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diff --git a/Master/texmf-dist/doc/latex/si/README b/Master/texmf-dist/doc/latex/si/README deleted file mode 100644 index e034641355f..00000000000 --- a/Master/texmf-dist/doc/latex/si/README +++ /dev/null @@ -1,26 +0,0 @@ ----------------------------------------------------------------- -The si package --- A comprehensive (SI) units package -Maintained by Joseph Wright -E-mail: joseph.wright@morningstar2.co.uk -Released under the LaTeX Project Public License v1.3c or later -See http://www.latex-project.org/lppl.txt ----------------------------------------------------------------- - -Typesetting values with units requires care to ensure that the -combined mathematical meaning of the value plus unit combination is -clear. In particular, the SI units system lays down a consistent -set of units with rules on how these are to be used. However, -different countries and publishers have differing conventions on -the exact appearance of numbers (and units). A number of LaTeX -packages have been developed to provide consistent application of -the various rules: SIunits, sistyle, unitsdef and units are -the leading examples. The numprint package provides a large number -of number-related functions, while dcolumn and rccol provide tools for typesetting tabular numbers. - -The si package takes the best from the existing packages, and -adds new features and a consistent interface. A number of new -ideas have been incorporated, to fill gaps in the existing -provision. The package also provides backward-compatibility with -SIunits, sistyle, unitsdef and units. The aim is to have one -package to handle all of the possible unit-related needs of LaTeX -users. diff --git a/Master/texmf-dist/doc/latex/si/si.bib b/Master/texmf-dist/doc/latex/si/si.bib deleted file mode 100644 index adabb278432..00000000000 --- a/Master/texmf-dist/doc/latex/si/si.bib +++ /dev/null @@ -1,6 +0,0 @@ -@misc{NIST, - note = {\url{http://physics.nist.gov/cuu/Units/rules.html}}, -} -\endinput -%% -%% End of file `si.bib'. diff --git a/Master/texmf-dist/doc/latex/si/si.pdf b/Master/texmf-dist/doc/latex/si/si.pdf Binary files differdeleted file mode 100644 index a0cbaf33524..00000000000 --- a/Master/texmf-dist/doc/latex/si/si.pdf +++ /dev/null diff --git a/Master/texmf-dist/source/latex/si/si.dtx b/Master/texmf-dist/source/latex/si/si.dtx deleted file mode 100644 index f7cab0cd35a..00000000000 --- a/Master/texmf-dist/source/latex/si/si.dtx +++ /dev/null @@ -1,9274 +0,0 @@ -% \iffalse meta-comment -% -% Copyright (C) 2008 by -% Joseph Wright <joseph.wright@morningstar2.co.uk> -% -% This work 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 2005/12/01 or later. -% -% This work has the LPPL maintenance status `maintained.' -% -% The current maintainer of this work is Joseph Wright. -% -% This work consists of the source file si.dtx -% and the derived files si.ins, -% si.sty, -% si.pdf, -% si-SIunits.cfg, -% si-sistyle.cfg, -% si-unitsdef.cfg, -% si-units.cfg, -% si-prefix.cfg, -% si-named.cfg, -% si-prefixed.cfg, -% si-addn.cfg, -% si-abbr.cfg and -% si-accepted.cfg -% -% -% Unpacking: -% (a) If si.ins is present: -% tex si.ins -% (b) Without si.ins: -% tex si.dtx -% (c) If you use LaTeX to generate files: -% latex \let\install=y\input{si.dtx} -% -% Documentation: -% (a) Without write18 enabled: -% pdflatex si.dtx -% bibtex8 --wolfgang si -% makeindex -s gind.ist si.idx -% makeindex -s gglo.ist -o si.gls si.glo -% pdflatex si.dtx -% makeindex -s gind.ist si.idx -% makeindex -s gglo.ist -o si.gls si.glo -% pdflatex si.dtx -% (b) With write18 enabled: -% pdflatex si.dtx -% bibtex8 --wolfgang si -% pdflatex si.dtx -% pdflatex si.dtx -% -% Installation: -% Copy si.sty and the various .cfg files to a location -% searched by TeX, and if required by your TeX installation, -% run the appropriate command to build a hash of files -% (texhash, mpm --update-db, etc.) -% -% Note: -% The jawltxdoc.sty file is not needed for installation, -% only for building the documentation; it may be deleted -% after producing the documentation (if necessary). -% -%<*ignore> -% This is all taken verbatim from Heiko Oberdiek's packages -\begingroup - \def\x{LaTeX2e}% -\expandafter\endgroup -\ifcase 0\ifx\install y1\fi\expandafter - \ifx\csname processbatchFile\endcsname\relax\else1\fi - \ifx\fmtname\x\else 1\fi\relax -\else\csname fi\endcsname -%</ignore> -%<*install> -\input docstrip.tex -\keepsilent -\askforoverwritefalse -\preamble - ---------------------------------------------------------------- - The si package --- A comprehensive (SI) units package - Maintained by Joseph Wright - E-mail: joseph.wright@morningstar2.co.uk - Released under the LaTeX Project Public License v1.3c or later - See http://www.latex-project.org/lppl.txt - ---------------------------------------------------------------- - -\endpreamble -\Msg{Generating si files:} -\usedir{tex/latex/contib/si} -\generate{\file{\jobname.ins}{\from{\jobname.dtx}{install}} - \file{\jobname.sty}{\from{\jobname.dtx}{package}} - \file{jawltxdoc.sty}{\from{\jobname.dtx}{jawltxdoc}} -} -\usedir{tex/latex/contib/config} -\generate{\file{si-SIunits.cfg}{\from{\jobname.dtx}{SIunits}} - \file{si-sistyle.cfg}{\from{\jobname.dtx}{sistyle}} - \file{si-unitsdef.cfg}{\from{\jobname.dtx}{unitsdef}} - \file{si-units.cfg}{\from{\jobname.dtx}{units}} -} -\generate{\file{si-prefix.cfg}{\from{\jobname.dtx}{prefix}} - \file{si-named.cfg}{\from{\jobname.dtx}{named}} - \file{si-prefixed.cfg}{\from{\jobname.dtx}{prefixed}} - \file{si-addn.cfg}{\from{\jobname.dtx}{addn}} - \file{si-accepted.cfg}{\from{\jobname.dtx}{accepted}} - \file{si-physical.cfg}{\from{\jobname.dtx}{physical}} - \file{si-abbr.cfg}{\from{\jobname.dtx}{abbr}} -} -\generate{\file{si-synchem.cfg}{\from{\jobname.dtx}{synchem}} - \file{si-hep.cfg}{\from{\jobname.dtx}{hep}} - \file{si-binary.cfg}{\from{\jobname.dtx}{binary}} -} -\generate{\file{si-UK.cfg}{\from{\jobname.dtx}{UK}} - \file{si-USA.cfg}{\from{\jobname.dtx}{USA}} - \file{si-germany.cfg}{\from{\jobname.dtx}{germany}} - \file{si-south-africa.cfg}{\from{\jobname.dtx} - {south-africa}} -} -\nopreamble -\usedir{doc/latex/contib/si} -\generate{\file{\jobname.bib}{\from{\jobname.dtx}{refs}} -} -\endbatchfile -%</install> -%<*ignore> -\fi -% Will Robertson's trick -\immediate\write18{makeindex -s gind.ist -o \jobname.ind \jobname.idx} -\immediate\write18{makeindex -s gglo.ist -o \jobname.gls \jobname.glo} -%</ignore> -%<*driver> -\PassOptionsToClass{a4paper}{article} -\documentclass{ltxdoc} -\EnableCrossrefs -\CodelineIndex -\RecordChanges -%\OnlyDescription -% The various formatting commands used in this file are collected -% together in |jawltxdoc|. -\usepackage{jawltxdoc,textcomp} -\usepackage[latin1]{inputenc} -\begin{document} - \DocInput{\jobname.dtx} -\end{document} -%</driver> -% \fi -% -%\CheckSum{6764} -% -% \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 \~} -% -%\GetFileInfo{\jobname.sty} -% -%\DoNotIndex{\@car,\@eha,\@ehc,\@empty,\@firstofone,\@firstoftwo} -%\DoNotIndex{\@for,\@gobble,\@gobbletwo,\@ifl@aded,\@ifnextchar} -%\DoNotIndex{\@ifpackagelater,\@ifpackageloaded,\@ifstar} -%\DoNotIndex{\@ifundefined,\@makeother,\@namedef,\@nameuse,\@ne} -%\DoNotIndex{\@nil,\@secondoftwo,\@temptokena,\@undefined,\AA} -%\DoNotIndex{\active,\addto,\addtolength,\advance,\afterassignment} -%\DoNotIndex{\aftergroup,\AtBeginDocument,\AtEndOfPackage} -%\DoNotIndex{\begingroup,\bfseries,\bgroup,\boldmath,\box} -%\DoNotIndex{\capitalring,\catcode,\cdot,\chardef,\check@mathfonts} -%\DoNotIndex{\circ,\csname,\DeclareFontEncoding,\DeclareFontFamily} -%\DoNotIndex{\DeclareFontShape,\DeclareFontSubstitution} -%\DoNotIndex{\DeclareMathSymbol,\DeclareRobustCommand} -%\DoNotIndex{\DeclareSymbolFont,\DeclareTextSymbol} -%\DoNotIndex{\DeclareTextSymbolDefault,\def,\define@boolkey} -%\DoNotIndex{\define@choicekey,\define@cmdkey,\define@cmdkeys} -%\DoNotIndex{\define@key,\displaystyle,\displaywidth,\divide,\do} -%\DoNotIndex{\edef,\egroup,\else,\encodingdefault,\end,\endcsname} -%\DoNotIndex{\endgroup,\endinput,\endtabular,\ensuremath} -%\DoNotIndex{\expandafter,\f@family,\f@series,\fam,\fi,\font} -%\DoNotIndex{\fontsize,\frac,\gdef,\global,\hbox,\hfil,\hfill,\hskip} -%\DoNotIndex{\hspace,\hss,\ifcsname,\ifdim,\iffalse,\IfFileExists} -%\DoNotIndex{\ifmmode,\ifnum,\ifx,\ignorespaces,\inputencodingname} -%\DoNotIndex{\InputIfFileExists,\key@ifundefine,\let,\long,\m@ne} -%\DoNotIndex{\makeatletter,\math@version,\mathchoice,\mathnormal} -%\DoNotIndex{\mathord,\mathrm,\mathsf,\mathtt,\mdseries} -%\DoNotIndex{\MessageBreak,\mkern,\mp,\NC@find,\NeedsTeXFormat} -%\DoNotIndex{\newbox,\newcolumntype,\newcommand,\newcount,\newdimen} -%\DoNotIndex{\newif,\newlength,\newtoks,\nobreak,\noexpand,\p@} -%\DoNotIndex{\PackageError,\PackageInfo,\PackageWarning,\phantom} -%\DoNotIndex{\ProcessOptionsX,\protect,\protected@edef,\ProvidesFile} -%\DoNotIndex{\ProvidesPackage,\Q,\raisebox,\relax,\renewcommand} -%\DoNotIndex{\RequirePackage,\rlap,\sbox,\scantokens} -%\DoNotIndex{\scriptscriptstyle,\scriptstyle,\selectfont,\setbox} -%\DoNotIndex{\setkeys,\setlength,\settoheight,\sf@size,\sfdefault} -%\DoNotIndex{\sfrac,\skewchar,\sp,\space,\string,\strip@pt} -%\DoNotIndex{\tabularnewline,\text,\textdegree,\textmu,\textohm} -%\DoNotIndex{\textsc,\textstyle,\textsuperscript,\the,\thr@@,\times} -%\DoNotIndex{\ttdefault,\uccode,\unboldmath,\unhbox,\upmu,\Upomega} -%\DoNotIndex{\uppercase,\upshape,\wd,\xdef,\xspace,\z@} -% -%\changes{0.6}{2008/02/18}{First public release} -% -%\setkeys{lst}{language=[LaTeX]{TeX},moretexcs={sisetup,num,ang,SI, -% unitsym,newunit,newpower,newprefix,metre,candela,kelvin,ampere, -% second,mole,per,kilogram,Square,squared,cubed,cubic,kilo,centi, -% gram,tothe,toprule,midrule,bottomrule}} -% -%\title{\currpkg\ --- A comprehensive (SI) units package^^A -% \thanks{This file describes version \fileversion, last revised -% \filedate.}} -%\author{Joseph Wright^^A -% \thanks{E-mail: joseph.wright@morningstar2.co.uk}} -%\date{Released \filedate} -% -%\maketitle -% -%\newcommand*{\SIunits}{\pkg{SIunits}\xspace} -%\newcommand*{\sistyle}{\pkg{sistyle}\xspace} -%\newcommand*{\unitsdef}{\pkg{unitsdef}\xspace} -%\newcommand*{\unitspkg}{\pkg{units}\xspace} -%\newcommand*{\numprint}{\pkg{numprint}\xspace} -%\begin{abstract} -% Typesetting values with units requires care to ensure that the -% combined mathematical meaning of the value plus unit combination is -% clear. In particular, the SI units system lays down a consistent -% set of units with rules on how these are to be used. However, -% different countries and publishers have differing conventions on -% the exact appearance of numbers (and units). A number of \LaTeX\ -% packages have been developed to provide consistent application of -% the various rules: \SIunits, \sistyle, \unitsdef and \unitspkg are -% the leading examples. The \numprint package provides a large number -% of number-related functions, while \pkg{dcolumn} and \pkg{rccol} -% provide tools for typesetting tabular numbers. -% -% The \currpkg package takes the best from the existing packages, and -% adds new features and a consistent interface. A number of new -% ideas have been incorporated, to fill gaps in the existing -% provision. The package also provides backward-compatibility with -% \SIunits, \sistyle, \unitsdef and \unitspkg. The aim is to have one -% package to handle all of the possible unit-related needs of \LaTeX\ -% users. -%\end{abstract} -% -%\begin{multicols}{2} -% \tableofcontents -%\end{multicols} -% -%\part{Introduction} -% -% The correct application of units of measurement is very important -% in technical applications. For this reason, carefully-crafted -% definitions of a coherent units system have been laid down by the -% \latin{Conf\'erence G\'en\'erale des Poids et -% Mesures}\footnote{General Conference on Weights and Measures.} -% (CGPM); this has resulted in the \latin{Syst\`eme International -% d'Unit\'es}\footnote{International System of Units.} (SI). At the -% same time, typographic conventions for correctly displaying both -% numbers and units exist to ensure that no loss of meaning occurs in -% printed matter. -% -% \LaTeX\ support typesetting numbers and units is currently provided -% by a number of packages: \SIunits, \sistyle, \unitspkg, \unitsdef -% and \numprint. Each package has advantages, and no single package -% has so far displaced use of the others. The aim of the \currpkg -% package is to learn from the existing implementations to provide a -% coherent and extendable approach to the problem. The original aim -% of developing \currpkg was to produce a ``version 2'' successor to -% \SIunits or \sistyle. However, as the package has been developed a -% number of inconsistencies in the interfaces of the existing -% packages have been noted. Thus by default \currpkg does not follow -% any one of the existing packages; the interface is intended to be -% self-consistent and logical. As a result, \currpkg is now intended -% as a new package. The author hopes that by providing a -% comprehensive package here, the other ``unit'' packages will be -% superseded. -% -% Where possible, conventions from the existing solutions have been -% used here. For example, the macros \cs{num}, \cs{ang} and \cs{SI} -% act in a very similar fashion to those in existing packages. In -% emulation mode, \currpkg tries hard to work in exactly the same -% manner as the emulated package. However, in certain places -% inconsistencies exist due to changes in the underlying mechanisms -% used. These are noted where they are known to the package author. -% -%\section{Existing packages} -% Both the \SIunits an \sistyle package are designed to -% allow typesetting of SI units, with consistent typography and -% following the rules laid down by \textsc{nist} -% \cite{NIST}.\footnote{\sistyle also allows the use of German -% and South African rules ``out of the box''.} The \sistyle -% package concentrates on typography, whereas the \SIunits -% package is focussed on careful application of SI units in place of -% other systems. The key strengths of the two packages can be -% summarised as follows:\footnote{Thanks to Stefan Pinnow for the -% excellent summary on \texttt{comp.text.tex}, on which this is -% based.} -%\begin{itemize} -% \item \sistyle -% \begin{itemize} -% \item Easy input for numbers, for example typing -% |\num{5.8e-7}| and getting ``\num{5.8e-7}'' as output. -% \item Input of numbers can be with comma or dot as decimal -% sign and is independent of output. -% \item Output style can follow particular regional conventions -% (\latin{via} \cs{sistyle}) or even be dependent on the -% document language (implemented by \cs{sistyleToLang}). -% \end{itemize} -% \item \SIunits -% \begin{itemize} -% \item The look of units can be easily be changed in the whole -% document by redefining the commands. -% \item New units can be added on a document-specific basis -% (\cs{addunit}), for example to match journal requirements ( -% \eg\ ``wt.-\%" \latin{versus} ``wt\%''). -% \item Package aims to enforce use of SI units as far as -% possible. -% \end{itemize} -%\end{itemize} -% -% At the same time, the \unitsdef package allows ``trailing'' units, -% so for example |10\metre| to yield ``10\metre'' with a non-breaking -% and definable space. However, this does not allow control of the -% format of the number. The \unitsdef package is built on top of -% \unitspkg, which is an even more general. The \numprint package -% provides fine control for printing numbers, with features beyond -% those in \sistyle. Finally, the \pkg{hepunits} package adds -% various physics units to \SIunits. -% -%\section{The wish-list} -%\newcommand*{\WishlistStatus}[1]{\textbf{#1}} -%\newcommand*{\Todo}{\WishlistStatus{To do}} -%\newcommand*{\Ongoing}{\WishlistStatus{Ongoing}} -%\newcommand*{\Completed}{\WishlistStatus{Completed}} -% The wish-list for the new package has developed as ideas have -% suggested themselves. This has been both from the package author -% and various contributors on \texttt{comp.text.tex}. Anything on -% the list is likely to be looked at: nothing is ruled out. Items -% marked \Todo\ are definitely going to be looked at, those marked -% \Ongoing\ have at least some code written. Items marked -% \Completed\ seem to work properly, and at this stage seem to be -% finished (in the sense that changes are not planned). However, -% that does not mean they are finalised or bug free! -%\begin{itemize} -% \item \pkg{keyval} package interface, with modification of -% settings in document using this system (like \pkg{hyperref}). -% \Completed -% \item Remove need for \cs{usk} separator between unit names when -% using \SIunits-style setup. \Completed -% \item ``Prefix'' units, such as currency, possibly as an optional -% argument to \cs{SI}: -% |\SI[per=slash]{10}[\pounds]{\per\kilo\gram}| $\Rightarrow$ -% ``\SI[per=slash]{10}[\pounds]{\per\kilo\gram}'' (suggested by -% Allan Ristow). \Completed -% \item Stand-alone setting of units, for example -% |\unitsym{kg.m/s^2}| to give ``\unitsym{kg.m/s^2}'', for use in -% table headings, \etc\ (suggested by Allan Ristow). \Completed -% \item \numprint-like handling of numbers (suggested by Allan -% Ristow). \Completed -% \item Ability to handle crystallography-style estimated standard -% deviations, \eg\ |\SI{1.550(2)}{\angstrom}| $\Rightarrow$ -% ``\SI{1.550(2)}{\angstrom}''.\footnote{$(1.550 \pm 0.002) \times -% 10^{-10}$\,m.} \Completed -% \item Ability to understand and alter negative powers/fractions, -% and typeset these flexibly; thus |\unitsym{\metre\per\second}| -% could give ``\unitsym{\metre\per\second}'', -% ``\unitsym[per=slash]{\metre\per\second}'', -% ``\unitsym[per=frac]{\metre\per\second}'' or -% ``\unitsym[per=frac,fraction=nice]{\metre\per\second}'' -% depending on a package setting (suggested by Stefan Pinnow). -% \Completed -% \item More logical handling of powers; for example |\deci\cubic\metre| -% or |\deci\metre\cubed| give ``\unitsym{\deci\metre\cubed}'', but -% |\deci\cubed\metre| does not even though \cs{deci} \emph{cannot} -% be cubed (adapted suggestion from Stefan Pinnow). \Completed -% \item Use of trailing units (as in \unitsdef package, so for -% example |10\metre| to give ``10\metre'' (suggestion from Lan -% Thuy Pham). \Completed -% \item Support use of non-Latin characters where appropriate, -% for example µ in units as in |\unitsym{µm}| to give -% ``\unitsym{µm}'' (suggested by Martin Heller). \Completed -% \item Integrate the core functionality of the -% \SIunits and \sistyle packages (suggested by Danie -% Els,\footnote{Current maintainer of \sistyle.} as well as a -% key point of the review). \Completed -% \item Modular design, with loadable definitions for different -% areas and typographic conventions. \Completed -% \item Emulation of existing packages [\unitspkg (\Completed), -% \unitsdef (\Completed), \sistyle (\Completed), \SIunits -% (\Completed)] to allow easy upgrading. \Completed -% \item Typesetting angles in ``astronomy'' style, for example -% |\ang[astroang]{30;5;3.2}| to give \ang[astroang]{30;5;3.2} -% (suggested by Alok Singhal). \Completed -%\end{itemize} -% -%\section{Road map} -% The existing units packages provide valuable information on the -% problems and pitfalls of designing a package in this area. They -% have also shown how to solve many of the issues arising. However, -% in writing a new package, consistent interface design has been -% important. This is logical to the package author, but may not be -% to anyone else. The functionality provided also aims to cover -% everything from the existing packages and the suggestions -% contributed at \texttt{comp.text.tex}, but omissions are likely to -% exist. The current release of \currpkg is therefore regarded as a -% development version, to gain feedback from users and to find -% errors. The current ``road map'' for future releases is (broadly) -% given here. -%\begin{itemize} -% \item[v0.6] Seek feedback on implementation to date (current -% release); -% \item[v0.7] Add or modify functionality based on feedback, -% implement new suggestions for wish list; -% \item[v0.8] Fix bugs from 0.7 release, interface freeze; -% \item[v0.9] Release-candidate: fix remaining bugs from v0.8, -% complete remaining documentation; -% \item[v1.0] First release of completed package. -%\end{itemize} -% Depending on user feedback, the gap between these releases will -% vary. However, to finalise all of the potential issues will take -% some months (to allow time for proper testing). -% -%\part{Using the \currpkg package} -%\section{Requirements} -% \currpkg requires a reasonably up to date \TeX\ system. The -% package requires \eTeX-extensions, which should be available on -% most systems.\footnote{If you have an old \LaTeX\, try -% ``\texttt{elatex}'' rather than ``\texttt{latex}''.} The following -% packages are also needed: -%\begin{itemize} -% \item \pkg{array} and \pkg{xspace} from the \pkg{tools} bundle, -% which should be available to everyone; -% \item \pkg{xkeyval} This processes the option handling, and needs -% to be at least v2.5; -% \item \pkg{amstext} From the \AMS\TeX\ support bundle --- the -% \AMS\ fonts are also needed to provide the default upright -% \unitsym{\micro}; -%\end{itemize} -% Hopefully most people using the package will have access to all of -% those items. -% -% To use the \opt{fraction=sfrac} option, the \pkg{xfrac} package is -% needed. This needs various experimental \LaTeX3 packages. As a -% result, \currpkg does not load \pkg{xfrac}. If you want to use -% \opt{fraction=sfrac}, \emph{you} need to load \pkg{xfrac} in your -% preamble. If the package is not loaded, \opt{fraction=sfrac} falls -% back on a \pkg{nicefrac}-like method. The interested user should -% look at the \pkg{xfrac} documentation for reasons this might not be -% ideal.\footnote{On the other hand, some fractional units will look -% really bad with \cs{sfrac}. Use this option with caution.} -% -%\section{Loading the package} -% \currpkg is loaded by the usual \LaTeX\ method. -%\begin{LaTeXexample}[\typesetcodeonly] -% \usepackage{si}\\ -% \usepackage[key=option]{si} -%\end{LaTeXexample} -% As is shown in the example, the package can be loaded with one or -% more options, using the \pkg{keyval} system. The full range of -% package options are described in Section~\ref{sec:options}; some -% options are described in the along with the appropriate user -% macros. Most of the user macros accept the same \pkg{keyval} -% settings as an optional argument. -% -%\section{Numbers} -%\DescribeMacro{\num} -% Numbers are automatically formatted by the \cs{num} macro. This -% takes one optional and one mandatory argument: -% \cs{num}\oarg{options}\marg{number}. The contents of \meta{number} -% are automatically formatted, in a similar method to that used by -% \numprint. The formatter removes ``hard'' spaces (\cs{,} and |~|), -% automatically identifies exponents (by default marked using |e| or -% |d|) and adds the appropriate spacing of large numbers. A leading -% zero is added before a decimal marker, if needed; both |.| and |,| -% are recognised as decimal marker. -%\begin{LaTeXexample} -% \num{1} \num{123} \num{12345} \num{123456}\\ -% \num{0.1} \num{0.123} \num{0,1234} \num{.12345}\\ -% \num{1e10} \num{3.45d-4} \num{-e10}\\ -%\end{LaTeXexample} -% Various error-checking systems are built into the package, so -% that if \meta{number} does not contain any numeric characters, a -% warning is issued. Isolated signs are also detected. The package -% recognises |(| and |)| as ``extra'' characters, which can be used to -% indicate the error in a number.\footnote{This is common in chemical -% crystallography.} -%\begin{LaTeXexample} -% $\num{1.234(5)} = \num{1.234} \pm \num{0.005}$ -%\end{LaTeXexample} -% -% A number of effects are available as options. These are fully -% explained in Section~\ref{sec:options}. Some of the more useful -% options are illustrated here. By default, the output of the -% package is typeset in maths mode. However, the use of the current -% text font can be forced.\footnote{This document is typeset using -% lowercase numbers in text mode, which emphasises the effect here.} -%\begin{LaTeXexample} -% \num{1234567890} \num[mode=text]{1234567890} -%\end{LaTeXexample} -% \currpkg can automatically add zeros and signs to numbers. This -% can be altered as desired. -%\begin{LaTeXexample} -% \num{1.} \num[padnumber=all]{1.}\\ -% \num{2} \num[addsign=all]{2}\\ -% \num{3e4} \num[addsign=mant]{3e4} \num[addsign=all]{3e4}\\ -% \num{.5} \num[padnumber=none]{.5} -%\end{LaTeXexample} -% The separation of digits can be turned on and off, and the output -% changed. -%\begin{LaTeXexample} -% \num{1234} \num[sepfour=true]{1234}\\ -% \num{12345} \num[digitsep=comma]{12345}\\ -% \num[digitsep=none]{12345} -%\end{LaTeXexample} -% The formatting of exponents is also customisable. -%\begin{LaTeXexample} -% \num{1e10} \num[expproduct=cdot]{1e10}\\ -% \num{2e20} \num[exppower=5]{1e10} -%\end{LaTeXexample} -% -%\section{Tabular material} -% Centring numbers in tabular content is handled by a new column -% type, the |s| column. This is based closely on the \pkg{dcolumn} -% method for centring numbers in columns, but adds the functionality -% of the \cs{num} macro.\footnote{The approach used is actually a -% combination of \pkg{dcolumn} for centring the material and -% \numprint for processing it. It will therefore give rather -% different results than the \texttt{n} and \texttt{N} column types -% in \numprint.} -% -% By default, the decimal marker of the contents is placed at the -% centre of the column (Table~\ref{tbl:default}). This is achieved -% by having a negative value for the key \opt{tabformat}. The second -% method for centring content is to specify a number of digits before -% and after the decimal sign to be reserved by the package. Thus in -% the example, \opt{tabformat=2.4} provides space for two digits -% before the decimal marker and four after.\footnote{The separator -% for the number of digits before and after the decimal mark may be -% essentially any non-numeric character. Thus \opt{tabformat=2.4}, -% \opt{tabformat=2,4} and \opt{tabformat=2a4} all give the same -% result.} If an integer is given as the argument of -% \opt{tabformat}, equal space is reserved before and after the -% decimal marker for numerals, and the column is typeset flush right. -% As is shown in the fourth column, any other options may also be set -% on a column-by-column basis. -%\begin{LaTeXexample}[\typesetfloatexample] -% \begin{table} -% \caption{Behaviour of \texttt{s} column type -% \label{tbl:default}} -% \centering -% \begin{tabular}{ss[tabformat=2.4]s[tabformat=4]% -% s[tabformat=2.4,decimalsign=comma]} -% \toprule -% {Some Values} & {Some Values} & {Some Values} & {Some Values} \\ -% \midrule -% 2.3456 & 2.3456 & 2.3456 & 2.3456 \\ -% 34.2345 & 34.2345 & 34.2345 & 34.2345 \\ -% 56.7835 & 56.7835 & 56.7835 & 56.7835 \\ -% 90.473 & 90.473 & 90.473 & 90.473 \\ -% \bottomrule -% \end{tabular} -% \end{table} -%\end{LaTeXexample} -% -% Data not to be processed as a number should be protected by -% wrapping it in braces; this is most likely to be true for column -% headers (again as illustrated). The contents of non-numeric cells -% are centred; this can be altered by using the standard -% \cs{multicolumn} macro. The use of digit separators in table -% columns is accounted for: extra space is reserved if digit -% separators will be added. -% -% The use of exponents in the body of tables is not recommended; -% unlike \numprint, \currpkg does not provide additional alignment of -% exponents. Certain strange effects can also result from the -% exponent marker letters (by default |dDeE|) being picked up by the -% package in text in columns. For example, using |<{after}| after a -% |s| column will add ``aftr'' at the end of each value. To avoid -% this, wrap any problematic text in \emph{two} sets of braces (so -% for example, put |<{{after}}|). Alternatively, as part of the -% beginning of the table issue the command -%\begin{LaTeXexample}[\typesetcodeonly] -% \sisetup{numexp={}} -%\end{LaTeXexample} -% after \cs{begin}|{table}|. -% -%\section{Angles} -%\DescribeMacro{\ang} -% Angles can be typeset using the \cs{ang} command. This takes two -% arguments, \cs{ang}\oarg{options}\marg{angle}, where \meta{options} -% can be any of the package options to apply only to this value. -% \meta{angle} can be given either as a decimal number or as a -% semi-colon separated list of degrees, minutes and seconds, \ie\ -% \cs{ang}\marg{decimal angle} or -% \cs{ang}|{|\meta{degrees}|;|\meta{minutes}|;|\meta{seconds}|}|. By -% default, no space is introduced between angles and the degrees, -% minutes and seconds markers. -%\begin{LaTeXexample} -% \ang{10} \ang{12.3} \ang{4,5}\\ -% \ang{1;2;3} \ang{;;1}\\ -% \ang{+10;;} \ang{-0;1;} -%\end{LaTeXexample} -% -% By default, angles with no degrees (or minutes) are zero-filled; -% angles with degrees but no minutes or seconds are not filled. This -% behaviour can be altered using the package options. -%\begin{LaTeXexample} -% \ang{;;1} \ang[padangle=none]{;;1}\\ -% \ang{2;;} \ang[padangle=all]{2;;}\\ -% \sisetup{padangle=all} \ang{;3;} \ang{4;;} \ang{;;5} -%\end{LaTeXexample} -% The \cs{num} macro is used to typeset each number of the angle, so -% the options for \cs{num} also apply here. The \opt{anglesep} value -% can be used to separate degrees, minutes and seconds. -%\begin{LaTeXexample} -% \ang{1.05} \ang[decimalsign=comma]{1.05}\\ -% \ang{3.6789} \ang[digitsep=comma]{3.6789}\\ -% \ang{9;8;7} \ang[anglesep=thin]{9;8;7} -%\end{LaTeXexample} -% The degrees, minutes and seconds signs can be placed over the -% decimal sign using the \opt{astroang} option. This is designed on -% the assumption that only the last number given has a decimal -% part.\footnote{The exact positioning of the symbols over the -% decimal marker is currently something of a guess. Some feedback on -% the ``correct'' result would be very welcome.} -%\begin{LaTeXexample} -% \ang{1;2;3.4}\\ -% \ang[astroang]{1;2;3.4} -%\end{LaTeXexample} -% -%\section{Units and values} -%\DescribeMacro{\SI} -% The core aim of \currpkg is correctly typesetting values which have -% units. The main output macro here is \cs{SI}, which has the same -% syntax as the equivalent macro in \sistyle and \unitsdef. The -% \cs{SI} macro takes two mandatory arguments, in addition to the -% optional set up argument, and a second optional argument: -% \cs{SI}\oarg{options}\marg{number}\oarg{preunit}\marg{unit}. The -% \meta{number} argument operates in exactly the same manner as the -% equivalent argument of the \cs{num} macro. \meta{unit} will be -% typeset with a non-breakable space between it and the preceding -% number, with font control as outlined earlier. Finally, -% \meta{preunit} is a unit to be typeset \emph{before} the numerical -% value (most likely to be a currency). Some examples illustrate the -% general power of the macro. -%\begin{LaTeXexample} -% \SI[mode=text]{1.23}{J.mol^{-1}.K^{-1}}\\ -% \SI{.23e7}{\candela}\\ -% \SI[per=slash]{1.99}[\pounds]{\per\kilogram}\\ -% \SI{70}{\metre\per\second}\\ -% \SI[per=frac,fraction=nice]{1,345}{\ampere\per\mole}\\ -%\end{LaTeXexample} -% The use of unit macros outside of the \cs{SI} macro is described later -% -%\subsection{Literal units} -% Units can be input in two ways, inspired by \sistyle and \SIunits. -% The \sistyle-like method uses literal input. Four characters have -% a special meaning: -%\begin{itemize} -% \item |^| The superscript character is used without the usual -% need for surrounding maths characters (|$|); -% \item |.| and |,| The fullstop (point) symbol and comma are made -% active, and produce the current contents of the \opt{unitsep} -% option; -% \item |~| The contents of the \opt{unitspace} option are typeset -% by a tilde. -%\end{itemize} -% This allows ready input of units. -%\begin{LaTeXexample} -% \SI{10}{kg.m.s^{-2}}\\ -% \SI{1.453}{g/cm^3}\\ -% \SI{33.562}{cd~s}\\ -% \SI[unitsep=cdot]{100}{m.s^{-2}} -%\end{LaTeXexample} -% -%\subsection{The unit interpreter} -% The second operation mode for the \cs{SI} macro is based on the -% behaviour of \SIunits. Here, each unit, SI multiple prefixes and -% power is given a macro name. These are entered in a method very -% similar to the reading of the unit name in English. -%\begin{LaTeXexample} -% \SI{10}{\kilo\gram\metre\per\second\squared}\\ -% \SI{1.453}{\gram\per\cubic\centi\metre}\\ -% \SI{33.562}{\candela\second}\\ -% \SI[unitsep=cdot]{100}{\metre\per\Square\second}\\ -% \SI[prefix=power]{4.56}{\kilo\metre\per\second} -%\end{LaTeXexample} -% On its own, this is very similar to \SIunits, and is less -% convenient than the direct input method.\footnote{Users of \SIunits -% should note the lack of need for a \cs{usk}-type macro.} However, -% the package allows you to define new unit macros; a large number of -% pre-defined abbreviations are also supplied. More importantly, by -% defining macros for units, instead of literal values, new -% functionality is made available. Units may be re-defined to give -% different output, and handling of reciprocal values can be altered. -%\begin{LaTeXexample} -% \SI[per=frac,fraction=frac]{10}{\gram\metre\per\second\squared}\\ -% \SI[per=slash]{1.453}{\gram\per\cubic\centi\metre}\\ -% \SI{33.562}{\candela\second}\\ -% \SI[per=frac,fraction=nice]{100}{\metre\per\Square\second} -%\end{LaTeXexample} -% The unit processor will trap \emph{some} errors in the input and -% give the ``best guess'' result. However, it is down to the user to -% check the output. -% -%\subsection{Powers of units} -%\DescribeMacro{\Square} -%\DescribeMacro{\squared} -%\DescribeMacro{\cubic} -%\DescribeMacro{cubed} -% Including powers in units is handled using a ``natural language'' -% method. Thus preceding a unit by \cs{Square} or \cs{cubic} with -% raise the unit to the appropriate power, while \cs{squared} or -% \cs{cubed} follow the unit they apply to.\footnote{The \cs{Square} -% macro is capitalised to avoid a name clash with \pkg{pstricks}.} -%\begin{LaTeXexample} -% \SI{10}{\metre\squared}\\ -% \SI{20}{\Square\metre}\\ -% \SI{30}{\metre\cubed}\\ -% \SI{40}{\cubic\metre} -%\end{LaTeXexample} -% -%\DescribeMacro{\per} -% The \cs{per} macro intelligently creates reciprocal powers, and -% also adds the power $-1$ when appropriate. -%\begin{LaTeXexample} -% \SI{10}{\per\second\squared}\\ -% \SI{20}{\per\Square\second}\\ -% \SI[per=frac,fraction=nice]{30}{\per\second\cubed}\\ -% \SI[per=slash]{40}{\per\cubic\second}\\ -% \SI{50}{\per\second} -%\end{LaTeXexample} -% -%\DescribeMacro{\tothe} -% For powers not defined above or with \cs{newpower}, the \cs{tothe} -% macro can be used ``in line'' to produce a power. As follows from -% standard English usage, this comes after the -% unit.\footnote{Suggestions for a macro name for before the unit for -% the same job are welcome!} -%\begin{LaTeXexample} -% \SI{16.86}{\metre\tothe{4}}\\ -% \SI{7.895}{\candela\tothe{0.5}}\\ -% \SI{7.895}{\newton\tothe{-6}}\\ -% \SI{1.34}{\per\kelvin\tothe{7}} -%\end{LaTeXexample} -% -% -%\subsection{Units with no values} -%\DescribeMacro{\unitsym} -% For typesetting the symbol for a unit on its own, with the full -% font control and without extra spaces, the \cs{unitsym} macro is -% provided.\footnote{The same effect can be achieved using the -% \cs{SI} macro with an empty numerical argument.} The macro name -% avoids a clash with the functionality of the earlier packages, but -% is similar to \cs{ilu} from the \unitsdef package. -%\begin{LaTeXexample} -% \SI{}{kg.m/s^2}\\ -% \unitsym{kg.m/s^2}\\ -% \unitsym[mode=text,unitsep=cdot]{\mole\per\cubic\deci\metre} -%\end{LaTeXexample} -% -%\subsection{Free-standing units} -% Users of the \unitsdef package will be a accustomed to using unit -% macros on their own (following a value) or with an optional -% argument containing a number. In both cases, only a single unit -% macro could be used. \currpkg supports both operation modes, with -% the limitation that units trailing values loose font control of the -% value. -%\begin{LaTeXexample} -% 123\metre\\ -% \kelvin[123]\\ -% \sisetup{mode=text} \ampere[234]\\ -% 6\second -%\end{LaTeXexample} -% When used in this way, the units \emph{do not} take an optional -% \pkg{keyval} argument. -% -%\subsection{Pre-defined units, prefixes and powers} -%\newcommand*{\csindex}[1]{% -% \cs{#1}% -% \expandafter\SpecialUsageIndex\csname#1\endcsname} -%\newcommand{\unitinfo}[1]{% -% #1 & \csindex{#1} & -% \expandafter\unitsym\expandafter{\csname#1\endcsname}} -%\begin{table} -% \centering -% \begin{tabular}{lll} -% \toprule -% \multicolumn{1}{c}{Unit} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Symbol} \\ -% \midrule -% \unitinfo{kilogram}\\ -% \unitinfo{metre}\\ -% \unitinfo{second}\\ -% \unitinfo{mole}\\ -% \unitinfo{kelvin}\\ -% \unitinfo{ampere}\\ -% \unitinfo{candela}\\ -% \bottomrule -% \end{tabular} -% \caption{The seven base SI units} -% \label{tbl:baseunits} -%\end{table} -% The package always defines the seven base SI units, irrespective of -% any package options given (Table~\ref{tbl:baseunits}). The kilogram -% is notable as by default it is a \emph{base} unit with a prefix. -% Thus, when the package is loaded with the option \opt{load=\{\}}, -% \cs{kilo} and \cs{gram} \emph{are not defined}. -% -% By default, a number of additional definitions are created by the -% package. These are controlled by the \opt{load} and \opt{noload} -% options. Unless specifically requested with the option -% \opt{noload=prefix}, \currpkg also defines the standard prefixes -% for powers of ten (Table~\ref{tbl:prefix}). This leads to the -% redefinition of \cs{kilogram} as \cs{kilo}\cs{gram}. The macro -% \cs{deka} is provided, as this is used as an alias for \cs{deca} -% in some places. -%\newcommand*{\prefixunitsym}[1]{\unitsym[prefix=number]{#1}} -%\newcommand*{\prefixinfo}[1]{% -% #1 & \csindex{#1} & -% \expandafter\prefixunitsym\expandafter{\csname#1\endcsname} & -% \expandafter\unitsym\expandafter{\csname#1\endcsname}} -%\begin{table} -% \centering -% \begin{tabular}{lllclllc} -% \toprule -% \multicolumn{1}{c}{Prefix} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Power} & -% Symbol & -% \multicolumn{1}{c}{Prefix} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Power} & -% Symbol \\ -% \midrule -% \prefixinfo{yocto}& -% \prefixinfo{atto}\\ -% \prefixinfo{femto}& -% \prefixinfo{pico}\\ -% \prefixinfo{nano}& -% \prefixinfo{micro}\\ -% \prefixinfo{milli}& -% \prefixinfo{centi}\\ -% \prefixinfo{deci}& -% \prefixinfo{deca}\\ -% \prefixinfo{hecto}& -% \prefixinfo{kilo}\\ -% \prefixinfo{mega}& -% \prefixinfo{giga}\\ -% \prefixinfo{tera}& -% \prefixinfo{peta}\\ -% \prefixinfo{exa}& -% \prefixinfo{zetta}\\ -% \prefixinfo{yotta}\\ -% \bottomrule -% \end{tabular} -% \caption{The SI prefixes (\opt{load=prefix})} -% \label{tbl:prefix} -%\end{table} -% The package also defines a number of derived SI units which have -% assigned names and symbols (Table~\ref{tbl:derived}). Note that -% \cs{Gray} is capitalised to avoid a name clash with the -% \pkg{pstricks} package.\footnote{The macros \cs{ohm} and -% \cs{celsius} are not defined by \currpkg if the \pkg{gensymb} -% package is loaded.} -%\begin{table} -% \centering -% \begin{tabular}{llllll} -% \toprule -% \multicolumn{1}{c}{Unit} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Symbol} & -% \multicolumn{1}{c}{Unit} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Symbol} \\ -% \midrule -% \unitinfo{becquerel} & -% \unitinfo{celsius} \\ -% \unitinfo{coulomb} & -% \unitinfo{farad} \\ -% \unitinfo{Gray} & -% \unitinfo{hertz} \\ -% \unitinfo{henry} & -% \unitinfo{joule} \\ -% \unitinfo{katal} & -% \unitinfo{lumen} \\ -% \unitinfo{lux} & -% \unitinfo{newton} \\ -% \unitinfo{ohm} & -% \unitinfo{pascal} \\ -% \unitinfo{radian} & -% \unitinfo{siemens} \\ -% \unitinfo{sievert} & -% \unitinfo{steradian}\\ -% \unitinfo{tesla} & -% \unitinfo{volt} \\ -% \unitinfo{watt} & -% \unitinfo{weber} \\ -% \bottomrule -% \end{tabular} -% \caption{The derived SI units with defined names -% (\opt{load=derived})} -% \label{tbl:derived} -%\end{table} -% In addition to these units, there are three other groups of units -% for use with the SI system which do not fit into the above. These -% are those derived from physical measurements -% (Table~\ref{tbl:experimental}), those considered ``accepted'' -% (Table~\ref{tbl:accepted}), and those accepted temporarily -% (Table~\ref{tbl:addn}).\footnote{These are supposed to be replaced -% over time by SI units.} -%\begin{table} -% \centering -% \begin{tabular}{lll} -% \toprule -% \multicolumn{1}{c}{Unit} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Symbol} \\ -% \midrule -% electron volt & \csindex{electronvolt} & \electronvolt \\ -% atomic mass unit -% & \csindex{atomicmassunit} & \atomicmassunit \\ -% & \csindex{atomicmass} & \atomicmass \\ -% \unitinfo{dalton} \\ -% \bottomrule -% \end{tabular} -% \caption{Units derived from experiments -% (\opt{load=physical})}. -% \label{tbl:experimental} -%\end{table} -%\begin{table} -% \centering -% \begin{tabular}{lll} -% \toprule -% \multicolumn{1}{c}{Unit} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Symbol} \\ -% \midrule -% \unitinfo{minute} \\ -% \unitinfo{hour} \\ -% day & \csindex{Day} & \Day \\ -% \unitinfo{degree} \\ -% minute (arc) & \csindex{arcmin} & \arcmin \\ -% second (arc) & \csindex{arcsec} & \arcsec \\ -% \unitinfo{litre} \\ -% \unitinfo{tonne} \\ -% \unitinfo{neper} \\ -% \unitinfo{bel} \\ -% \unitinfo{percent} \\ -% \bottomrule -% \end{tabular} -% \caption{Units accepted for use with SI -% (\opt{load=accepted})}. -% \label{tbl:accepted} -%\end{table} -%\begin{table} -% \centering -% \begin{tabular}{lll} -% \toprule -% \multicolumn{1}{c}{Unit} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Symbol} \\ -% \midrule -% {\aa}nstr{\"o}m & \csindex{angstrom} & \angstrom \\ -% \unitinfo{are} \\ -% \unitinfo{hectare} \\ -% \unitinfo{barn} \\ -% bar & \csindex{BAR} & \BAR \\ -% \unitinfo{millibar} \\ -% \unitinfo{gal} \\ -% \unitinfo{curie} \\ -% \unitinfo{roentgen} \\ -% \unitinfo{rad} \\ -% \unitinfo{rem} \\ -% \bottomrule -% \end{tabular} -% \caption{Additional (temporary) SI units -% (\opt{load=addn})} -% \label{tbl:addn} -%\end{table} -% -%\subsection{Prefixed and abbreviated units} -% Many basic units have prefixes which are commonly used with the -% unit, such as centimetre or megahertz. The package therefore -% defines a number of common prefixed units (\opt{load=prefixed}). -% Several of these also have obvious abbreviations (such as \cs{MHz} -% for \cs{megahertz}). These are available by loading the -% \file{si-abbr.cfg} file (\ie\ \opt{load=abbr}). In common with the -% units discussed above, the prefixed and abbreviated unit -% definitions are loaded by default. -%\begin{longtable}{llll} -% \caption{Prefixed (\opt{load=prefixed}) and abbreviated -% (\opt{load=abbr}) units\label{tbl:abbr} }\\ -% \toprule -% Unit & Macro & Symbol & Abbreviation \\ -% \midrule -% \endfirsthead -% \toprule -% Unit & Macro & Symbol & Abbreviation \\ -% \midrule -% \endhead -% \bottomrule -% \multicolumn{4}{r}{\emph{Continued on next page}} -% \endfoot -% \bottomrule -% \endlastfoot -% \emph{Masses} \\ -% \unitinfo{kilogram} & \csindex{kg} \\ -% \unitinfo{femtogram} & \csindex{fg} \\ -% \unitinfo{picogram} & \csindex{pg} \\ -% \unitinfo{nanogram} & \csindex{nanog} \\ -% \unitinfo{microgram} & \csindex{micg} \\ -% \unitinfo{milligram} & \csindex{mg} \\ -% atomic mass & \csindex{atomicmass} & \amu & \csindex{amu} \\ -% \\ \emph{Lengths} \\ -% \unitinfo{picometre} & \csindex{picom} \\ -% \unitinfo{nanometre} & \csindex{nm} \\ -% \unitinfo{micrometre} & \csindex{micm} \\ -% \unitinfo{millimetre} & \csindex{mm} \\ -% \unitinfo{centimetre} & \csindex{cm} \\ -% \unitinfo{decimetre} & \csindex{dm} \\ -% \unitinfo{kilometre} & \csindex{km} \\ -% \\ \emph{Times} \\ -% \unitinfo{second} & \csindex{Sec} \\ -% \unitinfo{attosecond} & \csindex{as} \\ -% \unitinfo{femtosecond} & \csindex{fs} \\ -% \unitinfo{picosecond} & \csindex{ps} \\ -% \unitinfo{nanosecond} & \csindex{ns} \\ -% \unitinfo{microsecond} & \csindex{mics} \\ -% \unitinfo{millisecond} & \csindex{ms} \\ -% \\ \emph{Moles} \\ -% \unitinfo{femtomole} & \csindex{fmol} \\ -% \unitinfo{picomole} & \csindex{pmol} \\ -% \unitinfo{nanomole} & \csindex{nmol} \\ -% \unitinfo{micromole} & \csindex{micmol} \\ -% \unitinfo{millimole} & \csindex{mmol} \\ -% \\ \emph{Currents} \\ -% \unitinfo{picoampere} & \csindex{pA} \\ -% \unitinfo{nanoampere} & \csindex{nA} \\ -% \unitinfo{microampere} & \csindex{micA} \\ -% \unitinfo{milliampere} & \csindex{mA} \\ -% \unitinfo{kiloampere} & \csindex{kA} \\ -% \\ \emph{Areas} \\ -% \unitinfo{squaremetre} \\ -% \unitinfo{squarecentimetre} \\ -% \unitinfo{squarekilometre} \\ -% \\ \emph{Volumes} \\ -% \unitinfo{millilitre} & \csindex{ml} \\ -% \unitinfo{microlitre} & \csindex{micl} \\ -% \unitinfo{centimetrecubed} & \csindex{cmc} \\ -% & \csindex{centimetrecubed} & \cmc & \csindex{cmc} \\ -% \unitinfo{cubicdecimetre} & \csindex{dmc} \\ -% \\ \emph{Frequencies} \\ -% \unitinfo{hertz} & \csindex{Hz} \\ -% \unitinfo{millihertz} & \csindex{mHz} \\ -% \unitinfo{kilohertz} & \csindex{kHz} \\ -% \unitinfo{megahertz} & \csindex{MHz} \\ -% \unitinfo{gigahertz} & \csindex{GHz} \\ -% \unitinfo{terahertz} & \csindex{THz} \\ -% \\ \emph{Potentials} \\ -% \unitinfo{millivolt} & \csindex{mV} \\ -% \unitinfo{kilovolt} & \csindex{kV} \\ -% \\ \emph{Energies} \\ -% \unitinfo{kilojoule} & \csindex{kJ}\\ -% \unitinfo{electronvolt} & \csindex{eV} \\ -% \unitinfo{millielectronvolt} & \csindex{meV} \\ -% \unitinfo{kiloelectronvolt} & \csindex{keV} \\ -% \unitinfo{megaelectronvolt} & \csindex{MeV} \\ -% \unitinfo{gigaelectronvolt} & \csindex{GeV} \\ -% \unitinfo{teraelectronvolt} & \csindex{TeV} \\ -% \\ \emph{Powers} \\ -% \unitinfo{milliwatt} \\ -% \unitinfo{kilowatt} \\ -% \unitinfo{megawatt} \\ -% \\ \emph{Capacitance} \\ -% \unitinfo{femtofarad} \\ -% \unitinfo{picofarad} \\ -% \unitinfo{nanofarad} \\ -% \unitinfo{microfarad} \\ -% \unitinfo{millifarad} \\ -% \\ \emph{Resistance} \\ -% \unitinfo{kiloohm} \\ -% \unitinfo{megaohm} \\ -% \unitinfo{gigaohm} \\ -% \unitinfo{millisiemens} \\ -% \\ \emph{Forces} \\ -% \unitinfo{millinewton} \\ -% \unitinfo{kilonewton} \\ -% \\ \emph{Other units} \\ -% \unitinfo{hectopascal} \\ -% \unitinfo{megabecquerel} \\ -% \unitinfo{millisievert} \\ -%\end{longtable} -% -%\subsection{Specialist units} -%\DescribeMacro{\mmHg} -%\DescribeMacro{\molar} -%\DescribeMacro{\molar} -% In some subject area, there are units which are in common use even -% though they are outside of the SI system. Unlike the units -% discussed earlier, these specialist units are not loaded by default. -% \currpkg comes with the predefined files \opt{alsoload=chemistry} -% and \opt{alsoload=hep}. The later defines the units from the -% \pkg{hepunits} package not provided elsewhere here. The former -% adds the common chemistry units \cs{mmHg}, \cs{molar} and -% \cs{Molar}. The \cs{Molar} macro is somewhat awkward, as it can be -% given as either ``\textsc{m}'' or ``M''. The later is obviously -% easily confused with the sign for the prefix mega. -% -%\DescribeMacro{\bit} -%\DescribeMacro{\byte} -% The package also comes with equipped for \opt{alsoload=binary}. -% This provides the binary units and prefixes. The extra units -% are \cs{bit} and \cs{byte}, with the new prefixes listed in -% Table~\ref{tbl:binary}. -%\begin{table} -% \centering -% \begin{tabular}{ll>{$}c<{$}} -% \toprule -% \multicolumn{1}{c}{Prefix} & -% \multicolumn{1}{c}{Macro} & -% \multicolumn{1}{c}{Power} \\ -% \midrule -% kibi & \csindex{kibi} & 2^{10} \\ -% mebi & \csindex{mebi} & 2^{20} \\ -% gibi & \csindex{gibi} & 2^{30} \\ -% tebi & \csindex{tebi} & 2^{40} \\ -% pebi & \csindex{pebi} & 2^{50} \\ -% exbi & \csindex{exbi} & 2^{60} \\ -% \bottomrule -% \end{tabular} -% \caption{Binary prefixes -% (\opt{alsoload=binary})}. -% \label{tbl:binary} -%\end{table} -% -%\subsection{Defining new units} -%\DescribeMacro{\newunit} -%\DescribeMacro{\renewunit} -%\DescribeMacro{\provideunit} -% New units are produced using the \cs{newunit} macro. This works as -% might be expected: -% \cs{newunit}\oarg{options}\marg{unit}\marg{symbol}, where -% \meta{symbol} can contain literal values, other units, multiple -% prefixes, powers and \cs{per}. The \meta{options} argument can be -% any suitable options, and applies to this unit only The most -% obvious example for using this macro is the \cs{degree} -% unit.