently support only the % \xmpterm{photoshop:AuthorsPosition} and % \xmpterm{photoshop:CaptionWriter} properties. % \begin{macrocode} \gdef\hyxmp@photoshop@schema{% \edef\hyxmp@photoshop@data{\@pdfauthortitle\@pdfcaptionwriter}% \ifx\hyxmp@photoshop@data\@empty \else \hyxmp@add@to@xml{% ______^^J% }% \fi \hyxmp@add@simple{photoshop:AuthorsPosition}{\@pdfauthortitle}% \hyxmp@add@simple{photoshop:CaptionWriter}{\@pdfcaptionwriter}% \ifx\hyxmp@photoshop@data\@empty \else \hyxmp@add@to@xml{% ______^^J% }% \fi } % \end{macrocode} % \end{macro} % \end{macro} % % % \subsubsection{The IPTC Photo Metadata schema} % \label{sec:photo-meta} % % \begin{macro}{\xmplinesep} % Lines in multiline fields are separated by |\xmplinesep| in the % generated \acro{XML}. This defaults to an \acro{LF} (|^^J|) character % but written as an \acro{XML} character entity for consistency across % operating systems. % \changes{v2.2}{2012/12/07}{Added this macro} % \begin{macrocode} \begingroup \catcode`\&=12 \catcode`\#=12 \gdef\xmplinesep{ } \endgroup % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@list@to@lines} % Given a property~(|#1|) and a macro containing a comma-separated % list~(|#2|), replace commas with |\xmplinesep|. Do nothing it the % list is empty. % \changes{v2.2}{2012/12/07}{Added this macro} % \begin{macrocode} \newcommand*{\hyxmp@list@to@lines}[2]{% \@ifnotmtargexp{#2}{% \bgroup \hyxmp@add@to@xml{% _________<#1>% }% % \end{macrocode} % \begin{macro}{\@elt@first} % The first element of the list is output as is. % \begin{macrocode} \def\@elt@first##1{% \hyxmp@add@to@xml{##1}% \let\@elt=\@elt@rest }% % \end{macrocode} % \begin{macro}{\@elt@rest} % The remaining elements of the list are output with a preceding line % separator (|\xmplinesep|). % \begin{macrocode} \def\@elt@rest##1{% \hyxmp@add@to@xml{\xmplinesep##1}% }% % \end{macrocode} % \begin{macro}{\@elt} % Re-encode the text from \term{Unicode} if necessary. Then redefine % |\@elt| to insert a line separator between terms. % \begin{macrocode} \let\@elt=\@elt@first \hyxmp@xmlify{#2}% \hyxmp@commas@to@list\hyxmp@list{\hyxmp@xmlified}% \hyxmp@list \hyxmp@add@to@xml{^^J}% \egroup }% } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@photometa@schema} % \changes{v2.2}{2012/12/07}{Added this macro} % \changes{v2.9}{2016/04/23}{Use \textsf{Iptc4xmpCore} instead of % \textsf{Iptc4ContInfo} as the contact-information metadata prefix. % Leonid Sinev reports that Acrobat's \acro{PDF/A} validator seems to % prefer \textsf{Iptc4xmpCore}} % \begin{macro}{\hyxmp@photometa@data} % Add properties defined by the \acro{IPTC} Photo Metadata % schema~\cite{IPTC2010:photo-meta} to the |\hyxmp@xml| macro. We % currently support only the contact-information details structure, % viz.\ the \xmpterm[CiAdrExtadr]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiAdrCity]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiAdrRegion]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiAdrPcode]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiAdrCtry]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiTelWork]{Iptc4xmpCore:CreatorContactInfo}, % \xmpterm[CiEmailWork]{Iptc4xmpCore:CreatorContactInfo}, and % \xmpterm[CiUrlWork]{Iptc4xmpCore:CreatorContactInfo} properties. % \begin{macrocode} \gdef\hyxmp@photometa@schema{% \edef\hyxmp@photometa@data{% \@pdfcontactaddress \@pdfcontactcity \@pdfcontactregion \@pdfcontactpostcode \@pdfcontactcountry \@pdfcontactphone \@pdfcontactemail \@pdfcontacturl }% \ifx\hyxmp@photometa@data\@empty \else \hyxmp@iptc@extensions \hyxmp@add@to@xml{% ______^^J% _______^^J% }% \fi \hyxmp@list@to@lines{Iptc4xmpCore:CiAdrExtadr}{\@pdfcontactaddress}% \hyxmp@add@simple{Iptc4xmpCore:CiAdrCity}{\@pdfcontactcity}% \hyxmp@add@simple{Iptc4xmpCore:CiAdrRegion}{\@pdfcontactregion}% \hyxmp@add@simple{Iptc4xmpCore:CiAdrPcode}{\@pdfcontactpostcode}% \hyxmp@add@simple{Iptc4xmpCore:CiAdrCtry}{\@pdfcontactcountry}% % \end{macrocode} % \begin{macro}{\xmplinesep} % The \acro{IPTC} standard states that sets of telephone numbers, email % addresses, and \acro{URL}s for the contact person or institution, % ``[m]ay have to be separated by a comma in the user % interface''~\cite{IPTC2010:photo-meta}. This is rather ambiguous: % Does the comma appear \emph{only} in the user interface or also in the % generated \acro{XML}\@? Here we assume the latter interpretation and % temporarily redefine |\xmplinesep| as a comma and use % |\hyxmp@list@to@lines| to insert the data. Unlike % |\hyxmp@add@simple|, this approach trims all spaces surrounding commas. % \begin{macrocode} \bgroup \def\xmplinesep{,}% \hyxmp@list@to@lines{Iptc4xmpCore:CiTelWork}{\@pdfcontactphone}% \hyxmp@list@to@lines{Iptc4xmpCore:CiEmailWork}{\@pdfcontactemail}% \hyxmp@list@to@lines{Iptc4xmpCore:CiUrlWork}{\@pdfcontacturl}% \egroup \ifx\hyxmp@photometa@data\@empty \else \hyxmp@add@to@xml{% _______^^J% ______^^J% }% \fi } % \end{macrocode} % \end{macro} % \end{macro} % \end{macro} % % \begin{macro}{\hyxmp@iptc@extensions} % \changes{v2.2}{2012/12/13}{Added this macro to support % \acro{PDF/A} generation} % \changes{v2.3}{2013/01/08}{Gave the % \xmpterm{Iptc4xmpCore:CreatorContactInfo} fields a unique % \xmpterm{pdfaType:prefix} to better support conversion of the % document to \acro{PDF/A}} % Because \acro{IPTC} metadata are not recognized by the \acro{PDF/A} % standard, \acro{PDF/A} conversion would normally fail for documents % that utilize |\pdfcontactaddress|, |\pdfcontactcity|, etc. However, % there exists a technique, described in a PDF Association technical % note~\cite{PDFA2008:ext-schemas}, for describing nonstandard % \acro{XMP} metadata within the \acro{XMP} packet itself. We use that % technique here to describe all of the metadata that % |\hyxmp@photometa@schema| can produce. Doing so enables the document % to be converted to \acro{PDF/A} format. % \begin{macrocode} \newcommand*{\hyxmp@iptc@extensions}{% \hyxmp@add@to@xml{% ______^^J% ________^^J% __________^^J% ____________^^J% ______________IPTC Core Schema^^J% ______________http://iptc.org/std/Iptc4xmpCore/1.0/xmlns/^^J% ______________Iptc4xmpCore^^J% ______________^^J% ________________^^J% __________________^^J% ____________________CreatorContactInfo^^J% ____________________contactinfo^^J% ____________________external^^J% ____________________contact information for the document's creator^^J% __________________^^J% ________________^^J% ______________^^J% ______________^^J% ________________^^J% __________________^^J% ____________________contactinfo^^J% ____________________http://iptc.org/std/Iptc4xmpCore/1.0/xmlns/^^J% ____________________Iptc4xmpCore^^J% ____________________contact information^^J% ____________________^^J% ______________________^^J% }% % \end{macrocode} % \begin{macrocode} \hyxmp@text@resource{CiAdrExtadr}{contact address}% \hyxmp@text@resource{CiAdrCity}{contact city}% \hyxmp@text@resource{CiAdrRegion}{contact region}% \hyxmp@text@resource{CiAdrPcode}{contact postal code}% \hyxmp@text@resource{CiAdrCtry}{contact country}% \hyxmp@text@resource{CiTelWork}{contact telephone number}% \hyxmp@text@resource{CiEmailWork}{contact email address}% \hyxmp@text@resource{CiUrlWork}{contact