\footnote{Although the \cs{ang} macro is preferred for this -% job.} The (first) optional argument to \cs{SI} and \cs{unitsym} -% can be used to override the settings for the unit. -%\begin{LaTeXexample} -% \SI{3.1415}{\degree}\\ -% \newunit[valuesep=none]{\oddunit}{XXX}\\ -% \SI{12345}{\oddunit} -% \SI[valuesep=thick]{67890}{\oddunit} -%\end{LaTeXexample} -% -% Output that is only safe in maths mode should be protected with -% \cs{ensuremath}; text-only input requires \cs{text}. In the -% example below, \cs{mathnormal} is used to force the font choice -% only for the single character.\footnote{The \cs{mathrm} font used -% for this document has an ``\ss'' at the $\pi$ position.} -%\begin{LaTeXexample} -% \newunit{\SIpi}{\ensuremath{\mathnormal{\pi}}} -% \SI{10}{\metre\per\SIpi\squared} -%\end{LaTeXexample} -% -%\DescribeMacro{\newpower} -%\DescribeMacro{\renewpower} -%\DescribeMacro{\providepower} -% Powers are defined: \cs{newpower}\oarg{post}\marg{power}\marg{num}. -% \meta{power} is the name of the power macro, an \meta{num} is the -% (positive) number it represents. The later argument is always -% processed internally by \cs{num}, but \emph{must} be a number. -% Giving the optional argument \opt{post} indicates to the package -% that the power will come after the unit it applies to; by default -% it is assumed that it will come before. -%\begin{LaTeXexample} -% \newpower{\quartic}{4} -% \newpower[post]{\totheforth}{4}\\ -% \unitsym{\kilogram\totheforth}\\ -% \unitsym{\quartic\metre} -%\end{LaTeXexample} -% -%\DescribeMacro{\newprefix} -%\DescribeMacro{\renewprefix} -%\DescribeMacro{\provideprefix} -% The standard SI powers of ten are defined by the package, and are -% described above. However, the user can define new prefixes with -% \cs{newprefix}. This has syntax -% \cs{newunit}\marg{prefix}\marg{symbol}\marg{powers-ten}, where -% \meta{powers-ten} is the number of powers of ten the prefix -% represents. For example, \cs{kilo} is defined: -%\begin{LaTeXexample}[\typesetcodeonly] -% \newprefix{\kilo}{k}{3} -%\end{LaTeXexample} -% -%\section{Font control} -% Following the lead of \sistyle, \currpkg provides control over the -% font used to typeset output. By default, all text is typeset using -% the current upright serif maths font, whether the macros are given -% in text or maths mode. Some examples will show the effect. -%\begin{LaTeXexample} -% \num{10} $\num{10}$ \\ -% \sffamily \ang{20} $\ang{20}$ \\ -% \textbf{\SI{30}{\kilo\gram}}\\ -% \boldmath $\SI{30}{\kilo\gram}$ \\ -% \[ \num{50} \] -%\end{LaTeXexample} -% -% By giving the \opt{obeyfamily} option, the surrounding font family -% (serif, sans serif, fixed width) is used for inline materials. -% Inside the display maths environments, the currently active maths -% font is used. The \opt{obeybold} option causes the bold setting to -% be obeyed in the same way. -%\begin{LaTeXexample} -% \sisetup{obeyfamily,obeybold,obeyitalic} \\ -% \ang{1;1;1} $\ang{1;1;1}$ \\ -% \sffamily \ang{2;2;2} $\ang{2;2;2}$ \\ -% \textbf{\ang{3;3;3}} \boldmath $\ang{3;3;3}$ \\ -% \sisetup{mode=text} \emph{\ang{4;4;4}} $\ang{4;4;4}$ \\ -% \[ \ang{5;5;5} \] -%\end{LaTeXexample} -% -%\section{Package options\label{sec:options}} -%\DescribeMacro{\sisetup} -% The ``native'' options for the package are all given using the -% \pkg{keyval} methods. Most of the package options can be given both -% when loading the package and at any point in the document. This is -% achieved using the \cs{sisetup} macro. -% -%\newcommand*{\choiceopt}[1][option]{\opt{#1=\meta{choice}}\xspace} -%\newcommand*{\boolopt}[1][option]{\opt{#1=\meta{bool}}\xspace} -%\newcommand*{\litopt}[1][option]{\opt{#1=\meta{literal}}\xspace} -%\newcommand*{\choicelitopt}[1][option] -% {\opt{#1=\meta{choice,literal}}\xspace} -%\newcommand*{\macopt}[1][option]{\opt{#1=\meta{macro}}\xspace} -%\newcommand*{\numopt}[1][option]{\opt{#1=\meta{number}}\xspace} -%\newcommand*{\listopt}[1][option]{\opt{#1=\meta{list}}\xspace} -%\newcommand*{\lenopt}[1][option]{\opt{#1=\meta{length}}\xspace} -% The package options take a number of different forms. -%\begin{itemize} -% \item \boolopt Simple true/false values. These macros all default -% to \opt{true}, so giving the option name alone sets the flag to -% true. -% \item \choiceopt Take a single item from a pre-determined list. -% Depending on the value, one or more internal states will be -% altered. Values not on the list are ignored. The default value -% is given in bold. -% \item \choicelitopt If the given value is a \meta{choice}, then -% the internal settings for that choice are used. Any other value -% is used directly. As with simple choice options, the default is -% given in bold. -% \item \litopt The given value is used as a literal by the package. -% \item \macopt These options expect a macro name as a value; the -% macro name is then used by the package. Note that the name does -% \emph{not} include the leading \textbackslash. -% \item \lenopt Requires a \TeX\ lengths, for example -% \opt{0.5ex}. -% \item \listopt Takes a list of one or more items, which are not -% determined in advance. -%\end{itemize} -% -% The package has a large range of options, to allow full control of -% the various features of the package. These control differing -% aspects of the package, and are given below in groups based on -% function. -% -%\subsection{Font family and style} -% The font used when typesetting material can be tightly controlled -% using \currpkg. A number of options affect how the package matches -% the surrounding font, and the font families used to achieve this. -%\begin{itemize} -% \item \boolopt[obeyfamily] By default, the font family used for -% typesetting does \emph{not} match the surroundings. This is -% altered using the \opt{obeyfamily} switch; when active, serif -% (Roman), sans serif and typewriter fonts are detected. -% \item \choiceopt[mode] The output of \currpkg can be typeset -% using either text or maths fonts. By default, maths mode is -% used, but this can be altered setting the \opt{mode} option -% to \opt{text}. -% \item \boolopt[textmode] A shortcut for \opt[mode=text]. -% \item \boolopt[obeymode] The package can detect and use the -% surrounding maths or text mode, if requested. Default is -% \opt{false}. -% \item \boolopt[obeybold] If the typeset text should obey the local -% value of the bold setting, then this option should be set: the -% default is false. -% \item \choiceopt[inlinebold] For inline maths, the package -% can check either the surrounding maths or the surrounding text. -% The options here are \textbf{\opt{text}} and\opt{maths} (or -% \opt{math}). -% \item \boolopt[obeyitalic] Italic \latin{versus} upright shape -% is handled slightly differently to bold. The option works in -% text mode, but has no effect in maths mode. This is because -% font changes plus italic is not possible in maths mode (for -% example, see the result of |$\mathit{\mathrr{10}}$|. -% \item \macopt[mathdefault] The default shape used for text printed -% in maths mode. The default is the value stored in \opt{mathrm}. -% \item \macopt[textdefault] The default shape used for text printed -% in text mode. The default is the value stored in \opt{mathrm}. -% \item \macopt[mathnumdefault] The default shape used for numbers -% printed in maths mode. The default is the value stored in -% \opt{mathrm}. -% \item \macopt[textnumdefault] The default shape used for numbers -% printed in text mode. The default is the value stored in -% \opt{mathrm}. -% \item \macopt[mathrm] The font command used in maths mode when -% the surrounding text is serif. The default is \opt{mathrm}; the -% other maths font defaults follow the same pattern. -% \item \macopt[mathsf] The font command used in maths mode when -% the surrounding text is sans serif. -% \item \macopt[mathrm] The font command used in maths mode when -% the surrounding text is fixed width. -% \item \macopt[textrm] The font command used in text mode when -% the surrounding text is serif. The default is \opt{rmfamily}; -% the other text font defaults follow the same pattern. -% \item \macopt[textsf] The font command used in text mode when -% the surrounding text is sans serif. -% \item \macopt[texttt] The font command used in text mode when -% the surrounding text is fixed width. -%\end{itemize} -% -%\subsection{Spacing and separators} -% The spacings used between items are all user-definable. This is -% also true for the separators used for decimals, \etc. -%\begin{itemize} -% \item \choicelitopt[unitsep] This defines the separation of -% different unit symbols. The \meta{list} takes values -% \opt{\textbf{thin}}, \opt{medium} (alias \opt{med}), \opt{thick} -% (all maths spacings), \opt{space} (a full space), \opt{cdot} (a -% centred dot) and \opt{times}. \meta{literal} values are typeset -% in maths mode. -% \item \choicelitopt[unitspace] The spacing represented by an -% explicit hard space (|~|) inside a unit macro. Takes the same -% list as \opt{valuesep}. -% \item \choicelitopt[valuesep] Defines the separation between a -% value and the associated unit. Valid \meta{list} values are -% \opt{\textbf{thin}}, \opt{medium} (alias \opt{med}), -% \opt{thick}, \opt{space} and \opt{none}. -% \item \choicelitopt[digitsep] The separation (if any) between -% groups of digits in large numbers. Valid \meta{list} values are -% \opt{\textbf{thin}}, \opt{medium} (alias \opt{med}), -% \opt{thick}, \opt{space}, \opt{comma}, \opt{fullstop} (aliases -% \opt{stop} and \opt{period}) and \opt{none}. -% \item \choicelitopt[decimalsign] The decimal sign, either -% \opt{comma} or \opt{\textbf{fullstop}} (also aliased as -% \opt{stop} and \opt{period}). -% \item \choicelitopt[anglesep] The separator between degrees, -% minutes and seconds in an angle. The options are \opt{thin}, -% \opt{medium} (alias \opt{med}), \opt{thick} and -% \opt{\textbf{none}}. -%\end{itemize} -% -%\subsection{Number formatting} -% There are two types of option for numbers. The first set are -% concerned with parsing numbers, and are very similar to the -% settings in \numprint. These all begin \opt{num}, and take literal -% values. Notice that the literals are \emph{not} separated in any -% way in the input. -%\begin{itemize} -% \item \litopt[numlist] The characters which are numbers: -% \opt{\textbf{01234567890}}. -% \item \litopt[numdecimal] Decimal markers: \opt{\textbf{.,}} -% \item \litopt[numexp] Exponent markers: \opt{\textbf{edED}} -% \item \litopt[numgobble] Characters to be gobbled when processing -% numbers: no default -% \item \litopt[numsign] Signs (which must be at the start of a -% number): \opt{\textbf{+-\cs{pm}\cs{mp}}} -% \item \litopt[numextra] ``Extra'' characters, to be carried -% through directly to the output: \opt{\textbf{()}} -%\end{itemize} -% -% The second type of option for numbers controls the output. -%\begin{itemize} -% \item \choiceopt[addsign] Sets whether a sign is added to numbers -% without an explicit sign given. Valid choices are -% \opt{mantissa} (or \opt{mant}), \opt{exponent} (or \opt{exp}), -% \opt{both} (or \opt{all}) and \opt{\textbf{none}}.The option -% will also act as a Boolean, taking \opt{true} and opt{false}, -% with \opt{addsign} alone equal to giving the \opt{true} (= -% \opt{all}) value. -% \item \choicelitopt[sign] The sign used by the above. Choices are -% \opt{\textbf{plus}}, \opt{minus}, \opt{pm} and \opt {mp} ($\pm$ -% and $\mp$, respectively). The sign will always be typeset in -% maths mode. -% \item \boolopt[sepfour] When separating out numbers (using -% \opt{digitsep}), four-digit numbers can be skipped. This is -% the default. -% \item \choicelitopt[expproduct] The symbol used to indicate a -% product for exponents (\ie\ the $\times$ in \num{2e2}). The -% choices are \opt{\textbf{times}} and \opt{cdot}. -% \item \choicelitopt[exppower] Slightly esoterically, the power -% used for exponents can be altered. The ``choice'' list here -% only recognises \opt{ten}; anything else is used literally. -% \item \choiceopt[padnumber] This sets where zeros are added. The -% choices are \opt{\textbf{leading}} (a leading zero added to -% |.1|), \opt{trailing} (converts |1.| to \num{1.0}), \opt{all} -% (\opt{leading} and \opt{trailing}, also available as \opt{both}) -% and \opt{none} (no zeros added). The option will also act as a -% Boolean, taking \opt{true} and opt{false}, with \opt{padnumber} -% alone equal to giving the \opt{true} (= \opt{all}) value. -%\end{itemize} -% -%\subsection{Angle formatting} -% The angle formatter uses \cs{num} to format numbers; any options -% for numbers are therefore applicable here. When typesetting an -% angle using \cs{ang}, the following extra option is also relevant. -%\begin{itemize} -% \item \choiceopt[padangle] Determines whether small and large -% angles are padded. The choices are \opt{none} (no additional -% zeros are added), \opt{\textbf{small}} (angles with no degrees -% have \ang{0;;} added), \opt{large} (angles with no seconds have -% \ang[padangle=none]{;;0} added) and \opt{all} (\opt{small} and -% \opt{large} combined). The option also recognises \opt{true} -% and \opt{false} as choices, which are equal to \opt{all} and -% \opt{none}, respectively. If no value is given, \opt{padangle} -% acts a Boolean choice. -% \item \boolopt[astroang] Astronomers place the signs for angles -% over decimal signs; this is handled here. -%\end{itemize} -% -%\subsection{Tabular material} -% The formatting of data in |s| columns is controlled by a single -% package option. -%\begin{itemize} -% \item \numopt[tabformat] The number here determines how to centre -% decimal numbers in a column. If \opt{number} is zero or -% negative, then the decimal marker is placed at the centre of the -% column with the number symmetrically placed around it. If -% \opt{number} is positive, it is interpreted -% |\meta{pre}.\meta{post}|, where \meta{pre} is the number of -% digits before the decimal marker and \meta{post} is the number -% after. Appropriate space is reserved to centre a number of -% total length \meta{pre} $+$ \meta{post} (plus the decimal -% marker). If the digits supplied are too long, overfull boxes -% will result. If only \meta{pre} is given, an equal amount of -% space is reserved before and after the decimal marker, and the -% number is typeset flush right. -%\end{itemize} -% -%\subsection{Units} -% The output of units (as opposed to the numerical argument of the -% unit) takes only a few options. -%\begin{itemize} -% \item \boolopt[xspace] Determines whether to use \pkg{xspace} at -% the end of unit macros when not given inside \cs{SI}, for -% example |10\metre away| will give \sisetup{xspace} ``10\metre -% away'' with \opt{xspace} turned on, but \sisetup{xspace=false} -% ``10\metre away'' with it turned off.\sisetup{xspace} -% \item \choiceopt[per] Affects how \cs{per} is interpreted in -% units. The options available are \textbf{\opt{reciprocal}} -% (also available as \opt{rp} and \opt{power}), \opt{slash} and -% \opt{fraction} (or \opt{frac}). -% \item \choiceopt[fraction] When using \opt{per=frac}, further control -% of the appearance of the fraction is provided. The options -% available are \opt{frac} (uses \LaTeX\ \cs{frac} operation), -% \opt{nice} (also available as \opt{nicefrac}; uses a -% \pkg{nicefrac}-like system), \opt{ugly} (also \opt{uglyfrac}; -% the same as loading \pkg{nicefrac} with the \opt{ugly} option: -% uses \cs{frac} for material in maths mode and a slash for -% material in text mode) and \opt{sfrac} (uses the \cs{sfrac} -% macro from the \pkg{xfrac} package.\footnote{\pkg{xfrac} is part -% of the experimental system for \LaTeX3. As it requires a number -% of additional packages to work, \currpkg does not load -% \pkg{xfrac}. If it is unavailable, the \opt{sfrac} setting will -% fall back to using \cs{nicefrac}. See the \pkg{xfrac} -% documentation for reasons to prefer \cs{sfrac} to -% \cs{nicefrac}.} -% \item \litopt[denlbrac] and \litopt[denrbrac] When using -% \opt{per=slash}, using two or more units in the denominator -% gives an ambiguous fraction. The package therefore adds -% \opt{denlbrac} and \opt{denrbrac} in such cases. -% \item \choiceopt[prefix] Controls how prefixes to units -% are handled, with options \textbf{\opt{symbol}} (or -% \opt{letter}) and \opt{number} (or \opt{power}). -% \item \choicelitopt[prefixpower] and \choiceopt[prefixproduct] -% Works in the same way as the general exponent equivalents, but -% only for prefix modifiers. -%\end{itemize} -% -%\subsection{Symbols} -% User access to control the symbols used for \unitsym{\micro}, -% \unitsym{\ohm}, \unitsym{\angstrom}, \unitsym{\degree} and -% \unitsym{\celsius} is provided here. These are all literal options, -% which are available in text and maths mode variants. For example, -% \opt{textmicro} is the code used for the \unitsym{\micro} symbol in -% text mode. The text mode macros should be safe when forced into -% text, and the maths ones when forced into maths. -%\begin{itemize} -% \item \opt{textOmega} -% \item \opt{mathsOmega} -% \item \opt{textmu} -% \item \opt{mathsmu} -% \item \opt{textdegree} -% \item \opt{mathsdegree} -% \item \opt{textminute} -% \item \opt{mathsminute} -% \item \opt{textsecond} -% \item \opt{mathssecond} -% \item \opt{textringA} -% \item \opt{mathsringA} -% \item \opt{textcelsius} -% \item \opt{mathscelsius} -%\end{itemize} -% -% When \currpkg is loaded, it can check for the presence of the -% \pkg{textcomp} and \pkg{upgreek} packages, to provide better -% symbols for certain items. To prevent this, us the -% \opt{redefsymbols=false} option. -% -% The \unitsym{\electronvolt} symbol requires some fine-tuning, and -% so has two options of its own. -%\begin{itemize} -% \item \lenopt[eVcorra] The correction applied to the gap between -% ``e'' and ``V'' of the unit. The default is \opt{0.3ex}. -% \item \lenopt[eVcorrb] The correction applied to the gap between -% ``V'' of the unit and whatever follows. The default is -% \opt{0ex}; a change is needed for example in -% |\unitsym[per=slash]{\electronvolt\per\metre}|, which gives -% \unitsym[per=slash]{\electronvolt\per\metre} by default, but -% \unitsym[per=slash,eVcorrb=0.7ex]{\electronvolt\per\metre} by -% setting \opt{eVcorrb=0.7ex}. The value needed will depend -% on the use of the unit and the font metrics used. -%\end{itemize} -% -%\subsection{Package control} -% These macros alter the overall behaviour of the package. -%\begin{itemize} -% \item \listopt[load] Sets which additional configuration files are -% loaded. These all have names of the form -% \file{si-\meta{option}.cfg}, where \meta{option} should be given -% in the \opt{load} list. The package recognises the -% \opt{load=default} option, which is expanded to the standard list -% of loaded files. This is to allow easy addition of one or more -% files without needing to know the default list. -% \item \listopt[noload] Excludes files from the above from being -% loaded, so that a single file can be omitted without needing to -% type a long list of those to be used. -% \item \listopt[alsoload] Adds an item to the list to be loaded, -% without needing to specify all of the existing list. -% \item \choiceopt[log] Sets the amount of information written to -% the log by \currpkg. The \meta{list} is \opt{none}, -% \opt{errors}, \textbf{\opt{normal}} and \opt{debug}. The last -% option is also available as a Boolean, and gives \emph{lots} of -% information in the log. -% \item \choiceopt[emulate] Causes \currpkg to emulate the -% given package. The \meta{list} takes values \opt{SIunits}, -% \opt{sistyle}, \opt{units} and \opt{unitsdef}. -% This option can only be used when loading the package. -%\end{itemize} -% -%\subsection{Back-compatibility options} -% As well as the options outlined above, at load time a number of -% options are available to allow \currpkg to be used as a direct -% replacement for other unit-management packages. These are the same -% options as are available in \SIunits, \sistyle, \unitspkg, and -% \unitsdef. Using a legacy option will cause the package to load the -% appropriate emulation code -% -%\section{Emulation of other packages} -% \currpkg has been designed as a replacement for \SIunits, \sistyle, -% \unitspkg and \unitsdef. It therefore provides options a hooks to -% reproduce the functions of all of these packages. In this way, -% \currpkg should be usable as a straight replacement for the older -% packages. All of the user macros of \meta{package} are (hopefully) -% available when using the -% \opt{emulate=\meta{package}}.\footnote{User macros means that they -% are described in the package documentation; simply not containing -% an \texttt{@} does not mean they will have been emulated.} This -% means for example that the \cs{num} macro takes an optional star -% when emulating \sistyle. However, there are some points that -% should be remembered. In particular, \currpkg validates numerical -% input, meaning that places where a number is expected in the older -% packages \emph{require} a number when emulated by \currpkg. -% -% The \numprint package has provided many useful ideas for the code -% used here for number formatting. The basic use of the \cs{numprint} -% (or \cs{np}) macro can be reproduced using \currpkg. However, -% \numprint is large and complex, with its own backward-compatibility -% options. As a result, emulation of \numprint is not provided here. -% To use an \numprint document with \currpkg, the cs{numprint} macro -% could be provided using the following code. -%^^A Need to deal with \cs{numprint} being defined. -%\let\numprint\relax -%\begin{LaTeXexample} -% \newcommand*{\numprint}[2][]{\SI[obeymode]{#2}{#1}}\\ -% \numprint{-123456} \numprint[N/mm^2]{-123456} -%\end{LaTeXexample} -%^^A Back to the normal - with \cs{newcommand} -%\newcommand*{\numprint}{\pkg{numprint}\xspace} -% -% \currpkg can be used more-or-less directly to replace both -% \pkg{dcolumn} and \pkg{rccol}. As is explained in the code -% section, much of the column-alignment system here is taken from -% \pkg{dcolumn}, while \pkg{rccol} provided a model for an -% customisable system. However, neither package has been directly -% emulated here. The |s| column type can be used to replace both |D| -% and |R| columns by setting the appropriate package options. -% -%\section{Tricks and known issues} -% -% Due to the possibility of output in either maths or text mode, any -% input which requires a particular mode needs to be protected. You -% cannot use |$|\ldots|$|, as this can get ``caught out'', but also -% as it may give hard-to-follow errors. Always use \cs{ensuremath} -% to force maths processing, and \cs{text} (from the \AMS\TeX\ -% bundle) to ensure text mode. -% -% The package uses the \cs{mathrm} font family by default to typeset -% output in maths mode. This however has a few side-effects. For -% example, the Greek alphabet can give odd results.\footnote{This -% depends on your font setup; this document uses T1 encoding, which -% shows the issue, whereas using OT1 does not.} The use of the -% \cs{mathnormal} font may get around this issue. -%\begin{LaTeXexample} -% \num[numextra=\pi]{4\pi e-7}\\ -% \num[numextra=\pi,mathnumdefault=mathnormal]{4\pi e-7}\\ -%\end{LaTeXexample} -% On the other hand, you may want to use text mode. There, -% \cs{ensuremath} is needed. -%\begin{LaTeXexample} -% \newcommand*{\numpi}{\ensuremath{\pi}} -% \num[numextra=\numpi,mode=text]{4\numpi e-7} -%\end{LaTeXexample} -% There are several potential pitfalls in this area; experimentation -% may well be needed.\footnote{Any suggestions for the code that runs -% this are welcome; the issue is how to deal with active characters -% in the input while not expanding macros.} -% -%\section{Reporting a problem} -% \currpkg is quite long and complicated, and works hard to cover all -% possible eventualities. However, there will be bugs in the code -% and unexpected interactions with other packages. If you think you -% have found a bug, please report it. A short test-case -% demonstrating the problem would be very welcome. The following is -% a suitable template, and is available as \file{si-bug.ltx}, by -% running \file{si.dtx} through (pdf)\LaTeX. -%^^A Change the output file name for the temporary file, so that -%^^A this one is available to readers. -%\edef\LaTeXexamplefile{si-bug.ltx} -%\begin{LaTeXexample}[\typesetcodeonly] -% \listfiles -% \documentclass{article} -% % Add other packages here. -% % Add options need for si package, retain the debug option. -% \usepackage[debug]{si} -% \begin{document} -% This is the bug test-case document for the \textsf{si} -% package.\\ -% Please put your demonstration here, and e-mail to the -% package author. -% \begin{center} -% \texttt{joseph.wright@morningtar2.co.uk} -% \end{center} -% \end{document} -%\end{LaTeXexample} -%^^A Back to normal, so that this is not forgotten -%\edef\LaTeXexamplefile{\jobname.tmp} -% -%\section{Acknowledgements} -% The package author has learned \LaTeX\ tricks from far too many -% people to thank all of them. However, for this package specific -% thanks must go to the authors of the existing ``unit'' packages: -% Danie Els (\sistyle), Marcel Heldoorn (\SIunits), Patrick -% Happel (\unitsdef), Axel Reichert (\unitspkg) and Harald -% Harders (\numprint). Philip Lehmann, Will Robertson and Heiko -% Oberdiek deserve much credit for demonstrating \LaTeX\ coding best -% practice. Thanks to the various contributors of ideas for the -% package: Donald Arseneau, Michele Dondi, Paul Gans, Ben Morrow, Lan -% Thuy Pham, Stefan Pinnow, Allan Ristow and Patrick Steegstra. -% -%\part{Correct application of (SI) units} -%TO DO! -% -%\bibliographystyle{unsrt} -%\StopEventually{% -% \part{Notes} -% \PrintChanges -% \PrintIndex -% \bibliography{si}} -% -% \iffalse -%<*package> -% \fi -% -%\part{Implementation} -%\section{Main package} -% Much of the code here is taken, with little or no modification, -% from the existing packages. These are all released under the LPPL, -% and so this use is entirely allowed. Rather than confuse the -% source here with repeated references, note that code here could be -% copied from \sistyle, \SIunits, \numprint, \unitsdef or \unitspkg. -% Some ideas have also been borrowed from \pkg{biblatex}; again these -% will not be specifically noted. Code from other packages will be -% marked when used. -% -% User-space commands (those not containing |@|) defined here should -% give the same result as macros with the same name in the older -% packages. However, internal package macros may behave differently; -% if the user has redefined internal macros, then compatibility may -% be impaired. -% -% The code used here uses \LaTeX\ rather than \TeX\ commands where -% possible.\footnote{This applies to \LaTeX\ kernel commands only; -% for example, \pkg{ifthenelse} is not used.} For example, -% \cs{newcommand*} is used in place of \cs{def}, unless custom -% parameters are needed. Hopefully, this will aid future -% maintenance. Grouping is used where possible to limit the scope of -% temporary assignments. -% -%\subsection{Setup code} -% As always, the package starts with identification. A warning is then -% printed about possible changes. -% \begin{macrocode} -\NeedsTeXFormat{LaTeX2e} -\ProvidesPackage{si}% - [2008/02/20 v.06a A comprehensive (SI) units package] -\PackageInfo{si} - {This package is experimental. \MessageBreak The interface and - functionality is subject to review \MessageBreak and may be changed - in later releases} -% \end{macrocode} -% The package requires \eTeX, so the usual test is made. -% \begin{macrocode} -\begingroup - \@ifundefined{eTeXversion} - {\PackageError{si} - {Not running under e-TeX} - {This package requires e-TeX. Try compiling the document - with\MessageBreak `elatex' instead of `latex'. When using - pdfTeX, try `pdfelatex'\MessageBreak instead of `pdflatex'}% - \endgroup\endinput} - {\endgroup} -% \end{macrocode} -% Packages needed for functionality are loaded. \pkg{xkeyval} -% handles the package options, while \pkg{amstext} from the \AMS\ -% bundle is needed for \cs{text}. \pkg{array} is needed for the new -% column type for tabular material. \pkg{xspace} provides ``magic'' -% spacing after macros, if requested. \pkg{xkeyval} has to be at -% least v2.5, as earlier versions do not have the correct macros -% available. As this will lead to serious errors later, \currpkg -% aborts if \pkg{xkeyval} is too old. -% \begin{macrocode} -\RequirePackage{xkeyval} -\@ifpackagelater{xkeyval}{2005/05/07} - {} - {\PackageError{si} - {xkeyval >= 2.5 required} - {si requires the `xkeyval' package, version 2.5 or - later.\MessageBreak The version loaded is: - `\@nameuse{ver@xkeyval.sty}'.\MessageBreak - This is a fatal error; the package will abort.}% - \endinput} -\RequirePackage{amstext,array,xspace} -% \end{macrocode} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -%\begin{macro}{\si@tempc} -% Some scratch commands are defined; apart from where a known value -% is carried through, these could contain anything. -% \begin{macrocode} -\newcommand*{\si@tempa}{} -\newcommand*{\si@tempb}{} -\newcommand*{\si@tempc}{} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@switch} -% Various items will need a switch. To avoid name pollution, a -% single switch is defined here; grouping will keep the definition -% local. -% \begin{macrocode} -\newif\ifsi@switch -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@packagecheck} -%\begin{macro}{\si@tempa} -% As \currpkg is intended to replace the other unit-management -% packages, these are tested for before any further processing. If -% any are loaded, the package halts compilation; name clashes or -% unexpected results could occur if this is not tested. Notice that -% \SIunits and \sistyle could be loaded with variable capitalisation -% (at least on Windows); both possibilities are tested. Also notice -% that \unitsdef must be tested before \unitspkg, so that users of -% the former get an intelligible message. -% \begin{macrocode} -\newcommand*{\si@packagecheck}{% - \begingroup - \@for\si@tempa:=SIunits,siunits,sistyle,SIstyle,unitsdef\do{% - \@ifpackageloaded{\si@tempa} - {\PackageError{si} - {Package `\si@tempa' incompatible} - {The `\si@tempa' package and `si' are - incompatible.\MessageBreak Use the - `emulate=\si@tempa' package option when loading si.}} - {}} -% \end{macrocode} -% Some packages should not cause a clash, but are emulated and would -% be better handled that way. -% \begin{macrocode} - \@for\si@tempa:=units\do{% - \@ifpackageloaded{\si@tempa} - {\PackageWarning{si} - {Consider loading the si package with\MessageBreak - option `emulate=\si@tempa', rather than\MessageBreak - loading both \si@tempa and si}} - {}} - \endgroup} -% \end{macrocode} -%\end{macro} -% The check is carried out on loading and at the beginning of the -% document, so that packages loaded both before and after -% \currpkg are caught. -% \begin{macrocode} -\si@packagecheck -\AtBeginDocument{\si@packagecheck} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@ifdefinable} -% Using \cs{@ifdefinable} to check macro definitions gives a generic -% error. To give something more helpful, \cs{@ifundefined} is used, -% but this needs some \cs{expandafter} work. This way it can also be -% used as a form of \cs{@ifundefined} for macro names.\\ -%\cs{si@ifdefinable}\marg{macro} -% \begin{macrocode} -\newcommand*{\si@ifdefinable}[1]{% - \expandafter\expandafter\expandafter\@ifundefined% - \expandafter\expandafter\expandafter% - {\expandafter\@gobble\string#1}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@addtolist} -% It is quite useful to be able to add to a comma-separated list -% of expandable items.\\ -%\cs{si@addtolist}\marg{macro}\marg{items} -% \begin{macrocode} -\newcommand*{\si@addtolist}[2]{% - \ifx\@empty#1\@empty - \edef#1{#2}% - \else - \edef#1{#1,#2}% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@addtocsname} -%\begin{macro}{\si@temptoks} -% A second item to add to a is macro.\\ -%\cs{si@addtomacro}\marg{macro}\marg{tokens}\\ -%\cs{si@addtocsname}\marg{csname}\marg{tokens} -% \begin{macrocode} -\newtoks{\si@temptoks} -\newcommand*{\si@addtocsname}[2]{% - \@ifundefined{#1} - {\@namedef{#1}{#2}} - {\si@temptoks\expandafter\expandafter\expandafter{% - \csname #1\endcsname#2}% - \expandafter\edef\csname #1\endcsname{\the\si@temptoks}}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@xifmtarg} -%\begin{macro}{\si@ifnotmtarg} -% To keep down dependance on other packages, the very short code -% block from \pkg{ifmtarg} is copied here with an internal name. -% \begin{macrocode} -\begingroup - \catcode`\Q=3 - \long\gdef\si@xifmtarg#1#2Q#3#4#5\@nil{#4} - \long\gdef\si@ifnotmtarg#1{% - \si@xifmtarg#1QQ\@firstofone\@gobble\@nil} -\endgroup -% \end{macrocode} -%\end{macro} -%\end{macro} -% -%\subsection{Logging} -%\begin{macro}{\ifsi@debug} -%\begin{macro}{\ifsi@logmin} -%\begin{macro}{\ifsi@lognone} -% To control logging, some new switches are declared. -% \begin{macrocode} -\newif\ifsi@debug -\newif\ifsi@logmin -\newif\ifsi@lognone -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@log@err} -%\begin{macro}{\si@log@warn} -%\begin{macro}{\si@log@inf} -% Some handy re-usable macros are defined here. These all take names -% beginning These pop up in various places. First errors, warnings -% and information are handled. Package options are used to control -% how much output is given.\\ -%\cs{si@log@err}\marg{error}\marg{explanation}\\ -%\cs{si@log@warn}\marg{warning}\\ -%\cs{si@log@inf}\marg{information} -% \begin{macrocode} -\newcommand*{\si@log@err}[2]{% - \ifsi@lognone\else - \ifsi@logmin - \PackageWarning{si}{#1}% - \else - \PackageError{si}{#1}{#2}% - \fi - \fi} -\newcommand*{\si@log@warn}[1]{% - \ifsi@lognone\else - \ifsi@logmin\else - \PackageWarning{si}{#1}% - \fi - \fi} -\newcommand*{\si@log@inf}[1]{% - \ifsi@lognone\else - \ifsi@logmin\else - \PackageInfo{si}{#1}% - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@log@debug} -% The debug macro only gives output if the appropriate package option -% is set.\\ -%\cs{si@log@debug}\marg{debug-information} -% \begin{macrocode} -\newcommand*{\si@log@debug}[1]{% - \ifsi@lognone\else - \ifsi@debug - \PackageInfo{si}{#1}% - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -% -%\subsection{Option handling} -%\begin{macro}{\sisetup} -% To allow modification of options at run time, a setup macro is -% provided. The run of strange tests are to prevent problems in -% arrays and the like.\\ -%\cs{sisetup}\marg{keyval-options} -% \begin{macrocode} -\newcommand*{\sisetup}[1]{% - \iffalse{\fi\ifnum0=`}\fi - \setkeys[si]{opt}{#1}% - \ifnum0=`{\fi\iffalse}\fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@opt@key} -% To aid maintenance, some shortcuts are defined for generating keys. -% These also allow the debugging messages to be added automatically -% to every key. First of all the basic key definition.\\ -%\cs{si@opt@key}\marg{keyname}\marg{code} -% \begin{macrocode} -\newcommand*{\si@opt@key}[2]{% - \define@key[si]{opt}{#1} - {#2\si@log@debug{Option #1 set to ##1}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@opt@cmdkey} -%\begin{macro}{\si@opt@cmdkeys} -% The command versions of the above.\\ -%\cs{si@opt@cmdkey}\oarg{default}\marg{keyname}\marg{function}\\ -%\cs{si@opt@cmdkeys}\oarg{default}\marg{keynames} -% \begin{macrocode} -\newcommand*{\si@opt@cmdkey}[3][]{% - \define@cmdkey[si]{opt}[si@]{#2}[#1]{#3}} -\newcommand*{\si@opt@cmdkeys}[2][]{% - \define@cmdkeys[si]{opt}[si@]{#2}[#1]} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@opt@boolkey} -% Keys which only take switch values; anything other than \opt{true} -% or \opt{false} will generate a warning from \pkg{xkeyval}. -%\cs{si@opt@boolkey}\oarg{optional-processing}\marg{keyname} -% \begin{macrocode} -\newcommand*{\si@opt@boolkey}[2][]{% - \define@boolkey[si]{opt}[si@]{#2}[true] - {#1\si@log@debug{Option #2 set to ##1}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@opt@choicekey} -% A ``fill in the blanks'' choice key. In all cases, \cs{si@tempa} -% is used to hold the value given to the key, so that \cs{ifx} -% testing can occur.\\ -%\cs{si@opt@choicekey}\oarg{default}\marg{keyname}\marg{choices}^^A -%\marg{in-list}\marg{not-in-list} -% \begin{macrocode} -\newcommand*{\si@opt@choicekey}[5][]{% - \define@choicekey*+[si]{opt}{#2}[\si@tempa]{#3}[#1] - {#4\si@log@debug{Option #2 set to ##1}} - {#5\si@log@debug{Option #2 set to ##1}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@opt@xchoicekey} -% Several of the package options can take either a choice from a list -% of known options, or a value to be interpreted literally. To aid -% maintenance, the necessary code can be set up here. These keys all -% define a new macro, which must exist. The \cs{si@opt@xchoicekey} -% macro therefore ensures that this is defined, as well as setting up -% the \pkg{xkeyval} key.\\ -%\cs{si@opt@xchoicekey}\marg{keyname}\marg{choices}\marg{initial} -% \begin{macrocode} -\newcommand*{\si@opt@xchoicekey}[3]{% - \si@opt@choicekey[#3]{#1}{#2} -% \end{macrocode} -% This code will execute if the option is on the list. There will be -% a ``fixed'' macro with a matching name, which is used for this. -% \begin{macrocode} - {\expandafter\renewcommand\expandafter*% - \csname si@#1\endcsname{\@nameuse{si@fix@##1}}} -% \end{macrocode} -% The user has given something that is not on the list as an -% argument. It is used literally. -% \begin{macrocode} - {\expandafter\renewcommand\expandafter*% - \csname si@#1\endcsname{##1}} -% \end{macrocode} -% Finally, the initial value of the macro is set up. -% \begin{macrocode} - \expandafter\newcommand\expandafter*\csname si@#1\endcsname% - {\@nameuse{si@fix@#3}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@opt@compatkey} -% An all-in-one definition for a back-compatibility key. These -% should only be used at load time, so are automatically disabled -% once the package is loaded. Emulation is also automatically turned -% on.\\ -%\cs{si@opt@compatkey}\marg{package}\marg{keyname}. -% \begin{macrocode} -\newcommand*{\si@opt@compatkey}[2]{% - \define@boolkey[si]{opt}[si@old@]{#2}[true] - {\si@log@debug{Emulating #1 package option\MessageBreak #2}% - \sisetup{emulate=#1}% - \si@log@debug{Option #2 set to ##1}} - \AtEndOfPackage{\si@opt@disablekey{#2} - {Compatibility option #2 only\MessageBreak - available when loading si package}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@opt@disablekey} -% The ability to disable a key with a meaningful message is a must; -% the warning will come from \currpkg, and not from \pkg{xkeyval}\\ -%\cs{si@opt@disablekey}\marg{keyname}\marg{warning} -% \begin{macrocode} -\newcommand*{\si@opt@disablekey}[2]{% - \key@ifundefined[si]{opt}{#1} - {} - {\si@log@debug{Disabling key #1}% - \si@opt@key{#1}{\si@log@warn{#2}}}} -% \end{macrocode} -%\end{macro} -% -% The \pkg{xkeyval} package option for logging is declared. This is -% then processed to set the switches correctly. -% \begin{macrocode} -\si@opt@choicekey[normal]{log}{debug,verbose,normal,errors,none} -% \end{macrocode} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% A series of comparisons are made to assign the logging mode. The -% \opt{normal} option is not tested, as executing the option sets the -% switches appropriately. -% \begin{macrocode} - {\si@debugfalse - \si@logminfalse - \si@lognonefalse - \renewcommand*{\si@tempb}{none}% - \ifx\si@tempa\si@tempb - \si@lognonetrue - \fi - \renewcommand*{\si@tempb}{minimal}% - \ifx\si@tempa\si@tempb - \si@logmintrue - \fi - \renewcommand*{\si@tempb}{debug}% - \ifx\si@tempa\si@tempb - \si@debugtrue - \fi - \renewcommand*{\si@tempb}{verbose}% - \ifx\si@tempa\si@tempb - \si@debugtrue - \fi} -% \end{macrocode} -% The option has not been recognised: give a warning (if -% appropriate). -% \begin{macrocode} - {\si@log@warn{Unrecognised value `#1' for option log}} -% \end{macrocode} -%\end{macro} -%\end{macro} -% A quick method to set \opt{log=debug}. -% \begin{macrocode} -\si@opt@boolkey{debug} -% \end{macrocode} -%\begin{macro}{\si@emulate} -% The \opt{emulate} option is used for back-compatibility mode; if -% the keyword is given with no value, emulation of \SIunits is -% assumed. -% \begin{macrocode} -\newcommand*{\si@emulate}{} -\si@opt@choicekey[SIunits]{emulate} - {SIunits,sistyle,numprint,units,unitsdef} - {\si@log@debug{Found emulation request for #1 package}% - \si@addtolist{\si@emulate}{#1}} - {\si@log@warn{Unknown value `#1' for option emulate - \MessageBreak No emulation will occur}} -% \end{macrocode} -%\end{macro} -% The \opt{emulate} option is no longer valid once the package has -% been loaded. -% \begin{macrocode} -\AtEndOfPackage{% - \si@opt@disablekey{emulate} - {emulate option only available when\MessageBreak - loading package}} -% \end{macrocode} -%\begin{macro}{\si@unitsep} -%\begin{macro}{\si@unitspace} -%\begin{macro}{\si@valuesep} -% The two \opt{\dots space} options control the size of spaces -% between the number and the unit (\cs{si@valuesep}), and that used -% to represent a product (\cs{si@unitsep}). Known values here are -% \opt{thin}, \opt{med}, \opt{medium}, \opt{thick}, -% \opt{cdot}\footnote{only valid for \opt{unitsep}.} and -% \opt{none};\footnote{Only valid for \opt{valuesep.}} other entries -% will be treated as custom spaces. -% \begin{macrocode} -\si@opt@xchoicekey{unitsep}{thin,med,medium,thick,space,none,cdot, - times}{thin} -\si@opt@xchoicekey{unitspace}{space,thin,med,medium,thick,none} - {thin} -\si@opt@xchoicekey{valuesep}{space,thin,med,medium,thick,none} - {thin} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@digitsep} -% Separation of digits in large numbers is controlled by the -% \opt{digitsep} option. As with the other \opt{sep} values, this -% one has a choice of possible values. The list is quite long, so -% that a range of options are handled automatically. Notice that -% \opt{digitsep=none} will be used for no separation at all. -% \begin{macrocode} -\si@opt@xchoicekey{digitsep} - {thin,med,medium,thick,none,comma,stop,fullstop,period}{thin} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@decimalsign} -% The symbol used for the decimal position is varied here. There are -% only two real options, but options are given for the name of a full -% stop. -% \begin{macrocode} -\si@opt@xchoicekey{decimalsign}{comma,stop,fullstop,period,cdot} - {fullstop} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@anglesep} -% The separator between degrees and minutes, and between minutes and -% seconds, when using \cs{ang}. -% \begin{macrocode} -\si@opt@xchoicekey{anglesep}{thin,med,medium,thick,none}{none} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@obeymode} -% The first test for the font control is whether to respect the -% surrounding maths or text mode. -% \begin{macrocode} -\si@opt@boolkey{obeymode} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@textmode} -% The output of the package can be typeset using either text or maths -% mode fonts. This is controlled using the \opt{mode} option and the -% \cs{ifsi@textmode} switch. -% \begin{macrocode} -\newif\ifsi@textmode -\si@opt@boolkey{textmode} -\si@opt@choicekey{mode}{math,maths,text} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% \cs{si@tempb} used to for the expansion tests. The default is -% \opt{none}, as the choice key will not allow other values to get -% here. -% \begin{macrocode} - {\si@textmodefalse - \renewcommand*{\si@tempb}{text}% - \ifx\si@tempa\si@tempb - \si@textmodetrue - \fi} - {\si@log@warn{Unknown value `#1' for option mode}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@obeyfamily} -% The package can work to match the font family (serif, sans serif, -% typewriter) of the surrounding text. This is controlled by a -% Boolean option. -% \begin{macrocode} -\si@opt@boolkey{obeyfamily} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@obeybold} -% The package can attempt to respect bold, or may ignore it. -% \begin{macrocode} -\si@opt@boolkey{obeybold} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@inlinebtext} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% For inline maths, two options for checking what is bold are -% available, the maths environment (\ie \cs{boldmath}) and the -% surrounding text (\cs{textbf} or \cs{bffamily}). -% \begin{macrocode} -\newif\ifsi@inlinebtext -\si@opt@choicekey{inlinebold}{text,maths,math} - {\si@inlinebtextfalse - \renewcommand*{\si@tempb}{text}% - \ifx\si@tempa\si@tempb - \si@inlinebtexttrue - \fi} - {\si@log@warn{Unknown value `#1' for option inlinebold}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@obeyitalic} -% Italic is slightly different to bold, as there is no convenient -% switch for maths. -% \begin{macrocode} -\si@opt@boolkey{obeyitalic} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@mathsdefault} -%\begin{macro}{\si@mathsrm} -%\begin{macro}{\si@mathssf} -%\begin{macro}{\si@mathstt} -% The fonts used by the package default to the obvious \LaTeX\ ones; -% however, this needs to be exposed to user modification. First the -% maths mode fonts are sorted out. -% \begin{macrocode} -\si@opt@cmdkeys{mathsdefault,mathsrm,mathssf,mathstt} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -% To make life easier for the user, UK spellings are provided for the -% maths keys. -% \begin{macrocode} -\si@opt@key{mathdefault}{\sisetup{mathsdefault=#1}} -\si@opt@key{mathrm}{\sisetup{mathsrm=#1}} -\si@opt@key{mathsf}{\sisetup{mathssf=#1}} -\si@opt@key{mathtt}{\sisetup{mathstt=#1}} -% \end{macrocode} -%\begin{macro}{\si@textdefault} -%\begin{macro}{\si@textrm} -%\begin{macro}{\si@textsf} -%\begin{macro}{\si@texttt} -% The same thing for text mode fonts. Once again the default values -% are pretty obvious. -% \begin{macrocode} -\si@opt@cmdkeys{textdefault,textrm,textsf,texttt} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@mathnumdefault} -%\begin{macro}{\si@textnumdefault} -% To allow numbers to be set in a different font to text, additional -% options are set up. -% \begin{macrocode} -\si@opt@cmdkeys{mathnumdefault,textnumdefault} -\si@opt@key{mathsnumdefault}{\sisetup{mathnumdefault=#1}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@numlist} -%\begin{macro}{\si@numdecimal} -%\begin{macro}{\si@numexp} -%\begin{macro}{\si@numgobble} -%\begin{macro}{\si@numsign} -%\begin{macro}{\si@numextra} -% The list of possible valid characters for parsing numbers is set -% up. This is similar to \numprint, but with the \opt{extra} class, -% and with characters ignored with no output renamed as \opt{gobble}. -% \begin{macrocode} -\si@opt@cmdkeys{numlist,numdecimal,numexp,numgobble,numsign,numextra} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@numvalid} -% The various valid characters are collected together in a single -% macro for later. In common with the above macros, this one starts -% \cs{si@num\ldots}. The order here is the order the values are -% tested later on. -% \begin{macrocode} -\newcommand*{\si@numvalid}{\si@numgobble\si@numexp\si@numsign% - \si@numdecimal\si@numlist\si@numextra} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@sepfour} -% With four digits in a number, separating may or may not be desired. -% Note that this option is the same as one for \numprint. -% \begin{macrocode} -\si@opt@boolkey{sepfour} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@expproduct} -% The marker for multiplication in exponential numbers is set up. -% \begin{macrocode} -\si@opt@xchoicekey{expproduct}{times,cdot}{times} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@exppower} -% In the same area, the power for exponents is variable. Only one -% choice is given. -% \begin{macrocode} -\si@opt@xchoicekey{exppower}{ten}{ten} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@prefixproduct} -% The marker for multiplication in prefixes. -% \begin{macrocode} -\si@opt@xchoicekey{prefixproduct}{times,cdot,none}{times} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@prefixpower} -% In the same area, the power for prefixes is variable. Here, two -% choices ar needed. -% \begin{macrocode} -\si@opt@xchoicekey{prefixpower}{ten,two}{ten} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@prefixnum} -% Unit prefixes can be given as either symbols or numerically. -% \begin{macrocode} -\newif\ifsi@prefixnum -\si@opt@choicekey{prefix}{symbol,letter,power,number} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% \cs{si@tempb} used to for the expansion tests. The default is -% \opt{none}, as the choice key will not allow other values to get -% here. -% \begin{macrocode} - {\si@prefixnumfalse - \renewcommand*{\si@tempb}{power}% - \ifx\si@tempa\si@tempb - \si@prefixnumtrue - \fi - \renewcommand*{\si@tempb}{number}% - \ifx\si@tempa\si@tempb - \si@prefixnumtrue - \fi} - {\si@log@warn{Unknown value `#1' for option prefix}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@num@padlead} -%\begin{macro}{\ifsi@num@padtrail} -% A setting is needed to indicate when to add zeros to decimal -% numbers, either before the decimal marker (|.1| giving -% ``\num[padnumber=all]{.1}'') or after (|1.| giving -% ``\num[padnumber=all]{1.}''). -% \begin{macrocode} -\newif\ifsi@num@padlead -\newif\ifsi@num@padtrail -\si@opt@choicekey[all]{padnumber} - {leading,lead,trailing,trail,all,both,true,none,false} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% \cs{si@tempb} is used to for the expansion tests. The default is -% \opt{none}, as the choice key will not allow other values to get -% here. -% \begin{macrocode} - {\si@num@padleadfalse - \si@num@padtrailfalse - \renewcommand*{\si@tempb}{leading}% - \ifx\si@tempa\si@tempb - \si@num@padleadtrue - \fi - \renewcommand*{\si@tempb}{lead}% - \ifx\si@tempa\si@tempb - \si@num@padleadtrue - \fi - \renewcommand*{\si@tempb}{trailing}% - \ifx\si@tempa\si@tempb - \si@num@padtrailtrue - \fi - \renewcommand*{\si@tempb}{trail}% - \ifx\si@tempa\si@tempb - \si@num@padtrailtrue - \fi - \renewcommand*{\si@tempb}{all}% - \ifx\si@tempa\si@tempb - \si@num@padleadtrue - \si@num@padtrailtrue - \fi - \renewcommand*{\si@tempb}{true}% - \ifx\si@tempa\si@tempb - \si@num@padleadtrue - \si@num@padtrailtrue - \fi - \renewcommand*{\si@tempb}{both}% - \ifx\si@tempa\si@tempb - \si@num@padleadtrue - \si@num@padtrailtrue - \fi} - {\si@log@warn{Unknown value `#1' for option padnumber}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@sign} -%\begin{macro}{\ifsi@num@signmant} -%\begin{macro}{\ifsi@num@signexp} -% Some new switches for adding signs to numbers -% \begin{macrocode} -\newif\ifsi@num@signmant -\newif\ifsi@num@signexp -% \end{macrocode} -%\end{macro} -%\end{macro} -% Signs can be added to numbers by default. Two options are needed -% here; whether to add a sign by default, and what the sign is. -% \begin{macrocode} -\si@opt@xchoicekey{sign}{plus,minus,pm,mp}{plus} -\si@opt@choicekey[all]{addsign} - {mantissa,exponent,mant,exp,all,both,true,none,false} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% The option is now processed. -% \begin{macrocode} - {\si@num@signmantfalse - \si@num@signexpfalse - \renewcommand*{\si@tempb}{mantissa}% - \ifx\si@tempa\si@tempb - \si@num@signmanttrue - \fi - \renewcommand*{\si@tempb}{mant}% - \ifx\si@tempa\si@tempb - \si@num@signmanttrue - \fi - \renewcommand*{\si@tempb}{exponent}% - \ifx\si@tempa\si@tempb - \si@num@signexptrue - \fi - \renewcommand*{\si@tempb}{exp}% - \ifx\si@tempa\si@tempb - \si@num@signexptrue - \fi - \renewcommand*{\si@tempb}{all}% - \ifx\si@tempa\si@tempb - \si@num@signmanttrue - \si@num@signexptrue - \fi - \renewcommand*{\si@tempb}{true}% - \ifx\si@tempa\si@tempb - \si@num@signmanttrue - \si@num@signexptrue - \fi - \renewcommand*{\si@tempb}{both}% - \ifx\si@tempa\si@tempb - \si@num@signmanttrue - \si@num@signexptrue - \fi} - {\si@log@warn{Unknown value `#1' for option addsign}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@ang@padsmall} -%\begin{macro}{\ifsi@ang@padlarge} -% A switch for determining whether to typeset |\ang{;;1}| as -% \ang[padangle=both]{;;1} or \ang[padangle=none]{;;1}. First, two -% new Boolean switches are needed to indicate padding. -% \begin{macrocode} -\newif\ifsi@ang@padsmall -\newif\ifsi@ang@padlarge -\si@opt@choicekey[all]{padangle} - {small,large,all,both,true,none,false} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% \cs{si@tempb} is used to for the expansion tests. The default is -% \opt{none}, as the choice key will not allow other values to get -% here. -% \begin{macrocode} - {\si@ang@padsmallfalse - \si@ang@padlargefalse - \renewcommand*{\si@tempb}{small}% - \ifx\si@tempa\si@tempb - \si@ang@padsmalltrue - \fi - \renewcommand*{\si@tempb}{large}% - \ifx\si@tempa\si@tempb - \si@ang@padlargetrue - \fi - \renewcommand*{\si@tempb}{all}% - \ifx\si@tempa\si@tempb - \si@ang@padsmalltrue - \si@ang@padlargetrue - \fi - \renewcommand*{\si@tempb}{true}% - \ifx\si@tempa\si@tempb - \si@ang@padsmalltrue - \si@ang@padlargetrue - \fi - \renewcommand*{\si@tempb}{both}% - \ifx\si@tempa\si@tempb - \si@ang@padsmalltrue - \si@ang@padlargetrue - \fi} - {\si@log@warn{Unknown value `#1' for option padangle}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@astroang} -% A slightly odd option to allow the method used by astronomers for -% angles. -% \begin{macrocode} -\si@opt@boolkey{astroang} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tabformat} -% The formatting of numbers in tables is handled by a -% \pkg{dcolumn}-like system. For that, a single option is needed to -% control the centring of data in the table. -% \begin{macrocode} -\si@opt@cmdkey[-1]{tabformat}{} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@xspace} -% Unit macros on their own may need \pkg{xpsace}. -% \begin{macrocode} -\si@opt@boolkey{xspace} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@frac} -%\begin{macro}{\ifsi@slash} -% The option processing for formatting units with \cs{per} in them -% needs two switches. -% \begin{macrocode} -\newif\ifsi@slash -\newif\ifsi@frac -\si@opt@choicekey[reciprocal]{per} - {reciprocal,rp,power,slash,frac,fraction} -% \end{macrocode} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% The usual value testing, with a default to use reciprocal powers. -% \begin{macrocode} - {\si@slashfalse - \si@fracfalse - \renewcommand*{\si@tempb}{slash}% - \ifx\si@tempa\si@tempb - \si@fractrue - \si@slashtrue - \let\si@frac\si@frc@slash - \fi - \renewcommand*{\si@tempb}{frac}% - \ifx\si@tempa\si@tempb - \si@fractrue - \fi - \renewcommand*{\si@tempb}{fraction}% - \ifx\si@tempa\si@tempb - \si@fractrue - \fi} - {\si@log@warn{Unknown value `#1' for option per}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@slash} -% For the \opt{slash} option, the separator can be customised. -% \begin{macrocode} -\si@opt@xchoicekey{slash}{slash}{slash} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@denrbrac} -%\begin{macro}{\si@denlbrac} -% Macros for the right and left brackets added to -% potentially-ambiguous denominators. -% \begin{macrocode} -\si@opt@cmdkeys{denrbrac,denlbrac} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% In the case of fractional handling of the \cs{per} operator, -% further refinement is available. -% \begin{macrocode} -\si@opt@choicekey[frac]{fraction} - {frac,nicefrac,nice,sfrac,xfrac,uglyfrac,ugly} - {\let\si@frac\si@frc@frac - \renewcommand*{\si@tempb}{nicefrac}% - \ifx\si@tempa\si@tempb - \let\si@frac\si@frc@nice - \fi - \renewcommand*{\si@tempb}{uglyfrac}% - \ifx\si@tempa\si@tempb - \let\si@frac\si@frc@ugly - \fi - \renewcommand*{\si@tempb}{nice}% - \ifx\si@tempa\si@tempb - \let\si@frac\si@frc@nice - \fi - \renewcommand*{\si@tempb}{sfrac}% - \ifx\si@tempa\si@tempb - \let\si@frac\si@frc@sfrac - \fi - \renewcommand*{\si@tempb}{xfrac}% - \ifx\si@tempa\si@tempb - \let\si@frac\si@frc@sfrac - \fi - \renewcommand*{\si@tempb}{ugly}% - \ifx\si@tempa\si@tempb - \let\si@frac\si@frc@ugly - \fi} - {\si@log@warn{Unknown value `#1' for option fraction}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@load} -%\begin{macro}{\si@noload} -% Loading of support files is controlled by two keys. The first -% defines a list of files that may be loaded, the second a list that -% will not. This makes it easy to exclude a single file from a long -% list. -% \begin{macrocode} -\si@opt@cmdkeys{load,noload} -\si@opt@key{alsoload}{\si@addtolist{\si@load}{#1}} -\AtEndOfPackage{% - \si@opt@disablekey{load} - {Configuration files can only be used\MessageBreak - when loading si} - \si@opt@disablekey{also} - {Configuration files can only be used\MessageBreak - when loading si} - \si@opt@disablekey{noload} - {Configuration files can only be used\MessageBreak - when loading si}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@textOmega} -%\begin{macro}{\si@mathsOmega} -% The various non-Latin symbols need to be handled, and given user interfaces. -% Some definitions are more complex than others; for \unitsym{\ohm} -% things are easy. -% \begin{macrocode} -\si@opt@cmdkeys{textOmega,mathsOmega} -\si@opt@key{mathOmega}{\sisetup{mathsOmega=#1}} -\newcommand*{\si@mathsOmega}{\text{\ensuremath{\Omega}}} -\newcommand*{\si@textOmega}{\ensuremath{\Omega}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@textmu} -%\begin{macro}{\si@mathsmu} -% For the \unitsym{\micro} symbol, some direct loading of symbols is -% needed as the maths mu sign ($\mu$) is wrong. -% \begin{macrocode} -\si@opt@cmdkeys{textmu,mathsmu} -\si@opt@key{mathmu}{\sisetup{mathsmu=#1}} -\DeclareFontEncoding{TS1}{}{} -\DeclareFontSubstitution{TS1}{cmr}{m}{n} -\DeclareTextSymbol{\si@textmu}{TS1}{181} -\DeclareTextSymbolDefault{\si@textmu}{TS1} -\DeclareFontFamily{OML}{eur}{\skewchar\font127} -\DeclareFontShape{OML}{eur}{m}{n}% - {<5> <6> <7> <8> <9> gen * eurm % - <10><10.95><12><14.4><17.28><20.74><24.88>eurm10}{} -\DeclareSymbolFont{greek}{OML}{eur}{m}{n} -\DeclareMathSymbol{\si@mathsmu}{\mathord}{greek}{"16} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@textdegree} -%\begin{macro}{\si@mathsdegree} -%\begin{macro}{\si@textminute} -%\begin{macro}{\si@mathsminute} -%\begin{macro}{\si@textsecond} -%\begin{macro}{\si@mathssecond} -% The angle signs. -% \begin{macrocode} -\si@opt@cmdkeys{textdegree,mathsdegree,textminute,mathsminute, - textsecond,mathssecond} -\si@opt@key{mathdegree}{\sisetup{mathsdegree=#1}} -\si@opt@key{mathminute}{\sisetup{mathsminute=#1}} -\si@opt@key{mathsecond}{\sisetup{mathssecond=#1}} -\newcommand*{\si@textdegree}{\ensuremath{{}^{\circ}}} -\newcommand*{\si@mathsdegree}{{}^{\circ}} -\newcommand*{\si@textminute}{\ensuremath{{}^{\prime}}} -\newcommand*{\si@mathsminute}{{}^{\prime}} -\newcommand*{\si@textsecond}{\ensuremath{{}^{\prime\prime}}} -\newcommand*{\si@mathssecond}{{}^{\prime\prime}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@textcelsius} -%\begin{macro}{\si@mathscelsius} -% Finally, degrees Celsius, which may need the degree symbol. -% \begin{macrocode} -\si@opt@cmdkeys{textcelsius,mathscelsius} -\si@opt@key{mathcelsius}{\sisetup{mathscelsius=#1}} -\newcommand*{\si@textcelsius}{\si@textdegree C} -\newcommand*{\si@mathscelsius}{\si@mathsdegree\mathrm{C}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@textringA} -%\begin{macro}{\si@mathsringA} -% The \unitsym{\angstrom} sign. -% \begin{macrocode} -\si@opt@cmdkeys{textringA,mathsringA} -\si@opt@key{mathringA}{\sisetup{mathsringA=#1}} -\newcommand*{\si@textringA}{\AA} -\newcommand*{\si@mathsringA}{\text{\AA}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@redefsymbols} -% A flag for using \pkg{textcomp} and \pkg{upgreek} to provide better -% symbols. -% \begin{macrocode} -\si@opt@boolkey{redefsymbols} -\AtBeginDocument{% - \si@opt@disablekey{redefsymbols} - {Symbols can only be redefined\MessageBreak - when loading si}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@eVcorra} -%\begin{macro}{\si@eVcorrb} -% \begin{macrocode} -\newlength\si@eVcorra -\newlength\si@eVcorrb -\si@opt@key{eVcorra}{\setlength\si@eVcorra{#1}} -\si@opt@key{eVcorrb}{\setlength\si@eVcorrb{#1}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@locale} -%\begin{macro}{\si@loadlocales} -%\begin{macro}{\si@loctolang} -% Handling typographic conventions needs three keys. \opt{locale} is -% used to set the locale, whereas \cs{loadlocales} reads in the -% definitions at package load time. -% \begin{macrocode} -\si@opt@cmdkeys{loadlocales,loctolang} -\si@opt@cmdkey{locale}{% - \sisetup{loadlocales={#1}}% - \AtEndOfPackage{\si@loc@set{#1}}} -\AtBeginDocument{% - \si@opt@disablekey{loadlocales} - {Locale files can only be loaded\MessageBreak - in the preamble} - \si@opt@disablekey{loctolang} - {Locale files can only be loaded\MessageBreak - in the preamble} - \si@opt@cmdkey{locale}{\si@loc@set{#1}}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -% -%\subsection{Compatibility options} -%\begin{macro}{\ifsi@old@ugly} -%\begin{macro}{\ifsi@old@nice} -%\begin{macro}{\ifsi@old@loose} -%\begin{macro}{\ifsi@old@tight} -% With the options for the package set up, the next stage is to -% provide support for users of the older packages. These all set up -% switches, but do not do anything. That is left to the emulation -% files, loaded at the end of the package. First of all, the -% \unitspkg options are dealt with; there are not many. -% \begin{macrocode} -\si@opt@compatkey{units}{ugly} -\si@opt@compatkey{units}{nice} -\si@opt@compatkey{units}{loose} -\si@opt@compatkey{units}{tight} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@old@OHM} -%\begin{macro}{\ifsi@old@ohm} -%\begin{macro}{\ifsi@old@redef-gensymb} -%\begin{macro}{\ifsi@gensymb} -% The \unitsdef package is unfortunately much more profligate with -% options. The first set are to do with support for \pkg{gensymb}. -% \begin{macrocode} -\si@opt@compatkey{unitsdef}{OHM} -\si@opt@compatkey{unitsdef}{ohm} -\si@opt@compatkey{unitsdef}{redef-gensymb} -\newif\ifsi@gensymb -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@old@LITER} -%\begin{macro}{\ifsi@old@liter} -%\begin{macro}{\ifsi@old@noxspace} -%\begin{macro}{\ifsi@old@noconfig} -% The second set are more general functionality. -% \begin{macrocode} -\si@opt@compatkey{unitsdef}{LITER} -\si@opt@compatkey{unitsdef}{liter} -\si@opt@compatkey{unitsdef}{noxspace} -\si@opt@compatkey{unitsdef}{noconfig} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@old@noabbr} -%\begin{macro}{\ifsi@old@noamperageabbr} -%\begin{macro}{\ifsi@old@nofrequncyabbr} -%\begin{macro}{\ifsi@old@nomolabbr} -%\begin{macro}{\ifsi@old@novoltageabbr} -%\begin{macro}{\ifsi@old@novolumeabbr} -%\begin{macro}{\ifsi@old@noweightabbr} -%\begin{macro}{\ifsi@old@noenergyabbr} -%\begin{macro}{\ifsi@old@nolengthabbr} -%\begin{macro}{\ifsi@old@notimeabbr} -% The final set are for control of abbreviations, and are a good -% demonstration of why to use \pkg{xkeyval}! -% \begin{macrocode} -\si@opt@compatkey{unitsdef}{noabbr} -\si@opt@compatkey{unitsdef}{noampereageabbr} -\si@opt@compatkey{unitsdef}{nofrequncyabbr} -\si@opt@compatkey{unitsdef}{nomolabbr} -\si@opt@compatkey{unitsdef}{novoltageabbr} -\si@opt@compatkey{unitsdef}{novolumeabbr} -\si@opt@compatkey{unitsdef}{noweightabbr} -\si@opt@compatkey{unitsdef}{noenergyabbr} -\si@opt@compatkey{unitsdef}{nolengthabbr} -\si@opt@compatkey{unitsdef}{notimeabbr} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@old@cdot} -%\begin{macro}{\ifsi@old@thickspace} -%\begin{macro}{\ifsi@old@mediumspace} -%\begin{macro}{\ifsi@old@thinspace} -%\begin{macro}{\ifsi@old@thickqspace} -%\begin{macro}{\ifsi@old@mediumqspace} -%\begin{macro}{\ifsi@old@thinqspace} -% The \SIunits package has lots of options. These ones are all -% related to spacing. -% \begin{macrocode} -\si@opt@compatkey{SIunits}{cdot} -\si@opt@compatkey{SIunits}{thickspace} -\si@opt@compatkey{SIunits}{mediumspace} -\si@opt@compatkey{SIunits}{thinspace} -\si@opt@compatkey{SIunits}{thickqspace} -\si@opt@compatkey{SIunits}{mediumqspace} -\si@opt@compatkey{SIunits}{thinqspace} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@old@amssymb} -%\begin{macro}{\ifsi@old@squaren} -%\begin{macro}{\ifsi@old@pstricks} -%\begin{macro}{\ifsi@old@Gray} -%\begin{macro}{\ifsi@old@italian} -% These options are used by \SIunits to control clashes with other -% packages. -% \begin{macrocode} -\si@opt@compatkey{SIunits}{amssymb} -\si@opt@compatkey{SIunits}{squaren} -\si@opt@compatkey{SIunits}{pstricks} -\si@opt@compatkey{SIunits}{Gray} -\si@opt@compatkey{SIunits}{italian} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@old@textstyle} -%\begin{macro}{\ifsi@old@binary} -%\begin{macro}{\ifsi@old@noams} -%\begin{macro}{\ifsi@old@derivedinbase} -%\begin{macro}{\ifsi@old@derived} -% The miscellaneous options. -% \begin{macrocode} -\si@opt@compatkey{SIunits}{textstyle} -\si@opt@compatkey{SIunits}{binary} -\si@opt@compatkey{SIunits}{noams} -\si@opt@compatkey{SIunits}{derivedinbase} -\si@opt@compatkey{SIunits}{derived} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -% -%\subsection{Constants} -% A number of macros are needed by the package that provide a -% non-changing output. These are defined here; the intention is that -% these should not be macros that the user is likely to need to -% alter. All of these macros have preface \cs{si@fix@}, to flag that -% that are intended as constants. The package may rely on the -% contents of these macros for functionality. -% -%\begin{macro}{\si@fix@thin} -%\begin{macro}{\si@fix@med} -%\begin{macro}{\si@fix@medium} -%\begin{macro}{\si@fix@thick} -%\begin{macro}{\si@fix@space} -% First, there are the various space macros. To allow both \opt{med} -% and \opt{medium} to be used as a space description, two macros are -% needed for the same output. -% \begin{macrocode} -\newcommand*{\si@fix@thin}{\,} -\newcommand*{\si@fix@med}{\:} -\newcommand*{\si@fix@medium}{\:} -\newcommand*{\si@fix@thick}{\;} -\newcommand*{\si@fix@space}{\text{~}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@fix@cdot} -%\begin{macro}{\si@fix@comma} -%\begin{macro}{\si@fix@stop} -%\begin{macro}{\si@fix@fullstop} -%\begin{macro}{\si@fix@period} -%\begin{macro}{\si@fix@times} -% Next there are macros for material that is not simply whitespace. -% To allow several options, the full-stop gets lots of names. -% \begin{macrocode} -\newcommand*{\si@fix@cdot}{\cdot} -\newcommand*{\si@fix@comma}{{,}} -\newcommand*{\si@fix@stop}{{.}} -\newcommand*{\si@fix@fullstop}{{.}} -\newcommand*{\si@fix@period}{{.}} -\newcommand*{\si@fix@times}{\times} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@fix@plus} -%\begin{macro}{\si@fix@minus} -%\begin{macro}{\si@fix@pm} -%\begin{macro}{\si@fix@mp} -% Signs for numbers are needed. -% \begin{macrocode} -\newcommand*{\si@fix@plus}{+} -\newcommand*{\si@fix@minus}{-} -\newcommand*{\si@fix@pm}{\pm} -\newcommand*{\si@fix@mp}{\mp} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@fix@two} -%\begin{macro}{\si@fix@ten} -% The literals ``2'' and ``10'' are needed for exponents. -% \begin{macrocode} -\newcommand*{\si@fix@two}{2} -\newcommand*{\si@fix@ten}{10} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@fix@slash} -% Another optional component that will probably not be used by many -% people. -% \begin{macrocode} -\newcommand*{\si@fix@slash}{/} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@fix@none} -% Finally for spacing, there is the possibility of nothing at all -% \begin{macrocode} -\newcommand*{\si@fix@none}{} -% \end{macrocode} -%\end{macro} -% -%\subsection{Symbols} -%\begin{macro}{\si@symbol} -% Each of the symbol macros needs to be set up; the options give a -% maths and text mode sign, but internally a single macro is needed -% for each. -% \begin{macrocode} -\newcommand*{\si@symbol}[1]{% - \expandafter\DeclareRobustCommand\expandafter*\expandafter{% - \csname si@sym@#1\endcsname}{% - \ifmmode - \expandafter\csname si@maths#1\expandafter\endcsname% - \else - \expandafter\csname si@text#1\expandafter\endcsname% - \fi}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@sym@Omega} -%\begin{macro}{\si@sym@ringA} -%\begin{macro}{\si@sym@mu} -%\begin{macro}{\si@sym@degree} -%\begin{macro}{\si@sym@minute} -%\begin{macro}{\si@sym@second} -%\begin{macro}{\si@sym@celsius} -% The various symbols are now declared. -% \begin{macrocode} -\si@symbol{Omega} -\si@symbol{ringA} -\si@symbol{mu} -\si@symbol{degree} -\si@symbol{minute} -\si@symbol{second} -\si@symbol{celsius} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{si@tempa} -% The issue of redefinition of symbols now arises. \currpkg can -% check for the loading of a number of support package, and can then -% redefine the appropriate symbols. -% \begin{macrocode} -\AtBeginDocument{% - \ifsi@redefsymbols - \@ifpackageloaded{textcomp} - {\si@log@debug{Redefining symbols using textcomp}% - \renewcommand*{\si@textdegree}{\textdegree}% - \renewcommand*{\si@mathsdegree}{\text{\textdegree}}% -% \end{macrocode} -% \pkg{mathptmx} will give issues with \pkg{textcomp} and the -% \unitsym{\ohm} sign. -% \begin{macrocode} - \@ifpackageloaded{mathptmx}{} - {\renewcommand*{\si@textmu}{\textmu}% - \renewcommand*{\si@textOmega}{\textohm}}% -% \end{macrocode} -% The \unitsym{\angstrom} symbol is only redefined if the encoding is -% OT1; other encodings should have a proper glyph used for \cs{AA}. -% The \cs{encodingdefault} macro is \cs{long} for some reason. -% \begin{macrocode} - \long\def\si@tempa{OT1}% - \ifx\si@tempa\encodingdefault - \renewcommand*{\si@mathsringA}{\text{\capitalring{A}}}% - \renewcommand*{\si@textringA}{\capitalring{A}} - \fi}{} - \@ifpackageloaded{upgreek} - {\si@log@debug{Redefining symbols using upgreek}% - \renewcommand*{\si@mathsmu}{\upmu}% - \renewcommand*{\si@mathsOmega}{\Upomega}}{} - \fi} -% \end{macrocode} -%\end{macro} -% -%\subsection{Handling fractions} -%\begin{macro}{\si@frac} -%\begin{macro}{\si@frc@frac} -%\begin{macro}{\si@frc@slash} -%\begin{macro}{\si@frc@nice} -%\begin{macro}{\si@frc@sfrac} -% Various methods of handling fractions are provided. -% \begin{macrocode} -\newcommand*{\si@frc@frac}[2]{% - \ensuremath{\frac{\expandafter\si@unt@out\expandafter{#1}}% - {\expandafter\si@unt@out\expandafter{#2}}}} -\let\si@frac\si@frc@frac -\newcommand*{\si@frc@slash}[2]{% - \expandafter\si@unt@out\expandafter{#1}% - \si@out@text{\ensuremath{\si@slash}}% - \expandafter\si@unt@out\expandafter{#2}} -\newcommand*{\si@frc@nice}[2]{% - \ensuremath{\si@frc@nicefrac{\expandafter\si@unt@out% - \expandafter{#1}}{\expandafter\si@unt@out\expandafter{#2}}}} -\newcommand*{\si@frc@sfrac}[2]{% - \sfrac{\expandafter\si@unt@out\expandafter{#1}}% - {\expandafter\si@unt@out\expandafter{#2}}} -\AtBeginDocument{% - \@ifpackageloaded{xfrac} - {} - {\si@log@inf{xfrac package unavailable\MessageBreak - using `fraction=sfrac' will fall back on\MessageBreak - nicefrac-like method}% - \renewcommand*{\si@frc@sfrac}[2]{% - \si@log@warn{xfrac package unavailable}% - \si@frc@nice{#1}{#2}}}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@frc@nicefrac} -%\begin{macro}{\si@frc@displen} -%\begin{macro}{\si@frc@textlen} -%\begin{macro}{\si@frc@suplen} -%\begin{macro}{\si@frc@ssuplen} -% To avoid needing \unitspkg installed, the \cs{nicefrac} macro needs -% to be emulated here. The code is taken (with permission) from -% \kg{nicefrac}.\footnote{The original is licensed under the GPL; -% thanks to the author Axel Reichert for permission to copy the code -% here.} -% \begin{macrocode} -\newlength\si@frc@displen -\newlength\si@frc@textlen -\newlength\si@frc@suplen -\newlength\si@frc@ssuplen -\newcommand*{\si@frc@nicefrac}{% - \ifmmode - \expandafter\si@frc@mathsnf% - \else - \expandafter\si@frc@textnf% - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@frc@mathsnf} -% The maths mode system.\\ -%\cs{si@frc@mathsnf}\marg{numerator}\marg{denominator} -% \begin{macrocode} -\newcommand*{\si@frc@mathsnf}[2]{% - \begingroup - \settoheight{\si@frc@displen}{\ensuremath{\displaystyle{M}}}% - \settoheight{\si@frc@textlen}{\ensuremath{\textstyle{M}}}% - \settoheight{\si@frc@suplen}{\ensuremath{\scriptstyle{M}}}% - \settoheight{\si@frc@ssuplen}{\ensuremath{\scriptscriptstyle{M}}}% - \addtolength{\si@frc@displen}{-\si@frc@ssuplen}% - \addtolength{\si@frc@textlen}{-\si@frc@ssuplen}% - \addtolength{\si@frc@suplen}{-\si@frc@ssuplen}% - \mathchoice - {\raisebox{\si@frc@displen}{\ensuremath{\scriptstyle{#1}}}}% - {\raisebox{\si@frc@textlen}{\ensuremath{\scriptstyle{#1}}}}% - {\raisebox{\si@frc@suplen}% - {\ensuremath{\scriptscriptstyle{#1}}}}% - {\raisebox{\si@frc@ssuplen}% - {\ensuremath{\scriptscriptstyle{#1}}}}% - \mkern-2mu/\mkern-1mu% - \bgroup - \mathchoice - {\scriptstyle}% - {\scriptstyle}% - {\scriptscriptstyle}% - {\scriptscriptstyle}% - {#2}% - \egroup - \endgroup} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@frc@textnf} -% A stripped down version of the \pkg{nicefrac} system for text mode.\\ -%\cs{si@frc@textnf}\marg{numerator}\marg{denominator} -% \begin{macrocode} -\newcommand*{\si@frc@textnf}[2]{% - \begingroup - \settoheight{\si@frc@textlen}{M}% - \settoheight{\si@frc@ssuplen}{\fontsize\sf@size\z@% - \selectfont{M}}% - \addtolength{\si@frc@textlen}{-\si@frc@ssuplen}% - \raisebox{\si@frc@textlen}{\fontsize\sf@size\z@% - \selectfont{#1}}% - \hspace{-0.25ex}/\hspace{-0.25ex}% - \hbox{\fontsize\sf@size\z@\selectfont{#2}}% - \endgroup} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@frc@ugly} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% The \cs{si@frc@ugly} macro is needed to emulate the \opt{ugly} -% option in \unitspkg, where output depends on the current mode.\\ -%\cs{si@frc@ugly}\marg{numerator} -% \begin{macrocode} -\newcommand*{\si@frc@ugly}[1]{% - \def\si@tempa{#1}% - \ifmmode - \expandafter\si@frc@frac% - \else - \def\si@tempb{1}% - \ifx\si@tempa\si@tempb -% \end{macrocode} -% The slash switch cannot be used, so the possibility of the -% numerator being one is handled here. -% \begin{macrocode} - \setbox\si@tempbox=\hbox{\ensuremath{\si@valuesep}}% - \hskip-\wd\si@tempbox% - \def\si@tempa{}% - \fi - \expandafter\si@frc@slash% - \fi - {\si@tempa}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -% -%\subsection{Font control} -% A number of controls and tests are needed to control the font used -% for output. Underlying all of this is the \AMS\ package -% \pkg{amstext} package, providing the \cs{text} command. Much of -% the font control system here is taken more or less verbatim from -% \sistyle; modifications have been made to fit the \currpkg -% interface. -% -%\begin{macro}{\si@fam@getmfam} -%\begin{macro}{\si@fam@sf} -%\begin{macro}{\si@fam@tt} -% The font families in use in the document are needed. -% \begin{macrocode} -\newcommand*{\si@fam@getmfam}{% - \sbox{0}{$% - \@ifundefined{mathsf} - {\si@log@debug{No mathsf family found}% - \global\chardef\si@fam@sf=99}% - {\mathsf{\global\chardef\si@fam@sf=\fam}}% - \@ifundefined{mathtt} - {\si@log@debug{No mathtt family found}% - \global\chardef\si@fam@tt=99}% - {\mathtt{\global\chardef\si@fam@tt=\fam}}% - $}} -\AtBeginDocument{\si@fam@getmfam} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@fam@ifbtext} -%\begin{macro}{\si@fam@ifbmaths} -%\begin{macro}{\si@tempa} -% These tests check for bold in text and maths mode, respectively.\\ -%\cs{si@fam@ifbtext}\marg{code}\\ -%\cs{si@fam@ifbmaths}\marg{code}\\ -% \begin{macrocode} -\newcommand*{\si@fam@ifbtext}[1]{% - \if b\expandafter\@car\f@series\@nil - #1\fi} -\newcommand{\si@fam@ifbmaths}[1]{% - \def\si@tempa{bold}% - \ifx\math@version\si@tempa - #1\fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@fam@ifbinline} -% For compatibility with \unitspkg, a method to change the behaviour -% when in inline maths is needed for the bold detector. -% \begin{macrocode} -\newcommand*{\si@fam@ifbinline}{% - \ifsi@inlinebtext - \expandafter\si@fam@ifbtext% - \else - \expandafter\si@fam@ifbmaths% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@fam@ifitext} -%\begin{macro}{\si@tempa} -% This test check for italic or slanted text in text mode, by -% negation (upright text is |n|).\\ -%\cs{si@fam@ifitext}\marg{code}\\ -% \begin{macrocode} -\newcommand*{\si@fam@ifitext}[1]{% - \if n\expandafter\@car\f@series\@nil\else - #1\fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@fam@mode} -% Detection of the current mode needs to happen``early'' (before any -% change of \cs{ensuremath}). So a short macro is provided to do the -% job. -% \begin{macrocode} -\newcommand*{\si@fam@mode}{% - \ifsi@obeymode - \ifmmode - \sisetup{mode=maths}% - \else - \sisetup{mode=text}% - \fi - \fi} -% \end{macrocode} -%\end{macro} -% -%\begin{macro}{\ifsi@fam@set} -% A marker is set up to check if font-matching has been taken place. -% \begin{macrocode} -\newif\ifsi@fam@set -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@fam@set} -% Using the code from \sistyle as a base, a set of tests are used to -% set the current font families and weights. -% \begin{macrocode} -\newcommand*{\si@fam@set}{% - \si@fam@settrue -% \end{macrocode} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% The temporary macros are needed for the \cs{ifx} tests. -% \begin{macrocode} - \edef\si@tempa{\sfdefault}% - \edef\si@tempb{\ttdefault}% -% \end{macrocode} -%\end{macro} -%\end{macro} -% The surrounding font family is only tested if matching is -% requested. -% \begin{macrocode} - \ifsi@obeyfamily - \si@log@debug{Font detection: checking font}% -% \end{macrocode} -%\begin{macro}{\si@fam@maths} -%\begin{macro}{\si@fam@text} -% Next, checks are needed for maths \latin{versus} text mode, and if -% in maths mode, whether this is inline or display. Once that is -% done, font families can be tested. -% \begin{macrocode} - \ifmmode - \ifdim\displaywidth>0pt\relax - \si@log@debug{Font detection: display maths}% - \ifnum\the\fam=\si@fam@sf - \si@log@debug{Font detection: sf}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathssf\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textsf\endcsname - \else - \ifnum\the\fam=\si@fam@tt - \si@log@debug{Font detection: tt}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathstt\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@texttt\endcsname - \else - \si@log@debug{Font detection: rm}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathsdefault\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textdefault\endcsname - \fi - \fi -% \end{macrocode} -% Inline maths is now handled. -% \begin{macrocode} - \else - \si@log@debug{Font detection: inline maths}% - \ifx\f@family\si@tempa - \si@log@debug{Font detection: sf}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathssf\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textsf\endcsname - \else - \ifx\f@family\si@tempb - \si@log@debug{Font detection: tt}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathstt\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@texttt\endcsname - \else - \si@log@debug{Font detection: rm}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathsdefault\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textdefault\endcsname - \fi - \fi - \fi -% \end{macrocode} -% Not in maths mode, so the text mode checks are carried out. -% \begin{macrocode} - \else - \si@log@debug{Font detection: text}% - \ifx\f@family\si@tempa - \si@log@debug{Font detection: sf}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathssf\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textsf\endcsname - \else - \ifx\f@family\si@tempb - \si@log@debug{Font detection: tt}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathstt\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@texttt\endcsname - \else - \si@log@debug{Font detection: rm}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathsdefault\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textdefault\endcsname - \fi - \fi - \fi -% \end{macrocode} -% If the local font is not to be matched, setting the fonts is -% rather less complex. -% \begin{macrocode} - \else - \si@log@debug{Font detection: inactive}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathsdefault\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textdefault\endcsname - \fi -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@fam@bold} -%\begin{macro}{\si@fam@setbold} -% With the font family set, the next check is for bold text. This -% again needs to examine the current mode. Things are a bit more -% complex than in \sistyle as it is possible to be typesetting in -% either text or maths mode. The bold commands are set up with -% \cs{def}, as nested calls can occur. -% \begin{macrocode} - \def\si@fam@bold{\unboldmath\mdseries}% - \def\si@fam@setbold{\boldmath\bfseries}% - \ifsi@obeybold - \si@log@debug{Weight detection: checking weight}% - \ifmmode -% \end{macrocode} -%\end{macro} -% Display maths. -% \begin{macrocode} - \ifdim\displaywidth>0pt\relax - \si@fam@ifbmaths - {\let\si@fam@bold\si@fam@setbold - \si@log@debug{Weight detection: bold weight}}% -% \end{macrocode} -% Inline maths. -% \begin{macrocode} - \else - \si@fam@ifbinline - {\let\si@fam@bold\si@fam@setbold - \si@log@debug{Weight detection: bold weight}}% - \fi -% \end{macrocode} -% Text mode. -% \begin{macrocode} - \else - \si@fam@ifbtext% - {\let\si@fam@bold\si@fam@setbold - \si@log@debug{Weight detection: bold weight}}% - \fi - \fi -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@fam@italic} -% The value of \opt{obeyitalic} is now tested; as this does nothing -% in maths mode, a reminder is added to the log. -% \begin{macrocode} - \let\si@fam@italic\upshape - \ifsi@obeyitalic - \si@log@debug{Italic detection: checking italic}% - \si@fam@ifitext - {\let\si@fam@italic\relax - \si@log@debug{Italic detection: italic}}% - \ifsi@textmode\else - \si@log@inf{maths mode - obeyitalic inactive}% - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -% -%\subsection{Formatting numbers} -%\begin{macro}{\num} -% The system used here is modelled on that in \numprint; the -% input is broken down into single tokens, each one is examined and -% the result is re-assembled into an output number. However, various -% changes have been made to the system used, and so the macros here -% are not simply renamed copies of those in \numprint. The user -% macro \cs{num} sets any local keys, then calls the number -% formatting macro on the processed number.\\ -%\cs{num}\oarg{options}\marg{num} -% \begin{macrocode} -\DeclareRobustCommand*{\num}[2][]{% - \begingroup% - \sisetup{#1}% - \si@fam@mode% - \si@log@debug{Processing \string\num\space input `#2'}% - \expandafter\si@out@num\expandafter{\si@num{#2}}% - \endgroup} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num} -% This is the main processing macro. Unlike the related macro in -% \numprint, the output of this macro is not subjected to any font -% changes. That is left to one of the \cs{si@out@\ldots} macros. No -% grouping is applied here; any call to \cs{si@num} (or any of the -% sub-macros) must be within a group as the definitions used rely on -% this. Grouping is not applied here so that other macros can get -% the various separated parts of the input.\\ -%\cs{si@num}\marg{num} -% \begin{macrocode} -\newcommand*{\si@num}[1]{% -% \end{macrocode} -%\begin{macro}{\si@tempa} -% The argument of the macro is fully expanded before any processing. -% By using \cs{scantokens}, any odd problems from packages with -% active characters can be avoided. A bit of trickery is needed to -% avoid getting an extraneous space introduced here by -% \cs{scantokens}, hence the use of \cs{@empty}. -% \begin{macrocode} - \begingroup - \makeatletter% - \@makeother{\,}% - \@makeother{\.}% - \@makeother{\+}% - \@makeother{\-}% - \def~{}% - \def\,{}% - \catcode`\~=\active\relax - \catcode`\^=\active\relax - \scantokens{\si@num@xdef\si@tempa{#1}\@empty}% - \endgroup -% \end{macrocode} -% Processing only takes place if there is actually something in the -% argument. This is tested once ``hard'' spaces have been stripped -% out. If there is no argument, nothing happens; everything else in -% the \cs{si@num} macro occurs only if the argument is filled. -% \begin{macrocode} - \si@ifnotmtarg{\si@tempa}{% -% \end{macrocode} -% The input is now validated. Further processing takes place a little -% later. -% \begin{macrocode} - \expandafter\si@num@valid\si@tempa\@empty\@empty% -% \end{macrocode} -%\end{macro} -% If the input is valid, the input is passed to the number formatter. -% \begin{macrocode} - \ifsi@switch - \expandafter\si@num@format\expandafter\si@tempa% - \else -% \end{macrocode} -% The parser must have bailed-out, and so no further processing of -% the input is done. Instead, whatever was passed to the macro is -% returned as supplied. -% \begin{macrocode} - {#1}% - \fi}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@xdef} -% When carrying out the \cs{edef} used to fully-expand a number, -% \cs{,} and |~| are deactivated, so that macros do not end up in the -% number. By using a separate macro, \cs{scantokens} is easier. -% \cs{protected@xdef} is not used here, as the argument given should -% only contain single (processable) characters or macros that expand -% to the same, not other macros or characters.\\ -%\cs{si@num@xdef}\meta{macro}\meta{num}\cs{@empty} -% \begin{macrocode} -\def\si@num@xdef#1#2\@empty{\xdef#1{#2}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@valid} -% Assuming that there is a non-space argument to \cs{si@num}, every -% character is checked to ensure it is valid in the context, so that -% further processing can occur without sanity checks. If the -% character is valid, recursion occurs.\\ -%\cs{si@num@valid}\meta{char}\meta{chars}\cs{@empty} -% \begin{macrocode} -\def\si@num@valid#1#2\@empty{% - \si@num@ifchr{#1}{\si@numvalid}{% - \ifx\@empty#2\@empty\else - \si@num@valid#2\@empty\@empty\@empty% - \fi - \si@switchtrue}% -% \end{macrocode} -% If an invalid character has been picked up, the whole parsing -% system has to bail out. -% \begin{macrocode} - {\si@log@err{Invalid character `#1' in numerical input}% - {Only characters from the list `\si@numvalid'\MessageBreak - should be present in the argument of the \string\num - macro\MessageBreak (or derivative such as an `s' column)}% - \si@switchfalse}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@ifchr} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% A test is needed to check one string only contains characters from -% a second. The main macro sets up for the recursion system below.\\ -%\cs{si@num@ifchr}\marg{test-chars}\marg{valid-chars} -% \begin{macrocode} -\newcommand*{\si@num@ifchr}[2]{% - \begingroup - \si@switchfalse - \def\si@tempa{#1}% - \edef\si@tempb{#2}% -% \end{macrocode} -%\end{macro} -%\end{macro} -% Now the test can occur for the initial comparison string. -% \begin{macrocode} - \expandafter\si@num@chrstr\si@tempb\@empty\@empty% -% \end{macrocode} -% By ending the group inside the \cs{if}, \cs{global} is avoided, and -% the switch can be used for other jobs. -% \begin{macrocode} - \ifsi@switch% - \endgroup\expandafter\@firstoftwo% - \else - \endgroup\expandafter\@secondoftwo% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@chrstr} -% The second part of the comparison macro does the actual work. This -% takes one character of the string of valid input at a time, and -% compares it to the single character in \cs{si@tempa}.\\ -%\cs{si@num@chrstr}\meta{char}\meta{chars}\cs{@empty} -% \begin{macrocode} -\def\si@num@chrstr#1#2\@empty{% -% \end{macrocode} -%\begin{macro}{\si@tempb} -%\begin{macro}{\si@tempc} -% \cs{si@tempc} is used to hold the single character to check against -% \cs{si@tempa}, while \cs{si@tempb} stores the remaining characters -% to be compared. -% \begin{macrocode} - \def\si@tempc{#1}% - \edef\si@tempb{#2}% - \ifx\si@tempa\si@tempc - \si@switchtrue - \else -% \end{macrocode} -%\end{macro} -%\end{macro} -% If \cs{si@tempb} is \cs{@empty}, then the recursion has -% bottomed-out, and all of the comparisons are done. If not, go -% round again. -% \begin{macrocode} - \ifx\@empty\si@tempb\@empty\else - \si@num@chrstr#2\@empty% - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@exp} -%\begin{macro}{\si@num@mant} -%\begin{macro}{\si@num@expout} -%\begin{macro}{\si@num@mantout} -%\begin{macro}{\si@num@out} -% Various storage macros are needed. -% \begin{macrocode} -\newcommand*{\si@num@exp}{} -\newcommand*{\si@num@mant}{} -\newcommand*{\si@num@expout}{} -\newcommand*{\si@num@mantout}{} -\newcommand*{\si@num@out}{} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@num@format} -%\begin{macro}{\si@num@arg} -% The number processor starts by saving |#1| (odd things happen -% otherwise), and locally clearing the stacks.\\ -%\cs{si@num@format}\marg{num} -% \begin{macrocode} -\newcommand*{\si@num@format}[1]{% - \protected@edef\si@num@arg{#1}% - \def\si@num@exp{}% - \def\si@num@mant{}% - \def\si@num@expout{}% - \def\si@num@mantout{}% - \si@log@debug{Formatting number `\si@num@arg'}% -% \end{macrocode} -%\end{macro} -% \begin{macrocode} - \si@switchfalse -% \end{macrocode} -% The input is split into an mantissa and an exponent. -% \begin{macrocode} - \expandafter\si@num@mantexp\si@num@arg\@empty\@empty% -% \end{macrocode} -% The mantissa and exponent are now processed separately. Firstly, a -% sign is tested for. If there is one, it is added to -% \cs{si@num@out}, while the rest of the number is returned ``as is'' -% in \cs{si@num@\ldots}. -% \begin{macrocode} - \si@num@sign{mant}% -% \end{macrocode} -%\begin{macro}{\si@num@out} -% To allow for the case where the mantissa is only a sign, but the -% exponent contains a number, the output is initially defined to -% whatever is in \cs{si@num@mantout}. This will change if there is a -% number in \cs{si@num@mant}. -% \begin{macrocode} - \protected@edef\si@num@out{\si@num@mantout}% - \ifx\@empty\si@num@mant\@empty\else - \si@num@digits{mant}% - \protected@edef\si@num@out{\si@num@mantout}% - \fi - \si@num@sign{exp}% - \ifx\@empty\si@num@exp\@empty\else - \si@num@digits{exp}% -% \end{macrocode} -% Allowance is made for the possibility of negative exponential-only -% numbers. Precautions are taken for the multiply sign (which is -% always in maths mode), and superscripts. \cs{textsuperscript} is -% used here, as this will work in text or maths mode in the output -% routine. -% \begin{macrocode} - \ifx\@empty\si@num@mant\@empty\else - \protected@edef\si@num@out% - {\si@num@out\noexpand\ensuremath{{}\noexpand\si@expproduct{}}}% - \fi - \protected@edef\si@num@out% - {\si@num@out\si@exppower% - \noexpand\textsuperscript{\si@num@expout}}% - \fi -% \end{macrocode} -% If there is nothing in either number macro, then something is -% wrong. -% \begin{macrocode} - \ifx\@empty\si@num@mant\@empty - \ifx\@empty\si@num@exp\@empty - \si@log@err{Invalid number format `\si@num@arg'}% - {Something is wrong with the number format; does it - contain \MessageBreak any numbers (from the list % - `\si@numlist')?}% - \renewcommand*\si@num@out{}% - \fi - \fi% -% \end{macrocode} -%\end{macro} -% With everything done, the result is output. -% \begin{macrocode} - \si@num@out} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@mantexp} -% Splitting the mantissa and exponent first checks for characters to -% gobble, which are simply thrown away. For any other input, there -% are two possibilities. If the character is an exponent marker, -% then the package switches from collecting the mantissa to -% collecting the exponent (after a sanity check). All other -% characters are added to either the mantissa or the exponent, as -% appropriate.\\ -%\cs{si@num@mantexp}\meta{char}\meta{chars}\cs{@empty} -% \begin{macrocode} -\def\si@num@mantexp#1#2\@empty{% - \si@num@ifchr{#1}{\si@numgobble}{}{% - \si@num@ifchr{#1}{\si@numexp}% - {\ifsi@switch - \si@log@err{Duplicate exponent marker found}% - {Only a single exponent character (from the list - `\si@numexp')\MessageBreak may occur in a - numerical argument}% - \fi - \si@switchtrue - \si@log@debug{Exponent marker `#1' found in `\si@num@arg'}}% -% \end{macrocode} -% When building up the mantissa and exponent, everything must be -% expandable, so \cs{edef} can be used rather than -% \cs{g@addto@macro}. -% \begin{macrocode} - {\ifsi@switch - \si@log@debug{Adding `#1' to exponent for `\si@num@arg'}% - \protected@edef\si@num@exp{\si@num@exp#1}% - \else - \si@log@debug{Adding `#1' to mantissa for `\si@num@arg'}% - \protected@edef\si@num@mant{\si@num@mant#1}% - \fi}}% -% \end{macrocode} -% If the recursion has not bottomed out, another loop occurs. -% \begin{macrocode} - \ifx\@empty#2\@empty\else - \si@num@mantexp#2\@empty\@empty\@empty% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@sign} -% The digit processor does several things to convert the run of -% digits, plus potentially a sign and a decimal point into the -% correct format for output.\\ -%\cs{si@num@sign}\marg{mant/exp} -% \begin{macrocode} -\newcommand*{\si@num@sign}[1]{% - \expandafter\ifx\expandafter\@empty\csname si@num@#1\endcsname% - \@empty\else -% \end{macrocode} -% If the whole argument is not empty, then the sign-testing macro is -% run. This will return the sign in \cs{si@tempa} and the digits in -% \cs{si@tempb}. -% \begin{macrocode} - \expandafter\expandafter\expandafter\si@num@gensign% - \csname si@num@#1\endcsname\@empty\@empty\@empty% -% \end{macrocode} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempc} -% If a sign has to be added to unsigned numbers, this is -% done here. -% \begin{macrocode} - \edef\si@tempc{#1}% - \ifx\@empty\si@tempa\@empty - \def\si@tempa{mant}% - \ifx\si@tempa\si@tempc - \ifsi@num@signmant - \si@log@debug{Adding sign \si@sign\space to mantissa for - `\si@num@arg'}% - \protected@edef\si@tempa{\si@sign}% - \else - \def\si@tempa{}% - \fi - \else - \ifsi@num@signexp - \si@log@debug{Adding sign \si@sign\space to exponent for - `\si@num@arg'}% - \protected@edef\si@tempa{\si@sign}% - \else - \def\si@tempa{}% - \fi - \fi - \fi -% \end{macrocode} -%\end{macro} -%\end{macro} -% If there is no sign, then the original macro contains a pure -% number, and nothing happens (an empty number has already been -% tested for). -% \begin{macrocode} - \ifx\@empty\si@tempa\@empty - \def\si@tempa{mant}% - \ifx\si@tempa\si@tempc - \si@log@debug{Unsigned mantissa for `\si@num@arg'}% - \else - \si@log@debug{Unsigned exponent for `\si@num@arg'}% - \fi - \else -% \end{macrocode} -% There is a sign, so it is added to the output stack. -% \begin{macrocode} - \expandafter\protected@edef\csname si@num@#1out\endcsname% - {\noexpand\ensuremath{\si@tempa}}% -% \end{macrocode} -% A sign but no number can only be correct if the input is something -% like |-e10| to give \num{-e10}. -% \begin{macrocode} - \ifx\@empty\si@tempb\@empty - \expandafter\def\csname si@num@#1\endcsname{}% -% \end{macrocode} -%\begin{macro}{\si@tempa} -% \cs{si@tempa} is no longer needed, so can be reused. -% \begin{macrocode} - \def\si@tempa{mant}% -% \end{macrocode} -%\end{macro} -% Checks to see if this is a mantissa, and that there is an exponent. -% \begin{macrocode} - \ifx\si@tempa\si@tempc - \ifx\@empty\si@num@exp\@empty - \si@log@warn{Sign but no number for `\si@num@arg'}% - \fi - \else - \si@log@warn{Sign but no number for `\si@num@arg'}% - \fi - \else - \expandafter\protected@edef\csname si@num@#1\endcsname% - {\si@tempb}% - \fi - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@gensign} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% The first one or two characters of the mantissa or exponent may -% contain a sign. To test for this, the first two characters of the -% number are split off, and examined. Two characters are used so -% that \cs{pm} and \cs{mp} can be represented by |+-| and |-+|, -% respectively. To allow the user to alter the valid signs, but -% retain this conversion, the generic character test is used before -% checking specific matches.\\ -%\cs{si@num@gensign}\meta{char}\meta{char}\meta{chars}\cs{@empty} -% \begin{macrocode} -\def\si@num@gensign#1#2#3\@empty{% - \si@num@ifchr{#1}{\si@numsign}{% - \si@num@ifchr{#2}{\si@numsign}{% - \if +#1 - \if -#2 - \si@log@debug{Found sign combination +- for `\si@num@arg'}% - \def\si@tempa{\pm}% - \else - \si@log@warn{Unknown sign combination `#1#2'}% - \def\si@tempa{#1#2}% - \fi - \else - \if -#1 - \if +#2 - \si@log@debug{Found sign combination -+ for `\si@num@arg'}% - \def\si@tempa{\mp}% - \else - \si@log@warn{Unknown sign combination `#1#2'}% - \def\si@tempa{#1#2}% - \fi - \else - \si@log@warn{Unknown sign combination `#1#2'}% - \def\si@tempa{#1#2}% - \fi - \fi - \edef\si@tempb{#3}}% -% \end{macrocode} -% Only one valid sign character. -% \begin{macrocode} - {\si@log@debug{Found single sign character `#1' for - `\si@num@arg'}% - \def\si@tempa{#1}% - \edef\si@tempb{#2#3}}}% -% \end{macrocode} -% No valid sign, so \cs{@empty} is returned for the sign . -% \begin{macrocode} - {\si@log@debug{No sign found for `\si@num@arg'}% - \def\si@tempa{}% - \edef\si@tempb{#1#2#3}}}% -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@num@digits} -%\begin{macro}{\si@tempb} -%\begin{macro}{\si@tempc} -% The core digit processor divides the number into the parts before -% and after the decimal point marker.