url}% % \end{macrocode} % \begin{macrocode} \hyxmp@add@to@xml{% ______________________^^J% ____________________^^J% __________________^^J% ________________^^J% ______________^^J% ____________^^J% __________^^J% ________^^J% ______^^J% }% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@text@resource} % \changes{v2.2}{2012/12/13}{Added this macro} % Output a single \xmpterm{Text} resource given its name and description. % \begin{macrocode} \newcommand*{\hyxmp@text@resource}[2]{% \hyxmp@add@to@xml{% ________________________^^J% __________________________#1^^J% __________________________Text^^J% __________________________#2^^J% ________________________^^J% } } % \end{macrocode} % \end{macro} % % \subsubsection{The PDF/A Identification schema} % \label{sec:pdfa-id} % % \begin{macro}{\hyxmp@pdfa@id@schema} % Add properties defined by the \acro{PDF/A} Identification % schema~\cite{PDFA2008:xmp-props} to the |\hyxmp@xml| macro. These % properties identify a document as conforming to a particular % \acro{PDF/A} standard. We default to \acro{PDF/A}-1b if any \acro{PDF/A} % compliance is detected but let the author override the ``1'' with % \optname{pdfapart} and the ``B'' with \optname{pdfaconformance}. % \changes{v2.4}{2013/12/21}{Added this macro} % \changes{v2.9}{2016/04/12}{Let the author specify the \protect\acro{PDF/A} % part and conformance IDs, as requested by Leonid Sinev} % \begin{macrocode} \newcommand*{\hyxmp@pdfa@id@schema}{% \ifHy@pdfa \hyxmp@add@to@xml{% ______^^J% }% \hyxmp@add@simple{pdfaid:part}{\@pdfapart}% \hyxmp@add@simple{pdfaid:conformance}{\@pdfaconformance}% \hyxmp@add@to@xml{% ______^^J% }% \fi } % \end{macrocode} % \end{macro} % % % \subsubsection{Combining schemata into an XMP packet} % \label{sec:combining-schemata} % % \begin{macro}{\hyxmp@bom} % Define a macro for the \term{Unicode} byte-order marker (\acro{BOM}). % \changes{v2.0}{2012/08/02}{Added by Heiko Oberdiek} % \begin{macrocode} \begingroup \ifhyxmp@unicodetex \lccode`\!="FEFF % \lowercase{% \gdef\hyxmp@bom{!} }% \else \catcode`\^^ef=12 \catcode`\^^bb=12 \catcode`\^^bf=12 \gdef\hyxmp@bom{^^ef^^bb^^bf}% \fi \endgroup % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@construct@packet} % \changes{v1.1}{2006/05/21}{Explicitly set the category codes of % characters \string\meta{EF}, \string\meta{BB}, and % \string\meta{BF} to ``letter''. Thanks to Daniel Sch\"omer for % the bug report} % \changes{v2.0}{2012/08/02}{Modified by Heiko Oberdiek to use an % appropriate \acro{BOM} representation via % \texttt{\string\string\string\hyxmp@bom}} % \begin{macro}{\hyxmp@xml} % Successively add \acro{XML} data to |\hyxmp@xml| until we have % something we can insert into the document's \acro{PDF} catalog. % \begin{macrocode} \def\hyxmp@construct@packet{% \gdef\hyxmp@xml{}% \hyxmp@add@to@xml{^^J% ^^J% ___^^J% }% \hyxmp@pdf@schema \hyxmp@xmpRights@schema \hyxmp@dc@schema \hyxmp@photoshop@schema \hyxmp@photometa@schema \hyxmp@xmp@basic@schema \hyxmp@pdfa@id@schema \hyxmp@mm@schema \hyxmp@add@to@xml{% ___^^J% ^^J% \hyxmp@padding ^^J% }% } % \end{macrocode} % \end{macro} % \end{macro} % % % \subsection{Embedding the XMP packet} % % The \acro{PDF} specification says that ``a metadata stream may be % attached to a document through the \pdfterm{Metadata} entry in the % document catalogue''~\cite{Adobe2008:PDF} so that's what we do here. % % \begin{macro}{\hyxmp@embed@packet} % \begin{macro}{\hyxmp@driver} % Determine which \pkgname{hyperref} driver is in use and invoke the % appropriate embedding function. % \begin{macrocode} \newcommand*{\hyxmp@embed@packet}{% \hyxmp@construct@packet \def\hyxmp@driver{hpdftex}% \ifx\hyxmp@driver\Hy@driver \hyxmp@embed@packet@pdftex \else \def\hyxmp@driver{hluatex}% \ifx\hyxmp@driver\Hy@driver \hyxmp@embed@packet@luatex \else \def\hyxmp@driver{hdvipdfm}% \ifx\hyxmp@driver\Hy@driver \hyxmp@embed@packet@dvipdfm \else \def\hyxmp@driver{hxetex}% \ifx\hyxmp@driver\Hy@driver \hyxmp@embed@packet@xetex \else \@ifundefined{pdfmark}{% \PackageWarningNoLine{hyperxmp}{% Unrecognized hyperref driver `\Hy@driver'.