\\ -%\cs{si@num@digits}\marg{mant/exp} -% \begin{macrocode} -\newcommand*{\si@num@digits}[1]{% - \def\si@tempa{}% - \def\si@tempb{}% -% \end{macrocode} -% The package switch is used to indicate finding a decimal marker. -% \begin{macrocode} - \si@switchfalse - \expandafter\expandafter\expandafter\si@num@split% - \csname si@num@#1\endcsname\@empty\@empty% -% \end{macrocode} -% The pre-decimal part of the number is now in \cs{si@tempa}, and the -% post-decimal part in \cs{si@tempb}. A quick check is made on the -% pre-decimal part of the number. -% \begin{macrocode} - \ifx\@empty\si@tempa\@empty - \ifsi@num@padlead - \si@log@debug{Adding leading zero for `\si@num@arg'}% - \def\si@tempa{0}% - \fi - \fi -% \end{macrocode} -% A second test is needed, in case a zero should be added when a -% decimal marker is followed by nothing at all. Here, the fact that -% a decimal marker was found is needed; the test is done now so -% \cs{ifsi@switch} can be reused. -% \begin{macrocode} - \ifx\@empty\si@tempb\@empty - \ifsi@num@padtrail - \ifsi@switch - \si@log@debug{Adding trailing zero for `\si@num@arg'}% - \def\si@tempb{0}% - \fi - \fi - \fi -% \end{macrocode} -% The contents of \cs{si@tempa} and \cs{si@tempb} are now completed. -% Some error checking is done, in case an odd argument has been -% given. -% \begin{macrocode} - \ifx\@empty\si@tempa\@empty - \ifx\@empty\si@tempb\@empty\else - \si@num@sepdigits{#1}% - \fi - \else - \si@num@sepdigits{#1}% - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@num@split} -% The \cs{si@num@split} macro compares each character in the input -% against the list of characters valid at this stage: numbers, -% decimal markers and ``extra'' characters. Before finding a decimal -% marker, numbers and extra characters are added to \cs{si@tempa}; -% after a decimal is found, characters are added to \cs{si@tempb}.\\ -%\cs{si@num@split}\meta{char}\meta{chars}\cs{@empty} -% \begin{macrocode} -\def\si@num@split#1#2\@empty{% - \si@num@ifchr{#1}{\si@numdecimal}{% - \ifsi@switch - \si@log@err{Duplicate decimal marker in `\si@num@arg'} - {Only a single decimal marker (from the list - `\si@numdecimal')\MessageBreak may occur in a - numerical argument}% - \else - \si@log@debug{Found decimal marker `#1' in `\si@num@arg'}% - \si@switchtrue - \fi}{% -% \end{macrocode} -% The earlier code only checks for a sign at the start of the text. A -% check is therefore needed for a sign after the first two -% characters; if one is found, it is ignored. -% \begin{macrocode} - \si@num@ifchr{#1}{\si@numsign}{% - \si@log@err{Misplaced sign in `\si@num@arg'} - {Sign characters `\si@numsign' can only occur\MessageBreak - at the start of a number}}{% -% \end{macrocode} -% The current character is added to the appropriate stack. -% \begin{macrocode} - \ifsi@switch - \si@log@debug{Adding `#1' to decimal part for `\si@num@arg'}% - \protected@edef\si@tempb{\si@tempb#1}% - \else - \si@log@debug{Adding `#1' to integer part for `\si@num@arg'}% - \protected@edef\si@tempa{\si@tempa#1}% - \fi}}% -% \end{macrocode} -% Unless the recursion has bottomed, loop round again. -% \begin{macrocode} - \ifx\@empty#2\@empty\else - \si@num@split#2\@empty\@empty% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@decimalhook} -% A hook is needed to attach things inside the group to happen -% afterwards, if the number is a decimal. -% \begin{macrocode} -\newcommand*{\si@num@decimalhook}{} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@sepdigits} -% The \cs{si@num@sepdigits} macro is only called if at least one of -% the mantissa and exponent contain something to output. The integer -% and decimal parts of the number are processed separately. First, a -% check is made to see if each part contains ``extra'' characters; if -% it does, no digit-separating is even attempted.\\ -%\cs{si@num@sepdigits}\marg{mant/exp} -% \begin{macrocode} -\newcommand*{\si@num@sepdigits}[1]{% - \si@num@ifextra{\si@tempa}{} -% \end{macrocode} -%\begin{macro}{\si@tempc} -% If the input is a pure number, then separation is attempted. -% \begin{macrocode} - {\expandafter\si@num@int\expandafter{\si@tempa}}% - \def\si@tempc{}% - \ifx\@empty\si@tempb\@empty\else - \protected@edef\si@tempc{\noexpand\ensuremath{{\noexpand% - \si@decimalsign}}}% - \si@num@decimalhook% - \si@num@ifextra{\si@tempb}{}% - {\expandafter\si@num@dec\expandafter{\si@tempb}}% - \fi -% \end{macrocode} -%\end{macro} -% The construction is finalised by re-combining the number. -% \begin{macrocode} - \expandafter\protected@edef\csname si@num@#1out\endcsname% - {\csname si@num@#1out\endcsname\si@tempa\si@tempc\si@tempb}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@ifextra} -%\begin{macro}{\si@num@extra} -% A relatively simple test for ``extra'' characters. Once again, a -% bit of group trickery is used.\\ -%\cs{si@num@ifextra}\marg{integer}\\ -%\cs{si@num@extra}\meta{char}\meta{chars}\cs{@empty} -% \begin{macrocode} -\newcommand*{\si@num@ifextra}[1]{% - \begingroup - \si@switchfalse - \expandafter\si@num@extra#1\@empty\@empty% - \ifsi@switch - \si@log@debug{Found `extra' characters in `#1'}% - \endgroup\expandafter\@firstoftwo% - \else - \endgroup\expandafter\@secondoftwo% - \fi} -\def\si@num@extra#1#2\@empty{% - \ifx\@empty#1\@empty\else - \si@num@ifchr{#1}{\si@numextra}{\si@switchtrue}{}% - \ifx\@empty#2\@empty\else - \si@num@extra#2\@empty\@empty% - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@num@int} -%\begin{macro}{\si@tempa} -% The formatting code for separating thousands is taken more-or-less -% directly from \sistyle. A few changes are made to fit the various -% conventions here. Following on from the code above, \cs{si@tempa} -% is used to store the integer part of the number, and \cs{si@tempb} -% is used for the decimal part.\\ -%\cs{si@num@int}\marg{integer-part} -% \begin{macrocode} -\newcommand*{\si@num@int}[1]{% - \def\si@tempa{}% - \ifsi@sepfour - \si@num@intfmt{}#1\@empty\@empty\@empty% - \else - \si@num@iffive{#1} - {\si@num@intfmt{}#1\@empty\@empty\@empty} - {\def\si@tempa{#1}}% - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@num@iffive} -%\begin{macro}{\si@num@five} -% A test is needed for the presence of more than four characters.\\ -%\cs{si@num@iffive}\marg{num}\\ -%\cs{si@num@five}\meta{char}\meta{char}\meta{char}\meta{char}^^A -%\meta{chars}\cs{end}\\ -% \begin{macrocode} -\newcommand*{\si@num@iffive}[1]{% - \si@num@five#1\@empty\@empty\@empty\@empty\@empty\end} -\def\si@num@five#1#2#3#4#5\end{% - \ifx\@empty#5\@empty - \expandafter\@secondoftwo% - \else - \expandafter\@firstoftwo% - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@num@intfmt} -%\begin{macro}{\si@num@fiint} -% The business end of the integer formatter. -%\cs{si@num@intfmt}\marg{char}\marg{char}\marg{char}\marg{char}\\ -%\cs{si@num@fiint}\meta{chars}\cs{fi}\cs{fi}\cs{fi} -% \begin{macrocode} -\newcommand*{\si@num@intfmt}[4]{% - \ifx\@empty#2\@empty - \si@num@intsep#1\relax - \else - \ifx\@empty#3\@empty - \si@num@intsep\@empty\@empty#1#2\relax - \else - \ifx\@empty#4\@empty - \si@num@intsep\@empty#1#2#3\relax - \else - \si@num@fiint{#1#2#3#4}% - \fi - \fi - \fi} -\def\si@num@fiint#1\fi\fi\fi{\fi\fi\fi\si@num@intfmt{#1}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@num@intsep} -%\begin{macro}{\si@tempa} -% For adding separation to integers, an extra function is needed.\\ -%\cs{si@num@intsep}\marg{char}\marg{char}\marg{char}\marg{char} -% \begin{macrocode} -\newcommand*{\si@num@intsep}[4]{% - \protected@edef\si@tempa{\si@tempa#1#2#3}% - \if\relax#4\relax - \else - \protected@edef\si@tempa{\si@tempa\noexpand\ensuremath{\noexpand% - \si@digitsep}}% - \expandafter\si@num@intsep\expandafter#4% - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@num@dec} -%\begin{macro}{\si@num@decfmt} -%\begin{macro}{\si@tempb} -% Formatting a decimal uses a similar mechanism, but with a few -% alterations needed.\\ -%\cs{si@num@dec}\marg{decimal-part}\\ -%\cs{si@num@decfmt}\marg{char}\marg{char}\marg{char}\marg{char}\\ -% \begin{macrocode} -\newcommand*{\si@num@dec}[1]{% - \def\si@tempb{}% - \ifsi@sepfour - \si@num@decfmt#1\@empty\@empty\@empty\@empty% - \else - \si@num@iffive{#1} - {\si@num@decfmt#1\@empty\@empty\@empty\@empty} - {\protected@edef\si@tempb{\si@tempb#1}}% - \fi -} -\newcommand*{\si@num@decfmt}[4]{% - \protected@edef\si@tempb{\si@tempb#1#2#3}% - \ifx\@empty#4\@empty% - \else - \protected@edef\si@tempb{\si@tempb\noexpand\ensuremath{\noexpand% - \si@digitsep}}% - \expandafter\si@num@decfmt\expandafter#4% - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -% -%\subsection{Formatting angles} -%\begin{macro}{\ang} -% The approach used here is similar to that in \sistyle, but has been -% modified in a few ways.\\ -%\cs{ang}\oarg{options}\marg{decimal-angle}\\ -%\cs{ang}\oarg{options}|{|\meta{deg};\meta{min};\meta{sec}|}| -% \begin{macrocode} -\DeclareRobustCommand*{\ang}[2][]{% - \begingroup - \sisetup{#1}% - \si@fam@mode% - \si@log@debug{Processing \string\ang\space input `#2'}% - \@makeother{\;}% - \makeatletter% - \scantokens{\si@ang@parse#2;;;\@nil}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@ang@parse} -% With the correct catcodes in place, processing can take place strip -% out the semi-colons.\\ -%\cs{si@ang@parse}\meta{num}|;|\meta{num}|;|\meta{num}|;|^^A -%\meta{chars}\cs{@nil} -% \begin{macrocode} -\def\si@ang@parse#1;#2;#3;#4\@nil{\si@ang@set{#1}{#2}{#3}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@ang@killdegree} -%\begin{macro}{\si@ang@killminute} -%\begin{macro}{\si@ang@killsecond} -%\begin{macro}{\si@ang@astrosign} -%\begin{macro}{\si@ang@decimalsign} -% A mechanism is needed to handle moving the angle unit sings for the -% \opt{astroang} option. This requires two steps, producing the sign -% over the decimal sign and preventing duplicate symbols appearing.\\ -%\cs{si@ang@astrosign}\marg{degree/minute/second} -% \begin{macrocode} -\newcommand*{\si@ang@killdegree}{\let\si@sym@degree\relax} -\newcommand*{\si@ang@killminute}{\let\si@sym@minute\relax} -\newcommand*{\si@ang@killsecond}{\let\si@sym@second\relax} -\newcommand*{\si@ang@astrosign}[1]{% - \renewcommand*{\si@decimalsign}{% - \rlap{\si@ang@decimalsign}% - \expandafter\csname si@sym@#1\endcsname}% - \def\si@num@decimalhook{\expandafter\aftergroup% - \csname si@ang@kill#1\endcsname}}% -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@ang@set} -% The \cs{si@ang@set} macro does the work of assigning the degrees, -% minutes and seconds, and actually typesetting the result.\\ -%\cs{si@ang@set}\marg{num}\marg{num}\marg{num} -% \begin{macrocode} -\newcommand*{\si@ang@set}[3]{% -% \end{macrocode} -%\begin{macro}{\si@ang@degs} -%\begin{macro}{\si@ang@mins} -%\begin{macro}{\si@ang@secs} -% First, the three macros that will contain the measures must exist. -% \begin{macrocode} - \ifsi@ang@padlarge - \newcommand*{\si@ang@degs}{0\si@sym@degree}% - \newcommand*{\si@ang@mins}{0\si@sym@minute}% - \newcommand*{\si@ang@secs}{0\si@sym@second}% - \else - \newcommand*{\si@ang@degs}{}% - \newcommand*{\si@ang@mins}{}% - \newcommand*{\si@ang@secs}{}% - \fi - \protected@edef\si@ang@decimalsign{\si@decimalsign}% -% \end{macrocode} -%\begin{macro}{\si@ang@movesign} -% Either the signs need to be moved, or this needs to be killed off. -% \begin{macrocode} - \ifsi@astroang - \let\si@ang@movesign\si@ang@astrosign - \else - \let\si@ang@movesign\@gobble - \fi -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@ang@secnum} -%\begin{macro}{\si@ang@minnum} -% The arguments are now examined in reverse order. If they are -% empty, then nothing is done. Otherwise, the larger measures are -% zero-filled, if this has been requested. Some steps are needed -% to allow for addition of signs to numbers. -% \begin{macrocode} - \newcommand*{\si@ang@secnum}{\si@ang@num{second}}% - \newcommand*{\si@ang@minnum}{\si@ang@num{minute}}% - \si@ifnotmtarg{#3} - {\si@log@debug{Found seconds `#3'}% - \renewcommand*{\si@ang@secs} - {\si@ang@secnum{#3}\si@sym@second}% - \renewcommand*{\si@ang@mins} - {\si@ang@pad{0\si@sym@minute}}% - \renewcommand*{\si@ang@degs} - {\si@ang@pad{0\si@sym@degree}}}% - \si@ifnotmtarg{#2} - {\si@log@debug{Found minutes `#2'}% - \renewcommand*{\si@ang@secnum}{\si@ang@signlessnum{second}}% - \renewcommand*{\si@ang@mins} - {\si@ang@minnum{#2}\si@sym@minute}% - \renewcommand*{\si@ang@degs} - {\si@ang@pad{0\si@sym@degree}}}% - \si@ifnotmtarg{#1} - {\si@log@debug{Found degrees `#1'}% - \renewcommand*{\si@ang@secnum}{\si@ang@signlessnum{second}}% - \renewcommand*{\si@ang@minnum}{\si@ang@signlessnum{minute}}% - \renewcommand*{\si@ang@degs} -% \end{macrocode} -% The group here is needed to get the mechanism to move the symbol to -% work properly. -% \begin{macrocode} - {\si@ang@num{degree}{#1}% - \si@sym@degree}}% - \si@out@num% - {\si@ang@degs\si@anglesep\si@ang@mins\si@anglesep\si@ang@secs}% -% \end{macrocode} -%\end{macro} -%\end{macro} -% The group opened by \cs{ang} is closed. -% \begin{macrocode} - \endgroup} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@ang@pad} -% Padding is only added if requested; the zero is a literal.\\ -%\cs{si@ang@pad}\marg{num} -% \begin{macrocode} -\newcommand*{\si@ang@pad}[1]{% - \ifsi@ang@padsmall - #1% - \else - \relax% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@ang@num} -%\begin{macro}{\si@ang@signlessnum} -% Modified versions of \cs{num}, one to typeset angles without a -% leading sign and the other with.\\ -%\cs{si@ang@num}\marg{degree/minute/second}\marg{num}\\ -%\cs{si@ang@signlessnum}\marg{degree/minute/second}\marg{num} -% \begin{macrocode} -\newcommand{\si@ang@num}[2]{% - \begingroup% - \si@ang@movesign{#1}% - \si@num{#2}% - \endgroup} -\newcommand{\si@ang@signlessnum}[2]{% - \begingroup% - \si@ang@movesign{#1}% - \sisetup{addsign=none}% - \si@num{#2}% - \endgroup} -% \end{macrocode} -%\end{macro} -%\end{macro} -% -%\subsection{New column types} -% The automatic formatting and alignment of numerical data in columns -% is handled here. The various other packages that work in this area -% are basically ripped-off here. The first part of the job is to -% make a new column type. The letters |D|, |N| and |R| are taken by -% other packages, so |s| (for \currpkg) is chosen. As in \pkg{rccol} -% and \numprint, initially no definition is given as lots of code needs -% to be added. -% \begin{macrocode} -\newcolumntype{s}{} -% \end{macrocode} -%\begin{macro}{\NC@rewrite@s} -% Following the \numprint approach, the \cs{NC@rewrite@S} macro is now -% changed to provide a hook for the collection of the tabular -% material. This means messing with the internal macros of another -% package, but there is no other way to do this. As \pkg{array} is a -% standard package from the \pkg{tools} bundle, this should be -% reasonably safe. After resetting the storage token registers, the -% internal macro which handles optional arguments is called. -% \begin{macrocode} -\renewcommand*{\NC@rewrite@s}{% - \@ifnextchar[%] - {\si@tab@rewrite} - {\si@tab@rewrite[]} -} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@rewrite} -%\begin{macro}{\si@tempa} -% An optional argument can now be picked up (this does not work using -% the optional argument to \cs{renewcommand} for \cs{NC@rewrite@S}). -% Here the begin and end code needed is added to the existing list if -% \cs{@temptokena}, with the start and end macros unexpanded. -% Argument |#1| contains any user setup options for this column.\\ -%\cs{si@tab@rewrite}\oarg{options} -% \begin{macrocode} -\def\si@tab@rewrite[#1]{% - \edef\si@tempa{\the\@temptokena - >{\noexpand\si@tab@begin[#1]\noexpand\ignorespaces}c% - <{\noexpand\si@tab@end}}% - \@temptokena\expandafter{\si@tempa}% -% \end{macrocode} -% With the assignment done, the normal action of the \pkg{array} -% package is continued. -% \begin{macrocode} - \NC@find} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tab@numtoks} -%\begin{macro}{\si@tab@pretoks} -%\begin{macro}{\si@tab@posttoks} -% Some storage is needed for the data to build up. In common with -% \pkg{rccol} and \numprint, token registers are used for this (thus leaving -% problematic input to be handled later). -% \begin{macrocode} -\newtoks\si@tab@numtoks -\newtoks\si@tab@pretoks -\newtoks\si@tab@posttoks -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tab@begin} -% The lead-off macro starts by setting any local values for -% \cs{sisetup}. Although this is an internal macro, square brackets -% for the option list are retained to make the option that this -% argument may be empty.\\ -%\cs{si@tab@begin}\oarg{options} -% \begin{macrocode} -\newcommand*{\si@tab@begin}[1][]{% - \begingroup - \sisetup{#1}% - \si@tab@numtoks{}% - \si@tab@pretoks{}% - \si@tab@posttoks{}% - \si@switchfalse - \si@log@debug{Processing s column cell contents}% - \si@tab@gettok} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@gettok} -%\begin{macro}{\si@tab@next} -% The iteration macro for collecting up tokens in the input. This is -% a pretty much direct copy from \numprint. First |#1| is checked -% against various special values.\\ -%\cs{si@tab@gettok}\marg{cell-contents} -% \begin{macrocode} -\newcommand*{\si@tab@gettok}[1]{% -% \end{macrocode} -% The current cell could be the end of a line. -% \begin{macrocode} - \ifx\tabularnewline#1 - \let\si@tab@next\tabularnewline - \else -% \end{macrocode} -% If the table is in the usual \cs{begin}\texttt{\ldots}\cs{end} -% construct, the \cs{end} might appear. -% \begin{macrocode} - \ifx\end#1 - \let\si@tab@next\end - \else -% \end{macrocode} -% The check for \cs{si@tab@end} deals with the likely situation that -% the current cell is not the last of the line; the result will be -% that the end-of-cell macro will be present. -% \begin{macrocode} - \ifx\si@tab@end#1 - \let\si@tab@next\si@tab@end - \else -% \end{macrocode} -% If \cs{begin}\texttt{\ldots}\cs{end} has not been used for the -% table, then \cs{endtabular} might crop up. -% \begin{macrocode} - \ifx\endtabular#1 - \let\si@tab@next\endtabular - \else -% \end{macrocode} -% Apparently, \texttt{tabularx} might have a \cs{csname} at the end -% of the cell. -% \begin{macrocode} - \ifx\csname#1 - \let\si@tab@next\csname - \else -% \end{macrocode} -% \cs{relax} is always a possibility. -% \begin{macrocode} - \ifx\relax#1\relax - \let\si@tab@next\relax - \else -% \end{macrocode} -% If the macro gets here, then the input should be stored, either as -% part of a number or to be appended to the number. This is checked -% by using \cs{si@numvalid}; initially this will hold the valid -% characters defined before, but will be altered to \cs{@empty} if -% collection of items after a number is in operation. The system is -% set to recur, and the input is saved to the appropriate token -% register. -% \begin{macrocode} - \let\si@tab@next\si@tab@gettok - \si@num@ifchr{#1}{\si@numvalid} - {\si@switchtrue - \si@log@debug{Found valid cell contents `#1'}% - \si@tab@numtoks=\expandafter{\the\si@tab@numtoks#1}} - {\si@log@debug{Found other cell contents \string#1}% - \si@tab@othertok{#1}}% - \fi - \fi - \fi - \fi - \fi - \fi -% \end{macrocode} -% Finally, execute whatever should be the next step. -% \begin{macrocode} - \si@tab@next} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tab@othertok} -% Unrecognised input is added to a token register, either before or -% after the number.\\ -%\cs{si@tab@othertok}\marg{chars} -% \begin{macrocode} -\newcommand*{\si@tab@othertok}[1]{% - \ifsi@switch -% \end{macrocode} -% If working after a number has been found, it is necessary to -% prevent any more input being added to the number. -% \begin{macrocode} - \si@tab@posttoks=\expandafter{\the\si@tab@posttoks#1}% - \else - \si@tab@pretoks=\expandafter{\the\si@tab@pretoks#1}% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@end} -% At the end of the cell, the actual output has to occur. -% \begin{macrocode} -\newcommand{\si@tab@end}{% - \hfil% - \the\si@tab@pretoks% -% \end{macrocode} -% If no number was found, then output is skipped. -% \begin{macrocode} - \ifsi@switch - \expandafter\si@tab@numout% - \fi - \the\si@tab@posttoks% - \hfil% - \endgroup} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tempcnta} -%\begin{macro}{\si@tempcntb} -% Counters are needed for the digit-counting system. -% \begin{macrocode} -\newcount\si@tempcnta -\newcount\si@tempcntb -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tab@numout} -% If a number is found, then some secondary processing is needed to -% format it correctly. -% \begin{macrocode} -\newcommand*{\si@tab@numout}{% - \let\si@num@format\si@tab@num@format -% \end{macrocode} -% Using the modified form of \cs{si@num}, the input (in -% \cs{si@tab@numtoks} is parsed. This results in the mantissa before -% the decimal place in \cs{si@num@mantout} and the rest of the -% mantissa, plus any exponent part, in \cs{si@num@out}. The part of -% the mantissa after the decimal marker (if any) is stored in -% \cs{si@tab@mantout}, which can therefore be used as a flag for the -% inclusion of a decimal sign. -% \begin{macrocode} - \expandafter\si@num\expandafter{\the\si@tab@numtoks}% - \afterassignment\si@tab@format\expandafter\si@tempcnta% - \si@tabformat\relax} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@mantout} -% A storage macro is needed. -% \begin{macrocode} -\newcommand*{\si@tab@mantout}{} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@num@format} -% A modified version of \cs{si@num@format} is needed, as the -% ``decomposed'' number is needed directly by the table formatting -% system.\\ -%\cs{si@tab@num@format}\marg{num} -% \begin{macrocode} -\newcommand*{\si@tab@num@format}[1]{% -% \end{macrocode} -%\begin{macro}{\si@tab@org@sepdigits} -% The crucial sub-macro is redirected. -% \begin{macrocode} - \let\si@tab@org@sepdigits\si@num@sepdigits - \let\si@num@sepdigits\si@tab@num@sepdigits -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@arg} -% With that done, things continue as in the original. -% \begin{macrocode} - \edef\si@num@arg{#1}% - \si@switchfalse - \expandafter\si@num@mantexp\si@num@arg\@empty\@empty% - \si@num@sign{mant}% - \ifx\@empty\si@num@mant\@empty\else - \si@num@digits{mant}% -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@num@out} -% The pre-decimal part of the the number is in \cs{si@num@mantout}, -% with the post-decimal part in \cs{si@tab@mantout}. This ensures -% that there is no need to shuffle the location of any sign. The macro -% now continues to build up everything after the decimal sign in -% \cs{si@num@out}. -% \begin{macrocode} - \protected@edef\si@num@out{\si@tab@mantout}% - \fi -% \end{macrocode} -% For the exponent, processing is back to normal. -% \begin{macrocode} - \let\si@num@sepdigits\si@tab@org@sepdigits - \si@num@sign{exp}% - \ifx\@empty\si@num@exp\@empty\else - \si@num@digits{exp}% - \ifx\@empty\si@num@mant\@empty\else - \protected@edef\si@num@out% - {\si@num@out\noexpand\ensuremath{\noexpand\si@expproduct}}% - \fi - \protected@edef\si@num@out% - {\si@num@out\si@exppower% - \noexpand\textsuperscript{\si@num@expout}}% - \fi - \ifx\@empty\si@num@mant\@empty - \ifx\@empty\si@num@exp\@empty - \si@log@err{Invalid number format `\si@num@arg'}% - {Something is wrong with the number format; does it - contain \MessageBreak any numbers (from the list % - `\si@numlist')?}% -% \end{macrocode} -%\begin{macro}{\si@tab@mantout} -% Need to clear both storage areas. -% \begin{macrocode} - \renewcommand*\si@num@out{}% - \renewcommand*\si@tab@mantout{}% - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tab@num@sepdigits} -% An altered version of \cs{si@num@sepdigits} is needed, so that the -% division of the data is made before and after the decimal sign for -% the mantissa.\\ -%\cs{si@tab@num@sepdigits}\marg{num} -% \begin{macrocode} -\newcommand*{\si@tab@num@sepdigits}[1]{% - \si@num@ifextra{\si@tempa}{} - {\expandafter\si@num@int\expandafter{\si@tempa}}% - \def\si@tempc{}% - \ifx\@empty\si@tempb\@empty\else - \si@num@ifextra{\si@tempb}{}% - {\expandafter\si@num@dec\expandafter{\si@tempb}}% - \fi -% \end{macrocode} -% The storage of the results is different to the original version. -% The pre-decimal part (plus any sign) is stored in the -% \cs{si@num@}|#1out| macro, while the post-decimal part ends up in -% \cs{si@tab@}|#1out|. No decimal sign is added in at all. -% \begin{macrocode} - \expandafter\protected@edef\csname si@num@#1out\endcsname% - {\csname si@num@#1out\endcsname\si@tempa}% - \expandafter\protected@edef\csname si@tab@#1out\endcsname% - {\si@tempb}}% -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@prebox} -%\begin{macro}{\si@tab@postbox} -%\begin{macro}{\si@tempbox} -% The various boxes needed for the column centring are declared -% Unlike the \pkg{dcolumn} original, private boxes are used here. -% \cs{si@tempbox} is used when a space to measure one of the -% constituents is needed; it is never used for output. -% \begin{macrocode} -\newbox\si@tab@prebox -\newbox\si@tab@postbox -\newbox\si@tempbox -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tab@format} -% The formatting set up is taken from \pkg{dcolumn}, with a few minor -% changes to fit the scheme used here. There is only one argument -% here, as the appearance of the decimal sign is handled by the -% \pkg{keyval} system. The numerical test here has been changed, -% compared to \pkg{dcolumn}, so that a value of zero gives a column -% centred on the decimal marker.\\ -%\cs{si@tab@format}\marg{num}\cs{relax} -% \begin{macrocode} -\def\si@tab@format#1\relax{% - \ifnum\z@<\si@tempcnta - \expandafter\si@tab@right% - \else - \expandafter\si@tab@centre% - \fi - {#1}% -% \end{macrocode} -% Output of the formatted data occurs here; both positioning macros -% produce formatted data in boxes zero and two. -% \begin{macrocode} - \box\si@tab@prebox\box\si@tab@postbox} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@centre} -% This macro is executed if the decimal marker is at the centre of -% the column. The argument is needed here to throw away anything -% left on the input stack by \cs{si@tab@format}. Unlike -% \pkg{dcolumn}, only a single macro is needed here, as the (divided) -% number is already available.\\ -%\cs{si@tab@centre}\marg{gobble} -% \begin{macrocode} -\newcommand*\si@tab@centre[1]{% -% \end{macrocode} -% Box zero is used to hold the pre-decimal part, with box two holding -% the post-decimal part \emph{if} it is needed. -% \begin{macrocode} - \setbox\si@tab@prebox=\hbox% - {\expandafter\si@out@num\expandafter{\si@num@mantout}}% - \ifx\@empty\si@tab@mantout\@empty - \ifx\@empty\si@num@out\@empty - \setbox\si@tab@postbox=\hbox% - {\phantom{\ensuremath{{\si@decimalsign}}}}% - \else - \setbox\si@tab@postbox=\hbox% - {\expandafter\si@out@num\expandafter{\si@num@out}}% - \fi - \else - \setbox\si@tab@postbox=\hbox% - {\ensuremath{{\si@decimalsign}}% - \expandafter\si@out@num\expandafter{\si@num@out}}% - \fi -% \end{macrocode} -% Which of the two boxes is wider is now checked, and the smaller is -% padded out. -% \begin{macrocode} - \ifdim \wd\si@tab@prebox>\wd\si@tab@postbox - \setbox\si@tab@postbox=\hbox to\wd\si@tab@prebox% - {\unhbox\si@tab@postbox\hfill}% - \else - \setbox\si@tab@prebox=\hbox to\wd\si@tab@postbox% - {\hfill\unhbox\si@tab@prebox}% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@predim} -%\begin{macro}{\si@tab@postdim} -%\begin{macro}{\si@tempdima} -%\begin{macro}{\si@tempdimb} -% Some storage dimensions are declared. -% \begin{macrocode} -\newdimen\si@tab@predim -\newdimen\si@tab@postdim -\newdimen\si@tempdima -\newdimen\si@tempdimb -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@tab@right} -% The column is not centred on the decimal marker; the user specifies -% how many characters on each side are allowed for.\\ -%\cs{si@tab@right}\marg{num} -% \begin{macrocode} -\newcommand*\si@tab@right[1]{% -% \end{macrocode} -% The width of a character is measured, and stored. -% \begin{macrocode} - \setbox\si@tempbox=\hbox{\si@out@num{1}} - \si@tempdima\wd\si@tempbox -% \end{macrocode} -%\begin{macro}{\si@tab@prea} -%\begin{macro}{\si@tab@preb} -% If |#1| is empty, then no special processing is needed for box two. -% On the other hand, if there is something in |#1| then a bit of -% re-arranging is done. In particular notice that \cs{si@tempcnta} -% is used with the pre-decimal value, before the post-decimal setting -% is saved. -% \begin{macrocode} - \ifx\relax#1\relax - \hfill - \let\si@tab@prea\relax - \let\si@tab@preb\relax - \else - \si@tab@predim\the\si@tempcnta\si@tempdima - \si@tab@sepcorr{pre}% - \edef\si@tab@prea{to\si@tab@predim}% - \edef\si@tab@preb{\hss\hfill}% - \si@tempcnta\@gobble#1\relax - \fi -% \end{macrocode} -%\end{macro} -%\end{macro} -% The width of the box needed is calculated by multiplying the width -% of a character (in \cs{si@tempdima} by the number of characters -% requested (in \cs{si@tempcnta}. The width of the decimal sign is -% also allowed for and added on. -% \begin{macrocode} - \si@tab@postdim\si@tempcnta\si@tempdima - \setbox\si@tempbox=\hbox{\ensuremath{{\si@decimalsign}}}% - \advance\si@tab@postdim\wd\si@tempbox - \si@tab@sepcorr{post}% -% \end{macrocode} -% The pre-decimal part of the number is now added to box zero, with -% the post decimal part in box two if needed. -% \begin{macrocode} - \setbox\si@tab@prebox=\hbox\si@tab@prea{\si@tab@preb% - \expandafter\si@out@num\expandafter{\si@num@mantout}}% - \ifx\@empty\si@tab@mantout\@empty - \setbox\si@tab@postbox=\hbox to\si@tab@postdim% - {\expandafter\si@out@num\expandafter{\si@num@out}\hfil}% - \else - \setbox\si@tab@postbox=\hbox to\si@tab@postdim% - {\ensuremath{{\si@decimalsign}}\expandafter\si@out@num% - \expandafter{\si@num@out}\hfil}% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tab@sepcorr} -% A spacing correction is needed \emph{if} the number of digits to be -% allowed for will lead to the introduction of a separator. A counter -% and dimension are needed for the testing.\\ -%\cs{si@tab@sepcorr}\marg{num} -% \begin{macrocode} -\newcommand*{\si@tab@sepcorr}[1]{% - \si@tempcntb\the\si@tempcnta\relax -% \end{macrocode} -% Calculate how many groups of three there are, then allow for not -% separating four characters if \cs{ifsi@sepfour} is false. -% \begin{macrocode} - \divide\si@tempcntb\thr@@ - \ifsi@sepfour\else - \ifnum\the\si@tempcnta=4 - \si@tempcntb\z@ - \fi - \fi -% \end{macrocode} -% The width of the separators is measured, and the correct number of -% separator widths are added to the box dimension. -% \begin{macrocode} - \setbox\si@tempbox=\hbox{\ensuremath{\si@digitsep}}% - \expandafter\advance\csname si@tab@#1dim\endcsname% - \si@tempcntb\wd\si@tempbox}% -% \end{macrocode} -%\end{macro} -% -%\subsection{Units} -%\begin{macro}{\SI} -%\begin{macro}{\unitsym} -% There are two types of user macros for the units system; those for -% defining new units, prefixes and powers, and those for using them. -% There are two macros for using units, \cs{SI} and \cs{unitsym}, -% which work in very similar ways. \cs{unitsym} is just an alias for -% \cs{SI} with no number; everything is handed off into an internal -% macro. The internal macro also handles the optional prefix -% argument to \cs{SI}\\ -%\cs{SI}\oarg{options}\marg{num} -%\cs{unitsym}\oarg{options}\marg{unit} -% \begin{macrocode} -\DeclareRobustCommand*{\SI}[2][]{% - \@ifnextchar[%] - {\si@SI[#1]{#2}} - {\si@SI[#1]{#2}[]}} -\DeclareRobustCommand*{\unitsym}[2][]{\si@SI[#1]{}[]{#2}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\newunit} -%\begin{macro}{\renewunit} -%\begin{macro}{\provideunit} -% The \cs{newunit} and \cs{renewunit} macros create the new unit -% macros. To allow a mechanism for checking an existing definition, -% these macros simply carry out the appropriate tests, before handing -% off to the internal macro. \cs{@ifdefinable} is not used here as a -% customised error is desirable. Other than that, the code here gives -% very similar results to \cs{newcommand} and \cs{renewcommand}. -% Finally, \cs{provideunit} adds the unit definition only if it does -% not already exist.\\ -%\cs{newunit}\oarg{valuesep=none}\marg{unit}\marg{symbol}\\ -%\cs{renewunit}\oarg{valuesep=none}\marg{unit}\marg{symbol}\\ -%\cs{provideunit}\oarg{valuesep=none}\marg{unit}\marg{symbol} -% \begin{macrocode} -\newcommand*{\newunit}[3][]{% - \si@ifdefinable{#2} - {\si@unt@defunit[#1]{#2}{#3}} - {\si@log@err{Unit \string#2 already defined!}\@eha}} -\newcommand*{\renewunit}[3][]{% - \si@ifdefinable{#2} - {\si@log@err{Unit \string#2 undefined}\@ehc - \si@unt@defunit[#1]{#2}{#3}} - {\si@unt@defunit[#1]{#2}{#3}}} -\newcommand*{\provideunit}[3][]{% - \si@ifdefinable{#2} - {\si@unt@defunit[#1]{#2}{#3}} - {}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\newprefix} -%\begin{macro}{\renewprefix} -%\begin{macro}{\provideprefix} -% The multiples of units are defined here; very similar code is used -% to the \cs{newunit}, \etc., macros. The multiple prefixes cannot take -% an optional argument, and must represent some power. Hence the arguments -% required are different. -%\cs{newprefix}\marg{multiple}\marg{powers-ten}\marg{symbol}\\ -%\cs{renewprefix}\marg{multiple}\marg{powers-ten}\marg{symbol}\\ -%\cs{provideprefix}\marg{multiple}\marg{powers-ten}\marg{symbol} -% \begin{macrocode} -\newcommand*{\newprefix}[3]{% - \si@ifdefinable{#1} - {\si@unt@defprefix{#1}{#2}{#3}} - {\si@log@err{Prefix \string#1 already defined!}\@eha}} -\newcommand*{\renewprefix}[3]{% - \si@ifdefinable{#1} - {\si@log@err{Prefix \string#1 undefined}\@ehc - \si@unt@defprefix{#1}{#2}{#3}} - {\si@unt@defprefix{#1}{#2}{#3}}} -\newcommand*{\provideprefix}[3]{% - \si@ifdefinable{#1} - {\si@unt@defprefix{#1}{#2}{#3}} - {}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\newpower} -%\begin{macro}{\renewpower} -%\begin{macro}{\providepower} -% Here power multiples for units are set up. As with units and -% multiples, a layered approach is used to keep things easy to -% maintain. The optional argument here is \emph{not} a \pkg{keyval} -% one: only \opt{post} is a valid value.\\ -%\cs{newpower}\oarg{post}\marg{num}\marg{power}\\ -%\cs{renewpower}\oarg{post}\marg{num}\marg{power}\\ -%\cs{providepower}\oarg{post}\marg{num}\marg{power} -% \begin{macrocode} -\newcommand*{\newpower}[3][]{% - \si@ifdefinable{#2} - {\si@unt@defpower[#1]{#2}{#3}} - {\si@log@err{Power \string#2 already defined!}\@eha}} -\newcommand*{\renewpower}[3][]{% - \si@ifdefinable{#2} - {\si@log@err{Power \string#2 undefined}\@ehc - \si@unt@defpower[#1]{#2}{#3}} - {\si@unt@defpower[#1]{#2}{#3}}} -\newcommand*{\providepower}[3][]{% - \si@ifdefinable{#2} - {\si@unt@defpower[#1]{#2}{#3}} - {}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -% -%\begin{macro}{\ifsi@unt@num} -% A flag is needed to tell the processor whether there is a number, -% to get the correct spacing. The flag is true outside of the -% processor -% \begin{macrocode} -\newif\ifsi@unt@num\si@unt@numtrue -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@SI} -%\begin{macro}{\si@unt@SIopts} -% The internal processing starts with \cs{si@SI}, which processes the -% second optional argument to \cs{SI} (which is empty for -% \cs{unitsym}). Everything is set up in a group, and processing -% begins by handling the options.\\ -%\cs{si@SI}\oarg{options}\marg{unit}\oarg{preunit}\marg{unit} -% \begin{macrocode} -\def\si@SI[#1]#2[#3]#4{% - \begingroup - \si@ifnotmtarg{#1} - {\sisetup{#1}% - \edef\si@unt@SIopts{#1}}% -% \end{macrocode} -%\end{macro} -% The prefix unit is handled before any processing of the number; the -% flags are set to get spacing correct. -% \begin{macrocode} - \si@unt@numfalse - \si@xspacefalse - \si@ifnotmtarg{#3} - {\si@log@debug{Prefix unit found}% - \si@unt@printunit{#3}}% -% \end{macrocode} -% The numerical argument may be empty, in which case no extra space -% should be produced. -% \begin{macrocode} - \si@ifnotmtarg{#2} - {\si@log@debug{Number found in \string\SI\space argument}% - \num{#2}% - \si@unt@numtrue}% - \si@ifnotmtarg{#4} - {\si@unt@printunit{#4}}% - \endgroup} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@ifliteral} -%\begin{macro}{\ifsi@unt@littest} -% The next stage of the processor is to determine whether or not the -% argument of the unit macro is processable. For literal arguments, -% this is not the case, and the argument is typeset ``as is''. On -% the other hand, any units, \etc., declared by the package will work -% with the processor, and so need to be executed before typesetting -% the result.\\ -%\cs{si@unt@ifliteral}\marg{text} -% \begin{macrocode} -\newif\ifsi@unt@littest -\newcommand*{\si@unt@ifliteral}[1]{% - \begingroup - \si@unt@littesttrue -% \end{macrocode} -% The test relies on any non-processable test having some width; -% hopefully, this should be the case. -% \begin{macrocode} - \setbox\si@tempbox=\hbox{\si@unt@out{#1}}% - \ifdim\wd\si@tempbox>\z@\relax - \endgroup\expandafter\@firstoftwo% - \else - \endgroup\expandafter\@secondoftwo% - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\ifsi@unt@litout} -%\begin{macro}{\si@unt@printunit} -% The printing macro uses the above test to determine how to act. It -% then carries out the appropriate action: either typesetting or -% executing. A flag is also provided so that any macro units inside -% a partially-literal argument will work (this is also needed to -% emulate \unitsdef).\\ -%\cs{si@unt@printunit}\marg{unit} -% \begin{macrocode} -\newif\ifsi@unt@litout -\newcommand{\si@unt@printunit}[1]{% - \si@unt@ifliteral{#1} -% \end{macrocode} -% The unit includes one or more literal items; typeset using the -% unit typesetting macro. -% \begin{macrocode} - {\si@log@debug{Literal items found in unit argument:\MessageBreak - outputting without further processing}% - \si@unt@litouttrue - \si@unt@addvaluesep% - \si@unt@out{#1}} -% \end{macrocode} -% For processable output, the argument is executed; the macros are -% all designed for this. -% \begin{macrocode} - {\si@log@debug{Macro unit found:\MessageBreak - processing to format output}% - \si@unt@init% - \advance\si@unt@depthcnt\@ne\relax - #1% - \si@unt@final}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@addvaluesep} -%\begin{macro}{\si@unt@addvalsep} -%\begin{macro}{\si@unt@litvalsep} -%\begin{macro}{\si@unt@stackvalsep} -% To ensure no problems pop up with expansion, adding the value--unit -% space is handled by a macro. -% \begin{macrocode} -\newcommand*{\si@unt@addvaluesep}{% - \ifsi@unt@num - \expandafter\si@unt@addvalsep% - \fi} -\newcommand*{\si@unt@addvalsep}{% - \ifsi@unt@litout - \expandafter\si@unt@litvalsep% - \else - \expandafter\si@unt@stackvalsep% - \fi} -\newcommand*{\si@unt@stackvalsep}{% - \protected@edef\si@unt@spstack{\si@valuesep}} -\newcommand*{\si@unt@litvalsep}{% - \nobreak\ensuremath{\si@valuesep}\nobreak} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@spstack} -%\begin{macro}{\si@unt@stacka} -%\begin{macro}{\si@unt@stackb} -%\begin{macro}{\si@unt@unitcnta} -%\begin{macro}{\si@unt@unitcntb} -%\begin{macro}{\si@unt@depthcnt} -%\begin{macro}{\ifsi@unt@first} -%\begin{macro}{\si@unt@init} -% The initialisation macro sets up the various switches, and clears -% the storage areas for the formatted output. There are two stacks, -% as when typesetting as fractions, the two parts of the number have -% to be stored separately. The depth counter is used to tell when -% recursion ends in the processor. The ``first'' switch is needed as -% the depth counter will not be at one for items processed by -% \cs{SI}. -% \begin{macrocode} -\newcommand*{\si@unt@spstack}{} -\newcommand*{\si@unt@stacka}{} -\newcommand*{\si@unt@stackb}{} -\newcount\si@unt@unitcnta -\newcount\si@unt@unitcntb -\newcount\si@unt@depthcnt -\newif\ifsi@unt@first -\si@unt@depthcnt\m@ne\relax -\newcommand*{\si@unt@init}{% - \begingroup - \si@unt@litoutfalse - \si@unt@firsttrue - \si@unt@perfalse - \si@unt@perseenfalse - \si@unt@prepowerfalse - \si@unt@depthcnt\z@\relax - \si@unt@powerdim\z@\relax - \si@unt@unitcnta\z@\relax - \si@unt@unitcntb\z@\relax - \si@unt@prefixcnt\z@\relax - \renewcommand*{\si@unt@spstack}{}% - \renewcommand*{\si@unt@stacka}{}% - \renewcommand*{\si@unt@stackb}{}% - \renewcommand*{\si@unt@holdstacka}{}% - \renewcommand*{\si@unt@holdstackb}{}% - \renewcommand*{\si@unt@lastadda}{space}% - \renewcommand*{\si@unt@lastaddb}{space}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@final} -% The finalisation macro finishes off the output and resets the flags. -% \begin{macrocode} -\newcommand*{\si@unt@final}{% - \si@unt@third% - \si@unt@stackout% - \endgroup - \ifsi@xspace - \expandafter\expandafter\expandafter\xspace% - \fi} -% \end{macrocode} -%\end{macro} -% -%\begin{macro}{\si@unt@defunit} -% The internal macro for defining a unit does not check for -% redefinition; that is done by the user macros. -%\cs{si@unt@defunit}\oarg{valuesep=none}\marg{unit}\marg{symbol} -% \begin{macrocode} -\newcommand*{\si@unt@defunit}[3][]{% - \si@log@debug{Declaring unit \string#2 with \MessageBreak - meaning \string#3}% -% \end{macrocode} -% The optional argument can only have the value \opt{valuesep=none}, -% which is used to prevent a space occurring between a number and the -% units (for example, with \cs{degree}). The optional argument needs -% to be saved; \cs{edef} is used so there is no issue with -% redefinition. The macro name is effectively ``reversed'' so that -% life is easier with the expansions here. -% \begin{macrocode} - \si@ifnotmtarg{#1} - {\expandafter\expandafter\expandafter\def\expandafter% - \csname\expandafter\@gobble\string#2@opt@unt@si\endcsname{#1}}% -% \end{macrocode} -% The unit macro itself is now defined. The definition simply -% selects the correct path for the rest of the processing to go down. -% To avoid needing specialised gobbling macros, the optional nature -% of the first argument is dropped. -% \begin{macrocode} - \DeclareRobustCommand*{#2}[1][]{% - \ifsi@unt@littest - \expandafter\si@gobblethree - \else -% \end{macrocode} -% For literal output, the third argument is all that is needed. -% \begin{macrocode} - \ifsi@unt@litout - \expandafter\expandafter\expandafter\@gobbletwo - \else - \expandafter\expandafter\expandafter\si@unt@unit% - \fi - \fi - {##1}{#2}{#3}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@gobblethree} -% \LaTeX\ does not have a \cs{@gobblethree} macro, but one is needed. -% \begin{macrocode} -\long\def \si@gobblethree #1#2#3{} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@defprefix} -% As with units, multiples are defined by an internal macro. -%\cs{si@unt@defprefix}\marg{multiple}\marg{powers-ten}\marg{symbol}\\ -% \begin{macrocode} -\newcommand*{\si@unt@defprefix}[3]{% - \si@log@debug{Declaring multiple \string#1 with \MessageBreak - meaning \string#3}% - \DeclareRobustCommand{#1}{% - \ifsi@unt@littest - \expandafter\si@gobblethree - \else - \ifsi@unt@litout - \expandafter\expandafter\expandafter\@gobbletwo - \else - \expandafter\expandafter\expandafter\si@unt@prefix% - \fi - \fi - {#1}{#2}{#3}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@defpower} -% The definition of powers is complicated by the need to handle both -% those given before units (such as \cs{cubic}) and those given after -% (\eg~\cs{cubed}). This means that an optional argument is -% needed.\\ -%\cs{si@unt@defpower}\oarg{post}\marg{power}\marg{num} -% \begin{macrocode} -\newcommand*{\si@unt@defpower}[3][]{% - \si@log@debug{Declaring power \string#2 with \MessageBreak - meaning \string#3}% -% \end{macrocode} -% Once again the optional argument is saved. -% \begin{macrocode} - \expandafter\expandafter\expandafter\edef\expandafter% - \csname\expandafter\@gobble\string#2@opt@si\endcsname{#1}% - \DeclareRobustCommand{#2}{% - \ifsi@unt@littest - \expandafter\@gobbletwo - \else -% \end{macrocode} -% The literal output here does not need to gobble anything, but uses -% \cs{textsuperscript} to get the correct effect. This will of -% course give very odd results for prefix powers. -% \begin{macrocode} - \ifsi@unt@litout - \expandafter\expandafter\expandafter\si@unt@litpower% - \else - \expandafter\expandafter\expandafter\si@unt@power% - \fi - \fi - {#2}{#3}}} -% \end{macrocode} -%\end{macro} -% -%\begin{macro}{\si@unt@unithook} -%\begin{macro}{\si@unt@unit} -% The macro for units is actually a processor, rather than -% typesetting anything, which is handled elsewhere. The first -% argument to the macro is optional, but does not have square -% brackets to keep things simple with gobbling.\\ -%\cs{si@unt@unit}\marg{num}\marg{unit}\marg{symbol} -% \begin{macrocode} -\newcommand*{\si@unt@unithook}{} -\newcommand*{\si@unt@unit}[3]{% -% \end{macrocode} -% When the count is minus one at the start of the processor, then the -% unit is begin used on its own: initialisation occurs. -% \begin{macrocode} - \ifnum\si@unt@depthcnt=\m@ne\relax - \expandafter\si@unt@init% - \fi - \advance\si@unt@depthcnt\@ne\relax - \si@log@debug{Unit processing: level \the\si@unt@depthcnt, - \MessageBreak unit \string#2}% - \si@unt@firstorsecond{#1}{#2}% -% \end{macrocode} -% The core of the \cs{si@unt@unit} macro is testing if the symbol for -% the unit is a literal value or another macro. Depending on the -% result, the symbol is either used as a literal or executed. -% \begin{macrocode} - \si@unt@ifliteral{#3} - {\si@unt@addtostack{unit}{#3}% - \ifsi@unt@prepower - \expandafter\si@unt@stkpower% - \fi} - {#3}% -% \end{macrocode} -% The counter is now stepped down, before checking if this is -% the end of a compound unit. -% \begin{macrocode} - \advance\si@unt@depthcnt\m@ne\relax - \ifnum\si@unt@depthcnt=\z@\relax - \expandafter\si@unt@final% - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@firstorsecond} -% At this stage, the flag will be set for the first item to be -% processed whichever route the unit has been called by.\\ -%\cs{si@unt@firstorsecond}\marg{num}\marg{macro} -% \begin{macrocode} -\newcommand{\si@unt@firstorsecond}[2]{% - \ifsi@unt@first - \expandafter\si@unt@first% - \else - \expandafter\si@unt@second% - \fi - {#1}{#2}}% -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@first} -% For the first unit in the input, some extra tasks are needed. -% First, the optional argument for the unit macro needs to be -% tested.\\ -%\cs{si@unt@first}\marg{num}\marg{unit} -% \begin{macrocode} -\newcommand*{\si@unt@first}[2]{% - \si@ifnotmtarg{#1} - {\num{#1}}% - \si@unt@unithook% -% \end{macrocode} -% To avoid filling up the macro list with useless values, the \eTeX\ -% primitive \cs{ifcsname} is employed here (it also avoids complex -% expansion issues). If some options exist, they are set. -% \begin{macrocode} - \ifcsname\expandafter\@gobble\string#2@opt@unt@si\endcsname - \expandafter\si@unt@setopts% - \else - \expandafter\@gobble - \fi - {#2}% - \si@unt@addvaluesep% - \si@unt@firstfalse} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@setopts} -%\begin{macro}{\si@unt@setSIopts} -% A rather long set of \cs{expandafter} commands to get the options -% to set safely.\\ -%\cs{si@unt@setopts}\marg{unit} -% \begin{macrocode} -\newcommand*{\si@unt@setopts}[1]{% - \expandafter\expandafter\expandafter\expandafter\expandafter% - \expandafter\expandafter\si@temptoks\expandafter\expandafter% - \expandafter\expandafter\expandafter\expandafter\expandafter{% - \expandafter\csname\expandafter\@gobble\string#1@opt@unt@si% - \endcsname}% - \expandafter\sisetup\expandafter{\the\si@temptoks}% - \si@log@debug{Applying options ``\the\si@temptoks'' - for\MessageBreak unit \string#1}% -% \end{macrocode} -% The user options are reloaded, if defined, to ensure that they -% still work as expected. -% \begin{macrocode} - \@ifundefined{si@unt@SIopts}{} - {\ifx\@empty\si@unt@SIopts\@empty\else - \expandafter\expandafter\si@unt@setSIopts% - \fi}} -\newcommand*{\si@unt@setSIopts}{% - \expandafter\si@temptoks\expandafter{\si@unt@SIopts}% - \expandafter\sisetup\expandafter{\the\si@temptoks}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@second} -%\begin{macro}{\si@unt@third} -% For everything apart from the first item to be processed, spacing -% may need to be added to separated different units. The macro is -% divided into two, so that everything except the space can be added -% in finalisation.