\MessageBreak \jobname.tex's XMP metadata will *not* be\MessageBreak embedded in the resulting file}% }{% \hyxmp@embed@packet@pdfmark }% \fi \fi \fi \fi } % \end{macrocode} % \end{macro} % \end{macro} % % \subsubsection{Embedding using \pdfTeX} % % Up to version~0.85, \LuaTeX\ supported the \pdfTeX\ primitives, and % \pkgname{hyperref} didn't distinguish the two backends. However, from % \pkgname{hyperxmp}'s perspective there is one key difference: the % effect of |\pdfcompresslevel| is local to a group in \pdfTeX\ but is % global in \LuaTeX\@. % % The \acro{PDF} object representing the \acro{XMP} packet is supposed % to include an uncompressed stream so it can be read by % non-\acro{PDF}-aware tools. However, we don't want to unnecessarily % uncompress \emph{every} \acro{PDF} stream. The solution, provided by % Hans Hagen on the |luatex| mailing list (thread: % \href{http://tug.org/pipermail/luatex/2016-July/006077.html}{``Leaving % a single PDF object uncompressed''}, 6\,\textsc{Jul}\,2016), is to % provide the |uncompressed| flag to |\pdfobj|. Our definition of % |\hyxmp@embed@packet@pdftex| uses the \pkgname{ifluatex} package to % distinguish the \pdfTeX\ case from the pre-0.85 \LuaTeX\ case. % % \begin{macrocode} \RequirePackage{ifluatex} % \end{macrocode} % % \begin{macro}{\hyxmp@embed@packet@pdftex} % Embed the \acro{XMP} packet using \pdfTeX\ primitives, which are % supported by both \pdfTeX\ and pre-0.85 \LuaTeX. The only difference % is that in the former case we locally specify |\pdfcompresslevel=0| to % leave the \acro{PDF} object uncompressed while in the latter case we % pass the |uncompressed| flag to |\pdfobj| to achieve the same effect. % \changes{v3.1}{2016/07/06}{Leave the \protect\acro{XMP} packet---and % only the \protect\acro{XMP} packet---uncompressed in both % \protect\pdfTeX\ and pre-0.85 \protect\LuaTeX} % \begin{macrocode} \newcommand*{\hyxmp@embed@packet@pdftex}{% \bgroup \ifluatex \else \pdfcompresslevel=0 \fi \immediate\pdfobj \ifluatex uncompressed\fi stream attr {% /Type /Metadata /Subtype /XML }{\hyxmp@xml}% \pdfcatalog {/Metadata \the\pdflastobj\space 0 R}% \egroup } % \end{macrocode} % \end{macro} % % \subsubsection{Embedding using \LuaTeX~0.85+} % % \begin{macro}{\hyxmp@embed@packet@luatex} % Embed the \acro{XMP} packet using \LuaTeX~0.85+ primitives. % \changes{v3.0}{2016/07/02}{Added this macro} % \changes{v3.1}{2016/07/06}{Updated to use % \protect\texttt{\string\string\string\pdfextension\ obj uncompressed} % as suggested by Hans Hagen} % \begin{macrocode} \newcommand*{\hyxmp@embed@packet@luatex}{% \immediate\pdfextension obj uncompressed stream attr {% /Type /Metadata /Subtype /XML }{\hyxmp@xml}% \pdfextension catalog {/Metadata \the\numexpr\pdffeedback lastobj\relax\space 0 R}% } % \end{macrocode} % \end{macro} % % \subsubsection{Embedding using any \texttt{pdfmark}-based backend} % % \begin{macro}{\hyxmp@embed@packet@pdfmark} % Embed the \acro{XMP} packet using \pkgname{hyperref}'s |\pdfmark| % command. I believe |\pdfmark| is used by the \optname{dvipdf}, % \optname{dvipsone}, \optname{dvips}, \optname{dviwindo}, % \optname{nativepdf}, \optname{pdfmark}, \optname{ps2pdf}, % \optname{textures}, and \optname{vtexpdfmark} options to % \pkgname{hyperref}, but I've tested only a few of those. % \begin{macrocode} \newcommand*{\hyxmp@embed@packet@pdfmark}{% \pdfmark{% pdfmark=/NamespacePush }% \pdfmark{% pdfmark=/OBJ, Raw={/_objdef \string{hyxmp@Metadata\string} /type /stream}% }% \pdfmark{% pdfmark=/PUT, Raw={\string{hyxmp@Metadata\string} 2 dict begin /Type /Metadata def /Subtype /XML def currentdict end }% }% \pdfmark{% pdfmark=/PUT, Raw={\string{hyxmp@Metadata\string} (\hyxmp@xml)}% }% \pdfmark{% pdfmark=/Metadata, Raw={\string{Catalog\string} \string{hyxmp@Metadata\string}}% }% \pdfmark{% pdfmark=/NamespacePop }% } % \end{macrocode} % \end{macro} % % \subsubsection{Embedding using \texttt{dvipdfm}} % % \begin{macro}{\hyxmp@embed@packet@dvipdfm} % Embed the \acro{XMP} packet using \cmdname{dvipdfm}-specific % |\special| commands. Note that \cmdname{dvipdfm} rather irritatingly % requires us to count the number of characters in the |\hyxmp@xml| % stream ourselves. % \begin{macrocode} \newcommand*{\hyxmp@embed@packet@dvipdfm}{% \hyxmp@string@len{\hyxmp@xml}% \special{pdf: object @hyxmp@Metadata << /Type /Metadata /Subtype /XML /Length \the\@tempcnta >> stream^^J\hyxmp@xml endstream% }% \special{pdf: docview << /Metadata @hyxmp@Metadata >> }% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@string@len} % Set |\@tempcnta| to the number of characters in a given string~(|#1|). % The approach is first to tally the number of space characters then to % tally the number of non-space characters. While this is rather % sloppy I haven't found a better way to achieve the same effect, % especially given that all of the characters in |#1| have already been % assigned their category codes. % \begin{macrocode} \newcommand*{\hyxmp@string@len}[1]{% \@tempcnta=0 \expandafter\hyxmp@count@spaces#1 {} % \expandafter\hyxmp@count@non@spaces#1{}% } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@count@spaces} % Count the number of spaces in a given string. We rely on the built-in % pattern matching of \tex's |\def| primitive to pry one word at a time % off the head of the input string. % \begin{macrocode} \def\hyxmp@count@spaces#1 {% \def\hyxmp@one@token{#1}% \ifx\hyxmp@one@token\@empty \advance\@tempcnta by -1 \else \advance\@tempcnta by 1 \expandafter\hyxmp@count@spaces \fi } % \end{macrocode} % \end{macro} % % \begin{macro}{\hyxmp@count@non@spaces} % Count the number of non-spaces in a given string. Ideally, we'd count % both spaces and non-spaces but \tex\ won't bind |#1| to a space % character (category code~10). Hence, in each iteration, |#1| is bound % to the next non-space character only. % \begin{macrocode} \newcommand*{\hyxmp@count@non@spaces}[1]{% \def\hyxmp@one@token{#1}% \ifx\hyxmp@one@token\@empty \else \advance\@tempcnta by 1 \expandafter\hyxmp@count@non@spaces \fi } % \end{macrocode} % \end{macro} % % \subsubsection{Embedding using \XeTeX} % % \begin{macro}{\hyxmp@embed@packet@xetex} % Embed the \acro{XMP} packet using \cmdname{xdvipdfmx}-specific % |\special| commands. I don't know how to tell \cmdname{xdvipdfmx} % always to leave the \pdfterm{Metadata} stream uncompressed, so the % \acro{XMP} metadata is likely to be missed by non-\acro{PDF}-aware % \acro{XMP} viewers. % \begin{macrocode} \newcommand*{\hyxmp@embed@packet@xetex}{% \special{pdf:stream @hyxmp@Metadata (\hyxmp@xml) << /Type /Metadata /Subtype /XML >> }% \special{pdf:put @catalog << /Metadata @hyxmp@Metadata >> }% } % \end{macrocode} % \end{macro} % % % \subsection{Final clean-up} % \label{sec:clean-up} % % Having saved the category code of % ``\,{\fontencoding{T1}\selectfont\textquotedbl}\,'' at the start of % the package code (Section~\ref{sec:initial-prep}), we now restore that % character's original category code. % % \begin{macrocode} \catcode`\"=\hyxmp@dq@code % \end{macrocode} % % \Finale \endinput