\\ -%\cs{si@unt@second}\marg{num}\marg{unit} -% \begin{macrocode} -\newcommand{\si@unt@second}[2]{% - \si@ifnotmtarg{#1} - {\si@log@warn{Optional argument to unit macro\MessageBreak - allowed only for outer unit}}% - \si@unt@third% - \si@unt@addtostack{space}{\ensuremath{\si@unitsep}}} -\newcommand*{\si@unt@third}{% - \ifsi@unt@prepower\else - \expandafter\si@unt@stkpower% - \fi -% \end{macrocode} -%\begin{macro}{\si@tempa} -% A check is made to avoid adding $-1$ to prefixes. If \opt{frac} is -% active, then the |b| stack will be in use, otherwise it will be -% |a|. -% \begin{macrocode} - \def\si@tempa{prefix}% - \expandafter\ifx\csname si@unt@lastadd\si@unt@checkstack% - \endcsname\si@tempa\else - \expandafter\si@unt@spacecheck% - \fi - \ifsi@unt@per - \expandafter\si@unt@perseentrue - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@spacecheck} -% A check to prevent adding $-1$ at the very beginning of the unit, where -% there is a space on the stack. -% \begin{macrocode} -\newcommand*{\si@unt@spacecheck}{% - \def\si@tempa{space}% - \expandafter\ifx\csname si@unt@lastadd\si@unt@checkstack% - \endcsname\si@tempa\else - \expandafter\si@unt@reciptest% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@prefix} -% Actual output of the prefixes.\\ -%\cs{si@unt@prefix}\marg{multiple}\marg{powers-ten}\marg{symbol} -% \begin{macrocode} -\newcommand*{\si@unt@prefix}[3]{% - \si@unt@firstorsecond{}{#1}% - \ifsi@prefixnum - \expandafter\si@unt@countprefix% - \else - \expandafter\si@unt@addprefix% - \fi - {#2}{#3}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@addprefix} -% To add the prefix, a little translation is needed.\\ -%\cs{si@unt@countprefix}\marg{gobble}\marg{symbol} -% \begin{macrocode} -\newcommand*{\si@unt@addprefix}[2]{\si@unt@addtostack{prefix}{#2}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@prefixcnt} -%\begin{macro}{\si@unt@countprefix} -%\begin{macro}{\si@unt@invprefix} -% On the other hand, to count the prefix numeral, the symbol is -% thrown away. -%\cs{si@unt@countprefix}\marg{powers-ten}\marg{gobble} -% \begin{macrocode} -\newcount\si@unt@prefixcnt -\newcommand*{\si@unt@countprefix}[2]{% - \si@tempcnta#1\relax - \ifsi@unt@per - \si@unt@invprefix% - \fi - \advance\si@unt@prefixcnt\si@tempcnta\relax} -\newcommand*{\si@unt@invprefix}{% - \si@tempcntb\si@tempcnta\relax - \si@tempcnta -\si@tempcntb\relax} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@litpower} -% For literal power output, the number can't simply be dumped, so -% a macro is needed.\\ -%\cs{si@unt@litpower}\marg{gobble}\marg{num} -% \begin{macrocode} -\newcommand*{\si@unt@litpower}[2]{\textsuperscript{#2}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@unt@prepower} -%\begin{macro}{\si@unt@power} -% The handling of powers starts by checking if the number needs to be -% reversed. -%\cs{si@unt@power}\marg{power}\marg{num} -% \begin{macrocode} -\newif\ifsi@unt@prepower -\newcommand*{\si@unt@power}[2]{% - \si@unt@powerdim #2 pt\relax - \ifsi@frac\else - \ifsi@unt@per - \expandafter\expandafter\expandafter\si@unt@invpower% - \fi - \fi - \def\si@tempa{post}% - \si@unt@prepowertrue - \expandafter\expandafter\expandafter\ifx\expandafter% - \csname\expandafter\@gobble\string#1@opt@si\endcsname\si@tempa - \expandafter\si@unt@stackpower% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@powerdim} -% To do sign-inversion on the power, a dimension is used (this allows -% non-integer values to be handled). -% \begin{macrocode} -\newdimen\si@unt@powerdim -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@stackpower} -%\begin{macro}{\si@unt@stkpower} -%\begin{macro}{\si@unt@stkpwr} -% Adding powers to the stack should also clear the power list. If -% the number is already zero, then of course nothing happens. -% \begin{macrocode} -\newcommand*{\si@unt@stackpower}{% - \si@unt@prepowerfalse -% \end{macrocode} -% A trap is used for $-1$ added to the denominator of a fraction. -% \begin{macrocode} - \si@unt@stkpower% - \si@unt@perfalse - \si@unt@perseenfalse} -% \end{macrocode} -% The \cs{si@unt@stkpower} macro needs to be called from a few -% places, so is spun out from the above. -% \begin{macrocode} -\newcommand*{\si@unt@stkpower}{% - \ifdim\si@unt@powerdim=\m@ne pt\relax - \ifsi@frac\else - \expandafter\expandafter\expandafter\si@unt@stkpwr% - \fi - \else - \expandafter\si@unt@stkpwr% - \fi} -% \end{macrocode} -% Finally, the actual adding (set up to avoid problems with the -% \cs{if} above). -% \begin{macrocode} -\newcommand*{\si@unt@stkpwr}{% - \ifdim\si@unt@powerdim=\z@\relax\else - \edef\si@tempa{unit}% - \expandafter\ifx\csname si@unt@lastadd\si@unt@checkstack% - \endcsname\si@tempa - \si@unt@addtostack{power}{^{\num{\strip@pt\si@unt@powerdim}}}% - \fi - \fi - \si@unt@powerdim\z@\relax} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@invpower} -% A macro to change the sign of the current power. -% \begin{macrocode} -\newcommand*{\si@unt@invpower}{% - \si@tempdima\si@unt@powerdim\relax - \si@unt@powerdim -\si@tempdima\relax -% \end{macrocode} -% The power might end up as ``1'', which is not wanted. So it is -% chucked away. -% \begin{macrocode} - \ifdim\si@unt@powerdim=\p@\relax - \si@unt@powerdim\z@\relax - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\ifsi@unt@per} -%\begin{macro}{\ifsi@unt@perseen} -%\begin{macro}{\per} -%\begin{macro}{\si@per} -% The \cs{per} macro sets the correct flags; almost everything else -% is done elsewhere. There is always the case of two \cs{per} -% instructions; so the flag is flipped rather than set arbitrarily. -% The second flag is needed so that \cs{per} can give powers of $-1$ -% properly. -% \begin{macrocode} -\newif\ifsi@unt@per -\newif\ifsi@unt@perseen -\DeclareRobustCommand*{\per}{\si@per} -\newcommand*{\si@per}{% - \si@unt@firstorsecond{}{\per}% - \ifsi@unt@per - \expandafter\si@unt@perfalse - \else - \expandafter\si@unt@pertrue - \fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@reciptest} -%\begin{macro}{\si@unt@recip} -% A test is needed for adding $-1$ when needed. The second macro is -% fired only if the power should be reciprocal. -% \begin{macrocode} -\newcommand*{\si@unt@reciptest}{% - \ifsi@unt@per - \ifsi@unt@perseen - \expandafter\expandafter\expandafter\si@unt@recip% - \fi - \fi} -\newcommand*{\si@unt@recip}{% - \si@unt@powerdim\m@ne pt\relax - \si@unt@stackpower} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@lastadda} -%\begin{macro}{\si@unt@lastaddb} -%\begin{macro}{\si@unt@addtostack} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% Items cannot be added directly to the stacks (except the spacing -% stack, a) as the fractional handling may need to add the item to -% either storage area. By indicating the type of data to be added to -% the stack, problems can be avoided.\\ -%\cs{si@unt@addtostack}\marg{type}\marg{token} -% \begin{macrocode} -\newcommand*{\si@unt@lastadda}{} -\newcommand*{\si@unt@lastaddb}{} -\newcommand*{\si@unt@addtostack}[2]{% - \edef\si@tempa{#1}% -% \end{macrocode} -% Two consecutive items cannot be of the same type; there must be spaces -% between units, units between prefixes, \etc. -% \begin{macrocode} - \expandafter\ifx\csname si@unt@lastadd\si@unt@checkstack\endcsname% - \si@tempa - \expandafter\@gobbletwo - \else - \expandafter\si@unt@preplussp% - \fi - {#1}{#2}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@preplussp} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% The space added after a prefix needs to be ignored. -%\cs{si@unt@prespace}\marg{type}\marg{stack}\marg{token}\marg{gobble} -% \begin{macrocode} -\newcommand*{\si@unt@preplussp}[2]{% - \def\si@tempa{prefix+space}% - \edef\si@tempb{\csname si@unt@lastadd\si@unt@checkstack% - \endcsname+#1}% - \ifx\si@tempa\si@tempb - \expandafter\@gobbletwo - \else - \expandafter\si@unt@stack% - \fi - {#1}{#2}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@stack} -% The macro for actually doing the stacking up.\\ -%\cs{si@unt@stack}\marg{type}\marg{tokens} -% \begin{macrocode} -\newcommand*{\si@unt@stack}[2]{% - \expandafter\edef\csname si@unt@lastadd\si@unt@checkstack% - \endcsname{#1}% -% \end{macrocode} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% A count is kept of the number of \emph{units} added to each stack. -% \begin{macrocode} - \edef\si@tempa{#1}% - \def\si@tempb{unit}% - \ifx\si@tempa\si@tempb - \expandafter\si@unt@inccnt% - \fi -% \end{macrocode} -% If a space is added, it is actually held until the next add. -% \begin{macrocode} - \def\si@tempb{space}% - \ifx\si@tempa\si@tempb - \expandafter\si@unt@holdspace% - \else - \expandafter\si@unt@addstack% - \fi - {#2}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@inccnt} -% The appropriate counter is added to. -% \begin{macrocode} -\newcommand*{\si@unt@inccnt}{% - \expandafter\advance\csname si@unt@unitcnt\si@unt@checkstack% - \endcsname\@ne\relax} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@holdspace} -%\begin{macro}{\si@unt@addstack} -%\begin{macro}{\si@unt@holdstacka} -%\begin{macro}{\si@unt@holdstackb} -% Depending on the nature of the addition, it is either held or added -% to the stack.\\ -%\cs{si@unt@holdspace}\marg{tokens}\\ -%\cs{si@unt@addstack}\marg{tokens}\\ -% \begin{macrocode} -\newcommand*{\si@unt@holdstacka}{} -\newcommand*{\si@unt@holdstackb}{} -\newcommand*{\si@unt@holdspace}[1]{% - \expandafter\protected@edef\csname si@unt@holdstack% - \si@unt@checkstack\endcsname{#1}} -\newcommand*{\si@unt@addstack}[1]{% - \expandafter\protected@edef\csname si@unt@stack% - \si@unt@checkstack\endcsname% - {\csname si@unt@stack\si@unt@checkstack\endcsname% - \csname si@unt@holdstack\si@unt@checkstack\endcsname#1}% - \expandafter\renewcommand\expandafter*\expandafter{% - \csname si@unt@holdstack\si@unt@checkstack\endcsname}{}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@stackout} -% The stack contents are actually typeset here. First the spacing -% between units and values is added. -% \begin{macrocode} -\newcommand*{\si@unt@stackout}{% - \ifsi@frac - \expandafter\si@unt@fracout% - \else - \expandafter\si@unt@normout% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@checkstack} -% Which stack is in use needs to be tested. -% \begin{macrocode} -\newcommand*{\si@unt@checkstack}{% - \ifsi@frac - \ifsi@unt@per - \expandafter\expandafter\expandafter b% - \else - \expandafter\expandafter\expandafter a% - \fi - \else - \expandafter a% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@spaceout} -% The space before a unit might not be needed, so it crops up a few -% times in the output routine. -% \begin{macrocode} -\newcommand*{\si@unt@spaceout}{% - \ensuremath{\si@unt@spstack}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@prefixout} -% If the prefix counter is not zero, then there is something to -% typeset. -% \begin{macrocode} -\newcommand*{\si@unt@prefixout}{% - \ifnum\si@unt@prefixcnt=\z@\relax\else - \ifsi@unt@num - \si@out@text{\ensuremath{{}\si@prefixproduct{}}}% - \fi - \let\si@exppower\si@prefixpower - \num{e\the\si@unt@prefixcnt}% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@normout} -% The normal output mode is set up here; nothing much needs to be -% done as there is no need for complex checks. -% \begin{macrocode} -\newcommand*{\si@unt@normout}{% - \si@unt@prefixout% - \si@unt@spaceout% - \expandafter\si@unt@out\expandafter{\si@unt@stacka}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@fracout} -% For fractions, some checks are needed. -% \begin{macrocode} -\newcommand*{\si@unt@fracout}{% - \si@unt@notambig% - \ifx\@empty\si@unt@stacka\@empty - \ifx\@empty\si@unt@stackb\@empty - \ifsi@unt@litout\else - \si@log@err{Empty fractional unit}{The unit - argument\MessageBreak given does not contain any - symbols}% - \fi - \else -% \end{macrocode} -% With an empty numerator, no space is added -% \begin{macrocode} - \ifsi@slash - \si@unt@prefixout% - \si@frac{}{\si@unt@stackb}% - \else - \si@unt@prefixout% - \si@unt@spaceout% - \si@frac{1}{\si@unt@stackb}% - \fi - \fi - \else -% \end{macrocode} -% If the denominator is empty, then the usual output system can be -% used. -% \begin{macrocode} - \ifx\@empty\si@unt@stackb\@empty - \si@unt@normout% - \else - \si@unt@prefixout% - \si@unt@spaceout% - \si@frac{\si@unt@stacka}{\si@unt@stackb}% - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@notambig} -%\begin{macro}{\si@unt@notabg} -% A trap is set for adding brackets to units using a slash, when more -% than one unit is in the denominator. -% \begin{macrocode} -\newcommand*{\si@unt@notambig}{% - \ifnum\si@unt@unitcntb>\@ne\relax - \ifsi@slash - \expandafter\expandafter\expandafter\si@unt@notabg% - \fi - \fi} -\newcommand*{\si@unt@notabg}{% - \protected@edef\si@unt@stackb{\si@denlbrac\si@unt@stackb% - \si@denrbrac}} -% \end{macrocode} -%\end{macro} -%\end{macro} -% -%\begin{macro}{\si@unt@out} -% The final part of the units system is the output routine. This has -% to cope with units not only as macros but also as direct input -% (\sistyle-type input). Non-Latin characters are also handled -% cleanly. As usual, \cs{scantokens} is used to make life easier.\\ -%\cs{si@unt@out}\marg{unit} -% \begin{macrocode} -\begingroup - \catcode`\~=\active - \catcode`\.=\active - \gdef\si@unt@out#1{% - \begingroup - \si@unt@nonlatin% - \makeatletter% - \catcode`\~=\active - \catcode`\.=\active - \def~{\ensuremath{\si@unitspace}}% - \def.{\ensuremath{\si@unitsep}}% - \scantokens{\si@out@text{#1}\@empty}% - \endgroup} -\endgroup -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@unt@nonlatin} -% To handle non-Latin symbols in the input, a single macro is -% provided. Initially, it does nothing -% \begin{macrocode} -\newcommand*{\si@unt@nonlatin}{\relax} -% \end{macrocode} -% The meaning of different characters depends on the encoding used. -% Thus a test is made for the presence of a suitable package -% \emph{and} the encoding in use. The various characters can then be -% handled. -%\begin{macro}{\si@tempa} -% \begin{macrocode} -\AtBeginDocument{% - \@ifpackageloaded{inputenc} - {\def\si@tempa{latin1}% - \ifx\inputencodingname\si@tempa -% \end{macrocode} -% The degree symbol is character 176 and the micro symbol is -% character 181 in latin1. -% \begin{macrocode} - \si@unt@sym{176}{\si@sym@degree}% - \si@unt@sym{181}{\si@sym@mu}% - \si@unt@sym{229}{\si@sym@ringA}% - \fi} -% \end{macrocode} -% No \pkg{inputenc} available. -% \begin{macrocode} - {}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@unt@sym} -% A macro for declaring symbols: a copy of \cs{DeclareInputMath} from -% \pkg{inputenc}.\\ -%\cs{si@unt@sym}\marg{charcode} -% \begin{macrocode} -\newcommand*{\si@unt@sym}[1]{% - \bgroup - \uccode`\~#1% - \uppercase{% - \egroup - \def~}} -% \end{macrocode} -%\end{macro} -% -%\begin{macro}{\kilogram} -%\begin{macro}{\metre} -%\begin{macro}{\mole} -%\begin{macro}{\kelvin} -%\begin{macro}{\candela} -%\begin{macro}{\second} -%\begin{macro}{\ampere} -% With the system set up, the basic unit macros are implemented. The -% only units defined whatever options are given are the base SI -% units. -% \begin{macrocode} -\newunit{\kilogram}{kg} -\newunit{\metre}{m} -\newunit{\mole}{mol} -\newunit{\second}{s} -\newunit{\ampere}{A} -\newunit{\kelvin}{K} -\newunit{\candela}{cd} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\Square} -%\begin{macro}{\squared} -%\begin{macro}{\cubic} -%\begin{macro}{\cubed} -% Unlike multiples (which can be skipped if needed), the basic powers -% are also always defined. -% \begin{macrocode} -\newpower{\Square}{2} -\newpower[post]{\squared}{2} -\newpower{\cubic}{3} -\newpower[post]{\cubed}{3} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\tothe} -%\begin{macro}{\tothe@opt@si} -% A macro for arbitrary powers, which comes after the unit and so -% needs to be marked as such.\\ -%\cs{tothe}\marg{num} -% \begin{macrocode} -\newcommand*{\tothe}[1]{% - \ifsi@unt@littest - \expandafter\@gobbletwo - \else - \ifsi@unt@litout - \expandafter\expandafter\expandafter\si@unt@litpower% - \else - \expandafter\expandafter\expandafter\si@unt@power% - \fi - \fi - {\tothe}{#1}} -\newcommand*{\tothe@opt@si}{post} -% \end{macrocode} -%\end{macro} -%\end{macro} -% -%\subsection{Locales} -%\begin{macro}{\si@loc@load} -%\begin{macro}{\si@loc@sisetup} -% When loading a locale, the setup is saved rather than applied. -% Anything other than simple settings should be inside -% \cs{addtolocale}, which is already defined.\\ -%\cs{si@loc@load}\marg{locale} -% \begin{macrocode} -\newcommand*{\si@loc@load}[1]{% - \let\si@loc@sisetup\sisetup - \renewcommand*{\sisetup}[1]{% - \expandafter\def\csname si@loc@#1\endcsname{##1}} - \si@loadfile{#1}% - \let\sisetup\si@loc@sisetup} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@loc@set} -% Setting the locale transfers the settings to \cs{sisetup}, and runs -% any extra macros.\\ -%\cs{si@loc@set}\marg{locale} -% \begin{macrocode} -\newcommand*{\si@loc@set}[1]{% - \ifcsname si@loc@#1\endcsname - \si@log@inf{Setting locale to `#1'}% - \expandafter\expandafter\expandafter\expandafter\expandafter% - \expandafter\expandafter\si@temptoks\expandafter\expandafter% - \expandafter\expandafter\expandafter\expandafter\expandafter{% - \expandafter\csname si@loc@#1\endcsname}% - \expandafter\sisetup\expandafter{\the\si@temptoks}% - \ifcsname si@loc@#1@extra\endcsname - \csname si@loc@#1@extra\endcsname% - \fi - \else - \ifcsname si@loc@#1@extra\endcsname - \si@log@inf{Setting locale to `#1'}% - \csname si@loc@#1@extra\endcsname% - \else - \si@log@warn{Unknown locale `#1'}% - \fi - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\addtolocale} -% Arbitrary macros may need to be added to the locale.\\ -%\cs{addtolocale}\marg{locale}\marg{commands} -% \begin{macrocode} -\newcommand*{\addtolocale}[2]{\si@addtocsname{si@loc@#1@extra}{#2}} -% \end{macrocode} -%\end{macro} -% -%\subsection{Output routine} -%\begin{macro}{\si@out@text} -% With all of the setup done, the text can finally be typeset. This -% is done inside a \cs{text} block, which takes care of -% \cs{ensuremath}, \etc. First of all, the various catcode settings -% needed to get maths-in-text mode are made. \cs{makeatletter} is -% needed so that \cs{scantokens} still allows internal macros to -% work.\\ -%\cs{si@out@text}\marg{text} -% \begin{macrocode} -\begingroup - \catcode`\^=\active\relax - \catcode`\-=\active\relax - \gdef\si@out@text#1{% - \begingroup - \catcode`\^=\active\relax% - \makeatletter% -% \end{macrocode} -% The various font families can now be set up. First a check is made -% in case there are nested calls to \cs{si@out@text}. -% \begin{macrocode} - \ifsi@fam@set\else - \expandafter\si@fam@set% - \fi - \text{\si@fam@italic\si@fam@bold\si@fam@text% -% \end{macrocode} -% In text mode, |^| will execute \cs{textsuperscript}, whereas in -% maths mode it will be converted to \cs{sp}, which the kernel -% defines as |^| with catcode 7. \cs{scantokens} is used to set the -% catcodes here, plus any others that have been set by other pars of -% the package. -% \begin{macrocode} - \ifsi@textmode - \let^\textsuperscript - \catcode`\-=\active\relax% - \let-\si@out@minus -% \end{macrocode} -% The \cs{@empty} is needed here to mop up any extra space. -% \begin{macrocode} - \scantokens{#1\@empty}% - \else - \let^\sp - \let\textsuperscript\sp - $\si@fam@maths{\scantokens{#1}}$% - \fi}% -% \end{macrocode} -% Everything is done; a bit of tidying up is needed. -% \begin{macrocode} - \endgroup - \check@mathfonts} -\endgroup -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@out@minus} -% An active minus sign is needed. -% \begin{macrocode} -\newcommand*{\si@out@minus}{\ensuremath{-}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@out@num} -% For numerical output, the default fonts are controlled slightly -% differently to text output.\\ -%\cs{si@out@num}\marg{num} -% \begin{macrocode} -\newcommand*{\si@out@num}[1]{% - \begingroup - \sisetup{% - textdefault=\si@textnumdefault,% - mathdefault=\si@mathnumdefault}% - \si@out@text{#1}% - \endgroup} -% \end{macrocode} -%\end{macro} -% -%\subsection{Finalisation} -% With the \currpkg kernel macros defined, the package can now run -% through finalisation. First, the default key values are set. The -% user options are then processed. -% \begin{macrocode} -\sisetup{ - unitsep=thin, - valuesep=thin, - decimalsign=fullstop, - digitsep=thin, - obeybold=false, - inlinebold=text, - obeyitalic=false, - sign=plus, - addsign=none, - obeymode=false, - mode=maths, - padangle=small, - padnumber=lead, - sepfour=false, - tabformat=-1, - xspace=false, - per=reciprocal, - slash=slash, - mathsdefault=\si@mathsrm, - mathsrm=mathrm, - mathssf=mathsf, - mathstt=mathtt, - textdefault=\si@textrm, - textrm=rmfamily, - textsf=sffamily, - texttt=ttfamily, - mathsnumdefault=\si@mathsrm, - textnumdefault=\si@textrm, - numlist=0123456789, - numdecimal={.,}, - numexp=eEdD, - numgobble={}, - numsign=+-\pm\mp, - numextra=(), - redefsymbols=true, - load=default, - noload={}, - eVcorra={0.3ex}, - eVcorrb={0ex}, - denlbrac=(, - denrbrac=), - astroang=false, - loadlocales={}, - loctolang={}, - prefix=symbol, - prefixpower=ten, - prefixproduct=times} -\ProcessOptionsX[si]<opt> -% \end{macrocode} -%\begin{macro}{\si@extension} -%\begin{macro}{\si@fileprefix} -% To keep the code easy to maintain, the reusable filename components -% are macros rather than literals. -% \begin{macrocode} -\newcommand*{\si@extension}{cfg} -\newcommand*{\si@fileprefix}{si-} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@ifloaded} -% A bit of borrowing from the \LaTeX\ kernel.\\ -%\cs{si@ifloaded}\marg{package} -% \begin{macrocode} -\newcommand*{\si@ifloaded}[1]{% - \@ifl@aded\si@extension{\si@fileprefix#1}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@loadfile} -% Loading configuration files is handled here.\\ -%\cs{si@loadfile}\marg{file} -% \begin{macrocode} -\newcommand*{\si@loadfile}[1]{% - \si@ifloaded{#1}{} - {\InputIfFileExists{\si@fileprefix#1.\si@extension} - {} - {\si@log@err{Failed to load file - \si@fileprefix#1.\si@extension} - {The configuration file requested could not be found}}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@requirecfgs} -%\changes{v0.6a}{2008/02/20}{Changed temporary macro used to fix -% bug with \pkg{memoir} and \textsc{koma}-script} -%\begin{macro}{\si@tempb} -% The configuration files depend on each other.\\ -%\cs{si@requirecfgs}\marg{cfg-file} -% \begin{macrocode} -\newcommand*{\si@requirecfgs}[1]{% - \@for\si@tempb:=#1\do{\si@loadfile{\si@tempb}}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@loademfile} -% For emulation files, an additional check is made.\\ -%\cs{si@loademfile}\marg{file} -% \begin{macrocode} -\newcommand*{\si@loademfile}[1]{% - \@ifpackageloaded{#1} - {\si@log@err{Emulation clash for package `#1'} - {You have asked for emulation of package `#1'\MessageBreak - (perhaps by giving si a back-compatibility - option)\MessageBreak but the package is already loaded!}} - {\si@loadfile{#1}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@emclash} -% A macro for emulation clashes. -% \begin{macrocode} -\newcommand*{\si@emclash}[2]{% - \si@log@err{Emulation clash: `#1' and `#2'} - {You have asked for emulation of package `#1'\MessageBreak - but have already loaded emulation of `#2'}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@tempa} -% A check is now made so that emulation takes place one file at a -% time, and that each file is loaded only once. -% \begin{macrocode} -\ifx\@empty\si@emulate\@empty\else - \@for\si@tempa:=\si@emulate\do{% - \si@loademfile{\si@tempa}} -\fi -% \end{macrocode} -%\end{macro} -%\begin{macro}{\si@expanddefault} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -%\begin{macro}{\si@tempc} -% For turning the list of default choices into a loadable list. -% \begin{macrocode} -\newcommand*{\si@expanddefault}[2]{% -\expandafter\ifx\expandafter\@empty\csname si@#1\endcsname\@empty -\else - \def\si@tempb{default} - \def\si@tempc{} - \expandafter\@for\expandafter\si@tempa\expandafter:\expandafter - =\csname si@#1\endcsname\do{% - \ifx\si@tempa\si@tempb - \si@addtolist{\si@tempc}{#2} - \else - \si@addtolist{\si@tempc}{\si@tempa} - \fi} - \expandafter\edef\csname si@#1\endcsname{\si@tempc} - \expandafter\si@addtolist\expandafter{\csname si@no#1\endcsname} - {default} - \def\si@tempc{} - \expandafter\@for\expandafter\si@tempa\expandafter:\expandafter - =\csname si@#1\endcsname\do{% - \si@switchfalse - \expandafter\@for\expandafter\si@tempb\expandafter:\expandafter - =\csname si@no#1\endcsname\do{% - \ifx\si@tempa\si@tempb - \si@switchtrue - \fi - \ifsi@switch\else - \si@addtolist{\si@tempc}{\si@tempa} - \fi}} - \@for\si@tempa:=\si@tempc\do{% - \si@loadfile{\si@tempa}} -\fi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -% The configuration and abbreviation files are loaded. -% \begin{macrocode} -\si@expanddefault{load}{prefix,named,addn,prefixed,accepted,% - physical,abbr} -% \end{macrocode} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@tempb} -% The locale files are loaded; here there is a need to check on both -% \opt{loadlocales} and \opt{loctolang}. -% \begin{macrocode} -\ifx\@empty\si@loadlocales\@empty\else - \@for\si@tempa:=\si@loadlocales\do{% - \si@loc@load{\si@tempa}} -\fi -% \end{macrocode} -% For \opt{loctolang}. -% \begin{macrocode} -\ifx\@empty\si@loctolang\@empty\else - \def\si@tempa#1:#2\@nil{\si@loc@load{#1}} - \@for\si@tempb:=\si@loctolang\do{% - \expandafter\si@tempa\si@tempb:\@nil} - \AtBeginDocument{% - \@ifpackageloaded{babel} - {\def\si@tempa#1:#2:#3\@nil{% - \expandafter\addto\expandafter{\csname extras#2\endcsname}% - {\si@loc@set{#1}}}% - \@for\si@tempb:=\si@loctolang\do{% - \expandafter\si@tempa\si@tempb::\@nil}} - {\si@log@warn{babel not loaded - option\MessageBreak - loctolang ignored}}} -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -% The very last job is to load a local configuration file, if one -% exists. -% \begin{macrocode} -\IfFileExists{si.cfg} - {\si@log@inf{Local configuration file found}% - \InputIfFileExists{si.cfg}{}{}} - {} -% \end{macrocode} -% -%\iffalse -%</package> -%\fi -% -%\section{Loadable modules} -% To keep the package relatively clear, and to make maintenance -% easier, the only units defined in the package itself are the base -% units. Everything else is a loadable module (similar to the -% approach in \unitsdef). -% -%\iffalse -%<*prefix> -%\fi -%\subsection{Multiple prefixes} -%\begin{macro}{\yocto} -%\begin{macro}{\zepto} -%\begin{macro}{\atto} -%\begin{macro}{\femto} -%\begin{macro}{\pico} -%\begin{macro}{\nano} -%\begin{macro}{\micro} -%\begin{macro}{\Micro} -%\begin{macro}{\milli} -%\begin{macro}{\centi} -%\begin{macro}{\deci} -% The various SI multiple prefixes are defined here. First the small -% powers. -% \begin{macrocode} -\ProvidesFile{si-prefix.cfg} - [2008/02/20 v.06a SI Multiple prefixes] -\newprefix{\yocto}{-24}{y} -\newprefix{\zepto}{-21}{z} -\newprefix{\atto}{-18}{a} -\newprefix{\femto}{-15}{f} -\newprefix{\pico}{-12}{p} -\newprefix{\nano}{-9}{n} -% \end{macrocode} -% Some testing is needed for \unitsdef compatibility. -% \begin{macrocode} -\ifsi@old@OHM - \newprefix{\Micro}{-6}{\si@sym@mu} -\else - \ifsi@gensymb\else - \newprefix{\micro}{-6}{\si@sym@mu} - \fi -\fi -\newprefix{\milli}{-3}{m} -\newprefix{\centi}{-2}{c} -\newprefix{\deci}{-1}{d} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\deca} -%\begin{macro}{\hecto} -%\begin{macro}{\kilo} -%\begin{macro}{\mega} -%\begin{macro}{\giga} -%\begin{macro}{\tera} -%\begin{macro}{\peta} -%\begin{macro}{\exa} -%\begin{macro}{\zetta} -%\begin{macro}{\yotta} -% Now the large ones. -% \begin{macrocode} -\newprefix{\deca}{1}{da} -\newprefix{\hecto}{2}{h} -\newprefix{\kilo}{3}{k} -\newprefix{\mega}{6}{M} -\newprefix{\giga}{9}{G} -\newprefix{\tera}{12}{T} -\newprefix{\peta}{15}{P} -\newprefix{\exa}{18}{E} -\newprefix{\zetta}{21}{Z} -\newprefix{\yotta}{24}{Y} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\deka} -% Apparently, ``deka'' is common in the US for deca. -% \begin{macrocode} -\newprefix{\deka}{1}{da} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\gram} -%\begin{macro}{\kilogram} -% As the base unit of mass is the kilogram, rather than the gram, a -% bit of extra work is needed; by default the package only defines -% \cs{kilogram}, but with the prefixes available, this is altered to -% be \cs{kilo}\cs{gram}. For that, the \cs{gram} must be defined first. -% \begin{macrocode} -\newunit{\gram}{g} -\renewunit{\kilogram}{\kilo\gram} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\iffalse -%</prefix> -%<*named> -%\fi -%\subsection{Derived units with specific names} -%\begin{macro}{\becquerel} -%\begin{macro}{\coulomb} -%\begin{macro}{\farad} -%\begin{macro}{\Gray} -%\begin{macro}{\hertz} -%\begin{macro}{\henry} -%\begin{macro}{\joule} -%\begin{macro}{\katal} -%\begin{macro}{\lumen} -%\begin{macro}{\lux} -%\begin{macro}{\newton} -% Derived units with specific names and symbols are defined. Litre -% is an awkward one, but here the UK standard is used. -% \begin{macrocode} -\ProvidesFile{si-named.cfg} - [2008/02/20 v.06a SI Named units] -\newunit{\becquerel}{Bq} -\newunit{\coulomb}{C} -\newunit{\farad}{F} -\newunit{\Gray}{Gy} -\newunit{\hertz}{Hz} -\newunit{\henry}{H} -\newunit{\joule}{J} -\newunit{\katal}{kat} -\newunit{\lumen}{lm} -\newunit{\lux}{lx} -\newunit{\newton}{N} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ohm} -%\begin{macro}{\Ohm} -%\begin{macro}{\pascal} -%\begin{macro}{\siemens} -%\begin{macro}{\sievert} -%\begin{macro}{\tesla} -%\begin{macro}{\volt} -%\begin{macro}{\watt} -%\begin{macro}{\weber} -% Some testing is needed for \unitsdef compatibility. -% \begin{macrocode} -\ifsi@old@OHM - \newunit{\Ohm}{\si@sym@Omega} -\else - \ifsi@gensymb\else -% \end{macrocode} -% To be on the safe side, use \cs{provideunit}. -% \begin{macrocode} - \provideunit{\ohm}{\si@sym@Omega} - \fi -\fi -\newunit{\pascal}{Pa} -\newunit{\siemens}{S} -\newunit{\sievert}{Sv} -\newunit{\tesla}{T} -\newunit{\volt}{V} -\newunit{\watt}{W} -\newunit{\weber}{Wb} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\celsius} -%\begin{macro}{\Celsius} -% The degree celsius is a named unit. -% \begin{macrocode} -\ifsi@old@OHM - \newunit{\Celsius}{\si@sym@celsius} -\else - \ifsi@gensymb\else - \newunit{\celsius}{\si@sym@celsius} - \fi -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\radian} -%\begin{macro}{\steradian} -% The radian and steradian are officially derived units. -% \begin{macrocode} -\newunit{\radian}{rad} -\newunit{\steradian}{sr} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\iffalse -%</named> -%<*prefixed> -%\fi -%\subsection{Units with prefixes} -% As in \unitsdef, some commonly used prefixed units are set up. -% This requires \file{si-prefix.cfg} and \file{si-named.cfg}. -% \begin{macrocode} -\ProvidesFile{si-prefixed.cfg} - [2008/02/20 v.06a SI Prefixed units] -\si@requirecfgs{prefix,named,accepted,physical} -% \end{macrocode} -%\begin{macro}{\picometre} -%\begin{macro}{\nanometre} -%\begin{macro}{\micrometre} -%\begin{macro}{\millimetre} -%\begin{macro}{\centimetre} -%\begin{macro}{\decimetre} -%\begin{macro}{\kilometre} -% Extra distances. -% \begin{macrocode} -\newunit{\picometre}{\pico\metre} -\newunit{\nanometre}{\nano\metre} -\newunit{\micrometre}{\micro\metre} -\newunit{\millimetre}{\milli\metre} -\newunit{\centimetre}{\centi\metre} -\newunit{\decimetre}{\deci\metre} -\newunit{\kilometre}{\kilo\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\femtogram} -%\begin{macro}{\picogram} -%\begin{macro}{\nanogram} -%\begin{macro}{\microgram} -%\begin{macro}{\milligram} -% Extra masses. -% \begin{macrocode} -\newunit{\femtogram}{\femto\gram} -\newunit{\picogram}{\pico\gram} -\newunit{\nanogram}{\nano\gram} -\newunit{\microgram}{\micro\gram} -\newunit{\milligram}{\milli\gram} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\femtomole} -%\begin{macro}{\picomole} -%\begin{macro}{\nanomole} -%\begin{macro}{\micromole} -%\begin{macro}{\millimole} -% Now some moles. -% \begin{macrocode} -\newunit{\femtomole}{\femto\mole} -\newunit{\picomole}{\pico\mole} -\newunit{\nanomole}{\nano\mole} -\newunit{\micromole}{\micro\mole} -\newunit{\millimole}{\milli\mole} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\attosecond} -%\begin{macro}{\femtosecond} -%\begin{macro}{\picosecond} -%\begin{macro}{\nanosecond} -%\begin{macro}{\microsecond} -%\begin{macro}{\millisecond} -% Prefixed seconds. -% \begin{macrocode} -\newunit{\attosecond}{\atto\second} -\newunit{\femtosecond}{\femto\second} -\newunit{\picosecond}{\pico\second} -\newunit{\nanosecond}{\nano\second} -\newunit{\microsecond}{\micro\second} -\newunit{\millisecond}{\milli\second} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\picoampere} -%\begin{macro}{\nanoampere} -%\begin{macro}{\microampere} -%\begin{macro}{\milliampere} -%\begin{macro}{\kiloampere} -% The last prefixed base units are amperes. -% \begin{macrocode} -\newunit{\picoampere}{\pico\ampere} -\newunit{\nanoampere}{\nano\ampere} -\newunit{\microampere}{\micro\ampere} -\newunit{\milliampere}{\milli\ampere} -\newunit{\kiloampere}{\kilo\ampere} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\millivolt} -%\begin{macro}{\kilovolt} -%\begin{macro}{\milliwatt} -%\begin{macro}{\kilowatt} -%\begin{macro}{\megawatt} -%\begin{macro}{\femtofarad} -%\begin{macro}{\picofarad} -%\begin{macro}{\nanofarad} -%\begin{macro}{\microfarad} -%\begin{macro}{\millifarad} -%\begin{macro}{\millisiemens} -% More electricity-related units. -% \begin{macrocode} -\newunit{\millivolt}{\milli\volt} -\newunit{\kilovolt}{\nano\volt} -\newunit{\milliwatt}{\milli\watt} -\newunit{\kilowatt}{\kilo\watt} -\newunit{\megawatt}{\mega\watt} -\newunit{\femtofarad}{\femto\farad} -\newunit{\picofarad}{\pico\farad} -\newunit{\nanofarad}{\nano\farad} -\newunit{\microfarad}{\micro\farad} -\newunit{\millifarad}{\milli\farad} -\newunit{\millisiemens}{\milli\siemens} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kiloohm} -%\begin{macro}{\megaohm} -%\begin{macro}{\gigaohm} -% For resistance, checks are needed again for the definition of -% \cs{ohm}. -% \begin{macrocode} -\ifsi@old@OHM - \newunit{\kiloohm}{\kilo\Ohm} - \newunit{\megaohm}{\mega\Ohm} - \newunit{\gigaohm}{\giga\Ohm} -\else - \ifsi@gensymb\else - \newunit{\kiloohm}{\kilo\ohm} - \newunit{\megaohm}{\mega\ohm} - \newunit{\gigaohm}{\giga\ohm} - \fi -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\microlitre} -%\begin{macro}{\millilitre} -%\begin{macro}{\cubicmetre} -%\begin{macro}{\cubiccentimetre} -%\begin{macro}{\centimetrecubed} -%\begin{macro}{\cubicmicrometre} -%\begin{macro}{\cubicmillimetre} -%\begin{macro}{\cubicdecimetre} -% Volumes (unlike \unitsdef, with litre and metre spelled -% correctly). Only \cs{millilitre} and \cs{microlitre} are defined -% as they are the two officially-sanctioned prefixes for the litre. -% \begin{macrocode} -\newunit{\microlitre}{\micro\litre} -\newunit{\millilitre}{\milli\litre} -\newunit{\cubicmetre}{\metre\cubed} -\newunit{\cubiccentimetre}{\centi\metre\cubed} -\newunit{\centimetrecubed}{\centi\metre\cubed} -\newunit{\cubicmicrometre}{\micro\metre\cubed} -\newunit{\cubicmillimetre}{\milli\metre\cubed} -\newunit{\cubicdecimetre}{\cubic\deci\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\squaremetre} -%\begin{macro}{\squarecentimetre} -%\begin{macro}{\squarekilometre} -% Areas, with metre spelled corrected; \cs{are} and \cs{hectare} are -% in the ``temporarily accepted'' file. -% \begin{macrocode} -\newunit{\squaremetre}{\Square\metre} -\newunit{\squarecentimetre}{\Square\centi\metre} -\newunit{\squarekilometre}{\Square\kilo\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\millijoule} -%\begin{macro}{\kilojoule} -%\begin{macro}{\megajoule} -%\begin{macro}{\millielectronvolt} -%\begin{macro}{\kiloelectronvolt} -%\begin{macro}{\megaelectronvolt} -%\begin{macro}{\gigaelectronvolt} -%\begin{macro}{\teraelectronvolt} -% Some energy is needed by now! -% \begin{macrocode} -\newunit{\millijoule}{\milli\joule} -\newunit{\kilojoule}{\kilo\joule} -\newunit{\megajoule}{\mega\joule} -\newunit{\millielectronvolt}{\milli\electronvolt} -\newunit{\kiloelectronvolt}{\kilo\electronvolt} -\newunit{\megaelectronvolt}{\mega\electronvolt} -\newunit{\gigaelectronvolt}{\giga\electronvolt} -\newunit{\teraelectronvolt}{\tera\electronvolt} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\millihertz} -%\begin{macro}{\kilohertz} -%\begin{macro}{\megahertz} -%\begin{macro}{\gigahertz} -%\begin{macro}{\terahertz} -% Frequencies. -% \begin{macrocode} -\newunit{\millihertz}{\milli\hertz} -\newunit{\kilohertz}{\kilo\hertz} -\newunit{\megahertz}{\mega\hertz} -\newunit{\gigahertz}{\giga\hertz} -\newunit{\terahertz}{\tera\hertz} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\millinewton} -%\begin{macro}{\kilonewton} -%\begin{macro}{\hectopascal} -%\begin{macro}{\megabecquerel} -%\begin{macro}{\millisievert} -% A few more from various areas. -% \begin{macrocode} -\newunit{\millinewton}{\milli\newton} -\newunit{\kilonewton}{\kilo\newton} -\newunit{\hectopascal}{\hecto\pascal} -\newunit{\megabecquerel}{\mega\becquerel} -\newunit{\millisievert}{\milli\sievert} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\iffalse -%</prefixed> -%<*abbr> -%\fi -%\subsection{Abbreviated units} -%\begin{macro}{\pA} -%\begin{macro}{\nA} -%\begin{macro}{\micA} -%\begin{macro}{\mA} -%\begin{macro}{\kA} -% The abbreviated units are sorted in one file. To allow -% back-compatibility with \unitsdef, each one is inside an \cs{if} -% block for the appropriate option. First currents. -% \begin{macrocode} -\ProvidesFile{si-abbr.cfg} - [2008/02/20 v.06a Abbreviated units] -\si@requirecfgs{prefix,named,accepted,physical} -\newunit{\pA}{\pico\ampere} -\newunit{\nA}{\nano\ampere} -\newunit{\micA}{\micro\ampere} -\newunit{\mA}{\milli\ampere} -\newunit{\kA}{\kilo\ampere} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\Hz} -%\begin{macro}{\mHz} -%\begin{macro}{\kHz} -%\begin{macro}{\MHz} -%\begin{macro}{\GHz} -%\begin{macro}{\THz} -% Then frequencies. -% \begin{macrocode} -\newunit{\Hz}{\hertz} -\newunit{\mHz}{\milli\hertz} -\newunit{\kHz}{\kilo\hertz} -\newunit{\MHz}{\mega\hertz} -\newunit{\GHz}{\giga\hertz} -\newunit{\THz}{\tera\hertz} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\fmol} -%\begin{macro}{\pmol} -%\begin{macro}{\nmol} -%\begin{macro}{\micmol} -%\begin{macro}{\mmol} -% Amounts of substance. -% \begin{macrocode} -\newunit{\fmol}{\femto\mole} -\newunit{\pmol}{\pico\mole} -\newunit{\nmol}{\nano\mole} -\newunit{\micmol}{\micro\mole} -\newunit{\mmol}{\milli\mole} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kV} -%\begin{macro}{\mV} -% Potentials. -% \begin{macrocode} -\newunit{\kV}{\kilo\volt} -\newunit{\mV}{\milli\volt} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\ml} -%\begin{macro}{\micl} -%\begin{macro}{\cmc} -%\begin{macro}{\dmc} -% Volumes. -% \begin{macrocode} -\newunit{\ml}{\milli\litre} -\newunit{\micl}{\micro\litre} -\newunit{\cmc}{\centi\metre\cubed} -\newunit{\dmc}{\deci\metre\cubed} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kg} -%\begin{macro}{\fg} -%\begin{macro}{\pg} -%\begin{macro}{\nanog} -%\begin{macro}{\micg} -%\begin{macro}{\mg} -%\begin{macro}{\amu} -% Masses. -% \begin{macrocode} -\newunit{\kg}{\kilo\gram} -% \end{macrocode} -% There is a name clash with \pkg{babel} here in French; hopefully -% there will not be too many complaints. -% \begin{macrocode} -\provideunit{\fg}{\femto\gram} -\newunit{\pg}{\pico\gram} -\newunit{\nanog}{\nano\gram} -\newunit{\micg}{\micro\gram} -\newunit{\mg}{\milli\gram} -\newunit{\amu}{\atomicmass} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kJ} -%\begin{macro}{\eV} -%\begin{macro}{\meV} -%\begin{macro}{\keV} -%\begin{macro}{\MeV} -%\begin{macro}{\GeV} -%\begin{macro}{\TeV} -% Energies. -% \begin{macrocode} -\newunit{\kJ}{\kilo\joule} -\newunit{\eV}{\electronvolt} -\newunit{\meV}{\milli\electronvolt} -\newunit{\keV}{\kilo\electronvolt} -\newunit{\MeV}{\mega\electronvolt} -\newunit{\GeV}{\giga\electronvolt} -\newunit{\TeV}{\tera\electronvolt} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\picom} -%\begin{macro}{\nm} -%\begin{macro}{\micm} -%\begin{macro}{\mm} -%\begin{macro}{\cm} -%\begin{macro}{\dm} -%\begin{macro}{\km} -% Lengths. -% \begin{macrocode} -\newunit{\picom}{\pico\metre} -\newunit{\nm}{\nano\metre} -\newunit{\micm}{\micro\metre} -\newunit{\mm}{\milli\metre} -\newunit{\cm}{\centi\metre} -\newunit{\dm}{\deci\metre} -\newunit{\km}{\kilo\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\Sec} -%\begin{macro}{\as} -%\begin{macro}{\fs} -%\begin{macro}{\ps} -%\begin{macro}{\ns} -%\begin{macro}{\mics} -%\begin{macro}{\ms} -% Finally, times. -% \begin{macrocode} -\newunit{\Sec}{\second} -\newunit{\as}{\atto\second} -\newunit{\fs}{\femto\second} -% \end{macrocode} -% The letter class (and others) define \cs{ps} for postscripts, so -% \cs{provideunit} is best here. -% \begin{macrocode} -\provideunit{\ps}{\pico\second} -\newunit{\ns}{\nano\second} -\newunit{\mics}{\micro\second} -\newunit{\ms}{\milli\second} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\iffalse -%</abbr> -%<*addn> -%\fi -%\subsection{Additional (temporary) SI units} -%\begin{macro}{\angstrom} -%\begin{macro}{\are} -%\begin{macro}{\hectare} -%\begin{macro}{\barn} -%\begin{macro}{\BAR} -%\begin{macro}{\millibar} -%\begin{macro}{\gal} -%\begin{macro}{\curie} -%\begin{macro}{\roentgen} -%\begin{macro}{\rad} -%\begin{macro}{\rem} -% Some units are ``temporarily'' acceptable for use in the SI system. -% These are defined here, although some are in very general use. -% \begin{macrocode} -\ProvidesFile{si-addn.cfg} - [2008/02/20 v.06a SI Additional units] -\newunit{\angstrom}{\si@sym@ringA} -\newunit{\are}{a} -\newunit{\hectare}{\hecto\are} -\newunit{\barn}{b} -\newunit{\BAR}{bar} -\newunit{\millibar}{\milli\BAR} -\newunit{\gal}{Gal} -\newunit{\curie}{Ci} -\newunit{\roentgen}{R} -\newunit{\rad}{rad} -\newunit{\rem}{rem} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\iffalse -%</addn> -%<*accepted> -%\fi -%\subsection{Units accepted for use with SI} -% The units which are accepted but do not fit in the above, plus -% \cs{percent} which seems to fit into this category. -%\begin{macro}{\minute} -%\begin{macro}{\hour} -%\begin{macro}{\Day} -%\begin{macro}{\degree} -%\begin{macro}{\Degree} -%\begin{macro}{\arcmin} -%\begin{macro}{\arcsec} -%\begin{macro}{\litre} -%\begin{macro}{\tonne} -%\begin{macro}{\neper} -%\begin{macro}{\bel} -%\begin{macro}{\percent} -% \begin{macrocode} -\ProvidesFile{si-accepted.cfg} - [2008/02/20 v.06a SI accepted units] -\newunit{\minute}{min} -\newunit{\hour}{h} -\newunit{\Day}{d} -\ifsi@old@OHM - \newunit[valuesep=none]{\Degree}{\si@sym@degree} -\else - \ifsi@gensymb\else - \newunit[valuesep=none]{\degree}{\si@sym@degree} - \fi -\fi -\newunit[valuesep=none]{\arcmin}{\si@sym@minute} -\newunit[valuesep=none]{\arcsec}{\si@sym@second} -\newunit{\litre}{l} -\newunit{\tonne}{t} -\newunit{\neper}{Np} -\newunit{\bel}{B} -\newunit{\percent}{\%} -% \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} -%\iffalse -%</accepted> -%<*physical> -%\fi -%\subsection{Units based on physical measurements} -%\begin{macro}{\si@eVspacea} -%\begin{macro}{\si@eVspaceb} -%\begin{macro}{\electronvolt} -%\begin{macro}{\atomicmassunit} -%\begin{macro}{\atomicmass} -%\begin{macro}{\dalton} -% A few units based on physical measurements exist. For \cs{eV}, the need -% for a negative kern does make things a bit complicated. -% \begin{macrocode} -\ProvidesFile{si-physical.cfg} - [2008/02/20 v.06a SI physically-measured units] -\newcommand*{\si@eVspacea}{\text{\kern-\si@eVcorra}}% -\newcommand*{\si@eVspaceb}{\text{\kern-\si@eVcorrb}}% -\newunit{\electronvolt}{e\protect\si@eVspacea V\protect\si@eVspaceb} -\newunit{\atomicmass}{u} -\newunit{\atomicmassunit}{u} -\newunit{\dalton}{Da} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\iffalse -%</physical> -%\fi -% -%\section{Additional configurations} -% To provide flexibility for people in specific areas, specialised -% units can be set up. These are then stored separately to ease use. -% -%\iffalse -%<*synchem> -%\fi -%\subsection{Synthetic chemistry} -%\begin{macro}{\mmHg} -%\begin{macro}{\molar} -%\begin{macro}{\Molar} -%\begin{macro}{\torr} -% Some useful units for synthetic chemists; although \cs{mmHg} and -% \cs{Molar} are outside of the SI system, they are used a lot. -% These are set up using \cs{provideunit} as people may have their -% own definitions. -% \begin{macrocode} -\ProvidesFile{si-synchem.cfg} - [2008/02/20 v.06a Units for synthetic chemists] -\si@requirecfgs{prefix} -\newunit{\mmHg}{mmHg} -\newunit{\molar}{\mole\per\cubic\deci\metre} -\newunit{\Molar}{\textsc{m}} -\newunit{\torr}{Torr} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\iffalse -%</synchem> -%<*hep> -%\fi -%\subsection{High-energy physics} -% The units here basically add the units from the \cs{hepunits} -% package which are not defined elsewhere here. It is not entirely -% clear if \cs{mrad} refers to radians or rad: feedback would be -% welcome. This set of commands is not in the emulation block as it -% does \emph{not} seek to emulate \pkg{hepunits}: that package is a -% blot-on to \SIunits. The units here have the same name as those in -% \pkg{hepunits} but stick with the new package interface. -% \begin{macrocode} -\ProvidesFile{si-hep.cfg} - [2008/02/20 v.06a Units for high-energy physics] -\si@requirecfgs{prefix,named} -% \end{macrocode} -%\begin{macro}{\micron} -%\begin{macro}{\mrad} -%\begin{macro}{\gauss} -% The first units are not specific to high-energy physics, but are -% not defined elsewhere in \currpkg. -% \begin{macrocode} -\newunit{\micron}{\micro\metre} -\newunit{\mrad}{\milli\radian} -\newunit{\gauss}{G} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\nanobarn} -%\begin{macro}{\picobarn} -%\begin{macro}{\femtobarn} -%\begin{macro}{\attobarn} -%\begin{macro}{\zeptobarn} -%\begin{macro}{\yoctobarn} -% Various prefixed barns -% \begin{macrocode} -\newunit{\nanobarn}{\nano\barn} -\newunit{\picobarn}{\pico\barn} -\newunit{\femtobarn}{\femto\barn} -\newunit{\attobarn}{\atto\barn} -\newunit{\zeptobarn}{\zepto\barn} -\newunit{\yoctobarn}{\yocto\barn} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\invbarn} -%\begin{macro}{\invnanobarn} -%\begin{macro}{\invpicobarn} -%\begin{macro}{\invfemtobarn} -%\begin{macro}{\invattobarn} -%\begin{macro}{\invzeptobarn} -%\begin{macro}{\invyoctobarn} -% Inverses barn units. -% \begin{macrocode} -\newunit{\invbarn}{\per\barn} -\newunit{\invnanobarn}{\per\nano\barn} -\newunit{\invpicobarn}{\per\pico\barn} -\newunit{\invfemtobarn}{\per\femto\barn} -\newunit{\invattobarn}{\per\atto\barn} -\newunit{\invzeptobarn}{\per\zepto\barn} -\newunit{\invyoctobarn}{\per\yocto\barn} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\invnb} -%\begin{macro}{\invpb} -%\begin{macro}{\invfb} -%\begin{macro}{\invab} -%\begin{macro}{\invzb} -%\begin{macro}{\invyb} -% Also available abbreviated. -% \begin{macrocode} -\newunit{\invnb}{\per\nano\barn} -\newunit{\invpb}{\per\pico\barn} -\newunit{\invfb}{\per\femto\barn} -\newunit{\invab}{\per\atto\barn} -\newunit{\invzb}{\per\zepto\barn} -\newunit{\invyb}{\per\yocto\barn} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\invcmsqpersecond} -%\begin{macro}{\invcmsqpersec} -%\begin{macro}{\lumiunits} -% Luminosity. -% \begin{macrocode} -\newunit{\invcmsqpersecond}{\per\Square\centi\metre\per\second} -\newunit{\invcmsqpersec}{\per\Square\centi\metre\per\second} -\newunit{\lumiunits}{\per\Square\centi\metre\per\second} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\clight} -% The speed of light is used in units for the area, although of course -% it is not strictly a unit. -% \begin{macrocode} -\newunit{\clight}{\ensuremath{\mathnormal{c}}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\inveV} -%\begin{macro}{\minveV} -%\begin{macro}{\minveV} -%\begin{macro}{\kinveV} -%\begin{macro}{\MinveV} -%\begin{macro}{\GinveV} -%\begin{macro}{\TinveV} -% The inverse of an electron-volt, plus prefixes. -% \begin{macrocode} -\newunit{\inveV}{\per\electronvolt} -\newunit{\minveV}{\milli\per\electronvolt} -\newunit{\kinveV}{\kilo\per\electronvolt} -\newunit{\MinveV}{\mega\per\electronvolt} -\newunit{\GinveV}{\giga\per\electronvolt} -\newunit{\TinveV}{\tera\per\electronvolt} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\eVoverc} -%\begin{macro}{\eVovercsq} -% Some combinations of electron-volts and the speed of light. As -% these are called |over|, they are set with a slash. The -% \opt{eVcorrb} values have been set for Computer Modern. -% \begin{macrocode} -\newunit[per=slash,eVcorrb=0.6ex]{\eVoverc} - {\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\eVovercsq} - {\electronvolt\per\Square\clight} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\meVoverc} -%\begin{macro}{\keVoverc} -%\begin{macro}{\MeVoverc} -%\begin{macro}{\GeVoverc} -%\begin{macro}{\TeVoverc} -% Prefixed combinations, first of the speed of light. -% \begin{macrocode} -\newunit[per=slash,eVcorrb=0.6ex]{\meVoverc} - {\milli\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\keVoverc} - {\kilo\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\MeVoverc} - {\mega\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\GeVoverc} - {\giga\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\TeVoverc} - {\tera\electronvolt\per\clight} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\meVovercsq} -%\begin{macro}{\keVovercsq} -%\begin{macro}{\MeVovercsq} -%\begin{macro}{\GeVovercsq} -%\begin{macro}{\TeVovercsq} -% Then of the square. -% \begin{macrocode} -\newunit[per=slash,eVcorrb=0.6ex]{\meVovercsq} - {\milli\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\keVovercsq} - {\kilo\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\MeVovercsq} - {\mega\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\GeVovercsq} - {\giga\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\TeVovercsq} - {\tera\electronvolt\per\Square\clight} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\iffalse -%</hep> -%<*binary> -%\fi -%\subsection{Binary units} -%\begin{macro}{\kibi} -%\begin{macro}{\mebi} -%\begin{macro}{\gibi} -%\begin{macro}{\tebi} -%\begin{macro}{\pebi} -%\begin{macro}{\exbi} -% The binary units, as specified by the IEC and made available by -% \SIunits. First, the binary prefixes. -% \begin{macrocode} -\ProvidesFile{si-binary.cfg} - [2008/02/20 v.06a Binary units] -\newprefix{\kibi}{10}{Ki} -\newprefix{\mebi}{20}{Mi} -\newprefix{\gibi}{30}{Gi} -\newprefix{\tebi}{40}{Ti} -\newprefix{\pebi}{50}{Pi} -\newprefix{\exbi}{60}{Ei} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\bit} -%\begin{macro}{\byte} -% Now the units. -% \begin{macrocode} -\newunit{\bit}{bit} -\newunit{\byte}{B} -% \end{macrocode} -%\end{macro} -%\end{macro} -% -%\iffalse -%</binary> -%\fi -% -%\section{Loadable locales} -% Some short files to provide the correct settings for various places. -% -%\iffalse -%<*UK> -%\fi -%\subsection{United Kingdom} -% This is also used for the USA, and is the default. -% \begin{macrocode} -\ProvidesFile{si-UK.cfg} - [2008/02/20 v.06a UK locale] -\sisetup{ - unitsep=thin, - expproduct=times, - valuesep=thin, - decimalsign=fullstop, - digitsep=thin, - sepfour=false} -% \end{macrocode} -%\iffalse -%</UK> -%<*USA> -%\fi -%\subsection{United States} -% The same as for the UK. -% \begin{macrocode} -\ProvidesFile{si-USA.cfg} - [2008/02/20 v.06a USA locale] -\sisetup{ - unitsep=thin, - expproduct=times, - valuesep=thin, - decimalsign=fullstop, - digitsep=thin, - sepfour=false} -% \end{macrocode} -%\iffalse -%</USA> -%\fi -%\iffalse -%<*germany> -%\fi -%\subsection{Germany} -% Germany, hopefully. -% \begin{macrocode} -\ProvidesFile{si-germany.cfg} - [2008/02/20 v.06a Germany locale] -\sisetup{ - unitsep=cdot, - valuesep=thin, - decimalsign=comma, - expproduct=cdot, - digitsep=thin, - sepfour=false} -% \end{macrocode} -%\iffalse -%</germany> -%\fi -%\iffalse -%<*south-africa> -%\fi -%\subsection{South Africa} -% Taken from \sistyle. -% \begin{macrocode} -\ProvidesFile{si-south-africa.loc} - [2008/02/20 v.06a UK Locale] -\sisetup{ - unitsep=cdot, - valuesep=thin, - expproduct=times, - decimalsign=comma, - digitsep=thin, - sepfour=false} -% \end{macrocode} -%\iffalse -%</south-africa> -%\fi -%\section{Emulation code} -% Each emulation mode loads an appropriate definition file. This -% then alters the package defaults, and defines new macros provided -% by the emulated package. -% -%\iffalse -%<*units> -%\fi -%\subsection{\unitspkg} -% The very first thing to do here is a reload check, as things -% could go wrong with \unitsdef emulation. -% \begin{macrocode} -\si@ifloaded{units}{\endinput}{} -% \end{macrocode} -% The \unitspkg package is quite easy to emulate, as it only has a -% few options and macros. There is also no error checking in -% \unitspkg for conflicting options, so users probably expect none. -% \begin{macrocode} -\ProvidesFile{si-units.cfg} - [2008/02/20 v.06a Emulation of units] -\si@ifloaded{SIunits} - {\si@emclash{units}{SIunits}\endinput}{} -\si@ifloaded{sistyle} - {\si@emclash{units}{sistyle}\endinput}{} -% \end{macrocode} -% To emulate \unitspkg, \cs{per} must give fractions. -% \begin{macrocode} -\sisetup{per=fraction,fraction=nice,obeybold,inlinebold=maths, - ,obeymode} -\ifsi@old@tight - \sisetup{valuesep=thin} -\fi -\ifsi@old@loose - \sisetup{valuesep=space} -\fi -\ifsi@old@ugly - \sisetup{fraction=ugly} -\fi -% \end{macrocode} -%\begin{macro}{\unit} -% The \unitspkg version of \cs{unit} is similar to \cs{SI}. Here and -% in \cs{unitfrac} the \cs{num} macro is used; thus the number given -% really has to be a number. However, if users are using \currpkg -% rather than \unitspkg they should expect more checking of input. As -% the \unitspkg package uses the current mode, this has to be -% detected.\\ -%\cs{unit}\oarg{num}\marg{unit} -% \begin{macrocode} -\DeclareRobustCommand*{\unit}[2][]{% - \ifmmode - \SI{#1}{#2}% - \else - \SI[obeyfamily,obeyitalic]{#1}{#2}% - \fi} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\unitfrac} -% \cs{unitfrac} is a bit more of a hack.\\ -%\cs{unitfrac}\oarg{num}\marg{numerator}\marg{denominator} -% \begin{macrocode} -\DeclareRobustCommand*{\unitfrac}[3][]{% - \begingroup - \si@fam@mode% - \ifmmode\else - \sisetup{obeyfamily,obeyitalic}% - \fi - \si@ifnotmtarg{#1} - {\num{#1}\ensuremath{\si@valuesep}}% - \si@frac{#2}{#3} - \endgroup} -% \end{macrocode} -%\end{macro} -%\iffalse -%</units> -%\fi -%\iffalse -%<*unitsdef> -%\fi -%\subsection{\unitsdef} -% The package begins with the usual identification of what is -% happening. Although \file{si-units.cfg} makes the same checks, -% the error will make more sense if it comes here, in the event of a -% clash. -% \begin{macrocode} -\ProvidesFile{si-unitsdef.cfg} - [2008/02/20 v.06a Emulation of unitsdef] -\si@ifloaded{SIunits} - {\si@emclash{unitsdef}{SIunits}\endinput}{} -\si@ifloaded{sistyle} - {\si@emclash{unitsdef}{sistyle}\endinput}{} -% \end{macrocode} -% Emulation of \unitspkg is needed for \unitsdef to work. -% \begin{macrocode} -\si@ifloaded{units}{} - {\InputIfFileExists{\si@fileprefix units.\si@cfgextension} - {} - {\si@log@err{Could not load \si@fileprefix - units.\si@cfgextension} - {The file \si@fileprefix units.\si@cfgextension is - required to emulate\MessageBreak - unitsdef, but cannot be found\MessageBreak - Is the si package properly installed?} - \endinput}} -% \end{macrocode} -% The \unitsdef package loads some packages that \currpkg does not. -% In particular, it loads \pkg{textcomp} and \pkg{fontenc}. This -% could be important for output, and so the same is done here. -% \begin{macrocode} -\RequirePackage{textcomp} -\RequirePackage[T1]{fontenc} -% \end{macrocode} -% The multitude of package options for \unitsdef need to be handled. -% \begin{macrocode} -\sisetup{mode=text} -\ifsi@old@noxspace - \sisetup{xspace=false} -\fi -% \end{macrocode} -% The various options for loading unit abbreviations have to be -% handled. Here, any request to avoid abbreviations prevents any -% loading. -% \begin{macrocode} -\ifsi@old@noabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@nofrequncyabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@nomolabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@novoltageabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@novolumeabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@noweightabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@noenergyabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@nolengthabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@notimeabbr - \sisetup{noload=abbr} -\fi -% \end{macrocode} -%\begin{macro}{\unitvaluesep} -% To emulate the \cs{unitvaluesep} macro, a hack is needed of the original -% \pkg{xkeyval} macro for \opt{valuesep}, as well of course as a definition -% of the macro itself. -% \begin{macrocode} -\newcommand*{\unitvaluesep}{\,} -\renewcommand*{\si@valuesep}{\text{\unitvaluesep}} -\si@opt@choicekey{valuesep}{space,thin,med,medium,thick,none} - {\renewcommand*\unitvaluesep\@nameuse{si@fix@##1}} - {\renewcommand*\unitvaluesep{##1}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\unitsignonly} -%\begin{macro}{\ilu} -%\begin{macro}{\arc} -% Some rather straight-forward definitions, with just a bit of fun to -% get the spacing correct. -% \begin{macrocode} -\DeclareRobustCommand*{\unitsignonly}{\unitsym} -\DeclareRobustCommand*{\ilu}[2][]{% - \begingroup - #1\unitvaluesep% - \unit{#2}% - \endgroup} -\DeclareRobustCommand*{\arc}{\ang} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\unitSIdef} -%\begin{macro}{\si@unitSIdef} -% The \unitsdef package uses a different approach to setting the font -% inside its version of \cs{SI}. The problem is the same as for -% \cs{unitvaluesep}, but with the added problem that \currpkg uses -% \cs{csname} \ldots \cs{endcsname}. -% \begin{macrocode} -\newcommand*{\unitSIdef}{\upshape} -\newcommand*{\si@unitSIdef}{\unitSIdef\selectfont} -\sisetup{textdefault=si@unitSIdef,textnumdefault=si@unitSIdef} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\per} -% Rather awkwardly, \unitsdef uses \cs{per} in a different way to -% \currpkg. -% \begin{macrocode} -\DeclareRobustCommand*{\per}[2]{% - \begingroup - \si@xspacefalse - \renewcommand*{\unitvaluesep}{}% - \unitfrac{#1}{#2}% - \endgroup} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\unittimes} -%\begin{macro}{\unitsep} -%\begin{macro}{\unitsuperscript} -% Some pretty straight-forward stuff again; notice that the automatic -% analyser for units has to be turned off for this to work. -% \begin{macrocode} -\newcommand*{\unittimes}{\ensuremath{\cdot}} -\newcommand*{\unitsep}{\,} -\renewcommand*{\si@unt@unithook}{\si@unt@litouttrue} -\sisetup{unitsep=none} -\newcommand*{\unitsuperscript}{\tothe} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\newnosepunit} -%\begin{macro}{\renewnosepunit} -% Simple aliases. -% \begin{macrocode} -\newcommand*{\newnosepunit}{\newunit[valuesep=none]} -\newcommand*{\renewnosepunit}{\renewunit[valuesep=none]} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\setTextOmega} -%\begin{macro}{\setMathOmega} -%\begin{macro}{\setTextmu} -%\begin{macro}{\setMathmu} -%\begin{macro}{\setTextCelsius} -%\begin{macro}{\setMathCelsius} -%\begin{macro}{\setMathDegree} -%\begin{macro}{\setTextDegree} -% Controlling symbols is a simple translation job; as only one -% setting is used by \currpkg in text mode, a bit of extra work is -% needed. -% \begin{macrocode} -\newcommand*{\setTextOmega}[2]{% - \renewcommand*{\si@textOmega}{% - \begingroup - \edef\si@tempa{\sfdefault}% - \ifx\f@family\si@tempa - \expandafter#2% - \else - \expandafter#1% - \fi - \endgroup}} -\newcommand*{\setMathOmega}[1]{\sisetup{mathsOmega=#1}} -\newcommand*{\setTextmu}[2]{% - \renewcommand*{\si@textmu}{% - \begingroup - \edef\si@tempa{\sfdefault}% - \ifx\f@family\si@tempa - \expandafter#2% - \else - \expandafter#1% - \fi - \endgroup}} -\newcommand*{\setMathmu}[1]{\sisetup{mathsmu=#1}} -\newcommand*{\setTextCelsius}[2]{% - \renewcommand*{\si@textcelsius}{% - \begingroup - \edef\si@tempa{\sfdefault}% - \ifx\f@family\si@tempa - \expandafter#2% - \else - \expandafter#1% - \fi - \endgroup}} -\newcommand*{\setMathCelsius}[1]{\sisetup{mathscelsius=#1}} -\newcommand*{\setMathDegree}[2]{% - \renewcommand*{\si@textdegree}{% - \begingroup% - \edef\si@tempa{\sfdefault}% - \ifx\f@family\si@tempa - \expandafter#2% - \else - \expandafter#1% - \fi - \endgroup}} -\newcommand*{\setTextDegree}[1]{\sisetup{textdegree=#1}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -% The \opt{ohm} and \opt{OHM} options are checked, and some sanity is -% ensured. This needs to happen before loading the configuration -% files. -% \begin{macrocode} -\ifsi@old@OHM - \ifsi@old@ohm - \si@log@inf{Both `ohm' and `OHM' options given\MessageBreak - Using default behaviour for unitsdef} - \expandafter\expandafter\expandafter\si@old@OHMfalse - \fi -\fi -% \end{macrocode} -%\begin{macro}{\meter} -%\begin{macro}{\liter} -%\begin{macro}{\ton} -%\begin{macro}{\days} -% For some reason, \unitsdef spells metre and litre incorrectly (the -% names have an official spelling). Tonne is also spelled as ``ton'', -% which is wrong in the UK at least (1\,ton = 40\,cwt =\,2240 lb!) -% \begin{macrocode} -\newunit{\meter}{\metre} -\newunit{\liter}{L} -\ifsi@old@liter - \ifsi@old@LITER - \si@log@inf{Both `liter' and `LITER' options given\MessageBreak - Using default behaviour for unitsdef} - \else - \renewunit{\liter}{l} - \fi -\fi -\newunit{\ton}{t} -\newunit{\days}{d} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\picometer} -%\begin{macro}{\nanometer} -%\begin{macro}{\micrometer} -%\begin{macro}{\millimeter} -%\begin{macro}{\centimeter} -%\begin{macro}{\decimeter} -%\begin{macro}{\kilometer} -% Extra distances. -% \begin{macrocode} -\newunit{\picometer}{\pico\meter} -\newunit{\nanometer}{\nano\meter} -\newunit{\micrometer}{\micro\meter} -\newunit{\millimeter}{\milli\meter} -\newunit{\centimeter}{\centi\meter} -\newunit{\decimeter}{\deci\meter} -\newunit{\kilometer}{\kilo\meter} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\femtoliter} -%\begin{macro}{\picoliter} -%\begin{macro}{\nanoliter} -%\begin{macro}{\microliter} -%\begin{macro}{\milliliter} -%\begin{macro}{\centiliter} -%\begin{macro}{\deciliter} -%\begin{macro}{\hectoliter} -%\begin{macro}{\cubicmeter} -%\begin{macro}{\cubicmicrometer} -%\begin{macro}{\cubicmillimeter} -% Volumes with US spellings. -% \begin{macrocode} -\newunit{\femtoliter}{\femto\liter} -\newunit{\picoliter}{\pico\liter} -\newunit{\nanoliter}{\nano\liter} -\newunit{\microliter}{\micro\liter} -\newunit{\milliliter}{\milli\liter} -\newunit{\centiliter}{\centi\liter} -\newunit{\deciliter}{\deci\liter} -\newunit{\hectoliter}{\hecto\liter} -\newunit{\cubicmeter}{\meter\cubed} -\newunit{\cubicmicrometer}{\micro\meter\cubed} -\newunit{\cubicmillimeter}{\milli\meter\cubed} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\squaremeter} -%\begin{macro}{\squarecentimeter} -%\begin{macro}{\squarekilometer} -%\begin{macro}{\ar} -%\begin{macro}{\hectar} -% Areas, including the mis-spellings for \cs{are} and -% \cs{hectare}. -% \begin{macrocode} -\newunit{\squaremeter}{\Square\meter} -\newunit{\squarecentimeter}{\Square\centi\meter} -\newunit{\squarekilometer}{\Square\kilo\meter} -\newunit{\ar}{a} -\newunit{\hectar}{\hecto\ar} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kv} -%\begin{macro}{\mv} -% The code for \unitsdef has the capitalisation wrong for \cs{kV} and -% \cs{mV}. -% \begin{macrocode} -\ifsi@old@noabbr -\else - \ifsi@old@novoltageabbr\else - \newunit{\kv}{\kilo\volt} - \newunit{\mv}{\milli\volt} - \fi -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\sek} -%\begin{macro}{\fg} -%\begin{macro}{\fl} -%\begin{macro}{\pl} -%\begin{macro}{\nl} -%\begin{macro}{\micl} -%\begin{macro}{\ml} -%\begin{macro}{\cl} -%\begin{macro}{\dl} -%\begin{macro}{\hl} -% There are some slightly different abbreviations, plus some which -% are not officially allowed. -% \begin{macrocode} -\ifsi@old@noabbr\else - \ifsi@old@notimeabbr\else - \newunit{\sek}{\second} - \fi - \ifsi@old@noweightabbr\else - \newunit{\fg}{\femto\gram} - \fi - \ifsi@old@novolumeabbr\else - \newunit{\fl}{\femto\liter} - \newunit{\pl}{\pico\liter} - \newunit{\nl}{\nano\liter} - \renewunit{\micl}{\micro\liter} - \renewunit{\ml}{\milli\liter} - \newunit{\cl}{\centi\liter} - \newunit{\dl}{\deci\liter} - \newunit{\hl}{\hecto\liter} - \fi -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\calory} -%\begin{macro}{\kilocalory} -% \unitsdef spells calorie incorrectly, and it is also not an SI unit. -% \begin{macrocode} -\newunit{\calory}{cal} -\newunit{\kilocalory}{\kilo\calory} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\uBar} -% \unitsdef uses \cs{ubar} for bar. -% \begin{macrocode} -\newunit{\uBar}{ba} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\gensymbohm} -%\begin{macro}{\gensymbcelsius} -%\begin{macro}{\gensymbmicro} -%\begin{macro}{\gensymbdegree} -% If the options relating to \pkg{gensymb} are given, then the -% package \emph{has} to be loaded. The definitions are then renamed; -% a slight awkward feature is that the hyphen character needs to be a -% letter. To avoid needing to worry about this again, a second -% switch is set up. -% \begin{macrocode} -\catcode`\-=11\relax -\ifsi@old@redef-gensymb - \expandafter\si@gensymbtrue -\fi -\catcode`\-=12\relax -\ifsi@gensymb - \RequirePackage{gensymb} - \AtBeginDocument{ - \let\gensymbohm\ohm - \let\gensymbcelsius\celsius - \let\gensymbmicro\micro - \let\gensymbdegree\degree - \let\ohm\@undefined - \let\celsius\@undefined - \let\micro\@undefined - \let\degree\@undefined - \ifsi@old@OHM\else - \newunit{\ohm}{\si@sym@Omega} - \newunit{\celsius}{\si@sym@celsius} - \newprefix{\micro}{\si@sym@mu}{-6} - \newunit{\degree}{\si@sym@degree} - \fi} -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -% The configuration files can now be loaded. -% \begin{macrocode} -\si@requirecfgs{prefix,named,addn,accepted} -% \end{macrocode} -% The \opt{noconfig} option could be ignored, but it costs little to -% let is be used. -% \begin{macrocode} -\ifsi@old@noconfig\else - \InputIfFileExists{unitsdef.cfg} - {\si@log@inf{unitsdef config file loaded}} - {\si@log@inf{unitsdef config file not found}} -\fi -% \end{macrocode} -% -%\iffalse -%</unitsdef> -%<*sistyle> -%\fi -%\subsection{\sistyle} -% After setting the necessary defaults, the emulation code defines -% the macros in \sistyle as given in the manual for that package. -% \begin{macrocode} -\ProvidesFile{si-sistyle.cfg} - [2008/02/20 v.06a Emulation of sistyle] -\sisetup{% - sepfour=true, - obeyfamily, - obeyitalic=true, - numsign=+-, - numextra={}, - unitsep=cdot} -% \end{macrocode} -%\begin{macro}{\SIobeyboldtrue} -%\begin{macro}{\SIobeyboldfalse} -% Some simple switches, but not using \cs{newif}. -% \begin{macrocode} -\newcommand*{\SIobeyboldtrue}{\sisetup{obeybold=true}} -\newcommand*{\SIobeyboldfalse}{\sisetup{obeybold=false}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\num} -%\begin{macro}{\si@sis@num} -%\begin{macro}{\si@sis@numstar} -% To get the correct behaviour for \cs{num}, some redefinitions are -% needed to handle to optional |*|. -% \begin{macrocode} -\DeclareRobustCommand{\num}{% - \@ifstar - {\si@sis@numstar} - {\si@sis@num}} -\newcommand*{\si@sis@num}[2][]{% - \begingroup% - \sisetup{#1}% - \expandafter\si@out@num\expandafter{\si@num{#2}}% - \endgroup} -\newcommand*{\si@sis@numstar}[2][]{% - \begingroup% - \sisetup{mode=text,obeybold}% - \sisetup{#1}% - \expandafter\si@out@num\expandafter{\si@num{#2}}% - \endgroup} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\pnt} -% The \cs{pnt} macro is needed as |.| is active inside \cs{SI}. The -% name is exactly the same as in \sistyle, but the implementation is -% different. This is not defined by the main package as there are -% better ways of including numbers in the output than this. -% \begin{macrocode} -\newcommand*{\pnt}{\ensuremath{\si@decimalsign}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\SIgroupfourtrue} -%\begin{macro}{\SIgroupfourfalse} -% Switches for grouping four characters. -% \begin{macrocode} -\newcommand*{\SIgroupfourtrue}{\sisetup{sepfour=true}} -\newcommand*{\SIgroupfourfalse}{\sisetup{sepfour=false}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\SIunitsep} -%\begin{macro}{\SIunitspace} -%\begin{macro}{\SIunitdot} -% Whatever is given here is passed through to \cs{sisetup}. -% \begin{macrocode} -\newcommand*{\SIunitsep}[1]{\sisetup{valuesep={#1}}} -\newcommand*{\SIunitspace}[1]{\sisetup{unitspace={#1}}} -\newcommand*{\SIunitdot}[1]{\sisetup{unitsep={#1}}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\SIdecimalsign} -%\begin{macro}{\SIthousandsep} -%\begin{macro}{\SIproductsign} -% The same is true here, with the appropriate translation. -% \begin{macrocode} -\newcommand*{\SIdecimalsign}[1]{\sisetup{decimalsign={#1}}} -\newcommand*{\SIthousandsep}[1]{\sisetup{digitsep={#1}}} -\newcommand*{\SIproductsign}[1]{\sisetup{expproduct={#1}}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\si@sis@savefont} -% The font definitions need a bit of extra work doing. As both -% settings here have |@| as a letter, all should be fine.\\ -%\cs{si@sis@savefont}\marg{setting}\marg{argument} -% \begin{macrocode} -\newcommand{\si@sis@savefont}[2]{% - \@namedef{si@sis@#1}{#2}% - \sisetup{#1=si@sis@#1}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\SImathrm} -%\begin{macro}{\SImathsf} -%\begin{macro}{\SImathtt} -% The font control macros have to ensure that a macro name is passed -% to \cs{sisetup}. -% \begin{macrocode} -\newcommand*{\SImathrm}[1]{\si@sis@savefont{mathrm}{#1}} -\newcommand*{\SImathsf}[1]{\si@sis@savefont{mathsf}{#1}} -\newcommand*{\SImathtt}[1]{\si@sis@savefont{mathtt}{#1}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\SIdefaultMfam} -%\begin{macro}{\SIdefaultNfam} -%\begin{macro}{\SIdefaultTfam} -% The same for the default keys. -% \begin{macrocode} -\newcommand*{\SIdefaultMfam}[1]{\si@sis@savefont{mathdefault}{#1}} -\newcommand*{\SIdefaultNfam}[1]{\si@sis@savefont{mathnumdefault}{#1}} -\newcommand*{\SIdefaultTfam}[1]{\si@sis@savefont{textdefault}{#1}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\ensureupmath} -% The \cs{ensureupmath} command guarantees processing by the -% font-matching system. The argument cannot be processed here, so -% care is needed. -% \begin{macrocode} -\DeclareRobustCommand*{\ensureupmath}[1]{% - \begingroup - \sisetup{mode=maths,obeyitalic=false}% - \si@out@text{#1}% - \endgroup} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\degC} -%\begin{macro}{\degF} -%\begin{macro}{\arcdeg} -% A few extra symbol names are needed. -% \begin{macrocode} -\newcommand*{\degC}{\si@sym@celsius} -\newcommand*{\arcdeg}{\si@sym@degree} -\newcommand*{\degF}{\si@sym@degree F} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\AddToSIstyle} -%\begin{macro}{\SIstyle} -%\begin{macro}{\SIstyleToLang} -%\begin{macro}{\si@sis@addtolocale} -% Finally, the locale control. -% \begin{macrocode} -\newcommand*{\SIstyle}[1]{\sisetup{locale=#1}} -\newcommand*{\SIstyleToLang}[2]{\sisetup{loctolang=#1:#2}} -\newcommand*{\AddToSIstyle}{% - \si@switchfalse - \@ifstar - {\si@switchtrue - \si@sis@addtolocale} - {\si@sis@addtolocale}} -\newcommand*{\si@sis@addtolocale}[2]{% - \ifsi@switch - \expandafter\let\csname si@loc@#1@extra\endcsname\relax - \fi - \addtolocale{#1}{#2}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -% -%\iffalse -%</sistyle> -%<*SIunits> -%\fi -%\subsection{\SIunits} -% \SIunits emulation starts in much the same way. -% \begin{macrocode} -\ProvidesFile{si-SIunits.cfg} - [2008/02/20 v.06a Emulation of SIunits] -\sisetup{ - unitsep=thick, - valuesep=thick, - prefixproduct=\si@valuesep} -\si@requirecfgs{prefix,named,accepted,physical} -% \end{macrocode} -%\begin{macro}{\reciprocal} -%\begin{macro}{\rp} -%\begin{macro}{\per} -%\begin{macro}{\usk} -%\begin{macro}{\power} -%\begin{macro}{\rpsquare} -%\begin{macro}{\rpcubic} -%\begin{macro}{\fourth} -%\begin{macro}{\rpfourth} -% A few very simple translations, using the internal version of -% \cs{per} to allow changes of output style. -% \begin{macrocode} -\newcommand*{\reciprocal}{\sisetup{per=reciprocal}\si@per} -\let\rp\reciprocal -\renewcommand*{\per}{\sisetup{per=slash}\si@per} -\newcommand*{\usk}{} -\newcommand*{\power}[1]{#1\tothe} -\newcommand*{\rpsquare}{\sisetup{per=reciprocal}\si@per\Square} -\newcommand*{\rpcubic}{\sisetup{per=reciprocal}\si@per\cubic} -\newpower{\fourth}{4} -\newcommand*{\rpfourth}{\sisetup{per=reciprocal}\si@per\fourth} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\rpsquared} -%\begin{macro}{\rpcubed} -% Here, some low-level switch changing is needed. -% \begin{macrocode} -\newcommand*{\rpsquared}{% - \sisetup{per=reciprocal}\si@unt@pertrue\si@unt@perseentrue\squared} -\newcommand*{\rpcubed}{\sisetup{per=reciprocal}\si@unt@pertrue\cubed} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\SIsetup} -%\begin{macro}{\si@tempa} -%\begin{macro}{\si@siu@setup} -% The various package spacing options are processed. They also have -% to be correctly handled by the \cs{SIsetup} macro. -% \begin{macrocode} -\newcommand*{\SIsetup}[1]{% - \@for\si@tempa:=#1\do{% - \@ifundefined{ifsi@old@#1} - {\si@log@warn{Unknown SIunits option `#1'}} - {\csname si@old@#1true\endcsname}} - \si@siu@setup} -\newcommand*{\si@siu@setup}{% - \ifsi@old@cdot - \sisetup{unitsep=cdot}% - \fi - \ifsi@old@thickspace - \sisetup{unitsep=thick}% - \fi - \ifsi@old@mediumspace - \sisetup{unitsep=medium}% - \fi - \ifsi@old@thinspace - \sisetup{unitsep=thin}% - \fi - \ifsi@old@thickqspace - \sisetup{valuesep=thick}% - \fi - \ifsi@old@mediumqspace - \sisetup{valuesep=medium}% - \fi - \ifsi@old@thinqspace - \sisetup{valuesep=thin}% - \fi} -\si@siu@setup -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\square} -%\begin{macro}{\squaren} -% \SIunits does slightly different things about the clash with -% \cs{square}, and either redefines this macro or provides -% \cs{squaren}. -% \begin{macrocode} -\ifsi@old@squaren - \newpower{\squaren}{2} -\fi -\AtBeginDocument{% - \@ifundefined{square} - {\newpower{\square}{2}} - {\ifsi@old@amssymb - \renewpower{\square}{2} - \else - \ifsi@old@squaren\else - \si@log@warn{\string\square\space already - defined\MessageBreak SIunits mode may cause - errors}% - \fi - \fi}} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\begin{macro}{\gray} -% The potential clash with \pkg{PStricks} is also handled -% differently; here, \cs{Gray} will already be defined by the -% \currpkg kernel. -% \begin{macrocode} -\AtBeginDocument{% - \@ifundefined{gray} - {\newunit{\gray}{Gy}} - {\ifsi@old@pstricks - \renewunit{\gray}{Gy} - \else - \ifsi@old@Gray\else - \si@log@warn{\string\gray\space already - defined\MessageBreak SIunits mode may cause - errors}% - \fi - \fi}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\unit} -%\begin{macro}{\unita} -% The \cs{unit} macro is defined. -% \begin{macrocode} -\ifsi@old@italian - \let\unita\SI -\else - \let\unit\SI -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -% The miscellaneous options are moped up. -% \begin{macrocode} -\ifsi@old@textstyle - \sisetup{mode=text} -\fi -\ifsi@old@binary - \sisetup{alsoload=binary} -\fi -\ifsi@old@noams - \AtBeginDocument{% - \renewcommand*{\si@textmu}{\ensuremath\si@mathsmu}} -\fi -% \end{macrocode} -%\begin{macro}{\arcminute} -%\begin{macro}{\arcsecond} -%\begin{macro}{\bbar} -%\begin{macro}{\dday} -%\begin{macro}{\liter} -%\begin{macro}{\rperminute} -%\begin{macro}{\ton} -%\begin{macro}{\degreecelsius} -% The unit macros defined by \SIunits that are not defined by -% \currpkg (by default). -% \begin{macrocode} -\newunit[valuesep=none]{\arcminute}{\si@sym@minute} -\newunit[valuesep=none]{\arcsecond}{\si@sym@second} -\newunit{\bbar}{bar} -\newunit{\dday}{day} -\newunit{\liter}{L} -\newunit{\rperminute}{r/min} -\newunit{\ton}{t} -\newunit{\degreecelsius}{\celsius} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\addunit} -% This is an alias for \cs{newunit}. -% \begin{macrocode} -\let\addunit\newunit -% \end{macrocode} -%\end{macro} -%\begin{macro}{\addprefix} -% A little more work for \cs{addprefix}. -% \begin{macrocode} -\newcommand*{\addprefix}[2]{\newprefix{#1}{#2}} -% \end{macrocode} -%\end{macro} -%\begin{macro}{\graypersecond} -%\begin{macro}{\graypersecondnp} -%\begin{macro}{\metrepersquaresecond} -%\begin{macro}{\metrepersquaresecondnp} -%\begin{macro}{\joulepermole} -%\begin{macro}{\joulepermolenp} -%\begin{macro}{\molepercubicmetre} -%\begin{macro}{\molepercubicmetrenp} -%\begin{macro}{\radianpersquaresecond} -%\begin{macro}{\radianpersquaresecondnp} -%\begin{macro}{\kilogramsquaremetrepersecond} -% \SIunits provides lots of macros with rather long names, which are -% not really needed with \currpkg. However, they have to be defined -% somewhere. There are a lot of them, so a few are tackled at a -% time. -% \begin{macrocode} -\addunit{\graypersecond}{\gray\per\second} -\addunit{\graypersecondnp}{\gray\reciprocal\second} -\addunit{\metrepersquaresecond}{\metre\per\second\squared} -\addunit{\metrepersquaresecondnp}{\metre\second\rpsquared} -\addunit{\joulepermole}{\joule\per\mole} -\addunit{\joulepermolenp}{\joule\reciprocal\mole} -\addunit{\molepercubicmetre}{\mole\per\cubic\metre} -\addunit{\molepercubicmetrenp}{\mole\rpcubic\metre} -\addunit{\radianpersquaresecond}{\radian\per\second\squared} -\addunit{\radianpersquaresecondnp}{\radian\second\rpsquared} -\addunit{\kilogramsquaremetrepersecond} - {\kilogram\usk\squaremetre\per\second} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kilogramsquaremetrepersecondnp} -%\begin{macro}{\radianpersecond} -%\begin{macro}{\radianpersecondnp} -%\begin{macro}{\squaremetrepercubicmetre} -%\begin{macro}{\squaremetrepercubicmetrenp} -%\begin{macro}{\katalpercubicmetre} -%\begin{macro}{\katalpercubicmetrenp} -%\begin{macro}{\coulombpermol} -%\begin{macro}{\coulombpermolnp} -%\begin{macro}{\amperepersquaremetre} -%\begin{macro}{\amperepersquaremetrenp} -% Some more. -% \begin{macrocode} -\addunit{\kilogramsquaremetrepersecondnp} - {\kilogram\usk\squaremetre\reciprocal\second} -\addunit{\radianpersecond}{\radian\per\second} -\addunit{\radianpersecondnp}{\radian\reciprocal\second} -\addunit{\squaremetrepercubicmetre}{\squaremetre\per\cubic\metre} -\addunit{\squaremetrepercubicmetrenp}{\squaremetre\rpcubic\metre} -\addunit{\katalpercubicmetre}{\katal\per\cubic\metre} -\addunit{\katalpercubicmetrenp}{\katal\rpcubic\metre} -\addunit{\coulombpermol}{\coulomb\per\mole} -\addunit{\coulombpermolnp}{\coulomb\reciprocal\mole} -\addunit{\amperepersquaremetre}{\ampere\per\squaremetre} -\addunit{\amperepersquaremetrenp}{\ampere\rpsquare\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kilogrampercubicmetre} -%\begin{macro}{\kilogrampercubicmetrenp} -%\begin{macro}{\squaremetrepernewtonsecond} -%\begin{macro}{\squaremetrepernewtonsecondnp} -%\begin{macro}{\pascalsecond} -%\begin{macro}{\coulombpercubicmetre} -%\begin{macro}{\coulombpercubicmetrenp} -%\begin{macro}{\amperemetresecond} -%\begin{macro}{\voltpermetre} -%\begin{macro}{\voltpermetrenp} -%\begin{macro}{\coulombpersquaremetre} -% Some more. -% \begin{macrocode} -\addunit{\kilogrampercubicmetre}{\kilogram\per\cubic\metre} -\addunit{\kilogrampercubicmetrenp}{\kilogram\rpcubic\metre} -\addunit{\squaremetrepernewtonsecond} - {\squaremetre\per\newton\second} -\addunit{\squaremetrepernewtonsecondnp} - {\squaremetre\reciprocal\newton\reciprocal\second} -\addunit{\pascalsecond}{\pascal\second} -\addunit{\coulombpercubicmetre}{\coulomb\per\cubic\metre} -\addunit{\coulombpercubicmetrenp}{\coulomb\rpcubic\metre} -\addunit{\amperemetresecond}{\ampere\metre\second} -\addunit{\voltpermetre}{\volt\per\metre} -\addunit{\voltpermetrenp}{\volt\reciprocal\metre} -\addunit{\coulombpersquaremetre}{\coulomb\per\squaremetre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\coulombpersquaremetrenp} -%\begin{macro}{\faradpermetre} -%\begin{macro}{\faradpermetrenp} -%\begin{macro}{\ohmmetre} -%\begin{macro}{\kilowatthour} -%\begin{macro}{\wattpersquaremetre} -%\begin{macro}{\wattpersquaremetrenp} -%\begin{macro}{\joulepersquaremetre} -%\begin{macro}{\joulepersquaremetrenp} -%\begin{macro}{\newtonpercubicmetre} -%\begin{macro}{\newtonpercubicmetrenp} -% Some more. -% \begin{macrocode} -\addunit{\coulombpersquaremetrenp}{\coulomb\rpsquare\metre} -\addunit{\faradpermetre}{\farad\per\metre} -\addunit{\faradpermetrenp}{\farad\reciprocal\metre} -\addunit{\ohmmetre}{\ohm\metre} -\addunit{\kilowatthour}{\kilo\watt\hour} -\addunit{\wattpersquaremetre}{\watt\per\squaremetre} -\addunit{\wattpersquaremetrenp}{\watt\rpsquare\metre} -\addunit{\joulepersquaremetre}{\joule\per\squaremetre} -\addunit{\joulepersquaremetrenp}{\joule\rpsquare\metre} -\addunit{\newtonpercubicmetre}{\newton\per\cubic\metre} -\addunit{\newtonpercubicmetrenp}{\newton\rpcubic\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\newtonperkilogram} -%\begin{macro}{\newtonperkilogramnp} -%\begin{macro}{\jouleperkelvin} -%\begin{macro}{\jouleperkelvinnp} -%\begin{macro}{\jouleperkilogram} -%\begin{macro}{\jouleperkilogramnp} -%\begin{macro}{\coulombperkilogram} -%\begin{macro}{\coulombperkilogramnp} -%\begin{macro}{\squaremetrepersecond} -%\begin{macro}{\squaremetrepersecondnp} -%\begin{macro}{\squaremetrepersquaresecond} -% Some more. -% \begin{macrocode} -\addunit{\newtonperkilogram}{\newton\per\kilogram} -\addunit{\newtonperkilogramnp}{\newton\reciprocal\kilogram} -\addunit{\jouleperkelvin}{\joule\per\kelvin} -\addunit{\jouleperkelvinnp}{\joule\reciprocal\kelvin} -\addunit{\jouleperkilogram}{\joule\per\kilogram} -\addunit{\jouleperkilogramnp}{\joule\reciprocal\kilogram} -\addunit{\coulombperkilogram}{\coulomb\per\kilogram} -\addunit{\coulombperkilogramnp}{\coulomb\reciprocal\kilogram} -\addunit{\squaremetrepersecond}{\squaremetre\per\second} -\addunit{\squaremetrepersecondnp}{\squaremetre\reciprocal\second} -\addunit{\squaremetrepersquaresecond} - {\squaremetre\per\second\squared} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\squaremetrepersquaresecondnp} -%\begin{macro}{\kilogrammetrepersecond} -%\begin{macro}{\kilogrammetrepersecondnp} -%\begin{macro}{\candelapersquaremetre} -%\begin{macro}{\candelapersquaremetrenp} -%\begin{macro}{\amperepermetre} -%\begin{macro}{\amperepermetrenp} -%\begin{macro}{\joulepertesla} -%\begin{macro}{\jouleperteslanp} -%\begin{macro}{\henrypermetre} -%\begin{macro}{\henrypermetrenp} -% Some more. -% \begin{macrocode} -\addunit{\squaremetrepersquaresecondnp} - {\squaremetre\second\rpsquared} -\addunit{\kilogrammetrepersecond}{\kilogram\metre\per\second} -\addunit{\kilogrammetrepersecondnp} - {\kilogram\metre\reciprocal\second} -\addunit{\candelapersquaremetre}{\candela\per\squaremetre} -\addunit{\candelapersquaremetrenp}{\candela\rpsquare\metre} -\addunit{\amperepermetre}{\ampere\per\metre} -\addunit{\amperepermetrenp}{\ampere\reciprocal\metre} -\addunit{\joulepertesla}{\joule\per\tesla} -\addunit{\jouleperteslanp}{\joule\reciprocal\tesla} -\addunit{\henrypermetre}{\henry\per\metre} -\addunit{\henrypermetrenp}{\henry\reciprocal\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kilogrampersecond} -%\begin{macro}{\kilogrampersecondnp} -%\begin{macro}{\kilogrampersquaremetresecond} -%\begin{macro}{\kilogrampersquaremetresecondnp} -%\begin{macro}{\kilogrampersquaremetre} -%\begin{macro}{\kilogrampersquaremetrenp} -%\begin{macro}{\kilogrampermetre} -%\begin{macro}{\kilogrampermetrenp} -%\begin{macro}{\joulepermolekelvin} -%\begin{macro}{\joulepermolekelvinnp} -%\begin{macro}{\kilogramperkilomole} -% Some more. -% \begin{macrocode} -\addunit{\kilogrampersecond}{\kilogram\per\second} -\addunit{\kilogrampersecondnp}{\kilogram\reciprocal\second} -\addunit{\kilogrampersquaremetresecond} - {\kilogram\per\squaremetre\second} -\addunit{\kilogrampersquaremetresecondnp} - {\kilogram\rpsquare\metre\reciprocal\second} -\addunit{\kilogrampersquaremetre}{\kilogram\per\squaremetre} -\addunit{\kilogrampersquaremetrenp}{\kilogram\rpsquare\metre} -\addunit{\kilogrampermetre}{\kilogram\per\metre} -\addunit{\kilogrampermetrenp}{\kilogram\reciprocal\metre} -\addunit{\joulepermolekelvin}{\joule\per\mole\kelvin} -\addunit{\joulepermolekelvinnp} - {\joule\reciprocal\mole\reciprocal\kelvin} -\addunit{\kilogramperkilomole}{\kilogram\per\kilo\mole} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kilogramperkilomolenp} -%\begin{macro}{\kilogramsquaremetre} -%\begin{macro}{\kilogramsquaremetrenp} -%\begin{macro}{\kilogrammetrepersquaresecond} -%\begin{macro}{\kilogrammetrepersquaresecondnp} -%\begin{macro}{\newtonpersquaremetre} -%\begin{macro}{\newtonpersquaremetrenp} -%\begin{macro}{\persquaremetresecond} -%\begin{macro}{\persquaremetresecondnp} -%\begin{macro}{\wattperkilogram} -%\begin{macro}{\wattperkilogramnp} -% Some more. -% \begin{macrocode} -\addunit{\kilogramperkilomolenp}{\kilogram\kilo\reciprocal\mole} -\addunit{\kilogramsquaremetre}{\kilogram\squaremetre} -\addunit{\kilogramsquaremetrenp}{\kilogramsquaremetre} -\addunit{\kilogrammetrepersquaresecond} - {\kilogram\metre\per\second\squared} -\addunit{\kilogrammetrepersquaresecondnp} - {\kilogram\metre\second\rpsquared} -\addunit{\newtonpersquaremetre}{\newton\per\squaremetre} -\addunit{\newtonpersquaremetrenp}{\newton\rpsquare\metre} -\addunit{\persquaremetresecond}{1\per\squaremetre\second} -\addunit{\persquaremetresecondnp}{\rpsquare\metre\reciprocal\second} -\addunit{\wattperkilogram}{\watt\per\kilogram} -\addunit{\wattperkilogramnp}{\watt\reciprocal\kilogram} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\wattpercubicmetre} -%\begin{macro}{\wattpercubicmetrenp} -%\begin{macro}{\wattpersquaremetresteradian} -%\begin{macro}{\wattpersquaremetresteradiannp} -%\begin{macro}{\jouleperkilogramkelvin} -%\begin{macro}{\jouleperkilogramkelvinnp} -%\begin{macro}{\squaremetreperkilogram} -%\begin{macro}{\rpsquaremetreperkilogram} -%\begin{macro}{\cubicmetreperkilogram} -%\begin{macro}{\rpcubicmetreperkilogram} -%\begin{macro}{\newtonpermetre} -% Some more. -% \begin{macrocode} -\addunit{\wattpercubicmetre}{\watt\per\cubic\metre} -\addunit{\wattpercubicmetrenp}{\watt\rpcubic\metre} -\addunit{\wattpersquaremetresteradian}{\watt\per\squaremetre\steradian} -\addunit{\wattpersquaremetresteradiannp} - {\watt\rpsquare\metre\rp\steradian} -\addunit{\jouleperkilogramkelvin}{\joule\per\kilogram\kelvin} -\addunit{\jouleperkilogramkelvinnp} - {\joule\reciprocal\kilogram\reciprocal\kelvin} -\addunit{\squaremetreperkilogram}{\squaremetre\per\kilogram} -\addunit{\rpsquaremetreperkilogram} - {\squaremetre\reciprocal\kilogram} -\addunit{\cubicmetreperkilogram}{\cubic\metre\per\kilogram} -\addunit{\rpcubicmetreperkilogram} - {\cubic\metre\reciprocal\kilogram} -\addunit{\newtonpermetre}{\newton\per\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\newtonpermetrenp} -%\begin{macro}{\wattpermetrekelvin} -%\begin{macro}{\wattpermetrekelvinnp} -%\begin{macro}{\newtonmetre} -%\begin{macro}{\newtonmetrenp} -%\begin{macro}{\squaremetrepercubicsecond} -%\begin{macro}{\squaremetrepercubicsecondnp} -%\begin{macro}{\metrepersecond} -%\begin{macro}{\metrepersecondnp} -%\begin{macro}{\joulepercubicmetre} -%\begin{macro}{\joulepercubicmetrenp} -% Some more. -% \begin{macrocode} -\addunit{\newtonpermetrenp}{\newton\reciprocal\metre} -\addunit{\wattpermetrekelvin}{\watt\per\metre\kelvin} -\addunit{\wattpermetrekelvinnp} - {\watt\reciprocal\metre\reciprocal\kelvin} -\addunit{\newtonmetre}{\newton\metre} -\addunit{\newtonmetrenp}{\newtonmetre} -\addunit{\squaremetrepercubicsecond}{\squaremetre\per\cubic\second} -\addunit{\squaremetrepercubicsecondnp} - {\squaremetre\rpcubic\second} -\addunit{\metrepersecond}{\metre\per\second} -\addunit{\metrepersecondnp}{\metre\reciprocal\second} -\addunit{\joulepercubicmetre}{\joule\per\cubicmetre} -\addunit{\joulepercubicmetrenp}{\joule\rpcubic\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kilogrampercubicmetrecoulomb} -%\begin{macro}{\kilogrampercubicmetrecoulombnp} -%\begin{macro}{\cubicmetrepersecond} -%\begin{macro}{\rpcubicmetrepersecond} -%\begin{macro}{\kilogrampersecondcubicmetre} -%\begin{macro}{\kilogrampersecondcubicmetrenp} -% Last block. -% \begin{macrocode} -\addunit{\kilogrampercubicmetrecoulomb} - {\kilogram\per\cubic\metre\coulomb} -\addunit{\kilogrampercubicmetrecoulombnp} - {\kilogram\rpcubic\metre\reciprocal\coulomb} -\addunit{\cubicmetrepersecond}{\cubicmetre\per\second} -\addunit{\rpcubicmetrepersecond}{\cubicmetre\reciprocal\second} -\addunit{\kilogrampersecondcubicmetre} - {\kilogram\per\second\cubicmetre} -\addunit{\kilogrampersecondcubicmetrenp} - {\kilogram\reciprocal\second\rpcubic\metre} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\yoctod} -%\begin{macro}{\zeptod} -%\begin{macro}{\attod} -%\begin{macro}{\femtod} -%\begin{macro}{\picod} -%\begin{macro}{\nanod} -%\begin{macro}{\microd} -%\begin{macro}{\millid} -%\begin{macro}{\centid} -% The prefixes giving numerical output need a trick. First the small -% values. -% \begin{macrocode} -\newunit{\yoctod}{\si@prefixnumtrue\yocto} -\newunit{\zeptod}{\si@prefixnumtrue\zepto} -\newunit{\attod}{\si@prefixnumtrue\atto} -\newunit{\femtod}{\si@prefixnumtrue\femto} -\newunit{\picod}{\si@prefixnumtrue\pico} -\newunit{\nanod}{\si@prefixnumtrue\nano} -\newunit{\microd}{\si@prefixnumtrue\micro} -\newunit{\millid}{\si@prefixnumtrue\milli} -\newunit{\centid}{\si@prefixnumtrue\centi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\decad} -%\begin{macro}{\dekad} -%\begin{macro}{\hectod} -%\begin{macro}{\kilod} -%\begin{macro}{\megad} -%\begin{macro}{\gigad} -%\begin{macro}{\terad} -%\begin{macro}{\petad} -%\begin{macro}{\exad} -%\begin{macro}{\zettad} -%\begin{macro}{\yottad} -% The the larger ones. -% \begin{macrocode} -\newunit{\decad}{\si@prefixnumtrue\deca} -\newunit{\dekad}{\si@prefixnumtrue\deka} -\newunit{\hectod}{\si@prefixnumtrue\hecto} -\newunit{\kilod}{\si@prefixnumtrue\kilo} -\newunit{\megad}{\si@prefixnumtrue\mega} -\newunit{\gigad}{\si@prefixnumtrue\giga} -\newunit{\terad}{\si@prefixnumtrue\tera} -\newunit{\petad}{\si@prefixnumtrue\peta} -\newunit{\exad}{\si@prefixnumtrue\exa} -\newunit{\zettad}{\si@prefixnumtrue\zetta} -\newunit{\yottad}{\si@prefixnumtrue\yotta} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\kibid} -%\begin{macro}{\mebid} -%\begin{macro}{\gibid} -%\begin{macro}{\tebid} -%\begin{macro}{\pebid} -%\begin{macro}{\exbid} -% The binary versions need a little more work. -% \begin{macrocode} -\newunit{\kibid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\kibi} -\newunit{\mebid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\mebi} -\newunit{\gibid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\gibi} -\newunit{\tebid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\tebi} -\newunit{\pebid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\pebi} -\newunit{\exbid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\exbi} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\derradian} -%\begin{macro}{\dersteradian} -%\begin{macro}{\derhertz} -%\begin{macro}{\dernewton} -%\begin{macro}{\derpascal} -%\begin{macro}{\derjoule} -%\begin{macro}{\derwatt} -%\begin{macro}{\dercoulomb} -%\begin{macro}{\dervolt} -%\begin{macro}{\derfarad} -%\begin{macro}{\derohm} -% The derived units may need to be defined. -% \begin{macrocode} -\ifsi@old@derived - \newunit{\derradian}{\metre\reciprocal\metre} - \newunit{\dersteradian}{\squaremetre\rpsquare\metre} - \newunit{\derhertz}{\reciprocal\second} - \newunit{\dernewton}{\metre\kilogram\second\rpsquared} - \newunit{\derpascal}{\newton\rpsquare\metre} - \newunit{\derjoule}{\newton\metre} - \newunit{\derwatt}{\joule\reciprocal\second} - \newunit{\dercoulomb}{\ampere\second} - \newunit{\dervolt}{\watt\reciprocal\ampere} - \newunit{\derfarad}{\coulomb\reciprocal\volt} - \newunit{\derohm}{\volt\reciprocal\ampere} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\dersiemens} -%\begin{macro}{\derweber} -%\begin{macro}{\dertesla} -%\begin{macro}{\derhenry} -%\begin{macro}{\dercelsius} -%\begin{macro}{\derlumen} -%\begin{macro}{\derlux} -%\begin{macro}{\derbecquerel} -%\begin{macro}{\dergray} -%\begin{macro}{\dersievert} -%\begin{macro}{\derkatal} -% In two blocks! -% \begin{macrocode} - \newunit{\dersiemens}{\ampere\reciprocal\volt} - \newunit{\derweber} - {\squaremetre\kilogram\second\rpsquared\reciprocal\ampere} - \newunit{\dertesla}{\weber\rpsquare\metre} - \newunit{\derhenry}{\weber\reciprocal\ampere} - \newunit{\dercelsius}{\kelvin} - \newunit{\derlumen}{\candela\steradian} - \newunit{\derlux}{\lumen\rpsquare\metre} - \newunit{\derbecquerel}{\derhertz} - \newunit{\dergray}{\joule\reciprocal\kilogram} - \newunit{\dersievert}{\dergray} - \newunit{\derkatal}{\rp\second\usk\mole} -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\radianbase} -%\begin{macro}{\steradianbase} -%\begin{macro}{\hertzbase} -%\begin{macro}{\newtonbase} -%\begin{macro}{\pascalbase} -%\begin{macro}{\joulebase} -%\begin{macro}{\wattbase} -%\begin{macro}{\coulombbase} -%\begin{macro}{\voltbase} -%\begin{macro}{\faradbase} -%\begin{macro}{\ohmbase} -% Also the ``derived-in-base''. -% \begin{macrocode} -\ifsi@old@derivedinbase - \newunit{\radianbase}{\metre\reciprocal\metre} - \newunit{\steradianbase}{\squaremetre\rpsquare\metre} - \newunit{\hertzbase}{\reciprocal\second} - \newunit{\newtonbase}{\metre\kilogram\second\rpsquared} - \newunit{\pascalbase}{\reciprocal\metre\kilogram\second\rpsquared} - \newunit{\joulebase}{\squaremetre\kilogram\second\rpsquared} - \newunit{\wattbase}{\squaremetre\kilogram\rpcubic\second} - \newunit{\coulombbase}{\ampere\second} - \newunit{\voltbase} - {\squaremetre\kilogram\rpcubic\second\reciprocal\ampere} - \newunit{\faradbase} - {\rpsquare\metre\reciprocal\kilogram\fourth\second\ampere% - \squared} - \newunit{\ohmbase} - {\squaremetre\kilogram\rpcubic\second\rpsquare\ampere} -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\begin{macro}{\siemensbase} -%\begin{macro}{\weberbase} -%\begin{macro}{\teslabase} -%\begin{macro}{\henrybase} -%\begin{macro}{\celsiusbase} -%\begin{macro}{\lumenbase} -%\begin{macro}{\luxbase} -%\begin{macro}{\becquerelbase} -%\begin{macro}{\graybase} -%\begin{macro}{\sievertbase} -%\begin{macro}{\katalbase} -% Also in two blocks. -% \begin{macrocode} - \newunit{\siemensbase} - {\rpsquare\metre\reciprocal\kilogram\cubic\second\ampere\squared} - \newunit{\weberbase} - {\squaremetre\kilogram\second\rpsquared\reciprocal\ampere} - \newunit{\teslabase}{\kilogram\second\rpsquared\reciprocal\ampere} - \newunit{\henrybase} - {\squaremetre\kilogram\second\rpsquared\rpsquare\ampere} - \newunit{\celsiusbase}{\kelvin} - \newunit{\lumenbase}{\candela\squaremetre\rpsquare\metre} - \newunit{\luxbase}{\candela\squaremetre\rpfourth\metre} - \newunit{\becquerelbase}{\hertzbase} - \newunit{\graybase}{\squaremetre\second\rpsquared} - \newunit{\sievertbase}{\graybase} - \newunit{\katalbase}{\rp\second\mole} -\fi -% \end{macrocode} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -%\end{macro} -% Any configuration file is used if found. -% \begin{macrocode} -\InputIfFileExists{SIunits.cfg} - {\si@log@inf{SIunits config file loaded}} - {\si@log@inf{SIunits config file not found}} -% \end{macrocode} -%\iffalse -%</SIunits> -%\fi -% -%\Finale -%\iffalse -%<*refs> -@misc{NIST, - note = {\url{http://physics.nist.gov/cuu/Units/rules.html}}, -} -%</refs> -%<*jawltxdoc> -\NeedsTeXFormat{LaTeX2e} -\ProvidesPackage{jawltxdoc} -\usepackage[T1]{fontenc} -\usepackage[english,UKenglish]{babel} -\usepackage[scaled=0.95]{helvet} -\usepackage[version=3]{mhchem} -\usepackage[final]{microtype} -\usepackage[osf]{mathpazo} -\usepackage{booktabs,array,url,graphicx,courier,xspace} -\usepackage{upgreek,ifpdf,listings,float,caption,longtable} -\floatstyle{plaintop} -\restylefloat{table} -\ifpdf - \usepackage{embedfile} - \embedfile[% - stringmethod=escape,% - mimetype=plain/text,% - desc={LaTeX docstrip source archive for package `\jobname'}% - ]{\jobname.dtx} -\fi -\IfFileExists{\jobname.sty} - {\usepackage{\jobname}}{} -\usepackage[numbered]{hypdoc} -\newlength\LaTeXwidth -\newlength\LaTeXoutdent -\newlength\LaTeXgap -\setlength\LaTeXgap{1em} -\setlength\LaTeXoutdent{-0.15\textwidth} -\newcommand*{\typesetexampleandcode}{% - \begin{list}{}{% - \setlength\itemindent{0pt} - \setlength\leftmargin\LaTeXoutdent - \setlength\rightmargin{0pt} - } - \item - \setlength\LaTeXoutdent{-0.15\textwidth} - \begin{minipage}[c]{\textwidth-\LaTeXwidth-\LaTeXoutdent-\LaTeXgap} - \lst@sampleInput - \end{minipage}% - \hfill% - \begin{minipage}[c]{\LaTeXwidth}% - \hbox to\linewidth{\box\lst@samplebox\hss}% - \end{minipage}% - \end{list} -} -\newcommand*{\typesetcodeandexample}{% - \begin{list}{}{% - \setlength\itemindent{0pt} - \setlength\leftmargin{0pt} - \setlength\rightmargin{0pt} - } - \item - \begin{minipage}[c]{\LaTeXwidth}% - \hbox to\linewidth{\box\lst@samplebox\hss}% - \end{minipage}% - \lst@sampleInput - \end{list} -} -\newcommand*{\typesetfloatexample}{% - \begin{list}{}{% - \setlength\itemindent{0pt} - \setlength\leftmargin{0pt} - \setlength\rightmargin{0pt} - } - \item - \lst@sampleInput - \begin{minipage}[c]{\LaTeXwidth}% - \hbox to\linewidth{\box\lst@samplebox\hss}% - \end{minipage}% - \end{list} -} -\newcommand*{\typesetcodeonly}{% - \begin{list}{}{% - \setlength\itemindent{0pt} - \setlength\leftmargin{0pt} - \setlength\rightmargin{0pt} - } - \item - \begin{minipage}[c]{\LaTeXwidth}% - \hbox to\linewidth{\box\lst@samplebox\hss}% - \end{minipage}% - \end{list} -} -\edef\LaTeXexamplefile{\jobname.tmp} -\lst@RequireAspects{writefile} -\newbox\lst@samplebox -\lstnewenvironment{LaTeXexample}[1][\typesetexampleandcode]{% - \let\typesetexample#1 - \global\let\lst@intname\@empty - \setbox\lst@samplebox=\hbox\bgroup - \setkeys{lst}{tabsize=4,gobble=3,breakindent=0pt,% - basicstyle=\small\ttfamily,basewidth=0.51em,% - keywordstyle=\color{blue}} - \lst@BeginAlsoWriteFile{\LaTeXexamplefile} -}{% - \lst@EndWriteFile\egroup - \setlength\LaTeXwidth{\wd\lst@samplebox} - \typesetexample% -} -\newcommand*{\lst@sampleInput}{% - \MakePercentComment\catcode`\^^M=10\relax - \small% - {\setkeys{lst}{SelectCharTable=\lst@ReplaceInput{\^\^I}% - {\lst@ProcessTabulator}}% - \leavevmode \input{\LaTeXexamplefile}}% - \MakePercentIgnore% -} -\newcommand*{\pkg}[1]{\textsf{#1}} -\newcommand*{\currpkg}{\pkg{\jobname}\xspace} -\newcommand*{\opt}[1]{\texttt{#1}} -\newcommand*{\file}[1]{\texttt{#1}} -\newcommand*{\ext}[1]{\file{.#1}} -\newcommand*{\latin}[1]{\emph{#1}} -\newcommand*{\etc}{% - \@ifnextchar. - {\latin{etc}} - {\latin{etc.}} - \xspace} -\newcommand*{\eg}{% - \@ifnextchar. - {\latin{e.g}} - {\latin{e.g.}} - \xspace} -\newcommand*{\ie}{% - \@ifnextchar. - {\latin{i.e}} - {\latin{i.e.}} - \xspace} -\newcommand*{\AMS}{{\protect\usefont{OMS}{cmsy}{m}{n}% - A\kern-.1667em\lower.5ex\hbox{M}\kern-.125emS}} -\providecommand*{\eTeX}{\ensuremath{\varepsilon}-\TeX} -\newcommand*{\XeTeX} - {X\kern-.125em\lower.5ex\hbox{\reflectbox{E}}\kern-.1667em\TeX} -%</jawltxdoc> -%\fi diff --git a/Master/texmf-dist/source/latex/si/si.ins b/Master/texmf-dist/source/latex/si/si.ins deleted file mode 100644 index 3e8a8d3c58e..00000000000 --- a/Master/texmf-dist/source/latex/si/si.ins +++ /dev/null @@ -1,66 +0,0 @@ -%% -%% This is file `si.ins', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `install') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\input docstrip.tex -\keepsilent -\askforoverwritefalse -\preamble - ---------------------------------------------------------------- - The si package --- A comprehensive (SI) units package - Maintained by Joseph Wright - E-mail: joseph.wright@morningstar2.co.uk - Released under the LaTeX Project Public License v1.3c or later - See http://www.latex-project.org/lppl.txt - ---------------------------------------------------------------- - -\endpreamble -\Msg{Generating si files:} -\usedir{tex/latex/contib/si} -\generate{\file{\jobname.ins}{\from{\jobname.dtx}{install}} - \file{\jobname.sty}{\from{\jobname.dtx}{package}} - \file{jawltxdoc.sty}{\from{\jobname.dtx}{jawltxdoc}} -} -\usedir{tex/latex/contib/config} -\generate{\file{si-SIunits.cfg}{\from{\jobname.dtx}{SIunits}} - \file{si-sistyle.cfg}{\from{\jobname.dtx}{sistyle}} - \file{si-unitsdef.cfg}{\from{\jobname.dtx}{unitsdef}} - \file{si-units.cfg}{\from{\jobname.dtx}{units}} -} -\generate{\file{si-prefix.cfg}{\from{\jobname.dtx}{prefix}} - \file{si-named.cfg}{\from{\jobname.dtx}{named}} - \file{si-prefixed.cfg}{\from{\jobname.dtx}{prefixed}} - \file{si-addn.cfg}{\from{\jobname.dtx}{addn}} - \file{si-accepted.cfg}{\from{\jobname.dtx}{accepted}} - \file{si-physical.cfg}{\from{\jobname.dtx}{physical}} - \file{si-abbr.cfg}{\from{\jobname.dtx}{abbr}} -} -\generate{\file{si-synchem.cfg}{\from{\jobname.dtx}{synchem}} - \file{si-hep.cfg}{\from{\jobname.dtx}{hep}} - \file{si-binary.cfg}{\from{\jobname.dtx}{binary}} -} -\generate{\file{si-UK.cfg}{\from{\jobname.dtx}{UK}} - \file{si-USA.cfg}{\from{\jobname.dtx}{USA}} - \file{si-germany.cfg}{\from{\jobname.dtx}{germany}} - \file{si-south-africa.cfg}{\from{\jobname.dtx} - {south-africa}} -} -\nopreamble -\usedir{doc/latex/contib/si} -\generate{\file{\jobname.bib}{\from{\jobname.dtx}{refs}} -} -\endbatchfile -\endinput -%% -%% End of file `si.ins'. diff --git a/Master/texmf-dist/tex/latex/si/jawltxdoc.sty b/Master/texmf-dist/tex/latex/si/jawltxdoc.sty deleted file mode 100644 index 44e31b5867d..00000000000 --- a/Master/texmf-dist/tex/latex/si/jawltxdoc.sty +++ /dev/null @@ -1,151 +0,0 @@ -%% -%% This is file `jawltxdoc.sty', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `jawltxdoc') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\NeedsTeXFormat{LaTeX2e} -\ProvidesPackage{jawltxdoc} -\usepackage[T1]{fontenc} -\usepackage[english,UKenglish]{babel} -\usepackage[scaled=0.95]{helvet} -\usepackage[version=3]{mhchem} -\usepackage[final]{microtype} -\usepackage[osf]{mathpazo} -\usepackage{booktabs,array,url,graphicx,courier,xspace} -\usepackage{upgreek,ifpdf,listings,float,caption,longtable} -\floatstyle{plaintop} -\restylefloat{table} -\ifpdf - \usepackage{embedfile} - \embedfile[% - stringmethod=escape,% - mimetype=plain/text,% - desc={LaTeX docstrip source archive for package `\jobname'}% - ]{\jobname.dtx} -\fi -\IfFileExists{\jobname.sty} - {\usepackage{\jobname}}{} -\usepackage[numbered]{hypdoc} -\newlength\LaTeXwidth -\newlength\LaTeXoutdent -\newlength\LaTeXgap -\setlength\LaTeXgap{1em} -\setlength\LaTeXoutdent{-0.15\textwidth} -\newcommand*{\typesetexampleandcode}{% - \begin{list}{}{% - \setlength\itemindent{0pt} - \setlength\leftmargin\LaTeXoutdent - \setlength\rightmargin{0pt} - } - \item - \setlength\LaTeXoutdent{-0.15\textwidth} - \begin{minipage}[c]{\textwidth-\LaTeXwidth-\LaTeXoutdent-\LaTeXgap} - \lst@sampleInput - \end{minipage}% - \hfill% - \begin{minipage}[c]{\LaTeXwidth}% - \hbox to\linewidth{\box\lst@samplebox\hss}% - \end{minipage}% - \end{list} -} -\newcommand*{\typesetcodeandexample}{% - \begin{list}{}{% - \setlength\itemindent{0pt} - \setlength\leftmargin{0pt} - \setlength\rightmargin{0pt} - } - \item - \begin{minipage}[c]{\LaTeXwidth}% - \hbox to\linewidth{\box\lst@samplebox\hss}% - \end{minipage}% - \lst@sampleInput - \end{list} -} -\newcommand*{\typesetfloatexample}{% - \begin{list}{}{% - \setlength\itemindent{0pt} - \setlength\leftmargin{0pt} - \setlength\rightmargin{0pt} - } - \item - \lst@sampleInput - \begin{minipage}[c]{\LaTeXwidth}% - \hbox to\linewidth{\box\lst@samplebox\hss}% - \end{minipage}% - \end{list} -} -\newcommand*{\typesetcodeonly}{% - \begin{list}{}{% - \setlength\itemindent{0pt} - \setlength\leftmargin{0pt} - \setlength\rightmargin{0pt} - } - \item - \begin{minipage}[c]{\LaTeXwidth}% - \hbox to\linewidth{\box\lst@samplebox\hss}% - \end{minipage}% - \end{list} -} -\edef\LaTeXexamplefile{\jobname.tmp} -\lst@RequireAspects{writefile} -\newbox\lst@samplebox -\lstnewenvironment{LaTeXexample}[1][\typesetexampleandcode]{% - \let\typesetexample#1 - \global\let\lst@intname\@empty - \setbox\lst@samplebox=\hbox\bgroup - \setkeys{lst}{tabsize=4,gobble=3,breakindent=0pt,% - basicstyle=\small\ttfamily,basewidth=0.51em,% - keywordstyle=\color{blue}} - \lst@BeginAlsoWriteFile{\LaTeXexamplefile} -}{% - \lst@EndWriteFile\egroup - \setlength\LaTeXwidth{\wd\lst@samplebox} - \typesetexample% -} -\newcommand*{\lst@sampleInput}{% - \MakePercentComment\catcode`\^^M=10\relax - \small% - {\setkeys{lst}{SelectCharTable=\lst@ReplaceInput{\^\^I}% - {\lst@ProcessTabulator}}% - \leavevmode \input{\LaTeXexamplefile}}% - \MakePercentIgnore% -} -\newcommand*{\pkg}[1]{\textsf{#1}} -\newcommand*{\currpkg}{\pkg{\jobname}\xspace} -\newcommand*{\opt}[1]{\texttt{#1}} -\newcommand*{\file}[1]{\texttt{#1}} -\newcommand*{\ext}[1]{\file{.#1}} -\newcommand*{\latin}[1]{\emph{#1}} -\newcommand*{\etc}{% - \@ifnextchar. - {\latin{etc}} - {\latin{etc.}} - \xspace} -\newcommand*{\eg}{% - \@ifnextchar. - {\latin{e.g}} - {\latin{e.g.}} - \xspace} -\newcommand*{\ie}{% - \@ifnextchar. - {\latin{i.e}} - {\latin{i.e.}} - \xspace} -\newcommand*{\AMS}{{\protect\usefont{OMS}{cmsy}{m}{n}% - A\kern-.1667em\lower.5ex\hbox{M}\kern-.125emS}} -\providecommand*{\eTeX}{\ensuremath{\varepsilon}-\TeX} -\newcommand*{\XeTeX} - {X\kern-.125em\lower.5ex\hbox{\reflectbox{E}}\kern-.1667em\TeX} -\endinput -%% -%% End of file `jawltxdoc.sty'. diff --git a/Master/texmf-dist/tex/latex/si/si-SIunits.cfg b/Master/texmf-dist/tex/latex/si/si-SIunits.cfg deleted file mode 100644 index ffd50e1520d..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-SIunits.cfg +++ /dev/null @@ -1,347 +0,0 @@ -%% -%% This is file `si-SIunits.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `SIunits') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-SIunits.cfg} - [2008/02/20 v.06a Emulation of SIunits] -\sisetup{ - unitsep=thick, - valuesep=thick, - prefixproduct=\si@valuesep} -\si@requirecfgs{prefix,named,accepted,physical} -\newcommand*{\reciprocal}{\sisetup{per=reciprocal}\si@per} -\let\rp\reciprocal -\renewcommand*{\per}{\sisetup{per=slash}\si@per} -\newcommand*{\usk}{} -\newcommand*{\power}[1]{#1\tothe} -\newcommand*{\rpsquare}{\sisetup{per=reciprocal}\si@per\Square} -\newcommand*{\rpcubic}{\sisetup{per=reciprocal}\si@per\cubic} -\newpower{\fourth}{4} -\newcommand*{\rpfourth}{\sisetup{per=reciprocal}\si@per\fourth} -\newcommand*{\rpsquared}{% - \sisetup{per=reciprocal}\si@unt@pertrue\si@unt@perseentrue\squared} -\newcommand*{\rpcubed}{\sisetup{per=reciprocal}\si@unt@pertrue\cubed} -\newcommand*{\SIsetup}[1]{% - \@for\si@tempa:=#1\do{% - \@ifundefined{ifsi@old@#1} - {\si@log@warn{Unknown SIunits option `#1'}} - {\csname si@old@#1true\endcsname}} - \si@siu@setup} -\newcommand*{\si@siu@setup}{% - \ifsi@old@cdot - \sisetup{unitsep=cdot}% - \fi - \ifsi@old@thickspace - \sisetup{unitsep=thick}% - \fi - \ifsi@old@mediumspace - \sisetup{unitsep=medium}% - \fi - \ifsi@old@thinspace - \sisetup{unitsep=thin}% - \fi - \ifsi@old@thickqspace - \sisetup{valuesep=thick}% - \fi - \ifsi@old@mediumqspace - \sisetup{valuesep=medium}% - \fi - \ifsi@old@thinqspace - \sisetup{valuesep=thin}% - \fi} -\si@siu@setup -\ifsi@old@squaren - \newpower{\squaren}{2} -\fi -\AtBeginDocument{% - \@ifundefined{square} - {\newpower{\square}{2}} - {\ifsi@old@amssymb - \renewpower{\square}{2} - \else - \ifsi@old@squaren\else - \si@log@warn{\string\square\space already - defined\MessageBreak SIunits mode may cause - errors}% - \fi - \fi}} -\AtBeginDocument{% - \@ifundefined{gray} - {\newunit{\gray}{Gy}} - {\ifsi@old@pstricks - \renewunit{\gray}{Gy} - \else - \ifsi@old@Gray\else - \si@log@warn{\string\gray\space already - defined\MessageBreak SIunits mode may cause - errors}% - \fi - \fi}} -\ifsi@old@italian - \let\unita\SI -\else - \let\unit\SI -\fi -\ifsi@old@textstyle - \sisetup{mode=text} -\fi -\ifsi@old@binary - \sisetup{alsoload=binary} -\fi -\ifsi@old@noams - \AtBeginDocument{% - \renewcommand*{\si@textmu}{\ensuremath\si@mathsmu}} -\fi -\newunit[valuesep=none]{\arcminute}{\si@sym@minute} -\newunit[valuesep=none]{\arcsecond}{\si@sym@second} -\newunit{\bbar}{bar} -\newunit{\dday}{day} -\newunit{\liter}{L} -\newunit{\rperminute}{r/min} -\newunit{\ton}{t} -\newunit{\degreecelsius}{\celsius} -\let\addunit\newunit -\newcommand*{\addprefix}[2]{\newprefix{#1}{#2}} -\addunit{\graypersecond}{\gray\per\second} -\addunit{\graypersecondnp}{\gray\reciprocal\second} -\addunit{\metrepersquaresecond}{\metre\per\second\squared} -\addunit{\metrepersquaresecondnp}{\metre\second\rpsquared} -\addunit{\joulepermole}{\joule\per\mole} -\addunit{\joulepermolenp}{\joule\reciprocal\mole} -\addunit{\molepercubicmetre}{\mole\per\cubic\metre} -\addunit{\molepercubicmetrenp}{\mole\rpcubic\metre} -\addunit{\radianpersquaresecond}{\radian\per\second\squared} -\addunit{\radianpersquaresecondnp}{\radian\second\rpsquared} -\addunit{\kilogramsquaremetrepersecond} - {\kilogram\usk\squaremetre\per\second} -\addunit{\kilogramsquaremetrepersecondnp} - {\kilogram\usk\squaremetre\reciprocal\second} -\addunit{\radianpersecond}{\radian\per\second} -\addunit{\radianpersecondnp}{\radian\reciprocal\second} -\addunit{\squaremetrepercubicmetre}{\squaremetre\per\cubic\metre} -\addunit{\squaremetrepercubicmetrenp}{\squaremetre\rpcubic\metre} -\addunit{\katalpercubicmetre}{\katal\per\cubic\metre} -\addunit{\katalpercubicmetrenp}{\katal\rpcubic\metre} -\addunit{\coulombpermol}{\coulomb\per\mole} -\addunit{\coulombpermolnp}{\coulomb\reciprocal\mole} -\addunit{\amperepersquaremetre}{\ampere\per\squaremetre} -\addunit{\amperepersquaremetrenp}{\ampere\rpsquare\metre} -\addunit{\kilogrampercubicmetre}{\kilogram\per\cubic\metre} -\addunit{\kilogrampercubicmetrenp}{\kilogram\rpcubic\metre} -\addunit{\squaremetrepernewtonsecond} - {\squaremetre\per\newton\second} -\addunit{\squaremetrepernewtonsecondnp} - {\squaremetre\reciprocal\newton\reciprocal\second} -\addunit{\pascalsecond}{\pascal\second} -\addunit{\coulombpercubicmetre}{\coulomb\per\cubic\metre} -\addunit{\coulombpercubicmetrenp}{\coulomb\rpcubic\metre} -\addunit{\amperemetresecond}{\ampere\metre\second} -\addunit{\voltpermetre}{\volt\per\metre} -\addunit{\voltpermetrenp}{\volt\reciprocal\metre} -\addunit{\coulombpersquaremetre}{\coulomb\per\squaremetre} -\addunit{\coulombpersquaremetrenp}{\coulomb\rpsquare\metre} -\addunit{\faradpermetre}{\farad\per\metre} -\addunit{\faradpermetrenp}{\farad\reciprocal\metre} -\addunit{\ohmmetre}{\ohm\metre} -\addunit{\kilowatthour}{\kilo\watt\hour} -\addunit{\wattpersquaremetre}{\watt\per\squaremetre} -\addunit{\wattpersquaremetrenp}{\watt\rpsquare\metre} -\addunit{\joulepersquaremetre}{\joule\per\squaremetre} -\addunit{\joulepersquaremetrenp}{\joule\rpsquare\metre} -\addunit{\newtonpercubicmetre}{\newton\per\cubic\metre} -\addunit{\newtonpercubicmetrenp}{\newton\rpcubic\metre} -\addunit{\newtonperkilogram}{\newton\per\kilogram} -\addunit{\newtonperkilogramnp}{\newton\reciprocal\kilogram} -\addunit{\jouleperkelvin}{\joule\per\kelvin} -\addunit{\jouleperkelvinnp}{\joule\reciprocal\kelvin} -\addunit{\jouleperkilogram}{\joule\per\kilogram} -\addunit{\jouleperkilogramnp}{\joule\reciprocal\kilogram} -\addunit{\coulombperkilogram}{\coulomb\per\kilogram} -\addunit{\coulombperkilogramnp}{\coulomb\reciprocal\kilogram} -\addunit{\squaremetrepersecond}{\squaremetre\per\second} -\addunit{\squaremetrepersecondnp}{\squaremetre\reciprocal\second} -\addunit{\squaremetrepersquaresecond} - {\squaremetre\per\second\squared} -\addunit{\squaremetrepersquaresecondnp} - {\squaremetre\second\rpsquared} -\addunit{\kilogrammetrepersecond}{\kilogram\metre\per\second} -\addunit{\kilogrammetrepersecondnp} - {\kilogram\metre\reciprocal\second} -\addunit{\candelapersquaremetre}{\candela\per\squaremetre} -\addunit{\candelapersquaremetrenp}{\candela\rpsquare\metre} -\addunit{\amperepermetre}{\ampere\per\metre} -\addunit{\amperepermetrenp}{\ampere\reciprocal\metre} -\addunit{\joulepertesla}{\joule\per\tesla} -\addunit{\jouleperteslanp}{\joule\reciprocal\tesla} -\addunit{\henrypermetre}{\henry\per\metre} -\addunit{\henrypermetrenp}{\henry\reciprocal\metre} -\addunit{\kilogrampersecond}{\kilogram\per\second} -\addunit{\kilogrampersecondnp}{\kilogram\reciprocal\second} -\addunit{\kilogrampersquaremetresecond} - {\kilogram\per\squaremetre\second} -\addunit{\kilogrampersquaremetresecondnp} - {\kilogram\rpsquare\metre\reciprocal\second} -\addunit{\kilogrampersquaremetre}{\kilogram\per\squaremetre} -\addunit{\kilogrampersquaremetrenp}{\kilogram\rpsquare\metre} -\addunit{\kilogrampermetre}{\kilogram\per\metre} -\addunit{\kilogrampermetrenp}{\kilogram\reciprocal\metre} -\addunit{\joulepermolekelvin}{\joule\per\mole\kelvin} -\addunit{\joulepermolekelvinnp} - {\joule\reciprocal\mole\reciprocal\kelvin} -\addunit{\kilogramperkilomole}{\kilogram\per\kilo\mole} -\addunit{\kilogramperkilomolenp}{\kilogram\kilo\reciprocal\mole} -\addunit{\kilogramsquaremetre}{\kilogram\squaremetre} -\addunit{\kilogramsquaremetrenp}{\kilogramsquaremetre} -\addunit{\kilogrammetrepersquaresecond} - {\kilogram\metre\per\second\squared} -\addunit{\kilogrammetrepersquaresecondnp} - {\kilogram\metre\second\rpsquared} -\addunit{\newtonpersquaremetre}{\newton\per\squaremetre} -\addunit{\newtonpersquaremetrenp}{\newton\rpsquare\metre} -\addunit{\persquaremetresecond}{1\per\squaremetre\second} -\addunit{\persquaremetresecondnp}{\rpsquare\metre\reciprocal\second} -\addunit{\wattperkilogram}{\watt\per\kilogram} -\addunit{\wattperkilogramnp}{\watt\reciprocal\kilogram} -\addunit{\wattpercubicmetre}{\watt\per\cubic\metre} -\addunit{\wattpercubicmetrenp}{\watt\rpcubic\metre} -\addunit{\wattpersquaremetresteradian}{\watt\per\squaremetre\steradian} -\addunit{\wattpersquaremetresteradiannp} - {\watt\rpsquare\metre\rp\steradian} -\addunit{\jouleperkilogramkelvin}{\joule\per\kilogram\kelvin} -\addunit{\jouleperkilogramkelvinnp} - {\joule\reciprocal\kilogram\reciprocal\kelvin} -\addunit{\squaremetreperkilogram}{\squaremetre\per\kilogram} -\addunit{\rpsquaremetreperkilogram} - {\squaremetre\reciprocal\kilogram} -\addunit{\cubicmetreperkilogram}{\cubic\metre\per\kilogram} -\addunit{\rpcubicmetreperkilogram} - {\cubic\metre\reciprocal\kilogram} -\addunit{\newtonpermetre}{\newton\per\metre} -\addunit{\newtonpermetrenp}{\newton\reciprocal\metre} -\addunit{\wattpermetrekelvin}{\watt\per\metre\kelvin} -\addunit{\wattpermetrekelvinnp} - {\watt\reciprocal\metre\reciprocal\kelvin} -\addunit{\newtonmetre}{\newton\metre} -\addunit{\newtonmetrenp}{\newtonmetre} -\addunit{\squaremetrepercubicsecond}{\squaremetre\per\cubic\second} -\addunit{\squaremetrepercubicsecondnp} - {\squaremetre\rpcubic\second} -\addunit{\metrepersecond}{\metre\per\second} -\addunit{\metrepersecondnp}{\metre\reciprocal\second} -\addunit{\joulepercubicmetre}{\joule\per\cubicmetre} -\addunit{\joulepercubicmetrenp}{\joule\rpcubic\metre} -\addunit{\kilogrampercubicmetrecoulomb} - {\kilogram\per\cubic\metre\coulomb} -\addunit{\kilogrampercubicmetrecoulombnp} - {\kilogram\rpcubic\metre\reciprocal\coulomb} -\addunit{\cubicmetrepersecond}{\cubicmetre\per\second} -\addunit{\rpcubicmetrepersecond}{\cubicmetre\reciprocal\second} -\addunit{\kilogrampersecondcubicmetre} - {\kilogram\per\second\cubicmetre} -\addunit{\kilogrampersecondcubicmetrenp} - {\kilogram\reciprocal\second\rpcubic\metre} -\newunit{\yoctod}{\si@prefixnumtrue\yocto} -\newunit{\zeptod}{\si@prefixnumtrue\zepto} -\newunit{\attod}{\si@prefixnumtrue\atto} -\newunit{\femtod}{\si@prefixnumtrue\femto} -\newunit{\picod}{\si@prefixnumtrue\pico} -\newunit{\nanod}{\si@prefixnumtrue\nano} -\newunit{\microd}{\si@prefixnumtrue\micro} -\newunit{\millid}{\si@prefixnumtrue\milli} -\newunit{\centid}{\si@prefixnumtrue\centi} -\newunit{\decad}{\si@prefixnumtrue\deca} -\newunit{\dekad}{\si@prefixnumtrue\deka} -\newunit{\hectod}{\si@prefixnumtrue\hecto} -\newunit{\kilod}{\si@prefixnumtrue\kilo} -\newunit{\megad}{\si@prefixnumtrue\mega} -\newunit{\gigad}{\si@prefixnumtrue\giga} -\newunit{\terad}{\si@prefixnumtrue\tera} -\newunit{\petad}{\si@prefixnumtrue\peta} -\newunit{\exad}{\si@prefixnumtrue\exa} -\newunit{\zettad}{\si@prefixnumtrue\zetta} -\newunit{\yottad}{\si@prefixnumtrue\yotta} -\newunit{\kibid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\kibi} -\newunit{\mebid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\mebi} -\newunit{\gibid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\gibi} -\newunit{\tebid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\tebi} -\newunit{\pebid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\pebi} -\newunit{\exbid}{% - \si@prefixnumtrue\let\si@prefixpower\si@fix@two\exbi} -\ifsi@old@derived - \newunit{\derradian}{\metre\reciprocal\metre} - \newunit{\dersteradian}{\squaremetre\rpsquare\metre} - \newunit{\derhertz}{\reciprocal\second} - \newunit{\dernewton}{\metre\kilogram\second\rpsquared} - \newunit{\derpascal}{\newton\rpsquare\metre} - \newunit{\derjoule}{\newton\metre} - \newunit{\derwatt}{\joule\reciprocal\second} - \newunit{\dercoulomb}{\ampere\second} - \newunit{\dervolt}{\watt\reciprocal\ampere} - \newunit{\derfarad}{\coulomb\reciprocal\volt} - \newunit{\derohm}{\volt\reciprocal\ampere} - \newunit{\dersiemens}{\ampere\reciprocal\volt} - \newunit{\derweber} - {\squaremetre\kilogram\second\rpsquared\reciprocal\ampere} - \newunit{\dertesla}{\weber\rpsquare\metre} - \newunit{\derhenry}{\weber\reciprocal\ampere} - \newunit{\dercelsius}{\kelvin} - \newunit{\derlumen}{\candela\steradian} - \newunit{\derlux}{\lumen\rpsquare\metre} - \newunit{\derbecquerel}{\derhertz} - \newunit{\dergray}{\joule\reciprocal\kilogram} - \newunit{\dersievert}{\dergray} - \newunit{\derkatal}{\rp\second\usk\mole} -\fi -\ifsi@old@derivedinbase - \newunit{\radianbase}{\metre\reciprocal\metre} - \newunit{\steradianbase}{\squaremetre\rpsquare\metre} - \newunit{\hertzbase}{\reciprocal\second} - \newunit{\newtonbase}{\metre\kilogram\second\rpsquared} - \newunit{\pascalbase}{\reciprocal\metre\kilogram\second\rpsquared} - \newunit{\joulebase}{\squaremetre\kilogram\second\rpsquared} - \newunit{\wattbase}{\squaremetre\kilogram\rpcubic\second} - \newunit{\coulombbase}{\ampere\second} - \newunit{\voltbase} - {\squaremetre\kilogram\rpcubic\second\reciprocal\ampere} - \newunit{\faradbase} - {\rpsquare\metre\reciprocal\kilogram\fourth\second\ampere% - \squared} - \newunit{\ohmbase} - {\squaremetre\kilogram\rpcubic\second\rpsquare\ampere} - \newunit{\siemensbase} - {\rpsquare\metre\reciprocal\kilogram\cubic\second\ampere\squared} - \newunit{\weberbase} - {\squaremetre\kilogram\second\rpsquared\reciprocal\ampere} - \newunit{\teslabase}{\kilogram\second\rpsquared\reciprocal\ampere} - \newunit{\henrybase} - {\squaremetre\kilogram\second\rpsquared\rpsquare\ampere} - \newunit{\celsiusbase}{\kelvin} - \newunit{\lumenbase}{\candela\squaremetre\rpsquare\metre} - \newunit{\luxbase}{\candela\squaremetre\rpfourth\metre} - \newunit{\becquerelbase}{\hertzbase} - \newunit{\graybase}{\squaremetre\second\rpsquared} - \newunit{\sievertbase}{\graybase} - \newunit{\katalbase}{\rp\second\mole} -\fi -\InputIfFileExists{SIunits.cfg} - {\si@log@inf{SIunits config file loaded}} - {\si@log@inf{SIunits config file not found}} -\endinput -%% -%% End of file `si-SIunits.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-UK.cfg b/Master/texmf-dist/tex/latex/si/si-UK.cfg deleted file mode 100644 index d0321a3a1fd..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-UK.cfg +++ /dev/null @@ -1,27 +0,0 @@ -%% -%% This is file `si-UK.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `UK') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-UK.cfg} - [2008/02/20 v.06a UK locale] -\sisetup{ - unitsep=thin, - expproduct=times, - valuesep=thin, - decimalsign=fullstop, - digitsep=thin, - sepfour=false} -\endinput -%% -%% End of file `si-UK.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-USA.cfg b/Master/texmf-dist/tex/latex/si/si-USA.cfg deleted file mode 100644 index a02067e5c8f..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-USA.cfg +++ /dev/null @@ -1,27 +0,0 @@ -%% -%% This is file `si-USA.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `USA') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-USA.cfg} - [2008/02/20 v.06a USA locale] -\sisetup{ - unitsep=thin, - expproduct=times, - valuesep=thin, - decimalsign=fullstop, - digitsep=thin, - sepfour=false} -\endinput -%% -%% End of file `si-USA.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-abbr.cfg b/Master/texmf-dist/tex/latex/si/si-abbr.cfg deleted file mode 100644 index 4f336671a55..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-abbr.cfg +++ /dev/null @@ -1,71 +0,0 @@ -%% -%% This is file `si-abbr.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `abbr') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-abbr.cfg} - [2008/02/20 v.06a Abbreviated units] -\si@requirecfgs{prefix,named,accepted,physical} -\newunit{\pA}{\pico\ampere} -\newunit{\nA}{\nano\ampere} -\newunit{\micA}{\micro\ampere} -\newunit{\mA}{\milli\ampere} -\newunit{\kA}{\kilo\ampere} -\newunit{\Hz}{\hertz} -\newunit{\mHz}{\milli\hertz} -\newunit{\kHz}{\kilo\hertz} -\newunit{\MHz}{\mega\hertz} -\newunit{\GHz}{\giga\hertz} -\newunit{\THz}{\tera\hertz} -\newunit{\fmol}{\femto\mole} -\newunit{\pmol}{\pico\mole} -\newunit{\nmol}{\nano\mole} -\newunit{\micmol}{\micro\mole} -\newunit{\mmol}{\milli\mole} -\newunit{\kV}{\kilo\volt} -\newunit{\mV}{\milli\volt} -\newunit{\ml}{\milli\litre} -\newunit{\micl}{\micro\litre} -\newunit{\cmc}{\centi\metre\cubed} -\newunit{\dmc}{\deci\metre\cubed} -\newunit{\kg}{\kilo\gram} -\provideunit{\fg}{\femto\gram} -\newunit{\pg}{\pico\gram} -\newunit{\nanog}{\nano\gram} -\newunit{\micg}{\micro\gram} -\newunit{\mg}{\milli\gram} -\newunit{\amu}{\atomicmass} -\newunit{\kJ}{\kilo\joule} -\newunit{\eV}{\electronvolt} -\newunit{\meV}{\milli\electronvolt} -\newunit{\keV}{\kilo\electronvolt} -\newunit{\MeV}{\mega\electronvolt} -\newunit{\GeV}{\giga\electronvolt} -\newunit{\TeV}{\tera\electronvolt} -\newunit{\picom}{\pico\metre} -\newunit{\nm}{\nano\metre} -\newunit{\micm}{\micro\metre} -\newunit{\mm}{\milli\metre} -\newunit{\cm}{\centi\metre} -\newunit{\dm}{\deci\metre} -\newunit{\km}{\kilo\metre} -\newunit{\Sec}{\second} -\newunit{\as}{\atto\second} -\newunit{\fs}{\femto\second} -\provideunit{\ps}{\pico\second} -\newunit{\ns}{\nano\second} -\newunit{\mics}{\micro\second} -\newunit{\ms}{\milli\second} -\endinput -%% -%% End of file `si-abbr.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-accepted.cfg b/Master/texmf-dist/tex/latex/si/si-accepted.cfg deleted file mode 100644 index 89d036c7235..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-accepted.cfg +++ /dev/null @@ -1,37 +0,0 @@ -%% -%% This is file `si-accepted.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `accepted') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-accepted.cfg} - [2008/02/20 v.06a SI accepted units] -\newunit{\minute}{min} -\newunit{\hour}{h} -\newunit{\Day}{d} -\ifsi@old@OHM - \newunit[valuesep=none]{\Degree}{\si@sym@degree} -\else - \ifsi@gensymb\else - \newunit[valuesep=none]{\degree}{\si@sym@degree} - \fi -\fi -\newunit[valuesep=none]{\arcmin}{\si@sym@minute} -\newunit[valuesep=none]{\arcsec}{\si@sym@second} -\newunit{\litre}{l} -\newunit{\tonne}{t} -\newunit{\neper}{Np} -\newunit{\bel}{B} -\newunit{\percent}{\%} -\endinput -%% -%% End of file `si-accepted.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-addn.cfg b/Master/texmf-dist/tex/latex/si/si-addn.cfg deleted file mode 100644 index 8590dbc2a00..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-addn.cfg +++ /dev/null @@ -1,31 +0,0 @@ -%% -%% This is file `si-addn.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `addn') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-addn.cfg} - [2008/02/20 v.06a SI Additional units] -\newunit{\angstrom}{\si@sym@ringA} -\newunit{\are}{a} -\newunit{\hectare}{\hecto\are} -\newunit{\barn}{b} -\newunit{\BAR}{bar} -\newunit{\millibar}{\milli\BAR} -\newunit{\gal}{Gal} -\newunit{\curie}{Ci} -\newunit{\roentgen}{R} -\newunit{\rad}{rad} -\newunit{\rem}{rem} -\endinput -%% -%% End of file `si-addn.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-binary.cfg b/Master/texmf-dist/tex/latex/si/si-binary.cfg deleted file mode 100644 index 3c99e52ad11..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-binary.cfg +++ /dev/null @@ -1,28 +0,0 @@ -%% -%% This is file `si-binary.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `binary') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-binary.cfg} - [2008/02/20 v.06a Binary units] -\newprefix{\kibi}{10}{Ki} -\newprefix{\mebi}{20}{Mi} -\newprefix{\gibi}{30}{Gi} -\newprefix{\tebi}{40}{Ti} -\newprefix{\pebi}{50}{Pi} -\newprefix{\exbi}{60}{Ei} -\newunit{\bit}{bit} -\newunit{\byte}{B} -\endinput -%% -%% End of file `si-binary.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-germany.cfg b/Master/texmf-dist/tex/latex/si/si-germany.cfg deleted file mode 100644 index a101e27d79f..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-germany.cfg +++ /dev/null @@ -1,27 +0,0 @@ -%% -%% This is file `si-germany.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `germany') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-germany.cfg} - [2008/02/20 v.06a Germany locale] -\sisetup{ - unitsep=cdot, - valuesep=thin, - decimalsign=comma, - expproduct=cdot, - digitsep=thin, - sepfour=false} -\endinput -%% -%% End of file `si-germany.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-hep.cfg b/Master/texmf-dist/tex/latex/si/si-hep.cfg deleted file mode 100644 index 6ac658d7713..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-hep.cfg +++ /dev/null @@ -1,77 +0,0 @@ -%% -%% This is file `si-hep.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `hep') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-hep.cfg} - [2008/02/20 v.06a Units for high-energy physics] -\si@requirecfgs{prefix,named} -\newunit{\micron}{\micro\metre} -\newunit{\mrad}{\milli\radian} -\newunit{\gauss}{G} -\newunit{\nanobarn}{\nano\barn} -\newunit{\picobarn}{\pico\barn} -\newunit{\femtobarn}{\femto\barn} -\newunit{\attobarn}{\atto\barn} -\newunit{\zeptobarn}{\zepto\barn} -\newunit{\yoctobarn}{\yocto\barn} -\newunit{\invbarn}{\per\barn} -\newunit{\invnanobarn}{\per\nano\barn} -\newunit{\invpicobarn}{\per\pico\barn} -\newunit{\invfemtobarn}{\per\femto\barn} -\newunit{\invattobarn}{\per\atto\barn} -\newunit{\invzeptobarn}{\per\zepto\barn} -\newunit{\invyoctobarn}{\per\yocto\barn} -\newunit{\invnb}{\per\nano\barn} -\newunit{\invpb}{\per\pico\barn} -\newunit{\invfb}{\per\femto\barn} -\newunit{\invab}{\per\atto\barn} -\newunit{\invzb}{\per\zepto\barn} -\newunit{\invyb}{\per\yocto\barn} -\newunit{\invcmsqpersecond}{\per\Square\centi\metre\per\second} -\newunit{\invcmsqpersec}{\per\Square\centi\metre\per\second} -\newunit{\lumiunits}{\per\Square\centi\metre\per\second} -\newunit{\clight}{\ensuremath{\mathnormal{c}}} -\newunit{\inveV}{\per\electronvolt} -\newunit{\minveV}{\milli\per\electronvolt} -\newunit{\kinveV}{\kilo\per\electronvolt} -\newunit{\MinveV}{\mega\per\electronvolt} -\newunit{\GinveV}{\giga\per\electronvolt} -\newunit{\TinveV}{\tera\per\electronvolt} -\newunit[per=slash,eVcorrb=0.6ex]{\eVoverc} - {\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\eVovercsq} - {\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\meVoverc} - {\milli\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\keVoverc} - {\kilo\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\MeVoverc} - {\mega\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\GeVoverc} - {\giga\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\TeVoverc} - {\tera\electronvolt\per\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\meVovercsq} - {\milli\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\keVovercsq} - {\kilo\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\MeVovercsq} - {\mega\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\GeVovercsq} - {\giga\electronvolt\per\Square\clight} -\newunit[per=slash,eVcorrb=0.6ex]{\TeVovercsq} - {\tera\electronvolt\per\Square\clight} -\endinput -%% -%% End of file `si-hep.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-named.cfg b/Master/texmf-dist/tex/latex/si/si-named.cfg deleted file mode 100644 index 59aaa398e27..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-named.cfg +++ /dev/null @@ -1,54 +0,0 @@ -%% -%% This is file `si-named.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `named') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-named.cfg} - [2008/02/20 v.06a SI Named units] -\newunit{\becquerel}{Bq} -\newunit{\coulomb}{C} -\newunit{\farad}{F} -\newunit{\Gray}{Gy} -\newunit{\hertz}{Hz} -\newunit{\henry}{H} -\newunit{\joule}{J} -\newunit{\katal}{kat} -\newunit{\lumen}{lm} -\newunit{\lux}{lx} -\newunit{\newton}{N} -\ifsi@old@OHM - \newunit{\Ohm}{\si@sym@Omega} -\else - \ifsi@gensymb\else - \provideunit{\ohm}{\si@sym@Omega} - \fi -\fi -\newunit{\pascal}{Pa} -\newunit{\siemens}{S} -\newunit{\sievert}{Sv} -\newunit{\tesla}{T} -\newunit{\volt}{V} -\newunit{\watt}{W} -\newunit{\weber}{Wb} -\ifsi@old@OHM - \newunit{\Celsius}{\si@sym@celsius} -\else - \ifsi@gensymb\else - \newunit{\celsius}{\si@sym@celsius} - \fi -\fi -\newunit{\radian}{rad} -\newunit{\steradian}{sr} -\endinput -%% -%% End of file `si-named.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-physical.cfg b/Master/texmf-dist/tex/latex/si/si-physical.cfg deleted file mode 100644 index 7e78b365cb8..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-physical.cfg +++ /dev/null @@ -1,26 +0,0 @@ -%% -%% This is file `si-physical.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `physical') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-physical.cfg} - [2008/02/20 v.06a SI physically-measured units] -\newcommand*{\si@eVspacea}{\text{\kern-\si@eVcorra}}% -\newcommand*{\si@eVspaceb}{\text{\kern-\si@eVcorrb}}% -\newunit{\electronvolt}{e\protect\si@eVspacea V\protect\si@eVspaceb} -\newunit{\atomicmass}{u} -\newunit{\atomicmassunit}{u} -\newunit{\dalton}{Da} -\endinput -%% -%% End of file `si-physical.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-prefix.cfg b/Master/texmf-dist/tex/latex/si/si-prefix.cfg deleted file mode 100644 index 8d0339f6faf..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-prefix.cfg +++ /dev/null @@ -1,49 +0,0 @@ -%% -%% This is file `si-prefix.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `prefix') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-prefix.cfg} - [2008/02/20 v.06a SI Multiple prefixes] -\newprefix{\yocto}{-24}{y} -\newprefix{\zepto}{-21}{z} -\newprefix{\atto}{-18}{a} -\newprefix{\femto}{-15}{f} -\newprefix{\pico}{-12}{p} -\newprefix{\nano}{-9}{n} -\ifsi@old@OHM - \newprefix{\Micro}{-6}{\si@sym@mu} -\else - \ifsi@gensymb\else - \newprefix{\micro}{-6}{\si@sym@mu} - \fi -\fi -\newprefix{\milli}{-3}{m} -\newprefix{\centi}{-2}{c} -\newprefix{\deci}{-1}{d} -\newprefix{\deca}{1}{da} -\newprefix{\hecto}{2}{h} -\newprefix{\kilo}{3}{k} -\newprefix{\mega}{6}{M} -\newprefix{\giga}{9}{G} -\newprefix{\tera}{12}{T} -\newprefix{\peta}{15}{P} -\newprefix{\exa}{18}{E} -\newprefix{\zetta}{21}{Z} -\newprefix{\yotta}{24}{Y} -\newprefix{\deka}{1}{da} -\newunit{\gram}{g} -\renewunit{\kilogram}{\kilo\gram} -\endinput -%% -%% End of file `si-prefix.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-prefixed.cfg b/Master/texmf-dist/tex/latex/si/si-prefixed.cfg deleted file mode 100644 index 4db6229e6b8..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-prefixed.cfg +++ /dev/null @@ -1,100 +0,0 @@ -%% -%% This is file `si-prefixed.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `prefixed') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-prefixed.cfg} - [2008/02/20 v.06a SI Prefixed units] -\si@requirecfgs{prefix,named,accepted,physical} -\newunit{\picometre}{\pico\metre} -\newunit{\nanometre}{\nano\metre} -\newunit{\micrometre}{\micro\metre} -\newunit{\millimetre}{\milli\metre} -\newunit{\centimetre}{\centi\metre} -\newunit{\decimetre}{\deci\metre} -\newunit{\kilometre}{\kilo\metre} -\newunit{\femtogram}{\femto\gram} -\newunit{\picogram}{\pico\gram} -\newunit{\nanogram}{\nano\gram} -\newunit{\microgram}{\micro\gram} -\newunit{\milligram}{\milli\gram} -\newunit{\femtomole}{\femto\mole} -\newunit{\picomole}{\pico\mole} -\newunit{\nanomole}{\nano\mole} -\newunit{\micromole}{\micro\mole} -\newunit{\millimole}{\milli\mole} -\newunit{\attosecond}{\atto\second} -\newunit{\femtosecond}{\femto\second} -\newunit{\picosecond}{\pico\second} -\newunit{\nanosecond}{\nano\second} -\newunit{\microsecond}{\micro\second} -\newunit{\millisecond}{\milli\second} -\newunit{\picoampere}{\pico\ampere} -\newunit{\nanoampere}{\nano\ampere} -\newunit{\microampere}{\micro\ampere} -\newunit{\milliampere}{\milli\ampere} -\newunit{\kiloampere}{\kilo\ampere} -\newunit{\millivolt}{\milli\volt} -\newunit{\kilovolt}{\nano\volt} -\newunit{\milliwatt}{\milli\watt} -\newunit{\kilowatt}{\kilo\watt} -\newunit{\megawatt}{\mega\watt} -\newunit{\femtofarad}{\femto\farad} -\newunit{\picofarad}{\pico\farad} -\newunit{\nanofarad}{\nano\farad} -\newunit{\microfarad}{\micro\farad} -\newunit{\millifarad}{\milli\farad} -\newunit{\millisiemens}{\milli\siemens} -\ifsi@old@OHM - \newunit{\kiloohm}{\kilo\Ohm} - \newunit{\megaohm}{\mega\Ohm} - \newunit{\gigaohm}{\giga\Ohm} -\else - \ifsi@gensymb\else - \newunit{\kiloohm}{\kilo\ohm} - \newunit{\megaohm}{\mega\ohm} - \newunit{\gigaohm}{\giga\ohm} - \fi -\fi -\newunit{\microlitre}{\micro\litre} -\newunit{\millilitre}{\milli\litre} -\newunit{\cubicmetre}{\metre\cubed} -\newunit{\cubiccentimetre}{\centi\metre\cubed} -\newunit{\centimetrecubed}{\centi\metre\cubed} -\newunit{\cubicmicrometre}{\micro\metre\cubed} -\newunit{\cubicmillimetre}{\milli\metre\cubed} -\newunit{\cubicdecimetre}{\cubic\deci\metre} -\newunit{\squaremetre}{\Square\metre} -\newunit{\squarecentimetre}{\Square\centi\metre} -\newunit{\squarekilometre}{\Square\kilo\metre} -\newunit{\millijoule}{\milli\joule} -\newunit{\kilojoule}{\kilo\joule} -\newunit{\megajoule}{\mega\joule} -\newunit{\millielectronvolt}{\milli\electronvolt} -\newunit{\kiloelectronvolt}{\kilo\electronvolt} -\newunit{\megaelectronvolt}{\mega\electronvolt} -\newunit{\gigaelectronvolt}{\giga\electronvolt} -\newunit{\teraelectronvolt}{\tera\electronvolt} -\newunit{\millihertz}{\milli\hertz} -\newunit{\kilohertz}{\kilo\hertz} -\newunit{\megahertz}{\mega\hertz} -\newunit{\gigahertz}{\giga\hertz} -\newunit{\terahertz}{\tera\hertz} -\newunit{\millinewton}{\milli\newton} -\newunit{\kilonewton}{\kilo\newton} -\newunit{\hectopascal}{\hecto\pascal} -\newunit{\megabecquerel}{\mega\becquerel} -\newunit{\millisievert}{\milli\sievert} -\endinput -%% -%% End of file `si-prefixed.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-sistyle.cfg b/Master/texmf-dist/tex/latex/si/si-sistyle.cfg deleted file mode 100644 index 1ee3bf36d71..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-sistyle.cfg +++ /dev/null @@ -1,83 +0,0 @@ -%% -%% This is file `si-sistyle.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `sistyle') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-sistyle.cfg} - [2008/02/20 v.06a Emulation of sistyle] -\sisetup{% - sepfour=true, - obeyfamily, - obeyitalic=true, - numsign=+-, - numextra={}, - unitsep=cdot} -\newcommand*{\SIobeyboldtrue}{\sisetup{obeybold=true}} -\newcommand*{\SIobeyboldfalse}{\sisetup{obeybold=false}} -\DeclareRobustCommand{\num}{% - \@ifstar - {\si@sis@numstar} - {\si@sis@num}} -\newcommand*{\si@sis@num}[2][]{% - \begingroup% - \sisetup{#1}% - \expandafter\si@out@num\expandafter{\si@num{#2}}% - \endgroup} -\newcommand*{\si@sis@numstar}[2][]{% - \begingroup% - \sisetup{mode=text,obeybold}% - \sisetup{#1}% - \expandafter\si@out@num\expandafter{\si@num{#2}}% - \endgroup} -\newcommand*{\pnt}{\ensuremath{\si@decimalsign}} -\newcommand*{\SIgroupfourtrue}{\sisetup{sepfour=true}} -\newcommand*{\SIgroupfourfalse}{\sisetup{sepfour=false}} -\newcommand*{\SIunitsep}[1]{\sisetup{valuesep={#1}}} -\newcommand*{\SIunitspace}[1]{\sisetup{unitspace={#1}}} -\newcommand*{\SIunitdot}[1]{\sisetup{unitsep={#1}}} -\newcommand*{\SIdecimalsign}[1]{\sisetup{decimalsign={#1}}} -\newcommand*{\SIthousandsep}[1]{\sisetup{digitsep={#1}}} -\newcommand*{\SIproductsign}[1]{\sisetup{expproduct={#1}}} -\newcommand{\si@sis@savefont}[2]{% - \@namedef{si@sis@#1}{#2}% - \sisetup{#1=si@sis@#1}} -\newcommand*{\SImathrm}[1]{\si@sis@savefont{mathrm}{#1}} -\newcommand*{\SImathsf}[1]{\si@sis@savefont{mathsf}{#1}} -\newcommand*{\SImathtt}[1]{\si@sis@savefont{mathtt}{#1}} -\newcommand*{\SIdefaultMfam}[1]{\si@sis@savefont{mathdefault}{#1}} -\newcommand*{\SIdefaultNfam}[1]{\si@sis@savefont{mathnumdefault}{#1}} -\newcommand*{\SIdefaultTfam}[1]{\si@sis@savefont{textdefault}{#1}} -\DeclareRobustCommand*{\ensureupmath}[1]{% - \begingroup - \sisetup{mode=maths,obeyitalic=false}% - \si@out@text{#1}% - \endgroup} -\newcommand*{\degC}{\si@sym@celsius} -\newcommand*{\arcdeg}{\si@sym@degree} -\newcommand*{\degF}{\si@sym@degree F} -\newcommand*{\SIstyle}[1]{\sisetup{locale=#1}} -\newcommand*{\SIstyleToLang}[2]{\sisetup{loctolang=#1:#2}} -\newcommand*{\AddToSIstyle}{% - \si@switchfalse - \@ifstar - {\si@switchtrue - \si@sis@addtolocale} - {\si@sis@addtolocale}} -\newcommand*{\si@sis@addtolocale}[2]{% - \ifsi@switch - \expandafter\let\csname si@loc@#1@extra\endcsname\relax - \fi - \addtolocale{#1}{#2}} -\endinput -%% -%% End of file `si-sistyle.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-south-africa.cfg b/Master/texmf-dist/tex/latex/si/si-south-africa.cfg deleted file mode 100644 index 525346c3ce2..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-south-africa.cfg +++ /dev/null @@ -1,27 +0,0 @@ -%% -%% This is file `si-south-africa.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `south-africa') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-south-africa.loc} - [2008/02/20 v.06a UK Locale] -\sisetup{ - unitsep=cdot, - valuesep=thin, - expproduct=times, - decimalsign=comma, - digitsep=thin, - sepfour=false} -\endinput -%% -%% End of file `si-south-africa.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-synchem.cfg b/Master/texmf-dist/tex/latex/si/si-synchem.cfg deleted file mode 100644 index 5c2232d57e5..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-synchem.cfg +++ /dev/null @@ -1,25 +0,0 @@ -%% -%% This is file `si-synchem.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `synchem') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-synchem.cfg} - [2008/02/20 v.06a Units for synthetic chemists] -\si@requirecfgs{prefix} -\newunit{\mmHg}{mmHg} -\newunit{\molar}{\mole\per\cubic\deci\metre} -\newunit{\Molar}{\textsc{m}} -\newunit{\torr}{Torr} -\endinput -%% -%% End of file `si-synchem.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-units.cfg b/Master/texmf-dist/tex/latex/si/si-units.cfg deleted file mode 100644 index afb4d657608..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-units.cfg +++ /dev/null @@ -1,52 +0,0 @@ -%% -%% This is file `si-units.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `units') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\si@ifloaded{units}{\endinput}{} -\ProvidesFile{si-units.cfg} - [2008/02/20 v.06a Emulation of units] -\si@ifloaded{SIunits} - {\si@emclash{units}{SIunits}\endinput}{} -\si@ifloaded{sistyle} - {\si@emclash{units}{sistyle}\endinput}{} -\sisetup{per=fraction,fraction=nice,obeybold,inlinebold=maths, - ,obeymode} -\ifsi@old@tight - \sisetup{valuesep=thin} -\fi -\ifsi@old@loose - \sisetup{valuesep=space} -\fi -\ifsi@old@ugly - \sisetup{fraction=ugly} -\fi -\DeclareRobustCommand*{\unit}[2][]{% - \ifmmode - \SI{#1}{#2}% - \else - \SI[obeyfamily,obeyitalic]{#1}{#2}% - \fi} -\DeclareRobustCommand*{\unitfrac}[3][]{% - \begingroup - \si@fam@mode% - \ifmmode\else - \sisetup{obeyfamily,obeyitalic}% - \fi - \si@ifnotmtarg{#1} - {\num{#1}\ensuremath{\si@valuesep}}% - \si@frac{#2}{#3} - \endgroup} -\endinput -%% -%% End of file `si-units.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si-unitsdef.cfg b/Master/texmf-dist/tex/latex/si/si-unitsdef.cfg deleted file mode 100644 index cd17baa11da..00000000000 --- a/Master/texmf-dist/tex/latex/si/si-unitsdef.cfg +++ /dev/null @@ -1,238 +0,0 @@ -%% -%% This is file `si-unitsdef.cfg', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `unitsdef') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\ProvidesFile{si-unitsdef.cfg} - [2008/02/20 v.06a Emulation of unitsdef] -\si@ifloaded{SIunits} - {\si@emclash{unitsdef}{SIunits}\endinput}{} -\si@ifloaded{sistyle} - {\si@emclash{unitsdef}{sistyle}\endinput}{} -\si@ifloaded{units}{} - {\InputIfFileExists{\si@fileprefix units.\si@cfgextension} - {} - {\si@log@err{Could not load \si@fileprefix - units.\si@cfgextension} - {The file \si@fileprefix units.\si@cfgextension is - required to emulate\MessageBreak - unitsdef, but cannot be found\MessageBreak - Is the si package properly installed?} - \endinput}} -\RequirePackage{textcomp} -\RequirePackage[T1]{fontenc} -\sisetup{mode=text} -\ifsi@old@noxspace - \sisetup{xspace=false} -\fi -\ifsi@old@noabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@nofrequncyabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@nomolabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@novoltageabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@novolumeabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@noweightabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@noenergyabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@nolengthabbr - \sisetup{noload=abbr} -\fi -\ifsi@old@notimeabbr - \sisetup{noload=abbr} -\fi -\newcommand*{\unitvaluesep}{\,} -\renewcommand*{\si@valuesep}{\text{\unitvaluesep}} -\si@opt@choicekey{valuesep}{space,thin,med,medium,thick,none} - {\renewcommand*\unitvaluesep\@nameuse{si@fix@##1}} - {\renewcommand*\unitvaluesep{##1}} -\DeclareRobustCommand*{\unitsignonly}{\unitsym} -\DeclareRobustCommand*{\ilu}[2][]{% - \begingroup - #1\unitvaluesep% - \unit{#2}% - \endgroup} -\DeclareRobustCommand*{\arc}{\ang} -\newcommand*{\unitSIdef}{\upshape} -\newcommand*{\si@unitSIdef}{\unitSIdef\selectfont} -\sisetup{textdefault=si@unitSIdef,textnumdefault=si@unitSIdef} -\DeclareRobustCommand*{\per}[2]{% - \begingroup - \si@xspacefalse - \renewcommand*{\unitvaluesep}{}% - \unitfrac{#1}{#2}% - \endgroup} -\newcommand*{\unittimes}{\ensuremath{\cdot}} -\newcommand*{\unitsep}{\,} -\renewcommand*{\si@unt@unithook}{\si@unt@litouttrue} -\sisetup{unitsep=none} -\newcommand*{\unitsuperscript}{\tothe} -\newcommand*{\newnosepunit}{\newunit[valuesep=none]} -\newcommand*{\renewnosepunit}{\renewunit[valuesep=none]} -\newcommand*{\setTextOmega}[2]{% - \renewcommand*{\si@textOmega}{% - \begingroup - \edef\si@tempa{\sfdefault}% - \ifx\f@family\si@tempa - \expandafter#2% - \else - \expandafter#1% - \fi - \endgroup}} -\newcommand*{\setMathOmega}[1]{\sisetup{mathsOmega=#1}} -\newcommand*{\setTextmu}[2]{% - \renewcommand*{\si@textmu}{% - \begingroup - \edef\si@tempa{\sfdefault}% - \ifx\f@family\si@tempa - \expandafter#2% - \else - \expandafter#1% - \fi - \endgroup}} -\newcommand*{\setMathmu}[1]{\sisetup{mathsmu=#1}} -\newcommand*{\setTextCelsius}[2]{% - \renewcommand*{\si@textcelsius}{% - \begingroup - \edef\si@tempa{\sfdefault}% - \ifx\f@family\si@tempa - \expandafter#2% - \else - \expandafter#1% - \fi - \endgroup}} -\newcommand*{\setMathCelsius}[1]{\sisetup{mathscelsius=#1}} -\newcommand*{\setMathDegree}[2]{% - \renewcommand*{\si@textdegree}{% - \begingroup% - \edef\si@tempa{\sfdefault}% - \ifx\f@family\si@tempa - \expandafter#2% - \else - \expandafter#1% - \fi - \endgroup}} -\newcommand*{\setTextDegree}[1]{\sisetup{textdegree=#1}} -\ifsi@old@OHM - \ifsi@old@ohm - \si@log@inf{Both `ohm' and `OHM' options given\MessageBreak - Using default behaviour for unitsdef} - \expandafter\expandafter\expandafter\si@old@OHMfalse - \fi -\fi -\newunit{\meter}{\metre} -\newunit{\liter}{L} -\ifsi@old@liter - \ifsi@old@LITER - \si@log@inf{Both `liter' and `LITER' options given\MessageBreak - Using default behaviour for unitsdef} - \else - \renewunit{\liter}{l} - \fi -\fi -\newunit{\ton}{t} -\newunit{\days}{d} -\newunit{\picometer}{\pico\meter} -\newunit{\nanometer}{\nano\meter} -\newunit{\micrometer}{\micro\meter} -\newunit{\millimeter}{\milli\meter} -\newunit{\centimeter}{\centi\meter} -\newunit{\decimeter}{\deci\meter} -\newunit{\kilometer}{\kilo\meter} -\newunit{\femtoliter}{\femto\liter} -\newunit{\picoliter}{\pico\liter} -\newunit{\nanoliter}{\nano\liter} -\newunit{\microliter}{\micro\liter} -\newunit{\milliliter}{\milli\liter} -\newunit{\centiliter}{\centi\liter} -\newunit{\deciliter}{\deci\liter} -\newunit{\hectoliter}{\hecto\liter} -\newunit{\cubicmeter}{\meter\cubed} -\newunit{\cubicmicrometer}{\micro\meter\cubed} -\newunit{\cubicmillimeter}{\milli\meter\cubed} -\newunit{\squaremeter}{\Square\meter} -\newunit{\squarecentimeter}{\Square\centi\meter} -\newunit{\squarekilometer}{\Square\kilo\meter} -\newunit{\ar}{a} -\newunit{\hectar}{\hecto\ar} -\ifsi@old@noabbr -\else - \ifsi@old@novoltageabbr\else - \newunit{\kv}{\kilo\volt} - \newunit{\mv}{\milli\volt} - \fi -\fi -\ifsi@old@noabbr\else - \ifsi@old@notimeabbr\else - \newunit{\sek}{\second} - \fi - \ifsi@old@noweightabbr\else - \newunit{\fg}{\femto\gram} - \fi - \ifsi@old@novolumeabbr\else - \newunit{\fl}{\femto\liter} - \newunit{\pl}{\pico\liter} - \newunit{\nl}{\nano\liter} - \renewunit{\micl}{\micro\liter} - \renewunit{\ml}{\milli\liter} - \newunit{\cl}{\centi\liter} - \newunit{\dl}{\deci\liter} - \newunit{\hl}{\hecto\liter} - \fi -\fi -\newunit{\calory}{cal} -\newunit{\kilocalory}{\kilo\calory} -\newunit{\uBar}{ba} -\catcode`\-=11\relax -\ifsi@old@redef-gensymb - \expandafter\si@gensymbtrue -\fi -\catcode`\-=12\relax -\ifsi@gensymb - \RequirePackage{gensymb} - \AtBeginDocument{ - \let\gensymbohm\ohm - \let\gensymbcelsius\celsius - \let\gensymbmicro\micro - \let\gensymbdegree\degree - \let\ohm\@undefined - \let\celsius\@undefined - \let\micro\@undefined - \let\degree\@undefined - \ifsi@old@OHM\else - \newunit{\ohm}{\si@sym@Omega} - \newunit{\celsius}{\si@sym@celsius} - \newprefix{\micro}{\si@sym@mu}{-6} - \newunit{\degree}{\si@sym@degree} - \fi} -\fi -\si@requirecfgs{prefix,named,addn,accepted} -\ifsi@old@noconfig\else - \InputIfFileExists{unitsdef.cfg} - {\si@log@inf{unitsdef config file loaded}} - {\si@log@inf{unitsdef config file not found}} -\fi -\endinput -%% -%% End of file `si-unitsdef.cfg'. diff --git a/Master/texmf-dist/tex/latex/si/si.sty b/Master/texmf-dist/tex/latex/si/si.sty deleted file mode 100644 index fb1cd8e7ef4..00000000000 --- a/Master/texmf-dist/tex/latex/si/si.sty +++ /dev/null @@ -1,2140 +0,0 @@ -%% -%% This is file `si.sty', -%% generated with the docstrip utility. -%% -%% The original source files were: -%% -%% si.dtx (with options: `package') -%% ---------------------------------------------------------------- -%% The si package --- A comprehensive (SI) units package -%% Maintained by Joseph Wright -%% E-mail: joseph.wright@morningstar2.co.uk -%% Released under the LaTeX Project Public License v1.3c or later -%% See http://www.latex-project.org/lppl.txt -%% ---------------------------------------------------------------- -%% -\NeedsTeXFormat{LaTeX2e} -\ProvidesPackage{si}% - [2008/02/20 v.06a A comprehensive (SI) units package] -\PackageInfo{si} - {This package is experimental. \MessageBreak The interface and - functionality is subject to review \MessageBreak and may be changed - in later releases} -\begingroup - \@ifundefined{eTeXversion} - {\PackageError{si} - {Not running under e-TeX} - {This package requires e-TeX. Try compiling the document - with\MessageBreak `elatex' instead of `latex'. When using - pdfTeX, try `pdfelatex'\MessageBreak instead of `pdflatex'}% - \endgroup\endinput} - {\endgroup} -\RequirePackage{xkeyval} -\@ifpackagelater{xkeyval}{2005/05/07} - {} - {\PackageError{si} - {xkeyval >= 2.5 required} - {si requires the `xkeyval' package, version 2.5 or - later.\MessageBreak The version loaded is: - `\@nameuse{ver@xkeyval.sty}'.\MessageBreak - This is a fatal error; the package will abort.}% - \endinput} -\RequirePackage{amstext,array,xspace} -\newcommand*{\si@tempa}{} -\newcommand*{\si@tempb}{} -\newcommand*{\si@tempc}{} -\newif\ifsi@switch -\newcommand*{\si@packagecheck}{% - \begingroup - \@for\si@tempa:=SIunits,siunits,sistyle,SIstyle,unitsdef\do{% - \@ifpackageloaded{\si@tempa} - {\PackageError{si} - {Package `\si@tempa' incompatible} - {The `\si@tempa' package and `si' are - incompatible.\MessageBreak Use the - `emulate=\si@tempa' package option when loading si.}} - {}} - \@for\si@tempa:=units\do{% - \@ifpackageloaded{\si@tempa} - {\PackageWarning{si} - {Consider loading the si package with\MessageBreak - option `emulate=\si@tempa', rather than\MessageBreak - loading both \si@tempa and si}} - {}} - \endgroup} -\si@packagecheck -\AtBeginDocument{\si@packagecheck} -\newcommand*{\si@ifdefinable}[1]{% - \expandafter\expandafter\expandafter\@ifundefined% - \expandafter\expandafter\expandafter% - {\expandafter\@gobble\string#1}} -\newcommand*{\si@addtolist}[2]{% - \ifx\@empty#1\@empty - \edef#1{#2}% - \else - \edef#1{#1,#2}% - \fi} -\newtoks{\si@temptoks} -\newcommand*{\si@addtocsname}[2]{% - \@ifundefined{#1} - {\@namedef{#1}{#2}} - {\si@temptoks\expandafter\expandafter\expandafter{% - \csname #1\endcsname#2}% - \expandafter\edef\csname #1\endcsname{\the\si@temptoks}}} -\begingroup - \catcode`\Q=3 - \long\gdef\si@xifmtarg#1#2Q#3#4#5\@nil{#4} - \long\gdef\si@ifnotmtarg#1{% - \si@xifmtarg#1QQ\@firstofone\@gobble\@nil} -\endgroup -\newif\ifsi@debug -\newif\ifsi@logmin -\newif\ifsi@lognone -\newcommand*{\si@log@err}[2]{% - \ifsi@lognone\else - 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\si@numdecimal\si@numlist\si@numextra} -\si@opt@boolkey{sepfour} -\si@opt@xchoicekey{expproduct}{times,cdot}{times} -\si@opt@xchoicekey{exppower}{ten}{ten} -\si@opt@xchoicekey{prefixproduct}{times,cdot,none}{times} -\si@opt@xchoicekey{prefixpower}{ten,two}{ten} -\newif\ifsi@prefixnum -\si@opt@choicekey{prefix}{symbol,letter,power,number} - {\si@prefixnumfalse - \renewcommand*{\si@tempb}{power}% - \ifx\si@tempa\si@tempb - \si@prefixnumtrue - \fi - \renewcommand*{\si@tempb}{number}% - \ifx\si@tempa\si@tempb - \si@prefixnumtrue - \fi} - {\si@log@warn{Unknown value `#1' for option prefix}} -\newif\ifsi@num@padlead -\newif\ifsi@num@padtrail -\si@opt@choicekey[all]{padnumber} - {leading,lead,trailing,trail,all,both,true,none,false} - {\si@num@padleadfalse - \si@num@padtrailfalse - \renewcommand*{\si@tempb}{leading}% - \ifx\si@tempa\si@tempb - \si@num@padleadtrue - \fi - \renewcommand*{\si@tempb}{lead}% - \ifx\si@tempa\si@tempb - \si@num@padleadtrue - \fi - \renewcommand*{\si@tempb}{trailing}% - 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\expandafter\DeclareRobustCommand\expandafter*\expandafter{% - \csname si@sym@#1\endcsname}{% - \ifmmode - \expandafter\csname si@maths#1\expandafter\endcsname% - \else - \expandafter\csname si@text#1\expandafter\endcsname% - \fi}} -\si@symbol{Omega} -\si@symbol{ringA} -\si@symbol{mu} -\si@symbol{degree} -\si@symbol{minute} -\si@symbol{second} -\si@symbol{celsius} -\AtBeginDocument{% - \ifsi@redefsymbols - \@ifpackageloaded{textcomp} - {\si@log@debug{Redefining symbols using textcomp}% - \renewcommand*{\si@textdegree}{\textdegree}% - \renewcommand*{\si@mathsdegree}{\text{\textdegree}}% - \@ifpackageloaded{mathptmx}{} - {\renewcommand*{\si@textmu}{\textmu}% - \renewcommand*{\si@textOmega}{\textohm}}% - \long\def\si@tempa{OT1}% - \ifx\si@tempa\encodingdefault - \renewcommand*{\si@mathsringA}{\text{\capitalring{A}}}% - \renewcommand*{\si@textringA}{\capitalring{A}} - \fi}{} - \@ifpackageloaded{upgreek} - {\si@log@debug{Redefining symbols using upgreek}% - \renewcommand*{\si@mathsmu}{\upmu}% - \renewcommand*{\si@mathsOmega}{\Upomega}}{} - \fi} -\newcommand*{\si@frc@frac}[2]{% - \ensuremath{\frac{\expandafter\si@unt@out\expandafter{#1}}% - {\expandafter\si@unt@out\expandafter{#2}}}} -\let\si@frac\si@frc@frac -\newcommand*{\si@frc@slash}[2]{% - \expandafter\si@unt@out\expandafter{#1}% - \si@out@text{\ensuremath{\si@slash}}% - \expandafter\si@unt@out\expandafter{#2}} -\newcommand*{\si@frc@nice}[2]{% - \ensuremath{\si@frc@nicefrac{\expandafter\si@unt@out% - \expandafter{#1}}{\expandafter\si@unt@out\expandafter{#2}}}} -\newcommand*{\si@frc@sfrac}[2]{% - \sfrac{\expandafter\si@unt@out\expandafter{#1}}% - {\expandafter\si@unt@out\expandafter{#2}}} -\AtBeginDocument{% - \@ifpackageloaded{xfrac} - {} - {\si@log@inf{xfrac package unavailable\MessageBreak - using `fraction=sfrac' will fall back on\MessageBreak - nicefrac-like method}% - \renewcommand*{\si@frc@sfrac}[2]{% - \si@log@warn{xfrac package unavailable}% - \si@frc@nice{#1}{#2}}}} -\newlength\si@frc@displen -\newlength\si@frc@textlen -\newlength\si@frc@suplen -\newlength\si@frc@ssuplen -\newcommand*{\si@frc@nicefrac}{% - \ifmmode - \expandafter\si@frc@mathsnf% - \else - \expandafter\si@frc@textnf% - \fi} -\newcommand*{\si@frc@mathsnf}[2]{% - \begingroup - \settoheight{\si@frc@displen}{\ensuremath{\displaystyle{M}}}% - \settoheight{\si@frc@textlen}{\ensuremath{\textstyle{M}}}% - \settoheight{\si@frc@suplen}{\ensuremath{\scriptstyle{M}}}% - \settoheight{\si@frc@ssuplen}{\ensuremath{\scriptscriptstyle{M}}}% - \addtolength{\si@frc@displen}{-\si@frc@ssuplen}% - \addtolength{\si@frc@textlen}{-\si@frc@ssuplen}% - \addtolength{\si@frc@suplen}{-\si@frc@ssuplen}% - \mathchoice - {\raisebox{\si@frc@displen}{\ensuremath{\scriptstyle{#1}}}}% - {\raisebox{\si@frc@textlen}{\ensuremath{\scriptstyle{#1}}}}% - {\raisebox{\si@frc@suplen}% - {\ensuremath{\scriptscriptstyle{#1}}}}% - {\raisebox{\si@frc@ssuplen}% - {\ensuremath{\scriptscriptstyle{#1}}}}% - \mkern-2mu/\mkern-1mu% - \bgroup - \mathchoice - {\scriptstyle}% - {\scriptstyle}% - {\scriptscriptstyle}% - {\scriptscriptstyle}% - {#2}% - \egroup - \endgroup} -\newcommand*{\si@frc@textnf}[2]{% - \begingroup - \settoheight{\si@frc@textlen}{M}% - \settoheight{\si@frc@ssuplen}{\fontsize\sf@size\z@% - \selectfont{M}}% - \addtolength{\si@frc@textlen}{-\si@frc@ssuplen}% - \raisebox{\si@frc@textlen}{\fontsize\sf@size\z@% - \selectfont{#1}}% - \hspace{-0.25ex}/\hspace{-0.25ex}% - \hbox{\fontsize\sf@size\z@\selectfont{#2}}% - \endgroup} -\newcommand*{\si@frc@ugly}[1]{% - \def\si@tempa{#1}% - \ifmmode - \expandafter\si@frc@frac% - \else - \def\si@tempb{1}% - \ifx\si@tempa\si@tempb - \setbox\si@tempbox=\hbox{\ensuremath{\si@valuesep}}% - \hskip-\wd\si@tempbox% - \def\si@tempa{}% - \fi - \expandafter\si@frc@slash% - \fi - {\si@tempa}} -\newcommand*{\si@fam@getmfam}{% - \sbox{0}{$% - \@ifundefined{mathsf} - {\si@log@debug{No mathsf family found}% - \global\chardef\si@fam@sf=99}% - {\mathsf{\global\chardef\si@fam@sf=\fam}}% - \@ifundefined{mathtt} - {\si@log@debug{No mathtt family found}% - \global\chardef\si@fam@tt=99}% - {\mathtt{\global\chardef\si@fam@tt=\fam}}% - $}} -\AtBeginDocument{\si@fam@getmfam} -\newcommand*{\si@fam@ifbtext}[1]{% - \if b\expandafter\@car\f@series\@nil - #1\fi} -\newcommand{\si@fam@ifbmaths}[1]{% - \def\si@tempa{bold}% - \ifx\math@version\si@tempa - #1\fi} -\newcommand*{\si@fam@ifbinline}{% - \ifsi@inlinebtext - \expandafter\si@fam@ifbtext% - \else - \expandafter\si@fam@ifbmaths% - \fi} -\newcommand*{\si@fam@ifitext}[1]{% - \if n\expandafter\@car\f@series\@nil\else - #1\fi} -\newcommand*{\si@fam@mode}{% - \ifsi@obeymode - \ifmmode - \sisetup{mode=maths}% - \else - \sisetup{mode=text}% - \fi - \fi} -\newif\ifsi@fam@set -\newcommand*{\si@fam@set}{% - \si@fam@settrue - \edef\si@tempa{\sfdefault}% - \edef\si@tempb{\ttdefault}% - \ifsi@obeyfamily - \si@log@debug{Font detection: checking font}% - \ifmmode - \ifdim\displaywidth>0pt\relax - \si@log@debug{Font detection: display maths}% - \ifnum\the\fam=\si@fam@sf - \si@log@debug{Font detection: sf}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathssf\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textsf\endcsname - \else - \ifnum\the\fam=\si@fam@tt - \si@log@debug{Font detection: tt}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathstt\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@texttt\endcsname - \else - \si@log@debug{Font detection: rm}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathsdefault\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textdefault\endcsname - \fi - \fi - \else - \si@log@debug{Font detection: inline maths}% - \ifx\f@family\si@tempa - \si@log@debug{Font detection: sf}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathssf\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textsf\endcsname - \else - \ifx\f@family\si@tempb - \si@log@debug{Font detection: tt}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathstt\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@texttt\endcsname - \else - \si@log@debug{Font detection: rm}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathsdefault\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textdefault\endcsname - \fi - \fi - \fi - \else - \si@log@debug{Font detection: text}% - \ifx\f@family\si@tempa - \si@log@debug{Font detection: sf}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathssf\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textsf\endcsname - \else - \ifx\f@family\si@tempb - \si@log@debug{Font detection: tt}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathstt\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@texttt\endcsname - \else - \si@log@debug{Font detection: rm}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathsdefault\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textdefault\endcsname - \fi - \fi - \fi - \else - \si@log@debug{Font detection: inactive}% - \expandafter\let\expandafter\si@fam@maths - \csname\si@mathsdefault\endcsname - \expandafter\let\expandafter\si@fam@text - \csname\si@textdefault\endcsname - \fi - \def\si@fam@bold{\unboldmath\mdseries}% - \def\si@fam@setbold{\boldmath\bfseries}% - \ifsi@obeybold - \si@log@debug{Weight detection: checking weight}% - \ifmmode - \ifdim\displaywidth>0pt\relax - \si@fam@ifbmaths - {\let\si@fam@bold\si@fam@setbold - \si@log@debug{Weight detection: bold weight}}% - \else - \si@fam@ifbinline - {\let\si@fam@bold\si@fam@setbold - \si@log@debug{Weight detection: bold weight}}% - \fi - \else - \si@fam@ifbtext% - {\let\si@fam@bold\si@fam@setbold - \si@log@debug{Weight detection: bold weight}}% - \fi - \fi - \let\si@fam@italic\upshape - \ifsi@obeyitalic - \si@log@debug{Italic detection: checking italic}% - \si@fam@ifitext - {\let\si@fam@italic\relax - \si@log@debug{Italic detection: italic}}% - \ifsi@textmode\else - \si@log@inf{maths mode - obeyitalic inactive}% - \fi - \fi} -\DeclareRobustCommand*{\num}[2][]{% - \begingroup% - \sisetup{#1}% - \si@fam@mode% - \si@log@debug{Processing \string\num\space input `#2'}% - \expandafter\si@out@num\expandafter{\si@num{#2}}% - \endgroup} -\newcommand*{\si@num}[1]{% - \begingroup - \makeatletter% - \@makeother{\,}% - \@makeother{\.}% - \@makeother{\+}% - \@makeother{\-}% - \def~{}% - \def\,{}% - \catcode`\~=\active\relax - \catcode`\^=\active\relax - \scantokens{\si@num@xdef\si@tempa{#1}\@empty}% - \endgroup - \si@ifnotmtarg{\si@tempa}{% - \expandafter\si@num@valid\si@tempa\@empty\@empty% - \ifsi@switch - \expandafter\si@num@format\expandafter\si@tempa% - \else - {#1}% - \fi}} -\def\si@num@xdef#1#2\@empty{\xdef#1{#2}} -\def\si@num@valid#1#2\@empty{% - \si@num@ifchr{#1}{\si@numvalid}{% - \ifx\@empty#2\@empty\else - \si@num@valid#2\@empty\@empty\@empty% - \fi - \si@switchtrue}% - {\si@log@err{Invalid character `#1' in numerical input}% - {Only characters from the list `\si@numvalid'\MessageBreak - should be present in the argument of the \string\num - macro\MessageBreak (or derivative such as an `s' column)}% - \si@switchfalse}} -\newcommand*{\si@num@ifchr}[2]{% - \begingroup - \si@switchfalse - \def\si@tempa{#1}% - \edef\si@tempb{#2}% - \expandafter\si@num@chrstr\si@tempb\@empty\@empty% - \ifsi@switch% - \endgroup\expandafter\@firstoftwo% - \else - \endgroup\expandafter\@secondoftwo% - \fi} -\def\si@num@chrstr#1#2\@empty{% - \def\si@tempc{#1}% - \edef\si@tempb{#2}% - \ifx\si@tempa\si@tempc - \si@switchtrue - \else - \ifx\@empty\si@tempb\@empty\else - \si@num@chrstr#2\@empty% - \fi - \fi} -\newcommand*{\si@num@exp}{} -\newcommand*{\si@num@mant}{} -\newcommand*{\si@num@expout}{} -\newcommand*{\si@num@mantout}{} -\newcommand*{\si@num@out}{} -\newcommand*{\si@num@format}[1]{% - \protected@edef\si@num@arg{#1}% - \def\si@num@exp{}% - \def\si@num@mant{}% - \def\si@num@expout{}% - \def\si@num@mantout{}% - \si@log@debug{Formatting number `\si@num@arg'}% - \si@switchfalse - \expandafter\si@num@mantexp\si@num@arg\@empty\@empty% - \si@num@sign{mant}% - \protected@edef\si@num@out{\si@num@mantout}% - \ifx\@empty\si@num@mant\@empty\else - \si@num@digits{mant}% - \protected@edef\si@num@out{\si@num@mantout}% - \fi - \si@num@sign{exp}% - \ifx\@empty\si@num@exp\@empty\else - \si@num@digits{exp}% - \ifx\@empty\si@num@mant\@empty\else - \protected@edef\si@num@out% - {\si@num@out\noexpand\ensuremath{{}\noexpand\si@expproduct{}}}% - \fi - \protected@edef\si@num@out% - {\si@num@out\si@exppower% - \noexpand\textsuperscript{\si@num@expout}}% - \fi - \ifx\@empty\si@num@mant\@empty - \ifx\@empty\si@num@exp\@empty - \si@log@err{Invalid number format `\si@num@arg'}% - {Something is wrong with the number format; does it - contain \MessageBreak any numbers (from the list % - `\si@numlist')?}% - \renewcommand*\si@num@out{}% - \fi - \fi% - \si@num@out} -\def\si@num@mantexp#1#2\@empty{% - \si@num@ifchr{#1}{\si@numgobble}{}{% - \si@num@ifchr{#1}{\si@numexp}% - {\ifsi@switch - \si@log@err{Duplicate exponent marker found}% - {Only a single exponent character (from the list - `\si@numexp')\MessageBreak may occur in a - numerical argument}% - \fi - \si@switchtrue - \si@log@debug{Exponent marker `#1' found in `\si@num@arg'}}% - {\ifsi@switch - \si@log@debug{Adding `#1' to exponent for `\si@num@arg'}% - \protected@edef\si@num@exp{\si@num@exp#1}% - \else - \si@log@debug{Adding `#1' to mantissa for `\si@num@arg'}% - \protected@edef\si@num@mant{\si@num@mant#1}% - \fi}}% - \ifx\@empty#2\@empty\else - \si@num@mantexp#2\@empty\@empty\@empty% - \fi} -\newcommand*{\si@num@sign}[1]{% - \expandafter\ifx\expandafter\@empty\csname si@num@#1\endcsname% - \@empty\else - \expandafter\expandafter\expandafter\si@num@gensign% - \csname si@num@#1\endcsname\@empty\@empty\@empty% - \edef\si@tempc{#1}% - \ifx\@empty\si@tempa\@empty - \def\si@tempa{mant}% - \ifx\si@tempa\si@tempc - \ifsi@num@signmant - \si@log@debug{Adding sign \si@sign\space to mantissa for - `\si@num@arg'}% - \protected@edef\si@tempa{\si@sign}% - \else - \def\si@tempa{}% - \fi - \else - \ifsi@num@signexp - \si@log@debug{Adding sign \si@sign\space to exponent for - `\si@num@arg'}% - \protected@edef\si@tempa{\si@sign}% - \else - \def\si@tempa{}% - \fi - \fi - \fi - \ifx\@empty\si@tempa\@empty - \def\si@tempa{mant}% - \ifx\si@tempa\si@tempc - \si@log@debug{Unsigned mantissa for `\si@num@arg'}% - \else - \si@log@debug{Unsigned exponent for `\si@num@arg'}% - \fi - \else - \expandafter\protected@edef\csname si@num@#1out\endcsname% - {\noexpand\ensuremath{\si@tempa}}% - \ifx\@empty\si@tempb\@empty - \expandafter\def\csname si@num@#1\endcsname{}% - \def\si@tempa{mant}% - \ifx\si@tempa\si@tempc - \ifx\@empty\si@num@exp\@empty - \si@log@warn{Sign but no number for `\si@num@arg'}% - \fi - \else - \si@log@warn{Sign but no number for `\si@num@arg'}% - \fi - \else - \expandafter\protected@edef\csname si@num@#1\endcsname% - {\si@tempb}% - \fi - \fi - \fi} -\def\si@num@gensign#1#2#3\@empty{% - \si@num@ifchr{#1}{\si@numsign}{% - \si@num@ifchr{#2}{\si@numsign}{% - \if +#1 - \if -#2 - \si@log@debug{Found sign combination +- for `\si@num@arg'}% - \def\si@tempa{\pm}% - \else - \si@log@warn{Unknown sign combination `#1#2'}% - \def\si@tempa{#1#2}% - \fi - \else - \if -#1 - \if +#2 - \si@log@debug{Found sign combination -+ for `\si@num@arg'}% - \def\si@tempa{\mp}% - \else - \si@log@warn{Unknown sign combination `#1#2'}% - \def\si@tempa{#1#2}% - \fi - \else - \si@log@warn{Unknown sign combination `#1#2'}% - \def\si@tempa{#1#2}% - \fi - \fi - \edef\si@tempb{#3}}% - {\si@log@debug{Found single sign character `#1' for - `\si@num@arg'}% - \def\si@tempa{#1}% - \edef\si@tempb{#2#3}}}% - {\si@log@debug{No sign found for `\si@num@arg'}% - \def\si@tempa{}% - \edef\si@tempb{#1#2#3}}}% -\newcommand*{\si@num@digits}[1]{% - \def\si@tempa{}% - \def\si@tempb{}% - \si@switchfalse - \expandafter\expandafter\expandafter\si@num@split% - \csname si@num@#1\endcsname\@empty\@empty% - \ifx\@empty\si@tempa\@empty - \ifsi@num@padlead - \si@log@debug{Adding leading zero for `\si@num@arg'}% - \def\si@tempa{0}% - \fi - \fi - \ifx\@empty\si@tempb\@empty - \ifsi@num@padtrail - \ifsi@switch - \si@log@debug{Adding trailing zero for `\si@num@arg'}% - \def\si@tempb{0}% - \fi - \fi - \fi - \ifx\@empty\si@tempa\@empty - \ifx\@empty\si@tempb\@empty\else - \si@num@sepdigits{#1}% - \fi - \else - \si@num@sepdigits{#1}% - \fi} -\def\si@num@split#1#2\@empty{% - \si@num@ifchr{#1}{\si@numdecimal}{% - \ifsi@switch - \si@log@err{Duplicate decimal marker in `\si@num@arg'} - {Only a single decimal marker (from the list - `\si@numdecimal')\MessageBreak may occur in a - numerical argument}% - \else - \si@log@debug{Found decimal marker `#1' in `\si@num@arg'}% - \si@switchtrue - \fi}{% - \si@num@ifchr{#1}{\si@numsign}{% - \si@log@err{Misplaced sign in `\si@num@arg'} - {Sign characters `\si@numsign' can only occur\MessageBreak - at the start of a number}}{% - \ifsi@switch - \si@log@debug{Adding `#1' to decimal part for `\si@num@arg'}% - \protected@edef\si@tempb{\si@tempb#1}% - \else - \si@log@debug{Adding `#1' to integer part for `\si@num@arg'}% - \protected@edef\si@tempa{\si@tempa#1}% - \fi}}% - \ifx\@empty#2\@empty\else - \si@num@split#2\@empty\@empty% - \fi} -\newcommand*{\si@num@decimalhook}{} -\newcommand*{\si@num@sepdigits}[1]{% - \si@num@ifextra{\si@tempa}{} - {\expandafter\si@num@int\expandafter{\si@tempa}}% - \def\si@tempc{}% - \ifx\@empty\si@tempb\@empty\else - \protected@edef\si@tempc{\noexpand\ensuremath{{\noexpand% - \si@decimalsign}}}% - \si@num@decimalhook% - \si@num@ifextra{\si@tempb}{}% - {\expandafter\si@num@dec\expandafter{\si@tempb}}% - \fi - \expandafter\protected@edef\csname si@num@#1out\endcsname% - {\csname si@num@#1out\endcsname\si@tempa\si@tempc\si@tempb}} -\newcommand*{\si@num@ifextra}[1]{% - \begingroup - \si@switchfalse - \expandafter\si@num@extra#1\@empty\@empty% - \ifsi@switch - \si@log@debug{Found `extra' characters in `#1'}% - \endgroup\expandafter\@firstoftwo% - \else - \endgroup\expandafter\@secondoftwo% - \fi} -\def\si@num@extra#1#2\@empty{% - \ifx\@empty#1\@empty\else - \si@num@ifchr{#1}{\si@numextra}{\si@switchtrue}{}% - \ifx\@empty#2\@empty\else - \si@num@extra#2\@empty\@empty% - \fi - \fi} -\newcommand*{\si@num@int}[1]{% - \def\si@tempa{}% - \ifsi@sepfour - \si@num@intfmt{}#1\@empty\@empty\@empty% - \else - \si@num@iffive{#1} - {\si@num@intfmt{}#1\@empty\@empty\@empty} - {\def\si@tempa{#1}}% - \fi} -\newcommand*{\si@num@iffive}[1]{% - \si@num@five#1\@empty\@empty\@empty\@empty\@empty\end} -\def\si@num@five#1#2#3#4#5\end{% - \ifx\@empty#5\@empty - \expandafter\@secondoftwo% - \else - \expandafter\@firstoftwo% - \fi} -\newcommand*{\si@num@intfmt}[4]{% - \ifx\@empty#2\@empty - \si@num@intsep#1\relax - \else - \ifx\@empty#3\@empty - \si@num@intsep\@empty\@empty#1#2\relax - \else - \ifx\@empty#4\@empty - \si@num@intsep\@empty#1#2#3\relax - \else - \si@num@fiint{#1#2#3#4}% - \fi - \fi - \fi} -\def\si@num@fiint#1\fi\fi\fi{\fi\fi\fi\si@num@intfmt{#1}} -\newcommand*{\si@num@intsep}[4]{% - \protected@edef\si@tempa{\si@tempa#1#2#3}% - \if\relax#4\relax - \else - \protected@edef\si@tempa{\si@tempa\noexpand\ensuremath{\noexpand% - \si@digitsep}}% - \expandafter\si@num@intsep\expandafter#4% - \fi} -\newcommand*{\si@num@dec}[1]{% - \def\si@tempb{}% - \ifsi@sepfour - \si@num@decfmt#1\@empty\@empty\@empty\@empty% - \else - \si@num@iffive{#1} - {\si@num@decfmt#1\@empty\@empty\@empty\@empty} - {\protected@edef\si@tempb{\si@tempb#1}}% - \fi -} -\newcommand*{\si@num@decfmt}[4]{% - \protected@edef\si@tempb{\si@tempb#1#2#3}% - \ifx\@empty#4\@empty% - \else - \protected@edef\si@tempb{\si@tempb\noexpand\ensuremath{\noexpand% - \si@digitsep}}% - \expandafter\si@num@decfmt\expandafter#4% - \fi} -\DeclareRobustCommand*{\ang}[2][]{% - \begingroup - \sisetup{#1}% - \si@fam@mode% - \si@log@debug{Processing \string\ang\space input `#2'}% - \@makeother{\;}% - \makeatletter% - \scantokens{\si@ang@parse#2;;;\@nil}} -\def\si@ang@parse#1;#2;#3;#4\@nil{\si@ang@set{#1}{#2}{#3}} -\newcommand*{\si@ang@killdegree}{\let\si@sym@degree\relax} -\newcommand*{\si@ang@killminute}{\let\si@sym@minute\relax} -\newcommand*{\si@ang@killsecond}{\let\si@sym@second\relax} -\newcommand*{\si@ang@astrosign}[1]{% - \renewcommand*{\si@decimalsign}{% - \rlap{\si@ang@decimalsign}% - \expandafter\csname si@sym@#1\endcsname}% - \def\si@num@decimalhook{\expandafter\aftergroup% - \csname si@ang@kill#1\endcsname}}% -\newcommand*{\si@ang@set}[3]{% - \ifsi@ang@padlarge - \newcommand*{\si@ang@degs}{0\si@sym@degree}% - \newcommand*{\si@ang@mins}{0\si@sym@minute}% - \newcommand*{\si@ang@secs}{0\si@sym@second}% - \else - \newcommand*{\si@ang@degs}{}% - \newcommand*{\si@ang@mins}{}% - \newcommand*{\si@ang@secs}{}% - \fi - \protected@edef\si@ang@decimalsign{\si@decimalsign}% - \ifsi@astroang - \let\si@ang@movesign\si@ang@astrosign - \else - \let\si@ang@movesign\@gobble - \fi - \newcommand*{\si@ang@secnum}{\si@ang@num{second}}% - \newcommand*{\si@ang@minnum}{\si@ang@num{minute}}% - \si@ifnotmtarg{#3} - {\si@log@debug{Found seconds `#3'}% - \renewcommand*{\si@ang@secs} - {\si@ang@secnum{#3}\si@sym@second}% - \renewcommand*{\si@ang@mins} - {\si@ang@pad{0\si@sym@minute}}% - \renewcommand*{\si@ang@degs} - {\si@ang@pad{0\si@sym@degree}}}% - \si@ifnotmtarg{#2} - {\si@log@debug{Found minutes `#2'}% - \renewcommand*{\si@ang@secnum}{\si@ang@signlessnum{second}}% - \renewcommand*{\si@ang@mins} - {\si@ang@minnum{#2}\si@sym@minute}% - \renewcommand*{\si@ang@degs} - {\si@ang@pad{0\si@sym@degree}}}% - \si@ifnotmtarg{#1} - {\si@log@debug{Found degrees `#1'}% - \renewcommand*{\si@ang@secnum}{\si@ang@signlessnum{second}}% - \renewcommand*{\si@ang@minnum}{\si@ang@signlessnum{minute}}% - \renewcommand*{\si@ang@degs} - {\si@ang@num{degree}{#1}% - \si@sym@degree}}% - \si@out@num% - {\si@ang@degs\si@anglesep\si@ang@mins\si@anglesep\si@ang@secs}% - \endgroup} -\newcommand*{\si@ang@pad}[1]{% - \ifsi@ang@padsmall - #1% - \else - \relax% - \fi} -\newcommand{\si@ang@num}[2]{% - \begingroup% - \si@ang@movesign{#1}% - \si@num{#2}% - \endgroup} -\newcommand{\si@ang@signlessnum}[2]{% - \begingroup% - \si@ang@movesign{#1}% - \sisetup{addsign=none}% - \si@num{#2}% - \endgroup} -\newcolumntype{s}{} -\renewcommand*{\NC@rewrite@s}{% - \@ifnextchar[%] - {\si@tab@rewrite} - {\si@tab@rewrite[]} -} -\def\si@tab@rewrite[#1]{% - \edef\si@tempa{\the\@temptokena - >{\noexpand\si@tab@begin[#1]\noexpand\ignorespaces}c% - <{\noexpand\si@tab@end}}% - \@temptokena\expandafter{\si@tempa}% - \NC@find} -\newtoks\si@tab@numtoks -\newtoks\si@tab@pretoks -\newtoks\si@tab@posttoks -\newcommand*{\si@tab@begin}[1][]{% - \begingroup - \sisetup{#1}% - \si@tab@numtoks{}% - \si@tab@pretoks{}% - \si@tab@posttoks{}% - \si@switchfalse - \si@log@debug{Processing s column cell contents}% - \si@tab@gettok} -\newcommand*{\si@tab@gettok}[1]{% - \ifx\tabularnewline#1 - \let\si@tab@next\tabularnewline - \else - \ifx\end#1 - \let\si@tab@next\end - \else - \ifx\si@tab@end#1 - \let\si@tab@next\si@tab@end - \else - \ifx\endtabular#1 - \let\si@tab@next\endtabular - \else - \ifx\csname#1 - \let\si@tab@next\csname - \else - \ifx\relax#1\relax - \let\si@tab@next\relax - \else - \let\si@tab@next\si@tab@gettok - \si@num@ifchr{#1}{\si@numvalid} - {\si@switchtrue - \si@log@debug{Found valid cell contents `#1'}% - \si@tab@numtoks=\expandafter{\the\si@tab@numtoks#1}} - {\si@log@debug{Found other cell contents \string#1}% - \si@tab@othertok{#1}}% - \fi - \fi - \fi - \fi - \fi - \fi - \si@tab@next} -\newcommand*{\si@tab@othertok}[1]{% - \ifsi@switch - \si@tab@posttoks=\expandafter{\the\si@tab@posttoks#1}% - \else - \si@tab@pretoks=\expandafter{\the\si@tab@pretoks#1}% - \fi} -\newcommand{\si@tab@end}{% - \hfil% - \the\si@tab@pretoks% - \ifsi@switch - \expandafter\si@tab@numout% - \fi - \the\si@tab@posttoks% - \hfil% - \endgroup} -\newcount\si@tempcnta -\newcount\si@tempcntb -\newcommand*{\si@tab@numout}{% - \let\si@num@format\si@tab@num@format - \expandafter\si@num\expandafter{\the\si@tab@numtoks}% - \afterassignment\si@tab@format\expandafter\si@tempcnta% - \si@tabformat\relax} -\newcommand*{\si@tab@mantout}{} -\newcommand*{\si@tab@num@format}[1]{% - \let\si@tab@org@sepdigits\si@num@sepdigits - \let\si@num@sepdigits\si@tab@num@sepdigits - \edef\si@num@arg{#1}% - \si@switchfalse - \expandafter\si@num@mantexp\si@num@arg\@empty\@empty% - \si@num@sign{mant}% - \ifx\@empty\si@num@mant\@empty\else - \si@num@digits{mant}% - \protected@edef\si@num@out{\si@tab@mantout}% - \fi - \let\si@num@sepdigits\si@tab@org@sepdigits - \si@num@sign{exp}% - \ifx\@empty\si@num@exp\@empty\else - \si@num@digits{exp}% - \ifx\@empty\si@num@mant\@empty\else - \protected@edef\si@num@out% - {\si@num@out\noexpand\ensuremath{\noexpand\si@expproduct}}% - \fi - \protected@edef\si@num@out% - {\si@num@out\si@exppower% - \noexpand\textsuperscript{\si@num@expout}}% - \fi - \ifx\@empty\si@num@mant\@empty - \ifx\@empty\si@num@exp\@empty - \si@log@err{Invalid number format `\si@num@arg'}% - {Something is wrong with the number format; does it - contain \MessageBreak any numbers (from the list % - `\si@numlist')?}% - \renewcommand*\si@num@out{}% - \renewcommand*\si@tab@mantout{}% - \fi - \fi} -\newcommand*{\si@tab@num@sepdigits}[1]{% - \si@num@ifextra{\si@tempa}{} - {\expandafter\si@num@int\expandafter{\si@tempa}}% - \def\si@tempc{}% - \ifx\@empty\si@tempb\@empty\else - \si@num@ifextra{\si@tempb}{}% - {\expandafter\si@num@dec\expandafter{\si@tempb}}% - \fi - \expandafter\protected@edef\csname si@num@#1out\endcsname% - {\csname si@num@#1out\endcsname\si@tempa}% - \expandafter\protected@edef\csname si@tab@#1out\endcsname% - {\si@tempb}}% -\newbox\si@tab@prebox -\newbox\si@tab@postbox -\newbox\si@tempbox -\def\si@tab@format#1\relax{% - \ifnum\z@<\si@tempcnta - \expandafter\si@tab@right% - \else - \expandafter\si@tab@centre% - \fi - {#1}% - \box\si@tab@prebox\box\si@tab@postbox} -\newcommand*\si@tab@centre[1]{% - \setbox\si@tab@prebox=\hbox% - {\expandafter\si@out@num\expandafter{\si@num@mantout}}% - \ifx\@empty\si@tab@mantout\@empty - \ifx\@empty\si@num@out\@empty - \setbox\si@tab@postbox=\hbox% - {\phantom{\ensuremath{{\si@decimalsign}}}}% - \else - \setbox\si@tab@postbox=\hbox% - {\expandafter\si@out@num\expandafter{\si@num@out}}% - \fi - \else - \setbox\si@tab@postbox=\hbox% - {\ensuremath{{\si@decimalsign}}% - \expandafter\si@out@num\expandafter{\si@num@out}}% - \fi - \ifdim \wd\si@tab@prebox>\wd\si@tab@postbox - \setbox\si@tab@postbox=\hbox to\wd\si@tab@prebox% - {\unhbox\si@tab@postbox\hfill}% - \else - \setbox\si@tab@prebox=\hbox to\wd\si@tab@postbox% - {\hfill\unhbox\si@tab@prebox}% - \fi} -\newdimen\si@tab@predim -\newdimen\si@tab@postdim -\newdimen\si@tempdima -\newdimen\si@tempdimb -\newcommand*\si@tab@right[1]{% - \setbox\si@tempbox=\hbox{\si@out@num{1}} - \si@tempdima\wd\si@tempbox - \ifx\relax#1\relax - \hfill - \let\si@tab@prea\relax - \let\si@tab@preb\relax - \else - \si@tab@predim\the\si@tempcnta\si@tempdima - \si@tab@sepcorr{pre}% - \edef\si@tab@prea{to\si@tab@predim}% - \edef\si@tab@preb{\hss\hfill}% - \si@tempcnta\@gobble#1\relax - \fi - \si@tab@postdim\si@tempcnta\si@tempdima - \setbox\si@tempbox=\hbox{\ensuremath{{\si@decimalsign}}}% - \advance\si@tab@postdim\wd\si@tempbox - \si@tab@sepcorr{post}% - \setbox\si@tab@prebox=\hbox\si@tab@prea{\si@tab@preb% - \expandafter\si@out@num\expandafter{\si@num@mantout}}% - \ifx\@empty\si@tab@mantout\@empty - \setbox\si@tab@postbox=\hbox to\si@tab@postdim% - {\expandafter\si@out@num\expandafter{\si@num@out}\hfil}% - \else - \setbox\si@tab@postbox=\hbox to\si@tab@postdim% - {\ensuremath{{\si@decimalsign}}\expandafter\si@out@num% - \expandafter{\si@num@out}\hfil}% - \fi} -\newcommand*{\si@tab@sepcorr}[1]{% - \si@tempcntb\the\si@tempcnta\relax - \divide\si@tempcntb\thr@@ - \ifsi@sepfour\else - \ifnum\the\si@tempcnta=4 - \si@tempcntb\z@ - \fi - \fi - \setbox\si@tempbox=\hbox{\ensuremath{\si@digitsep}}% - \expandafter\advance\csname si@tab@#1dim\endcsname% - \si@tempcntb\wd\si@tempbox}% -\DeclareRobustCommand*{\SI}[2][]{% - \@ifnextchar[%] - {\si@SI[#1]{#2}} - {\si@SI[#1]{#2}[]}} -\DeclareRobustCommand*{\unitsym}[2][]{\si@SI[#1]{}[]{#2}} -\newcommand*{\newunit}[3][]{% - \si@ifdefinable{#2} - {\si@unt@defunit[#1]{#2}{#3}} - {\si@log@err{Unit \string#2 already defined!}\@eha}} -\newcommand*{\renewunit}[3][]{% - \si@ifdefinable{#2} - {\si@log@err{Unit \string#2 undefined}\@ehc - \si@unt@defunit[#1]{#2}{#3}} - {\si@unt@defunit[#1]{#2}{#3}}} -\newcommand*{\provideunit}[3][]{% - \si@ifdefinable{#2} - {\si@unt@defunit[#1]{#2}{#3}} - {}} -\newcommand*{\newprefix}[3]{% - \si@ifdefinable{#1} - {\si@unt@defprefix{#1}{#2}{#3}} - {\si@log@err{Prefix \string#1 already defined!}\@eha}} -\newcommand*{\renewprefix}[3]{% - \si@ifdefinable{#1} - {\si@log@err{Prefix \string#1 undefined}\@ehc - \si@unt@defprefix{#1}{#2}{#3}} - {\si@unt@defprefix{#1}{#2}{#3}}} -\newcommand*{\provideprefix}[3]{% - \si@ifdefinable{#1} - {\si@unt@defprefix{#1}{#2}{#3}} - {}} -\newcommand*{\newpower}[3][]{% - \si@ifdefinable{#2} - {\si@unt@defpower[#1]{#2}{#3}} - {\si@log@err{Power \string#2 already defined!}\@eha}} -\newcommand*{\renewpower}[3][]{% - \si@ifdefinable{#2} - {\si@log@err{Power \string#2 undefined}\@ehc - \si@unt@defpower[#1]{#2}{#3}} - {\si@unt@defpower[#1]{#2}{#3}}} -\newcommand*{\providepower}[3][]{% - \si@ifdefinable{#2} - {\si@unt@defpower[#1]{#2}{#3}} - {}} -\newif\ifsi@unt@num\si@unt@numtrue -\def\si@SI[#1]#2[#3]#4{% - \begingroup - \si@ifnotmtarg{#1} - {\sisetup{#1}% - \edef\si@unt@SIopts{#1}}% - \si@unt@numfalse - \si@xspacefalse - \si@ifnotmtarg{#3} - {\si@log@debug{Prefix unit found}% - \si@unt@printunit{#3}}% - \si@ifnotmtarg{#2} - {\si@log@debug{Number found in \string\SI\space argument}% - \num{#2}% - \si@unt@numtrue}% - \si@ifnotmtarg{#4} - {\si@unt@printunit{#4}}% - \endgroup} -\newif\ifsi@unt@littest -\newcommand*{\si@unt@ifliteral}[1]{% - \begingroup - \si@unt@littesttrue - \setbox\si@tempbox=\hbox{\si@unt@out{#1}}% - \ifdim\wd\si@tempbox>\z@\relax - \endgroup\expandafter\@firstoftwo% - \else - \endgroup\expandafter\@secondoftwo% - \fi} -\newif\ifsi@unt@litout -\newcommand{\si@unt@printunit}[1]{% - \si@unt@ifliteral{#1} - {\si@log@debug{Literal items found in unit argument:\MessageBreak - outputting without further processing}% - \si@unt@litouttrue - \si@unt@addvaluesep% - \si@unt@out{#1}} - {\si@log@debug{Macro unit found:\MessageBreak - processing to format output}% - \si@unt@init% - \advance\si@unt@depthcnt\@ne\relax - #1% - \si@unt@final}} -\newcommand*{\si@unt@addvaluesep}{% - \ifsi@unt@num - \expandafter\si@unt@addvalsep% - \fi} -\newcommand*{\si@unt@addvalsep}{% - \ifsi@unt@litout - \expandafter\si@unt@litvalsep% - \else - \expandafter\si@unt@stackvalsep% - \fi} -\newcommand*{\si@unt@stackvalsep}{% - \protected@edef\si@unt@spstack{\si@valuesep}} -\newcommand*{\si@unt@litvalsep}{% - \nobreak\ensuremath{\si@valuesep}\nobreak} -\newcommand*{\si@unt@spstack}{} -\newcommand*{\si@unt@stacka}{} -\newcommand*{\si@unt@stackb}{} -\newcount\si@unt@unitcnta -\newcount\si@unt@unitcntb -\newcount\si@unt@depthcnt -\newif\ifsi@unt@first -\si@unt@depthcnt\m@ne\relax -\newcommand*{\si@unt@init}{% - \begingroup - \si@unt@litoutfalse - \si@unt@firsttrue - \si@unt@perfalse - \si@unt@perseenfalse - \si@unt@prepowerfalse - \si@unt@depthcnt\z@\relax - \si@unt@powerdim\z@\relax - \si@unt@unitcnta\z@\relax - \si@unt@unitcntb\z@\relax - \si@unt@prefixcnt\z@\relax - \renewcommand*{\si@unt@spstack}{}% - \renewcommand*{\si@unt@stacka}{}% - \renewcommand*{\si@unt@stackb}{}% - \renewcommand*{\si@unt@holdstacka}{}% - \renewcommand*{\si@unt@holdstackb}{}% - \renewcommand*{\si@unt@lastadda}{space}% - \renewcommand*{\si@unt@lastaddb}{space}} -\newcommand*{\si@unt@final}{% - \si@unt@third% - \si@unt@stackout% - \endgroup - \ifsi@xspace - \expandafter\expandafter\expandafter\xspace% - \fi} -\newcommand*{\si@unt@defunit}[3][]{% - \si@log@debug{Declaring unit \string#2 with \MessageBreak - meaning \string#3}% - \si@ifnotmtarg{#1} - {\expandafter\expandafter\expandafter\def\expandafter% - \csname\expandafter\@gobble\string#2@opt@unt@si\endcsname{#1}}% - \DeclareRobustCommand*{#2}[1][]{% - \ifsi@unt@littest - \expandafter\si@gobblethree - \else - \ifsi@unt@litout - \expandafter\expandafter\expandafter\@gobbletwo - \else - \expandafter\expandafter\expandafter\si@unt@unit% - \fi - \fi - {##1}{#2}{#3}}} -\long\def \si@gobblethree #1#2#3{} -\newcommand*{\si@unt@defprefix}[3]{% - \si@log@debug{Declaring multiple \string#1 with \MessageBreak - meaning \string#3}% - \DeclareRobustCommand{#1}{% - \ifsi@unt@littest - \expandafter\si@gobblethree - \else - \ifsi@unt@litout - \expandafter\expandafter\expandafter\@gobbletwo - \else - \expandafter\expandafter\expandafter\si@unt@prefix% - \fi - \fi - {#1}{#2}{#3}}} -\newcommand*{\si@unt@defpower}[3][]{% - \si@log@debug{Declaring power \string#2 with \MessageBreak - meaning \string#3}% - \expandafter\expandafter\expandafter\edef\expandafter% - \csname\expandafter\@gobble\string#2@opt@si\endcsname{#1}% - \DeclareRobustCommand{#2}{% - \ifsi@unt@littest - \expandafter\@gobbletwo - \else - \ifsi@unt@litout - \expandafter\expandafter\expandafter\si@unt@litpower% - \else - \expandafter\expandafter\expandafter\si@unt@power% - \fi - \fi - {#2}{#3}}} -\newcommand*{\si@unt@unithook}{} -\newcommand*{\si@unt@unit}[3]{% - \ifnum\si@unt@depthcnt=\m@ne\relax - \expandafter\si@unt@init% - \fi - \advance\si@unt@depthcnt\@ne\relax - \si@log@debug{Unit processing: level \the\si@unt@depthcnt, - \MessageBreak unit \string#2}% - \si@unt@firstorsecond{#1}{#2}% - \si@unt@ifliteral{#3} - {\si@unt@addtostack{unit}{#3}% - \ifsi@unt@prepower - \expandafter\si@unt@stkpower% - \fi} - {#3}% - \advance\si@unt@depthcnt\m@ne\relax - \ifnum\si@unt@depthcnt=\z@\relax - \expandafter\si@unt@final% - \fi} -\newcommand{\si@unt@firstorsecond}[2]{% - \ifsi@unt@first - \expandafter\si@unt@first% - \else - \expandafter\si@unt@second% - \fi - {#1}{#2}}% -\newcommand*{\si@unt@first}[2]{% - \si@ifnotmtarg{#1} - {\num{#1}}% - \si@unt@unithook% - \ifcsname\expandafter\@gobble\string#2@opt@unt@si\endcsname - \expandafter\si@unt@setopts% - \else - \expandafter\@gobble - \fi - {#2}% - \si@unt@addvaluesep% - \si@unt@firstfalse} -\newcommand*{\si@unt@setopts}[1]{% - \expandafter\expandafter\expandafter\expandafter\expandafter% - \expandafter\expandafter\si@temptoks\expandafter\expandafter% - \expandafter\expandafter\expandafter\expandafter\expandafter{% - \expandafter\csname\expandafter\@gobble\string#1@opt@unt@si% - \endcsname}% - \expandafter\sisetup\expandafter{\the\si@temptoks}% - \si@log@debug{Applying options ``\the\si@temptoks'' - for\MessageBreak unit \string#1}% - \@ifundefined{si@unt@SIopts}{} - {\ifx\@empty\si@unt@SIopts\@empty\else - \expandafter\expandafter\si@unt@setSIopts% - \fi}} -\newcommand*{\si@unt@setSIopts}{% - \expandafter\si@temptoks\expandafter{\si@unt@SIopts}% - \expandafter\sisetup\expandafter{\the\si@temptoks}} -\newcommand{\si@unt@second}[2]{% - \si@ifnotmtarg{#1} - {\si@log@warn{Optional argument to unit macro\MessageBreak - allowed only for outer unit}}% - \si@unt@third% - \si@unt@addtostack{space}{\ensuremath{\si@unitsep}}} -\newcommand*{\si@unt@third}{% - \ifsi@unt@prepower\else - \expandafter\si@unt@stkpower% - \fi - \def\si@tempa{prefix}% - \expandafter\ifx\csname si@unt@lastadd\si@unt@checkstack% - \endcsname\si@tempa\else - \expandafter\si@unt@spacecheck% - \fi - \ifsi@unt@per - \expandafter\si@unt@perseentrue - \fi} -\newcommand*{\si@unt@spacecheck}{% - \def\si@tempa{space}% - \expandafter\ifx\csname si@unt@lastadd\si@unt@checkstack% - \endcsname\si@tempa\else - \expandafter\si@unt@reciptest% - \fi} -\newcommand*{\si@unt@prefix}[3]{% - \si@unt@firstorsecond{}{#1}% - \ifsi@prefixnum - \expandafter\si@unt@countprefix% - \else - \expandafter\si@unt@addprefix% - \fi - {#2}{#3}} -\newcommand*{\si@unt@addprefix}[2]{\si@unt@addtostack{prefix}{#2}} -\newcount\si@unt@prefixcnt -\newcommand*{\si@unt@countprefix}[2]{% - \si@tempcnta#1\relax - \ifsi@unt@per - \si@unt@invprefix% - \fi - \advance\si@unt@prefixcnt\si@tempcnta\relax} -\newcommand*{\si@unt@invprefix}{% - \si@tempcntb\si@tempcnta\relax - \si@tempcnta -\si@tempcntb\relax} -\newcommand*{\si@unt@litpower}[2]{\textsuperscript{#2}} -\newif\ifsi@unt@prepower -\newcommand*{\si@unt@power}[2]{% - \si@unt@powerdim #2 pt\relax - \ifsi@frac\else - \ifsi@unt@per - \expandafter\expandafter\expandafter\si@unt@invpower% - \fi - \fi - \def\si@tempa{post}% - \si@unt@prepowertrue - \expandafter\expandafter\expandafter\ifx\expandafter% - \csname\expandafter\@gobble\string#1@opt@si\endcsname\si@tempa - \expandafter\si@unt@stackpower% - \fi} -\newdimen\si@unt@powerdim -\newcommand*{\si@unt@stackpower}{% - \si@unt@prepowerfalse - \si@unt@stkpower% - \si@unt@perfalse - \si@unt@perseenfalse} -\newcommand*{\si@unt@stkpower}{% - \ifdim\si@unt@powerdim=\m@ne pt\relax - \ifsi@frac\else - \expandafter\expandafter\expandafter\si@unt@stkpwr% - \fi - \else - \expandafter\si@unt@stkpwr% - \fi} -\newcommand*{\si@unt@stkpwr}{% - \ifdim\si@unt@powerdim=\z@\relax\else - \edef\si@tempa{unit}% - \expandafter\ifx\csname si@unt@lastadd\si@unt@checkstack% - \endcsname\si@tempa - \si@unt@addtostack{power}{^{\num{\strip@pt\si@unt@powerdim}}}% - \fi - \fi - \si@unt@powerdim\z@\relax} -\newcommand*{\si@unt@invpower}{% - \si@tempdima\si@unt@powerdim\relax - \si@unt@powerdim -\si@tempdima\relax - \ifdim\si@unt@powerdim=\p@\relax - \si@unt@powerdim\z@\relax - \fi} -\newif\ifsi@unt@per -\newif\ifsi@unt@perseen -\DeclareRobustCommand*{\per}{\si@per} -\newcommand*{\si@per}{% - \si@unt@firstorsecond{}{\per}% - \ifsi@unt@per - \expandafter\si@unt@perfalse - \else - \expandafter\si@unt@pertrue - \fi} -\newcommand*{\si@unt@reciptest}{% - \ifsi@unt@per - \ifsi@unt@perseen - \expandafter\expandafter\expandafter\si@unt@recip% - \fi - \fi} -\newcommand*{\si@unt@recip}{% - \si@unt@powerdim\m@ne pt\relax - \si@unt@stackpower} -\newcommand*{\si@unt@lastadda}{} -\newcommand*{\si@unt@lastaddb}{} -\newcommand*{\si@unt@addtostack}[2]{% - \edef\si@tempa{#1}% - \expandafter\ifx\csname si@unt@lastadd\si@unt@checkstack\endcsname% - \si@tempa - \expandafter\@gobbletwo - \else - \expandafter\si@unt@preplussp% - \fi - {#1}{#2}} -\newcommand*{\si@unt@preplussp}[2]{% - \def\si@tempa{prefix+space}% - \edef\si@tempb{\csname si@unt@lastadd\si@unt@checkstack% - \endcsname+#1}% - \ifx\si@tempa\si@tempb - \expandafter\@gobbletwo - \else - \expandafter\si@unt@stack% - \fi - {#1}{#2}} -\newcommand*{\si@unt@stack}[2]{% - \expandafter\edef\csname si@unt@lastadd\si@unt@checkstack% - \endcsname{#1}% - \edef\si@tempa{#1}% - \def\si@tempb{unit}% - \ifx\si@tempa\si@tempb - \expandafter\si@unt@inccnt% - \fi - \def\si@tempb{space}% - \ifx\si@tempa\si@tempb - \expandafter\si@unt@holdspace% - \else - \expandafter\si@unt@addstack% - \fi - {#2}} -\newcommand*{\si@unt@inccnt}{% - \expandafter\advance\csname si@unt@unitcnt\si@unt@checkstack% - \endcsname\@ne\relax} -\newcommand*{\si@unt@holdstacka}{} -\newcommand*{\si@unt@holdstackb}{} -\newcommand*{\si@unt@holdspace}[1]{% - \expandafter\protected@edef\csname si@unt@holdstack% - \si@unt@checkstack\endcsname{#1}} -\newcommand*{\si@unt@addstack}[1]{% - \expandafter\protected@edef\csname si@unt@stack% - \si@unt@checkstack\endcsname% - {\csname si@unt@stack\si@unt@checkstack\endcsname% - \csname si@unt@holdstack\si@unt@checkstack\endcsname#1}% - \expandafter\renewcommand\expandafter*\expandafter{% - \csname si@unt@holdstack\si@unt@checkstack\endcsname}{}} -\newcommand*{\si@unt@stackout}{% - \ifsi@frac - \expandafter\si@unt@fracout% - \else - \expandafter\si@unt@normout% - \fi} -\newcommand*{\si@unt@checkstack}{% - \ifsi@frac - \ifsi@unt@per - \expandafter\expandafter\expandafter b% - \else - \expandafter\expandafter\expandafter a% - \fi - \else - \expandafter a% - \fi} -\newcommand*{\si@unt@spaceout}{% - \ensuremath{\si@unt@spstack}} -\newcommand*{\si@unt@prefixout}{% - \ifnum\si@unt@prefixcnt=\z@\relax\else - \ifsi@unt@num - \si@out@text{\ensuremath{{}\si@prefixproduct{}}}% - \fi - \let\si@exppower\si@prefixpower - \num{e\the\si@unt@prefixcnt}% - \fi} -\newcommand*{\si@unt@normout}{% - \si@unt@prefixout% - \si@unt@spaceout% - \expandafter\si@unt@out\expandafter{\si@unt@stacka}} -\newcommand*{\si@unt@fracout}{% - \si@unt@notambig% - \ifx\@empty\si@unt@stacka\@empty - \ifx\@empty\si@unt@stackb\@empty - \ifsi@unt@litout\else - \si@log@err{Empty fractional unit}{The unit - argument\MessageBreak given does not contain any - symbols}% - \fi - \else - \ifsi@slash - \si@unt@prefixout% - \si@frac{}{\si@unt@stackb}% - \else - \si@unt@prefixout% - \si@unt@spaceout% - \si@frac{1}{\si@unt@stackb}% - \fi - \fi - \else - \ifx\@empty\si@unt@stackb\@empty - \si@unt@normout% - \else - \si@unt@prefixout% - \si@unt@spaceout% - \si@frac{\si@unt@stacka}{\si@unt@stackb}% - \fi - \fi} -\newcommand*{\si@unt@notambig}{% - \ifnum\si@unt@unitcntb>\@ne\relax - \ifsi@slash - \expandafter\expandafter\expandafter\si@unt@notabg% - \fi - \fi} -\newcommand*{\si@unt@notabg}{% - \protected@edef\si@unt@stackb{\si@denlbrac\si@unt@stackb% - \si@denrbrac}} -\begingroup - \catcode`\~=\active - \catcode`\.=\active - \gdef\si@unt@out#1{% - \begingroup - \si@unt@nonlatin% - \makeatletter% - \catcode`\~=\active - \catcode`\.=\active - \def~{\ensuremath{\si@unitspace}}% - \def.{\ensuremath{\si@unitsep}}% - \scantokens{\si@out@text{#1}\@empty}% - \endgroup} -\endgroup -\newcommand*{\si@unt@nonlatin}{\relax} -\AtBeginDocument{% - \@ifpackageloaded{inputenc} - {\def\si@tempa{latin1}% - \ifx\inputencodingname\si@tempa - \si@unt@sym{176}{\si@sym@degree}% - \si@unt@sym{181}{\si@sym@mu}% - \si@unt@sym{229}{\si@sym@ringA}% - \fi} - {}} -\newcommand*{\si@unt@sym}[1]{% - \bgroup - \uccode`\~#1% - \uppercase{% - \egroup - \def~}} -\newunit{\kilogram}{kg} -\newunit{\metre}{m} -\newunit{\mole}{mol} -\newunit{\second}{s} -\newunit{\ampere}{A} -\newunit{\kelvin}{K} -\newunit{\candela}{cd} -\newpower{\Square}{2} -\newpower[post]{\squared}{2} -\newpower{\cubic}{3} -\newpower[post]{\cubed}{3} -\newcommand*{\tothe}[1]{% - \ifsi@unt@littest - \expandafter\@gobbletwo - \else - \ifsi@unt@litout - \expandafter\expandafter\expandafter\si@unt@litpower% - \else - \expandafter\expandafter\expandafter\si@unt@power% - \fi - \fi - {\tothe}{#1}} -\newcommand*{\tothe@opt@si}{post} -\newcommand*{\si@loc@load}[1]{% - \let\si@loc@sisetup\sisetup - \renewcommand*{\sisetup}[1]{% - \expandafter\def\csname si@loc@#1\endcsname{##1}} - \si@loadfile{#1}% - \let\sisetup\si@loc@sisetup} -\newcommand*{\si@loc@set}[1]{% - \ifcsname si@loc@#1\endcsname - \si@log@inf{Setting locale to `#1'}% - \expandafter\expandafter\expandafter\expandafter\expandafter% - \expandafter\expandafter\si@temptoks\expandafter\expandafter% - \expandafter\expandafter\expandafter\expandafter\expandafter{% - \expandafter\csname si@loc@#1\endcsname}% - \expandafter\sisetup\expandafter{\the\si@temptoks}% - \ifcsname si@loc@#1@extra\endcsname - \csname si@loc@#1@extra\endcsname% - \fi - \else - \ifcsname si@loc@#1@extra\endcsname - \si@log@inf{Setting locale to `#1'}% - 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{} - {\si@log@err{Failed to load file - \si@fileprefix#1.\si@extension} - {The configuration file requested could not be found}}}} -\newcommand*{\si@requirecfgs}[1]{% - \@for\si@tempb:=#1\do{\si@loadfile{\si@tempb}}} -\newcommand*{\si@loademfile}[1]{% - \@ifpackageloaded{#1} - {\si@log@err{Emulation clash for package `#1'} - {You have asked for emulation of package `#1'\MessageBreak - (perhaps by giving si a back-compatibility - option)\MessageBreak but the package is already loaded!}} - {\si@loadfile{#1}}} -\newcommand*{\si@emclash}[2]{% - \si@log@err{Emulation clash: `#1' and `#2'} - {You have asked for emulation of package `#1'\MessageBreak - but have already loaded emulation of `#2'}} -\ifx\@empty\si@emulate\@empty\else - \@for\si@tempa:=\si@emulate\do{% - \si@loademfile{\si@tempa}} -\fi -\newcommand*{\si@expanddefault}[2]{% -\expandafter\ifx\expandafter\@empty\csname si@#1\endcsname\@empty -\else - \def\si@tempb{default} - \def\si@tempc{} - \expandafter\@for\expandafter\si@tempa\expandafter:\expandafter - =\csname si@#1\endcsname\do{% - \ifx\si@tempa\si@tempb - \si@addtolist{\si@tempc}{#2} - \else - \si@addtolist{\si@tempc}{\si@tempa} - \fi} - \expandafter\edef\csname si@#1\endcsname{\si@tempc} - \expandafter\si@addtolist\expandafter{\csname si@no#1\endcsname} - {default} - \def\si@tempc{} - \expandafter\@for\expandafter\si@tempa\expandafter:\expandafter - =\csname si@#1\endcsname\do{% - \si@switchfalse - \expandafter\@for\expandafter\si@tempb\expandafter:\expandafter - =\csname si@no#1\endcsname\do{% - \ifx\si@tempa\si@tempb - \si@switchtrue - \fi - \ifsi@switch\else - \si@addtolist{\si@tempc}{\si@tempa} - \fi}} - \@for\si@tempa:=\si@tempc\do{% - \si@loadfile{\si@tempa}} -\fi} -\si@expanddefault{load}{prefix,named,addn,prefixed,accepted,% - physical,abbr} -\ifx\@empty\si@loadlocales\@empty\else - \@for\si@tempa:=\si@loadlocales\do{% - \si@loc@load{\si@tempa}} -\fi -\ifx\@empty\si@loctolang\@empty\else - \def\si@tempa#1:#2\@nil{\si@loc@load{#1}} - \@for\si@tempb:=\si@loctolang\do{% - \expandafter\si@tempa\si@tempb:\@nil} - \AtBeginDocument{% - \@ifpackageloaded{babel} - {\def\si@tempa#1:#2:#3\@nil{% - \expandafter\addto\expandafter{\csname extras#2\endcsname}% - {\si@loc@set{#1}}}% - \@for\si@tempb:=\si@loctolang\do{% - \expandafter\si@tempa\si@tempb::\@nil}} - {\si@log@warn{babel not loaded - option\MessageBreak - loctolang ignored}}} -\fi -\IfFileExists{si.cfg} - {\si@log@inf{Local configuration file found}% - \InputIfFileExists{si.cfg}{}{}} - {} -\endinput -%% -%% End of file `si.sty'. diff --git a/Master/tlpkg/tlpsrc/collection-latexextra.tlpsrc b/Master/tlpkg/tlpsrc/collection-latexextra.tlpsrc index 6a542cd82b6..dd9d94dbce8 100644 --- a/Master/tlpkg/tlpsrc/collection-latexextra.tlpsrc +++ b/Master/tlpkg/tlpsrc/collection-latexextra.tlpsrc @@ -448,7 +448,6 @@ depend show2e depend showdim depend showexpl depend showlabels -depend si depend sidecap depend simplecv depend simplewick diff --git a/Master/tlpkg/tlpsrc/si.tlpsrc b/Master/tlpkg/tlpsrc/si.tlpsrc deleted file mode 100644 index c7183301528..00000000000 --- a/Master/tlpkg/tlpsrc/si.tlpsrc +++ /dev/null @@ -1,2 +0,0 @@ -name si -category Package |